xref: /freebsd/contrib/ofed/opensm/libvendor/osm_vendor_al.c (revision 3c4ba5f55438f7afd4f4b0b56f88f2bb505fd6a6)
1 /*
2  * Copyright (c) 2004-2009 Voltaire, Inc. All rights reserved.
3  * Copyright (c) 2002-2005 Mellanox Technologies LTD. All rights reserved.
4  * Copyright (c) 1996-2003 Intel Corporation. All rights reserved.
5  *
6  * This software is available to you under a choice of one of two
7  * licenses.  You may choose to be licensed under the terms of the GNU
8  * General Public License (GPL) Version 2, available from the file
9  * COPYING in the main directory of this source tree, or the
10  * OpenIB.org BSD license below:
11  *
12  *     Redistribution and use in source and binary forms, with or
13  *     without modification, are permitted provided that the following
14  *     conditions are met:
15  *
16  *      - Redistributions of source code must retain the above
17  *        copyright notice, this list of conditions and the following
18  *        disclaimer.
19  *
20  *      - Redistributions in binary form must reproduce the above
21  *        copyright notice, this list of conditions and the following
22  *        disclaimer in the documentation and/or other materials
23  *        provided with the distribution.
24  *
25  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
26  * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
27  * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
28  * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
29  * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
30  * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
31  * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
32  * SOFTWARE.
33  *
34  */
35 
36 /*
37  * Abstract:
38  *    Implementation of osm_req_t.
39  * This object represents the generic attribute requester.
40  * This object is part of the opensm family of objects.
41  *
42  */
43 
44 /*
45   Next available error code: 0x300
46 */
47 
48 #if HAVE_CONFIG_H
49 #  include <config.h>
50 #endif				/* HAVE_CONFIG_H */
51 
52 #ifdef OSM_VENDOR_INTF_AL
53 
54 #include <stdlib.h>
55 #include <string.h>
56 #include <complib/cl_qlist.h>
57 #include <complib/cl_thread.h>
58 #include <complib/cl_math.h>
59 #include <complib/cl_debug.h>
60 #include <iba/ib_types.h>
61 #include <opensm/osm_madw.h>
62 #include <opensm/osm_log.h>
63 #include <opensm/osm_mad_pool.h>
64 #include <vendor/osm_vendor_api.h>
65 
66 /****s* OpenSM: Vendor AL/osm_al_bind_info_t
67  * NAME
68  *   osm_al_bind_info_t
69  *
70  * DESCRIPTION
71  *    Structure containing bind information.
72  *
73  * SYNOPSIS
74  */
75 typedef struct _osm_al_bind_info {
76 	osm_vendor_t *p_vend;
77 	void *client_context;
78 	ib_qp_handle_t h_qp;
79 	ib_mad_svc_handle_t h_svc;
80 	uint8_t port_num;
81 	ib_pool_key_t pool_key;
82 	osm_vend_mad_recv_callback_t rcv_callback;
83 	osm_vend_mad_send_err_callback_t send_err_callback;
84 	osm_mad_pool_t *p_osm_pool;
85 	ib_av_handle_t h_dr_av;
86 
87 } osm_al_bind_info_t;
88 /*
89  * FIELDS
90  * p_vend
91  *    Pointer to the vendor object.
92  *
93  * client_context
94  *    User's context passed during osm_bind
95  *
96  * h_qp
97  *    Handle the QP for this bind.
98  *
99  * h_qp_svc
100  *    Handle the QP mad service for this bind.
101  *
102  * port_num
103  *    Port number (within the HCA) of the bound port.
104  *
105  * pool_key
106  *    Pool key returned by all for this QP.
107  *
108  * h_dr_av
109  *    Address vector handle used for all directed route SMPs.
110  *
111  * SEE ALSO
112  *********/
113 
114 inline static ib_api_status_t
115 __osm_al_convert_wcs(IN ib_wc_status_t const wc_status)
116 {
117 	switch (wc_status) {
118 	case IB_WCS_SUCCESS:
119 		return (IB_SUCCESS);
120 
121 	case IB_WCS_TIMEOUT_RETRY_ERR:
122 		return (IB_TIMEOUT);
123 
124 	default:
125 		return (IB_ERROR);
126 	}
127 }
128 
129 static void __osm_al_ca_err_callback(IN ib_async_event_rec_t * p_async_rec)
130 {
131 	osm_vendor_t *p_vend = (osm_vendor_t *) p_async_rec->context;
132 	OSM_LOG_ENTER(p_vend->p_log);
133 
134 	osm_log(p_vend->p_log, OSM_LOG_ERROR,
135 		"__osm_al_ca_err_callback: ERR 3B01: "
136 		"Event on channel adapter (%s).\n",
137 		ib_get_async_event_str(p_async_rec->code));
138 
139 	OSM_LOG_EXIT(p_vend->p_log);
140 }
141 
142 static void __osm_al_ca_destroy_callback(IN void *context)
143 {
144 	osm_al_bind_info_t *p_bind = (osm_al_bind_info_t *) context;
145 	osm_vendor_t *p_vend = p_bind->p_vend;
146 	OSM_LOG_ENTER(p_vend->p_log);
147 
148 	osm_log(p_vend->p_log, OSM_LOG_INFO,
149 		"__osm_al_ca_destroy_callback: "
150 		"Closing local channel adapter.\n");
151 
152 	OSM_LOG_EXIT(p_vend->p_log);
153 }
154 
155 static void __osm_al_err_callback(IN ib_async_event_rec_t * p_async_rec)
156 {
157 	osm_al_bind_info_t *p_bind =
158 	    (osm_al_bind_info_t *) p_async_rec->context;
159 	osm_vendor_t *p_vend = p_bind->p_vend;
160 	OSM_LOG_ENTER(p_vend->p_log);
161 
162 	osm_log(p_vend->p_log, OSM_LOG_ERROR,
163 		"__osm_al_err_callback: ERR 3B02: "
164 		"Error on QP (%s).\n",
165 		ib_get_async_event_str(p_async_rec->code));
166 
167 	OSM_LOG_EXIT(p_vend->p_log);
168 }
169 
170 static void
171 __osm_al_send_callback(IN void *mad_svc_context, IN ib_mad_element_t * p_elem)
172 {
173 	osm_al_bind_info_t *const p_bind =
174 	    (osm_al_bind_info_t *) mad_svc_context;
175 	osm_vendor_t *const p_vend = p_bind->p_vend;
176 	osm_madw_t *const p_madw = (osm_madw_t *) p_elem->context1;
177 	osm_vend_wrap_t *const p_vw = osm_madw_get_vend_ptr(p_madw);
178 	ib_mad_t *p_mad;
179 
180 	OSM_LOG_ENTER(p_vend->p_log);
181 
182 	CL_ASSERT(p_vw);
183 	CL_ASSERT(p_vw->h_av);
184 
185 	/*
186 	   Destroy the address vector as necessary.
187 	 */
188 	if (p_vw->h_av != p_bind->h_dr_av) {
189 		if (osm_log_is_active(p_vend->p_log, OSM_LOG_DEBUG)) {
190 			osm_log(p_vend->p_log, OSM_LOG_DEBUG,
191 				"__osm_al_send_callback: "
192 				"Destroying av handle %p.\n", p_vw->h_av);
193 		}
194 
195 		ib_destroy_av(p_vw->h_av);
196 	}
197 
198 	p_mad = ib_get_mad_buf(p_elem);
199 
200 	if (p_elem->resp_expected) {
201 		/*
202 		   If the send was unsuccessful, notify the user
203 		   for MADs that were expecting a response.
