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[netbsd-mini2440.git] / sys / kern / kern_pmf.c
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1 /* $NetBSD: kern_pmf.c,v 1.30 2009/10/27 02:55:07 rmind Exp $ */
3 /*-
4 * Copyright (c) 2007 Jared D. McNeill <jmcneill@invisible.ca>
5 * All rights reserved.
7 * Redistribution and use in source and binary forms, with or without
8 * modification, are permitted provided that the following conditions
9 * are met:
10 * 1. Redistributions of source code must retain the above copyright
11 * notice, this list of conditions and the following disclaimer.
12 * 2. Redistributions in binary form must reproduce the above copyright
13 * notice, this list of conditions and the following disclaimer in the
14 * documentation and/or other materials provided with the distribution.
16 * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
17 * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
18 * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
19 * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
20 * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
21 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
22 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
23 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
24 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
25 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
26 * POSSIBILITY OF SUCH DAMAGE.
29 #include <sys/cdefs.h>
30 __KERNEL_RCSID(0, "$NetBSD: kern_pmf.c,v 1.30 2009/10/27 02:55:07 rmind Exp $");
32 #include <sys/types.h>
33 #include <sys/param.h>
34 #include <sys/kmem.h>
35 #include <sys/buf.h>
36 #include <sys/callout.h>
37 #include <sys/kernel.h>
38 #include <sys/device.h>
39 #include <sys/pmf.h>
40 #include <sys/queue.h>
41 #include <sys/sched.h>
42 #include <sys/syscallargs.h> /* for sys_sync */
43 #include <sys/workqueue.h>
44 #include <prop/proplib.h>
45 #include <sys/condvar.h>
46 #include <sys/mutex.h>
47 #include <sys/proc.h>
48 #include <sys/reboot.h> /* for RB_NOSYNC */
49 #include <sys/sched.h>
51 /* XXX ugly special case, but for now the only client */
52 #include "wsdisplay.h"
53 #if NWSDISPLAY > 0
54 #include <dev/wscons/wsdisplayvar.h>
55 #endif
57 #ifndef PMF_DEBUG
58 #define PMF_DEBUG
59 #endif
61 #ifdef PMF_DEBUG
62 int pmf_debug_event;
63 int pmf_debug_suspend;
64 int pmf_debug_suspensor;
65 int pmf_debug_idle;
66 int pmf_debug_transition;
68 #define PMF_SUSPENSOR_PRINTF(x) if (pmf_debug_suspensor) printf x
69 #define PMF_SUSPEND_PRINTF(x) if (pmf_debug_suspend) printf x
70 #define PMF_EVENT_PRINTF(x) if (pmf_debug_event) printf x
71 #define PMF_IDLE_PRINTF(x) if (pmf_debug_idle) printf x
72 #define PMF_TRANSITION_PRINTF(x) if (pmf_debug_transition) printf x
73 #define PMF_TRANSITION_PRINTF2(y,x) if (pmf_debug_transition>y) printf x
74 #else
75 #define PMF_SUSPENSOR_PRINTF(x) do { } while (0)
76 #define PMF_SUSPEND_PRINTF(x) do { } while (0)
77 #define PMF_EVENT_PRINTF(x) do { } while (0)
78 #define PMF_IDLE_PRINTF(x) do { } while (0)
79 #define PMF_TRANSITION_PRINTF(x) do { } while (0)
80 #define PMF_TRANSITION_PRINTF2(y,x) do { } while (0)
81 #endif
83 /* #define PMF_DEBUG */
85 MALLOC_DEFINE(M_PMF, "pmf", "device pmf messaging memory");
87 static prop_dictionary_t pmf_platform = NULL;
88 static struct workqueue *pmf_event_workqueue;
89 static struct workqueue *pmf_suspend_workqueue;
