16  *  2000-10-05  Implemented scalable SMP per-CPU timer handling.
58 #include <trace/events/timer.h>
65  * The timer wheel has LVL_DEPTH array levels. Each level provides an array of
72  * The array level of a newly armed timer depends on the relative expiry
76  * Contrary to the original timer wheel implementation, which aims for 'exact'
78  * the timers into the lower array levels. The previous 'classic' timer wheel
83  * This is an optimization of the original timer wheel implementation for the
84  * majority of the timer wheel use cases: timeouts. The vast majority of
318 	 * due to delays of the timer irq, long irq off times etc etc) then  in round_jiffies_common()
501 static inline unsigned int timer_get_idx(struct timer_list *timer)  in timer_get_idx()  argument
503 	return (timer->flags & TIMER_ARRAYMASK) >> TIMER_ARRAYSHIFT;  in timer_get_idx()
506 static inline void timer_set_idx(struct timer_list *timer, unsigned int idx)  in timer_set_idx()  argument
508 	timer->flags = (timer->flags & ~TIMER_ARRAYMASK) |  in timer_set_idx()
521 	 * The timer wheel has to guarantee that a timer does not fire  in calc_index()
523 	 * - Timer is armed at the edge of a tick  in calc_index()
572 trigger_dyntick_cpu(struct timer_base *base, struct timer_list *timer)  in trigger_dyntick_cpu()  argument
581 	if (timer->flags & TIMER_DEFERRABLE) {  in trigger_dyntick_cpu()
589 	 * timer is not deferrable. If the other CPU is on the way to idle  in trigger_dyntick_cpu()
597  * Enqueue the timer into the hash bucket, mark it pending in
598  * the bitmap, store the index in the timer flags then wake up
601 static void enqueue_timer(struct timer_base *base, struct timer_list *timer,  in enqueue_timer()  argument
605 	hlist_add_head(&timer->entry, base->vectors + idx);  in enqueue_timer()
607 	timer_set_idx(timer, idx);  in enqueue_timer()
609 	trace_timer_start(timer, timer->expires, timer->flags);  in enqueue_timer()
612 	 * Check whether this is the new first expiring timer. The  in enqueue_timer()
613 	 * effective expiry time of the timer is required here  in enqueue_timer()
614 	 * (bucket_expiry) instead of timer->expires.  in enqueue_timer()
624 		trigger_dyntick_cpu(base, timer);  in enqueue_timer()
628 static void internal_add_timer(struct timer_base *base, struct timer_list *timer)  in internal_add_timer()  argument
633 	idx = calc_wheel_index(timer->expires, base->clk, &bucket_expiry);  in internal_add_timer()
634 	enqueue_timer(base, timer, idx, bucket_expiry);  in internal_add_timer()
655 		   struct delayed_work, timer, work.func),
657 		   struct kthread_delayed_work, timer, work.func),
662 	struct timer_list *timer = addr;  in timer_debug_hint()  local
666 		if (timer_hints[i].function == timer->function) {  in timer_debug_hint()
673 	return timer->function;  in timer_debug_hint()
678 	struct timer_list *timer = addr;  in timer_is_static_object()  local
680 	return (timer->entry.pprev == NULL &&  in timer_is_static_object()
681 		timer->entry.next == TIMER_ENTRY_STATIC);  in timer_is_static_object()
690 	struct timer_list *timer = addr;  in timer_fixup_init()  local
694 		del_timer_sync(timer);  in timer_fixup_init()
695 		debug_object_init(timer, &timer_debug_descr);  in timer_fixup_init()
702 /* Stub timer callback for improperly used timers. */
715 	struct timer_list *timer = addr;  in timer_fixup_activate()  local
