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[/] [ethmac/] [trunk/] [rtl/] [verilog/] [eth_registers.v] - Blame information for rev 21

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//////////////////////////////////////////////////////////////////////
////                                                              ////
////  eth_registers.v                                             ////
////                                                              ////
////  This file is part of the Ethernet IP core project           ////
////  http://www.opencores.org/cores/ethmac/                      ////
////                                                              ////
////  Author(s):                                                  ////
////      - Igor Mohor (igorM@opencores.org)                      ////
////                                                              ////
////  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                     ////
////                                                              ////
//////////////////////////////////////////////////////////////////////
//
// CVS Revision History
//
// $Log: not supported by cvs2svn $
// Revision 1.2  2001/09/24 15:02:56  mohor
// Defines changed (All precede with ETH_). Small changes because some
// tools generate warnings when two operands are together. Synchronization
// between two clocks domains in eth_wishbonedma.v is changed (due to ASIC
// demands).
//
// Revision 1.1  2001/08/06 14:44:29  mohor
// A define FPGA added to select between Artisan RAM (for ASIC) and Block Ram (For Virtex).
// Include files fixed to contain no path.
// File names and module names changed ta have a eth_ prologue in the name.
// File eth_timescale.v is used to define timescale
// All pin names on the top module are changed to contain _I, _O or _OE at the end.
// Bidirectional signal MDIO is changed to three signals (Mdc_O, Mdi_I, Mdo_O
// and Mdo_OE. The bidirectional signal must be created on the top level. This
// is done due to the ASIC tools.
//
// Revision 1.2  2001/08/02 09:25:31  mohor
// Unconnected signals are now connected.
//
// Revision 1.1  2001/07/30 21:23:42  mohor
// Directory structure changed. Files checked and joind together.
//
//
//
//
//
//
 
`include "eth_defines.v"
`include "eth_timescale.v"
 
 
module eth_registers( DataIn, Address, Rw, Cs, Clk, Reset, DataOut, r_DmaEn,
                      r_RecSmall, r_Pad, r_HugEn, r_CrcEn, r_DlyCrcEn,
                      r_Rst, r_FullD, r_ExDfrEn, r_NoBckof, r_LoopBck, r_IFG,
                      r_Pro, r_Iam, r_Bro, r_NoPre, r_TxEn, r_RxEn,
                      TxB_IRQ, TxE_IRQ, RxB_IRQ, RxF_IRQ, Busy_IRQ,
                      r_IPGT, r_IPGR1, r_IPGR2, r_MinFL, r_MaxFL, r_MaxRet,
                      r_CollValid, r_TxFlow, r_RxFlow, r_PassAll,
                      r_MiiMRst, r_MiiNoPre, r_ClkDiv, r_WCtrlData, r_RStat, r_ScanStat,
                      r_RGAD, r_FIAD, r_CtrlData, NValid_stat, Busy_stat,
                      LinkFail, r_MAC, WCtrlDataStart, RStatStart,
                      UpdateMIIRX_DATAReg, Prsd, r_RxBDAddress, RX_BD_ADR_Wr, int_o
                    );
 
parameter Tp = 1;
 
input [31:0] DataIn;
input [5:0] Address;
 
input Rw;
input Cs;
input Clk;
input Reset;
 
input WCtrlDataStart;
input RStatStart;
 
input UpdateMIIRX_DATAReg;
input [15:0] Prsd;
 
output [31:0] DataOut;
reg    [31:0] DataOut;
 
output r_DmaEn;
output r_RecSmall;
output r_Pad;
output r_HugEn;
output r_CrcEn;
output r_DlyCrcEn;
output r_Rst;
output r_FullD;
output r_ExDfrEn;
output r_NoBckof;
output r_LoopBck;
output r_IFG;
output r_Pro;
output r_Iam;
output r_Bro;
output r_NoPre;
output r_TxEn;
output r_RxEn;
 
input TxB_IRQ;
input TxE_IRQ;
input RxB_IRQ;
input RxF_IRQ;
input Busy_IRQ;
 
output [6:0] r_IPGT;
 
output [6:0] r_IPGR1;
 
output [6:0] r_IPGR2;
 
output [15:0] r_MinFL;
output [15:0] r_MaxFL;
 
output [3:0] r_MaxRet;
output [5:0] r_CollValid;
 
output r_TxFlow;
output r_RxFlow;
output r_PassAll;
 
output r_MiiMRst;
output r_MiiNoPre;
output [7:0] r_ClkDiv;
 
output r_WCtrlData;
output r_RStat;
output r_ScanStat;
 
output [4:0] r_RGAD;
output [4:0] r_FIAD;
 
output [15:0]r_CtrlData;
 
 
input NValid_stat;
input Busy_stat;
input LinkFail;
 
output [47:0]r_MAC;
output [7:0] r_RxBDAddress;
output       RX_BD_ADR_Wr;
output       int_o;
 
reg          irq_txb;
reg          irq_txe;
reg          irq_rxb;
reg          irq_rxf;
reg          irq_busy;
 
wire Write = Cs &  Rw;
wire Read  = Cs & ~Rw;
 
wire MODER_Wr       = (Address == `ETH_MODER_ADR       )  & Write;
wire INT_SOURCE_Wr  = (Address == `ETH_INT_SOURCE_ADR  )  & Write;
wire INT_MASK_Wr    = (Address == `ETH_INT_MASK_ADR    )  & Write;
wire IPGT_Wr        = (Address == `ETH_IPGT_ADR        )  & Write;
wire IPGR1_Wr       = (Address == `ETH_IPGR1_ADR       )  & Write;
wire IPGR2_Wr       = (Address == `ETH_IPGR2_ADR       )  & Write;
wire PACKETLEN_Wr   = (Address == `ETH_PACKETLEN_ADR   )  & Write;
wire COLLCONF_Wr    = (Address == `ETH_COLLCONF_ADR    )  & Write;
 