204 		   A NULL mad wrapper parameter is the user's clue
205 		   that the transaction turned sour.
206 
207 		   Otherwise, do nothing for successful sends when a
208 		   reponse is expected.  The mad will be returned to the
209 		   pool later.
210 		 */
211 		p_madw->status = __osm_al_convert_wcs(p_elem->status);
212 		if (p_elem->status != IB_WCS_SUCCESS) {
213 			osm_log(p_vend->p_log, OSM_LOG_DEBUG,
214 				"__osm_al_send_callback: "
215 				"MAD completed with work queue error: %s.\n",
216 				ib_get_wc_status_str(p_elem->status));
217 			/*
218 			   Return any wrappers to the pool that may have been
219 			   pre-emptively allocated to handle a receive.
220 			 */
221 			if (p_vw->p_resp_madw) {
222 				osm_mad_pool_put(p_bind->p_osm_pool,
223 						 p_vw->p_resp_madw);
224 				p_vw->p_resp_madw = NULL;
225 			}
226 
227 			p_bind->send_err_callback(p_bind->client_context,
228 						  p_madw);
229 		}
230 	} else {
231 		osm_log(p_vend->p_log, OSM_LOG_DEBUG,
232 			"__osm_al_send_callback: "
233 			"Returning MAD to pool, TID = 0x%" PRIx64 ".\n",
234 			cl_ntoh64(p_mad->trans_id));
235 		osm_mad_pool_put(p_bind->p_osm_pool, p_madw);
236 		goto Exit;
237 	}
238 
239 Exit:
240 	OSM_LOG_EXIT(p_vend->p_log);
241 }
242 
243 static void
244 __osm_al_rcv_callback(IN void *mad_svc_context, IN ib_mad_element_t * p_elem)
245 {
246 	osm_al_bind_info_t *const p_bind =
247 	    (osm_al_bind_info_t *) mad_svc_context;
248 	osm_vendor_t *const p_vend = p_bind->p_vend;
249 	osm_madw_t *p_old_madw;
250 	osm_madw_t *p_new_madw;
251 	osm_vend_wrap_t *p_old_vw;
252 	osm_vend_wrap_t *p_new_vw;
253 	ib_mad_t *p_new_mad;
254 	osm_mad_addr_t mad_addr;
255 
256 	OSM_LOG_ENTER(p_vend->p_log);
257 
258 	CL_ASSERT(p_elem->context1 == NULL);
259 	CL_ASSERT(p_elem->context2 == NULL);
260 
261 	p_new_mad = ib_get_mad_buf(p_elem);
262 
263 	/*
264 	   In preperation for initializing the new mad wrapper,
265 	   Initialize the mad_addr structure for the received wire MAD.
266 	 */
267 	mad_addr.dest_lid = p_elem->remote_lid;
268 	mad_addr.path_bits = p_elem->path_bits;
269 
270 	/* TO DO - figure out which #define to use for the 2.5 Gb rate... */
271 	mad_addr.static_rate = 0;
272 
273 	if (p_new_mad->mgmt_class == IB_MCLASS_SUBN_LID ||
274 	    p_new_mad->mgmt_class == IB_MCLASS_SUBN_DIR) {
275 		mad_addr.addr_type.smi.source_lid = p_elem->remote_lid;
276 	} else {
277 		mad_addr.addr_type.gsi.remote_qp = p_elem->remote_qp;
278 		mad_addr.addr_type.gsi.remote_qkey = p_elem->remote_qkey;
279 		mad_addr.addr_type.gsi.pkey_ix = p_elem->pkey_index;
280 		mad_addr.addr_type.gsi.service_level = p_elem->remote_sl;
281 		mad_addr.addr_type.gsi.global_route = FALSE;
282 	}
283 
284 	/*
285 	   If this MAD is a response to a previous request,
286 	   then grab our pre-allocated MAD wrapper.
287 	   Otherwise, allocate a new MAD wrapper.
288 	 */
289 	if (ib_mad_is_response(p_new_mad)) {
290 		CL_ASSERT(p_elem->send_context1 != NULL);
291 		CL_ASSERT(p_elem->send_context2 == NULL);
292 
293 		p_old_madw = (osm_madw_t *) p_elem->send_context1;
294 		p_old_vw = osm_madw_get_vend_ptr(p_old_madw);
295 		p_new_madw = p_old_vw->p_resp_madw;
296 
297 		CL_ASSERT(p_new_madw);
298 
299 		osm_madw_init(p_new_madw, p_bind, p_elem->size, &mad_addr);
300 		osm_madw_set_mad(p_new_madw, p_new_mad);
301 	} else {
302 		CL_ASSERT(p_elem->send_context1 == NULL);
303 		CL_ASSERT(p_elem->send_context2 == NULL);
304 
305 		p_new_madw = osm_mad_pool_get_wrapper(p_bind->p_osm_pool,
306 						      p_bind, p_elem->size,
307 						      p_new_mad, &mad_addr);
308 	}
309 
310 	CL_ASSERT(p_new_madw);
311 	p_new_vw = osm_madw_get_vend_ptr(p_new_madw);
312 
313 	p_new_vw->h_bind = p_bind;
314 	p_new_vw->size = p_elem->size;
315 	p_new_vw->p_elem = p_elem;
316 	p_new_vw->h_av = 0;
317 	p_new_vw->p_resp_madw = NULL;
318 
319 	osm_log(p_vend->p_log, OSM_LOG_DEBUG,
320 		"__osm_al_rcv_callback: "
321 		"Calling receive callback function %p.\n",
322 		p_bind->rcv_callback);
323 
324 	p_bind->rcv_callback(p_new_madw, p_bind->client_context,
325 			     p_elem->send_context1);
326 
327 	OSM_LOG_EXIT(p_vend->p_log);
328 }
329 
330 ib_api_status_t
331 osm_vendor_init(IN osm_vendor_t * const p_vend,
332 		IN osm_log_t * const p_log, IN const uint32_t timeout)
333 {
334 	ib_api_status_t status;
335 	OSM_LOG_ENTER(p_log);
336 
337 	p_vend->p_log = p_log;
