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axi_bus_compare.sv
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axi_bus_compare.sv
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// Copyright (c) 2019-2020 ETH Zurich, University of Bologna
//
// Copyright and related rights are licensed under the Solderpad Hardware
// License, Version 0.51 (the "License"); you may not use this file except in
// compliance with the License. You may obtain a copy of the License at
// http://solderpad.org/licenses/SHL-0.51. Unless required by applicable law
// or agreed to in writing, software, hardware and materials distributed under
// this License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR
// CONDITIONS OF ANY KIND, either express or implied. See the License for the
// specific language governing permissions and limitations under the License.
//
// Authors:
// - Thomas Benz <[email protected]>
`include "axi/assign.svh"
/// Synthesizable test module comparing two AXI channels of the same type
/// This module is meant to be used in FPGA-based verification.
module axi_bus_compare #(
/// ID width of the AXI4+ATOP interface
parameter int unsigned AxiIdWidth = 32'd0,
/// FIFO depth
parameter int unsigned FifoDepth = 32'd0,
/// Consider size field in comparison
parameter bit UseSize = 1'b0,
/// Data width of the AXI4+ATOP interface
parameter int unsigned DataWidth = 32'd8,
/// AW channel type of the AXI4+ATOP interface
parameter type axi_aw_chan_t = logic,
/// W channel type of the AXI4+ATOP interface
parameter type axi_w_chan_t = logic,
/// B channel type of the AXI4+ATOP interface
parameter type axi_b_chan_t = logic,
/// AR channel type of the AXI4+ATOP interface
parameter type axi_ar_chan_t = logic,
/// R channel type of the AXI4+ATOP interface
parameter type axi_r_chan_t = logic,
/// Request struct type of the AXI4+ATOP slave port
parameter type axi_req_t = logic,
/// Response struct type of the AXI4+ATOP slave port
parameter type axi_rsp_t = logic,
/// ID type (*do not overwrite*)
parameter type id_t = logic [2**AxiIdWidth-1:0]
)(
/// Clock
input logic clk_i,
/// Asynchronous reset, active low
input logic rst_ni,
/// Testmode
input logic testmode_i,
/// AXI4+ATOP A channel request in
input axi_req_t axi_a_req_i,
/// AXI4+ATOP A channel response out
output axi_rsp_t axi_a_rsp_o,
/// AXI4+ATOP A channel request out
output axi_req_t axi_a_req_o,
/// AXI4+ATOP A channel response in
input axi_rsp_t axi_a_rsp_i,
/// AXI4+ATOP B channel request in
input axi_req_t axi_b_req_i,
/// AXI4+ATOP B channel response out
output axi_rsp_t axi_b_rsp_o,
