//////////////////////////////////////////////////////////////////////
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//////////////////////////////////////////////////////////////////////
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//// ////
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//// ////
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//// SPI WishBone Register I/F Module ////
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//// SPI WishBone Register I/F Module ////
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//// ////
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//// ////
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//// This file is part of the YIFive cores project ////
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//// This file is part of the YIFive cores project ////
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//// http://www.opencores.org/cores/yifive/ ////
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//// http://www.opencores.org/cores/yifive/ ////
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//// ////
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//// ////
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//// Description ////
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//// Description ////
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//// SPI WishBone I/F module ////
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//// SPI WishBone I/F module ////
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//// This block support following functionality ////
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//// This block support following functionality ////
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//// 1. Direct SPI Read memory support for address rang ////
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//// 1. Direct SPI Read memory support for address rang ////
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//// 0x0000 to 0x0FFF_FFFF - Use full for Instruction ////
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//// 0x0000 to 0x0FFF_FFFF - Use full for Instruction ////
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//// Data Memory fetch ////
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//// Data Memory fetch ////
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//// 2. SPI Local Register Access ////
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//// 2. SPI Local Register Access ////
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//// 3. Indirect register way to access SPI Memory ////
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//// 3. Indirect register way to access SPI Memory ////
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//// ////
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//// ////
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//// To Do: ////
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//// To Do: ////
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//// nothing ////
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//// nothing ////
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//// ////
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//// ////
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//// Author(s): ////
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//// Author(s): ////
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//// - Dinesh Annayya, dinesha@opencores.org ////
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//// - Dinesh Annayya, dinesha@opencores.org ////
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//// ////
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//// ////
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//// Revision : ////
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//// Revision : ////
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//// V.0 - June 8, 2021 ////
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//// V.0 - June 8, 2021 ////
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//// ////
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//// ////
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//////////////////////////////////////////////////////////////////////
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//////////////////////////////////////////////////////////////////////
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//// ////
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//// ////
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//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
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//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
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//// ////
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//// ////
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//// This source file may be used and distributed without ////
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//// This source file may be used and distributed without ////
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//// restriction provided that this copyright statement is not ////
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//// restriction provided that this copyright statement is not ////
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//// removed from the file and that any derivative work contains ////
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//// removed from the file and that any derivative work contains ////
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//// the original copyright notice and the associated disclaimer. ////
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//// the original copyright notice and the associated disclaimer. ////
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//// ////
