remoting/protocol/session_manager.h - chromium/src - Git at Google

 // Copyright (c) 2012 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.

 // The purpose of SessionManager is to facilitate creation of chromotocol
 // sessions. Both host and client use it to establish chromotocol
 // sessions. JingleChromotocolServer implements this inteface using
 // libjingle.
 //
 // OUTGOING SESSIONS
 // Connect() must be used to create new session to a remote host. The
 // returned session is initially in INITIALIZING state. Later state is
 // changed to CONNECTED if the session is accepted by the host or
 // CLOSED if the session is rejected.
 //
 // INCOMING SESSIONS
 // The IncomingSessionCallback is called when a client attempts to connect.
 // The callback function decides whether the session should be accepted or
 // rejected.
 //
 // AUTHENTICATION
 // Implementations of the Session and SessionManager interfaces
 // delegate authentication to an Authenticator implementation. For
 // incoming connections authenticators are created using an
 // AuthenticatorFactory set via the set_authenticator_factory()
 // method. For outgoing sessions authenticator must be passed to the
 // Connect() method. The Session's state changes to AUTHENTICATED once
 // authentication succeeds.
 //
 // SESSION OWNERSHIP AND SHUTDOWN
 // The SessionManager must not be closed or destroyed before all sessions
 // created by that SessionManager are destroyed. Caller owns Sessions
 // created by a SessionManager (except rejected
 // sessions). The SignalStrategy must outlive the SessionManager.
 //
 // PROTOCOL VERSION NEGOTIATION
 // When client connects to a host it sends a session-initiate stanza with list
 // of supported configurations for each channel. If the host decides to accept
 // session, then it selects configuration that is supported by both sides
 // and then replies with the session-accept stanza that contans selected
 // configuration. The configuration specified in the session-accept is used
 // for the session.
 //
 // The CandidateSessionConfig class represents list of configurations
 // supported by an endpoint. The |candidate_config| argument in the Connect()
 // specifies configuration supported on the client side. When the host receives
 // session-initiate stanza, the IncomingSessionCallback is called. The
 // configuration sent in the session-intiate staza is available via
 // ChromotocolConnnection::candidate_config(). If an incoming session is
 // being accepted then the IncomingSessionCallback callback function must
 // select session configuration and then set it with Session::set_config().

 #ifndef REMOTING_PROTOCOL_SESSION_MANAGER_H_
 #define REMOTING_PROTOCOL_SESSION_MANAGER_H_

 #include <string>

 #include "base/callback.h"
 #include "base/memory/ref_counted.h"
 #include "base/threading/non_thread_safe.h"
 #include "remoting/protocol/session.h"

 namespace remoting {

 class SignalStrategy;

 namespace protocol {

 class Authenticator;
 class AuthenticatorFactory;

 // Generic interface for Chromoting session manager.
 //
 // TODO(sergeyu): Split this into two separate interfaces: one for the
 // client side and one for the host side.
 class SessionManager : public base::NonThreadSafe {
  public:
   SessionManager() {}
   virtual ~SessionManager() {}

   enum IncomingSessionResponse {
     // Accept the session.
     ACCEPT,

     // Reject the session due to incompatible session configuration.
     INCOMPATIBLE,

     // Reject the session because the host is currently disabled due
     // to previous login attempts.
     OVERLOAD,

     // Reject the session because the client is not allowed to connect
     // to the host.
     DECLINE,
   };

   class Listener {
    public:
     Listener() {}

     // Called when the session manager is ready to create outgoing
     // sessions. May be called from Init() or after Init()
     // returns.
     virtual void OnSessionManagerReady() = 0;

     // Called when a new session is received. If the host decides to
     // accept the session it should set the |response| to
     // ACCEPT. Otherwise it should set it to DECLINE, or
     // INCOMPATIBLE. INCOMPATIBLE indicates that the session has
     // incompatible configuration, and cannot be accepted. If the
     // callback accepts the |session| then it must also set
     // configuration for the |session| using Session::set_config().
     // The callback must take ownership of the |session| if it ACCEPTs it.
     virtual void OnIncomingSession(Session* session,
                                    IncomingSessionResponse* response) = 0;

    protected:
     ~Listener() {}
   };

   // Initializes the session client. Caller retains ownership of the
   // |signal_strategy| and |listener|.
   virtual void Init(SignalStrategy* signal_strategy,
                     Listener* listener) = 0;

   // Tries to create a session to the host |jid|. Must be called only
   // after initialization has finished successfully, i.e. after
   // Listener::OnInitialized() has been called.
   //
   // |host_jid| is the full jid of the host to connect to.
   // |authenticator| is a client authenticator for the session.
   // |config| contains the session configurations that the client supports.
   virtual scoped_ptr<Session> Connect(
       const std::string& host_jid,
       scoped_ptr<Authenticator> authenticator,
       scoped_ptr<CandidateSessionConfig> config) = 0;

   // Close session manager. Can be called only after all corresponding
   // sessions are destroyed. No callbacks are called after this method
   // returns.
   virtual void Close() = 0;

   // Set authenticator factory that should be used to authenticate
   // incoming connection. No connections will be accepted if
   // authenticator factory isn't set. Must not be called more than
   // once per SessionManager because it may not be safe to delete
   // factory before all authenticators it created are deleted.
   virtual void set_authenticator_factory(
       scoped_ptr<AuthenticatorFactory> authenticator_factory) = 0;

  private:
   DISALLOW_COPY_AND_ASSIGN(SessionManager);
 };

 }  // namespace protocol
 }  // namespace remoting

 #endif  // REMOTING_PROTOCOL_SESSION_MANAGER_H_
	// Copyright (c) 2012 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.

