src/base/mach_ipc_mac.h - cobalt - Git at Google

 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef BASE_MACH_IPC_MAC_H_
 #define BASE_MACH_IPC_MAC_H_

 #include <mach/mach.h>
 #include <mach/message.h>
 #include <servers/bootstrap.h>
 #include <sys/types.h>

 #include <CoreServices/CoreServices.h>

 #include "base/base_export.h"
 #include "base/basictypes.h"

 //==============================================================================
 // 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);
 //    // timeout 1000ms
 //    kern_return_t result = sender.SendMessage(message, 1000);
 //

 #define PRINT_MACH_RESULT(result_, message_) \
   printf(message_" %s (%d)\n", mach_error_string(result_), result_ );

 namespace base {

 //==============================================================================
 // 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_PORT_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.
 //
 //  This class can be initialized using external storage of an arbitrary size
 //  or it can manage storage internally.
 //  1. If storage is allocated internally, the combined size of the descriptors
 //  plus data must be less than 1024.  But as a benefit no memory allocation is
 //  necessary.
 //  2. For external storage, a buffer of at least EmptyMessageSize() must be
 //  provided.
 //
 //  A MachMessage object is used by ReceivePort::WaitForMessage
 //  and MachPortSender::SendMessage
 //
 class BASE_EXPORT MachMessage {
  public:
   static const size_t kEmptyMessageSize;

   virtual ~MachMessage();

   // The receiver of the message can retrieve the raw data this way
   u_int8_t *GetData() {
     return GetDataLength() > 0 ? GetDataPacket()->data : NULL;
   }

   u_int32_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 storage_->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(const void* data, int32_t data_length);

  protected:
   // Consider this an abstract base class - must create an actual instance
   // of MachReceiveMessage or MachSendMessage
   MachMessage();

   // Constructor for use with preallocate storage.
   // storage_length must be >= EmptyMessageSize()
   MachMessage(void *storage, size_t storage_length);

   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
     u_int8_t data[1];     // actual size limited by storage_length_bytes_
   };

   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
   int CalculateSize();

   // Returns total storage size that this object can grow to, this is inclusive
   // of the Mach header.
   size_t MaxSize() const { return storage_length_bytes_; }

   mach_msg_header_t *Head() { return &(storage_->head); }

  private:
   struct MachMessageData {
     mach_msg_header_t  head;
     mach_msg_body_t    body;
     // descriptors and data may be embedded here.
     u_int8_t           padding[1024];
   };

   MachMessageData *storage_;
   size_t storage_length_bytes_;
   bool own_storage_;  // Is storage owned by this object?
 };

 //==============================================================================
 // 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() {}
   MachReceiveMessage(void *storage, size_t storage_length)
       : MachMessage(storage, storage_length) {}

  private:
     DISALLOW_COPY_AND_ASSIGN(MachReceiveMessage);
 };

 //==============================================================================
 class BASE_EXPORT MachSendMessage : public MachMessage {
  public:
   explicit MachSendMessage(int32_t message_id);
   MachSendMessage(void *storage, size_t storage_length, int32_t message_id);

  private:
   void Initialize(int32_t message_id);

   DISALLOW_COPY_AND_ASSIGN(MachSendMessage);
 };

 //==============================================================================
 // Represents a Mach port for which we have receive rights
 class BASE_EXPORT 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.  If |timeout| is
   // MACH_MSG_TIMEOUT_NONE, this method waits forever.
   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:
   mach_port_t   port_;
   kern_return_t init_result_;

   DISALLOW_COPY_AND_ASSIGN(ReceivePort);
 };

 //==============================================================================
 // Represents a Mach port for which we have send rights
 class BASE_EXPORT 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. Does not take ownership of
   // |send_port|.
   explicit MachPortSender(mach_port_t send_port);

   kern_return_t SendMessage(MachSendMessage &message,
                             mach_msg_timeout_t timeout);

  private:
   mach_port_t   send_port_;
   kern_return_t init_result_;

   DISALLOW_COPY_AND_ASSIGN(MachPortSender);
 };

 //==============================================================================
 // Static utility functions.

 namespace mac {

 // Returns the number of Mach ports to which the given task has a right.
 // Note that unless the calling task has send rights to the passed task port,
 // this will fail unless the calling task is running as root.
 kern_return_t BASE_EXPORT GetNumberOfMachPorts(mach_port_t task_port,
                                                int* port_count);

