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[/] [openrisc/] [trunk/] [orpsocv2/] [bench/] [verilog/] [usbhostslave/] [processTxByte_simlib.v] - Rev 703
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// File : ../RTL/serialInterfaceEngine/processTxByte.v // Generated : 11/10/06 05:37:23 // From : ../RTL/serialInterfaceEngine/processTxByte.asf // By : FSM2VHDL ver. 5.0.0.9 ////////////////////////////////////////////////////////////////////// //// //// //// processTxByte //// //// //// 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 //// //// //// ////////////////////////////////////////////////////////////////////// // `include "timescale.v" `include "usbSerialInterfaceEngine_h.v" `include "usbConstants_h.v" module processTxByte_simlib (JBit, KBit, TxByteCtrlIn, TxByteFullSpeedRateIn, TxByteIn, USBWireCtrl, USBWireData, USBWireFullSpeedRate, USBWireGnt, USBWireRdy, USBWireReq, USBWireWEn, clk, processTxByteRdy, processTxByteWEn, rst); input [1:0] JBit; input [1:0] KBit; input [7:0] TxByteCtrlIn; input TxByteFullSpeedRateIn; input [7:0] TxByteIn; input USBWireGnt; input USBWireRdy; input clk; input processTxByteWEn; input rst; output USBWireCtrl; output [1:0] USBWireData; output USBWireFullSpeedRate; output USBWireReq; output USBWireWEn; output processTxByteRdy; wire [1:0] JBit; wire [1:0] KBit; wire [7:0] TxByteCtrlIn; wire TxByteFullSpeedRateIn; wire [7:0] TxByteIn; reg USBWireCtrl, next_USBWireCtrl; reg [1:0] USBWireData, next_USBWireData; reg USBWireFullSpeedRate, next_USBWireFullSpeedRate; wire USBWireGnt; wire USBWireRdy; reg USBWireReq, next_USBWireReq; reg USBWireWEn, next_USBWireWEn; wire clk; reg processTxByteRdy, next_processTxByteRdy; wire processTxByteWEn; wire rst; // diagram signals declarations reg [1:0]TXLineState, next_TXLineState; reg [3:0]TXOneCount, next_TXOneCount; reg [7:0]TxByteCtrl, next_TxByteCtrl; reg TxByteFullSpeedRate, next_TxByteFullSpeedRate; reg [7:0]TxByte, next_TxByte; reg [3:0]i, next_i; // BINARY ENCODED state machine: prcTxB // State codes definitions: `define START_PTBY 5'b00000 `define PTBY_WAIT_EN 5'b00001 `define SEND_BYTE_UPDATE_BYTE 5'b00010 `define SEND_BYTE_WAIT_RDY 5'b00011 `define SEND_BYTE_CHK 5'b00100 `define SEND_BYTE_BIT_STUFF 5'b00101 `define SEND_BYTE_WAIT_RDY2 5'b00110 `define SEND_BYTE_CHK_FIN 5'b00111 `define PTBY_WAIT_GNT 5'b01000 `define STOP_SND_SE0_2 5'b01001 `define STOP_SND_SE0_1 5'b01010 `define STOP_CHK 5'b01011 `define STOP_SND_J 5'b01100 `define STOP_SND_IDLE 5'b01101 `define STOP_FIN 5'b01110 `define WAIT_RDY_WIRE 5'b01111 `define WAIT_RDY_PKT 5'b10000 `define LS_START_SND_IDLE3 5'b10001 `define LS_START_SND_J1 5'b10010 `define LS_START_SND_IDLE1 5'b10011 `define LS_START_SND_IDLE2 5'b10100 `define LS_START_FIN 5'b10101 `define LS_START_W_RDY1 5'b10110 `define LS_START_W_RDY2 5'b10111 `define LS_START_W_RDY3 5'b11000 `define STOP_W_RDY1 5'b11001 `define STOP_W_RDY2 5'b11010 `define STOP_W_RDY3 5'b11011 `define STOP_W_RDY4 5'b11100 reg [4:0] CurrState_prcTxB; reg [4:0] NextState_prcTxB; //-------------------------------------------------------------------- // Machine: prcTxB //-------------------------------------------------------------------- //---------------------------------- // Next State Logic (combinatorial) //---------------------------------- always @ (TxByteIn or TxByteCtrlIn or TxByteFullSpeedRateIn or JBit or i or TxByte or TXOneCount or TXLineState or KBit or processTxByteWEn or USBWireGnt or USBWireRdy or TxByteFullSpeedRate or TxByteCtrl or processTxByteRdy or USBWireData or USBWireCtrl