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kernel/stop_machine.c
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/* * kernel/stop_machine.c * * Copyright (C) 2008, 2005 IBM Corporation. * Copyright (C) 2008, 2005 Rusty Russell rusty@rustcorp.com.au * Copyright (C) 2010 SUSE Linux Products GmbH * Copyright (C) 2010 Tejun Heo <tj@kernel.org> * * This file is released under the GPLv2 and any later version. |
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*/ |
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#include <linux/completion.h> |
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#include <linux/cpu.h> |
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#include <linux/init.h> |
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#include <linux/kthread.h> |
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#include <linux/export.h> |
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#include <linux/percpu.h> |
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#include <linux/sched.h> #include <linux/stop_machine.h> |
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#include <linux/interrupt.h> |
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#include <linux/kallsyms.h> |
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#include <linux/smpboot.h> |
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#include <linux/atomic.h> |
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#include <linux/nmi.h> |
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/* * Structure to determine completion condition and record errors. May * be shared by works on different cpus. */ struct cpu_stop_done { atomic_t nr_todo; /* nr left to execute */ |
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int ret; /* collected return value */ struct completion completion; /* fired if nr_todo reaches 0 */ }; /* the actual stopper, one per every possible cpu, enabled on online cpus */ struct cpu_stopper { |
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struct task_struct *thread; |
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spinlock_t lock; |
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bool enabled; /* is this stopper enabled? */ |
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struct list_head works; /* list of pending works */ |
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struct cpu_stop_work stop_work; /* for stop_cpus */ |
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}; static DEFINE_PER_CPU(struct cpu_stopper, cpu_stopper); |
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static bool stop_machine_initialized = false; |
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|
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/* static data for stop_cpus */ static DEFINE_MUTEX(stop_cpus_mutex); static bool stop_cpus_in_progress; |
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|
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static void cpu_stop_init_done(struct cpu_stop_done *done, unsigned int nr_todo) { memset(done, 0, sizeof(*done)); atomic_set(&done->nr_todo, nr_todo); init_completion(&done->completion); } /* signal completion unless @done is NULL */ |
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static void cpu_stop_signal_done(struct cpu_stop_done *done) |
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{ |
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if (atomic_dec_and_test(&done->nr_todo)) complete(&done->completion); |
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} |
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static void __cpu_stop_queue_work(struct cpu_stopper *stopper, struct cpu_stop_work *work) { list_add_tail(&work->list, &stopper->works); wake_up_process(stopper->thread); } |
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/* queue @work to @stopper. if offline, @work is completed immediately */ |
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static bool cpu_stop_queue_work(unsigned int cpu, struct cpu_stop_work *work) |
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{ |
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struct cpu_stopper *stopper = &per_cpu(cpu_stopper, cpu); |
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unsigned long flags; |
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bool enabled; |
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spin_lock_irqsave(&stopper->lock, flags); |
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enabled = stopper->enabled; if (enabled) |
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__cpu_stop_queue_work(stopper, work); |
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else if (work->done) |
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cpu_stop_signal_done(work->done); |
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spin_unlock_irqrestore(&stopper->lock, flags); |
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return enabled; |
