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[/] [openrisc/] [trunk/] [orpsocv2/] [bench/] [verilog/] [usbhostslave/] [slavecontroller_simlib.v] - Blame information for rev 408

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1 408 julius 
 
2 
// File        : ../RTL/slaveController/slavecontroller.v
3 
// Generated   : 11/10/06 05:37:25
4 
// From        : ../RTL/slaveController/slavecontroller.asf
5 
// By          : FSM2VHDL ver. 5.0.0.9
6 
 
7 
//////////////////////////////////////////////////////////////////////
8 
////                                                              ////
9 
//// slaveController
10 
////                                                              ////
11 
//// This file is part of the usbhostslave opencores effort.
12 
//// http://www.opencores.org/cores/usbhostslave/                 ////
13 
////                                                              ////
14 
//// Module Description:                                          ////
15 
////
16 
////                                                              ////
17 
//// To Do:                                                       ////
18 
////
19 
////                                                              ////
20 
//// Author(s):                                                   ////
21 
//// - Steve Fielding, sfielding@base2designs.com                 ////
22 
////                                                              ////
23 
//////////////////////////////////////////////////////////////////////
24 
////                                                              ////
25 
//// Copyright (C) 2004 Steve Fielding and OPENCORES.ORG          ////
26 
////                                                              ////
27 
//// This source file may be used and distributed without         ////
28 
//// restriction provided that this copyright statement is not    ////
29 
//// removed from the file and that any derivative work contains  ////
30 
//// the original copyright notice and the associated disclaimer. ////
31 
////                                                              ////
32 
//// This source file is free software; you can redistribute it   ////
33 
//// and/or modify it under the terms of the GNU Lesser General   ////
34 
//// Public License as published by the Free Software Foundation; ////
35 
//// either version 2.1 of the License, or (at your option) any   ////
36 
//// later version.                                               ////
37 
////                                                              ////
38 
//// This source is distributed in the hope that it will be       ////
39 
//// useful, but WITHOUT ANY WARRANTY; without even the implied   ////
40 
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR      ////
41 
//// PURPOSE. See the GNU Lesser General Public License for more  ////
42 
//// details.                                                     ////
43 
////                                                              ////
44 
//// You should have received a copy of the GNU Lesser General    ////
45 
//// Public License along with this source; if not, download it   ////
46 
//// from http://www.opencores.org/lgpl.shtml                     ////
47 
////                                                              ////
48 
//////////////////////////////////////////////////////////////////////
49 
//
50 
`include "timescale.v"
51 
`include "usbSerialInterfaceEngine_h.v"
52 
`include "usbSlaveControl_h.v"
53 
`include "usbConstants_h.v"
54 
 
55 
 
56 
module slavecontroller_simlib (CRCError, NAKSent, RxByte, RxDataWEn, RxOverflow, RxStatus, RxTimeOut, SCGlobalEn, SOFRxed, USBEndPControlReg, USBEndPNakTransTypeReg, USBEndPTransTypeReg, USBEndP, USBTgtAddress, bitStuffError, clk, clrEPRdy, endPMuxErrorsWEn, endPointReadyToGetPkt, frameNum, getPacketREn, getPacketRdy, rst, sendPacketPID, sendPacketRdy, sendPacketWEn, stallSent, transDone);
57 
input   CRCError;
58 
input   [7:0] RxByte;
59 
input   RxDataWEn;
60 
input   RxOverflow;
61 
input   [7:0] RxStatus;
62 
input   RxTimeOut;
63 
input   SCGlobalEn;
64 
input   [4:0] USBEndPControlReg;
65 
input   [6:0] USBTgtAddress;
66 
input   bitStuffError;
67 
input   clk;
68 
input   getPacketRdy;
69 
input   rst;
70 
input   sendPacketRdy;
71 
output  NAKSent;
72 
output  SOFRxed;
73 
output  [1:0] USBEndPNakTransTypeReg;
74 
output  [1:0] USBEndPTransTypeReg;
75 
output  [3:0] USBEndP;
76 
output  clrEPRdy;
77 
output  endPMuxErrorsWEn;
78 
output  endPointReadyToGetPkt;
79 
output  [10:0] frameNum;
80 
output  getPacketREn;
81 
output  [3:0] sendPacketPID;
82 
output  sendPacketWEn;
83 
output  stallSent;
84 
output  transDone;
85 
 
