xref: /titanic_50/usr/src/uts/sun4/io/px/px_ib.c (revision 40b706cf0ea54322e61c57be046ae27fde135222)
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  * PX Interrupt Block implementation
28  */
29 
30 #include <sys/types.h>
31 #include <sys/kmem.h>
32 #include <sys/async.h>
33 #include <sys/systm.h>		/* panicstr */
34 #include <sys/spl.h>
35 #include <sys/sunddi.h>
36 #include <sys/machsystm.h>	/* intr_dist_add */
37 #include <sys/ddi_impldefs.h>
38 #include <sys/cpuvar.h>
39 #include <sys/time.h>
40 #include "px_obj.h"
41 
42 /*LINTLIBRARY*/
43 
44 static void px_ib_intr_redist(void *arg, int32_t weight_max, int32_t weight);
45 static void px_ib_cpu_ticks_to_ih_nsec(px_ib_t *ib_p, px_ih_t *ih_p,
46     uint32_t cpu_id);
47 static uint_t px_ib_intr_reset(void *arg);
48 static void px_fill_in_intr_devs(pcitool_intr_dev_t *dev, char *driver_name,
49     char *path_name, int instance);
50 
51 extern uint64_t xc_tick_jump_limit;
52 
53 int
54 px_ib_attach(px_t *px_p)
55 {
56 	dev_info_t	*dip = px_p->px_dip;
57 	px_ib_t		*ib_p;
58 	sysino_t	sysino;
59 	px_fault_t	*fault_p = &px_p->px_fault;
60 
61 	DBG(DBG_IB, dip, "px_ib_attach\n");
62 
63 	if (px_lib_intr_devino_to_sysino(px_p->px_dip,
64 	    px_p->px_inos[PX_INTR_PEC], &sysino) != DDI_SUCCESS)
65 		return (DDI_FAILURE);
66 
67 	/*
68 	 * Allocate interrupt block state structure and link it to
69 	 * the px state structure.
70 	 */
71 	ib_p = kmem_zalloc(sizeof (px_ib_t), KM_SLEEP);
72 	px_p->px_ib_p = ib_p;
73 	ib_p->ib_px_p = px_p;
74 	ib_p->ib_ino_lst = (px_ino_t *)NULL;
75 
76 	mutex_init(&ib_p->ib_intr_lock, NULL, MUTEX_DRIVER, NULL);
77 	mutex_init(&ib_p->ib_ino_lst_mutex, NULL, MUTEX_DRIVER, NULL);
78 
79 	bus_func_register(BF_TYPE_RESINTR, px_ib_intr_reset, ib_p);
80 
81 	intr_dist_add_weighted(px_ib_intr_redist, ib_p);
82 
83 	/*
84 	 * Initialize PEC fault data structure
85 	 */
86 	fault_p->px_fh_dip = dip;
87 	fault_p->px_fh_sysino = sysino;
88 	fault_p->px_err_func = px_err_dmc_pec_intr;
89 	fault_p->px_intr_ino = px_p->px_inos[PX_INTR_PEC];
90 
91 	return (DDI_SUCCESS);
92 }
93 
94 void
95 px_ib_detach(px_t *px_p)
96 {
97 	px_ib_t		*ib_p = px_p->px_ib_p;
98 	dev_info_t	*dip = px_p->px_dip;
99 
100 	DBG(DBG_IB, dip, "px_ib_detach\n");
101 
102 	bus_func_unregister(BF_TYPE_RESINTR, px_ib_intr_reset, ib_p);
103 	intr_dist_rem_weighted(px_ib_intr_redist, ib_p);
104 
105 	mutex_destroy(&ib_p->ib_ino_lst_mutex);
106 	mutex_destroy(&ib_p->ib_intr_lock);
107 
108 	px_ib_free_ino_all(ib_p);
109 
110 	px_p->px_ib_p = NULL;
111 	kmem_free(ib_p, sizeof (px_ib_t));
112 }
113 
114 void
115 px_ib_intr_enable(px_t *px_p, cpuid_t cpu_id, devino_t ino)
116 {
117 	px_ib_t		*ib_p = px_p->px_ib_p;
118 	sysino_t	sysino;
119 
120 	/*
121 	 * Determine the cpu for the interrupt
122 	 */
123 	mutex_enter(&ib_p->ib_intr_lock);
124 
125 	DBG(DBG_IB, px_p->px_dip,
126 	    "px_ib_intr_enable: ino=%x cpu_id=%x\n", ino, cpu_id);
127 
128 	if (px_lib_intr_devino_to_sysino(px_p->px_dip, ino,
129 	    &sysino) != DDI_SUCCESS) {
130 		DBG(DBG_IB, px_p->px_dip,
131 		    "px_ib_intr_enable: px_intr_devino_to_sysino() failed\n");
132 
133 		mutex_exit(&ib_p->ib_intr_lock);
134 		return;
135 	}
136 
137 	PX_INTR_ENABLE(px_p->px_dip, sysino, cpu_id);
138 	px_lib_intr_setstate(px_p->px_dip, sysino, INTR_IDLE_STATE);
139 
140 	mutex_exit(&ib_p->ib_intr_lock);
141 }
142 
143 /*ARGSUSED*/
144 void
145 px_ib_intr_disable(px_ib_t *ib_p, devino_t ino, int wait)
146 {
147 	sysino_t	sysino;
148 
149 	mutex_enter(&ib_p->ib_intr_lock);
150 
151 	DBG(DBG_IB, ib_p->ib_px_p->px_dip, "px_ib_intr_disable: ino=%x\n", ino);
152 
153 	/* Disable the interrupt */
154 	if (px_lib_intr_devino_to_sysino(ib_p->ib_px_p->px_dip, ino,
155 	    &sysino) != DDI_SUCCESS) {
156 		DBG(DBG_IB, ib_p->ib_px_p->px_dip,
157 		    "px_ib_intr_disable: px_intr_devino_to_sysino() failed\n");
158 
159 		mutex_exit(&ib_p->ib_intr_lock);
160 		return;
161 	}
162 
163 	PX_INTR_DISABLE(ib_p->ib_px_p->px_dip, sysino);
164 
165 	mutex_exit(&ib_p->ib_intr_lock);
166 }
167 
168 
169 void
170 px_ib_intr_dist_en(dev_info_t *dip, cpuid_t cpu_id, devino_t ino,
171     boolean_t wait_flag)
172 {
173 	uint32_t	old_cpu_id;
174 	sysino_t	sysino;
175 	intr_valid_state_t	enabled = 0;
176 	hrtime_t	start_time, prev, curr, interval, jump;
177 	hrtime_t	intr_timeout;
178 	intr_state_t	intr_state;
179 	int		e = DDI_SUCCESS;
180 
181 	DBG(DBG_IB, dip, "px_ib_intr_dist_en: ino=0x%x\n", ino);
182 
183 	if (px_lib_intr_devino_to_sysino(dip, ino, &sysino) != DDI_SUCCESS) {
184 		DBG(DBG_IB, dip, "px_ib_intr_dist_en: "
185 		    "px_intr_devino_to_sysino() failed, ino 0x%x\n", ino);
186 		return;
187 	}
188 
189 	/* Skip enabling disabled interrupts */
190 	if (px_lib_intr_getvalid(dip, sysino, &enabled) != DDI_SUCCESS) {
191 		DBG(DBG_IB, dip, "px_ib_intr_dist_en: px_intr_getvalid() "
192 		    "failed, sysino 0x%x\n", sysino);
193 		return;
194 	}
195 	if (!enabled)
196 		return;
197 
