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axi_reorder_compare.sv
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axi_reorder_compare.sv
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// Copyright 2022 ETH Zurich and University of Bologna.
// Solderpad Hardware License, Version 0.51, see LICENSE for details.
// SPDX-License-Identifier: SHL-0.51
//
// Tim Fischer <fischeti@iis.ee.ethz.ch>
/// A AXI4 Bus Monitor for verifying the order of AXI transactions with the same ID
module axi_reorder_compare #(
parameter int unsigned NumSlaves = 4,
parameter int unsigned AxiIdWidth = 4,
parameter int unsigned NumAddrRegions = 1,
parameter type addr_t = logic,
parameter type rule_t = logic,
parameter rule_t [NumAddrRegions-1:0] AddrRegions = '0,
parameter bit Verbose = 0,
parameter type aw_chan_t = logic,
parameter type w_chan_t = logic,
parameter type b_chan_t = logic,
parameter type ar_chan_t = logic,
parameter type r_chan_t = logic,
parameter type req_t = logic,
parameter type rsp_t = logic,
// Derived parameters, do not change
localparam type id_t = logic [AxiIdWidth-1:0],
localparam int unsigned NumAxiIds = 2**AxiIdWidth
) (
input logic clk_i,
input logic rst_ni,
input req_t mon_mst_req_i,
input rsp_t mon_mst_rsp_i,
input req_t [NumSlaves-1:0] mon_slv_req_i,
input rsp_t [NumSlaves-1:0] mon_slv_rsp_i,
output logic end_of_sim_o
);
function automatic void print_aw (
input aw_chan_t aw_expected,
input aw_chan_t aw_received
);
// verilog_lint: waive-start line-length
$display("AW | expected | received ");
$display("--------|------------------------------------------------------------------|-----------------------------------------------------------------");
$display("id: | %64d | %64d", aw_expected.id, aw_received.id);
$display("addr: | %64x | %64x", aw_expected.addr, aw_received.addr);
$display("len: | %64d | %64d", aw_expected.len, aw_received.len);
$display("size: | %64d | %64d", aw_expected.size, aw_received.size);
$display("burst: | %64d | %64d", aw_expected.burst, aw_received.burst);
$display("lock: | %64d | %64d", aw_expected.lock, aw_received.lock);
$display("cache: | %64d | %64d", aw_expected.cache, aw_received.cache);
$display("prot: | %64d | %64d", aw_expected.prot, aw_received.prot);
$display("qos: | %64d | %64d", aw_expected.qos, aw_received.qos);
$display("region: | %64d | %64d", aw_expected.region, aw_received.region);
$display("user: | %64d | %64d", aw_expected.user, aw_received.user);
$display("atop: | %64d | %64d", aw_expected.atop, aw_received.atop);
$display("--------|------------------------------------------------------------------|-----------------------------------------------------------------");
// verilog_lint: waive-stop line-length
endfunction
function automatic void print_ar (
input ar_chan_t ar_expected,
input ar_chan_t ar_received
);
// verilog_lint: waive-start line-length
$display("AR | expected | received ");
$display("--------|------------------------------------------------------------------|-----------------------------------------------------------------");
$display("id: | %64d | %64d", ar_expected.id, ar_received.id);
$display("addr: | %64x | %64x", ar_expected.addr, ar_received.addr);
$display("len: | %64d | %64d", ar_expected.len, ar_received.len);
$display("size: | %64d | %64d", ar_expected.size, ar_received.size);
$display("burst: | %64d | %64d", ar_expected.burst, ar_received.burst);
$display("lock: | %64d | %64d", ar_expected.lock, ar_received.lock);
$display("cache: | %64d | %64d", ar_expected.cache, ar_received.cache);
$display("prot: | %64d | %64d", ar_expected.prot, ar_received.prot);
