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pluto_hdl_adi/library/axi_dmac/tb/regmap_tb.v

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// ***************************************************************************
// ***************************************************************************
// Copyright 2014 - 2017 (c) Analog Devices, Inc. All rights reserved.
//
// In this HDL repository, there are many different and unique modules, consisting
// of various HDL (Verilog or VHDL) components. The individual modules are
// developed independently, and may be accompanied by separate and unique license
// terms.
//
// The user should read each of these license terms, and understand the
// freedoms and responsibilities that he or she has by using this source/core.
//
// This core is distributed in the hope that it will be useful, but WITHOUT ANY
// WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
// A PARTICULAR PURPOSE.
//
// Redistribution and use of source or resulting binaries, with or without modification
// of this file, are permitted under one of the following two license terms:
//
// 1. The GNU General Public License version 2 as published by the
// Free Software Foundation, which can be found in the top level directory
// of this repository (LICENSE_GPL2), and also online at:
// <https://www.gnu.org/licenses/old-licenses/gpl-2.0.html>
//
// OR
//
// 2. An ADI specific BSD license, which can be found in the top level directory
// of this repository (LICENSE_ADIBSD), and also on-line at:
// https://github.com/analogdevicesinc/hdl/blob/master/LICENSE_ADIBSD
// This will allow to generate bit files and not release the source code,
// as long as it attaches to an ADI device.
//
// ***************************************************************************
// ***************************************************************************
`timescale 1ns/100ps
module regmap_tb;
parameter VCD_FILE = {`__FILE__,"cd"};
`define TIMEOUT 1000000
`include "tb_base.v"
localparam DMA_LENGTH_WIDTH = 24;
localparam DMA_LENGTH_ALIGN = 3;
localparam BYTES_PER_BEAT = 1;
localparam DMA_AXI_ADDR_WIDTH = 32;
localparam LENGTH_ALIGN = 2;
localparam LENGTH_MASK = {DMA_LENGTH_WIDTH{1'b1}};
localparam LENGTH_ALIGN_MASK = {LENGTH_ALIGN{1'b1}};
localparam STRIDE_MASK = {{DMA_LENGTH_WIDTH-BYTES_PER_BEAT{1'b1}},{BYTES_PER_BEAT{1'b0}}};
localparam ADDR_MASK = {{DMA_AXI_ADDR_WIDTH-BYTES_PER_BEAT{1'b1}},{BYTES_PER_BEAT{1'b0}}};
localparam VAL_DBG_SRC_ADDR = 32'h76543210;
localparam VAL_DBG_DEST_ADDR = 32'hfedcba98;
localparam VAL_DBG_STATUS = 8'ha5;
localparam VAL_DBG_IDS0 = 32'h01234567;
localparam VAL_DBG_IDS1 = 32'h89abcdef;
localparam AW = 12;
localparam NUM_REGS = 'h200;
wire s_axi_aclk = clk;
wire s_axi_aresetn = ~reset;
reg s_axi_awvalid = 1'b0;
reg s_axi_wvalid = 1'b0;
reg [AW-1:0] s_axi_awaddr = 'h00;
reg [31:0] s_axi_wdata = 'h00;
wire [1:0] s_axi_bresp;
wire s_axi_awready;
wire s_axi_wready;
wire s_axi_bready = 1'b1;
wire [3:0] s_axi_wstrb = 4'b1111;
wire [2:0] s_axi_awprot = 3'b000;
wire [2:0] s_axi_arprot = 3'b000;
wire [1:0] s_axi_rresp;
wire [31:0] s_axi_rdata;
task write_reg;
input [31:0] addr;
input [31:0] value;
begin
@(posedge s_axi_aclk)
s_axi_awvalid <= 1'b1;
s_axi_wvalid <= 1'b1;
s_axi_awaddr <= addr;
s_axi_wdata <= value;
@(posedge s_axi_aclk)
while (s_axi_awvalid || s_axi_wvalid) begin
