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[/] [openrisc/] [trunk/] [orpsocv2/] [rtl/] [verilog/] [usbhostslave/] [hostcontroller.v] - Rev 408
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////////////////////////////////////////////////////////////////////// //// //// //// hostController //// //// //// 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 "usbhostslave_hostcontrol_h.v" `include "usbhostslave_constants_h.v" module hostcontroller (RXStatus, clearTXReq, clk, getPacketREn, getPacketRdy, isoEn, rst, sendPacketArbiterGnt, sendPacketArbiterReq, sendPacketPID, sendPacketRdy, sendPacketWEn, transDone, transReq, transType); input [7:0] RXStatus; input clk; input getPacketRdy; input isoEn; input rst; input sendPacketArbiterGnt; input sendPacketRdy; input transReq; input [1:0] transType; output clearTXReq; output getPacketREn; output sendPacketArbiterReq; output [3:0] sendPacketPID; output sendPacketWEn; output transDone; wire [7:0] RXStatus; reg clearTXReq, next_clearTXReq; wire clk; reg getPacketREn, next_getPacketREn; wire getPacketRdy; wire isoEn; wire rst; wire sendPacketArbiterGnt; reg sendPacketArbiterReq, next_sendPacketArbiterReq; reg [3:0] sendPacketPID, next_sendPacketPID; wire sendPacketRdy; reg sendPacketWEn, next_sendPacketWEn; reg transDone, next_transDone; wire transReq; wire [1:0] transType; // diagram signals declarations reg [3:0]delCnt, next_delCnt; // BINARY ENCODED state machine: hstCntrl // State codes definitions: `define START_HC 6'b000000 `define TX_REQ 6'b000001 `define CHK_TYPE 6'b000010 `define FLAG 6'b000011 `define IN_WAIT_DATA_RXED 6'b000100 `define IN_CHK_FOR_ERROR 6'b000101 `define IN_CLR_SP_WEN2 6'b000110 `define SETUP_CLR_SP_WEN1 6'b000111 `define SETUP_CLR_SP_WEN2 6'b001000 `define FIN 6'b001001 `define WAIT_GNT 6'b001010 `define SETUP_WAIT_PKT_RXED 6'b001011 `define IN_WAIT_IN_SENT 6'b001100 `define OUT0_WAIT_RX_DATA 6'b001101 `define OUT0_WAIT_DATA0_SENT 6'b001110 `define OUT0_WAIT_OUT_SENT 6'b001111 `define SETUP_HC_WAIT_RDY 6'b010000 `define IN_WAIT_SP_RDY1 6'b010001 `define IN_WAIT_SP_RDY2 6'b010010 `define OUT0_WAIT_SP_RDY1 6'b010011 `define SETUP_WAIT_SETUP_SENT 6'b010100 `define SETUP_WAIT_DATA_SENT 6'b010101 `define IN_CLR_SP_WEN1 6'b010110 `define IN_WAIT_ACK_SENT 6'b010111 `define OUT0_CLR_WEN1 6'b011000 `define OUT0_CLR_WEN2 6'b011001 `define OUT1_WAIT_RX_DATA 6'b011010 `define OUT1_WAIT_OUT_SENT 6'b011011 `define OUT1_WAIT_DATA1_SENT 6'b011100 `define OUT1_WAIT_SP_RDY1 6'b011101 `define OUT1_CLR_WEN1 6'b011110 `define OUT1_CLR_WEN2 6'b011111 `define OUT0_CHK_ISO 6'b100000 reg [5:0] CurrState_hstCntrl; reg [5:0] NextState_hstCntrl; //-------------------------------------------------------------------- // Machine: hstCntrl //-------------------------------------------------------------------- //---------------------------------- // Next State Logic (combinatorial) //---------------------------------- always @ (delCnt or transReq or transType