cpu/lib/tb/axil_wb_bridge_tb.sv

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Systemverilog
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`include "bh_assert.sv"
`timescale 1ns/1ps
import bh_assert::bh_assert_equal;
import bh_assert::bh_assert_stats;
import bh_assert::bh_info;
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module axil_wb_bridge_tb();
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parameter ADDR_WIDTH = 8;
parameter DATA_WIDTH = 32;
logic clk = 0;
logic reset = 1;
logic axil_awvalid = 0;
wire axil_awready;
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logic [ADDR_WIDTH-1:0] axil_awaddr;
logic [2:0] axil_awprot;
logic axil_wvalid = 0;
wire axil_wready;
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logic [DATA_WIDTH-1:0] axil_wdata;
logic [DATA_WIDTH/8 - 1:0] axil_wstrb;
wire axil_bvalid;
logic axil_bready = 0;
wire [1:0] axil_bresp;
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logic axil_arvalid = 0;
wire axil_arready;
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logic [ADDR_WIDTH-1:0] axil_araddr;
logic [2:0] axil_arprot;
wire axil_rvalid;
logic axil_rready = 0;
wire [DATA_WIDTH-1:0] axil_rdata;
wire [2:0] axil_rresp;
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wire [ADDR_WIDTH-1:0] wb_adr_o;
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logic [DATA_WIDTH-1:0] wb_dat_i;
wire [DATA_WIDTH-1:0] wb_dat_o;
wire wb_we_o;
wire wb_sel_o;
wire wb_stb_o;
logic wb_ack_i = 0;
wire wb_cyc_o;
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axil_wb_bridge #(
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.ADDR_WIDTH(ADDR_WIDTH),
.DATA_WIDTH(DATA_WIDTH)
) dut(
.clk(clk),
.reset(reset),
///// AXI4-Lite /////
// Write address
.axil_awvalid(axil_awvalid),
.axil_awready(axil_awready),
.axil_awaddr(axil_awaddr),
.axil_awprot(axil_awprot),
// Write data
.axil_wvalid(axil_wvalid),
.axil_wready(axil_wready),
.axil_wdata(axil_wdata),
.axil_wstrb(axil_wstrb),
// Write response
.axil_bvalid(axil_bvalid),
.axil_bready(axil_bready),
.axil_bresp(axil_bresp),
// Read address
.axil_arvalid(axil_arvalid),
.axil_arready(axil_arready),
.axil_araddr(axil_araddr),
.axil_arprot(axil_arprot),
// Read data
.axil_rvalid(axil_rvalid),
.axil_rready(axil_rready),
.axil_rdata(axil_rdata),
.axil_rresp(axil_rresp),
///// Wishbone /////
.wb_adr_o(wb_adr_o),
.wb_dat_i(wb_dat_i),
.wb_dat_o(wb_dat_o),
.wb_we_o(wb_we_o),
.wb_sel_o(wb_sel_o),
.wb_stb_o(wb_stb_o),
.wb_ack_i(wb_ack_i),
.wb_cyc_o(wb_cyc_o)
);
logic [DATA_WIDTH-1:0] mem [0:2**ADDR_WIDTH-1];
assign wb_dat_i = mem[wb_adr_o];
always @(posedge clk) begin
if (wb_sel_o && wb_stb_o && wb_cyc_o && wb_ack_i) begin
if (wb_we_o) begin
mem[wb_adr_o] <= wb_dat_o;
bh_info("Wishbone cycle active (write)");
end else begin
bh_info("Wishbone cycle active (read)");
end
end
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if (axil_awvalid && axil_awready) begin
bh_info("AXIL write address cycle active");
end
if (axil_wvalid && axil_wready) begin
bh_info("AXIL write data cycle active");
end
if (axil_bvalid && axil_bready) begin
bh_info("AXIL write response cycle active");
end
if (axil_arvalid && axil_arready) begin
bh_info("AXIL read address cycle active");
end
if (axil_rvalid && axil_rready) begin
