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[/] [xge_mac/] [trunk/] [tbench/] [verilog/] [tb_xge_mac.sv] - Rev 27
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//////////////////////////////////////////////////////////////////////
//// ////
//// File name "tb_xge_mac.v" ////
//// ////
//// This file is part of the "10GE MAC" project ////
//// http://www.opencores.org/cores/xge_mac/ ////
//// ////
//// Author(s): ////
//// - A. Tanguay (antanguay@opencores.org) ////
//// ////
//////////////////////////////////////////////////////////////////////
//// ////
//// Copyright (C) 2008 AUTHORS. All rights reserved. ////
//// ////
//// This source file may be used and distributed without ////
//// restriction provided that this copyright statement is not ////
//// removed from the file and that any derivative work contains ////
//// the original copyright notice and the associated disclaimer. ////
//// ////
//// This source file is free software; you can redistribute it ////
//// and/or modify it under the terms of the GNU Lesser General ////
//// Public License as published by the Free Software Foundation; ////
//// either version 2.1 of the License, or (at your option) any ////
//// later version. ////
//// ////
//// This source 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. See the GNU Lesser General Public License for more ////
//// details. ////
//// ////
//// You should have received a copy of the GNU Lesser General ////
//// Public License along with this source; if not, download it ////
//// from http://www.opencores.org/lgpl.shtml ////
//// ////
//////////////////////////////////////////////////////////////////////
`include "timescale.v"
`include "defines.v"
//`define GXB
//`define XIL
//`define XIL_V10
module tb;
/*AUTOREG*/
reg [7:0] tx_buffer[0:10000];
integer tx_length;
reg clk_156m25;
reg clk_312m50;
reg clk_xgmii_rx;
reg clk_xgmii_tx;
reg reset_156m25_n;
reg reset_xgmii_rx_n;
reg reset_xgmii_tx_n;
reg pkt_rx_ren;
reg [63:0] pkt_tx_data;
reg pkt_tx_val;
reg pkt_tx_sop;
reg pkt_tx_eop;
reg [2:0] pkt_tx_mod;
reg wb_clk_i;
reg [31:0] wb_adr_i;
reg wb_cyc_i;
reg [31:0] wb_dat_i;
reg wb_rst_i;
reg wb_stb_i;
reg wb_we_i;
integer tx_count;
integer rx_count;
/*AUTOWIRE*/
// Beginning of automatic wires (for undeclared instantiated-module outputs)
wire pkt_rx_avail; // From dut of xge_mac.v
wire [63:0] pkt_rx_data; // From dut of xge_mac.v
wire pkt_rx_eop; // From dut of xge_mac.v
wire pkt_rx_err; // From dut of xge_mac.v
wire [2:0] pkt_rx_mod; // From dut of xge_mac.v
wire pkt_rx_sop; // From dut of xge_mac.v
wire pkt_rx_val; // From dut of xge_mac.v
wire pkt_tx_full; // From dut of xge_mac.v
wire wb_ack_o; // From dut of xge_mac.v
wire [31:0] wb_dat_o; // From dut of xge_mac.v
wire wb_int_o; // From dut of xge_mac.v
wire [7:0] xgmii_txc; // From dut of xge_mac.v
wire [63:0] xgmii_txd; // From dut of xge_mac.v
// End of automatics
wire [7:0] xgmii_rxc;
