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[/] [openrisc/] [trunk/] [orpsocv2/] [rtl/] [verilog/] [ethmac/] [eth_rxethmac.v] - Rev 495
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////////////////////////////////////////////////////////////////////// //// //// //// eth_rxethmac.v //// //// //// //// This file is part of the Ethernet IP core project //// //// http://www.opencores.org/project,ethmac //// //// //// //// Author(s): //// //// - Igor Mohor (igorM@opencores.org) //// //// - Novan Hartadi (novan@vlsi.itb.ac.id) //// //// - Mahmud Galela (mgalela@vlsi.itb.ac.id) //// //// //// //// All additional information is avaliable in the Readme.txt //// //// file. //// //// //// ////////////////////////////////////////////////////////////////////// //// //// //// Copyright (C) 2001 Authors //// //// //// //// 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" module eth_rxethmac (MRxClk, MRxDV, MRxD, Reset, Transmitting, MaxFL, r_IFG, HugEn, DlyCrcEn, RxData, RxValid, RxStartFrm, RxEndFrm, ByteCnt, ByteCntEq0, ByteCntGreat2, ByteCntMaxFrame, CrcError, StateIdle, StatePreamble, StateSFD, StateData, MAC, r_Pro, r_Bro,r_HASH0, r_HASH1, RxAbort, AddressMiss, PassAll, ControlFrmAddressOK ); input MRxClk; input MRxDV; input [3:0] MRxD; input Transmitting; input HugEn; input DlyCrcEn; input [15:0] MaxFL; input r_IFG; input Reset; input [47:0] MAC; // Station Address input r_Bro; // broadcast disable input r_Pro; // promiscuous enable input [31:0] r_HASH0; // lower 4 bytes Hash Table input [31:0] r_HASH1; // upper 4 bytes Hash Table input PassAll; input ControlFrmAddressOK; output [7:0] RxData; output RxValid; output RxStartFrm; output RxEndFrm; output [15:0] ByteCnt; output ByteCntEq0; output ByteCntGreat2; output ByteCntMaxFrame; output CrcError; output StateIdle; output StatePreamble; output StateSFD; output [1:0] StateData; output RxAbort; output AddressMiss; reg [7:0] RxData; reg RxValid; reg RxStartFrm; reg RxEndFrm; reg Broadcast; reg Multicast; reg [5:0] CrcHash; reg CrcHashGood; reg DelayData; reg [7:0] LatchedByte; reg [7:0] RxData_d; reg RxValid_d; reg RxStartFrm_d; reg RxEndFrm_d; wire MRxDEqD; wire MRxDEq5; wire StateDrop; wire ByteCntEq1; wire ByteCntEq2; wire ByteCntEq3; wire ByteCntEq4; wire ByteCntEq5; wire ByteCntEq6; wire ByteCntEq7; wire ByteCntSmall7; wire [31:0] Crc; wire Enable_Crc; wire Initialize_Crc; wire [3:0] Data_Crc; wire GenerateRxValid; wire GenerateRxStartFrm; wire GenerateRxEndFrm; wire DribbleRxEndFrm; wire [3:0] DlyCrcCnt; wire IFGCounterEq24; assign MRxDEqD = MRxD == 4'hd; assign MRxDEq5 = MRxD == 4'h5; // Rx State Machine module eth_rxstatem rxstatem1 ( .MRxClk(MRxClk), .Reset(Reset), .MRxDV(MRxDV), .ByteCntEq0(ByteCntEq0), .ByteCntGreat2(ByteCntGreat2), .Transmitting(Transmitting), .MRxDEq5(MRxDEq5), .MRxDEqD(MRxDEqD), .IFGCounterEq24(IFGCounterEq24), .ByteCntMaxFrame(ByteCntMaxFrame), .StateData(StateData), .StateIdle(StateIdle), .StatePreamble(StatePreamble), .StateSFD(StateSFD), .StateDrop(StateDrop) ); // Rx Counters module eth_rxcounters rxcounters1 (.MRxClk(MRxClk), .Reset(Reset), .MRxDV(MRxDV), .StateIdle(StateIdle), .StateSFD(StateSFD), .StateData(StateData), .StateDrop(StateDrop), .StatePreamble(StatePreamble), .MRxDEqD(MRxDEqD), .DlyCrcEn(DlyCrcEn), .DlyCrcCnt(DlyCrcCnt), .Transmitting(Transmitting), .MaxFL(MaxFL), .r_IFG(r_IFG), .HugEn(HugEn), .IFGCounterEq24(IFGCounterEq24), .ByteCntEq0(ByteCntEq0), .ByteCntEq1(ByteCntEq1), .ByteCntEq2(ByteCntEq2), .ByteCntEq3(ByteCntEq3), .ByteCntEq4(ByteCntEq4), .ByteCntEq5(ByteCntEq5), .ByteCntEq6(ByteCntEq6), .ByteCntEq7(ByteCntEq7), .ByteCntGreat2(ByteCntGreat2), .ByteCntSmall7(ByteCntSmall7), .ByteCntMaxFrame(ByteCntMaxFrame), .ByteCntOut(ByteCnt) ); // Rx