The phosphor-fan-presence repository provides a set of thermal related applications that control and monitor the cooling of a system using fans. Each application independently controls or monitors an area related to the thermal status of a system that uses fans as its primary cooling mechanism. Since each application independent in its functionality, they can individually be included in a BMC image at configure time to provide only the functionality needed by a user's machine.
By default, build time YAML configuration file(s) are used for each application. The use of YAML configuration file(s) has been deprecated in favor of using runtime JSON configuration file(s). Support for the use of YAML based configuration files will be removed once all applications completely support getting their configuration from JSON file(s) at runtime.
The following applications are built by default:
- Fan Control
- To disable from building, provide the
--disable-controlflag at configure time:
./configure ${CONFIGURE_FLAGS} --disable-control - To disable from building, provide the
- Fan Presence Detection
- To disable from building, provide the
--disable-presenceflag at configure time:
./configure ${CONFIGURE_FLAGS} --disable-presence - To disable from building, provide the
- Fan Monitoring
- To disable from building, provide the
--disable-monitorflag at configure time:
./configure ${CONFIGURE_FLAGS} --disable-monitor - To disable from building, provide the
- Cooling Type
- To disable from building, provide the
--disable-cooling-typeflag at configure time:
./configure ${CONFIGURE_FLAGS} --disable-cooling-type - To disable from building, provide the
The following applications must be enabled at configure time to be built:
- Sensor Monitoring
- To enable building this, provide the
--enable-sensor-monitorflag at configure time:
./configure ${CONFIGURE_FLAGS} --enable-sensor-monitor - To enable building this, provide the
To clean the repository run ./bootstrap.sh clean.
The location of the YAML configuration file(s) are provided at configure time to each application thru environment variables. The default YAML configuration file(s) used are the examples found within each application's example directory. See each application below (Contents) for more information on how to set their specific configure time options, including the location of the YAML configuration file(s).
To simply build this package to use YAML, without changing the configurations of each application for a specific system, do the following steps:
1. ./bootstrap.sh
2. ./configure ${CONFIGURE_FLAGS}
3. make
See each application below (Contents) for more information on how to set their specific configure time options and details on how to configure each using JSON.
To build this package to use JSON based runtime configuration for all
applications, follow these steps and provide the --enable-json flag at
configure time:
1. ./bootstrap.sh
2. ./configure ${CONFIGURE_FLAGS} --enable-json
3. make
Note: Features/Restrictions of applications in this package that are only supported using the JSON based configuration are listed below:
- Fan Presence Detection
- Error logging for missing fans
- Fan Monitoring
- Error logging for nonfunctional fans
- System power off due to missing or nonfunctional fans
- Sensor Monitoring - Only supports JSON
- Fan Control
- Currently only supports setting fans to the configured
full_speed. If you require more than just setting fans to the configuredfull_speed, it is recommended to continue using YAML based configurations by providing the--disable-json-controlflag at configure time.
- Currently only supports setting fans to the configured
Controls the fans based on a set of events that are configured using a group of D-Bus objects and one-or-more triggers that run a configured set of actions. These events are meant to be configured to handle all aspects of controlling the fans within a system. Fans are added to zones that then have events configured against the zone to control the fans based on the state of any sized group of D-Bus objects.
- Configure time environment variables:
CONTROL_BUSNAME- Application's D-Bus busname to own- Default = 'xyz.openbmc_project.Control.Thermal'
CONTROL_OBJPATH- Application's root D-Bus object path- Default = '/xyz/openbmc_project/control/thermal'
CONTROL_PERSIST_ROOT_PATH- Base location to persist zone property states on the BMC- Default = '/var/lib/phosphor-fan-presence/control'
- Configure time environment variables:
FAN_DEF_YAML_FILE- Build time fan configuration file- Default = 'control/example/fans.yaml'
FAN_ZONE_YAML_FILE- Build time zone configuration file- Default = 'control/example/zones.yaml'
ZONE_EVENTS_YAML_FILE- Build time events configuration file- Default = 'control/example/events.yaml'
ZONE_CONDITIONS_YAML_FILEBuild time zone conditions configuration file- Default = 'control/example/zone_conditions.yaml'
Monitors the presence state of fans using GPIOs, nonzero tach feedbacks, or a
combination of both. This updates a configured location of a fan D-Bus object's
Present property according to the state of the methods used to detect the
fan's presence.
- Configure time environment variables:
NUM_PRESENCE_LOG_ENTRIES- Maximum number of entries in the message log- Default = 50
- Configure time environment variables:
PRESENCE_CONFIG- Location of the config file- Default = 'presence/example/example.yaml'
Example: example.yaml
Monitors the functional state of fans by comparing the fan feedback speed
against the current target, applying any configured adjustments to the target
due to fan hardware properties. In addition to updating the configured location
of a fan D-Bus object's Functional property in inventory, actions can be
configured* to be taken based on the state of fans, i.e.) creating event logs or
powering off the system.
Another feature that can be configured is the ability to cancel the monitoring of a set of fans that may be necessary to workaround designs of the fan hardware and/or controller used.
*Actions to be taken based on the state of fans is only available using a JSON based configuration
- Configure time environment variables:
NUM_MONITOR_LOG_ENTRIES- Maximum number of entries in the message log- Default = 75
THERMAL_ALERT_BUSNAME- Application's D-Bus busname to own- Default = 'xyz.openbmc_project.Thermal.Alert'
THERMAL_ALERT_OBJPATH- Application's root D-Bus object path- Default = '/xyz/openbmc_project/alerts/thermal_fault_alert'
- Configure time environment variables:
FAN_MONITOR_YAML_FILE- Location of the config file- Default = 'monitor/example/monitor.yaml'
Example: monitor.yaml
Sets the AirCooled and WaterCooled property on the
xyz.openbmc_project.Inventory.Decorator.CoolingType interface in inventory
based on a given GPIO. No configuration files are used with this application as
it is command line driven.
Takes actions, such as powering off the system, based on sensor thresholds and values.
- Configure time environment variables:
SENSOR_MONITOR_PERSIST_ROOT_PATH- Base location to persist sensor monitoring data- Default = '/var/lib/phosphor-fan-presence/sensor-monitor'
SHUTDOWN_ALARM_HARD_SHUTDOWN_DELAY_MS- Milliseconds to delay the alarm hard shutdown- Default = 23000
SHUTDOWN_ALARM_SOFT_SHUTDOWN_DELAY_MS- Milliseconds to delay the alarm soft shutdown- Default = 900000