1 /*
2 * CDDL HEADER START
3 *
4 * The contents of this file are subject to the terms of the
5 * Common Development and Distribution License (the "License").
6 * You may not use this file except in compliance with the License.
7 *
8 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9 * or http://www.opensolaris.org/os/licensing.
10 * See the License for the specific language governing permissions
11 * and limitations under the License.
12 *
13 * When distributing Covered Code, include this CDDL HEADER in each
14 * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15 * If applicable, add the following below this CDDL HEADER, with the
16 * fields enclosed by brackets "[]" replaced with your own identifying
17 * information: Portions Copyright [yyyy] [name of copyright owner]
18 *
19 * CDDL HEADER END
20 */
21
22 /*
23 * Copyright 2014 QLogic Corporation
24 * The contents of this file are subject to the terms of the
25 * QLogic End User License (the "License").
26 * You may not use this file except in compliance with the License.
27 *
28 * You can obtain a copy of the License at
29 * http://www.qlogic.com/Resources/Documents/DriverDownloadHelp/
30 * QLogic_End_User_Software_License.txt
31 * See the License for the specific language governing permissions
32 * and limitations under the License.
33 */
34
35 #include "bnxe.h"
36
37
38 #define VERIFY_FCOE_BINDING(pUM) \
39 if (!BNXE_FCOE(pUM)) \
40 { \
41 BnxeLogWarn((pUM), "FCoE not supported on this device!"); \
42 return B_FALSE; \
43 } \
44 if (!(CLIENT_BOUND(pUM, LM_CLI_IDX_FCOE))) \
45 { \
46 BnxeLogWarn((pUM), "FCoE client not bound!"); \
47 return B_FALSE; \
48 }
49
50
BnxeFcoeFreeResc(um_device_t * pUM,BnxeFcoeState * pFcoeState)51 void BnxeFcoeFreeResc(um_device_t * pUM,
52 BnxeFcoeState * pFcoeState)
53 {
54 BNXE_LOCK_ENTER_OFFLOAD(pUM);
55 lm_fc_del_fcoe_state(&pUM->lm_dev, &pFcoeState->lm_fcoe);
56 BNXE_LOCK_EXIT_OFFLOAD(pUM);
57
58 lm_fc_free_con_resc(&pUM->lm_dev, &pFcoeState->lm_fcoe);
59
60 kmem_free(pFcoeState, sizeof(BnxeFcoeState));
61 }
62
63
BnxeFcoeCqeIndicate(um_device_t * pUM,void * pData,u32_t dataLen)64 static boolean_t BnxeFcoeCqeIndicate(um_device_t * pUM,
65 void * pData,
66 u32_t dataLen)
67 {
68 struct fcoe_kcqe * kcqe = (struct fcoe_kcqe *)pData;
69
70 if (dataLen != (sizeof(*kcqe)))
71 {
72 BnxeLogWarn(pUM, "Invalid FCoE CQE");
73 return B_FALSE;
74 }
75
76 /* XXX
77 * Need to add a mutex or reference count to ensure that bnxef isn't
78 * unloaded underneath this taskq dispatch routine.
79 */
80
81 ASSERT(CLIENT_BOUND(pUM, LM_CLI_IDX_FCOE));
82 pUM->fcoe.bind.cliIndicateCqes(pUM->fcoe.pDev,
83 (void **)&kcqe, 1);
84
85 /* XXX release mutex or decrement reference count */
86
87 return B_TRUE;
88 }
89
90
BnxeFcoeInitCqeWork(um_device_t * pUM,void * pData,u32_t dataLen)91 static void BnxeFcoeInitCqeWork(um_device_t * pUM,
92 void * pData,
93 u32_t dataLen)
94 {
95 if (!BnxeFcoeCqeIndicate(pUM, pData, dataLen))
96 {
97 pUM->fcoe.stats.initCqeRxErr++;
98 }
99 else
100 {
101 pUM->fcoe.stats.initCqeRx++;
102 }
103 }
104
105
BnxeFcoeInitCqe(um_device_t * pUM,struct fcoe_kcqe * kcqe)106 boolean_t BnxeFcoeInitCqe(um_device_t * pUM,
107 struct fcoe_kcqe * kcqe)
108 {
109 struct fcoe_kcqe tmp_kcqe = {0};
110
111 tmp_kcqe.op_code = FCOE_KCQE_OPCODE_INIT_FUNC;
112
113 tmp_kcqe.flags |=
114 (FCOE_KWQE_LAYER_CODE << FCOE_KWQE_HEADER_LAYER_CODE_SHIFT);
115
116 tmp_kcqe.completion_status =
117 mm_cpu_to_le32((mm_le32_to_cpu(kcqe->completion_status) == 0) ?
118 FCOE_KCQE_COMPLETION_STATUS_SUCCESS :
119 FCOE_KCQE_COMPLETION_STATUS_NIC_ERROR);
120
121 return BnxeWorkQueueAdd(pUM, BnxeFcoeInitCqeWork,
122 &tmp_kcqe, sizeof(tmp_kcqe));
123 }
124
125
BnxeFcoeInitWqeWork(um_device_t * pUM,void * pData,u32_t dataLen)126 static void BnxeFcoeInitWqeWork(um_device_t * pUM,
127 void * pData,
128 u32_t dataLen)
129 {
130 union fcoe_kwqe * kwqe = (union fcoe_kwqe *)pData;
131 struct fcoe_kcqe kcqe = {0};
132
133 if (dataLen != (3 * sizeof(*kwqe)))
134 {
135 BnxeLogWarn(pUM, "Invalid FCoE Init WQE");
136 pUM->fcoe.stats.initWqeTxErr++;
137 return;
138 }
139
140 if (kwqe[1].init2.hsi_major_version != FCOE_HSI_MAJOR_VERSION)
141 {
142 BnxeLogWarn(pUM, "ERROR: Invalid FCoE HSI major version (L5=%d vs FW=%d)",
143 kwqe[1].init2.hsi_major_version,
144 FCOE_HSI_MAJOR_VERSION);
145 kcqe.completion_status = FCOE_KCQE_COMPLETION_STATUS_WRONG_HSI_VERSION;
146 goto BnxeFcoeInitWqeWork_error;
147 }
148
149 if (lm_fc_init(&pUM->lm_dev,
150 &kwqe[0].init1,
151 &kwqe[1].init2,
152 &kwqe[2].init3) != LM_STATUS_SUCCESS)
153 {
154 BnxeLogWarn(pUM, "Failed to post FCoE Init WQE");
155 kcqe.completion_status = FCOE_KCQE_COMPLETION_STATUS_ERROR;
156 goto BnxeFcoeInitWqeWork_error;
157 }
158
159 pUM->fcoe.stats.initWqeTx++;
160
161 return;
162
163 BnxeFcoeInitWqeWork_error:
164
165 pUM->fcoe.stats.initWqeTxErr++;
166
167 kcqe.op_code = FCOE_KCQE_OPCODE_INIT_FUNC;
168 kcqe.flags |= (FCOE_KWQE_LAYER_CODE << FCOE_KWQE_HEADER_LAYER_CODE_SHIFT);
169 kcqe.completion_status = mm_cpu_to_le32(kcqe.completion_status);
170 kcqe.fcoe_conn_id = kwqe[1].conn_offload1.fcoe_conn_id;
171
172 /* call here directly (for error case) */
173
174 /* XXX
175 * Need to add a mutex or reference count to ensure that bnxef isn't
176 * unloaded underneath this taskq dispatch routine.
177 */
178
179 {
180 struct fcoe_kcqe * pKcqe = &kcqe;
181 ASSERT(CLIENT_BOUND(pUM, LM_CLI_IDX_FCOE));
182 pUM->fcoe.bind.cliIndicateCqes(pUM->fcoe.pDev,
183 (void **)&pKcqe, 1);
184 }
185
186 /* XXX release mutex or decrement reference count */
187 }
188
189
BnxeFcoeInitWqe(um_device_t * pUM,union fcoe_kwqe ** kwqes)190 static boolean_t BnxeFcoeInitWqe(um_device_t * pUM,
191 union fcoe_kwqe ** kwqes)
192 {
193 union fcoe_kwqe wqe[3];
194
195 wqe[0] =*(kwqes[0]);
196 wqe[1] =*(kwqes[1]);
197 wqe[2] =*(kwqes[2]);
198
199 return BnxeWorkQueueAdd(pUM, BnxeFcoeInitWqeWork, wqe, sizeof(wqe));
200 }
201
202
BnxeFcoeOffloadConnCqeWork(um_device_t * pUM,void * pData,u32_t dataLen)203 static void BnxeFcoeOffloadConnCqeWork(um_device_t * pUM,
204 void * pData,
205 u32_t dataLen)
206 {
207 if (!BnxeFcoeCqeIndicate(pUM, pData, dataLen))
208 {
209 pUM->fcoe.stats.offloadConnCqeRxErr++;
210 }
211 else
212 {
213 pUM->fcoe.stats.offloadConnCqeRx++;
214 }
215 }
216
217
BnxeFcoeOffloadConnCqe(um_device_t * pUM,BnxeFcoeState * pFcoeState,struct fcoe_kcqe * kcqe)218 boolean_t BnxeFcoeOffloadConnCqe(um_device_t * pUM,
219 BnxeFcoeState * pFcoeState,
220 struct fcoe_kcqe * kcqe)
221 {
222 struct fcoe_kcqe tmp_kcqe = {0};
223
224 tmp_kcqe.op_code = FCOE_KCQE_OPCODE_OFFLOAD_CONN;
225
226 tmp_kcqe.flags |=
227 (FCOE_KWQE_LAYER_CODE << FCOE_KWQE_HEADER_LAYER_CODE_SHIFT);
228
229 tmp_kcqe.fcoe_conn_context_id = kcqe->fcoe_conn_context_id;
230 tmp_kcqe.fcoe_conn_id = kcqe->fcoe_conn_id;
231
232 tmp_kcqe.completion_status =
233 mm_cpu_to_le32((mm_le32_to_cpu(kcqe->completion_status) == 0) ?
