mojo/system/channel.h - platform/external/chromium_org - Git at Google

 // Copyright 2013 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_SYSTEM_CHANNEL_H_
 #define MOJO_SYSTEM_CHANNEL_H_

 #include <stdint.h>

 #include "base/basictypes.h"
 #include "base/compiler_specific.h"
 #include "base/containers/hash_tables.h"
 #include "base/memory/ref_counted.h"
 #include "base/memory/scoped_ptr.h"
 #include "base/strings/string_piece.h"
 #include "base/synchronization/lock.h"
 #include "base/threading/thread_checker.h"
 #include "mojo/embedder/scoped_platform_handle.h"
 #include "mojo/public/c/system/types.h"
 #include "mojo/system/message_in_transit.h"
 #include "mojo/system/message_pipe.h"
 #include "mojo/system/raw_channel.h"
 #include "mojo/system/system_impl_export.h"

 namespace mojo {
 namespace system {

 // This class is mostly thread-safe. It must be created on an I/O thread.
 // |Init()| must be called on that same thread before it becomes thread-safe (in
 // particular, before references are given to any other thread) and |Shutdown()|
 // must be called on that same thread before destruction. Its public methods are
 // otherwise thread-safe. It may be destroyed on any thread, in the sense that
 // the last reference to it may be released on any thread, with the proviso that
 // |Shutdown()| must have been called first (so the pattern is that a "main"
 // reference is kept on its creation thread and is released after |Shutdown()|
 // is called, but other threads may have temporarily "dangling" references).
 //
 // Note that |MessagePipe| calls into |Channel| and the former's |lock_| must be
 // acquired before the latter's. When |Channel| wants to call into a
 // |MessagePipe|, it must obtain a reference to the |MessagePipe| (from
 // |local_id_to_endpoint_info_map_|) under |Channel::lock_| and then release the
 // lock.
 //
 // Also, care must be taken with respect to references: While a |Channel| has
 // references to |MessagePipe|s, |MessagePipe|s (via |ProxyMessagePipeEndpoint|)
 // may also have references to |Channel|s. These references are set up by
 // calling |AttachMessagePipeEndpoint()|. The reference to |MessagePipe| owned
 // by |Channel| must be removed by calling |DetachMessagePipeEndpoint()| (which
 // is done by |MessagePipe|/|ProxyMessagePipeEndpoint|, which simultaneously
 // removes its reference to |Channel|).
 class MOJO_SYSTEM_IMPL_EXPORT Channel
     : public base::RefCountedThreadSafe<Channel>,
       public RawChannel::Delegate {
  public:
   // The first message pipe endpoint attached will have this as its local ID.
   static const MessageInTransit::EndpointId kBootstrapEndpointId = 1;

   Channel();

   // This must be called on the creation thread before any other methods are
   // called, and before references to this object are given to any other
   // threads. |raw_channel| should be uninitialized. Returns true on success. On
   // failure, no other methods should be called (including |Shutdown()|).
   bool Init(scoped_ptr<RawChannel> raw_channel);

   // This must be called on the creation thread before destruction (which can
   // happen on any thread).
   void Shutdown();

   // Attaches the given message pipe/port's endpoint (which must be a
   // |ProxyMessagePipeEndpoint|) to this channel. This assigns it a local ID,
   // which it returns. The first message pipe endpoint attached will always have
   // |kBootstrapEndpointId| as its local ID. (For bootstrapping, this occurs on
   // both sides, so one should use |kBootstrapEndpointId| for the remote ID for
   // the first message pipe across a channel.) Returns |kInvalidEndpointId| on
   // failure.
   // TODO(vtl): Maybe limit the number of attached message pipes.
   MessageInTransit::EndpointId AttachMessagePipeEndpoint(
       scoped_refptr<MessagePipe> message_pipe,
       unsigned port);

   // Runs the message pipe with the given |local_id| (previously attached), with
   // the given |remote_id| (negotiated using some other means, e.g., over an
   // existing message pipe; see comments above for the bootstrap case). Returns
   // false on failure, in particular if no message pipe with |local_id| is
   // attached.
   bool RunMessagePipeEndpoint(MessageInTransit::EndpointId local_id,
                               MessageInTransit::EndpointId remote_id);

   // Tells the other side of the channel to run a message pipe endpoint (which
   // must already be attached); |local_id| and |remote_id| are relative to this
   // channel (i.e., |local_id| is the other side's remote ID and |remote_id| is
   // its local ID).
   // TODO(vtl): Maybe we should just have a flag argument to
   // |RunMessagePipeEndpoint()| that tells it to do this.
   void RunRemoteMessagePipeEndpoint(MessageInTransit::EndpointId local_id,
                                     MessageInTransit::EndpointId remote_id);

