2 * coupled.c - helper functions to enter the same idle state on multiple cpus
4 * Copyright (c) 2011 Google, Inc.
6 * Author: Colin Cross <ccross@android.com>
8 * This program is free software; you can redistribute it and/or modify
9 * it under the terms of the GNU General Public License as published by
10 * the Free Software Foundation; either version 2 of the License, or
11 * (at your option) any later version.
13 * This program is distributed in the hope that it will be useful, but WITHOUT
14 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
15 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
19 #include <linux/kernel.h>
20 #include <linux/cpu.h>
21 #include <linux/cpuidle.h>
22 #include <linux/mutex.h>
23 #include <linux/sched.h>
24 #include <linux/slab.h>
25 #include <linux/spinlock.h>
30 * DOC: Coupled cpuidle states
32 * On some ARM SMP SoCs (OMAP4460, Tegra 2, and probably more), the
33 * cpus cannot be independently powered down, either due to
34 * sequencing restrictions (on Tegra 2, cpu 0 must be the last to
35 * power down), or due to HW bugs (on OMAP4460, a cpu powering up
36 * will corrupt the gic state unless the other cpu runs a work
37 * around). Each cpu has a power state that it can enter without
38 * coordinating with the other cpu (usually Wait For Interrupt, or
39 * WFI), and one or more "coupled" power states that affect blocks
40 * shared between the cpus (L2 cache, interrupt controller, and
41 * sometimes the whole SoC). Entering a coupled power state must
42 * be tightly controlled on both cpus.
44 * This file implements a solution, where each cpu will wait in the
45 * WFI state until all cpus are ready to enter a coupled state, at
46 * which point the coupled state function will be called on all
47 * cpus at approximately the same time.
49 * Once all cpus are ready to enter idle, they are woken by an smp
50 * cross call. At this point, there is a chance that one of the
51 * cpus will find work to do, and choose not to enter idle. A
52 * final pass is needed to guarantee that all cpus will call the
53 * power state enter function at the same time. During this pass,
54 * each cpu will increment the ready counter, and continue once the
55 * ready counter matches the number of online coupled cpus. If any
56 * cpu exits idle, the other cpus will decrement their counter and
59 * requested_state stores the deepest coupled idle state each cpu
60 * is ready for. It is assumed that the states are indexed from
61 * shallowest (highest power, lowest exit latency) to deepest
62 * (lowest power, highest exit latency). The requested_state
63 * variable is not locked. It is only written from the cpu that
64 * it stores (or by the on/offlining cpu if that cpu is offline),
65 * and only read after all the cpus are ready for the coupled idle
66 * state are are no longer updating it.
68 * Three atomic counters are used. alive_count tracks the number
69 * of cpus in the coupled set that are currently or soon will be
70 * online. waiting_count tracks the number of cpus that are in
71 * the waiting loop, in the ready loop, or in the coupled idle state.
72 * ready_count tracks the number of cpus that are in the ready loop
73 * or in the coupled idle state.
75 * To use coupled cpuidle states, a cpuidle driver must:
77 * Set struct cpuidle_device.coupled_cpus to the mask of all
78 * coupled cpus, usually the same as cpu_possible_mask if all cpus
79 * are part of the same cluster. The coupled_cpus mask must be
80 * set in the struct cpuidle_device for each cpu.
82 * Set struct cpuidle_device.safe_state to a state that is not a
83 * coupled state. This is usually WFI.
85 * Set CPUIDLE_FLAG_COUPLED in struct cpuidle_state.flags for each
86 * state that affects multiple cpus.
88 * Provide a struct cpuidle_state.enter function for each state
89 * that affects multiple cpus. This function is guaranteed to be
90 * called on all cpus at approximately the same time. The driver
91 * should ensure that the cpus all abort together if any cpu tries
92 * to abort once the function is called. The function should return
93 * with interrupts still disabled.