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//// ////
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//// This source file is free software; you can redistribute it ////
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//// This source file is free software; you can redistribute it ////
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//// and/or modify it under the terms of the GNU Lesser General ////
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//// and/or modify it under the terms of the GNU Lesser General ////
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//// Public License as published by the Free Software Foundation; ////
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//// Public License as published by the Free Software Foundation; ////
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//// either version 2.1 of the License, or (at your option) any ////
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//// either version 2.1 of the License, or (at your option) any ////
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//// later version. ////
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//// later version. ////
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//// ////
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//// ////
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//// This source is distributed in the hope that it will be ////
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//// This source is distributed in the hope that it will be ////
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//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
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//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
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//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
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//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
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//// PURPOSE. See the GNU Lesser General Public License for more ////
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//// PURPOSE. See the GNU Lesser General Public License for more ////
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//// details. ////
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//// details. ////
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//// ////
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//// ////
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//// You should have received a copy of the GNU Lesser General ////
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//// You should have received a copy of the GNU Lesser General ////
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//// Public License along with this source; if not, download it ////
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//// Public License along with this source; if not, download it ////
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//// from http://www.opencores.org/lgpl.shtml ////
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//// from http://www.opencores.org/lgpl.shtml ////
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//// ////
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//// ////
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//////////////////////////////////////////////////////////////////////
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//////////////////////////////////////////////////////////////////////
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module spim_regs #( parameter WB_WIDTH = 32) (
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module spim_regs #( parameter WB_WIDTH = 32) (
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input logic mclk,
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input logic mclk,
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input logic rst_n,
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input logic rst_n,
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input logic wbd_stb_i, // strobe/request
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input logic wbd_stb_i, // strobe/request
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input logic [WB_WIDTH-1:0] wbd_adr_i, // address
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input logic [WB_WIDTH-1:0] wbd_adr_i, // address
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input logic wbd_we_i, // write
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input logic wbd_we_i, // write
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input logic [WB_WIDTH-1:0] wbd_dat_i, // data output
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input logic [WB_WIDTH-1:0] wbd_dat_i, // data output
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input logic [3:0] wbd_sel_i, // byte enable
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input logic [3:0] wbd_sel_i, // byte enable
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output logic [WB_WIDTH-1:0] wbd_dat_o, // data input
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output logic [WB_WIDTH-1:0] wbd_dat_o, // data input
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output logic wbd_ack_o, // acknowlegement
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output logic wbd_ack_o, // acknowlegement
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output logic wbd_err_o, // error
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output logic wbd_err_o, // error
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output logic [7:0] spi_clk_div,
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output logic [7:0] spi_clk_div,
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output logic spi_clk_div_valid,
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output logic spi_clk_div_valid,
