OpenCores
URL https://opencores.org/ocsvn/openrisc/openrisc/trunk

Subversion Repositories openrisc

[/] [openrisc/] [trunk/] [orpsocv2/] [rtl/] [verilog/] [usbhostslave/] [readUSBWireData.v] - Blame information for rev 805

Go to most recent revision | Details | Compare with Previous | View Log

Line No. Rev Author Line
1 408 julius
//////////////////////////////////////////////////////////////////////
2
////                                                              ////
3
//// readUSBWireData.v                                            ////
4
////                                                              ////
5
//// This file is part of the usbhostslave opencores effort.
6
//// <http://www.opencores.org/cores//>                           ////
7
////                                                              ////
8
//// Module Description:                                          ////
9
////      This module reads data from the differential USB data lines
10
////      and writes into a 4 entry FIFO. The data is read from
11
////      the fifo and output from the module when the higher level
12
////      state machine is ready to receive the data.
13
////      This module must recover the clock phase from the incoming
14
////      USB data. 'sampleCnt' is reset to zero whenever a RX data
15
////      edge is detected. Note that due to metastability the data
16
////      at the edge may not be registered correctly, but this does
17
////      not matter. All that matters is that an edge was detected. The
18
////      data will be accurately sampled in the middle of the USB bit 
19
////      period without metastability issues. 
20
////      After the edge detect, 'sampleCnt' is incremented at every clock
21
////      tick, and when it indicates the middle of a USB bit period
22
////      the RX data is sampled and written to the input buffer.
23
////      Single clock tick adjustments to 'sampleCnt' can be made at 
24
////      every RX data edge detect without double sampling the incoming
25
////      data. However, the first RX data bit in a packet may cause 
26
////      'sampleCnt' to be adjusted by a value greater than a single 
27
////      clock tick, and this can result in double sampling of the 
28
////      first data bit a RX packet. This 
29
////      double sampled data must be rejected by the higher level module.
30
////      This is achieved by 
31
////      qualifying the outgoing data with 'RxWireActive'. Thus 
32
////      the first data bit in a RX packet may be double sampled
33
////      as the clock recovery mechanism synchronizes to 'RxBitsIn'
34
////      but the double sampled data will be rejected by the higher 
35
////      level module.
36
//// 
37
////                                                              ////
38
//// To Do:                                                       ////
39
//// 
40
////                                                              ////
41
//// Author(s):                                                   ////
42
//// - Steve Fielding, sfielding@base2designs.com                 ////
43
////                                                              ////
44
//////////////////////////////////////////////////////////////////////
45
////                                                              ////
46
//// Copyright (C) 2004 Steve Fielding and OPENCORES.ORG          ////
47
////                                                              ////
48
//// This source file may be used and distributed without         ////
49
//// restriction provided that this copyright statement is not    ////
50
//// removed from the file and that any derivative work contains  ////
51
//// the original copyright notice and the associated disclaimer. ////
52
////                                                              ////
53
//// This source file is free software; you can redistribute it   ////
54
//// and/or modify it under the terms of the GNU Lesser General   ////
55
//// Public License as published by the Free Software Foundation; ////
56
//// either version 2.1 of the License, or (at your option) any   ////
57
//// later version.                                               ////
58
////                                                              ////
59
//// This source is distributed in the hope that it will be       ////
60
//// useful, but WITHOUT ANY WARRANTY; without even the implied   ////
61
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR      ////
62
//// PURPOSE. See the GNU Lesser General Public License for more  ////
63
//// details.                                                     ////
64
////                                                              ////
65
//// You should have received a copy of the GNU Lesser General    ////
66
//// Public License along with this source; if not, download it   ////
67
//// from <http://www.opencores.org/lgpl.shtml>                   ////
68
////                                                              ////
69
//////////////////////////////////////////////////////////////////////
70
//
71
`include "timescale.v"
72
`include "usbhostslave_serialinterfaceengine_h.v"
73
 
74
module readUSBWireData (RxBitsIn, RxDataInTick, RxBitsOut, SIERxRdyIn, SIERxWEn, fullSpeedRate, TxWireActiveDrive, clk, rst, noActivityTimeOut, RxWireActive, noActivityTimeOutEnable);
75
input   [1:0] RxBitsIn;
76
output  RxDataInTick;
77
input   SIERxRdyIn;
78
input   clk;
79
input   fullSpeedRate;
80
input   rst;
81
input   TxWireActiveDrive;
82
output  [1:0] RxBitsOut;
83
output  SIERxWEn;
84
output noActivityTimeOut;
85
output RxWireActive;
86
input  noActivityTimeOutEnable;
87
 