@(posedge s_axi_aclk)
if (s_axi_awready)
s_axi_awvalid <= 1'b0;
if (s_axi_wready)
s_axi_wvalid <= 1'b0;
end
end
endtask
reg [31:0] expected_reg_mem[0:NUM_REGS-1];
reg [AW-1:0] s_axi_araddr = 'h0;
reg s_axi_arvalid = 'h0;
reg s_axi_rready = 'h0;
wire s_axi_arready;
wire s_axi_rvalid;
task read_reg;
input [31:0] addr;
output [31:0] value;
begin
s_axi_arvalid <= 1'b1;
s_axi_araddr <= addr;
s_axi_rready <= 1'b1;
@(posedge s_axi_aclk) #0;
while (s_axi_arvalid) begin
if (s_axi_arready == 1'b1) begin
s_axi_arvalid <= 1'b0;
end
@(posedge s_axi_aclk) #0;
end
while (s_axi_rready) begin
if (s_axi_rvalid == 1'b1) begin
value <= s_axi_rdata;
s_axi_rready <= 1'b0;
end
@(posedge s_axi_aclk) #0;
end
end
endtask
task read_reg_check;
input [31:0] addr;
output match;
reg [31:0] value;
reg [31:0] expected;
input [255:0] message;
begin
read_reg(addr, value);
expected = expected_reg_mem[addr[11:2]];
match <= value === expected;
if (value !== expected) begin
$display("%0s: Register mismatch for %x. Expected %x, got %x",
message, addr, expected, value);
end
end
endtask
reg read_match = 1'b1;
always @(posedge clk) begin
if (read_match == 1'b0) begin
failed <= 1'b1;
end
end
task set_reset_reg_value;
input [31:0] addr;
input [31:0] value;
begin
expected_reg_mem[addr[AW-1:2]] <= value;
end
endtask
task initialize_expected_reg_mem;
integer i;
begin
for (i = 0; i < NUM_REGS; i = i + 1)
expected_reg_mem[i] <= 'h00;
/* Non zero power-on-reset values */
set_reset_reg_value('h00, 32'h00040161); /* PCORE version register */
set_reset_reg_value('h0c, 32'h444d4143); /* PCORE magic register */
set_reset_reg_value('h80, 'h3); /* IRQ mask */
set_reset_reg_value('h40c, 'h3); /* Flags */
set_reset_reg_value('h418, LENGTH_ALIGN_MASK); /* Length alignment */
set_reset_reg_value('h434, VAL_DBG_DEST_ADDR);
set_reset_reg_value('h438, VAL_DBG_SRC_ADDR);
set_reset_reg_value('h43c, VAL_DBG_STATUS);
set_reset_reg_value('h440, VAL_DBG_IDS0);
set_reset_reg_value('h444, VAL_DBG_IDS1);
end
endtask
task check_all_registers;
input [255:0] message;
integer i;
begin
for (i = 0; i < NUM_REGS*4; i = i + 4) begin
read_reg_check(i, read_match, message);
end
end
endtask
task write_reg_and_update;
input [31:0] addr;
input [31:0] value;
integer i;
begin
write_reg(addr, value);
expected_reg_mem[addr[AW-1:2]] <= value;
end
endtask
task invert_register;
input [31:0] addr;
reg [31:0] value;
begin
read_reg(addr, value);
write_reg(addr, ~value);
end
endtask
task invert_all_registers;
integer i;
begin
for (i = 0; i < NUM_REGS*4; i = i + 4) begin
invert_register(i);
end
end
endtask
reg request_ready = 1'b0;
wire [31:BYTES_PER_BEAT] request_dest_address;
wire [31:BYTES_PER_BEAT] request_src_address;
wire [DMA_LENGTH_WIDTH-1:0] request_x_length;
wire [DMA_LENGTH_WIDTH-1:0] request_y_length;
wire [DMA_LENGTH_WIDTH-1:0] request_dest_stride;
wire [DMA_LENGTH_WIDTH-1:0] request_src_stride;
wire request_last;
reg response_eot = 1'b0;
integer i;
initial begin
initialize_expected_reg_mem();
@(posedge s_axi_aresetn)
check_all_registers("Initial");
/* Check scratch */
write_reg_and_update('h08, 32'h12345678);
check_all_registers("Scratch");
/* Check IRQ mask */
write_reg_and_update('h80, 32'h0);
check_all_registers("IRQ mask");
/* Check transfer registers */
write_reg_and_update('h40c, 'h3);
write_reg_and_update('h410, ADDR_MASK);
write_reg_and_update('h414, ADDR_MASK);