   // This forwards |message| verbatim to |raw_channel_|.
   bool WriteMessage(scoped_ptr<MessageInTransit> message);

   // See |RawChannel::IsWriteBufferEmpty()|.
   // TODO(vtl): Maybe we shouldn't expose this, and instead have a
   // |FlushWriteBufferAndShutdown()| or something like that.
   bool IsWriteBufferEmpty();

   // This removes the message pipe/port's endpoint (with the given local ID and
   // given remote ID, which should be |kInvalidEndpointId| if not yet running),
   // returned by |AttachMessagePipeEndpoint()| from this channel. After this is
   // called, |local_id| may be reused for another message pipe.
   void DetachMessagePipeEndpoint(MessageInTransit::EndpointId local_id,
                                  MessageInTransit::EndpointId remote_id);

   // See |RawChannel::GetSerializedPlatformHandleSize()|.
   size_t GetSerializedPlatformHandleSize() const;

  private:
   struct EndpointInfo {
     enum State {
       // Attached, possibly running or not.
       STATE_NORMAL,
       // "Zombie" states:
       // Waiting for |DetachMessagePipeEndpoint()| before removing.
       STATE_WAIT_LOCAL_DETACH,
       // Waiting for a |kSubtypeChannelRemoveMessagePipeEndpointAck| before
       // removing.
       STATE_WAIT_REMOTE_REMOVE_ACK,
       // Waiting for both of the above conditions before removing.
       STATE_WAIT_LOCAL_DETACH_AND_REMOTE_REMOVE_ACK,
     };

     EndpointInfo();
     EndpointInfo(scoped_refptr<MessagePipe> message_pipe, unsigned port);
     ~EndpointInfo();

     State state;
     scoped_refptr<MessagePipe> message_pipe;
     unsigned port;
   };

   friend class base::RefCountedThreadSafe<Channel>;
   virtual ~Channel();

   // |RawChannel::Delegate| implementation:
   virtual void OnReadMessage(
       const MessageInTransit::View& message_view,
       embedder::ScopedPlatformHandleVectorPtr platform_handles) OVERRIDE;
   virtual void OnFatalError(FatalError fatal_error) OVERRIDE;

   // Helpers for |OnReadMessage|:
   void OnReadMessageForDownstream(
       const MessageInTransit::View& message_view,
       embedder::ScopedPlatformHandleVectorPtr platform_handles);
   void OnReadMessageForChannel(
       const MessageInTransit::View& message_view,
       embedder::ScopedPlatformHandleVectorPtr platform_handles);

   // Removes the message pipe endpoint with the given local ID, which must exist
   // and be a zombie, and given remote ID. Returns false on failure, in
   // particular if no message pipe with |local_id| is attached.
   bool RemoveMessagePipeEndpoint(MessageInTransit::EndpointId local_id,
                                  MessageInTransit::EndpointId remote_id);

   // Handles errors (e.g., invalid messages) from the remote side.
   void HandleRemoteError(const base::StringPiece& error_message);
   // Handles internal errors/failures from the local side.
   void HandleLocalError(const base::StringPiece& error_message);

   // Helper to send channel control messages. Returns true on success. Should be
   // called *without* |lock_| held.
   bool SendControlMessage(MessageInTransit::Subtype subtype,
                           MessageInTransit::EndpointId source_id,
                           MessageInTransit::EndpointId destination_id);

   bool is_running_no_lock() const { return is_running_; }

   base::ThreadChecker creation_thread_checker_;

   // Note: |MessagePipe|s MUST NOT be used under |lock_|. I.e., |lock_| can only
   // be acquired after |MessagePipe::lock_|, never before. Thus to call into a
   // |MessagePipe|, a reference should be acquired from
   // |local_id_to_endpoint_info_map_| under |lock_| (e.g., by copying the
   // |EndpointInfo|) and then the lock released.
   base::Lock lock_;  // Protects the members below.

   scoped_ptr<RawChannel> raw_channel_;
   bool is_running_;

   typedef base::hash_map<MessageInTransit::EndpointId, EndpointInfo>
       IdToEndpointInfoMap;
   IdToEndpointInfoMap local_id_to_endpoint_info_map_;
   // The next local ID to try (when allocating new local IDs). Note: It should
   // be checked for existence before use.
   MessageInTransit::EndpointId next_local_id_;

   DISALLOW_COPY_AND_ASSIGN(Channel);
 };

 }  // namespace system
 }  // namespace mojo

 #endif  // MOJO_SYSTEM_CHANNEL_H_
	// Copyright 2013 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_SYSTEM_CHANNEL_H_
	#define MOJO_SYSTEM_CHANNEL_H_

