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[/] [openrisc/] [trunk/] [orpsocv2/] [rtl/] [verilog/] [ethmac/] [ethmac.v] - Rev 848

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//////////////////////////////////////////////////////////////////////
////                                                              ////
////  eth.v                                                       ////
////                                                              ////
////  This file is part of the Ethernet IP core project           ////
////  http://www.opencores.org/project,ethmac                     ////
////                                                              ////
////  Author(s):                                                  ////
////      - Igor Mohor (igorM@opencores.org)                      ////
////                                                              ////
////  All additional information is available in the Readme.txt   ////
////  file.                                                       ////
////                                                              ////
//////////////////////////////////////////////////////////////////////
////                                                              ////
//// Copyright (C) 2001, 2002 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 "ethmac_defines.v"
`include "timescale.v"
 
 
module ethmac // renamed jb
  (
   // WISHBONE common
   wb_clk_i, wb_rst_i, wb_dat_i, wb_dat_o, 
 
   // WISHBONE slave
   wb_adr_i, wb_sel_i, wb_we_i, wb_cyc_i, wb_stb_i, wb_ack_o, wb_err_o, 
 
   // WISHBONE master
   m_wb_adr_o, m_wb_sel_o, m_wb_we_o, 
   m_wb_dat_o, m_wb_dat_i, m_wb_cyc_o, 
   m_wb_stb_o, m_wb_ack_i, m_wb_err_i, 
 
`ifdef ETH_WISHBONE_B3
   m_wb_cti_o, m_wb_bte_o, 
`endif
 
   //TX
   mtx_clk_pad_i, mtxd_pad_o, mtxen_pad_o, mtxerr_pad_o,
 
   //RX
   mrx_clk_pad_i, mrxd_pad_i, mrxdv_pad_i, mrxerr_pad_i, mcoll_pad_i, 
   mcrs_pad_i, 
 
   // MIIM
   mdc_pad_o, md_pad_i, md_pad_o, md_padoe_o,
 
   int_o
 
   // Bist
`ifdef ETH_BIST
   ,
   // debug chain signals
   mbist_si_i,       // bist scan serial in
   mbist_so_o,       // bist scan serial out
   mbist_ctrl_i        // bist chain shift control
`endif
 
   );
 
 
 
   // WISHBONE common
   input           wb_clk_i;     // WISHBONE clock
   input           wb_rst_i;     // WISHBONE reset
   input [31:0]    wb_dat_i;     // WISHBONE data input
   output [31:0]   wb_dat_o;     // WISHBONE data output
   output          wb_err_o;     // WISHBONE error output
 
   // WISHBONE slave
   input [11:2]    wb_adr_i;     // WISHBONE address input
   input [3:0] 	   wb_sel_i;     // WISHBONE byte select input
   input           wb_we_i;      // WISHBONE write enable input
   input           wb_cyc_i;     // WISHBONE cycle input
   input           wb_stb_i;     // WISHBONE strobe input
   output          wb_ack_o;     // WISHBONE acknowledge output
 
   // WISHBONE master
   output [31:0]   m_wb_adr_o;
   output [3:0]    m_wb_sel_o;
   output          m_wb_we_o;
   input [31:0]    m_wb_dat_i;
   output [31:0]   m_wb_dat_o;
   output          m_wb_cyc_o;
   output          m_wb_stb_o;
   input           m_wb_ack_i;
   input           m_wb_err_i;
 
   wire [29:0] 	   m_wb_adr_tmp;
 
`ifdef ETH_WISHBONE_B3
   output [2:0]    m_wb_cti_o;   // Cycle Type Identifier
   output [1:0]    m_wb_bte_o;   // Burst Type Extension
`endif
 
   // Tx
   input           mtx_clk_pad_i; // Transmit clock (from PHY)
   output [3:0]    mtxd_pad_o;    // Transmit nibble (to PHY)
   output          mtxen_pad_o;   // Transmit enable (to PHY)
   output          mtxerr_pad_o;  // Transmit error (to PHY)
 
   // Rx
   input           mrx_clk_pad_i; // Receive clock (from PHY)
   input [3:0] 	   mrxd_pad_i;    // Receive nibble (from PHY)
   input           mrxdv_pad_i;   // Receive data valid (from PHY)
   input           mrxerr_pad_i;  // Receive data error (from PHY)
 
   // Common Tx and Rx
   input           mcoll_pad_i;   // Collision (from PHY)
   input           mcrs_pad_i;    // Carrier sense (from PHY)
 
   // MII Management interface
   input           md_pad_i;      // MII data input (from I/O cell)
   output          mdc_pad_o;     // MII Management data clock (to PHY)
   output          md_pad_o;      // MII data output (to I/O cell)
   output          md_padoe_o;    // MII data output enable (to I/O cell)
 
   output          int_o;         // Interrupt output
 
   // Bist
`ifdef ETH_BIST
   input 	   mbist_si_i;       // bist scan serial in
   output 	   mbist_so_o;       // bist scan serial out
   input [`ETH_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i;       // bist chain shift control
`endif
 
