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1 2 antanguay
//////////////////////////////////////////////////////////////////////
2
////                                                              ////
3
////  File name "rx_enqueue.v"                                    ////
4
////                                                              ////
5
////  This file is part of the "10GE MAC" project                 ////
6
////  http://www.opencores.org/cores/xge_mac/                     ////
7
////                                                              ////
8
////  Author(s):                                                  ////
9
////      - A. Tanguay (antanguay@opencores.org)                  ////
10
////                                                              ////
11
//////////////////////////////////////////////////////////////////////
12
////                                                              ////
13
//// Copyright (C) 2008 AUTHORS. All rights reserved.             ////
14
////                                                              ////
15
//// This source file may be used and distributed without         ////
16
//// restriction provided that this copyright statement is not    ////
17
//// removed from the file and that any derivative work contains  ////
18
//// the original copyright notice and the associated disclaimer. ////
19
////                                                              ////
20
//// This source file is free software; you can redistribute it   ////
21
//// and/or modify it under the terms of the GNU Lesser General   ////
22
//// Public License as published by the Free Software Foundation; ////
23
//// either version 2.1 of the License, or (at your option) any   ////
24
//// later version.                                               ////
25
////                                                              ////
26
//// This source is distributed in the hope that it will be       ////
27
//// useful, but WITHOUT ANY WARRANTY; without even the implied   ////
28
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR      ////
29
//// PURPOSE.  See the GNU Lesser General Public License for more ////
30
//// details.                                                     ////
31
////                                                              ////
32
//// You should have received a copy of the GNU Lesser General    ////
33
//// Public License along with this source; if not, download it   ////
34
//// from http://www.opencores.org/lgpl.shtml                     ////
35
////                                                              ////
36
//////////////////////////////////////////////////////////////////////
37
 
38
 
39
`include "defines.v"
40
 
41
module rx_enqueue(/*AUTOARG*/
42
  // Outputs
43 12 antanguay
  rxdfifo_wdata, rxdfifo_wstatus, rxdfifo_wen, rxhfifo_ren,
44
  rxhfifo_wdata, rxhfifo_wstatus, rxhfifo_wen, local_fault_msg_det,
45
  remote_fault_msg_det, status_crc_error_tog,
46
  status_fragment_error_tog, status_rxdfifo_ovflow_tog,
47
  status_pause_frame_rx_tog,
48 2 antanguay
  // Inputs
49 12 antanguay
  clk_xgmii_rx, reset_xgmii_rx_n, xgmii_rxd, xgmii_rxc, rxdfifo_wfull,
50
  rxhfifo_rdata, rxhfifo_rstatus, rxhfifo_rempty,
51 2 antanguay
  rxhfifo_ralmost_empty
52
  );
53
 
54
`include "CRC32_D64.v"
55
`include "CRC32_D8.v"
56
`include "utils.v"
57
 
58
input         clk_xgmii_rx;
59
input         reset_xgmii_rx_n;
60
 
61
input  [63:0] xgmii_rxd;
62
input  [7:0]  xgmii_rxc;
63
 
64
input         rxdfifo_wfull;
65
 
66
input  [63:0] rxhfifo_rdata;
67
input  [7:0]  rxhfifo_rstatus;
68
input         rxhfifo_rempty;
69
input         rxhfifo_ralmost_empty;
70
 
71
output [63:0] rxdfifo_wdata;
72
output [7:0]  rxdfifo_wstatus;
73
output        rxdfifo_wen;
74
 
75
output        rxhfifo_ren;
76
 
77
output [63:0] rxhfifo_wdata;
78
output [7:0]  rxhfifo_wstatus;
79
output        rxhfifo_wen;
80
 
81
output [1:0]  local_fault_msg_det;
82
output [1:0]  remote_fault_msg_det;
83
 
84
output        status_crc_error_tog;
85
output        status_fragment_error_tog;
86
output        status_rxdfifo_ovflow_tog;
87
 