234 FCOE_KCQE_COMPLETION_STATUS_SUCCESS :
235 FCOE_KCQE_COMPLETION_STATUS_CTX_ALLOC_FAILURE);
236
237 if (pFcoeState != NULL)
238 {
239 pFcoeState->lm_fcoe.hdr.status =
240 (mm_le32_to_cpu(kcqe->completion_status) == 0) ?
241 STATE_STATUS_NORMAL :
242 STATE_STATUS_INIT_OFFLOAD_ERR;
243 }
244
245 return BnxeWorkQueueAdd(pUM, BnxeFcoeOffloadConnCqeWork,
246 &tmp_kcqe, sizeof(tmp_kcqe));
247 }
248
249
BnxeFcoeOffloadConnWqeWork(um_device_t * pUM,void * pData,u32_t dataLen)250 static void BnxeFcoeOffloadConnWqeWork(um_device_t * pUM,
251 void * pData,
252 u32_t dataLen)
253 {
254 union fcoe_kwqe * kwqe = (union fcoe_kwqe *)pData;
255 struct fcoe_kcqe kcqe = {0};
256 BnxeFcoeState * pFcoeState;
257 lm_status_t rc;
258
259 if (dataLen != (4 * sizeof(*kwqe)))
260 {
261 BnxeLogWarn(pUM, "Invalid FCoE Offload Conn WQE");
262 pUM->fcoe.stats.offloadConnWqeTxErr++;
263 return;
264 }
265
266 if ((pFcoeState = kmem_zalloc(sizeof(BnxeFcoeState),
267 KM_NOSLEEP)) == NULL)
268 {
269 BnxeLogWarn(pUM, "Failed to allocate memory for FCoE state");
270 goto BnxeFcoeOffloadConnWqeWork_error;
271 }
272
273 BNXE_LOCK_ENTER_OFFLOAD(pUM);
274 rc = lm_fc_init_fcoe_state(&pUM->lm_dev,
275 &pUM->lm_dev.fcoe_info.run_time.state_blk,
276 &pFcoeState->lm_fcoe);
277 BNXE_LOCK_EXIT_OFFLOAD(pUM);
278
279 if (rc != LM_STATUS_SUCCESS)
280 {
281 kmem_free(pFcoeState, sizeof(BnxeFcoeState));
282
283 BnxeLogWarn(pUM, "Failed to initialize FCoE state");
284 goto BnxeFcoeOffloadConnWqeWork_error;
285 }
286
287 pFcoeState->lm_fcoe.ofld1 = kwqe[0].conn_offload1;
288 pFcoeState->lm_fcoe.ofld2 = kwqe[1].conn_offload2;
289 pFcoeState->lm_fcoe.ofld3 = kwqe[2].conn_offload3;
290 pFcoeState->lm_fcoe.ofld4 = kwqe[3].conn_offload4;
291
292 rc = lm_fc_alloc_con_resc(&pUM->lm_dev, &pFcoeState->lm_fcoe);
293
294 if (rc == LM_STATUS_SUCCESS)
295 {
296 lm_fc_init_fcoe_context(&pUM->lm_dev, &pFcoeState->lm_fcoe);
297 lm_fc_post_offload_ramrod(&pUM->lm_dev, &pFcoeState->lm_fcoe);
298 }
299 else if (rc == LM_STATUS_PENDING)
300 {
301 /*
302 * the cid is pending - its too soon to initialize the context, it will
303 * be initialized from the recycle cid callback and completed as well.
304 */
305 BnxeLogInfo(pUM, "lm_fc_alloc_con_resc returned pending?");
306 }
307 else
308 {
309 BnxeFcoeFreeResc(pUM, pFcoeState);
310 BnxeLogInfo(pUM, "lm_fc_alloc_con_resc failed (%d)", rc);
311 goto BnxeFcoeOffloadConnWqeWork_error;
312 }
313
314 pUM->fcoe.stats.offloadConnWqeTx++;
315
316 return;
317
318 BnxeFcoeOffloadConnWqeWork_error:
319
320 pUM->fcoe.stats.offloadConnWqeTxErr++;
321
322 kcqe.op_code = FCOE_KCQE_OPCODE_OFFLOAD_CONN;
323 kcqe.flags |= (FCOE_KWQE_LAYER_CODE << FCOE_KWQE_HEADER_LAYER_CODE_SHIFT);
324 kcqe.completion_status = mm_cpu_to_le32(FCOE_KCQE_COMPLETION_STATUS_CTX_ALLOC_FAILURE);
325 kcqe.fcoe_conn_id = kwqe[0].conn_offload1.fcoe_conn_id;
326
327 /* call here directly (for error case) */
328
329 /* XXX
330 * Need to add a mutex or reference count to ensure that bnxef isn't
331 * unloaded underneath this taskq dispatch routine.
332 */
333
334 {
335 struct fcoe_kcqe * pKcqe = &kcqe;
336 ASSERT(CLIENT_BOUND(pUM, LM_CLI_IDX_FCOE));
337 pUM->fcoe.bind.cliIndicateCqes(pUM->fcoe.pDev,
338 (void **)&pKcqe, 1);
339 }
340
341 /* XXX release mutex or decrement reference count */
342 }
343
344
BnxeFcoeOffloadConnWqe(um_device_t * pUM,union fcoe_kwqe ** kwqes)345 static boolean_t BnxeFcoeOffloadConnWqe(um_device_t * pUM,
346 union fcoe_kwqe ** kwqes)
347 {
348 union fcoe_kwqe wqe[4];
349
350 wqe[0] =*(kwqes[0]);
351 wqe[1] =*(kwqes[1]);
352 wqe[2] =*(kwqes[2]);
353 wqe[3] =*(kwqes[3]);
354
355 return BnxeWorkQueueAdd(pUM, BnxeFcoeOffloadConnWqeWork,
356 wqe, sizeof(wqe));
357 }
358
359
BnxeFcoeEnableConnCqeWork(um_device_t * pUM,void * pData,u32_t dataLen)360 static void BnxeFcoeEnableConnCqeWork(um_device_t * pUM,
361 void * pData,
362 u32_t dataLen)
363 {
364 if (!BnxeFcoeCqeIndicate(pUM, pData, dataLen))
365 {
366 pUM->fcoe.stats.enableConnCqeRxErr++;
367 }
368 else
369 {
370 pUM->fcoe.stats.enableConnCqeRx++;
371 }
372 }
373
374
BnxeFcoeEnableConnCqe(um_device_t * pUM,BnxeFcoeState * pFcoeState,struct fcoe_kcqe * kcqe)375 boolean_t BnxeFcoeEnableConnCqe(um_device_t * pUM,
376 BnxeFcoeState * pFcoeState,
377 struct fcoe_kcqe * kcqe)
378 {
379 struct fcoe_kcqe tmp_kcqe = {0};
380
381 tmp_kcqe.op_code = FCOE_KCQE_OPCODE_ENABLE_CONN;
382
383 tmp_kcqe.flags |=
384 (FCOE_KWQE_LAYER_CODE << FCOE_KWQE_HEADER_LAYER_CODE_SHIFT);
385
386 tmp_kcqe.fcoe_conn_context_id = kcqe->fcoe_conn_context_id;
387 tmp_kcqe.fcoe_conn_id = kcqe->fcoe_conn_id;
388
389 tmp_kcqe.completion_status =
390 mm_cpu_to_le32((mm_le32_to_cpu(kcqe->completion_status) == 0) ?
391 FCOE_KCQE_COMPLETION_STATUS_SUCCESS :
392 FCOE_KCQE_COMPLETION_STATUS_CTX_ALLOC_FAILURE);
393
394 if (pFcoeState != NULL)
395 {
396 pFcoeState->lm_fcoe.hdr.status =
397 (mm_le32_to_cpu(kcqe->completion_status) == 0) ?