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} /** * stop_one_cpu - stop a cpu * @cpu: cpu to stop * @fn: function to execute * @arg: argument to @fn * * Execute @fn(@arg) on @cpu. @fn is run in a process context with * the highest priority preempting any task on the cpu and * monopolizing it. This function returns after the execution is * complete. * * This function doesn't guarantee @cpu stays online till @fn * completes. If @cpu goes down in the middle, execution may happen * partially or fully on different cpus. @fn should either be ready * for that or the caller should ensure that @cpu stays online until * this function completes. * * CONTEXT: * Might sleep. * * RETURNS: * -ENOENT if @fn(@arg) was not executed because @cpu was offline; * otherwise, the return value of @fn. */ int stop_one_cpu(unsigned int cpu, cpu_stop_fn_t fn, void *arg) { struct cpu_stop_done done; struct cpu_stop_work work = { .fn = fn, .arg = arg, .done = &done }; cpu_stop_init_done(&done, 1); |
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if (!cpu_stop_queue_work(cpu, &work)) return -ENOENT; |
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/* * In case @cpu == smp_proccessor_id() we can avoid a sleep+wakeup * cycle by doing a preemption: */ cond_resched(); |
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wait_for_completion(&done.completion); |
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return done.ret; |
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} |
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/* This controls the threads on each CPU. */ enum multi_stop_state { /* Dummy starting state for thread. */ MULTI_STOP_NONE, /* Awaiting everyone to be scheduled. */ MULTI_STOP_PREPARE, /* Disable interrupts. */ MULTI_STOP_DISABLE_IRQ, /* Run the function */ MULTI_STOP_RUN, /* Exit */ MULTI_STOP_EXIT, }; struct multi_stop_data { |
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cpu_stop_fn_t fn; |
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void *data; /* Like num_online_cpus(), but hotplug cpu uses us, so we need this. */ unsigned int num_threads; const struct cpumask *active_cpus; enum multi_stop_state state; atomic_t thread_ack; }; static void set_state(struct multi_stop_data *msdata, enum multi_stop_state newstate) { /* Reset ack counter. */ atomic_set(&msdata->thread_ack, msdata->num_threads); smp_wmb(); msdata->state = newstate; } /* Last one to ack a state moves to the next state. */ static void ack_state(struct multi_stop_data *msdata) { if (atomic_dec_and_test(&msdata->thread_ack)) set_state(msdata, msdata->state + 1); } /* This is the cpu_stop function which stops the CPU. */ static int multi_cpu_stop(void *data) { struct multi_stop_data *msdata = data; enum multi_stop_state curstate = MULTI_STOP_NONE; int cpu = smp_processor_id(), err = 0; unsigned long flags; bool is_active; /* * When called from stop_machine_from_inactive_cpu(), irq might * already be disabled. Save the state and restore it on exit. */ local_save_flags(flags); if (!msdata->active_cpus) is_active = cpu == cpumask_first(cpu_online_mask); else is_active = cpumask_test_cpu(cpu, msdata->active_cpus); /* Simple state machine */ do { /* Chill out and ensure we re-read multi_stop_state. */ cpu_relax(); if (msdata->state != curstate) { curstate = msdata->state; switch (curstate) { case MULTI_STOP_DISABLE_IRQ: local_irq_disable(); hard_irq_disable(); break; case MULTI_STOP_RUN: if (is_active) err = msdata->fn(msdata->data); break; default: break; } ack_state(msdata); |
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} else if (curstate > MULTI_STOP_PREPARE) { /* * At this stage all other CPUs we depend on must spin * in the same loop. Any reason for hard-lockup should * be detected and reported on their side. */ touch_nmi_watchdog(); |
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} } while (curstate != MULTI_STOP_EXIT); local_irq_restore(flags); return err; } |
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static int cpu_stop_queue_two_works(int cpu1, struct cpu_stop_work *work1, int cpu2, struct cpu_stop_work *work2) { |
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struct cpu_stopper *stopper1 = per_cpu_ptr(&cpu_stopper, cpu1); struct cpu_stopper *stopper2 = per_cpu_ptr(&cpu_stopper, cpu2); int err; |
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retry: |
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spin_lock_irq(&stopper1->lock); spin_lock_nested(&stopper2->lock, SINGLE_DEPTH_NESTING); err = -ENOENT; if (!stopper1->enabled || !stopper2->enabled) goto unlock; |
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/* * Ensure that if we race with __stop_cpus() the stoppers won't get * queued up in reverse order leading to system deadlock. * * We can't miss stop_cpus_in_progress if queue_stop_cpus_work() has * queued a work on cpu1 but not on cpu2, we hold both locks. * * It can be falsely true but it is safe to spin until it is cleared, * queue_stop_cpus_work() does everything under preempt_disable(). */ err = -EDEADLK; if (unlikely(stop_cpus_in_progress)) goto unlock; |
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err = 0; __cpu_stop_queue_work(stopper1, work1); __cpu_stop_queue_work(stopper2, work2); unlock: spin_unlock(&stopper2->lock); spin_unlock_irq(&stopper1->lock); |
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|
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if (unlikely(err == -EDEADLK)) { while (stop_cpus_in_progress) cpu_relax(); goto retry; } |
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return err; |