198 	/* Done if redistributed onto the same cpuid */
199 	if (px_lib_intr_gettarget(dip, sysino, &old_cpu_id) != DDI_SUCCESS) {
200 		DBG(DBG_IB, dip, "px_ib_intr_dist_en: "
201 		    "px_intr_gettarget() failed\n");
202 		return;
203 	}
204 	if (cpu_id == old_cpu_id)
205 		return;
206 
207 	if (!wait_flag)
208 		goto done;
209 
210 	/* Busy wait on pending interrupts */
211 	PX_INTR_DISABLE(dip, sysino);
212 
213 	intr_timeout = px_intrpend_timeout;
214 	jump = TICK_TO_NSEC(xc_tick_jump_limit);
215 
216 	for (curr = start_time = gethrtime(); !panicstr &&
217 	    ((e = px_lib_intr_getstate(dip, sysino, &intr_state)) ==
218 	    DDI_SUCCESS) &&
219 	    (intr_state == INTR_DELIVERED_STATE); /* */) {
220 		/*
221 		 * If we have a really large jump in hrtime, it is most
222 		 * probably because we entered the debugger (or OBP,
223 		 * in general). So, we adjust the timeout accordingly
224 		 * to prevent declaring an interrupt timeout. The
225 		 * master-interrupt mechanism in OBP should deliver
226 		 * the interrupts properly.
227 		 */
228 		prev = curr;
229 		curr = gethrtime();
230 		interval = curr - prev;
231 		if (interval > jump)
232 			intr_timeout += interval;
233 		if (curr - start_time > intr_timeout) {
234 			cmn_err(CE_WARN,
235 			    "%s%d: px_ib_intr_dist_en: sysino 0x%lx(ino 0x%x) "
236 			    "from cpu id 0x%x to 0x%x timeout",
237 			    ddi_driver_name(dip), ddi_get_instance(dip),
238 			    sysino, ino, old_cpu_id, cpu_id);
239 
240 			e = DDI_FAILURE;
241 			break;
242 		}
243 	}
244 
245 	if (e != DDI_SUCCESS)
246 		DBG(DBG_IB, dip, "px_ib_intr_dist_en: failed, "
247 		    "ino 0x%x sysino 0x%x\n", ino, sysino);
248 
249 done:
250 	PX_INTR_ENABLE(dip, sysino, cpu_id);
251 }
252 
253 static void
254 px_ib_cpu_ticks_to_ih_nsec(px_ib_t *ib_p, px_ih_t *ih_p, uint32_t cpu_id)
255 {
256 	extern kmutex_t pxintr_ks_template_lock;
257 	hrtime_t ticks;
258 
259 	/*
260 	 * Because we are updating two fields in ih_t we must lock
261 	 * pxintr_ks_template_lock to prevent someone from reading the
262 	 * kstats after we set ih_ticks to 0 and before we increment
263 	 * ih_nsec to compensate.
264 	 *
265 	 * We must also protect against the interrupt arriving and incrementing
266 	 * ih_ticks between the time we read it and when we reset it to 0.
267 	 * To do this we use atomic_swap.
268 	 */
269 
270 	ASSERT(MUTEX_HELD(&ib_p->ib_ino_lst_mutex));
271 
272 	mutex_enter(&pxintr_ks_template_lock);
273 	ticks = atomic_swap_64(&ih_p->ih_ticks, 0);
274 	ih_p->ih_nsec += (uint64_t)tick2ns(ticks, cpu_id);
275 	mutex_exit(&pxintr_ks_template_lock);
276 }
277 
278 
279 /*
280  * Redistribute interrupts of the specified weight. The first call has a weight
281  * of weight_max, which can be used to trigger initialization for
282  * redistribution. The inos with weight [weight_max, inf.) should be processed
283  * on the "weight == weight_max" call.  This first call is followed by calls
284  * of decreasing weights, inos of that weight should be processed.  The final
285  * call specifies a weight of zero, this can be used to trigger processing of
286  * stragglers.
287  */
288 static void
289 px_ib_intr_redist(void *arg, int32_t weight_max, int32_t weight)
290 {
291 	px_ib_t		*ib_p = (px_ib_t *)arg;
292 	px_t		*px_p = ib_p->ib_px_p;
293 	dev_info_t	*dip = px_p->px_dip;
294 	px_ino_t	*ino_p;
295 	px_ino_pil_t	*ipil_p;
296 	px_ih_t		*ih_lst;
297 	int32_t		dweight = 0;
298 	int		i;
299 
300 	/* Redistribute internal interrupts */
301 	if (weight == 0) {
302 		mutex_enter(&ib_p->ib_intr_lock);
303 		px_ib_intr_dist_en(dip, intr_dist_cpuid(),
304 		    px_p->px_inos[PX_INTR_PEC], B_FALSE);
305 		mutex_exit(&ib_p->ib_intr_lock);
306 
307 		px_hp_intr_redist(px_p);
308 	}
309 
310 	/* Redistribute device interrupts */
311 	mutex_enter(&ib_p->ib_ino_lst_mutex);
312 	px_msiq_redist(px_p);
313 
314 	for (ino_p = ib_p->ib_ino_lst; ino_p; ino_p = ino_p->ino_next_p) {
315 		/*
316 		 * Recomputes the sum of interrupt weights of devices that
317 		 * share the same ino upon first call marked by
318 		 * (weight == weight_max).
319 		 */
320 		if (weight == weight_max) {
321 			ino_p->ino_intr_weight = 0;
322 
323 			for (ipil_p = ino_p->ino_ipil_p; ipil_p;
324 			    ipil_p = ipil_p->ipil_next_p) {
325 				for (i = 0, ih_lst = ipil_p->ipil_ih_head;
326 				    i < ipil_p->ipil_ih_size; i++,
327 				    ih_lst = ih_lst->ih_next) {
328 					dweight = i_ddi_get_intr_weight(
329 					    ih_lst->ih_dip);
330 					if (dweight > 0)
331 						ino_p->ino_intr_weight +=
332 						    dweight;
333 				}
334 			}
335 		}
336 
337 		/*
338 		 * As part of redistributing weighted interrupts over cpus,
339 		 * nexus redistributes device interrupts and updates
340 		 * cpu weight. The purpose is for the most light weighted
341 		 * cpu to take the next interrupt and gain weight, therefore
342 		 * attention demanding device gains more cpu attention by
343 		 * making itself heavy.