398 STATE_STATUS_NORMAL :
399 STATE_STATUS_INIT_OFFLOAD_ERR;
400 }
401
402 return BnxeWorkQueueAdd(pUM, BnxeFcoeEnableConnCqeWork,
403 &tmp_kcqe, sizeof(tmp_kcqe));
404 }
405
406
BnxeFcoeEnableConnWqeWork(um_device_t * pUM,void * pData,u32_t dataLen)407 static void BnxeFcoeEnableConnWqeWork(um_device_t * pUM,
408 void * pData,
409 u32_t dataLen)
410 {
411 union fcoe_kwqe * kwqe = (union fcoe_kwqe *)pData;
412 struct fcoe_kcqe kcqe = {0};
413 BnxeFcoeState * pFcoeState;
414
415 if (dataLen != sizeof(*kwqe))
416 {
417 BnxeLogWarn(pUM, "Invalid FCoE Enable Conn WQE");
418 pUM->fcoe.stats.enableConnWqeTxErr++;
419 return;
420 }
421
422 pFcoeState =
423 lm_cid_cookie(&pUM->lm_dev,
424 FCOE_CONNECTION_TYPE,
425 SW_CID(mm_le32_to_cpu(kwqe->conn_enable_disable.context_id)));
426
427 if (pFcoeState == NULL)
428 {
429 goto BnxeFcoeEnableConnWqeWork_error;
430 }
431
432 if (lm_fc_post_enable_ramrod(&pUM->lm_dev,
433 &pFcoeState->lm_fcoe,
434 &kwqe->conn_enable_disable) !=
435 LM_STATUS_SUCCESS)
436 {
437 goto BnxeFcoeEnableConnWqeWork_error;
438 }
439
440 pUM->fcoe.stats.enableConnWqeTx++;
441
442 return;
443
444 BnxeFcoeEnableConnWqeWork_error:
445
446 pUM->fcoe.stats.enableConnWqeTxErr++;
447
448 BnxeLogWarn(pUM, "Failed to post FCoE Enable Conn WQE");
449
450 kcqe.op_code = FCOE_KCQE_OPCODE_ENABLE_CONN;
451 kcqe.flags |= (FCOE_KWQE_LAYER_CODE << FCOE_KWQE_HEADER_LAYER_CODE_SHIFT);
452 kcqe.fcoe_conn_context_id = kwqe->conn_enable_disable.context_id;
453 kcqe.completion_status = mm_cpu_to_le32(FCOE_KCQE_COMPLETION_STATUS_NIC_ERROR);
454
455 /* call here directly (for error case) */
456
457 /* XXX
458 * Need to add a mutex or reference count to ensure that bnxef isn't
459 * unloaded underneath this taskq dispatch routine.
460 */
461
462 {
463 struct fcoe_kcqe * pKcqe = &kcqe;
464 ASSERT(CLIENT_BOUND(pUM, LM_CLI_IDX_FCOE));
465 pUM->fcoe.bind.cliIndicateCqes(pUM->fcoe.pDev,
466 (void **)&pKcqe, 1);
467 }
468
469 /* XXX release mutex or decrement reference count */
470 }
471
472
BnxeFcoeEnableConnWqe(um_device_t * pUM,union fcoe_kwqe ** kwqes)473 static boolean_t BnxeFcoeEnableConnWqe(um_device_t * pUM,
474 union fcoe_kwqe ** kwqes)
475 {
476 return BnxeWorkQueueAdd(pUM, BnxeFcoeEnableConnWqeWork,
477 kwqes[0], sizeof(*(kwqes[0])));
478 }
479
480
BnxeFcoeDisableConnCqeWork(um_device_t * pUM,void * pData,u32_t dataLen)481 static void BnxeFcoeDisableConnCqeWork(um_device_t * pUM,
482 void * pData,
483 u32_t dataLen)
484 {
485 if (!BnxeFcoeCqeIndicate(pUM, pData, dataLen))
486 {
487 pUM->fcoe.stats.disableConnCqeRxErr++;
488 }
489 else
490 {
491 pUM->fcoe.stats.disableConnCqeRx++;
492 }
493 }
494
495
BnxeFcoeDisableConnCqe(um_device_t * pUM,BnxeFcoeState * pFcoeState,struct fcoe_kcqe * kcqe)496 boolean_t BnxeFcoeDisableConnCqe(um_device_t * pUM,
497 BnxeFcoeState * pFcoeState,
498 struct fcoe_kcqe * kcqe)
499 {
500 struct fcoe_kcqe tmp_kcqe = {0};
501
502 tmp_kcqe.op_code = FCOE_KCQE_OPCODE_DISABLE_CONN;
503
504 tmp_kcqe.flags |=
505 (FCOE_KWQE_LAYER_CODE << FCOE_KWQE_HEADER_LAYER_CODE_SHIFT);
506
507 tmp_kcqe.fcoe_conn_context_id = kcqe->fcoe_conn_context_id;
508 tmp_kcqe.fcoe_conn_id = kcqe->fcoe_conn_id;
509
510 tmp_kcqe.completion_status =
511 mm_cpu_to_le32((mm_le32_to_cpu(kcqe->completion_status) == 0) ?
512 FCOE_KCQE_COMPLETION_STATUS_SUCCESS :
513 FCOE_KCQE_COMPLETION_STATUS_NIC_ERROR);
514
515 if (pFcoeState != NULL)
516 {
517 pFcoeState->lm_fcoe.hdr.status =
518 (mm_le32_to_cpu(kcqe->completion_status) == 0) ?
519 STATE_STATUS_NORMAL :
520 STATE_STATUS_INIT_OFFLOAD_ERR;
521 }
522
523 return BnxeWorkQueueAdd(pUM, BnxeFcoeDisableConnCqeWork,
524 &tmp_kcqe, sizeof(tmp_kcqe));
525 }
526
527
BnxeFcoeDisableConnWqeWork(um_device_t * pUM,void * pData,u32_t dataLen)528 static void BnxeFcoeDisableConnWqeWork(um_device_t * pUM,
529 void * pData,
530 u32_t dataLen)
531 {
532 union fcoe_kwqe * kwqe = (union fcoe_kwqe *)pData;
533 struct fcoe_kcqe kcqe = {0};
534 BnxeFcoeState * pFcoeState;
535
536 if (dataLen != sizeof(*kwqe))
537 {
538 BnxeLogWarn(pUM, "Invalid FCoE Disable Conn WQE");
539 pUM->fcoe.stats.disableConnWqeTxErr++;
540 return;
541 }
542
543 pFcoeState =
544 lm_cid_cookie(&pUM->lm_dev,
545 FCOE_CONNECTION_TYPE,
546 SW_CID(mm_le32_to_cpu(kwqe->conn_enable_disable.context_id)));
547
548 if (pFcoeState == NULL)
549 {
550 goto BnxeFcoeDisableConnWqeWork_error;
551 }
552
553 if (lm_fc_post_disable_ramrod(&pUM->lm_dev,
554 &pFcoeState->lm_fcoe,
555 &kwqe->conn_enable_disable) !=
556 LM_STATUS_SUCCESS)
557 {
558 goto BnxeFcoeDisableConnWqeWork_error;
559 }
560
561 pUM->fcoe.stats.disableConnWqeTx++;
562
563 return;
564
565 BnxeFcoeDisableConnWqeWork_error:
566
567 pUM->fcoe.stats.disableConnWqeTxErr++;
568
569 BnxeLogWarn(pUM, "Failed to post FCoE Disable Conn WQE");
570
571 kcqe.op_code = FCOE_KCQE_OPCODE_DISABLE_CONN;
572 kcqe.flags |= (FCOE_KWQE_LAYER_CODE << FCOE_KWQE_HEADER_LAYER_CODE_SHIFT);
573 kcqe.fcoe_conn_context_id = kwqe->conn_enable_disable.context_id;
574 kcqe.completion_status = mm_cpu_to_le32(FCOE_KCQE_COMPLETION_STATUS_NIC_ERROR);
575
576 /* call here directly (for error case) */
577
578 /* XXX
579 * Need to add a mutex or reference count to ensure that bnxef isn't
580 * unloaded underneath this taskq dispatch routine.
581 */
582
583 {
584 struct fcoe_kcqe * pKcqe = &kcqe;
585 ASSERT(CLIENT_BOUND(pUM, LM_CLI_IDX_FCOE));
586 pUM->fcoe.bind.cliIndicateCqes(pUM->fcoe.pDev,
587 (void **)&pKcqe, 1);
588 }
589
590 /* XXX release mutex or decrement reference count */
591 }
592
593
BnxeFcoeDisableConnWqe(um_device_t * pUM,union fcoe_kwqe ** kwqes)594 static boolean_t BnxeFcoeDisableConnWqe(um_device_t * pUM,
595 union fcoe_kwqe ** kwqes)
596 {
597 return BnxeWorkQueueAdd(pUM, BnxeFcoeDisableConnWqeWork,
598 kwqes[0], sizeof(*(kwqes[0])));
599 }
600
601
BnxeFcoeDestroyConnCqeWork(um_device_t * pUM,void * pData,u32_t dataLen)602 static void BnxeFcoeDestroyConnCqeWork(um_device_t * pUM,
603 void * pData,
604 u32_t dataLen)
605 {
606 struct fcoe_kcqe * kcqe = (struct fcoe_kcqe *)pData;
607 BnxeFcoeState * pFcoeState;
608
609 if (dataLen != (sizeof(*kcqe)))
610 {
611 BnxeLogWarn(pUM, "Invalid FCoE Destroy Conn CQE");
612 pUM->fcoe.stats.destroyConnCqeRxErr++;
613 return;
614 }
615
616 pFcoeState =
617 lm_cid_cookie(&pUM->lm_dev,
618 FCOE_CONNECTION_TYPE,
619 SW_CID(mm_le32_to_cpu(kcqe->fcoe_conn_context_id)));
620
621 BnxeFcoeFreeResc(pUM, pFcoeState);
622
623 if (!BnxeFcoeCqeIndicate(pUM, pData, dataLen))
624 {
625 pUM->fcoe.stats.destroyConnCqeRxErr++;
626 }
627 else
628 {
629 pUM->fcoe.stats.destroyConnCqeRx++;
630 }
631 }
632
633
BnxeFcoeDestroyConnCqe(um_device_t * pUM,BnxeFcoeState * pFcoeState,struct fcoe_kcqe * kcqe)634 boolean_t BnxeFcoeDestroyConnCqe(um_device_t * pUM,
635 BnxeFcoeState * pFcoeState,
636 struct fcoe_kcqe * kcqe)
637 {
638 struct fcoe_kcqe tmp_kcqe = {0};
639
640 tmp_kcqe.op_code = FCOE_KCQE_OPCODE_DESTROY_CONN;
641
642 tmp_kcqe.flags |=
643 (FCOE_KWQE_LAYER_CODE << FCOE_KWQE_HEADER_LAYER_CODE_SHIFT);
644
645 tmp_kcqe.fcoe_conn_context_id = kcqe->fcoe_conn_context_id;
646 tmp_kcqe.fcoe_conn_id = kcqe->fcoe_conn_id;
647
648 tmp_kcqe.completion_status =
649 mm_cpu_to_le32((mm_le32_to_cpu(kcqe->completion_status) == 0) ?
