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[/] [turbo8051/] [trunk/] [rtl/] [lib/] [wb_interface.v] - Rev 25
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////////////////////////////////////////////////////////////////////// //// //// //// Tubo 8051 cores common library Module //// //// //// //// This file is part of the Turbo 8051 cores project //// //// http://www.opencores.org/cores/turbo8051/ //// //// //// //// Description //// //// Turbo 8051 definitions. //// //// //// //// To Do: //// //// nothing //// //// //// //// Author(s): //// //// - Dinesh Annayya, dinesha@opencores.org //// //// //// ////////////////////////////////////////////////////////////////////// //// //// //// 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 //// //// //// ////////////////////////////////////////////////////////////////////// module wb_interface ( rst , clk , dma_req_i , dma_write_i , dma_addr_i , dma_length_i , dma_ack_o , dma_done_o , dma_start_o , dma_wr_o , dma_rd_o , dma_last_o , dma_wdata_i , dma_rdata_o , // external memory wbd_dat_i , wbd_dat_o , wbd_adr_o , wbd_be_o , wbd_we_o , wbd_ack_i , wbd_stb_o , wbd_cyc_o , wbd_err_i ); input rst ; input clk ; input dma_req_i ; input dma_write_i ; input [25:0] dma_addr_i ; input [7:0] dma_length_i ; output dma_ack_o ; output dma_done_o ; // indicates end of DMA transaction output dma_start_o ; output dma_wr_o ; output dma_rd_o ; output dma_last_o ; input [31:0] dma_wdata_i ; output [31:0] dma_rdata_o ; //-------------------------------- // WB interface //-------------------------------- input [31:0] wbd_dat_i ; // data input output [31:0] wbd_dat_o ; // data output output [23:0] wbd_adr_o ; // address output [3:0] wbd_be_o ; // byte enable output wbd_we_o ; // write input wbd_ack_i ; // acknowlegement output wbd_stb_o ; // strobe/request output wbd_cyc_o ; // wb cycle input wbd_err_i ; // we error //------------------------------------ // Reg Declaration //-------------------------------- reg [2:0] state ; reg [2:0] state_d ; reg [7:0] preq_len ; // pending request length in bytes reg wbd_we_o ; // westbone write req reg [23:0] wbd_adr_o ; // westnone address reg dma_ack_o ; // dma ack reg dma_done_o ; // dma ack reg [7:0] twbtrans ; // total westbone transaction reg dma_wr_o ; // dma write request reg dma_rd_o ; // dma read request reg [31:0] temp_data ; // temp holding data reg [1:0] be_sof ; // Byte enable starting alignment reg [31:0] wbd_dat_o ; // westbone data out reg [3:0] wbd_be_o ; // west bone byte enable reg [31:0] dma_rdata_o ; // dma read data reg wbd_stb_o ; reg dma_start_o ; // dma first transfer reg dma_last_o ; // dma last transfer parameter WB_IDLE = 3'b000; parameter WB_REQ = 3'b001; parameter WB_WR_PHASE = 3'b010; parameter WB_RD_PHASE_SOF = 3'b011; parameter WB_RD_PHASE_CONT = 3'b100; assign dma_done_o = (state == WB_IDLE) && (state_d != WB_IDLE); always @(posedge rst or posedge clk) begin if(rst) begin state <= WB_IDLE; state_d <= WB_IDLE; wbd_we_o <= 0; wbd_adr_o <= 0; preq_len <= 0; dma_ack_o <= 0; twbtrans <= 0; dma_wr_o <= 0; dma_rd_o <= 0; temp_data <= 0; be_sof <= 0; wbd_dat_o <= 0; wbd_be_o <= 0; dma_rdata_o <= 0; wbd_stb_o <= 0; dma_start_o <= 0; dma_last_o <= 0; end else begin state_d <= state; case(state) WB_IDLE : begin if(dma_req_i) begin dma_ack_o <= 1; wbd_we_o <= dma_write_i; wbd_adr_o <= dma_addr_i[25:2]; be_sof <= dma_addr_i[1] << 1 + dma_addr_i[0]; preq_len <= dma_length_i; // total wb transfer twbtrans <= dma_length_i[7:2] + |(dma_length_i[1:0]) + |(dma_addr_i[1:0]); state <= WB_REQ; end dma_wr_o <= 0; dma_rd_o <= 0; wbd_stb_o <= 0; dma_start_o <= 0; end WB_REQ : begin dma_ack_o <= 0; wbd_stb_o <= 1; if(wbd_we_o) begin dma_wr_o <= 1; dma_start_o <= 1; temp_data <= dma_wdata_i; if(be_sof == 0) begin wbd_dat_o <= dma_wdata_i; wbd_be_o <= 