97 * struct cpuidle_coupled - data for set of cpus that share a coupled idle state
98 * @coupled_cpus: mask of cpus that are part of the coupled set
99 * @requested_state: array of requested states for cpus in the coupled set
100 * @ready_waiting_counts: combined count of cpus in ready or waiting loops
101 * @online_count: count of cpus that are online
102 * @refcnt: reference count of cpuidle devices that are using this struct
103 * @prevent: flag to prevent coupled idle while a cpu is hotplugging
105 struct cpuidle_coupled
{
106 cpumask_t coupled_cpus
;
107 int requested_state
[NR_CPUS
];
108 atomic_t ready_waiting_counts
;
109 atomic_t abort_barrier
;
115 #define WAITING_BITS 16
116 #define MAX_WAITING_CPUS (1 << WAITING_BITS)
117 #define WAITING_MASK (MAX_WAITING_CPUS - 1)
118 #define READY_MASK (~WAITING_MASK)
120 #define CPUIDLE_COUPLED_NOT_IDLE (-1)
122 static DEFINE_MUTEX(cpuidle_coupled_lock
);
123 static DEFINE_PER_CPU(struct call_single_data
, cpuidle_coupled_poke_cb
);
126 * The cpuidle_coupled_poke_pending mask is used to avoid calling
127 * __smp_call_function_single with the per cpu call_single_data struct already
128 * in use. This prevents a deadlock where two cpus are waiting for each others
129 * call_single_data struct to be available
131 static cpumask_t cpuidle_coupled_poke_pending
;
134 * The cpuidle_coupled_poked mask is used to ensure that each cpu has been poked
135 * once to minimize entering the ready loop with a poke pending, which would
136 * require aborting and retrying.
138 static cpumask_t cpuidle_coupled_poked
;
141 * cpuidle_coupled_parallel_barrier - synchronize all online coupled cpus
142 * @dev: cpuidle_device of the calling cpu
143 * @a: atomic variable to hold the barrier
145 * No caller to this function will return from this function until all online
146 * cpus in the same coupled group have called this function. Once any caller
147 * has returned from this function, the barrier is immediately available for
150 * The atomic variable must be initialized to 0 before any cpu calls
151 * this function, will be reset to 0 before any cpu returns from this function.
153 * Must only be called from within a coupled idle state handler
154 * (state.enter when state.flags has CPUIDLE_FLAG_COUPLED set).
156 * Provides full smp barrier semantics before and after calling.
158 void cpuidle_coupled_parallel_barrier(struct cpuidle_device
*dev
, atomic_t
*a
)
160 int n
= dev
->coupled
->online_count
;
162 smp_mb__before_atomic();
165 while (atomic_read(a
) < n
)
168 if (atomic_inc_return(a
) == n
* 2) {
173 while (atomic_read(a
) > n
)
178 * cpuidle_state_is_coupled - check if a state is part of a coupled set
179 * @dev: struct cpuidle_device for the current cpu
180 * @drv: struct cpuidle_driver for the platform
181 * @state: index of the target state in drv->states
183 * Returns true if the target state is coupled with cpus besides this one
185 bool cpuidle_state_is_coupled(struct cpuidle_device
*dev
,
186 struct cpuidle_driver
*drv
, int state
)
188 return drv
->states
[state
].flags
& CPUIDLE_FLAG_COUPLED
;
192 * cpuidle_coupled_set_ready - mark a cpu as ready
193 * @coupled: the struct coupled that contains the current cpu
195 static inline void cpuidle_coupled_set_ready(struct cpuidle_coupled
*coupled
)
197 atomic_add(MAX_WAITING_CPUS
, &coupled
->ready_waiting_counts
);
201 * cpuidle_coupled_set_not_ready - mark a cpu as not ready
202 * @coupled: the struct coupled that contains the current cpu
204 * Decrements the ready counter, unless the ready (and thus the waiting) counter
205 * is equal to the number of online cpus. Prevents a race where one cpu
206 * decrements the waiting counter and then re-increments it just before another
207 * cpu has decremented its ready counter, leading to the ready counter going
208 * down from the number of online cpus without going through the coupled idle
211 * Returns 0 if the counter was decremented successfully, -EINVAL if the ready
212 * counter was equal to the number of online cpus.
