xref: /illumos-gate/usr/src/uts/common/io/ib/ibtl/ibtl_impl.c (revision 93a18d6d401e844455263f926578e9d2aa6b47ec)
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  * Copyright 2009 Sun Microsystems, Inc.  All rights reserved.
23  * Use is subject to license terms.
24  */
25 
26 /*
27  * ibtl_impl.c
28  *
29  * This file contains the IBTF module's initialization and
30  * IBTF Clients/Modules registration routines.
31  */
32 
33 #include <sys/modctl.h>
34 #include <sys/sunndi.h>
35 #include <sys/ib/ibtl/impl/ibtl.h>
36 #include <sys/ib/ibtl/impl/ibtl_ibnex.h>
37 
38 /*
39  * Globals.
40  */
41 static char ibtf[] = "ibtl_impl";
42 
43 extern ibtl_ibnex_callback_t	ibtl_ibnex_callback_routine;
44 
45 /*
46  * ibtl_clnt_list:
47  *
48  *	Head of the list of IBT Client Instances. The IBT Client List
49  *	is modified by IBTF on an IBT client's ibt_attach/ibt_detach call.
50  *
51  * ibtl_hca_list:
52  *
53  *	Head of the list of HCA devices. The HCA List is modified by IBTF on
54  *	a CI's ibc_attach/ibc_detach call.
55  *	The datap of the list elements points to an ibtl_hca_devinfo_s
56  *	structure.
57  *
58  *				(ibc_attach)
59  *  ibtl_hca_list	-> ibtl_hca_devinfo_t--> ...	-->ibtl_hca_devinfo_t
60  *	[per-hca_dev]		|	^			{nth HCA Dev}
61  *				|	|
62  *				|  ibtl_hca_t (ibt_open_hca)
63  *				|	^  |
64  *				|	|  |
65  *				v	|  V
66  *  ibtl_clnt_list	->	ibtl_clnt_t--> ...--> {n'th Module}
67  *	[per-client_instance]	(ibt_attach)
68  *
69  */
70 
71 /* Global List of IBT Client Instances, and associated mutex. */
72 struct ibtl_clnt_s *ibtl_clnt_list = NULL;
73 kmutex_t ibtl_clnt_list_mutex;
74 
75 /* Lock for the race between the client and CM to free QPs. */
76 kmutex_t ibtl_free_qp_mutex;
77 
78 /* Lock for the race between the client closing the HCA and QPN being freed. */
79 kcondvar_t ibtl_close_hca_cv;
80 
81 /* Global List of HCA Devices, and associated mutex. */
82 struct ibtl_hca_devinfo_s *ibtl_hca_list = NULL;
83 
84 /* Well-known async handlers and associated client private. */
85 ibt_async_handler_t ibtl_cm_async_handler;
86 ibt_async_handler_t ibtl_dm_async_handler;
87 ibt_async_handler_t ibtl_ibma_async_handler;
88 void	*ibtl_cm_clnt_private;
89 void	*ibtl_dm_clnt_private;
90 void	*ibtl_ibma_clnt_private;
91 
92 extern int ib_hw_status;
93 _NOTE(SCHEME_PROTECTS_DATA("Scheme protects data", ib_hw_status))
94 
95 /*
96  * Misc Module Declarations.
97  */
98 extern struct mod_ops mod_miscops;
99 static struct modlmisc modlmisc = {
100 	&mod_miscops,			/* Type of module - misc. */
101 	"IB Transport Layer"		/* Name of the Module. */
102 };
103 
104 static struct modlinkage modlinkage = {
105 	MODREV_1, (void *)&modlmisc, NULL
106 };
107 
108 static void ibtl_kstat_init(ibtl_hca_devinfo_t *);
109 static void ibtl_kstat_fini(ibtl_hca_devinfo_t *);
110 static void ibtl_kstat_stats_create(ibtl_hca_devinfo_t *, uint_t);
111 static void ibtl_kstat_pkeys_create(ibtl_hca_devinfo_t *, uint_t);
112 
113 /*
114  * IBTF Loadable Module Routines.
115  */
116 
117 int
118 _init(void)
119 {
120 	int rval;
121 
122 	if ((rval = mod_install(&modlinkage)) != 0)
123 		return (rval);
124 
125 	/*
126 	 * initialize IBTL ib2usec table
127 	 */
128 	ibtl_ib2usec_init();
129 
130 	/*
131 	 * Initialize Logging
132 	 */
133 	ibtl_logging_initialization();
134 
135 	/*
136 	 * Initialize the Alloc QP States.
137 	 */
138 	ibtl_init_cep_states();
139 
140 	/*
141 	 * Initialize all Global Link Lists.
142 	 */
143 	mutex_init(&ibtl_clnt_list_mutex, NULL, MUTEX_DEFAULT, NULL);
144 	mutex_init(&ibtl_free_qp_mutex, NULL, MUTEX_DEFAULT, NULL);
145 	cv_init(&ibtl_close_hca_cv, NULL, CV_DEFAULT, NULL);
146 
147 	mutex_init(&ibtl_qp_mutex, NULL, MUTEX_DEFAULT, NULL);
148 	cv_init(&ibtl_qp_cv, NULL, CV_DEFAULT, NULL);
149 
150 	ibtl_thread_init();
151 
152 	return (rval);
153 }
154 
155 
156 /*
157  * The IBTF Module is never unloaded. Actually there is no need of this
158  * routine, but provided just in case.
159  */
160 int
161 _fini(void)
162 {
163 	int rval;
164 
165 	if ((rval = mod_remove(&modlinkage)) != 0) {
166 		return (rval);
167 	}
168 
169 	ibtl_thread_fini();
170 
171 	mutex_destroy(&ibtl_clnt_list_mutex);
172 	mutex_destroy(&ibtl_free_qp_mutex);
173 	cv_destroy(&ibtl_close_hca_cv);
174 	mutex_destroy(&ibtl_qp_mutex);
175 	cv_destroy(&ibtl_qp_cv);
176 
177 	/*
178 	 * Stop Logging
179 	 */
180 	ibtl_logging_destroy();
181 
182 	return (rval);
183 }
184 
185 
186 int
187 _info(struct modinfo *modinfop)
188 {
189 	/* Return the Module Information. */
190 	return (mod_info(&modlinkage, modinfop));
191 }
192 
193 
194 /*
195  * IBTF Client Registration Routines.
196  */
197 
198 /*
199  * Function:
200  *	ibt_attach
201  * Input:
202  *	modinfop	- Client Module info structure.
203  *	arg		- usually client's dip
204  *	clnt_private	- client's private data pointer.
205  * Output:
206  *	ibt_hdl_p	- pointer to client's specific IBT handle,
207  *			 which is opaque to clients.
208  * Returns:
209  *	IBT_SUCCESS
210  *	IBT_INVALID_PARAM
211  * Called by:
212  *	IBTF Client module during its attach() to register its instance
213  *	to IBTF.
214  * Description:
215  *	Registers the IBTF client module instance and returns an opaque
216  *	handler to the client to be used for future calls to IBTF.