wire CTRLMODER_Wr   = (Address == `ETH_CTRLMODER_ADR   )  & Write;
wire MIIMODER_Wr    = (Address == `ETH_MIIMODER_ADR    )  & Write;
wire MIICOMMAND_Wr  = (Address == `ETH_MIICOMMAND_ADR  )  & Write;
wire MIIADDRESS_Wr  = (Address == `ETH_MIIADDRESS_ADR  )  & Write;
wire MIITX_DATA_Wr  = (Address == `ETH_MIITX_DATA_ADR  )  & Write;
wire MIIRX_DATA_Wr  = UpdateMIIRX_DATAReg;
wire MIISTATUS_Wr   = (Address == `ETH_MIISTATUS_ADR   )  & Write;
wire MAC_ADDR0_Wr   = (Address == `ETH_MAC_ADDR0_ADR   )  & Write;
wire MAC_ADDR1_Wr   = (Address == `ETH_MAC_ADDR1_ADR   )  & Write;
assign RX_BD_ADR_Wr = (Address == `ETH_RX_BD_ADR_ADR   )  & Write;
 
 
 
wire [31:0] MODEROut;
wire [31:0] INT_SOURCEOut;
wire [31:0] INT_MASKOut;
wire [31:0] IPGTOut;
wire [31:0] IPGR1Out;
wire [31:0] IPGR2Out;
wire [31:0] PACKETLENOut;
wire [31:0] COLLCONFOut;
wire [31:0] CTRLMODEROut;
wire [31:0] MIIMODEROut;
wire [31:0] MIICOMMANDOut;
wire [31:0] MIIADDRESSOut;
wire [31:0] MIITX_DATAOut;
wire [31:0] MIIRX_DATAOut;
wire [31:0] MIISTATUSOut;
wire [31:0] MAC_ADDR0Out;
wire [31:0] MAC_ADDR1Out;
wire [31:0] RX_BD_ADROut;
 
eth_register #(32) MODER       (.DataIn(DataIn), .DataOut(MODEROut),      .Write(MODER_Wr),      .Clk(Clk), .Reset(Reset), .Default(`ETH_MODER_DEF));
eth_register #(32) INT_MASK    (.DataIn(DataIn), .DataOut(INT_MASKOut),   .Write(INT_MASK_Wr),   .Clk(Clk), .Reset(Reset), .Default(`ETH_INT_MASK_DEF));
eth_register #(32) IPGT        (.DataIn(DataIn), .DataOut(IPGTOut),       .Write(IPGT_Wr),       .Clk(Clk), .Reset(Reset), .Default(`ETH_IPGT_DEF));
eth_register #(32) IPGR1       (.DataIn(DataIn), .DataOut(IPGR1Out),      .Write(IPGR1_Wr),      .Clk(Clk), .Reset(Reset), .Default(`ETH_IPGR1_DEF));
eth_register #(32) IPGR2       (.DataIn(DataIn), .DataOut(IPGR2Out),      .Write(IPGR2_Wr),      .Clk(Clk), .Reset(Reset), .Default(`ETH_IPGR2_DEF));
eth_register #(32) PACKETLEN   (.DataIn(DataIn), .DataOut(PACKETLENOut),  .Write(PACKETLEN_Wr),  .Clk(Clk), .Reset(Reset), .Default(`ETH_PACKETLEN_DEF));
eth_register #(32) COLLCONF    (.DataIn(DataIn), .DataOut(COLLCONFOut),   .Write(COLLCONF_Wr),   .Clk(Clk), .Reset(Reset), .Default(`ETH_COLLCONF_DEF));
 
// CTRLMODER registers
wire [31:0] DefaultCtrlModer = `ETH_CTRLMODER_DEF;
assign CTRLMODEROut[31:3] = 29'h0;
eth_register #(3)  CTRLMODER2  (.DataIn(DataIn[2:0]),   .DataOut(CTRLMODEROut[2:0]),   .Write(CTRLMODER_Wr),  .Clk(Clk), .Reset(Reset), .Default(DefaultCtrlModer[2:0]));
// End: CTRLMODER registers
 
 
 
 
 
eth_register #(32) MIIMODER    (.DataIn(DataIn), .DataOut(MIIMODEROut),   .Write(MIIMODER_Wr),   .Clk(Clk), .Reset(Reset), .Default(`ETH_MIIMODER_DEF));
 
assign MIICOMMANDOut[31:3] = 29'h0;
eth_register #(1) MIICOMMAND2  (.DataIn(DataIn[2]), .DataOut(MIICOMMANDOut[2]), .Write(MIICOMMAND_Wr), .Clk(Clk), .Reset(Reset | WCtrlDataStart), .Default(1'b0));
eth_register #(1) MIICOMMAND1  (.DataIn(DataIn[1]), .DataOut(MIICOMMANDOut[1]), .Write(MIICOMMAND_Wr), .Clk(Clk), .Reset(Reset | RStatStart), .Default(1'b0));
eth_register #(1) MIICOMMAND0  (.DataIn(DataIn[0]), .DataOut(MIICOMMANDOut[0]), .Write(MIICOMMAND_Wr), .Clk(Clk), .Reset(Reset), .Default(1'b0));
 