	// The purpose of SessionManager is to facilitate creation of chromotocol
	// sessions. Both host and client use it to establish chromotocol
	// sessions. JingleChromotocolServer implements this inteface using
	// libjingle.
	//
	// OUTGOING SESSIONS
	// Connect() must be used to create new session to a remote host. The
	// returned session is initially in INITIALIZING state. Later state is
	// changed to CONNECTED if the session is accepted by the host or
	// CLOSED if the session is rejected.
	//
	// INCOMING SESSIONS
	// The IncomingSessionCallback is called when a client attempts to connect.
	// The callback function decides whether the session should be accepted or
	// rejected.
	//
	// AUTHENTICATION
	// Implementations of the Session and SessionManager interfaces
	// delegate authentication to an Authenticator implementation. For
	// incoming connections authenticators are created using an
	// AuthenticatorFactory set via the set_authenticator_factory()
	// method. For outgoing sessions authenticator must be passed to the
	// Connect() method. The Session's state changes to AUTHENTICATED once
	// authentication succeeds.
	//
	// SESSION OWNERSHIP AND SHUTDOWN
	// The SessionManager must not be closed or destroyed before all sessions
	// created by that SessionManager are destroyed. Caller owns Sessions
	// created by a SessionManager (except rejected
	// sessions). The SignalStrategy must outlive the SessionManager.
	//
	// PROTOCOL VERSION NEGOTIATION
	// When client connects to a host it sends a session-initiate stanza with list
	// of supported configurations for each channel. If the host decides to accept
	// session, then it selects configuration that is supported by both sides
	// and then replies with the session-accept stanza that contans selected
	// configuration. The configuration specified in the session-accept is used
	// for the session.
	//
	// The CandidateSessionConfig class represents list of configurations
	// supported by an endpoint. The \|candidate_config\| argument in the Connect()
	// specifies configuration supported on the client side. When the host receives
	// session-initiate stanza, the IncomingSessionCallback is called. The
	// configuration sent in the session-intiate staza is available via
	// ChromotocolConnnection::candidate_config(). If an incoming session is
	// being accepted then the IncomingSessionCallback callback function must
	// select session configuration and then set it with Session::set_config().

	#ifndef REMOTING_PROTOCOL_SESSION_MANAGER_H_
	#define REMOTING_PROTOCOL_SESSION_MANAGER_H_

	#include <string>

	#include "base/callback.h"
	#include "base/memory/ref_counted.h"
	#include "base/threading/non_thread_safe.h"
	#include "remoting/protocol/session.h"

	namespace remoting {

	class SignalStrategy;

	namespace protocol {

	class Authenticator;
	class AuthenticatorFactory;

	// Generic interface for Chromoting session manager.
	//
	// TODO(sergeyu): Split this into two separate interfaces: one for the
	// client side and one for the host side.
	class SessionManager : public base::NonThreadSafe {
	public:
	SessionManager() {}
	virtual ~SessionManager() {}

	enum IncomingSessionResponse {
	// Accept the session.
	ACCEPT,

	// Reject the session due to incompatible session configuration.
	INCOMPATIBLE,

	// Reject the session because the host is currently disabled due
	// to previous login attempts.
	OVERLOAD,

	// Reject the session because the client is not allowed to connect
	// to the host.
	DECLINE,
	};

	class Listener {
	public:
	Listener() {}

	// Called when the session manager is ready to create outgoing
	// sessions. May be called from Init() or after Init()
	// returns.
	virtual void OnSessionManagerReady() = 0;

	// Called when a new session is received. If the host decides to
	// accept the session it should set the \|response\| to
	// ACCEPT. Otherwise it should set it to DECLINE, or
	// INCOMPATIBLE. INCOMPATIBLE indicates that the session has
	// incompatible configuration, and cannot be accepted. If the
	// callback accepts the \|session\| then it must also set
	// configuration for the \|session\| using Session::set_config().
	// The callback must take ownership of the \|session\| if it ACCEPTs it.
	virtual void OnIncomingSession(Session* session,
	IncomingSessionResponse* response) = 0;

	protected:
	~Listener() {}
	};

	// Initializes the session client. Caller retains ownership of the
	// \|signal_strategy\| and \|listener\|.
	virtual void Init(SignalStrategy* signal_strategy,
	Listener* listener) = 0;

	// Tries to create a session to the host \|jid\|. Must be called only
	// after initialization has finished successfully, i.e. after
	// Listener::OnInitialized() has been called.
	//
	// \|host_jid\| is the full jid of the host to connect to.
	// \|authenticator\| is a client authenticator for the session.
	// \|config\| contains the session configurations that the client supports.
	virtual scoped_ptr<Session> Connect(
	const std::string& host_jid,
	scoped_ptr<Authenticator> authenticator,
	scoped_ptr<CandidateSessionConfig> config) = 0;

	// Close session manager. Can be called only after all corresponding
	// sessions are destroyed. No callbacks are called after this method
	// returns.
	virtual void Close() = 0;

	// Set authenticator factory that should be used to authenticate
	// incoming connection. No connections will be accepted if
	// authenticator factory isn't set. Must not be called more than
	// once per SessionManager because it may not be safe to delete
	// factory before all authenticators it created are deleted.
	virtual void set_authenticator_factory(
	scoped_ptr<AuthenticatorFactory> authenticator_factory) = 0;

	private:
	DISALLOW_COPY_AND_ASSIGN(SessionManager);
	};

	} // namespace protocol
	} // namespace remoting

	#endif // REMOTING_PROTOCOL_SESSION_MANAGER_H_