зеркало из https://github.com/mozilla/gecko-dev.git
525 строки
16 KiB
C++
525 строки
16 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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#include <algorithm>
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#include <vector>
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#include "IOInterposer.h"
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#include "IOInterposerPrivate.h"
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#include "MainThreadIOLogger.h"
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#include "mozilla/Atomics.h"
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#include "mozilla/Mutex.h"
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#include "mozilla/RefPtr.h"
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#include "mozilla/StaticPtr.h"
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#include "mozilla/ThreadLocal.h"
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#include "nscore.h" // for NS_FREE_PERMANENT_DATA
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#if !defined(XP_WIN)
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# include "NSPRInterposer.h"
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#endif // !defined(XP_WIN)
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#include "nsXULAppAPI.h"
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#include "PoisonIOInterposer.h"
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#include "prenv.h"
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using namespace mozilla;
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namespace {
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/** Find if a vector contains a specific element */
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template <class T>
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bool VectorContains(const std::vector<T>& aVector, const T& aElement) {
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return std::find(aVector.begin(), aVector.end(), aElement) != aVector.end();
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}
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/** Remove element from a vector */
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template <class T>
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void VectorRemove(std::vector<T>& aVector, const T& aElement) {
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typename std::vector<T>::iterator newEnd =
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std::remove(aVector.begin(), aVector.end(), aElement);
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aVector.erase(newEnd, aVector.end());
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}
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/** Lists of Observers */
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struct ObserverLists {
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private:
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~ObserverLists() {}
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public:
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NS_INLINE_DECL_THREADSAFE_REFCOUNTING(ObserverLists)
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ObserverLists() {}
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ObserverLists(ObserverLists const& aOther)
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: mCreateObservers(aOther.mCreateObservers),
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mReadObservers(aOther.mReadObservers),
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mWriteObservers(aOther.mWriteObservers),
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mFSyncObservers(aOther.mFSyncObservers),
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mStatObservers(aOther.mStatObservers),
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mCloseObservers(aOther.mCloseObservers),
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mStageObservers(aOther.mStageObservers) {}
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// Lists of observers for I/O events.
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// These are implemented as vectors since they are allowed to survive gecko,
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// without reporting leaks. This is necessary for the IOInterposer to be used
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// for late-write checks.
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std::vector<IOInterposeObserver*> mCreateObservers;
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std::vector<IOInterposeObserver*> mReadObservers;
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std::vector<IOInterposeObserver*> mWriteObservers;
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std::vector<IOInterposeObserver*> mFSyncObservers;
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std::vector<IOInterposeObserver*> mStatObservers;
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std::vector<IOInterposeObserver*> mCloseObservers;
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std::vector<IOInterposeObserver*> mStageObservers;
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};
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class PerThreadData {
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public:
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explicit PerThreadData(bool aIsMainThread = false)
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: mIsMainThread(aIsMainThread),
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mIsHandlingObservation(false),
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mCurrentGeneration(0) {
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MOZ_COUNT_CTOR(PerThreadData);
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}
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~PerThreadData() { MOZ_COUNT_DTOR(PerThreadData); }
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void CallObservers(IOInterposeObserver::Observation& aObservation) {
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// Prevent recursive reporting.
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if (mIsHandlingObservation) {
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return;
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}
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mIsHandlingObservation = true;
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// Decide which list of observers to inform
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std::vector<IOInterposeObserver*>* observers = nullptr;
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switch (aObservation.ObservedOperation()) {
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case IOInterposeObserver::OpCreateOrOpen:
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observers = &mObserverLists->mCreateObservers;
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break;
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case IOInterposeObserver::OpRead:
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observers = &mObserverLists->mReadObservers;
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break;
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case IOInterposeObserver::OpWrite:
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observers = &mObserverLists->mWriteObservers;
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break;
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case IOInterposeObserver::OpFSync:
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observers = &mObserverLists->mFSyncObservers;
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break;
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case IOInterposeObserver::OpStat:
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observers = &mObserverLists->mStatObservers;
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break;
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case IOInterposeObserver::OpClose:
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observers = &mObserverLists->mCloseObservers;
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break;
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case IOInterposeObserver::OpNextStage:
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observers = &mObserverLists->mStageObservers;
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break;
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default: {
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// Invalid IO operation, see documentation comment for
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// IOInterposer::Report()
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MOZ_ASSERT(false);
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// Just ignore it in non-debug builds.
