/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* vim: set ts=8 sts=4 et sw=4 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 __MINITRANSCEIVER_H_ #define __MINITRANSCEIVER_H_ #include "chrome/common/ipc_message.h" #include "mozilla/Assertions.h" struct msghdr; namespace mozilla { namespace ipc { enum class DataBufferClear { None, AfterReceiving }; /** * This simple implementation handles the transmissions of IPC * messages. * * It works according to a strict request-response paradigm, no * concurrent messaging is allowed. Sending a message from A to B must * be followed by another one from B to A. Because of this we don't * need to handle data crossing the boundaries of a * message. Transmission is done via blocking I/O to avoid the * complexity of asynchronous I/O. */ class MiniTransceiver { public: /** * \param aFd should be a blocking, no O_NONBLOCK, fd. * \param aClearDataBuf is true to clear data buffers after * receiving a message. */ explicit MiniTransceiver( int aFd, DataBufferClear aDataBufClear = DataBufferClear::None); bool Send(IPC::Message& aMsg); inline bool SendInfallible(IPC::Message& aMsg, const char* aCrashMessage) { bool Ok = Send(aMsg); if (!Ok) { MOZ_CRASH_UNSAFE(aCrashMessage); } return Ok; } /** * \param aMsg will hold the content of the received message. * \return false if the fd is closed or with an error. */ bool Recv(IPC::Message& aMsg); inline bool RecvInfallible(IPC::Message& aMsg, const char* aCrashMessage) { bool Ok = Recv(aMsg); if (!Ok) { MOZ_CRASH_UNSAFE(aCrashMessage); } return Ok; } int GetFD() { return mFd; } private: /** * Set control buffer to make file descriptors ready to be sent * through a socket. */ void PrepareFDs(msghdr* aHdr, IPC::Message& aMsg); /** * Collect buffers of the message and make them ready to be sent. * * \param aHdr is the structure going to be passed to sendmsg(). * \param aMsg is the Message to send. */ size_t PrepareBuffers(msghdr* aHdr, IPC::Message& aMsg); /** * Collect file descriptors received. * * \param aAllFds is where to store file descriptors. * \param aMaxFds is how many file descriptors can be stored in aAllFds. * \return the number of received file descriptors. */ unsigned RecvFDs(msghdr* aHdr, int* aAllFds, unsigned aMaxFds); /** * Received data from the socket. * * \param aDataBuf is where to store the data from the socket. * \param aBufSize is the size of the buffer. * \param aMsgSize returns how many bytes were readed from the socket. * \param aFdsBuf is the buffer to return file desriptors received. * \param aMaxFds is the number of file descriptors that can be held. * \param aNumFds returns the number of file descriptors received. * \return true if sucess, or false for error. */ bool RecvData(char* aDataBuf, size_t aBufSize, uint32_t* aMsgSize, int* aFdsBuf, unsigned aMaxFds, unsigned* aNumFds); int mFd; // The file descriptor of the socket for IPC. #ifdef DEBUG enum State { STATE_NONE, STATE_SENDING, STATE_RECEIVING, }; State mState; #endif // Clear all received data in temp buffers to avoid data leaking. DataBufferClear mDataBufClear; }; } // namespace ipc } // namespace mozilla #endif // __MINITRANSCEIVER_H_