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[/] [i2cslave/] [trunk/] [rtl/] [serialInterface.v] - Rev 2
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////////////////////////////////////////////////////////////////////// //// //// //// serialInterface.v //// //// //// //// This file is part of the i2cSlave opencores effort. //// <http://www.opencores.org/cores//> //// //// //// //// Module Description: //// //// Perform all serial to parallel, and parallel //// to serial conversions. Perform device address matching //// Handle arbitrary length I2C reads terminated by NAK //// from host, and arbitrary length I2C writes terminated //// by STOP from host //// The second byte of a I2C write is always interpreted //// as a register address, and becomes the base register address //// for all read and write transactions. //// I2C WRITE: devAddr, regAddr, data[regAddr], data[regAddr+1], ..... data[regAddr+N] //// I2C READ: data[regAddr], data[regAddr+1], ..... data[regAddr+N] //// Note that when regAddR reaches 255 it will automatically wrap round to 0 //// //// //// To Do: //// //// //// //// //// Author(s): //// //// - Steve Fielding, sfielding@base2designs.com //// //// //// ////////////////////////////////////////////////////////////////////// //// //// //// Copyright (C) 2008 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 "i2cSlave_define.v" module serialInterface (clearStartStopDet, clk, dataIn, dataOut, regAddr, rst, scl, sdaIn, sdaOut, startStopDetState, writeEn); input clk; input [7:0]dataIn; input rst; input scl; input sdaIn; input [1:0]startStopDetState; output clearStartStopDet; output [7:0]dataOut; output [7:0]regAddr; output sdaOut; output writeEn; reg clearStartStopDet, next_clearStartStopDet; wire clk; wire [7:0]dataIn; reg [7:0]dataOut, next_dataOut; reg [7:0]regAddr, next_regAddr; wire rst; wire scl; wire sdaIn; reg sdaOut, next_sdaOut; wire [1:0]startStopDetState; reg writeEn, next_writeEn; // diagram signals declarations reg [2:0]bitCnt, next_bitCnt; reg [7:0]rxData, next_rxData; reg [1:0]streamSt, next_streamSt; reg [7:0]txData, next_txData; // BINARY ENCODED state machine: SISt // State codes definitions: `define START 4'b0000 `define CHK_RD_WR 4'b0001 `define READ_RD_LOOP 4'b0010 `define READ_WT_HI 4'b0011 `define READ_CHK_LOOP_FIN 4'b0100 `define READ_WT_LO 4'b0101 `define READ_WT_ACK 4'b0110 `define WRITE_WT_LO 4'b0111 `define WRITE_WT_HI 4'b1000 `define WRITE_CHK_LOOP_FIN 4'b1001 `define WRITE_LOOP_WT_LO 4'b1010 `define WRITE_ST_LOOP 4'b1011 `define WRITE_WT_LO2 4'b1100 `define WRITE_WT_HI2 4'b1101 `define WRITE_CLR_WR 4'b1110 `define WRITE_CLR_ST_STOP 4'b1111 reg [3:0]CurrState_SISt, NextState_SISt; // Diagram actions (continuous assignments allowed only: assign ...) // diagram ACTION // Machine: SISt // NextState logic (combinatorial) always @ (startStopDetState or streamSt or scl or txData or bitCnt or rxData or sdaIn or regAddr or dataIn or sdaOut or writeEn or dataOut or clearStartStopDet or CurrState_SISt) begin NextState_SISt <= CurrState_SISt; // Set default values for outputs and signals next_streamSt <= streamSt; next_txData <= txData; next_rxData <= rxData; next_sdaOut <= sdaOut; next_writeEn <= writeEn; next_dataOut <= dataOut; next_bitCnt <= bitCnt; next_clearStartStopDet <= clearStartStopDet; next_regAddr <= regAddr; case (CurrState_SISt) // synopsys parallel_case full_case `START: begin next_streamSt <= `STREAM_IDLE; next_txData <= 8'h00; next_rxData <= 8'h00; next_sdaOut <= 1'b1; next_writeEn <= 1'b0; next_dataOut <= 8'h00; next_bitCnt <= 3'b000; next_clearStartStopDet <= 1'b0; NextState_SISt <= `CHK_RD_WR; end `CHK_RD_WR: begin if (streamSt == `STREAM_READ) begin NextState_SISt <= `READ_RD_LOOP; next_txData <= dataIn; next_regAddr <= regAddr + 1'b1; next_bitCnt <= 3'b001; end else begin NextState_SISt <= `WRITE_WT_HI; next_rxData <= 8'h00; end end `READ_RD_LOOP: begin if (scl == 1'b0) begin NextState_SISt <= `READ_WT_HI; next_sdaOut <= txData [7]; next_txData <= {txData [6:0], 1'b0}; end end `READ_WT_HI: begin if (scl == 1'b1) begin NextState_SISt <= `READ_CHK_LOOP_FIN; end end `READ_CHK_LOOP_FIN: begin if (bitCnt == 3'b000) begin NextState_SISt <= `READ_WT_LO; end else begin NextState_SISt <= `READ_RD_LOOP; next_bitCnt <= bitCnt + 1'b1; end end `READ_WT_LO: begin if (scl == 1'b0) begin NextState_SISt <= `READ_WT_ACK; next_sdaOut <= 1'b1; end end `READ_WT_ACK: begin if (scl == 1'b1) begin NextState_SISt <= `CHK_RD_WR; if (sdaIn == `I2C_NAK) next_streamSt <= `STREAM_IDLE; end end `WRITE_WT_LO: begin if ((scl == 1'b0) && (startStopDetState == `STOP_DET || (streamSt == `STREAM_IDLE && startStopDetState == `NULL_DET))) begin NextState_SISt <= `WRITE_CLR_ST_STOP; case (startStopDetState) `NULL_DET: next_bitCnt <= bitCnt + 1'b1; `START_DET: begin next_streamSt <= `STREAM_IDLE; next_rxData <= 8'h00; end default: ; endcase next_streamSt <= `STREAM_IDLE; next_clearStartStopDet <= 1'b1; end else if (scl == 1'b0) begin NextState_SISt <= `WRITE_ST_LOOP; case (startStopDetState) `NULL_DET: next_bitCnt <= bitCnt + 1'b1; `START_DET: begin next_streamSt <= `STREAM_IDLE; next_rxData <= 8'h00; end default: ; endcase end end `WRITE_WT_HI: begin if (scl == 1'b1) begin NextState_SISt <= `WRITE_WT_LO; next_rxData <= {rxData [6:0], sdaIn}; next_bitCnt <= 3'b000; end end `WRITE_CHK_LOOP_FIN: begin if (bitCnt == 3'b111) begin NextState_SISt <= `WRITE_CLR_WR; next_sdaOut <= `I2C_ACK; case (streamSt) `STREAM_IDLE: begin if (rxData[7:1] == `I2C_ADDRESS && startStopDetState == `START_DET) begin if (rxData[0] == 1'b1) next_streamSt <= `STREAM_READ; else next_streamSt <= `STREAM_WRITE_ADDR; end else next_sdaOut <= `I2C_NAK; end `STREAM_WRITE_ADDR: begin next_streamSt <= `STREAM_WRITE_DATA; next_regAddr <= rxData; end `STREAM_WRITE_DATA: begin next_dataOut <= rxData; next_writeEn <= 1'b1; end default: next_streamSt <= streamSt; endcase end else begin NextState_SISt <= `WRITE_ST_LOOP; next_bitCnt <= bitCnt + 1'b1; end end `WRITE_LOOP_WT_LO: begin if (scl == 1'b0) begin NextState_SISt <= `WRITE_CHK_LOOP_FIN; end end `WRITE_ST_LOOP: begin if (scl == 1'b1) begin NextState_SISt <= `WRITE_LOOP_WT_LO; next_rxData <= {rxData [6:0], sdaIn}; end end `WRITE_WT_LO2: begin if (scl == 1'b0) begin NextState_SISt <= `CHK_RD_WR; next_sdaOut <= 1'b1; end end `WRITE_WT_HI2: begin next_clearStartStopDet <= 1'b0; if (scl == 1'b1) begin NextState_SISt <= `WRITE_WT_LO2; end end `WRITE_CLR_WR: begin if (writeEn == 1'b1) next_regAddr <= regAddr + 1'b1; next_writeEn <= 1'b0; next_clearStartStopDet <= 1'b1; NextState_SISt <= `WRITE_WT_HI2; end `WRITE_CLR_ST_STOP: begin next_clearStartStopDet <= 1'b0; NextState_SISt <= `CHK_RD_WR; end endcase end // Current State Logic (sequential) always @ (posedge clk) begin if (rst == 1'b1) CurrState_SISt <= `START; else CurrState_SISt <= NextState_SISt; end // Registered outputs logic always @ (posedge clk) begin if (rst == 1'b1) begin sdaOut <= 1'b1; writeEn <= 1'b0; dataOut <= 8'h00; clearStartStopDet <= 1'b0; // regAddr <= // Initialization in the reset state or default value required!! streamSt <= `STREAM_IDLE; txData <= 8'h00; rxData <= 8'h00; bitCnt <= 3'b000; end else begin sdaOut <= next_sdaOut; writeEn <= next_writeEn; dataOut <= next_dataOut; clearStartStopDet <= next_clearStartStopDet; regAddr <= next_regAddr; streamSt <= next_streamSt; txData <= next_txData; rxData <= next_rxData; bitCnt <= next_bitCnt; end end endmodule
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