mojo/embedder/embedder.h - platform/external/chromium_org - Git at Google

 // Copyright 2014 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 MOJO_EMBEDDER_EMBEDDER_H_
 #define MOJO_EMBEDDER_EMBEDDER_H_

 #include "base/callback.h"
 #include "base/memory/ref_counted.h"
 #include "base/task_runner.h"
 #include "mojo/embedder/scoped_platform_handle.h"
 #include "mojo/public/cpp/system/core.h"
 #include "mojo/system/system_impl_export.h"

 namespace mojo {
 namespace embedder {

 // Must be called first to initialize the (global, singleton) system.
 MOJO_SYSTEM_IMPL_EXPORT void Init();

 // Creates a new "channel", returning a handle to the bootstrap message pipe on
 // that channel. |platform_handle| should be an OS-dependent handle to one side
 // of a suitable bidirectional OS "pipe" (e.g., a file descriptor to a socket on
 // POSIX, a handle to a named pipe on Windows); this "pipe" should be connected
 // and ready for operation (e.g., to be written to or read from).
 // |io_thread_task_runner| should be a |TaskRunner| for the thread on which the
 // "channel" will run (read data and demultiplex).
 //
 // On completion, it will run |callback| with a pointer to a |ChannelInfo|
 // (which is meant to be opaque to the embedder). If
 // |callback_thread_task_runner| is non-null, it the callback will be posted to
 // that task runner. Otherwise, it will be run on the I/O thread directly.
 //
 // Returns an invalid |MOJO_HANDLE_INVALID| on error. Note that this will happen
 // only if, e.g., the handle table is full (operation of the channel begins
 // asynchronously and if, e.g., the other end of the "pipe" is closed, this will
 // report an error to the returned handle in the usual way).
 //
 // Notes: The handle returned is ready for use immediately, with messages
 // written to it queued. E.g., it would be perfectly valid for a message to be
 // immediately written to the returned handle and the handle closed, all before
 // the channel has begun operation on the IO thread. In this case, the channel
 // is expected to connect as usual, send the queued message, and report that the
 // handle was closed to the other side. (This message may well contain another
 // handle, so there may well still be message pipes "on" this channel.)
 //
 // TODO(vtl): Figure out channel teardown.
 struct ChannelInfo;
 typedef base::Callback<void(ChannelInfo*)> DidCreateChannelCallback;
 MOJO_SYSTEM_IMPL_EXPORT ScopedMessagePipeHandle CreateChannel(
     ScopedPlatformHandle platform_handle,
     scoped_refptr<base::TaskRunner> io_thread_task_runner,
     DidCreateChannelCallback callback,
     scoped_refptr<base::TaskRunner> callback_thread_task_runner);

 MOJO_SYSTEM_IMPL_EXPORT void DestroyChannelOnIOThread(
     ChannelInfo* channel_info);

 // Creates a |MojoHandle| that wraps the given |PlatformHandle| (taking
 // ownership of it). This |MojoHandle| can then, e.g., be passed through message
 // pipes. Note: This takes ownership (and thus closes) |platform_handle| even on
 // failure, which is different from what you'd expect from a Mojo API, but it
 // makes for a more convenient embedder API.
 MOJO_SYSTEM_IMPL_EXPORT MojoResult CreatePlatformHandleWrapper(
     ScopedPlatformHandle platform_handle,
     MojoHandle* platform_handle_wrapper_handle);
 // Retrieves the |PlatformHandle| that was wrapped into a |MojoHandle| (using
 // |CreatePlatformHandleWrapper()| above). Note that the |MojoHandle| must still
 // be closed separately.
 MOJO_SYSTEM_IMPL_EXPORT MojoResult PassWrappedPlatformHandle(
     MojoHandle platform_handle_wrapper_handle,
     ScopedPlatformHandle* platform_handle);

