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[/] [openrisc/] [trunk/] [orpsocv2/] [bench/] [verilog/] [usbhostslave/] [processRxByte_simlib.v] - Blame information for rev 736

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2
// File        : ../RTL/serialInterfaceEngine/processRxByte.v
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// Generated   : 11/10/06 05:37:22
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// From        : ../RTL/serialInterfaceEngine/processRxByte.asf
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// By          : FSM2VHDL ver. 5.0.0.9
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//////////////////////////////////////////////////////////////////////
8
////                                                              ////
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//// processRxByte
10
////                                                              ////
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//// This file is part of the usbhostslave opencores effort.
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//// http://www.opencores.org/cores/usbhostslave/                 ////
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////                                                              ////
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//// Module Description:                                          ////
15
//// 
16
////                                                              ////
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//// To Do:                                                       ////
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//// 
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////                                                              ////
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//// Author(s):                                                   ////
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//// - Steve Fielding, sfielding@base2designs.com                 ////
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////                                                              ////
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//////////////////////////////////////////////////////////////////////
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////                                                              ////
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//// Copyright (C) 2004 Steve Fielding and OPENCORES.ORG          ////
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////                                                              ////
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//// This source file may be used and distributed without         ////
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//// restriction provided that this copyright statement is not    ////
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//// removed from the file and that any derivative work contains  ////
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//// the original copyright notice and the associated disclaimer. ////
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////                                                              ////
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//// This source file is free software; you can redistribute it   ////
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//// and/or modify it under the terms of the GNU Lesser General   ////
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//// Public License as published by the Free Software Foundation; ////
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//// either version 2.1 of the License, or (at your option) any   ////
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//// later version.                                               ////
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////                                                              ////
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//// This source is distributed in the hope that it will be       ////
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//// useful, but WITHOUT ANY WARRANTY; without even the implied   ////
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//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR      ////
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//// PURPOSE. See the GNU Lesser General Public License for more  ////
42
//// details.                                                     ////
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////                                                              ////
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//// You should have received a copy of the GNU Lesser General    ////
45
//// Public License along with this source; if not, download it   ////
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//// from http://www.opencores.org/lgpl.shtml                     ////
47
////                                                              ////
48
//////////////////////////////////////////////////////////////////////
49
//
50
`include "timescale.v"
51
`include "usbSerialInterfaceEngine_h.v"
52
`include "usbConstants_h.v"
53
 
54
module processRxByte_simlib (CRC16En, CRC16Result, CRC16UpdateRdy, CRC5En, CRC5Result, CRC5UpdateRdy, CRC5_8Bit, CRCData, RxByteIn, RxCtrlIn, RxCtrlOut, RxDataOutWEn, RxDataOut, clk, processRxByteRdy, processRxDataInWEn, rst, rstCRC);
55
input   [15:0] CRC16Result;
56
input   CRC16UpdateRdy;
57
input   [4:0] CRC5Result;
58
input   CRC5UpdateRdy;
59
input   [7:0] RxByteIn;
60
input   [7:0] RxCtrlIn;
61
input   clk;
62
input   processRxDataInWEn;
63
input   rst;
64
output  CRC16En;
65
output  CRC5En;
66
output  CRC5_8Bit;
67
output  [7:0] CRCData;
68
output  [7:0] RxCtrlOut;
69
output  RxDataOutWEn;
70
output  [7:0] RxDataOut;
71
output  processRxByteRdy;
72
output  rstCRC;
73
 
74
reg     CRC16En, next_CRC16En;
75
wire    [15:0] CRC16Result;
76
wire    CRC16UpdateRdy;
77
reg     CRC5En, next_CRC5En;
78
wire    [4:0] CRC5Result;
79
wire    CRC5UpdateRdy;
80
reg     CRC5_8Bit, next_CRC5_8Bit;
81
reg     [7:0] CRCData, next_CRCData;
82
wire    [7:0] RxByteIn;
83
wire    [7:0] RxCtrlIn;
84
reg     [7:0] RxCtrlOut, next_RxCtrlOut;
85
reg     RxDataOutWEn, next_RxDataOutWEn;
86
reg     [7:0] RxDataOut, next_RxDataOut;
87
wire    clk;
88
reg     processRxByteRdy, next_processRxByteRdy;
89
wire    processRxDataInWEn;
90
wire    rst;
91
reg     rstCRC, next_rstCRC;
92
 
