mojo/core/node_controller.h - chromium/src - Git at Google

 // Copyright 2016 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_CORE_NODE_CONTROLLER_H_
 #define MOJO_CORE_NODE_CONTROLLER_H_

 #include <map>
 #include <memory>
 #include <string>
 #include <unordered_map>
 #include <unordered_set>
 #include <utility>
 #include <vector>

 #include "base/callback.h"
 #include "base/containers/queue.h"
 #include "base/containers/span.h"
 #include "base/macros.h"
 #include "base/memory/ref_counted.h"
 #include "base/memory/writable_shared_memory_region.h"
 #include "base/task_runner.h"
 #include "build/build_config.h"
 #include "mojo/core/atomic_flag.h"
 #include "mojo/core/node_channel.h"
 #include "mojo/core/ports/event.h"
 #include "mojo/core/ports/name.h"
 #include "mojo/core/ports/node.h"
 #include "mojo/core/ports/node_delegate.h"
 #include "mojo/core/scoped_process_handle.h"
 #include "mojo/core/system_impl_export.h"
 #include "mojo/public/cpp/platform/platform_handle.h"

 namespace base {
 class PortProvider;
 }

 namespace mojo {
 namespace core {

 class Broker;
 class Core;
 class MachPortRelay;

 // The owner of ports::Node which facilitates core EDK implementation. All
 // public interface methods are safe to call from any thread.
 class MOJO_SYSTEM_IMPL_EXPORT NodeController : public ports::NodeDelegate,
                                                public NodeChannel::Delegate {
  public:
   class PortObserver : public ports::UserData {
    public:
     virtual void OnPortStatusChanged() = 0;

    protected:
     ~PortObserver() override {}
   };

   // |core| owns and out-lives us.
   explicit NodeController(Core* core);
   ~NodeController() override;

   const ports::NodeName& name() const { return name_; }
   Core* core() const { return core_; }
   ports::Node* node() const { return node_.get(); }
   scoped_refptr<base::TaskRunner> io_task_runner() const {
     return io_task_runner_;
   }

 #if defined(OS_MACOSX) && !defined(OS_IOS)
   // Create the relay used to transfer mach ports between processes.
   void CreateMachPortRelay(base::PortProvider* port_provider);
 #endif

   // Called exactly once, shortly after construction, and before any other
   // methods are called on this object.
   void SetIOTaskRunner(scoped_refptr<base::TaskRunner> io_task_runner);

   // Sends an invitation to a remote process (via |connection_params|) to join
   // this process's graph of connected processes as a broker client.
   void SendBrokerClientInvitation(
       base::ProcessHandle target_process,
       ConnectionParams connection_params,
       const std::vector<std::pair<std::string, ports::PortRef>>& attached_ports,
       const ProcessErrorCallback& process_error_callback);

   // Connects this node to the process which invited it to be a broker client.
   void AcceptBrokerClientInvitation(ConnectionParams connection_params);

   // Connects this node to a peer node. On success, |port| will be merged with
   // the corresponding port in the peer node.
   void ConnectIsolated(ConnectionParams connection_params,
                        const ports::PortRef& port,
                        base::StringPiece connection_name);

   // Sets a port's observer. If |observer| is null the port's current observer
   // is removed.
   void SetPortObserver(const ports::PortRef& port,
                        scoped_refptr<PortObserver> observer);

   // Closes a port. Use this in lieu of calling Node::ClosePort() directly, as
   // it ensures the port's observer has also been removed.
   void ClosePort(const ports::PortRef& port);

   // Sends a message on a port to its peer.
   int SendUserMessage(const ports::PortRef& port_ref,
                       std::unique_ptr<ports::UserMessageEvent> message);

   // Merges a local port |port| into a port reserved by |name| in the node which
   // invited this node.
   void MergePortIntoInviter(const std::string& name,
                             const ports::PortRef& port);