338 
339 	/*
340 	   Open our instance of AL.
341 	 */
342 	status = ib_open_al(&p_vend->h_al);
343 	if (status != IB_SUCCESS) {
344 		osm_log(p_vend->p_log, OSM_LOG_ERROR,
345 			"osm_vendor_init: ERR 3B03: "
346 			"Error opening AL (%s).\n", ib_get_err_str(status));
347 
348 		goto Exit;
349 	}
350 
351 	p_vend->timeout = timeout;
352 
353 Exit:
354 	OSM_LOG_EXIT(p_log);
355 	return (status);
356 }
357 
358 osm_vendor_t *osm_vendor_new(IN osm_log_t * const p_log,
359 			     IN const uint32_t timeout)
360 {
361 	ib_api_status_t status;
362 	osm_vendor_t *p_vend;
363 
364 	OSM_LOG_ENTER(p_log);
365 
366 	p_vend = malloc(sizeof(*p_vend));
367 	if (p_vend == NULL) {
368 		osm_log(p_vend->p_log, OSM_LOG_ERROR,
369 			"osm_vendor_new: ERR 3B04: "
370 			"Unable to allocate vendor object.\n");
371 		goto Exit;
372 	}
373 
374 	memset(p_vend, 0, sizeof(*p_vend));
375 
376 	status = osm_vendor_init(p_vend, p_log, timeout);
377 	if (status != IB_SUCCESS) {
378 		free(p_vend);
379 		p_vend = NULL;
380 	}
381 
382 Exit:
383 	OSM_LOG_EXIT(p_log);
384 	return (p_vend);
385 }
386 
387 void osm_vendor_delete(IN osm_vendor_t ** const pp_vend)
388 {
389 	/* TO DO - fill this in */
390 	ib_close_al((*pp_vend)->h_al);
391 	free(*pp_vend);
392 	*pp_vend = NULL;
393 }
394 
395 static ib_api_status_t
396 __osm_ca_info_init(IN osm_vendor_t * const p_vend,
397 		   IN osm_ca_info_t * const p_ca_info,
398 		   IN const ib_net64_t ca_guid)
399 {
400 	ib_api_status_t status;
401 
402 	OSM_LOG_ENTER(p_vend->p_log);
403 
404 	p_ca_info->guid = ca_guid;
405 
406 	if (osm_log_is_active(p_vend->p_log, OSM_LOG_VERBOSE)) {
407 		osm_log(p_vend->p_log, OSM_LOG_VERBOSE,
408 			"__osm_ca_info_init: "
409 			"Querying CA 0x%" PRIx64 ".\n", cl_ntoh64(ca_guid));
410 	}
411 
412 	status = ib_query_ca_by_guid(p_vend->h_al, ca_guid, NULL,
413 				     &p_ca_info->attr_size);
414 	if ((status != IB_INSUFFICIENT_MEMORY) && (status != IB_SUCCESS)) {
415 		osm_log(p_vend->p_log, OSM_LOG_ERROR,
416 			"__osm_ca_info_init: ERR 3B05: "
417 			"Unexpected status getting CA attributes (%s).\n",
418 			ib_get_err_str(status));
419 		goto Exit;
420 	}
421 
422 	CL_ASSERT(p_ca_info->attr_size);
423 
424 	p_ca_info->p_attr = malloc(p_ca_info->attr_size);
425 	if (p_ca_info->p_attr == NULL) {
426 		osm_log(p_vend->p_log, OSM_LOG_ERROR,
427 			"__osm_ca_info_init: ERR 3B06: "
428 			"Unable to allocate attribute storage.\n");
429 		goto Exit;
430 	}
431 
432 	status = ib_query_ca_by_guid(p_vend->h_al, ca_guid, p_ca_info->p_attr,
433 				     &p_ca_info->attr_size);
434 	if (status != IB_SUCCESS) {
435 		osm_log(p_vend->p_log, OSM_LOG_ERROR,
436 			"__osm_ca_info_init: ERR 3B07: "
437 			"Unexpected status getting CA attributes (%s).\n",
438 			ib_get_err_str(status));
439 		goto Exit;
440 	}
441 
442 Exit:
443 	OSM_LOG_EXIT(p_vend->p_log);
444 	return (status);
445 }
446 
447 void
448 osm_ca_info_destroy(IN osm_vendor_t * const p_vend,
449 		    IN osm_ca_info_t * const p_ca_info)
450 {
451 	OSM_LOG_ENTER(p_vend->p_log);
452 
453 	if (p_ca_info->p_attr)
454 		free(p_ca_info->p_attr);
455 
456 	free(p_ca_info);
457 
458 	OSM_LOG_EXIT(p_vend->p_log);
459 }
460 
461 osm_ca_info_t *osm_ca_info_new(IN osm_vendor_t * const p_vend,
462 			       IN const ib_net64_t ca_guid)
463 {
464 	ib_api_status_t status;
465 	osm_ca_info_t *p_ca_info;
466 
467 	OSM_LOG_ENTER(p_vend->p_log);
468 
469 	CL_ASSERT(ca_guid);
470 
471 	p_ca_info = malloc(sizeof(*p_ca_info));
472 	if (p_ca_info == NULL)
473 		goto Exit;
474 
475 	memset(p_ca_info, 0, sizeof(*p_ca_info));
476 
477 	status = __osm_ca_info_init(p_vend, p_ca_info, ca_guid);
478 	if (status != IB_SUCCESS) {
479 		osm_ca_info_destroy(p_vend, p_ca_info);
480 		p_ca_info = NULL;
481 		goto Exit;
482 	}
483 
484 Exit:
485 	OSM_LOG_EXIT(p_vend->p_log);
486 	return (p_ca_info);
487 }
488 
489 static ib_api_status_t
490 __osm_vendor_get_ca_guids(IN osm_vendor_t * const p_vend,
491 			  IN ib_net64_t ** const p_guids,
492 			  IN unsigned * const p_num_guids)
493 {
494 	ib_api_status_t status;
495 
496 	OSM_LOG_ENTER(p_vend->p_log);
497 
498 	CL_ASSERT(p_guids);
499 	CL_ASSERT(p_num_guids);
500 
501 	status = ib_get_ca_guids(p_vend->h_al, NULL, p_num_guids);
502 	if ((status != IB_INSUFFICIENT_MEMORY) && (status != IB_SUCCESS)) {
503 		osm_log(p_vend->p_log, OSM_LOG_ERROR,
504 			"__osm_vendor_get_ca_guids: ERR 3B08: "
505 			"Unexpected status getting CA GUID array (%s).\n",
506 			ib_get_err_str(status));
507 		goto Exit;
508 	}
509 
510 	if (*p_num_guids == 0) {
511 		osm_log(p_vend->p_log, OSM_LOG_ERROR,
512 			"__osm_vendor_get_ca_guids: ERR 3B09: "
513 			"No available channel adapters.\n");
514 		status = IB_INSUFFICIENT_RESOURCES;