215 inline int cpuidle_coupled_set_not_ready(struct cpuidle_coupled
*coupled
)
220 all
= coupled
->online_count
| (coupled
->online_count
<< WAITING_BITS
);
221 ret
= atomic_add_unless(&coupled
->ready_waiting_counts
,
222 -MAX_WAITING_CPUS
, all
);
224 return ret
? 0 : -EINVAL
;
228 * cpuidle_coupled_no_cpus_ready - check if no cpus in a coupled set are ready
229 * @coupled: the struct coupled that contains the current cpu
231 * Returns true if all of the cpus in a coupled set are out of the ready loop.
233 static inline int cpuidle_coupled_no_cpus_ready(struct cpuidle_coupled
*coupled
)
235 int r
= atomic_read(&coupled
->ready_waiting_counts
) >> WAITING_BITS
;
240 * cpuidle_coupled_cpus_ready - check if all cpus in a coupled set are ready
241 * @coupled: the struct coupled that contains the current cpu
243 * Returns true if all cpus coupled to this target state are in the ready loop
245 static inline bool cpuidle_coupled_cpus_ready(struct cpuidle_coupled
*coupled
)
247 int r
= atomic_read(&coupled
->ready_waiting_counts
) >> WAITING_BITS
;
248 return r
== coupled
->online_count
;
252 * cpuidle_coupled_cpus_waiting - check if all cpus in a coupled set are waiting
253 * @coupled: the struct coupled that contains the current cpu
255 * Returns true if all cpus coupled to this target state are in the wait loop
257 static inline bool cpuidle_coupled_cpus_waiting(struct cpuidle_coupled
*coupled
)
259 int w
= atomic_read(&coupled
->ready_waiting_counts
) & WAITING_MASK
;
260 return w
== coupled
->online_count
;
264 * cpuidle_coupled_no_cpus_waiting - check if no cpus in coupled set are waiting
265 * @coupled: the struct coupled that contains the current cpu
267 * Returns true if all of the cpus in a coupled set are out of the waiting loop.
269 static inline int cpuidle_coupled_no_cpus_waiting(struct cpuidle_coupled
*coupled
)
271 int w
= atomic_read(&coupled
->ready_waiting_counts
) & WAITING_MASK
;
276 * cpuidle_coupled_get_state - determine the deepest idle state
277 * @dev: struct cpuidle_device for this cpu
278 * @coupled: the struct coupled that contains the current cpu
280 * Returns the deepest idle state that all coupled cpus can enter
282 static inline int cpuidle_coupled_get_state(struct cpuidle_device
*dev
,
283 struct cpuidle_coupled
*coupled
)
289 * Read barrier ensures that read of requested_state is ordered after
290 * reads of ready_count. Matches the write barriers
291 * cpuidle_set_state_waiting.
295 for_each_cpu(i
, &coupled
->coupled_cpus
)
296 if (cpu_online(i
) && coupled
->requested_state
[i
] < state
)
297 state
= coupled
->requested_state
[i
];
302 static void cpuidle_coupled_handle_poke(void *info
)
304 int cpu
= (unsigned long)info
;
305 cpumask_set_cpu(cpu
, &cpuidle_coupled_poked
);
306 cpumask_clear_cpu(cpu
, &cpuidle_coupled_poke_pending
);
310 * cpuidle_coupled_poke - wake up a cpu that may be waiting
313 * Ensures that the target cpu exits it's waiting idle state (if it is in it)
314 * and will see updates to waiting_count before it re-enters it's waiting idle
317 * If cpuidle_coupled_poked_mask is already set for the target cpu, that cpu
318 * either has or will soon have a pending IPI that will wake it out of idle,
319 * or it is currently processing the IPI and is not in idle.