344 		 */
345 		if ((weight == ino_p->ino_intr_weight) ||
346 		    ((weight >= weight_max) &&
347 		    (ino_p->ino_intr_weight >= weight_max))) {
348 			uint32_t orig_cpuid = ino_p->ino_cpuid;
349 
350 			if (cpu[orig_cpuid] == NULL)
351 				orig_cpuid = CPU->cpu_id;
352 
353 			DBG(DBG_IB, dip, "px_ib_intr_redist: sysino 0x%llx "
354 			    "current cpuid 0x%x current default cpuid 0x%x\n",
355 			    ino_p->ino_sysino, ino_p->ino_cpuid,
356 			    ino_p->ino_default_cpuid);
357 
358 			/* select target cpuid and mark ino established */
359 			if (ino_p->ino_default_cpuid == -1)
360 				ino_p->ino_cpuid = ino_p->ino_default_cpuid =
361 				    intr_dist_cpuid();
362 			else if ((ino_p->ino_cpuid !=
363 			    ino_p->ino_default_cpuid) &&
364 			    (cpu_intr_on(cpu[ino_p->ino_default_cpuid])))
365 				ino_p->ino_cpuid = ino_p->ino_default_cpuid;
366 			else if (!cpu_intr_on(cpu[ino_p->ino_cpuid]))
367 				ino_p->ino_cpuid = intr_dist_cpuid();
368 
369 			DBG(DBG_IB, dip, "px_ib_intr_redist: sysino 0x%llx "
370 			    "new cpuid 0x%x new default cpuid 0x%x\n",
371 			    ino_p->ino_sysino, ino_p->ino_cpuid,
372 			    ino_p->ino_default_cpuid);
373 
374 			/* Add device weight to targeted cpu. */
375 			for (ipil_p = ino_p->ino_ipil_p; ipil_p;
376 			    ipil_p = ipil_p->ipil_next_p) {
377 				for (i = 0, ih_lst = ipil_p->ipil_ih_head;
378 				    i < ipil_p->ipil_ih_size; i++,
379 				    ih_lst = ih_lst->ih_next) {
380 
381 					dweight = i_ddi_get_intr_weight(
382 					    ih_lst->ih_dip);
383 					intr_dist_cpuid_add_device_weight(
384 					    ino_p->ino_cpuid, ih_lst->ih_dip,
385 					    dweight);
386 
387 					/*
388 					 * Different cpus may have different
389 					 * clock speeds. to account for this,
390 					 * whenever an interrupt is moved to a
391 					 * new CPU, we convert the accumulated
392 					 * ticks into nsec, based upon the clock
393 					 * rate of the prior CPU.
394 					 *
395 					 * It is possible that the prior CPU no
396 					 * longer exists. In this case, fall
397 					 * back to using this CPU's clock rate.
398 					 *
399 					 * Note that the value in ih_ticks has
400 					 * already been corrected for any power
401 					 * savings mode which might have been
402 					 * in effect.
403 					 */
404 					px_ib_cpu_ticks_to_ih_nsec(ib_p, ih_lst,
405 					    orig_cpuid);
406 				}
407 			}
408 
409 			/* enable interrupt on new targeted cpu */
410 			px_ib_intr_dist_en(dip, ino_p->ino_cpuid,
411 			    ino_p->ino_ino, B_TRUE);
412 		}
413 	}
414 	mutex_exit(&ib_p->ib_ino_lst_mutex);
415 }
416 
417 /*
418  * Reset interrupts to IDLE.  This function is called during
419  * panic handling after redistributing interrupts; it's needed to
420  * support dumping to network devices after 'sync' from OBP.
421  *
422  * N.B.  This routine runs in a context where all other threads
423  * are permanently suspended.
424  */
425 static uint_t
426 px_ib_intr_reset(void *arg)
427 {
428 	px_ib_t		*ib_p = (px_ib_t *)arg;
429 
430 	DBG(DBG_IB, ib_p->ib_px_p->px_dip, "px_ib_intr_reset\n");
431 
432 	if (px_lib_intr_reset(ib_p->ib_px_p->px_dip) != DDI_SUCCESS)
433 		return (BF_FATAL);
434 
435 	return (BF_NONE);
436 }
437 
438 /*
439  * Locate px_ino_t structure on ib_p->ib_ino_lst according to ino#
440  * returns NULL if not found.
441  */
442 px_ino_t *
443 px_ib_locate_ino(px_ib_t *ib_p, devino_t ino_num)
444 {
445 	px_ino_t	*ino_p = ib_p->ib_ino_lst;
446 
447 	ASSERT(MUTEX_HELD(&ib_p->ib_ino_lst_mutex));
448 
449 	for (; ino_p && ino_p->ino_ino != ino_num; ino_p = ino_p->ino_next_p)
450 		;
451 
452 	return (ino_p);
453 }
454 
455 px_ino_t *
456 px_ib_alloc_ino(px_ib_t *ib_p, devino_t ino_num)
457 {
458 	sysino_t	sysino;
459 	px_ino_t	*ino_p;
460 
461 	if (px_lib_intr_devino_to_sysino(ib_p->ib_px_p->px_dip,
462 	    ino_num, &sysino) != DDI_SUCCESS)
463 		return (NULL);
464 
465 	ino_p = kmem_zalloc(sizeof (px_ino_t), KM_SLEEP);
466 
467 	ino_p->ino_next_p = ib_p->ib_ino_lst;
468 	ib_p->ib_ino_lst = ino_p;
469 
470 	ino_p->ino_ino = ino_num;
471 	ino_p->ino_sysino = sysino;
472 	ino_p->ino_ib_p = ib_p;
473 	ino_p->ino_unclaimed_intrs = 0;
474 	ino_p->ino_lopil = 0;
475 	ino_p->ino_cpuid = ino_p->ino_default_cpuid = (cpuid_t)-1;
476 
477 	return (ino_p);
478 }
479 
480 px_ino_pil_t *
481 px_ib_new_ino_pil(px_ib_t *ib_p, devino_t ino_num, uint_t pil, px_ih_t *ih_p)
