mojo/edk/embedder/embedder.h - mojo-tools - 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_EDK_EMBEDDER_EMBEDDER_H_
 #define MOJO_EDK_EMBEDDER_EMBEDDER_H_

 #include "base/callback.h"
 #include "base/memory/ref_counted.h"
 #include "base/memory/scoped_ptr.h"
 #include "base/task_runner.h"
 #include "mojo/edk/embedder/channel_info_forward.h"
 #include "mojo/edk/embedder/scoped_platform_handle.h"
 #include "mojo/edk/system/system_impl_export.h"
 #include "mojo/public/cpp/system/message_pipe.h"

 namespace mojo {
 namespace embedder {

 struct Configuration;
 class MasterProcessDelegate;
 class PlatformSupport;
 class SlaveProcessDelegate;

 // Returns the global configuration. In general, you should not need to change
 // the configuration, but if you do you must do it before calling |Init()|.
 MOJO_SYSTEM_IMPL_EXPORT Configuration* GetConfiguration();

 // Must be called first, or just after setting configuration parameters, to
 // initialize the (global, singleton) system.
 MOJO_SYSTEM_IMPL_EXPORT void Init(scoped_ptr<PlatformSupport> platform_support);

 // Initializes a master process. To be called after |Init()|.
 // |master_process_delegate| should live forever (or until after
 // |mojo::embedder::test::Shutdown()|); its methods will be called using
 // |delegate_thread_task_runner|, which must be the task runner for the thread
 // calling |InitMaster()|. |io_thread_task_runner| should be the task runner for
 // some I/O thread; this should be the same as that provided to
 // |CreateChannel()| (or on which |CreateChannelOnIOThread()| is called).
 // TODO(vtl): Remove the |io_thread_task_runner| argument from
 // |CreateChannel()| (and eventually |CreateChannel()| altogether) and require
 // that either this or |InitSlave()| be called. Currently, |CreateChannel()| can
 // be used with different I/O threads, but this capability will be removed.
 MOJO_SYSTEM_IMPL_EXPORT void InitMaster(
     scoped_refptr<base::TaskRunner> delegate_thread_task_runner,
     MasterProcessDelegate* master_process_delegate,
     scoped_refptr<base::TaskRunner> io_thread_task_runner);

 // Initializes a slave process. Similar to |InitMaster()| (see above).
 // |platform_handle| should be connected to the handle passed to |AddSlave()|.
 // TODO(vtl): |AddSlave()| doesn't exist yet.
 MOJO_SYSTEM_IMPL_EXPORT void InitSlave(
     scoped_refptr<base::TaskRunner> delegate_thread_task_runner,
     SlaveProcessDelegate* slave_process_delegate,
     scoped_refptr<base::TaskRunner> io_thread_task_runner,
     ScopedPlatformHandle platform_handle);

 // A "channel" is a connection on top of an OS "pipe", on top of which Mojo
 // message pipes (etc.) can be multiplexed. It must "live" on some I/O thread.
 //
 // There are two channel creation APIs: |CreateChannelOnIOThread()| creates a
 // channel synchronously and must be called from the I/O thread, while
 // |CreateChannel()| is asynchronous and may be called from any thread.
 // |DestroyChannel()| is used to destroy the channel in either case and may be
 // called from any thread, but completes synchronously when called from the I/O
 // thread.
 //
 // Both creation functions have a |platform_handle| argument, which 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).
 //
 // Both (synchronously) return a handle to the bootstrap message pipe on the
 // channel that was (or is to be) created, or |MOJO_HANDLE_INVALID| on error
 // (but note that this will happen only if, e.g., the handle table is full).
 // This message pipe may be used immediately, but since channel operation
 // actually begins asynchronously, other errors may still occur (e.g., if the
 // other end of the "pipe" is closed) and be reported in the usual way to the
 // returned handle.
 //
 // (E.g., a message written immediately to the returned handle will be queued
 // and the handle immediately closed, before the channel begins operation. In
 // this case, the channel should connect as usual, send the queued message, and
 // report that the handle was closed to the other side. The message sent may
 // have other handles, so there may still be message pipes "on" this channel.)
 //
 // Both also produce a |ChannelInfo*| (a pointer to an opaque object) -- the
 // first synchronously and second asynchronously.
 //
 // The destruction functions are similarly synchronous and asynchronous,
 // respectively, and take the |ChannelInfo*| produced by the creation functions.

