/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this file, * You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "ActorsParent.h" #include "mozilla/Assertions.h" #include "mozilla/Atomics.h" #include "mozilla/Attributes.h" #include "mozilla/Unused.h" #include "mozilla/dom/File.h" #include "mozilla/dom/FileHandleCommon.h" #include "mozilla/dom/PBackgroundFileHandleParent.h" #include "mozilla/dom/PBackgroundFileRequestParent.h" #include "mozilla/dom/indexedDB/ActorsParent.h" #include "mozilla/dom/ipc/BlobParent.h" #include "nsAutoPtr.h" #include "nsComponentManagerUtils.h" #include "nsDebug.h" #include "nsError.h" #include "nsIEventTarget.h" #include "nsIFileStreams.h" #include "nsIInputStream.h" #include "nsIOutputStream.h" #include "nsIRunnable.h" #include "nsISeekableStream.h" #include "nsIThread.h" #include "nsIThreadPool.h" #include "nsNetUtil.h" #include "nsStreamUtils.h" #include "nsStringStream.h" #include "nsTArray.h" #include "nsThreadPool.h" #include "nsThreadUtils.h" #include "nsXPCOMCIDInternal.h" #define DISABLE_ASSERTS_FOR_FUZZING 0 #if DISABLE_ASSERTS_FOR_FUZZING #define ASSERT_UNLESS_FUZZING(...) do { } while (0) #else #define ASSERT_UNLESS_FUZZING(...) MOZ_ASSERT(false, __VA_ARGS__) #endif namespace mozilla { namespace dom { using namespace mozilla::ipc; namespace { /****************************************************************************** * Constants ******************************************************************************/ const uint32_t kThreadLimit = 5; const uint32_t kIdleThreadLimit = 1; const uint32_t kIdleThreadTimeoutMs = 30000; const uint32_t kStreamCopyBlockSize = 32768; } // namespace class FileHandleThreadPool::FileHandleQueue final : public Runnable { friend class FileHandleThreadPool; RefPtr mOwningFileHandleThreadPool; RefPtr mFileHandle; nsTArray> mQueue; RefPtr mCurrentOp; bool mShouldFinish; public: explicit FileHandleQueue(FileHandleThreadPool* aFileHandleThreadPool, FileHandle* aFileHandle); void Enqueue(FileHandleOp* aFileHandleOp); void Finish(); void ProcessQueue(); private: ~FileHandleQueue() {} NS_DECL_NSIRUNNABLE }; struct FileHandleThreadPool::DelayedEnqueueInfo { RefPtr mFileHandle; RefPtr mFileHandleOp; bool mFinish; }; class FileHandleThreadPool::DirectoryInfo { friend class FileHandleThreadPool; RefPtr mOwningFileHandleThreadPool; nsTArray> mFileHandleQueues; nsTArray mDelayedEnqueueInfos; nsTHashtable mFilesReading; nsTHashtable mFilesWriting; public: FileHandleQueue* CreateFileHandleQueue(FileHandle* aFileHandle); FileHandleQueue* GetFileHandleQueue(FileHandle* aFileHandle); void RemoveFileHandleQueue(FileHandle* aFileHandle); bool HasRunningFileHandles() { return !mFileHandleQueues.IsEmpty(); } DelayedEnqueueInfo* CreateDelayedEnqueueInfo(FileHandle* aFileHandle, FileHandleOp* aFileHandleOp, bool aFinish); void LockFileForReading(const nsAString& aFileName) { mFilesReading.PutEntry(aFileName); } void LockFileForWriting(const nsAString& aFileName) { mFilesWriting.PutEntry(aFileName); } bool IsFileLockedForReading(const nsAString& aFileName) { return mFilesReading.Contains(aFileName); } bool IsFileLockedForWriting(const nsAString& aFileName) { return mFilesWriting.Contains(aFileName); } private: explicit DirectoryInfo(FileHandleThreadPool* aFileHandleThreadPool) : mOwningFileHandleThreadPool(aFileHandleThreadPool) { } }; struct FileHandleThreadPool::StoragesCompleteCallback final { friend class nsAutoPtr; nsTArray mDirectoryIds; nsCOMPtr mCallback; StoragesCompleteCallback(nsTArray&& aDatabaseIds, nsIRunnable* aCallback); private: ~StoragesCompleteCallback(); }; /****************************************************************************** * Actor class declarations ******************************************************************************/ class FileHandle : public PBackgroundFileHandleParent { friend class BackgroundMutableFileParentBase; class FinishOp; RefPtr mMutableFile; nsCOMPtr mStream; uint64_t mActiveRequestCount; FileHandleStorage mStorage; Atomic mInvalidatedOnAnyThread; FileMode mMode; bool mHasBeenActive; bool mActorDestroyed; bool mInvalidated; bool mAborted; bool mFinishOrAbortReceived; bool mFinishedOrAborted; bool mForceAborted; DEBUGONLY(nsCOMPtr mThreadPoolEventTarget;) public: void AssertIsOnThreadPool() const; bool IsActorDestroyed() const { AssertIsOnBackgroundThread(); return mActorDestroyed; } // Must be called on the background thread. bool IsInvalidated() const { MOZ_ASSERT(IsOnBackgroundThread(), "Use IsInvalidatedOnAnyThread()"); MOZ_ASSERT_IF(mInvalidated, mAborted); return mInvalidated; } // May be called on any thread, but is more expensive than IsInvalidated(). bool IsInvalidatedOnAnyThread() const { return mInvalidatedOnAnyThread; } void SetActive() { AssertIsOnBackgroundThread(); mHasBeenActive = true; } NS_INLINE_DECL_THREADSAFE_REFCOUNTING(mozilla::dom::FileHandle) nsresult GetOrCreateStream(nsISupports** aStream); void Abort(bool aForce); FileHandleStorage Storage() const { return mStorage; } FileMode Mode() const { return mMode; } BackgroundMutableFileParentBase* GetMutableFile() const { AssertIsOnBackgroundThread(); MOZ_ASSERT(mMutableFile); return mMutableFile; } bool IsAborted() const { AssertIsOnBackgroundThread(); return mAborted; } PBackgroundParent* GetBackgroundParent() const { AssertIsOnBackgroundThread(); MOZ_ASSERT(!IsActorDestroyed()); return GetMutableFile()->GetBackgroundParent(); } void NoteActiveRequest(); void NoteFinishedRequest(); void Invalidate(); private: // This constructor is only called by BackgroundMutableFileParentBase. FileHandle(BackgroundMutableFileParentBase* aMutableFile, FileMode aMode); // Reference counted. ~FileHandle(); void MaybeFinishOrAbort() { AssertIsOnBackgroundThread(); // If we've already finished or aborted then there's nothing else to do. if (mFinishedOrAborted) { return; } // If there are active requests then we have to wait for those requests to // complete (see NoteFinishedRequest). if (mActiveRequestCount) { return; } // If we haven't yet received a finish or abort message then there could be // additional requests coming so we should wait unless we're being forced to // abort. if (!mFinishOrAbortReceived && !mForceAborted) { return; } FinishOrAbort(); } void SendCompleteNotification(bool aAborted); bool VerifyRequestParams(const FileRequestParams& aParams) const; bool VerifyRequestData(const FileRequestData& aData) const; void FinishOrAbort(); // IPDL methods are only called by IPDL. virtual void ActorDestroy(ActorDestroyReason