86 
wire    CRCError;
87 
reg     NAKSent, next_NAKSent;
88 
wire    [7:0] RxByte;
89 
wire    RxDataWEn;
90 
wire    RxOverflow;
91 
wire    [7:0] RxStatus;
92 
wire    RxTimeOut;
93 
wire    SCGlobalEn;
94 
reg     SOFRxed, next_SOFRxed;
95 
wire    [4:0] USBEndPControlReg;
96 
reg     [1:0] USBEndPNakTransTypeReg, next_USBEndPNakTransTypeReg;
97 
reg     [1:0] USBEndPTransTypeReg, next_USBEndPTransTypeReg;
98 
reg     [3:0] USBEndP, next_USBEndP;
99 
wire    [6:0] USBTgtAddress;
100 
wire    bitStuffError;
101 
wire    clk;
102 
reg     clrEPRdy, next_clrEPRdy;
103 
reg     endPMuxErrorsWEn, next_endPMuxErrorsWEn;
104 
reg     endPointReadyToGetPkt, next_endPointReadyToGetPkt;
105 
reg     [10:0] frameNum, next_frameNum;
106 
reg     getPacketREn, next_getPacketREn;
107 
wire    getPacketRdy;
108 
wire    rst;
109 
reg     [3:0] sendPacketPID, next_sendPacketPID;
110 
wire    sendPacketRdy;
111 
reg     sendPacketWEn, next_sendPacketWEn;
112 
reg     stallSent, next_stallSent;
113 
reg     transDone, next_transDone;
114 
 
115 
// diagram signals declarations
116 
reg  [7:0]PIDByte, next_PIDByte;
117 
reg  [6:0]USBAddress, next_USBAddress;
118 
reg  [4:0]USBEndPControlRegCopy, next_USBEndPControlRegCopy;
119 
reg  [7:0]addrEndPTemp, next_addrEndPTemp;
120 
reg  [7:0]endpCRCTemp, next_endpCRCTemp;
121 
reg  [1:0]tempUSBEndPTransTypeReg, next_tempUSBEndPTransTypeReg;
122 
 
123 
// BINARY ENCODED state machine: slvCntrl
124 
// State codes definitions:
125 
`define WAIT_RX1 5'b00000
126 
`define FIN_SC 5'b00001
127 
`define GET_TOKEN_WAIT_CRC 5'b00010
128 
`define GET_TOKEN_WAIT_ADDR 5'b00011
129 
`define GET_TOKEN_WAIT_STOP 5'b00100
130 
`define CHK_PID 5'b00101
131 
`define GET_TOKEN_CHK_SOF 5'b00110
132 
`define PID_ERROR 5'b00111
133 
`define CHK_RDY 5'b01000
134 
`define IN_NAK_STALL 5'b01001
135 
`define IN_CHK_RDY 5'b01010
136 
`define SETUP_OUT_CHK 5'b01011
137 
`define SETUP_OUT_SEND 5'b01100
138 
`define SETUP_OUT_GET_PKT 5'b01101
139 
`define START_S1 5'b01110
140 
`define GET_TOKEN_DELAY 5'b01111
141 
`define GET_TOKEN_CHK_ADDR 5'b10000
142 
`define IN_RESP_GET_RESP 5'b10001
143 
`define IN_RESP_DATA 5'b10010
144 
`define IN_RESP_CHK_ISO 5'b10011
145 
 