719 		timer_setup(timer, stub_timer, 0);  in timer_fixup_activate()
736 	struct timer_list *timer = addr;  in timer_fixup_free()  local
740 		del_timer_sync(timer);  in timer_fixup_free()
741 		debug_object_free(timer, &timer_debug_descr);  in timer_fixup_free()
754 	struct timer_list *timer = addr;  in timer_fixup_assert_init()  local
758 		timer_setup(timer, stub_timer, 0);  in timer_fixup_assert_init()
775 static inline void debug_timer_init(struct timer_list *timer)  in debug_timer_init()  argument
777 	debug_object_init(timer, &timer_debug_descr);  in debug_timer_init()
780 static inline void debug_timer_activate(struct timer_list *timer)  in debug_timer_activate()  argument
782 	debug_object_activate(timer, &timer_debug_descr);  in debug_timer_activate()
785 static inline void debug_timer_deactivate(struct timer_list *timer)  in debug_timer_deactivate()  argument
787 	debug_object_deactivate(timer, &timer_debug_descr);  in debug_timer_deactivate()
790 static inline void debug_timer_assert_init(struct timer_list *timer)  in debug_timer_assert_init()  argument
792 	debug_object_assert_init(timer, &timer_debug_descr);  in debug_timer_assert_init()
795 static void do_init_timer(struct timer_list *timer,
800 void init_timer_on_stack_key(struct timer_list *timer,  in init_timer_on_stack_key()  argument
805 	debug_object_init_on_stack(timer, &timer_debug_descr);  in init_timer_on_stack_key()
806 	do_init_timer(timer, func, flags, name, key);  in init_timer_on_stack_key()
810 void destroy_timer_on_stack(struct timer_list *timer)  in destroy_timer_on_stack()  argument
812 	debug_object_free(timer, &timer_debug_descr);  in destroy_timer_on_stack()
817 static inline void debug_timer_init(struct timer_list *timer) { }  in debug_timer_init()  argument
818 static inline void debug_timer_activate(struct timer_list *timer) { }  in debug_timer_activate()  argument
819 static inline void debug_timer_deactivate(struct timer_list *timer) { }  in debug_timer_deactivate()  argument
820 static inline void debug_timer_assert_init(struct timer_list *timer) { }  in debug_timer_assert_init()  argument
823 static inline void debug_init(struct timer_list *timer)  in debug_init()  argument
825 	debug_timer_init(timer);  in debug_init()
826 	trace_timer_init(timer);  in debug_init()
829 static inline void debug_deactivate(struct timer_list *timer)  in debug_deactivate()  argument
831 	debug_timer_deactivate(timer);  in debug_deactivate()
832 	trace_timer_cancel(timer);  in debug_deactivate()
835 static inline void debug_assert_init(struct timer_list *timer)  in debug_assert_init()  argument
837 	debug_timer_assert_init(timer);  in debug_assert_init()
840 static void do_init_timer(struct timer_list *timer,  in do_init_timer()  argument
845 	timer->entry.pprev = NULL;  in do_init_timer()
846 	timer->function = func;  in do_init_timer()
849 	timer->flags = flags | raw_smp_processor_id();  in do_init_timer()
850 	lockdep_init_map(&timer->lockdep_map, name, key, 0);  in do_init_timer()
854  * init_timer_key - initialize a timer
855  * @timer: the timer to be initialized
856  * @func: timer callback function
857  * @flags: timer flags
858  * @name: name of the timer
859  * @key: lockdep class key of the fake lock used for tracking timer
862  * init_timer_key() must be done to a timer prior calling *any* of the
863  * other timer functions.