91 typedef struct pmf_event_handler {
92 TAILQ_ENTRY(pmf_event_handler) pmf_link;
93 pmf_generic_event_t pmf_event;
94 void (*pmf_handler)(device_t);
95 device_t pmf_device;
96 bool pmf_global;
97 } pmf_event_handler_t;
99 static TAILQ_HEAD(, pmf_event_handler) pmf_all_events =
100 TAILQ_HEAD_INITIALIZER(pmf_all_events);
102 typedef struct pmf_event_workitem {
103 struct work pew_work;
104 pmf_generic_event_t pew_event;
105 device_t pew_device;
106 } pmf_event_workitem_t;
108 typedef struct pmf_suspend_workitem {
109 struct work psw_work;
110 device_t psw_dev;
111 struct pmf_qual psw_qual;
112 } pmf_suspend_workitem_t;
114 static struct pool pew_pl;
116 static pmf_event_workitem_t *pmf_event_workitem_get(void);
117 static void pmf_event_workitem_put(pmf_event_workitem_t *);
119 bool pmf_device_resume_locked(device_t, pmf_qual_t);
120 bool pmf_device_suspend_locked(device_t, pmf_qual_t);
121 static bool device_pmf_any_suspensor(device_t, devact_level_t);
123 static bool
124 complete_suspension(device_t dev, device_suspensor_t *susp, pmf_qual_t pqp)
126 int i;
127 struct pmf_qual pq;
128 device_suspensor_t ds;
130 ds = pmf_qual_suspension(pqp);
131 KASSERT(ds->ds_delegator != NULL);
133 pq = *pqp;
134 pq.pq_suspensor = ds->ds_delegator;
136 for (i = 0; i < DEVICE_SUSPENSORS_MAX; i++) {
137 if (susp[i] != ds)
138 continue;
139 if (!pmf_device_suspend(dev, &pq))
140 return false;
142 return true;
145 static void
146 pmf_suspend_worker(struct work *wk, void *dummy)
148 pmf_suspend_workitem_t *psw;
149 deviter_t di;
150 device_t dev;
152 psw = (void *)wk;
153 KASSERT(wk == &psw->psw_work);
154 KASSERT(psw != NULL);
156 for (dev = deviter_first(&di, 0); dev != NULL;
157 dev = deviter_next(&di)) {
158 if (dev == psw->psw_dev && device_pmf_lock(dev))
159 break;
161 deviter_release(&di);
163 if (dev == NULL)
164 return;
166 switch (pmf_qual_depth(&psw->psw_qual)) {
167 case DEVACT_LEVEL_FULL:
168 if (!complete_suspension(dev, dev->dv_class_suspensors,
169 &psw->psw_qual))
170 break;
171 /*FALLTHROUGH*/
172 case DEVACT_LEVEL_DRIVER:
173 if (!complete_suspension(dev, dev->dv_driver_suspensors,
174 &psw->psw_qual))
175 break;
176 /*FALLTHROUGH*/
177 case DEVACT_LEVEL_BUS:
178 if (!complete_suspension(dev, dev->dv_bus_suspensors,
179 &psw->psw_qual))
180 break;
182 device_pmf_unlock(dev);
183 kmem_free(psw, sizeof(*psw));
186 static void
187 pmf_event_worker(struct work *wk, void *dummy)
189 pmf_event_workitem_t *pew;
190 pmf_event_handler_t *event;
192 pew = (void *)wk;
193 KASSERT(wk == &pew->pew_work);
194 KASSERT(pew != NULL);
196 TAILQ_FOREACH(event, &pmf_all_events, pmf_link) {
197 if (event->pmf_event != pew->pew_event)
198 continue;
199 if (event->pmf_device == pew->pew_device || event->pmf_global)
200 (*event->pmf_handler)(event->pmf_device);
203 pmf_event_workitem_put(pew);
206 static bool
207 pmf_check_system_drivers(void)
209 device_t curdev;
210 bool unsupported_devs;
211 deviter_t di;
213 unsupported_devs = false;
214 for (curdev = deviter_first(&di, 0); curdev != NULL;
215 curdev = deviter_next(&di)) {
216 if (device_pmf_is_registered(curdev))
217 continue;
218 if (!unsupported_devs)
219 printf("Devices without power management support:");
220 printf(" %s", device_xname(curdev));
221 unsupported_devs = true;
223 deviter_release(&di);
224 if (unsupported_devs) {
225 printf("\n");
226 return false;
228 return true;
231 bool