650 FCOE_KCQE_COMPLETION_STATUS_SUCCESS :
651 FCOE_KCQE_COMPLETION_STATUS_NIC_ERROR);
652
653 if (pFcoeState != NULL)
654 {
655 pFcoeState->lm_fcoe.hdr.status =
656 (mm_le32_to_cpu(kcqe->completion_status) == 0) ?
657 STATE_STATUS_NORMAL :
658 STATE_STATUS_INIT_OFFLOAD_ERR;
659 }
660
661 return BnxeWorkQueueAdd(pUM, BnxeFcoeDestroyConnCqeWork,
662 &tmp_kcqe, sizeof(tmp_kcqe));
663 }
664
665
BnxeFcoeDestroyConnWqeWork(um_device_t * pUM,void * pData,u32_t dataLen)666 static void BnxeFcoeDestroyConnWqeWork(um_device_t * pUM,
667 void * pData,
668 u32_t dataLen)
669 {
670 union fcoe_kwqe * kwqe = (union fcoe_kwqe *)pData;
671 struct fcoe_kcqe kcqe = {0};
672 BnxeFcoeState * pFcoeState;
673
674 if (dataLen != sizeof(*kwqe))
675 {
676 BnxeLogWarn(pUM, "Invalid FCoE Destroy Conn WQE");
677 pUM->fcoe.stats.destroyConnWqeTxErr++;
678 return;
679 }
680
681 pFcoeState =
682 lm_cid_cookie(&pUM->lm_dev,
683 FCOE_CONNECTION_TYPE,
684 SW_CID(mm_le32_to_cpu(kwqe->conn_destroy.context_id)));
685
686 if (pFcoeState == NULL)
687 {
688 goto BnxeFcoeDestroyConnWqeWork_error;
689 }
690
691 if (lm_fc_post_terminate_ramrod(&pUM->lm_dev,
692 &pFcoeState->lm_fcoe) !=
693 LM_STATUS_SUCCESS)
694 {
695 goto BnxeFcoeDestroyConnWqeWork_error;
696 }
697
698 pUM->fcoe.stats.destroyConnWqeTx++;
699
700 return;
701
702 BnxeFcoeDestroyConnWqeWork_error:
703
704 pUM->fcoe.stats.destroyConnWqeTxErr++;
705
706 BnxeLogWarn(pUM, "Failed to post FCoE Destroy Conn WQE");
707
708 kcqe.op_code = FCOE_KCQE_OPCODE_DESTROY_CONN;
709 kcqe.flags |= (FCOE_KWQE_LAYER_CODE << FCOE_KWQE_HEADER_LAYER_CODE_SHIFT);
710 kcqe.fcoe_conn_context_id = kwqe->conn_destroy.context_id;
711 kcqe.fcoe_conn_id = kwqe->conn_destroy.conn_id;
712 kcqe.completion_status = mm_cpu_to_le32(FCOE_KCQE_COMPLETION_STATUS_NIC_ERROR);
713
714 /* call here directly (for error case) */
715
716 /* XXX
717 * Need to add a mutex or reference count to ensure that bnxef isn't
718 * unloaded underneath this taskq dispatch routine.
719 */
720
721 {
722 struct fcoe_kcqe * pKcqe = &kcqe;
723 ASSERT(CLIENT_BOUND(pUM, LM_CLI_IDX_FCOE));
724 pUM->fcoe.bind.cliIndicateCqes(pUM->fcoe.pDev,
725 (void **)&pKcqe, 1);
726 }
727
728 /* XXX release mutex or decrement reference count */
729 }
730
731
BnxeFcoeDestroyConnWqe(um_device_t * pUM,union fcoe_kwqe ** kwqes)732 static boolean_t BnxeFcoeDestroyConnWqe(um_device_t * pUM,
733 union fcoe_kwqe ** kwqes)
734 {
735 return BnxeWorkQueueAdd(pUM, BnxeFcoeDestroyConnWqeWork,
736 kwqes[0], sizeof(*(kwqes[0])));
737 }
738
739
BnxeFcoeDestroyCqeWork(um_device_t * pUM,void * pData,u32_t dataLen)740 static void BnxeFcoeDestroyCqeWork(um_device_t * pUM,
741 void * pData,
742 u32_t dataLen)
743 {
744 if (!BnxeFcoeCqeIndicate(pUM, pData, dataLen))
745 {
746 pUM->fcoe.stats.destroyCqeRxErr++;
747 }
748 else
749 {
750 pUM->fcoe.stats.destroyCqeRx++;
751 }
752 }
753
754
BnxeFcoeDestroyCqe(um_device_t * pUM,struct fcoe_kcqe * kcqe)755 boolean_t BnxeFcoeDestroyCqe(um_device_t * pUM,
756 struct fcoe_kcqe * kcqe)
757 {
758 struct fcoe_kcqe tmp_kcqe = {0};
759
760 tmp_kcqe.op_code = FCOE_KCQE_OPCODE_DESTROY_FUNC;
761
762 tmp_kcqe.flags |=
763 (FCOE_KWQE_LAYER_CODE << FCOE_KWQE_HEADER_LAYER_CODE_SHIFT);
764
765 tmp_kcqe.completion_status =
766 mm_le32_to_cpu((mm_le32_to_cpu(kcqe->completion_status) == 0) ?
767 FCOE_KCQE_COMPLETION_STATUS_SUCCESS :
768 FCOE_KCQE_COMPLETION_STATUS_NIC_ERROR);
769
770 return BnxeWorkQueueAdd(pUM, BnxeFcoeDestroyCqeWork,
771 &tmp_kcqe, sizeof(tmp_kcqe));
772 }
773
774
BnxeFcoeDestroyWqeWork(um_device_t * pUM,void * pData,u32_t dataLen)775 static void BnxeFcoeDestroyWqeWork(um_device_t * pUM,
776 void * pData,
777 u32_t dataLen)
778 {
779 union fcoe_kwqe * kwqe = (union fcoe_kwqe *)pData;
780 struct fcoe_kcqe kcqe = {0};
781 BnxeFcoeState * pFcoeState;
782
783 if (dataLen != sizeof(*kwqe))
784 {
785 BnxeLogWarn(pUM, "Invalid FCoE Destroy WQE");
786 pUM->fcoe.stats.destroyWqeTxErr++;
787 return;
788 }
789
790 if (lm_fc_post_destroy_ramrod(&pUM->lm_dev) == LM_STATUS_SUCCESS)
791 {
792 pUM->fcoe.stats.destroyWqeTx++;
793 return;
794 }
795
796 pUM->fcoe.stats.destroyWqeTxErr++;
797
798 BnxeLogWarn(pUM, "Failed to post FCoE Destroy WQE");
799
800 kcqe.op_code = FCOE_KCQE_OPCODE_DESTROY_FUNC;
801 kcqe.flags |= (FCOE_KWQE_LAYER_CODE << FCOE_KWQE_HEADER_LAYER_CODE_SHIFT);
802 kcqe.completion_status = mm_cpu_to_le32(FCOE_KCQE_COMPLETION_STATUS_NIC_ERROR);
803
804 /* call here directly (for error case) */
805
806 /* XXX
807 * Need to add a mutex or reference count to ensure that bnxef isn't
808 * unloaded underneath this taskq dispatch routine.
809 */
810
811 {
812 struct fcoe_kcqe * pKcqe = &kcqe;
813 ASSERT(CLIENT_BOUND(pUM, LM_CLI_IDX_FCOE));
814 pUM->fcoe.bind.cliIndicateCqes(pUM->fcoe.pDev,
815 (void **)&pKcqe, 1);
816 }
817
818 /* XXX release mutex or decrement reference count */
819 }
820
821
BnxeFcoeDestroyWqe(um_device_t * pUM,union fcoe_kwqe ** kwqes)822 static boolean_t BnxeFcoeDestroyWqe(um_device_t * pUM,
823 union fcoe_kwqe ** kwqes)
824 {
825 return BnxeWorkQueueAdd(pUM, BnxeFcoeDestroyWqeWork,
826 kwqes[0], sizeof(*(kwqes[0])));
827 }
828
829
BnxeFcoeStatCqeWork(um_device_t * pUM,void * pData,u32_t dataLen)830 static void BnxeFcoeStatCqeWork(um_device_t * pUM,
831 void * pData,
832 u32_t dataLen)
833 {
834 if (!BnxeFcoeCqeIndicate(pUM, pData, dataLen))
835 {
836 pUM->fcoe.stats.statCqeRxErr++;
837 }
838 else
839 {
840 pUM->fcoe.stats.statCqeRx++;
841 }
842 }
843
844
BnxeFcoeStatCqe(um_device_t * pUM,struct fcoe_kcqe * kcqe)845 boolean_t BnxeFcoeStatCqe(um_device_t * pUM,
846 struct fcoe_kcqe * kcqe)
847 {
848 struct fcoe_kcqe tmp_kcqe = {0};
849
850 tmp_kcqe.op_code = FCOE_KCQE_OPCODE_STAT_FUNC;
851
852 tmp_kcqe.flags |=
853 (FCOE_KWQE_LAYER_CODE << FCOE_KWQE_HEADER_LAYER_CODE_SHIFT);
854
855 tmp_kcqe.completion_status =
856 mm_cpu_to_le32((mm_le32_to_cpu(kcqe->completion_status) == 0) ?
