google_apis/gcm/engine/mcs_client.h - chromium/src - 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 GOOGLE_APIS_GCM_ENGINE_MCS_CLIENT_H_
 #define GOOGLE_APIS_GCM_ENGINE_MCS_CLIENT_H_

 #include <stdint.h>

 #include <map>
 #include <memory>
 #include <string>
 #include <vector>

 #include "base/containers/circular_deque.h"
 #include "base/files/file_path.h"
 #include "base/macros.h"
 #include "base/memory/weak_ptr.h"
 #include "google_apis/gcm/base/gcm_export.h"
 #include "google_apis/gcm/base/mcs_message.h"
 #include "google_apis/gcm/engine/connection_factory.h"
 #include "google_apis/gcm/engine/connection_handler.h"
 #include "google_apis/gcm/engine/gcm_store.h"
 #include "google_apis/gcm/engine/heartbeat_manager.h"

 namespace base {
 class Clock;
 class RetainingOneShotTimer;
 }  // namespace base

 namespace google {
 namespace protobuf {
 class MessageLite;
 }  // namespace protobuf
 }  // namespace google

 namespace mcs_proto {
 class LoginRequest;
 }

 namespace gcm {

 class CollapseKey;
 class ConnectionFactory;
 class GCMStatsRecorder;
 struct ReliablePacketInfo;

 // An MCS client. This client is in charge of all communications with an
 // MCS endpoint, and is capable of reliably sending/receiving GCM messages.
 // NOTE: Not thread safe. This class should live on the same thread as that
 // network requests are performed on.
 class GCM_EXPORT MCSClient {
  public:
   // Any change made to this enum should have corresponding change in the
   // GetStateString(...) function.
   enum State {
     UNINITIALIZED,  // Uninitialized.
     LOADED,         // GCM Load finished, waiting to connect.
     CONNECTING,     // Connection in progress.
     CONNECTED,      // Connected and running.
   };

   // Any change made to this enum should have corresponding change in the
   // GetMessageSendStatusString(...) function in mcs_client.cc.
   enum MessageSendStatus {
     // Message was queued successfully.
     QUEUED,
     // Message was sent to the server and the ACK was received.
     SENT,
     // Message not saved, because total queue size limit reached.
     QUEUE_SIZE_LIMIT_REACHED,
     // Message not saved, because app queue size limit reached.
     APP_QUEUE_SIZE_LIMIT_REACHED,
     // Message too large to send.
     MESSAGE_TOO_LARGE,
     // Message not send becuase of TTL = 0 and no working connection.
     NO_CONNECTION_ON_ZERO_TTL,
     // Message exceeded TTL.
     TTL_EXCEEDED,

     // NOTE: always keep this entry at the end. Add new status types only
     // immediately above this line. Make sure to update the corresponding
     // histogram enum accordingly.
     SEND_STATUS_COUNT
   };

   // Callback for MCSClient's error conditions.
   // TODO(fgorski): Keeping it as a callback with intention to add meaningful
   // error information.
   typedef base::Callback<void()> ErrorCallback;
   // Callback when a message is received.
   typedef base::Callback<void(const MCSMessage& message)>
       OnMessageReceivedCallback;
   // Callback when a message is sent (and receipt has been acknowledged by
   // the MCS endpoint).
   typedef base::Callback<void(int64_t user_serial_number,
                               const std::string& app_id,
                               const std::string& message_id,
                               MessageSendStatus status)> OnMessageSentCallback;

   MCSClient(const std::string& version_string,
             base::Clock* clock,
             ConnectionFactory* connection_factory,
             GCMStore* gcm_store,
             GCMStatsRecorder* recorder);
   virtual ~MCSClient();

   // Initialize the client. Will load any previous id/token information as well
   // as unacknowledged message information from the GCM storage, if it exists,
   // passing the id/token information back via |initialization_callback| along
   // with a |success == true| result. If no GCM information is present (and
   // this is therefore a fresh client), a clean GCM store will be created and
   // values of 0 will be returned via |initialization_callback| with
   // |success == true|.
   // If an error loading the GCM store is encountered,
   // |initialization_callback| will be invoked with |success == false|.
   void Initialize(const ErrorCallback& initialization_callback,
                   const OnMessageReceivedCallback& message_received_callback,
                   const OnMessageSentCallback& message_sent_callback,
                   std::unique_ptr<GCMStore::LoadResult> load_result);