eth_register #(32) MIIADDRESS  (.DataIn(DataIn), .DataOut(MIIADDRESSOut), .Write(MIIADDRESS_Wr), .Clk(Clk), .Reset(Reset), .Default(`ETH_MIIADDRESS_DEF));
eth_register #(32) MIITX_DATA  (.DataIn(DataIn), .DataOut(MIITX_DATAOut), .Write(MIITX_DATA_Wr), .Clk(Clk), .Reset(Reset), .Default(`ETH_MIITX_DATA_DEF));
eth_register #(32) MIIRX_DATA  (.DataIn({16'h0, Prsd}),   .DataOut(MIIRX_DATAOut), .Write(MIIRX_DATA_Wr), .Clk(Clk), .Reset(Reset), .Default(`ETH_MIIRX_DATA_DEF));
//eth_register #(32) MIISTATUS   (.DataIn(DataIn), .DataOut(MIISTATUSOut),  .Write(MIISTATUS_Wr),  .Clk(Clk), .Reset(Reset), .Default(`ETH_MIISTATUS_DEF));
eth_register #(32) MAC_ADDR0   (.DataIn(DataIn), .DataOut(MAC_ADDR0Out),  .Write(MAC_ADDR0_Wr),  .Clk(Clk), .Reset(Reset), .Default(`ETH_MAC_ADDR0_DEF));
eth_register #(32) MAC_ADDR1   (.DataIn(DataIn), .DataOut(MAC_ADDR1Out),  .Write(MAC_ADDR1_Wr),  .Clk(Clk), .Reset(Reset), .Default(`ETH_MAC_ADDR1_DEF));
 
assign RX_BD_ADROut[31:8] = 24'h0;
eth_register #(8) RX_BD_ADR   (.DataIn(DataIn[7:0]), .DataOut(RX_BD_ADROut[7:0]), .Write(RX_BD_ADR_Wr),  .Clk(Clk), .Reset(Reset), .Default(`ETH_RX_BD_ADR_DEF));
 
 
reg LinkFailRegister;
wire ResetLinkFailRegister = Address == `ETH_MIISTATUS_ADR & Read;
reg ResetLinkFailRegister_q1;
reg ResetLinkFailRegister_q2;
 
always @ (posedge Clk or posedge Reset)
begin
  if(Reset)
    begin
      LinkFailRegister <= #Tp 0;
      ResetLinkFailRegister_q1 <= #Tp 0;
      ResetLinkFailRegister_q2 <= #Tp 0;
    end
  else
    begin
      ResetLinkFailRegister_q1 <= #Tp ResetLinkFailRegister;
      ResetLinkFailRegister_q2 <= #Tp ResetLinkFailRegister_q1;
      if(LinkFail)
        LinkFailRegister <= #Tp 1;
      if(~ResetLinkFailRegister_q1 & ResetLinkFailRegister_q2)
        LinkFailRegister <= #Tp 0;
    end
end
 
 
always @ (Address or Read or MODEROut or INT_SOURCEOut or INT_MASKOut or IPGTOut or
          IPGR1Out or IPGR2Out or PACKETLENOut or COLLCONFOut or CTRLMODEROut or
          MIIMODEROut or MIICOMMANDOut or MIIADDRESSOut or MIITX_DATAOut or
          MIIRX_DATAOut or MIISTATUSOut or MAC_ADDR0Out or MAC_ADDR1Out or
          RX_BD_ADROut)
begin
  if(Read)  // read
    begin
      case(Address)
        `ETH_MODER_ADR        :  DataOut<=MODEROut;
        `ETH_INT_SOURCE_ADR   :  DataOut<=INT_SOURCEOut;
        `ETH_INT_MASK_ADR     :  DataOut<=INT_MASKOut;
        `ETH_IPGT_ADR         :  DataOut<=IPGTOut;
        `ETH_IPGR1_ADR        :  DataOut<=IPGR1Out;
        `ETH_IPGR2_ADR        :  DataOut<=IPGR2Out;
        `ETH_PACKETLEN_ADR    :  DataOut<=PACKETLENOut;
        `ETH_COLLCONF_ADR     :  DataOut<=COLLCONFOut;
        `ETH_CTRLMODER_ADR    :  DataOut<=CTRLMODEROut;
        `ETH_MIIMODER_ADR     :  DataOut<=MIIMODEROut;
        `ETH_MIICOMMAND_ADR   :  DataOut<=MIICOMMANDOut;
        `ETH_MIIADDRESS_ADR   :  DataOut<=MIIADDRESSOut;
        `ETH_MIITX_DATA_ADR   :  DataOut<=MIITX_DATAOut;
        `ETH_MIIRX_DATA_ADR   :  DataOut<=MIIRX_DATAOut;
        `ETH_MIISTATUS_ADR    :  DataOut<=MIISTATUSOut;
        `ETH_MAC_ADDR0_ADR    :  DataOut<=MAC_ADDR0Out;
        `ETH_MAC_ADDR1_ADR    :  DataOut<=MAC_ADDR1Out;
        `ETH_RX_BD_ADR_ADR    :  DataOut<=RX_BD_ADROut;
        default:             DataOut<=32'h0;
      endcase
    end
  else
    DataOut<=32'h0;
end
 
 
assign r_DmaEn            = MODEROut[17];
assign r_RecSmall         = MODEROut[16];
assign r_Pad              = MODEROut[15];
assign r_HugEn            = MODEROut[14];
assign r_CrcEn            = MODEROut[13];
assign r_DlyCrcEn         = MODEROut[12];
assign r_Rst              = MODEROut[11];
assign r_FullD            = MODEROut[10];
assign r_ExDfrEn          = MODEROut[9];
assign r_NoBckof          = MODEROut[8];
assign r_LoopBck          = MODEROut[7];
assign r_IFG              = MODEROut[6];
assign r_Pro              = MODEROut[5];
assign r_Iam              = MODEROut[4];
assign r_Bro              = MODEROut[3];
assign r_NoPre            = MODEROut[2];
assign r_TxEn             = MODEROut[1];
assign r_RxEn             = MODEROut[0];
 
assign r_IPGT[6:0]        = IPGTOut[6:0];
 
assign r_IPGR1[6:0]       = IPGR1Out[6:0];
 
assign r_IPGR2[6:0]       = IPGR2Out[6:0];
 
assign r_MinFL[15:0]      = PACKETLENOut[31:16];
assign r_MaxFL[15:0]      = PACKETLENOut[15:0];
 
assign r_MaxRet[3:0]     = COLLCONFOut[19:16];
assign r_CollValid[5:0]  = COLLCONFOut[5:0];
 