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input logic [7:0] spi_status,
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input logic [8:0] spi_status,
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// Towards SPI TX/RX FSM
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// Towards SPI TX/RX FSM
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output logic spi_req,
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output logic spi_req,
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output logic [31:0] spi_addr,
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output logic [31:0] spi_addr,
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output logic [5:0] spi_addr_len,
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output logic [5:0] spi_addr_len,
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output logic [7:0] spi_cmd,
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output logic [7:0] spi_cmd,
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output logic [5:0] spi_cmd_len,
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output logic [5:0] spi_cmd_len,
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output logic [7:0] spi_mode_cmd,
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output logic [7:0] spi_mode_cmd,
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output logic spi_mode_cmd_enb,
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output logic spi_mode_cmd_enb,
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output logic [3:0] spi_csreg,
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output logic [3:0] spi_csreg,
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output logic [15:0] spi_data_len,
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output logic [15:0] spi_data_len,
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output logic [15:0] spi_dummy_rd_len,
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output logic [15:0] spi_dummy_rd_len,
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output logic [15:0] spi_dummy_wr_len,
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output logic [15:0] spi_dummy_wr_len,
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output logic spi_swrst,
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output logic spi_swrst,
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output logic spi_rd,
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output logic spi_rd,
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output logic spi_wr,
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output logic spi_wr,
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output logic spi_qrd,
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output logic spi_qrd,
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output logic spi_qwr,
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output logic spi_qwr,
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output logic [31:0] spi_wdata,
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output logic [31:0] spi_wdata,
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input logic [31:0] spi_rdata,
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input logic [31:0] spi_rdata,
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input logic spi_ack
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input logic spi_ack
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);
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);
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//----------------------------
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//----------------------------
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// Register Decoding
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// Register Decoding
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// ---------------------------
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// ---------------------------
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parameter REG_CTRL = 4'b0000;
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parameter REG_CTRL = 4'b0000;
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parameter REG_CLKDIV = 4'b0001;
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parameter REG_CLKDIV = 4'b0001;
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parameter REG_SPICMD = 4'b0010;
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parameter REG_SPICMD = 4'b0010;
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parameter REG_SPIADR = 4'b0011;
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parameter REG_SPIADR = 4'b0011;
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parameter REG_SPILEN = 4'b0100;
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parameter REG_SPILEN = 4'b0100;
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parameter REG_SPIDUM = 4'b0101;
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parameter REG_SPIDUM = 4'b0101;
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parameter REG_SPIWDATA = 4'b0110;
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parameter REG_SPIWDATA = 4'b0110;
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parameter REG_SPIRDATA = 4'b0111;
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parameter REG_SPIRDATA = 4'b0111;
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parameter REG_STATUS = 4'b1000;
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parameter REG_STATUS = 4'b1000;
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// Init FSM
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// Init FSM
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parameter SPI_INIT_IDLE = 3'b000;
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parameter SPI_INIT_IDLE = 3'b000;
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parameter SPI_INIT_CMD_WAIT = 3'b001;