   // Merges two local ports together.
   int MergeLocalPorts(const ports::PortRef& port0, const ports::PortRef& port1);

   // Creates a new shared buffer for use in the current process.
   base::WritableSharedMemoryRegion CreateSharedBuffer(size_t num_bytes);

   // Request that the Node be shut down cleanly. This may take an arbitrarily
   // long time to complete, at which point |callback| will be called.
   //
   // Note that while it is safe to continue using the NodeController's public
   // interface after requesting shutdown, you do so at your own risk and there
   // is NO guarantee that new messages will be sent or ports will complete
   // transfer.
   void RequestShutdown(const base::Closure& callback);

   // Notifies the NodeController that we received a bad message from the given
   // node.
   void NotifyBadMessageFrom(const ports::NodeName& source_node,
                             const std::string& error);

   static void DeserializeRawBytesAsEventForFuzzer(
       base::span<const unsigned char> data);
   static void DeserializeMessageAsEventForFuzzer(Channel::MessagePtr message);

  private:
   friend Core;

   using NodeMap =
       std::unordered_map<ports::NodeName, scoped_refptr<NodeChannel>>;
   using OutgoingMessageQueue = base::queue<Channel::MessagePtr>;
   using PortMap = std::map<std::string, ports::PortRef>;

   struct IsolatedConnection {
     IsolatedConnection();
     IsolatedConnection(const IsolatedConnection& other);
     IsolatedConnection(IsolatedConnection&& other);
     IsolatedConnection(scoped_refptr<NodeChannel> channel,
                        const ports::PortRef& local_port,
                        base::StringPiece name);
     ~IsolatedConnection();

     IsolatedConnection& operator=(const IsolatedConnection& other);
     IsolatedConnection& operator=(IsolatedConnection&& other);

     // NOTE: |channel| is null once the connection is fully established.
     scoped_refptr<NodeChannel> channel;
     ports::PortRef local_port;
     std::string name;
   };

   void SendBrokerClientInvitationOnIOThread(
       ScopedProcessHandle target_process,
       ConnectionParams connection_params,
       ports::NodeName token,
       const ProcessErrorCallback& process_error_callback);
   void AcceptBrokerClientInvitationOnIOThread(
       ConnectionParams connection_params);

   void ConnectIsolatedOnIOThread(ConnectionParams connection_params,
                                  ports::PortRef port,
                                  const std::string& connection_name);

   scoped_refptr<NodeChannel> GetPeerChannel(const ports::NodeName& name);
   scoped_refptr<NodeChannel> GetInviterChannel();
   scoped_refptr<NodeChannel> GetBrokerChannel();

   void AddPeer(const ports::NodeName& name,
                scoped_refptr<NodeChannel> channel,
                bool start_channel);
   void DropPeer(const ports::NodeName& name, NodeChannel* channel);
   void SendPeerEvent(const ports::NodeName& name, ports::ScopedEvent event);
   void DropAllPeers();

   // ports::NodeDelegate:
   void ForwardEvent(const ports::NodeName& node,
                     ports::ScopedEvent event) override;
   void BroadcastEvent(ports::ScopedEvent event) override;
   void PortStatusChanged(const ports::PortRef& port) override;