217  *	Adds this client module instance to ibtl_clnt_list list.
218  *	Records well-known async handlers.
219  */
220 ibt_status_t
221 ibt_attach(ibt_clnt_modinfo_t *mod_infop, dev_info_t *arg, void *clnt_private,
222     ibt_clnt_hdl_t *ibt_hdl_p)
223 {
224 	dev_info_t	*pdip;
225 	ibtl_clnt_t	*clntp;
226 
227 	IBTF_DPRINTF_L3(ibtf, "ibt_attach(%p, %p, %p)",
228 	    mod_infop, arg, clnt_private);
229 
230 	if (mod_infop->mi_clnt_name == NULL) {
231 		IBTF_DPRINTF_L1(ibtf, "ibt_attach: "
232 		    "IB client needs to specify its name");
233 		return (IBT_INVALID_PARAM);
234 	}
235 
236 	/*
237 	 * Validate the Transport API version.
238 	 */
239 	if (mod_infop->mi_ibt_version != IBTI_V_CURR) {
240 		IBTF_DPRINTF_L1(ibtf, "ibt_attach: IB client '%s' has an "
241 		    "invalid IB TI Version '%d'", mod_infop->mi_clnt_name,
242 		    mod_infop->mi_ibt_version);
243 		return (IBT_NOT_SUPPORTED);
244 	}
245 
246 	if (mod_infop->mi_async_handler == NULL) {
247 		IBTF_DPRINTF_L2(ibtf, "ibt_attach: Client '%s' has not\n"
248 		    "        provided an Asynchronous Event Handler.\n"
249 		    "        This will be required soon.",
250 		    mod_infop->mi_clnt_name);
251 	}
252 
253 	/*
254 	 * Check out Client's Class information. If it is not of mgmt class,
255 	 * we expect 'arg' to be Not NULL and point to client driver's
256 	 * device info struct.
257 	 */
258 	if ((!IBT_MISCMOD_CLIENTS(mod_infop->mi_clnt_class)) &&
259 	    (arg == NULL)) {
260 		IBTF_DPRINTF_L1(ibtf, "ibt_attach: "
261 		    "arg not set with driver's dip.");
262 		return (IBT_INVALID_PARAM);
263 	}
264 
265 	if (!IBT_MISCMOD_CLIENTS(mod_infop->mi_clnt_class)) {
266 		pdip = ddi_get_parent(arg);
267 		if (pdip == NULL ||
268 		    ibtl_ibnex_valid_hca_parent(pdip) != IBT_SUCCESS) {
269 			IBTF_DPRINTF_L2(ibtf, "ibt_attach: "
270 			    "client %s is not a child of IB nexus driver.",
271 			    ddi_driver_name(arg));
272 			return (IBT_INVALID_PARAM);
273 		}
274 	}
275 
276 	mutex_enter(&ibtl_clnt_list_mutex);
277 	if (mod_infop->mi_clnt_class == IBT_CM) {
278 		if (ibtl_cm_async_handler != NULL) {
279 			IBTF_DPRINTF_L1(ibtf, "ibt_attach: "
280 			    "CM is already attached.");
281 			mutex_exit(&ibtl_clnt_list_mutex);
282 			return (IBT_INVALID_PARAM);
283 		}
284 		ibtl_cm_async_handler = mod_infop->mi_async_handler;
285 		ibtl_cm_clnt_private = clnt_private;
286 	} else if (mod_infop->mi_clnt_class == IBT_DM) {
287 		if (ibtl_dm_async_handler != NULL) {
288 			IBTF_DPRINTF_L1(ibtf, "ibt_attach: "
289 			    "DM is already attached.");
290 			mutex_exit(&ibtl_clnt_list_mutex);
291 			return (IBT_INVALID_PARAM);
292 		}
293 		ibtl_dm_async_handler = mod_infop->mi_async_handler;
294 		ibtl_dm_clnt_private = clnt_private;
295 	} else if (mod_infop->mi_clnt_class == IBT_IBMA) {
296 		if (ibtl_ibma_async_handler != NULL) {
297 			IBTF_DPRINTF_L1(ibtf, "ibt_attach: "
298 			    "IBMF is already attached.");
299 			mutex_exit(&ibtl_clnt_list_mutex);
300 			return (IBT_INVALID_PARAM);
301 		}
302 		ibtl_ibma_async_handler = mod_infop->mi_async_handler;
303 		ibtl_ibma_clnt_private = clnt_private;
304 	}
305 
306 	/* Allocate the memory for per-client-device info structure */
307 	clntp = kmem_zalloc(sizeof (ibtl_clnt_t), KM_SLEEP);
308 
309 	_NOTE(NOW_INVISIBLE_TO_OTHER_THREADS(clntp->clnt_modinfop,
310 	    clntp->clnt_dip, clntp->clnt_name, clntp->clnt_async_cnt,
311 	    clntp->clnt_private))
312 	/* Update the Client info structure */
313 	clntp->clnt_modinfop = mod_infop;	/* IBT Client's Mod Info */
314 	clntp->clnt_private = clnt_private;	/* IBT Client's private */
315 	clntp->clnt_dip = arg;			/* IBT Client's dip */
316 	clntp->clnt_async_cnt = 0;
317 	/* using a count of 7 below guarantees it is NULL terminated */
318 	(void) strncpy(clntp->clnt_name, mod_infop->mi_clnt_name, 7);
319 	_NOTE(NOW_VISIBLE_TO_OTHER_THREADS(clntp->clnt_modinfop,
320 	    clntp->clnt_dip, clntp->clnt_name, clntp->clnt_async_cnt,
321 	    clntp->clnt_private))
322 
323 	/*
324 	 * Update Client Device Instance List.
325 	 */
326 	clntp->clnt_list_link = ibtl_clnt_list;
327 	ibtl_clnt_list = clntp;
328 	mutex_exit(&ibtl_clnt_list_mutex);
329 
330 	/*
331 	 * The ibt_hdl_p is a opaque handle which is the address of
332 	 * ibt_clnt_t structure passed back to the clients.
333 	 * The client will pass on this handle in its future calls to IBTF.
334 	 */
335 	*ibt_hdl_p = clntp;
336 
337 	return (IBT_SUCCESS);
338 }
339 
340 
341 /*
342  * Function:
343  *	ibt_detach
344  * Input:
345  *	ibt_hdl - IBT Handle as returned during ibt_attach call.
346  * Output:
347  *	none
348  * Returns:
349  *	IBT_SUCCESS
350  *	IBT_INVALID_PARAM.
351  * Called by:
352  *	IBTF Client module during its detach() to de-register its instance
353  *	from IBTF.
354  * Description:
355  *	Deregisters the IBTF client module instance from the IBTF.
356  *	All resources and any reference to this ibt_hdl will be removed.