/// AXI4+ATOP B channel request out
output axi_req_t axi_b_req_o,
/// AXI4+ATOP B channel response in
input axi_rsp_t axi_b_rsp_i,
/// AW mismatch
output id_t aw_mismatch_o,
/// W mismatch
output logic w_mismatch_o,
/// B mismatch
output id_t b_mismatch_o,
/// AR mismatch
output id_t ar_mismatch_o,
/// R mismatch
output id_t r_mismatch_o,
/// General mismatch
output logic mismatch_o,
/// Unit is busy
output logic busy_o
);
//-----------------------------------
// Channel Signals
//-----------------------------------
// assign request payload A
`AXI_ASSIGN_AW_STRUCT(axi_a_req_o.aw, axi_a_req_i.aw)
`AXI_ASSIGN_W_STRUCT(axi_a_req_o.w, axi_a_req_i.w)
`AXI_ASSIGN_AR_STRUCT(axi_a_req_o.ar, axi_a_req_i.ar)
// assign response payload A
`AXI_ASSIGN_R_STRUCT(axi_a_rsp_o.r, axi_a_rsp_i.r)
`AXI_ASSIGN_B_STRUCT(axi_a_rsp_o.b, axi_a_rsp_i.b)
// assign request payload B
`AXI_ASSIGN_AW_STRUCT(axi_b_req_o.aw, axi_b_req_i.aw)
`AXI_ASSIGN_W_STRUCT(axi_b_req_o.w, axi_b_req_i.w)
`AXI_ASSIGN_AR_STRUCT(axi_b_req_o.ar, axi_b_req_i.ar)
// assign response payload B
`AXI_ASSIGN_R_STRUCT(axi_b_rsp_o.r, axi_b_rsp_i.r)
`AXI_ASSIGN_B_STRUCT(axi_b_rsp_o.b, axi_b_rsp_i.b)
// fifo handshaking signals A
id_t fifo_valid_aw_a, fifo_ready_aw_a;
id_t fifo_valid_b_a, fifo_ready_b_a;
id_t fifo_valid_ar_a, fifo_ready_ar_a;
id_t fifo_valid_r_a, fifo_ready_r_a;
logic fifo_sel_valid_aw_a, fifo_sel_ready_aw_a;
logic fifo_sel_valid_w_a, fifo_sel_ready_w_a;
logic fifo_sel_valid_b_a, fifo_sel_ready_b_a;
logic fifo_sel_valid_ar_a, fifo_sel_ready_ar_a;
logic fifo_sel_valid_r_a, fifo_sel_ready_r_a;
// fifo handshaking signals B
id_t fifo_valid_aw_b, fifo_ready_aw_b;
id_t fifo_valid_b_b, fifo_ready_b_b;
id_t fifo_valid_ar_b, fifo_ready_ar_b;
id_t fifo_valid_r_b, fifo_ready_r_b;
logic fifo_sel_valid_aw_b, fifo_sel_ready_aw_b;
logic fifo_sel_valid_w_b, fifo_sel_ready_w_b;
logic fifo_sel_valid_b_b, fifo_sel_ready_b_b;
logic fifo_sel_valid_ar_b, fifo_sel_ready_ar_b;
logic fifo_sel_valid_r_b, fifo_sel_ready_r_b;
//-----------------------------------
// FIFO Output Signals
//-----------------------------------
id_t fifo_cmp_valid_aw_a;
logic fifo_cmp_valid_w_a;
id_t fifo_cmp_valid_b_a;
id_t fifo_cmp_valid_ar_a;
id_t fifo_cmp_valid_r_a;
id_t fifo_cmp_valid_aw_b;
logic fifo_cmp_valid_w_b;
id_t fifo_cmp_valid_b_b;
id_t fifo_cmp_valid_ar_b;
id_t fifo_cmp_valid_r_b;
axi_aw_chan_t [2**AxiIdWidth-1:0] fifo_cmp_data_aw_a;
axi_w_chan_t fifo_cmp_data_w_a;
axi_b_chan_t [2**AxiIdWidth-1:0] fifo_cmp_data_b_a;
axi_ar_chan_t [2**AxiIdWidth-1:0] fifo_cmp_data_ar_a;
axi_r_chan_t [2**AxiIdWidth-1:0] fifo_cmp_data_r_a;