assign r_TxFlow           = CTRLMODEROut[2];
assign r_RxFlow           = CTRLMODEROut[1];
assign r_PassAll          = CTRLMODEROut[0];
 
assign r_MiiMRst          = MIIMODEROut[10];
assign r_MiiNoPre         = MIIMODEROut[8];
assign r_ClkDiv[7:0]      = MIIMODEROut[7:0];
 
assign r_WCtrlData        = MIICOMMANDOut[2];
assign r_RStat            = MIICOMMANDOut[1];
assign r_ScanStat         = MIICOMMANDOut[0];
 
assign r_RGAD[4:0]        = MIIADDRESSOut[12:8];
assign r_FIAD[4:0]        = MIIADDRESSOut[4:0];
 
assign r_CtrlData[15:0]   = MIITX_DATAOut[15:0];
 
assign MIISTATUSOut[31:10] = 22'h0           ;
assign MIISTATUSOut[9]  = NValid_stat        ;
assign MIISTATUSOut[8]  = Busy_stat          ;
assign MIISTATUSOut[7:3]= 5'h0               ;
assign MIISTATUSOut[2]  = 1'b0;
assign MIISTATUSOut[1]  = 1'b0;
assign MIISTATUSOut[0]  = LinkFailRegister   ;
 
assign r_MAC[31:0]        = MAC_ADDR0Out[31:0];
assign r_MAC[47:32]       = MAC_ADDR1Out[15:0];
 
assign r_RxBDAddress[7:0] = RX_BD_ADROut[7:0];
 
 
// Interrupt generation
 
always @ (posedge Clk or posedge Reset)
begin
  if(Reset)
    irq_txb <= 1'b0;
  else
  if(TxB_IRQ & INT_MASKOut[0])
    irq_txb <= #Tp 1'b1;
  else
  if(INT_SOURCE_Wr & DataIn[0])
    irq_txb <= #Tp 1'b0;
end
 
always @ (posedge Clk or posedge Reset)
begin
  if(Reset)
    irq_txe <= 1'b0;
  else
  if(TxE_IRQ & INT_MASKOut[1])
    irq_txe <= #Tp 1'b1;
  else
  if(INT_SOURCE_Wr & DataIn[1])
    irq_txe <= #Tp 1'b0;
end
 
always @ (posedge Clk or posedge Reset)
begin
  if(Reset)
    irq_rxb <= 1'b0;
  else
  if(RxB_IRQ & INT_MASKOut[2])
    irq_rxb <= #Tp 1'b1;
  else
  if(INT_SOURCE_Wr & DataIn[2])
    irq_rxb <= #Tp 1'b0;
end
 
always @ (posedge Clk or posedge Reset)
begin
  if(Reset)
    irq_rxf <= 1'b0;
  else
  if(RxF_IRQ & INT_MASKOut[3])
    irq_rxf <= #Tp 1'b1;
  else
  if(INT_SOURCE_Wr & DataIn[3])
    irq_rxf <= #Tp 1'b0;
end
 
always @ (posedge Clk or posedge Reset)
begin
  if(Reset)
    irq_busy <= 1'b0;
  else
  if(Busy_IRQ & INT_MASKOut[4])
    irq_busy <= #Tp 1'b1;
  else
  if(INT_SOURCE_Wr & DataIn[4])
    irq_busy <= #Tp 1'b0;
end
 
// Generating interrupt signal
assign int_o = irq_txb | irq_txe | irq_rxb | irq_rxf | irq_busy;
 
// For reading interrupt status
assign INT_SOURCEOut = {28'h0, irq_busy, irq_rxf, irq_rxb, irq_txe, irq_txb};
 
 
 
endmodule

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[/] [ethmac/] [trunk/] [rtl/] [verilog/] [eth_registers.v] - Blame information for rev 21