232 pmf_system_bus_resume(pmf_qual_t qual)
234 bool rv;
235 device_t curdev;
236 deviter_t di;
238 aprint_debug("Powering devices:");
239 /* D0 handlers are run in order */
240 rv = true;
241 for (curdev = deviter_first(&di, DEVITER_F_ROOT_FIRST); curdev != NULL;
242 curdev = deviter_next(&di)) {
243 if (!device_pmf_is_registered(curdev))
244 continue;
245 if (device_is_active(curdev) ||
246 !device_is_enabled(curdev))
247 continue;
249 aprint_debug(" %s", device_xname(curdev));
251 if (!device_pmf_bus_resume(curdev, qual)) {
252 rv = false;
253 aprint_debug("(failed)");
256 deviter_release(&di);
257 aprint_debug("\n");
259 return rv;
262 bool
263 pmf_system_resume(pmf_qual_t qual)
265 bool rv;
266 device_t curdev, parent;
267 deviter_t di;
269 if (!pmf_check_system_drivers())
270 return false;
272 aprint_debug("Resuming devices:");
273 /* D0 handlers are run in order */
274 rv = true;
275 for (curdev = deviter_first(&di, DEVITER_F_ROOT_FIRST); curdev != NULL;
276 curdev = deviter_next(&di)) {
277 if (device_is_active(curdev) ||
278 !device_is_enabled(curdev))
279 continue;
280 parent = device_parent(curdev);
281 if (parent != NULL &&
282 !device_is_active(parent))
283 continue;
285 aprint_debug(" %s", device_xname(curdev));
287 if (!pmf_device_resume(curdev, qual)) {
288 rv = false;
289 aprint_debug("(failed)");
292 deviter_release(&di);
293 aprint_debug(".\n");
295 KERNEL_UNLOCK_ONE(0);
296 #if NWSDISPLAY > 0
297 if (rv)
298 wsdisplay_handlex(1);
299 #endif
300 return rv;
303 bool
304 pmf_system_suspend(pmf_qual_t qual)
306 device_t curdev;
307 deviter_t di;
309 if (!pmf_check_system_drivers())
310 return false;
311 #if NWSDISPLAY > 0
312 if (wsdisplay_handlex(0))
313 return false;
314 #endif
315 KERNEL_LOCK(1, NULL);
318 * Flush buffers only if the shutdown didn't do so
319 * already and if there was no panic.
321 if (doing_shutdown == 0 && panicstr == NULL) {
322 printf("Flushing disk caches: ");
323 sys_sync(NULL, NULL, NULL);
324 if (buf_syncwait() != 0)
325 printf("giving up\n");
326 else
327 printf("done\n");
330 aprint_debug("Suspending devices:");
332 for (curdev = deviter_first(&di, DEVITER_F_LEAVES_FIRST);
333 curdev != NULL;
334 curdev = deviter_next(&di)) {
335 if (!device_is_active(curdev))
336 continue;
338 aprint_debug(" %s", device_xname(curdev));
340 /* XXX joerg check return value and abort suspend */
341 if (!pmf_device_suspend(curdev, qual))
342 aprint_debug("(failed)");
344 deviter_release(&di);
346 aprint_debug(".\n");
348 return true;
351 static bool
352 shutdown_all(int how)
354 static struct shutdown_state s;
355 device_t curdev;
356 bool progress = false;
358 for (curdev = shutdown_first(&s); curdev != NULL;
359 curdev = shutdown_next(&s)) {
360 aprint_debug(" shutting down %s, ", device_xname(curdev));
361 if (!device_pmf_is_registered(curdev))
362 aprint_debug("skipped.");
363 #if 0 /* needed? */
364 else if (!device_pmf_class_shutdown(curdev, how))
365 aprint_debug("failed.");
366 #endif
367 else if (!device_pmf_driver_shutdown(curdev, how))
368 aprint_debug("failed.");
369 else if (!device_pmf_bus_shutdown(curdev, how))
370 aprint_debug("failed.");
371 else {
372 progress = true;
373 aprint_debug("success.");
376 return progress;
379 void
380 pmf_system_shutdown(int how)
382 aprint_debug("Shutting down devices:");
383 shutdown_all(how);
386 bool
387 pmf_set_platform(const char *key, const char *value)