515 		goto Exit;
516 	}
517 
518 	*p_guids = malloc(*p_num_guids * sizeof(**p_guids));
519 	if (*p_guids == NULL) {
520 		osm_log(p_vend->p_log, OSM_LOG_ERROR,
521 			"__osm_vendor_get_ca_guids: ERR 3B10: "
522 			"Unable to allocate CA GUID array.\n");
523 		goto Exit;
524 	}
525 
526 	status = ib_get_ca_guids(p_vend->h_al, *p_guids, p_num_guids);
527 	CL_ASSERT(*p_num_guids);
528 
529 	if (osm_log_is_active(p_vend->p_log, OSM_LOG_VERBOSE)) {
530 		osm_log(p_vend->p_log, OSM_LOG_VERBOSE,
531 			"__osm_vendor_get_ca_guids: "
532 			"Detected %u local channel adapters.\n", *p_num_guids);
533 	}
534 
535 Exit:
536 	OSM_LOG_EXIT(p_vend->p_log);
537 	return (status);
538 }
539 
540 /****f* OpenSM: CA Info/osm_ca_info_get_pi_ptr
541  * NAME
542  * osm_ca_info_get_pi_ptr
543  *
544  * DESCRIPTION
545  * Returns a pointer to the port attribute of the specified port
546  * owned by this CA.
547  *
548  * SYNOPSIS
549  */
550 static ib_port_attr_t *__osm_ca_info_get_port_attr_ptr(IN const osm_ca_info_t *
551 						       const p_ca_info,
552 						       IN const uint8_t index)
553 {
554 	return (&p_ca_info->p_attr->p_port_attr[index]);
555 }
556 
557 /*
558  * PARAMETERS
559  * p_ca_info
560  *    [in] Pointer to a CA Info object.
561  *
562  * index
563  *    [in] Port "index" for which to retrieve the port attribute.
564  *    The index is the offset into the ca's internal array
565  *    of port attributes.
566  *
567  * RETURN VALUE
568  * Returns a pointer to the port attribute of the specified port
569  * owned by this CA.
570  *
571  * NOTES
572  *
573  * SEE ALSO
574  *********/
575 
576 ib_api_status_t
577 osm_vendor_get_all_port_attr(IN osm_vendor_t * const p_vend,
578 			     IN ib_port_attr_t * const p_attr_array,
579 			     IN uint32_t * const p_num_ports)
580 {
581 	ib_api_status_t status;
582 
583 	uint32_t ca;
584 	unsigned ca_count;
585 	uint32_t port_count = 0;
586 	uint8_t port_num;
587 	uint32_t total_ports = 0;
588 	ib_net64_t *p_ca_guid = NULL;
589 	osm_ca_info_t *p_ca_info;
590 
591 	OSM_LOG_ENTER(p_vend->p_log);
592 
593 	CL_ASSERT(p_vend);
594 	CL_ASSERT(p_vend->p_ca_info == NULL);
595 
596 	/*
597 	   1) Determine the number of CA's
598 	   2) Allocate an array big enough to hold the ca info objects.
599 	   3) Call again to retrieve the guids.
600 	 */
601 	status = __osm_vendor_get_ca_guids(p_vend, &p_ca_guid, &ca_count);
602 
603 	p_vend->p_ca_info = malloc(ca_count * sizeof(*p_vend->p_ca_info));
604 	if (p_vend->p_ca_info == NULL) {
605 		osm_log(p_vend->p_log, OSM_LOG_ERROR,
606 			"osm_vendor_get_all_port_attr: ERR 3B11: "
607 			"Unable to allocate CA information array.\n");
608 		goto Exit;
609 	}
610 
611 	memset(p_vend->p_ca_info, 0, ca_count * sizeof(*p_vend->p_ca_info));
612 	p_vend->ca_count = ca_count;
613 
614 	/*
615 	   For each CA, retrieve the port info attributes
616 	 */
617 	for (ca = 0; ca < ca_count; ca++) {
618 		p_ca_info = &p_vend->p_ca_info[ca];
619 
620 		status = __osm_ca_info_init(p_vend, p_ca_info, p_ca_guid[ca]);
621 
622 		if (status != IB_SUCCESS) {
623 			osm_log(p_vend->p_log, OSM_LOG_ERROR,
624 				"osm_vendor_get_all_port_attr: ERR 3B12: "
625 				"Unable to initialize CA Info object (%s).\n",
626 				ib_get_err_str(status));
627 		}
628 
629 		total_ports += osm_ca_info_get_num_ports(p_ca_info);
630 	}
631 
632 	/*
633 	   If the user supplied enough storage, return the port guids,
634 	   otherwise, return the appropriate error.
635 	 */
636 	if (*p_num_ports >= total_ports) {
637 		for (ca = 0; ca < ca_count; ca++) {
638 			uint32_t num_ports;
639 
640 			p_ca_info = &p_vend->p_ca_info[ca];
641 
642 			num_ports = osm_ca_info_get_num_ports(p_ca_info);
643 
644 			for (port_num = 0; port_num < num_ports; port_num++) {
645 				p_attr_array[port_count] =
646 				    *__osm_ca_info_get_port_attr_ptr(p_ca_info,
647 								     port_num);
648 				port_count++;
649 			}
650 		}
651 	} else {
652 		status = IB_INSUFFICIENT_MEMORY;
653 	}
654 
655 	*p_num_ports = total_ports;
656 
657 Exit:
658 	if (p_ca_guid)
659 		free(p_ca_guid);
660 
661 	OSM_LOG_EXIT(p_vend->p_log);
662 	return (status);
663 }
664 
665 ib_net64_t
666 osm_vendor_get_ca_guid(IN osm_vendor_t * const p_vend,
667 		       IN const ib_net64_t port_guid)
668 {
669 	uint8_t index;
670 	uint8_t num_ports;
671 	uint32_t num_guids = 0;
672 	osm_ca_info_t *p_ca_info;
673 	uint32_t ca;
674 
675 	OSM_LOG_ENTER(p_vend->p_log);
676 
677 	CL_ASSERT(port_guid);
678 	/*
679 	   First, locate the HCA that owns this port.
680 	 */
681 	if (p_vend->p_ca_info == NULL) {
682 		/*
683 		   Initialize the osm_ca_info_t array which allows
684 		   us to match port GUID to CA.