357  */
358 ibt_status_t
359 ibt_detach(ibt_clnt_hdl_t ibt_hdl)
360 {
361 	ibtl_clnt_t **clntpp;
362 
363 	IBTF_DPRINTF_L3(ibtf, "ibt_detach(%p)", ibt_hdl);
364 
365 	mutex_enter(&ibtl_clnt_list_mutex);
366 	clntpp = &ibtl_clnt_list;
367 	for (; *clntpp != NULL; clntpp = &(*clntpp)->clnt_list_link)
368 		if (*clntpp == ibt_hdl)
369 			break;
370 	if (*clntpp == NULL) {
371 		IBTF_DPRINTF_L1(ibtf, "ibt_detach: Client @ %p Not Found",
372 		    ibt_hdl);
373 		mutex_exit(&ibtl_clnt_list_mutex);
374 		return (IBT_INVALID_PARAM);
375 	}
376 
377 	/*
378 	 * Check out whether the client has freed all its resources.
379 	 * If not done, then fail the detach.
380 	 *
381 	 * viz. A client has to close all the HCA they have opened,
382 	 * i.e. the HCA List maintained for clients has to be empty.
383 	 * If this list is not empty, then the client has not performed
384 	 * complete clean-up, so fail the detach.
385 	 */
386 	if (ibt_hdl->clnt_hca_list != NULL) {
387 		mutex_exit(&ibtl_clnt_list_mutex);
388 
389 		IBTF_DPRINTF_L2(ibtf, "ibt_detach: "
390 		    "ERROR: Client '%s' has not closed all of its HCAs",
391 		    ibt_hdl->clnt_modinfop->mi_clnt_name);
392 		return (IBT_HCA_RESOURCES_NOT_FREED);
393 	}
394 
395 	if (ibt_hdl->clnt_srv_cnt != 0) {
396 		mutex_exit(&ibtl_clnt_list_mutex);
397 		IBTF_DPRINTF_L2(ibtf, "ibt_detach: client '%s' still has "
398 		    "services or subnet_notices registered",
399 		    ibt_hdl->clnt_modinfop->mi_clnt_name);
400 		return (IBT_HCA_RESOURCES_NOT_FREED);
401 	}
402 
403 	/*
404 	 * Delete the entry of this module from the ibtl_clnt_list List.
405 	 */
406 	*clntpp = ibt_hdl->clnt_list_link;	/* remove us */
407 
408 	/* make sure asyncs complete before freeing */
409 	ibtl_free_clnt_async_check(ibt_hdl);
410 
411 	if (ibt_hdl->clnt_modinfop->mi_clnt_class == IBT_CM) {
412 		ibtl_cm_async_handler = NULL;
413 		ibtl_cm_clnt_private = NULL;
414 	} else if (ibt_hdl->clnt_modinfop->mi_clnt_class == IBT_DM) {
415 		ibtl_dm_async_handler = NULL;
416 		ibtl_dm_clnt_private = NULL;
417 	} else if (ibt_hdl->clnt_modinfop->mi_clnt_class == IBT_IBMA) {
418 		ibtl_ibma_async_handler = NULL;
419 		ibtl_ibma_clnt_private = NULL;
420 	}
421 	mutex_exit(&ibtl_clnt_list_mutex);
422 
423 	/* Free up the memory of per-client info struct. */
424 	kmem_free(ibt_hdl, sizeof (ibtl_clnt_t));
425 
426 	return (IBT_SUCCESS);
427 }
428 
429 static void
430 ibtl_set_ibhw_status()
431 {
432 	ib_hw_status++;
433 }
434 
435 static void
436 ibtl_clear_ibhw_status()
437 {
438 	ib_hw_status--;
439 }
440 
441 /*
442  * Function:
443  *	ibc_init
444  * Input:
445  *	modlp		- Pointer to IBC client module linkage structure
446  * Output:
447  *	None
448  * Returns:
449  *	0 always for now
450  * Called by:
451  *	CI client calls IBTF during its _init() to register HCA with
452  *	Solaris I/O framework.
453  * Description:
454  *	Initializes the CI clients module linkage structure with
455  *	default bus_ops structure
456  */
457 int
458 ibc_init(struct modlinkage *modlp)
459 {
460 	ibtl_ibnex_cb_args_t	cb_args;
461 
462 	mutex_enter(&ibtl_clnt_list_mutex);
463 	cb_args.cb_flag = IBTL_IBNEX_IBC_INIT;
464 	cb_args.cb_modlp = modlp;
465 	if (ibtl_ibnex_callback_routine) {
466 		(void) ((*ibtl_ibnex_callback_routine)(&cb_args));
467 	}
468 	mutex_exit(&ibtl_clnt_list_mutex);
469 	return (0);
470 }
471 
472 
473 /*
474  * Function:
475  *	ibc_fini
476  * Input:
477  *	modlp		- Pointer to IBC client module linkage structure
478  * Output:
479  *	None
480  * Returns:
481  *	None
482  * Called by:
483  *	CI client calls IBTF during its _fini() to remove HCA with
484  *	Solaris I/O framework.
485  * Description:
486  *	Undo what is done during ibc_init
487  */
488 void
489 ibc_fini(struct modlinkage *modlp)
490 {
491 	ibtl_ibnex_cb_args_t	cb_args;
492 
493 	mutex_enter(&ibtl_clnt_list_mutex);
494 	cb_args.cb_flag = IBTL_IBNEX_IBC_FINI;
495 	cb_args.cb_modlp = modlp;
496 	if (ibtl_ibnex_callback_routine) {
497 		(void) ((*ibtl_ibnex_callback_routine)(&cb_args));
498 	}
499 	mutex_exit(&ibtl_clnt_list_mutex);
500 }
501 
502 /*
503  * Function:
504  *	ibc_attach
505  * Input:
506  *	info_p		- IBC HCA Info.
507  * Output:
508  *	ibc_hdl_p	- IBC Client's HCA Handle.
509  * Returns:
510  *	IBC_SUCCESS
511  *	IBC_FAILURE
512  * Called by:
513  *	CI calls IBTF during its attach() to register HCA Device with IBTF.
514  * Description:
515  *	Registers the presence of HCA device by providing the HCA device info
516  *  	structure and provides an opaque HCA handler for future calls to this
517  *  	HCA device.