321 static void cpuidle_coupled_poke(int cpu
)
323 struct call_single_data
*csd
= &per_cpu(cpuidle_coupled_poke_cb
, cpu
);
325 if (!cpumask_test_and_set_cpu(cpu
, &cpuidle_coupled_poke_pending
))
326 smp_call_function_single_async(cpu
, csd
);
330 * cpuidle_coupled_poke_others - wake up all other cpus that may be waiting
331 * @dev: struct cpuidle_device for this cpu
332 * @coupled: the struct coupled that contains the current cpu
334 * Calls cpuidle_coupled_poke on all other online cpus.
336 static void cpuidle_coupled_poke_others(int this_cpu
,
337 struct cpuidle_coupled
*coupled
)
341 for_each_cpu(cpu
, &coupled
->coupled_cpus
)
342 if (cpu
!= this_cpu
&& cpu_online(cpu
))
343 cpuidle_coupled_poke(cpu
);
347 * cpuidle_coupled_set_waiting - mark this cpu as in the wait loop
348 * @dev: struct cpuidle_device for this cpu
349 * @coupled: the struct coupled that contains the current cpu
350 * @next_state: the index in drv->states of the requested state for this cpu
352 * Updates the requested idle state for the specified cpuidle device.
353 * Returns the number of waiting cpus.
355 static int cpuidle_coupled_set_waiting(int cpu
,
356 struct cpuidle_coupled
*coupled
, int next_state
)
358 coupled
->requested_state
[cpu
] = next_state
;
361 * The atomic_inc_return provides a write barrier to order the write
362 * to requested_state with the later write that increments ready_count.
364 return atomic_inc_return(&coupled
->ready_waiting_counts
) & WAITING_MASK
;
368 * cpuidle_coupled_set_not_waiting - mark this cpu as leaving the wait loop
369 * @dev: struct cpuidle_device for this cpu
370 * @coupled: the struct coupled that contains the current cpu
372 * Removes the requested idle state for the specified cpuidle device.
374 static void cpuidle_coupled_set_not_waiting(int cpu
,
375 struct cpuidle_coupled
*coupled
)
378 * Decrementing waiting count can race with incrementing it in
379 * cpuidle_coupled_set_waiting, but that's OK. Worst case, some
380 * cpus will increment ready_count and then spin until they
381 * notice that this cpu has cleared it's requested_state.
383 atomic_dec(&coupled
->ready_waiting_counts
);
385 coupled
->requested_state
[cpu
] = CPUIDLE_COUPLED_NOT_IDLE
;
389 * cpuidle_coupled_set_done - mark this cpu as leaving the ready loop
390 * @cpu: the current cpu
391 * @coupled: the struct coupled that contains the current cpu
393 * Marks this cpu as no longer in the ready and waiting loops. Decrements
394 * the waiting count first to prevent another cpu looping back in and seeing
395 * this cpu as waiting just before it exits idle.
397 static void cpuidle_coupled_set_done(int cpu
, struct cpuidle_coupled
*coupled
)
399 cpuidle_coupled_set_not_waiting(cpu
, coupled
);
400 atomic_sub(MAX_WAITING_CPUS
, &coupled
->ready_waiting_counts
);
404 * cpuidle_coupled_clear_pokes - spin until the poke interrupt is processed
407 * Turns on interrupts and spins until any outstanding poke interrupts have
408 * been processed and the poke bit has been cleared.
410 * Other interrupts may also be processed while interrupts are enabled, so
411 * need_resched() must be tested after this function returns to make sure
412 * the interrupt didn't schedule work that should take the cpu out of idle.
414 * Returns 0 if no poke was pending, 1 if a poke was cleared.