482 {
483 	px_ino_pil_t	*ipil_p = kmem_zalloc(sizeof (px_ino_pil_t), KM_SLEEP);
484 	px_ino_t	*ino_p;
485 
486 	if ((ino_p = px_ib_locate_ino(ib_p, ino_num)) == NULL)
487 		ino_p = px_ib_alloc_ino(ib_p, ino_num);
488 
489 	ASSERT(ino_p != NULL);
490 
491 	ih_p->ih_next = ih_p;
492 	ipil_p->ipil_pil = pil;
493 	ipil_p->ipil_ih_head = ih_p;
494 	ipil_p->ipil_ih_tail = ih_p;
495 	ipil_p->ipil_ih_start = ih_p;
496 	ipil_p->ipil_ih_size = 1;
497 	ipil_p->ipil_ino_p = ino_p;
498 
499 	ipil_p->ipil_next_p = ino_p->ino_ipil_p;
500 	ino_p->ino_ipil_p = ipil_p;
501 	ino_p->ino_ipil_size++;
502 
503 	if ((ino_p->ino_lopil == 0) || (ino_p->ino_lopil > pil))
504 		ino_p->ino_lopil = pil;
505 
506 	return (ipil_p);
507 }
508 
509 void
510 px_ib_delete_ino_pil(px_ib_t *ib_p, px_ino_pil_t *ipil_p)
511 {
512 	px_ino_t	*ino_p = ipil_p->ipil_ino_p;
513 	ushort_t	pil = ipil_p->ipil_pil;
514 	px_ino_pil_t	*prev, *next;
515 
516 	ASSERT(MUTEX_HELD(&ib_p->ib_ino_lst_mutex));
517 
518 	if (ino_p->ino_ipil_p == ipil_p)
519 		ino_p->ino_ipil_p = ipil_p->ipil_next_p;
520 	else {
521 		for (prev = next = ino_p->ino_ipil_p; next != ipil_p;
522 		    prev = next, next = next->ipil_next_p)
523 			;
524 
525 		if (prev)
526 			prev->ipil_next_p = ipil_p->ipil_next_p;
527 	}
528 
529 	kmem_free(ipil_p, sizeof (px_ino_pil_t));
530 
531 	if ((--ino_p->ino_ipil_size) && (ino_p->ino_lopil == pil)) {
532 		for (next = ino_p->ino_ipil_p, pil = next->ipil_pil;
533 		    next; next = next->ipil_next_p) {
534 
535 			if (pil > next->ipil_pil)
536 				pil = next->ipil_pil;
537 		}
538 
539 		/*
540 		 * Value stored in pil should be the lowest pil.
541 		 */
542 		ino_p->ino_lopil = pil;
543 	}
544 
545 	if (ino_p->ino_ipil_size)
546 		return;
547 
548 	ino_p->ino_lopil = 0;
549 
550 	if (ino_p->ino_msiq_p)
551 		return;
552 
553 	if (ib_p->ib_ino_lst == ino_p)
554 		ib_p->ib_ino_lst = ino_p->ino_next_p;
555 	else {
556 		px_ino_t	*list = ib_p->ib_ino_lst;
557 
558 		for (; list->ino_next_p != ino_p; list = list->ino_next_p)
559 			;
560 		list->ino_next_p = ino_p->ino_next_p;
561 	}
562 }
563 
564 /*
565  * Free all ino when we are detaching.
566  */
567 void
568 px_ib_free_ino_all(px_ib_t *ib_p)
569 {
570 	px_ino_t	*ino_p = ib_p->ib_ino_lst;
571 	px_ino_t	*next = NULL;
572 
573 	while (ino_p) {
574 		next = ino_p->ino_next_p;
575 		kmem_free(ino_p, sizeof (px_ino_t));
576 		ino_p = next;
577 	}
578 }
579 
580 /*
581  * Locate px_ino_pil_t structure on ino_p->ino_ipil_p according to ino#
582  * returns NULL if not found.
583  */
584 px_ino_pil_t *
585 px_ib_ino_locate_ipil(px_ino_t *ino_p, uint_t pil)
586 {
587 	px_ino_pil_t	*ipil_p = ino_p->ino_ipil_p;
588 
589 	for (; ipil_p && ipil_p->ipil_pil != pil; ipil_p = ipil_p->ipil_next_p)
590 		;
591 
592 	return (ipil_p);
593 }
594 
595 int
596 px_ib_ino_add_intr(px_t *px_p, px_ino_pil_t *ipil_p, px_ih_t *ih_p)
597 {
598 	px_ino_t	*ino_p = ipil_p->ipil_ino_p;
599 	px_ib_t		*ib_p = ino_p->ino_ib_p;
600 	devino_t	ino = ino_p->ino_ino;
601 	sysino_t	sysino = ino_p->ino_sysino;
602 	dev_info_t	*dip = px_p->px_dip;
603 	cpuid_t		curr_cpu;
604 	hrtime_t	start_time;
605 	intr_state_t	intr_state;
606 	int		ret = DDI_SUCCESS;
607 
608 	ASSERT(MUTEX_HELD(&ib_p->ib_ino_lst_mutex));
609 	ASSERT(ib_p == px_p->px_ib_p);
610 
611 	DBG(DBG_IB, dip, "px_ib_ino_add_intr ino=%x\n", ino_p->ino_ino);
612 
613 	/* Disable the interrupt */
614 	if ((ret = px_lib_intr_gettarget(dip, sysino,
615 	    &curr_cpu)) != DDI_SUCCESS) {
616 		DBG(DBG_IB, dip,
617 		    "px_ib_ino_add_intr px_intr_gettarget() failed\n");
618 
619 		return (ret);
620 	}
621 
622 	PX_INTR_DISABLE(dip, sysino);
623 
624 	/* Busy wait on pending interrupt */
625 	for (start_time = gethrtime(); !panicstr &&
626 	    ((ret = px_lib_intr_getstate(dip, sysino, &intr_state))
627 	    == DDI_SUCCESS) && (intr_state == INTR_DELIVERED_STATE); /* */) {
628 		if (gethrtime() - start_time > px_intrpend_timeout) {
629 			cmn_err(CE_WARN, "%s%d: px_ib_ino_add_intr: pending "
630 			    "sysino 0x%lx(ino 0x%x) timeout",
631 			    ddi_driver_name(dip), ddi_get_instance(dip),
632 			    sysino, ino);
633 
634 			ret = DDI_FAILURE;
635 			break;
636 		}
637 	}
638 
639 	/*
640 	 * If the interrupt was previously blocked (left in pending state)
641 	 * because of jabber we need to clear the pending state in case the
642 	 * jabber has gone away.