88
output        status_pause_frame_rx_tog;
89
 
90
 
91
 
92
 
93
/*AUTOREG*/
94
// Beginning of automatic regs (for this module's undeclared outputs)
95
reg [1:0]               local_fault_msg_det;
96
reg [1:0]               remote_fault_msg_det;
97
reg [63:0]              rxdfifo_wdata;
98
reg                     rxdfifo_wen;
99
reg [7:0]               rxdfifo_wstatus;
100
reg                     rxhfifo_ren;
101
reg [63:0]              rxhfifo_wdata;
102
reg                     rxhfifo_wen;
103
reg [7:0]               rxhfifo_wstatus;
104
reg                     status_crc_error_tog;
105
reg                     status_fragment_error_tog;
106
reg                     status_pause_frame_rx_tog;
107
reg                     status_rxdfifo_ovflow_tog;
108
// End of automatics
109
 
110
/*AUTOWIRE*/
111
 
112
 
113
reg [63:32]   xgmii_rxd_d1;
114
reg [7:4]     xgmii_rxc_d1;
115
 
116
reg [63:0]    xgxs_rxd_barrel;
117
reg [7:0]     xgxs_rxc_barrel;
118
 
119
reg [63:0]    xgxs_rxd_barrel_d1;
120
reg [7:0]     xgxs_rxc_barrel_d1;
121
 
122
reg           barrel_shift;
123
 
124
reg [31:0]    crc32_d64;
125
reg [31:0]    crc32_d8;
126
 
127
reg [3:0]     crc_bytes;
128
reg [3:0]     next_crc_bytes;
129
 
130
reg [63:0]    crc_shift_data;
131
reg           crc_start_8b;
132
reg           crc_done;
133
reg           crc_good;
134
reg           crc_clear;
135
 
136
reg [31:0]    crc_rx;
137
reg [31:0]    next_crc_rx;
138
 
139
reg [2:0]     curr_state;
140
reg [2:0]     next_state;
141
 
142
reg [13:0]    curr_byte_cnt;
143
reg [13:0]    next_byte_cnt;
144
 
145
reg           fragment_error;
146
reg           rxd_ovflow_error;
147
 
148
reg           coding_error;
149
reg           next_coding_error;
150
 
151
reg [7:0]     addmask;
152
reg [7:0]     datamask;
153
 
154
reg           pause_frame;
155
reg           next_pause_frame;
156
reg           pause_frame_hold;
157
 
158
reg           good_pause_frame;
159
 
160
reg           drop_data;
161
reg           next_drop_data;
162
 
163
reg           pkt_pending;
164
 
165 6 antanguay
reg           rxhfifo_ren_d1;
166
 
167 2 antanguay
reg           rxhfifo_ralmost_empty_d1;
168
 
169
 
170
parameter [2:0]
171
             SM_IDLE = 3'd0,
172
             SM_RX = 3'd1;
173
 
174
always @(posedge clk_xgmii_rx or negedge reset_xgmii_rx_n) begin
175
 
176
    if (reset_xgmii_rx_n == 1'b0) begin
177
 
178
        xgmii_rxd_d1 <= 32'b0;
179
        xgmii_rxc_d1 <= 4'b0;
180
 
181
        xgxs_rxd_barrel <= 64'b0;
182
        xgxs_rxc_barrel <= 8'b0;
183
 
184
        xgxs_rxd_barrel_d1 <= 64'b0;
185
        xgxs_rxc_barrel_d1 <= 8'b0;
186
 
187
        barrel_shift <= 1'b0;
188
 
189
        local_fault_msg_det <= 2'b0;
190
        remote_fault_msg_det <= 2'b0;
191
 
192
        crc32_d64 <= 32'b0;
193
        crc32_d8 <= 32'b0;
194
        crc_bytes <= 4'b0;
195
 
196
        crc_shift_data <= 64'b0;
197
        crc_done <= 1'b0;
198
        crc_rx <= 32'b0;
199
 
200
        pause_frame_hold <= 1'b0;
201
 
202
        status_crc_error_tog <= 1'b0;
203
        status_fragment_error_tog <= 1'b0;
204
        status_rxdfifo_ovflow_tog <= 1'b0;
205
 
