// 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. #include "remoting/host/chromoting_host.h" #include #include "base/bind.h" #include "base/callback.h" #include "base/command_line.h" #include "base/message_loop/message_loop_proxy.h" #include "build/build_config.h" #include "jingle/glue/thread_wrapper.h" #include "remoting/base/constants.h" #include "remoting/base/logging.h" #include "remoting/host/chromoting_host_context.h" #include "remoting/host/desktop_environment.h" #include "remoting/host/host_config.h" #include "remoting/host/input_injector.h" #include "remoting/host/video_frame_recorder.h" #include "remoting/protocol/connection_to_client.h" #include "remoting/protocol/client_stub.h" #include "remoting/protocol/host_stub.h" #include "remoting/protocol/input_stub.h" #include "remoting/protocol/session_config.h" using remoting::protocol::ConnectionToClient; using remoting::protocol::InputStub; namespace remoting { namespace { const net::BackoffEntry::Policy kDefaultBackoffPolicy = { // Number of initial errors (in sequence) to ignore before applying // exponential back-off rules. 0, // Initial delay for exponential back-off in ms. 2000, // Factor by which the waiting time will be multiplied. 2, // Fuzzing percentage. ex: 10% will spread requests randomly // between 90%-100% of the calculated time. 0, // Maximum amount of time we are willing to delay our request in ms. -1, // Time to keep an entry from being discarded even when it // has no significant state, -1 to never discard. -1, // Don't use initial delay unless the last request was an error. false, }; } // namespace ChromotingHost::ChromotingHost( SignalStrategy* signal_strategy, DesktopEnvironmentFactory* desktop_environment_factory, scoped_ptr session_manager, scoped_refptr audio_task_runner, scoped_refptr input_task_runner, scoped_refptr video_capture_task_runner, scoped_refptr video_encode_task_runner, scoped_refptr network_task_runner, scoped_refptr ui_task_runner) : desktop_environment_factory_(desktop_environment_factory), session_manager_(session_manager.Pass()), audio_task_runner_(audio_task_runner), input_task_runner_(input_task_runner), video_capture_task_runner_(video_capture_task_runner), video_encode_task_runner_(video_encode_task_runner), network_task_runner_(network_task_runner), ui_task_runner_(ui_task_runner), signal_strategy_(signal_strategy), started_(false), protocol_config_(protocol::CandidateSessionConfig::CreateDefault()), login_backoff_(&kDefaultBackoffPolicy), authenticating_client_(false), reject_authenticating_client_(false), enable_curtaining_(false), weak_factory_(this) { DCHECK(network_task_runner_->BelongsToCurrentThread()); DCHECK(signal_strategy); jingle_glue::JingleThreadWrapper::EnsureForCurrentMessageLoop(); if (!desktop_environment_factory_->SupportsAudioCapture()) { protocol_config_->DisableAudioChannel(); } } ChromotingHost::~ChromotingHost() { DCHECK(CalledOnValidThread()); // Disconnect all of the clients. while (!clients_.empty()) { clients_.front()->DisconnectSession(); } // Destroy the session manager to make sure that |signal_strategy_| does not // have any listeners registered. session_manager_.reset(); // Notify observers. if (started_) FOR_EACH_OBSERVER(HostStatusObserver, status_observers_, OnShutdown()); } void ChromotingHost::Start(const std::string& host_owner_email) { DCHECK(CalledOnValidThread()); DCHECK(!started_); HOST_LOG << "Starting host"; started_ = true; FOR_EACH_OBSERVER(HostStatusObserver, status_observers_, OnStart(host_owner_email)); // Start the SessionManager, supplying this ChromotingHost as the listener. session_manager_->Init(signal_strategy_, this); } void ChromotingHost::AddStatusObserver(HostStatusObserver* observer) { DCHECK(CalledOnValidThread()); status_observers_.AddObserver(observer); } void ChromotingHost::RemoveStatusObserver(HostStatusObserver* observer) { DCHECK(CalledOnValidThread()); status_observers_.RemoveObserver(observer); } void ChromotingHost::AddExtension(scoped_ptr extension) { extensions_.push_back(extension.release()); } void ChromotingHost::RejectAuthenticatingClient() { DCHECK(authenticating_client_); reject_authenticating_client_ = true; } void ChromotingHost::SetAuthenticatorFactory( scoped_ptr authenticator_factory) { DCHECK(CalledOnValidThread()); session_manager_->set_authenticator_factory(authenticator_factory.Pass()); } void ChromotingHost::SetEnableCurtaining(bool enable) { DCHECK(network_task_runner_->BelongsToCurrentThread()); if (enable_curtaining_ == enable) return; enable_curtaining_ = enable; desktop_environment_factory_->SetEnableCurtaining(enable_curtaining_); // Disconnect all existing clients because they might be running not // curtained. // TODO(alexeypa): fix this such that the curtain is applied to the not // curtained sessions