518  */
519 ibc_status_t
520 ibc_attach(ibc_clnt_hdl_t *ibc_hdl_p, ibc_hca_info_t *info_p)
521 {
522 	ibtl_hca_devinfo_t	*hca_devp;
523 	uint_t			nports;
524 	ibt_status_t		status;
525 
526 	IBTF_DPRINTF_L2(ibtf, "ibc_attach(%p, %p)", ibc_hdl_p, info_p);
527 
528 	/* Validate the Transport API version */
529 	if (info_p->hca_ci_vers != IBCI_V3) {
530 		IBTF_DPRINTF_L1(ibtf, "ibc_attach: Invalid IB CI Version '%d'",
531 		    info_p->hca_ci_vers);
532 		return (IBC_FAILURE);
533 	}
534 
535 	if (info_p->hca_attr == NULL) {
536 		IBTF_DPRINTF_L1(ibtf, "ibc_attach: "
537 		    "HCA Attributes must be specified.");
538 		return (IBC_FAILURE);
539 	}
540 
541 	nports = info_p->hca_attr->hca_nports;
542 	if (nports == 0) {
543 		IBTF_DPRINTF_L1(ibtf, "ibc_attach: "
544 		    "Number of ports must be valid");
545 		return (IBC_FAILURE);
546 	}
547 
548 	if (info_p->hca_attr->hca_max_port_pkey_tbl_sz == 0) {
549 		IBTF_DPRINTF_L1(ibtf, "ibc_attach: "
550 		    "Number of Partitions must be at least 1");
551 		return (IBC_FAILURE);
552 	}
553 
554 	if ((info_p->hca_attr->hca_flags & IBT_HCA_CURRENT_QP_STATE) == 0) {
555 		IBTF_DPRINTF_L1(ibtf, "ibc_attach: "
556 		    "HCA driver must support QP current state checking");
557 		return (IBC_FAILURE);
558 	}
559 
560 	if ((info_p->hca_attr->hca_flags & IBT_HCA_PORT_UP) == 0) {
561 		IBTF_DPRINTF_L1(ibtf, "ibc_attach: "
562 		    "HCA driver must support PORT_UP async events");
563 		return (IBC_FAILURE);
564 	}
565 
566 	/*
567 	 * Install IB nexus driver (if not installed already)
568 	 */
569 	ibtl_set_ibhw_status();
570 	if (ndi_devi_config_vhci("ib", 0) == NULL) {
571 		IBTF_DPRINTF_L2(ibtf, "ibc_attach: IB nexus attach failed");
572 		ibtl_clear_ibhw_status();
573 		return (IBC_FAILURE);
574 	}
575 
576 	ibtl_thread_init2();
577 
578 	/* Allocate the memory for per-client info structure */
579 	hca_devp = kmem_zalloc(sizeof (ibtl_hca_devinfo_t) +
580 	    (nports - 1) * sizeof (ibtl_async_port_event_t), KM_SLEEP);
581 
582 	mutex_enter(&ibtl_clnt_list_mutex);
583 
584 	/* Update HCA dev info structure */
585 	hca_devp->hd_ibc_hca_hdl = info_p->hca_handle;
586 	hca_devp->hd_ibc_ops	= info_p->hca_ops;
587 	hca_devp->hd_hca_attr	= info_p->hca_attr;
588 	hca_devp->hd_hca_dip	= info_p->hca_dip;
589 
590 	status = ibtl_init_hca_portinfo(hca_devp);
591 	if (status != IBT_SUCCESS) {
592 		mutex_exit(&ibtl_clnt_list_mutex);
593 		IBTF_DPRINTF_L1(ibtf, "ibc_attach: call to ibc_query_hca_ports "
594 		    "failed: status = %d", status);
595 		kmem_free(hca_devp, sizeof (ibtl_hca_devinfo_t) +
596 		    (nports - 1) * sizeof (ibtl_async_port_event_t));
597 		return (IBC_FAILURE);
598 	}
599 
600 	/* Register the with MPxIO as PHCI */
601 	if (ibtl_ibnex_phci_register(info_p->hca_dip) != IBT_SUCCESS) {
602 		mutex_exit(&ibtl_clnt_list_mutex);
603 		IBTF_DPRINTF_L1(ibtf, "ibc_attach: MPxIO register failed");
604 		kmem_free(hca_devp, sizeof (ibtl_hca_devinfo_t) +
605 		    (nports - 1) * sizeof (ibtl_async_port_event_t));
606 		return (IBC_FAILURE);
607 	}
608 
609 	/* Initialize the Client List for this HCA. */
610 	hca_devp->hd_state	= IBTL_HCA_DEV_ATTACHED;
611 
612 	/* lock out asyncs until after we announce the new HCA */
613 	hca_devp->hd_async_busy = 1;
614 
615 	cv_init(&hca_devp->hd_async_task_cv, NULL, CV_DEFAULT, NULL);
616 	cv_init(&hca_devp->hd_async_busy_cv, NULL, CV_DEFAULT, NULL);
617 
618 	/* init portinfo locking variables */
619 	hca_devp->hd_portinfo_locked_port = 0;
620 	cv_init(&hca_devp->hd_portinfo_cv, NULL, CV_DEFAULT, NULL);
621 
622 	ibtl_kstat_init(hca_devp);
623 
624 	mutex_exit(&ibtl_clnt_list_mutex);
625 
626 	/*
627 	 * The ibc_hdl_p points to an opaque handle which is the address
628 	 * of ibt_hca_devinfo_t structure passed back to the CI.
629 	 * The CI will pass on this handle in its future upcalls to IBTF.
630 	 */
631 	*ibc_hdl_p = hca_devp;
632 
633 	return (IBC_SUCCESS);
634 }
635 
636 
637 /*
638  * Function:
639  *	ibc_post_attach
640  * Input:
641  *	ibc_hdl		- IBC Client's HCA Handle.
642  * Returns:
643  *	none
644  * Called by:
645  *	CI calls IBTF during its attach() after a successful ibc_attach().
646  * Description:
647  *	Announces to all known clients the existence of this HCA (by GUID).
648  */
649 void
650 ibc_post_attach(ibc_clnt_hdl_t ibc_hdl)
651 {
652 	IBTF_DPRINTF_L2(ibtf, "ibc_post_attach(%p)", ibc_hdl);
653 
654 	/*
655 	 * Update the HCA Device List.
656 	 */
657 	mutex_enter(&ibtl_clnt_list_mutex);
658 	ibc_hdl->hd_hca_dev_link = ibtl_hca_list;
659 	ibtl_hca_list = ibc_hdl;
660 	mutex_exit(&ibtl_clnt_list_mutex);
661 
662 	/* notify all IBT Client Device Instances of the new HCA Device */
663 	ibtl_announce_new_hca(ibc_hdl);
664 }
665 
666 
667 /*
668  * Function:
669  *	ibc_pre_detach
670  * Input:
671  *	ibc_clnt_hdl	- IBC HCA Handle as returned during ibc_attach call.
672  *  	cmd		- DDI_DETACH/DDI_SUSPEND command.
673  * Output:
674  *	none
675  * Returns:
676  *	IBC_SUCCESS
677  *	IBC_FAILURE.
678  * Called by:
679  *	CI to try to get all IBTF clients to close the HCA device.
680  * Description:
681  *	Attempts to deregister the HCA device entry from the IBTF.
682  *	If all resources are freed by the IBTF clients and this HCA
683  *	is closed, then IBC_SUCCESS is returned.