685 		 */
686 		osm_vendor_get_all_port_attr(p_vend, NULL, &num_guids);
687 	}
688 
689 	CL_ASSERT(p_vend->p_ca_info);
690 	CL_ASSERT(p_vend->ca_count);
691 
692 	for (ca = 0; ca < p_vend->ca_count; ca++) {
693 		p_ca_info = &p_vend->p_ca_info[ca];
694 
695 		num_ports = osm_ca_info_get_num_ports(p_ca_info);
696 		CL_ASSERT(num_ports);
697 
698 		for (index = 0; index < num_ports; index++) {
699 			if (port_guid ==
700 			    osm_ca_info_get_port_guid(p_ca_info, index)) {
701 				OSM_LOG_EXIT(p_vend->p_log);
702 				return (osm_ca_info_get_ca_guid(p_ca_info));
703 			}
704 		}
705 	}
706 
707 	/*
708 	   No local CA owns this guid!
709 	 */
710 	osm_log(p_vend->p_log, OSM_LOG_ERROR,
711 		"osm_vendor_get_ca_guid: ERR 3B13: "
712 		"Unable to determine CA guid.\n");
713 
714 	OSM_LOG_EXIT(p_vend->p_log);
715 	return (0);
716 }
717 
718 uint8_t
719 osm_vendor_get_port_num(IN osm_vendor_t * const p_vend,
720 			IN const ib_net64_t port_guid)
721 {
722 	uint8_t index;
723 	uint8_t num_ports;
724 	uint32_t num_guids = 0;
725 	osm_ca_info_t *p_ca_info;
726 	uint32_t ca;
727 
728 	OSM_LOG_ENTER(p_vend->p_log);
729 
730 	CL_ASSERT(port_guid);
731 	/*
732 	   First, locate the HCA that owns this port.
733 	 */
734 	if (p_vend->p_ca_info == NULL) {
735 		/*
736 		   Initialize the osm_ca_info_t array which allows
737 		   us to match port GUID to CA.
738 		 */
739 		osm_vendor_get_all_port_attr(p_vend, NULL, &num_guids);
740 	}
741 
742 	CL_ASSERT(p_vend->p_ca_info);
743 	CL_ASSERT(p_vend->ca_count);
744 
745 	for (ca = 0; ca < p_vend->ca_count; ca++) {
746 		p_ca_info = &p_vend->p_ca_info[ca];
747 
748 		num_ports = osm_ca_info_get_num_ports(p_ca_info);
749 		CL_ASSERT(num_ports);
750 
751 		for (index = 0; index < num_ports; index++) {
752 			if (port_guid ==
753 			    osm_ca_info_get_port_guid(p_ca_info, index)) {
754 				OSM_LOG_EXIT(p_vend->p_log);
755 				return (osm_ca_info_get_port_num
756 					(p_ca_info, index));
757 			}
758 		}
759 	}
760 
761 	/*
762 	   No local CA owns this guid!
763 	 */
764 	osm_log(p_vend->p_log, OSM_LOG_ERROR,
765 		"osm_vendor_get_port_num: ERR 3B30: "
766 		"Unable to determine CA guid.\n");
767 
768 	OSM_LOG_EXIT(p_vend->p_log);
769 	return (0);
770 }
771 
772 static ib_api_status_t
773 __osm_vendor_open_ca(IN osm_vendor_t * const p_vend,
774 		     IN const ib_net64_t port_guid)
775 {
776 	ib_net64_t ca_guid;
777 	ib_api_status_t status;
778 
779 	OSM_LOG_ENTER(p_vend->p_log);
780 
781 	ca_guid = osm_vendor_get_ca_guid(p_vend, port_guid);
782 	if (ca_guid == 0) {
783 		osm_log(p_vend->p_log, OSM_LOG_ERROR,
784 			"__osm_vendor_open_ca: ERR 3B31: "
785 			"Bad port GUID value 0x%" PRIx64 ".\n",
786 			cl_ntoh64(port_guid));
787 		status = IB_ERROR;
788 		goto Exit;
789 	}
790 
791 	osm_log(p_vend->p_log, OSM_LOG_VERBOSE,
792 		"__osm_vendor_open_ca: "
793 		"Opening HCA 0x%" PRIx64 ".\n", cl_ntoh64(ca_guid));
794 
795 	status = ib_open_ca(p_vend->h_al,
796 			    ca_guid,
797 			    __osm_al_ca_err_callback, p_vend, &p_vend->h_ca);
798 
799 	if (status != IB_SUCCESS) {
800 		osm_log(p_vend->p_log, OSM_LOG_ERROR,
801 			"__osm_vendor_open_ca: ERR 3B15: "
802 			"Unable to open CA (%s).\n", ib_get_err_str(status));
803 		goto Exit;
804 	}
805 
806 	CL_ASSERT(p_vend->h_ca);
807 
808 	status = ib_alloc_pd(p_vend->h_ca, IB_PDT_ALIAS, p_vend, &p_vend->h_pd);
809 
810 	if (status != IB_SUCCESS) {
811 		ib_close_ca(p_vend->h_ca, __osm_al_ca_destroy_callback);
812 		osm_log(p_vend->p_log, OSM_LOG_ERROR,
813 			"__osm_vendor_open_ca: ERR 3B16: "
814 			"Unable to allocate protection domain (%s).\n",
815 			ib_get_err_str(status));
816 		goto Exit;
817 	}
818 
819 	CL_ASSERT(p_vend->h_pd);
820 
821 Exit:
822 	OSM_LOG_EXIT(p_vend->p_log);
823 	return (status);
824 }
825 
826 static void
827 __osm_vendor_init_av(IN const osm_al_bind_info_t * p_bind,
828 		     IN ib_av_attr_t * p_av)
829 {
830 	memset(p_av, 0, sizeof(*p_av));
831 	p_av->port_num = p_bind->port_num;
832 	p_av->dlid = IB_LID_PERMISSIVE;
833 }
834 
835 osm_bind_handle_t
836 osm_vendor_bind(IN osm_vendor_t * const p_vend,
837 		IN osm_bind_info_t * const p_user_bind,
838 		IN osm_mad_pool_t * const p_mad_pool,
839 		IN osm_vend_mad_recv_callback_t mad_recv_callback,
840 		IN osm_vend_mad_send_err_callback_t send_err_callback,
841 		IN void *context)
842 {
843 	ib_net64_t port_guid;
844 	osm_al_bind_info_t *p_bind = 0;
845 	ib_api_status_t status;
846 	ib_qp_create_t qp_create;
847 	ib_mad_svc_t mad_svc;
848 	ib_av_attr_t av;
849 
850 	OSM_LOG_ENTER(p_vend->p_log);
851 
852 	CL_ASSERT(p_user_bind);
