// 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 "net/quic/quic_stream_factory.h" #include #include "base/cpu.h" #include "base/message_loop/message_loop.h" #include "base/message_loop/message_loop_proxy.h" #include "base/metrics/histogram.h" #include "base/rand_util.h" #include "base/stl_util.h" #include "base/strings/string_util.h" #include "base/values.h" #include "net/base/net_errors.h" #include "net/cert/cert_verifier.h" #include "net/dns/host_resolver.h" #include "net/dns/single_request_host_resolver.h" #include "net/http/http_server_properties.h" #include "net/quic/congestion_control/tcp_receiver.h" #include "net/quic/crypto/proof_verifier_chromium.h" #include "net/quic/crypto/quic_random.h" #include "net/quic/crypto/quic_server_info.h" #include "net/quic/port_suggester.h" #include "net/quic/quic_client_session.h" #include "net/quic/quic_clock.h" #include "net/quic/quic_connection.h" #include "net/quic/quic_connection_helper.h" #include "net/quic/quic_crypto_client_stream_factory.h" #include "net/quic/quic_default_packet_writer.h" #include "net/quic/quic_http_stream.h" #include "net/quic/quic_protocol.h" #include "net/quic/quic_server_id.h" #include "net/socket/client_socket_factory.h" #if defined(OS_WIN) #include "base/win/windows_version.h" #endif using std::string; using std::vector; namespace net { namespace { enum CreateSessionFailure { CREATION_ERROR_CONNECTING_SOCKET, CREATION_ERROR_SETTING_RECEIVE_BUFFER, CREATION_ERROR_SETTING_SEND_BUFFER, CREATION_ERROR_MAX }; // The initial receive window size for both streams and sessions. const int32 kInitialReceiveWindowSize = 10 * 1024 * 1024; // 10MB // The suggested initial congestion windows for a server to use. // TODO: This should be tested and optimized, and even better, suggest a window // that corresponds to historical bandwidth and min-RTT. // Larger initial congestion windows can, if we don't overshoot, reduce latency // by avoiding the RTT needed for slow start to double (and re-double) from a // default of 10. // We match SPDY's use of 32 when secure (since we'd compete with SPDY). const int32 kServerSecureInitialCongestionWindow = 32; // Be conservative, and just use double a typical TCP ICWND for HTTP. const int32 kServerInecureInitialCongestionWindow = 20; void HistogramCreateSessionFailure(enum CreateSessionFailure error) { UMA_HISTOGRAM_ENUMERATION("Net.QuicSession.CreationError", error, CREATION_ERROR_MAX); } bool IsEcdsaSupported() { #if defined(OS_WIN) if (base::win::GetVersion() < base::win::VERSION_VISTA) return false; #endif return true; } } // namespace QuicStreamFactory::IpAliasKey::IpAliasKey() {} QuicStreamFactory::IpAliasKey::IpAliasKey(IPEndPoint ip_endpoint, bool is_https) : ip_endpoint(ip_endpoint), is_https(is_https) {} QuicStreamFactory::IpAliasKey::~IpAliasKey() {} bool QuicStreamFactory::IpAliasKey::operator<( const QuicStreamFactory::IpAliasKey& other) const { if (!(ip_endpoint == other.ip_endpoint)) { return ip_endpoint < other.ip_endpoint; } return is_https < other.is_https; } bool QuicStreamFactory::IpAliasKey::operator==( const QuicStreamFactory::IpAliasKey& other) const { return is_https == other.is_https && ip_endpoint == other.ip_endpoint; }; // Responsible for creating a new QUIC session to the specified server, and // for notifying any associated requests when complete. class QuicStreamFactory::Job { public: Job(QuicStreamFactory* factory, HostResolver* host_resolver, const HostPortPair& host_port_pair, bool is_https, bool was_alternate_protocol_recently_broken, PrivacyMode privacy_mode, base::StringPiece