   // NodeChannel::Delegate:
   void OnAcceptInvitee(const ports::NodeName& from_node,
                        const ports::NodeName& inviter_name,
                        const ports::NodeName& token) override;
   void OnAcceptInvitation(const ports::NodeName& from_node,
                           const ports::NodeName& token,
                           const ports::NodeName& invitee_name) override;
   void OnAddBrokerClient(const ports::NodeName& from_node,
                          const ports::NodeName& client_name,
                          base::ProcessHandle process_handle) override;
   void OnBrokerClientAdded(const ports::NodeName& from_node,
                            const ports::NodeName& client_name,
                            PlatformHandle broker_channel) override;
   void OnAcceptBrokerClient(const ports::NodeName& from_node,
                             const ports::NodeName& broker_name,
                             PlatformHandle broker_channel) override;
   void OnEventMessage(const ports::NodeName& from_node,
                       Channel::MessagePtr message) override;
   void OnRequestPortMerge(const ports::NodeName& from_node,
                           const ports::PortName& connector_port_name,
                           const std::string& token) override;
   void OnRequestIntroduction(const ports::NodeName& from_node,
                              const ports::NodeName& name) override;
   void OnIntroduce(const ports::NodeName& from_node,
                    const ports::NodeName& name,
                    PlatformHandle channel_handle) override;
   void OnBroadcast(const ports::NodeName& from_node,
                    Channel::MessagePtr message) override;
 #if defined(OS_WIN) || (defined(OS_MACOSX) && !defined(OS_IOS))
   void OnRelayEventMessage(const ports::NodeName& from_node,
                            base::ProcessHandle from_process,
                            const ports::NodeName& destination,
                            Channel::MessagePtr message) override;
   void OnEventMessageFromRelay(const ports::NodeName& from_node,
                                const ports::NodeName& source_node,
                                Channel::MessagePtr message) override;
 #endif
   void OnAcceptPeer(const ports::NodeName& from_node,
                     const ports::NodeName& token,
                     const ports::NodeName& peer_name,
                     const ports::PortName& port_name) override;
   void OnChannelError(const ports::NodeName& from_node,
                       NodeChannel* channel) override;

 #if defined(OS_MACOSX) && !defined(OS_IOS)
   MachPortRelay* GetMachPortRelay();
 #endif

   // Cancels all pending port merges. These are merges which are supposed to
   // be requested from the inviter ASAP, and they may be cancelled if the
   // connection to the inviter is broken or never established.
   void CancelPendingPortMerges();

   // Marks this NodeController for destruction when the IO thread shuts down.
   // This is used in case Core is torn down before the IO thread. Must only be
   // called on the IO thread.
   void DestroyOnIOThreadShutdown();

   // If there is a registered shutdown callback (meaning shutdown has been
   // requested, this checks the Node's status to see if clean shutdown is
   // possible. If so, shutdown is performed and the shutdown callback is run.
   void AttemptShutdownIfRequested();

   // These are safe to access from any thread as long as the Node is alive.
   Core* const core_;
   const ports::NodeName name_;
   const std::unique_ptr<ports::Node> node_;
   scoped_refptr<base::TaskRunner> io_task_runner_;

   // Guards |peers_| and |pending_peer_messages_|.
   base::Lock peers_lock_;

   // Channels to known peers, including inviter and invitees, if any.
   NodeMap peers_;

   // Outgoing message queues for peers we've heard of but can't yet talk to.
   std::unordered_map<ports::NodeName, OutgoingMessageQueue>
       pending_peer_messages_;

   // Guards |reserved_ports_|.
   base::Lock reserved_ports_lock_;

   // Ports reserved by name, per peer.
   std::map<ports::NodeName, PortMap> reserved_ports_;

   // Guards |pending_port_merges_| and |reject_pending_merges_|.
   base::Lock pending_port_merges_lock_;

   // A set of port merge requests awaiting inviter connection.
   std::vector<std::pair<std::string, ports::PortRef>> pending_port_merges_;

   // Indicates that new merge requests should be rejected because the inviter
   // has disconnected.
   bool reject_pending_merges_ = false;

   // Guards |inviter_name_| and |bootstrap_inviter_channel_|.
   base::Lock inviter_lock_;

   // The name of the node which invited us to join its network, if any.
   ports::NodeName inviter_name_;

   // A temporary reference to the inviter channel before we know their name.
   scoped_refptr<NodeChannel> bootstrap_inviter_channel_;

   // Guards |broker_name_|, |pending_broker_clients_|, and
   // |pending_relay_messages_|.
   base::Lock broker_lock_;