684  */
685 ibc_status_t
686 ibc_pre_detach(ibc_clnt_hdl_t hca_devp, ddi_detach_cmd_t cmd)
687 {
688 	ibtl_hca_devinfo_t **hcapp, *hcap;
689 
690 	IBTF_DPRINTF_L2(ibtf, "ibc_pre_detach(%p, 0x%x)", hca_devp, cmd);
691 
692 	/*
693 	 * Return failure, if command is not DDI_DETACH
694 	 */
695 	switch (cmd) {
696 	case DDI_DETACH:
697 		break;
698 	default:
699 		return (IBC_FAILURE); /* TBD: DDI_FAILURE */
700 	}
701 
702 	/* Make sure this HCA is on the HCA Device List.  */
703 	mutex_enter(&ibtl_clnt_list_mutex);
704 	hcap = ibtl_hca_list;
705 	while (hcap != NULL) {
706 		if (hcap == hca_devp)
707 			break;
708 		hcap = hcap->hd_hca_dev_link;
709 	}
710 	if (hcap == NULL) {
711 		mutex_exit(&ibtl_clnt_list_mutex);
712 		return (IBC_FAILURE);
713 	}
714 
715 	/*
716 	 * Initially set the state to "Detaching".
717 	 */
718 	hca_devp->hd_state = IBTL_HCA_DEV_DETACHING;
719 
720 	/*
721 	 * Try to detach all IBTI clients, and continue only if all
722 	 * of the detaches succeed.
723 	 */
724 	if (ibtl_detach_all_clients(hca_devp)) {
725 		hca_devp->hd_state = IBTL_HCA_DEV_ATTACHED; /* fix hd_state */
726 		mutex_exit(&ibtl_clnt_list_mutex);
727 
728 		return (IBC_FAILURE);
729 	}
730 
731 	/*
732 	 * Check to see if all clients closed this HCA, or not.
733 	 * We only succeed if all clients cooperated.
734 	 */
735 	if (hca_devp->hd_clnt_list != NULL) {
736 		hca_devp->hd_state = IBTL_HCA_DEV_ATTACHED;
737 		mutex_exit(&ibtl_clnt_list_mutex);
738 		IBTF_DPRINTF_L2(ibtf, "ibc_pre_detach: HCA still has attached "
739 		    "clients");
740 		return (IBC_FAILURE);
741 	}
742 
743 	/*
744 	 * mark this device as detached
745 	 */
746 	hca_devp->hd_state = IBTL_HCA_DEV_DETACHED;
747 
748 	/* Delete the entry for this hca_devp from hca_head_list */
749 	hcapp = &ibtl_hca_list;
750 	while (*hcapp != NULL) {
751 		if (*hcapp == hca_devp)
752 			break;
753 		hcapp = &(*hcapp)->hd_hca_dev_link;
754 	}
755 
756 	if (ibtl_ibnex_phci_unregister(hca_devp->hd_hca_dip) != IBT_SUCCESS) {
757 		hca_devp->hd_state = IBTL_HCA_DEV_ATTACHED; /* fix hd_state */
758 		mutex_exit(&ibtl_clnt_list_mutex);
759 		IBTF_DPRINTF_L1(ibtf, "ibc_pre_detach: PHCI unregister failed");
760 		return (IBC_FAILURE);
761 	}
762 
763 	if (*hcapp == NULL) {
764 		hca_devp->hd_state = IBTL_HCA_DEV_ATTACHED; /* fix hd_state */
765 		mutex_exit(&ibtl_clnt_list_mutex);
766 		IBTF_DPRINTF_L1(ibtf, "ibc_pre_detach: HCA not attached");
767 		return (IBC_FAILURE);
768 	}
769 	*hcapp = hca_devp->hd_hca_dev_link;
770 	ibtl_fast_gid_cache_valid = B_FALSE;	/* invalidate fast_gid_cache */
771 	mutex_exit(&ibtl_clnt_list_mutex);
772 
773 	return (IBC_SUCCESS);
774 }
775 
776 /*
777  * Function:
778  *	ibc_detach
779  * Input:
780  *	ibc_clnt_hdl	- IBC HCA Handle as returned during ibc_attach call.
781  * Output:
782  *	none
783  * Returns:
784  *	None
785  * Called by:
786  *	CI to detach the HCA device from IBTF.
787  * Description:
788  *	Do the second step of detaching the HCA, which is required
789  *	after a successful ibc_pre_detach.
790  */
791 void
792 ibc_detach(ibc_clnt_hdl_t hca_devp)
793 {
794 	IBTF_DPRINTF_L2(ibtf, "ibc_detach(%p)", hca_devp);
795 
796 	mutex_enter(&ibtl_clnt_list_mutex);
797 	if (hca_devp->hd_state != IBTL_HCA_DEV_DETACHED) {
798 		mutex_exit(&ibtl_clnt_list_mutex);
799 		IBTF_DPRINTF_L0(ibtf, "ibc_detach: HCA has not successfully "
800 		    "pre-detached");
801 		return;
802 	}
803 
804 	cv_destroy(&hca_devp->hd_async_task_cv);
805 	cv_destroy(&hca_devp->hd_async_busy_cv);
806 	cv_destroy(&hca_devp->hd_portinfo_cv);
807 
808 	kmem_free(hca_devp->hd_portinfop, hca_devp->hd_portinfo_len);
809 	mutex_exit(&ibtl_clnt_list_mutex);
810 
811 	ibtl_kstat_fini(hca_devp);
812 
813 	/* Free up the memory of per-client info struct */
814 	kmem_free(hca_devp, sizeof (ibtl_hca_devinfo_t) +
815 	    (hca_devp->hd_hca_attr->hca_nports - 1) *
816 	    sizeof (ibtl_async_port_event_t));
817 	ibtl_clear_ibhw_status();
818 }
819 
820 /*
821  * Function:
822  *	ibt_ci_data_in()
823  *
824  * Input:
825  *	hca_hdl			HCA Handle.
826  *	flags			IBT_COMPLETE_ALLOC - Finish a deferred alloc.
827  *      object                  Identifies the type object pointed to by
828  *                              ibt_object_handle.
829  *
830  *      ibt_object_handle       The handle of the object to be associated with
831  *				the data in/out
832  *
833  *	data_p			Pointer data passed in to the CI. The buffer
834  *				should be allocated by the caller.
835  *
836  *	data_sz			The size of the buffer pointed to by
837  *				data_p.
838  * Output:
839  *
840  * Returns:
841  *	IBT_SUCCESS
842  *	IBT_NOT_SUPPORTED	Feature not supported.
843  *	IBT_INVALID_PARAM	Invalid object type specified.
844  *	IBT_HCA_HDL_INVALID
845  *	IBT_AH_HDL_INVALID/IBT_UD_DEST_HDL_INVALID
846  *	IBT_CHAN_HDL_INVALID/IBT_QP_HDL_INVALID
847  *	IBT_CQ_HDL_INVALID
848  *	IBT_EEC_HDL_INVALID
849  *	IBT_RDD_HDL_INVALID
850  *	IBT_MW_HDL_INVALID
851  *	IBT_PD_HDL_INVALID
852  *	IBT_SRQ_HDL_INVALID
853  *
854  * Description:
855  *	Exchange CI private data for the specified CI object.