	#include <stdint.h>

	#include "base/basictypes.h"
	#include "base/compiler_specific.h"
	#include "base/containers/hash_tables.h"
	#include "base/memory/ref_counted.h"
	#include "base/memory/scoped_ptr.h"
	#include "base/strings/string_piece.h"
	#include "base/synchronization/lock.h"
	#include "base/threading/thread_checker.h"
	#include "mojo/embedder/scoped_platform_handle.h"
	#include "mojo/public/c/system/types.h"
	#include "mojo/system/message_in_transit.h"
	#include "mojo/system/message_pipe.h"
	#include "mojo/system/raw_channel.h"
	#include "mojo/system/system_impl_export.h"

	namespace mojo {
	namespace system {

	// This class is mostly thread-safe. It must be created on an I/O thread.
	// \|Init()\| must be called on that same thread before it becomes thread-safe (in
	// particular, before references are given to any other thread) and \|Shutdown()\|
	// must be called on that same thread before destruction. Its public methods are
	// otherwise thread-safe. It may be destroyed on any thread, in the sense that
	// the last reference to it may be released on any thread, with the proviso that
	// \|Shutdown()\| must have been called first (so the pattern is that a "main"
	// reference is kept on its creation thread and is released after \|Shutdown()\|
	// is called, but other threads may have temporarily "dangling" references).
	//
	// Note that \|MessagePipe\| calls into \|Channel\| and the former's \|lock_\| must be
	// acquired before the latter's. When \|Channel\| wants to call into a
	// \|MessagePipe\|, it must obtain a reference to the \|MessagePipe\| (from
	// \|local_id_to_endpoint_info_map_\|) under \|Channel::lock_\| and then release the
	// lock.
	//
	// Also, care must be taken with respect to references: While a \|Channel\| has
	// references to \|MessagePipe\|s, \|MessagePipe\|s (via \|ProxyMessagePipeEndpoint\|)
	// may also have references to \|Channel\|s. These references are set up by
	// calling \|AttachMessagePipeEndpoint()\|. The reference to \|MessagePipe\| owned
	// by \|Channel\| must be removed by calling \|DetachMessagePipeEndpoint()\| (which
	// is done by \|MessagePipe\|/\|ProxyMessagePipeEndpoint\|, which simultaneously
	// removes its reference to \|Channel\|).
	class MOJO_SYSTEM_IMPL_EXPORT Channel
	: public base::RefCountedThreadSafe<Channel>,
	public RawChannel::Delegate {
	public:
	// The first message pipe endpoint attached will have this as its local ID.
	static const MessageInTransit::EndpointId kBootstrapEndpointId = 1;

	Channel();

	// This must be called on the creation thread before any other methods are
	// called, and before references to this object are given to any other
	// threads. \|raw_channel\| should be uninitialized. Returns true on success. On
	// failure, no other methods should be called (including \|Shutdown()\|).
	bool Init(scoped_ptr<RawChannel> raw_channel);

	// This must be called on the creation thread before destruction (which can
	// happen on any thread).
	void Shutdown();

	// Attaches the given message pipe/port's endpoint (which must be a
	// \|ProxyMessagePipeEndpoint\|) to this channel. This assigns it a local ID,
	// which it returns. The first message pipe endpoint attached will always have
	// \|kBootstrapEndpointId\| as its local ID. (For bootstrapping, this occurs on
	// both sides, so one should use \|kBootstrapEndpointId\| for the remote ID for
	// the first message pipe across a channel.) Returns \|kInvalidEndpointId\| on
	// failure.
	// TODO(vtl): Maybe limit the number of attached message pipes.
	MessageInTransit::EndpointId AttachMessagePipeEndpoint(
	scoped_refptr<MessagePipe> message_pipe,
	unsigned port);

	// Runs the message pipe with the given \|local_id\| (previously attached), with
	// the given \|remote_id\| (negotiated using some other means, e.g., over an
	// existing message pipe; see comments above for the bootstrap case). Returns
	// false on failure, in particular if no message pipe with \|local_id\| is
	// attached.
	bool RunMessagePipeEndpoint(MessageInTransit::EndpointId local_id,
	MessageInTransit::EndpointId remote_id);

	// Tells the other side of the channel to run a message pipe endpoint (which
	// must already be attached); \|local_id\| and \|remote_id\| are relative to this
	// channel (i.e., \|local_id\| is the other side's remote ID and \|remote_id\| is
	// its local ID).
	// TODO(vtl): Maybe we should just have a flag argument to
	// \|RunMessagePipeEndpoint()\| that tells it to do this.
	void RunRemoteMessagePipeEndpoint(MessageInTransit::EndpointId local_id,
	MessageInTransit::EndpointId remote_id);