206
        status_pause_frame_rx_tog <= 1'b0;
207
 
208
    end
209
    else begin
210
 
211
        //---
212
        // Link status RC layer
213
        // Look for local/remote messages on lower 4 lanes and upper
214
        // 4 lanes. This is a 64-bit interface but look at each 32-bit
215
        // independantly.
216
 
217
        local_fault_msg_det[1] <= (xgmii_rxd[63:32] ==
218
                                   {`LOCAL_FAULT, 8'h0, 8'h0, `SEQUENCE} &&
219
                                   xgmii_rxc[7:4] == 4'b0001);
220
 
221
        local_fault_msg_det[0] <= (xgmii_rxd[31:0] ==
222
                                   {`LOCAL_FAULT, 8'h0, 8'h0, `SEQUENCE} &&
223
                                   xgmii_rxc[3:0] == 4'b0001);
224
 
225
        remote_fault_msg_det[1] <= (xgmii_rxd[63:32] ==
226
                                    {`REMOTE_FAULT, 8'h0, 8'h0, `SEQUENCE} &&
227
                                    xgmii_rxc[7:4] == 4'b0001);
228
 
229
        remote_fault_msg_det[0] <= (xgmii_rxd[31:0] ==
230
                                    {`REMOTE_FAULT, 8'h0, 8'h0, `SEQUENCE} &&
231
                                    xgmii_rxc[3:0] == 4'b0001);
232
 
233
 
234
        //---
235
        // Rotating barrel. This function allow us to always align the start of
236
        // a frame with LANE0. If frame starts in LANE4, it will be shifted 4 bytes
237
        // to LANE0, thus reducing the amount of logic needed at the next stage.
238
 
239
        xgmii_rxd_d1[63:32] <= xgmii_rxd[63:32];
240
        xgmii_rxc_d1[7:4] <= xgmii_rxc[7:4];
241
 
242
        if (xgmii_rxd[`LANE0] == `START && xgmii_rxc[0]) begin
243
 
244
            xgxs_rxd_barrel <= xgmii_rxd;
245
            xgxs_rxc_barrel <= xgmii_rxc;
246
 
247
            barrel_shift <= 1'b0;
248
 
249
        end
250
        else if (xgmii_rxd[`LANE4] == `START && xgmii_rxc[4]) begin
251
 
252
            xgxs_rxd_barrel <= {xgmii_rxd[31:0], xgmii_rxd_d1[63:32]};
253
            xgxs_rxc_barrel <= {xgmii_rxc[3:0], xgmii_rxc_d1[7:4]};
254
 
255
            barrel_shift <= 1'b1;
256
 
257
        end
258
        else if (barrel_shift) begin
259
 
260
            xgxs_rxd_barrel <= {xgmii_rxd[31:0], xgmii_rxd_d1[63:32]};
261
            xgxs_rxc_barrel <= {xgmii_rxc[3:0], xgmii_rxc_d1[7:4]};
262
 
263
        end
264
        else begin
265
 
266
            xgxs_rxd_barrel <= xgmii_rxd;
267
            xgxs_rxc_barrel <= xgmii_rxc;
268
 
269
        end
270
 
271
        xgxs_rxd_barrel_d1 <= xgxs_rxd_barrel;
272
        xgxs_rxc_barrel_d1 <= xgxs_rxc_barrel;
273
 
274
 
275
        //---
276
        // When final CRC calculation begins we capture info relevant to
277
        // current frame CRC claculation continues while next frame is
278
        // being received.
279
 
280
        if (crc_start_8b) begin
281
 
282
            pause_frame_hold <= pause_frame;
283
 
284
        end
285
 
286
        //---
287
        // CRC Checking
288
 
289
        crc_rx <= next_crc_rx;
290
 
291
        if (crc_clear) begin
292
 
293
            // CRC is cleared at the beginning of the frame, calculate
294
            // 64-bit at a time otherwise
295
 