Address Check eth_rxaddrcheck rxaddrcheck1 (.MRxClk(MRxClk), .Reset( Reset), .RxData(RxData), .Broadcast (Broadcast), .r_Bro (r_Bro), .r_Pro(r_Pro), .ByteCntEq6(ByteCntEq6), .ByteCntEq7(ByteCntEq7), .ByteCntEq2(ByteCntEq2), .ByteCntEq3(ByteCntEq3), .ByteCntEq4(ByteCntEq4), .ByteCntEq5(ByteCntEq5), .HASH0(r_HASH0), .HASH1(r_HASH1), .CrcHash(CrcHash), .CrcHashGood(CrcHashGood), .StateData(StateData), .Multicast(Multicast), .MAC(MAC), .RxAbort(RxAbort), .RxEndFrm(RxEndFrm), .AddressMiss(AddressMiss), .PassAll(PassAll), .ControlFrmAddressOK(ControlFrmAddressOK) ); assign Enable_Crc = MRxDV & (|StateData & ~ByteCntMaxFrame); assign Initialize_Crc = StateSFD | DlyCrcEn & (|DlyCrcCnt[3:0]) & DlyCrcCnt[3:0] < 4'h9; assign Data_Crc[0] = MRxD[3]; assign Data_Crc[1] = MRxD[2]; assign Data_Crc[2] = MRxD[1]; assign Data_Crc[3] = MRxD[0]; // Connecting module Crc eth_crc crcrx (.Clk(MRxClk), .Reset(Reset), .Data(Data_Crc), .Enable(Enable_Crc), .Initialize(Initialize_Crc), .Crc(Crc), .CrcError(CrcError) ); // Latching CRC for use in the hash table always @ (posedge MRxClk) begin CrcHashGood <= StateData[0] & ByteCntEq6; end always @ (posedge MRxClk) begin if(Reset | StateIdle) CrcHash[5:0] <= 6'h0; else if(StateData[0] & ByteCntEq6) CrcHash[5:0] <= Crc[31:26]; end // Output byte stream always @ (posedge MRxClk or posedge Reset) begin if(Reset) begin RxData_d[7:0] <= 8'h0; DelayData <= 1'b0; LatchedByte[7:0] <= 8'h0; RxData[7:0] <= 8'h0; end else begin // Latched byte LatchedByte[7:0] <= {MRxD[3:0], LatchedByte[7:4]}; DelayData <= StateData[0]; if(GenerateRxValid) // Data goes through only in data state RxData_d[7:0] <= LatchedByte[7:0] & {8{|StateData}}; else if(~DelayData) // Delaying data to be valid for two cycles. // Zero when not active. RxData_d[7:0] <= 8'h0; RxData[7:0] <= RxData_d[7:0]; // Output data byte end end always @ (posedge MRxClk or posedge Reset) begin if(Reset) Broadcast <= 1'b0; else begin if(StateData[0] & ~(&LatchedByte[7:0]) & ByteCntSmall7) Broadcast <= 1'b0; else if(StateData[0] & (&LatchedByte[7:0]) & ByteCntEq1) Broadcast <= 1'b1; else if(RxAbort | RxEndFrm) Broadcast <= 1'b0; end end always @ (posedge MRxClk or posedge Reset) begin if(Reset) Multicast <= 1'b0; else begin if(StateData[0] & ByteCntEq1 & LatchedByte[0]) Multicast <= 1'b1; else if(RxAbort | RxEndFrm) Multicast <= 1'b0; end end assign GenerateRxValid = StateData[0] & (~ByteCntEq0 | DlyCrcCnt >= 4'h3); always @ (posedge MRxClk or posedge Reset) begin if(Reset) begin RxValid_d <= 1'b0; RxValid <= 1'b0; end else begin RxValid_d <= GenerateRxValid; RxValid <= RxValid_d; end end assign GenerateRxStartFrm = StateData[0] & ((ByteCntEq1 & ~DlyCrcEn) | ((DlyCrcCnt == 4'h3) & DlyCrcEn)); always @ (posedge MRxClk or posedge Reset) begin if(Reset) begin RxStartFrm_d <= 1'b0; RxStartFrm <= 1'b0; end else begin RxStartFrm_d <= GenerateRxStartFrm; RxStartFrm <= RxStartFrm_d; end end assign GenerateRxEndFrm = StateData[0] & (~MRxDV & ByteCntGreat2 | ByteCntMaxFrame); assign DribbleRxEndFrm = StateData[1] & ~MRxDV & ByteCntGreat2; always @ (posedge MRxClk or posedge Reset) begin if(Reset) begin RxEndFrm_d <= 1'b0; RxEndFrm <= 1'b0; end else begin RxEndFrm_d <= GenerateRxEndFrm; RxEndFrm <= RxEndFrm_d | DribbleRxEndFrm; end end endmodule
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