axi_aw_chan_t [2**AxiIdWidth-1:0] fifo_cmp_data_aw_b;
axi_w_chan_t fifo_cmp_data_w_b;
axi_b_chan_t [2**AxiIdWidth-1:0] fifo_cmp_data_b_b;
axi_ar_chan_t [2**AxiIdWidth-1:0] fifo_cmp_data_ar_b;
axi_r_chan_t [2**AxiIdWidth-1:0] fifo_cmp_data_r_b;
// Size alignment signals
logic [2:0] w_size;
logic [$clog2(DataWidth/8)-1:0] w_lower, w_offset, w_increment;
logic [2**AxiIdWidth-1:0][2:0] r_size;
logic [2**AxiIdWidth-1:0][$clog2(DataWidth/8)-1:0] r_lower, r_offset, r_increment;
//-----------------------------------
// Channel A stream forks
//-----------------------------------
stream_fork #(
.N_OUP ( 32'd2 )
) i_stream_fork_aw_a (
.clk_i,
.rst_ni,
.valid_i ( axi_a_req_i.aw_valid ),
.ready_o ( axi_a_rsp_o.aw_ready ),
.valid_o ( {fifo_sel_valid_aw_a, axi_a_req_o.aw_valid} ),
.ready_i ( {fifo_sel_ready_aw_a, axi_a_rsp_i.aw_ready} )
);
stream_fork #(
.N_OUP ( 32'd2 )
) i_stream_fork_w_a (
.clk_i,
.rst_ni,
.valid_i ( axi_a_req_i.w_valid ),
.ready_o ( axi_a_rsp_o.w_ready ),
.valid_o ( {fifo_sel_valid_w_a, axi_a_req_o.w_valid} ),
.ready_i ( {fifo_sel_ready_w_a, axi_a_rsp_i.w_ready} )
);
stream_fork #(
.N_OUP ( 32'd2 )
) i_stream_fork_b_a (
.clk_i,
.rst_ni,
.valid_i ( axi_a_rsp_i.b_valid ),
.ready_o ( axi_a_req_o.b_ready ),
.valid_o ( {fifo_sel_valid_b_a, axi_a_rsp_o.b_valid} ),
.ready_i ( {fifo_sel_ready_b_a, axi_a_req_i.b_ready} )
);
stream_fork #(
.N_OUP ( 32'd2 )
) i_stream_fork_ar_a (
.clk_i,
.rst_ni,
.valid_i ( axi_a_req_i.ar_valid ),
.ready_o ( axi_a_rsp_o.ar_ready ),
.valid_o ( {fifo_sel_valid_ar_a, axi_a_req_o.ar_valid} ),
.ready_i ( {fifo_sel_ready_ar_a, axi_a_rsp_i.ar_ready} )
);
stream_fork #(
.N_OUP ( 32'd2 )
) i_stream_fork_r_a (
.clk_i,
.rst_ni,
.valid_i ( axi_a_rsp_i.r_valid ),
.ready_o ( axi_a_req_o.r_ready ),
.valid_o ( {fifo_sel_valid_r_a, axi_a_rsp_o.r_valid} ),
.ready_i ( {fifo_sel_ready_r_a, axi_a_req_i.r_ready} )
);
//-----------------------------------
// Channel A FIFOs
//-----------------------------------
for (genvar id = 0; id < 2**AxiIdWidth; id++) begin : gen_fifos_a
stream_fifo #(
.FALL_THROUGH ( 1'b0 ),
.DATA_WIDTH ( 1'b0 ),
.DEPTH ( FifoDepth ),
.T ( axi_aw_chan_t )
) i_stream_fifo_aw_a (
.clk_i,
.rst_ni,
.testmode_i,
.flush_i ( 1'b0 ),
.usage_o ( /* NOT CONNECTED */ ),
.data_i ( axi_a_req_i.aw ),
.valid_i ( fifo_valid_aw_a [id] ),
.ready_o ( fifo_ready_aw_a [id] ),
.data_o ( fifo_cmp_data_aw_a [id] ),
.valid_o ( fifo_cmp_valid_aw_a [id] ),
.ready_i ( fifo_cmp_valid_aw_a [id] & fifo_cmp_valid_aw_b [id] )
);
stream_fifo #(
.FALL_THROUGH ( 1'b0 ),
.DATA_WIDTH ( 1'b0 ),
.DEPTH ( FifoDepth ),
.T ( axi_b_chan_t )