93
// diagram signals declarations
94
reg  ACKRxed, next_ACKRxed;
95
reg  CRCError, next_CRCError;
96
reg  NAKRxed, next_NAKRxed;
97
reg  [2:0]RXByteStMachCurrState, next_RXByteStMachCurrState;
98
reg  [9:0]RXDataByteCnt, next_RXDataByteCnt;
99
reg  [7:0]RxByte, next_RxByte;
100
reg  [7:0]RxCtrl, next_RxCtrl;
101
reg  RxOverflow, next_RxOverflow;
102
reg  [7:0]RxStatus;
103
reg  RxTimeOut, next_RxTimeOut;
104
reg  Signal1, next_Signal1;
105
reg  bitStuffError, next_bitStuffError;
106
reg  dataSequence, next_dataSequence;
107
reg  stallRxed, next_stallRxed;
108
 
109
// BINARY ENCODED state machine: prRxByte
110
// State codes definitions:
111
`define CHK_ST 4'b0000
112
`define START_PRBY 4'b0001
113
`define WAIT_BYTE 4'b0010
114
`define IDLE_CHK_START 4'b0011
115
`define CHK_SYNC_DO 4'b0100
116
`define CHK_PID_DO_CHK 4'b0101
117
`define CHK_PID_FIRST_BYTE_PROC 4'b0110
118
`define HSHAKE_FIN 4'b0111
119
`define HSHAKE_CHK 4'b1000
120
`define TOKEN_CHK_STRM 4'b1001
121
`define TOKEN_FIN 4'b1010
122
`define DATA_FIN 4'b1011
123
`define DATA_CHK_STRM 4'b1100
124
`define TOKEN_WAIT_CRC 4'b1101
125
`define DATA_WAIT_CRC 4'b1110
126
 
127
reg [3:0] CurrState_prRxByte;
128
reg [3:0] NextState_prRxByte;
129
 
130
// Diagram actions (continuous assignments allowed only: assign ...)
131
 
132
always @
133
(next_CRCError or next_bitStuffError or
134
  next_RxOverflow or next_NAKRxed or
135
  next_stallRxed or next_ACKRxed or
136
  next_dataSequence)
137
begin
138
    RxStatus <=
139
    {1'b0, next_dataSequence,
140
    next_ACKRxed,
141
    next_stallRxed, next_NAKRxed,
142
    next_RxOverflow,
143
    next_bitStuffError, next_CRCError };
144
end
145
 