 }  // namespace mac

 }  // namespace base

 #endif // BASE_MACH_IPC_MAC_H_
	// Copyright (c) 2012 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef BASE_MACH_IPC_MAC_H_
	#define BASE_MACH_IPC_MAC_H_

	#include <mach/mach.h>
	#include <mach/message.h>
	#include <servers/bootstrap.h>
	#include <sys/types.h>

	#include <CoreServices/CoreServices.h>

	#include "base/base_export.h"
	#include "base/basictypes.h"

	//==============================================================================
	// 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);
	// // timeout 1000ms
	// kern_return_t result = sender.SendMessage(message, 1000);
	//

	#define PRINT_MACH_RESULT(result_, message_) \
	printf(message_" %s (%d)\n", mach_error_string(result_), result_ );

	namespace base {

	//==============================================================================
	// 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_PORT_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.
	//
	// This class can be initialized using external storage of an arbitrary size
	// or it can manage storage internally.
	// 1. If storage is allocated internally, the combined size of the descriptors
	// plus data must be less than 1024. But as a benefit no memory allocation is
	// necessary.
	// 2. For external storage, a buffer of at least EmptyMessageSize() must be
	// provided.
	//
	// A MachMessage object is used by ReceivePort::WaitForMessage
	// and MachPortSender::SendMessage
	//
	class BASE_EXPORT MachMessage {
	public:
	static const size_t kEmptyMessageSize;

	virtual ~MachMessage();

	// The receiver of the message can retrieve the raw data this way
	u_int8_t *GetData() {
	return GetDataLength() > 0 ? GetDataPacket()->data : NULL;
	}

	u_int32_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 storage_->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(const void* data, int32_t data_length);

	protected:
	// Consider this an abstract base class - must create an actual instance
	// of MachReceiveMessage or MachSendMessage
	MachMessage();

	// Constructor for use with preallocate storage.
	// storage_length must be >= EmptyMessageSize()
	MachMessage(void *storage, size_t storage_length);

	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
	u_int8_t data[1]; // actual size limited by storage_length_bytes_
	};

	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
	int CalculateSize();

	// Returns total storage size that this object can grow to, this is inclusive
	// of the Mach header.
	size_t MaxSize() const { return storage_length_bytes_; }

	mach_msg_header_t *Head() { return &(storage_->head); }

	private:
	struct MachMessageData {
	mach_msg_header_t head;
	mach_msg_body_t body;
	// descriptors and data may be embedded here.
	u_int8_t padding[1024];
	};

	MachMessageData *storage_;
	size_t storage_length_bytes_;
	bool own_storage_; // Is storage owned by this object?
	};

	//==============================================================================
	// 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() {}
	MachReceiveMessage(void *storage, size_t storage_length)
	: MachMessage(storage, storage_length) {}

	private:
	DISALLOW_COPY_AND_ASSIGN(MachReceiveMessage);
	};

	//==============================================================================
	class BASE_EXPORT MachSendMessage : public MachMessage {
	public:
	explicit MachSendMessage(int32_t message_id);
	MachSendMessage(void *storage, size_t storage_length, int32_t message_id);

	private:
	void Initialize(int32_t message_id);

	DISALLOW_COPY_AND_ASSIGN(MachSendMessage);
	};

	//==============================================================================
	// Represents a Mach port for which we have receive rights
	class BASE_EXPORT 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. If \|timeout\| is
	// MACH_MSG_TIMEOUT_NONE, this method waits forever.
	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:
	mach_port_t port_;
	kern_return_t init_result_;

	DISALLOW_COPY_AND_ASSIGN(ReceivePort);
	};

	//==============================================================================
	// Represents a Mach port for which we have send rights
	class BASE_EXPORT 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. Does not take ownership of
	// \|send_port\|.
	explicit MachPortSender(mach_port_t send_port);

	kern_return_t SendMessage(MachSendMessage &message,
	mach_msg_timeout_t timeout);

	private:
	mach_port_t send_port_;
	kern_return_t init_result_;

	DISALLOW_COPY_AND_ASSIGN(MachPortSender);
	};

	//==============================================================================
	// Static utility functions.

	namespace mac {

	// Returns the number of Mach ports to which the given task has a right.
	// Note that unless the calling task has send rights to the passed task port,
	// this will fail unless the calling task is running as root.
	kern_return_t BASE_EXPORT GetNumberOfMachPorts(mach_port_t task_port,
	int* port_count);

	} // namespace mac

	} // namespace base

	#endif // BASE_MACH_IPC_MAC_H_