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} |
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/** * stop_two_cpus - stops two cpus * @cpu1: the cpu to stop * @cpu2: the other cpu to stop * @fn: function to execute * @arg: argument to @fn * * Stops both the current and specified CPU and runs @fn on one of them. * * returns when both are completed. */ int stop_two_cpus(unsigned int cpu1, unsigned int cpu2, cpu_stop_fn_t fn, void *arg) { |
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struct cpu_stop_done done; struct cpu_stop_work work1, work2; |
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struct multi_stop_data msdata; |
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msdata = (struct multi_stop_data){ |
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.fn = fn, .data = arg, .num_threads = 2, .active_cpus = cpumask_of(cpu1), }; work1 = work2 = (struct cpu_stop_work){ .fn = multi_cpu_stop, .arg = &msdata, .done = &done }; |
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cpu_stop_init_done(&done, 2); set_state(&msdata, MULTI_STOP_PREPARE); |
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if (cpu1 > cpu2) swap(cpu1, cpu2); |
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if (cpu_stop_queue_two_works(cpu1, &work1, cpu2, &work2)) |
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return -ENOENT; |
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wait_for_completion(&done.completion); |
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return done.ret; |
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} |
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/** * stop_one_cpu_nowait - stop a cpu but don't wait for completion * @cpu: cpu to stop * @fn: function to execute * @arg: argument to @fn |
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* @work_buf: pointer to cpu_stop_work structure |
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* * Similar to stop_one_cpu() but doesn't wait for completion. The * caller is responsible for ensuring @work_buf is currently unused * and will remain untouched until stopper starts executing @fn. * * CONTEXT: * Don't care. |
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* * RETURNS: * true if cpu_stop_work was queued successfully and @fn will be called, * false otherwise. |
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*/ |
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bool stop_one_cpu_nowait(unsigned int cpu, cpu_stop_fn_t fn, void *arg, |
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struct cpu_stop_work *work_buf) { *work_buf = (struct cpu_stop_work){ .fn = fn, .arg = arg, }; |
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return cpu_stop_queue_work(cpu, work_buf); |
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} |
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static bool queue_stop_cpus_work(const struct cpumask *cpumask, |
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cpu_stop_fn_t fn, void *arg, struct cpu_stop_done *done) |
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{ struct cpu_stop_work *work; |
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unsigned int cpu; |
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bool queued = false; |
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|
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/* * Disable preemption while queueing to avoid getting * preempted by a stopper which might wait for other stoppers * to enter @fn which can lead to deadlock. */ |
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preempt_disable(); stop_cpus_in_progress = true; |
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for_each_cpu(cpu, cpumask) { work = &per_cpu(cpu_stopper.stop_work, cpu); work->fn = fn; work->arg = arg; work->done = done; |
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if (cpu_stop_queue_work(cpu, work)) queued = true; |
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} |
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stop_cpus_in_progress = false; preempt_enable(); |
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return queued; |
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} |
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|
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static int __stop_cpus(const struct cpumask *cpumask, cpu_stop_fn_t fn, void *arg) { struct cpu_stop_done done; cpu_stop_init_done(&done, cpumask_weight(cpumask)); |
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if (!queue_stop_cpus_work(cpumask, fn, arg, &done)) return -ENOENT; |
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wait_for_completion(&done.completion); |
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return done.ret; |