296
            crc32_d64 <= 32'hffffffff;
297
 
298
        end
299
        else begin
300
 
301
            crc32_d64 <= nextCRC32_D64(reverse_64b(xgxs_rxd_barrel_d1), crc32_d64);
302
 
303
        end
304
 
305
        if (crc_bytes != 4'b0) begin
306
 
307
            // When reaching the end of the frame we switch from 64-bit mode
308
            // to 8-bit mode to accomodate odd number of bytes in the frame.
309
            // crc_bytes indicated the number of remaining payload byte to
310
            // compute CRC on. Calculate and decrement until it reaches 0.
311
 
312
            if (crc_bytes == 4'b1) begin
313
                crc_done <= 1'b1;
314
            end
315
 
316
            crc32_d8 <= nextCRC32_D8(reverse_8b(crc_shift_data[7:0]), crc32_d8);
317
            crc_shift_data <= {8'h00, crc_shift_data[63:8]};
318
            crc_bytes <= crc_bytes - 4'b1;
319
 
320
        end
321
        else if (crc_bytes == 4'b0) begin
322
 
323
            // Per Clause 46. Control code during data must be reported
324
            // as a CRC error. Indicated here by coding_error. Corrupt CRC
325
            // if coding error is detected.
326
 
327
            if (coding_error || next_coding_error) begin
328
                crc32_d8 <= ~crc32_d64;
329
            end
330
            else begin
331
                crc32_d8 <= crc32_d64;
332
            end
333
 
334
            crc_done <= 1'b0;
335
 
336
            crc_shift_data <= xgxs_rxd_barrel_d1;
337
            crc_bytes <= next_crc_bytes;
338
 
339
        end
340
 
341
        //---
342
        // Error detection
343
 
344
        if (crc_done && !crc_good) begin
345
            status_crc_error_tog <= ~status_crc_error_tog;
346
        end
347
 
348
        if (fragment_error) begin
349
            status_fragment_error_tog <= ~status_fragment_error_tog;
350
        end
351
 
352
        if (rxd_ovflow_error) begin
353
            status_rxdfifo_ovflow_tog <= ~status_rxdfifo_ovflow_tog;
354
        end
355
 
356
        //---
357
        // Frame receive indication
358
 
359
        if (good_pause_frame) begin
360
            status_pause_frame_rx_tog <= ~status_pause_frame_rx_tog;
361
        end
362
 
363
    end
364
 
365
end
366
 
367
 
368
always @(/*AS*/crc32_d8 or crc_done or crc_rx or pause_frame_hold) begin
369
 
370
 
371
    crc_good = 1'b0;
372
    good_pause_frame = 1'b0;
373
 
374
    if (crc_done) begin
375
 
376
        // Check CRC. If this is a pause frame, report it to cpu.
377
 
378
        if (crc_rx == ~reverse_32b(crc32_d8)) begin
379
            crc_good = 1'b1;
380
            good_pause_frame = pause_frame_hold;
381
        end
382
 
383
    end
384
 
385
end
386
 
387
always @(posedge clk_xgmii_rx or negedge reset_xgmii_rx_n) begin
388
 
389
    if (reset_xgmii_rx_n == 1'b0) begin
390
 
391
        curr_state <= SM_IDLE;
392
        curr_byte_cnt <= 14'b0;
393
        coding_error <= 1'b0;
394
        pause_frame <= 1'b0;
395
 
396
    end
397
    else begin
398
 
399
        curr_state <= next_state;
400
        curr_byte_cnt <= next_byte_cnt;
401
        coding_error <= next_coding_error;
402
        pause_frame <= next_pause_frame;
403
 
404
    end
405
 
406
end
407
 
408
 
409
always @(/*AS*/coding_error or crc_rx or curr_byte_cnt or curr_state
410
         or pause_frame or xgxs_rxc_barrel or xgxs_rxc_barrel_d1
411
         or xgxs_rxd_barrel or xgxs_rxd_barrel_d1) begin
412
 