853 	CL_ASSERT(p_mad_pool);
854 	CL_ASSERT(mad_recv_callback);
855 	CL_ASSERT(send_err_callback);
856 
857 	port_guid = p_user_bind->port_guid;
858 
859 	osm_log(p_vend->p_log, OSM_LOG_INFO,
860 		"osm_vendor_bind: "
861 		"Binding to port 0x%" PRIx64 ".\n", cl_ntoh64(port_guid));
862 
863 	if (p_vend->h_ca == 0) {
864 		osm_log(p_vend->p_log, OSM_LOG_DEBUG,
865 			"osm_vendor_bind: "
866 			"Opening CA that owns port 0x%" PRIx64 ".\n",
867 			port_guid);
868 
869 		status = __osm_vendor_open_ca(p_vend, port_guid);
870 		if (status != IB_SUCCESS) {
871 			osm_log(p_vend->p_log, OSM_LOG_ERROR,
872 				"osm_vendor_bind: ERR 3B17: "
873 				"Unable to Open CA (%s).\n",
874 				ib_get_err_str(status));
875 			goto Exit;
876 		}
877 	}
878 
879 	p_bind = malloc(sizeof(*p_bind));
880 	if (p_bind == NULL) {
881 		osm_log(p_vend->p_log, OSM_LOG_ERROR,
882 			"osm_vendor_bind: ERR 3B18: "
883 			"Unable to allocate internal bind object.\n");
884 		goto Exit;
885 	}
886 
887 	memset(p_bind, 0, sizeof(*p_bind));
888 	p_bind->p_vend = p_vend;
889 	p_bind->client_context = context;
890 	p_bind->port_num = osm_vendor_get_port_num(p_vend, port_guid);
891 	p_bind->rcv_callback = mad_recv_callback;
892 	p_bind->send_err_callback = send_err_callback;
893 	p_bind->p_osm_pool = p_mad_pool;
894 
895 	CL_ASSERT(p_bind->port_num);
896 
897 	/*
898 	   Get the proper QP.
899 	 */
900 	memset(&qp_create, 0, sizeof(qp_create));
901 
902 	switch (p_user_bind->mad_class) {
903 	case IB_MCLASS_SUBN_LID:
904 	case IB_MCLASS_SUBN_DIR:
905 		qp_create.qp_type = IB_QPT_QP0_ALIAS;
906 		break;
907 
908 	case IB_MCLASS_SUBN_ADM:
909 	default:
910 		qp_create.qp_type = IB_QPT_QP1_ALIAS;
911 		break;
912 	}
913 
914 	qp_create.sq_depth = p_user_bind->send_q_size;
915 	qp_create.rq_depth = p_user_bind->recv_q_size;
916 	qp_create.sq_sge = OSM_AL_SQ_SGE;
917 	qp_create.rq_sge = OSM_AL_RQ_SGE;
918 
919 	status = ib_get_spl_qp(p_vend->h_pd,
920 			       port_guid,
921 			       &qp_create,
922 			       p_bind,
923 			       __osm_al_err_callback,
924 			       &p_bind->pool_key, &p_bind->h_qp);
925 
926 	if (status != IB_SUCCESS) {
927 		free(p_bind);
928 		osm_log(p_vend->p_log, OSM_LOG_ERROR,
929 			"osm_vendor_bind: ERR 3B19: "
930 			"Unable to get QP handle (%s).\n",
931 			ib_get_err_str(status));
932 		goto Exit;
933 	}
934 
935 	CL_ASSERT(p_bind->h_qp);
936 	CL_ASSERT(p_bind->pool_key);
937 
938 	memset(&mad_svc, 0, sizeof(mad_svc));
939 
940 	mad_svc.mad_svc_context = p_bind;
941 	mad_svc.pfn_mad_send_cb = __osm_al_send_callback;
942 	mad_svc.pfn_mad_recv_cb = __osm_al_rcv_callback;
943 	mad_svc.mgmt_class = p_user_bind->mad_class;
944 	mad_svc.mgmt_version = p_user_bind->class_version;
945 	mad_svc.support_unsol = p_user_bind->is_responder;
946 	mad_svc.method_array[IB_MAD_METHOD_GET] = TRUE;
947 	mad_svc.method_array[IB_MAD_METHOD_SET] = TRUE;
948 	mad_svc.method_array[IB_MAD_METHOD_DELETE] = TRUE;
949 	mad_svc.method_array[IB_MAD_METHOD_TRAP] = TRUE;
950 	mad_svc.method_array[IB_MAD_METHOD_GETTABLE] = TRUE;
951 
952 	status = ib_reg_mad_svc(p_bind->h_qp, &mad_svc, &p_bind->h_svc);
953 
954 	if (status != IB_SUCCESS) {
955 		free(p_bind);
956 		osm_log(p_vend->p_log, OSM_LOG_ERROR,
957 			"osm_vendor_bind: ERR 3B21: "
958 			"Unable to register QP0 MAD service (%s).\n",
959 			ib_get_err_str(status));
960 		goto Exit;
961 	}
962 
963 	__osm_vendor_init_av(p_bind, &av);
964 
965 	status = ib_create_av(p_vend->h_pd, &av, &p_bind->h_dr_av);
966 	if (status != IB_SUCCESS) {
967 		osm_log(p_vend->p_log, OSM_LOG_ERROR,
968 			"osm_vendor_bind: ERR 3B22: "
969 			"Unable to create address vector (%s).\n",
970 			ib_get_err_str(status));
971 
972 		goto Exit;
973 	}
974 
975 	if (osm_log_is_active(p_vend->p_log, OSM_LOG_DEBUG)) {
976 		osm_log(p_vend->p_log, OSM_LOG_DEBUG,
977 			"osm_vendor_bind: "
978 			"Allocating av handle %p.\n", p_bind->h_dr_av);
979 	}
980 
981 Exit:
982 	OSM_LOG_EXIT(p_vend->p_log);
983 	return ((osm_bind_handle_t) p_bind);
984 }
985 
986 ib_mad_t *osm_vendor_get(IN osm_bind_handle_t h_bind,
987 			 IN const uint32_t mad_size,
988 			 IN osm_vend_wrap_t * const p_vw)
989 {
990 	ib_mad_t *p_mad;
991 	osm_al_bind_info_t *p_bind = (osm_al_bind_info_t *) h_bind;
992 	osm_vendor_t *p_vend = p_bind->p_vend;
993 	ib_api_status_t status;
994 
995 	OSM_LOG_ENTER(p_vend->p_log);
996 
997 	CL_ASSERT(p_vw);
998 
999 	p_vw->size = mad_size;
1000 	p_vw->h_bind = h_bind;
1001 
1002 	/*
1003 	   Retrieve a MAD element from the pool and give the user direct
1004 	   access to its buffer.