`ifdef WISHBONE_DEBUG
   wire [31:0] 			       wb_dbg_dat0;
`endif
 
 
   wire [7:0] 			       r_ClkDiv;
   wire 			       r_MiiNoPre;
   wire [15:0] 			       r_CtrlData;
   wire [4:0] 			       r_FIAD;
   wire [4:0] 			       r_RGAD;
   wire 			       r_WCtrlData;
   wire 			       r_RStat;
   wire 			       r_ScanStat;
   wire 			       NValid_stat;
   wire 			       Busy_stat;
   wire 			       LinkFail;
   wire [15:0] 			       Prsd; // Read Status Data (data read 
                                             // from the PHY)
   wire 			       WCtrlDataStart;
   wire 			       RStatStart;
   wire 			       UpdateMIIRX_DATAReg;
 
   wire 			       TxStartFrm;
   wire 			       TxEndFrm;
   wire 			       TxUsedData;
   wire [7:0] 			       TxData;
   wire 			       TxRetry;
   wire 			       TxAbort;
   wire 			       TxUnderRun;
   wire 			       TxDone;
 
 
   reg 				       WillSendControlFrame_sync1;
   reg 				       WillSendControlFrame_sync2;
   reg 				       WillSendControlFrame_sync3;
   reg 				       RstTxPauseRq;
 
   reg 				       TxPauseRq_sync1;
   reg 				       TxPauseRq_sync2;
   reg 				       TxPauseRq_sync3;
   reg 				       TPauseRq;
 
 
   // Connecting Miim module
   eth_miim miim1
     (
      .Clk(wb_clk_i),                         
      .Reset(wb_rst_i),                   
      .Divider(r_ClkDiv), 
      .NoPre(r_MiiNoPre),                     
      .CtrlData(r_CtrlData),              
      .Rgad(r_RGAD), 
      .Fiad(r_FIAD),                          
      .WCtrlData(r_WCtrlData),            
      .RStat(r_RStat), 
      .ScanStat(r_ScanStat),                  
      .Mdi(md_pad_i),                     
      .Mdo(md_pad_o), 
      .MdoEn(md_padoe_o),                     
      .Mdc(mdc_pad_o),                    
      .Busy(Busy_stat), 
      .Prsd(Prsd),                            
      .LinkFail(LinkFail),                
      .Nvalid(NValid_stat), 
      .WCtrlDataStart(WCtrlDataStart),        
      .RStatStart(RStatStart),            
      .UpdateMIIRX_DATAReg(UpdateMIIRX_DATAReg)
      );
 
 
 
 
   wire [3:0] 			       RegCs;          // Connected to registers
   wire [31:0] 			       RegDataOut;     // Multiplexed to wb_dat_o
   wire 			       r_RecSmall;     // Receive small frames
   wire 			       r_LoopBck;      // Loopback
   wire 			       r_TxEn;         // Tx Enable
   wire 			       r_RxEn;         // Rx Enable
 
   wire 			       MRxDV_Lb;       // Muxed MII receive data valid
   wire 			       MRxErr_Lb;      // Muxed MII Receive Error
   wire [3:0] 			       MRxD_Lb;        // Muxed MII Receive Data
   wire 			       Transmitting;   // Indication that TxEthMAC is transmitting
   wire 			       r_HugEn;        // Huge packet enable
   wire 			       r_DlyCrcEn;     // Delayed CRC enabled
   wire [15:0] 			       r_MaxFL;        // Maximum frame length
 
   wire [15:0] 			       r_MinFL;        // Minimum frame length
   wire 			       ShortFrame;
   wire 			       DribbleNibble;  // Extra nibble received
   wire 			       ReceivedPacketTooBig; // Received packet is too big
   wire [47:0] 			       r_MAC;          // MAC address
   wire 			       LoadRxStatus;   // Rx status was loaded
   wire [31:0] 			       r_HASH0;        // HASH table, lower 4 bytes
   wire [31:0] 			       r_HASH1;        // HASH table, upper 4 bytes
   wire [7:0] 			       r_TxBDNum;      // Receive buffer descriptor number
   wire [6:0] 			       r_IPGT;         // 
   wire [6:0] 			       r_IPGR1;        // 
   wire [6:0] 			       r_IPGR2;        // 
   wire [5:0] 			       r_CollValid;    // 
   wire [15:0] 			       r_TxPauseTV;    // Transmit PAUSE value
   wire 			       r_TxPauseRq;    // Transmit PAUSE request
 
   wire [3:0] 			       r_MaxRet;       //
   wire 			       r_NoBckof;      // 
   wire 			       r_ExDfrEn;      // 
   wire 			       r_TxFlow;       // Tx flow control enable
   wire 			       r_IFG;          // Minimum interframe gap for incoming packets
 
   wire 			       TxB_IRQ;        // Interrupt Tx Buffer
   wire 			       TxE_IRQ;        // Interrupt Tx Error
   wire 			       RxB_IRQ;        // Interrupt Rx Buffer
   wire 			       RxE_IRQ;        // Interrupt Rx Error
   wire 			       Busy_IRQ;       // Interrupt Busy (lack of buffers)
 