413
    next_state = curr_state;
414
 
415
    rxhfifo_wdata = xgxs_rxd_barrel_d1;
416 6 antanguay
    rxhfifo_wstatus = `RXSTATUS_NONE;
417 2 antanguay
    rxhfifo_wen = 1'b0;
418
 
419
    addmask[0] = !(xgxs_rxd_barrel_d1[`LANE0] == `TERMINATE && xgxs_rxc_barrel_d1[0]);
420
    addmask[1] = !(xgxs_rxd_barrel_d1[`LANE1] == `TERMINATE && xgxs_rxc_barrel_d1[1]);
421
    addmask[2] = !(xgxs_rxd_barrel_d1[`LANE2] == `TERMINATE && xgxs_rxc_barrel_d1[2]);
422
    addmask[3] = !(xgxs_rxd_barrel_d1[`LANE3] == `TERMINATE && xgxs_rxc_barrel_d1[3]);
423
    addmask[4] = !(xgxs_rxd_barrel_d1[`LANE4] == `TERMINATE && xgxs_rxc_barrel_d1[4]);
424
    addmask[5] = !(xgxs_rxd_barrel_d1[`LANE5] == `TERMINATE && xgxs_rxc_barrel_d1[5]);
425
    addmask[6] = !(xgxs_rxd_barrel_d1[`LANE6] == `TERMINATE && xgxs_rxc_barrel_d1[6]);
426
    addmask[7] = !(xgxs_rxd_barrel_d1[`LANE7] == `TERMINATE && xgxs_rxc_barrel_d1[7]);
427
 
428
    datamask[0] = addmask[0];
429
    datamask[1] = &addmask[1:0];
430
    datamask[2] = &addmask[2:0];
431
    datamask[3] = &addmask[3:0];
432
    datamask[4] = &addmask[4:0];
433
    datamask[5] = &addmask[5:0];
434
    datamask[6] = &addmask[6:0];
435
    datamask[7] = &addmask[7:0];
436
 
437
    next_crc_bytes = 4'b0;
438
    next_crc_rx = crc_rx;
439
    crc_start_8b = 1'b0;
440
    crc_clear = 1'b0;
441
 
442
    next_byte_cnt = curr_byte_cnt;
443
 
444
    fragment_error = 1'b0;
445
 
446
    next_coding_error = coding_error;
447
    next_pause_frame = pause_frame;
448
 
449
    case (curr_state)
450
 
451
        SM_IDLE:
452
          begin
453
 
454
              next_byte_cnt = 14'b0;
455
              crc_clear = 1'b1;
456
              next_coding_error = 1'b0;
457
              next_pause_frame = 1'b0;
458
 
459
 
460
              // Detect the start of a frame
461
 
462
              if (xgxs_rxd_barrel_d1[`LANE0] == `START && xgxs_rxc_barrel_d1[0] &&
463
                  xgxs_rxd_barrel_d1[`LANE1] == `PREAMBLE && !xgxs_rxc_barrel_d1[1] &&
464
                  xgxs_rxd_barrel_d1[`LANE2] == `PREAMBLE && !xgxs_rxc_barrel_d1[2] &&
465
                  xgxs_rxd_barrel_d1[`LANE3] == `PREAMBLE && !xgxs_rxc_barrel_d1[3] &&
466
                  xgxs_rxd_barrel_d1[`LANE4] == `PREAMBLE && !xgxs_rxc_barrel_d1[4] &&
467
                  xgxs_rxd_barrel_d1[`LANE5] == `PREAMBLE && !xgxs_rxc_barrel_d1[5] &&
468
                  xgxs_rxd_barrel_d1[`LANE6] == `PREAMBLE && !xgxs_rxc_barrel_d1[6] &&
469
                  xgxs_rxd_barrel_d1[`LANE7] == `SFD && !xgxs_rxc_barrel_d1[7]) begin
470
 