wire [63:0] xgmii_rxd;
wire [3:0] tx_dataout;
wire xaui_tx_l0_n;
wire xaui_tx_l0_p;
wire xaui_tx_l1_n;
wire xaui_tx_l1_p;
wire xaui_tx_l2_n;
wire xaui_tx_l2_p;
wire xaui_tx_l3_n;
wire xaui_tx_l3_p;
xge_mac dut(/*AUTOINST*/
// Outputs
.pkt_rx_avail (pkt_rx_avail),
.pkt_rx_data (pkt_rx_data[63:0]),
.pkt_rx_eop (pkt_rx_eop),
.pkt_rx_err (pkt_rx_err),
.pkt_rx_mod (pkt_rx_mod[2:0]),
.pkt_rx_sop (pkt_rx_sop),
.pkt_rx_val (pkt_rx_val),
.pkt_tx_full (pkt_tx_full),
.wb_ack_o (wb_ack_o),
.wb_dat_o (wb_dat_o[31:0]),
.wb_int_o (wb_int_o),
.xgmii_txc (xgmii_txc[7:0]),
.xgmii_txd (xgmii_txd[63:0]),
// Inputs
.clk_156m25 (clk_156m25),
.clk_xgmii_rx (clk_xgmii_rx),
.clk_xgmii_tx (clk_xgmii_tx),
.pkt_rx_ren (pkt_rx_ren),
.pkt_tx_data (pkt_tx_data[63:0]),
.pkt_tx_eop (pkt_tx_eop),
.pkt_tx_mod (pkt_tx_mod[2:0]),
.pkt_tx_sop (pkt_tx_sop),
.pkt_tx_val (pkt_tx_val),
.reset_156m25_n (reset_156m25_n),
.reset_xgmii_rx_n (reset_xgmii_rx_n),
.reset_xgmii_tx_n (reset_xgmii_tx_n),
.wb_adr_i (wb_adr_i[7:0]),
.wb_clk_i (wb_clk_i),
.wb_cyc_i (wb_cyc_i),
.wb_dat_i (wb_dat_i[31:0]),
.wb_rst_i (wb_rst_i),
.wb_stb_i (wb_stb_i),
.wb_we_i (wb_we_i),
.xgmii_rxc (xgmii_rxc[7:0]),
.xgmii_rxd (xgmii_rxd[63:0]));
`ifdef GXB
// Example of transceiver instance
gxb gxb(// Outputs
.rx_ctrldetect ({xgmii_rxc[7],
xgmii_rxc[5],
xgmii_rxc[3],
xgmii_rxc[1],
xgmii_rxc[6],
xgmii_rxc[4],
xgmii_rxc[2],
xgmii_rxc[0]}),
.rx_dataout ({xgmii_rxd[63:56],
xgmii_rxd[47:40],
xgmii_rxd[31:24],
xgmii_rxd[15:8],
xgmii_rxd[55:48],
xgmii_rxd[39:32],
xgmii_rxd[23:16],
xgmii_rxd[7:0]}),
.tx_dataout (tx_dataout[3:0]),
// Inputs
.pll_inclk (clk_156m25),
.rx_analogreset (~reset_156m25_n),
.rx_cruclk ({clk_156m25, clk_156m25, clk_156m25, clk_156m25}),
.rx_datain (tx_dataout[3:0]),
.rx_digitalreset (~reset_156m25_n),
.tx_ctrlenable ({xgmii_txc[7],
xgmii_txc[5],
xgmii_txc[3],
xgmii_txc[1],
xgmii_txc[6],
xgmii_txc[4],
xgmii_txc[2],
xgmii_txc[0]}),
.tx_datain ({xgmii_txd[63:56],
xgmii_txd[47:40],
xgmii_txd[31:24],
xgmii_txd[15:8],
xgmii_txd[55:48],
xgmii_txd[39:32],
xgmii_txd[23:16],
xgmii_txd[7:0]}),
.tx_digitalreset (~reset_156m25_n));
`endif
`ifdef XIL
// Example of transceiver instance
xaui_block xaui(// Outputs
.txoutclk (),
.xgmii_rxd (xgmii_rxd[63:0]),
.xgmii_rxc (xgmii_rxc[7:0]),
.xaui_tx_l0_p (xaui_tx_l0_p),
.xaui_tx_l0_n (xaui_tx_l0_n),
.xaui_tx_l1_p (xaui_tx_l1_p),
.xaui_tx_l1_n (xaui_tx_l1_n),
.xaui_tx_l2_p (xaui_tx_l2_p),
.xaui_tx_l2_n (xaui_tx_l2_n),
.xaui_tx_l3_p (xaui_tx_l3_p),
.xaui_tx_l3_n (xaui_tx_l3_n),
.txlock (),
.align_status (),
.sync_status (),
.mgt_tx_ready (),
.drp_o (),
.drp_rdy (),
.status_vector (),
// Inputs
.dclk (clk_156m25),
.clk156 (clk_156m25),
.clk312 (clk_312m50),
.refclk (clk_156m25),
.reset (~reset_156m25_n),
.reset156 (~reset_156m25_n),
.xgmii_txd (xgmii_txd[63:0]),
.xgmii_txc (xgmii_txc[7:0]),
.xaui_rx_l0_p (xaui_tx_l0_p),
.xaui_rx_l0_n (xaui_tx_l0_n),
.xaui_rx_l1_p (xaui_tx_l1_p),