865 void init_timer_key(struct timer_list *timer,  in init_timer_key()  argument
869 	debug_init(timer);  in init_timer_key()
870 	do_init_timer(timer, func, flags, name, key);  in init_timer_key()
874 static inline void detach_timer(struct timer_list *timer, bool clear_pending)  in detach_timer()  argument
876 	struct hlist_node *entry = &timer->entry;  in detach_timer()
878 	debug_deactivate(timer);  in detach_timer()
886 static int detach_if_pending(struct timer_list *timer, struct timer_base *base,  in detach_if_pending()  argument
889 	unsigned idx = timer_get_idx(timer);  in detach_if_pending()
891 	if (!timer_pending(timer))  in detach_if_pending()
894 	if (hlist_is_singular_node(&timer->entry, base->vectors + idx)) {  in detach_if_pending()
899 	detach_timer(timer, clear_pending);  in detach_if_pending()
908 	 * If the timer is deferrable and NO_HZ_COMMON is set then we need  in get_timer_cpu_base()
921 	 * If the timer is deferrable and NO_HZ_COMMON is set then we need  in get_timer_this_cpu_base()
979  * When a timer is migrating then the TIMER_MIGRATING flag is set and we need
982 static struct timer_base *lock_timer_base(struct timer_list *timer,  in lock_timer_base()  argument
984 	__acquires(timer->base->lock)  in lock_timer_base()
995 		tf = READ_ONCE(timer->flags);  in lock_timer_base()
1000 			if (timer->flags == tf)  in lock_timer_base()
1013 __mod_timer(struct timer_list *timer, unsigned long expires, unsigned int options)  in __mod_timer()  argument
1020 	debug_assert_init(timer);  in __mod_timer()
1024 	 * the timer is re-modified to have the same timeout or ends up in the  in __mod_timer()
1027 	if (!(options & MOD_TIMER_NOTPENDING) && timer_pending(timer)) {  in __mod_timer()
1031 		 * timer with this expiry.  in __mod_timer()
1033 		long diff = timer->expires - expires;  in __mod_timer()
1041 		 * We lock timer base and calculate the bucket index right  in __mod_timer()
1042 		 * here. If the timer ends up in the same bucket, then we  in __mod_timer()
1046 		base = lock_timer_base(timer, &flags);  in __mod_timer()
1048 		 * Has @timer been shutdown? This needs to be evaluated  in __mod_timer()
1052 		if (!timer->function)  in __mod_timer()
1057 		if (timer_pending(timer) && (options & MOD_TIMER_REDUCE) &&  in __mod_timer()
1058 		    time_before_eq(timer->expires, expires)) {  in __mod_timer()
1068 		 * timer. If it matches set the expiry to the new value so a  in __mod_timer()
1071 		if (idx == timer_get_idx(timer)) {  in __mod_timer()
1073 				timer->expires = expires;  in __mod_timer()
1074 			else if (time_after(timer->expires, expires))  in __mod_timer()
1075 				timer->expires = expires;  in __mod_timer()
1080 		base = lock_timer_base(timer, &flags);  in __mod_timer()
1082 		 * Has @timer been shutdown? This needs to be evaluated  in __mod_timer()
1086 		if (!timer->function)  in __mod_timer()
1092 	ret = detach_if_pending(timer, base, false);  in __mod_timer()
1096 	new_base = get_target_base(base, timer->flags);  in __mod_timer()
1100 		 * We are trying to schedule the timer on the new base.  in __mod_timer()
1101 		 * However we can't change timer's base while it is running,  in __mod_timer()
1102 		 * otherwise timer_delete_sync() can't detect that the timer's  in __mod_timer()
1104 		 * timer is serialized wrt itself.  in __mod_timer()
1106 		if (likely(base->running_timer != timer)) {  in __mod_timer()
1108 			timer->flags |= TIMER_MIGRATING;  in __mod_timer()
1113 			WRITE_ONCE(timer->flags,  in __mod_timer()
1114 				   (timer->flags & ~TIMER_BASEMASK) | base->cpu);  in __mod_timer()
1119 	debug_timer_activate(timer);  in __mod_timer()
1121 	timer->expires = expires;  in __mod_timer()
1129 		enqueue_timer(base, timer, idx, bucket_expiry);  in __mod_timer()
1131 		internal_add_timer(base, timer);  in __mod_timer()
1140  * mod_timer_pending - Modify a pending timer's timeout
1141  * @timer:	The pending timer to be modified
1147  * If @timer->function == NULL then the start operation is silently
1151  * * %0 - The timer was inactive and not modified or was in
1153  * * %1 - The timer was active and requeued to expire at @expires
1155 int mod_timer_pending(struct timer_list *timer, unsigned long expires)  in mod_timer_pending()  argument
1157 	return __mod_timer(timer, expires, MOD_TIMER_PENDING_ONLY);  in mod_timer_pending()
1162  * mod_timer - Modify a timer's timeout
1163  * @timer:	The timer to be modified
1166  * mod_timer(timer, expires) is equivalent to:
1168  *     del_timer(timer); timer->expires = expires; add_timer(timer);
1171  * case that the timer is inactive, the del_timer() part is a NOP. The
1172  * timer is in any case activated with the new expiry time @expires.