   //wire        DWord;
   wire 			       ByteSelected;
   wire 			       BDAck;
   wire [31:0] 			       BD_WB_DAT_O;    // wb_dat_o that comes from the Wishbone module (for buffer descriptors read/write)
   wire [3:0] 			       BDCs;           // Buffer descriptor CS
   wire 			       CsMiss;         // When access to the address between 0x800 and 0xfff occurs, acknowledge is set
   // but data is not valid.
   wire 			       r_Pad;
   wire 			       r_CrcEn;
   wire 			       r_FullD;
   wire 			       r_Pro;
   wire 			       r_Bro;
   wire 			       r_NoPre;
   wire 			       r_RxFlow;
   wire 			       r_PassAll;
   wire 			       TxCtrlEndFrm;
   wire 			       StartTxDone;
   wire 			       SetPauseTimer;
   wire 			       TxUsedDataIn;
   wire 			       TxDoneIn;
   wire 			       TxAbortIn;
   wire 			       PerPacketPad;
   wire 			       PadOut;
   wire 			       PerPacketCrcEn;
   wire 			       CrcEnOut;
   wire 			       TxStartFrmOut;
   wire 			       TxEndFrmOut;
   wire 			       ReceivedPauseFrm;
   wire 			       ControlFrmAddressOK;
   wire 			       RxStatusWriteLatched_sync2;
   wire 			       LateCollision;
   wire 			       DeferIndication;
   wire 			       LateCollLatched;
   wire 			       DeferLatched;
   wire 			       RstDeferLatched;
   wire 			       CarrierSenseLost;
 
   wire 			       temp_wb_ack_o;
   wire [31:0] 			       temp_wb_dat_o;
   wire 			       temp_wb_err_o;
 
`ifdef ETH_REGISTERED_OUTPUTS
   reg 				       temp_wb_ack_o_reg;
   reg [31:0] 			       temp_wb_dat_o_reg;
   reg 				       temp_wb_err_o_reg;
`endif
 
   //assign DWord = &wb_sel_i;
   assign ByteSelected = |wb_sel_i;
   assign RegCs[3] = wb_stb_i & wb_cyc_i & ByteSelected & ~wb_adr_i[11] & ~wb_adr_i[10] & wb_sel_i[3];   // 0x0   - 0x3FF
   assign RegCs[2] = wb_stb_i & wb_cyc_i & ByteSelected & ~wb_adr_i[11] & ~wb_adr_i[10] & wb_sel_i[2];   // 0x0   - 0x3FF
   assign RegCs[1] = wb_stb_i & wb_cyc_i & ByteSelected & ~wb_adr_i[11] & ~wb_adr_i[10] & wb_sel_i[1];   // 0x0   - 0x3FF
   assign RegCs[0] = wb_stb_i & wb_cyc_i & ByteSelected & ~wb_adr_i[11] & ~wb_adr_i[10] & wb_sel_i[0];   // 0x0   - 0x3FF
   assign BDCs[3]  = wb_stb_i & wb_cyc_i & ByteSelected & ~wb_adr_i[11] &  wb_adr_i[10] & wb_sel_i[3];   // 0x400 - 0x7FF
   assign BDCs[2]  = wb_stb_i & wb_cyc_i & ByteSelected & ~wb_adr_i[11] &  wb_adr_i[10] & wb_sel_i[2];   // 0x400 - 0x7FF
   assign BDCs[1]  = wb_stb_i & wb_cyc_i & ByteSelected & ~wb_adr_i[11] &  wb_adr_i[10] & wb_sel_i[1];   // 0x400 - 0x7FF
   assign BDCs[0]  = wb_stb_i & wb_cyc_i & ByteSelected & ~wb_adr_i[11] &  wb_adr_i[10] & wb_sel_i[0];   // 0x400 - 0x7FF
   assign CsMiss = wb_stb_i & wb_cyc_i & ByteSelected & wb_adr_i[11];                   // 0x800 - 0xfFF
   assign temp_wb_dat_o = ((|RegCs) & ~wb_we_i)? RegDataOut : BD_WB_DAT_O;
   assign temp_wb_err_o = wb_stb_i & wb_cyc_i & (~ByteSelected | CsMiss);
 
`ifdef ETH_REGISTERED_OUTPUTS
   assign wb_ack_o = temp_wb_ack_o_reg;
   assign wb_dat_o[31:0] = temp_wb_dat_o_reg;
   assign wb_err_o = temp_wb_err_o_reg;
`else
   assign wb_ack_o = temp_wb_ack_o;
   assign wb_dat_o[31:0] = temp_wb_dat_o;
   assign wb_err_o = temp_wb_err_o;
`endif
 
`ifdef ETH_AVALON_BUS
   // As Avalon has no corresponding "error" signal, I (erroneously) will
   // send an ack to Avalon, even when accessing undefined memory. This
   // is a grey area in Avalon vs. Wishbone specs: My understanding
   // is that Avalon expects all memory addressable by the addr bus feeding
   // a slave to be, at the very minimum, readable.
   assign temp_wb_ack_o = (|RegCs) | BDAck | CsMiss;
`else // WISHBONE
   assign temp_wb_ack_o = (|RegCs) | BDAck;
`endif
 