Line No.	Rev	Author	Line
1	15	mohor	`//////////////////////////////////////////////////////////////////////`
2			`//// ////`
3			`//// eth_registers.v ////`
4			`//// ////`
5			`//// This file is part of the Ethernet IP core project ////`
6			`//// http://www.opencores.org/cores/ethmac/ ////`
7			`//// ////`
8			`//// Author(s): ////`
9			`//// - Igor Mohor (igorM@opencores.org) ////`
10			`//// ////`
11			`//// All additional information is avaliable in the Readme.txt ////`
12			`//// file. ////`
13			`//// ////`
14			`//////////////////////////////////////////////////////////////////////`
15			`//// ////`
16			`//// Copyright (C) 2001 Authors ////`
17			`//// ////`
18			`//// This source file may be used and distributed without ////`
19			`//// restriction provided that this copyright statement is not ////`
20			`//// removed from the file and that any derivative work contains ////`
21			`//// the original copyright notice and the associated disclaimer. ////`
22			`//// ////`
23			`//// This source file is free software; you can redistribute it ////`
24			`//// and/or modify it under the terms of the GNU Lesser General ////`
25			`//// Public License as published by the Free Software Foundation; ////`
26			`//// either version 2.1 of the License, or (at your option) any ////`
27			`//// later version. ////`
28			`//// ////`
29			`//// This source is distributed in the hope that it will be ////`
30			`//// useful, but WITHOUT ANY WARRANTY; without even the implied ////`
31			`//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////`
32			`//// PURPOSE. See the GNU Lesser General Public License for more ////`
33			`//// details. ////`
34			`//// ////`
35			`//// You should have received a copy of the GNU Lesser General ////`
36			`//// Public License along with this source; if not, download it ////`
37			`//// from http://www.opencores.org/lgpl.shtml ////`
38			`//// ////`
39			`//////////////////////////////////////////////////////////////////////`
40			`//`
41			`// CVS Revision History`
42			`//`
43			`// $Log: not supported by cvs2svn $`
44	21	mohor	`// Revision 1.2 2001/09/24 15:02:56 mohor`
45			`// Defines changed (All precede with ETH_). Small changes because some`
46			`// tools generate warnings when two operands are together. Synchronization`
47			`// between two clocks domains in eth_wishbonedma.v is changed (due to ASIC`
48			`// demands).`
49			`//`
50	20	mohor	`// Revision 1.1 2001/08/06 14:44:29 mohor`
51			`// A define FPGA added to select between Artisan RAM (for ASIC) and Block Ram (For Virtex).`
52			`// Include files fixed to contain no path.`
53			`// File names and module names changed ta have a eth_ prologue in the name.`
54			`// File eth_timescale.v is used to define timescale`
55			`// All pin names on the top module are changed to contain _I, _O or _OE at the end.`
56			`// Bidirectional signal MDIO is changed to three signals (Mdc_O, Mdi_I, Mdo_O`
57			`// and Mdo_OE. The bidirectional signal must be created on the top level. This`
58			`// is done due to the ASIC tools.`
59			`//`
60	15	mohor	`// Revision 1.2 2001/08/02 09:25:31 mohor`
61			`// Unconnected signals are now connected.`
62			`//`
63			`// Revision 1.1 2001/07/30 21:23:42 mohor`
64			`// Directory structure changed. Files checked and joind together.`
65			`//`
66			`//`
67			`//`
68			`//`
69			`//`
70			`//`
71
72			`include "eth_defines.v"
73			`include "eth_timescale.v"
74
75
76			`module eth_registers( DataIn, Address, Rw, Cs, Clk, Reset, DataOut, r_DmaEn,`
77			`r_RecSmall, r_Pad, r_HugEn, r_CrcEn, r_DlyCrcEn,`
78			`r_Rst, r_FullD, r_ExDfrEn, r_NoBckof, r_LoopBck, r_IFG,`
79	21	mohor	`r_Pro, r_Iam, r_Bro, r_NoPre, r_TxEn, r_RxEn,`
80			`TxB_IRQ, TxE_IRQ, RxB_IRQ, RxF_IRQ, Busy_IRQ,`
81			`r_IPGT, r_IPGR1, r_IPGR2, r_MinFL, r_MaxFL, r_MaxRet,`
82	15	mohor	`r_CollValid, r_TxFlow, r_RxFlow, r_PassAll,`
83			`r_MiiMRst, r_MiiNoPre, r_ClkDiv, r_WCtrlData, r_RStat, r_ScanStat,`
84			`r_RGAD, r_FIAD, r_CtrlData, NValid_stat, Busy_stat,`
85			`LinkFail, r_MAC, WCtrlDataStart, RStatStart,`
86	21	mohor	`UpdateMIIRX_DATAReg, Prsd, r_RxBDAddress, RX_BD_ADR_Wr, int_o`
87	15	mohor	`);`
88
89			`parameter Tp = 1;`
90
91			`input [31:0] DataIn;`
92			`input [5:0] Address;`
93
94			`input Rw;`
95			`input Cs;`
96			`input Clk;`
97			`input Reset;`
98