bh_info("AXIL read data cycle active");
end
end
integer i;
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always #5 clk <= !clk;
initial begin
$dumpfile("axil_wb_bridge_tb.vcd");
$dumpvars(0, axil_wb_bridge_tb);
for (i=0; i<2**ADDR_WIDTH-1; i=i+1) begin
mem[i] = 0;
end
#10
reset = 0;
#10
bh_info("Initialization checks...");
bh_assert_equal(axil_bvalid, 0, "Initial bvalid");
bh_assert_equal(axil_rvalid, 0, "Initial rvalid");
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// Write 0xdeadbeef @ 12
#10
bh_info("Starting write...");
axil_awaddr = 12;
axil_awprot = 0; // TODO: check protection value
axil_awvalid = 1;
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#10
axil_awvalid = 0;
#10
axil_wdata = 32'hdeadbeef;
axil_wstrb = 4'b1111;
axil_wvalid = 1;
#10
axil_wvalid = 0;
#10
bh_assert_equal(wb_stb_o, 1, "Wishbone write stb");
bh_assert_equal(wb_sel_o, 1, "Wishbone write sel");
bh_assert_equal(wb_cyc_o, 1, "Wishbone write cyc");
bh_assert_equal(wb_we_o, 1, "Wishbone write we");
wb_ack_i = 1;
#10
bh_assert_equal(wb_stb_o && wb_sel_o && wb_cyc_o, 0, "Wishbone write complete (stb && sel && cyc)");
wb_ack_i = 0;
#10
axil_bready = 1;
bh_assert_equal(axil_bvalid, 1, "Write bvalid");
bh_assert_equal(axil_bresp, 0, "Write bresp");
#10
bh_assert_equal(axil_bvalid, 0, "Write bvalid");
axil_bready = 0;
bh_info("Write complete...");
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// Read 0x00000000 @ 13
#10
bh_info("Starting Read...");
axil_araddr = 13;
axil_arprot = 0; // TODO: protection values
axil_arvalid = 1;
#10
axil_arvalid = 0;
#10
bh_assert_equal(wb_stb_o, 1, "Wishbone read stb");
bh_assert_equal(wb_sel_o, 1, "Wishbone read sel");
bh_assert_equal(wb_cyc_o, 1, "Wishbone read cyc");
bh_assert_equal(wb_we_o, 0, "Wishbone read we");
wb_ack_i = 1;
#10
bh_assert_equal(wb_stb_o && wb_sel_o && wb_cyc_o, 0, "Wishbone read complete (stb && sel && cyc)");
wb_ack_i = 0;
#10
bh_assert_equal(axil_rvalid, 1, "Read rvalid");
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bh_assert_equal(axil_rdata, 0, "Read rdata");
bh_assert_equal(axil_rresp, 0, "Read rresp");
axil_rready = 1;
#10
bh_assert_equal(axil_rvalid, 0, "Read rvalid");
axil_rready = 0;
bh_info("Read complete...");
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// Read 0xdeadbeef @ 12
#10
bh_info("Starting Read...");
axil_araddr = 12;
axil_arprot = 0; // TODO: protection values
axil_arvalid = 1;
#10
axil_arvalid = 0;
#10
bh_assert_equal(wb_stb_o, 1, "Wishbone read stb");
bh_assert_equal(wb_sel_o, 1, "Wishbone read sel");
bh_assert_equal(wb_cyc_o, 1, "Wishbone read cyc");
bh_assert_equal(wb_we_o, 0, "Wishbone read we");
wb_ack_i = 1;
#10
bh_assert_equal(wb_stb_o && wb_sel_o && wb_cyc_o, 0, "Wishbone read complete (stb && sel && cyc)");
wb_ack_i = 0;
#10
bh_assert_equal(axil_rvalid, 1, "Read rvalid");
bh_assert_equal(axil_rdata, 32'hdeadbeef, "Read rdata");
bh_assert_equal(axil_rresp, 0, "Read rresp");
axil_rready = 1;
#10
bh_assert_equal(axil_rvalid, 0, "Read rvalid");
axil_rready = 0;
bh_info("Read complete...");
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#10
bh_assert_stats();
$finish;
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// TODO: add more exhaustive testing
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end
endmodule