146 
reg [4:0] CurrState_slvCntrl;
147 
reg [4:0] NextState_slvCntrl;
148 
 
149 
 
150 
//--------------------------------------------------------------------
151 
// Machine: slvCntrl
152 
//--------------------------------------------------------------------
153 
//----------------------------------
154 
// Next State Logic (combinatorial)
155 
//----------------------------------
156 
always @ (RxByte or tempUSBEndPTransTypeReg or endpCRCTemp or addrEndPTemp or USBEndPControlReg or RxDataWEn or RxStatus or PIDByte or USBEndPControlRegCopy or NAKSent or sendPacketRdy or getPacketRdy or CRCError or bitStuffError or RxOverflow or RxTimeOut or USBEndP or USBAddress or USBTgtAddress or SCGlobalEn or stallSent or SOFRxed or transDone or clrEPRdy or endPMuxErrorsWEn or getPacketREn or sendPacketWEn or sendPacketPID or USBEndPTransTypeReg or USBEndPNakTransTypeReg or frameNum or endPointReadyToGetPkt or CurrState_slvCntrl)
157 
begin : slvCntrl_NextState
158 
  NextState_slvCntrl <= CurrState_slvCntrl;
159 
  // Set default values for outputs and signals
160 
  next_stallSent <= stallSent;
161 
  next_NAKSent <= NAKSent;
162 
  next_SOFRxed <= SOFRxed;
163 
  next_PIDByte <= PIDByte;
164 
  next_transDone <= transDone;
165 
  next_clrEPRdy <= clrEPRdy;
166 
  next_endPMuxErrorsWEn <= endPMuxErrorsWEn;
167 
  next_tempUSBEndPTransTypeReg <= tempUSBEndPTransTypeReg;
168 
  next_getPacketREn <= getPacketREn;
169 
  next_sendPacketWEn <= sendPacketWEn;
170 
  next_sendPacketPID <= sendPacketPID;
171 
  next_USBEndPTransTypeReg <= USBEndPTransTypeReg;
172 
  next_USBEndPNakTransTypeReg <= USBEndPNakTransTypeReg;
173 
  next_endpCRCTemp <= endpCRCTemp;
174 
  next_addrEndPTemp <= addrEndPTemp;
175 
  next_frameNum <= frameNum;
176 
  next_USBAddress <= USBAddress;
177 
  next_USBEndP <= USBEndP;
178 
  next_USBEndPControlRegCopy <= USBEndPControlRegCopy;
179 
  next_endPointReadyToGetPkt <= endPointReadyToGetPkt;
180 
  case (CurrState_slvCntrl)
181 
    `WAIT_RX1:
182 
    begin
183 
      next_stallSent <= 1'b0;
184 
      next_NAKSent <= 1'b0;
185 
      next_SOFRxed <= 1'b0;
186 
      if (RxDataWEn == 1'b1 &&
187 
        RxStatus == `RX_PACKET_START &&
188 
        RxByte[1:0] == `TOKEN)
189 
      begin
190 
        NextState_slvCntrl <= `GET_TOKEN_WAIT_ADDR;
191 
        next_PIDByte <= RxByte;
192 
      end
193 
    end
194 
    `FIN_SC:
195 
    begin
196 
      next_transDone <= 1'b0;
197 
      next_clrEPRdy <= 1'b0;
198 
      next_endPMuxErrorsWEn <= 1'b0;
199 
      NextState_slvCntrl <= `WAIT_RX1;
200 
    end
201 
    `CHK_PID:
202 
      if (PIDByte[3:0] == `SETUP)
203 
      begin
204 
        NextState_slvCntrl <= `SETUP_OUT_GET_PKT;
205 
        next_tempUSBEndPTransTypeReg <= `SC_SETUP_TRANS;
206 
        next_getPacketREn <= 1'b1;
207 
      end
208 
      else if (PIDByte[3:0] == `OUT)
209 
      begin
210 
        NextState_slvCntrl <= `SETUP_OUT_GET_PKT;
211 
        next_tempUSBEndPTransTypeReg <= `SC_OUTDATA_TRANS;
212 
        next_getPacketREn <= 1'b1;
213 
      end
214 
      else if ((PIDByte[3:0] == `IN) && (USBEndPControlRegCopy[`ENDPOINT_ISO_ENABLE_BIT] == 1'b0))
215 
      begin
216 
        NextState_slvCntrl <= `IN_CHK_RDY;
217 
        next_tempUSBEndPTransTypeReg <= `SC_IN_TRANS;
218 
      end
219 
      else if (((PIDByte[3:0] == `IN) && (USBEndPControlRegCopy [`ENDPOINT_READY_BIT] == 1'b1)) && (USBEndPControlRegCopy [`ENDPOINT_OUTDATA_SEQUENCE_BIT] == 1'b0))
220 
      begin
221 
        NextState_slvCntrl <= `IN_RESP_DATA;