1175  * same timer, then mod_timer() is the only safe way to modify the timeout,
1176  * since add_timer() cannot modify an already running timer.
1178  * If @timer->function == NULL then the start operation is silently
1182  * * %0 - The timer was inactive and started or was in shutdown
1184  * * %1 - The timer was active and requeued to expire at @expires or
1185  *	  the timer was active and not modified because @expires did
1188 int mod_timer(struct timer_list *timer, unsigned long expires)  in mod_timer()  argument
1190 	return __mod_timer(timer, expires, 0);  in mod_timer()
1195  * timer_reduce - Modify a timer's timeout if it would reduce the timeout
1196  * @timer:	The timer to be modified
1200  * modify an enqueued timer if that would reduce the expiration time. If
1201  * @timer is not enqueued it starts the timer.
1203  * If @timer->function == NULL then the start operation is silently
1207  * * %0 - The timer was inactive and started or was in shutdown
1209  * * %1 - The timer was active and requeued to expire at @expires or
1210  *	  the timer was active and not modified because @expires
1212  *	  timer would expire earlier than already scheduled
1214 int timer_reduce(struct timer_list *timer, unsigned long expires)  in timer_reduce()  argument
1216 	return __mod_timer(timer, expires, MOD_TIMER_REDUCE);  in timer_reduce()
1221  * add_timer - Start a timer
1222  * @timer:	The timer to be started
1224  * Start @timer to expire at @timer->expires in the future. @timer->expires
1225  * is the absolute expiry time measured in 'jiffies'. When the timer expires
1226  * timer->function(timer) will be invoked from soft interrupt context.
1228  * The @timer->expires and @timer->function fields must be set prior
1231  * If @timer->function == NULL then the start operation is silently
1234  * If @timer->expires is already in the past @timer will be queued to
1235  * expire at the next timer tick.
1237  * This can only operate on an inactive timer. Attempts to invoke this on
1238  * an active timer are rejected with a warning.
1240 void add_timer(struct timer_list *timer)  in add_timer()  argument
1242 	if (WARN_ON_ONCE(timer_pending(timer)))  in add_timer()
1244 	__mod_timer(timer, timer->expires, MOD_TIMER_NOTPENDING);  in add_timer()
1249  * add_timer_on - Start a timer on a particular CPU
1250  * @timer:	The timer to be started
1253  * Same as add_timer() except that it starts the timer on the given CPU.