416 static int cpuidle_coupled_clear_pokes(int cpu
)
418 if (!cpumask_test_cpu(cpu
, &cpuidle_coupled_poke_pending
))
422 while (cpumask_test_cpu(cpu
, &cpuidle_coupled_poke_pending
))
429 static bool cpuidle_coupled_any_pokes_pending(struct cpuidle_coupled
*coupled
)
434 cpumask_and(&cpus
, cpu_online_mask
, &coupled
->coupled_cpus
);
435 ret
= cpumask_and(&cpus
, &cpuidle_coupled_poke_pending
, &cpus
);
441 * cpuidle_enter_state_coupled - attempt to enter a state with coupled cpus
442 * @dev: struct cpuidle_device for the current cpu
443 * @drv: struct cpuidle_driver for the platform
444 * @next_state: index of the requested state in drv->states
446 * Coordinate with coupled cpus to enter the target state. This is a two
447 * stage process. In the first stage, the cpus are operating independently,
448 * and may call into cpuidle_enter_state_coupled at completely different times.
449 * To save as much power as possible, the first cpus to call this function will
450 * go to an intermediate state (the cpuidle_device's safe state), and wait for
451 * all the other cpus to call this function. Once all coupled cpus are idle,
452 * the second stage will start. Each coupled cpu will spin until all cpus have
453 * guaranteed that they will call the target_state.
455 * This function must be called with interrupts disabled. It may enable
456 * interrupts while preparing for idle, and it will always return with
457 * interrupts enabled.
459 int cpuidle_enter_state_coupled(struct cpuidle_device
*dev
,
460 struct cpuidle_driver
*drv
, int next_state
)
462 int entered_state
= -1;
463 struct cpuidle_coupled
*coupled
= dev
->coupled
;
469 while (coupled
->prevent
) {
470 cpuidle_coupled_clear_pokes(dev
->cpu
);
471 if (need_resched()) {
473 return entered_state
;
475 entered_state
= cpuidle_enter_state(dev
, drv
,
476 dev
->safe_state_index
);
480 /* Read barrier ensures online_count is read after prevent is cleared */
484 cpumask_clear_cpu(dev
->cpu
, &cpuidle_coupled_poked
);
486 w
= cpuidle_coupled_set_waiting(dev
->cpu
, coupled
, next_state
);
488 * If this is the last cpu to enter the waiting state, poke
489 * all the other cpus out of their waiting state so they can
490 * enter a deeper state. This can race with one of the cpus
491 * exiting the waiting state due to an interrupt and
492 * decrementing waiting_count, see comment below.
494 if (w
== coupled
->online_count
) {
495 cpumask_set_cpu(dev
->cpu
, &cpuidle_coupled_poked
);
496 cpuidle_coupled_poke_others(dev
->cpu
, coupled
);
501 * Wait for all coupled cpus to be idle, using the deepest state
502 * allowed for a single cpu. If this was not the poking cpu, wait
503 * for at least one poke before leaving to avoid a race where
504 * two cpus could arrive at the waiting loop at the same time,
505 * but the first of the two to arrive could skip the loop without
506 * processing the pokes from the last to arrive.
508 while (!cpuidle_coupled_cpus_waiting(coupled
) ||
509 !cpumask_test_cpu(dev
->cpu
, &cpuidle_coupled_poked
)) {
510 if (cpuidle_coupled_clear_pokes(dev
->cpu
))
513 if (need_resched()) {
514 cpuidle_coupled_set_not_waiting(dev
->cpu
, coupled
);
518 if (coupled
->prevent
) {
519 cpuidle_coupled_set_not_waiting(dev
->cpu
, coupled
);
523 entered_state
= cpuidle_enter_state(dev
, drv
,
524 dev
->safe_state_index
);
528 cpuidle_coupled_clear_pokes(dev
->cpu
);
529 if (need_resched()) {
530 cpuidle_coupled_set_not_waiting(dev
->cpu
, coupled
);
535 * Make sure final poke status for this cpu is visible before setting
541 * All coupled cpus are probably idle. There is a small chance that
542 * one of the other cpus just became active. Increment the ready count,
543 * and spin until all coupled cpus have incremented the counter. Once a
544 * cpu has incremented the ready counter, it cannot abort idle and must
545 * spin until either all cpus have incremented the ready counter, or
546 * another cpu leaves idle and decrements the waiting counter.
