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////////////////////////////////////////////////////////////////////// //// //// //// spi_top.v //// //// //// //// This file is part of the SPI IP core project //// //// http://www.opencores.org/projects/spi/ //// //// //// //// Author(s): //// //// - Simon Srot (simons@opencores.org) //// //// //// //// All additional information is avaliable in the Readme.txt //// //// file. //// //// //// ////////////////////////////////////////////////////////////////////// //// //// //// Copyright (C) 2002 Authors //// //// //// //// 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 "spi_defines.v" `include "timescale.v" module spi_flash_top ( // Wishbone signals wb_clk_i, wb_rst_i, wb_adr_i, wb_dat_i, wb_dat_o, wb_sel_i, wb_we_i, wb_stb_i, wb_cyc_i, wb_ack_o, // SPI signals ss_pad_o, sclk_pad_o, mosi_pad_o, miso_pad_i ); parameter divider_len = 2; parameter divider = 0; parameter Tp = 1; // Wishbone signals input wb_clk_i; // master clock input input wb_rst_i; // synchronous active high reset input [4:2] wb_adr_i; // lower address bits input [31:0] wb_dat_i; // databus input output [31:0] wb_dat_o; // databus output input [3:0] wb_sel_i; // byte select inputs input wb_we_i; // write enable input input wb_stb_i; // stobe/core select signal input wb_cyc_i; // valid bus cycle input output wb_ack_o; // bus cycle acknowledge output // SPI signals output [`SPI_SS_NB-1:0] ss_pad_o; // slave select output sclk_pad_o; // serial clock output mosi_pad_o; // master out slave in input miso_pad_i; // master in slave out reg [31:0] wb_dat_o; reg wb_ack_o; // Internal signals // reg [`SPI_DIVIDER_LEN-1:0] divider; // Divider register wire [`SPI_CTRL_BIT_NB-1:0] ctrl; // Control and status register reg [`SPI_SS_NB-1:0] ss; // Slave select register wire [`SPI_MAX_CHAR-1:0] rx; // Rx register wire [5:0] char_len; reg char_len_ctrl; // char len reg go; // go wire spi_ctrl_sel; // ctrl register select wire spi_tx_sel; // tx_l register select wire spi_ss_sel; // ss register select wire tip; // transfer in progress wire pos_edge; // recognize posedge of sclk wire neg_edge; // recognize negedge of sclk wire last_bit; // marks last character bit wire rx_negedge; // miso is sampled on negative edge wire tx_negedge; // mosi is driven on negative edge wire lsb; // lsb first on line wire ass; // automatic slave select // Address decoder assign spi_ctrl_sel = wb_cyc_i & wb_stb_i & (wb_adr_i[`SPI_OFS_BITS] == `SPI_CTRL); assign spi_tx_sel = wb_cyc_i & wb_stb_i & (wb_adr_i[`SPI_OFS_BITS] == `SPI_TX_0); assign spi_ss_sel = wb_cyc_i & wb_stb_i & (wb_adr_i[`SPI_OFS_BITS] == `SPI_SS); // Read from registers // Wb data out always @(posedge wb_clk_i or posedge wb_rst_i) begin if (wb_rst_i) wb_dat_o <= #Tp 32'b0; else case (wb_adr_i[`SPI_OFS_BITS]) `SPI_RX_0: wb_dat_o <= rx; `SPI_CTRL: wb_dat_o <= {18'd0, ctrl}; `SPI_DEVIDE: wb_dat_o <= divider; `SPI_SS: wb_dat_o <= {{32-`SPI_SS_NB{1'b0}}, ss}; default: wb_dat_o <= rx; endcase end // Wb acknowledge always @(posedge wb_clk_i or posedge wb_rst_i) begin if (wb_rst_i) wb_ack_o <= #Tp 1'b0; else wb_ack_o <= #Tp wb_cyc_i & wb_stb_i & ~wb_ack_o; end // Ctrl register always @(posedge wb_clk_i or posedge wb_rst_i) begin if (wb_rst_i) {go,char_len_ctrl} <= #Tp 2'b01; else if(spi_ctrl_sel && wb_we_i && !tip) begin if (wb_sel_i[0]) char_len_ctrl <= #Tp wb_dat_i[5]; if (wb_sel_i[1]) go <= #Tp wb_dat_i[8]; end else if(tip && last_bit && pos_edge) go <= #Tp 1'b0; end assign char_len = char_len_ctrl ? 6'd32 : 6'd8; `ifdef SPI_CTRL_ASS assign ass = 1'b1; `else assign ass = 1'b0; `endif `ifdef SPI_CTRL_LSB assign lsb = 1'b1; `else assign lsb = 1'b0; `endif `ifdef SPI_CTRL_RX_NEGEDGE assign rx_negedge = 1'b1; `else assign rx_negedge = 1'b0; `endif `ifdef SPI_CTRL_TX_NEGEDGE assign tx_negedge = 1'b1; `else assign tx_negedge = 1'b0; `endif assign ctrl = {ass,1'b0,lsb,tx_negedge,rx_negedge,go,1'b0,1'b0,char_len}; // Slave select register always @(posedge wb_clk_i or posedge wb_rst_i) if (wb_rst_i) ss <= #Tp {`SPI_SS_NB{1'b0}}; else if(spi_ss_sel && wb_we_i && !tip) if (wb_sel_i[0]) ss <= #Tp wb_dat_i[`SPI_SS_NB-1:0]; assign ss_pad_o = ~((ss & {`SPI_SS_NB{tip & ass}}) | (ss & {`SPI_SS_NB{!ass}})); spi_flash_clgen # ( .divider_len(divider_len), .divider(divider) ) clgen ( .clk_in(wb_clk_i), .rst(wb_rst_i), .go(go), .enable(tip), .last_clk(last_bit), .clk_out(sclk_pad_o), .pos_edge(pos_edge), .neg_edge(neg_edge) ); spi_flash_shift shift ( .clk(wb_clk_i), .rst(wb_rst_i), .len(char_len[`SPI_CHAR_LEN_BITS-1:0]), .latch(spi_tx_sel & wb_we_i), .byte_sel(wb_sel_i), .go(go), .pos_edge(pos_edge), .neg_edge(neg_edge), .lsb(lsb), .rx_negedge(rx_negedge), .tx_negedge(tx_negedge), .tip(tip), .last(last_bit), .p_in(wb_dat_i), .p_out(rx), .s_clk(sclk_pad_o), .s_in(miso_pad_i), .s_out(mosi_pad_o) ); endmodule