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[/] [openrisc/] [trunk/] [orpsocv2/] [bench/] [verilog/] [usbhostslave/] [wishBoneBI_simlib.v] - Rev 408
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////////////////////////////////////////////////////////////////////// //// //// //// wishBoneBI.v //// //// //// //// This file is part of the usbhostslave opencores effort. //// <http://www.opencores.org/cores//> //// //// //// //// Module Description: //// //// //// //// //// To Do: //// //// //// //// //// Author(s): //// //// - Steve Fielding, sfielding@base2designs.com //// //// //// ////////////////////////////////////////////////////////////////////// //// //// //// Copyright (C) 2004 Steve Fielding 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> //// //// //// ////////////////////////////////////////////////////////////////////// // `include "timescale.v" `include "wishBoneBus_h.v" module wishBoneBI_simlib ( address, dataIn, dataOut, writeEn, strobe_i, ack_o, clk, rst, hostControlSel, hostRxFifoSel, hostTxFifoSel, slaveControlSel, slaveEP0RxFifoSel, slaveEP1RxFifoSel, slaveEP2RxFifoSel, slaveEP3RxFifoSel, slaveEP0TxFifoSel, slaveEP1TxFifoSel, slaveEP2TxFifoSel, slaveEP3TxFifoSel, hostSlaveMuxSel, dataFromHostControl, dataFromHostRxFifo, dataFromHostTxFifo, dataFromSlaveControl, dataFromEP0RxFifo, dataFromEP1RxFifo, dataFromEP2RxFifo, dataFromEP3RxFifo, dataFromEP0TxFifo, dataFromEP1TxFifo, dataFromEP2TxFifo, dataFromEP3TxFifo, dataFromHostSlaveMux ); input clk; input rst; input [7:0] address; input [7:0] dataIn; output [7:0] dataOut; input strobe_i; output ack_o; input writeEn; output hostControlSel; output hostRxFifoSel; output hostTxFifoSel; output slaveControlSel; output slaveEP0RxFifoSel, slaveEP1RxFifoSel, slaveEP2RxFifoSel, slaveEP3RxFifoSel; output slaveEP0TxFifoSel, slaveEP1TxFifoSel, slaveEP2TxFifoSel, slaveEP3TxFifoSel; output hostSlaveMuxSel; input [7:0] dataFromHostControl; input [7:0] dataFromHostRxFifo; input [7:0] dataFromHostTxFifo; input [7:0] dataFromSlaveControl; input [7:0] dataFromEP0RxFifo, dataFromEP1RxFifo, dataFromEP2RxFifo, dataFromEP3RxFifo; input [7:0] dataFromEP0TxFifo, dataFromEP1TxFifo, dataFromEP2TxFifo, dataFromEP3TxFifo; input [7:0] dataFromHostSlaveMux; wire clk; wire rst; wire [7:0] address; wire [7:0] dataIn; reg [7:0] dataOut; wire writeEn; wire strobe_i; reg ack_o; reg hostControlSel; reg hostRxFifoSel; reg hostTxFifoSel; reg slaveControlSel; reg slaveEP0RxFifoSel, slaveEP1RxFifoSel, slaveEP2RxFifoSel, slaveEP3RxFifoSel; reg slaveEP0TxFifoSel, slaveEP1TxFifoSel, slaveEP2TxFifoSel, slaveEP3TxFifoSel; reg hostSlaveMuxSel; wire [7:0] dataFromHostControl; wire [7:0] dataFromHostRxFifo; wire [7:0] dataFromHostTxFifo; wire [7:0] dataFromSlaveControl; wire [7:0] dataFromEP0RxFifo, dataFromEP1RxFifo, dataFromEP2RxFifo, dataFromEP3RxFifo; wire [7:0] dataFromEP0TxFifo, dataFromEP1TxFifo, dataFromEP2TxFifo, dataFromEP3TxFifo; wire [7:0] dataFromHostSlaveMux; //internal