зеркало из https://github.com/mozilla/gecko-dev.git
377 строки
14 KiB
C++
377 строки
14 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_recordreplay_Thread_h
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#define mozilla_recordreplay_Thread_h
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#include "mozilla/Atomics.h"
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#include "File.h"
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#include "Lock.h"
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#include "Monitor.h"
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#include <pthread.h>
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#include <setjmp.h>
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namespace mozilla {
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namespace recordreplay {
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// Threads Overview.
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//
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// The main thread and each thread that is spawned when thread events are not
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// passed through have their behavior recorded.
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//
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// While recording, each recorded thread has an associated Thread object which
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// can be fetched with Thread::Current and stores the thread's ID, its file for
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// storing events that occur in the thread, and some other thread local state.
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// Otherwise, threads are spawned and destroyed as usual for the process.
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//
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// While rewinding, the same Thread structure exists for each recorded thread.
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// Several additional changes are needed to facilitate rewinding and IPC:
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//
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// 1. All recorded threads are spawned early on, before any checkpoint has been
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// reached. These threads idle until the process calls the system's thread
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// creation API, and then they run with the start routine the process
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// provided. After the start routine finishes they idle indefinitely,
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// potentially running new start routines if their thread ID is reused. This
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// allows the process to rewind itself without needing to spawn or destroy
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// any threads.
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//
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// 2. Some additional number of threads are spawned for use by the IPC and
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// memory snapshot mechanisms. These have associated Thread
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// structures but are not recorded and always pass through thread events.
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//
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// 3. All recorded threads and must be able to enter a particular blocking
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// state, under Thread::Wait, when requested by the main thread calling
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// WaitForIdleThreads. For most recorded threads this happens when the
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// thread attempts to take a recorded lock and blocks in Lock::Wait.
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// The only exception is for JS helper threads, which never take recorded
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// locks. For these threads, NotifyUnrecordedWait and
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// MaybeWaitForCheckpointSave must be used to enter this state.
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//
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// 4. Once all recorded threads are idle, the main thread is able to record
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// memory snapshots and thread stacks for later rewinding. Additional
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// threads created for #2 above do not idle and do not have their state
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// included in snapshots, but they are designed to avoid interfering with
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// the main thread while it is taking or restoring a checkpoint.
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// The ID used by the process main thread.
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static const size_t MainThreadId = 1;
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// The maximum ID useable by recorded threads.
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static const size_t MaxRecordedThreadId = 70;
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// The maximum number of threads which are not recorded but need a Thread so
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// that they can participate in e.g. Wait/Notify calls.
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static const size_t MaxNumNonRecordedThreads = 12;
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static const size_t MaxThreadId = MaxRecordedThreadId + MaxNumNonRecordedThreads;
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typedef pthread_t NativeThreadId;
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// Information about the execution state of a thread.
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class Thread
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{
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public:
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// Signature for the start function of a thread.
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typedef void (*Callback)(void*);
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private:
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// Monitor used to protect various thread information (see Thread.h) and to
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// wait on or signal progress for a thread.
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static Monitor* gMonitor;
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// Thread ID in the recording, fixed at creation.
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size_t mId;
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// Whether to pass events in the thread through without recording/replaying.
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// This is only used by the associated thread.
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bool mPassThroughEvents;
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// Whether to crash if we try to record/replay thread events. This is only
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// used by the associated thread.
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size_t mDisallowEvents;
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// Whether execution has diverged from the recording and the thread's
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// recorded events cannot be accessed.
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bool mDivergedFromRecording;
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// Whether this thread should diverge from the recording at the next
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// opportunity. This can be set from any thread.
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Atomic<bool, SequentiallyConsistent, Behavior::DontPreserve> mShouldDivergeFromRecording;
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// Start routine and argument which the thread is currently executing. This
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// is cleared after the routine finishes and another start routine may be
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// assigned to the thread. mNeedsJoin specifies whether the thread must be
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// joined before it is completely dead and can be reused. This is protected
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// by the thread monitor.
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Callback mStart;
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void* mStartArg;
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bool mNeedsJoin;
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// ID for this thread used by the system.
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NativeThreadId mNativeId;
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// Stream with events for the thread. This is only used on the thread itself.
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Stream* mEvents;
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// Stack boundary of the thread, protected by the thread monitor.
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uint8_t* mStackBase;
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size_t mStackSize;
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// File descriptor to block on when the thread is idle, fixed at creation.