222 
        next_tempUSBEndPTransTypeReg <= `SC_IN_TRANS;
223 
        next_sendPacketWEn <= 1'b1;
224 
        next_sendPacketPID <= `DATA0;
225 
      end
226 
      else if ((PIDByte[3:0] == `IN) && (USBEndPControlRegCopy [`ENDPOINT_READY_BIT] == 1'b1))
227 
      begin
228 
        NextState_slvCntrl <= `IN_RESP_DATA;
229 
        next_tempUSBEndPTransTypeReg <= `SC_IN_TRANS;
230 
        next_sendPacketWEn <= 1'b1;
231 
        next_sendPacketPID <= `DATA1;
232 
      end
233 
      else if (PIDByte[3:0] == `IN)
234 
      begin
235 
        NextState_slvCntrl <= `CHK_RDY;
236 
        next_tempUSBEndPTransTypeReg <= `SC_IN_TRANS;
237 
      end
238 
      else
239 
        NextState_slvCntrl <= `PID_ERROR;
240 
    `PID_ERROR:
241 
      NextState_slvCntrl <= `WAIT_RX1;
242 
    `CHK_RDY:
243 
      if (USBEndPControlRegCopy [`ENDPOINT_READY_BIT] == 1'b1)
244 
      begin
245 
        NextState_slvCntrl <= `FIN_SC;
246 
        next_transDone <= 1'b1;
247 
        next_clrEPRdy <= 1'b1;
248 
        next_USBEndPTransTypeReg <= tempUSBEndPTransTypeReg;
249 
        next_endPMuxErrorsWEn <= 1'b1;
250 
      end
251 
      else if (NAKSent == 1'b1)
252 
      begin
253 
        NextState_slvCntrl <= `FIN_SC;
254 
        next_USBEndPNakTransTypeReg <= tempUSBEndPTransTypeReg;
255 
        next_endPMuxErrorsWEn <= 1'b1;
256 
      end
257 
      else
258 
        NextState_slvCntrl <= `FIN_SC;
259 
    `SETUP_OUT_CHK:
260 
      if (USBEndPControlRegCopy [`ENDPOINT_READY_BIT] == 1'b0)
261 
      begin
262 
        NextState_slvCntrl <= `SETUP_OUT_SEND;
263 
        next_sendPacketWEn <= 1'b1;
264 
        next_sendPacketPID <= `NAK;
265 
        next_NAKSent <= 1'b1;
266 
      end
267 
      else if (USBEndPControlRegCopy [`ENDPOINT_SEND_STALL_BIT] == 1'b1)
268 
      begin
269 
        NextState_slvCntrl <= `SETUP_OUT_SEND;
270 
        next_sendPacketWEn <= 1'b1;
271 
        next_sendPacketPID <= `STALL;
272 
        next_stallSent <= 1'b1;
273 
      end
274 
      else
275 
      begin
276 
        NextState_slvCntrl <= `SETUP_OUT_SEND;
277 
        next_sendPacketWEn <= 1'b1;
278 
        next_sendPacketPID <= `ACK;
279 
      end
280 
    `SETUP_OUT_SEND:
281 
    begin
282 
      next_sendPacketWEn <= 1'b0;
283 
      if (sendPacketRdy == 1'b1)
284 
        NextState_slvCntrl <= `CHK_RDY;
285 
    end
286 
    `SETUP_OUT_GET_PKT:
287 
    begin
288 
      next_getPacketREn <= 1'b0;
289 
      if ((getPacketRdy == 1'b1) && (USBEndPControlRegCopy [`ENDPOINT_ISO_ENABLE_BIT] == 1'b1))
290 
        NextState_slvCntrl <= `CHK_RDY;
291 
      else if ((getPacketRdy == 1'b1) && (CRCError == 1'b0 &&
292 
        bitStuffError == 1'b0 &&
293 
        RxOverflow == 1'b0 &&
294 
        RxTimeOut == 1'b0))
295 
        NextState_slvCntrl <= `SETUP_OUT_CHK;
296 
      else if (getPacketRdy == 1'b1)
297 
        NextState_slvCntrl <= `CHK_RDY;
298 
    end
299 
    `IN_NAK_STALL:
300 
    begin
301 
      next_sendPacketWEn <= 1'b0;
302 
      if (sendPacketRdy == 1'b1)
303 
        NextState_slvCntrl <= `CHK_RDY;
304 
    end
305 
    `IN_CHK_RDY:
306 
      if (USBEndPControlRegCopy [`ENDPOINT_READY_BIT] == 1'b0)
307 
      begin
308 
        NextState_slvCntrl <= `IN_NAK_STALL;
309 
        next_sendPacketWEn <= 1'b1;
310 
        next_sendPacketPID <= `NAK;
311 
        next_NAKSent <= 1'b1;
312 
      end
313 
      else if (USBEndPControlRegCopy [`ENDPOINT_SEND_STALL_BIT] == 1'b1)
314 
      begin
315 
        NextState_slvCntrl <= `IN_NAK_STALL;