   // The name of our broker node, if any.
   ports::NodeName broker_name_;

   // A queue of remote broker clients waiting to be connected to the broker.
   base::queue<ports::NodeName> pending_broker_clients_;

   // Messages waiting to be relayed by the broker once it's known.
   std::unordered_map<ports::NodeName, OutgoingMessageQueue>
       pending_relay_messages_;

   // Guards |shutdown_callback_|.
   base::Lock shutdown_lock_;

   // Set by RequestShutdown(). If this is non-null, the controller will
   // begin polling the Node to see if clean shutdown is possible any time the
   // Node's state is modified by the controller.
   base::Closure shutdown_callback_;
   // Flag to fast-path checking |shutdown_callback_|.
   AtomicFlag shutdown_callback_flag_;

   // All other fields below must only be accessed on the I/O thread, i.e., the
   // thread on which core_->io_task_runner() runs tasks.

   // Channels to invitees during handshake.
   NodeMap pending_invitations_;

   std::map<ports::NodeName, IsolatedConnection> pending_isolated_connections_;
   std::map<std::string, ports::NodeName> named_isolated_connections_;

   // Indicates whether this object should delete itself on IO thread shutdown.
   // Must only be accessed from the IO thread.
   bool destroy_on_io_thread_shutdown_ = false;

 #if !defined(OS_MACOSX) && !defined(OS_NACL_SFI) && !defined(OS_FUCHSIA)
   // Broker for sync shared buffer creation on behalf of broker clients.
   std::unique_ptr<Broker> broker_;
 #endif

 #if defined(OS_MACOSX) && !defined(OS_IOS)
   base::Lock mach_port_relay_lock_;
   // Relay for transferring mach ports to/from broker clients.
   std::unique_ptr<MachPortRelay> mach_port_relay_;
 #endif

   DISALLOW_COPY_AND_ASSIGN(NodeController);
 };

 }  // namespace core
 }  // namespace mojo

 #endif  // MOJO_CORE_NODE_CONTROLLER_H_
	// Copyright 2016 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_CORE_NODE_CONTROLLER_H_
	#define MOJO_CORE_NODE_CONTROLLER_H_

	#include <map>
	#include <memory>
	#include <string>
	#include <unordered_map>
	#include <unordered_set>
	#include <utility>
	#include <vector>

	#include "base/callback.h"
	#include "base/containers/queue.h"
	#include "base/containers/span.h"
	#include "base/macros.h"
	#include "base/memory/ref_counted.h"
	#include "base/memory/writable_shared_memory_region.h"
	#include "base/task_runner.h"
	#include "build/build_config.h"
	#include "mojo/core/atomic_flag.h"
	#include "mojo/core/node_channel.h"
	#include "mojo/core/ports/event.h"
	#include "mojo/core/ports/name.h"
	#include "mojo/core/ports/node.h"
	#include "mojo/core/ports/node_delegate.h"
	#include "mojo/core/scoped_process_handle.h"
	#include "mojo/core/system_impl_export.h"
	#include "mojo/public/cpp/platform/platform_handle.h"

	namespace base {
	class PortProvider;
	}

	namespace mojo {
	namespace core {

	class Broker;
	class Core;
	class MachPortRelay;

	// The owner of ports::Node which facilitates core EDK implementation. All
	// public interface methods are safe to call from any thread.
	class MOJO_SYSTEM_IMPL_EXPORT NodeController : public ports::NodeDelegate,
	public NodeChannel::Delegate {
	public:
	class PortObserver : public ports::UserData {
	public:
	virtual void OnPortStatusChanged() = 0;

	protected:
	~PortObserver() override {}
	};

	// \|core\| owns and out-lives us.
	explicit NodeController(Core* core);
	~NodeController() override;

	const ports::NodeName& name() const { return name_; }
	Core* core() const { return core_; }
	ports::Node* node() const { return node_.get(); }
	scoped_refptr<base::TaskRunner> io_task_runner() const {
	return io_task_runner_;
	}