4'b1111; preq_len <= preq_len - 4; end else if(be_sof == 1) begin wbd_dat_o <= {dma_wdata_i[23:0],8'h0}; wbd_be_o <= 4'b1110; preq_len <= preq_len - 3; end else if(be_sof == 2) begin wbd_dat_o <= {dma_wdata_i[15:0],16'h0}; wbd_be_o <= 4'b1100; preq_len <= preq_len - 2; end else begin wbd_dat_o <= {dma_wdata_i[7:0],23'h0}; wbd_be_o <= 4'b1000; preq_len <= preq_len - 1; end twbtrans <= twbtrans -1; state <= WB_WR_PHASE; if(twbtrans == 1) dma_last_o <= 1; end else begin state <= WB_RD_PHASE_SOF; end end WB_WR_PHASE : begin dma_start_o <= 0; if(wbd_ack_i) begin if(twbtrans == 1) dma_last_o <= 1; else dma_last_o <= 0; if(twbtrans > 0) begin temp_data <= dma_wdata_i; twbtrans <= twbtrans -1; if(be_sof == 0) begin wbd_dat_o <= dma_wdata_i; end else if(be_sof == 1) begin wbd_dat_o <= {dma_wdata_i[23:0],temp_data[31:24]}; end else if(be_sof == 2) begin wbd_dat_o <= {dma_wdata_i[15:0],temp_data[31:16]}; end else begin wbd_dat_o <= {dma_wdata_i[7:0],temp_data[31:8]}; end if(twbtrans > 1) begin // If the Pending Transfer is more than 1 dma_wr_o <= 1; wbd_be_o <= 4'b1111; preq_len <= preq_len - 4; end else begin // for last write access wbd_be_o <= preq_len[1:0] == 2'b00 ? 4'b1111: preq_len[1:0] == 2'b01 ? 4'b0001: preq_len[1:0] == 2'b10 ? 4'b0011: 4'b0111; case({be_sof[1:0],preq_len[1:0]}) // Start alignment = 0 4'b0001 : dma_wr_o <= 1; 4'b0010 : dma_wr_o <= 1; 4'b0011 : dma_wr_o <= 1; 4'b0000 : dma_wr_o <= 1; // Start alignment = 1 4'b0101 : dma_wr_o <= 0; 4'b0110 : dma_wr_o <= 1; 4'b0111 : dma_wr_o <= 1; 4'b0100 : dma_wr_o <= 1; // Start alignment = 2 4'b1001 : dma_wr_o <= 0; 4'b1010 : dma_wr_o <= 0; 4'b1011 : dma_wr_o <= 1; 4'b1000 : dma_wr_o <= 1; // Start alignment = 3 4'b1101 : dma_wr_o <= 0; 4'b1110 : dma_wr_o <= 0; 4'b1111 : dma_wr_o <= 0; 4'b1100 : dma_wr_o <= 1; endcase end end else begin dma_wr_o <= 0; wbd_stb_o <= 0; state <= WB_IDLE; end end else begin dma_last_o <= 0; dma_wr_o <= 0; end end WB_RD_PHASE_SOF : begin if(wbd_ack_i) begin twbtrans <= twbtrans -1; if(twbtrans == 1) begin // If the Pending Transfer is 1 dma_rd_o <= 1; dma_start_o<= 1; if(be_sof == 0) begin dma_rdata_o <= wbd_dat_i; preq_len <= preq_len - 4; end else if(be_sof == 1) begin dma_rdata_o <= {8'h0,wbd_dat_i[31:24]}; preq_len <= preq_len - 3; end else if(be_sof == 2) begin dma_rdata_o <= {16'h0,wbd_dat_i[31:16]}; preq_len <= preq_len - 2; end else begin dma_rdata_o <= {23'h0,wbd_dat_i[31:8]}; preq_len <= preq_len - 0; end dma_last_o <= 1; state <= WB_IDLE; end else begin // pending transction is more than 1 if(be_sof == 0) begin dma_rdata_o <= wbd_dat_i; dma_rd_o <= 1; dma_start_o <= 1; preq_len <= preq_len - 4; end else if(be_sof == 1) begin temp_data <= {8'h0,wbd_dat_i[31:24]}; dma_rd_o <= 0; preq_len <= preq_len - 3; end else if(be_sof == 2) begin temp_data <= {16'h0,wbd_dat_i[31:16]}; preq_len <= preq_len - 2; end else begin temp_data <= {23'h0,wbd_dat_i[31:8]}; preq_len <= preq_len - 0; end state <= WB_RD_PHASE_CONT; end end else begin dma_rd_o <= 0; end end WB_RD_PHASE_CONT: begin dma_start_o <= 0; if(wbd_ack_i) begin dma_rd_o <= 1; twbtrans <= twbtrans -1; if(be_sof == 0) begin dma_rdata_o <= wbd_dat_i; preq_len <= preq_len - 4; end else if(be_sof == 1) begin dma_rdata_o <= {wbd_dat_i[7:0],temp_data[23:0]}; temp_data <= {8'h0,wbd_dat_i[31:8]}; preq_len <= preq_len - 3; end else if(be_sof == 2) begin dma_rdata_o <= {wbd_dat_i[15:0],temp_data[15:0]}; temp_data <= {16'h0,wbd_dat_i[31:16]}; preq_len <= preq_len - 2; end else begin dma_rdata_o <= {wbd_dat_i[23:0],temp_data[7:0]}; temp_data <= {24'h0,wbd_dat_i[31:23]}; preq_len <= preq_len - 1; end if(twbtrans == 1) begin // If the it's last transfer dma_last_o <= 1; state <= WB_IDLE; end end else begin dma_last_o <= 0; dma_rd_o <= 0; end end endcase end end endmodule
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