856  */
857 ibt_status_t
858 ibt_ci_data_in(ibt_hca_hdl_t hca, ibt_ci_data_flags_t flags,
859     ibt_object_type_t object, void *ibt_object_handle, void *data_p,
860     size_t data_sz)
861 {
862 	ibt_status_t		retval;
863 	void			*ci_obj_hdl;
864 
865 	IBTF_DPRINTF_L3(ibtf, "ibt_ci_data_in(%p, %x, %d, %p, %p, %d)",
866 	    hca, flags, object, ibt_object_handle, data_p, data_sz);
867 
868 	switch (object) {
869 	case IBT_HDL_HCA:
870 		ci_obj_hdl = (void *)
871 		    (IBTL_HCA2CIHCA(((ibt_hca_hdl_t)ibt_object_handle)));
872 		break;
873 
874 	case IBT_HDL_CHANNEL:
875 		ci_obj_hdl = (void *)
876 		    (IBTL_CHAN2CIQP(((ibt_channel_hdl_t)ibt_object_handle)));
877 		break;
878 
879 	case IBT_HDL_CQ:
880 		ci_obj_hdl = (void *)
881 		    (((ibt_cq_hdl_t)(ibt_object_handle))->cq_ibc_cq_hdl);
882 		break;
883 
884 	case IBT_HDL_EEC:
885 		ci_obj_hdl = (void *)
886 		    (((ibt_eec_hdl_t)(ibt_object_handle))->eec_ibc_eec_hdl);
887 		break;
888 
889 	case IBT_HDL_UD_DEST:
890 		ci_obj_hdl = (void *)
891 		    (((ibt_ud_dest_hdl_t)(ibt_object_handle))->ud_ah);
892 		break;
893 
894 	case IBT_HDL_SRQ:
895 		ci_obj_hdl = (void *)
896 		    (((ibt_srq_hdl_t)(ibt_object_handle))->srq_ibc_srq_hdl);
897 		break;
898 
899 	default:
900 		ci_obj_hdl = ibt_object_handle;
901 		break;
902 	}
903 
904 	retval = (IBTL_HCA2CIHCAOPS_P(hca)->ibc_ci_data_in)(IBTL_HCA2CIHCA(hca),
905 	    flags, object, ci_obj_hdl, data_p, data_sz);
906 
907 	if (retval != IBT_SUCCESS) {
908 		IBTF_DPRINTF_L2(ibtf, "ibt_ci_data_in: Failed : %d", retval);
909 	}
910 	return (retval);
911 }
912 
913 /*
914  * Function:
915  *	ibt_ci_data_out()
916  *
917  * Input:
918  *	hca_hdl			HCA Handle.
919  *	flags			IBT_COMPLETE_ALLOC - Finish a deferred alloc.
920  *      object                  Identifies the type object pointed to by
921  *                              ibt_object_handle.
922  *
923  *      ibt_object_handle       The handle of the object to be associated with
924  *				the data in/out
925  *
926  *	data_p			Pointer to a buffer in which to return the CI
927  *				private data. The buffer should be allocated
928  *				by the caller.
929  *
930  *	data_sz			The size of the buffer pointed to by
931  *				data_p.
932  * Output:
933  *
934  * Returns:
935  *	IBT_SUCCESS
936  *	IBT_NOT_SUPPORTED	Feature not supported.
937  *	IBT_INSUFF_RESOURCE	The buffer pointed to by data_p was too
938  *				small to hold the data.
939  *	IBT_INVALID_PARAM	Invalid object type specified.
940  *	IBT_HCA_HDL_INVALID
941  *	IBT_AH_HDL_INVALID/IBT_UD_DEST_HDL_INVALID
942  *	IBT_CHAN_HDL_INVALID/IBT_QP_HDL_INVALID
943  *	IBT_CQ_HDL_INVALID
944  *	IBT_EEC_HDL_INVALID
945  *	IBT_RDD_HDL_INVALID
946  *	IBT_MW_HDL_INVALID
947  *	IBT_PD_HDL_INVALID
948  *	IBT_SRQ_HDL_INVALID
949  *
950  * Description:
951  *	Exchange CI private data for the specified CI object.
952  */
953 ibt_status_t
954 ibt_ci_data_out(ibt_hca_hdl_t hca, ibt_ci_data_flags_t flags,
955     ibt_object_type_t object, void *ibt_object_handle, void *data_p,
956     size_t data_sz)
957 {
958 	ibt_status_t		retval;
959 	void			*ci_obj_hdl;
960 
961 	IBTF_DPRINTF_L3(ibtf, "ibt_ci_data_out(%p, %x, %d, %p, %p, %d)",
962 	    hca, flags, object, ibt_object_handle, data_p, data_sz);
963 
964 	switch (object) {
965 	case  IBT_HDL_HCA:
966 		ci_obj_hdl = (void *)
967 		    (IBTL_HCA2CIHCA(((ibt_hca_hdl_t)ibt_object_handle)));
968 		break;
969 
970 	case IBT_HDL_CHANNEL:
971 		ci_obj_hdl = (void *)
972 		    (IBTL_CHAN2CIQP(((ibt_channel_hdl_t)ibt_object_handle)));
973 		break;
974 
975 	case IBT_HDL_CQ:
976 		ci_obj_hdl = (void *)
977 		    (((ibt_cq_hdl_t)(ibt_object_handle))->cq_ibc_cq_hdl);
978 		break;
979 
980 	case IBT_HDL_EEC:
981 		ci_obj_hdl = (void *)
982 		    (((ibt_eec_hdl_t)(ibt_object_handle))->eec_ibc_eec_hdl);
983 		break;
984 
985 	case IBT_HDL_UD_DEST:
986 		ci_obj_hdl = (void *)
987 		    (((ibt_ud_dest_hdl_t)(ibt_object_handle))->ud_ah);
988 		break;
989 
990 	case IBT_HDL_SRQ:
991 		ci_obj_hdl = (void *)
992 		    (((ibt_srq_hdl_t)(ibt_object_handle))->srq_ibc_srq_hdl);
993 		break;
994 
995 	default:
996 		ci_obj_hdl = ibt_object_handle;
997 		break;
998 	}
999 
1000 	retval = (IBTL_HCA2CIHCAOPS_P(hca)->ibc_ci_data_out)
1001 	    (IBTL_HCA2CIHCA(hca), flags, object, ci_obj_hdl, data_p, data_sz);
1002 
1003 	if (retval != IBT_SUCCESS) {
1004 		IBTF_DPRINTF_L2(ibtf, "ibt_ci_data_out: Failed : %d", retval);
1005 	}
1006 	return (retval);
1007 }
1008 
1009 
1010 /*
1011  * FMA Support functions.
1012  */
1013 
1014 #define	IBTL_ENA_MASK		0xC0000000
1015 #define	IBTL_ENA_POSSIBLE	0x80000000
1016 #define	IBTL_TYPE_SHIFT		27
1017 
1018 /*
1019  * Function:
1020  *	ibt_get_module_failure()
1021  *
1022  * Input:
1023  *	type			Identifies the failing IB module.
1024  *	ena			'0' or the data for Fault Management
1025  *				Architecture (ENA).