aWhy) override; virtual bool RecvDeleteMe() override; virtual bool RecvFinish() override; virtual bool RecvAbort() override; virtual PBackgroundFileRequestParent* AllocPBackgroundFileRequestParent(const FileRequestParams& aParams) override; virtual bool RecvPBackgroundFileRequestConstructor(PBackgroundFileRequestParent* aActor, const FileRequestParams& aParams) override; virtual bool DeallocPBackgroundFileRequestParent(PBackgroundFileRequestParent* aActor) override; }; class FileHandleOp { protected: nsCOMPtr mOwningThread; RefPtr mFileHandle; public: NS_INLINE_DECL_THREADSAFE_REFCOUNTING(FileHandleOp) void AssertIsOnOwningThread() const { AssertIsOnBackgroundThread(); MOZ_ASSERT(mOwningThread); DebugOnly current; MOZ_ASSERT(NS_SUCCEEDED(mOwningThread->IsOnCurrentThread(¤t))); MOZ_ASSERT(current); } nsIEventTarget* OwningThread() const { return mOwningThread; } void AssertIsOnThreadPool() const { MOZ_ASSERT(mFileHandle); mFileHandle->AssertIsOnThreadPool(); } void Enqueue(); virtual void RunOnThreadPool() = 0; virtual void RunOnOwningThread() = 0; protected: FileHandleOp(FileHandle* aFileHandle) : mOwningThread(NS_GetCurrentThread()) , mFileHandle(aFileHandle) { AssertIsOnOwningThread(); MOZ_ASSERT(aFileHandle); } virtual ~FileHandleOp() { } }; class FileHandle::FinishOp : public FileHandleOp { friend class FileHandle; bool mAborted; private: FinishOp(FileHandle* aFileHandle, bool aAborted) : FileHandleOp(aFileHandle) , mAborted(aAborted) { MOZ_ASSERT(aFileHandle); } ~FinishOp() { } virtual void RunOnThreadPool() override; virtual void RunOnOwningThread() override; }; class NormalFileHandleOp : public FileHandleOp , public PBackgroundFileRequestParent { nsresult mResultCode; Atomic mOperationMayProceed; bool mActorDestroyed; const bool mFileHandleIsAborted; DEBUGONLY(bool mResponseSent;) protected: nsCOMPtr mFileStream; public: void NoteActorDestroyed() { AssertIsOnOwningThread(); mActorDestroyed = true; mOperationMayProceed = false; } bool IsActorDestroyed() const { AssertIsOnOwningThread(); return mActorDestroyed; } // May be called on any thread, but you should call IsActorDestroyed() if // you know you're on the background thread because it is slightly faster. bool OperationMayProceed() const { return mOperationMayProceed; } // May be overridden by subclasses if they need to perform work on the // background thread before being enqueued. Returning false will kill the // child actors and prevent enqueue. virtual bool Init(FileHandle* aFileHandle); // This callback will be called on the background thread before releasing the // final reference to this request object. Subclasses may perform any // additional cleanup here but must always call the base class implementation. virtual void Cleanup(); protected: NormalFileHandleOp(FileHandle* aFileHandle) : FileHandleOp(aFileHandle) , mResultCode(NS_OK) , mOperationMayProceed(true) , mActorDestroyed(false) , mFileHandleIsAborted(aFileHandle->IsAborted()) DEBUGONLY(, mResponseSent(false)) { MOZ_ASSERT(aFileHandle); } virtual ~NormalFileHandleOp(); // Must be overridden in subclasses. Called on the target thread to allow the // subclass to perform necessary file operations. A successful return value // will trigger a SendSuccessResult callback on the background thread while // a failure value will trigger a SendFailureResult callback. virtual nsresult DoFileWork(FileHandle* aFileHandle) = 0; // Subclasses use this override to set the IPDL response value. virtual void GetResponse(FileRequestResponse& aResponse) = 0; private: nsresult SendSuccessResult(); bool SendFailureResult(nsresult aResultCode); virtual void RunOnThreadPool() override; virtual void RunOnOwningThread() override; // IPDL methods. virtual void ActorDestroy(ActorDestroyReason aWhy) override; }; class CopyFileHandleOp : public NormalFileHandleOp { class ProgressRunnable; protected: nsCOMPtr mBufferStream; uint64_t mOffset; uint64_t mSize; bool mRead; protected: CopyFileHandleOp(FileHandle* aFileHandle) : NormalFileHandleOp(aFileHandle) , mOffset(0) , mSize(0) , mRead(true) { } virtual nsresult DoFileWork(FileHandle* aFileHandle) override; virtual void Cleanup() override; }; class CopyFileHandleOp::ProgressRunnable final : public Runnable { RefPtr mCopyFileHandleOp; uint64_t mProgress; uint64_t mProgressMax; public: ProgressRunnable(CopyFileHandleOp* aCopyFileHandleOp, uint64_t aProgress, uint64_t aProgressMax) : mCopyFileHandleOp(aCopyFileHandleOp) , mProgress(aProgress) , mProgressMax(aProgressMax) { } private: ~ProgressRunnable() {} NS_DECL_NSIRUNNABLE }; class GetMetadataOp : public NormalFileHandleOp { friend class FileHandle; const FileRequestGetMetadataParams mParams; protected: FileRequestMetadata mMetadata; protected: // Only created by FileHandle. GetMetadataOp(FileHandle* aFileHandle, const FileRequestParams& aParams); ~GetMetadataOp() { } virtual nsresult DoFileWork(FileHandle* aFileHandle) override; virtual void GetResponse(FileRequestResponse& aResponse) override; }; class ReadOp final : public CopyFileHandleOp { friend class FileHandle; class MemoryOutputStream; const FileRequestReadParams mParams; private: // Only created by FileHandle. ReadOp(FileHandle* aFileHandle, const FileRequestParams& aParams); ~ReadOp() { } virtual bool Init(FileHandle* aFileHandle) override; virtual void GetResponse(FileRequestResponse& aResponse) override; }; class ReadOp::MemoryOutputStream final : public nsIOutputStream { nsCString mData; uint64_t mOffset; public: static already_AddRefed Create(uint64_t aSize); const nsCString& Data() const { return mData; } private: MemoryOutputStream() : mOffset(0) { } virtual ~MemoryOutputStream() { } NS_DECL_THREADSAFE_ISUPPORTS NS_DECL_NSIOUTPUTSTREAM }; class WriteOp final : public CopyFileHandleOp { friend class FileHandle; const FileRequestWriteParams mParams; private: // Only created by FileHandle. WriteOp(FileHandle* aFileHandle, const FileRequestParams& aParams); ~WriteOp() { } virtual bool Init(FileHandle* aFileHandle) override; virtual void GetResponse(FileRequestResponse& aResponse) override; }; class TruncateOp final : public NormalFileHandleOp { friend class FileHandle; const FileRequestTruncateParams mParams; private: // Only created by FileHandle. TruncateOp(FileHandle* aFileHandle, const FileRequestParams& aParams); ~TruncateOp() { } virtual nsresult DoFileWork(FileHandle* aFileHandle) override; virtual void GetResponse(FileRequestResponse& aResponse) override; }; class FlushOp final : public NormalFileHandleOp { friend