) i_stream_fifo_b_a (
.clk_i,
.rst_ni,
.testmode_i,
.flush_i ( 1'b0 ),
.usage_o ( /* NOT CONNECTED */ ),
.data_i ( axi_a_rsp_i.b ),
.valid_i ( fifo_valid_b_a [id] ),
.ready_o ( fifo_ready_b_a [id] ),
.data_o ( fifo_cmp_data_b_a [id] ),
.valid_o ( fifo_cmp_valid_b_a [id] ),
.ready_i ( fifo_cmp_valid_b_a [id] & fifo_cmp_valid_b_b [id] )
);
stream_fifo #(
.FALL_THROUGH ( 1'b0 ),
.DATA_WIDTH ( 1'b0 ),
.DEPTH ( FifoDepth ),
.T ( axi_ar_chan_t )
) i_stream_fifo_ar_a (
.clk_i,
.rst_ni,
.testmode_i,
.flush_i ( 1'b0 ),
.usage_o ( /* NOT CONNECTED */ ),
.data_i ( axi_a_req_i.ar ),
.valid_i ( fifo_valid_ar_a [id] ),
.ready_o ( fifo_ready_ar_a [id] ),
.data_o ( fifo_cmp_data_ar_a [id] ),
.valid_o ( fifo_cmp_valid_ar_a [id] ),
.ready_i ( fifo_cmp_valid_ar_a [id] & fifo_cmp_valid_ar_b [id] )
);
if (UseSize) begin : gen_r_size
stream_fifo #(
.FALL_THROUGH ( 1'b0 ),
.DATA_WIDTH ( $clog2(DataWidth/8)+3 ),
// .DATA_WIDTH ( 7+3 ),
.DEPTH ( 2*FifoDepth )
) i_stream_fifo_w_size (
.clk_i,
.rst_ni,
.testmode_i,
.flush_i ( 1'b0 ),
.usage_o (),
.data_i ( {axi_a_req_i.ar.addr[$clog2(DataWidth/8)-1:0], axi_a_req_i.ar.size} ),
.valid_i ( fifo_valid_ar_a [id] & fifo_ready_ar_a [id] ),
.ready_o (),
.data_o ( {r_offset[id], r_size[id]} ),
.valid_o (),
.ready_i ( fifo_cmp_valid_r_a[id] & fifo_cmp_valid_r_b[id] & fifo_cmp_data_r_a[id].last )
);
always_ff @(posedge clk_i or negedge rst_ni) begin : proc_r_increment
if(!rst_ni) begin
r_increment[id] <= '0;
end else begin
if (fifo_cmp_valid_r_a[id] && fifo_cmp_valid_r_b[id]) begin
if (fifo_cmp_data_r_a[id].last) begin
r_increment[id] <= '0;
end else begin
r_increment[id] <= r_increment[id] + 2**r_size[id] - ((r_offset[id]+r_increment[id])%(2**r_size[id]));
end
end
end
end
assign r_lower[id] = r_offset[id] + r_increment[id];
end else begin : gen_no_size
assign r_offset[id] = '0;
assign r_size[id] = '1;
assign r_lower[id] = '0;
end
stream_fifo #(
.FALL_THROUGH ( 1'b0 ),
.DATA_WIDTH ( 1'b0 ),
.DEPTH ( FifoDepth ),
.T ( axi_r_chan_t )
) i_stream_fifo_r_a (
.clk_i,
.rst_ni,
.testmode_i,
.flush_i ( 1'b0 ),
.usage_o ( /* NOT CONNECTED */ ),
.data_i ( axi_a_rsp_i.r ),
.valid_i ( fifo_valid_r_a [id] ),
.ready_o ( fifo_ready_r_a [id] ),
.data_o ( fifo_cmp_data_r_a [id] ),
.valid_o ( fifo_cmp_valid_r_a [id] ),
.ready_i ( fifo_cmp_valid_r_a [id] & fifo_cmp_valid_r_b [id] )
);
end
if (UseSize) begin : gen_w_size
stream_fifo #(
.FALL_THROUGH ( 1'b0 ),
.DATA_WIDTH ( $clog2(DataWidth/8)+3 ),
// .DATA_WIDTH ( 7+3 ),
.DEPTH ( FifoDepth )
) i_stream_fifo_w_size (
.clk_i,
.rst_ni,
.testmode_i,
.flush_i ( 1'b0 ),
.usage_o (),