1257 void add_timer_on(struct timer_list *timer, int cpu)  in add_timer_on()  argument
1262 	debug_assert_init(timer);  in add_timer_on()
1264 	if (WARN_ON_ONCE(timer_pending(timer)))  in add_timer_on()
1267 	new_base = get_timer_cpu_base(timer->flags, cpu);  in add_timer_on()
1270 	 * If @timer was on a different CPU, it should be migrated with the  in add_timer_on()
1274 	base = lock_timer_base(timer, &flags);  in add_timer_on()
1276 	 * Has @timer been shutdown? This needs to be evaluated while  in add_timer_on()
1279 	if (!timer->function)  in add_timer_on()
1283 		timer->flags |= TIMER_MIGRATING;  in add_timer_on()
1288 		WRITE_ONCE(timer->flags,  in add_timer_on()
1289 			   (timer->flags & ~TIMER_BASEMASK) | cpu);  in add_timer_on()
1293 	debug_timer_activate(timer);  in add_timer_on()
1294 	internal_add_timer(base, timer);  in add_timer_on()
1301  * __timer_delete - Internal function: Deactivate a timer
1302  * @timer:	The timer to be deactivated
1303  * @shutdown:	If true, this indicates that the timer is about to be
1306  * If @shutdown is true then @timer->function is set to NULL under the
1307  * timer base lock which prevents further rearming of the time. In that
1308  * case any attempt to rearm @timer after this function returns will be
1312  * * %0 - The timer was not pending
1313  * * %1 - The timer was pending and deactivated
1315 static int __timer_delete(struct timer_list *timer, bool shutdown)  in __timer_delete()  argument
1321 	debug_assert_init(timer);  in __timer_delete()
1325 	 * timer is pending or not to protect against a concurrent rearm  in __timer_delete()
1328 	 * enqueued timer is dequeued and cannot end up with  in __timer_delete()
1329 	 * timer->function == NULL in the expiry code.  in __timer_delete()
1331 	 * If timer->function is currently executed, then this makes sure  in __timer_delete()
1332 	 * that the callback cannot requeue the timer.  in __timer_delete()
1334 	if (timer_pending(timer) || shutdown) {  in __timer_delete()
1335 		base = lock_timer_base(timer, &flags);  in __timer_delete()
1336 		ret = detach_if_pending(timer, base, true);  in __timer_delete()
1338 			timer->function = NULL;  in __timer_delete()
1346  * timer_delete - Deactivate a timer
1347  * @timer:	The timer to be deactivated
1349  * The function only deactivates a pending timer, but contrary to
1350  * timer_delete_sync() it does not take into account whether the timer's
1352  * It neither prevents rearming of the timer.  If @timer can be rearmed
1356  * * %0 - The timer was not pending
1357  * * %1 - The timer was pending and deactivated
1359 int timer_delete(struct timer_list *timer)  in timer_delete()  argument
1361 	return __timer_delete(timer, false);  in timer_delete()
1366  * timer_shutdown - Deactivate a timer and prevent rearming
1367  * @timer:	The timer to be deactivated
1369  * The function does not wait for an eventually running timer callback on a
1370  * different CPU but it prevents rearming of the timer. Any attempt to arm
1371  * @timer after this function returns will be silently ignored.
1377  * * %0 - The timer was not pending
1378  * * %1 - The timer was pending
1380 int timer_shutdown(struct timer_list *timer)  in timer_shutdown()  argument
1382 	return __timer_delete(timer, true);  in timer_shutdown()
1387  * __try_to_del_timer_sync - Internal function: Try to deactivate a timer
1388  * @timer:	Timer to deactivate
1389  * @shutdown:	If true, this indicates that the timer is about to be
1392  * If @shutdown is true then @timer->function is set to NULL under the
1393  * timer base lock which prevents further rearming of the timer. Any
1394  * attempt to rearm @timer after this function returns will be silently
1397  * This function cannot guarantee that the timer cannot be rearmed
1402  * * %0  - The timer was not pending
1403  * * %1  - The timer was pending and deactivated
1404  * * %-1 - The timer callback function is running on a different CPU
1406 static int __try_to_del_timer_sync(struct timer_list *timer, bool shutdown)  in __try_to_del_timer_sync()  argument
1412 	debug_assert_init(timer);  in __try_to_del_timer_sync()
1414 	base = lock_timer_base(timer, &flags);  in __try_to_del_timer_sync()
1416 	if (base->running_timer != timer)  in __try_to_del_timer_sync()
1417 		ret = detach_if_pending(timer, base, true);  in __try_to_del_timer_sync()
1419 		timer->function = NULL;  in __try_to_del_timer_sync()
1427  * try_to_del_timer_sync - Try to deactivate a timer
1428  * @timer:	Timer to deactivate
1430  * This function tries to deactivate a timer. On success the timer is not
1431  * queued and the timer callback function is not running on any CPU.