857 FCOE_KCQE_COMPLETION_STATUS_SUCCESS :
858 FCOE_KCQE_COMPLETION_STATUS_NIC_ERROR);
859
860 return BnxeWorkQueueAdd(pUM, BnxeFcoeStatCqeWork,
861 &tmp_kcqe, sizeof(tmp_kcqe));
862 }
863
864
BnxeFcoeStatWqeWork(um_device_t * pUM,void * pData,u32_t dataLen)865 static void BnxeFcoeStatWqeWork(um_device_t * pUM,
866 void * pData,
867 u32_t dataLen)
868 {
869 union fcoe_kwqe * kwqe = (union fcoe_kwqe *)pData;
870 struct fcoe_kcqe kcqe = {0};
871
872 if (dataLen != sizeof(*kwqe))
873 {
874 BnxeLogWarn(pUM, "Invalid FCoE Stat WQE");
875 pUM->fcoe.stats.statWqeTxErr++;
876 return;
877 }
878
879 if (lm_fc_post_stat_ramrod(&pUM->lm_dev,
880 &kwqe->statistics) == LM_STATUS_SUCCESS)
881 {
882 pUM->fcoe.stats.statWqeTx++;
883 return;
884 }
885
886 pUM->fcoe.stats.statWqeTxErr++;
887
888 BnxeLogWarn(pUM, "Failed to post FCoE Stat WQE");
889
890 kcqe.op_code = FCOE_KCQE_OPCODE_STAT_FUNC;
891 kcqe.flags |= (FCOE_KWQE_LAYER_CODE << FCOE_KWQE_HEADER_LAYER_CODE_SHIFT);
892 kcqe.completion_status = mm_cpu_to_le32(FCOE_KCQE_COMPLETION_STATUS_NIC_ERROR);
893
894 /* call here directly (for error case) */
895
896 /* XXX
897 * Need to add a mutex or reference count to ensure that bnxef isn't
898 * unloaded underneath this taskq dispatch routine.
899 */
900
901 {
902 struct fcoe_kcqe * pKcqe = &kcqe;
903 ASSERT(CLIENT_BOUND(pUM, LM_CLI_IDX_FCOE));
904 pUM->fcoe.bind.cliIndicateCqes(pUM->fcoe.pDev,
905 (void **)&pKcqe, 1);
906 }
907
908 /* XXX release mutex or decrement reference count */
909 }
910
911
BnxeFcoeStatWqe(um_device_t * pUM,union fcoe_kwqe ** kwqes)912 static boolean_t BnxeFcoeStatWqe(um_device_t * pUM,
913 union fcoe_kwqe ** kwqes)
914 {
915 return BnxeWorkQueueAdd(pUM, BnxeFcoeStatWqeWork,
916 kwqes[0], sizeof(*(kwqes[0])));
917 }
918
919
920 #define KCQE_LIMIT 64
921
BnxeFcoeCompRequestCqeWork(um_device_t * pUM,void * pData,u32_t dataLen)922 static void BnxeFcoeCompRequestCqeWork(um_device_t * pUM,
923 void * pData,
924 u32_t dataLen)
925 {
926 struct fcoe_kcqe * kcqe_arr = (struct fcoe_kcqe *)pData;
927 struct fcoe_kcqe * kcqes[KCQE_LIMIT];
928 u32_t num_kcqes;
929 int i;
930
931 if ((dataLen % (sizeof(*kcqe_arr))) != 0)
932 {
933 BnxeLogWarn(pUM, "Invalid FCoE Comp Request CQE array");
934 pUM->fcoe.stats.compRequestCqeRxErr++;
935 return;
936 }
937
938 num_kcqes = (dataLen / (sizeof(*kcqe_arr)));
939
940 /* init the kcqe pointer array */
941
942 for (i = 0; i < num_kcqes; i++)
943 {
944 kcqes[i] = &kcqe_arr[i];
945 }
946
947 ASSERT(CLIENT_BOUND(pUM, LM_CLI_IDX_FCOE));
948
949 if (!pUM->fcoe.bind.cliIndicateCqes(pUM->fcoe.pDev,
950 (void **)kcqes,
951 num_kcqes))
952 {
953 pUM->fcoe.stats.compRequestCqeRxErr++;
954 }
955 else
956 {
957 pUM->fcoe.stats.compRequestCqeRx += num_kcqes;
958 }
959 }
960
961
BnxeFcoeCompRequestCqe(um_device_t * pUM,struct fcoe_kcqe * kcqes,u32_t num_kcqes)962 boolean_t BnxeFcoeCompRequestCqe(um_device_t * pUM,
963 struct fcoe_kcqe * kcqes,
964 u32_t num_kcqes)
965 {
966 u32_t kcqesIdx = 0;
967 u32_t kcqesLimit = 0;
968 u32_t numUp;
969
970 /* Send up KCQE_LIMIT kcqes at a time... */
971
972 while (kcqesIdx < num_kcqes)
973 {
974 if (num_kcqes - kcqesIdx > KCQE_LIMIT)
975 {
976 kcqesLimit += KCQE_LIMIT;
977 }
978 else
979 {
980 kcqesLimit = num_kcqes;
981 }
982
983 numUp = (kcqesLimit % KCQE_LIMIT == 0) ? KCQE_LIMIT :
984 (kcqesLimit % KCQE_LIMIT);
985
986 #if 0
987 if (!BnxeWorkQueueAdd(pUM, BnxeFcoeCompRequestCqeWork,
988 kcqes + kcqesIdx,
989 (sizeof(struct fcoe_kcqe) * numUp)))
990 {
991 return B_FALSE;
992 }
993 #else
994 BnxeFcoeCompRequestCqeWork(pUM,
995 kcqes + kcqesIdx,
996 (sizeof(struct fcoe_kcqe) * numUp));
997 #endif
998
999 kcqesIdx += (kcqesLimit - kcqesIdx);
1000 }
1001
1002 return B_TRUE;
1003 }
1004
1005
BnxeFcoePrvCtl(dev_info_t * pDev,int cmd,void * pData,int dataLen)1006 boolean_t BnxeFcoePrvCtl(dev_info_t * pDev,
1007 int cmd,
1008 void * pData,
1009 int dataLen)
1010 {
1011 um_device_t * pUM = (um_device_t *)ddi_get_driver_private(pDev);
1012 BnxeFcoeInfo * pFcoeInfo;
1013 int rc, i;
1014
1015 /* sanity check */
1016 if (pUM == NULL || pUM->pDev != pDev)
1017 {
1018 BnxeLogWarn(NULL, "%s: dev_info_t match failed", __func__);
1019 return B_FALSE;
1020 }
1021
1022 BnxeLogDbg(pUM, "*** %s ***", __func__);
1023
1024 VERIFY_FCOE_BINDING(pUM);
1025
1026 switch (cmd)
1027 {
1028 case PRV_CTL_GET_MAC_ADDR:
1029
1030 if (dataLen < ETHERNET_ADDRESS_SIZE)
1031 {
1032 BnxeLogWarn(pUM, "Invalid MAC Address buffer length for get (%d)",
1033 dataLen);
1034 return B_FALSE;
1035 }
1036
1037 if (!pData)
1038 {
1039 BnxeLogWarn(pUM, "NULL MAC Address buffer for get");
1040 return B_FALSE;
1041 }
1042
1043 COPY_ETH_ADDRESS(pUM->lm_dev.hw_info.fcoe_mac_addr, pData);
1044
1045 return B_TRUE;
1046
1047 case PRV_CTL_SET_MAC_ADDR:
1048
1049 if (dataLen < ETHERNET_ADDRESS_SIZE)
1050 {
1051 BnxeLogWarn(pUM, "Invalid MAC Address length for set (%d)",
1052 dataLen);
1053 return B_FALSE;
1054 }
1055
1056 if (!pData)
1057 {
1058 BnxeLogWarn(pUM, "NULL MAC Address buffer for set");
1059 return B_FALSE;
1060 }
1061
1062 /* Validate MAC address */
1063 if (IS_ETH_MULTICAST(pData))
1064 {
1065 BnxeLogWarn(pUM, "Cannot program a mcast/bcast address as an MAC Address.");
1066 return B_FALSE;
1067 }
1068
1069 BNXE_LOCK_ENTER_HWINIT(pUM);
1070
1071 /* XXX wrong? (overwriting fcoe hw programmed address!) */
1072 COPY_ETH_ADDRESS(pData, pUM->lm_dev.hw_info.fcoe_mac_addr);
1073
1074 rc = BnxeMacAddress(pUM, LM_CLI_IDX_FCOE, B_TRUE,
1075 pUM->lm_dev.hw_info.fcoe_mac_addr);
1076
1077 BNXE_LOCK_EXIT_HWINIT(pUM);
1078
1079 return (rc < 0) ? B_FALSE : B_TRUE;
1080
1081 case PRV_CTL_QUERY_PARAMS:
1082
1083 if (dataLen != sizeof(BnxeFcoeInfo))
1084 {
1085 BnxeLogWarn(pUM, "Invalid query buffer for FCoE (%d)",
1086 dataLen);
1087 return B_FALSE;
1088 }
1089
1090 if (!pData)
1091 {
1092 BnxeLogWarn(pUM, "Invalid query buffer for FCoE");
1093 return B_FALSE;
1094 }
1095
1096 pFcoeInfo = (BnxeFcoeInfo *)pData;
1097
1098 pFcoeInfo->flags = 0;
1099
1100 /*
1101 * Always set the FORCE_LOAD flags which tells bnxef to perform any
1102 * necessary delays needed when bringing up targets. This allows ample
1103 * time for bnxef to come up and finish for FCoE boot. If we don't
1104 * force a delay then there is a race condition and the kernel won't
1105 * find the root disk.