	#if defined(OS_MACOSX) && !defined(OS_IOS)
	// Create the relay used to transfer mach ports between processes.
	void CreateMachPortRelay(base::PortProvider* port_provider);
	#endif

	// Called exactly once, shortly after construction, and before any other
	// methods are called on this object.
	void SetIOTaskRunner(scoped_refptr<base::TaskRunner> io_task_runner);

	// Sends an invitation to a remote process (via \|connection_params\|) to join
	// this process's graph of connected processes as a broker client.
	void SendBrokerClientInvitation(
	base::ProcessHandle target_process,
	ConnectionParams connection_params,
	const std::vector<std::pair<std::string, ports::PortRef>>& attached_ports,
	const ProcessErrorCallback& process_error_callback);

	// Connects this node to the process which invited it to be a broker client.
	void AcceptBrokerClientInvitation(ConnectionParams connection_params);

	// Connects this node to a peer node. On success, \|port\| will be merged with
	// the corresponding port in the peer node.
	void ConnectIsolated(ConnectionParams connection_params,
	const ports::PortRef& port,
	base::StringPiece connection_name);

	// Sets a port's observer. If \|observer\| is null the port's current observer
	// is removed.
	void SetPortObserver(const ports::PortRef& port,
	scoped_refptr<PortObserver> observer);

	// Closes a port. Use this in lieu of calling Node::ClosePort() directly, as
	// it ensures the port's observer has also been removed.
	void ClosePort(const ports::PortRef& port);

	// Sends a message on a port to its peer.
	int SendUserMessage(const ports::PortRef& port_ref,
	std::unique_ptr<ports::UserMessageEvent> message);

	// Merges a local port \|port\| into a port reserved by \|name\| in the node which
	// invited this node.
	void MergePortIntoInviter(const std::string& name,
	const ports::PortRef& port);

	// Merges two local ports together.
	int MergeLocalPorts(const ports::PortRef& port0, const ports::PortRef& port1);

	// Creates a new shared buffer for use in the current process.
	base::WritableSharedMemoryRegion CreateSharedBuffer(size_t num_bytes);

	// Request that the Node be shut down cleanly. This may take an arbitrarily
	// long time to complete, at which point \|callback\| will be called.
	//
	// Note that while it is safe to continue using the NodeController's public
	// interface after requesting shutdown, you do so at your own risk and there
	// is NO guarantee that new messages will be sent or ports will complete
	// transfer.
	void RequestShutdown(const base::Closure& callback);

	// Notifies the NodeController that we received a bad message from the given
	// node.
	void NotifyBadMessageFrom(const ports::NodeName& source_node,
	const std::string& error);

	static void DeserializeRawBytesAsEventForFuzzer(
	base::span<const unsigned char> data);
	static void DeserializeMessageAsEventForFuzzer(Channel::MessagePtr message);

	private:
	friend Core;

	using NodeMap =
	std::unordered_map<ports::NodeName, scoped_refptr<NodeChannel>>;
	using OutgoingMessageQueue = base::queue<Channel::MessagePtr>;
	using PortMap = std::map<std::string, ports::PortRef>;

	struct IsolatedConnection {
	IsolatedConnection();
	IsolatedConnection(const IsolatedConnection& other);
	IsolatedConnection(IsolatedConnection&& other);
	IsolatedConnection(scoped_refptr<NodeChannel> channel,
	const ports::PortRef& local_port,
	base::StringPiece name);
	~IsolatedConnection();

	IsolatedConnection& operator=(const IsolatedConnection& other);
	IsolatedConnection& operator=(IsolatedConnection&& other);