643 	 */
644 	if (ino_p->ino_unclaimed_intrs > px_unclaimed_intr_max) {
645 		cmn_err(CE_WARN,
646 		    "%s%d: px_ib_ino_add_intr: ino 0x%x has been unblocked",
647 		    ddi_driver_name(dip), ddi_get_instance(dip), ino);
648 
649 		ino_p->ino_unclaimed_intrs = 0;
650 		ret = px_lib_intr_setstate(dip, sysino, INTR_IDLE_STATE);
651 	}
652 
653 	if (ret != DDI_SUCCESS) {
654 		DBG(DBG_IB, dip, "px_ib_ino_add_intr: failed, "
655 		    "ino 0x%x sysino 0x%x\n", ino, sysino);
656 
657 		return (ret);
658 	}
659 
660 	/* Link up px_ih_t */
661 	ih_p->ih_next = ipil_p->ipil_ih_head;
662 	ipil_p->ipil_ih_tail->ih_next = ih_p;
663 	ipil_p->ipil_ih_tail = ih_p;
664 
665 	ipil_p->ipil_ih_start = ipil_p->ipil_ih_head;
666 	ipil_p->ipil_ih_size++;
667 
668 	/* Re-enable interrupt */
669 	PX_INTR_ENABLE(dip, sysino, curr_cpu);
670 
671 	return (ret);
672 }
673 
674 /*
675  * Removes px_ih_t from the ino's link list.
676  * uses hardware mutex to lock out interrupt threads.
677  * Side effects: interrupt belongs to that ino is turned off on return.
678  * if we are sharing PX slot with other inos, the caller needs
679  * to turn it back on.
680  */
681 int
682 px_ib_ino_rem_intr(px_t *px_p, px_ino_pil_t *ipil_p, px_ih_t *ih_p)
683 {
684 	px_ino_t	*ino_p = ipil_p->ipil_ino_p;
685 	devino_t	ino = ino_p->ino_ino;
686 	sysino_t	sysino = ino_p->ino_sysino;
687 	dev_info_t	*dip = px_p->px_dip;
688 	px_ih_t		*ih_lst = ipil_p->ipil_ih_head;
689 	hrtime_t	start_time;
690 	intr_state_t	intr_state;
691 	int		i, ret = DDI_SUCCESS;
692 
693 	ASSERT(MUTEX_HELD(&ino_p->ino_ib_p->ib_ino_lst_mutex));
694 
695 	DBG(DBG_IB, px_p->px_dip, "px_ib_ino_rem_intr ino=%x\n",
696 	    ino_p->ino_ino);
697 
698 	/* Disable the interrupt */
699 	PX_INTR_DISABLE(px_p->px_dip, sysino);
700 
701 	if (ipil_p->ipil_ih_size == 1) {
702 		if (ih_lst != ih_p)
703 			goto not_found;
704 
705 		/* No need to set head/tail as ino_p will be freed */
706 		goto reset;
707 	}
708 
709 	/* Busy wait on pending interrupt */
710 	for (start_time = gethrtime(); !panicstr &&
711 	    ((ret = px_lib_intr_getstate(dip, sysino, &intr_state))
712 	    == DDI_SUCCESS) && (intr_state == INTR_DELIVERED_STATE); /* */) {
713 		if (gethrtime() - start_time > px_intrpend_timeout) {
714 			cmn_err(CE_WARN, "%s%d: px_ib_ino_rem_intr: pending "
715 			    "sysino 0x%lx(ino 0x%x) timeout",
716 			    ddi_driver_name(dip), ddi_get_instance(dip),
717 			    sysino, ino);
718 
719 			ret = DDI_FAILURE;
720 			break;
721 		}
722 	}
723 
724 	/*
725 	 * If the interrupt was previously blocked (left in pending state)
726 	 * because of jabber we need to clear the pending state in case the
727 	 * jabber has gone away.
728 	 */
729 	if (ino_p->ino_unclaimed_intrs > px_unclaimed_intr_max) {
730 		cmn_err(CE_WARN, "%s%d: px_ib_ino_rem_intr: "
731 		    "ino 0x%x has been unblocked",
732 		    ddi_driver_name(dip), ddi_get_instance(dip), ino);
733 
734 		ino_p->ino_unclaimed_intrs = 0;
735 		ret = px_lib_intr_setstate(dip, sysino, INTR_IDLE_STATE);
736 	}
737 
738 	if (ret != DDI_SUCCESS) {
739 		DBG(DBG_IB, dip, "px_ib_ino_rem_intr: failed, "
740 		    "ino 0x%x sysino 0x%x\n", ino, sysino);
741 
742 		return (ret);
743 	}
744 
745 	/* Search the link list for ih_p */
746 	for (i = 0; (i < ipil_p->ipil_ih_size) &&
747 	    (ih_lst->ih_next != ih_p); i++, ih_lst = ih_lst->ih_next)
748 		;
749 
750 	if (ih_lst->ih_next != ih_p)
751 		goto not_found;
752 
753 	/* Remove ih_p from the link list and maintain the head/tail */
754 	ih_lst->ih_next = ih_p->ih_next;
755 
756 	if (ipil_p->ipil_ih_head == ih_p)
757 		ipil_p->ipil_ih_head = ih_p->ih_next;
758 	if (ipil_p->ipil_ih_tail == ih_p)
759 		ipil_p->ipil_ih_tail = ih_lst;
760 
761 	ipil_p->ipil_ih_start = ipil_p->ipil_ih_head;
762 
763 reset:
764 	if (ih_p->ih_config_handle)
765 		pci_config_teardown(&ih_p->ih_config_handle);
766 	if (ih_p->ih_ksp != NULL)
767 		kstat_delete(ih_p->ih_ksp);
768 
769 	kmem_free(ih_p, sizeof (px_ih_t));
770 	ipil_p->ipil_ih_size--;
771 
772 	return (ret);
773 
774 not_found:
775 	DBG(DBG_R_INTX, ino_p->ino_ib_p->ib_px_p->px_dip,
776 	    "ino_p=%x does not have ih_p=%x\n", ino_p, ih_p);
777 
778 	return (DDI_FAILURE);
779 }
780 
781 px_ih_t *
782 px_ib_intr_locate_ih(px_ino_pil_t *ipil_p, dev_info_t *rdip,
783     uint32_t inum, msiq_rec_type_t rec_type, msgcode_t msg_code)
784 {
785 	px_ih_t	*ih_p = ipil_p->ipil_ih_head;
786 	int	i;
787 