389 if (pmf_platform == NULL)
390 pmf_platform = prop_dictionary_create();
391 if (pmf_platform == NULL)
392 return false;
394 return prop_dictionary_set_cstring(pmf_platform, key, value);
397 const char *
398 pmf_get_platform(const char *key)
400 const char *value;
402 if (pmf_platform == NULL)
403 return NULL;
405 if (!prop_dictionary_get_cstring_nocopy(pmf_platform, key, &value))
406 return NULL;
408 return value;
411 bool
412 pmf_device_register1(device_t dev,
413 bool (*suspend)(device_t, pmf_qual_t),
414 bool (*resume)(device_t, pmf_qual_t),
415 bool (*shutdown)(device_t, int))
417 if (!device_pmf_driver_register(dev, suspend, resume, shutdown))
418 return false;
420 if (!device_pmf_driver_child_register(dev)) {
421 device_pmf_driver_deregister(dev);
422 return false;
425 return true;
428 void
429 pmf_device_deregister(device_t dev)
431 device_pmf_class_deregister(dev);
432 device_pmf_bus_deregister(dev);
433 device_pmf_driver_deregister(dev);
436 static const struct device_suspensor _device_suspensor_drvctl = {
437 .ds_delegator = NULL
438 , .ds_name = "drvctl"
441 static const struct device_suspensor _device_suspensor_self = {
442 .ds_delegator = NULL
443 , .ds_name = "self"
446 #if 0
447 static const struct device_suspensor _device_suspensor_self_delegate = {
448 .ds_delegator = &_device_suspensor_self
449 , .ds_name = "self delegate"
451 #endif
453 static const struct device_suspensor _device_suspensor_system = {
454 .ds_delegator = NULL
455 , .ds_name = "system"
458 const struct device_suspensor
459 * const device_suspensor_self = &_device_suspensor_self,
460 #if 0
461 * const device_suspensor_self_delegate = &_device_suspensor_self_delegate,
462 #endif
463 * const device_suspensor_system = &_device_suspensor_system,
464 * const device_suspensor_drvctl = &_device_suspensor_drvctl;
466 static const struct pmf_qual _pmf_qual_system = {
467 .pq_actlvl = DEVACT_LEVEL_FULL
468 , .pq_suspensor = &_device_suspensor_system
471 static const struct pmf_qual _pmf_qual_drvctl = {
472 .pq_actlvl = DEVACT_LEVEL_FULL
473 , .pq_suspensor = &_device_suspensor_drvctl
476 static const struct pmf_qual _pmf_qual_self = {
477 .pq_actlvl = DEVACT_LEVEL_DRIVER
478 , .pq_suspensor = &_device_suspensor_self
481 const struct pmf_qual
482 * const PMF_Q_DRVCTL = &_pmf_qual_drvctl,
483 * const PMF_Q_NONE = &_pmf_qual_system,
484 * const PMF_Q_SELF = &_pmf_qual_self;
486 static bool
487 device_suspensor_delegates_to(device_suspensor_t ds,
488 device_suspensor_t delegate)
490 device_suspensor_t iter;
492 for (iter = delegate->ds_delegator; iter != NULL;
493 iter = iter->ds_delegator) {
494 if (ds == iter)
495 return true;
497 return false;
500 static bool
501 add_suspensor(device_t dev, const char *kind, device_suspensor_t *susp,
502 device_suspensor_t ds)
504 int i;
506 for (i = 0; i < DEVICE_SUSPENSORS_MAX; i++) {
507 if (susp[i] == NULL)
508 continue;
509 if (ds == susp[i]) {
510 PMF_SUSPENSOR_PRINTF((
511 "%s: %s-suspended by %s (delegator %s) already\n",
512 device_xname(dev), kind,
513 susp[i]->ds_name,
514 (susp[i]->ds_delegator != NULL) ?
515 susp[i]->ds_delegator->ds_name : "<none>"));
516 return true;
518 if (device_suspensor_delegates_to(ds, susp[i])) {
519 PMF_SUSPENSOR_PRINTF((
520 "%s: %s assumes %s-suspension by %s "
521 "(delegator %s)\n",
522 device_xname(dev), ds->ds_name, kind,
523 susp[i]->ds_name,
524 (susp[i]->ds_delegator != NULL) ?