`ifdef ETH_REGISTERED_OUTPUTS
   always @ (posedge wb_clk_i or posedge wb_rst_i)
     begin
	if(wb_rst_i)
	  begin
             temp_wb_ack_o_reg <= 1'b0;
             temp_wb_dat_o_reg <= 32'h0;
             temp_wb_err_o_reg <= 1'b0;
	  end
	else
	  begin
             temp_wb_ack_o_reg <= temp_wb_ack_o & ~temp_wb_ack_o_reg;
             temp_wb_dat_o_reg <= temp_wb_dat_o;
             temp_wb_err_o_reg <= temp_wb_err_o & ~temp_wb_err_o_reg;
	  end
     end
`endif
 
 
   // Connecting Ethernet registers
   eth_registers ethreg1
     (
      .DataIn(wb_dat_i),                      
      .Address(wb_adr_i[9:2]),                    
      .Rw(wb_we_i), 
 
      .Cs(RegCs),                             
      .Clk(wb_clk_i),                             
      .Reset(wb_rst_i), 
 
      .DataOut(RegDataOut),                   
      .r_RecSmall(r_RecSmall), 
 
      .r_Pad(r_Pad),                          
      .r_HugEn(r_HugEn),                          
      .r_CrcEn(r_CrcEn), 
 
      .r_DlyCrcEn(r_DlyCrcEn),                
      .r_FullD(r_FullD), 
 
      .r_ExDfrEn(r_ExDfrEn),                  
      .r_NoBckof(r_NoBckof),                      
      .r_LoopBck(r_LoopBck), 
 
      .r_IFG(r_IFG),                          
      .r_Pro(r_Pro),                              
      .r_Iam(), 
 
      .r_Bro(r_Bro),                          
      .r_NoPre(r_NoPre),                          
      .r_TxEn(r_TxEn), 
 
      .r_RxEn(r_RxEn),                        
      .Busy_IRQ(Busy_IRQ),                        
      .RxE_IRQ(RxE_IRQ), 
 
      .RxB_IRQ(RxB_IRQ),                      
      .TxE_IRQ(TxE_IRQ),                          
      .TxB_IRQ(TxB_IRQ), 
 
      .r_IPGT(r_IPGT), 
 
      .r_IPGR1(r_IPGR1),                      
      .r_IPGR2(r_IPGR2),                          
      .r_MinFL(r_MinFL), 
 
      .r_MaxFL(r_MaxFL),                      
      .r_MaxRet(r_MaxRet),                        
      .r_CollValid(r_CollValid), 
 
      .r_TxFlow(r_TxFlow),                    
      .r_RxFlow(r_RxFlow),                        
      .r_PassAll(r_PassAll), 
 
      .r_MiiNoPre(r_MiiNoPre),                
      .r_ClkDiv(r_ClkDiv), 
 
      .r_WCtrlData(r_WCtrlData),              
      .r_RStat(r_RStat),                          
      .r_ScanStat(r_ScanStat), 
 
      .r_RGAD(r_RGAD),                        
      .r_FIAD(r_FIAD),                            
      .r_CtrlData(r_CtrlData), 
 
      .NValid_stat(NValid_stat),              
      .Busy_stat(Busy_stat),                   
 
      .LinkFail(LinkFail),                    
      .r_MAC(r_MAC),                              
      .WCtrlDataStart(WCtrlDataStart),
 
      .RStatStart(RStatStart),                
      .UpdateMIIRX_DATAReg(UpdateMIIRX_DATAReg),  
      .Prsd(Prsd), 
 
      .r_TxBDNum(r_TxBDNum),                  
      .int_o(int_o),
 
      .r_HASH0(r_HASH0),                      
      .r_HASH1(r_HASH1),                          
      .r_TxPauseRq(r_TxPauseRq), 
 
      .r_TxPauseTV(r_TxPauseTV),              
      .RstTxPauseRq(RstTxPauseRq),                
      .TxCtrlEndFrm(TxCtrlEndFrm), 
 
      .StartTxDone(StartTxDone),              
      .TxClk(mtx_clk_pad_i),                      
      .RxClk(mrx_clk_pad_i),
 
      .dbg_dat(wb_dbg_dat0),
 
      .SetPauseTimer(SetPauseTimer)
 
      );
 
 
 
   wire  [7:0] RxData;
   wire        RxValid;
   wire        RxStartFrm;
   wire        RxEndFrm;
   wire        RxAbort;
 
   wire        WillTransmit;            // Will transmit (to RxEthMAC)
   wire        ResetCollision;          // Reset Collision (for synchronizing 
                                        // collision)
   wire [7:0]  TxDataOut;               // Transmit Packet Data (to TxEthMAC)
   wire        WillSendControlFrame;
   wire        ReceiveEnd;
   wire        ReceivedPacketGood;
   wire        ReceivedLengthOK;
   wire        InvalidSymbol;
   wire        LatchedCrcError;
   wire        RxLateCollision;
   wire [3:0]  RetryCntLatched;   
   wire [3:0]  RetryCnt;   
   wire        StartTxAbort;   
   wire        MaxCollisionOccured;   
   wire        RetryLimit;   
   wire        StatePreamble;   
   wire [1:0]  StateData; 
 
