mirror of
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8032d4373e
Differential Revision: https://phabricator.services.mozilla.com/D74672
195 lines
7.5 KiB
C++
195 lines
7.5 KiB
C++
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
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/* vim: set ts=8 sts=2 et sw=2 tw=80: */
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#ifndef mozilla_IdlePeriodState_h
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#define mozilla_IdlePeriodState_h
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/**
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* A class for tracking the state of our idle period. This includes keeping
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* track of both the state of our process-local idle period estimate and, for
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* content processes, managing communication with the parent process for
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* cross-pprocess idle detection.
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*/
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#include "mozilla/MemoryReporting.h"
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#include "mozilla/Mutex.h"
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#include "mozilla/RefPtr.h"
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#include "mozilla/TimeStamp.h"
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#include "nsCOMPtr.h"
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#include <stdint.h>
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class nsIIdlePeriod;
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namespace mozilla {
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class TaskManager;
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namespace ipc {
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class IdleSchedulerChild;
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} // namespace ipc
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class IdlePeriodState {
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public:
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explicit IdlePeriodState(already_AddRefed<nsIIdlePeriod>&& aIdlePeriod);
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~IdlePeriodState();
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// Integration with memory reporting.
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size_t SizeOfExcludingThis(MallocSizeOf aMallocSizeOf) const;
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// Notification that whoever we are tracking idle state for has found a
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// non-idle task to process.
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//
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// Must not be called while holding any locks.
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void FlagNotIdle();
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// Notification that whoever we are tracking idle state for has no more
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// tasks (idle or not) to process.
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//
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// aProofOfUnlock is the proof that our caller unlocked its mutex.
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void RanOutOfTasks(const MutexAutoUnlock& aProofOfUnlock);
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// Notification that whoever we are tracking idle state has idle tasks that
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// they are considering ready to run and that we should keep claiming they are
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// ready to run until they call ForgetPendingTaskGuarantee().
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void EnforcePendingTaskGuarantee() {
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mHasPendingEventsPromisedIdleEvent = true;
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}
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// Notification that whoever we are tracking idle state for is done with our
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// "we have an idle event ready to run" guarantee. When this happens, we can
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// reset mHasPendingEventsPromisedIdleEvent to false, because we have
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// fulfilled our contract.
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void ForgetPendingTaskGuarantee() {
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mHasPendingEventsPromisedIdleEvent = false;
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}
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// Update our cached idle deadline so consumers can use it while holding
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// locks. Consumers must ClearCachedIdleDeadline() once they are done.
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void UpdateCachedIdleDeadline(const MutexAutoUnlock& aProofOfUnlock) {
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mCachedIdleDeadline = GetIdleDeadlineInternal(false, aProofOfUnlock);
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}
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// Reset our cached idle deadline, so we stop allowing idle runnables to run.
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void ClearCachedIdleDeadline() { mCachedIdleDeadline = TimeStamp(); }
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// Get the current cached idle deadline. This may return a null timestamp.
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TimeStamp GetCachedIdleDeadline() { return mCachedIdleDeadline; }
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// Peek our current idle deadline into mCachedIdleDeadline. This can cause
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// mCachedIdleDeadline to be a null timestamp (which means we are not idle
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// right now). This method does not have any side-effects on our state, apart
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// from guaranteeing that if it returns non-null then GetDeadlineForIdleTask
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// will return non-null until ForgetPendingTaskGuarantee() is called, and its
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// effects on mCachedIdleDeadline.
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//
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// aProofOfUnlock is the proof that our caller unlocked its mutex.
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void CachePeekedIdleDeadline(const MutexAutoUnlock& aProofOfUnlock) {
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mCachedIdleDeadline = GetIdleDeadlineInternal(true, aProofOfUnlock);
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}
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void SetIdleToken(uint64_t aId, TimeDuration aDuration);
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bool IsActive() { return mActive; }
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protected:
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void EnsureIsActive() {
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if (!mActive) {
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SetActive();
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}
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}
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void EnsureIsPaused(const MutexAutoUnlock& aProofOfUnlock) {
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if (mActive) {
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SetPaused(aProofOfUnlock);
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}
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}
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// Returns a null TimeStamp if we're not in the idle period.