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parameter SPI_INIT_CMD_WAIT = 3'b001;
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parameter SPI_INIT_WRR_CMD = 3'b010;
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parameter SPI_INIT_WREN_CMD = 3'b010;
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parameter SPI_INIT_WRR_WAIT = 3'b011;
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parameter SPI_INIT_WREN_WAIT = 3'b011;
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parameter SPI_INIT_WRR_CMD = 3'b100;
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parameter SPI_INIT_WRR_WAIT = 3'b101;
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//---------------------------------------------------------
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//---------------------------------------------------------
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// Variable declartion
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// Variable declartion
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// -------------------------------------------------------
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// -------------------------------------------------------
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logic spi_init_done ;
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logic spi_init_done ;
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logic [2:0] spi_init_state ;
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logic [2:0] spi_init_state ;
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logic spim_mem_req ;
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logic spim_mem_req ;
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logic spim_reg_req ;
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logic spim_reg_req ;
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logic spim_wb_req ;
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logic spim_wb_req ;
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logic spim_wb_req_l ;
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logic spim_wb_req_l ;
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logic [WB_WIDTH-1:0] spim_wb_wdata ;
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logic [WB_WIDTH-1:0] spim_wb_wdata ;
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logic [WB_WIDTH-1:0] spim_wb_addr ;
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logic [WB_WIDTH-1:0] spim_wb_addr ;
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logic spim_wb_ack ;
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logic spim_wb_ack ;
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logic spim_wb_we ;
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logic spim_wb_we ;
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logic [3:0] spim_wb_be ;
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logic [3:0] spim_wb_be ;
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logic [WB_WIDTH-1:0] spim_reg_rdata ;
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logic [WB_WIDTH-1:0] spim_reg_rdata ;
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logic [WB_WIDTH-1:0] spim_wb_rdata ;
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logic [WB_WIDTH-1:0] spim_wb_rdata ;
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logic [WB_WIDTH-1:0] reg_rdata ;
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logic [WB_WIDTH-1:0] reg_rdata ;
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// Control Signal Generated from Reg to SPI Access
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// Control Signal Generated from Reg to SPI Access
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logic reg2spi_req;
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logic reg2spi_req;
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logic [31:0] reg2spi_addr;
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logic [31:0] reg2spi_addr;
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logic [5:0] reg2spi_addr_len;
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logic [5:0] reg2spi_addr_len;
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logic [31:0] reg2spi_cmd;
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logic [31:0] reg2spi_cmd;
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logic [5:0] reg2spi_cmd_len;
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logic [5:0] reg2spi_cmd_len;
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logic [3:0] reg2spi_csreg;
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logic [3:0] reg2spi_csreg;
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logic [15:0] reg2spi_data_len;
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logic [15:0] reg2spi_data_len;
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logic reg2spi_mode_enb; // mode enable
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logic reg2spi_mode_enb; // mode enable
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logic [7:0] reg2spi_mode; // mode
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logic [7:0] reg2spi_mode; // mode
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logic [15:0] reg2spi_dummy_rd_len;
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logic [15:0] reg2spi_dummy_rd_len;
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logic [15:0] reg2spi_dummy_wr_len;
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logic [15:0] reg2spi_dummy_wr_len;
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logic reg2spi_swrst;
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logic reg2spi_swrst;
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logic reg2spi_rd;
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logic reg2spi_rd;
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logic reg2spi_wr;
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logic reg2spi_wr;