   // Connecting MACControl
   eth_maccontrol maccontrol1
     (
      .MTxClk(mtx_clk_pad_i),                       
      .TPauseRq(TPauseRq), 
 
      .TxPauseTV(r_TxPauseTV),                      
      .TxDataIn(TxData), 
 
      .TxStartFrmIn(TxStartFrm),                    
      .TxEndFrmIn(TxEndFrm), 
 
      .TxUsedDataIn(TxUsedDataIn),                  
      .TxDoneIn(TxDoneIn), 
 
      .TxAbortIn(TxAbortIn),                        
      .MRxClk(mrx_clk_pad_i), 
 
      .RxData(RxData),                              
      .RxValid(RxValid), 
 
      .RxStartFrm(RxStartFrm),                      
      .RxEndFrm(RxEndFrm),
 
      .ReceiveEnd(ReceiveEnd),                      
      .ReceivedPacketGood(ReceivedPacketGood),
 
      .TxFlow(r_TxFlow), 
 
      .RxFlow(r_RxFlow),                            
      .DlyCrcEn(r_DlyCrcEn),
 
      .MAC(r_MAC),                                  
      .PadIn(r_Pad | PerPacketPad), 
 
      .PadOut(PadOut),                              
      .CrcEnIn(r_CrcEn | PerPacketCrcEn), 
 
      .CrcEnOut(CrcEnOut),                          
      .TxReset(wb_rst_i), 
 
      .RxReset(wb_rst_i),                           
      .ReceivedLengthOK(ReceivedLengthOK),
 
      .TxDataOut(TxDataOut),                        
      .TxStartFrmOut(TxStartFrmOut), 
 
      .TxEndFrmOut(TxEndFrmOut),                    
      .TxUsedDataOut(TxUsedData), 
 
      .TxDoneOut(TxDone),                           
      .TxAbortOut(TxAbort), 
 
      .WillSendControlFrame(WillSendControlFrame),  
      .TxCtrlEndFrm(TxCtrlEndFrm), 
 
      .ReceivedPauseFrm(ReceivedPauseFrm),          
      .ControlFrmAddressOK(ControlFrmAddressOK),
 
      .SetPauseTimer(SetPauseTimer),
 
      .RxStatusWriteLatched_sync2(RxStatusWriteLatched_sync2),                
      .r_PassAll(r_PassAll)
      );
 
 
 
   wire        TxCarrierSense;          // Synchronized CarrierSense (to Tx 
                                        // clock)
   wire        Collision;               // Synchronized Collision
 
   reg 	       CarrierSense_Tx1;
   reg 	       CarrierSense_Tx2;
   reg 	       Collision_Tx1;
   reg 	       Collision_Tx2;
 
   reg 	       RxEnSync;                 // Synchronized Receive Enable
   reg 	       WillTransmit_q;
   reg 	       WillTransmit_q2;
 
 
 
   // Muxed MII receive data valid
   assign MRxDV_Lb = r_LoopBck? mtxen_pad_o : mrxdv_pad_i & RxEnSync;
 
   // Muxed MII Receive Error
   assign MRxErr_Lb = r_LoopBck? mtxerr_pad_o : mrxerr_pad_i & RxEnSync;
 
   // Muxed MII Receive Data
   assign MRxD_Lb[3:0] = r_LoopBck? mtxd_pad_o[3:0] : mrxd_pad_i[3:0];
 
 
 
   // Connecting TxEthMAC
   eth_txethmac txethmac1
     (
 
      .MTxClk(mtx_clk_pad_i),             
      .Reset(wb_rst_i),                   
      .CarrierSense(TxCarrierSense), 
 
      .Collision(Collision),              
      .TxData(TxDataOut),                 
      .TxStartFrm(TxStartFrmOut), 
 
      .TxUnderRun(TxUnderRun),            
      .TxEndFrm(TxEndFrmOut),             
      .Pad(PadOut),  
 
      .MinFL(r_MinFL),                    
      .CrcEn(CrcEnOut),                   
      .FullD(r_FullD), 
 
      .HugEn(r_HugEn),                    
      .DlyCrcEn(r_DlyCrcEn),              
      .IPGT(r_IPGT), 
 
      .IPGR1(r_IPGR1),                    
      .IPGR2(r_IPGR2),                    
      .CollValid(r_CollValid), 
 
      .MaxRet(r_MaxRet),                  
      .NoBckof(r_NoBckof),                
      .ExDfrEn(r_ExDfrEn), 
 
      .MaxFL(r_MaxFL),                    
      .MTxEn(mtxen_pad_o),                
      .MTxD(mtxd_pad_o), 
 
      .MTxErr(mtxerr_pad_o),              
      .TxUsedData(TxUsedDataIn),          
      .TxDone(TxDoneIn), 
 
      .TxRetry(TxRetry),                  
      .TxAbort(TxAbortIn),                
      .WillTransmit(WillTransmit), 
 