class FileHandle; const FileRequestFlushParams mParams; private: // Only created by FileHandle. FlushOp(FileHandle* aFileHandle, const FileRequestParams& aParams); ~FlushOp() { } virtual nsresult DoFileWork(FileHandle* aFileHandle) override; virtual void GetResponse(FileRequestResponse& aResponse) override; }; class GetFileOp final : public GetMetadataOp { friend class FileHandle; PBackgroundParent* mBackgroundParent; private: // Only created by FileHandle. GetFileOp(FileHandle* aFileHandle, const FileRequestParams& aParams); ~GetFileOp() { } virtual void GetResponse(FileRequestResponse& aResponse) override; }; namespace { /******************************************************************************* * Helper Functions ******************************************************************************/ FileHandleThreadPool* GetFileHandleThreadPoolFor(FileHandleStorage aStorage) { switch (aStorage) { case FILE_HANDLE_STORAGE_IDB: return mozilla::dom::indexedDB::GetFileHandleThreadPool(); default: MOZ_CRASH("Bad file handle storage value!"); } } } // namespace /******************************************************************************* * FileHandleThreadPool implementation ******************************************************************************/ FileHandleThreadPool::FileHandleThreadPool() : mOwningThread(NS_GetCurrentThread()) , mShutdownRequested(false) , mShutdownComplete(false) { AssertIsOnBackgroundThread(); MOZ_ASSERT(mOwningThread); AssertIsOnOwningThread(); } FileHandleThreadPool::~FileHandleThreadPool() { AssertIsOnOwningThread(); MOZ_ASSERT(!mDirectoryInfos.Count()); MOZ_ASSERT(mCompleteCallbacks.IsEmpty()); MOZ_ASSERT(mShutdownRequested); MOZ_ASSERT(mShutdownComplete); } // static already_AddRefed FileHandleThreadPool::Create() { AssertIsOnBackgroundThread(); RefPtr fileHandleThreadPool = new FileHandleThreadPool(); fileHandleThreadPool->AssertIsOnOwningThread(); if (NS_WARN_IF(NS_FAILED(fileHandleThreadPool->Init()))) { return nullptr; } return fileHandleThreadPool.forget(); } #ifdef DEBUG void FileHandleThreadPool::AssertIsOnOwningThread() const { MOZ_ASSERT(mOwningThread); bool current; MOZ_ALWAYS_SUCCEEDS(mOwningThread->IsOnCurrentThread(¤t)); MOZ_ASSERT(current); } nsIEventTarget* FileHandleThreadPool::GetThreadPoolEventTarget() const { AssertIsOnOwningThread(); MOZ_ASSERT(mThreadPool); return mThreadPool; } #endif // DEBUG void FileHandleThreadPool::Enqueue(FileHandle* aFileHandle, FileHandleOp* aFileHandleOp, bool aFinish) { AssertIsOnOwningThread(); MOZ_ASSERT(aFileHandle); MOZ_ASSERT(!mShutdownRequested); BackgroundMutableFileParentBase* mutableFile = aFileHandle->GetMutableFile(); const nsACString& directoryId = mutableFile->DirectoryId(); const nsAString& fileName = mutableFile->FileName(); bool modeIsWrite = aFileHandle->Mode() == FileMode::Readwrite; DirectoryInfo* directoryInfo; if (!mDirectoryInfos.Get(directoryId, &directoryInfo)) { nsAutoPtr newDirectoryInfo(new DirectoryInfo(this)); mDirectoryInfos.Put(directoryId, newDirectoryInfo); directoryInfo = newDirectoryInfo.forget(); } FileHandleQueue* existingFileHandleQueue = directoryInfo->GetFileHandleQueue(aFileHandle); if (existingFileHandleQueue) { existingFileHandleQueue->Enqueue(aFileHandleOp); if (aFinish) { existingFileHandleQueue->Finish(); } return; } bool lockedForReading = directoryInfo->IsFileLockedForReading(fileName); bool lockedForWriting = directoryInfo->IsFileLockedForWriting(fileName); if (modeIsWrite) { if (!lockedForWriting) { directoryInfo->LockFileForWriting(fileName); } } else { if (!lockedForReading) { directoryInfo->LockFileForReading(fileName); } } if (lockedForWriting || (lockedForReading && modeIsWrite)) { directoryInfo->CreateDelayedEnqueueInfo(aFileHandle, aFileHandleOp, aFinish); } else { FileHandleQueue* fileHandleQueue = directoryInfo->CreateFileHandleQueue(aFileHandle); if (aFileHandleOp) { fileHandleQueue->Enqueue(aFileHandleOp); if (aFinish) { fileHandleQueue->Finish(); } } } } void FileHandleThreadPool::WaitForDirectoriesToComplete( nsTArray&& aDirectoryIds, nsIRunnable* aCallback) { AssertIsOnOwningThread(); MOZ_ASSERT(!aDirectoryIds.IsEmpty()); MOZ_ASSERT(aCallback); nsAutoPtr callback( new StoragesCompleteCallback(Move(aDirectoryIds), aCallback)); if (!MaybeFireCallback(callback)) { mCompleteCallbacks.AppendElement(callback.forget()); } } void FileHandleThreadPool::Shutdown() { AssertIsOnOwningThread(); MOZ_ASSERT(!mShutdownRequested); MOZ_ASSERT(!mShutdownComplete); mShutdownRequested = true; if (!mThreadPool) { MOZ_ASSERT(!mDirectoryInfos.Count()); MOZ_ASSERT(mCompleteCallbacks.IsEmpty()); mShutdownComplete = true; return; } if (!mDirectoryInfos.Count()) { Cleanup(); MOZ_ASSERT(mShutdownComplete); return; } nsIThread* currentThread = NS_GetCurrentThread(); MOZ_ASSERT(currentThread); while (!mShutdownComplete) { MOZ_ALWAYS_TRUE(NS_ProcessNextEvent(currentThread)); } } nsresult FileHandleThreadPool::Init() { AssertIsOnOwningThread(); mThreadPool = new nsThreadPool(); nsresult rv = mThreadPool->SetName(NS_LITERAL_CSTRING("FileHandles")); if (NS_WARN_IF(NS_FAILED(rv))) { return rv; } rv = mThreadPool->SetThreadLimit(kThreadLimit); if (NS_WARN_IF(NS_FAILED(rv))) { return rv; } rv = mThreadPool->SetIdleThreadLimit(kIdleThreadLimit); if (NS_WARN_IF(NS_FAILED(rv))) { return rv; } rv = mThreadPool->SetIdleThreadTimeout(kIdleThreadTimeoutMs); if (NS_WARN_IF(NS_FAILED(rv))) { return rv; } return NS_OK; } void FileHandleThreadPool::Cleanup() { AssertIsOnOwningThread(); MOZ_ASSERT(mThreadPool); MOZ_ASSERT(mShutdownRequested); MOZ_ASSERT(!mShutdownComplete); MOZ_ASSERT(!mDirectoryInfos.Count()); MOZ_ALWAYS_SUCCEEDS(mThreadPool->Shutdown()); if (!mCompleteCallbacks.IsEmpty()) { // Run all callbacks manually now. for (uint32_t count = mCompleteCallbacks.Length(), index = 0; index < count; index++) { nsAutoPtr completeCallback( mCompleteCallbacks[index].forget()); MOZ_ASSERT(completeCallback); MOZ_ASSERT(completeCallback->mCallback); Unused << completeCallback->mCallback->Run(); } mCompleteCallbacks.Clear(); // And make sure they get processed. nsIThread* currentThread = NS_GetCurrentThread(); MOZ_ASSERT(currentThread); MOZ_ALWAYS_SUCCEEDS(NS_ProcessPendingEvents(currentThread)); } mShutdownComplete = true; } void FileHandleThreadPool::FinishFileHandle(FileHandle* aFileHandle) { AssertIsOnOwningThread(); MOZ_ASSERT(aFileHandle); BackgroundMutableFileParentBase* mutableFile = aFileHandle->GetMutableFile(); const nsACString& directoryId = mutableFile->DirectoryId(); DirectoryInfo* directoryInfo; if (!mDirectoryInfos.Get(directoryId, &directoryInfo)) { NS_ERROR("We don't know anyting about this directory?!"); return; } directoryInfo->RemoveFileHandleQueue(aFileHandle); if (!directoryInfo->HasRunningFileHandles()) { mDirectoryInfos.Remove(directoryId); // See if we need to fire any complete callbacks. uint32_t index = 0; while (index < mCompleteCallbacks.Length()) { if (MaybeFireCallback(mCompleteCallbacks[index])) { mCompleteCallbacks.RemoveElementAt(index); } else { index++; } } if (mShutdownRequested && !mDirectoryInfos.Count()) { Cleanup(); } } } bool FileHandleThreadPool::MaybeFireCallback(StoragesCompleteCallback* aCallback) { AssertIsOnOwningThread(); MOZ_ASSERT(aCallback); MOZ_ASSERT(!aCallback->mDirectoryIds.IsEmpty()); MOZ_ASSERT(aCallback->mCallback); for (uint32_t count = aCallback->mDirectoryIds.Length(), index = 0; index < count; index++) { const nsCString& directoryId = aCallback->mDirectoryIds[index]; MOZ_ASSERT(!directoryId.IsEmpty()); if (mDirectoryInfos.Get(directoryId, nullptr)) { return false; } } aCallback->mCallback->Run(); return true; } FileHandleThreadPool:: FileHandleQueue::FileHandleQueue(FileHandleThreadPool* aFileHandleThreadPool, FileHandle* aFileHandle) : mOwningFileHandleThreadPool(aFileHandleThreadPool) , mFileHandle(aFileHandle) , mShouldFinish(false) { MOZ_ASSERT(aFileHandleThreadPool); aFileHandleThreadPool->AssertIsOnOwningThread(); MOZ_ASSERT(aFileHandle); } void FileHandleThreadPool:: FileHandleQueue::Enqueue(FileHandleOp* aFileHandleOp) { MOZ_ASSERT(!mShouldFinish, "Enqueue called after Finish!"); mQueue.AppendElement(aFileHandleOp); ProcessQueue(); } void FileHandleThreadPool:: FileHandleQueue::Finish() { MOZ_ASSERT(!mShouldFinish, "Finish called more than once!"); mShouldFinish = true; } void FileHandleThreadPool:: FileHandleQueue::ProcessQueue() { if (mCurrentOp) { return; } if (mQueue.IsEmpty()) { if (mShouldFinish) { mOwningFileHandleThreadPool->FinishFileHandle(mFileHandle); // Make sure this is released on this thread. mOwningFileHandleThreadPool = nullptr; } return; } mCurrentOp = mQueue[0]; mQueue.RemoveElementAt(0); nsCOMPtr threadPool = mOwningFileHandleThreadPool->mThreadPool; MOZ_ASSERT(threadPool); MOZ_ALWAYS_SUCCEEDS(threadPool->Dispatch(this, NS_DISPATCH_NORMAL)); } NS_IMETHODIMP FileHandleThreadPool:: FileHandleQueue::Run() { MOZ_ASSERT(mCurrentOp); if (IsOnBackgroundThread()) { RefPtr currentOp; mCurrentOp.swap(currentOp); ProcessQueue(); currentOp->RunOnOwningThread(); } else { mCurrentOp->RunOnThreadPool(); nsCOMPtr backgroundThread = mCurrentOp->OwningThread(); MOZ_ALWAYS_SUCCEEDS( backgroundThread->Dispatch(this, NS_DISPATCH_NORMAL)); } return NS_OK; } auto FileHandleThreadPool:: DirectoryInfo::CreateFileHandleQueue(FileHandle* aFileHandle) -> FileHandleQueue* { RefPtr* fileHandleQueue = mFileHandleQueues.AppendElement(); *fileHandleQueue = new FileHandleQueue(mOwningFileHandleThreadPool, aFileHandle); return fileHandleQueue->get(); } auto FileHandleThreadPool:: DirectoryInfo::GetFileHandleQueue(FileHandle* aFileHandle) -> FileHandleQueue* { uint32_t count = mFileHandleQueues.Length(); for (uint32_t index = 0; index < count; index++) { RefPtr& fileHandleQueue = mFileHandleQueues[index]; if (fileHandleQueue->mFileHandle == aFileHandle) { return fileHandleQueue; } } return nullptr; } void FileHandleThreadPool:: DirectoryInfo::RemoveFileHandleQueue(FileHandle* aFileHandle) { for (uint32_t index = 0; index < mDelayedEnqueueInfos.Length(); index++) { if (mDelayedEnqueueInfos[index].mFileHandle == aFileHandle) { MOZ_ASSERT(!mDelayedEnqueueInfos[index].mFileHandleOp, "Should be null!"); mDelayedEnqueueInfos.RemoveElementAt(index); return; } } uint32_t fileHandleCount = mFileHandleQueues.Length(); // We can't just remove entries from lock hash tables, we have to rebuild // them instead. Multiple FileHandle objects may lock the same file // (one entry can represent multiple locks). mFilesReading.Clear(); mFilesWriting.Clear(); for (uint32_t index = 0, count = fileHandleCount; index < count; index++) { FileHandle* fileHandle = mFileHandleQueues[index]->mFileHandle; if (fileHandle == aFileHandle) { MOZ_ASSERT(count == fileHandleCount, "More than one match?!"); mFileHandleQueues.RemoveElementAt(index); index--; count--; continue; } const nsAString& fileName = fileHandle->GetMutableFile()->FileName(); if (fileHandle->Mode() == FileMode::Readwrite) { if (!IsFileLockedForWriting(fileName)) { LockFileForWriting(fileName); } } else { if (!IsFileLockedForReading(fileName)) { LockFileForReading(fileName); } } } MOZ_ASSERT(mFileHandleQueues.Length() == fileHandleCount - 1, "Didn't find the file handle we were looking for!"); nsTArray delayedEnqueueInfos; delayedEnqueueInfos.SwapElements(mDelayedEnqueueInfos); for (uint32_t index = 0; index < delayedEnqueueInfos.Length(); index++) { DelayedEnqueueInfo& delayedEnqueueInfo = delayedEnqueueInfos[index]; mOwningFileHandleThreadPool->Enqueue(delayedEnqueueInfo.mFileHandle, delayedEnqueueInfo.mFileHandleOp, delayedEnqueueInfo.mFinish); } } auto FileHandleThreadPool:: DirectoryInfo::CreateDelayedEnqueueInfo(FileHandle* aFileHandle, FileHandleOp* aFileHandleOp, bool aFinish) -> DelayedEnqueueInfo* { DelayedEnqueueInfo* info = mDelayedEnqueueInfos.AppendElement(); info->mFileHandle = aFileHandle; info->mFileHandleOp = aFileHandleOp; info->mFinish = aFinish; return info; } FileHandleThreadPool:: StoragesCompleteCallback::StoragesCompleteCallback( nsTArray&& aDirectoryIds, nsIRunnable* aCallback) : mDirectoryIds(Move(aDirectoryIds)) , mCallback(aCallback) { AssertIsOnBackgroundThread(); MOZ_ASSERT(!mDirectoryIds.IsEmpty()); MOZ_ASSERT(aCallback); MOZ_COUNT_CTOR(FileHandleThreadPool::StoragesCompleteCallback); } FileHandleThreadPool:: StoragesCompleteCallback::~StoragesCompleteCallback() { AssertIsOnBackgroundThread(); MOZ_COUNT_DTOR(FileHandleThreadPool::StoragesCompleteCallback); } /******************************************************************************* * BackgroundMutableFileParentBase ******************************************************************************/ BackgroundMutableFileParentBase::BackgroundMutableFileParentBase( FileHandleStorage aStorage, const nsACString& aDirectoryId, const nsAString& aFileName, nsIFile* aFile) : mDirectoryId(aDirectoryId) , mFileName(aFileName) , mStorage(aStorage) , mInvalidated(false) , mActorWasAlive(false) , mActorDestroyed(false) , mFile(aFile) { AssertIsOnBackgroundThread(); MOZ_ASSERT(aStorage != FILE_HANDLE_STORAGE_MAX); MOZ_ASSERT(!aDirectoryId.IsEmpty()); MOZ_ASSERT(!aFileName.IsEmpty()); MOZ_ASSERT(aFile); } BackgroundMutableFileParentBase::~BackgroundMutableFileParentBase() { MOZ_ASSERT_IF(mActorWasAlive, mActorDestroyed); } void BackgroundMutableFileParentBase::Invalidate() { AssertIsOnBackgroundThread(); class MOZ_STACK_CLASS Helper final { public: static bool InvalidateFileHandles(nsTHashtable>& aTable) { AssertIsOnBackgroundThread(); const uint32_t count = aTable.Count(); if (!count) { return true; } FallibleTArray> fileHandles; if (NS_WARN_IF(!fileHandles.SetCapacity(count, fallible))) { return false; } for (auto iter = aTable.Iter(); !iter.Done(); iter.Next()) { if (NS_WARN_IF(!fileHandles.AppendElement(iter.Get()->GetKey(), fallible))) { return false; } } if (count) { for (uint32_t index = 0; index < count; index++) { RefPtr fileHandle = fileHandles[index].forget(); MOZ_ASSERT(fileHandle); fileHandle->Invalidate(); } } return true; } }; if (mInvalidated) { return; } mInvalidated = true; if (!Helper::InvalidateFileHandles(mFileHandles)) { NS_WARNING("Failed to abort all file handles!"); } } bool BackgroundMutableFileParentBase::RegisterFileHandle(FileHandle* aFileHandle) { AssertIsOnBackgroundThread(); MOZ_ASSERT(aFileHandle); MOZ_ASSERT(!mFileHandles.GetEntry(aFileHandle)); MOZ_ASSERT(!mInvalidated); if (NS_WARN_IF(!mFileHandles.PutEntry(aFileHandle, fallible))) { return false; } if (mFileHandles.Count() == 1) { NoteActiveState(); } return true; } void BackgroundMutableFileParentBase::UnregisterFileHandle(FileHandle* aFileHandle) { AssertIsOnBackgroundThread(); MOZ_ASSERT(aFileHandle); MOZ_ASSERT(mFileHandles.GetEntry(aFileHandle)); mFileHandles.RemoveEntry(aFileHandle); if (!mFileHandles.Count()) { NoteInactiveState(); } } void BackgroundMutableFileParentBase::SetActorAlive() { AssertIsOnBackgroundThread(); MOZ_ASSERT(!mActorWasAlive); MOZ_ASSERT(!mActorDestroyed); mActorWasAlive = true; // This reference will be absorbed by IPDL and released when the actor is // destroyed. AddRef(); } already_AddRefed BackgroundMutableFileParentBase::CreateStream(bool aReadOnly) { AssertIsOnBackgroundThread(); nsresult rv; if (aReadOnly) { nsCOMPtr stream; rv = NS_NewLocalFileInputStream(getter_AddRefs(stream), mFile, -1, -1, nsIFileInputStream::DEFER_OPEN); if (NS_WARN_IF(NS_FAILED(rv))) { return nullptr; } return stream.forget(); } nsCOMPtr stream; rv = NS_NewLocalFileStream(getter_AddRefs(stream), mFile, -1, -1, nsIFileStream::DEFER_OPEN); if (NS_WARN_IF(NS_FAILED(rv))) { return nullptr; } return stream.forget(); } void BackgroundMutableFileParentBase::ActorDestroy(ActorDestroyReason aWhy) { AssertIsOnBackgroundThread(); MOZ_ASSERT(!mActorDestroyed); mActorDestroyed = true; if (!IsInvalidated()) { Invalidate(); } } PBackgroundFileHandleParent* BackgroundMutableFileParentBase::AllocPBackgroundFileHandleParent( const FileMode& aMode) { AssertIsOnBackgroundThread(); if (NS_WARN_IF(aMode != FileMode::Readonly && aMode != FileMode::Readwrite)) { ASSERT_UNLESS_FUZZING(); return nullptr; } RefPtr fileHandle = new FileHandle(this, aMode); return fileHandle.forget().take(); } bool BackgroundMutableFileParentBase::RecvPBackgroundFileHandleConstructor( PBackgroundFileHandleParent* aActor, const FileMode& aMode) { AssertIsOnBackgroundThread(); MOZ_ASSERT(aActor); MOZ_ASSERT(aMode == FileMode::Readonly || aMode == FileMode::Readwrite); FileHandleThreadPool* fileHandleThreadPool = GetFileHandleThreadPoolFor(mStorage); MOZ_ASSERT(fileHandleThreadPool); auto* fileHandle = static_cast(aActor); // Add a placeholder for this file handle immediately. fileHandleThreadPool->Enqueue(fileHandle, nullptr, false); fileHandle->SetActive(); if (NS_WARN_IF(!RegisterFileHandle(fileHandle))) { fileHandle->Abort(/* aForce */ false); return true; } return true; } bool BackgroundMutableFileParentBase::DeallocPBackgroundFileHandleParent( PBackgroundFileHandleParent* aActor) { AssertIsOnBackgroundThread(); MOZ_ASSERT(aActor); RefPtr fileHandle = dont_AddRef(static_cast(aActor)); return true; } bool BackgroundMutableFileParentBase::RecvDeleteMe() { AssertIsOnBackgroundThread(); MOZ_ASSERT(!mActorDestroyed); return PBackgroundMutableFileParent::Send__delete__(this); } bool BackgroundMutableFileParentBase::RecvGetFileId(int64_t* aFileId) { AssertIsOnBackgroundThread(); *aFileId = -1; return true; } /******************************************************************************* * FileHandle ******************************************************************************/ FileHandle::FileHandle(BackgroundMutableFileParentBase* aMutableFile, FileMode aMode) : mMutableFile(aMutableFile) , mActiveRequestCount(0) , mStorage(aMutableFile->Storage()) , mInvalidatedOnAnyThread(false) , mMode(aMode) , mHasBeenActive(false) , mActorDestroyed(false) , mInvalidated(false) , mAborted(false) , mFinishOrAbortReceived(false) , mFinishedOrAborted(false) , mForceAborted(false) { AssertIsOnBackgroundThread(); MOZ_ASSERT(aMutableFile); #ifdef DEBUG FileHandleThreadPool* fileHandleThreadPool = GetFileHandleThreadPoolFor(mStorage); MOZ_ASSERT(fileHandleThreadPool); mThreadPoolEventTarget = fileHandleThreadPool->GetThreadPoolEventTarget(); #endif } FileHandle::~FileHandle() { MOZ_ASSERT(!mActiveRequestCount); MOZ_ASSERT(mActorDestroyed); MOZ_ASSERT_IF(mHasBeenActive, mFinishedOrAborted); } void FileHandle::AssertIsOnThreadPool() const { MOZ_ASSERT(mThreadPoolEventTarget); DebugOnly current; MOZ_ASSERT(NS_SUCCEEDED(mThreadPoolEventTarget->IsOnCurrentThread(¤t))); MOZ_ASSERT(current); } nsresult FileHandle::GetOrCreateStream(nsISupports** aStream) { AssertIsOnBackgroundThread(); if (!mStream) { nsCOMPtr stream = mMutableFile->CreateStream(mMode == FileMode::Readonly); if (NS_WARN_IF(!stream)) { return NS_ERROR_FAILURE; } stream.swap(mStream); } nsCOMPtr stream(mStream); stream.forget(aStream); return NS_OK; } void FileHandle::Abort(bool aForce) { AssertIsOnBackgroundThread(); mAborted = true; if (aForce) { mForceAborted = true; } MaybeFinishOrAbort(); } void FileHandle::NoteActiveRequest() { AssertIsOnBackgroundThread(); MOZ_ASSERT(mActiveRequestCount < UINT64_MAX); mActiveRequestCount++; } void FileHandle::NoteFinishedRequest() { AssertIsOnBackgroundThread(); MOZ_ASSERT(mActiveRequestCount); mActiveRequestCount--; MaybeFinishOrAbort(); } void FileHandle::Invalidate() { AssertIsOnBackgroundThread(); MOZ_ASSERT(mInvalidated == mInvalidatedOnAnyThread); if (!mInvalidated) { mInvalidated = true; mInvalidatedOnAnyThread = true; Abort(/* aForce */ true); } } void