2013-11-22 11:17:29 -08:00
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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
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2014-06-30 08:39:45 -07:00
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/* vim: set ts=8 sts=2 et sw=2 tw=80: */
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2013-11-22 11:17:29 -08:00
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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_BackgroundHangMonitor_h
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#define mozilla_BackgroundHangMonitor_h
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#include "mozilla/RefPtr.h"
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#include "mozilla/Monitor.h"
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#include <stdint.h>
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namespace mozilla {
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2013-11-22 11:17:31 -08:00
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namespace Telemetry {
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class ThreadHangStats;
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};
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2014-03-13 09:17:42 -07:00
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// Disabled for Beta/Release builds because of bug 965392.
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// Disabled for debug builds because of bug 979069.
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#if !defined(RELEASE_BUILD) && !defined(DEBUG)
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// Undefine to disable background hang monitor
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#define MOZ_ENABLE_BACKGROUND_HANG_MONITOR
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#endif
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2013-11-22 11:17:29 -08:00
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class BackgroundHangThread;
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/**
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* The background hang monitor is responsible for detecting and reporting
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* hangs in background (non-main) threads. A thread registers itself using
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* the BackgroundHangMonitor object and periodically calls its methods to
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* inform the hang monitor of the thread's activity. Each thread is given
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* a thread name, a timeout, and a maximum timeout. If one of the thread's
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* tasks runs for longer than the timeout duration but shorter than the
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* maximum timeout, a (transient) hang is reported. On the other hand, if
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* a task runs for longer than the maximum timeout duration or never
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* finishes (e.g. in a deadlock), a permahang is reported.
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*
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* Tasks are defined arbitrarily, but are typically represented by events
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* in an event loop -- processing one event is equivalent to running one
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* task. To ensure responsiveness, tasks in a thread often have a target
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* running time. This is a good starting point for determining the timeout
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* and maximum timeout values. For example, the Compositor thread has a
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* responsiveness goal of 60Hz or 17ms, so a starting timeout could be
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* 100ms. Considering some platforms (e.g. Android) can terminate the app
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* when a critical thread hangs for longer than a few seconds, a good
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* starting maximum timeout is 4 or 5 seconds.
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*
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* A thread registers itself through the BackgroundHangMonitor constructor.
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* Multiple BackgroundHangMonitor objects can be used in one thread. The
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* constructor without arguments can be used when it is known that the thread
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* already has a BackgroundHangMonitor registered. When all instances of
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* BackgroundHangMonitor are destroyed, the thread is unregistered.
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*
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* The thread then uses two methods to inform BackgroundHangMonitor of the
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* thread's activity:
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*
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* > BackgroundHangMonitor::NotifyActivity should be called *before*
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* starting a task. The task run time is determined by the interval
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* between this call and the next NotifyActivity call.
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*
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* > BackgroundHangMonitor::NotifyWait should be called *before* the
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* thread enters a wait state (e.g. to wait for a new event). This
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* prevents a waiting thread from being detected as hanging. The wait
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* state is automatically cleared at the next NotifyActivity call.
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*
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* The following example shows hang monitoring in a simple event loop:
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*
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* void thread_main()
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* {
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* mozilla::BackgroundHangMonitor hangMonitor("example1", 100, 1000);
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* while (!exiting) {
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* hangMonitor.NotifyActivity();
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* process_next_event();
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* hangMonitor.NotifyWait();
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* wait_for_next_event();
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* }
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* }
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*
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* The following example shows reentrancy in nested event loops:
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*
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* void thread_main()
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* {
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* mozilla::BackgroundHangMonitor hangMonitor("example2", 100, 1000);
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* while (!exiting) {
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* hangMonitor.NotifyActivity();
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* process_next_event();
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* hangMonitor.NotifyWait();
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* wait_for_next_event();
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* }
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* }
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*
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* void process_next_event()
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* {
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* mozilla::BackgroundHangMonitor hangMonitor();
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* if (is_sync_event) {
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* while (!finished_event) {
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* hangMonitor.NotifyActivity();
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* process_next_event();
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* hangMonitor.NotifyWait();
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* wait_for_next_event();
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* }
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* } else {
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* process_nonsync_event();
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* }
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* }
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*
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* Prohibit() and Allow() make the background hang monitor work safely
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* before Startup().