   // Logs the client into the server. Client must be initialized.
   // |android_id| and |security_token| are optional if this is not a new
   // client, else they must be non-zero.
   // Successful login will result in |message_received_callback| being invoked
   // with a valid LoginResponse.
   // Login failure (typically invalid id/token) will shut down the client, and
   // |initialization_callback| to be invoked with |success = false|.
   virtual void Login(uint64_t android_id, uint64_t security_token);

   // Sends a message, with or without reliable message queueing (RMQ) support.
   // Will asynchronously invoke the OnMessageSent callback regardless.
   // Whether to use RMQ depends on whether the protobuf has |ttl| set or not.
   // |ttl == 0| denotes the message should only be sent if the connection is
   // open. |ttl > 0| will keep the message saved for |ttl| seconds, after which
   // it will be dropped if it was unable to be sent. When a message is dropped,
   // |message_sent_callback_| is invoked with a TTL expiration error.
   virtual void SendMessage(const MCSMessage& message);

   // Returns the current state of the client.
   State state() const { return state_; }

   // Returns the size of the send message queue.
   int GetSendQueueSize() const;

   // Returns the size of the resend messaage queue.
   int GetResendQueueSize() const;

   // Returns text representation of the state enum.
   std::string GetStateString() const;

   // Updates the timer used by |heartbeat_manager_| for sending heartbeats.
   void UpdateHeartbeatTimer(std::unique_ptr<base::RetainingOneShotTimer> timer);

   // Allows a caller to set a heartbeat interval (in milliseconds) with which
   // the MCS connection will be monitored on both ends, to detect device
   // presence. In case the newly set interval is smaller than the current one,
   // connection will be restarted with new heartbeat interval. Valid values have
   // to be between GetMax/GetMinClientHeartbeatIntervalMs of HeartbeatManager,
   // otherwise the setting won't take effect.
   void AddHeartbeatInterval(const std::string& scope, int interval_ms);
   void RemoveHeartbeatInterval(const std::string& scope);

   HeartbeatManager* GetHeartbeatManagerForTesting() {
     return &heartbeat_manager_;
   }

  private:
   using StreamId = uint32_t;
   using PersistentId = std::string;
   using StreamIdList = std::vector<StreamId>;
   using PersistentIdList = std::vector<PersistentId>;
   using StreamIdToPersistentIdMap = std::map<StreamId, PersistentId>;
   using MCSPacketInternal = std::unique_ptr<ReliablePacketInfo>;

   // Resets the internal state and builds a new login request, acknowledging
   // any pending server-to-device messages and rebuilding the send queue
   // from all unacknowledged device-to-server messages.
   // Should only be called when the connection has been reset.
   void ResetStateAndBuildLoginRequest(mcs_proto::LoginRequest* request);

   // Send a heartbeat to the MCS server.
   void SendHeartbeat();

   // GCM Store callback.
   void OnGCMUpdateFinished(bool success);

   // Attempt to send a message.
   void MaybeSendMessage();

   // Helper for sending a protobuf along with any unacknowledged ids to the
   // wire.
   void SendPacketToWire(ReliablePacketInfo* packet_info);

   // Handle a data message sent to the MCS client system from the MCS server.
   void HandleMCSDataMesssage(
       std::unique_ptr<google::protobuf::MessageLite> protobuf);

   // Handle a packet received over the wire.
   void HandlePacketFromWire(
       std::unique_ptr<google::protobuf::MessageLite> protobuf);