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FileHandle mIdlefd;
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// File descriptor to notify to wake the thread up, fixed at creation.
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FileHandle mNotifyfd;
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// Whether the thread is waiting on idlefd.
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Atomic<bool, SequentiallyConsistent, Behavior::DontPreserve> mIdle;
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// Any callback which should be invoked so the thread can make progress,
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// and whether the callback has been invoked yet while the main thread is
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// waiting for threads to become idle. Protected by the thread monitor.
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std::function<void()> mUnrecordedWaitCallback;
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bool mUnrecordedWaitOnlyWhenDiverged;
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bool mUnrecordedWaitNotified;
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public:
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///////////////////////////////////////////////////////////////////////////////
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// Public Routines
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///////////////////////////////////////////////////////////////////////////////
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// Accessors for some members that never change.
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size_t Id() { return mId; }
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NativeThreadId NativeId() { return mNativeId; }
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Stream& Events() { return *mEvents; }
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uint8_t* StackBase() { return mStackBase; }
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size_t StackSize() { return mStackSize; }
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inline bool IsMainThread() const { return mId == MainThreadId; }
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inline bool IsRecordedThread() const { return mId <= MaxRecordedThreadId; }
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inline bool IsNonMainRecordedThread() const { return IsRecordedThread() && !IsMainThread(); }
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// Access the flag for whether this thread is passing events through.
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void SetPassThrough(bool aPassThrough) {
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MOZ_RELEASE_ASSERT(mPassThroughEvents == !aPassThrough);
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mPassThroughEvents = aPassThrough;
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}
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bool PassThroughEvents() const {
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return mPassThroughEvents;
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}
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// Access the counter for whether events are disallowed in this thread.
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void BeginDisallowEvents() {
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mDisallowEvents++;
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}
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void EndDisallowEvents() {
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MOZ_RELEASE_ASSERT(mDisallowEvents);
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mDisallowEvents--;
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}
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bool AreEventsDisallowed() const {
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return mDisallowEvents != 0;
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}
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// Access the flag for whether this thread's execution has diverged from the
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// recording. Once set, this is only unset by rewinding to a point where the
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// flag is clear.
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void DivergeFromRecording() {
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mDivergedFromRecording = true;
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}
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bool HasDivergedFromRecording() const {
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return mDivergedFromRecording;
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}
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// Mark this thread as needing to diverge from the recording soon, and wake
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// it up in case it can make progress now. The mShouldDivergeFromRecording
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// flag is separate from mDivergedFromRecording so that the thread can only
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// begin diverging from the recording at calls to MaybeDivergeFromRecording.
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void SetShouldDivergeFromRecording() {
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MOZ_RELEASE_ASSERT(CurrentIsMainThread());
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mShouldDivergeFromRecording = true;
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Notify(mId);
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}
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bool WillDivergeFromRecordingSoon() {
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MOZ_RELEASE_ASSERT(CurrentIsMainThread());
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return mShouldDivergeFromRecording;
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}
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bool MaybeDivergeFromRecording() {
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if (mShouldDivergeFromRecording) {
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mDivergedFromRecording = true;
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}
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return mDivergedFromRecording;
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}
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// Return whether this thread may read or write to its recorded event stream.
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bool CanAccessRecording() const {
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return !PassThroughEvents() && !AreEventsDisallowed() && !HasDivergedFromRecording();
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}
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// The actual start routine at the root of all recorded threads, and of all
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// threads when replaying.
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static void ThreadMain(void* aArgument);
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// Bind this Thread to the current system thread, setting Thread::Current()
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// and some other basic state.
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void BindToCurrent();
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// Initialize thread state.
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static void InitializeThreads();
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// Get the current thread, or null if this is a system thread.
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static Thread* Current();
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// Helper to test if this is the process main thread.
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static bool CurrentIsMainThread();
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// Lookup a Thread by various methods.
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static Thread* GetById(size_t aId);
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static Thread* GetByNativeId(NativeThreadId aNativeId);
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static Thread* GetByStackPointer(void* aSp);
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// Spawn all non-main recorded threads used for recording/replaying.
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static void SpawnAllThreads();
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// Spawn the specified thread.
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static void SpawnThread(Thread* aThread);
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// Spawn a non-recorded thread with the specified start routine/argument.
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static Thread* SpawnNonRecordedThread(Callback aStart, void* aArgument);
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// Wait until a thread has initialized its stack and other state.