788 	for (i = 0; i < ipil_p->ipil_ih_size; i++, ih_p = ih_p->ih_next) {
789 		if ((ih_p->ih_dip == rdip) && (ih_p->ih_inum == inum) &&
790 		    (ih_p->ih_rec_type == rec_type) &&
791 		    (ih_p->ih_msg_code == msg_code))
792 			return (ih_p);
793 	}
794 
795 	return ((px_ih_t *)NULL);
796 }
797 
798 px_ih_t *
799 px_ib_alloc_ih(dev_info_t *rdip, uint32_t inum,
800     uint_t (*int_handler)(caddr_t int_handler_arg1, caddr_t int_handler_arg2),
801     caddr_t int_handler_arg1, caddr_t int_handler_arg2,
802     msiq_rec_type_t rec_type, msgcode_t msg_code)
803 {
804 	px_ih_t	*ih_p;
805 
806 	ih_p = kmem_alloc(sizeof (px_ih_t), KM_SLEEP);
807 	ih_p->ih_dip = rdip;
808 	ih_p->ih_inum = inum;
809 	ih_p->ih_intr_state = PX_INTR_STATE_DISABLE;
810 	ih_p->ih_handler = int_handler;
811 	ih_p->ih_handler_arg1 = int_handler_arg1;
812 	ih_p->ih_handler_arg2 = int_handler_arg2;
813 	ih_p->ih_config_handle = NULL;
814 	ih_p->ih_rec_type = rec_type;
815 	ih_p->ih_msg_code = msg_code;
816 	ih_p->ih_nsec = 0;
817 	ih_p->ih_ticks = 0;
818 	ih_p->ih_ksp = NULL;
819 
820 	return (ih_p);
821 }
822 
823 int
824 px_ib_update_intr_state(px_t *px_p, dev_info_t *rdip,
825     uint_t inum, devino_t ino, uint_t pil,
826     uint_t new_intr_state, msiq_rec_type_t rec_type,
827     msgcode_t msg_code)
828 {
829 	px_ib_t		*ib_p = px_p->px_ib_p;
830 	px_ino_t	*ino_p;
831 	px_ino_pil_t	*ipil_p;
832 	px_ih_t		*ih_p;
833 	int		ret = DDI_FAILURE;
834 
835 	DBG(DBG_IB, px_p->px_dip, "px_ib_update_intr_state: %s%d "
836 	    "inum %x devino %x pil %x state %x\n", ddi_driver_name(rdip),
837 	    ddi_get_instance(rdip), inum, ino, pil, new_intr_state);
838 
839 	mutex_enter(&ib_p->ib_ino_lst_mutex);
840 
841 	ino_p = px_ib_locate_ino(ib_p, ino);
842 	if (ino_p && (ipil_p = px_ib_ino_locate_ipil(ino_p, pil))) {
843 		if (ih_p = px_ib_intr_locate_ih(ipil_p, rdip, inum, rec_type,
844 		    msg_code)) {
845 			ih_p->ih_intr_state = new_intr_state;
846 			ret = DDI_SUCCESS;
847 		}
848 	}
849 
850 	mutex_exit(&ib_p->ib_ino_lst_mutex);
851 	return (ret);
852 }
853 
854 
855 /*
856  * Get interrupt CPU for a given ino.
857  * Return info only for inos which are already mapped to devices.
858  */
859 /*ARGSUSED*/
860 int
861 px_ib_get_intr_target(px_t *px_p, devino_t ino, cpuid_t *cpu_id_p)
862 {
863 	dev_info_t	*dip = px_p->px_dip;
864 	sysino_t	sysino;
865 	int		ret;
866 
867 	DBG(DBG_IB, px_p->px_dip, "px_ib_get_intr_target: devino %x\n", ino);
868 
869 	/* Convert leaf-wide intr to system-wide intr */
870 	if (px_lib_intr_devino_to_sysino(dip, ino, &sysino) != DDI_SUCCESS)
871 		return (DDI_FAILURE);
872 
873 	ret = px_lib_intr_gettarget(dip, sysino, cpu_id_p);
874 
875 	DBG(DBG_IB, px_p->px_dip, "px_ib_get_intr_target: cpu_id %x\n",
876 	    *cpu_id_p);
877 
878 	return (ret);
879 }
880 
881 
882 /*
883  * Associate a new CPU with a given ino.
884  * Operate only on INOs which are already mapped to devices.
885  */
886 int
887 px_ib_set_intr_target(px_t *px_p, devino_t ino, cpuid_t cpu_id)
888 {
889 	dev_info_t		*dip = px_p->px_dip;
890 	cpuid_t			old_cpu_id;
891 	sysino_t		sysino;
892 	int			ret = DDI_SUCCESS;
893 	extern const int	_ncpu;
894 	extern cpu_t		*cpu[];
895 
896 	DBG(DBG_IB, px_p->px_dip, "px_ib_set_intr_target: devino %x "
897 	    "cpu_id %x\n", ino, cpu_id);
898 
899 	mutex_enter(&cpu_lock);
900 
901 	/* Convert leaf-wide intr to system-wide intr */
902 	if (px_lib_intr_devino_to_sysino(dip, ino, &sysino) != DDI_SUCCESS) {
903 		ret = DDI_FAILURE;
904 		goto done;
905 	}
906 
907 	if (px_lib_intr_gettarget(dip, sysino, &old_cpu_id) != DDI_SUCCESS) {
908 		ret = DDI_FAILURE;
909 		goto done;
910 	}
911 
912 	/*
913 	 * Get lock, validate cpu and write it.
914 	 */
915 	if ((cpu_id < _ncpu) && (cpu[cpu_id] && cpu_is_online(cpu[cpu_id]))) {
916 		DBG(DBG_IB, dip, "px_ib_set_intr_target: Enabling CPU %d\n",
917 		    cpu_id);
918 		px_ib_intr_dist_en(dip, cpu_id, ino, B_TRUE);
919 		px_ib_log_new_cpu(px_p->px_ib_p, old_cpu_id, cpu_id, ino);
920 	} else {	/* Invalid cpu */
921 		DBG(DBG_IB, dip, "px_ib_set_intr_target: Invalid cpuid %x\n",
922 		    cpu_id);
923 		ret = DDI_EINVAL;
924 	}
925 
926 done:
927 	mutex_exit(&cpu_lock);
928 	return (ret);
929 }
930 
931 hrtime_t px_ib_msix_retarget_timeout = 120ll * NANOSEC;	/* 120 seconds */
932 
933 /*
934  * Associate a new CPU with a given MSI/X.
935  * Operate only on MSI/Xs which are already mapped to devices.