	// NOTE: \|channel\| is null once the connection is fully established.
	scoped_refptr<NodeChannel> channel;
	ports::PortRef local_port;
	std::string name;
	};

	void SendBrokerClientInvitationOnIOThread(
	ScopedProcessHandle target_process,
	ConnectionParams connection_params,
	ports::NodeName token,
	const ProcessErrorCallback& process_error_callback);
	void AcceptBrokerClientInvitationOnIOThread(
	ConnectionParams connection_params);

	void ConnectIsolatedOnIOThread(ConnectionParams connection_params,
	ports::PortRef port,
	const std::string& connection_name);

	scoped_refptr<NodeChannel> GetPeerChannel(const ports::NodeName& name);
	scoped_refptr<NodeChannel> GetInviterChannel();
	scoped_refptr<NodeChannel> GetBrokerChannel();

	void AddPeer(const ports::NodeName& name,
	scoped_refptr<NodeChannel> channel,
	bool start_channel);
	void DropPeer(const ports::NodeName& name, NodeChannel* channel);
	void SendPeerEvent(const ports::NodeName& name, ports::ScopedEvent event);
	void DropAllPeers();

	// ports::NodeDelegate:
	void ForwardEvent(const ports::NodeName& node,
	ports::ScopedEvent event) override;
	void BroadcastEvent(ports::ScopedEvent event) override;
	void PortStatusChanged(const ports::PortRef& port) override;

	// NodeChannel::Delegate:
	void OnAcceptInvitee(const ports::NodeName& from_node,
	const ports::NodeName& inviter_name,
	const ports::NodeName& token) override;
	void OnAcceptInvitation(const ports::NodeName& from_node,
	const ports::NodeName& token,
	const ports::NodeName& invitee_name) override;
	void OnAddBrokerClient(const ports::NodeName& from_node,
	const ports::NodeName& client_name,
	base::ProcessHandle process_handle) override;
	void OnBrokerClientAdded(const ports::NodeName& from_node,
	const ports::NodeName& client_name,
	PlatformHandle broker_channel) override;
	void OnAcceptBrokerClient(const ports::NodeName& from_node,
	const ports::NodeName& broker_name,
	PlatformHandle broker_channel) override;
	void OnEventMessage(const ports::NodeName& from_node,
	Channel::MessagePtr message) override;
	void OnRequestPortMerge(const ports::NodeName& from_node,
	const ports::PortName& connector_port_name,
	const std::string& token) override;
	void OnRequestIntroduction(const ports::NodeName& from_node,
	const ports::NodeName& name) override;
	void OnIntroduce(const ports::NodeName& from_node,
	const ports::NodeName& name,
	PlatformHandle channel_handle) override;
	void OnBroadcast(const ports::NodeName& from_node,
	Channel::MessagePtr message) override;
	#if defined(OS_WIN) \|\| (defined(OS_MACOSX) && !defined(OS_IOS))
	void OnRelayEventMessage(const ports::NodeName& from_node,
	base::ProcessHandle from_process,
	const ports::NodeName& destination,
	Channel::MessagePtr message) override;
	void OnEventMessageFromRelay(const ports::NodeName& from_node,
	const ports::NodeName& source_node,
	Channel::MessagePtr message) override;
	#endif
	void OnAcceptPeer(const ports::NodeName& from_node,
	const ports::NodeName& token,
	const ports::NodeName& peer_name,
	const ports::PortName& port_name) override;
	void OnChannelError(const ports::NodeName& from_node,
	NodeChannel* channel) override;

	#if defined(OS_MACOSX) && !defined(OS_IOS)
	MachPortRelay* GetMachPortRelay();
	#endif

	// Cancels all pending port merges. These are merges which are supposed to
	// be requested from the inviter ASAP, and they may be cancelled if the
	// connection to the inviter is broken or never established.
	void CancelPendingPortMerges();

	// Marks this NodeController for destruction when the IO thread shuts down.
	// This is used in case Core is torn down before the IO thread. Must only be
	// called on the IO thread.
	void DestroyOnIOThreadShutdown();