88
wire   [1:0] RxBitsIn;
89
reg    RxDataInTick;
90
wire   SIERxRdyIn;
91
wire   clk;
92
wire   fullSpeedRate;
93
wire   rst;
94
reg    [1:0] RxBitsOut;
95
reg    SIERxWEn;
96
reg    noActivityTimeOut;
97
reg    RxWireActive;
98
wire   noActivityTimeOutEnable;
99
 
100
// local registers
101
reg  [2:0]buffer0;
102
reg  [2:0]buffer1;
103
reg  [2:0]buffer2;
104
reg  [2:0]buffer3;
105
reg  [2:0]bufferCnt;
106
reg  [1:0]bufferInIndex;
107
reg  [1:0]bufferOutIndex;
108
reg decBufferCnt;
109
reg  [4:0]sampleCnt;
110
reg incBufferCnt;
111
reg  [1:0]oldRxBitsIn;
112
reg [1:0] RxBitsInReg;
113
reg [15:0] timeOutCnt;
114
reg [7:0] rxActiveCnt;
115
reg RxWireEdgeDetect;
116
reg RxWireActiveReg;
117
reg RxWireActiveReg2;
118
reg [1:0] RxBitsInSyncReg1;
119
reg [1:0] RxBitsInSyncReg2;
120
 
121
// buffer output state machine state codes:
122
`define WAIT_BUFFER_NOT_EMPTY 2'b00
123
`define WAIT_SIE_RX_READY 2'b01
124
`define SIE_RX_WRITE 2'b10
125
 
126
// re-synchronize incoming bits
127
always @(posedge clk) begin
128
  RxBitsInSyncReg1 <= RxBitsIn;
129
  RxBitsInSyncReg2 <= RxBitsInSyncReg1;
130
end
131
 
132
reg [1:0] bufferOutStMachCurrState;
133
 
134
 
135
always @(posedge clk) begin
136
  if (rst == 1'b1)
137
  begin
138
    bufferCnt <= 3'b000;
139
  end
140
  else begin
141
    if (incBufferCnt == 1'b1 && decBufferCnt == 1'b0)
142
      bufferCnt <= bufferCnt + 1'b1;
143
    else if (incBufferCnt == 1'b0 && decBufferCnt == 1'b1)
144
      bufferCnt <= bufferCnt - 1'b1;
145
  end
146
end
147
 
148
 
149
 
150
//Perform line rate clock recovery
151
//Recover the wire data, and store data to buffer
152
always @(posedge clk) begin
153
  if (rst == 1'b1)
154
  begin
155
    sampleCnt <= 5'b00000;
156
    incBufferCnt <= 1'b0;
157
    bufferInIndex <= 2'b00;
158
    buffer0 <= 3'b000;
159
    buffer1 <= 3'b000;
160
    buffer2 <= 3'b000;
161
    buffer3 <= 3'b000;
162
    RxDataInTick <= 1'b0;
163
    RxWireEdgeDetect <= 1'b0;
164
    RxWireActiveReg <= 1'b0;
165
    RxWireActiveReg2 <= 1'b0;
166
  end
167
  else begin
168
    RxWireActiveReg2 <= RxWireActiveReg; //Delay 'RxWireActiveReg' until after 'sampleCnt' has been reset
169
    RxBitsInReg <= RxBitsInSyncReg2;
170
    oldRxBitsIn <= RxBitsInReg;
171
    incBufferCnt <= 1'b0;         //default value
172
    if ( (TxWireActiveDrive == 1'b0) && (RxBitsInSyncReg2 != RxBitsInReg)) begin  //if edge detected then
173
      sampleCnt <= 5'b00000;
174
      RxWireEdgeDetect <= 1'b1;   // flag receive activity 
175
      RxWireActiveReg <= 1'b1;
176
      rxActiveCnt <= 8'h00;
177
    end
178
    else begin
179
      sampleCnt <= sampleCnt + 1'b1;
180
      RxWireEdgeDetect <= 1'b0;
181
      rxActiveCnt <= rxActiveCnt + 1'b1;
182
      //clear 'RxWireActiveReg' if no RX transitions for RX_EDGE_DET_TOUT USB bit periods 
183
      if ( (fullSpeedRate == 1'b1 && rxActiveCnt == `RX_EDGE_DET_TOUT * `FS_OVER_SAMPLE_RATE)
184
        || (fullSpeedRate == 1'b0 && rxActiveCnt == `RX_EDGE_DET_TOUT * `LS_OVER_SAMPLE_RATE) )
185
        RxWireActiveReg <= 1'b0;
186
    end
187
    if ( (fullSpeedRate == 1'b1 && sampleCnt[1:0] == 2'b10) || (fullSpeedRate == 1'b0 && sampleCnt == 5'b10000) )
188
    begin
189
      RxDataInTick <= !RxDataInTick;
190
      if (TxWireActiveDrive != 1'b1)  //do not read wire data when transmitter is active
191
      begin
192
        incBufferCnt <= 1'b1;
193
        bufferInIndex <= bufferInIndex + 1'b1;
194
        case (bufferInIndex)
195
          2'b00 : buffer0 <= {RxWireActiveReg2, oldRxBitsIn};
196
          2'b01 : buffer1 <= {RxWireActiveReg2, oldRxBitsIn};
197
          2'b10 : buffer2 <= {RxWireActiveReg2, oldRxBitsIn};
198
          2'b11 : buffer3 <= {RxWireActiveReg2, oldRxBitsIn};
199
        endcase
200
      end
201
    end
202
  end
203
end
204
 