   // ReliableMessageQueue acknowledgment helpers.
   // Handle a StreamAck sent by the server confirming receipt of all
   // messages up to the message with stream id |last_stream_id_received|.
   void HandleStreamAck(StreamId last_stream_id_received_);
   // Handle a SelectiveAck sent by the server confirming all messages
   // in |id_list|.
   void HandleSelectiveAck(const PersistentIdList& id_list);
   // Handle server confirmation of a device message, including device's
   // acknowledgment of receipt of messages.
   void HandleServerConfirmedReceipt(StreamId device_stream_id);

   // Generates a new persistent id for messages.
   // Virtual for testing.
   virtual PersistentId GetNextPersistentId();

   // Helper for the heartbeat manager to signal a connection reset.
   void OnConnectionResetByHeartbeat(
       ConnectionFactory::ConnectionResetReason reason);

   // Runs the message_sent_callback_ with send |status| of the |protobuf|.
   void NotifyMessageSendStatus(const google::protobuf::MessageLite& protobuf,
                                MessageSendStatus status);

   // Pops the next message from the front of the send queue (cleaning up
   // any associated state).
   MCSPacketInternal PopMessageForSend();

   // Gets the minimum interval from the map of scopes to intervals in
   // milliseconds.
   int GetMinHeartbeatIntervalMs();

   // Local version string. Sent on login.
   const std::string version_string_;

   // Clock for enforcing TTL. Passed in for testing.
   base::Clock* const clock_;

   // Client state.
   State state_;

   // Callbacks for owner.
   ErrorCallback mcs_error_callback_;
   OnMessageReceivedCallback message_received_callback_;
   OnMessageSentCallback message_sent_callback_;

   // The android id and security token in use by this device.
   uint64_t android_id_;
   uint64_t security_token_;

   // Factory for creating new connections and connection handlers.
   ConnectionFactory* connection_factory_;

   // Connection handler to handle all over-the-wire protocol communication
   // with the mobile connection server.
   ConnectionHandler* connection_handler_;

   // -----  Reliablie Message Queue section -----
   // Note: all queues/maps are ordered from oldest (front/begin) message to
   // most recent (back/end).

   // Send/acknowledge queues.
   base::circular_deque<MCSPacketInternal> to_send_;
   base::circular_deque<MCSPacketInternal> to_resend_;

   // Map of collapse keys to their pending messages.
   std::map<CollapseKey, ReliablePacketInfo*> collapse_key_map_;

   // Last device_to_server stream id acknowledged by the server.
   StreamId last_device_to_server_stream_id_received_;
   // Last server_to_device stream id acknowledged by this device.
   StreamId last_server_to_device_stream_id_received_;
   // The stream id for the last sent message. A new message should consume
   // stream_id_out_ + 1.
   StreamId stream_id_out_;
   // The stream id of the last received message. The LoginResponse will always
   // have a stream id of 1, and stream ids increment by 1 for each received
   // message.
   StreamId stream_id_in_;

   // The server messages that have not been acked by the device yet. Keyed by
   // server stream id.
   StreamIdToPersistentIdMap unacked_server_ids_;

   // Those server messages that have been acked. They must remain tracked
   // until the ack message is itself confirmed. The list of all message ids
   // acknowledged are keyed off the device stream id of the message that
   // acknowledged them.
   std::map<StreamId, PersistentIdList> acked_server_ids_;

   // Those server messages from a previous connection that were not fully
   // acknowledged. They do not have associated stream ids, and will be
   // acknowledged on the next login attempt.
   PersistentIdList restored_unackeds_server_ids_;

   // The GCM persistent store. Not owned.
   GCMStore* gcm_store_;

   // Manager to handle triggering/detecting heartbeats.
   HeartbeatManager heartbeat_manager_;

   // Custom heartbeat intervals requested by different components.
   std::map<std::string, int> custom_heartbeat_intervals_;

   // Recorder that records GCM activities for debugging purpose. Not owned.
   GCMStatsRecorder* recorder_;

   base::WeakPtrFactory<MCSClient> weak_ptr_factory_;

   DISALLOW_COPY_AND_ASSIGN(MCSClient);
 };