1005 	 */
1006 	status = ib_get_mad(p_bind->pool_key, mad_size, &p_vw->p_elem);
1007 	if (status != IB_SUCCESS) {
1008 		osm_log(p_vend->p_log, OSM_LOG_ERROR,
1009 			"osm_vendor_get: ERR 3B25: "
1010 			"Unable to acquire MAD (%s).\n",
1011 			ib_get_err_str(status));
1012 
1013 		p_mad = NULL;
1014 		goto Exit;
1015 	}
1016 
1017 	CL_ASSERT(p_vw->p_elem);
1018 	p_mad = ib_get_mad_buf(p_vw->p_elem);
1019 
1020 	if (osm_log_get_level(p_vend->p_log) >= OSM_LOG_DEBUG) {
1021 		osm_log(p_vend->p_log, OSM_LOG_DEBUG,
1022 			"osm_vendor_get: "
1023 			"Acquired MAD %p, size = %u.\n", p_mad, mad_size);
1024 	}
1025 
1026 Exit:
1027 	OSM_LOG_EXIT(p_vend->p_log);
1028 	return (p_mad);
1029 }
1030 
1031 void
1032 osm_vendor_put(IN osm_bind_handle_t h_bind, IN osm_vend_wrap_t * const p_vw)
1033 {
1034 	osm_al_bind_info_t *p_bind = (osm_al_bind_info_t *) h_bind;
1035 	osm_vendor_t *p_vend = p_bind->p_vend;
1036 	ib_api_status_t status;
1037 
1038 	OSM_LOG_ENTER(p_vend->p_log);
1039 
1040 	CL_ASSERT(p_vw);
1041 	CL_ASSERT(p_vw->p_elem);
1042 	CL_ASSERT(p_vw->h_bind == h_bind);
1043 
1044 	if (osm_log_get_level(p_vend->p_log) >= OSM_LOG_DEBUG) {
1045 		osm_log(p_vend->p_log, OSM_LOG_DEBUG,
1046 			"osm_vendor_put: "
1047 			"Retiring MAD %p.\n", ib_get_mad_buf(p_vw->p_elem));
1048 	}
1049 
1050 	status = ib_put_mad(p_vw->p_elem);
1051 	if (status != IB_SUCCESS) {
1052 		osm_log(p_vend->p_log, OSM_LOG_ERROR,
1053 			"osm_vendor_put: ERR 3B26: "
1054 			"Unable to retire MAD (%s).\n", ib_get_err_str(status));
1055 	}
1056 
1057 	OSM_LOG_EXIT(p_vend->p_log);
1058 }
1059 
1060 ib_api_status_t
1061 osm_vendor_send(IN osm_bind_handle_t h_bind,
1062 		IN osm_madw_t * const p_madw, IN boolean_t const resp_expected)
1063 {
1064 	osm_al_bind_info_t *const p_bind = h_bind;
1065 	osm_vendor_t *const p_vend = p_bind->p_vend;
1066 	osm_vend_wrap_t *const p_vw = osm_madw_get_vend_ptr(p_madw);
1067 	osm_mad_addr_t *const p_mad_addr = osm_madw_get_mad_addr_ptr(p_madw);
1068 	ib_mad_t *const p_mad = osm_madw_get_mad_ptr(p_madw);
1069 	ib_api_status_t status;
1070 	ib_mad_element_t *p_elem;
1071 	ib_av_attr_t av;
1072 
1073 	OSM_LOG_ENTER(p_vend->p_log);
1074 
1075 	CL_ASSERT(p_vw->h_bind == h_bind);
1076 	CL_ASSERT(p_vw->p_elem);
1077 
1078 	p_elem = p_vw->p_elem;
1079 
1080 	/*
1081 	   If a response is expected to this MAD, then preallocate
1082 	   a mad wrapper to contain the wire MAD received in the
1083 	   response.  Allocating a wrapper here allows for easier
1084 	   failure paths than after we already received the wire mad.
1085 	 */
1086 	if (resp_expected) {
1087 		p_vw->p_resp_madw =
1088 		    osm_mad_pool_get_wrapper_raw(p_bind->p_osm_pool);
1089 		if (p_vw->p_resp_madw == NULL) {
1090 			osm_log(p_vend->p_log, OSM_LOG_ERROR,
1091 				"osm_vendor_send: ERR 3B27: "
1092 				"Unable to allocate MAD wrapper.\n");
1093 			status = IB_INSUFFICIENT_RESOURCES;
1094 			goto Exit;
1095 		}
1096 	} else
1097 		p_vw->p_resp_madw = NULL;
1098 
1099 	/*
1100 	   For all sends other than directed route SM MADs,
1101 	   acquire an address vector for the destination.