99			`input WCtrlDataStart;`
100			`input RStatStart;`
101
102			`input UpdateMIIRX_DATAReg;`
103			`input [15:0] Prsd;`
104
105			`output [31:0] DataOut;`
106			`reg [31:0] DataOut;`
107
108			`output r_DmaEn;`
109			`output r_RecSmall;`
110			`output r_Pad;`
111			`output r_HugEn;`
112			`output r_CrcEn;`
113			`output r_DlyCrcEn;`
114			`output r_Rst;`
115			`output r_FullD;`
116			`output r_ExDfrEn;`
117			`output r_NoBckof;`
118			`output r_LoopBck;`
119			`output r_IFG;`
120			`output r_Pro;`
121			`output r_Iam;`
122			`output r_Bro;`
123			`output r_NoPre;`
124			`output r_TxEn;`
125			`output r_RxEn;`
126
127	21	mohor	`input TxB_IRQ;`
128			`input TxE_IRQ;`
129			`input RxB_IRQ;`
130			`input RxF_IRQ;`
131			`input Busy_IRQ;`
132	15	mohor
133			`output [6:0] r_IPGT;`
134
135			`output [6:0] r_IPGR1;`
136
137			`output [6:0] r_IPGR2;`
138
139			`output [15:0] r_MinFL;`
140			`output [15:0] r_MaxFL;`
141
142			`output [3:0] r_MaxRet;`
143			`output [5:0] r_CollValid;`
144
145			`output r_TxFlow;`
146			`output r_RxFlow;`
147			`output r_PassAll;`
148
149			`output r_MiiMRst;`
150			`output r_MiiNoPre;`
151			`output [7:0] r_ClkDiv;`
152
153			`output r_WCtrlData;`
154			`output r_RStat;`
155			`output r_ScanStat;`
156
157			`output [4:0] r_RGAD;`
158			`output [4:0] r_FIAD;`
159
160	21	mohor	`output [15:0]r_CtrlData;`
161	15	mohor
162
163			`input NValid_stat;`
164			`input Busy_stat;`
165			`input LinkFail;`
166
167	21	mohor	`output [47:0]r_MAC;`
168	15	mohor	`output [7:0] r_RxBDAddress;`
169			`output RX_BD_ADR_Wr;`
170	21	mohor	`output int_o;`
171	15	mohor
172	21	mohor	`reg irq_txb;`
173			`reg irq_txe;`
174			`reg irq_rxb;`
175			`reg irq_rxf;`
176			`reg irq_busy;`
177	15	mohor
178			`wire Write = Cs & Rw;`
179			`wire Read = Cs & ~Rw;`
180
181	21	mohor	wire MODER_Wr = (Address == `ETH_MODER_ADR ) & Write;
182			wire INT_SOURCE_Wr = (Address == `ETH_INT_SOURCE_ADR ) & Write;
183			wire INT_MASK_Wr = (Address == `ETH_INT_MASK_ADR ) & Write;
184			wire IPGT_Wr = (Address == `ETH_IPGT_ADR ) & Write;
185			wire IPGR1_Wr = (Address == `ETH_IPGR1_ADR ) & Write;
186			wire IPGR2_Wr = (Address == `ETH_IPGR2_ADR ) & Write;
187			wire PACKETLEN_Wr = (Address == `ETH_PACKETLEN_ADR ) & Write;
188			wire COLLCONF_Wr = (Address == `ETH_COLLCONF_ADR ) & Write;
189
190			wire CTRLMODER_Wr = (Address == `ETH_CTRLMODER_ADR ) & Write;
191			wire MIIMODER_Wr = (Address == `ETH_MIIMODER_ADR ) & Write;
192			wire MIICOMMAND_Wr = (Address == `ETH_MIICOMMAND_ADR ) & Write;
193			wire MIIADDRESS_Wr = (Address == `ETH_MIIADDRESS_ADR ) & Write;
194			wire MIITX_DATA_Wr = (Address == `ETH_MIITX_DATA_ADR ) & Write;
195			`wire MIIRX_DATA_Wr = UpdateMIIRX_DATAReg;`
196			wire MIISTATUS_Wr = (Address == `ETH_MIISTATUS_ADR ) & Write;
197			wire MAC_ADDR0_Wr = (Address == `ETH_MAC_ADDR0_ADR ) & Write;
198			wire MAC_ADDR1_Wr = (Address == `ETH_MAC_ADDR1_ADR ) & Write;
199			assign RX_BD_ADR_Wr = (Address == `ETH_RX_BD_ADR_ADR ) & Write;
200	15	mohor
201
202
203			`wire [31:0] MODEROut;`
204			`wire [31:0] INT_SOURCEOut;`
205			`wire [31:0] INT_MASKOut;`
206			`wire [31:0] IPGTOut;`
207			`wire [31:0] IPGR1Out;`
208			`wire [31:0] IPGR2Out;`
209			`wire [31:0] PACKETLENOut;`
210			`wire [31:0] COLLCONFOut;`
211			`wire [31:0] CTRLMODEROut;`
212			`wire [31:0] MIIMODEROut;`
213			`wire [31:0] MIICOMMANDOut;`
214			`wire [31:0] MIIADDRESSOut;`
215			`wire [31:0] MIITX_DATAOut;`
216			`wire [31:0] MIIRX_DATAOut;`
217			`wire [31:0] MIISTATUSOut;`
218			`wire [31:0] MAC_ADDR0Out;`
219			`wire [31:0] MAC_ADDR1Out;`
220			`wire [31:0] RX_BD_ADROut;`
221
222	20	mohor	eth_register #(32) MODER (.DataIn(DataIn), .DataOut(MODEROut), .Write(MODER_Wr), .Clk(Clk), .Reset(Reset), .Default(`ETH_MODER_DEF));
223			eth_register #(32) INT_MASK (.DataIn(DataIn), .DataOut(INT_MASKOut), .Write(INT_MASK_Wr), .Clk(Clk), .Reset(Reset), .Default(`ETH_INT_MASK_DEF));
224			eth_register #(32) IPGT (.DataIn(DataIn), .DataOut(IPGTOut), .Write(IPGT_Wr), .Clk(Clk), .Reset(Reset), .Default(`ETH_IPGT_DEF));
225			eth_register #(32) IPGR1 (.DataIn(DataIn), .DataOut(IPGR1Out), .Write(IPGR1_Wr), .Clk(Clk), .Reset(Reset), .Default(`ETH_IPGR1_DEF));
226			eth_register #(32) IPGR2 (.DataIn(DataIn), .DataOut(IPGR2Out), .Write(IPGR2_Wr), .Clk(Clk), .Reset(Reset), .Default(`ETH_IPGR2_DEF));