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return;
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}
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}
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MOZ_ASSERT(observers);
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// Inform observers
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for (auto i = observers->begin(), e = observers->end(); i != e; ++i) {
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(*i)->Observe(aObservation);
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}
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mIsHandlingObservation = false;
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}
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inline uint32_t GetCurrentGeneration() const { return mCurrentGeneration; }
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inline bool IsMainThread() const { return mIsMainThread; }
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inline void SetObserverLists(uint32_t aNewGeneration,
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RefPtr<ObserverLists>& aNewLists) {
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mCurrentGeneration = aNewGeneration;
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mObserverLists = aNewLists;
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}
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inline void ClearObserverLists() {
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if (mObserverLists) {
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mCurrentGeneration = 0;
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mObserverLists = nullptr;
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}
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}
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private:
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bool mIsMainThread;
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bool mIsHandlingObservation;
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uint32_t mCurrentGeneration;
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RefPtr<ObserverLists> mObserverLists;
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};
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class MasterList {
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public:
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MasterList()
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: mObservedOperations(IOInterposeObserver::OpNone), mIsEnabled(true) {
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MOZ_COUNT_CTOR(MasterList);
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}
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~MasterList() { MOZ_COUNT_DTOR(MasterList); }
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inline void Disable() { mIsEnabled = false; }
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inline void Enable() { mIsEnabled = true; }
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void Register(IOInterposeObserver::Operation aOp,
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IOInterposeObserver* aObserver) {
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IOInterposer::AutoLock lock(mLock);
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ObserverLists* newLists = nullptr;
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if (mObserverLists) {
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newLists = new ObserverLists(*mObserverLists);
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} else {
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newLists = new ObserverLists();
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}
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// You can register to observe multiple types of observations
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// but you'll never be registered twice for the same observations.
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if (aOp & IOInterposeObserver::OpCreateOrOpen &&
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!VectorContains(newLists->mCreateObservers, aObserver)) {
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newLists->mCreateObservers.push_back(aObserver);
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}
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if (aOp & IOInterposeObserver::OpRead &&
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!VectorContains(newLists->mReadObservers, aObserver)) {
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newLists->mReadObservers.push_back(aObserver);
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}
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if (aOp & IOInterposeObserver::OpWrite &&
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!VectorContains(newLists->mWriteObservers, aObserver)) {
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newLists->mWriteObservers.push_back(aObserver);
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}
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if (aOp & IOInterposeObserver::OpFSync &&
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!VectorContains(newLists->mFSyncObservers, aObserver)) {
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newLists->mFSyncObservers.push_back(aObserver);
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}
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if (aOp & IOInterposeObserver::OpStat &&
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!VectorContains(newLists->mStatObservers, aObserver)) {
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newLists->mStatObservers.push_back(aObserver);
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}
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if (aOp & IOInterposeObserver::OpClose &&
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!VectorContains(newLists->mCloseObservers, aObserver)) {
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newLists->mCloseObservers.push_back(aObserver);
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}
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if (aOp & IOInterposeObserver::OpNextStage &&
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!VectorContains(newLists->mStageObservers, aObserver)) {
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newLists->mStageObservers.push_back(aObserver);
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}
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mObserverLists = newLists;
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mObservedOperations =
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(IOInterposeObserver::Operation)(mObservedOperations | aOp);
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mCurrentGeneration++;
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}
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void Unregister(IOInterposeObserver::Operation aOp,
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IOInterposeObserver* aObserver) {
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IOInterposer::AutoLock lock(mLock);
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ObserverLists* newLists = nullptr;
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if (mObserverLists) {
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newLists = new ObserverLists(*mObserverLists);
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} else {
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newLists = new ObserverLists();
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}
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if (aOp & IOInterposeObserver::OpCreateOrOpen) {
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VectorRemove(newLists->mCreateObservers, aObserver);
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if (newLists->mCreateObservers.empty()) {
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mObservedOperations = (IOInterposeObserver::Operation)(
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mObservedOperations & ~IOInterposeObserver::OpCreateOrOpen);
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}
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}
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if (aOp & IOInterposeObserver::OpRead) {
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VectorRemove(newLists->mReadObservers, aObserver);
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if (newLists->mReadObservers.empty()) {
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mObservedOperations = (IOInterposeObserver::Operation)(
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mObservedOperations & ~IOInterposeObserver::OpRead);
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}
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}
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if (aOp & IOInterposeObserver::OpWrite) {
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VectorRemove(newLists->mWriteObservers, aObserver);
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if (newLists->mWriteObservers.empty()) {
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mObservedOperations = (IOInterposeObserver::Operation)(
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mObservedOperations & ~IOInterposeObserver::OpWrite);
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}
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}
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if (aOp & IOInterposeObserver::OpFSync) {
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VectorRemove(newLists->mFSyncObservers, aObserver);
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if (newLists->mFSyncObservers.empty()) {
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mObservedOperations = (IOInterposeObserver::Operation)(
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mObservedOperations & ~IOInterposeObserver::OpFSync);
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}
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}