316 
        next_sendPacketWEn <= 1'b1;
317 
        next_sendPacketPID <= `STALL;
318 
        next_stallSent <= 1'b1;
319 
      end
320 
      else if (USBEndPControlRegCopy [`ENDPOINT_OUTDATA_SEQUENCE_BIT] == 1'b0)
321 
      begin
322 
        NextState_slvCntrl <= `IN_RESP_DATA;
323 
        next_sendPacketWEn <= 1'b1;
324 
        next_sendPacketPID <= `DATA0;
325 
      end
326 
      else
327 
      begin
328 
        NextState_slvCntrl <= `IN_RESP_DATA;
329 
        next_sendPacketWEn <= 1'b1;
330 
        next_sendPacketPID <= `DATA1;
331 
      end
332 
    `IN_RESP_GET_RESP:
333 
    begin
334 
      next_getPacketREn <= 1'b0;
335 
      if (getPacketRdy == 1'b1)
336 
        NextState_slvCntrl <= `CHK_RDY;
337 
    end
338 
    `IN_RESP_DATA:
339 
    begin
340 
      next_sendPacketWEn <= 1'b0;
341 
      if (sendPacketRdy == 1'b1)
342 
        NextState_slvCntrl <= `IN_RESP_CHK_ISO;
343 
    end
344 
    `IN_RESP_CHK_ISO:
345 
      if (USBEndPControlRegCopy [`ENDPOINT_ISO_ENABLE_BIT] == 1'b1)
346 
        NextState_slvCntrl <= `CHK_RDY;
347 
      else
348 
      begin
349 
        NextState_slvCntrl <= `IN_RESP_GET_RESP;
350 
        next_getPacketREn <= 1'b1;
351 
      end
352 
    `START_S1:
353 
      NextState_slvCntrl <= `WAIT_RX1;
354 
    `GET_TOKEN_WAIT_CRC:
355 
      if (RxDataWEn == 1'b1 &&
356 
        RxStatus == `RX_PACKET_STREAM)
357 
      begin
358 
        NextState_slvCntrl <= `GET_TOKEN_WAIT_STOP;
359 
        next_endpCRCTemp <= RxByte;
360 
      end
361 
      else if (RxDataWEn == 1'b1 &&
362 
        RxStatus != `RX_PACKET_STREAM)
363 
        NextState_slvCntrl <= `WAIT_RX1;
364 
    `GET_TOKEN_WAIT_ADDR:
365 
      if (RxDataWEn == 1'b1 &&
366 
        RxStatus == `RX_PACKET_STREAM)
367 
      begin
368 
        NextState_slvCntrl <= `GET_TOKEN_WAIT_CRC;
369 
        next_addrEndPTemp <= RxByte;
370 
      end
371 
      else if (RxDataWEn == 1'b1 &&
372 
        RxStatus != `RX_PACKET_STREAM)
373 
        NextState_slvCntrl <= `WAIT_RX1;
374 
    `GET_TOKEN_WAIT_STOP:
375 
      if ((RxDataWEn == 1'b1) && (RxByte[`CRC_ERROR_BIT] == 1'b0 &&
376 
        RxByte[`BIT_STUFF_ERROR_BIT] == 1'b0 &&
377 
        RxByte [`RX_OVERFLOW_BIT] == 1'b0))
378 
        NextState_slvCntrl <= `GET_TOKEN_CHK_SOF;
379 
      else if (RxDataWEn == 1'b1)
380 
        NextState_slvCntrl <= `WAIT_RX1;
381 
    `GET_TOKEN_CHK_SOF:
382 
      if (PIDByte[3:0] == `SOF)
383 
      begin
384 
        NextState_slvCntrl <= `WAIT_RX1;
385 
        next_frameNum <= {endpCRCTemp[2:0],addrEndPTemp};
386 
        next_SOFRxed <= 1'b1;
387 
      end
388 
      else
389 
      begin
390 
        NextState_slvCntrl <= `GET_TOKEN_DELAY;
391 
        next_USBAddress <= addrEndPTemp[6:0];
392 
        next_USBEndP <= { endpCRCTemp[2:0], addrEndPTemp[7]};
393 
      end
394 
    `GET_TOKEN_DELAY:    // Insert delay to allow USBEndP etc to update
395 
      NextState_slvCntrl <= `GET_TOKEN_CHK_ADDR;
396 
    `GET_TOKEN_CHK_ADDR:
397 
      if (USBEndP < `NUM_OF_ENDPOINTS  &&
398 
        USBAddress == USBTgtAddress &&
399 
        SCGlobalEn == 1'b1 &&
400 
        USBEndPControlReg[`ENDPOINT_ENABLE_BIT] == 1'b1)
401 
      begin
402 
        NextState_slvCntrl <= `CHK_PID;
403 
        next_USBEndPControlRegCopy <= USBEndPControlReg;
404 
        next_endPointReadyToGetPkt <= USBEndPControlReg [`ENDPOINT_READY_BIT];
405 
      end
406 
      else
407 
        NextState_slvCntrl <= `WAIT_RX1;
408 
  endcase
409 
end
410 
 