227			eth_register #(32) PACKETLEN (.DataIn(DataIn), .DataOut(PACKETLENOut), .Write(PACKETLEN_Wr), .Clk(Clk), .Reset(Reset), .Default(`ETH_PACKETLEN_DEF));
228			eth_register #(32) COLLCONF (.DataIn(DataIn), .DataOut(COLLCONFOut), .Write(COLLCONF_Wr), .Clk(Clk), .Reset(Reset), .Default(`ETH_COLLCONF_DEF));
229	15	mohor
230			`// CTRLMODER registers`
231	20	mohor	wire [31:0] DefaultCtrlModer = `ETH_CTRLMODER_DEF;
232	15	mohor	`assign CTRLMODEROut[31:3] = 29'h0;`
233			`eth_register #(3) CTRLMODER2 (.DataIn(DataIn[2:0]), .DataOut(CTRLMODEROut[2:0]), .Write(CTRLMODER_Wr), .Clk(Clk), .Reset(Reset), .Default(DefaultCtrlModer[2:0]));`
234			`// End: CTRLMODER registers`
235
236
237
238
239
240	20	mohor	eth_register #(32) MIIMODER (.DataIn(DataIn), .DataOut(MIIMODEROut), .Write(MIIMODER_Wr), .Clk(Clk), .Reset(Reset), .Default(`ETH_MIIMODER_DEF));
241	15	mohor
242			`assign MIICOMMANDOut[31:3] = 29'h0;`
243			`eth_register #(1) MIICOMMAND2 (.DataIn(DataIn[2]), .DataOut(MIICOMMANDOut[2]), .Write(MIICOMMAND_Wr), .Clk(Clk), .Reset(Reset \| WCtrlDataStart), .Default(1'b0));`
244			`eth_register #(1) MIICOMMAND1 (.DataIn(DataIn[1]), .DataOut(MIICOMMANDOut[1]), .Write(MIICOMMAND_Wr), .Clk(Clk), .Reset(Reset \| RStatStart), .Default(1'b0));`
245			`eth_register #(1) MIICOMMAND0 (.DataIn(DataIn[0]), .DataOut(MIICOMMANDOut[0]), .Write(MIICOMMAND_Wr), .Clk(Clk), .Reset(Reset), .Default(1'b0));`
246
247	20	mohor	eth_register #(32) MIIADDRESS (.DataIn(DataIn), .DataOut(MIIADDRESSOut), .Write(MIIADDRESS_Wr), .Clk(Clk), .Reset(Reset), .Default(`ETH_MIIADDRESS_DEF));
248			eth_register #(32) MIITX_DATA (.DataIn(DataIn), .DataOut(MIITX_DATAOut), .Write(MIITX_DATA_Wr), .Clk(Clk), .Reset(Reset), .Default(`ETH_MIITX_DATA_DEF));
249			eth_register #(32) MIIRX_DATA (.DataIn({16'h0, Prsd}), .DataOut(MIIRX_DATAOut), .Write(MIIRX_DATA_Wr), .Clk(Clk), .Reset(Reset), .Default(`ETH_MIIRX_DATA_DEF));
250			//eth_register #(32) MIISTATUS (.DataIn(DataIn), .DataOut(MIISTATUSOut), .Write(MIISTATUS_Wr), .Clk(Clk), .Reset(Reset), .Default(`ETH_MIISTATUS_DEF));
251			eth_register #(32) MAC_ADDR0 (.DataIn(DataIn), .DataOut(MAC_ADDR0Out), .Write(MAC_ADDR0_Wr), .Clk(Clk), .Reset(Reset), .Default(`ETH_MAC_ADDR0_DEF));
252			eth_register #(32) MAC_ADDR1 (.DataIn(DataIn), .DataOut(MAC_ADDR1Out), .Write(MAC_ADDR1_Wr), .Clk(Clk), .Reset(Reset), .Default(`ETH_MAC_ADDR1_DEF));
253	15	mohor
254			`assign RX_BD_ADROut[31:8] = 24'h0;`
255	20	mohor	eth_register #(8) RX_BD_ADR (.DataIn(DataIn[7:0]), .DataOut(RX_BD_ADROut[7:0]), .Write(RX_BD_ADR_Wr), .Clk(Clk), .Reset(Reset), .Default(`ETH_RX_BD_ADR_DEF));
256	15	mohor
257
258			`reg LinkFailRegister;`
259	20	mohor	wire ResetLinkFailRegister = Address == `ETH_MIISTATUS_ADR & Read;
260	15	mohor	`reg ResetLinkFailRegister_q1;`
261			`reg ResetLinkFailRegister_q2;`
262
263			`always @ (posedge Clk or posedge Reset)`
264			`begin`
265			`if(Reset)`
266			`begin`
267			`LinkFailRegister <= #Tp 0;`
268			`ResetLinkFailRegister_q1 <= #Tp 0;`
269			`ResetLinkFailRegister_q2 <= #Tp 0;`
270			`end`
271			`else`
272			`begin`
273			`ResetLinkFailRegister_q1 <= #Tp ResetLinkFailRegister;`
274			`ResetLinkFailRegister_q2 <= #Tp ResetLinkFailRegister_q1;`
275			`if(LinkFail)`
276			`LinkFailRegister <= #Tp 1;`
277			`if(~ResetLinkFailRegister_q1 & ResetLinkFailRegister_q2)`
278			`LinkFailRegister <= #Tp 0;`
279			`end`
280			`end`
281
282
283			`always @ (Address or Read or MODEROut or INT_SOURCEOut or INT_MASKOut or IPGTOut or`
284			`IPGR1Out or IPGR2Out or PACKETLENOut or COLLCONFOut or CTRLMODEROut or`
285			`MIIMODEROut or MIICOMMANDOut or MIIADDRESSOut or MIITX_DATAOut or`
286			`MIIRX_DATAOut or MIISTATUSOut or MAC_ADDR0Out or MAC_ADDR1Out or`
287			`RX_BD_ADROut)`
288			`begin`
289			`if(Read) // read`
290			`begin`
291			`case(Address)`
292	20	mohor	`ETH_MODER_ADR : DataOut<=MODEROut;
293			`ETH_INT_SOURCE_ADR : DataOut<=INT_SOURCEOut;
294			`ETH_INT_MASK_ADR : DataOut<=INT_MASKOut;
295			`ETH_IPGT_ADR : DataOut<=IPGTOut;
296			`ETH_IPGR1_ADR : DataOut<=IPGR1Out;
297			`ETH_IPGR2_ADR : DataOut<=IPGR2Out;
298			`ETH_PACKETLEN_ADR : DataOut<=PACKETLENOut;
299			`ETH_COLLCONF_ADR : DataOut<=COLLCONFOut;
300			`ETH_CTRLMODER_ADR : DataOut<=CTRLMODEROut;
301			`ETH_MIIMODER_ADR : DataOut<=MIIMODEROut;
302			`ETH_MIICOMMAND_ADR : DataOut<=MIICOMMANDOut;