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*/
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class BackgroundHangMonitor
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{
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private:
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RefPtr<BackgroundHangThread> mThread;
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public:
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static const uint32_t kNoTimeout = 0;
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2013-11-22 11:17:31 -08:00
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/**
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* ThreadHangStatsIterator is used to iterate through the ThreadHangStats
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* associated with each active monitored thread. Because of an internal
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* lock while this object is alive, a thread must use only one instance
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* of this class at a time and must iterate through the list as fast as
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* possible. The following example shows using the iterator:
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*
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* {
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* // Scope the iter variable so it's destroyed as soon as we're done
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* BackgroundHangMonitor::ThreadHangStatsIterator iter;
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* for (ThreadHangStats* histogram = iter.GetNext();
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* histogram; histogram = iter.GetNext()) {
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* // Process histogram
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* }
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* }
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*/
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class ThreadHangStatsIterator : public MonitorAutoLock
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{
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private:
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BackgroundHangThread* mThread;
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ThreadHangStatsIterator(const ThreadHangStatsIterator&);
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ThreadHangStatsIterator& operator=(const ThreadHangStatsIterator&);
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public:
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/**
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* Create an ThreadHangStatsIterator instance and take the internal lock.
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* Internal lock is released on destruction.
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*/
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ThreadHangStatsIterator();
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/**
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* Get the next item in the list; the first call returns the first item.
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* Returns nullptr at the end of the list.
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*/
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Telemetry::ThreadHangStats* GetNext();
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};
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2013-11-22 11:17:29 -08:00
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/**
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* Enable hang monitoring.
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* Must return before using BackgroundHangMonitor.
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*/
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static void Startup();
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/**
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* Disable hang monitoring.
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* Can be called without destroying all BackgroundHangMonitors first.
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*/
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static void Shutdown();
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/**
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* Start monitoring hangs for the current thread.
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*
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* @param aName Name to identify the thread with
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* @param aTimeoutMs Amount of time in milliseconds without
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* activity before registering a hang
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* @param aMaxTimeoutMs Amount of time in milliseconds without
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* activity before registering a permanent hang
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*/
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BackgroundHangMonitor(const char* aName,
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uint32_t aTimeoutMs,
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uint32_t aMaxTimeoutMs);
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/**
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* Monitor hangs using an existing monitor
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* associated with the current thread.
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*/
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BackgroundHangMonitor();
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/**
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* Destroys the hang monitor; hang monitoring for a thread stops
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* when all monitors associated with the thread are destroyed.
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*/
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~BackgroundHangMonitor();
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/**
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* Notify the hang monitor of pending current thread activity.
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* Call this method before starting an "activity" or after
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* exiting from a wait state.
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*/
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void NotifyActivity();
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/**
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* Notify the hang monitor of current thread wait.
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* Call this method before entering a wait state; call
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* NotifyActivity when subsequently exiting the wait state.
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*/
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void NotifyWait();
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/**
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* Prohibit the hang monitor from activating.
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*
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* Startup() should not be called between Prohibit() and Allow().
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* This function makes the background hang monitor stop monitoring
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* threads.
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*
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* Prohibit() and Allow() can be called before XPCOM is ready. If
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* we don't stop monitoring threads it could case errors.
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*/
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static void Prohibit();
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/**
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* Allow the hang monitor to run.
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*
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* Allow() and Prohibit() should be called in pair.
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*
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* \see Prohibit()
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*/
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static void Allow();
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};
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} // namespace mozilla
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#endif // mozilla_BackgroundHangMonitor_h
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