wires and regs reg ack_delayed; reg ack_immediate; //address decode and data mux always @(address or dataFromHostControl or dataFromHostRxFifo or dataFromHostTxFifo or dataFromSlaveControl or dataFromEP0RxFifo or dataFromEP1RxFifo or dataFromEP2RxFifo or dataFromEP3RxFifo or dataFromHostSlaveMux or dataFromEP0TxFifo or dataFromEP1TxFifo or dataFromEP2TxFifo or dataFromEP3TxFifo) begin hostControlSel <= 1'b0; hostRxFifoSel <= 1'b0; hostTxFifoSel <= 1'b0; slaveControlSel <= 1'b0; slaveEP0RxFifoSel <= 1'b0; slaveEP0TxFifoSel <= 1'b0; slaveEP1RxFifoSel <= 1'b0; slaveEP1TxFifoSel <= 1'b0; slaveEP2RxFifoSel <= 1'b0; slaveEP2TxFifoSel <= 1'b0; slaveEP3RxFifoSel <= 1'b0; slaveEP3TxFifoSel <= 1'b0; hostSlaveMuxSel <= 1'b0; case (address & `ADDRESS_DECODE_MASK) `HCREG_BASE : begin hostControlSel <= 1'b1; dataOut <= dataFromHostControl; end `HCREG_BASE_PLUS_0X10 : begin hostControlSel <= 1'b1; dataOut <= dataFromHostControl; end `HOST_RX_FIFO_BASE : begin hostRxFifoSel <= 1'b1; dataOut <= dataFromHostRxFifo; end `HOST_TX_FIFO_BASE : begin hostTxFifoSel <= 1'b1; dataOut <= dataFromHostTxFifo; end `SCREG_BASE : begin slaveControlSel <= 1'b1; dataOut <= dataFromSlaveControl; end `SCREG_BASE_PLUS_0X10 : begin slaveControlSel <= 1'b1; dataOut <= dataFromSlaveControl; end `EP0_RX_FIFO_BASE : begin slaveEP0RxFifoSel <= 1'b1; dataOut <= dataFromEP0RxFifo; end `EP0_TX_FIFO_BASE : begin slaveEP0TxFifoSel <= 1'b1; dataOut <= dataFromEP0TxFifo; end `EP1_RX_FIFO_BASE : begin slaveEP1RxFifoSel <= 1'b1; dataOut <= dataFromEP1RxFifo; end `EP1_TX_FIFO_BASE : begin slaveEP1TxFifoSel <= 1'b1; dataOut <= dataFromEP1TxFifo; end `EP2_RX_FIFO_BASE : begin slaveEP2RxFifoSel <= 1'b1; dataOut <= dataFromEP2RxFifo; end `EP2_TX_FIFO_BASE : begin slaveEP2TxFifoSel <= 1'b1; dataOut <= dataFromEP2TxFifo; end `EP3_RX_FIFO_BASE : begin slaveEP3RxFifoSel <= 1'b1; dataOut <= dataFromEP3RxFifo; end `EP3_TX_FIFO_BASE : begin slaveEP3TxFifoSel <= 1'b1; dataOut <= dataFromEP3TxFifo; end `HOST_SLAVE_CONTROL_BASE : begin hostSlaveMuxSel <= 1'b1; dataOut <= dataFromHostSlaveMux; end default: dataOut <= 8'h00; endcase end //delayed ack always @(posedge clk) begin ack_delayed <= strobe_i; end //immediate ack always @(strobe_i) begin ack_immediate <= strobe_i; end //select between immediate and delayed ack always @(writeEn or address or ack_delayed or ack_immediate) begin if (writeEn == 1'b0 && (address == `HOST_RX_FIFO_BASE + `FIFO_DATA_REG || address == `HOST_TX_FIFO_BASE + `FIFO_DATA_REG || address == `EP0_RX_FIFO_BASE + `FIFO_DATA_REG || address == `EP0_TX_FIFO_BASE + `FIFO_DATA_REG || address == `EP1_RX_FIFO_BASE + `FIFO_DATA_REG || address == `EP1_TX_FIFO_BASE + `FIFO_DATA_REG || address == `EP2_RX_FIFO_BASE + `FIFO_DATA_REG || address == `EP2_TX_FIFO_BASE + `FIFO_DATA_REG || address == `EP3_RX_FIFO_BASE + `FIFO_DATA_REG || address == `EP3_TX_FIFO_BASE + `FIFO_DATA_REG) ) begin ack_o <= ack_delayed & ack_immediate; end else begin ack_o <= ack_immediate; end end endmodule