1433  * This function does not guarantee that the timer cannot be rearmed right
1438  * * %0  - The timer was not pending
1439  * * %1  - The timer was pending and deactivated
1440  * * %-1 - The timer callback function is running on a different CPU
1442 int try_to_del_timer_sync(struct timer_list *timer)  in try_to_del_timer_sync()  argument
1444 	return __try_to_del_timer_sync(timer, false);  in try_to_del_timer_sync()
1468  * timer callback to finish. Drop expiry_lock and reacquire it. That allows
1483  * deletion of a timer failed because the timer callback function was
1488  * delete a timer preempted the softirq thread running the timer callback
1491 static void del_timer_wait_running(struct timer_list *timer)  in del_timer_wait_running()  argument
1495 	tf = READ_ONCE(timer->flags);  in del_timer_wait_running()
1501 		 * which is held by the softirq across the timer  in del_timer_wait_running()
1503 		 * expire the next timer. In theory the timer could already  in del_timer_wait_running()
1518 static inline void del_timer_wait_running(struct timer_list *timer) { }  in del_timer_wait_running()  argument
1522  * __timer_delete_sync - Internal function: Deactivate a timer and wait
1524  * @timer:	The timer to be deactivated
1525  * @shutdown:	If true, @timer->function will be set to NULL under the
1526  *		timer base lock which prevents rearming of @timer
1528  * If @shutdown is not set the timer can be rearmed later. If the timer can
1532  * If @shutdown is set then @timer->function is set to NULL under timer
1533  * base lock which prevents rearming of the timer. Any attempt to rearm
1534  * a shutdown timer is silently ignored.
1536  * If the timer should be reused after shutdown it has to be initialized
1540  * * %0	- The timer was not pending
1541  * * %1	- The timer was pending and deactivated
1543 static int __timer_delete_sync(struct timer_list *timer, bool shutdown)  in __timer_delete_sync()  argument
1555 	lock_map_acquire(&timer->lockdep_map);  in __timer_delete_sync()
1556 	lock_map_release(&timer->lockdep_map);  in __timer_delete_sync()
1563 	WARN_ON(in_hardirq() && !(timer->flags & TIMER_IRQSAFE));  in __timer_delete_sync()
1569 	if (IS_ENABLED(CONFIG_PREEMPT_RT) && !(timer->flags & TIMER_IRQSAFE))  in __timer_delete_sync()
1573 		ret = __try_to_del_timer_sync(timer, shutdown);  in __timer_delete_sync()
1576 			del_timer_wait_running(timer);  in __timer_delete_sync()
1585  * timer_delete_sync - Deactivate a timer and wait for the handler to finish.
1586  * @timer:	The timer to be deactivated
1588  * Synchronization rules: Callers must prevent restarting of the timer,
1590  * interrupt contexts unless the timer is an irqsafe one. The caller must
1591  * not hold locks which would prevent completion of the timer's callback
1592  * function. The timer's handler must not call add_timer_on(). Upon exit
1593  * the timer is not queued and the handler is not running on any CPU.
1596  * interrupt context. Even if the lock has nothing to do with the timer in
1614  * This function cannot guarantee that the timer is not rearmed again by
1623  * * %0	- The timer was not pending
1624  * * %1	- The timer was pending and deactivated
1626 int timer_delete_sync(struct timer_list *timer)  in timer_delete_sync()  argument
1628 	return __timer_delete_sync(timer, false);  in timer_delete_sync()
1633  * timer_shutdown_sync - Shutdown a timer and prevent rearming
1634  * @timer: The timer to be shutdown
1637  *   - @timer is not queued
1638  *   - The callback function of @timer is not running
1639  *   - @timer cannot be enqueued again. Any attempt to rearm
1640  *     @timer is silently ignored.
1645  * the timer is subject to a circular dependency problem.