411 
//----------------------------------
412 
// Current State Logic (sequential)
413 
//----------------------------------
414 
always @ (posedge clk)
415 
begin : slvCntrl_CurrentState
416 
  if (rst)
417 
    CurrState_slvCntrl <= `START_S1;
418 
  else
419 
    CurrState_slvCntrl <= NextState_slvCntrl;
420 
end
421 
 
422 
//----------------------------------
423 
// Registered outputs logic
424 
//----------------------------------
425 
always @ (posedge clk)
426 
begin : slvCntrl_RegOutput
427 
  if (rst)
428 
  begin
429 
    tempUSBEndPTransTypeReg <= 2'b00;
430 
    addrEndPTemp <= 8'h00;
431 
    endpCRCTemp <= 8'h00;
432 
    USBAddress <= 7'b0000000;
433 
    PIDByte <= 8'h00;
434 
    USBEndPControlRegCopy <= 5'b00000;
435 
    transDone <= 1'b0;
436 
    getPacketREn <= 1'b0;
437 
    sendPacketPID <= 4'b0;
438 
    sendPacketWEn <= 1'b0;
439 
    clrEPRdy <= 1'b0;
440 
    USBEndPTransTypeReg <= 2'b00;
441 
    USBEndPNakTransTypeReg <= 2'b00;
442 
    NAKSent <= 1'b0;
443 
    stallSent <= 1'b0;
444 
    SOFRxed <= 1'b0;
445 
    endPMuxErrorsWEn <= 1'b0;
446 
    frameNum <= 11'b00000000000;
447 
    USBEndP <= 4'h0;
448 
    endPointReadyToGetPkt <= 1'b0;
449 
  end
450 
  else
451 
  begin
452 
    tempUSBEndPTransTypeReg <= next_tempUSBEndPTransTypeReg;
453 
    addrEndPTemp <= next_addrEndPTemp;
454 
    endpCRCTemp <= next_endpCRCTemp;
455 
    USBAddress <= next_USBAddress;
456 
    PIDByte <= next_PIDByte;
457 
    USBEndPControlRegCopy <= next_USBEndPControlRegCopy;
458 
    transDone <= next_transDone;
459 
    getPacketREn <= next_getPacketREn;
460 
    sendPacketPID <= next_sendPacketPID;
461 
    sendPacketWEn <= next_sendPacketWEn;
462 
    clrEPRdy <= next_clrEPRdy;
463 
    USBEndPTransTypeReg <= next_USBEndPTransTypeReg;
464 
    USBEndPNakTransTypeReg <= next_USBEndPNakTransTypeReg;
465 
    NAKSent <= next_NAKSent;
466 
    stallSent <= next_stallSent;
467 
    SOFRxed <= next_SOFRxed;
468 
    endPMuxErrorsWEn <= next_endPMuxErrorsWEn;
469 
    frameNum <= next_frameNum;
470 
    USBEndP <= next_USBEndP;
471 
    endPointReadyToGetPkt <= next_endPointReadyToGetPkt;
472 
  end
473 
end
474 
 
475 
endmodule

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