 // Creates a channel; must only be called from the I/O thread. |platform_handle|
 // should be a handle to a connected OS "pipe". Eventually (even on failure),
 // the "out" value |*channel_info| should be passed to |DestoryChannel()| to
 // tear down the channel. Returns a handle to the bootstrap message pipe.
 MOJO_SYSTEM_IMPL_EXPORT ScopedMessagePipeHandle
 CreateChannelOnIOThread(ScopedPlatformHandle platform_handle,
                         ChannelInfo** channel_info);

 typedef base::Callback<void(ChannelInfo*)> DidCreateChannelCallback;
 // Creates a channel asynchronously; may be called from any thread.
 // |platform_handle| should be a handle to a connected OS "pipe".
 // |io_thread_task_runner| should be the |TaskRunner| for the I/O thread.
 // |callback| should be the callback to call with the |ChannelInfo*|, which
 // should eventually be passed to |DestroyChannel()| to tear down the channel;
 // the callback will be called using |callback_thread_task_runner| if that is
 // non-null, or otherwise it will be called using |io_thread_task_runner|.
 // Returns a handle to the bootstrap message pipe.
 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);

 // Destroys a channel that was created using |CreateChannel()| (or
 // |CreateChannelOnIOThread()|); may be called from any thread. |channel_info|
 // should be the value provided to the callback to |CreateChannel()| (or
 // returned by |CreateChannelOnIOThread()|). If called from the I/O thread, this
 // will complete synchronously (in particular, it will post no tasks).
 // TODO(vtl): If called from some other thread, it'll post tasks to the I/O
 // thread. This is obviously potentially problematic if you want to shut the I/O
 // thread down.
 MOJO_SYSTEM_IMPL_EXPORT void DestroyChannel(ChannelInfo* channel_info);

 // Inform the channel that it will soon be destroyed (doing so is optional).
 // This may be called from any thread, but the caller must ensure that this is
 // called before |DestroyChannel()|.
 MOJO_SYSTEM_IMPL_EXPORT void WillDestroyChannelSoon(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);

 // Start waiting the handle asynchronously. On success, |callback| will be
 // called exactly once, when |handle| satisfies a signal in |signals| or it
 // becomes known that it will never do so. |callback| will be executed on an
 // arbitrary thread. It must not call any Mojo system or embedder functions.
 MOJO_SYSTEM_IMPL_EXPORT MojoResult
 AsyncWait(MojoHandle handle,
           MojoHandleSignals signals,
           base::Callback<void(MojoResult)> callback);

 }  // namespace embedder
 }  // namespace mojo

 #endif  // MOJO_EDK_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_EDK_EMBEDDER_EMBEDDER_H_
	#define MOJO_EDK_EMBEDDER_EMBEDDER_H_

	#include "base/callback.h"
	#include "base/memory/ref_counted.h"
	#include "base/memory/scoped_ptr.h"
	#include "base/task_runner.h"
	#include "mojo/edk/embedder/channel_info_forward.h"
	#include "mojo/edk/embedder/scoped_platform_handle.h"
	#include "mojo/edk/system/system_impl_export.h"
	#include "mojo/public/cpp/system/message_pipe.h"

	namespace mojo {
	namespace embedder {

	struct Configuration;
	class MasterProcessDelegate;
	class PlatformSupport;
	class SlaveProcessDelegate;

	// Returns the global configuration. In general, you should not need to change
	// the configuration, but if you do you must do it before calling \|Init()\|.
	MOJO_SYSTEM_IMPL_EXPORT Configuration* GetConfiguration();

	// Must be called first, or just after setting configuration parameters, to
	// initialize the (global, singleton) system.
	MOJO_SYSTEM_IMPL_EXPORT void Init(scoped_ptr<PlatformSupport> platform_support);

	// Initializes a master process. To be called after \|Init()\|.
	// \|master_process_delegate\| should live forever (or until after
	// \|mojo::embedder::test::Shutdown()\|); its methods will be called using
	// \|delegate_thread_task_runner\|, which must be the task runner for the thread
	// calling \|InitMaster()\|. \|io_thread_task_runner\| should be the task runner for
	// some I/O thread; this should be the same as that provided to
	// \|CreateChannel()\| (or on which \|CreateChannelOnIOThread()\| is called).
	// TODO(vtl): Remove the \|io_thread_task_runner\| argument from
	// \|CreateChannel()\| (and eventually \|CreateChannel()\| altogether) and require
	// that either this or \|InitSlave()\| be called. Currently, \|CreateChannel()\| can
	// be used with different I/O threads, but this capability will be removed.
	MOJO_SYSTEM_IMPL_EXPORT void InitMaster(
	scoped_refptr<base::TaskRunner> delegate_thread_task_runner,
	MasterProcessDelegate* master_process_delegate,
	scoped_refptr<base::TaskRunner> io_thread_task_runner);