549 cpuidle_coupled_set_ready(coupled
);
550 while (!cpuidle_coupled_cpus_ready(coupled
)) {
551 /* Check if any other cpus bailed out of idle. */
552 if (!cpuidle_coupled_cpus_waiting(coupled
))
553 if (!cpuidle_coupled_set_not_ready(coupled
))
560 * Make sure read of all cpus ready is done before reading pending pokes
565 * There is a small chance that a cpu left and reentered idle after this
566 * cpu saw that all cpus were waiting. The cpu that reentered idle will
567 * have sent this cpu a poke, which will still be pending after the
568 * ready loop. The pending interrupt may be lost by the interrupt
569 * controller when entering the deep idle state. It's not possible to
570 * clear a pending interrupt without turning interrupts on and handling
571 * it, and it's too late to turn on interrupts here, so reset the
572 * coupled idle state of all cpus and retry.
574 if (cpuidle_coupled_any_pokes_pending(coupled
)) {
575 cpuidle_coupled_set_done(dev
->cpu
, coupled
);
576 /* Wait for all cpus to see the pending pokes */
577 cpuidle_coupled_parallel_barrier(dev
, &coupled
->abort_barrier
);
581 /* all cpus have acked the coupled state */
582 next_state
= cpuidle_coupled_get_state(dev
, coupled
);
584 entered_state
= cpuidle_enter_state(dev
, drv
, next_state
);
586 cpuidle_coupled_set_done(dev
->cpu
, coupled
);
590 * Normal cpuidle states are expected to return with irqs enabled.
591 * That leads to an inefficiency where a cpu receiving an interrupt
592 * that brings it out of idle will process that interrupt before
593 * exiting the idle enter function and decrementing ready_count. All
594 * other cpus will need to spin waiting for the cpu that is processing
595 * the interrupt. If the driver returns with interrupts disabled,
596 * all other cpus will loop back into the safe idle state instead of
597 * spinning, saving power.
599 * Calling local_irq_enable here allows coupled states to return with
600 * interrupts disabled, but won't cause problems for drivers that
601 * exit with interrupts enabled.
606 * Wait until all coupled cpus have exited idle. There is no risk that
607 * a cpu exits and re-enters the ready state because this cpu has
608 * already decremented its waiting_count.
610 while (!cpuidle_coupled_no_cpus_ready(coupled
))
613 return entered_state
;
616 static void cpuidle_coupled_update_online_cpus(struct cpuidle_coupled
*coupled
)
619 cpumask_and(&cpus
, cpu_online_mask
, &coupled
->coupled_cpus
);
620 coupled
->online_count
= cpumask_weight(&cpus
);
624 * cpuidle_coupled_register_device - register a coupled cpuidle device
625 * @dev: struct cpuidle_device for the current cpu
627 * Called from cpuidle_register_device to handle coupled idle init. Finds the
628 * cpuidle_coupled struct for this set of coupled cpus, or creates one if none
631 int cpuidle_coupled_register_device(struct cpuidle_device
*dev
)
634 struct cpuidle_device
*other_dev
;
635 struct call_single_data
*csd
;
636 struct cpuidle_coupled
*coupled
;
638 if (cpumask_empty(&dev
->coupled_cpus
))
641 for_each_cpu(cpu
, &dev
->coupled_cpus
) {
642 other_dev
= per_cpu(cpuidle_devices
, cpu
);
643 if (other_dev
&& other_dev
->coupled
) {
644 coupled
= other_dev
->coupled
;
649 /* No existing coupled info found, create a new one */
650 coupled
= kzalloc(sizeof(struct cpuidle_coupled
), GFP_KERNEL
);
654 coupled
->coupled_cpus
= dev
->coupled_cpus
;
657 dev
->coupled
= coupled
;
658 if (WARN_ON(!cpumask_equal(&dev
->coupled_cpus
, &coupled
->coupled_cpus
)))
661 cpuidle_coupled_update_online_cpus(coupled
);
665 csd
= &per_cpu(cpuidle_coupled_poke_cb
, dev
->cpu
);
666 csd
->func
= cpuidle_coupled_handle_poke
;
667 csd
->info
= (void *)(unsigned long)dev
->cpu
;
673 * cpuidle_coupled_unregister_device - unregister a coupled cpuidle device
674 * @dev: struct cpuidle_device for the current cpu
676 * Called from cpuidle_unregister_device to tear down coupled idle. Removes the
677 * cpu from the coupled idle set, and frees the cpuidle_coupled_info struct if
678 * this was the last cpu in the set.