or sendPacketArbiterGnt or getPacketRdy or sendPacketRdy or isoEn or RXStatus or sendPacketArbiterReq or transDone or clearTXReq or sendPacketWEn or getPacketREn or sendPacketPID or CurrState_hstCntrl) begin : hstCntrl_NextState NextState_hstCntrl <= CurrState_hstCntrl; // Set default values for outputs and signals next_sendPacketArbiterReq <= sendPacketArbiterReq; next_transDone <= transDone; next_clearTXReq <= clearTXReq; next_delCnt <= delCnt; next_sendPacketWEn <= sendPacketWEn; next_getPacketREn <= getPacketREn; next_sendPacketPID <= sendPacketPID; case (CurrState_hstCntrl) // synopsys parallel_case full_case `START_HC: NextState_hstCntrl <= `TX_REQ; `TX_REQ: if (transReq == 1'b1) begin NextState_hstCntrl <= `WAIT_GNT; next_sendPacketArbiterReq <= 1'b1; end `CHK_TYPE: if (transType == `IN_TRANS) NextState_hstCntrl <= `IN_WAIT_SP_RDY1; else if (transType == `OUTDATA0_TRANS) NextState_hstCntrl <= `OUT0_WAIT_SP_RDY1; else if (transType == `OUTDATA1_TRANS) NextState_hstCntrl <= `OUT1_WAIT_SP_RDY1; else if (transType == `SETUP_TRANS) NextState_hstCntrl <= `SETUP_HC_WAIT_RDY; `FLAG: begin next_transDone <= 1'b1; next_clearTXReq <= 1'b1; next_sendPacketArbiterReq <= 1'b0; next_delCnt <= 4'h0; NextState_hstCntrl <= `FIN; end `FIN: begin next_clearTXReq <= 1'b0; next_transDone <= 1'b0; next_delCnt <= delCnt + 1'b1; //now wait for 'transReq' to clear if (delCnt == 4'hf) NextState_hstCntrl <= `TX_REQ; end `WAIT_GNT: if (sendPacketArbiterGnt == 1'b1) NextState_hstCntrl <= `CHK_TYPE; `SETUP_CLR_SP_WEN1: begin next_sendPacketWEn <= 1'b0; NextState_hstCntrl <= `SETUP_WAIT_SETUP_SENT; end `SETUP_CLR_SP_WEN2: begin next_sendPacketWEn <= 1'b0; NextState_hstCntrl <= `SETUP_WAIT_DATA_SENT; end `SETUP_WAIT_PKT_RXED: begin next_getPacketREn <= 1'b0; if (getPacketRdy == 1'b1) NextState_hstCntrl <= `FLAG; end `SETUP_HC_WAIT_RDY: if (sendPacketRdy == 1'b1) begin NextState_hstCntrl <= `SETUP_CLR_SP_WEN1; next_sendPacketWEn <= 1'b1; next_sendPacketPID <= `SETUP; end `SETUP_WAIT_SETUP_SENT: if (sendPacketRdy == 1'b1) begin NextState_hstCntrl <= `SETUP_CLR_SP_WEN2; next_sendPacketWEn <= 1'b1; next_sendPacketPID <= `DATA0; end `SETUP_WAIT_DATA_SENT: if (sendPacketRdy == 1'b1) begin NextState_hstCntrl <= `SETUP_WAIT_PKT_RXED; next_getPacketREn <= 1'b1; end `IN_WAIT_DATA_RXED: begin next_getPacketREn <= 1'b0; if (getPacketRdy == 1'b1) NextState_hstCntrl <= `IN_CHK_FOR_ERROR; end `IN_CHK_FOR_ERROR: if (isoEn == 1'b1) NextState_hstCntrl <= `FLAG; else if (RXStatus [`HC_CRC_ERROR_BIT] == 1'b0 && RXStatus [`HC_BIT_STUFF_ERROR_BIT] == 1'b0 && RXStatus [`HC_RX_OVERFLOW_BIT] == 1'b0 && RXStatus [`HC_NAK_RXED_BIT] == 1'b0 && RXStatus [`HC_STALL_RXED_BIT] == 1'b0 && RXStatus [`HC_RX_TIME_OUT_BIT] == 1'b0) NextState_hstCntrl <= `IN_WAIT_SP_RDY2; else NextState_hstCntrl <= `FLAG; `IN_CLR_SP_WEN2: begin next_sendPacketWEn <= 1'b0; NextState_hstCntrl <= `IN_WAIT_ACK_SENT; end `IN_WAIT_IN_SENT: if (sendPacketRdy == 1'b1) begin NextState_hstCntrl <= `IN_WAIT_DATA_RXED; next_getPacketREn <= 1'b1; end `IN_WAIT_SP_RDY1: if (sendPacketRdy == 1'b1) begin NextState_hstCntrl <= `IN_CLR_SP_WEN1; next_sendPacketWEn <= 1'b1; next_sendPacketPID <= `IN; end `IN_WAIT_SP_RDY2: if (sendPacketRdy == 1'b1) begin NextState_hstCntrl <= `IN_CLR_SP_WEN2; next_sendPacketWEn <= 1'b1; next_sendPacketPID <= `ACK; end `IN_CLR_SP_WEN1: begin next_sendPacketWEn <= 1'b0; NextState_hstCntrl <= `IN_WAIT_IN_SENT; end `IN_WAIT_ACK_SENT: if (sendPacketRdy == 1'b1) NextState_hstCntrl <= `FLAG; `OUT0_WAIT_RX_DATA: begin next_getPacketREn <= 1'b0; if (getPacketRdy == 1'b1) NextState_hstCntrl <= `FLAG; end `OUT0_WAIT_DATA0_SENT: if (sendPacketRdy == 1'b1) NextState_hstCntrl <= `OUT0_CHK_ISO; `OUT0_WAIT_OUT_SENT: if (sendPacketRdy == 1'b1) begin NextState_hstCntrl <= `OUT0_CLR_WEN2; next_sendPacketWEn <= 1'b1; next_sendPacketPID <= `DATA0; end `OUT0_WAIT_SP_RDY1: if (sendPacketRdy == 1'b1) begin NextState_hstCntrl <= `OUT0_CLR_WEN1; next_sendPacketWEn <= 1'b1; next_sendPacketPID <= `OUT; end `OUT0_CLR_WEN1: begin next_sendPacketWEn <= 1'b0; NextState_hstCntrl <= `OUT0_WAIT_OUT_SENT; end `OUT0_CLR_WEN2: begin next_sendPacketWEn <= 1'b0; NextState_hstCntrl <= `OUT0_WAIT_DATA0_SENT; end `OUT0_CHK_ISO: if (isoEn == 1'b0) begin NextState_hstCntrl <= `OUT0_WAIT_RX_DATA; next_getPacketREn <= 1'b1; end else NextState_hstCntrl <= `FLAG; `OUT1_WAIT_RX_DATA: begin next_getPacketREn <= 1'b0; if (getPacketRdy == 1'b1) NextState_hstCntrl <= `FLAG; end `OUT1_WAIT_OUT_SENT: if (sendPacketRdy == 1'b1) begin NextState_hstCntrl <= `OUT1_CLR_WEN2; next_sendPacketWEn <= 1'b1; next_sendPacketPID <= `DATA1; end `OUT1_WAIT_DATA1_SENT: if (sendPacketRdy == 1'b1) begin NextState_hstCntrl <= `OUT1_WAIT_RX_DATA; next_getPacketREn <= 1'b1; end `OUT1_WAIT_SP_RDY1: if (sendPacketRdy == 1'b1) begin NextState_hstCntrl <= `OUT1_CLR_WEN1; next_sendPacketWEn <= 1'b1; next_sendPacketPID <= `OUT; end `OUT1_CLR_WEN1: begin next_sendPacketWEn <= 1'b0; NextState_hstCntrl <= `OUT1_WAIT_OUT_SENT; end `OUT1_CLR_WEN2: begin next_sendPacketWEn <= 1'b0; NextState_hstCntrl <= `OUT1_WAIT_DATA1_SENT; end endcase end //---------------------------------- // Current State Logic (sequential) //---------------------------------- always @ (posedge clk) begin : hstCntrl_CurrentState if (rst) CurrState_hstCntrl <= `START_HC; else CurrState_hstCntrl <= NextState_hstCntrl; end //---------------------------------- // Registered outputs logic //---------------------------------- always @ (posedge clk) begin : hstCntrl_RegOutput if (rst) begin delCnt <= 4'h0; transDone <= 1'b0; clearTXReq <= 1'b0; getPacketREn <= 1'b0; sendPacketArbiterReq <= 1'b0; sendPacketWEn <= 1'b0; sendPacketPID <= 4'b0; end else begin delCnt <= next_delCnt; transDone <= next_transDone; clearTXReq <= next_clearTXReq; getPacketREn <= next_getPacketREn; sendPacketArbiterReq <= next_sendPacketArbiterReq; sendPacketWEn <= next_sendPacketWEn; sendPacketPID <= next_sendPacketPID; end end endmodule