471
                  next_state = SM_RX;
472
              end
473
 
474
          end
475
 
476
        SM_RX:
477
          begin
478
 
479
              // Pause frames are filtered
480
 
481
              rxhfifo_wen = !pause_frame;
482
 
483
 
484
              if (xgxs_rxd_barrel_d1[`LANE0] == `START && xgxs_rxc_barrel_d1[0] &&
485
                  xgxs_rxd_barrel_d1[`LANE7] == `SFD && !xgxs_rxc_barrel_d1[7]) begin
486
 
487
                  // Fragment received, if we are still at SOP stage don't store
488
                  // the frame. If not, write a fake EOP and flag frame as bad.
489
 
490
                  next_byte_cnt = 14'b0;
491
                  crc_clear = 1'b1;
492
                  next_coding_error = 1'b0;
493
 
494
                  fragment_error = 1'b1;
495 6 antanguay
                  rxhfifo_wstatus[`RXSTATUS_ERR] = 1'b1;
496 2 antanguay
 
497
                  if (curr_byte_cnt == 14'b0) begin
498
                      rxhfifo_wen = 1'b0;
499
                  end
500
                  else begin
501 6 antanguay
                      rxhfifo_wstatus[`RXSTATUS_EOP] = 1'b1;
502 2 antanguay
                  end
503
 
504
              end
505
              else if (curr_byte_cnt > 14'd9900) begin
506
 
507
                  // Frame too long, TERMMINATE must have been corrupted.
508
                  // Abort transfer, write a fake EOP, report as fragment.
509
 
510
                  fragment_error = 1'b1;
511 6 antanguay
                  rxhfifo_wstatus[`RXSTATUS_ERR] = 1'b1;
512 2 antanguay
 
513 6 antanguay
                  rxhfifo_wstatus[`RXSTATUS_EOP] = 1'b1;
514 2 antanguay
                  next_state = SM_IDLE;
515
 
516
              end
517
              else begin
518
 
519
                  // Pause frame receive, these frame will be filtered
520
 
521
                  if (curr_byte_cnt == 14'd0 &&
522
                      xgxs_rxd_barrel_d1[47:0] == `PAUSE_FRAME) begin
523
 
524
                      rxhfifo_wen = 1'b0;
525
                      next_pause_frame = 1'b1;
526
                  end
527
 
528
 
529
                  // Control character during data phase, force CRC error
530
 
531
                  if (|(xgxs_rxc_barrel_d1 & datamask)) begin
532
 
533
                      next_coding_error = 1'b1;
534
                  end
535
 
536
 
537
                  // Write SOP to status bits during first byte
538
 
539
                  if (curr_byte_cnt == 14'b0) begin
540 6 antanguay
                      rxhfifo_wstatus[`RXSTATUS_SOP] = 1'b1;
541 2 antanguay
                  end
542
 
543
                  /* verilator lint_off WIDTH */
544
                  next_byte_cnt = curr_byte_cnt +
545
                                  addmask[0] + addmask[1] + addmask[2] + addmask[3] +
546
                                  addmask[4] + addmask[5] + addmask[6] + addmask[7];
547
                  /* verilator lint_on WIDTH */
548
 
549
 
550
 
551
                  // We will not write to the fifo if all is left
552
                  // are four or less bytes of crc. We also strip off the
553
                  // crc, which requires looking one cycle ahead
554
                  // wstatus: 
555 6 antanguay
                  //   [2:0] modulus of packet length
556 2 antanguay
 
557
                  // Look one cycle ahead for TERMINATE in lanes 0 to 4
558
 
559
                  if (xgxs_rxd_barrel[`LANE4] == `TERMINATE && xgxs_rxc_barrel[4]) begin
560 6 antanguay
 
561
                      rxhfifo_wstatus[`RXSTATUS_EOP] = 1'b1;
562
                      rxhfifo_wstatus[2:0] = 3'd0;
563 2 antanguay
 
564
                      crc_start_8b = 1'b1;
565
                      next_crc_bytes = 4'd8;
566
                      next_crc_rx = xgxs_rxd_barrel[31:0];
567
 