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} /** * stop_cpus - stop multiple cpus * @cpumask: cpus to stop * @fn: function to execute * @arg: argument to @fn * * Execute @fn(@arg) on online cpus in @cpumask. On each target cpu, * @fn is run in a process context with the highest priority * preempting any task on the cpu and monopolizing it. This function * returns after all executions are complete. * * This function doesn't guarantee the cpus in @cpumask stay online * till @fn completes. If some cpus go down in the middle, execution * on the cpu may happen partially or fully on different cpus. @fn * should either be ready for that or the caller should ensure that * the cpus stay online until this function completes. * * All stop_cpus() calls are serialized making it safe for @fn to wait * for all cpus to start executing it. * * CONTEXT: * Might sleep. * * RETURNS: * -ENOENT if @fn(@arg) was not executed at all because all cpus in * @cpumask were offline; otherwise, 0 if all executions of @fn * returned 0, any non zero return value if any returned non zero. */ int stop_cpus(const struct cpumask *cpumask, cpu_stop_fn_t fn, void *arg) { int ret; /* static works are used, process one request at a time */ mutex_lock(&stop_cpus_mutex); ret = __stop_cpus(cpumask, fn, arg); mutex_unlock(&stop_cpus_mutex); return ret; } /** * try_stop_cpus - try to stop multiple cpus * @cpumask: cpus to stop * @fn: function to execute * @arg: argument to @fn * * Identical to stop_cpus() except that it fails with -EAGAIN if * someone else is already using the facility. * * CONTEXT: * Might sleep. * * RETURNS: * -EAGAIN if someone else is already stopping cpus, -ENOENT if * @fn(@arg) was not executed at all because all cpus in @cpumask were * offline; otherwise, 0 if all executions of @fn returned 0, any non * zero return value if any returned non zero. */ int try_stop_cpus(const struct cpumask *cpumask, cpu_stop_fn_t fn, void *arg) { int ret; /* static works are used, process one request at a time */ if (!mutex_trylock(&stop_cpus_mutex)) return -EAGAIN; ret = __stop_cpus(cpumask, fn, arg); mutex_unlock(&stop_cpus_mutex); return ret; } |
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static int cpu_stop_should_run(unsigned int cpu) { struct cpu_stopper *stopper = &per_cpu(cpu_stopper, cpu); unsigned long flags; int run; spin_lock_irqsave(&stopper->lock, flags); run = !list_empty(&stopper->works); spin_unlock_irqrestore(&stopper->lock, flags); return run; } static void cpu_stopper_thread(unsigned int cpu) |
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{ |
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struct cpu_stopper *stopper = &per_cpu(cpu_stopper, cpu); |
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struct cpu_stop_work *work; |
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repeat: |
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work = NULL; spin_lock_irq(&stopper->lock); if (!list_empty(&stopper->works)) { work = list_first_entry(&stopper->works, struct cpu_stop_work, list); list_del_init(&work->list); } spin_unlock_irq(&stopper->lock); if (work) { cpu_stop_fn_t fn = work->fn; void *arg = work->arg; struct cpu_stop_done *done = work->done; |
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int ret; |
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|
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/* cpu stop callbacks must not sleep, make in_atomic() == T */ preempt_count_inc(); |
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ret = fn(arg); |
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if (done) { if (ret) done->ret = ret; cpu_stop_signal_done(done); } |
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preempt_count_dec(); |
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WARN_ONCE(preempt_count(), |
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"cpu_stop: %pf(%p) leaked preempt count ", fn, arg); |
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goto repeat; } |
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} |
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void stop_machine_park(int cpu) { struct cpu_stopper *stopper = &per_cpu(cpu_stopper, cpu); /* * Lockless. cpu_stopper_thread() will take stopper->lock and flush * the pending works before it parks, until then it is fine to queue * the new works. */ stopper->enabled = false; kthread_park(stopper->thread); } |
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extern void sched_set_stop_task(int cpu, struct task_struct *stop); |
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static void cpu_stop_create(unsigned int cpu) { |
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sched_set_stop_task(cpu, per_cpu(cpu_stopper.thread, cpu)); |
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} static void cpu_stop_park(unsigned int cpu) |
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{ |
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struct cpu_stopper *stopper = &per_cpu(cpu_stopper, cpu); |
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WARN_ON(!list_empty(&stopper->works)); |
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} |
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|
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void stop_machine_unpark(int cpu) { struct cpu_stopper *stopper = &per_cpu(cpu_stopper, cpu); |
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stopper->enabled = true; |
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kthread_unpark(stopper->thread); } |
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static struct smp_hotplug_thread cpu_stop_threads = { |
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.store = &cpu_stopper.thread, |