303			`ETH_MIIADDRESS_ADR : DataOut<=MIIADDRESSOut;
304			`ETH_MIITX_DATA_ADR : DataOut<=MIITX_DATAOut;
305			`ETH_MIIRX_DATA_ADR : DataOut<=MIIRX_DATAOut;
306			`ETH_MIISTATUS_ADR : DataOut<=MIISTATUSOut;
307			`ETH_MAC_ADDR0_ADR : DataOut<=MAC_ADDR0Out;
308			`ETH_MAC_ADDR1_ADR : DataOut<=MAC_ADDR1Out;
309			`ETH_RX_BD_ADR_ADR : DataOut<=RX_BD_ADROut;
310	15	mohor	`default: DataOut<=32'h0;`
311			`endcase`
312			`end`
313			`else`
314			`DataOut<=32'h0;`
315			`end`
316
317
318			`assign r_DmaEn = MODEROut[17];`
319			`assign r_RecSmall = MODEROut[16];`
320			`assign r_Pad = MODEROut[15];`
321			`assign r_HugEn = MODEROut[14];`
322			`assign r_CrcEn = MODEROut[13];`
323			`assign r_DlyCrcEn = MODEROut[12];`
324			`assign r_Rst = MODEROut[11];`
325			`assign r_FullD = MODEROut[10];`
326			`assign r_ExDfrEn = MODEROut[9];`
327			`assign r_NoBckof = MODEROut[8];`
328			`assign r_LoopBck = MODEROut[7];`
329			`assign r_IFG = MODEROut[6];`
330			`assign r_Pro = MODEROut[5];`
331			`assign r_Iam = MODEROut[4];`
332			`assign r_Bro = MODEROut[3];`
333			`assign r_NoPre = MODEROut[2];`
334			`assign r_TxEn = MODEROut[1];`
335			`assign r_RxEn = MODEROut[0];`
336
337			`assign r_IPGT[6:0] = IPGTOut[6:0];`
338
339			`assign r_IPGR1[6:0] = IPGR1Out[6:0];`
340
341			`assign r_IPGR2[6:0] = IPGR2Out[6:0];`
342
343			`assign r_MinFL[15:0] = PACKETLENOut[31:16];`
344			`assign r_MaxFL[15:0] = PACKETLENOut[15:0];`
345
346			`assign r_MaxRet[3:0] = COLLCONFOut[19:16];`
347			`assign r_CollValid[5:0] = COLLCONFOut[5:0];`
348
349			`assign r_TxFlow = CTRLMODEROut[2];`
350			`assign r_RxFlow = CTRLMODEROut[1];`
351			`assign r_PassAll = CTRLMODEROut[0];`
352
353			`assign r_MiiMRst = MIIMODEROut[10];`
354			`assign r_MiiNoPre = MIIMODEROut[8];`
355			`assign r_ClkDiv[7:0] = MIIMODEROut[7:0];`
356
357			`assign r_WCtrlData = MIICOMMANDOut[2];`
358			`assign r_RStat = MIICOMMANDOut[1];`
359			`assign r_ScanStat = MIICOMMANDOut[0];`
360
361			`assign r_RGAD[4:0] = MIIADDRESSOut[12:8];`
362			`assign r_FIAD[4:0] = MIIADDRESSOut[4:0];`
363
364			`assign r_CtrlData[15:0] = MIITX_DATAOut[15:0];`
365
366			`assign MIISTATUSOut[31:10] = 22'h0 ;`
367			`assign MIISTATUSOut[9] = NValid_stat ;`
368			`assign MIISTATUSOut[8] = Busy_stat ;`
369			`assign MIISTATUSOut[7:3]= 5'h0 ;`
370			`assign MIISTATUSOut[2] = 1'b0;`
371			`assign MIISTATUSOut[1] = 1'b0;`
372			`assign MIISTATUSOut[0] = LinkFailRegister ;`
373
374			`assign r_MAC[31:0] = MAC_ADDR0Out[31:0];`
375			`assign r_MAC[47:32] = MAC_ADDR1Out[15:0];`
376
377			`assign r_RxBDAddress[7:0] = RX_BD_ADROut[7:0];`
378
379
380	21	mohor	`// Interrupt generation`
381
382			`always @ (posedge Clk or posedge Reset)`
383			`begin`
384			`if(Reset)`
385			`irq_txb <= 1'b0;`
386			`else`
387			`if(TxB_IRQ & INT_MASKOut[0])`
388			`irq_txb <= #Tp 1'b1;`
389			`else`
390			`if(INT_SOURCE_Wr & DataIn[0])`
391			`irq_txb <= #Tp 1'b0;`
392			`end`
393
394			`always @ (posedge Clk or posedge Reset)`
395			`begin`
396			`if(Reset)`
397			`irq_txe <= 1'b0;`
398			`else`
399			`if(TxE_IRQ & INT_MASKOut[1])`
400			`irq_txe <= #Tp 1'b1;`
401			`else`
402			`if(INT_SOURCE_Wr & DataIn[1])`
403			`irq_txe <= #Tp 1'b0;`
404			`end`
405
406			`always @ (posedge Clk or posedge Reset)`
407			`begin`
408			`if(Reset)`
409			`irq_rxb <= 1'b0;`
410			`else`
411			`if(RxB_IRQ & INT_MASKOut[2])`
412			`irq_rxb <= #Tp 1'b1;`
413			`else`
414			`if(INT_SOURCE_Wr & DataIn[2])`
415			`irq_rxb <= #Tp 1'b0;`
416			`end`
417
418			`always @ (posedge Clk or posedge Reset)`
419			`begin`
420			`if(Reset)`
421			`irq_rxf <= 1'b0;`
422			`else`
423			`if(RxF_IRQ & INT_MASKOut[3])`
424			`irq_rxf <= #Tp 1'b1;`
425			`else`
426			`if(INT_SOURCE_Wr & DataIn[3])`
427			`irq_rxf <= #Tp 1'b0;`
428			`end`
429
430			`always @ (posedge Clk or posedge Reset)`
431			`begin`
432			`if(Reset)`
433			`irq_busy <= 1'b0;`
434			`else`
435			`if(Busy_IRQ & INT_MASKOut[4])`
436			`irq_busy <= #Tp 1'b1;`
437			`else`
438			`if(INT_SOURCE_Wr & DataIn[4])`
439			`irq_busy <= #Tp 1'b0;`
440			`end`
441
442			`// Generating interrupt signal`
443			`assign int_o = irq_txb \| irq_txe \| irq_rxb \| irq_rxf \| irq_busy;`
444
445			`// For reading interrupt status`
446			`assign INT_SOURCEOut = {28'h0, irq_busy, irq_rxf, irq_rxb, irq_txe, irq_txb};`
447
448
449
450	15	mohor	`endmodule`