525 susp[i]->ds_delegator->ds_name : "<none>"));
526 susp[i] = ds;
527 return true;
530 for (i = 0; i < DEVICE_SUSPENSORS_MAX; i++) {
531 if (susp[i] == NULL) {
532 susp[i] = ds;
533 PMF_SUSPENSOR_PRINTF((
534 "%s: newly %s-suspended by %s (delegator %s)\n",
535 device_xname(dev), kind,
536 susp[i]->ds_name,
537 (susp[i]->ds_delegator != NULL) ?
538 susp[i]->ds_delegator->ds_name : "<none>"));
539 return true;
542 return false;
545 static bool
546 device_pmf_add_suspensor(device_t dev, pmf_qual_t pq)
548 device_suspensor_t ds;
550 KASSERT(pq != NULL);
552 ds = pmf_qual_suspension(pq);
554 KASSERT(ds != NULL);
556 if (!add_suspensor(dev, "class", dev->dv_class_suspensors, ds))
557 return false;
558 if (!add_suspensor(dev, "driver", dev->dv_driver_suspensors, ds))
559 return false;
560 if (!add_suspensor(dev, "bus", dev->dv_bus_suspensors, ds))
561 return false;
562 return true;
565 #if 0
566 static bool
567 device_pmf_has_suspension(device_t dev, device_suspensor_t ds)
569 int i;
571 for (i = 0; i < DEVICE_SUSPENSORS_MAX; i++) {
572 if (dev->dv_suspensions[i] == ds)
573 return true;
574 if (device_suspensor_delegates_to(dev->dv_suspensions[i], ds))
575 return true;
577 return false;
579 #endif
581 static bool
582 any_suspensor(device_t dev, const char *kind, device_suspensor_t *susp)
584 int i;
585 bool suspended = false;
587 for (i = 0; i < DEVICE_SUSPENSORS_MAX; i++) {
588 if (susp[i] != NULL) {
589 PMF_SUSPENSOR_PRINTF(("%s: %s is suspended by %s "
590 "(delegator %s)\n",
591 device_xname(dev), kind,
592 susp[i]->ds_name,
593 (susp[i]->ds_delegator != NULL) ?
594 susp[i]->ds_delegator->ds_name : "<none>"));
595 suspended = true;
598 return suspended;
601 static bool
602 device_pmf_any_suspensor(device_t dev, devact_level_t depth)
604 switch (depth) {
605 case DEVACT_LEVEL_FULL:
606 if (any_suspensor(dev, "class", dev->dv_class_suspensors))
607 return true;
608 /*FALLTHROUGH*/
609 case DEVACT_LEVEL_DRIVER:
610 if (any_suspensor(dev, "driver", dev->dv_driver_suspensors))
611 return true;
612 /*FALLTHROUGH*/
613 case DEVACT_LEVEL_BUS:
614 if (any_suspensor(dev, "bus", dev->dv_bus_suspensors))
615 return true;
617 return false;
620 static bool
621 remove_suspensor(device_t dev, const char *kind, device_suspensor_t *susp,
622 device_suspensor_t ds)
624 int i;
626 for (i = 0; i < DEVICE_SUSPENSORS_MAX; i++) {
627 if (susp[i] == NULL)
628 continue;
629 if (ds == susp[i] ||
630 device_suspensor_delegates_to(ds, susp[i])) {
631 PMF_SUSPENSOR_PRINTF(("%s: %s suspension %s "
632 "(delegator %s) removed by %s\n",
633 device_xname(dev), kind,
634 susp[i]->ds_name,
635 (susp[i]->ds_delegator != NULL)
636 ? susp[i]->ds_delegator->ds_name
637 : "<none>",
638 ds->ds_name));
639 susp[i] = NULL;
640 return true;
643 return false;
646 static bool
647 device_pmf_remove_suspensor(device_t dev, pmf_qual_t pq)
649 device_suspensor_t ds;
651 KASSERT(pq != NULL);
653 ds = pmf_qual_suspension(pq);
655 KASSERT(ds != NULL);
657 if (!remove_suspensor(dev, "class", dev->dv_class_suspensors, ds))
658 return false;
659 if (!remove_suspensor(dev, "driver", dev->dv_driver_suspensors, ds))
660 return false;
661 if (!remove_suspensor(dev, "bus", dev->dv_bus_suspensors, ds))
662 return false;