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TimeStamp GetLocalIdleDeadline(bool& aShuttingDown,
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const MutexAutoUnlock& aProofOfUnlock);
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// Gets the idle token, which is the end time of the idle period.
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//
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// aProofOfUnlock is the proof that our caller unlocked its mutex.
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TimeStamp GetIdleToken(TimeStamp aLocalIdlePeriodHint,
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const MutexAutoUnlock& aProofOfUnlock);
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// In case of child processes, requests idle time from the cross-process
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// idle scheduler.
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void RequestIdleToken(TimeStamp aLocalIdlePeriodHint);
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// Mark that we don't have idle time to use, nor are expecting to get an idle
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// token from the idle scheduler. This must be called while not holding any
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// locks, but some of the callers aren't holding locks to start with, so
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// consumers just need to make sure they are not holding locks when they call
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// this.
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void ClearIdleToken();
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// SetActive should be called when the event queue is running any type of
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// tasks.
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void SetActive();
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// SetPaused should be called once the event queue doesn't have more
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// tasks to process, or is waiting for the idle token.
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//
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// aProofOfUnlock is the proof that our caller unlocked its mutex.
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void SetPaused(const MutexAutoUnlock& aProofOfUnlock);
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// Get or peek our idle deadline. When peeking, we generally don't change any
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// of our internal state. When getting, we may request an idle token as
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// needed.
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//
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// aProofOfUnlock is the proof that our caller unlocked its mutex.
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TimeStamp GetIdleDeadlineInternal(bool aIsPeek,
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const MutexAutoUnlock& aProofOfUnlock);
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// Whether we should be getting an idle token (i.e. are a content process
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// and are using cross process idle scheduling).
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bool ShouldGetIdleToken();
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// Set to true if we have claimed we have a ready-to-run idle task when asked.
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// In that case, we will ensure that we allow at least one task to run when
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// someone tries to run a task, even if we have run out of idle period at that
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// point. This ensures that we never fail to produce a task to run if we
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// claim we have a task ready to run.
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bool mHasPendingEventsPromisedIdleEvent = false;
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// mIdlePeriod keeps track of the current idle period. Calling
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// mIdlePeriod->GetIdlePeriodHint() will give an estimate of when
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// the current idle period will end.
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nsCOMPtr<nsIIdlePeriod> mIdlePeriod;
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// If non-null, this timestamp represents the end time of the idle period. An
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// idle period starts when we get the idle token from the parent process and
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// ends when either there are no more things we want to run at idle priority
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// or mIdleToken < TimeStamp::Now(), so we have reached our idle deadline.
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TimeStamp mIdleToken;
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// The id of the last idle request to the cross-process idle scheduler.
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uint64_t mIdleRequestId = 0;
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// If we're in a content process, we use mIdleScheduler to communicate with
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// the parent process for purposes of cross-process idle tracking.
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RefPtr<ipc::IdleSchedulerChild> mIdleScheduler;
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// Our cached idle deadline. This is set by UpdateCachedIdleDeadline() and
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// cleared by ClearCachedIdleDeadline(). Consumers should do the former while
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// not holding any locks, but may do the latter while holding locks.
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TimeStamp mCachedIdleDeadline;
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// mIdleSchedulerInitialized is true if our mIdleScheduler has been
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// initialized. It may be null even after initialiazation, in various
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// situations.
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bool mIdleSchedulerInitialized = false;
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// mActive is true when the PrioritizedEventQueue or TaskController we are
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// associated with is running tasks.
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bool mActive = true;
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};
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} // namespace mozilla
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#endif // mozilla_IdlePeriodState_h
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