// Copyright (c) 2007, Google Inc. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // MachIPC.h // // Some helpful wrappers for using Mach IPC calls #ifndef MACH_IPC_H__ #define MACH_IPC_H__ #import #import #import #import #import //============================================================================== // DISCUSSION: // // The three main classes of interest are // // MachMessage: a wrapper for a mach message of the following form // mach_msg_header_t // mach_msg_body_t // optional descriptors // optional extra message data // // MachReceiveMessage and MachSendMessage subclass MachMessage // and are used instead of MachMessage which is an abstract base class // // ReceivePort: // Represents a mach port for which we have receive rights // // MachPortSender: // Represents a mach port for which we have send rights // // Here's an example to receive a message on a server port: // // // This creates our named server port // ReceivePort receivePort("com.Google.MyService"); // // MachReceiveMessage message; // kern_return_t result = receivePort.WaitForMessage(&message, 0); // // if (result == KERN_SUCCESS && message.GetMessageID() == 57) { // mach_port_t task = message.GetTranslatedPort(0); // mach_port_t thread = message.GetTranslatedPort(1); // // char* messageString = message.GetData(); // // printf("message string = %s\n", messageString); // } // // Here is an example of using these classes to send a message to this port: // // // send to already named port // MachPortSender sender("com.Google.MyService"); // MachSendMessage message(57); // our message ID is 57 // // // add some ports to be translated for us // message.AddDescriptor(mach_task_self()); // our task // message.AddDescriptor(mach_thread_self()); // this thread // // char messageString[] = "Hello server!\n"; // message.SetData(messageString, strlen(messageString)+1); // // kern_return_t result = sender.SendMessage(message, 1000); // timeout 1000ms // namespace google_breakpad { #define PRINT_MACH_RESULT(result_, message_) \ printf(message_" %s (%d)\n", mach_error_string(result_), result_ ); //============================================================================== // A wrapper class for mach_msg_port_descriptor_t (with same memory layout) // with convenient constructors and accessors class MachMsgPortDescriptor : public mach_msg_port_descriptor_t { public: // General-purpose constructor MachMsgPortDescriptor(mach_port_t in_name, mach_msg_type_name_t in_disposition) { name = in_name; pad1 = 0; pad2 = 0; disposition = in_disposition; type = MACH_MSG_PORT_DESCRIPTOR; } // For passing send rights to a port MachMsgPortDescriptor(mach_port_t in_name) { name = in_name; pad1 = 0; pad2 = 0; disposition = MACH_MSG_TYPE_COPY_SEND; type = MACH_MSG_PORT_DESCRIPTOR; } // Copy constructor MachMsgPortDescriptor(const MachMsgPortDescriptor& desc) { name = desc.name; pad1 = desc.pad1; pad2 = desc.pad2; disposition = desc.disposition; type = desc.type; } mach_port_t GetMachPort() const { return name; } mach_msg_type_name_t GetDisposition() const { return disposition; } // For convenience operator mach_port_t() const { return GetMachPort(); } }; //============================================================================== // MachMessage: a wrapper for a mach message // (mach_msg_header_t, mach_msg_body_t, extra data) // // This considerably simplifies the construction of a message for sending // and the getting at relevant data and descriptors for the receiver. // // Currently the combined size of the descriptors plus data must be // less than 1024. But as a benefit no memory allocation is necessary. // // TODO: could consider adding malloc() support for very large messages // // A MachMessage object is used by ReceivePort::WaitForMessage // and MachPortSender::SendMessage // class MachMessage { public: // The receiver of the message can retrieve the raw data this way uint8_t* GetData() { return GetDataLength() > 0 ? GetDataPacket()->data : NULL; } uint32_t GetDataLength() { return EndianU32_LtoN(GetDataPacket()->data_length); } // The message ID may be used as a code identifying the type of message void SetMessageID(int32_t message_id) { GetDataPacket()->id = EndianU32_NtoL(message_id); } int32_t GetMessageID() { return EndianU32_LtoN(GetDataPacket()->id); } // Adds a descriptor (typically a mach port) to be translated // returns true if successful, otherwise not enough space bool AddDescriptor(const MachMsgPortDescriptor& desc); int GetDescriptorCount() const { return body.msgh_descriptor_count; } MachMsgPortDescriptor* GetDescriptor(int n); // Convenience method which gets the mach port described by the descriptor mach_port_t GetTranslatedPort(int n); // A simple message is one with no descriptors bool IsSimpleMessage() const { return GetDescriptorCount() == 0; } // Sets raw data for the message (returns false if not enough space) bool SetData(void* data, int32_t data_length); protected: // Consider this an abstract base class - must create an actual instance // of MachReceiveMessage or MachSendMessage MachMessage() { memset(this, 0, sizeof(MachMessage)); } friend class ReceivePort; friend class MachPortSender; // Represents raw data in our message struct MessageDataPacket { int32_t id; // little-endian int32_t data_length; // little-endian uint8_t data[1]; // actual size limited by sizeof(MachMessage) }; MessageDataPacket* GetDataPacket(); void SetDescriptorCount(int n); void SetDescriptor(int n, const MachMsgPortDescriptor& desc); // Returns total message size setting msgh_size in the header to this value mach_msg_size_t CalculateSize(); mach_msg_header_t head; mach_msg_body_t body; uint8_t padding[1024]; // descriptors and data may be embedded here }; //============================================================================== // MachReceiveMessage and MachSendMessage are useful to separate the idea // of a mach message being sent and being received, and adds increased type // safety: // ReceivePort::WaitForMessage() only accepts a MachReceiveMessage // MachPortSender::SendMessage() only accepts a MachSendMessage //============================================================================== class MachReceiveMessage : public MachMessage { public: MachReceiveMessage() : MachMessage() {} }; //============================================================================== class MachSendMessage : public MachMessage { public: MachSendMessage(int32_t message_id); }; //============================================================================== // Represents a mach port for which we have receive rights class ReceivePort { public: // Creates a new mach port for receiving messages and registers a name for it explicit ReceivePort(const char* receive_port_name); // Given an already existing mach port, use it. We take ownership of the // port and deallocate it in our destructor. explicit ReceivePort(mach_port_t receive_port); // Create a new mach port for receiving messages ReceivePort(); ~ReceivePort(); // Waits on the mach port until message received or timeout kern_return_t WaitForMessage(MachReceiveMessage* out_message, mach_msg_timeout_t timeout); // The underlying mach port that we wrap mach_port_t GetPort() const { return port_; } private: ReceivePort(const ReceivePort&); // disable copy c-tor mach_port_t port_; kern_return_t init_result_; }; //============================================================================== // Represents a mach port for which we have send rights class MachPortSender { public: // get a port with send rights corresponding to a named registered service explicit MachPortSender(const char* receive_port_name); // Given an already existing mach port, use it. explicit MachPortSender(mach_port_t send_port); kern_return_t SendMessage(MachSendMessage& message, mach_msg_timeout_t timeout); private: MachPortSender(const MachPortSender&); // disable copy c-tor mach_port_t send_port_; kern_return_t init_result_; }; } // namespace google_breakpad #endif // MACH_IPC_H__