664 return true;
667 void
668 pmf_self_suspensor_init(device_t dev, struct device_suspensor *ds,
669 struct pmf_qual *pq)
671 ds->ds_delegator = device_suspensor_self;
672 snprintf(ds->ds_name, sizeof(ds->ds_name), "%s-self",
673 device_xname(dev));
674 pq->pq_actlvl = DEVACT_LEVEL_DRIVER;
675 pq->pq_suspensor = ds;
678 bool
679 pmf_device_suspend(device_t dev, pmf_qual_t qual)
681 bool rc;
683 PMF_TRANSITION_PRINTF(("%s: suspend enter\n", device_xname(dev)));
684 if (!device_pmf_is_registered(dev))
685 return false;
687 if (!device_pmf_lock(dev))
688 return false;
690 rc = pmf_device_suspend_locked(dev, qual);
692 device_pmf_unlock(dev);
694 PMF_TRANSITION_PRINTF(("%s: suspend exit\n", device_xname(dev)));
695 return rc;
698 bool
699 pmf_device_suspend_locked(device_t dev, pmf_qual_t qual)
701 if (!device_pmf_add_suspensor(dev, qual))
702 return false;
704 PMF_TRANSITION_PRINTF2(1, ("%s: class suspend\n", device_xname(dev)));
705 if (!device_pmf_class_suspend(dev, qual))
706 return false;
708 PMF_TRANSITION_PRINTF2(1, ("%s: driver suspend\n", device_xname(dev)));
709 if (!device_pmf_driver_suspend(dev, qual))
710 return false;
712 PMF_TRANSITION_PRINTF2(1, ("%s: bus suspend\n", device_xname(dev)));
713 if (!device_pmf_bus_suspend(dev, qual))
714 return false;
716 return true;
719 bool
720 pmf_device_resume(device_t dev, pmf_qual_t qual)
722 bool rc;
724 PMF_TRANSITION_PRINTF(("%s: resume enter\n", device_xname(dev)));
725 if (!device_pmf_is_registered(dev))
726 return false;
728 if (!device_pmf_lock(dev))
729 return false;
731 rc = pmf_device_resume_locked(dev, qual);
733 device_pmf_unlock(dev);
735 PMF_TRANSITION_PRINTF(("%s: resume exit\n", device_xname(dev)));
736 return rc;
739 bool
740 pmf_device_resume_locked(device_t dev, pmf_qual_t qual)
742 device_pmf_remove_suspensor(dev, qual);
744 if (device_pmf_any_suspensor(dev, DEVACT_LEVEL_FULL))
745 return true;
747 PMF_TRANSITION_PRINTF2(1, ("%s: bus resume\n", device_xname(dev)));
748 if (!device_pmf_bus_resume(dev, qual))
749 return false;
751 PMF_TRANSITION_PRINTF2(1, ("%s: driver resume\n", device_xname(dev)));
752 if (!device_pmf_driver_resume(dev, qual))
753 return false;
755 PMF_TRANSITION_PRINTF2(1, ("%s: class resume\n", device_xname(dev)));
756 if (!device_pmf_class_resume(dev, qual))
757 return false;
759 return true;
762 bool
763 pmf_device_recursive_suspend(device_t dv, pmf_qual_t qual)
765 bool rv = true;
766 device_t curdev;
767 deviter_t di;
768 struct pmf_qual pq;
770 pmf_qual_recursive_copy(&pq, qual);
772 for (curdev = deviter_first(&di, 0); curdev != NULL;
773 curdev = deviter_next(&di)) {
774 if (device_parent(curdev) != dv)
775 continue;
776 if (!pmf_device_recursive_suspend(curdev, &pq)) {
777 rv = false;
778 break;
781 deviter_release(&di);
783 return rv && pmf_device_suspend(dv, qual);
786 void
787 pmf_qual_recursive_copy(struct pmf_qual *dst, pmf_qual_t src)
789 *dst = *src;
790 dst->pq_actlvl = DEVACT_LEVEL_FULL;
793 bool
794 pmf_device_recursive_resume(device_t dv, pmf_qual_t qual)
796 device_t parent;
797 struct pmf_qual pq;
799 if (device_is_active(dv))
800 return true;
802 pmf_qual_recursive_copy(&pq, qual);
804 parent = device_parent(dv);
805 if (parent != NULL) {