 } // namespace gcm

 #endif  // GOOGLE_APIS_GCM_ENGINE_MCS_CLIENT_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 GOOGLE_APIS_GCM_ENGINE_MCS_CLIENT_H_
	#define GOOGLE_APIS_GCM_ENGINE_MCS_CLIENT_H_

	#include <stdint.h>

	#include <map>
	#include <memory>
	#include <string>
	#include <vector>

	#include "base/containers/circular_deque.h"
	#include "base/files/file_path.h"
	#include "base/macros.h"
	#include "base/memory/weak_ptr.h"
	#include "google_apis/gcm/base/gcm_export.h"
	#include "google_apis/gcm/base/mcs_message.h"
	#include "google_apis/gcm/engine/connection_factory.h"
	#include "google_apis/gcm/engine/connection_handler.h"
	#include "google_apis/gcm/engine/gcm_store.h"
	#include "google_apis/gcm/engine/heartbeat_manager.h"

	namespace base {
	class Clock;
	class RetainingOneShotTimer;
	} // namespace base

	namespace google {
	namespace protobuf {
	class MessageLite;
	} // namespace protobuf
	} // namespace google

	namespace mcs_proto {
	class LoginRequest;
	}

	namespace gcm {

	class CollapseKey;
	class ConnectionFactory;
	class GCMStatsRecorder;
	struct ReliablePacketInfo;

	// An MCS client. This client is in charge of all communications with an
	// MCS endpoint, and is capable of reliably sending/receiving GCM messages.
	// NOTE: Not thread safe. This class should live on the same thread as that
	// network requests are performed on.
	class GCM_EXPORT MCSClient {
	public:
	// Any change made to this enum should have corresponding change in the
	// GetStateString(...) function.
	enum State {
	UNINITIALIZED, // Uninitialized.
	LOADED, // GCM Load finished, waiting to connect.
	CONNECTING, // Connection in progress.
	CONNECTED, // Connected and running.
	};

	// Any change made to this enum should have corresponding change in the
	// GetMessageSendStatusString(...) function in mcs_client.cc.
	enum MessageSendStatus {
	// Message was queued successfully.
	QUEUED,
	// Message was sent to the server and the ACK was received.
	SENT,
	// Message not saved, because total queue size limit reached.
	QUEUE_SIZE_LIMIT_REACHED,
	// Message not saved, because app queue size limit reached.
	APP_QUEUE_SIZE_LIMIT_REACHED,
	// Message too large to send.
	MESSAGE_TOO_LARGE,
	// Message not send becuase of TTL = 0 and no working connection.
	NO_CONNECTION_ON_ZERO_TTL,
	// Message exceeded TTL.
	TTL_EXCEEDED,

	// NOTE: always keep this entry at the end. Add new status types only
	// immediately above this line. Make sure to update the corresponding
	// histogram enum accordingly.
	SEND_STATUS_COUNT
	};

	// Callback for MCSClient's error conditions.
	// TODO(fgorski): Keeping it as a callback with intention to add meaningful
	// error information.
	typedef base::Callback<void()> ErrorCallback;
	// Callback when a message is received.
	typedef base::Callback<void(const MCSMessage& message)>
	OnMessageReceivedCallback;
	// Callback when a message is sent (and receipt has been acknowledged by
	// the MCS endpoint).
	typedef base::Callback<void(int64_t user_serial_number,
	const std::string& app_id,
	const std::string& message_id,
	MessageSendStatus status)> OnMessageSentCallback;

	MCSClient(const std::string& version_string,
	base::Clock* clock,
	ConnectionFactory* connection_factory,
	GCMStore* gcm_store,
	GCMStatsRecorder* recorder);
	virtual ~MCSClient();

	// Initialize the client. Will load any previous id/token information as well
	// as unacknowledged message information from the GCM storage, if it exists,
	// passing the id/token information back via \|initialization_callback\| along
	// with a \|success == true\| result. If no GCM information is present (and
	// this is therefore a fresh client), a clean GCM store will be created and
	// values of 0 will be returned via \|initialization_callback\| with
	// \|success == true\|.
	// If an error loading the GCM store is encountered,
	// \|initialization_callback\| will be invoked with \|success == false\|.
	void Initialize(const ErrorCallback& initialization_callback,
	const OnMessageReceivedCallback& message_received_callback,
	const OnMessageSentCallback& message_sent_callback,
	std::unique_ptr<GCMStore::LoadResult> load_result);