1106 */
1107 pFcoeInfo->flags |= FCOE_INFO_FLAG_FORCE_LOAD;
1108
1109 switch (pUM->lm_dev.params.mf_mode)
1110 {
1111 case SINGLE_FUNCTION:
1112 pFcoeInfo->flags |= FCOE_INFO_FLAG_MF_MODE_SF;
1113 break;
1114 case MULTI_FUNCTION_SD:
1115 pFcoeInfo->flags |= FCOE_INFO_FLAG_MF_MODE_SD;
1116 break;
1117 case MULTI_FUNCTION_SI:
1118 pFcoeInfo->flags |= FCOE_INFO_FLAG_MF_MODE_SI;
1119 break;
1120 case MULTI_FUNCTION_AFEX:
1121 pFcoeInfo->flags |= FCOE_INFO_FLAG_MF_MODE_AFEX;
1122 break;
1123 default:
1124 break;
1125 }
1126
1127 pFcoeInfo->max_fcoe_conn = pUM->lm_dev.params.max_func_fcoe_cons;
1128 pFcoeInfo->max_fcoe_exchanges = pUM->lm_dev.params.max_fcoe_task;
1129
1130 memcpy(&pFcoeInfo->wwn, &pUM->fcoe.wwn, sizeof(BnxeWwnInfo));
1131
1132 return B_TRUE;
1133
1134 case PRV_CTL_DISABLE_INTR:
1135
1136 BnxeIntrIguSbDisable(pUM, FCOE_CID(&pUM->lm_dev), B_FALSE);
1137 return B_TRUE;
1138
1139 case PRV_CTL_ENABLE_INTR:
1140
1141 BnxeIntrIguSbEnable(pUM, FCOE_CID(&pUM->lm_dev), B_FALSE);
1142 return B_TRUE;
1143
1144 case PRV_CTL_MBA_BOOT:
1145
1146 if (dataLen != sizeof(boolean_t))
1147 {
1148 BnxeLogWarn(pUM, "Invalid MBA boot check buffer for FCoE (%d)",
1149 dataLen);
1150 return B_FALSE;
1151 }
1152
1153 if (!pData)
1154 {
1155 BnxeLogWarn(pUM, "Invalid MBA boot check buffer for FCoE");
1156 return B_FALSE;
1157 }
1158
1159 *((boolean_t *)pData) =
1160 (pUM->iscsiInfo.signature != 0) ? B_TRUE : B_FALSE;
1161
1162 return B_TRUE;
1163
1164 case PRV_CTL_LINK_STATE:
1165
1166 if (dataLen != sizeof(boolean_t))
1167 {
1168 BnxeLogWarn(pUM, "Invalid link state buffer for FCoE (%d)",
1169 dataLen);
1170 return B_FALSE;
1171 }
1172
1173 if (!pData)
1174 {
1175 BnxeLogWarn(pUM, "Invalid link state buffer for FCoE");
1176 return B_FALSE;
1177 }
1178
1179 *((boolean_t *)pData) =
1180 (pUM->devParams.lastIndLink == LM_STATUS_LINK_ACTIVE) ?
1181 B_TRUE : B_FALSE;
1182
1183 return B_TRUE;
1184
1185 case PRV_CTL_BOARD_TYPE:
1186
1187 if (!pData || (dataLen <= 0))
1188 {
1189 BnxeLogWarn(pUM, "Invalid board type buffer for FCoE");
1190 return B_FALSE;
1191 }
1192
1193 snprintf((char *)pData, dataLen, "%s", pUM->chipName);
1194
1195 return B_TRUE;
1196
1197 case PRV_CTL_BOARD_SERNUM:
1198
1199 if (!pData || (dataLen <= 0))
1200 {
1201 BnxeLogWarn(pUM, "Invalid board serial number buffer for FCoE");
1202 return B_FALSE;
1203 }
1204
1205 snprintf((char *)pData, dataLen,
1206 "%c%c%c%c%c%c%c%c%c%c%c%c%c%c%c%c",
1207 pUM->lm_dev.hw_info.board_num[0],
1208 pUM->lm_dev.hw_info.board_num[1],
1209 pUM->lm_dev.hw_info.board_num[2],
1210 pUM->lm_dev.hw_info.board_num[3],
1211 pUM->lm_dev.hw_info.board_num[4],
1212 pUM->lm_dev.hw_info.board_num[5],
1213 pUM->lm_dev.hw_info.board_num[6],
1214 pUM->lm_dev.hw_info.board_num[7],
1215 pUM->lm_dev.hw_info.board_num[8],
1216 pUM->lm_dev.hw_info.board_num[9],
1217 pUM->lm_dev.hw_info.board_num[10],
1218 pUM->lm_dev.hw_info.board_num[11],
1219 pUM->lm_dev.hw_info.board_num[12],
1220 pUM->lm_dev.hw_info.board_num[13],
1221 pUM->lm_dev.hw_info.board_num[14],
1222 pUM->lm_dev.hw_info.board_num[15]);
1223
1224 return B_TRUE;
1225
1226 case PRV_CTL_BOOTCODE_VERSION:
1227
1228 if (!pData || (dataLen <= 0))
1229 {
1230 BnxeLogWarn(pUM, "Invalid boot code version buffer for FCoE");
1231 return B_FALSE;
1232 }
1233
1234 snprintf((char *)pData, dataLen, "%s", pUM->versionBC);
1235
1236 return B_TRUE;
1237
1238 case PRV_CTL_REPORT_FCOE_STATS:
1239
1240 if (!pData ||
1241 (dataLen !=
1242 sizeof(pUM->lm_dev.vars.stats.stats_mirror.
1243 stats_drv.drv_info_to_mfw.fcoe_stats)))
1244 {
1245 BnxeLogWarn(pUM, "Invalid stats reporting buffer for FCoE");
1246 return B_FALSE;
1247 }
1248
1249 memcpy(&pUM->lm_dev.vars.stats.stats_mirror.
1250 stats_drv.drv_info_to_mfw.fcoe_stats,
1251 (fcoe_stats_info_t *)pData,
1252 sizeof(fcoe_stats_info_t));
1253
1254 return B_TRUE;
1255
1256 case PRV_CTL_SET_CAPS:
1257
1258 if (!pData || (dataLen != sizeof(struct fcoe_capabilities)))
1259 {
1260 BnxeLogWarn(pUM, "Invalid capabilities buffer for FCoE");
1261 return B_FALSE;
1262 }
1263
1264 memcpy(&pUM->lm_dev.vars.stats.stats_mirror.stats_drv.
1265 drv_info_to_shmem.fcoe_capabilities,
1266 pData,
1267 sizeof(pUM->lm_dev.vars.stats.stats_mirror.stats_drv.