or USBWireReq or USBWireWEn or USBWireFullSpeedRate or CurrState_prcTxB) begin : prcTxB_NextState NextState_prcTxB <= CurrState_prcTxB; // Set default values for outputs and signals next_processTxByteRdy <= processTxByteRdy; next_USBWireData <= USBWireData; next_USBWireCtrl <= USBWireCtrl; next_USBWireReq <= USBWireReq; next_USBWireWEn <= USBWireWEn; next_i <= i; next_TxByte <= TxByte; next_TxByteCtrl <= TxByteCtrl; next_TXLineState <= TXLineState; next_TXOneCount <= TXOneCount; next_USBWireFullSpeedRate <= USBWireFullSpeedRate; next_TxByteFullSpeedRate <= TxByteFullSpeedRate; case (CurrState_prcTxB) `START_PTBY: begin next_processTxByteRdy <= 1'b0; next_USBWireData <= 2'b00; next_USBWireCtrl <= `TRI_STATE; next_USBWireReq <= 1'b0; next_USBWireWEn <= 1'b0; next_i <= 4'h0; next_TxByte <= 8'h00; next_TxByteCtrl <= 8'h00; next_TXLineState <= 2'b0; next_TXOneCount <= 4'h0; next_USBWireFullSpeedRate <= 1'b0; next_TxByteFullSpeedRate <= 1'b0; NextState_prcTxB <= `PTBY_WAIT_EN; end `PTBY_WAIT_EN: begin next_processTxByteRdy <= 1'b1; if ((processTxByteWEn == 1'b1) && (TxByteCtrlIn == `DATA_START)) begin NextState_prcTxB <= `PTBY_WAIT_GNT; next_processTxByteRdy <= 1'b0; next_TxByte <= TxByteIn; next_TxByteCtrl <= TxByteCtrlIn; next_TxByteFullSpeedRate <= TxByteFullSpeedRateIn; next_USBWireFullSpeedRate <= TxByteFullSpeedRateIn; next_TXOneCount <= 4'h0; next_TXLineState <= JBit; next_USBWireReq <= 1'b1; end else if (processTxByteWEn == 1'b1) begin NextState_prcTxB <= `SEND_BYTE_UPDATE_BYTE; next_processTxByteRdy <= 1'b0; next_TxByte <= TxByteIn; next_TxByteCtrl <= TxByteCtrlIn; next_TxByteFullSpeedRate <= TxByteFullSpeedRateIn; next_USBWireFullSpeedRate <= TxByteFullSpeedRateIn; next_i <= 4'h0; end end `PTBY_WAIT_GNT: if (USBWireGnt == 1'b1) NextState_prcTxB <= `WAIT_RDY_WIRE; `WAIT_RDY_WIRE: if ((USBWireRdy == 1'b1) && (TxByteFullSpeedRate == 1'b0)) NextState_prcTxB <= `LS_START_SND_IDLE1; else if (USBWireRdy == 1'b1) begin NextState_prcTxB <= `WAIT_RDY_PKT; //actively drive the first J bit next_USBWireData <= JBit; next_USBWireCtrl <= `DRIVE; next_USBWireWEn <= 1'b1; end `WAIT_RDY_PKT: begin next_USBWireWEn <= 1'b0; NextState_prcTxB <= `SEND_BYTE_UPDATE_BYTE; next_i <= 4'h0; end `SEND_BYTE_UPDATE_BYTE: begin next_i <= i + 1'b1; next_TxByte <= {1'b0, TxByte[7:1] }; if (TxByte[0] == 1'b1) //If this bit is 1, then next_TXOneCount <= TXOneCount + 1'b1; //increment 'TXOneCount' else //else this is a zero bit begin next_TXOneCount <= 4'h0; //reset 'TXOneCount' if (TXLineState == JBit) next_TXLineState <= KBit; //toggle the line state else next_TXLineState <= JBit; end NextState_prcTxB <= `SEND_BYTE_WAIT_RDY; end `SEND_BYTE_WAIT_RDY: if (USBWireRdy == 1'b1) begin NextState_prcTxB <= `SEND_BYTE_CHK; next_USBWireWEn <= 1'b1; next_USBWireData <= TXLineState; next_USBWireCtrl <= `DRIVE; end `SEND_BYTE_CHK: begin next_USBWireWEn <= 1'b0; if (TXOneCount == `MAX_CONSEC_SAME_BITS) NextState_prcTxB <= `SEND_BYTE_BIT_STUFF; else if (i != 4'h8) NextState_prcTxB <= `SEND_BYTE_UPDATE_BYTE; else NextState_prcTxB <= `STOP_CHK; end `SEND_BYTE_BIT_STUFF: begin next_TXOneCount <= 4'h0; //reset 'TXOneCount' if (TXLineState == JBit) next_TXLineState <= KBit; //toggle the line state else next_TXLineState <= JBit; NextState_prcTxB <= `SEND_BYTE_WAIT_RDY2; end `SEND_BYTE_WAIT_RDY2: if (USBWireRdy == 1'b1) begin NextState_prcTxB <= `SEND_BYTE_CHK_FIN; next_USBWireWEn <= 1'b1; next_USBWireData <= TXLineState; next_USBWireCtrl <= `DRIVE; end `SEND_BYTE_CHK_FIN: begin next_USBWireWEn <= 1'b0; if (i == 4'h8) NextState_prcTxB <= `STOP_CHK; else NextState_prcTxB <= `SEND_BYTE_UPDATE_BYTE; end `STOP_SND_SE0_2: begin next_USBWireWEn <= 1'b0; NextState_prcTxB <= `STOP_W_RDY2; end `STOP_SND_SE0_1: NextState_prcTxB <= `STOP_W_RDY1; `STOP_CHK: if (TxByteCtrl == `DATA_STOP) NextState_prcTxB <= `STOP_SND_SE0_1; else NextState_prcTxB <= `PTBY_WAIT_EN; `STOP_SND_J: begin next_USBWireWEn <= 1'b0; NextState_prcTxB <= `STOP_W_RDY3; end `STOP_SND_IDLE: begin next_USBWireWEn <= 1'b0; NextState_prcTxB <= `STOP_W_RDY4; end `STOP_FIN: begin next_USBWireWEn <= 1'b0; next_USBWireReq <= 1'b0; //release the wire NextState_prcTxB <= `PTBY_WAIT_EN; end `STOP_W_RDY1: if (USBWireRdy == 1'b1) begin NextState_prcTxB <= `STOP_SND_SE0_2; next_USBWireWEn <= 1'b1; next_USBWireData <= `SE0; next_USBWireCtrl <= `DRIVE; end `STOP_W_RDY2: if (USBWireRdy == 1'b1) begin NextState_prcTxB <= `STOP_SND_J; next_USBWireWEn <= 1'b1; next_USBWireData <= `SE0; next_USBWireCtrl <= `DRIVE; end `STOP_W_RDY3: if (USBWireRdy == 1'b1) begin NextState_prcTxB <= `STOP_SND_IDLE; next_USBWireWEn <= 1'b1; next_USBWireData <= JBit; next_USBWireCtrl <= `DRIVE; end `STOP_W_RDY4: if (USBWireRdy == 1'b1) begin NextState_prcTxB <= `STOP_FIN; next_USBWireWEn <= 1'b1; next_USBWireData <= JBit; next_USBWireCtrl <= `TRI_STATE; end `LS_START_SND_IDLE3: begin next_USBWireWEn <= 1'b0; NextState_prcTxB <= `LS_START_W_RDY2; end `LS_START_SND_J1: begin next_USBWireWEn <= 1'b0; NextState_prcTxB <= `LS_START_W_RDY3; end `LS_START_SND_IDLE1: if (USBWireRdy == 1'b1) begin NextState_prcTxB <= `LS_START_SND_IDLE2; next_USBWireWEn <= 1'b1; next_USBWireData <= JBit; next_USBWireCtrl <= `TRI_STATE; end `LS_START_SND_IDLE2: begin next_USBWireWEn <= 1'b0; NextState_prcTxB <= `LS_START_W_RDY1; end `LS_START_FIN: begin next_USBWireWEn <= 1'b0; NextState_prcTxB <= `SEND_BYTE_UPDATE_BYTE; next_i <= 4'h0; end `LS_START_W_RDY1: if (USBWireRdy == 1'b1) begin NextState_prcTxB <= `LS_START_SND_IDLE3; next_USBWireWEn <= 1'b1; next_USBWireData <= JBit; next_USBWireCtrl <= `TRI_STATE; end `LS_START_W_RDY2: if (USBWireRdy == 1'b1) begin NextState_prcTxB <= `LS_START_SND_J1; next_USBWireWEn <= 1'b1; next_USBWireData <= JBit; next_USBWireCtrl <= `TRI_STATE; end `LS_START_W_RDY3: if (USBWireRdy == 1'b1) begin NextState_prcTxB <= `LS_START_FIN; //Drive the first JBit next_USBWireWEn <= 1'b1; next_USBWireData <= JBit; next_USBWireCtrl <= `DRIVE; end endcase end //---------------------------------- // Current State Logic (sequential) //---------------------------------- always @ (posedge clk) begin : prcTxB_CurrentState if (rst) CurrState_prcTxB <= `START_PTBY; else CurrState_prcTxB <= NextState_prcTxB; end //---------------------------------- // Registered outputs logic //---------------------------------- always @ (posedge clk) begin : prcTxB_RegOutput if (rst) begin i <= 4'h0; TxByte <= 8'h00; TxByteCtrl <= 8'h00; TXLineState <= 2'b0; TXOneCount <= 4'h0; TxByteFullSpeedRate <= 1'b0; processTxByteRdy <= 1'b0; USBWireData <= 2'b00; USBWireCtrl <= `TRI_STATE; USBWireReq <= 1'b0; USBWireWEn <= 1'b0; USBWireFullSpeedRate <= 1'b0; end else begin i <= next_i; TxByte <= next_TxByte; TxByteCtrl <= next_TxByteCtrl; TXLineState <= next_TXLineState; TXOneCount <= next_TXOneCount; TxByteFullSpeedRate <= next_TxByteFullSpeedRate; processTxByteRdy <= next_processTxByteRdy; USBWireData <= next_USBWireData; USBWireCtrl <= next_USBWireCtrl; USBWireReq <= next_USBWireReq; USBWireWEn <= next_USBWireWEn; USBWireFullSpeedRate <= next_USBWireFullSpeedRate; end end endmodule
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