.xaui_rx_l1_n (xaui_tx_l1_n),
.xaui_rx_l2_p (xaui_tx_l2_p),
.xaui_rx_l2_n (xaui_tx_l2_n),
.xaui_rx_l3_p (xaui_tx_l3_p),
.xaui_rx_l3_n (xaui_tx_l3_n),
.signal_detect (4'b1111),
.drp_addr (7'b0),
.drp_en (2'b0),
.drp_i (16'b0),
.drp_we (2'b0),
.configuration_vector (7'b0));
glbl glbl();
`endif
`ifdef XIL_V10
// Example of transceiver instance
xaui_v10_2_block xaui(// Outputs
.txoutclk (),
.xgmii_rxd (xgmii_rxd[63:0]),
.xgmii_rxc (xgmii_rxc[7:0]),
.xaui_tx_l0_p (xaui_tx_l0_p),
.xaui_tx_l0_n (xaui_tx_l0_n),
.xaui_tx_l1_p (xaui_tx_l1_p),
.xaui_tx_l1_n (xaui_tx_l1_n),
.xaui_tx_l2_p (xaui_tx_l2_p),
.xaui_tx_l2_n (xaui_tx_l2_n),
.xaui_tx_l3_p (xaui_tx_l3_p),
.xaui_tx_l3_n (xaui_tx_l3_n),
.txlock (),
.align_status (),
.sync_status (),
.mgt_tx_ready (),
.drp_o (),
.drp_rdy (),
.status_vector (),
// Inputs
.dclk (clk_156m25),
.clk156 (clk_156m25),
.refclk (clk_156m25),
.reset (~reset_156m25_n),
.reset156 (~reset_156m25_n),
.xgmii_txd (xgmii_txd[63:0]),
.xgmii_txc (xgmii_txc[7:0]),
.xaui_rx_l0_p (xaui_tx_l0_p),
.xaui_rx_l0_n (xaui_tx_l0_n),
.xaui_rx_l1_p (xaui_tx_l1_p),
.xaui_rx_l1_n (xaui_tx_l1_n),
.xaui_rx_l2_p (xaui_tx_l2_p),
.xaui_rx_l2_n (xaui_tx_l2_n),
.xaui_rx_l3_p (xaui_tx_l3_p),
.xaui_rx_l3_n (xaui_tx_l3_n),
.signal_detect (4'b1111),
.drp_addr (9'b0),
.drp_en (4'b0),
.drp_i (16'b0),
.drp_we (4'b0),
.configuration_vector (7'b0));
glbl glbl();
`endif
//---
// Wishbone
initial begin
wb_adr_i <= 8'b0;
wb_cyc_i <= 1'b0;
wb_dat_i <= 32'b0;
wb_rst_i <= 1'b1;
wb_stb_i <= 1'b0;
wb_we_i <= 1'b0;
@(posedge wb_clk_i);
wb_rst_i <= 1'b0;
end
initial begin
tx_count = 0;
rx_count = 0;
end
//---
// XGMII Loopback
// This test is done with loopback on XGMII or using one of the tranceiver examples
`ifndef GXB
`ifndef XIL
`ifndef XIL_V10
assign xgmii_rxc = xgmii_txc;
assign xgmii_rxd = xgmii_txd;
`endif
`endif
`endif
//---
// Clock generation
initial begin
clk_156m25 <= 1'b0;
clk_xgmii_rx <= 1'b0;
clk_xgmii_tx <= 1'b0;
forever begin
WaitPS(3200);
clk_156m25 <= ~clk_156m25;
clk_xgmii_rx <= ~clk_xgmii_rx;
clk_xgmii_tx <= ~clk_xgmii_tx;
end
end
initial begin
wb_clk_i <= 1'b0;
forever begin
WaitPS(20000);
wb_clk_i <= ~wb_clk_i;
end
end
initial begin
clk_312m50 = 1'b0;
forever begin
WaitPS(1600);
clk_312m50 = ~clk_312m50;
end
end
//---
// Reset Generation
initial begin
reset_156m25_n = 1'b0;
reset_xgmii_rx_n = 1'b0;
reset_xgmii_tx_n = 1'b0;
WaitNS(20);
reset_156m25_n = 1'b1;
reset_xgmii_rx_n = 1'b1;
reset_xgmii_tx_n = 1'b1;
end
//---
// Init signals
initial begin
for (tx_length = 0; tx_length <= 1000; tx_length = tx_length + 1) begin
tx_buffer[tx_length] = 0;
end
pkt_rx_ren = 1'b0;
pkt_tx_data = 64'b0;
pkt_tx_val = 1'b0;
pkt_tx_sop = 1'b0;
pkt_tx_eop = 1'b0;
pkt_tx_mod = 3'b0;
end
task WaitNS;
input [31:0] delay;
begin
#(1000*delay);
end
endtask
task WaitPS;
input [31:0] delay;
begin
#(delay);
end
endtask
//---
// Task to read register
task CpuRead;
input [31:0] addr;
output [31:0] data;
begin