568
                      next_state = SM_IDLE;
569
 
570
                  end
571
 
572
                  if (xgxs_rxd_barrel[`LANE3] == `TERMINATE && xgxs_rxc_barrel[3]) begin
573
 
574 6 antanguay
                      rxhfifo_wstatus[`RXSTATUS_EOP] = 1'b1;
575
                      rxhfifo_wstatus[2:0] = 3'd7;
576 2 antanguay
 
577
                      crc_start_8b = 1'b1;
578
                      next_crc_bytes = 4'd7;
579
                      next_crc_rx = {xgxs_rxd_barrel[23:0], xgxs_rxd_barrel_d1[63:56]};
580
 
581
                      next_state = SM_IDLE;
582
 
583
                  end
584
 
585
                  if (xgxs_rxd_barrel[`LANE2] == `TERMINATE && xgxs_rxc_barrel[2]) begin
586
 
587 6 antanguay
                      rxhfifo_wstatus[`RXSTATUS_EOP] = 1'b1;
588
                      rxhfifo_wstatus[2:0] = 3'd6;
589 2 antanguay
 
590
                      crc_start_8b = 1'b1;
591
                      next_crc_bytes = 4'd6;
592
                      next_crc_rx = {xgxs_rxd_barrel[15:0], xgxs_rxd_barrel_d1[63:48]};
593
 
594
                      next_state = SM_IDLE;
595
 
596
                  end
597
 
598
                  if (xgxs_rxd_barrel[`LANE1] == `TERMINATE && xgxs_rxc_barrel[1]) begin
599
 
600 6 antanguay
                      rxhfifo_wstatus[`RXSTATUS_EOP] = 1'b1;
601
                      rxhfifo_wstatus[2:0] = 3'd5;
602 2 antanguay
 
603
                      crc_start_8b = 1'b1;
604
                      next_crc_bytes = 4'd5;
605
                      next_crc_rx = {xgxs_rxd_barrel[7:0], xgxs_rxd_barrel_d1[63:40]};
606
 
607
                      next_state = SM_IDLE;
608
 
609
                  end
610
 
611
                  if (xgxs_rxd_barrel[`LANE0] == `TERMINATE && xgxs_rxc_barrel[0]) begin
612
 
613 6 antanguay
                      rxhfifo_wstatus[`RXSTATUS_EOP] = 1'b1;
614
                      rxhfifo_wstatus[2:0] = 3'd4;
615 2 antanguay
 
616
                      crc_start_8b = 1'b1;
617
                      next_crc_bytes = 4'd4;
618
                      next_crc_rx = xgxs_rxd_barrel_d1[63:32];
619
 
620
                      next_state = SM_IDLE;
621
 
622
                  end
623
 
624
                  // Look at current cycle for TERMINATE in lanes 5 to 7
625
 
626
                  if (xgxs_rxd_barrel_d1[`LANE7] == `TERMINATE &&
627
                      xgxs_rxc_barrel_d1[7]) begin
628
 
629 6 antanguay
                      rxhfifo_wstatus[`RXSTATUS_EOP] = 1'b1;
630
                      rxhfifo_wstatus[2:0] = 3'd3;
631 2 antanguay
 
632
                      crc_start_8b = 1'b1;
633
                      next_crc_bytes = 4'd3;
634
                      next_crc_rx = xgxs_rxd_barrel_d1[55:24];
635
 
636
                      next_state = SM_IDLE;
637
 
638
                  end
639
 
640
                  if (xgxs_rxd_barrel_d1[`LANE6] == `TERMINATE &&
641
                      xgxs_rxc_barrel_d1[6]) begin
642
 
643 6 antanguay
                      rxhfifo_wstatus[`RXSTATUS_EOP] = 1'b1;
644
                      rxhfifo_wstatus[2:0] = 3'd2;
645 2 antanguay
 
646
                      crc_start_8b = 1'b1;
647
                      next_crc_bytes = 4'd2;
648
                      next_crc_rx = xgxs_rxd_barrel_d1[47:16];
649
 