1647  * A common pattern for this is a timer and a workqueue where the timer can
1648  * schedule work and work can arm the timer. On shutdown the workqueue must
1649  * be destroyed and the timer must be prevented from rearming. Unless the
1656  *	timer_shutdown_sync(&mything->timer);
1661  * This obviously implies that the timer is not required to be functional
1665  * * %0 - The timer was not pending
1666  * * %1 - The timer was pending
1668 int timer_shutdown_sync(struct timer_list *timer)  in timer_shutdown_sync()  argument
1670 	return __timer_delete_sync(timer, true);  in timer_shutdown_sync()
1674 static void call_timer_fn(struct timer_list *timer,  in call_timer_fn()  argument
1682 	 * It is permissible to free the timer from inside the  in call_timer_fn()
1686 	 * timer->lockdep_map, make a copy and use that here.  in call_timer_fn()
1690 	lockdep_copy_map(&lockdep_map, &timer->lockdep_map);  in call_timer_fn()
1699 	trace_timer_expire_entry(timer, baseclk);  in call_timer_fn()
1700 	fn(timer);  in call_timer_fn()
1701 	trace_timer_expire_exit(timer);  in call_timer_fn()
1706 		WARN_ONCE(1, "timer: %pS preempt leak: %08x -> %08x\n",  in call_timer_fn()
1728 		struct timer_list *timer;  in expire_timers()  local
1731 		timer = hlist_entry(head->first, struct timer_list, entry);  in expire_timers()
1733 		base->running_timer = timer;  in expire_timers()
1734 		detach_timer(timer, true);  in expire_timers()
1736 		fn = timer->function;  in expire_timers()
1744 		if (timer->flags & TIMER_IRQSAFE) {  in expire_timers()
1746 			call_timer_fn(timer, fn, baseclk);  in expire_timers()
1751 			call_timer_fn(timer, fn, baseclk);  in expire_timers()
1804  * Search the first expiring timer in the various clock levels. Caller must
1881  * Check, if the next hrtimer event is before the next timer wheel
1896 	 * If the next timer is already expired, return the tick base  in cmp_next_hrtimer_event()
1905 	 * make sure that this tick really expires the timer to avoid  in cmp_next_hrtimer_event()
1914  * get_next_timer_interrupt - return the time (clock mono) of the next timer
1919  * timer or KTIME_MAX if no timer is pending.
1928 	 * Pretend that there is no timer pending if the cpu is offline.  in get_next_timer_interrupt()
1959 		 * Also the tick is stopped so any added timer must forward  in get_next_timer_interrupt()
1973  * timer_clear_idle - Clear the idle state of the timer base
1993  * @base: the timer vector to be processed.
2011 		 * timer at this clk are that all matching timers have been  in __run_timers()
2012 		 * dequeued or no timer has been queued since  in __run_timers()
2029  * This function runs timers and the timer-tq in bottom half context.
2041  * Called by the local, per-CPU timer interrupt on SMP.
2061  * Called from the timer interrupt handler to charge one tick to the current
2068 	/* Note: this timer irq context must be accounted for as well. */  in update_process_times()
2082  * Since schedule_timeout()'s timer is defined on the stack, it must store
2086 	struct timer_list timer;  member
2092 	struct process_timer *timeout = from_timer(timeout, t, timer);  in process_timeout()
2124  * Returns 0 when the timer has expired otherwise the remaining time in
2130 	struct process_timer timer;  in schedule_timeout()  local
2164 	timer.task = current;  in schedule_timeout()
2165 	timer_setup_on_stack(&timer.timer, process_timeout, 0);  in schedule_timeout()
2166 	__mod_timer(&timer.timer, expire, MOD_TIMER_NOTPENDING);  in schedule_timeout()
2168 	del_timer_sync(&timer.timer);  in schedule_timeout()
2170 	/* Remove the timer from the object tracker */  in schedule_timeout()
2171 	destroy_timer_on_stack(&timer.timer);  in schedule_timeout()
2219 	struct timer_list *timer;  in migrate_timer_list()  local
2223 		timer = hlist_entry(head->first, struct timer_list, entry);  in migrate_timer_list()
2224 		detach_timer(timer, false);  in migrate_timer_list()
2225 		timer->flags = (timer->flags & ~TIMER_BASEMASK) | cpu;  in migrate_timer_list()
2226 		internal_add_timer(new_base, timer);  in migrate_timer_list()