.data_i ( {axi_a_req_i.aw.addr[$clog2(DataWidth/8)-1:0], axi_a_req_i.aw.size} ),
.valid_i ( axi_a_req_i.aw_valid & axi_a_rsp_o.aw_ready ),
.ready_o (),
.data_o ( {w_offset, w_size} ),
.valid_o (),
.ready_i ( fifo_cmp_valid_w_a & fifo_cmp_valid_w_b & fifo_cmp_data_w_a.last )
);
always_ff @(posedge clk_i or negedge rst_ni) begin : proc_w_increment
if(!rst_ni) begin
w_increment <= '0;
end else begin
if (fifo_cmp_valid_w_a && fifo_cmp_valid_w_b) begin
if (fifo_cmp_data_w_a.last) begin
w_increment <= '0;
end else begin
w_increment <= (w_increment + 2**w_size) - ((w_offset+w_increment)%(2**w_size));
end
end
end
end
assign w_lower = w_offset + w_increment;
end else begin : gen_no_size
assign w_offset = '0;
assign w_size = '1;
assign w_lower = '0;
end
stream_fifo #(
.FALL_THROUGH ( 1'b0 ),
.DATA_WIDTH ( 1'b0 ),
.DEPTH ( FifoDepth ),
.T ( axi_w_chan_t )
) i_stream_fifo_w_a (
.clk_i,
.rst_ni,
.testmode_i,
.flush_i ( 1'b0 ),
.usage_o ( /* NOT CONNECTED */ ),
.data_i ( axi_a_req_i.w ),
.valid_i ( fifo_sel_valid_w_a ),
.ready_o ( fifo_sel_ready_w_a ),
.data_o ( fifo_cmp_data_w_a ),
.valid_o ( fifo_cmp_valid_w_a ),
.ready_i ( fifo_cmp_valid_w_a & fifo_cmp_valid_w_b )
);
//-----------------------------------
// Input Handshaking A
//-----------------------------------
always_comb begin : gen_handshaking_a
// aw
// defaults
fifo_valid_aw_a = '0;
fifo_sel_ready_aw_a = '0;
// assign according id
fifo_valid_aw_a [axi_a_req_i.aw.id] = fifo_sel_valid_aw_a;
fifo_sel_ready_aw_a = fifo_ready_aw_a[axi_a_req_i.aw.id];
// b
// defaults
fifo_valid_b_a = '0;
fifo_sel_ready_b_a = '0;
// assign according id
fifo_valid_b_a [axi_a_rsp_i.b.id] = fifo_sel_valid_b_a;
fifo_sel_ready_b_a = fifo_ready_b_a[axi_a_rsp_i.b.id];
// ar
// defaults
fifo_valid_ar_a = '0;
fifo_sel_ready_ar_a = '0;
// assign according id
fifo_valid_ar_a [axi_a_req_i.ar.id] = fifo_sel_valid_ar_a;
fifo_sel_ready_ar_a = fifo_ready_ar_a[axi_a_req_i.ar.id];
// b
// defaults
fifo_valid_r_a = '0;
fifo_sel_ready_r_a = '0;
// assign according id
fifo_valid_r_a [axi_a_rsp_i.r.id] = fifo_sel_valid_r_a;
fifo_sel_ready_r_a = fifo_ready_r_a[axi_a_rsp_i.r.id];
end
//-----------------------------------
// Channel B stream forks
//-----------------------------------
stream_fork #(
.N_OUP ( 32'd2 )
) i_stream_fork_aw_b (
.clk_i,
.rst_ni,
.valid_i ( axi_b_req_i.aw_valid ),
.ready_o ( axi_b_rsp_o.aw_ready ),
.valid_o ( {fifo_sel_valid_aw_b, axi_b_req_o.aw_valid} ),
.ready_i ( {fifo_sel_ready_aw_b, axi_b_rsp_i.aw_ready} )
);
stream_fork #(
.N_OUP ( 32'd2 )
) i_stream_fork_w_b (
.clk_i,
.rst_ni,
.valid_i ( axi_b_req_i.w_valid ),
.ready_o ( axi_b_rsp_o.w_ready ),
