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e788be95a5
Some use cases don't always need an IPI when sending a TWA_SIGNAL notification. Add TWA_SIGNAL_NO_IPI, which is just like TWA_SIGNAL, except it doesn't send an IPI to the target task. It merely sets TIF_NOTIFY_SIGNAL and wakes up the task. This can be useful in avoiding a forceful transition to the kernel if the task is running in userspace. Depending on the task_work in question, it may be quite fine waiting for the next reschedule or kernel enter anyway, or the use case may even have other mechanisms for hinting to the task that a transition may be useful. This can drive more cooperative scheduling of task_work. Reviewed-by: Pavel Begunkov <asml.silence@gmail.com> Link: https://lore.kernel.org/r/821f42b6-7d91-8074-8212-d34998097de4@kernel.dk Signed-off-by: Jens Axboe <axboe@kernel.dk>
183 lines
5.0 KiB
C
183 lines
5.0 KiB
C
// SPDX-License-Identifier: GPL-2.0
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#include <linux/spinlock.h>
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#include <linux/task_work.h>
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#include <linux/resume_user_mode.h>
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static struct callback_head work_exited; /* all we need is ->next == NULL */
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/**
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* task_work_add - ask the @task to execute @work->func()
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* @task: the task which should run the callback
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* @work: the callback to run
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* @notify: how to notify the targeted task
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*
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* Queue @work for task_work_run() below and notify the @task if @notify
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* is @TWA_RESUME, @TWA_SIGNAL, or @TWA_SIGNAL_NO_IPI.
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*
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* @TWA_SIGNAL works like signals, in that the it will interrupt the targeted
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* task and run the task_work, regardless of whether the task is currently
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* running in the kernel or userspace.
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* @TWA_SIGNAL_NO_IPI works like @TWA_SIGNAL, except it doesn't send a
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* reschedule IPI to force the targeted task to reschedule and run task_work.
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* This can be advantageous if there's no strict requirement that the
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* task_work be run as soon as possible, just whenever the task enters the
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* kernel anyway.
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* @TWA_RESUME work is run only when the task exits the kernel and returns to
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* user mode, or before entering guest mode.
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*
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* Fails if the @task is exiting/exited and thus it can't process this @work.
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* Otherwise @work->func() will be called when the @task goes through one of
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* the aforementioned transitions, or exits.
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*
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* If the targeted task is exiting, then an error is returned and the work item
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* is not queued. It's up to the caller to arrange for an alternative mechanism
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* in that case.
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*
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* Note: there is no ordering guarantee on works queued here. The task_work
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* list is LIFO.
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*
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* RETURNS:
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* 0 if succeeds or -ESRCH.
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*/
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int task_work_add(struct task_struct *task, struct callback_head *work,
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enum task_work_notify_mode notify)
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{
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struct callback_head *head;
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/* record the work call stack in order to print it in KASAN reports */
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kasan_record_aux_stack(work);
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do {
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head = READ_ONCE(task->task_works);
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if (unlikely(head == &work_exited))
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return -ESRCH;
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work->next = head;
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} while (cmpxchg(&task->task_works, head, work) != head);
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switch (notify) {
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case TWA_NONE:
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break;
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case TWA_RESUME:
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set_notify_resume(task);
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break;
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case TWA_SIGNAL:
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set_notify_signal(task);
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break;
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case TWA_SIGNAL_NO_IPI:
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__set_notify_signal(task);
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break;
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default:
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WARN_ON_ONCE(1);
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break;
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}
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return 0;
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}
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/**
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* task_work_cancel_match - cancel a pending work added by task_work_add()
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* @task: the task which should execute the work
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* @match: match function to call
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*
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* RETURNS:
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* The found work or NULL if not found.
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*/
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struct callback_head *
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task_work_cancel_match(struct task_struct *task,
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bool (*match)(struct callback_head *, void *data),
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void *data)
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{
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struct callback_head **pprev = &task->task_works;
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struct callback_head *work;
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unsigned long flags;
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if (likely(!task_work_pending(task)))
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return NULL;
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/*
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* If cmpxchg() fails we continue without updating pprev.
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* Either we raced with task_work_add() which added the
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* new entry before this work, we will find it again. Or
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* we raced with task_work_run(), *pprev == NULL/exited.
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*/
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raw_spin_lock_irqsave(&task->pi_lock, flags);
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while ((work = READ_ONCE(*pprev))) {
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if (!match(work, data))
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pprev = &work->next;
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else if (cmpxchg(pprev, work, work->next) == work)
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break;
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}
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raw_spin_unlock_irqrestore(&task->pi_lock, flags);
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return work;
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}
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static bool task_work_func_match(struct callback_head *cb, void *data)
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{
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return cb->func == data;
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}
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/**
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* task_work_cancel - cancel a pending work added by task_work_add()
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* @task: the task which should execute the work
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* @func: identifies the work to remove
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*
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* Find the last queued pending work with ->func == @func and remove
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* it from queue.
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*
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* RETURNS:
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* The found work or NULL if not found.
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*/
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struct callback_head *
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task_work_cancel(struct task_struct *task, task_work_func_t func)
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{
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return task_work_cancel_match(task, task_work_func_match, func);
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}
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/**
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* task_work_run - execute the works added by task_work_add()
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*
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* Flush the pending works. Should be used by the core kernel code.
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* Called before the task returns to the user-mode or stops, or when
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* it exits. In the latter case task_work_add() can no longer add the
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* new work after task_work_run() returns.
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*/
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void task_work_run(void)
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{
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struct task_struct *task = current;
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struct callback_head *work, *head, *next;
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for (;;) {
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/*
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* work->func() can do task_work_add(), do not set
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* work_exited unless the list is empty.
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*/
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do {
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head = NULL;
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work = READ_ONCE(task->task_works);
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if (!work) {
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if (task->flags & PF_EXITING)
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head = &work_exited;
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else
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break;
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}
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} while (cmpxchg(&task->task_works, work, head) != work);
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if (!work)
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break;
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/*
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* Synchronize with task_work_cancel(). It can not remove
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* the first entry == work, cmpxchg(task_works) must fail.
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* But it can remove another entry from the ->next list.
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*/
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raw_spin_lock_irq(&task->pi_lock);
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raw_spin_unlock_irq(&task->pi_lock);
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do {
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next = work->next;
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work->func(work);
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work = next;
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cond_resched();
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} while (work);
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}
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}
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