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////////////////////////////////////////////////////////////////////////////
// SPDX-FileCopyrightText: 2021 , Dinesh Annayya
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the 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.
// SPDX-License-Identifier: Apache-2.0
// SPDX-FileContributor: Modified by Dinesh Annayya <dinesha@opencores.org>
//////////////////////////////////////////////////////////////////////
//// ////
//// Standalone User validation Test bench ////
//// ////
//// This file is part of the Riscduino cores project ////
//// https://github.com/dineshannayya/riscduino.git ////
//// ////
//// Description ////
//// This is a standalone test bench to validate the ////
//// Digital core using spi isp i/f. ////
//// ////
//// To Do: ////
//// nothing ////
//// ////
//// Author(s): ////
//// - Dinesh Annayya, dinesha@opencores.org ////
//// ////
//// Revision : ////
//// 0.1 - 20th Feb 2022, Dinesh A ////
//// ////
//////////////////////////////////////////////////////////////////////
//// ////
//// Copyright (C) 2000 Authors and 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 ////
//// ////
//////////////////////////////////////////////////////////////////////
`default_nettype wire
`timescale 1 ns / 1 ps
`include "sram_macros/sky130_sram_2kbyte_1rw1r_32x512_8.v"
`include "bfm_spim.v"
module user_spi_isp_tb;
reg clock ;
reg wb_rst_i ;
reg power1, power2;
reg power3, power4;
reg wbd_ext_cyc_i; // strobe/request
reg wbd_ext_stb_i; // strobe/request
reg [31:0] wbd_ext_adr_i; // address
reg wbd_ext_we_i; // write
reg [31:0] wbd_ext_dat_i; // data output
reg [3:0] wbd_ext_sel_i; // byte enable
wire [31:0] wbd_ext_dat_o; // data input
wire wbd_ext_ack_o; // acknowlegement
wire wbd_ext_err_o; // error
// User I/O
wire [37:0] io_oeb ;
wire [37:0] io_out ;
wire [37:0] io_in ;
wire [37:0] mprj_io ;
wire [7:0] mprj_io_0 ;
reg test_fail ;
reg [31:0] read_data ;
reg [127:0] la_data_in;
reg flag;
// SCLK
wire sclk;
wire ssn;
wire sdi;
wire sdo;
wire sd_oen;
integer i,j;
// External clock is used by default. Make this artificially fast for the
// simulation. Normally this would be a slow clock and the digital PLL
// would be the fast clock.
always #12.5 clock <= (clock === 1'b0);
initial begin
clock = 0;
la_data_in = 1;
end
`ifdef WFDUMP
initial begin
$dumpfile("simx.vcd");
$dumpvars(0, user_spi_isp_tb);
end
`endif
initial begin
clock = 0;
wbd_ext_cyc_i ='h0; // strobe/request
wbd_ext_stb_i ='h0; // strobe/request
wbd_ext_adr_i ='h0; // address
wbd_ext_we_i ='h0; // write
wbd_ext_dat_i ='h0; // data output
wbd_ext_sel_i ='h0; // byte enable
end
initial
begin
wb_rst_i <= 1'b1;
#100;
wb_rst_i <= 1'b0; // Release reset
$display("Monitor: Standalone User SPI ISP Test Started");
// Remove Wb Reset
u_spim.reg_wr_dword(`ADDR_SPACE_WBHOST+`WBHOST_GLBL_CFG,'h1);
repeat (2) @(posedge clock);
#1;
$display("Monitor: Writing expected value");
test_fail = 0;
u_spim.reg_wr_dword(`ADDR_SPACE_GLBL+`GLBL_CFG_SOFT_REG_0,32'h11223344);
u_spim.reg_wr_dword(`ADDR_SPACE_GLBL+`GLBL_CFG_SOFT_REG_1,32'h22334455);
u_spim.reg_wr_dword(`ADDR_SPACE_GLBL+`GLBL_CFG_SOFT_REG_2,32'h33445566);
u_spim.reg_wr_dword(`ADDR_SPACE_GLBL+`GLBL_CFG_SOFT_REG_3,32'h44556677);
u_spim.reg_wr_dword(`ADDR_SPACE_GLBL+`GLBL_CFG_SOFT_REG_4,32'h55667788);
u_spim.reg_wr_dword(`ADDR_SPACE_GLBL+`GLBL_CFG_SOFT_REG_5,32'h66778899);
u_spim.reg_rd_dword_cmp(`ADDR_SPACE_GLBL+`GLBL_CFG_SOFT_REG_0,32'h11223344);
u_spim.reg_rd_dword_cmp(`ADDR_SPACE_GLBL+`GLBL_CFG_SOFT_REG_1,32'h22334455);
u_spim.reg_rd_dword_cmp(`ADDR_SPACE_GLBL+`GLBL_CFG_SOFT_REG_2,32'h33445566);
u_spim.reg_rd_dword_cmp(`ADDR_SPACE_GLBL+`GLBL_CFG_SOFT_REG_3,32'h44556677);
u_spim.reg_rd_dword_cmp(`ADDR_SPACE_GLBL+`GLBL_CFG_SOFT_REG_4,32'h55667788);
u_spim.reg_rd_dword_cmp(`ADDR_SPACE_GLBL+`GLBL_CFG_SOFT_REG_5,32'h66778899);
$display("###################################################");
if(u_spim.err_cnt == 0) begin
`ifdef GL
$display("Monitor: Standalone User SPI ISP (GL) Passed");
`else
$display("Monitor: Standalone User SPI ISP (RTL) Passed");
`endif
end else begin
`ifdef GL
$display("Monitor: Standalone User SPI ISP (GL) Failed");
`else
$display("Monitor: Standalone User SPI ISP (RTL) Failed");
`endif
end
$display("###################################################");
#100
$finish;
end
wire USER_VDD1V8 = 1'b1;
wire VSS = 1'b0;
user_project_wrapper u_top(
`ifdef USE_POWER_PINS
.vccd1(USER_VDD1V8), // User area 1 1.8V supply
.vssd1(VSS), // User area 1 digital ground
`endif
.wb_clk_i (clock), // System clock
.user_clock2 (1'b1), // Real-time clock
.wb_rst_i (wb_rst_i), // Regular Reset signal
.wbs_cyc_i (wbd_ext_cyc_i), // strobe/request
.wbs_stb_i (wbd_ext_stb_i), // strobe/request
.wbs_adr_i (wbd_ext_adr_i), // address
.wbs_we_i (wbd_ext_we_i), // write
.wbs_dat_i (wbd_ext_dat_i), // data output
.wbs_sel_i (wbd_ext_sel_i), // byte enable
.wbs_dat_o (wbd_ext_dat_o), // data input
.wbs_ack_o (wbd_ext_ack_o), // acknowlegement
// Logic Analyzer Signals
.la_data_in (la_data_in) ,
.la_data_out (),
.la_oenb ('0),
// IOs
.io_in (io_in) ,
.io_out (io_out) ,
.io_oeb (io_oeb) ,
.user_irq ()
);
// SSPI Slave I/F
assign io_in[0] = 1'b1; // RESET
assign io_in[16] = 1'b0 ; // SPIS SCK
`ifndef GL // Drive Power for Hold Fix Buf
// All standard cell need power hook-up for functionality work
initial begin
end
`endif
assign io_in[0] = 1'b0;
assign io_in[16] = sclk;
assign io_in[15] = sdi;
assign sdo = io_out[14];
bfm_spim u_spim (
// SPI
.spi_clk (sclk ),
.spi_sel_n (ssn ),
.spi_din (sdi ),
.spi_dout (sdo )
);
endmodule
`default_nettype wire