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[/] [usbhostslave/] [trunk/] [RTL/] [slaveController/] [slaveGetpacket.v] - Rev 7
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////////////////////////////////////////////////////////////////////// //// //// //// slaveGetPacket //// //// //// This file is part of the usbhostslave opencores effort. //// http://www.opencores.org/cores/usbhostslave/ //// //// //// //// 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 //// //// //// ////////////////////////////////////////////////////////////////////// // // $Id: slaveGetpacket.v,v 1.3 2004-12-31 14:40:44 sfielding Exp $ // // CVS Revision History // // $Log: not supported by cvs2svn $ // `include "usbSerialInterfaceEngine_h.v" `include "usbConstants_h.v" module slaveGetPacket (ACKRxed, bitStuffError, clk, CRCError, dataSequence, getPacketEn, rst, RXDataIn, RXDataValid, RXFifoData, RXFifoFull, RXFifoWEn, RXOverflow, RXPacketRdy, RxPID, RXStreamStatusIn, RXTimeOut, SIERxTimeOut); input clk; input getPacketEn; input rst; input [7:0]RXDataIn; input RXDataValid; input RXFifoFull; input [7:0]RXStreamStatusIn; input SIERxTimeOut; // Single cycle pulse output ACKRxed; output bitStuffError; output CRCError; output dataSequence; output [7:0]RXFifoData; output RXFifoWEn; output RXOverflow; output RXPacketRdy; output [3:0]RxPID; output RXTimeOut; reg ACKRxed, next_ACKRxed; reg bitStuffError, next_bitStuffError; wire clk; reg CRCError, next_CRCError; reg dataSequence, next_dataSequence; wire getPacketEn; wire rst; wire [7:0]RXDataIn; wire RXDataValid; reg [7:0]RXFifoData, next_RXFifoData; wire RXFifoFull; reg RXFifoWEn, next_RXFifoWEn; reg RXOverflow, next_RXOverflow; reg RXPacketRdy, next_RXPacketRdy; reg [3:0]RxPID, next_RxPID; wire [7:0]RXStreamStatusIn; reg RXTimeOut, next_RXTimeOut; wire SIERxTimeOut; // diagram signals declarations reg [7:0]RXByte, next_RXByte; reg [7:0]RXByteOld, next_RXByteOld; reg [7:0]RXByteOldest, next_RXByteOldest; reg [7:0]RXStreamStatus, next_RXStreamStatus; // BINARY ENCODED state machine: slvGetPkt // State codes definitions: `define PROC_PKT_CHK_PID 5'b00000 `define PROC_PKT_HS 5'b00001 `define PROC_PKT_DATA_W_D1 5'b00010 `define PROC_PKT_DATA_CHK_D1 5'b00011 `define PROC_PKT_DATA_W_D2 5'b00100 `define PROC_PKT_DATA_FIN 5'b00101 `define PROC_PKT_DATA_CHK_D2 5'b00110 `define PROC_PKT_DATA_W_D3 5'b00111 `define PROC_PKT_DATA_CHK_D3 5'b01000 `define PROC_PKT_DATA_LOOP_CHK_FIFO 5'b01001 `define PROC_PKT_DATA_LOOP_FIFO_FULL 5'b01010 `define PROC_PKT_DATA_LOOP_W_D 5'b01011 `define START_GP 5'b01100 `define WAIT_PKT 5'b01101 `define CHK_PKT_START 5'b01110 `define WAIT_EN 5'b01111 `define PKT_RDY 5'b10000 `define PROC_PKT_DATA_LOOP_DELAY 