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static void WaitUntilInitialized(Thread* aThread);
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// Start an existing thread, for use when the process has called a thread
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// creation system API when events were not passed through. The return value
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// is the native ID of the result.
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static NativeThreadId StartThread(Callback aStart, void* aArgument, bool aNeedsJoin);
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// Wait until this thread finishes executing its start routine.
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void Join();
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///////////////////////////////////////////////////////////////////////////////
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// Thread Coordination
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///////////////////////////////////////////////////////////////////////////////
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// Basic API for threads to coordinate activity with each other, for use
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// during replay. Each Notify() on a thread ID will cause that thread to
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// return from one call to Wait(). Thus, if a thread Wait()'s and then
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// another thread Notify()'s its ID, the first thread will wake up afterward.
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// Similarly, if a thread Notify()'s another thread which is not waiting,
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// that second thread will return from its next Wait() without needing
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// another Notify().
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//
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// If the main thread has called WaitForIdleThreads, then calling
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// Wait() will put this thread in the desired idle state. WaitNoIdle() will
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// never cause the thread to enter the idle state, and should be used
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// carefully to avoid deadlocks with the main thread.
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static void Wait();
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static void WaitNoIdle();
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static void Notify(size_t aId);
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// Wait indefinitely, until the process is rewound.
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static void WaitForever();
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// Wait indefinitely, without allowing this thread to be rewound.
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static void WaitForeverNoIdle();
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// See RecordReplay.h.
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void NotifyUnrecordedWait(const std::function<void()>& aCallback,
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bool aOnlyWhenDiverged);
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static void MaybeWaitForCheckpointSave();
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// Wait for all other threads to enter the idle state necessary for saving
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// or restoring a checkpoint. This may only be called on the main thread.
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static void WaitForIdleThreads();
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// After WaitForIdleThreads(), the main thread will call this to allow
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// other threads to resume execution.
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static void ResumeIdleThreads();
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};
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// This uses a stack pointer instead of TLS to make sure events are passed
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// through, for avoiding thorny reentrance issues.
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class AutoEnsurePassThroughThreadEventsUseStackPointer
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{
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Thread* mThread;
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bool mPassedThrough;
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public:
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AutoEnsurePassThroughThreadEventsUseStackPointer()
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: mThread(Thread::GetByStackPointer(this))
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, mPassedThrough(!mThread || mThread->PassThroughEvents())
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{
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if (!mPassedThrough) {
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mThread->SetPassThrough(true);
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}
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}
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~AutoEnsurePassThroughThreadEventsUseStackPointer()
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{
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if (!mPassedThrough) {
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mThread->SetPassThrough(false);
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}
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}
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};
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// Mark a region of code where a thread's event stream can be accessed.
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// This class has several properties:
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//
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// - When recording, all writes to the thread's event stream occur atomically
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// within the class: the end of the stream cannot be hit at an intermediate
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// point.
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//
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// - When replaying, this checks for the end of the stream, and blocks the
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// thread if necessary.
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//
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// - When replaying, this is a point where the thread can begin diverging from
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// the recording. Checks for divergence should occur after the constructor
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// finishes.
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class MOZ_RAII RecordingEventSection
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{
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Thread* mThread;
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public:
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explicit RecordingEventSection(Thread* aThread)
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: mThread(aThread)
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{
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if (!aThread || !aThread->CanAccessRecording()) {
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return;
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}
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if (IsRecording()) {
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MOZ_RELEASE_ASSERT(!aThread->Events().mInRecordingEventSection);
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aThread->Events().mFile->mStreamLock.ReadLock();
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aThread->Events().mInRecordingEventSection = true;
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} else {
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while (!aThread->MaybeDivergeFromRecording() && aThread->Events().AtEnd()) {
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HitEndOfRecording();
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}
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}
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}
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~RecordingEventSection() {
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if (!mThread || !mThread->CanAccessRecording()) {
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return;
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}
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if (IsRecording()) {
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mThread->Events().mFile->mStreamLock.ReadUnlock();
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mThread->Events().mInRecordingEventSection = false;
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}
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}
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bool CanAccessEvents() {
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if (!mThread || mThread->PassThroughEvents() || mThread->HasDivergedFromRecording()) {
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return false;
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}
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MOZ_RELEASE_ASSERT(mThread->CanAccessRecording());
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return true;
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}
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};
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} // namespace recordreplay
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} // namespace mozilla
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#endif // mozilla_recordreplay_Thread_h
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