$display("qos: | %64d | %64d", ar_expected.qos, ar_received.qos);
$display("region: | %64d | %64d", ar_expected.region, ar_received.region);
$display("user: | %64d | %64d", ar_expected.user, ar_received.user);
$display("--------|------------------------------------------------------------------|-----------------------------------------------------------------");
// verilog_lint: waive-stop line-length
endfunction
function automatic void print_w (
input w_chan_t w_expected,
input w_chan_t w_received
);
// verilog_lint: waive-start line-length
$display("W | expected | received ");
$display("--------|------------------------------------------------------------------|-----------------------------------------------------------------");
$display("data: | %64x | %64x", w_expected.data, w_received.data);
$display("strb: | %64d | %64d", w_expected.strb, w_received.strb);
$display("last: | %64d | %64d", w_expected.last, w_received.last);
$display("user: | %64d | %64d", w_expected.user, w_received.user);
$display("--------|------------------------------------------------------------------|-----------------------------------------------------------------");
// verilog_lint: waive-stop line-length
endfunction
function automatic void print_b (
input b_chan_t b_expected,
input b_chan_t b_received
);
// verilog_lint: waive-start line-length
$display("B | expected | received ");
$display("--------|------------------------------------------------------------------|-----------------------------------------------------------------");
$display("id: | %64d | %64d", b_expected.id, b_received.id);
$display("resp: | %64d | %64d", b_expected.resp, b_received.resp);
$display("user: | %64d | %64d", b_expected.user, b_received.user);
$display("--------|------------------------------------------------------------------|-----------------------------------------------------------------");
// verilog_lint: waive-stop line-length
endfunction
function automatic void print_r (
input r_chan_t r_expected,
input r_chan_t r_received
);
// verilog_lint: waive-start line-length
$display("R | expected | received ");
$display("--------|------------------------------------------------------------------|-----------------------------------------------------------------");
$display("id: | %64d | %64d", r_expected.id, r_received.id);
$display("data: | %64x | %64x", r_expected.data, r_received.data);
$display("resp: | %64d | %64d", r_expected.resp, r_received.resp);
$display("last: | %64d | %64d", r_expected.last, r_received.last);
$display("user: | %64d | %64d", r_expected.user, r_received.user);
$display("--------|------------------------------------------------------------------|-----------------------------------------------------------------");
// verilog_lint: waive-stop line-length
endfunction
typedef struct packed {
int unsigned slv_id;
int unsigned num_rsp;
} out_rsp_t;
aw_chan_t aw_queue [NumSlaves][$];
w_chan_t w_queue [NumSlaves][$];
ar_chan_t ar_queue [NumSlaves][$];
b_chan_t b_queue [NumSlaves][NumAxiIds][$];
r_chan_t r_queue [NumSlaves][NumAxiIds][$];
out_rsp_t r_out_rsp_queue[NumAxiIds][$];
out_rsp_t b_out_rsp_queue[NumAxiIds][$];
id_t aw_id_queue [NumSlaves][$];
id_t ar_id_queue [NumSlaves][$];
typedef logic [$clog2(NumSlaves)-1:0] slv_id_t;
slv_id_t w_slv_idx[$];
slv_id_t aw_slv_idx, ar_slv_idx;
addr_decode #(
.NoIndices ( NumAddrRegions ),
.NoRules ( NumAddrRegions ),
.addr_t ( addr_t ),
.rule_t ( rule_t )
) i_aw_addr_decode (
.addr_i ( mon_mst_req_i.aw.addr ),
.addr_map_i ( AddrRegions ),
.dec_error_o ( ),
.dec_valid_o ( ),
.default_idx_i ( '0 ),
.en_default_idx_i ( 1'b0 ),
.idx_o ( aw_slv_idx )
);
addr_decode #(