      .ResetCollision(ResetCollision),    
      .RetryCnt(RetryCnt),                
      .StartTxDone(StartTxDone), 
 
      .StartTxAbort(StartTxAbort),        
      .MaxCollisionOccured(MaxCollisionOccured), 
      .LateCollision(LateCollision),   
 
      .DeferIndication(DeferIndication),  
      .StatePreamble(StatePreamble),      
      .StateData(StateData)   
      );
 
 
 
 
   wire [15:0] RxByteCnt;
   wire        RxByteCntEq0;
   wire        RxByteCntGreat2;
   wire        RxByteCntMaxFrame;
   wire        RxCrcError;
   wire        RxStateIdle;
   wire        RxStatePreamble;
   wire        RxStateSFD;
   wire [1:0]  RxStateData;
   wire        AddressMiss;
 
 
 
   // Connecting RxEthMAC
   eth_rxethmac rxethmac1
     (
 
      .MRxClk(mrx_clk_pad_i),               
      .MRxDV(MRxDV_Lb),                     
      .MRxD(MRxD_Lb),
 
      .Transmitting(Transmitting),          
      .HugEn(r_HugEn),                      
      .DlyCrcEn(r_DlyCrcEn), 
 
      .MaxFL(r_MaxFL),                      
      .r_IFG(r_IFG),                        
      .Reset(wb_rst_i),
 
      .RxData(RxData),                      
      .RxValid(RxValid),                    
      .RxStartFrm(RxStartFrm), 
 
      .RxEndFrm(RxEndFrm),                  
      .ByteCnt(RxByteCnt), 
 
      .ByteCntEq0(RxByteCntEq0),            
      .ByteCntGreat2(RxByteCntGreat2),      
      .ByteCntMaxFrame(RxByteCntMaxFrame), 
 
      .CrcError(RxCrcError),                
      .StateIdle(RxStateIdle),              
      .StatePreamble(RxStatePreamble), 
 
      .StateSFD(RxStateSFD),                
      .StateData(RxStateData),
 
      .MAC(r_MAC),                          
      .r_Pro(r_Pro),                        
      .r_Bro(r_Bro),
 
      .r_HASH0(r_HASH0),                    
      .r_HASH1(r_HASH1),                    
      .RxAbort(RxAbort), 
 
      .AddressMiss(AddressMiss),            
      .PassAll(r_PassAll),                  
      .ControlFrmAddressOK(ControlFrmAddressOK)
      );
 
 
   // MII Carrier Sense Synchronization
   always @ (posedge mtx_clk_pad_i or posedge wb_rst_i)
     begin
	if(wb_rst_i)
	  begin
	     CarrierSense_Tx1 <=  1'b0;
	     CarrierSense_Tx2 <=  1'b0;
	  end
	else
	  begin
	     CarrierSense_Tx1 <=  mcrs_pad_i;
	     CarrierSense_Tx2 <=  CarrierSense_Tx1;
	  end
     end
 
   assign TxCarrierSense = ~r_FullD & CarrierSense_Tx2;
 
 
   // MII Collision Synchronization
   always @ (posedge mtx_clk_pad_i or posedge wb_rst_i)
     begin
	if(wb_rst_i)
	  begin
	     Collision_Tx1 <=  1'b0;
	     Collision_Tx2 <=  1'b0;
	  end
	else
	  begin
	     Collision_Tx1 <=  mcoll_pad_i;
	     if(ResetCollision)
               Collision_Tx2 <=  1'b0;
	     else
	       if(Collision_Tx1)
		 Collision_Tx2 <=  1'b1;
	  end
     end
 
 
   // Synchronized Collision
   assign Collision = ~r_FullD & Collision_Tx2;
 
 
 
   // Delayed WillTransmit
   always @ (posedge mrx_clk_pad_i)
     begin
	WillTransmit_q <=  WillTransmit;
	WillTransmit_q2 <=  WillTransmit_q;
     end 
 
 
   assign Transmitting = ~r_FullD & WillTransmit_q2;
 
 
 
   // Synchronized Receive Enable
   always @ (posedge mrx_clk_pad_i or posedge wb_rst_i)
     begin
	if(wb_rst_i)
	  RxEnSync <=  1'b0;
	else
	  if(~mrxdv_pad_i)
	    RxEnSync <=  r_RxEn;
     end 
 
 
 
   // Synchronizing WillSendControlFrame to WB_CLK;
   always @ (posedge wb_clk_i or posedge wb_rst_i)
     begin
	if(wb_rst_i)
	  WillSendControlFrame_sync1 <= 1'b0;
	else
	  WillSendControlFrame_sync1 <= WillSendControlFrame;
     end
 
   always @ (posedge wb_clk_i or posedge wb_rst_i)
     begin
	if(wb_rst_i)
	  WillSendControlFrame_sync2 <= 1'b0;
	else
	  WillSendControlFrame_sync2 <= WillSendControlFrame_sync1;
     end
 
   always @ (posedge wb_clk_i or posedge wb_rst_i)
     begin
	if(wb_rst_i)
	  WillSendControlFrame_sync3 <= 1'b0;
	else
	  WillSendControlFrame_sync3 <= WillSendControlFrame_sync2;
     end
 
   always @ (posedge wb_clk_i or posedge wb_rst_i)
     begin
	if(wb_rst_i)
	  RstTxPauseRq <= 1'b0;
	else
	  RstTxPauseRq <= WillSendControlFrame_sync2 & 
			  ~WillSendControlFrame_sync3;
     end
 