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logic reg2spi_qrd;
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logic reg2spi_qrd;
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logic reg2spi_qwr;
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logic reg2spi_qwr;
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logic [31:0] reg2spi_wdata;
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logic [31:0] reg2spi_wdata;
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//------------------------------------------------------------------
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//------------------------------------------------------------------
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// Priority given to mem2spi request over Reg2Spi
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// Priority given to mem2spi request over Reg2Spi
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assign spi_req = (spim_mem_req && !spim_wb_we) ? 1'b1 : reg2spi_req;
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assign spi_req = (spim_mem_req && !spim_wb_we) ? 1'b1 : reg2spi_req;
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assign spi_addr = (spim_mem_req && !spim_wb_we) ? {spim_wb_addr[23:0],8'h0} : reg2spi_addr;
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assign spi_addr = (spim_mem_req && !spim_wb_we) ? {spim_wb_addr[23:0],8'h0} : reg2spi_addr;
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assign spi_addr_len = (spim_mem_req && !spim_wb_we) ? 24 : reg2spi_addr_len;
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assign spi_addr_len = (spim_mem_req && !spim_wb_we) ? 24 : reg2spi_addr_len;
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assign spi_cmd = (spim_mem_req && !spim_wb_we) ? 8'hEB : reg2spi_cmd;
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assign spi_cmd = (spim_mem_req && !spim_wb_we) ? 8'hEB : reg2spi_cmd;
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assign spi_cmd_len = (spim_mem_req && !spim_wb_we) ? 8 : reg2spi_cmd_len;
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assign spi_cmd_len = (spim_mem_req && !spim_wb_we) ? 8 : reg2spi_cmd_len;
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assign spi_mode_cmd = (spim_mem_req && !spim_wb_we) ? 8'h00 : reg2spi_mode;
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assign spi_mode_cmd = (spim_mem_req && !spim_wb_we) ? 8'h00 : reg2spi_mode;
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assign spi_mode_cmd_enb = (spim_mem_req && !spim_wb_we) ? 1 : reg2spi_mode_enb;
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assign spi_mode_cmd_enb = (spim_mem_req && !spim_wb_we) ? 1 : reg2spi_mode_enb;
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assign spi_csreg = (spim_mem_req && !spim_wb_we) ? '1 : reg2spi_csreg;
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assign spi_csreg = (spim_mem_req && !spim_wb_we) ? '1 : reg2spi_csreg;
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assign spi_data_len = (spim_mem_req && !spim_wb_we) ? 'h10 : reg2spi_data_len;
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assign spi_data_len = (spim_mem_req && !spim_wb_we) ? 'h20 : reg2spi_data_len;
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assign spi_dummy_rd_len = (spim_mem_req && !spim_wb_we) ? 16 : reg2spi_dummy_rd_len;
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assign spi_dummy_rd_len = (spim_mem_req && !spim_wb_we) ? 'h20 : reg2spi_dummy_rd_len;
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assign spi_dummy_wr_len = (spim_mem_req && !spim_wb_we) ? 0 : reg2spi_dummy_wr_len;
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assign spi_dummy_wr_len = (spim_mem_req && !spim_wb_we) ? 0 : reg2spi_dummy_wr_len;
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assign spi_swrst = (spim_mem_req && !spim_wb_we) ? 0 : reg2spi_swrst;
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assign spi_swrst = (spim_mem_req && !spim_wb_we) ? 0 : reg2spi_swrst;
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assign spi_rd = (spim_mem_req && !spim_wb_we) ? 0 : reg2spi_rd;
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assign spi_rd = (spim_mem_req && !spim_wb_we) ? 0 : reg2spi_rd;
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assign spi_wr = (spim_mem_req && !spim_wb_we) ? 0 : reg2spi_wr;
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assign spi_wr = (spim_mem_req && !spim_wb_we) ? 0 : reg2spi_wr;
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assign spi_qrd = (spim_mem_req && !spim_wb_we) ? 1 : reg2spi_qrd;
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assign spi_qrd = (spim_mem_req && !spim_wb_we) ? 1 : reg2spi_qrd;
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assign spi_qwr = (spim_mem_req && !spim_wb_we) ? 0 : reg2spi_qwr;
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assign spi_qwr = (spim_mem_req && !spim_wb_we) ? 0 : reg2spi_qwr;
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assign spi_wdata = (spim_mem_req && !spim_wb_we) ? 0 : reg2spi_wdata;
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assign spi_wdata = (spim_mem_req && !spim_wb_we) ? 0 : reg2spi_wdata;
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//---------------------------------------------------------------
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//---------------------------------------------------------------
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// Address Decoding
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// Address Decoding
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// 0x0000_0000 - 0x0FFF_FFFF - SPI FLASH MEMORY ACCESS - 256MB
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// 0x0000_0000 - 0x0FFF_FFFF - SPI FLASH MEMORY ACCESS - 256MB
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// 0x1000_0000 - - SPI Register Access