1026  *
1027  * Returns:
1028  *	status			Special IB failure status.
1029  *
1030  * Description:
1031  *	XXX Just stubbed out to return failures with no data for Fault
1032  *	Management Architecture (ENAs) at the moment XXX
1033  */
1034 ibt_status_t
1035 ibt_get_module_failure(ibt_failure_type_t type, uint64_t ena)
1036 {
1037 	ibt_status_t	ret;
1038 
1039 	IBTF_DPRINTF_L3(ibtf, "ibt_get_module_failure(%d, 0x%llX)", type, ena);
1040 
1041 	switch (type) {
1042 	case IBT_FAILURE_CI:
1043 	case IBT_FAILURE_IBMF:
1044 	case IBT_FAILURE_IBCM:
1045 	case IBT_FAILURE_IBDM:
1046 	case IBT_FAILURE_IBTL:
1047 	case IBT_FAILURE_IBSM:
1048 		ret = IBTL_ENA_POSSIBLE | (type << IBTL_TYPE_SHIFT);
1049 		break;
1050 	default:
1051 		ret = IBT_FAILURE;
1052 	}
1053 	IBTF_DPRINTF_L3(ibtf, "ibt_get_module_failure: ret = 0x%lX", ret);
1054 	return (ret);
1055 }
1056 
1057 
1058 /*
1059  * Function:
1060  *	ibc_get_ci_failure()
1061  *
1062  * Input:
1063  *	ena			'0' or the data for Fault Management
1064  *				Architecture (ENA).
1065  *
1066  * Returns:
1067  *	status			Special CI failure status.
1068  *
1069  * Description:
1070  *	Just use the function above to do the job.
1071  */
1072 ibt_status_t
1073 ibc_get_ci_failure(uint64_t ena)
1074 {
1075 	return (ibt_get_module_failure(IBT_FAILURE_CI, ena));
1076 }
1077 
1078 
1079 /*
1080  * ibt_check_failure()
1081  *	Function to test for special case failures.
1082  *
1083  *	status		An ibt_status_t returned from an IBTF function call.
1084  *
1085  *	reserved_p	NULL, or a pointer to where we store the data for
1086  *			Fault Management Architecture (ENA).
1087  *
1088  * Description:
1089  *	XXX Still need to determine the data for Fault Management Architecture
1090  *	(ENA), using 0 for now XXX
1091  */
1092 ibt_failure_type_t
1093 ibt_check_failure(ibt_status_t status, uint64_t *reserved_p)
1094 {
1095 	ibt_failure_type_t type;
1096 
1097 	IBTF_DPRINTF_L3(ibtf, "ibt_check_failure(%X)", status);
1098 
1099 	if ((status & IBTL_ENA_MASK) == IBTL_ENA_POSSIBLE) {
1100 		type = status & ~IBTL_ENA_POSSIBLE >> IBTL_TYPE_SHIFT;
1101 
1102 		/* XXX Need more work here... */
1103 		if (reserved_p != NULL)
1104 			*reserved_p = 0;
1105 	} else {
1106 		type = IBT_FAILURE_STANDARD;
1107 		if (reserved_p != NULL)
1108 			*reserved_p = 0;	/* No FMA Data Available. */
1109 	}
1110 	IBTF_DPRINTF_L3(ibtf, "ibt_check_failure: type = 0x%X", type);
1111 	return (type);
1112 }
1113 
1114 /*
1115  * Initialize and create kstats.
1116  *
1117  * We create the following kstats on all ports of the HCA:
1118  *	<hca_driver_name><instance_number>/port<port_num>/stats
1119  *	<hca_driver_name><instance_number>/port<port_num>/pkeys
1120  */
1121 static void
1122 ibtl_kstat_init(ibtl_hca_devinfo_t *hca_devp)
1123 {
1124 	uint_t			nports = hca_devp->hd_hca_attr->hca_nports;
1125 	ibtl_hca_port_kstat_t	*pks;
1126 	int			i;
1127 
1128 	IBTF_DPRINTF_L3(ibtf, "ibtl_kstat_init(hca_devp = 0x%p)", hca_devp);
1129 
1130 	hca_devp->hd_hca_port_ks_info_len =
1131 	    sizeof (ibtl_hca_port_kstat_t) * nports;
1132 	pks = kmem_zalloc(hca_devp->hd_hca_port_ks_info_len, KM_SLEEP);
1133 	hca_devp->hd_hca_port_ks_info = pks;
1134 
1135 	for (i = 0; i < nports; i++, pks++) {
1136 		pks->pks_hca_devp = hca_devp;
1137 		pks->pks_port_num = i + 1;
1138 		ibtl_kstat_stats_create(hca_devp, i + 1);
1139 		ibtl_kstat_pkeys_create(hca_devp, i + 1);
1140 	}
1141 }
1142 
1143 /*
1144  * Delete kstats on all ports of the HCA.
1145  */
1146 static void
1147 ibtl_kstat_fini(ibtl_hca_devinfo_t *hca_devp)
1148 {
1149 	ibtl_hca_port_kstat_t	*pks;
1150 	int			i;
1151 
1152 	IBTF_DPRINTF_L3(ibtf, "ibtl_kstat_fini(hca_devp = 0x%p)", hca_devp);
1153 
1154 	_NOTE(NOW_INVISIBLE_TO_OTHER_THREADS(*hca_devp))
1155 
1156 	pks = hca_devp->hd_hca_port_ks_info;
1157 	_NOTE(NOW_INVISIBLE_TO_OTHER_THREADS(*pks))
1158 
1159 	if (pks == NULL)
1160 		return;
1161 
1162 	for (i = 0; i < hca_devp->hd_hca_attr->hca_nports; i++, pks++) {
1163 		if (pks->pks_stats_ksp)
1164 			kstat_delete(pks->pks_stats_ksp);
1165 
1166 		if (pks->pks_pkeys_ksp) {
1167 			ASSERT(!MUTEX_HELD(&ibtl_clnt_list_mutex));
1168 			kstat_delete(pks->pks_pkeys_ksp);
1169 		}
1170 	}
1171 
1172 	kmem_free(hca_devp->hd_hca_port_ks_info,
1173 	    hca_devp->hd_hca_port_ks_info_len);
1174 }
1175 
1176 /*
1177  * Update "stats" kstat.
1178  * Called by kstat framework.
1179  */
1180 static int
1181 ibtl_kstat_stats_update(kstat_t *ksp, int rw)
1182 {
1183 	ibtl_hca_port_kstat_t	*pks;
1184 	ibtl_hca_devinfo_t	*hca_devp;
1185 	ibt_hca_portinfo_t	*p;
1186 	struct kstat_named	*data;
1187 
1188 	IBTF_DPRINTF_L4(ibtf, "ibtl_kstat_stats_update(ksp = 0x%p, rw = %d)",
1189 	    ksp, rw);
1190 
1191 	if (rw == KSTAT_WRITE)
1192 		return (EACCES);
1193 
1194 	mutex_enter(&ibtl_clnt_list_mutex);
1195 
1196 	/*
1197 	 * Update the link_state kstat using the value from portinfo cache.