936  */
937 int
938 px_ib_set_msix_target(px_t *px_p, ddi_intr_handle_impl_t *hdlp,
939     msinum_t msi_num, cpuid_t cpu_id)
940 {
941 	px_ib_t			*ib_p = px_p->px_ib_p;
942 	px_msi_state_t		*msi_state_p = &px_p->px_ib_p->ib_msi_state;
943 	dev_info_t		*dip = px_p->px_dip;
944 	dev_info_t		*rdip = hdlp->ih_dip;
945 	msiqid_t		msiq_id, old_msiq_id;
946 	pci_msi_state_t		msi_state;
947 	msiq_rec_type_t		msiq_rec_type;
948 	msi_type_t		msi_type;
949 	px_ino_t		*ino_p;
950 	px_ih_t			*ih_p, *old_ih_p;
951 	cpuid_t			old_cpu_id;
952 	hrtime_t		start_time, end_time;
953 	int			ret = DDI_SUCCESS;
954 	extern const int	_ncpu;
955 	extern cpu_t		*cpu[];
956 
957 	DBG(DBG_IB, dip, "px_ib_set_msix_target: msi_num %x new cpu_id %x\n",
958 	    msi_num, cpu_id);
959 
960 	mutex_enter(&cpu_lock);
961 
962 	/* Check for MSI64 support */
963 	if ((hdlp->ih_cap & DDI_INTR_FLAG_MSI64) && msi_state_p->msi_addr64) {
964 		msiq_rec_type = MSI64_REC;
965 		msi_type = MSI64_TYPE;
966 	} else {
967 		msiq_rec_type = MSI32_REC;
968 		msi_type = MSI32_TYPE;
969 	}
970 
971 	if ((ret = px_lib_msi_getmsiq(dip, msi_num,
972 	    &old_msiq_id)) != DDI_SUCCESS) {
973 
974 		mutex_exit(&cpu_lock);
975 		return (ret);
976 	}
977 
978 	DBG(DBG_IB, dip, "px_ib_set_msix_target: current msiq 0x%x\n",
979 	    old_msiq_id);
980 
981 	if ((ret = px_ib_get_intr_target(px_p,
982 	    px_msiqid_to_devino(px_p, old_msiq_id),
983 	    &old_cpu_id)) != DDI_SUCCESS) {
984 
985 		mutex_exit(&cpu_lock);
986 		return (ret);
987 	}
988 
989 	DBG(DBG_IB, dip, "px_ib_set_msix_target: current cpuid 0x%x\n",
990 	    old_cpu_id);
991 
992 	if (cpu_id == old_cpu_id) {
993 
994 		mutex_exit(&cpu_lock);
995 		return (DDI_SUCCESS);
996 	}
997 
998 	/*
999 	 * Get lock, validate cpu and write it.
1000 	 */
1001 	if (!((cpu_id < _ncpu) && (cpu[cpu_id] &&
1002 	    cpu_is_online(cpu[cpu_id])))) {
1003 		/* Invalid cpu */
1004 		DBG(DBG_IB, dip, "px_ib_set_msix_target: Invalid cpuid %x\n",
1005 		    cpu_id);
1006 
1007 		mutex_exit(&cpu_lock);
1008 		return (DDI_EINVAL);
1009 	}
1010 
1011 	DBG(DBG_IB, dip, "px_ib_set_msix_target: Enabling CPU %d\n", cpu_id);
1012 
1013 	if ((ret = px_add_msiq_intr(dip, rdip, hdlp,
1014 	    msiq_rec_type, msi_num, cpu_id, &msiq_id)) != DDI_SUCCESS) {
1015 		DBG(DBG_IB, dip, "px_ib_set_msix_target: Add MSI handler "
1016 		    "failed, rdip 0x%p msi 0x%x\n", rdip, msi_num);
1017 
1018 		mutex_exit(&cpu_lock);
1019 		return (ret);
1020 	}
1021 
1022 	if ((ret = px_lib_msi_setmsiq(dip, msi_num,
1023 	    msiq_id, msi_type)) != DDI_SUCCESS) {
1024 		(void) px_rem_msiq_intr(dip, rdip,
1025 		    hdlp, msiq_rec_type, msi_num, msiq_id);
1026 
1027 		mutex_exit(&cpu_lock);
1028 		return (ret);
1029 	}
1030 
1031 	if ((ret = px_ib_update_intr_state(px_p, rdip, hdlp->ih_inum,
1032 	    px_msiqid_to_devino(px_p, msiq_id), hdlp->ih_pri,
1033 	    PX_INTR_STATE_ENABLE, msiq_rec_type, msi_num)) != DDI_SUCCESS) {
1034 		(void) px_rem_msiq_intr(dip, rdip,
1035 		    hdlp, msiq_rec_type, msi_num, msiq_id);
1036 
1037 		mutex_exit(&cpu_lock);
1038 		return (ret);
1039 	}
1040 
1041 	mutex_exit(&cpu_lock);
1042 	mutex_enter(&ib_p->ib_ino_lst_mutex);
1043 
1044 	ino_p = px_ib_locate_ino(ib_p, px_msiqid_to_devino(px_p, old_msiq_id));
1045 	old_ih_p = px_ib_intr_locate_ih(px_ib_ino_locate_ipil(ino_p,
1046 	    hdlp->ih_pri), rdip, hdlp->ih_inum, msiq_rec_type, msi_num);
1047 	old_ih_p->ih_retarget_flag = B_TRUE;
1048 
1049 	ino_p = px_ib_locate_ino(ib_p, px_msiqid_to_devino(px_p, msiq_id));
1050 	ih_p = px_ib_intr_locate_ih(px_ib_ino_locate_ipil(ino_p, hdlp->ih_pri),
1051 	    rdip, hdlp->ih_inum, msiq_rec_type, msi_num);
1052 	ih_p->ih_retarget_flag = B_TRUE;
1053 
1054 	if ((ret = px_lib_msi_getstate(dip, msi_num,
1055 	    &msi_state)) != DDI_SUCCESS) {
1056 		(void) px_rem_msiq_intr(dip, rdip,
1057 		    hdlp, msiq_rec_type, msi_num, msiq_id);
1058 
1059 		mutex_exit(&ib_p->ib_ino_lst_mutex);
1060 		return (ret);
1061 	}
1062 
1063 	if (msi_state == PCI_MSI_STATE_IDLE)
1064 		ih_p->ih_retarget_flag = B_FALSE;
1065 
1066 	start_time = gethrtime();
1067 	while ((ih_p->ih_retarget_flag == B_TRUE) &&
1068 	    (old_ih_p->ih_retarget_flag == B_TRUE)) {
1069 		if ((end_time = (gethrtime() - start_time)) >
1070 		    px_ib_msix_retarget_timeout) {
1071 			cmn_err(CE_WARN, "MSIX retarget %x is not completed, "
1072 			    "even after waiting %llx ticks\n",
1073 			    msi_num, end_time);
1074 
1075 			break;
1076 		}
1077 
1078 		/* Wait for one second */
1079 		delay(drv_usectohz(1000000));
1080 	}
1081 
1082 	mutex_exit(&ib_p->ib_ino_lst_mutex);
1083 
1084 	ret = px_rem_msiq_intr(dip, rdip,
1085 	    hdlp, msiq_rec_type, msi_num, old_msiq_id);
1086 
1087 	return (ret);
1088 }
1089 
1090 
1091 static void
1092 px_fill_in_intr_devs(pcitool_intr_dev_t *dev, char *driver_name,
1093     char *path_name, int instance)
1094 {
1095 	(void) strncpy(dev->driver_name, driver_name, MAXMODCONFNAME-1);
1096 	dev->driver_name[MAXMODCONFNAME] = '\0';
1097 	(void) strncpy(dev->path, path_name, MAXPATHLEN-1);
1098 	dev->dev_inst = instance;
1099 }
1100 
1101 
1102 /*
1103  * Return the dips or number of dips associated with a given interrupt block.