680 void cpuidle_coupled_unregister_device(struct cpuidle_device
*dev
)
682 struct cpuidle_coupled
*coupled
= dev
->coupled
;
684 if (cpumask_empty(&dev
->coupled_cpus
))
687 if (--coupled
->refcnt
)
693 * cpuidle_coupled_prevent_idle - prevent cpus from entering a coupled state
694 * @coupled: the struct coupled that contains the cpu that is changing state
696 * Disables coupled cpuidle on a coupled set of cpus. Used to ensure that
697 * cpu_online_mask doesn't change while cpus are coordinating coupled idle.
699 static void cpuidle_coupled_prevent_idle(struct cpuidle_coupled
*coupled
)
703 /* Force all cpus out of the waiting loop. */
705 cpuidle_coupled_poke_others(cpu
, coupled
);
707 while (!cpuidle_coupled_no_cpus_waiting(coupled
))
712 * cpuidle_coupled_allow_idle - allows cpus to enter a coupled state
713 * @coupled: the struct coupled that contains the cpu that is changing state
715 * Enables coupled cpuidle on a coupled set of cpus. Used to ensure that
716 * cpu_online_mask doesn't change while cpus are coordinating coupled idle.
718 static void cpuidle_coupled_allow_idle(struct cpuidle_coupled
*coupled
)
723 * Write barrier ensures readers see the new online_count when they
728 /* Force cpus out of the prevent loop. */
729 cpuidle_coupled_poke_others(cpu
, coupled
);
734 * cpuidle_coupled_cpu_notify - notifier called during hotplug transitions
735 * @nb: notifier block
736 * @action: hotplug transition
737 * @hcpu: target cpu number
739 * Called when a cpu is brought on or offline using hotplug. Updates the
740 * coupled cpu set appropriately
742 static int cpuidle_coupled_cpu_notify(struct notifier_block
*nb
,
743 unsigned long action
, void *hcpu
)
745 int cpu
= (unsigned long)hcpu
;
746 struct cpuidle_device
*dev
;
748 switch (action
& ~CPU_TASKS_FROZEN
) {
750 case CPU_DOWN_PREPARE
:
753 case CPU_UP_CANCELED
:
754 case CPU_DOWN_FAILED
:
760 mutex_lock(&cpuidle_lock
);
762 dev
= per_cpu(cpuidle_devices
, cpu
);
763 if (!dev
|| !dev
->coupled
)
766 switch (action
& ~CPU_TASKS_FROZEN
) {
768 case CPU_DOWN_PREPARE
:
769 cpuidle_coupled_prevent_idle(dev
->coupled
);
773 cpuidle_coupled_update_online_cpus(dev
->coupled
);
775 case CPU_UP_CANCELED
:
776 case CPU_DOWN_FAILED
:
777 cpuidle_coupled_allow_idle(dev
->coupled
);
782 mutex_unlock(&cpuidle_lock
);
786 static struct notifier_block cpuidle_coupled_cpu_notifier
= {
787 .notifier_call
= cpuidle_coupled_cpu_notify
,
790 static int __init
cpuidle_coupled_init(void)
792 return register_cpu_notifier(&cpuidle_coupled_cpu_notifier
);
794 core_initcall(cpuidle_coupled_init
);