1198 	 */
1199 	pks = ksp->ks_private;
1200 	hca_devp = pks->pks_hca_devp;
1201 	data = (struct kstat_named *)(ksp->ks_data);
1202 	p = hca_devp->hd_portinfop + pks->pks_port_num - 1;
1203 	data[0].value.ui32 = (uint32_t)p->p_linkstate;
1204 
1205 	mutex_exit(&ibtl_clnt_list_mutex);
1206 
1207 	return (0);
1208 }
1209 
1210 /*
1211  * Create "stats" kstat for the specified HCA port in the form:
1212  *	<hca_driver_name><instance_number>/port<port_num>/stats
1213  *	At preset it contains only one named data of "link_state"
1214  */
1215 static void
1216 ibtl_kstat_stats_create(ibtl_hca_devinfo_t *hca_devp, uint_t port_num)
1217 {
1218 	struct kstat		*ksp;
1219 	struct kstat_named	*named_data;
1220 	char			*drv_name;
1221 	int			drv_instance;
1222 	ibtl_hca_port_kstat_t	*pks;
1223 	char			kname[40];
1224 
1225 	IBTF_DPRINTF_L3(ibtf, "ibtl_kstat_stats_create(hca_devp = 0x%p, "
1226 	    "port_num = 0x%u)", hca_devp, port_num);
1227 
1228 	drv_name = (char *)ddi_driver_name(hca_devp->hd_hca_dip);
1229 	drv_instance = ddi_get_instance(hca_devp->hd_hca_dip);
1230 	(void) snprintf(kname, sizeof (kname), "%s%d/port%d/stats",
1231 	    drv_name, drv_instance, port_num);
1232 
1233 	ksp = kstat_create("ibtf", 0, kname, "ib", KSTAT_TYPE_NAMED, 1, 0);
1234 	if (ksp == NULL) {
1235 		IBTF_DPRINTF_L2(ibtf,
1236 		    "ibtl_kstat_stats_create: kstat_create() failed");
1237 		return;
1238 	}
1239 
1240 	named_data = (struct kstat_named *)(ksp->ks_data);
1241 	kstat_named_init(&named_data[0], "link_state", KSTAT_DATA_UINT32);
1242 
1243 	pks = hca_devp->hd_hca_port_ks_info + port_num - 1;
1244 	pks->pks_stats_ksp = ksp;
1245 
1246 	ksp->ks_private = pks;
1247 	ksp->ks_update = ibtl_kstat_stats_update;
1248 
1249 	/* Install the kstat */
1250 	kstat_install(ksp);
1251 }
1252 
1253 /*
1254  * Update "pkeys" kstat.
1255  *
1256  * Called by kstat framework. Since ks_lock was set to ibtl_clnt_list_mutex
1257  * at the time of the kstat creation, kstat framework will hold this lock
1258  * while calling this function.
1259  */
1260 static int
1261 ibtl_kstat_pkeys_update(kstat_t *ksp, int rw)
1262 {
1263 	ibtl_hca_port_kstat_t	*pks;
1264 	ibtl_hca_devinfo_t	*hca_devp;
1265 	ibt_hca_portinfo_t	*p;
1266 
1267 	IBTF_DPRINTF_L4(ibtf, "ibtl_kstat_pkeys_update(ksp = 0x%p, rw = %d)",
1268 	    ksp, rw);
1269 
1270 #ifndef	__lock_lint
1271 	ASSERT(MUTEX_HELD(&ibtl_clnt_list_mutex));
1272 #endif
1273 
1274 	if (rw == KSTAT_WRITE)
1275 		return (EACCES);
1276 
1277 	_NOTE(NOW_INVISIBLE_TO_OTHER_THREADS(*ksp))
1278 
1279 	pks = ksp->ks_private;
1280 	_NOTE(NOW_INVISIBLE_TO_OTHER_THREADS(*pks))
1281 
1282 	hca_devp = pks->pks_hca_devp;
1283 	_NOTE(NOW_INVISIBLE_TO_OTHER_THREADS(*hca_devp))
1284 
1285 	/*
1286 	 * Point kstat data to the pkey table in the portinfo cache.
1287 	 */
1288 
1289 	p = hca_devp->hd_portinfop + pks->pks_port_num - 1;
1290 
1291 	ksp->ks_data = p->p_pkey_tbl;
1292 	ksp->ks_ndata = p->p_pkey_tbl_sz;
1293 	ksp->ks_data_size = p->p_pkey_tbl_sz * sizeof (ib_pkey_t);
1294 
1295 	return (0);
1296 }
1297 
1298 /*
1299  * Create "pkeys" kstat for the specified HCA port in the form:
1300  *	<hca_driver_name><instance_number>/port<port_num>/pkeys
1301  *
1302  * Currently kstat framework allows only some fixed data types as named
1303  * data components under a named kstat. Due to this limitation it is not
1304  * possible to add "pkeys" as a named data under the "stats" kstat.
1305  */
1306 static void
1307 ibtl_kstat_pkeys_create(ibtl_hca_devinfo_t *hca_devp, uint_t port_num)
1308 {
1309 	struct kstat		*ksp;
1310 	char			*drv_name;
1311 	int			drv_instance;
1312 	char			kname[40];
1313 	ibtl_hca_port_kstat_t	*pks;
1314 
1315 	IBTF_DPRINTF_L3(ibtf, "ibtl_kstat_stats_create(hca_devp = 0x%p, "
1316 	    "port_num = 0x%u)", hca_devp, port_num);
1317 
1318 	drv_name = (char *)ddi_driver_name(hca_devp->hd_hca_dip);
1319 	drv_instance = ddi_get_instance(hca_devp->hd_hca_dip);
1320 	(void) snprintf(kname, sizeof (kname), "%s%d/port%d/pkeys",
1321 	    drv_name, drv_instance, port_num);
1322 
1323 	ksp = kstat_create("ibtf", 0, kname, "ib", KSTAT_TYPE_RAW, 0,
1324 	    KSTAT_FLAG_VAR_SIZE | KSTAT_FLAG_VIRTUAL);
1325 	if (ksp == NULL) {
1326 		IBTF_DPRINTF_L2(ibtf,
1327 		    "ibtl_kstat_pkeys_create: kstat_create() failed");
1328 		return;
1329 	}
1330 
1331 	pks = hca_devp->hd_hca_port_ks_info + port_num - 1;
1332 	pks->pks_pkeys_ksp = ksp;
1333 
1334 	ksp->ks_private = pks;
1335 	ksp->ks_update = ibtl_kstat_pkeys_update;
1336 	ksp->ks_lock = &ibtl_clnt_list_mutex;
1337 
1338 	/*
1339 	 * We just go with the default_kstat_snapshot().
1340 	 * So there is no need to set ks_snapshot field.
1341 	 */
1342 
1343 	/* Install the kstat */
1344 	kstat_install(ksp);
1345 }
1346