 }  // namespace embedder
 }  // namespace mojo

 #endif  // MOJO_EMBEDDER_EMBEDDER_H_
	// Copyright 2014 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 MOJO_EMBEDDER_EMBEDDER_H_
	#define MOJO_EMBEDDER_EMBEDDER_H_

	#include "base/callback.h"
	#include "base/memory/ref_counted.h"
	#include "base/task_runner.h"
	#include "mojo/embedder/scoped_platform_handle.h"
	#include "mojo/public/cpp/system/core.h"
	#include "mojo/system/system_impl_export.h"

	namespace mojo {
	namespace embedder {

	// Must be called first to initialize the (global, singleton) system.
	MOJO_SYSTEM_IMPL_EXPORT void Init();

	// Creates a new "channel", returning a handle to the bootstrap message pipe on
	// that channel. \|platform_handle\| should be an OS-dependent handle to one side
	// of a suitable bidirectional OS "pipe" (e.g., a file descriptor to a socket on
	// POSIX, a handle to a named pipe on Windows); this "pipe" should be connected
	// and ready for operation (e.g., to be written to or read from).
	// \|io_thread_task_runner\| should be a \|TaskRunner\| for the thread on which the
	// "channel" will run (read data and demultiplex).
	//
	// On completion, it will run \|callback\| with a pointer to a \|ChannelInfo\|
	// (which is meant to be opaque to the embedder). If
	// \|callback_thread_task_runner\| is non-null, it the callback will be posted to
	// that task runner. Otherwise, it will be run on the I/O thread directly.
	//
	// Returns an invalid \|MOJO_HANDLE_INVALID\| on error. Note that this will happen
	// only if, e.g., the handle table is full (operation of the channel begins
	// asynchronously and if, e.g., the other end of the "pipe" is closed, this will
	// report an error to the returned handle in the usual way).
	//
	// Notes: The handle returned is ready for use immediately, with messages
	// written to it queued. E.g., it would be perfectly valid for a message to be
	// immediately written to the returned handle and the handle closed, all before
	// the channel has begun operation on the IO thread. In this case, the channel
	// is expected to connect as usual, send the queued message, and report that the
	// handle was closed to the other side. (This message may well contain another
	// handle, so there may well still be message pipes "on" this channel.)
	//
	// TODO(vtl): Figure out channel teardown.
	struct ChannelInfo;
	typedef base::Callback<void(ChannelInfo*)> DidCreateChannelCallback;
	MOJO_SYSTEM_IMPL_EXPORT ScopedMessagePipeHandle CreateChannel(
	ScopedPlatformHandle platform_handle,
	scoped_refptr<base::TaskRunner> io_thread_task_runner,
	DidCreateChannelCallback callback,
	scoped_refptr<base::TaskRunner> callback_thread_task_runner);

	MOJO_SYSTEM_IMPL_EXPORT void DestroyChannelOnIOThread(
	ChannelInfo* channel_info);

	// Creates a \|MojoHandle\| that wraps the given \|PlatformHandle\| (taking
	// ownership of it). This \|MojoHandle\| can then, e.g., be passed through message
	// pipes. Note: This takes ownership (and thus closes) \|platform_handle\| even on
	// failure, which is different from what you'd expect from a Mojo API, but it
	// makes for a more convenient embedder API.
	MOJO_SYSTEM_IMPL_EXPORT MojoResult CreatePlatformHandleWrapper(
	ScopedPlatformHandle platform_handle,
	MojoHandle* platform_handle_wrapper_handle);
	// Retrieves the \|PlatformHandle\| that was wrapped into a \|MojoHandle\| (using
	// \|CreatePlatformHandleWrapper()\| above). Note that the \|MojoHandle\| must still
	// be closed separately.
	MOJO_SYSTEM_IMPL_EXPORT MojoResult PassWrappedPlatformHandle(
	MojoHandle platform_handle_wrapper_handle,
	ScopedPlatformHandle* platform_handle);

	} // namespace embedder
	} // namespace mojo

	#endif // MOJO_EMBEDDER_EMBEDDER_H_