146
//--------------------------------------------------------------------
147
// Machine: prRxByte
148
//--------------------------------------------------------------------
149
//----------------------------------
150
// Next State Logic (combinatorial)
151
//----------------------------------
152
always @ (RxByteIn or RxCtrlIn or RxCtrl or RxStatus or RxByte or RXDataByteCnt or CRC16Result or CRC5Result or RXByteStMachCurrState or processRxDataInWEn or CRC16UpdateRdy or CRC5UpdateRdy or CRCError or bitStuffError or RxOverflow or RxTimeOut or NAKRxed or stallRxed or ACKRxed or dataSequence or RxDataOut or RxCtrlOut or RxDataOutWEn or rstCRC or CRCData or CRC5En or CRC5_8Bit or CRC16En or processRxByteRdy or CurrState_prRxByte)
153
begin : prRxByte_NextState
154
  NextState_prRxByte <= CurrState_prRxByte;
155
  // Set default values for outputs and signals
156
  next_RxByte <= RxByte;
157
  next_RxCtrl <= RxCtrl;
158
  next_RXByteStMachCurrState <= RXByteStMachCurrState;
159
  next_CRCError <= CRCError;
160
  next_bitStuffError <= bitStuffError;
161
  next_RxOverflow <= RxOverflow;
162
  next_RxTimeOut <= RxTimeOut;
163
  next_NAKRxed <= NAKRxed;
164
  next_stallRxed <= stallRxed;
165
  next_ACKRxed <= ACKRxed;
166
  next_dataSequence <= dataSequence;
167
  next_RxDataOut <= RxDataOut;
168
  next_RxCtrlOut <= RxCtrlOut;
169
  next_RxDataOutWEn <= RxDataOutWEn;
170
  next_rstCRC <= rstCRC;
171
  next_CRCData <= CRCData;
172
  next_CRC5En <= CRC5En;
173
  next_CRC5_8Bit <= CRC5_8Bit;
174
  next_CRC16En <= CRC16En;
175
  next_RXDataByteCnt <= RXDataByteCnt;
176
  next_processRxByteRdy <= processRxByteRdy;
177
  case (CurrState_prRxByte)
178
    `CHK_ST:
179
      if (RXByteStMachCurrState == `HS_BYTE_ST)
180
        NextState_prRxByte <= `HSHAKE_CHK;
181
      else if (RXByteStMachCurrState == `TOKEN_BYTE_ST)
182
        NextState_prRxByte <= `TOKEN_WAIT_CRC;
183
      else if (RXByteStMachCurrState == `DATA_BYTE_ST)
184
        NextState_prRxByte <= `DATA_WAIT_CRC;
185
      else if (RXByteStMachCurrState == `IDLE_BYTE_ST)
186
        NextState_prRxByte <= `IDLE_CHK_START;
187
      else if (RXByteStMachCurrState == `CHECK_SYNC_ST)
188
        NextState_prRxByte <= `CHK_SYNC_DO;
189
      else if (RXByteStMachCurrState == `CHECK_PID_ST)
190
        NextState_prRxByte <= `CHK_PID_DO_CHK;
191
    `START_PRBY:
192
    begin
193
      next_RxByte <= 8'h00;
194
      next_RxCtrl <= 8'h00;
195
      next_RXByteStMachCurrState <= `IDLE_BYTE_ST;
196
      next_CRCError <= 1'b0;
197
      next_bitStuffError <= 1'b0;
198
      next_RxOverflow <= 1'b0;
199
      next_RxTimeOut <= 1'b0;
200
      next_NAKRxed <= 1'b0;
201
      next_stallRxed <= 1'b0;
202
      next_ACKRxed <= 1'b0;
203
      next_dataSequence <= 1'b0;
204
      next_RxDataOut <= 8'h00;
205
      next_RxCtrlOut <= 8'h00;
206
      next_RxDataOutWEn <= 1'b0;
207
      next_rstCRC <= 1'b0;
208
      next_CRCData <= 8'h00;
209
      next_CRC5En <= 1'b0;
210
      next_CRC5_8Bit <= 1'b0;
211
      next_CRC16En <= 1'b0;
212
      next_RXDataByteCnt <= 10'h00;
213
      next_processRxByteRdy <= 1'b1;
214
      NextState_prRxByte <= `WAIT_BYTE;
215
    end
216
    `WAIT_BYTE:
217
      if (processRxDataInWEn == 1'b1)
218
      begin
219
        NextState_prRxByte <= `CHK_ST;
220
        next_RxByte <= RxByteIn;
221
        next_RxCtrl <= RxCtrlIn;
222
        next_processRxByteRdy <= 1'b0;
223
      end
224
    `HSHAKE_FIN:
225
    begin
226
      next_RxDataOutWEn <= 1'b0;
227
      next_RXByteStMachCurrState <= `IDLE_BYTE_ST;
228
      NextState_prRxByte <= `WAIT_BYTE;
229
      next_processRxByteRdy <= 1'b1;
230
    end
231
    `HSHAKE_CHK:
232
    begin
233
      NextState_prRxByte <= `HSHAKE_FIN;
234
      if (RxCtrl != `DATA_STOP) //If more than PID rxed, then report error
235
        next_RxOverflow <= 1'b1;
236
      next_RxDataOut <= RxStatus;
237
      next_RxCtrlOut <= `RX_PACKET_STOP;
238
      next_RxDataOutWEn <= 1'b1;
239
    end
240
    `CHK_PID_DO_CHK:
241
      if ((RxByte[7:4] ^ RxByte[3:0] ) != 4'hf)
242
      begin
243
        NextState_prRxByte <= `WAIT_BYTE;
244
        next_RXByteStMachCurrState <= `IDLE_BYTE_ST;
245
        next_processRxByteRdy <= 1'b1;
246
      end
247
      else
248
      begin
249
        NextState_prRxByte <= `CHK_PID_FIRST_BYTE_PROC;
250
        next_CRCError <= 1'b0;
251
        next_bitStuffError <= 1'b0;
252
        next_RxOverflow <= 1'b0;
253
        next_NAKRxed <= 1'b0;
254
        next_stallRxed <= 1'b0;
255
        next_ACKRxed <= 1'b0;
256
        next_dataSequence <= 1'b0;
257
        next_RxTimeOut <= 1'b0;
258
        next_RXDataByteCnt <= 10'h000;
259
        next_RxDataOut <= RxByte;
260
        next_RxCtrlOut <= `RX_PACKET_START;
261
        next_RxDataOutWEn <= 1'b1;
262
        next_rstCRC <= 1'b1;
263
      end
264
    `CHK_PID_FIRST_BYTE_PROC:
265
    begin
266
      next_rstCRC <= 1'b0;
267
      next_RxDataOutWEn <= 1'b0;
268
      case (RxByte[1:0] )
269
          `SPECIAL:                              //Special PID.
270
          next_RXByteStMachCurrState <= `IDLE_BYTE_ST;
271
          `TOKEN:                                //Token PID
272
          begin
273
          next_RXByteStMachCurrState <= `TOKEN_BYTE_ST;