	// If there is a registered shutdown callback (meaning shutdown has been
	// requested, this checks the Node's status to see if clean shutdown is
	// possible. If so, shutdown is performed and the shutdown callback is run.
	void AttemptShutdownIfRequested();

	// These are safe to access from any thread as long as the Node is alive.
	Core* const core_;
	const ports::NodeName name_;
	const std::unique_ptr<ports::Node> node_;
	scoped_refptr<base::TaskRunner> io_task_runner_;

	// Guards \|peers_\| and \|pending_peer_messages_\|.
	base::Lock peers_lock_;

	// Channels to known peers, including inviter and invitees, if any.
	NodeMap peers_;

	// Outgoing message queues for peers we've heard of but can't yet talk to.
	std::unordered_map<ports::NodeName, OutgoingMessageQueue>
	pending_peer_messages_;

	// Guards \|reserved_ports_\|.
	base::Lock reserved_ports_lock_;

	// Ports reserved by name, per peer.
	std::map<ports::NodeName, PortMap> reserved_ports_;

	// Guards \|pending_port_merges_\| and \|reject_pending_merges_\|.
	base::Lock pending_port_merges_lock_;

	// A set of port merge requests awaiting inviter connection.
	std::vector<std::pair<std::string, ports::PortRef>> pending_port_merges_;

	// Indicates that new merge requests should be rejected because the inviter
	// has disconnected.
	bool reject_pending_merges_ = false;

	// Guards \|inviter_name_\| and \|bootstrap_inviter_channel_\|.
	base::Lock inviter_lock_;

	// The name of the node which invited us to join its network, if any.
	ports::NodeName inviter_name_;

	// A temporary reference to the inviter channel before we know their name.
	scoped_refptr<NodeChannel> bootstrap_inviter_channel_;

	// Guards \|broker_name_\|, \|pending_broker_clients_\|, and
	// \|pending_relay_messages_\|.
	base::Lock broker_lock_;

	// The name of our broker node, if any.
	ports::NodeName broker_name_;

	// A queue of remote broker clients waiting to be connected to the broker.
	base::queue<ports::NodeName> pending_broker_clients_;

	// Messages waiting to be relayed by the broker once it's known.
	std::unordered_map<ports::NodeName, OutgoingMessageQueue>
	pending_relay_messages_;

	// Guards \|shutdown_callback_\|.
	base::Lock shutdown_lock_;

	// Set by RequestShutdown(). If this is non-null, the controller will
	// begin polling the Node to see if clean shutdown is possible any time the
	// Node's state is modified by the controller.
	base::Closure shutdown_callback_;
	// Flag to fast-path checking \|shutdown_callback_\|.
	AtomicFlag shutdown_callback_flag_;

	// All other fields below must only be accessed on the I/O thread, i.e., the
	// thread on which core_->io_task_runner() runs tasks.

	// Channels to invitees during handshake.
	NodeMap pending_invitations_;

	std::map<ports::NodeName, IsolatedConnection> pending_isolated_connections_;
	std::map<std::string, ports::NodeName> named_isolated_connections_;

	// Indicates whether this object should delete itself on IO thread shutdown.
	// Must only be accessed from the IO thread.
	bool destroy_on_io_thread_shutdown_ = false;

	#if !defined(OS_MACOSX) && !defined(OS_NACL_SFI) && !defined(OS_FUCHSIA)
	// Broker for sync shared buffer creation on behalf of broker clients.
	std::unique_ptr<Broker> broker_;
	#endif

	#if defined(OS_MACOSX) && !defined(OS_IOS)
	base::Lock mach_port_relay_lock_;
	// Relay for transferring mach ports to/from broker clients.
	std::unique_ptr<MachPortRelay> mach_port_relay_;
	#endif

	DISALLOW_COPY_AND_ASSIGN(NodeController);
	};

	} // namespace core
	} // namespace mojo

	#endif // MOJO_CORE_NODE_CONTROLLER_H_