	// Logs the client into the server. Client must be initialized.
	// \|android_id\| and \|security_token\| are optional if this is not a new
	// client, else they must be non-zero.
	// Successful login will result in \|message_received_callback\| being invoked
	// with a valid LoginResponse.
	// Login failure (typically invalid id/token) will shut down the client, and
	// \|initialization_callback\| to be invoked with \|success = false\|.
	virtual void Login(uint64_t android_id, uint64_t security_token);

	// Sends a message, with or without reliable message queueing (RMQ) support.
	// Will asynchronously invoke the OnMessageSent callback regardless.
	// Whether to use RMQ depends on whether the protobuf has \|ttl\| set or not.
	// \|ttl == 0\| denotes the message should only be sent if the connection is
	// open. \|ttl > 0\| will keep the message saved for \|ttl\| seconds, after which
	// it will be dropped if it was unable to be sent. When a message is dropped,
	// \|message_sent_callback_\| is invoked with a TTL expiration error.
	virtual void SendMessage(const MCSMessage& message);

	// Returns the current state of the client.
	State state() const { return state_; }

	// Returns the size of the send message queue.
	int GetSendQueueSize() const;

	// Returns the size of the resend messaage queue.
	int GetResendQueueSize() const;

	// Returns text representation of the state enum.
	std::string GetStateString() const;

	// Updates the timer used by \|heartbeat_manager_\| for sending heartbeats.
	void UpdateHeartbeatTimer(std::unique_ptr<base::RetainingOneShotTimer> timer);

	// Allows a caller to set a heartbeat interval (in milliseconds) with which
	// the MCS connection will be monitored on both ends, to detect device
	// presence. In case the newly set interval is smaller than the current one,
	// connection will be restarted with new heartbeat interval. Valid values have
	// to be between GetMax/GetMinClientHeartbeatIntervalMs of HeartbeatManager,
	// otherwise the setting won't take effect.
	void AddHeartbeatInterval(const std::string& scope, int interval_ms);
	void RemoveHeartbeatInterval(const std::string& scope);

	HeartbeatManager* GetHeartbeatManagerForTesting() {
	return &heartbeat_manager_;
	}

	private:
	using StreamId = uint32_t;
	using PersistentId = std::string;
	using StreamIdList = std::vector<StreamId>;
	using PersistentIdList = std::vector<PersistentId>;
	using StreamIdToPersistentIdMap = std::map<StreamId, PersistentId>;
	using MCSPacketInternal = std::unique_ptr<ReliablePacketInfo>;

	// Resets the internal state and builds a new login request, acknowledging
	// any pending server-to-device messages and rebuilding the send queue
	// from all unacknowledged device-to-server messages.
	// Should only be called when the connection has been reset.
	void ResetStateAndBuildLoginRequest(mcs_proto::LoginRequest* request);

	// Send a heartbeat to the MCS server.
	void SendHeartbeat();

	// GCM Store callback.
	void OnGCMUpdateFinished(bool success);

	// Attempt to send a message.
	void MaybeSendMessage();

	// Helper for sending a protobuf along with any unacknowledged ids to the
	// wire.
	void SendPacketToWire(ReliablePacketInfo* packet_info);

	// Handle a data message sent to the MCS client system from the MCS server.
	void HandleMCSDataMesssage(
	std::unique_ptr<google::protobuf::MessageLite> protobuf);

	// Handle a packet received over the wire.
	void HandlePacketFromWire(
	std::unique_ptr<google::protobuf::MessageLite> protobuf);