FileHandle::SendCompleteNotification(bool aAborted) { AssertIsOnBackgroundThread(); if (!IsActorDestroyed()) { Unused << SendComplete(aAborted); } } bool FileHandle::VerifyRequestParams(const FileRequestParams& aParams) const { AssertIsOnBackgroundThread(); MOZ_ASSERT(aParams.type() != FileRequestParams::T__None); switch (aParams.type()) { case FileRequestParams::TFileRequestGetMetadataParams: { const FileRequestGetMetadataParams& params = aParams.get_FileRequestGetMetadataParams(); if (NS_WARN_IF(!params.size() && !params.lastModified())) { ASSERT_UNLESS_FUZZING(); return false; } break; } case FileRequestParams::TFileRequestReadParams: { const FileRequestReadParams& params = aParams.get_FileRequestReadParams(); if (NS_WARN_IF(params.offset() == UINT64_MAX)) { ASSERT_UNLESS_FUZZING(); return false; } if (NS_WARN_IF(!params.size())) { ASSERT_UNLESS_FUZZING(); return false; } break; } case FileRequestParams::TFileRequestWriteParams: { if (NS_WARN_IF(mMode != FileMode::Readwrite)) { ASSERT_UNLESS_FUZZING(); return false; } const FileRequestWriteParams& params = aParams.get_FileRequestWriteParams(); if (NS_WARN_IF(!params.dataLength())) { ASSERT_UNLESS_FUZZING(); return false; } if (NS_WARN_IF(!VerifyRequestData(params.data()))) { ASSERT_UNLESS_FUZZING(); return false; } break; } case FileRequestParams::TFileRequestTruncateParams: { if (NS_WARN_IF(mMode != FileMode::Readwrite)) { ASSERT_UNLESS_FUZZING(); return false; } const FileRequestTruncateParams& params = aParams.get_FileRequestTruncateParams(); if (NS_WARN_IF(params.offset() == UINT64_MAX)) { ASSERT_UNLESS_FUZZING(); return false; } break; } case FileRequestParams::TFileRequestFlushParams: { if (NS_WARN_IF(mMode != FileMode::Readwrite)) { ASSERT_UNLESS_FUZZING(); return false; } break; } case FileRequestParams::TFileRequestGetFileParams: { break; } default: MOZ_CRASH("Should never get here!"); } return true; } bool FileHandle::VerifyRequestData(const FileRequestData& aData) const { AssertIsOnBackgroundThread(); MOZ_ASSERT(aData.type() != FileRequestData::T__None); switch (aData.type()) { case FileRequestData::TFileRequestStringData: { const FileRequestStringData& data = aData.get_FileRequestStringData(); if (NS_WARN_IF(data.string().IsEmpty())) { ASSERT_UNLESS_FUZZING(); return false; } break; } case FileRequestData::TFileRequestBlobData: { const FileRequestBlobData& data = aData.get_FileRequestBlobData(); if (NS_WARN_IF(data.blobChild())) { ASSERT_UNLESS_FUZZING(); return false; } if (NS_WARN_IF(!data.blobParent())) { ASSERT_UNLESS_FUZZING(); return false; } break; } default: MOZ_CRASH("Should never get here!"); } return true; } void FileHandle::FinishOrAbort() { AssertIsOnBackgroundThread(); MOZ_ASSERT(!mFinishedOrAborted); mFinishedOrAborted = true; if (!mHasBeenActive) { return; } RefPtr finishOp = new FinishOp(this, mAborted); FileHandleThreadPool* fileHandleThreadPool = GetFileHandleThreadPoolFor(mStorage); MOZ_ASSERT(fileHandleThreadPool); fileHandleThreadPool->Enqueue(this, finishOp, true); } void FileHandle::ActorDestroy(ActorDestroyReason aWhy) { AssertIsOnBackgroundThread(); MOZ_ASSERT(!mActorDestroyed); mActorDestroyed = true; if (!mFinishedOrAborted) { mAborted = true; mForceAborted = true; MaybeFinishOrAbort(); } } bool FileHandle::RecvDeleteMe() { AssertIsOnBackgroundThread(); MOZ_ASSERT(!IsActorDestroyed()); return PBackgroundFileHandleParent::Send__delete__(this); } bool FileHandle::RecvFinish() { AssertIsOnBackgroundThread(); if (NS_WARN_IF(mFinishOrAbortReceived)) { ASSERT_UNLESS_FUZZING(); return false; } mFinishOrAbortReceived = true; MaybeFinishOrAbort(); return true; } bool FileHandle::RecvAbort() { AssertIsOnBackgroundThread(); if (NS_WARN_IF(mFinishOrAbortReceived)) { ASSERT_UNLESS_FUZZING(); return false; } mFinishOrAbortReceived = true; Abort(/* aForce */ false); return true; } PBackgroundFileRequestParent* FileHandle::AllocPBackgroundFileRequestParent(const FileRequestParams& aParams) { AssertIsOnBackgroundThread(); MOZ_ASSERT(aParams.type() != FileRequestParams::T__None); #ifdef DEBUG // Always verify parameters in DEBUG builds! bool trustParams = false; #else PBackgroundParent* backgroundActor = GetBackgroundParent(); MOZ_ASSERT(backgroundActor); bool trustParams = !BackgroundParent::IsOtherProcessActor(backgroundActor); #endif if (NS_WARN_IF(!trustParams && !VerifyRequestParams(aParams))) { ASSERT_UNLESS_FUZZING(); return nullptr; } if (NS_WARN_IF(mFinishOrAbortReceived)) { ASSERT_UNLESS_FUZZING(); return nullptr; } RefPtr actor; switch (aParams.type()) { case FileRequestParams::TFileRequestGetMetadataParams: actor = new GetMetadataOp(this, aParams); break; case FileRequestParams::TFileRequestReadParams: actor = new ReadOp(this, aParams); break; case FileRequestParams::TFileRequestWriteParams: actor = new WriteOp(this, aParams); break; case FileRequestParams::TFileRequestTruncateParams: actor = new TruncateOp(this, aParams); break; case FileRequestParams::TFileRequestFlushParams: actor = new FlushOp(this, aParams); break; case FileRequestParams::TFileRequestGetFileParams: actor = new GetFileOp(this, aParams); break; default: MOZ_CRASH("Should never get here!"); } MOZ_ASSERT(actor); // Transfer ownership to IPDL. return actor.forget().take(); } bool FileHandle::RecvPBackgroundFileRequestConstructor( PBackgroundFileRequestParent* aActor, const FileRequestParams& aParams) { AssertIsOnBackgroundThread(); MOZ_ASSERT(aActor); MOZ_ASSERT(aParams.type() != FileRequestParams::T__None); auto* op = static_cast(aActor); if (NS_WARN_IF(!op->Init(this))) { op->Cleanup(); return false; } op->Enqueue(); return true; } bool FileHandle::DeallocPBackgroundFileRequestParent( PBackgroundFileRequestParent* aActor) { AssertIsOnBackgroundThread(); MOZ_ASSERT(aActor); // Transfer ownership back from IPDL. RefPtr actor = dont_AddRef(static_cast(aActor)); return true; } /******************************************************************************* * Local class implementations ******************************************************************************/ void FileHandleOp::Enqueue() { AssertIsOnOwningThread(); FileHandleThreadPool* fileHandleThreadPool = GetFileHandleThreadPoolFor(mFileHandle->Storage()); MOZ_ASSERT(fileHandleThreadPool); fileHandleThreadPool->Enqueue(mFileHandle, this, false); mFileHandle->NoteActiveRequest(); } void FileHandle:: FinishOp::RunOnThreadPool() { AssertIsOnThreadPool(); MOZ_ASSERT(mFileHandle); nsCOMPtr& stream = mFileHandle->mStream; if (!stream) { return; } nsCOMPtr inputStream = do_QueryInterface(stream); MOZ_ASSERT(inputStream); MOZ_ALWAYS_SUCCEEDS(inputStream->Close()); stream = nullptr; } void FileHandle:: FinishOp::RunOnOwningThread() { AssertIsOnOwningThread(); MOZ_ASSERT(mFileHandle); mFileHandle->SendCompleteNotification(mAborted); mFileHandle->GetMutableFile()->UnregisterFileHandle(mFileHandle); mFileHandle = nullptr; } NormalFileHandleOp::~NormalFileHandleOp() { MOZ_ASSERT(!mFileHandle, "NormalFileHandleOp::Cleanup() was not called by a subclass!"); } bool NormalFileHandleOp::Init(FileHandle* aFileHandle) { AssertIsOnOwningThread(); MOZ_ASSERT(aFileHandle); nsresult rv = aFileHandle->GetOrCreateStream(getter_AddRefs(mFileStream)); if (NS_WARN_IF(NS_FAILED(rv))) { return false; } return true; } void NormalFileHandleOp::Cleanup() { AssertIsOnOwningThread(); MOZ_ASSERT(mFileHandle); MOZ_ASSERT_IF(!IsActorDestroyed(), mResponseSent); mFileHandle = nullptr; } nsresult NormalFileHandleOp::SendSuccessResult() { AssertIsOnOwningThread(); if (!IsActorDestroyed()) { FileRequestResponse response; GetResponse(response); MOZ_ASSERT(response.type() != FileRequestResponse::T__None); if (response.type() == FileRequestResponse::Tnsresult) { MOZ_ASSERT(NS_FAILED(response.get_nsresult())); return response.get_nsresult(); } if (NS_WARN_IF(!PBackgroundFileRequestParent::Send__delete__(this, response))) { return NS_ERROR_DOM_FILEHANDLE_UNKNOWN_ERR; } } DEBUGONLY(mResponseSent = true;) return NS_OK; } bool NormalFileHandleOp::SendFailureResult(nsresult aResultCode) { AssertIsOnBackgroundThread(); MOZ_ASSERT(NS_FAILED(aResultCode)); bool result = false; if (!IsActorDestroyed()) { result = PBackgroundFileRequestParent::Send__delete__(this, aResultCode); } DEBUGONLY(mResponseSent = true;) return result; } void NormalFileHandleOp::RunOnThreadPool() { AssertIsOnThreadPool(); MOZ_ASSERT(mFileHandle); MOZ_ASSERT(NS_SUCCEEDED(mResultCode)); // There are several cases where we don't actually have to to any work here. if (mFileHandleIsAborted) { // This transaction is already set to be aborted. mResultCode = NS_ERROR_DOM_FILEHANDLE_ABORT_ERR; } else if (mFileHandle->IsInvalidatedOnAnyThread()) { // This file handle is being invalidated. mResultCode = NS_ERROR_DOM_FILEHANDLE_UNKNOWN_ERR; } else if (!OperationMayProceed()) { // The operation was canceled in some way, likely because the child process // has crashed. mResultCode = NS_ERROR_DOM_FILEHANDLE_UNKNOWN_ERR; } else { nsresult rv = DoFileWork(mFileHandle); if (NS_FAILED(rv)) { mResultCode = rv; } } } void NormalFileHandleOp::RunOnOwningThread() { AssertIsOnOwningThread(); MOZ_ASSERT(mFileHandle); if (NS_WARN_IF(IsActorDestroyed())) { // Don't send any notifications if the actor was destroyed already. if (NS_SUCCEEDED(mResultCode)) { mResultCode = NS_ERROR_DOM_FILEHANDLE_UNKNOWN_ERR; } } else { if (mFileHandle->IsInvalidated()) { mResultCode = NS_ERROR_DOM_FILEHANDLE_UNKNOWN_ERR; } else if (mFileHandle->IsAborted()) { // Aborted file handles always see their requests fail with ABORT_ERR, // even if the request succeeded or failed with another error. mResultCode = NS_ERROR_DOM_FILEHANDLE_ABORT_ERR; } else if (NS_SUCCEEDED(mResultCode)) { // This may release the IPDL reference. mResultCode = SendSuccessResult(); } if (NS_FAILED(mResultCode)) { // This should definitely release the IPDL reference. if (!SendFailureResult(mResultCode)) { // Abort the file handle. mFileHandle->Abort(/* aForce */ false); } } } mFileHandle->NoteFinishedRequest(); Cleanup(); } void NormalFileHandleOp::ActorDestroy(ActorDestroyReason aWhy) { AssertIsOnOwningThread(); NoteActorDestroyed(); } nsresult CopyFileHandleOp::DoFileWork(FileHandle* aFileHandle) { AssertIsOnThreadPool(); nsCOMPtr inputStream; nsCOMPtr outputStream; if (mRead) { inputStream = do_QueryInterface(mFileStream); outputStream = do_QueryInterface(mBufferStream); } else { inputStream = do_QueryInterface(mBufferStream); outputStream = do_QueryInterface(mFileStream); } MOZ_ASSERT(inputStream); MOZ_ASSERT(outputStream); nsCOMPtr seekableStream = do_QueryInterface(mFileStream); nsresult rv; if (seekableStream) { if (mOffset == UINT64_MAX) { rv = seekableStream->Seek(nsISeekableStream::NS_SEEK_END, 0); } else { rv = seekableStream->Seek(nsISeekableStream::NS_SEEK_SET, mOffset); } if (NS_WARN_IF(NS_FAILED(rv))) { return rv; } } mOffset = 0; do { char copyBuffer[kStreamCopyBlockSize]; uint64_t max = mSize - mOffset; if (max == 0) { break; } uint32_t count = sizeof(copyBuffer); if (count > max) { count = max; } uint32_t numRead; rv = inputStream->Read(copyBuffer, count, &numRead); if (NS_WARN_IF(NS_FAILED(rv))) { return rv; } if (!numRead) { break; } uint32_t numWrite; rv = outputStream->Write(copyBuffer, numRead, &numWrite); if (rv == NS_ERROR_FILE_NO_DEVICE_SPACE) { rv = NS_ERROR_DOM_FILEHANDLE_QUOTA_ERR; } if (NS_WARN_IF(NS_FAILED(rv))) { return rv; } if (NS_WARN_IF(numWrite != numRead)) { return NS_ERROR_FAILURE; } mOffset += numWrite; nsCOMPtr runnable = new ProgressRunnable(this, mOffset, mSize); mOwningThread->Dispatch(runnable, NS_DISPATCH_NORMAL); } while (true); MOZ_ASSERT(mOffset == mSize); if (mRead) { MOZ_ALWAYS_SUCCEEDS(outputStream->Close()); } else { MOZ_ALWAYS_SUCCEEDS(inputStream->Close()); } return NS_OK; } void CopyFileHandleOp::Cleanup() { AssertIsOnOwningThread(); mBufferStream = nullptr; NormalFileHandleOp::Cleanup(); } NS_IMETHODIMP CopyFileHandleOp:: ProgressRunnable::Run() { AssertIsOnBackgroundThread(); Unused << mCopyFileHandleOp->SendProgress(mProgress, mProgressMax); mCopyFileHandleOp = nullptr; return NS_OK; } GetMetadataOp::GetMetadataOp(FileHandle* aFileHandle, const FileRequestParams& aParams) : NormalFileHandleOp(aFileHandle) , mParams(aParams.get_FileRequestGetMetadataParams()) { MOZ_ASSERT(aParams.type() == FileRequestParams::TFileRequestGetMetadataParams); } nsresult GetMetadataOp::DoFileWork(FileHandle* aFileHandle) { AssertIsOnThreadPool(); nsresult rv; if (mFileHandle->Mode() == FileMode::Readwrite) { // Force a flush (so all pending writes are flushed to the disk and file // metadata is updated too). nsCOMPtr ostream = do_QueryInterface(mFileStream); MOZ_ASSERT(ostream); rv = ostream->Flush(); if (NS_WARN_IF(NS_FAILED(rv))) { return rv; } } nsCOMPtr metadata = do_QueryInterface(mFileStream); MOZ_ASSERT(metadata); if (mParams.size()) { int64_t size; rv = metadata->GetSize(&size); if (NS_WARN_IF(NS_FAILED(rv))) { return rv; } if (NS_WARN_IF(size < 0)) { return NS_ERROR_FAILURE; } mMetadata.size() = uint64_t(size); } else { mMetadata.size() = void_t(); } if (mParams.lastModified()) { int64_t