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// 0x1000_0000 - - SPI Register Access
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// --------------------------------------------------------------
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// --------------------------------------------------------------
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assign spim_mem_req = ((spim_wb_req) && spim_wb_addr[31:28] == 4'b0000);
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assign spim_mem_req = ((spim_wb_req) && spim_wb_addr[31:28] == 4'b0000);
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assign spim_reg_req = ((spim_wb_req) && spim_wb_addr[31:28] == 4'b0001);
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assign spim_reg_req = ((spim_wb_req) && spim_wb_addr[31:28] == 4'b0001);
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assign wbd_dat_o = spim_wb_rdata;
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assign wbd_dat_o = spim_wb_rdata;
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assign wbd_ack_o = spim_wb_ack;
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assign wbd_ack_o = spim_wb_ack;
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assign wbd_err_o = 1'b0;
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assign wbd_err_o = 1'b0;
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// To reduce the load/Timing Wishbone I/F, all the variable are registered
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// To reduce the load/Timing Wishbone I/F, all the variable are registered
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always_ff @(negedge rst_n or posedge mclk) begin
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always_ff @(negedge rst_n or posedge mclk) begin
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if ( rst_n == 1'b0 ) begin
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if ( rst_n == 1'b0 ) begin
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spim_wb_req <= '0;
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spim_wb_req <= '0;
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spim_wb_req_l <= '0;
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spim_wb_req_l <= '0;
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spim_wb_wdata <= '0;
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spim_wb_wdata <= '0;
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spim_wb_rdata <= '0;
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spim_wb_rdata <= '0;
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spim_wb_addr <= '0;
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spim_wb_addr <= '0;
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spim_wb_be <= '0;
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spim_wb_be <= '0;
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spim_wb_we <= '0;
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spim_wb_we <= '0;
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spim_wb_ack <= '0;
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spim_wb_ack <= '0;
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end else begin
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end else begin
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spim_wb_req <= wbd_stb_i;
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if(spi_init_done) begin // Wait for internal SPI Init Done
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spim_wb_req <= wbd_stb_i && (spi_ack == 0) && (spim_wb_ack==0);
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spim_wb_req_l <= spim_wb_req;
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spim_wb_req_l <= spim_wb_req;
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spim_wb_wdata <= wbd_dat_i;
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spim_wb_wdata <= wbd_dat_i;
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spim_wb_addr <= wbd_adr_i;
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spim_wb_addr <= wbd_adr_i;
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spim_wb_be <= wbd_sel_i;
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spim_wb_be <= wbd_sel_i;
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spim_wb_we <= wbd_we_i;
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spim_wb_we <= wbd_we_i;
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// If there is Reg2Spi read Access, Register the Read Data
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// If there is Reg2Spi read Access, Register the Read Data
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if(reg2spi_req && (reg2spi_rd || reg2spi_qrd ) && spi_ack)
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if(reg2spi_req && (reg2spi_rd || reg2spi_qrd ) && spi_ack)
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spim_reg_rdata <= spi_rdata;
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spim_reg_rdata <= spi_rdata;
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|
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if(!spim_wb_we && spim_wb_req && spi_ack)
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if(!spim_wb_we && spim_wb_req && spi_ack)
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spim_wb_rdata <= spi_rdata;
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spim_wb_rdata <= spi_rdata;
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else
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else if (spim_reg_req)
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spim_wb_rdata <= reg_rdata;
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spim_wb_rdata <= reg_rdata;
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|
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// For safer design, we have generated ack after 2 cycle latter to
|
// For safer design, we have generated ack after 2 cycle latter to
|