	// ReliableMessageQueue acknowledgment helpers.
	// Handle a StreamAck sent by the server confirming receipt of all
	// messages up to the message with stream id \|last_stream_id_received\|.
	void HandleStreamAck(StreamId last_stream_id_received_);
	// Handle a SelectiveAck sent by the server confirming all messages
	// in \|id_list\|.
	void HandleSelectiveAck(const PersistentIdList& id_list);
	// Handle server confirmation of a device message, including device's
	// acknowledgment of receipt of messages.
	void HandleServerConfirmedReceipt(StreamId device_stream_id);

	// Generates a new persistent id for messages.
	// Virtual for testing.
	virtual PersistentId GetNextPersistentId();

	// Helper for the heartbeat manager to signal a connection reset.
	void OnConnectionResetByHeartbeat(
	ConnectionFactory::ConnectionResetReason reason);

	// Runs the message_sent_callback_ with send \|status\| of the \|protobuf\|.
	void NotifyMessageSendStatus(const google::protobuf::MessageLite& protobuf,
	MessageSendStatus status);

	// Pops the next message from the front of the send queue (cleaning up
	// any associated state).
	MCSPacketInternal PopMessageForSend();

	// Gets the minimum interval from the map of scopes to intervals in
	// milliseconds.
	int GetMinHeartbeatIntervalMs();

	// Local version string. Sent on login.
	const std::string version_string_;

	// Clock for enforcing TTL. Passed in for testing.
	base::Clock* const clock_;

	// Client state.
	State state_;

	// Callbacks for owner.
	ErrorCallback mcs_error_callback_;
	OnMessageReceivedCallback message_received_callback_;
	OnMessageSentCallback message_sent_callback_;

	// The android id and security token in use by this device.
	uint64_t android_id_;
	uint64_t security_token_;

	// Factory for creating new connections and connection handlers.
	ConnectionFactory* connection_factory_;

	// Connection handler to handle all over-the-wire protocol communication
	// with the mobile connection server.
	ConnectionHandler* connection_handler_;

	// ----- Reliablie Message Queue section -----
	// Note: all queues/maps are ordered from oldest (front/begin) message to
	// most recent (back/end).

	// Send/acknowledge queues.
	base::circular_deque<MCSPacketInternal> to_send_;
	base::circular_deque<MCSPacketInternal> to_resend_;

	// Map of collapse keys to their pending messages.
	std::map<CollapseKey, ReliablePacketInfo*> collapse_key_map_;

	// Last device_to_server stream id acknowledged by the server.
	StreamId last_device_to_server_stream_id_received_;
	// Last server_to_device stream id acknowledged by this device.
	StreamId last_server_to_device_stream_id_received_;
	// The stream id for the last sent message. A new message should consume
	// stream_id_out_ + 1.
	StreamId stream_id_out_;
	// The stream id of the last received message. The LoginResponse will always
	// have a stream id of 1, and stream ids increment by 1 for each received
	// message.
	StreamId stream_id_in_;

	// The server messages that have not been acked by the device yet. Keyed by
	// server stream id.
	StreamIdToPersistentIdMap unacked_server_ids_;

	// Those server messages that have been acked. They must remain tracked
	// until the ack message is itself confirmed. The list of all message ids
	// acknowledged are keyed off the device stream id of the message that
	// acknowledged them.
	std::map<StreamId, PersistentIdList> acked_server_ids_;

	// Those server messages from a previous connection that were not fully
	// acknowledged. They do not have associated stream ids, and will be
	// acknowledged on the next login attempt.
	PersistentIdList restored_unackeds_server_ids_;

	// The GCM persistent store. Not owned.
	GCMStore* gcm_store_;

	// Manager to handle triggering/detecting heartbeats.
	HeartbeatManager heartbeat_manager_;

	// Custom heartbeat intervals requested by different components.
	std::map<std::string, int> custom_heartbeat_intervals_;

	// Recorder that records GCM activities for debugging purpose. Not owned.
	GCMStatsRecorder* recorder_;

	base::WeakPtrFactory<MCSClient> weak_ptr_factory_;

	DISALLOW_COPY_AND_ASSIGN(MCSClient);
	};

	} // namespace gcm

	#endif // GOOGLE_APIS_GCM_ENGINE_MCS_CLIENT_H_