274
          next_RXDataByteCnt <= 0;
275
          end
276
          `HANDSHAKE:                            //Handshake PID
277
          begin
278
              case (RxByte[3:2] )
279
                  2'b00:
280
              next_ACKRxed <= 1'b1;
281
                  2'b10:
282
              next_NAKRxed <= 1'b1;
283
                  2'b11:
284
              next_stallRxed <= 1'b1;
285
                  default:
286
                  begin
287
                      $display ("Invalid Handshake PID detected in ProcessRXByte\n");
288
                  end
289
              endcase
290
          next_RXByteStMachCurrState <= `HS_BYTE_ST;
291
          end
292
          `DATA:                                  //Data PID
293
          begin
294
              case (RxByte[3:2] )
295
                  2'b00:
296
              next_dataSequence <= 1'b0;
297
                  2'b10:
298
              next_dataSequence <= 1'b1;
299
                  default:
300
                      $display ("Invalid DATA PID detected in ProcessRXByte\n");
301
              endcase
302
          next_RXByteStMachCurrState <= `DATA_BYTE_ST;
303
          next_RXDataByteCnt <= 0;
304
          end
305
      endcase
306
      NextState_prRxByte <= `WAIT_BYTE;
307
      next_processRxByteRdy <= 1'b1;
308
    end
309
    `DATA_FIN:
310
    begin
311
      next_CRC16En <= 1'b0;
312
      next_RxDataOutWEn <= 1'b0;
313
      NextState_prRxByte <= `WAIT_BYTE;
314
      next_processRxByteRdy <= 1'b1;
315
    end
316
    `DATA_CHK_STRM:
317
    begin
318
      next_RXDataByteCnt <= RXDataByteCnt + 1'b1;
319
      case (RxCtrl)
320
          `DATA_STOP:
321
          begin
322
              if (CRC16Result != 16'hb001)
323
            next_CRCError <= 1'b1;
324
          next_RxDataOut <= RxStatus;
325
          next_RxCtrlOut <= `RX_PACKET_STOP;
326
          next_RXByteStMachCurrState <= `IDLE_BYTE_ST;
327
          end
328
          `DATA_BIT_STUFF_ERROR:
329
          begin
330
          next_bitStuffError <= 1'b1;
331
          next_RxDataOut <= RxStatus;
332
          next_RxCtrlOut <= `RX_PACKET_STOP;
333
          next_RXByteStMachCurrState <= `IDLE_BYTE_ST;
334
          end
335
          `DATA_STREAM:
336
          begin
337
          next_RxDataOut <= RxByte;
338
          next_RxCtrlOut <= `RX_PACKET_STREAM;
339
          next_CRCData <= RxByte;
340
          next_CRC16En <= 1'b1;
341
          end
342
          default:
343
          begin
344
          next_RXByteStMachCurrState <= `IDLE_BYTE_ST;
345
          end
346
      endcase
347
      next_RxDataOutWEn <= 1'b1;
348
      NextState_prRxByte <= `DATA_FIN;
349
    end
350
    `DATA_WAIT_CRC:
351
      if (CRC16UpdateRdy == 1'b1)
352
        NextState_prRxByte <= `DATA_CHK_STRM;
353
    `TOKEN_CHK_STRM:
354
    begin
355
      next_RXDataByteCnt <= RXDataByteCnt + 1'b1;
356
      case (RxCtrl)
357
          `DATA_STOP:
358
          begin
359
              if (CRC5Result != 5'h6)
360
            next_CRCError <= 1'b1;
361
          next_RxDataOut <= RxStatus;
362
          next_RxCtrlOut <= `RX_PACKET_STOP;
363
          next_RXByteStMachCurrState <= `IDLE_BYTE_ST;
364
          end
365
          `DATA_BIT_STUFF_ERROR:
366
          begin
367
          next_bitStuffError <= 1'b1;
368
          next_RxDataOut <= RxStatus;
369
          next_RxCtrlOut <= `RX_PACKET_STOP;
370
          next_RXByteStMachCurrState <= `IDLE_BYTE_ST;
371
          end
372
          `DATA_STREAM:
373
          begin
374
              if (RXDataByteCnt > 10'h2)
375
              begin
376
            next_RxOverflow <= 1'b1;
377
            next_RxDataOut <= RxStatus;
378
            next_RxCtrlOut <= `RX_PACKET_STOP;
379
            next_RXByteStMachCurrState <= `IDLE_BYTE_ST;
380
              end
381
              else
382
              begin
383
            next_RxDataOut <= RxByte;
384
            next_RxCtrlOut <= `RX_PACKET_STREAM;
385
            next_CRCData <= RxByte;
386
            next_CRC5_8Bit <= 1'b1;
387
            next_CRC5En <= 1'b1;
388
              end
389
          end
390
          default:
391
          begin
392
          next_RXByteStMachCurrState <= `IDLE_BYTE_ST;
393
          end
394
      endcase
395
      next_RxDataOutWEn <= 1'b1;
396
      NextState_prRxByte <= `TOKEN_FIN;
397
    end
398
    `TOKEN_FIN:
399
    begin
400
      next_CRC5En <= 1'b0;
401
      next_RxDataOutWEn <= 1'b0;
402
      NextState_prRxByte <= `WAIT_BYTE;
403
      next_processRxByteRdy <= 1'b1;
404
    end
405
    `TOKEN_WAIT_CRC:
406
      if (CRC5UpdateRdy == 1'b1)
407
        NextState_prRxByte <= `TOKEN_CHK_STRM;
408
    `CHK_SYNC_DO:
409
    begin
410
      if (RxByte == `SYNC_BYTE)
411
        next_RXByteStMachCurrState <= `CHECK_PID_ST;
412
      else
413
        next_RXByteStMachCurrState <= `IDLE_BYTE_ST;
414
      NextState_prRxByte <= `WAIT_BYTE;
415
      next_processRxByteRdy <= 1'b1;
416
    end
417
    `IDLE_CHK_START:
418
    begin
419
      if (RxCtrl == `DATA_START)
420
        next_RXByteStMachCurrState <= `CHECK_SYNC_ST;
421
      NextState_prRxByte <= `WAIT_BYTE;
422
      next_processRxByteRdy <= 1'b1;
423
    end
424
  endcase
425
end
426
 