or disconnect only the client connected to not // curtained sessions. if (enable_curtaining_) DisconnectAllClients(); } void ChromotingHost::SetMaximumSessionDuration( const base::TimeDelta& max_session_duration) { max_session_duration_ = max_session_duration; } //////////////////////////////////////////////////////////////////////////// // protocol::ClientSession::EventHandler implementation. void ChromotingHost::OnSessionAuthenticating(ClientSession* client) { // We treat each incoming connection as a failure to authenticate, // and clear the backoff when a connection successfully // authenticates. This allows the backoff to protect from parallel // connection attempts as well as sequential ones. if (login_backoff_.ShouldRejectRequest()) { LOG(WARNING) << "Disconnecting client " << client->client_jid() << " due to" " an overload of failed login attempts."; client->DisconnectSession(); return; } login_backoff_.InformOfRequest(false); } bool ChromotingHost::OnSessionAuthenticated(ClientSession* client) { DCHECK(CalledOnValidThread()); login_backoff_.Reset(); // Disconnect all other clients. |it| should be advanced before Disconnect() // is called to avoid it becoming invalid when the client is removed from // the list. ClientList::iterator it = clients_.begin(); while (it != clients_.end()) { ClientSession* other_client = *it++; if (other_client != client) other_client->DisconnectSession(); } // Disconnects above must have destroyed all other clients. DCHECK_EQ(clients_.size(), 1U); // Notify observers that there is at least one authenticated client. const std::string& jid = client->client_jid(); reject_authenticating_client_ = false; authenticating_client_ = true; FOR_EACH_OBSERVER(HostStatusObserver, status_observers_, OnClientAuthenticated(jid)); authenticating_client_ = false; return !reject_authenticating_client_; } void ChromotingHost::OnSessionChannelsConnected(ClientSession* client) { DCHECK(CalledOnValidThread()); // Notify observers. FOR_EACH_OBSERVER(HostStatusObserver, status_observers_, OnClientConnected(client->client_jid())); } void ChromotingHost::OnSessionAuthenticationFailed(ClientSession* client) { DCHECK(CalledOnValidThread()); // Notify observers. FOR_EACH_OBSERVER(HostStatusObserver, status_observers_, OnAccessDenied(client->client_jid())); } void ChromotingHost::OnSessionClosed(ClientSession* client) { DCHECK(CalledOnValidThread()); ClientList::iterator it = std::find(clients_.begin(), clients_.end(), client); CHECK(it != clients_.end()); if (client->is_authenticated()) { FOR_EACH_OBSERVER(HostStatusObserver, status_observers_, OnClientDisconnected(client->client_jid())); } clients_.erase(it); delete client; } void ChromotingHost::OnSessionRouteChange( ClientSession* session, const std::string& channel_name, const protocol::TransportRoute& route) { DCHECK(CalledOnValidThread()); FOR_EACH_OBSERVER(HostStatusObserver, status_observers_, OnClientRouteChange(session->client_jid(), channel_name, route)); } void ChromotingHost::OnSessionManagerReady() { DCHECK(CalledOnValidThread()); // Don't need to do anything here, just wait for incoming // connections. } void ChromotingHost::OnIncomingSession( protocol::Session* session, protocol::SessionManager::IncomingSessionResponse* response) { DCHECK(CalledOnValidThread()); if (!started_) { *response = protocol::SessionManager::DECLINE; return; } if (login_backoff_.ShouldRejectRequest()) { LOG(WARNING) << "Rejecting connection due to" " an overload of failed login attempts."; *response = protocol::SessionManager::OVERLOAD; return; } protocol::SessionConfig config; if (!protocol_config_->Select(session->candidate_config(), &config)) { LOG(WARNING) << "Rejecting connection from " << session->jid() << " because no compatible configuration has been found."; *response = protocol::SessionManager::INCOMPATIBLE; return; } session->set_config(config); *response = protocol::SessionManager::ACCEPT; HOST_LOG << "Client connected: " << session->jid(); // Create a client object. scoped_ptr connection( new protocol::ConnectionToClient(session)); ClientSession* client = new ClientSession( this, audio_task_runner_, input_task_runner_, video_capture_task_runner_, video_encode_task_runner_, network_task_runner_, ui_task_runner_, connection.Pass(), desktop_environment_factory_, max_session_duration_, pairing_registry_, extensions_.get()); clients_.push_back(client); } void ChromotingHost::set_protocol_config( scoped_ptr config) { DCHECK(CalledOnValidThread()); DCHECK(config.get()); DCHECK(!started_); protocol_config_ = config.Pass(); } void ChromotingHost::DisconnectAllClients() { DCHECK(CalledOnValidThread()); while (!clients_.empty()) { size_t size = clients_.size(); clients_.front()->DisconnectSession(); CHECK_EQ(clients_.size(), size - 1); } } } // namespace remoting