.NoIndices ( NumAddrRegions ),
.NoRules ( NumAddrRegions ),
.addr_t ( addr_t ),
.rule_t ( rule_t )
) i_ar_addr_decode (
.addr_i ( mon_mst_req_i.ar.addr ),
.addr_map_i ( AddrRegions ),
.dec_error_o ( ),
.dec_valid_o ( ),
.default_idx_i ( '0 ),
.en_default_idx_i ( 1'b0 ),
.idx_o ( ar_slv_idx )
);
always_ff @(posedge clk_i) begin : step_1
if (mon_mst_req_i.aw_valid && mon_mst_rsp_i.aw_ready) begin
aw_queue[aw_slv_idx].push_back(mon_mst_req_i.aw);
w_slv_idx.push_back(aw_slv_idx);
b_out_rsp_queue[mon_mst_req_i.aw.id].push_back('{slv_id: aw_slv_idx, num_rsp: 0});
if (Verbose) $info("Issued AW: id=%0d, len=%0d", mon_mst_req_i.aw.id, mon_mst_req_i.aw.len+1);
end
if (mon_mst_req_i.w_valid && mon_mst_rsp_i.w_ready) begin
w_queue[w_slv_idx[0]].push_back(mon_mst_req_i.w);
if (Verbose) $info("Issued W");
if (mon_mst_req_i.w.last) begin
void'(w_slv_idx.pop_front());
end
end
if (mon_mst_req_i.ar_valid && mon_mst_rsp_i.ar_ready) begin
ar_queue[ar_slv_idx].push_back(mon_mst_req_i.ar);
r_out_rsp_queue[mon_mst_req_i.ar.id].push_back(
'{slv_id: ar_slv_idx, num_rsp: mon_mst_req_i.ar.len});
if (Verbose) $info("Issued AR: id=%0d, len=%0d",
mon_mst_req_i.ar.id, mon_mst_req_i.ar.len+1);
end
end
// verilog_lint: waive-start always-ff-non-blocking
for (genvar i = 0; i < NumSlaves; i++) begin : gen_slv_step_2
always_ff @(posedge clk_i) begin : step_2
if (mon_slv_req_i[i].aw_valid && mon_slv_rsp_i[i].aw_ready) begin
automatic aw_chan_t aw_exp, aw_act;
automatic id_t aw_id;
aw_act = mon_slv_req_i[i].aw;
if (aw_queue[i].size() == 0) $error("AW queue empty");
aw_exp = aw_queue[i].pop_front();
aw_id = aw_exp.id;
// Ignore ID since it is modified in the network interface
aw_act.id = 'X;
aw_exp.id = 'X;
if (aw_exp !== aw_act) begin
$error("AW mismatch");
print_aw(aw_exp, aw_act);
end else begin
aw_id_queue[i].push_back(aw_id);
if (Verbose) $info("Slave[%0d] Received AW: id=%0d, len=%0d", i, aw_id, aw_exp.len+1);
end
end
if (mon_slv_req_i[i].w_valid && mon_slv_rsp_i[i].w_ready) begin
automatic w_chan_t w_exp, w_act;
automatic id_t w_id;
w_act = mon_slv_req_i[i].w;
if (w_queue[i].size() == 0) $error("W queue is empty!");
w_exp = w_queue[i].pop_front();
if (w_exp !== w_act) begin
$error("W mismatch");
print_w(w_exp, w_act);
end else begin
if (Verbose) $info("Slave[%0d] Received W", i);
end
end
if (mon_slv_req_i[i].ar_valid && mon_slv_rsp_i[i].ar_ready) begin
automatic ar_chan_t ar_exp, ar_act;
automatic id_t ar_id;
ar_act = mon_slv_req_i[i].ar;
if (ar_queue[i].size() == 0) $error("AR queue is empty!");
ar_exp = ar_queue[i].pop_front();
ar_id = ar_exp.id;
// Ignore ID since it is modified in the network interface
ar_act.id = 'X;
ar_exp.id = 'X;
if (ar_exp !== ar_act) begin
$error("AR mismatch");
print_ar(ar_exp, ar_act);
end else begin
ar_id_queue[i].push_back(ar_id);
if (Verbose) $info("Slave[%0d] Received AR: id=%0d, len=%0d", i, ar_id, ar_exp.len+1);
end
end
end
end
// verilog_lint: waive-stop always-ff-non-blocking
// verilog_lint: waive-start always-ff-non-blocking
for (genvar i = 0; i < NumSlaves; i++) begin : gen_slv_step_3
always_ff @(posedge clk_i) begin : slv_step_3
if (mon_slv_rsp_i[i].b_valid && mon_slv_req_i[i].b_ready) begin
automatic b_chan_t b;
b = mon_slv_rsp_i[i].b;
b.id = aw_id_queue[i].pop_front();
b_queue[i][b.id].push_back(b);
if (Verbose) $info("Slave[%0d] Issued B: id=%0d", i, b.id);
end
if (mon_slv_rsp_i[i].r_valid && mon_slv_req_i[i].r_ready) begin
automatic r_chan_t r;
r = mon_slv_rsp_i[i].r;
r.id = ar_id_queue[i][0];
if (r.last) void'(ar_id_queue[i].pop_front());
r_queue[i][r.id].push_back(r);
if (Verbose) $info("Slave[%0d] Issued R: id=%0d, data=%0x, last=%0b",
i, r.id, r.data, r.last);
end
end