5'b10001 reg [4:0]CurrState_slvGetPkt, NextState_slvGetPkt; // Machine: slvGetPkt // NextState logic (combinatorial) always @ (RXByte or RXDataValid or RXDataIn or RXStreamStatusIn or RXStreamStatus or RXFifoFull or RXByteOldest or RXByteOld or getPacketEn or RXOverflow or ACKRxed or CRCError or bitStuffError or dataSequence or RXFifoWEn or RXFifoData or RXPacketRdy or RXTimeOut or RxPID or CurrState_slvGetPkt) begin NextState_slvGetPkt <= CurrState_slvGetPkt; // Set default values for outputs and signals next_RXOverflow <= RXOverflow; next_ACKRxed <= ACKRxed; next_RXByte <= RXByte; next_RXStreamStatus <= RXStreamStatus; next_RXByteOldest <= RXByteOldest; next_CRCError <= CRCError; next_bitStuffError <= bitStuffError; next_dataSequence <= dataSequence; next_RXByteOld <= RXByteOld; next_RXFifoWEn <= RXFifoWEn; next_RXFifoData <= RXFifoData; next_RXPacketRdy <= RXPacketRdy; next_RXTimeOut <= RXTimeOut; next_RxPID <= RxPID; case (CurrState_slvGetPkt) // synopsys parallel_case full_case `START_GP: begin NextState_slvGetPkt <= `WAIT_EN; end `WAIT_PKT: begin next_CRCError <= 1'b0; next_bitStuffError <= 1'b0; next_RXOverflow <= 1'b0; next_RXTimeOut <= 1'b0; next_ACKRxed <= 1'b0; next_dataSequence <= 1'b0; if (RXDataValid == 1'b1) begin NextState_slvGetPkt <= `CHK_PKT_START; next_RXByte <= RXDataIn; next_RXStreamStatus <= RXStreamStatusIn; end end `CHK_PKT_START: begin if (RXStreamStatus == `RX_PACKET_START) begin NextState_slvGetPkt <= `PROC_PKT_CHK_PID; next_RxPID <= RXByte[3:0]; end else begin NextState_slvGetPkt <= `PKT_RDY; next_RXTimeOut <= 1'b1; end end `WAIT_EN: begin next_RXPacketRdy <= 1'b0; if (getPacketEn == 1'b1) begin NextState_slvGetPkt <= `WAIT_PKT; end end `PKT_RDY: begin next_RXPacketRdy <= 1'b1; NextState_slvGetPkt <= `WAIT_EN; end `PROC_PKT_CHK_PID: begin if (RXByte[1:0] == `HANDSHAKE) begin NextState_slvGetPkt <= `PROC_PKT_HS; end else if (RXByte[1:0] == `DATA) begin NextState_slvGetPkt <= `PROC_PKT_DATA_W_D1; end else begin NextState_slvGetPkt <= `PKT_RDY; end end `PROC_PKT_HS: begin if (RXDataValid == 1'b1) begin NextState_slvGetPkt <= `PKT_RDY; next_RXOverflow <= RXDataIn[`RX_OVERFLOW_BIT]; next_ACKRxed <= RXDataIn[`ACK_RXED_BIT]; end end `PROC_PKT_DATA_W_D1: begin if (RXDataValid == 1'b1) begin NextState_slvGetPkt <= `PROC_PKT_DATA_CHK_D1; next_RXByte <= RXDataIn; next_RXStreamStatus <= RXStreamStatusIn; end end `PROC_PKT_DATA_CHK_D1: begin if (RXStreamStatus == `RX_PACKET_STREAM) begin NextState_slvGetPkt <= `PROC_PKT_DATA_W_D2; next_RXByteOldest <= RXByte; end else begin NextState_slvGetPkt <= `PROC_PKT_DATA_FIN; end end `PROC_PKT_DATA_W_D2: begin if (RXDataValid == 1'b1) begin NextState_slvGetPkt <= `PROC_PKT_DATA_CHK_D2; next_RXByte <= RXDataIn; next_RXStreamStatus <= RXStreamStatusIn; end end `PROC_PKT_DATA_FIN: begin next_CRCError <= RXByte[`CRC_ERROR_BIT]; next_bitStuffError <= RXByte[`BIT_STUFF_ERROR_BIT]; next_dataSequence <= RXByte[`DATA_SEQUENCE_BIT]; NextState_slvGetPkt <= `PKT_RDY; end `PROC_PKT_DATA_CHK_D2: begin if (RXStreamStatus == `RX_PACKET_STREAM) begin NextState_slvGetPkt <= `PROC_PKT_DATA_W_D3; next_RXByteOld <= RXByte; end else begin NextState_slvGetPkt <= `PROC_PKT_DATA_FIN; end end `PROC_PKT_DATA_W_D3: begin if (RXDataValid == 1'b1) begin NextState_slvGetPkt <= `PROC_PKT_DATA_CHK_D3; next_RXByte <= RXDataIn; next_RXStreamStatus <= RXStreamStatusIn; end end `PROC_PKT_DATA_CHK_D3: begin if (RXStreamStatus == `RX_PACKET_STREAM) begin NextState_slvGetPkt <= `PROC_PKT_DATA_LOOP_CHK_FIFO; end else begin NextState_slvGetPkt <= `PROC_PKT_DATA_FIN; end end `PROC_PKT_DATA_LOOP_CHK_FIFO: begin if (RXFifoFull == 1'b1) begin NextState_slvGetPkt <= `PROC_PKT_DATA_LOOP_FIFO_FULL; next_RXOverflow <= 1'b1; end else begin NextState_slvGetPkt <= `PROC_PKT_DATA_LOOP_W_D; next_RXFifoWEn <= 1'b1; next_RXFifoData <= RXByteOldest; next_RXByteOldest <= RXByteOld; next_RXByteOld <= RXByte; end end `PROC_PKT_DATA_LOOP_FIFO_FULL: begin NextState_slvGetPkt <= `PROC_PKT_DATA_LOOP_W_D; end `PROC_PKT_DATA_LOOP_W_D: begin next_RXFifoWEn <= 1'b0; if ((RXDataValid == 1'b1) && (RXStreamStatusIn == `RX_PACKET_STREAM)) begin NextState_slvGetPkt <= `PROC_PKT_DATA_LOOP_DELAY; next_RXByte <= RXDataIn; end else if (RXDataValid == 1'b1) begin NextState_slvGetPkt <= `PROC_PKT_DATA_FIN; next_RXByte <= RXDataIn; end end `PROC_PKT_DATA_LOOP_DELAY: begin NextState_slvGetPkt <= `PROC_PKT_DATA_LOOP_CHK_FIFO; end endcase end // Current State Logic (sequential) always @ (posedge clk) begin if (rst) CurrState_slvGetPkt <= `START_GP; else CurrState_slvGetPkt <= NextState_slvGetPkt; end // Registered outputs logic always @ (posedge clk) begin if (rst) begin RXOverflow <= 1'b0; ACKRxed <= 1'b0; CRCError <= 1'b0; bitStuffError <= 1'b0; dataSequence <= 1'b0; RXFifoWEn <= 1'b0; RXFifoData <= 8'h00; RXPacketRdy <= 1'b0; RXTimeOut <= 1'b0; RxPID <= 4'h0; RXByte <= 8'h00; RXStreamStatus <= 8'h00; RXByteOldest <= 8'h00; RXByteOld <= 8'h00; end else begin RXOverflow <= next_RXOverflow; ACKRxed <= next_ACKRxed; CRCError <= next_CRCError; bitStuffError <= next_bitStuffError; dataSequence <= next_dataSequence; RXFifoWEn <= next_RXFifoWEn; RXFifoData <= next_RXFifoData; RXPacketRdy <= next_RXPacketRdy; RXTimeOut <= next_RXTimeOut; RxPID <= next_RxPID; RXByte <= next_RXByte; RXStreamStatus <= next_RXStreamStatus; RXByteOldest <= next_RXByteOldest; RXByteOld <= next_RXByteOld; end end endmodule
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