1104  * Size of dips array arg is passed in as dips_ret arg.
1105  * Number of dips returned is returned in dips_ret arg.
1106  * Array of dips gets returned in the dips argument.
1107  * Function returns number of dips existing for the given interrupt block.
1108  *
1109  * Note: this function assumes an enabled/valid INO, which is why it returns
1110  * the px node and (Internal) when it finds no other devices (and *devs_ret > 0)
1111  */
1112 uint8_t
1113 pxtool_ib_get_ino_devs(px_t *px_p, uint32_t ino, uint32_t msi_num,
1114     uint8_t *devs_ret, pcitool_intr_dev_t *devs)
1115 {
1116 	px_ib_t		*ib_p = px_p->px_ib_p;
1117 	px_ino_t	*ino_p;
1118 	px_ino_pil_t	*ipil_p;
1119 	px_ih_t 	*ih_p;
1120 	uint32_t 	num_devs = 0;
1121 	char		pathname[MAXPATHLEN];
1122 	int		i, j;
1123 
1124 	mutex_enter(&ib_p->ib_ino_lst_mutex);
1125 	ino_p = px_ib_locate_ino(ib_p, ino);
1126 	if (ino_p != NULL) {
1127 		for (j = 0, ipil_p = ino_p->ino_ipil_p; ipil_p;
1128 		    ipil_p = ipil_p->ipil_next_p) {
1129 			num_devs += ipil_p->ipil_ih_size;
1130 
1131 			for (i = 0, ih_p = ipil_p->ipil_ih_head;
1132 			    ((i < ipil_p->ipil_ih_size) && (i < *devs_ret));
1133 			    i++, j++, ih_p = ih_p->ih_next) {
1134 				(void) ddi_pathname(ih_p->ih_dip, pathname);
1135 
1136 				if (ih_p->ih_msg_code == msi_num) {
1137 					num_devs = *devs_ret = 1;
1138 					px_fill_in_intr_devs(&devs[0],
1139 					    (char *)ddi_driver_name(
1140 					    ih_p->ih_dip), pathname,
1141 					    ddi_get_instance(ih_p->ih_dip));
1142 					goto done;
1143 				}
1144 
1145 				px_fill_in_intr_devs(&devs[j],
1146 				    (char *)ddi_driver_name(ih_p->ih_dip),
1147 				    pathname, ddi_get_instance(ih_p->ih_dip));
1148 			}
1149 		}
1150 
1151 		*devs_ret = j;
1152 	} else if (*devs_ret > 0) {
1153 		(void) ddi_pathname(px_p->px_dip, pathname);
1154 		strcat(pathname, " (Internal)");
1155 		px_fill_in_intr_devs(&devs[0],
1156 		    (char *)ddi_driver_name(px_p->px_dip),  pathname,
1157 		    ddi_get_instance(px_p->px_dip));
1158 		num_devs = *devs_ret = 1;
1159 	}
1160 
1161 done:
1162 	mutex_exit(&ib_p->ib_ino_lst_mutex);
1163 
1164 	return (num_devs);
1165 }
1166 
1167 
1168 int
1169 pxtool_ib_get_msi_info(px_t *px_p, devino_t ino, msinum_t msi_num,
1170     ddi_intr_handle_impl_t *hdlp)
1171 {
1172 	px_ib_t		*ib_p = px_p->px_ib_p;
1173 	px_ino_t	*ino_p;
1174 	px_ino_pil_t	*ipil_p;
1175 	px_ih_t 	*ih_p;
1176 	int		i;
1177 
1178 	mutex_enter(&ib_p->ib_ino_lst_mutex);
1179 
1180 	if ((ino_p = px_ib_locate_ino(ib_p, ino)) == NULL) {
1181 		mutex_exit(&ib_p->ib_ino_lst_mutex);
1182 		return (DDI_FAILURE);
1183 	}
1184 
1185 	for (ipil_p = ino_p->ino_ipil_p; ipil_p;
1186 	    ipil_p = ipil_p->ipil_next_p) {
1187 		for (i = 0, ih_p = ipil_p->ipil_ih_head;
1188 		    ((i < ipil_p->ipil_ih_size) && ih_p);
1189 		    i++, ih_p = ih_p->ih_next) {
1190 
1191 			if (ih_p->ih_msg_code != msi_num)
1192 				continue;
1193 
1194 			hdlp->ih_dip = ih_p->ih_dip;
1195 			hdlp->ih_inum = ih_p->ih_inum;
1196 			hdlp->ih_cb_func = ih_p->ih_handler;
1197 			hdlp->ih_cb_arg1 = ih_p->ih_handler_arg1;
1198 			hdlp->ih_cb_arg2 = ih_p->ih_handler_arg2;
1199 			if (ih_p->ih_rec_type == MSI64_REC)
1200 				hdlp->ih_cap = DDI_INTR_FLAG_MSI64;
1201 			hdlp->ih_pri = ipil_p->ipil_pil;
1202 			hdlp->ih_ver = DDI_INTR_VERSION;
1203 
1204 			mutex_exit(&ib_p->ib_ino_lst_mutex);
1205 			return (DDI_SUCCESS);
1206 		}
1207 	}
1208 
1209 	mutex_exit(&ib_p->ib_ino_lst_mutex);
1210 	return (DDI_FAILURE);
1211 }
1212 
1213 void
1214 px_ib_log_new_cpu(px_ib_t *ib_p, cpuid_t old_cpu_id, cpuid_t new_cpu_id,
1215     uint32_t ino)
1216 {
1217 	px_ino_t	*ino_p;
1218 	px_ino_pil_t	*ipil_p;
1219 	px_ih_t 	*ih_p;
1220 	int		i;
1221 
1222 	mutex_enter(&ib_p->ib_ino_lst_mutex);
1223 
1224 	/* Log in OS data structures the new CPU. */
1225 	if (ino_p = px_ib_locate_ino(ib_p, ino)) {
1226 
1227 		/* Log in OS data structures the new CPU. */
1228 		ino_p->ino_cpuid = new_cpu_id;
1229 
1230 		for (ipil_p = ino_p->ino_ipil_p; ipil_p;
1231 		    ipil_p = ipil_p->ipil_next_p) {
1232 			for (i = 0, ih_p = ipil_p->ipil_ih_head;
1233 			    (i < ipil_p->ipil_ih_size);
1234 			    i++, ih_p = ih_p->ih_next) {
1235 				/*
1236 				 * Account for any residual time
1237 				 * to be logged for old cpu.
1238 				 */
1239 				px_ib_cpu_ticks_to_ih_nsec(ib_p,
1240 				    ih_p, old_cpu_id);
1241 			}
1242 		}
1243 	}
1244 
1245 	mutex_exit(&ib_p->ib_ino_lst_mutex);
1246 }
1247