// cross-check current request is towards SPI or not
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// cross-check current request is towards SPI or not
|
spim_wb_ack <= (spi_req) ? spi_ack :
|
spim_wb_ack <= (spi_req && spim_wb_req) ? spi_ack :
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((spim_wb_ack==0) && spim_wb_req && spim_wb_req_l) ;
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((spim_wb_ack==0) && spim_wb_req && spim_wb_req_l) ;
|
end
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end
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end
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end
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end
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|
|
integer byte_index;
|
integer byte_index;
|
always_ff @(negedge rst_n or posedge mclk) begin
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always_ff @(negedge rst_n or posedge mclk) begin
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if ( rst_n == 1'b0 ) begin
|
if ( rst_n == 1'b0 ) begin
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reg2spi_swrst <= 1'b0;
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reg2spi_swrst <= 1'b0;
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reg2spi_rd <= 1'b0;
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reg2spi_rd <= 1'b0;
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reg2spi_wr <= 1'b0;
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reg2spi_wr <= 1'b0;
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reg2spi_qrd <= 1'b0;
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reg2spi_qrd <= 1'b0;
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reg2spi_qwr <= 1'b0;
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reg2spi_qwr <= 1'b0;
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reg2spi_cmd <= 'h0;
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reg2spi_cmd <= 'h0;
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reg2spi_addr <= 'h0;
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reg2spi_addr <= 'h0;
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reg2spi_cmd_len <= 'h0;
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reg2spi_cmd_len <= 'h0;
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reg2spi_addr_len <= 'h0;
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reg2spi_addr_len <= 'h0;
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reg2spi_data_len <= 'h0;
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reg2spi_data_len <= 'h0;
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reg2spi_wdata <= 'h0;
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reg2spi_wdata <= 'h0;
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reg2spi_mode_enb <= 'h0;
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reg2spi_mode_enb <= 'h0;
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reg2spi_mode <= 'h0;
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reg2spi_mode <= 'h0;
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reg2spi_dummy_rd_len <= 'h0;
|
reg2spi_dummy_rd_len <= 'h0;
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reg2spi_dummy_wr_len <= 'h0;
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reg2spi_dummy_wr_len <= 'h0;
|
reg2spi_csreg <= 'h0;
|
reg2spi_csreg <= 'h0;
|
reg2spi_req <= 'h0;
|
reg2spi_req <= 'h0;
|
spi_clk_div_valid <= 1'b0;
|
spi_clk_div_valid <= 1'b0;
|
spi_clk_div <= 'h2;
|
spi_clk_div <= 'h2;
|
spi_init_done <= 'h0;
|
spi_init_done <= 'h0;
|
spi_init_state <= SPI_INIT_IDLE;
|
spi_init_state <= SPI_INIT_IDLE;
|
end
|
end
|
else if (spi_init_done == 0) begin
|
else if (spi_init_done == 0) begin
|
case(spi_init_state)
|
case(spi_init_state)
|
SPI_INIT_IDLE:
|
SPI_INIT_IDLE:
|
begin
|
begin
|
reg2spi_rd <= 'h0;
|
reg2spi_rd <= 'h0;
|
reg2spi_wr <= 'h1; // SPI Write Req
|
reg2spi_wr <= 'h1; // SPI Write Req
|
reg2spi_qrd <= 'h0;
|
reg2spi_qrd <= 'h0;
|
reg2spi_qwr <= 'h0;
|
reg2spi_qwr <= 'h0;
|
reg2spi_swrst <= 'h0;
|
reg2spi_swrst <= 'h0;
|
reg2spi_csreg <= 'h1;
|
reg2spi_csreg <= 'h1;
|
reg2spi_cmd[7:0] <= 'h6; // WREN command
|
reg2spi_cmd[7:0] <= 'hAB; // POWER UP command
|
reg2spi_mode[7:0] <= 'h0;
|
reg2spi_mode[7:0] <= 'h0;
|
reg2spi_cmd_len <= 'h8;
|
reg2spi_cmd_len <= 'h8;
|
reg2spi_addr_len <= 'h0;
|
reg2spi_addr_len <= 'h0;
|
reg2spi_data_len <= 'h0;
|
reg2spi_data_len <= 'h0;
|
reg2spi_wdata <= 'h0;
|
reg2spi_wdata <= 'h0;
|
reg2spi_req <= 'h1;
|
reg2spi_req <= 'h1;
|
spi_init_state <= SPI_INIT_CMD_WAIT;
|
spi_init_state <= SPI_INIT_CMD_WAIT;
|
end
|
end
|
SPI_INIT_CMD_WAIT:
|
SPI_INIT_CMD_WAIT:
|
begin
|
begin
|
if(spi_ack) begin
|
if(spi_ack) begin
|
reg2spi_req <= 1'b0;
|
reg2spi_req <= 1'b0;
|
|
spi_init_state <= SPI_INIT_WREN_CMD;
|
|
end
|
|
end
|
|
SPI_INIT_WREN_CMD:
|
|
begin
|
|
reg2spi_rd <= 'h0;
|
|
reg2spi_wr <= 'h1; // SPI Write Req
|
|
reg2spi_qrd <= 'h0;
|
|
reg2spi_qwr <= 'h0;
|
|
reg2spi_swrst <= 'h0;
|
|
reg2spi_csreg <= 'h1;
|
|
reg2spi_cmd[7:0] <= 'h6; // WREN command
|
|
reg2spi_mode[7:0] <= 'h0;
|
|
reg2spi_cmd_len <= 'h8;
|
|
reg2spi_addr_len <= 'h0;
|
|
reg2spi_data_len <= 'h0;
|
|
reg2spi_wdata <= 'h0;
|
|
reg2spi_req <= 'h1;
|
|
spi_init_state <= SPI_INIT_WREN_WAIT;
|
|
end
|
|
SPI_INIT_WREN_WAIT:
|
|
begin
|
|
if(spi_ack) begin
|
|
reg2spi_req <= 1'b0;
|
spi_init_state <= SPI_INIT_WRR_CMD;
|
spi_init_state <= SPI_INIT_WRR_CMD;
|
end
|
end
|
end
|
end
|
SPI_INIT_WRR_CMD:
|
SPI_INIT_WRR_CMD:
|
begin
|
begin
|
reg2spi_rd <= 'h0;
|
reg2spi_rd <= 'h0;
|
reg2spi_wr <= 'h1; // SPI Write Req
|
reg2spi_wr <= 'h1; // SPI Write Req
|
reg2spi_qrd <= 'h0;
|
reg2spi_qrd <= 'h0;
|
reg2spi_qwr <= 'h0;
|
reg2spi_qwr <= 'h0;
|
reg2spi_swrst <= 'h0;
|
reg2spi_swrst <= 'h0;
|
reg2spi_csreg <= 'h1;
|
reg2spi_csreg <= 'h1;
|
reg2spi_cmd[7:0] <= 'h1; // WRR command
|
reg2spi_cmd[7:0] <= 'h1; // WRR command
|
reg2spi_mode[7:0] <= 'h0;
|
reg2spi_mode[7:0] <= 'h0;
|
reg2spi_cmd_len <= 'h8;
|
reg2spi_cmd_len <= 'h8;