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if (aOp & IOInterposeObserver::OpStat) {
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VectorRemove(newLists->mStatObservers, aObserver);
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if (newLists->mStatObservers.empty()) {
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mObservedOperations = (IOInterposeObserver::Operation)(
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mObservedOperations & ~IOInterposeObserver::OpStat);
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}
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}
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if (aOp & IOInterposeObserver::OpClose) {
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VectorRemove(newLists->mCloseObservers, aObserver);
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if (newLists->mCloseObservers.empty()) {
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mObservedOperations = (IOInterposeObserver::Operation)(
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mObservedOperations & ~IOInterposeObserver::OpClose);
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}
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}
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if (aOp & IOInterposeObserver::OpNextStage) {
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VectorRemove(newLists->mStageObservers, aObserver);
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if (newLists->mStageObservers.empty()) {
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mObservedOperations = (IOInterposeObserver::Operation)(
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mObservedOperations & ~IOInterposeObserver::OpNextStage);
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}
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}
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mObserverLists = newLists;
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mCurrentGeneration++;
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}
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void Update(PerThreadData& aPtd) {
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if (mCurrentGeneration == aPtd.GetCurrentGeneration()) {
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return;
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}
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// If the generation counts don't match then we need to update the current
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// thread's observer list with the new master list.
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IOInterposer::AutoLock lock(mLock);
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aPtd.SetObserverLists(mCurrentGeneration, mObserverLists);
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}
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inline bool IsObservedOperation(IOInterposeObserver::Operation aOp) {
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// The quick reader may observe that no locks are being employed here,
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// hence the result of the operations is truly undefined. However, most
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// computers will usually return either true or false, which is good enough.
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// It is not a problem if we occasionally report more or less IO than is
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// actually occurring.
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return mIsEnabled && !!(mObservedOperations & aOp);
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}
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private:
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RefPtr<ObserverLists> mObserverLists;
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// Note, we cannot use mozilla::Mutex here as the ObserverLists may be leaked
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// (We want to monitor IO during shutdown). Furthermore, as we may have to
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// unregister observers during shutdown an OffTheBooksMutex is not an option
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// either, as its base calls into sDeadlockDetector which may be nullptr
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// during shutdown.
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IOInterposer::Mutex mLock;
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// Flags tracking which operations are being observed
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IOInterposeObserver::Operation mObservedOperations;
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// Used for quickly disabling everything by IOInterposer::Disable()
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Atomic<bool> mIsEnabled;
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// Used to inform threads that the master observer list has changed
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Atomic<uint32_t> mCurrentGeneration;
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};
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// Special observation used by IOInterposer::EnteringNextStage()
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class NextStageObservation : public IOInterposeObserver::Observation {
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public:
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NextStageObservation()
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: IOInterposeObserver::Observation(IOInterposeObserver::OpNextStage,
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"IOInterposer", false) {
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mStart = TimeStamp::Now();
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mEnd = mStart;
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}
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};
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// List of observers registered
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static StaticAutoPtr<MasterList> sMasterList;
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static MOZ_THREAD_LOCAL(PerThreadData*) sThreadLocalData;
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static bool sThreadLocalDataInitialized;
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} // namespace
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IOInterposeObserver::Observation::Observation(Operation aOperation,
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const char* aReference,
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bool aShouldReport)
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: mOperation(aOperation),
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mReference(aReference),
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mShouldReport(IOInterposer::IsObservedOperation(aOperation) &&
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aShouldReport) {
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if (mShouldReport) {
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mStart = TimeStamp::Now();
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}
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}
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IOInterposeObserver::Observation::Observation(Operation aOperation,
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const TimeStamp& aStart,
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const TimeStamp& aEnd,
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const char* aReference)
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: mOperation(aOperation),
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mStart(aStart),
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mEnd(aEnd),
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mReference(aReference),
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mShouldReport(false) {}
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const char* IOInterposeObserver::Observation::ObservedOperationString() const {
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switch (mOperation) {
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case OpCreateOrOpen:
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return "create/open";
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case OpRead:
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return "read";
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case OpWrite:
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return "write";
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case OpFSync:
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return "fsync";
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case OpStat:
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return "stat";
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case OpClose:
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return "close";
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case OpNextStage:
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return "NextStage";
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default:
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return "unknown";
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}
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}
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void IOInterposeObserver::Observation::Report() {
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if (mShouldReport) {
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mEnd = TimeStamp::Now();
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IOInterposer::Report(*this);
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}
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}
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bool IOInterposer::Init() {
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// Don't initialize twice...