427
//----------------------------------
428
// Current State Logic (sequential)
429
//----------------------------------
430
always @ (posedge clk)
431
begin : prRxByte_CurrentState
432
  if (rst)
433
    CurrState_prRxByte <= `START_PRBY;
434
  else
435
    CurrState_prRxByte <= NextState_prRxByte;
436
end
437
 
438
//----------------------------------
439
// Registered outputs logic
440
//----------------------------------
441
always @ (posedge clk)
442
begin : prRxByte_RegOutput
443
  if (rst)
444
  begin
445
    RxByte <= 8'h00;
446
    RxCtrl <= 8'h00;
447
    RXByteStMachCurrState <= `IDLE_BYTE_ST;
448
    CRCError <= 1'b0;
449
    bitStuffError <= 1'b0;
450
    RxOverflow <= 1'b0;
451
    RxTimeOut <= 1'b0;
452
    NAKRxed <= 1'b0;
453
    stallRxed <= 1'b0;
454
    ACKRxed <= 1'b0;
455
    dataSequence <= 1'b0;
456
    RXDataByteCnt <= 10'h00;
457
    RxDataOut <= 8'h00;
458
    RxCtrlOut <= 8'h00;
459
    RxDataOutWEn <= 1'b0;
460
    rstCRC <= 1'b0;
461
    CRCData <= 8'h00;
462
    CRC5En <= 1'b0;
463
    CRC5_8Bit <= 1'b0;
464
    CRC16En <= 1'b0;
465
    processRxByteRdy <= 1'b1;
466
  end
467
  else
468
  begin
469
    RxByte <= next_RxByte;
470
    RxCtrl <= next_RxCtrl;
471
    RXByteStMachCurrState <= next_RXByteStMachCurrState;
472
    CRCError <= next_CRCError;
473
    bitStuffError <= next_bitStuffError;
474
    RxOverflow <= next_RxOverflow;
475
    RxTimeOut <= next_RxTimeOut;
476
    NAKRxed <= next_NAKRxed;
477
    stallRxed <= next_stallRxed;
478
    ACKRxed <= next_ACKRxed;
479
    dataSequence <= next_dataSequence;
480
    RXDataByteCnt <= next_RXDataByteCnt;
481
    RxDataOut <= next_RxDataOut;
482
    RxCtrlOut <= next_RxCtrlOut;
483
    RxDataOutWEn <= next_RxDataOutWEn;
484
    rstCRC <= next_rstCRC;
485
    CRCData <= next_CRCData;
486
    CRC5En <= next_CRC5En;
487
    CRC5_8Bit <= next_CRC5_8Bit;
488
    CRC16En <= next_CRC16En;
489
    processRxByteRdy <= next_processRxByteRdy;
490
  end
491
end
492
 
493
endmodule

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