end
// verilog_lint: waive-stop always-ff-non-blocking
// verilog_lint: waive-start always-ff-non-blocking
always_ff @(posedge clk_i) begin : step_4
if (mon_mst_rsp_i.b_valid && mon_mst_req_i.b_ready) begin
automatic b_chan_t b_exp, b_act;
automatic id_t b_id;
automatic int unsigned slv_id;
b_act = mon_mst_rsp_i.b;
b_id = b_act.id;
if (Verbose) $info("Received B: id=%0d", b_id);
if (b_out_rsp_queue[b_id].size() == 0) $error("B: id=%0d out rsp queue is empty!", b_id);
slv_id = b_out_rsp_queue[b_id][0].slv_id;
if (b_queue[slv_id][b_id].size() == 0) $error("Slave [%0d] B queue is empty!", slv_id);
b_exp = b_queue[slv_id][b_id].pop_front();
if (b_exp !== b_act) begin
$error("B mismatch");
print_b(b_exp, b_act);
end else begin
// This should always be true for B
if (b_out_rsp_queue[b_id][0].num_rsp == 0) begin
if (b_out_rsp_queue[b_id].size() == 0)
$error("B: id=%0d out response queue is empty!", b_id);
void'(b_out_rsp_queue[b_id].pop_front());
end else begin
b_out_rsp_queue[b_id][0].num_rsp--;
end
end
end
if (mon_mst_rsp_i.r_valid && mon_mst_req_i.r_ready) begin
automatic r_chan_t r_exp, r_act;
automatic id_t r_id;
automatic int unsigned slv_id;
r_act = mon_mst_rsp_i.r;
r_id = r_act.id;
if (Verbose) $info("Received R: id=%0d, data=%0x, last=%0b", r_id, r_act.data, r_act.last);
if (r_out_rsp_queue[r_id].size() == 0) $error("R: id=%0d out rsp queue is empty!", r_id);
slv_id = r_out_rsp_queue[r_id][0].slv_id;
if (r_queue[slv_id][r_id].size() == 0) $error("Slave [%0d] R queue is empty!", slv_id);
r_exp = r_queue[slv_id][r_id].pop_front();
if (r_exp !== r_act) begin
$error("R mismatch");
print_r(r_exp, r_act);
end else begin
if (r_out_rsp_queue[r_id][0].num_rsp == 0) begin
if (r_out_rsp_queue[r_id].size() == 0) $error("R: id=%0d queue is empty!", r_id);
void'(r_out_rsp_queue[r_id].pop_front());
if (Verbose) $info("R: id=%0d slv_id=%0d r_out_rsp_queue popped", r_id, slv_id);
end else begin
r_out_rsp_queue[r_id][0].num_rsp--;
end
end
end
end
// verilog_lint: waive-stop always-ff-non-blocking
logic [NumSlaves-1:0] aw_queue_empty;
logic [NumSlaves-1:0] w_queue_empty;
logic [NumSlaves-1:0] ar_queue_empty;
logic [NumSlaves-1:0][NumAxiIds-1:0] b_queue_empty;
logic [NumSlaves-1:0][NumAxiIds-1:0] r_queue_empty;
logic [NumAxiIds-1:0] r_out_rsp_queue_empty;
logic [NumAxiIds-1:0] b_out_rsp_queue_empty;
logic [NumSlaves-1:0][31:0] aw_queue_state;
logic [NumSlaves-1:0][31:0] w_queue_state;
logic [NumSlaves-1:0][31:0] ar_queue_state;
logic [NumSlaves-1:0][NumAxiIds-1:0][31:0] b_queue_state;
logic [NumSlaves-1:0][NumAxiIds-1:0][31:0] r_queue_state;
for (genvar i = 0; i < NumSlaves; i++) begin : gen_b_queue_state
assign aw_queue_state[i] = aw_queue[i].size();
assign w_queue_state[i] = w_queue[i].size();
assign ar_queue_state[i] = ar_queue[i].size();
for (genvar j = 0; j < NumAxiIds; j++) begin : gen_b_queue_state
assign b_queue_state[i][j] = b_queue[i][j].size();
assign r_queue_state[i][j] = r_queue[i][j].size();
end
end
always_comb begin
for (int i = 0; i < NumSlaves; i++) begin
aw_queue_empty[i] = (aw_queue[i].size() == 0);
w_queue_empty[i] = (w_queue[i].size() == 0);
ar_queue_empty[i] = (ar_queue[i].size() == 0);
for (int j = 0; j < NumAxiIds; j++) begin
b_queue_empty[i][j] = (b_queue[i][j].size() == 0);
r_queue_empty[i][j] = (r_queue[i][j].size() == 0);
end
end
for (int i = 0; i < NumAxiIds; i++) begin
r_out_rsp_queue_empty[i] = (r_out_rsp_queue[i].size() == 0);
b_out_rsp_queue_empty[i] = (b_out_rsp_queue[i].size() == 0);
end
end_of_sim_o = &aw_queue_empty &&
&w_queue_empty &&
&ar_queue_empty &&
&b_queue_empty &&
&r_queue_empty &&
&r_out_rsp_queue_empty &&
&b_out_rsp_queue_empty;
end
endmodule