 
 
 
   // TX Pause request Synchronization
   always @ (posedge mtx_clk_pad_i or posedge wb_rst_i)
     begin
	if(wb_rst_i)
	  begin
	     TxPauseRq_sync1 <=  1'b0;
	     TxPauseRq_sync2 <=  1'b0;
	     TxPauseRq_sync3 <=  1'b0;
	  end
	else
	  begin
	     TxPauseRq_sync1 <=  (r_TxPauseRq & r_TxFlow);
	     TxPauseRq_sync2 <=  TxPauseRq_sync1;
	     TxPauseRq_sync3 <=  TxPauseRq_sync2;
	  end
     end
 
 
   always @ (posedge mtx_clk_pad_i or posedge wb_rst_i)
     begin
	if(wb_rst_i)
	  TPauseRq <=  1'b0;
	else
	  TPauseRq <=  TxPauseRq_sync2 & (~TxPauseRq_sync3);
     end
 
 
   wire LatchedMRxErr;
   reg 	RxAbort_latch;
   reg 	RxAbort_sync1;
   reg 	RxAbort_wb;
   reg 	RxAbortRst_sync1;
   reg 	RxAbortRst;
 
   // Synchronizing RxAbort to the WISHBONE clock
   always @ (posedge mrx_clk_pad_i or posedge wb_rst_i)
     begin
	if(wb_rst_i)
	  RxAbort_latch <=  1'b0;
	else if(RxAbort | (ShortFrame & ~r_RecSmall) | LatchedMRxErr & 
		~InvalidSymbol | (ReceivedPauseFrm & (~r_PassAll)))
	  RxAbort_latch <=  1'b1;
	else if(RxAbortRst)
	  RxAbort_latch <=  1'b0;
     end
 
   always @ (posedge wb_clk_i or posedge wb_rst_i)
     begin
	if(wb_rst_i)
	  begin
	     RxAbort_sync1 <=  1'b0;
	     RxAbort_wb    <=  1'b0;
	     RxAbort_wb    <=  1'b0;
	  end
	else
	  begin
	     RxAbort_sync1 <=  RxAbort_latch;
	     RxAbort_wb    <=  RxAbort_sync1;
	  end
     end
 
   always @ (posedge mrx_clk_pad_i or posedge wb_rst_i)
     begin
	if(wb_rst_i)
	  begin
	     RxAbortRst_sync1 <=  1'b0;
	     RxAbortRst       <=  1'b0;
	  end
	else
	  begin
	     RxAbortRst_sync1 <=  RxAbort_wb;
	     RxAbortRst       <=  RxAbortRst_sync1;
	  end
     end
 
 
 
   // Connecting Wishbone module
   eth_wishbone wishbone
     (
 
      .WB_CLK_I(wb_clk_i),                
      .WB_DAT_I(wb_dat_i), 
 
      .WB_DAT_O(BD_WB_DAT_O), 
 
      // WISHBONE slave
 
      .WB_ADR_I(wb_adr_i[9:2]),           
      .WB_WE_I(wb_we_i), 
 
      .BDCs(BDCs),                        
      .WB_ACK_O(BDAck), 
 
 
      .Reset(wb_rst_i), 
 
      // WISHBONE master
 
      .m_wb_adr_o(m_wb_adr_tmp),          
      .m_wb_sel_o(m_wb_sel_o),                  
      .m_wb_we_o(m_wb_we_o), 
 
      .m_wb_dat_i(m_wb_dat_i),            
      .m_wb_dat_o(m_wb_dat_o),                  
      .m_wb_cyc_o(m_wb_cyc_o), 
 
      .m_wb_stb_o(m_wb_stb_o),            
      .m_wb_ack_i(m_wb_ack_i),                  
      .m_wb_err_i(m_wb_err_i), 
 
`ifdef ETH_WISHBONE_B3
 
      .m_wb_cti_o(m_wb_cti_o),            
      .m_wb_bte_o(m_wb_bte_o), 
`endif
 
 
      //TX
 
      .MTxClk(mtx_clk_pad_i),             
      .TxStartFrm(TxStartFrm),                  
      .TxEndFrm(TxEndFrm), 
 
      .TxUsedData(TxUsedData),            
      .TxData(TxData), 
 
      .TxRetry(TxRetry),                  
      .TxAbort(TxAbort),                        
      .TxUnderRun(TxUnderRun), 
 
      .TxDone(TxDone), 
 
      .PerPacketCrcEn(PerPacketCrcEn),    
      .PerPacketPad(PerPacketPad), 
 
      // Register
 
      .r_TxEn(r_TxEn),                    
      .r_RxEn(r_RxEn),                          
      .r_TxBDNum(r_TxBDNum), 
 
