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[/] [or1k_old/] [trunk/] [rc203soc/] [rtl/] [verilog/] [uart16550/] [bench/] [verilog/] [uart_test.v] - Rev 1782
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////////////////////////////////////////////////////////////////////// //// //// //// uart_test.v //// //// //// //// //// //// This file is part of the "UART 16550 compatible" project //// //// http://www.opencores.org/cores/uart16550/ //// //// //// //// Documentation related to this project: //// //// - http://www.opencores.org/cores/uart16550/ //// //// //// //// Projects compatibility: //// //// - WISHBONE //// //// RS232 Protocol //// //// 16550D uart (mostly supported) //// //// //// //// Overview (main Features): //// //// UART core test bench //// //// //// //// Known problems (limits): //// //// A very simple test bench. Creates two UARTS and sends //// //// data on to the other. //// //// //// //// To Do: //// //// More complete testing should be done!!! //// //// //// //// Author(s): //// //// - gorban@opencores.org //// //// - Jacob Gorban //// //// //// //// Created: 2001/05/12 //// //// Last Updated: 2001/05/17 //// //// (See log for the revision history) //// //// //// //// //// ////////////////////////////////////////////////////////////////////// //// //// //// Copyright (C) 2000 Jacob Gorban, gorban@opencores.org //// //// //// //// 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 //// //// //// ////////////////////////////////////////////////////////////////////// // // CVS Revision History // // $Log: not supported by cvs2svn $ // Revision 1.3 2001/05/31 20:08:01 gorban // FIFO changes and other corrections. // // Revision 1.2 2001/05/17 18:34:18 gorban // First 'stable' release. Should be sythesizable now. Also added new header. // // Revision 1.0 2001-05-17 21:27:12+02 jacob // Initial revision // // //`define DATA_BUS_WIDTH_8 `include "timescale.v" module uart_test (); `include "uart_defines.v" reg clkr; reg wb_rst_ir; wire [`UART_ADDR_WIDTH-1:0] wb_adr_i; wire [31:0] wb_dat_i; wire [31:0] wb_dat_o; wire [3:0] wb_sel_i; wire pad_stx_o; reg pad_srx_ir; integer e; uart_top uart_snd( clk, // Wishbone signals wb_rst_i, wb_adr_i, wb_dat_i, wb_dat_o, wb_we_i, wb_stb_i, wb_cyc_i, wb_ack_o, wb_sel_i, int_o, // interrupt request // UART signals // serial input/output pad_stx_o, pad_srx_i, // modem signals rts_o, cts_i, dtr_o, dsr_i, ri_i, dcd_i `ifdef UART_HAS_BAUDRATE_OUTPUT , baud1_o `endif ); // All the signals and regs named with a 1 are receiver fifo signals wire [`UART_ADDR_WIDTH-1:0] wb1_adr_i; wire [31:0] wb1_dat_i; wire [31:0] wb1_dat_o; wire [3:0] wb1_sel_i; wire int1_o; wire stx1_o; reg srx1_ir; uart_top uart_rcv( clk, // Wishbone signals wb_rst_i, wb1_adr_i, wb1_dat_i, wb1_dat_o, wb1_we_i, wb1_stb_i, wb1_cyc_i, wb1_ack_o, wb1_sel_i, int1_o, // interrupt request // UART signals // serial input/output stx1_o, srx1_i, // modem signals rts1_o, cts1_i, dtr1_o, dsr1_i, ri1_i, dcd1_i `ifdef UART_HAS_BAUDRATE_OUTPUT , baud2_o `endif ); assign clk = clkr; assign wb_rst_i = wb_rst_ir; assign pad_srx_i = pad_srx_ir; assign cts_i = 1; //cts_ir; assign dsr_i = 1; //dsr_ir; assign ri_i = 1; //ri_ir; assign dcd_i = 1; //dcd_ir; assign srx1_i = srx1_ir; assign cts1_i = 1; //cts1_ir; assign dsr1_i = 1; //dsr1_ir; assign ri1_i = 1; //ri1_ir; assign dcd1_i = 1; //dcd1_ir; reg [31:0] dat_o; /////////// CONNECT THE UARTS always @(pad_stx_o) begin srx1_ir = pad_stx_o; end initial begin clkr = 0; #50000 $finish; end wb_mast wbm(// Outputs .adr (wb_adr_i), .dout (wb_dat_i), .cyc (wb_cyc_i), .stb (wb_stb_i), .sel (wb_sel_i), .we (wb_we_i), // Inputs .clk (clk), .rst (wb_rst_i), .din (wb_dat_o), .ack (wb_ack_o), .err (1'b0), .rty (1'b0)); wb_mast wbm1(// Outputs .adr (wb1_adr_i), .dout (wb1_dat_i), .cyc (wb1_cyc_i), .stb (wb1_stb_i), .sel (wb1_sel_i), .we (wb1_we_i), // Inputs .clk (clk), .rst (wb_rst_i), .din (wb1_dat_o), .ack (wb1_ack_o), .err (1'b0), .rty (1'b0)); // The test sequence initial begin #1 wb_rst_ir = 1; #10 wb_rst_ir = 0; //write to lcr. set bit 7 //wb_cyc_ir = 1; wbm.wb_wr1(`UART_REG_LC, 4'b1000, {8'b10011011, 24'b0}); // set dl to divide by 3 wbm.wb_wr1(`UART_REG_DL1,4'b0001, 32'd2); @(posedge clk); @(posedge clk); // restore normal registers wbm.wb_wr1(`UART_REG_LC, 4'b1000, {8'b00011011, 24'b0}); //00011011 fork begin $display("%m : %t : sending : %h", $time, 8'b10000001); wbm.wb_wr1(0, 4'b1, 32'b10000001); @(posedge clk); @(posedge clk); $display("%m : %t : sending : %h", $time, 8'b01000010); wbm.wb_wr1(0, 4'b1, 32'b01000010); @(posedge clk); @(posedge clk); $display("%m : %t : sending : %h", $time, 8'b11000011); wbm.wb_wr1(0, 4'b1, 32'b11000011); @(posedge clk); @(posedge clk); $display("%m : %t : sending : %h", $time, 8'b00100100); wbm.wb_wr1(0, 4'b1, 32'b00100100); @(posedge clk); @(posedge clk); $display("%m : %t : sending : %h", $time, 8'b10100101); wbm.wb_wr1(0, 4'b1, 32'b10100101); @(posedge clk); @(posedge clk); $display("%m : %t : sending : %h", $time, 8'b01100110); wbm.wb_wr1(0, 4'b1, 32'b01100110); @(posedge clk); @(posedge clk); $display("%m : %t : sending : %h", $time, 8'b11100111); wbm.wb_wr1(0, 4'b1, 32'b11100111); @(posedge clk); @(posedge clk); $display("%m : %t : sending : %h", $time, 8'b00011000); wbm.wb_wr1(0, 4'b1, 32'b00011000); wait (uart_snd.regs.tstate==0 && uart_snd.regs.transmitter.tf_count==0); // disable check; end // begin: check // end join end always @(int1_o) if (int1_o) $display("INT_O high (%g)", $time); else $display("INT_O low (%g)", $time); always @(int1_o) begin if (int1_o) begin wbm1.wb_rd1(2,4'b0100, dat_o); $display("IIR : %h", dat_o); wbm1.wb_rd1(5,4'b0010, dat_o); $display("LSR : %h", dat_o); wbm1.wb_rd1(0, 4'b1, dat_o); $display("%m : %t : Data out: %h", $time, dat_o); end end // receiver side initial begin #11; //write to lcr. set bit 7 //wb_cyc_ir = 1; wbm1.wb_wr1(`UART_REG_LC, 4'b1000, {8'b10011011, 24'b0}); // set dl to divide by 3 wbm1.wb_wr1(`UART_REG_DL1, 4'b1, 32'd2); @(posedge clk); @(posedge clk); // restore normal registers wbm1.wb_wr1(`UART_REG_LC, 4'b1000, {8'b00011011, 24'b0}); wbm1.wb_wr1(`UART_REG_IE, 4'b0010, {16'b0, 8'b00001111, 8'b0}); wait(uart_rcv.regs.receiver.rf_count == 2); e = 800; while (e > 0) begin @(posedge clk) if (uart_rcv.regs.enable) e = e - 1; end wbm1.wb_rd1(0, 4'b1, dat_o); $display("%m : %t : Data out: %h", $time, dat_o); @(posedge clk); wbm1.wb_rd1(0, 4'b1, dat_o); $display("%m : %t : Data out: %h", $time, dat_o); $display("%m : Finish"); e = 800; while (e > 0) begin @(posedge clk) if (uart_rcv.regs.enable) e = e - 1; end e = 800; while (e > 0) begin @(posedge clk) if (uart_rcv.regs.enable) e = e - 1; end $finish; end //always @(uart_rcv.regs.rstate) //begin // $display($time,": Receiver state changed to: ", uart_rcv.regs.rstate); //end initial begin `ifdef DATA_BUS_WIDTH_8 $display("DATA BUS IS 8"); `else $display("DATA BUS IS 32"); `endif $display("%d %d", `UART_ADDR_WIDTH, `UART_DATA_WIDTH); end always begin #5 clkr = ~clk; end endmodule