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.thread_should_run = cpu_stop_should_run, .thread_fn = cpu_stopper_thread, .thread_comm = "migration/%u", .create = cpu_stop_create, |
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.park = cpu_stop_park, |
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.selfparking = true, |
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}; static int __init cpu_stop_init(void) { |
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unsigned int cpu; |
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for_each_possible_cpu(cpu) { struct cpu_stopper *stopper = &per_cpu(cpu_stopper, cpu); spin_lock_init(&stopper->lock); INIT_LIST_HEAD(&stopper->works); } |
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BUG_ON(smpboot_register_percpu_thread(&cpu_stop_threads)); |
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stop_machine_unpark(raw_smp_processor_id()); |
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stop_machine_initialized = true; |
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return 0; } early_initcall(cpu_stop_init); |
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|
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static int __stop_machine(cpu_stop_fn_t fn, void *data, const struct cpumask *cpus) |
1da177e4c Linux-2.6.12-rc2 |
540 |
{ |
1be0bd77c stop_machine: Int... |
541 542 543 544 545 546 |
struct multi_stop_data msdata = { .fn = fn, .data = data, .num_threads = num_online_cpus(), .active_cpus = cpus, }; |
3fc1f1e27 stop_machine: rei... |
547 |
|
f445027e4 stop_machine: mak... |
548 549 550 551 552 553 554 555 |
if (!stop_machine_initialized) { /* * Handle the case where stop_machine() is called * early in boot before stop_machine() has been * initialized. */ unsigned long flags; int ret; |
1be0bd77c stop_machine: Int... |
556 |
WARN_ON_ONCE(msdata.num_threads != 1); |
f445027e4 stop_machine: mak... |
557 558 559 560 561 562 563 564 |
local_irq_save(flags); hard_irq_disable(); ret = (*fn)(data); local_irq_restore(flags); return ret; } |
3fc1f1e27 stop_machine: rei... |
565 |
/* Set the initial state and stop all online cpus. */ |
1be0bd77c stop_machine: Int... |
566 567 |
set_state(&msdata, MULTI_STOP_PREPARE); return stop_cpus(cpu_online_mask, multi_cpu_stop, &msdata); |
1da177e4c Linux-2.6.12-rc2 |
568 |
} |
9a301f22f stop_machine: Use... |
569 |
int stop_machine(cpu_stop_fn_t fn, void *data, const struct cpumask *cpus) |
1da177e4c Linux-2.6.12-rc2 |
570 |
{ |
1da177e4c Linux-2.6.12-rc2 |
571 572 573 |
int ret; /* No CPUs can come up or down during this. */ |
86ef5c9a8 cpu-hotplug: repl... |
574 |
get_online_cpus(); |
eeec4fad9 stop_machine(): s... |
575 |
ret = __stop_machine(fn, data, cpus); |
86ef5c9a8 cpu-hotplug: repl... |
576 |
put_online_cpus(); |
1da177e4c Linux-2.6.12-rc2 |
577 578 |
return ret; } |
eeec4fad9 stop_machine(): s... |
579 |
EXPORT_SYMBOL_GPL(stop_machine); |
bbf1bb3ee cpu_stop: add dum... |
580 |
|
f740e6cd0 stop_machine: imp... |
581 582 583 584 585 586 587 588 589 590 591 592 593 594 595 596 597 598 599 600 601 602 |
/** * stop_machine_from_inactive_cpu - stop_machine() from inactive CPU * @fn: the function to run * @data: the data ptr for the @fn() * @cpus: the cpus to run the @fn() on (NULL = any online cpu) * * This is identical to stop_machine() but can be called from a CPU which * is not active. The local CPU is in the process of hotplug (so no other * CPU hotplug can start) and not marked active and doesn't have enough * context to sleep. * * This function provides stop_machine() functionality for such state by * using busy-wait for synchronization and executing @fn directly for local * CPU. * * CONTEXT: * Local CPU is inactive. Temporarily stops all active CPUs. * * RETURNS: * 0 if all executions of @fn returned 0, any non zero return value if any * returned non zero. */ |
9a301f22f stop_machine: Use... |
603 |
int stop_machine_from_inactive_cpu(cpu_stop_fn_t fn, void *data, |
f740e6cd0 stop_machine: imp... |
604 605 |
const struct cpumask *cpus) { |
1be0bd77c stop_machine: Int... |
606 |
struct multi_stop_data msdata = { .fn = fn, .data = data, |
f740e6cd0 stop_machine: imp... |
607 608 609 610 611 612 |
.active_cpus = cpus }; struct cpu_stop_done done; int ret; /* Local CPU must be inactive and CPU hotplug in progress. */ BUG_ON(cpu_active(raw_smp_processor_id())); |
1be0bd77c stop_machine: Int... |
613 |
msdata.num_threads = num_active_cpus() + 1; /* +1 for local */ |
f740e6cd0 stop_machine: imp... |
614 615 616 617 618 619 |
/* No proper task established and can't sleep - busy wait for lock. */ while (!mutex_trylock(&stop_cpus_mutex)) cpu_relax(); /* Schedule work on other CPUs and execute directly for local CPU */ |
1be0bd77c stop_machine: Int... |
620 |
set_state(&msdata, MULTI_STOP_PREPARE); |
f740e6cd0 stop_machine: imp... |
621 |
cpu_stop_init_done(&done, num_active_cpus()); |
1be0bd77c stop_machine: Int... |
622 |
queue_stop_cpus_work(cpu_active_mask, multi_cpu_stop, &msdata, |
f740e6cd0 stop_machine: imp... |
623 |
&done); |
1be0bd77c stop_machine: Int... |
624 |
ret = multi_cpu_stop(&msdata); |
f740e6cd0 stop_machine: imp... |
625 626 627 628 629 630 631 632 |
/* Busy wait for completion. */ while (!completion_done(&done.completion)) cpu_relax(); mutex_unlock(&stop_cpus_mutex); return ret ?: done.ret; } |