.valid_o ( {fifo_sel_valid_w_b, axi_b_req_o.w_valid} ),
.ready_i ( {fifo_sel_ready_w_b, axi_b_rsp_i.w_ready} )
);
stream_fork #(
.N_OUP ( 32'd2 )
) i_stream_fork_b_b (
.clk_i,
.rst_ni,
.valid_i ( axi_b_rsp_i.b_valid ),
.ready_o ( axi_b_req_o.b_ready ),
.valid_o ( {fifo_sel_valid_b_b, axi_b_rsp_o.b_valid} ),
.ready_i ( {fifo_sel_ready_b_b, axi_b_req_i.b_ready} )
);
stream_fork #(
.N_OUP ( 32'd2 )
) i_stream_fork_ar_b (
.clk_i,
.rst_ni,
.valid_i ( axi_b_req_i.ar_valid ),
.ready_o ( axi_b_rsp_o.ar_ready ),
.valid_o ( {fifo_sel_valid_ar_b, axi_b_req_o.ar_valid} ),
.ready_i ( {fifo_sel_ready_ar_b, axi_b_rsp_i.ar_ready} )
);
stream_fork #(
.N_OUP ( 32'd2 )
) i_stream_fork_r_b (
.clk_i,
.rst_ni,
.valid_i ( axi_b_rsp_i.r_valid ),
.ready_o ( axi_b_req_o.r_ready ),
.valid_o ( {fifo_sel_valid_r_b, axi_b_rsp_o.r_valid} ),
.ready_i ( {fifo_sel_ready_r_b, axi_b_req_i.r_ready} )
);
//-----------------------------------
// Channel B FIFOs
//-----------------------------------
for (genvar id = 0; id < 2**AxiIdWidth; id++) begin : gen_fifos_b
stream_fifo #(
.FALL_THROUGH ( 1'b0 ),
.DATA_WIDTH ( 1'b0 ),
.DEPTH ( FifoDepth ),
.T ( axi_aw_chan_t )
) i_stream_fifo_aw_b (
.clk_i,
.rst_ni,
.testmode_i,
.flush_i ( 1'b0 ),
.usage_o ( /* NOT CONNECTED */ ),
.data_i ( axi_b_req_i.aw ),
.valid_i ( fifo_valid_aw_b [id] ),
.ready_o ( fifo_ready_aw_b [id] ),
.data_o ( fifo_cmp_data_aw_b [id] ),
.valid_o ( fifo_cmp_valid_aw_b [id] ),
.ready_i ( fifo_cmp_valid_aw_a [id] & fifo_cmp_valid_aw_b [id] )
);
stream_fifo #(
.FALL_THROUGH ( 1'b0 ),
.DATA_WIDTH ( 1'b0 ),
.DEPTH ( FifoDepth ),
.T ( axi_b_chan_t )
) i_stream_fifo_b_b (
.clk_i,
.rst_ni,
.testmode_i,
.flush_i ( 1'b0 ),
.usage_o ( /* NOT CONNECTED */ ),
.data_i ( axi_b_rsp_i.b ),
.valid_i ( fifo_valid_b_b [id] ),
.ready_o ( fifo_ready_b_b [id] ),
.data_o ( fifo_cmp_data_b_b [id] ),
.valid_o ( fifo_cmp_valid_b_b [id] ),
.ready_i ( fifo_cmp_valid_b_a [id] & fifo_cmp_valid_b_b [id] )
);
stream_fifo #(
.FALL_THROUGH ( 1'b0 ),
.DATA_WIDTH ( 1'b0 ),
.DEPTH ( FifoDepth ),
.T ( axi_ar_chan_t )
) i_stream_fifo_ar_b (
.clk_i,
.rst_ni,
.testmode_i,
.flush_i ( 1'b0 ),
.usage_o ( /* NOT CONNECTED */ ),
.data_i ( axi_b_req_i.ar ),
.valid_i ( fifo_valid_ar_b [id] ),
.ready_o ( fifo_ready_ar_b [id] ),
.data_o ( fifo_cmp_data_ar_b [id] ),
.valid_o ( fifo_cmp_valid_ar_b [id] ),
.ready_i ( fifo_cmp_valid_ar_a [id] & fifo_cmp_valid_ar_b [id] )
);
stream_fifo #(
.FALL_THROUGH ( 1'b0 ),
.DATA_WIDTH ( 1'b0 ),
.DEPTH ( FifoDepth ),
.T ( axi_r_chan_t )
) i_stream_fifo_r_b (
.clk_i,
.rst_ni,
.testmode_i,
.flush_i ( 1'b0 ),