1268 drv_info_to_shmem.fcoe_capabilities));
1269
1270 lm_ncsi_fcoe_cap_to_scratchpad(&pUM->lm_dev);
1271
1272 return B_TRUE;
1273
1274 default:
1275
1276 BnxeLogWarn(pUM, "Unknown provider command %d", cmd);
1277 return B_FALSE;
1278 }
1279 }
1280
1281
BnxeFcoePrvTx(dev_info_t * pDev,mblk_t * pMblk,u32_t flags,u16_t vlan_tag)1282 mblk_t * BnxeFcoePrvTx(dev_info_t * pDev,
1283 mblk_t * pMblk,
1284 u32_t flags,
1285 u16_t vlan_tag)
1286 {
1287 um_device_t * pUM = (um_device_t *)ddi_get_driver_private(pDev);
1288 lm_device_t * pLM = &pUM->lm_dev;
1289 mblk_t * pNextMblk = NULL;
1290 int txCount = 0;
1291 int rc;
1292
1293 /* sanity check */
1294 if (pUM == NULL || pUM->pDev != pDev)
1295 {
1296 BnxeLogWarn(NULL, "%s: dev_info_t match failed", __func__);
1297 return pMblk;
1298 }
1299
1300 VERIFY_FCOE_BINDING(pUM);
1301
1302 BnxeLogDbg(pUM, "*** %s ***", __func__);
1303
1304 while (pMblk)
1305 {
1306 txCount++;
1307
1308 pNextMblk = pMblk->b_next;
1309 pMblk->b_next = NULL;
1310
1311 rc = BnxeTxSendMblk(pUM, FCOE_CID(pLM), pMblk, flags, vlan_tag);
1312
1313 if (rc == BNXE_TX_GOODXMIT)
1314 {
1315 pMblk = pNextMblk;
1316 continue;
1317 }
1318 else if (rc == BNXE_TX_DEFERPKT)
1319 {
1320 pMblk = pNextMblk;
1321 }
1322 else
1323 {
1324 pMblk->b_next = pNextMblk;
1325 }
1326
1327 break;
1328 }
1329
1330 return pMblk;
1331 }
1332
1333
BnxeFcoePrvPoll(dev_info_t * pDev)1334 boolean_t BnxeFcoePrvPoll(dev_info_t * pDev)
1335 {
1336 um_device_t * pUM = (um_device_t *)ddi_get_driver_private(pDev);
1337 RxQueue * pRxQ = &pUM->rxq[FCOE_CID(&pUM->lm_dev)];
1338 u32_t idx = pRxQ->idx;
1339
1340 /* sanity check */
1341 if (pUM == NULL || pUM->pDev != pDev)
1342 {
1343 BnxeLogWarn(NULL, "%s: dev_info_t match failed", __func__);
1344 return B_FALSE;
1345 }
1346
1347 VERIFY_FCOE_BINDING(pUM);
1348
1349 BnxeLogDbg(pUM, "*** %s ***", __func__);
1350
1351 if (pRxQ->inPollMode == B_FALSE)
1352 {
1353 BnxeLogWarn(pUM, "Polling on FCoE ring %d when NOT in poll mode!", idx);
1354 return B_FALSE;
1355 }
1356
1357 pRxQ->pollCnt++;
1358
1359 BnxePollRxRingFCOE(pUM);
1360
1361 return B_TRUE;
1362 }
1363
1364
BnxeFcoePrvSendWqes(dev_info_t * pDev,void * wqes[],int wqeCnt)1365 boolean_t BnxeFcoePrvSendWqes(dev_info_t * pDev,
1366 void * wqes[],
1367 int wqeCnt)
1368 {
1369 union fcoe_kwqe ** kwqes = (union fcoe_kwqe **)wqes;
1370 int kwqeCnt = 0;
1371
1372 um_device_t * pUM = (um_device_t *)ddi_get_driver_private(pDev);
1373
1374 /* sanity check */
1375 if (pUM == NULL || pUM->pDev != pDev)
1376 {
1377 BnxeLogWarn(NULL, "%s: dev_info_t match failed", __func__);
1378 return B_FALSE;
1379 }
1380
1381 VERIFY_FCOE_BINDING(pUM);
1382
1383 if ((kwqes == NULL) || (kwqes[0] == NULL))
1384 {
1385 BnxeLogWarn(pUM, "Invalid WQE array");
1386 return B_FALSE;
1387 }
1388
1389 BnxeLogDbg(pUM, "*** %s ***", __func__);
1390
1391 while (kwqeCnt < wqeCnt)
1392 {
1393 switch (kwqes[kwqeCnt]->init1.hdr.op_code)
1394 {
1395 case FCOE_KWQE_OPCODE_INIT1:
1396
1397 BnxeLogDbg(pUM, "*** %s - FCOE_KWQE_OPCODE_INIT", __func__);
1398
1399 if ((wqeCnt <= kwqeCnt + 2) ||
1400 (kwqes[kwqeCnt + 1] == NULL) ||
1401 (kwqes[kwqeCnt + 2] == NULL) ||
1402 (kwqes[kwqeCnt + 1]->init2.hdr.op_code != FCOE_KWQE_OPCODE_INIT2) ||
1403 (kwqes[kwqeCnt + 2]->init3.hdr.op_code != FCOE_KWQE_OPCODE_INIT3))
1404 {
1405 BnxeLogWarn(pUM, "FCoE Init kwqes error");
1406 pUM->fcoe.stats.initWqeTxErr++;
1407 return B_FALSE;
1408 }
1409
1410 if (!BnxeFcoeInitWqe(pUM, &kwqes[kwqeCnt]))
1411 {
1412 BnxeLogWarn(pUM, "Failed to init FCoE Init WQE work");
1413 return B_FALSE;
1414 }
1415
1416 kwqeCnt += 3;
1417
1418 break;
1419
1420 case FCOE_KWQE_OPCODE_OFFLOAD_CONN1:
1421
1422 BnxeLogDbg(pUM, "*** %s - FCOE_KWQE_OPCODE_OFFLOAD_CONN1", __func__);
1423
1424 if ((wqeCnt <= kwqeCnt + 3) ||
1425 (kwqes[kwqeCnt + 1] == NULL) ||
1426 (kwqes[kwqeCnt + 2] == NULL) ||
1427 (kwqes[kwqeCnt + 3] == NULL) ||
1428 (kwqes[kwqeCnt + 1]->conn_offload2.hdr.op_code != FCOE_KWQE_OPCODE_OFFLOAD_CONN2) ||
1429 (kwqes[kwqeCnt + 2]->conn_offload3.hdr.op_code != FCOE_KWQE_OPCODE_OFFLOAD_CONN3) ||
1430 (kwqes[kwqeCnt + 3]->conn_offload4.hdr.op_code != FCOE_KWQE_OPCODE_OFFLOAD_CONN4))
1431 {
1432 BnxeLogWarn(pUM, "FCoE Offload Conn kwqes error");
1433 pUM->fcoe.stats.offloadConnWqeTxErr++;
1434 return B_FALSE;
1435 }
1436
1437 if (!BnxeFcoeOffloadConnWqe(pUM, &kwqes[kwqeCnt]))
1438 {
1439 BnxeLogWarn(pUM, "Failed to init FCoE Offload Conn WQE work");
1440 return B_FALSE;
1441 }
1442
1443 kwqeCnt += 4;
1444
1445 break;
1446
1447 case FCOE_KWQE_OPCODE_ENABLE_CONN:
1448
1449 BnxeLogDbg(pUM, "*** %s - FCOE_KWQE_OPCODE_ENABLE_CONN", __func__);
1450
1451 if (!BnxeFcoeEnableConnWqe(pUM, &kwqes[kwqeCnt]))
1452 {
1453 BnxeLogWarn(pUM, "Failed to init FCoE Enable Conn WQE work");
1454 return B_FALSE;
1455 }
1456
1457 kwqeCnt += 1;
1458
1459 break;
1460
1461 case FCOE_KWQE_OPCODE_DISABLE_CONN:
1462
1463 BnxeLogDbg(pUM, "*** %s - FCOE_KWQE_OPCODE_DISABLE_CONN", __func__);
1464
1465 if (!BnxeFcoeDisableConnWqe(pUM, &kwqes[kwqeCnt]))
1466 {
1467 BnxeLogWarn(pUM, "Failed to init FCoE Disable Conn WQE work");
1468 return B_FALSE;
1469 }
1470
1471 kwqeCnt += 1;
1472
1473 break;
1474
1475 case FCOE_KWQE_OPCODE_DESTROY_CONN:
1476
1477 BnxeLogDbg(pUM, "*** %s - FCOE_KWQE_OPCODE_DESTROY_CONN", __func__);
1478
1479 if (!BnxeFcoeDestroyConnWqe(pUM, &kwqes[kwqeCnt]))
1480 {
1481 BnxeLogWarn(pUM, "Failed to init FCoE Destroy Conn WQE work");
1482 return B_FALSE;
1483 }
1484
1485 kwqeCnt += 1;
1486
1487 break;
1488
1489 case FCOE_KWQE_OPCODE_DESTROY:
1490
1491 BnxeLogDbg(pUM, "*** %s - FCOE_KWQE_OPCODE_DESTROY", __func__);
1492
1493 if (!BnxeFcoeDestroyWqe(pUM, &kwqes[kwqeCnt]))
1494 {
1495 BnxeLogWarn(pUM, "Failed to init FCoE Destroy WQE work");
1496 return B_FALSE;
1497 }
1498
1499 kwqeCnt += 1;
1500
1501 break;
1502
1503 case FCOE_KWQE_OPCODE_STAT:
1504
1505 BnxeLogDbg(pUM, "*** %s - FCOE_KWQE_OPCODE_STAT", __func__);
1506
1507 if (!BnxeFcoeStatWqe(pUM, &kwqes[kwqeCnt]))
1508 {
1509 BnxeLogWarn(pUM, "Failed to init FCoE Stat WQE work");
1510 return B_FALSE;
1511 }
1512
1513 kwqeCnt += 1;
1514
1515 break;
1516
1517 default:
1518
1519 BnxeDbgBreakMsg(pUM, "Invalid KWQE opcode");
1520 return B_FALSE;
1521 }
1522 }
1523
1524 return B_TRUE;
1525 }
1526
1527
BnxeFcoePrvMapMailboxq(dev_info_t * pDev,u32_t cid,void ** ppMap,ddi_acc_handle_t * pAccHandle)1528 boolean_t BnxeFcoePrvMapMailboxq(dev_info_t * pDev,
1529 u32_t cid,
1530 void ** ppMap,
1531 ddi_acc_handle_t * pAccHandle)
1532 {
1533 um_device_t * pUM = (um_device_t *)ddi_get_driver_private(pDev);
1534
1535 /* sanity check */
1536 if (pUM == NULL || pUM->pDev != pDev)
1537 {
1538 BnxeLogWarn(NULL, "%s: dev_info_t match failed", __func__);
1539 return B_FALSE;
1540 }
1541
1542 VERIFY_FCOE_BINDING(pUM);
1543
1544 BnxeLogDbg(pUM, "*** %s ***", __func__);