write_reg_and_update('h418, LENGTH_MASK);
write_reg_and_update('h41c, LENGTH_MASK);
write_reg_and_update('h420, STRIDE_MASK);
write_reg_and_update('h424, STRIDE_MASK);
check_all_registers("Transfer setup 1");
/* Check transfer registers */
write_reg_and_update('h40c, {$random} & 'h3);
write_reg_and_update('h410, {$random} & ADDR_MASK);
write_reg_and_update('h414, {$random} & ADDR_MASK);
write_reg_and_update('h418, {$random} & LENGTH_MASK | LENGTH_ALIGN_MASK);
write_reg_and_update('h41c, {$random} & LENGTH_MASK);
write_reg_and_update('h420, {$random} & STRIDE_MASK);
write_reg_and_update('h424, {$random} & STRIDE_MASK);
check_all_registers("Transfer setup 2");
/* Start transfer */
write_reg_and_update('h400, 'h01);
write_reg_and_update('h408, 'h01);
check_all_registers("Transfer submitted");
@(posedge clk) request_ready <= 1'b1;
/* Interrupt pending */
set_reset_reg_value('h84, 'h01);
set_reset_reg_value('h88, 'h01);
/* Transfer ID */
set_reset_reg_value('h404, 'h01);
/* Tansfer pending */
set_reset_reg_value('h408, 'h00);
check_all_registers("Transfer accepted");
@(posedge clk) response_eot <= 1'b1;
@(posedge clk) response_eot <= 1'b0;
/* Interrupt registers */
set_reset_reg_value('h84, 'h03);
set_reset_reg_value('h88, 'h03);
/* Transfer done */
set_reset_reg_value('h428, 'h01);
/* Active ID */
set_reset_reg_value('h42c, 'h01);
check_all_registers("Transfer completed");
/* Clear interrupts */
write_reg('h84, 'h01);
set_reset_reg_value('h84, 'h02);
set_reset_reg_value('h88, 'h02);
check_all_registers("Clear interrupts 1");
write_reg('h84, 'h02);
set_reset_reg_value('h84, 'h00);
set_reset_reg_value('h88, 'h00);
check_all_registers("Clear interrupts 2");
/* Check that reset works for all registers */
do_trigger_reset();
initialize_expected_reg_mem();
check_all_registers("Reset 1");
invert_all_registers();
do_trigger_reset();
check_all_registers("Reset 2");
end
axi_dmac_regmap #(
.ID(0),
.BYTES_PER_BEAT_WIDTH_DEST(BYTES_PER_BEAT),
.BYTES_PER_BEAT_WIDTH_SRC(BYTES_PER_BEAT),
.DMA_AXI_ADDR_WIDTH(DMA_AXI_ADDR_WIDTH),
.DMA_LENGTH_WIDTH(DMA_LENGTH_WIDTH),
.DMA_LENGTH_ALIGN(DMA_LENGTH_ALIGN),
.DMA_CYCLIC(1),
.HAS_DEST_ADDR(1),
.HAS_SRC_ADDR(1),
.DMA_2D_TRANSFER(1)
) i_axi (
.s_axi_aclk(s_axi_aclk),
.s_axi_aresetn(s_axi_aresetn),
.s_axi_awvalid(s_axi_awvalid),
.s_axi_awaddr(s_axi_awaddr),
.s_axi_awready(s_axi_awready),
.s_axi_awprot(s_axi_awprot),
.s_axi_wvalid(s_axi_wvalid),
.s_axi_wdata(s_axi_wdata),
.s_axi_wstrb(s_axi_wstrb),
.s_axi_wready(s_axi_wready),
.s_axi_bvalid(s_axi_bvalid),
.s_axi_bresp(s_axi_bresp),
.s_axi_bready(s_axi_bready),
.s_axi_arvalid(s_axi_arvalid),
.s_axi_araddr(s_axi_araddr),
.s_axi_arready(s_axi_arready),
.s_axi_arprot(s_axi_arprot),
.s_axi_rvalid(s_axi_rvalid),
.s_axi_rready(s_axi_rready),
.s_axi_rresp(s_axi_rresp),
.s_axi_rdata(s_axi_rdata),
.request_valid(request_valid),
.request_ready(request_ready),
.request_dest_address(request_dest_address),
.request_src_address(request_src_address),
.request_x_length(request_x_length),
.request_y_length(request_y_length),
.request_dest_stride(request_dest_stride),
.request_src_stride(request_src_stride),
.request_last(request_last),
.response_eot(response_eot),
.dbg_src_addr(VAL_DBG_SRC_ADDR),
.dbg_dest_addr(VAL_DBG_DEST_ADDR),
.dbg_status(VAL_DBG_STATUS),
.dbg_ids0(VAL_DBG_IDS0),
.dbg_ids1(VAL_DBG_IDS1)
);
endmodule
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