.usage_o ( /* NOT CONNECTED */ ),
.data_i ( axi_b_rsp_i.r ),
.valid_i ( fifo_valid_r_b [id] ),
.ready_o ( fifo_ready_r_b [id] ),
.data_o ( fifo_cmp_data_r_b [id] ),
.valid_o ( fifo_cmp_valid_r_b [id] ),
.ready_i ( fifo_cmp_valid_r_a [id] & fifo_cmp_valid_r_b [id] )
);
end
stream_fifo #(
.FALL_THROUGH ( 1'b0 ),
.DATA_WIDTH ( 1'b0 ),
.DEPTH ( FifoDepth ),
.T ( axi_w_chan_t )
) i_stream_fifo_w_b (
.clk_i,
.rst_ni,
.testmode_i,
.flush_i ( 1'b0 ),
.usage_o ( /* NOT CONNECTED */ ),
.data_i ( axi_b_req_i.w ),
.valid_i ( fifo_sel_valid_w_b ),
.ready_o ( fifo_sel_ready_w_b ),
.data_o ( fifo_cmp_data_w_b ),
.valid_o ( fifo_cmp_valid_w_b ),
.ready_i ( fifo_cmp_valid_w_a & fifo_cmp_valid_w_b )
);
//-----------------------------------
// Input Handshaking B
//-----------------------------------
always_comb begin : gen_handshaking_b
// aw
// defaults
fifo_valid_aw_b = '0;
fifo_sel_ready_aw_b = '0;
// assign according id
fifo_valid_aw_b [axi_b_req_i.aw.id] = fifo_sel_valid_aw_b;
fifo_sel_ready_aw_b = fifo_ready_aw_b[axi_b_req_i.aw.id];
// b
// defaults
fifo_valid_b_b = '0;
fifo_sel_ready_b_b = '0;
// assign according id
fifo_valid_b_b [axi_b_rsp_i.b.id] = fifo_sel_valid_b_b;
fifo_sel_ready_b_b = fifo_ready_b_b[axi_b_rsp_i.b.id];
// ar
// defaults
fifo_valid_ar_b = '0;
fifo_sel_ready_ar_b = '0;
// assign according id
fifo_valid_ar_b [axi_b_req_i.ar.id] = fifo_sel_valid_ar_b;
fifo_sel_ready_ar_b = fifo_ready_ar_b[axi_b_req_i.ar.id];
// b
// defaults
fifo_valid_r_b = '0;
fifo_sel_ready_r_b = '0;
// assign according id
fifo_valid_r_b [axi_b_rsp_i.r.id] = fifo_sel_valid_r_b;
fifo_sel_ready_r_b = fifo_ready_r_b[axi_b_rsp_i.r.id];
end
//-----------------------------------
// Comparison
//-----------------------------------
for (genvar id = 0; id < 2**AxiIdWidth; id++) begin : gen_cmp
logic [DataWidth/8-1:0] r_data_partial_mismatch;
logic r_data_mismatch;
if (UseSize) begin : gen_r_mismatch_sized
for (genvar j = 0; j < DataWidth/8; j++) begin : gen_r_partial_mismatch
assign r_data_partial_mismatch[j] = fifo_cmp_data_r_a[id].data[8*j+:8] != fifo_cmp_data_r_b[id].data[8*j+:8];
end
always_comb begin : proc_r_data_mismatch
r_data_mismatch = '0;
for (int unsigned j = 0; j < DataWidth/8; j++) begin
if (j >= r_lower[id] && j < (r_lower[id] + 2**r_size[id])-((r_lower[id] + 2**r_size[id])%(2**r_size[id])) ) begin
r_data_mismatch |= r_data_partial_mismatch[j];
end
end
end
end else begin : gen_r_mismatch_unsized
assign r_data_mismatch = fifo_cmp_data_r_a[id].data != fifo_cmp_data_r_b[id].data;
end
assign aw_mismatch_o [id] = (fifo_cmp_valid_aw_a [id] & fifo_cmp_valid_aw_b [id]) ?