lastModified; rv = metadata->GetLastModified(&lastModified); if (NS_WARN_IF(NS_FAILED(rv))) { return rv; } mMetadata.lastModified() = lastModified; } else { mMetadata.lastModified() = void_t(); } return NS_OK; } void GetMetadataOp::GetResponse(FileRequestResponse& aResponse) { AssertIsOnOwningThread(); aResponse = FileRequestGetMetadataResponse(mMetadata); } ReadOp::ReadOp(FileHandle* aFileHandle, const FileRequestParams& aParams) : CopyFileHandleOp(aFileHandle) , mParams(aParams.get_FileRequestReadParams()) { MOZ_ASSERT(aParams.type() == FileRequestParams::TFileRequestReadParams); } bool ReadOp::Init(FileHandle* aFileHandle) { AssertIsOnOwningThread(); MOZ_ASSERT(aFileHandle); if (NS_WARN_IF(!NormalFileHandleOp::Init(aFileHandle))) { return false; } mBufferStream = MemoryOutputStream::Create(mParams.size()); if (NS_WARN_IF(!mBufferStream)) { return false; } mOffset = mParams.offset(); mSize = mParams.size(); mRead = true; return true; } void ReadOp::GetResponse(FileRequestResponse& aResponse) { AssertIsOnOwningThread(); auto* stream = static_cast(mBufferStream.get()); aResponse = FileRequestReadResponse(stream->Data()); } // static already_AddRefed ReadOp:: MemoryOutputStream::Create(uint64_t aSize) { MOZ_ASSERT(aSize, "Passed zero size!"); if (NS_WARN_IF(aSize > UINT32_MAX)) { return nullptr; } RefPtr stream = new MemoryOutputStream(); char* dummy; uint32_t length = stream->mData.GetMutableData(&dummy, aSize, fallible); if (NS_WARN_IF(length != aSize)) { return nullptr; } return stream.forget(); } NS_IMPL_ISUPPORTS(ReadOp::MemoryOutputStream, nsIOutputStream) NS_IMETHODIMP ReadOp:: MemoryOutputStream::Close() { mData.Truncate(mOffset); return NS_OK; } NS_IMETHODIMP ReadOp:: MemoryOutputStream::Write(const char* aBuf, uint32_t aCount, uint32_t* _retval) { return WriteSegments(NS_CopySegmentToBuffer, (char*)aBuf, aCount, _retval); } NS_IMETHODIMP ReadOp:: MemoryOutputStream::Flush() { return NS_OK; } NS_IMETHODIMP ReadOp:: MemoryOutputStream::WriteFrom(nsIInputStream* aFromStream, uint32_t aCount, uint32_t* _retval) { return NS_ERROR_NOT_IMPLEMENTED; } NS_IMETHODIMP ReadOp:: MemoryOutputStream::WriteSegments(nsReadSegmentFun aReader, void* aClosure, uint32_t aCount, uint32_t* _retval) { NS_ASSERTION(mData.Length() >= mOffset, "Bad stream state!"); uint32_t maxCount = mData.Length() - mOffset; if (maxCount == 0) { *_retval = 0; return NS_OK; } if (aCount > maxCount) { aCount = maxCount; } nsresult rv = aReader(this, aClosure, mData.BeginWriting() + mOffset, 0, aCount, _retval); if (NS_SUCCEEDED(rv)) { NS_ASSERTION(*_retval <= aCount, "Reader should not read more than we asked it to read!"); mOffset += *_retval; } return NS_OK; } NS_IMETHODIMP ReadOp:: MemoryOutputStream::IsNonBlocking(bool* _retval) { *_retval = false; return NS_OK; } WriteOp::WriteOp(FileHandle* aFileHandle, const FileRequestParams& aParams) : CopyFileHandleOp(aFileHandle) , mParams(aParams.get_FileRequestWriteParams()) { MOZ_ASSERT(aParams.type() == FileRequestParams::TFileRequestWriteParams); } bool WriteOp::Init(FileHandle* aFileHandle) { AssertIsOnOwningThread(); MOZ_ASSERT(aFileHandle); if (NS_WARN_IF(!NormalFileHandleOp::Init(aFileHandle))) { return false; } nsCOMPtr inputStream; const FileRequestData& data = mParams.data(); switch (data.type()) { case FileRequestData::TFileRequestStringData: { const FileRequestStringData& stringData = data.get_FileRequestStringData(); const nsCString& string = stringData.string(); nsresult rv = NS_NewCStringInputStream(getter_AddRefs(inputStream), string); if (NS_WARN_IF(NS_FAILED(rv))) { return false; } break; } case FileRequestData::TFileRequestBlobData: { const FileRequestBlobData& blobData = data.get_FileRequestBlobData(); auto blobActor = static_cast(blobData.blobParent()); RefPtr blobImpl = blobActor->GetBlobImpl(); ErrorResult rv; blobImpl->GetInternalStream(getter_AddRefs(inputStream), rv); if (NS_WARN_IF(rv.Failed())) { rv.SuppressException(); return false; } break; } default: MOZ_CRASH("Should never get here!"); } mBufferStream = inputStream; mOffset = mParams.offset(); mSize = mParams.dataLength(); mRead = false; return true; } void WriteOp::GetResponse(FileRequestResponse& aResponse) { AssertIsOnOwningThread(); aResponse = FileRequestWriteResponse(); } TruncateOp::TruncateOp(FileHandle* aFileHandle, const FileRequestParams& aParams) : NormalFileHandleOp(aFileHandle) , mParams(aParams.get_FileRequestTruncateParams()) { MOZ_ASSERT(aParams.type() == FileRequestParams::TFileRequestTruncateParams); } nsresult TruncateOp::DoFileWork(FileHandle* aFileHandle) { AssertIsOnThreadPool(); nsCOMPtr sstream = do_QueryInterface(mFileStream); MOZ_ASSERT(sstream); nsresult rv = sstream->Seek(nsISeekableStream::NS_SEEK_SET, mParams.offset()); if (NS_WARN_IF(NS_FAILED(rv))) { return rv; } rv = sstream->SetEOF(); if (NS_WARN_IF(NS_FAILED(rv))) { return rv; } return NS_OK; } void TruncateOp::GetResponse(FileRequestResponse& aResponse) { AssertIsOnOwningThread(); aResponse = FileRequestTruncateResponse(); } FlushOp::FlushOp(FileHandle* aFileHandle, const FileRequestParams& aParams) : NormalFileHandleOp(aFileHandle) , mParams(aParams.get_FileRequestFlushParams()) { MOZ_ASSERT(aParams.type() == FileRequestParams::TFileRequestFlushParams); } nsresult FlushOp::DoFileWork(FileHandle* aFileHandle) { AssertIsOnThreadPool(); nsCOMPtr ostream = do_QueryInterface(mFileStream); MOZ_ASSERT(ostream); nsresult rv = ostream->Flush(); if (NS_WARN_IF(NS_FAILED(rv))) { return rv; } return NS_OK; } void FlushOp::GetResponse(FileRequestResponse& aResponse) { AssertIsOnOwningThread(); aResponse = FileRequestFlushResponse(); } GetFileOp::GetFileOp(FileHandle* aFileHandle, const FileRequestParams& aParams) : GetMetadataOp(aFileHandle, FileRequestGetMetadataParams(true, true)) , mBackgroundParent(aFileHandle->GetBackgroundParent()) { MOZ_ASSERT(aParams.type() == FileRequestParams::TFileRequestGetFileParams); MOZ_ASSERT(mBackgroundParent); } void GetFileOp::GetResponse(FileRequestResponse& aResponse) { AssertIsOnOwningThread(); RefPtr blobImpl = mFileHandle->GetMutableFile()->CreateBlobImpl(); MOZ_ASSERT(blobImpl); PBlobParent* actor = BackgroundParent::GetOrCreateActorForBlobImpl(mBackgroundParent, blobImpl); if (NS_WARN_IF(!actor)) { // This can only fail if the child has crashed. aResponse = NS_ERROR_DOM_FILEHANDLE_UNKNOWN_ERR; return; } FileRequestGetFileResponse response; response.fileParent() = actor; response.metadata() = mMetadata; aResponse = response; } } // namespace dom } // namespace mozilla