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if (sMasterList) {
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return true;
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}
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if (!sThreadLocalData.init()) {
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return false;
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}
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sThreadLocalDataInitialized = true;
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bool isMainThread = true;
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RegisterCurrentThread(isMainThread);
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sMasterList = new MasterList();
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MainThreadIOLogger::Init();
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// Now we initialize the various interposers depending on platform
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// Under certain conditions it may be unsafe to initialize PoisonIOInterposer,
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// such as when a background thread is already running. We set this variable
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// elsewhere when such a condition applies.
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if (!PR_GetEnv("MOZ_DISABLE_POISON_IO_INTERPOSER")) {
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InitPoisonIOInterposer();
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}
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// We don't hook NSPR on Windows because PoisonIOInterposer captures a
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// superset of the former's events.
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#if !defined(XP_WIN)
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InitNSPRIOInterposing();
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#endif
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return true;
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}
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bool IOInterposeObserver::IsMainThread() {
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if (!sThreadLocalDataInitialized) {
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return false;
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}
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PerThreadData* ptd = sThreadLocalData.get();
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if (!ptd) {
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return false;
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}
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return ptd->IsMainThread();
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}
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void IOInterposer::Clear() {
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/* Clear() is a no-op on release builds so that we may continue to trap I/O
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until process termination. In leak-checking builds, we need to shut down
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IOInterposer so that all references are properly released. */
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#ifdef NS_FREE_PERMANENT_DATA
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UnregisterCurrentThread();
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sMasterList = nullptr;
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#endif
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}
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void IOInterposer::Disable() {
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if (!sMasterList) {
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return;
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}
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sMasterList->Disable();
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}
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void IOInterposer::Enable() {
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if (!sMasterList) {
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return;
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}
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sMasterList->Enable();
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}
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void IOInterposer::Report(IOInterposeObserver::Observation& aObservation) {
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PerThreadData* ptd = sThreadLocalData.get();
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if (!ptd) {
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// In this case the current thread is not registered with IOInterposer.
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// Alternatively we could take the slow path and just lock everything if
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// we're not registered. That could potentially perform poorly, though.
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return;
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}
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if (!sMasterList) {
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// If there is no longer a master list then we should clear the local one.
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ptd->ClearObserverLists();
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return;
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}
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sMasterList->Update(*ptd);
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// Don't try to report if there's nobody listening.
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if (!IOInterposer::IsObservedOperation(aObservation.ObservedOperation())) {
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return;
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}
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ptd->CallObservers(aObservation);
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}
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bool IOInterposer::IsObservedOperation(IOInterposeObserver::Operation aOp) {
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return sMasterList && sMasterList->IsObservedOperation(aOp);
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}
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void IOInterposer::Register(IOInterposeObserver::Operation aOp,
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IOInterposeObserver* aObserver) {
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MOZ_ASSERT(aObserver);
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if (!sMasterList || !aObserver) {
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return;
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}
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sMasterList->Register(aOp, aObserver);
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}
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void IOInterposer::Unregister(IOInterposeObserver::Operation aOp,
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IOInterposeObserver* aObserver) {
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if (!sMasterList) {
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return;
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}
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sMasterList->Unregister(aOp, aObserver);
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}
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void IOInterposer::RegisterCurrentThread(bool aIsMainThread) {
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if (!sThreadLocalDataInitialized) {
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return;
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}
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MOZ_ASSERT(!sThreadLocalData.get());
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PerThreadData* curThreadData = new PerThreadData(aIsMainThread);
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sThreadLocalData.set(curThreadData);
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}
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void IOInterposer::UnregisterCurrentThread() {
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if (!sThreadLocalDataInitialized) {
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return;
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}
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PerThreadData* curThreadData = sThreadLocalData.get();
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MOZ_ASSERT(curThreadData);
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sThreadLocalData.set(nullptr);
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delete curThreadData;
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}
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void IOInterposer::EnteringNextStage() {
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if (!sMasterList) {
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return;
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|
}
|
|
NextStageObservation observation;
|
|
Report(observation);
|
|
}
|