1102 	 */
1103 	if (p_mad->mgmt_class != IB_MCLASS_SUBN_DIR) {
1104 		memset(&av, 0, sizeof(av));
1105 		av.port_num = p_bind->port_num;
1106 		av.dlid = p_mad_addr->dest_lid;
1107 		av.static_rate = p_mad_addr->static_rate;
1108 		av.path_bits = p_mad_addr->path_bits;
1109 
1110 		if ((p_mad->mgmt_class != IB_MCLASS_SUBN_LID) &&
1111 		    (p_mad->mgmt_class != IB_MCLASS_SUBN_DIR)) {
1112 			av.sl = p_mad_addr->addr_type.gsi.service_level;
1113 
1114 			if (p_mad_addr->addr_type.gsi.global_route) {
1115 				av.grh_valid = TRUE;
1116 				/* ANIL */
1117 				/* av.grh = p_mad_addr->addr_type.gsi.grh_info; */
1118 			}
1119 		}
1120 
1121 		if (osm_log_is_active(p_vend->p_log, OSM_LOG_DEBUG)) {
1122 			osm_log(p_vend->p_log, OSM_LOG_DEBUG,
1123 				"osm_vendor_send: "
1124 				"av.port_num 0x%X, "
1125 				"av.dlid 0x%X, "
1126 				"av.static_rate   %d, "
1127 				"av.path_bits %d.\n",
1128 				av.port_num, cl_ntoh16(av.dlid),
1129 				av.static_rate, av.path_bits);
1130 		}
1131 
1132 		status = ib_create_av(p_vend->h_pd, &av, &p_vw->h_av);
1133 		if (status != IB_SUCCESS) {
1134 			osm_log(p_vend->p_log, OSM_LOG_ERROR,
1135 				"osm_vendor_send: ERR 3B28: "
1136 				"Unable to create address vector (%s).\n",
1137 				ib_get_err_str(status));
1138 
1139 			if (p_vw->p_resp_madw)
1140 				osm_mad_pool_put(p_bind->p_osm_pool,
1141 						 p_vw->p_resp_madw);
1142 			goto Exit;
1143 		}
1144 
1145 		if (osm_log_is_active(p_vend->p_log, OSM_LOG_DEBUG)) {
1146 			osm_log(p_vend->p_log, OSM_LOG_DEBUG,
1147 				"osm_vendor_send: "
1148 				"Allocating av handle %p.\n", p_vw->h_av);
1149 		}
1150 	} else {
1151 		p_vw->h_av = p_bind->h_dr_av;
1152 	}
1153 
1154 	p_elem->h_av = p_vw->h_av;
1155 
1156 	p_elem->context1 = p_madw;
1157 	p_elem->context2 = NULL;
1158 
1159 	p_elem->immediate_data = 0;
1160 	p_elem->p_grh = NULL;
1161 	p_elem->resp_expected = resp_expected;
1162 	p_elem->retry_cnt = OSM_DEFAULT_RETRY_COUNT;
1163 
1164 	p_elem->send_opt = IB_SEND_OPT_SIGNALED;
1165 	p_elem->timeout_ms = p_vend->timeout;
1166 
1167 	/* Completion information. */
1168 	p_elem->status = 0;	/* Not trusting AL */
1169 
1170 	if ((p_mad->mgmt_class == IB_MCLASS_SUBN_LID) ||
1171 	    (p_mad->mgmt_class == IB_MCLASS_SUBN_DIR)) {
1172 		p_elem->remote_qp = 0;
1173 		p_elem->remote_qkey = 0;
1174 	} else {
1175 		p_elem->remote_qp = p_mad_addr->addr_type.gsi.remote_qp;
1176 		p_elem->remote_qkey = p_mad_addr->addr_type.gsi.remote_qkey;
1177 		osm_log(p_vend->p_log, OSM_LOG_DEBUG,
1178 			"osm_vendor_send: "
1179 			"remote qp = 0x%X, remote qkey = 0x%X.\n",
1180 			cl_ntoh32(p_elem->remote_qp),
1181 			cl_ntoh32(p_elem->remote_qkey));
1182 	}
1183 
1184 	status = ib_send_mad(p_bind->h_svc, p_elem, NULL);
1185 	if (status != IB_SUCCESS) {
1186 		osm_log(p_vend->p_log, OSM_LOG_ERROR,
1187 			"osm_vendor_send: ERR 3B29: "
1188 			"Send failed (%s).\n", ib_get_err_str(status));
1189 		if (p_vw->p_resp_madw)
1190 			osm_mad_pool_put(p_bind->p_osm_pool, p_vw->p_resp_madw);
1191 		goto Exit;
1192 	}
1193 
1194 Exit:
1195 	OSM_LOG_EXIT(p_vend->p_log);
1196 	return (status);
1197 }
1198 
1199 ib_api_status_t osm_vendor_local_lid_change(IN osm_bind_handle_t h_bind)
1200 {
1201 	osm_al_bind_info_t *p_bind = (osm_al_bind_info_t *) h_bind;
1202 	osm_vendor_t *p_vend = p_bind->p_vend;
1203 	ib_av_attr_t av;
1204 	ib_api_status_t status;
1205 
1206 	OSM_LOG_ENTER(p_vend->p_log);
1207 
1208 	/*
1209 	   The only thing we need to do is refresh the directed
1210 	   route address vector.
1211 	 */
1212 	__osm_vendor_init_av(p_bind, &av);
1213 
1214 	status = ib_destroy_av(p_bind->h_dr_av);
1215 	if (status != IB_SUCCESS) {
1216 		osm_log(p_vend->p_log, OSM_LOG_ERROR,
1217 			"osm_vendor_local_lid_change: ERR 3B32: "
1218 			"Unable to destroy address vector (%s).\n",
1219 			ib_get_err_str(status));
1220 
1221 		goto Exit;
1222 	}
1223 
1224 	status = ib_create_av(p_vend->h_pd, &av, &p_bind->h_dr_av);
1225 	if (status != IB_SUCCESS) {
1226 		osm_log(p_vend->p_log, OSM_LOG_ERROR,
1227 			"osm_vendor_local_lid_change: ERR 3B33: "
1228 			"Unable to create address vector (%s).\n",
1229 			ib_get_err_str(status));
1230 
1231 		goto Exit;
1232 	}
1233 
1234 Exit:
1235 	OSM_LOG_EXIT(p_vend->p_log);
1236 	return (status);
1237 }
1238 
1239 void osm_vendor_set_sm(IN osm_bind_handle_t h_bind, IN boolean_t is_sm_val)
1240 {
1241 	osm_al_bind_info_t *p_bind = (osm_al_bind_info_t *) h_bind;
1242 	osm_vendor_t *p_vend = p_bind->p_vend;
1243 	ib_api_status_t status;
1244 	ib_port_attr_mod_t attr_mod;
1245 
1246 	OSM_LOG_ENTER(p_vend->p_log);
1247 
1248 	memset(&attr_mod, 0, sizeof(attr_mod));
1249 
1250 	attr_mod.cap.sm = is_sm_val;
1251 
1252 	status = ib_modify_ca(p_vend->h_ca, p_bind->port_num,
1253 			      IB_CA_MOD_IS_SM, &attr_mod);
1254 
1255 	if (status != IB_SUCCESS) {
1256 		osm_log(p_vend->p_log, OSM_LOG_ERROR,
1257 			"osm_vendor_set_sm: ERR 3B34: "
1258 			"Unable set 'IS_SM' bit to:%u in port attributes (%s).\n",
1259 			is_sm_val, ib_get_err_str(status));
1260 	}
1261 
1262 	OSM_LOG_EXIT(p_vend->p_log);
1263 }
1264 
1265 void osm_vendor_set_debug(IN osm_vendor_t * const p_vend, IN int32_t level)
1266 {
1267 
1268 }
1269 
1270 #endif				/* OSM_VENDOR_INTF_AL */
1271