650
                      next_state = SM_IDLE;
651
 
652
                  end
653
 
654
                  if (xgxs_rxd_barrel_d1[`LANE5] == `TERMINATE &&
655
                      xgxs_rxc_barrel_d1[5]) begin
656
 
657 6 antanguay
                      rxhfifo_wstatus[`RXSTATUS_EOP] = 1'b1;
658
                      rxhfifo_wstatus[2:0] = 3'd1;
659 2 antanguay
 
660
                      crc_start_8b = 1'b1;
661
                      next_crc_bytes = 4'd1;
662
                      next_crc_rx = xgxs_rxd_barrel_d1[39:8];
663
 
664
                      next_state = SM_IDLE;
665
 
666
                  end
667
              end
668
          end
669
 
670
        default:
671
          begin
672
              next_state = SM_IDLE;
673
          end
674
 
675
    endcase
676
 
677
end
678
 
679
 
680
always @(posedge clk_xgmii_rx or negedge reset_xgmii_rx_n) begin
681
 
682
    if (reset_xgmii_rx_n == 1'b0) begin
683
 
684
        rxhfifo_ralmost_empty_d1 <= 1'b1;
685
 
686
        drop_data <= 1'b0;
687
 
688
        pkt_pending <= 1'b0;
689
 
690 6 antanguay
        rxhfifo_ren_d1 <= 1'b0;
691
 
692 2 antanguay
    end
693
    else begin
694
 
695
        rxhfifo_ralmost_empty_d1 <= rxhfifo_ralmost_empty;
696
 
697
        drop_data <= next_drop_data;
698
 
699 6 antanguay
        pkt_pending <= rxhfifo_ren;
700 2 antanguay
 
701 6 antanguay
        rxhfifo_ren_d1 <= rxhfifo_ren;
702
 
703 2 antanguay
    end
704
 
705
end
706
 
707
always @(/*AS*/crc_done or crc_good or drop_data or pkt_pending
708
         or rxdfifo_wfull or rxhfifo_ralmost_empty_d1 or rxhfifo_rdata
709 6 antanguay
         or rxhfifo_ren_d1 or rxhfifo_rstatus) begin
710 2 antanguay
 
711
    rxd_ovflow_error = 1'b0;
712
 
713
    rxdfifo_wdata = rxhfifo_rdata;
714
    rxdfifo_wstatus = rxhfifo_rstatus;
715
 
716
    next_drop_data = drop_data;
717
 
718
 
719
    // There must be at least 8 words in holding FIFO before we start reading.
720
    // This provides enough time for CRC calculation.
721
 
722 6 antanguay
    rxhfifo_ren = !rxhfifo_ralmost_empty_d1 ||
723
                  (pkt_pending && !rxhfifo_rstatus[`RXSTATUS_EOP]);
724 2 antanguay
 
725
 
726 6 antanguay
    if (rxhfifo_ren_d1 && rxhfifo_rstatus[`RXSTATUS_SOP]) begin
727 2 antanguay
 
728
        // Reset drop flag on SOP
729
 
730
        next_drop_data = 1'b0;
731
 
732
    end
733
 
734 6 antanguay
    if (rxhfifo_ren_d1 && rxdfifo_wfull && !next_drop_data) begin
735 2 antanguay
 
736
        // FIFO overflow, abort transfer. The rest of the frame
737
        // will be dropped. Since we can't put an EOP indication
738
        // in a fifo already full, there will be no EOP and receive
739
        // side will need to sync on next SOP.
740
 
741
        rxd_ovflow_error = 1'b1;
742
        next_drop_data = 1'b1;
743
 
744
    end
745
 
746
 
747 6 antanguay
    rxdfifo_wen = rxhfifo_ren_d1 && !next_drop_data;
748 2 antanguay
 
749
 
750
 
751
    if (crc_done && !crc_good) begin
752
 
753
        // Flag packet with error when CRC error is detected
754
 
755 6 antanguay
        rxdfifo_wstatus[`RXSTATUS_ERR] = 1'b1;
756 2 antanguay
 
757
    end
758
 
759
end
760
 
761
endmodule
762
 

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