1545
1546 /* get the right offset from the mapped bar */
1547
1548 *ppMap = (void *)((u8_t *)pUM->lm_dev.context_info->array[SW_CID(cid)].cid_resc.mapped_cid_bar_addr + DPM_TRIGER_TYPE);
1549 *pAccHandle = pUM->lm_dev.context_info->array[SW_CID(cid)].cid_resc.reg_handle;
1550
1551 if (!(*ppMap) || !(*pAccHandle))
1552 {
1553 BnxeLogWarn(pUM, "Cannot map mailboxq base address for FCoE");
1554 return B_FALSE;
1555 }
1556
1557 return B_TRUE;
1558 }
1559
1560
BnxeFcoePrvUnmapMailboxq(dev_info_t * pDev,u32_t cid,void * pMap,ddi_acc_handle_t accHandle)1561 boolean_t BnxeFcoePrvUnmapMailboxq(dev_info_t * pDev,
1562 u32_t cid,
1563 void * pMap,
1564 ddi_acc_handle_t accHandle)
1565 {
1566 um_device_t * pUM = (um_device_t *)ddi_get_driver_private(pDev);
1567 void * pTmp;
1568 ddi_acc_handle_t tmpAcc;
1569
1570 /* sanity check */
1571 if (pUM == NULL || pUM->pDev != pDev)
1572 {
1573 BnxeLogWarn(NULL, "%s: dev_info_t match failed", __func__);
1574 return B_FALSE;
1575 }
1576
1577 VERIFY_FCOE_BINDING(pUM);
1578
1579 BnxeLogDbg(pUM, "*** %s ***", __func__);
1580
1581 /* verify the mapped bar address */
1582 pTmp = (void *)((u8_t *)pUM->lm_dev.context_info->array[SW_CID(cid)].cid_resc.mapped_cid_bar_addr + DPM_TRIGER_TYPE);
1583 tmpAcc = pUM->lm_dev.context_info->array[SW_CID(cid)].cid_resc.reg_handle;
1584
1585 if ((pMap != pTmp) || (accHandle != tmpAcc))
1586 {
1587 BnxeLogWarn(pUM, "Invalid map info for FCoE (%p)", pMap);
1588 return B_FALSE;
1589 }
1590
1591 return B_TRUE;
1592 }
1593
1594
BnxeFcoeInit(um_device_t * pUM)1595 int BnxeFcoeInit(um_device_t * pUM)
1596 {
1597 char * pCompat[2] = { BNXEF_NAME, NULL };
1598 char name[256];
1599 int rc;
1600
1601 BnxeLogInfo(pUM, "Starting FCoE");
1602
1603 if (!BNXE_FCOE(pUM))
1604 {
1605 BnxeLogWarn(pUM, "FCoE not supported on this device");
1606 return ENOTSUP;
1607 }
1608
1609 //if (CLIENT_DEVI(pUM, LM_CLI_IDX_FCOE))
1610 if (pUM->fcoe.pDev)
1611 {
1612 BnxeLogWarn(pUM, "FCoE child node already initialized");
1613 return EEXIST;
1614 }
1615
1616 if (ndi_devi_alloc(pUM->pDev,
1617 BNXEF_NAME,
1618 DEVI_PSEUDO_NODEID,
1619 &pUM->fcoe.pDev) != NDI_SUCCESS)
1620 {
1621 BnxeLogWarn(pUM, "Failed to allocate a child node for FCoE");
1622 pUM->fcoe.pDev = NULL;
1623 return ENOMEM;
1624 }
1625
1626 if (ndi_prop_update_string_array(DDI_DEV_T_NONE,
1627 pUM->fcoe.pDev,
1628 "name",
1629 pCompat,
1630 1) != DDI_PROP_SUCCESS)
1631 {
1632 BnxeLogWarn(pUM, "Failed to set the name string for FCoE");
1633 /* XXX see other call to ndi_devi_free below */
1634 //ndi_devi_free(pUM->fcoe.pDev);
1635 pUM->fcoe.pDev = NULL;
1636 return ENOENT;
1637 }
1638
1639 CLIENT_DEVI_SET(pUM, LM_CLI_IDX_FCOE);
1640
1641 /*
1642 * XXX If/when supporting custom wwn's then prime them
1643 * here in so they will be passed to bnxef during BINDING.
1644 * Ideally custom wwn's will be set via the driver .conf
1645 * file and via a private driver property.
1646 */
1647 memset(&pUM->fcoe.wwn, 0, sizeof(BnxeWwnInfo));
1648 pUM->fcoe.wwn.fcp_pwwn_provided = B_TRUE;
1649 memcpy(pUM->fcoe.wwn.fcp_pwwn, pUM->lm_dev.hw_info.fcoe_wwn_port_name,
1650 BNXE_FCOE_WWN_SIZE);
1651 pUM->fcoe.wwn.fcp_nwwn_provided = B_TRUE;
1652 memcpy(pUM->fcoe.wwn.fcp_nwwn, pUM->lm_dev.hw_info.fcoe_wwn_node_name,
1653 BNXE_FCOE_WWN_SIZE);
1654
1655 BnxeLogInfo(pUM, "Created the FCoE child node %s@%s",
1656 BNXEF_NAME, ddi_get_name_addr(pUM->pDev));
1657
1658 if ((rc = ndi_devi_online(pUM->fcoe.pDev, NDI_ONLINE_ATTACH)) !=
1659 NDI_SUCCESS)
1660 {
1661 /* XXX
1662 * ndi_devi_free will cause a panic. Don't know why and we've
1663 * verified that Sun's FCoE driver does not free it either.
1664 */
1665 //ndi_devi_free(pUM->fcoe.pDev);
1666 CLIENT_DEVI_RESET(pUM, LM_CLI_IDX_FCOE);
1667 pUM->fcoe.pDev = NULL;
1668 BnxeLogInfo(pUM, "Unable to bind the QLogic FCoE driver (%d)", rc);
1669 return ECHILD;
1670 }
1671
1672 #if 0
1673 /* bring bnxef online and attach it */
1674 if (ndi_devi_bind_driver(pUM->fcoe.pDev, 0) != NDI_SUCCESS)
1675 {
1676 BnxeLogInfo(pUM, "Unable to bind the QLogic FCoE driver");
1677 }
1678 #endif
1679
1680 return 0;
1681 }
1682
1683
BnxeFcoeFini(um_device_t * pUM)1684 int BnxeFcoeFini(um_device_t * pUM)
1685 {
1686 int rc = 0;
1687 int nullDev = B_FALSE; /* false = wait for bnxef UNBIND */
1688
1689 BnxeLogInfo(pUM, "Stopping FCoE");
1690
1691 if (!BNXE_FCOE(pUM))
1692 {
1693 BnxeLogWarn(pUM, "FCoE not supported on this device");
1694 return ENOTSUP;
1695 }
1696
1697 if (CLIENT_BOUND(pUM, LM_CLI_IDX_FCOE))
1698 {
1699 if (pUM->fcoe.pDev == NULL)
1700 {
1701 BnxeLogWarn(pUM, "FCoE Client bound and pDev is NULL, FINI failed! %s@%s",
1702 BNXEF_NAME, ddi_get_name_addr(pUM->pDev));
1703 return ENOENT;
1704 }
1705 else if (pUM->fcoe.bind.cliCtl == NULL)
1706 {
1707 BnxeLogWarn(pUM, "FCoE Client bound and cliCtl is NULL, FINI failed! %s@%s",
1708 BNXEF_NAME, ddi_get_name_addr(pUM->pDev));
1709 return ENOENT;
1710 }
1711 else if (pUM->fcoe.bind.cliCtl(pUM->fcoe.pDev,
1712 CLI_CTL_UNLOAD,
1713 NULL,
1714 0) == B_FALSE)
1715 {
1716 BnxeLogWarn(pUM, "FCoE Client bound and UNLOAD failed! %s@%s",
1717 BNXEF_NAME, ddi_get_name_addr(pUM->pDev));
1718 return ENOMSG; /* no graceful unload with bnxef */
1719 }
1720 }
1721 else
1722 {
1723 rc = ENODEV;
1724 nullDev = B_TRUE;
1725 }
1726
1727 /*
1728 * There are times when delete-port doesn't fully work and bnxef is unable
1729 * to detach and never calls UNBIND. So here we'll just make sure that
1730 * the child dev node is not NULL which semi-gaurantees the UNBIND hasn't
1731 * been called yet. Multiple offline calls will hopefully kick bnxef...
1732 */
1733 //if (CLIENT_DEVI(pUM, LM_CLI_IDX_FCOE))
1734 if (pUM->fcoe.pDev)
1735 {
1736 CLIENT_DEVI_RESET(pUM, LM_CLI_IDX_FCOE);
1737
1738 BnxeLogWarn(pUM, "Bringing down QLogic FCoE driver %s@%s",
1739 BNXEF_NAME, ddi_get_name_addr(pUM->pDev));
1740
1741 #if 1
1742 if (ndi_devi_offline(pUM->fcoe.pDev, NDI_DEVI_REMOVE) != NDI_SUCCESS)
1743 {
1744 BnxeLogWarn(pUM, "Failed to bring the QLogic FCoE driver offline %s@%s",
1745 BNXEF_NAME, ddi_get_name_addr(pUM->pDev));
1746 return EBUSY;
1747 }
1748 #else
1749 ndi_devi_offline(pUM->fcoe.pDev, NDI_DEVI_REMOVE);
1750 if (nullDev) pUM->fcoe.pDev = NULL;
1751 #endif
1752
1753 memset(&pUM->fcoe.wwn, 0, sizeof(BnxeWwnInfo));
1754
1755 BnxeLogInfo(pUM, "Destroyed the FCoE child node %s@%s",
1756 BNXEF_NAME, ddi_get_name_addr(pUM->pDev));
1757 }
1758
1759 return rc;
1760 }
1761
1762
BnxeFcoeStartStop(um_device_t * pUM)1763 void BnxeFcoeStartStop(um_device_t * pUM)
1764 {
1765 int rc;
1766
1767 if (!BNXE_FCOE(pUM))
1768 {
1769 BnxeLogWarn(pUM, "FCoE is not supported on this device");
1770 return;
1771 }
1772
1773 if (pUM->devParams.fcoeEnable)
1774 {
1775 BnxeFcoeInit(pUM);
1776 }
1777 else
1778 {
1779 BnxeFcoeFini(pUM);
1780 }
1781 }
1782
1783