fifo_cmp_data_aw_a [id] != fifo_cmp_data_aw_b [id] : '0;
assign b_mismatch_o [id] = (fifo_cmp_valid_b_a [id] & fifo_cmp_valid_b_b [id]) ?
fifo_cmp_data_b_a [id] != fifo_cmp_data_b_b [id] : '0;
assign ar_mismatch_o [id] = (fifo_cmp_valid_ar_a [id] & fifo_cmp_valid_ar_b [id]) ?
fifo_cmp_data_ar_a [id] != fifo_cmp_data_ar_b [id] : '0;
assign r_mismatch_o [id] = (fifo_cmp_valid_r_a [id] & fifo_cmp_valid_r_b [id]) ?
( fifo_cmp_data_r_a[id].id != fifo_cmp_data_r_b[id].id |
r_data_mismatch |
fifo_cmp_data_r_a[id].resp != fifo_cmp_data_r_b[id].resp |
fifo_cmp_data_r_a[id].last != fifo_cmp_data_r_b[id].last |
fifo_cmp_data_r_a[id].user != fifo_cmp_data_r_b[id].user )
: '0;
end
logic [DataWidth/8-1:0] w_data_partial_mismatch;
logic w_data_mismatch;
if (UseSize) begin : gen_w_mismatch_sized
for (genvar j = 0; j < DataWidth/8; j++) begin : gen_w_partial_mismatch
assign w_data_partial_mismatch[j] = fifo_cmp_data_w_a.data[8*j+:8] != fifo_cmp_data_w_b.data[8*j+:8] |
fifo_cmp_data_w_a.strb[ j ] != fifo_cmp_data_w_b.strb[ j ];
end
always_comb begin : proc_w_data_mismatch
w_data_mismatch = '0;
for (int unsigned j = 0; j < DataWidth/8; j++) begin
if (j >= w_lower && j < (w_lower + 2**w_size)-((w_lower + 2**w_size)%(2**w_size)) ) begin
w_data_mismatch |= w_data_partial_mismatch[j];
end
end
end
end else begin : gen_w_mismatch_unsized
assign w_data_mismatch = fifo_cmp_data_w_a.data != fifo_cmp_data_w_b.data |
fifo_cmp_data_w_a.strb != fifo_cmp_data_w_b.strb;
end
assign w_mismatch_o = (fifo_cmp_valid_w_a & fifo_cmp_valid_w_b ) ?
( w_data_mismatch |
fifo_cmp_data_w_a.last != fifo_cmp_data_w_b.last |
fifo_cmp_data_w_a.user != fifo_cmp_data_w_b.user )
: '0;
//-----------------------------------
// Outputs
//-----------------------------------
assign busy_o = (|fifo_cmp_valid_aw_a) | (|fifo_cmp_valid_aw_b) |
(|fifo_cmp_valid_w_a) | (|fifo_cmp_valid_w_b) |
(|fifo_cmp_valid_b_a) | (|fifo_cmp_valid_b_b) |
(|fifo_cmp_valid_ar_a) | (|fifo_cmp_valid_ar_b) |
(|fifo_cmp_valid_r_a) | (|fifo_cmp_valid_r_b);
assign mismatch_o = (|aw_mismatch_o) | (|w_mismatch_o) | (|b_mismatch_o) |
(|ar_mismatch_o) | (|r_mismatch_o);
endmodule