/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=8 sts=2 et sw=2 tw=80: */ /* 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 https://mozilla.org/MPL/2.0/. */ #ifndef mozilla_ipc_DataPipe_h #define mozilla_ipc_DataPipe_h #include "mozilla/ipc/SharedMemoryBasic.h" #include "mozilla/ipc/NodeController.h" #include "nsIAsyncInputStream.h" #include "nsIAsyncOutputStream.h" #include "nsIIPCSerializableInputStream.h" #include "nsISupports.h" namespace mozilla { namespace ipc { namespace data_pipe_detail { class DataPipeAutoLock; class DataPipeLink; class DataPipeBase { public: DataPipeBase(const DataPipeBase&) = delete; DataPipeBase& operator=(const DataPipeBase&) = delete; protected: explicit DataPipeBase(bool aReceiverSide, nsresult aError); DataPipeBase(bool aReceiverSide, ScopedPort aPort, SharedMemory* aShmem, uint32_t aCapacity, nsresult aPeerStatus, uint32_t aOffset, uint32_t aAvailable); void CloseInternal(DataPipeAutoLock&, nsresult aStatus) MOZ_REQUIRES(*mMutex); void AsyncWaitInternal(already_AddRefed aCallback, already_AddRefed aTarget, bool aClosureOnly) MOZ_EXCLUDES(*mMutex); // Like `nsWriteSegmentFun` or `nsReadSegmentFun`. using ProcessSegmentFun = FunctionRef aSpan, uint32_t aProcessedThisCall, uint32_t* aProcessedCount)>; nsresult ProcessSegmentsInternal(uint32_t aCount, ProcessSegmentFun aProcessSegment, uint32_t* aProcessedCount) MOZ_EXCLUDES(*mMutex); nsresult CheckStatus(DataPipeAutoLock&) MOZ_REQUIRES(*mMutex); nsCString Describe(DataPipeAutoLock&) MOZ_REQUIRES(*mMutex); // Thread safety helper to tell the analysis that `mLink->mMutex` is held when // `mMutex` is held. void AssertSameMutex(const std::shared_ptr& aMutex) MOZ_REQUIRES(*mMutex) MOZ_ASSERT_CAPABILITY(*aMutex) { MOZ_ASSERT(mMutex == aMutex); } virtual ~DataPipeBase(); const std::shared_ptr mMutex; nsresult mStatus MOZ_GUARDED_BY(*mMutex) = NS_OK; RefPtr mLink MOZ_GUARDED_BY(*mMutex); }; template void DataPipeWrite(IPC::MessageWriter* aWriter, T* aParam); template bool DataPipeRead(IPC::MessageReader* aReader, RefPtr* aResult); } // namespace data_pipe_detail class DataPipeSender; class DataPipeReceiver; #define NS_DATAPIPESENDER_IID \ { \ 0x6698ed77, 0x9fff, 0x425d, { \ 0xb0, 0xa6, 0x1d, 0x30, 0x66, 0xee, 0xb8, 0x16 \ } \ } // Helper class for streaming data to another process. class DataPipeSender final : public nsIAsyncOutputStream, public data_pipe_detail::DataPipeBase { public: NS_DECLARE_STATIC_IID_ACCESSOR(NS_DATAPIPESENDER_IID) NS_DECL_THREADSAFE_ISUPPORTS NS_DECL_NSIOUTPUTSTREAM NS_DECL_NSIASYNCOUTPUTSTREAM private: friend nsresult NewDataPipe(uint32_t, DataPipeSender**, DataPipeReceiver**); friend void data_pipe_detail::DataPipeWrite( IPC::MessageWriter* aWriter, DataPipeSender* aParam); friend bool data_pipe_detail::DataPipeRead( IPC::MessageReader* aReader, RefPtr* aResult); explicit DataPipeSender(nsresult aError) : data_pipe_detail::DataPipeBase(/* aReceiverSide */ false, aError) {} DataPipeSender(ScopedPort aPort, SharedMemory* aShmem, uint32_t aCapacity, nsresult aPeerStatus, uint32_t aOffset, uint32_t aAvailable) : data_pipe_detail::DataPipeBase(/* aReceiverSide */ false, std::move(aPort), aShmem, aCapacity, aPeerStatus, aOffset, aAvailable) {} ~DataPipeSender() = default; }; NS_DEFINE_STATIC_IID_ACCESSOR(DataPipeSender, NS_DATAPIPESENDER_IID) #define NS_DATAPIPERECEIVER_IID \ { \ 0x0a185f83, 0x499e, 0x450c, { \ 0x95, 0x82, 0x27, 0x67, 0xad, 0x6d, 0x64, 0xb5 \ } \ } // Helper class for streaming data from another process. class DataPipeReceiver final : public nsIAsyncInputStream, public nsIIPCSerializableInputStream, public data_pipe_detail::DataPipeBase { public: NS_DECLARE_STATIC_IID_ACCESSOR(NS_DATAPIPERECEIVER_IID) NS_DECL_THREADSAFE_ISUPPORTS NS_DECL_NSIINPUTSTREAM NS_DECL_NSIASYNCINPUTSTREAM NS_DECL_NSIIPCSERIALIZABLEINPUTSTREAM private: friend nsresult NewDataPipe(uint32_t, DataPipeSender**, DataPipeReceiver**); friend void data_pipe_detail::DataPipeWrite( IPC::MessageWriter* aWriter, DataPipeReceiver* aParam); friend bool data_pipe_detail::DataPipeRead( IPC::MessageReader* aReader, RefPtr* aResult); explicit DataPipeReceiver(nsresult aError) : data_pipe_detail::DataPipeBase(/* aReceiverSide */ true, aError) {} DataPipeReceiver(ScopedPort aPort, SharedMemory* aShmem, uint32_t aCapacity, nsresult aPeerStatus, uint32_t aOffset, uint32_t aAvailable) : data_pipe_detail::DataPipeBase(/* aReceiverSide */ true, std::move(aPort), aShmem, aCapacity, aPeerStatus, aOffset, aAvailable) {} ~DataPipeReceiver() = default; }; NS_DEFINE_STATIC_IID_ACCESSOR(DataPipeReceiver, NS_DATAPIPERECEIVER_IID) constexpr uint32_t kDefaultDataPipeCapacity = 64 * 1024; /** * Create a new DataPipe pair. The sender and receiver ends of the pipe may be * used to transfer data between processes. |aCapacity| is the capacity of the * underlying ring buffer. If `0` is passed, `kDefaultDataPipeCapacity` will be * used. */ nsresult NewDataPipe(uint32_t aCapacity, DataPipeSender** aSender, DataPipeReceiver** aReceiver); } // namespace ipc } // namespace mozilla namespace IPC { template <> struct ParamTraits { static void Write(MessageWriter* aWriter, mozilla::ipc::DataPipeSender* aParam); static bool Read(MessageReader* aReader, RefPtr* aResult); }; template <> struct ParamTraits { static void Write(MessageWriter* aWriter, mozilla::ipc::DataPipeReceiver* aParam); static bool Read(MessageReader* aReader, RefPtr* aResult); }; } // namespace IPC #endif // mozilla_ipc_DataPipe_h