806 if (!pmf_device_recursive_resume(parent, &pq))
807 return false;
810 return pmf_device_resume(dv, qual);
813 bool
814 pmf_device_descendants_release(device_t dv, pmf_qual_t qual)
816 bool rv = true;
817 device_t curdev;
818 deviter_t di;
820 for (curdev = deviter_first(&di, 0); curdev != NULL;
821 curdev = deviter_next(&di)) {
822 if (device_parent(curdev) != dv)
823 continue;
824 device_pmf_remove_suspensor(curdev, qual);
825 if (!pmf_device_descendants_release(curdev, qual)) {
826 rv = false;
827 break;
830 deviter_release(&di);
831 return rv;
834 bool
835 pmf_device_descendants_resume(device_t dv, pmf_qual_t qual)
837 bool rv = true;
838 device_t curdev;
839 deviter_t di;
841 KASSERT(pmf_qual_descend_ok(qual));
843 for (curdev = deviter_first(&di, 0); curdev != NULL;
844 curdev = deviter_next(&di)) {
845 if (device_parent(curdev) != dv)
846 continue;
847 if (!pmf_device_resume(curdev, qual) ||
848 !pmf_device_descendants_resume(curdev, qual)) {
849 rv = false;
850 break;
853 deviter_release(&di);
854 return rv;
857 bool
858 pmf_device_subtree_release(device_t dv, pmf_qual_t qual)
860 struct pmf_qual pq;
862 device_pmf_remove_suspensor(dv, qual);
864 return pmf_device_descendants_release(dv, &pq);
867 bool
868 pmf_device_subtree_resume(device_t dv, pmf_qual_t qual)
870 struct pmf_qual pq;
872 if (!pmf_device_subtree_release(dv, qual))
873 return false;
875 if (!pmf_device_recursive_resume(dv, qual))
876 return false;
878 pmf_qual_recursive_copy(&pq, qual);
880 return pmf_device_descendants_resume(dv, &pq);
883 #include <net/if.h>
885 static bool
886 pmf_class_network_suspend(device_t dev, pmf_qual_t qual)
888 struct ifnet *ifp = device_pmf_class_private(dev);
889 int s;
891 s = splnet();
892 (*ifp->if_stop)(ifp, 0);
893 splx(s);
895 return true;
898 static bool
899 pmf_class_network_resume(device_t dev, pmf_qual_t qual)
901 struct ifnet *ifp = device_pmf_class_private(dev);
902 int s;
904 s = splnet();
905 if (ifp->if_flags & IFF_UP) {
906 ifp->if_flags &= ~IFF_RUNNING;
907 if ((*ifp->if_init)(ifp) != 0)
908 aprint_normal_ifnet(ifp, "resume failed\n");
909 (*ifp->if_start)(ifp);
911 splx(s);
913 return true;
916 void
917 pmf_class_network_register(device_t dev, struct ifnet *ifp)
919 device_pmf_class_register(dev, ifp, pmf_class_network_suspend,
920 pmf_class_network_resume, NULL);
923 bool
924 pmf_event_inject(device_t dv, pmf_generic_event_t ev)
926 pmf_event_workitem_t *pew;
928 pew = pmf_event_workitem_get();
929 if (pew == NULL) {
930 PMF_EVENT_PRINTF(("%s: PMF event %d dropped (no memory)\n",
931 dv ? device_xname(dv) : "<anonymous>", ev));
932 return false;
935 pew->pew_event = ev;
936 pew->pew_device = dv;
938 workqueue_enqueue(pmf_event_workqueue, &pew->pew_work, NULL);
939 PMF_EVENT_PRINTF(("%s: PMF event %d injected\n",
940 dv ? device_xname(dv) : "<anonymous>", ev));
942 return true;
945 bool
946 pmf_event_register(device_t dv, pmf_generic_event_t ev,
947 void (*handler)(device_t), bool global)
949 pmf_event_handler_t *event;
951 event = kmem_alloc(sizeof(*event), KM_SLEEP);
952 event->pmf_event = ev;
953 event->pmf_handler = handler;
954 event->pmf_device = dv;
955 event->pmf_global = global;
956 TAILQ_INSERT_TAIL(&pmf_all_events, event, pmf_link);