@(posedge wb_clk_i);
wb_adr_i <= addr;
wb_cyc_i <= 1'b1;
wb_stb_i <= 1'b1;
@(posedge wb_clk_i);
wb_stb_i <= 1'b0;
@(posedge wb_clk_i);
wb_cyc_i <= 1'b0;
data <= wb_dat_o;
@(posedge wb_clk_i);
end
endtask
//---
// Task to send a single packet
task TxPacket;
integer i;
begin
$display("Transmit packet with length: %d", tx_length);
@(posedge clk_156m25);
WaitNS(1);
pkt_tx_val = 1'b1;
for (i = 0; i < tx_length; i = i + 8) begin
pkt_tx_sop = 1'b0;
pkt_tx_eop = 1'b0;
pkt_tx_mod = 2'b0;
if (i == 0) pkt_tx_sop = 1'b1;
if (i + 8 >= tx_length) begin
pkt_tx_eop = 1'b1;
pkt_tx_mod = tx_length % 8;
end
pkt_tx_data[`LANE7] = tx_buffer[i];
pkt_tx_data[`LANE6] = tx_buffer[i+1];
pkt_tx_data[`LANE5] = tx_buffer[i+2];
pkt_tx_data[`LANE4] = tx_buffer[i+3];
pkt_tx_data[`LANE3] = tx_buffer[i+4];
pkt_tx_data[`LANE2] = tx_buffer[i+5];
pkt_tx_data[`LANE1] = tx_buffer[i+6];
pkt_tx_data[`LANE0] = tx_buffer[i+7];
@(posedge clk_156m25);
WaitNS(1);
end
pkt_tx_val = 1'b0;
pkt_tx_eop = 1'b0;
pkt_tx_mod = 3'b0;
tx_count = tx_count + 1;
end
endtask
//---
// Task to read a single packet from command file and transmit
task CmdTxPacket;
input [31:0] file;
integer count;
integer data;
integer i;
begin
count = $fscanf(file, "%2d", tx_length);
if (count == 1) begin
for (i = 0; i < tx_length; i = i + 1) begin
count = $fscanf(file, "%2X", data);
if (count) begin
tx_buffer[i] = data;
end
end
TxPacket();
end
end
endtask
//---
// Task to read commands from file and stop when complete
task ProcessCmdFile;
integer file_cmd;
integer count;
reg [8*8-1:0] str;
reg [31:0] data;
begin
file_cmd = $fopen("../../tbench/verilog/packets_tx.txt", "r");
if (!file_cmd) $stop;
while (!$feof(file_cmd)) begin
count = $fscanf(file_cmd, "%s", str);
if (count != 1) continue;
$display("CMD %s", str);
case (str)
"SEND_PKT":
begin
CmdTxPacket(file_cmd);
end
endcase
end
$fclose(file_cmd);
WaitNS(50000);
CpuRead(`CPUREG_STATSTXPKTS, data);
CpuRead(`CPUREG_STATSRXPKTS, data);
CpuRead(`CPUREG_STATSTXOCTETS, data);
CpuRead(`CPUREG_STATSRXOCTETS, data);
$stop;
end
endtask
initial begin
WaitNS(5000);
`ifdef XIL
WaitNS(200000);
`endif
ProcessCmdFile();
end
//---
// Task to read a single packet from receive interface and display
task RxPacket;
reg done;
begin
done = 0;
pkt_rx_ren <= 1'b1;
@(posedge clk_156m25);
while (!done) begin
if (pkt_rx_val) begin
if (pkt_rx_sop) begin
$display("\n\n------------------------");
$display("Received Packet");
$display("------------------------");
end
$display("%x", pkt_rx_data);
if (pkt_rx_eop) begin
done <= 1;
pkt_rx_ren <= 1'b0;
end
if (pkt_rx_eop) begin
$display("------------------------\n\n");
end
end
@(posedge clk_156m25);
end
rx_count = rx_count + 1;
end
endtask
initial begin
forever begin
if (pkt_rx_avail) begin
RxPacket();
if (rx_count == tx_count) begin
$display("All packets received. Sumulation done!!!\n");
end
end
@(posedge clk_156m25);
end
end
endmodule
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