|
reg2spi_addr_len <= 'h0;
|
reg2spi_addr_len <= 'h0;
|
reg2spi_data_len <= 'h10;
|
reg2spi_data_len <= 'h10;
|
reg2spi_wdata <= {8'h0,8'h2,16'h0}; // <<16'h0> cr1[1] = 1 indicate quad mode
|
reg2spi_wdata <= {8'h0,8'h2,16'h0}; // <<16'h0> cr1[1] = 1 indicate quad mode
|
reg2spi_req <= 'h1;
|
reg2spi_req <= 'h1;
|
spi_init_state <= SPI_INIT_WRR_WAIT;
|
spi_init_state <= SPI_INIT_WRR_WAIT;
|
end
|
end
|
SPI_INIT_WRR_WAIT:
|
SPI_INIT_WRR_WAIT:
|
begin
|
begin
|
if(spi_ack) begin
|
if(spi_ack) begin
|
reg2spi_req <= 1'b0;
|
reg2spi_req <= 1'b0;
|
spi_init_done <= 'h1;
|
spi_init_done <= 'h1;
|
end
|
end
|
end
|
end
|
endcase
|
endcase
|
end else if (spim_reg_req & spim_wb_we )
|
end else if (spim_reg_req & spim_wb_we )
|
begin
|
begin
|
case(spim_wb_addr[7:4])
|
case(spim_wb_addr[7:4])
|
REG_CTRL:
|
REG_CTRL:
|
begin
|
begin
|
if ( spim_wb_be[0] == 1 )
|
if ( spim_wb_be[0] == 1 )
|
begin
|
begin
|
reg2spi_rd <= spim_wb_wdata[0];
|
reg2spi_rd <= spim_wb_wdata[0];
|
reg2spi_wr <= spim_wb_wdata[1];
|
reg2spi_wr <= spim_wb_wdata[1];
|
reg2spi_qrd <= spim_wb_wdata[2];
|
reg2spi_qrd <= spim_wb_wdata[2];
|
reg2spi_qwr <= spim_wb_wdata[3];
|
reg2spi_qwr <= spim_wb_wdata[3];
|
reg2spi_swrst <= spim_wb_wdata[4];
|
reg2spi_swrst <= spim_wb_wdata[4];
|
reg2spi_req <= 1'b1;
|
reg2spi_req <= 1'b1;
|
end
|
end
|
if ( spim_wb_be[1] == 1 )
|
if ( spim_wb_be[1] == 1 )
|
begin
|
begin
|
reg2spi_csreg <= spim_wb_wdata[11:8];
|
reg2spi_csreg <= spim_wb_wdata[11:8];
|
end
|
end
|
end
|
end
|
REG_CLKDIV:
|
REG_CLKDIV:
|
if ( spim_wb_be[0] == 1 )
|
if ( spim_wb_be[0] == 1 )
|
begin
|
begin
|
spi_clk_div <= spim_wb_wdata[7:0];
|
spi_clk_div <= spim_wb_wdata[7:0];
|
spi_clk_div_valid <= 1'b1;
|
spi_clk_div_valid <= 1'b1;
|
end
|
end
|
REG_SPICMD: begin
|
REG_SPICMD: begin
|
if ( spim_wb_be[0] == 1 )
|
if ( spim_wb_be[0] == 1 )
|
reg2spi_cmd[7:0] <= spim_wb_wdata[7:0];
|
reg2spi_cmd[7:0] <= spim_wb_wdata[7:0];
|
if ( spim_wb_be[1] == 1 )
|
if ( spim_wb_be[1] == 1 )
|
reg2spi_mode[7:0] <= spim_wb_wdata[15:8];
|
reg2spi_mode[7:0] <= spim_wb_wdata[15:8];
|
end
|
end
|
REG_SPIADR:
|
REG_SPIADR:
|
for (byte_index = 0; byte_index < 4; byte_index = byte_index+1 )
|
for (byte_index = 0; byte_index < 4; byte_index = byte_index+1 )
|
if ( spim_wb_be[byte_index] == 1 )
|
if ( spim_wb_be[byte_index] == 1 )
|
reg2spi_addr[byte_index*8 +: 8] <= spim_wb_wdata[(byte_index*8) +: 8];
|
reg2spi_addr[byte_index*8 +: 8] <= spim_wb_wdata[(byte_index*8) +: 8];
|
REG_SPILEN:
|
REG_SPILEN:
|
begin
|
begin
|
if ( spim_wb_be[0] == 1 ) begin
|
if ( spim_wb_be[0] == 1 ) begin
|
reg2spi_mode_enb <= spim_wb_wdata[6];
|
reg2spi_mode_enb <= spim_wb_wdata[6];
|
reg2spi_cmd_len <= spim_wb_wdata[5:0];
|
reg2spi_cmd_len <= spim_wb_wdata[5:0];
|
end
|
end
|
if ( spim_wb_be[1] == 1 )
|
if ( spim_wb_be[1] == 1 )
|
reg2spi_addr_len <= spim_wb_wdata[13:8];
|
reg2spi_addr_len <= spim_wb_wdata[13:8];
|
if ( spim_wb_be[2] == 1 )
|
if ( spim_wb_be[2] == 1 )
|
reg2spi_data_len[7:0] <= spim_wb_wdata[23:16];
|
reg2spi_data_len[7:0] <= spim_wb_wdata[23:16];
|
if ( spim_wb_be[3] == 1 )
|
if ( spim_wb_be[3] == 1 )
|
reg2spi_data_len[15:8] <= spim_wb_wdata[31:24];
|
reg2spi_data_len[15:8] <= spim_wb_wdata[31:24];
|
end
|
end
|
REG_SPIDUM:
|
REG_SPIDUM:
|
begin
|
begin
|
if ( spim_wb_be[0] == 1 )
|
if ( spim_wb_be[0] == 1 )
|
reg2spi_dummy_rd_len[7:0] <= spim_wb_wdata[7:0];
|
reg2spi_dummy_rd_len[7:0] <= spim_wb_wdata[7:0];
|
if ( spim_wb_be[1] == 1 )
|
if ( spim_wb_be[1] == 1 )
|
reg2spi_dummy_rd_len[15:8] <= spim_wb_wdata[15:8];
|
reg2spi_dummy_rd_len[15:8] <= spim_wb_wdata[15:8];
|
if ( spim_wb_be[2] == 1 )
|
if ( spim_wb_be[2] == 1 )
|
reg2spi_dummy_wr_len[7:0] <= spim_wb_wdata[23:16];
|
reg2spi_dummy_wr_len[7:0] <= spim_wb_wdata[23:16];
|
if ( spim_wb_be[3] == 1 )
|
if ( spim_wb_be[3] == 1 )
|
reg2spi_dummy_wr_len[15:8] <= spim_wb_wdata[31:24];
|
reg2spi_dummy_wr_len[15:8] <= spim_wb_wdata[31:24];
|
end
|
end
|
REG_SPIWDATA: begin
|
REG_SPIWDATA: begin
|
reg2spi_wdata <= spim_wb_wdata;
|
reg2spi_wdata <= spim_wb_wdata;
|
end
|
end
|
endcase
|
endcase
|
end
|
end
|
else
|
else
|
begin
|
begin
|
if(spi_ack && spim_reg_req)
|
if(spi_ack && spim_reg_req)
|
reg2spi_req <= 1'b0;
|
reg2spi_req <= 1'b0;
|
end
|
end
|
end
|
end
|
|
|
|
|
|
|
|
wire [3:0] reg_addr = spim_wb_addr[7:4];
|
|
|
// implement slave model register read mux
|
// implement slave model register read mux
|
always_comb
|
always_comb
|
begin
|
begin
|
reg_rdata = '0;
|
reg_rdata = '0;
|
case(spim_wb_addr[7:4])
|
if(spim_reg_req) begin
|
|
case(reg_addr)
|
REG_CTRL:
|
REG_CTRL:
|
reg_rdata[31:0] = { 20'h0,
|
reg_rdata[31:0] = { 20'h0,
|
reg2spi_csreg,
|
reg2spi_csreg,
|
3'b0,
|
3'b0,
|
reg2spi_swrst,
|
reg2spi_swrst,
|
reg2spi_qwr,
|
reg2spi_qwr,
|
reg2spi_qrd,
|
reg2spi_qrd,
|
reg2spi_wr,
|
reg2spi_wr,
|
reg2spi_rd};
|
reg2spi_rd};
|
|
|
REG_CLKDIV:
|
REG_CLKDIV:
|
reg_rdata[31:0] = {24'h0,spi_clk_div};
|
reg_rdata[31:0] = {24'h0,spi_clk_div};
|
REG_SPICMD:
|
REG_SPICMD:
|
reg_rdata[31:0] = {16'h0,reg2spi_mode,reg2spi_cmd};
|
reg_rdata[31:0] = {16'h0,reg2spi_mode,reg2spi_cmd};
|
REG_SPIADR:
|
REG_SPIADR:
|
reg_rdata[31:0] = reg2spi_addr;
|
reg_rdata[31:0] = reg2spi_addr;
|
REG_SPILEN:
|
REG_SPILEN:
|
reg_rdata[31:0] = {reg2spi_data_len,2'b00,reg2spi_addr_len,1'b0,reg2spi_mode_enb,reg2spi_cmd_len};
|
reg_rdata[31:0] = {reg2spi_data_len,2'b00,reg2spi_addr_len,1'b0,reg2spi_mode_enb,reg2spi_cmd_len};
|
REG_SPIDUM:
|
REG_SPIDUM:
|
reg_rdata[31:0] = {reg2spi_dummy_wr_len,reg2spi_dummy_rd_len};
|
reg_rdata[31:0] = {reg2spi_dummy_wr_len,reg2spi_dummy_rd_len};
|
REG_SPIWDATA:
|
REG_SPIWDATA:
|
reg_rdata[31:0] = reg2spi_wdata;
|
reg_rdata[31:0] = reg2spi_wdata;
|
REG_SPIRDATA:
|
REG_SPIRDATA:
|
reg_rdata[31:0] = spim_reg_rdata;
|
reg_rdata[31:0] = spim_reg_rdata;
|
REG_STATUS:
|
REG_STATUS:
|
reg_rdata[31:0] = {24'h0,spi_status};
|
reg_rdata[31:0] = {23'h0,spi_status};
|
endcase
|
endcase
|
end
|
end
|
|
end
|
|
|
|
|
endmodule
|
endmodule
|
|
|