958 return true;
961 void
962 pmf_event_deregister(device_t dv, pmf_generic_event_t ev,
963 void (*handler)(device_t), bool global)
965 pmf_event_handler_t *event;
967 TAILQ_FOREACH(event, &pmf_all_events, pmf_link) {
968 if (event->pmf_event != ev)
969 continue;
970 if (event->pmf_device != dv)
971 continue;
972 if (event->pmf_global != global)
973 continue;
974 if (event->pmf_handler != handler)
975 continue;
976 TAILQ_REMOVE(&pmf_all_events, event, pmf_link);
977 kmem_free(event, sizeof(*event));
978 return;
982 struct display_class_softc {
983 TAILQ_ENTRY(display_class_softc) dc_link;
984 device_t dc_dev;
987 static TAILQ_HEAD(, display_class_softc) all_displays;
988 static callout_t global_idle_counter;
989 static int idle_timeout = 30;
991 static void
992 input_idle(void *dummy)
994 PMF_IDLE_PRINTF(("Input idle handler called\n"));
995 pmf_event_inject(NULL, PMFE_DISPLAY_OFF);
998 static void
999 input_activity_handler(device_t dv, devactive_t type)
1001 if (!TAILQ_EMPTY(&all_displays))
1002 callout_schedule(&global_idle_counter, idle_timeout * hz);
1005 static void
1006 pmf_class_input_deregister(device_t dv)
1008 device_active_deregister(dv, input_activity_handler);
1011 bool
1012 pmf_class_input_register(device_t dv)
1014 if (!device_active_register(dv, input_activity_handler))
1015 return false;
1017 device_pmf_class_register(dv, NULL, NULL, NULL,
1018 pmf_class_input_deregister);
1020 return true;
1023 static void
1024 pmf_class_display_deregister(device_t dv)
1026 struct display_class_softc *sc = device_pmf_class_private(dv);
1027 int s;
1029 s = splsoftclock();
1030 TAILQ_REMOVE(&all_displays, sc, dc_link);
1031 if (TAILQ_EMPTY(&all_displays))
1032 callout_stop(&global_idle_counter);
1033 splx(s);
1035 kmem_free(sc, sizeof(*sc));
1038 bool
1039 pmf_class_display_register(device_t dv)
1041 struct display_class_softc *sc;
1042 int s;
1044 sc = kmem_alloc(sizeof(*sc), KM_SLEEP);
1046 s = splsoftclock();
1047 if (TAILQ_EMPTY(&all_displays))
1048 callout_schedule(&global_idle_counter, idle_timeout * hz);
1050 TAILQ_INSERT_HEAD(&all_displays, sc, dc_link);
1051 splx(s);
1053 device_pmf_class_register(dv, sc, NULL, NULL,
1054 pmf_class_display_deregister);
1056 return true;
1059 static void
1060 pmf_event_workitem_put(pmf_event_workitem_t *pew)
1063 KASSERT(pew != NULL);
1064 pool_put(&pew_pl, pew);
1067 static pmf_event_workitem_t *
1068 pmf_event_workitem_get(void)
1071 return pool_get(&pew_pl, PR_NOWAIT);
1074 void
1075 pmf_init(void)
1077 int err;
1079 pool_init(&pew_pl, sizeof(pmf_event_workitem_t), 0, 0, 0,
1080 "pewpl", NULL, IPL_HIGH);
1081 pool_setlowat(&pew_pl, 1);
1082 pool_sethiwat(&pew_pl, 8);
1084 KASSERT(pmf_event_workqueue == NULL);
1085 err = workqueue_create(&pmf_event_workqueue, "pmfevent",
1086 pmf_event_worker, NULL, PRI_NONE, IPL_VM, 0);
1087 if (err)
1088 panic("couldn't create pmfevent workqueue");
1090 KASSERT(pmf_suspend_workqueue == NULL);
1091 err = workqueue_create(&pmf_suspend_workqueue, "pmfsuspend",
1092 pmf_suspend_worker, NULL, PRI_NONE, IPL_VM, 0);
1093 if (err)
1094 panic("couldn't create pmfsuspend workqueue");
1097 callout_init(&global_idle_counter, 0);
1098 callout_setfunc(&global_idle_counter, input_idle, NULL);