	// This forwards \|message\| verbatim to \|raw_channel_\|.
	bool WriteMessage(scoped_ptr<MessageInTransit> message);

	// See \|RawChannel::IsWriteBufferEmpty()\|.
	// TODO(vtl): Maybe we shouldn't expose this, and instead have a
	// \|FlushWriteBufferAndShutdown()\| or something like that.
	bool IsWriteBufferEmpty();

	// This removes the message pipe/port's endpoint (with the given local ID and
	// given remote ID, which should be \|kInvalidEndpointId\| if not yet running),
	// returned by \|AttachMessagePipeEndpoint()\| from this channel. After this is
	// called, \|local_id\| may be reused for another message pipe.
	void DetachMessagePipeEndpoint(MessageInTransit::EndpointId local_id,
	MessageInTransit::EndpointId remote_id);

	// See \|RawChannel::GetSerializedPlatformHandleSize()\|.
	size_t GetSerializedPlatformHandleSize() const;

	private:
	struct EndpointInfo {
	enum State {
	// Attached, possibly running or not.
	STATE_NORMAL,
	// "Zombie" states:
	// Waiting for \|DetachMessagePipeEndpoint()\| before removing.
	STATE_WAIT_LOCAL_DETACH,
	// Waiting for a \|kSubtypeChannelRemoveMessagePipeEndpointAck\| before
	// removing.
	STATE_WAIT_REMOTE_REMOVE_ACK,
	// Waiting for both of the above conditions before removing.
	STATE_WAIT_LOCAL_DETACH_AND_REMOTE_REMOVE_ACK,
	};

	EndpointInfo();
	EndpointInfo(scoped_refptr<MessagePipe> message_pipe, unsigned port);
	~EndpointInfo();

	State state;
	scoped_refptr<MessagePipe> message_pipe;
	unsigned port;
	};

	friend class base::RefCountedThreadSafe<Channel>;
	virtual ~Channel();

	// \|RawChannel::Delegate\| implementation:
	virtual void OnReadMessage(
	const MessageInTransit::View& message_view,
	embedder::ScopedPlatformHandleVectorPtr platform_handles) OVERRIDE;
	virtual void OnFatalError(FatalError fatal_error) OVERRIDE;

	// Helpers for \|OnReadMessage\|:
	void OnReadMessageForDownstream(
	const MessageInTransit::View& message_view,
	embedder::ScopedPlatformHandleVectorPtr platform_handles);
	void OnReadMessageForChannel(
	const MessageInTransit::View& message_view,
	embedder::ScopedPlatformHandleVectorPtr platform_handles);

	// Removes the message pipe endpoint with the given local ID, which must exist
	// and be a zombie, and given remote ID. Returns false on failure, in
	// particular if no message pipe with \|local_id\| is attached.
	bool RemoveMessagePipeEndpoint(MessageInTransit::EndpointId local_id,
	MessageInTransit::EndpointId remote_id);

	// Handles errors (e.g., invalid messages) from the remote side.
	void HandleRemoteError(const base::StringPiece& error_message);
	// Handles internal errors/failures from the local side.
	void HandleLocalError(const base::StringPiece& error_message);

	// Helper to send channel control messages. Returns true on success. Should be
	// called without \|lock_\| held.
	bool SendControlMessage(MessageInTransit::Subtype subtype,
	MessageInTransit::EndpointId source_id,
	MessageInTransit::EndpointId destination_id);

	bool is_running_no_lock() const { return is_running_; }

	base::ThreadChecker creation_thread_checker_;

	// Note: \|MessagePipe\|s MUST NOT be used under \|lock_\|. I.e., \|lock_\| can only
	// be acquired after \|MessagePipe::lock_\|, never before. Thus to call into a
	// \|MessagePipe\|, a reference should be acquired from
	// \|local_id_to_endpoint_info_map_\| under \|lock_\| (e.g., by copying the
	// \|EndpointInfo\|) and then the lock released.
	base::Lock lock_; // Protects the members below.

	scoped_ptr<RawChannel> raw_channel_;
	bool is_running_;

	typedef base::hash_map<MessageInTransit::EndpointId, EndpointInfo>
	IdToEndpointInfoMap;
	IdToEndpointInfoMap local_id_to_endpoint_info_map_;
	// The next local ID to try (when allocating new local IDs). Note: It should
	// be checked for existence before use.
	MessageInTransit::EndpointId next_local_id_;

	DISALLOW_COPY_AND_ASSIGN(Channel);
	};

	} // namespace system
	} // namespace mojo

	#endif // MOJO_SYSTEM_CHANNEL_H_