/* -*- 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 http://mozilla.org/MPL/2.0/. */ #ifndef mozilla_mscom_StructStream_h #define mozilla_mscom_StructStream_h #include "mozilla/Attributes.h" #include "mozilla/UniquePtr.h" #include "nscore.h" #include #include #include #include /** * This code is used for (de)serializing data structures that have been * declared using midl, thus allowing us to use Microsoft RPC for marshaling * data for our COM handlers that may run in other processes that are not ours. */ namespace mozilla { namespace mscom { namespace detail { typedef ULONG EncodedLenT; } // namespace detail class MOZ_NON_TEMPORARY_CLASS StructToStream { public: /** * This constructor variant represents an empty/null struct to be serialized. */ StructToStream() : mStatus(RPC_S_OK) , mHandle(nullptr) , mBuffer(nullptr) , mEncodedLen(0) { } template StructToStream(StructT& aSrcStruct, void (*aEncodeFnPtr)(handle_t, StructT*)) : mStatus(RPC_X_INVALID_BUFFER) , mHandle(nullptr) , mBuffer(nullptr) , mEncodedLen(0) { mStatus = ::MesEncodeDynBufferHandleCreate(&mBuffer, &mEncodedLen, &mHandle); if (mStatus != RPC_S_OK) { return; } MOZ_SEH_TRY { aEncodeFnPtr(mHandle, &aSrcStruct); } MOZ_SEH_EXCEPT(EXCEPTION_EXECUTE_HANDLER) { mStatus = ::RpcExceptionCode(); return; } if (!mBuffer || !mEncodedLen) { mStatus = RPC_X_NO_MEMORY; return; } } ~StructToStream() { if (mHandle) { ::MesHandleFree(mHandle); } } static unsigned long GetEmptySize() { return sizeof(detail::EncodedLenT); } static HRESULT WriteEmpty(IStream* aDestStream) { StructToStream emptyStruct; return emptyStruct.Write(aDestStream); } explicit operator bool() const { return mStatus == RPC_S_OK; } bool IsEmpty() const { return mStatus == RPC_S_OK && !mEncodedLen; } unsigned long GetSize() const { return sizeof(mEncodedLen) + mEncodedLen; } HRESULT Write(IStream* aDestStream) { if (!aDestStream) { return E_INVALIDARG; } if (mStatus != RPC_S_OK) { return E_FAIL; } ULONG bytesWritten; HRESULT hr = aDestStream->Write(&mEncodedLen, sizeof(mEncodedLen), &bytesWritten); if (FAILED(hr)) { return hr; } if (bytesWritten != sizeof(mEncodedLen)) { return E_UNEXPECTED; } if (mBuffer && mEncodedLen) { hr = aDestStream->Write(mBuffer, mEncodedLen, &bytesWritten); if (FAILED(hr)) { return hr; } if (bytesWritten != mEncodedLen) { return E_UNEXPECTED; } } return hr; } StructToStream(const StructToStream&) = delete; StructToStream(StructToStream&&) = delete; StructToStream& operator=(const StructToStream&) = delete; StructToStream& operator=(StructToStream&&) = delete; private: RPC_STATUS mStatus; handle_t mHandle; char* mBuffer; detail::EncodedLenT mEncodedLen; }; class MOZ_NON_TEMPORARY_CLASS StructFromStream { struct AlignedFreeDeleter { void operator()(void* aPtr) { ::_aligned_free(aPtr); } }; static const detail::EncodedLenT kRpcReqdBufAlignment = 8; public: explicit StructFromStream(IStream* aStream) : mStatus(RPC_X_INVALID_BUFFER) , mHandle(nullptr) { MOZ_ASSERT(aStream); // Read the length of the encoded data first detail::EncodedLenT encodedLen = 0; ULONG bytesRead = 0; HRESULT hr = aStream->Read(&encodedLen, sizeof(encodedLen), &bytesRead); if (FAILED(hr)) { return; } // NB: Some implementations of IStream return S_FALSE to indicate EOF, // other implementations return S_OK and set the number of bytes read to 0. // We must handle both. if (hr == S_FALSE || !bytesRead) { mStatus = RPC_S_OBJECT_NOT_FOUND; return; } if (bytesRead != sizeof(encodedLen)) { return; } if (!encodedLen) { mStatus = RPC_S_OBJECT_NOT_FOUND; return; } MOZ_ASSERT(encodedLen % kRpcReqdBufAlignment == 0); if (encodedLen % kRpcReqdBufAlignment) { return; } // This memory allocation is fallible mEncodedBuffer.reset(static_cast( ::_aligned_malloc(encodedLen, kRpcReqdBufAlignment))); if (!mEncodedBuffer) { return; } ULONG bytesReadFromStream = 0; hr = aStream->Read(mEncodedBuffer.get(), encodedLen, &bytesReadFromStream); if (FAILED(hr) || bytesReadFromStream != encodedLen) { return; } mStatus = ::MesDecodeBufferHandleCreate(mEncodedBuffer.get(), encodedLen, &mHandle); } ~StructFromStream() { if (mHandle) { ::MesHandleFree(mHandle); } } explicit operator bool() const { return mStatus == RPC_S_OK || IsEmpty(); } bool IsEmpty() const { return mStatus == RPC_S_OBJECT_NOT_FOUND; } template bool Read(StructT* aDestStruct, void (*aDecodeFnPtr)(handle_t, StructT*)) { if (!aDestStruct || !aDecodeFnPtr || mStatus != RPC_S_OK) { return false; } // NB: Deserialization will fail with BSTRs unless the destination data // is zeroed out! ZeroMemory(aDestStruct, sizeof(StructT)); MOZ_SEH_TRY { aDecodeFnPtr(mHandle, aDestStruct); } MOZ_SEH_EXCEPT(EXCEPTION_EXECUTE_HANDLER) { mStatus = ::RpcExceptionCode(); return false; } return true; } StructFromStream(const StructFromStream&) = delete; StructFromStream(StructFromStream&&) = delete; StructFromStream& operator=(const StructFromStream&) = delete; StructFromStream& operator=(StructFromStream&&) = delete; private: RPC_STATUS mStatus; handle_t mHandle; UniquePtr mEncodedBuffer; }; } // namespace mscom } // namespace mozilla #endif // mozilla_mscom_StructStream_h