      .r_RxFlow(r_RxFlow),                      
      .r_PassAll(r_PassAll), 
 
      //RX
 
      .MRxClk(mrx_clk_pad_i),             
      .RxData(RxData),                          
      .RxValid(RxValid), 
 
      .RxStartFrm(RxStartFrm),            
      .RxEndFrm(RxEndFrm),                      
 
      .Busy_IRQ(Busy_IRQ),                
      .RxE_IRQ(RxE_IRQ),                        
      .RxB_IRQ(RxB_IRQ), 
 
      .TxE_IRQ(TxE_IRQ),                  
      .TxB_IRQ(TxB_IRQ), 
 
 
      .RxAbort(RxAbort_wb),               
      .RxStatusWriteLatched_sync2(RxStatusWriteLatched_sync2), 
 
 
      .InvalidSymbol(InvalidSymbol),      
      .LatchedCrcError(LatchedCrcError),        
      .RxLength(RxByteCnt),
 
      .RxLateCollision(RxLateCollision),  
      .ShortFrame(ShortFrame),                  
      .DribbleNibble(DribbleNibble),
 
      .ReceivedPacketTooBig(ReceivedPacketTooBig), 
      .LoadRxStatus(LoadRxStatus),     
      .RetryCntLatched(RetryCntLatched),
 
      .RetryLimit(RetryLimit),            
      .LateCollLatched(LateCollLatched),        
      .DeferLatched(DeferLatched),   
 
      .RstDeferLatched(RstDeferLatched), 
 
      .CarrierSenseLost(CarrierSenseLost),
      .ReceivedPacketGood(ReceivedPacketGood),  
      .AddressMiss(AddressMiss),
 
      .ReceivedPauseFrm(ReceivedPauseFrm)
 
`ifdef ETH_BIST
      ,
 
      .mbist_si_i       (mbist_si_i),
 
      .mbist_so_o       (mbist_so_o),
 
      .mbist_ctrl_i       (mbist_ctrl_i)
`endif
`ifdef WISHBONE_DEBUG
      ,
 
      .dbg_dat0(wb_dbg_dat0)
`endif
 
      );
 
   assign m_wb_adr_o = {m_wb_adr_tmp, 2'h0};
 
   // Connecting MacStatus module
   eth_macstatus macstatus1 
     (
 
      .MRxClk(mrx_clk_pad_i),             
      .Reset(wb_rst_i),
 
      .ReceiveEnd(ReceiveEnd),            
      .ReceivedPacketGood(ReceivedPacketGood),     
      .ReceivedLengthOK(ReceivedLengthOK), 
 
      .RxCrcError(RxCrcError),            
      .MRxErr(MRxErr_Lb),                          
      .MRxDV(MRxDV_Lb), 
 
      .RxStateSFD(RxStateSFD),            
      .RxStateData(RxStateData),                   
      .RxStatePreamble(RxStatePreamble), 
 
      .RxStateIdle(RxStateIdle),          
      .Transmitting(Transmitting),                 
      .RxByteCnt(RxByteCnt), 
 
      .RxByteCntEq0(RxByteCntEq0),        
      .RxByteCntGreat2(RxByteCntGreat2),           
      .RxByteCntMaxFrame(RxByteCntMaxFrame), 
 
      .InvalidSymbol(InvalidSymbol),
 
      .MRxD(MRxD_Lb),                     
      .LatchedCrcError(LatchedCrcError),           
      .Collision(mcoll_pad_i),
 
      .CollValid(r_CollValid),            
      .RxLateCollision(RxLateCollision),           
      .r_RecSmall(r_RecSmall),
 
      .r_MinFL(r_MinFL),                  
      .r_MaxFL(r_MaxFL),                           
      .ShortFrame(ShortFrame),
 
      .DribbleNibble(DribbleNibble),      
      .ReceivedPacketTooBig(ReceivedPacketTooBig), 
      .r_HugEn(r_HugEn),
 
      .LoadRxStatus(LoadRxStatus),        
      .RetryCnt(RetryCnt),                         
      .StartTxDone(StartTxDone),
 
      .StartTxAbort(StartTxAbort),        
      .RetryCntLatched(RetryCntLatched),           
      .MTxClk(mtx_clk_pad_i),
 
      .MaxCollisionOccured(MaxCollisionOccured), 
      .RetryLimit(RetryLimit),              
      .LateCollision(LateCollision),
 
      .LateCollLatched(LateCollLatched),  
      .DeferIndication(DeferIndication),           
      .DeferLatched(DeferLatched),
 
      .RstDeferLatched(RstDeferLatched), 
 
      .TxStartFrm(TxStartFrmOut),         
      .StatePreamble(StatePreamble),               
      .StateData(StateData),
 
      .CarrierSense(CarrierSense_Tx2),    
      .CarrierSenseLost(CarrierSenseLost),         
      .TxUsedData(TxUsedDataIn),
 
      .LatchedMRxErr(LatchedMRxErr),      
      .Loopback(r_LoopBck),                        
      .r_FullD(r_FullD)
      );
 
 
endmodule
 

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