	// Initializes a slave process. Similar to \|InitMaster()\| (see above).
	// \|platform_handle\| should be connected to the handle passed to \|AddSlave()\|.
	// TODO(vtl): \|AddSlave()\| doesn't exist yet.
	MOJO_SYSTEM_IMPL_EXPORT void InitSlave(
	scoped_refptr<base::TaskRunner> delegate_thread_task_runner,
	SlaveProcessDelegate* slave_process_delegate,
	scoped_refptr<base::TaskRunner> io_thread_task_runner,
	ScopedPlatformHandle platform_handle);

	// A "channel" is a connection on top of an OS "pipe", on top of which Mojo
	// message pipes (etc.) can be multiplexed. It must "live" on some I/O thread.
	//
	// There are two channel creation APIs: \|CreateChannelOnIOThread()\| creates a
	// channel synchronously and must be called from the I/O thread, while
	// \|CreateChannel()\| is asynchronous and may be called from any thread.
	// \|DestroyChannel()\| is used to destroy the channel in either case and may be
	// called from any thread, but completes synchronously when called from the I/O
	// thread.
	//
	// Both creation functions have a \|platform_handle\| argument, which 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).
	//
	// Both (synchronously) return a handle to the bootstrap message pipe on the
	// channel that was (or is to be) created, or \|MOJO_HANDLE_INVALID\| on error
	// (but note that this will happen only if, e.g., the handle table is full).
	// This message pipe may be used immediately, but since channel operation
	// actually begins asynchronously, other errors may still occur (e.g., if the
	// other end of the "pipe" is closed) and be reported in the usual way to the
	// returned handle.
	//
	// (E.g., a message written immediately to the returned handle will be queued
	// and the handle immediately closed, before the channel begins operation. In
	// this case, the channel should connect as usual, send the queued message, and
	// report that the handle was closed to the other side. The message sent may
	// have other handles, so there may still be message pipes "on" this channel.)
	//
	// Both also produce a \|ChannelInfo*\| (a pointer to an opaque object) -- the
	// first synchronously and second asynchronously.
	//
	// The destruction functions are similarly synchronous and asynchronous,
	// respectively, and take the \|ChannelInfo*\| produced by the creation functions.

	// Creates a channel; must only be called from the I/O thread. \|platform_handle\|
	// should be a handle to a connected OS "pipe". Eventually (even on failure),
	// the "out" value \|*channel_info\| should be passed to \|DestoryChannel()\| to
	// tear down the channel. Returns a handle to the bootstrap message pipe.
	MOJO_SYSTEM_IMPL_EXPORT ScopedMessagePipeHandle
	CreateChannelOnIOThread(ScopedPlatformHandle platform_handle,
	ChannelInfo** channel_info);

	typedef base::Callback<void(ChannelInfo*)> DidCreateChannelCallback;
	// Creates a channel asynchronously; may be called from any thread.
	// \|platform_handle\| should be a handle to a connected OS "pipe".
	// \|io_thread_task_runner\| should be the \|TaskRunner\| for the I/O thread.
	// \|callback\| should be the callback to call with the \|ChannelInfo*\|, which
	// should eventually be passed to \|DestroyChannel()\| to tear down the channel;
	// the callback will be called using \|callback_thread_task_runner\| if that is
	// non-null, or otherwise it will be called using \|io_thread_task_runner\|.
	// Returns a handle to the bootstrap message pipe.
	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);

	// Destroys a channel that was created using \|CreateChannel()\| (or
	// \|CreateChannelOnIOThread()\|); may be called from any thread. \|channel_info\|
	// should be the value provided to the callback to \|CreateChannel()\| (or
	// returned by \|CreateChannelOnIOThread()\|). If called from the I/O thread, this
	// will complete synchronously (in particular, it will post no tasks).
	// TODO(vtl): If called from some other thread, it'll post tasks to the I/O
	// thread. This is obviously potentially problematic if you want to shut the I/O
	// thread down.
	MOJO_SYSTEM_IMPL_EXPORT void DestroyChannel(ChannelInfo* channel_info);

	// Inform the channel that it will soon be destroyed (doing so is optional).
	// This may be called from any thread, but the caller must ensure that this is
	// called before \|DestroyChannel()\|.
	MOJO_SYSTEM_IMPL_EXPORT void WillDestroyChannelSoon(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);

	// Start waiting the handle asynchronously. On success, \|callback\| will be
	// called exactly once, when \|handle\| satisfies a signal in \|signals\| or it
	// becomes known that it will never do so. \|callback\| will be executed on an
	// arbitrary thread. It must not call any Mojo system or embedder functions.
	MOJO_SYSTEM_IMPL_EXPORT MojoResult
	AsyncWait(MojoHandle handle,
	MojoHandleSignals signals,
	base::Callback<void(MojoResult)> callback);

	} // namespace embedder
	} // namespace mojo

	#endif // MOJO_EDK_EMBEDDER_EMBEDDER_H_