205
 
206
 
207
//read from buffer, and output to SIEReceiver
208
always @(posedge clk) begin
209
  if (rst == 1'b1)
210
  begin
211
    decBufferCnt <= 1'b0;
212
    bufferOutIndex <= 2'b00;
213
    RxBitsOut <= 2'b00;
214
    SIERxWEn <= 1'b0;
215
    bufferOutStMachCurrState <= `WAIT_BUFFER_NOT_EMPTY;
216
  end
217
  else begin
218
    case (bufferOutStMachCurrState)
219
      `WAIT_BUFFER_NOT_EMPTY:
220
      begin
221
        if (bufferCnt != 3'b000)
222
          bufferOutStMachCurrState <= `WAIT_SIE_RX_READY;
223
      end
224
      `WAIT_SIE_RX_READY:
225
      begin
226
        if (SIERxRdyIn == 1'b1)
227
        begin
228
          SIERxWEn <= 1'b1;
229
          bufferOutStMachCurrState <= `SIE_RX_WRITE;
230
          decBufferCnt <= 1'b1;
231
          bufferOutIndex <= bufferOutIndex + 1'b1;
232
          case (bufferOutIndex)
233
            2'b00 : begin RxBitsOut <= buffer0[1:0]; RxWireActive <= buffer0[2]; end
234
            2'b01 : begin RxBitsOut <= buffer1[1:0]; RxWireActive <= buffer1[2]; end
235
            2'b10 : begin RxBitsOut <= buffer2[1:0]; RxWireActive <= buffer2[2]; end
236
            2'b11 : begin RxBitsOut <= buffer3[1:0]; RxWireActive <= buffer3[2]; end
237
          endcase
238
        end
239
      end
240
      `SIE_RX_WRITE:
241
      begin
242
        SIERxWEn <= 1'b0;
243
        decBufferCnt <= 1'b0;
244
        bufferOutStMachCurrState <= `WAIT_BUFFER_NOT_EMPTY;
245
      end
246
    endcase
247
  end
248
end
249
 
250
//generate 'noActivityTimeOut' pulse if no tx or rx activity for RX_PACKET_TOUT USB bit periods
251
//'noActivityTimeOut'  pulse can only be generated when the host or slave getPacket
252
//process enables via 'noActivityTimeOutEnable' signal
253
//'noActivityTimeOut' pulse is used by host and slave getPacket processes to determine if 
254
//there has been a response time out.
255
always @(posedge clk) begin
256
  if (rst) begin
257
    timeOutCnt <= 16'h0000;
258
    noActivityTimeOut <= 1'b0;
259
  end
260
  else begin
261
    if (TxWireActiveDrive == 1'b1 || RxWireEdgeDetect == 1'b1 || noActivityTimeOutEnable == 1'b0)
262
      timeOutCnt <= 16'h0000;
263
    else
264
      timeOutCnt <= timeOutCnt + 1'b1;
265
    if ( (fullSpeedRate == 1'b1 && timeOutCnt == `RX_PACKET_TOUT * `FS_OVER_SAMPLE_RATE)
266
      || (fullSpeedRate == 1'b0 && timeOutCnt == `RX_PACKET_TOUT * `LS_OVER_SAMPLE_RATE) )
267
      noActivityTimeOut <= 1'b1;
268
    else
269
      noActivityTimeOut <= 1'b0;
270
  end
271
end
272
 
273
 
274
endmodule

powered by: WebSVN 2.1.0

© copyright 1999-2024 OpenCores.org, equivalent to Oliscience, all rights reserved. OpenCores®, registered trademark.