method, QuicServerInfo* server_info, const BoundNetLog& net_log); ~Job(); int Run(const CompletionCallback& callback); int DoLoop(int rv); int DoResolveHost(); int DoResolveHostComplete(int rv); int DoLoadServerInfo(); int DoLoadServerInfoComplete(int rv); int DoConnect(); int DoConnectComplete(int rv); void OnIOComplete(int rv); CompletionCallback callback() { return callback_; } const QuicServerId server_id() const { return server_id_; } private: enum IoState { STATE_NONE, STATE_RESOLVE_HOST, STATE_RESOLVE_HOST_COMPLETE, STATE_LOAD_SERVER_INFO, STATE_LOAD_SERVER_INFO_COMPLETE, STATE_CONNECT, STATE_CONNECT_COMPLETE, }; IoState io_state_; QuicStreamFactory* factory_; SingleRequestHostResolver host_resolver_; QuicServerId server_id_; bool is_post_; bool was_alternate_protocol_recently_broken_; scoped_ptr server_info_; const BoundNetLog net_log_; QuicClientSession* session_; CompletionCallback callback_; AddressList address_list_; base::TimeTicks disk_cache_load_start_time_; base::WeakPtrFactory weak_factory_; DISALLOW_COPY_AND_ASSIGN(Job); }; QuicStreamFactory::Job::Job(QuicStreamFactory* factory, HostResolver* host_resolver, const HostPortPair& host_port_pair, bool is_https, bool was_alternate_protocol_recently_broken, PrivacyMode privacy_mode, base::StringPiece method, QuicServerInfo* server_info, const BoundNetLog& net_log) : factory_(factory), host_resolver_(host_resolver), server_id_(host_port_pair, is_https, privacy_mode), is_post_(method == "POST"), was_alternate_protocol_recently_broken_( was_alternate_protocol_recently_broken), server_info_(server_info), net_log_(net_log), session_(NULL), weak_factory_(this) {} QuicStreamFactory::Job::~Job() { } int QuicStreamFactory::Job::Run(const CompletionCallback& callback) { io_state_ = STATE_RESOLVE_HOST; int rv = DoLoop(OK); if (rv == ERR_IO_PENDING) callback_ = callback; return rv > 0 ? OK : rv; } int QuicStreamFactory::Job::DoLoop(int rv) { do { IoState state = io_state_; io_state_ = STATE_NONE; switch (state) { case STATE_RESOLVE_HOST: CHECK_EQ(OK, rv); rv = DoResolveHost(); break; case STATE_RESOLVE_HOST_COMPLETE: rv = DoResolveHostComplete(rv); break; case STATE_LOAD_SERVER_INFO: CHECK_EQ(OK, rv); rv = DoLoadServerInfo(); break; case STATE_LOAD_SERVER_INFO_COMPLETE: rv = DoLoadServerInfoComplete(rv); break; case STATE_CONNECT: CHECK_EQ(OK, rv); rv = DoConnect(); break; case STATE_CONNECT_COMPLETE: rv = DoConnectComplete(rv); break; default: NOTREACHED() << "io_state_: " << io_state_; break; } } while (io_state_ != STATE_NONE && rv != ERR_IO_PENDING); return rv; } void QuicStreamFactory::Job::OnIOComplete(int rv) { rv = DoLoop(rv); if (rv != ERR_IO_PENDING && !callback_.is_null()) { callback_.Run(rv); } } int QuicStreamFactory::Job::DoResolveHost() { // Start loading the data now, and wait for it after we resolve the host. if (server_info_) { disk_cache_load_start_time_ = base::TimeTicks::Now(); server_info_->Start(); } io_state_ = STATE_RESOLVE_HOST_COMPLETE; return host_resolver_.Resolve( HostResolver::RequestInfo(server_id_.host_port_pair()), DEFAULT_PRIORITY, &address_list_, base::Bind(&QuicStreamFactory::Job::OnIOComplete, weak_factory_.GetWeakPtr()), net_log_); } int QuicStreamFactory::Job::DoResolveHostComplete(int rv) { if (rv != OK) return rv; DCHECK(!factory_->HasActiveSession(server_id_)); // Inform the factory of this resolution, which will set up // a session alias, if possible. if (factory_->OnResolution(server_id_, address_list_)) { return OK; } io_state_ = STATE_LOAD_SERVER_INFO; return OK; } int QuicStreamFactory::Job::DoLoadServerInfo() { io_state_ = STATE_LOAD_SERVER_INFO_COMPLETE; if (!server_info_) return OK; return server_info_->WaitForDataReady( base::Bind(&QuicStreamFactory::Job::OnIOComplete, weak_factory_.GetWeakPtr())); } int QuicStreamFactory::Job::DoLoadServerInfoComplete(int rv) { if (server_info_) { UMA_HISTOGRAM_TIMES("Net.QuicServerInfo.DiskCacheReadTime", base::TimeTicks::Now() - disk_cache_load_start_time_); } if (rv != OK) { server_info_.reset(); } io_state_ = STATE_CONNECT; return OK; } int QuicStreamFactory::Job::DoConnect() { io_state_ = STATE_CONNECT_COMPLETE; int rv = factory_->CreateSession(server_id_, server_info_.Pass(), address_list_, net_log_, &session_); if (rv != OK) { DCHECK(rv != ERR_IO_PENDING); DCHECK(!session_); return rv; } session_->StartReading(); if (!session_->connection()->connected()) { return ERR_QUIC_PROTOCOL_ERROR; } bool require_confirmation = factory_->require_confirmation() || is_post_ || was_alternate_protocol_recently_broken_; rv = session_->CryptoConnect( require_confirmation, base::Bind(&QuicStreamFactory::Job::OnIOComplete, base::Unretained(this))); return rv; } int QuicStreamFactory::Job::DoConnectComplete(int rv) { if (rv != OK) return rv; DCHECK(!factory_->HasActiveSession(server_id_)); // There may well now be an active session for this IP. If so, use the // existing session instead. AddressList address(session_->connection()->peer_address()); if (factory_->OnResolution(server_id_, address)) { session_->connection()->SendConnectionClose(QUIC_NO_ERROR); session_ = NULL; return OK; } factory_->ActivateSession(server_id_, session_); return OK; } QuicStreamRequest::QuicStreamRequest(QuicStreamFactory* factory) : factory_(factory) {} QuicStreamRequest::~QuicStreamRequest() { if (factory_ && !callback_.is_null()) factory_->CancelRequest(this); } int QuicStreamRequest::Request(const HostPortPair& host_port_pair, bool is_https, PrivacyMode privacy_mode, base::StringPiece method, const BoundNetLog& net_log, const CompletionCallback& callback) { DCHECK(!stream_); DCHECK(callback_.is_null()); DCHECK(factory_); int rv = factory_->Create(host_port_pair, is_https, privacy_mode, method, net_log, this); if (rv == ERR_IO_PENDING) { host_port_pair_ = host_port_pair; is_https_ = is_https; net_log_ = net_log; callback_ = callback; } else { factory_ = NULL; } if (rv == OK) DCHECK(stream_); return rv; } void QuicStreamRequest::set_stream(scoped_ptr stream) { DCHECK(stream); stream_ = stream.Pass(); } void QuicStreamRequest::OnRequestComplete(int rv) { factory_ = NULL; callback_.Run(rv); } scoped_ptr QuicStreamRequest::ReleaseStream() { DCHECK(stream_); return stream_.Pass(); } QuicStreamFactory::QuicStreamFactory( HostResolver* host_resolver, ClientSocketFactory* client_socket_factory, base::WeakPtr http_server_properties, CertVerifier* cert_verifier, QuicCryptoClientStreamFactory* quic_crypto_client_stream_factory, QuicRandom* random_generator, QuicClock* clock, size_t max_packet_length, const QuicVersionVector& supported_versions, bool enable_port_selection, bool enable_pacing, bool enable_time_based_loss_detection) : require_confirmation_(true), host_resolver_(host_resolver), client_socket_factory_(client_socket_factory), http_server_properties_(http_server_properties), cert_verifier_(cert_verifier), quic_server_info_factory_(NULL), quic_crypto_client_stream_factory_(quic_crypto_client_stream_factory), random_generator_(random_generator), clock_(clock), max_packet_length_(max_packet_length), supported_versions_(supported_versions), enable_port_selection_(enable_port_selection), enable_pacing_(enable_pacing), port_seed_(random_generator_->RandUint64()), weak_factory_(this) { config_.SetDefaults(); config_.EnablePacing(enable_pacing_); if (enable_time_based_loss_detection) config_.SetLossDetectionToSend(kTIME); config_.set_idle_connection_state_lifetime( QuicTime::Delta::FromSeconds(30), QuicTime::Delta::FromSeconds(30)); crypto_config_.SetDefaults(); crypto_config_.AddCanonicalSuffix(".c.youtube.com"); crypto_config_.AddCanonicalSuffix(".googlevideo.com"); crypto_config_.SetProofVerifier(new ProofVerifierChromium(cert_verifier)); base::CPU cpu; if (cpu.has_aesni() && cpu.has_avx()) crypto_config_.PreferAesGcm(); if (!IsEcdsaSupported()) crypto_config_.DisableEcdsa(); } QuicStreamFactory::~QuicStreamFactory() { CloseAllSessions(ERR_ABORTED); while (!all_sessions_.empty()) { delete all_sessions_.begin()->first; all_sessions_.erase(all_sessions_.begin()); } STLDeleteValues(&active_jobs_); } int QuicStreamFactory::Create(const HostPortPair& host_port_pair, bool is_https, PrivacyMode privacy_mode, base::StringPiece method, const BoundNetLog& net_log, QuicStreamRequest* request) { QuicServerId server_id(host_port_pair, is_https, privacy_mode); if (HasActiveSession(server_id)) { request->set_stream(CreateIfSessionExists(server_id, net_log)); return OK; } if (HasActiveJob(server_id)) { Job* job = active_jobs_[server_id]; active_requests_[request] = job; job_requests_map_[job].insert(request); return ERR_IO_PENDING; } QuicServerInfo* quic_server_info = NULL; if (quic_server_info_factory_) { QuicCryptoClientConfig::CachedState* cached = crypto_config_.LookupOrCreate(server_id); DCHECK(cached); if (cached->IsEmpty()) { quic_server_info = quic_server_info_factory_->GetForServer(server_id); } } bool was_alternate_protocol_recently_broken = http_server_properties_ && http_server_properties_->WasAlternateProtocolRecentlyBroken( server_id.host_port_pair()); scoped_ptr job(new Job(this, host_resolver_, host_port_pair, is_https, was_alternate_protocol_recently_broken, privacy_mode, method, quic_server_info, net_log)); int rv = job->Run(base::Bind(&QuicStreamFactory::OnJobComplete, base::Unretained(this), job.get())); if (rv == ERR_IO_PENDING) { active_requests_[request] = job.get(); job_requests_map_[job.get()].insert(request); active_jobs_[server_id] = job.release(); } if (rv == OK) { DCHECK(HasActiveSession(server_id)); request->set_stream(CreateIfSessionExists(server_id, net_log)); } return rv; } bool QuicStreamFactory::OnResolution( const QuicServerId& server_id, const AddressList& address_list) { DCHECK(!HasActiveSession(server_id)); for (size_t i = 0; i < address_list.size(); ++i) { const IPEndPoint& address = address_list[i]; const IpAliasKey ip_alias_key(address, server_id.is_https()); if (!ContainsKey(ip_aliases_, ip_alias_key)) continue; const SessionSet& sessions = ip_aliases_[ip_alias_key]; for (SessionSet::const_iterator i = sessions.begin(); i != sessions.end(); ++i) { QuicClientSession* session = *i; if (!session->CanPool(server_id.host())) continue; active_sessions_[server_id] = session; session_aliases_[session].insert(server_id); return true; } } return false; } void QuicStreamFactory::OnJobComplete(Job* job, int rv) { if (rv == OK) { require_confirmation_ = false; // Create all the streams, but do not notify them yet. for (RequestSet::iterator it = job_requests_map_[job].begin(); it != job_requests_map_[job].end() ; ++it) { DCHECK(HasActiveSession(job->server_id())); (*it)->set_stream(CreateIfSessionExists(job->server_id(), (*it)->net_log())); } } while (!job_requests_map_[job].empty()) { RequestSet::iterator it = job_requests_map_[job].begin(); QuicStreamRequest* request = *it; job_requests_map_[job].erase(it); active_requests_.erase(request); // Even though we're invoking callbacks here, we don't need to worry // about |this| being deleted, because the factory is owned by the // profile which can not be deleted via callbacks. request->OnRequestComplete(rv); } active_jobs_.erase(job->server_id()); job_requests_map_.erase(job); delete job; return; } // Returns a newly created QuicHttpStream owned by the caller, if a // matching session already exists. Returns NULL otherwise. scoped_ptr QuicStreamFactory::CreateIfSessionExists( const QuicServerId& server_id, const BoundNetLog& net_log) { if (!HasActiveSession(server_id)) { DVLOG(1) << "No active session"; return scoped_ptr(); } QuicClientSession* session = active_sessions_[server_id]; DCHECK(session); return scoped_ptr( new QuicHttpStream(session->GetWeakPtr())); } void QuicStreamFactory::OnIdleSession(QuicClientSession* session) { } void QuicStreamFactory::OnSessionGoingAway(QuicClientSession* session) { const AliasSet& aliases = session_aliases_[session]; for (AliasSet::const_iterator it = aliases.begin(); it != aliases.end(); ++it) { DCHECK(active_sessions_.count(*it)); DCHECK_EQ(session, active_sessions_[*it]); // Track sessions which have recently gone away so that we can disable // port suggestions. if (session->goaway_received()) { gone_away_aliases_.insert(*it); } active_sessions_.erase(*it); ProcessGoingAwaySession(session, *it, true); } ProcessGoingAwaySession(session, all_sessions_[session], false); if (!aliases.empty()) { const IpAliasKey ip_alias_key(session->connection()->peer_address(), aliases.begin()->is_https()); ip_aliases_[ip_alias_key].erase(session); if (ip_aliases_[ip_alias_key].empty()) { ip_aliases_.erase(ip_alias_key); } } session_aliases_.erase(session); } void QuicStreamFactory::OnSessionClosed(QuicClientSession* session) { DCHECK_EQ(0u, session->GetNumOpenStreams()); OnSessionGoingAway(session); delete session; all_sessions_.erase(session); } void QuicStreamFactory::CancelRequest(QuicStreamRequest* request) { DCHECK(ContainsKey(active_requests_, request)); Job* job = active_requests_[request]; job_requests_map_[job].erase(request); active_requests_.erase(request); } void QuicStreamFactory::CloseAllSessions(int error) { while (!active_sessions_.empty()) { size_t initial_size = active_sessions_.size(); active_sessions_.begin()->second->CloseSessionOnError(error); DCHECK_NE(initial_size, active_sessions_.size()); } while (!all_sessions_.empty()) { size_t initial_size = all_sessions_.size(); all_sessions_.begin()->first->CloseSessionOnError(error); DCHECK_NE(initial_size, all_sessions_.size()); } DCHECK(all_sessions_.empty()); } base::Value* QuicStreamFactory::QuicStreamFactoryInfoToValue() const { base::ListValue* list = new base::ListValue(); for (SessionMap::const_iterator it = active_sessions_.begin(); it != active_sessions_.end(); ++it) { const QuicServerId& server_id = it->first; QuicClientSession* session = it->second; const AliasSet& aliases = session_aliases_.find(session)->second; // Only add a session to the list once. if (server_id == *aliases.begin()) { std::set hosts; for (AliasSet::const_iterator alias_it = aliases.begin(); alias_it != aliases.end(); ++alias_it) { hosts.insert(alias_it->host_port_pair()); } list->Append(session->GetInfoAsValue(hosts)); } } return list; } void QuicStreamFactory::ClearCachedStatesInCryptoConfig() { crypto_config_.ClearCachedStates(); } void QuicStreamFactory::OnIPAddressChanged() { CloseAllSessions(ERR_NETWORK_CHANGED); require_confirmation_ = true; } void QuicStreamFactory::OnCertAdded(const X509Certificate* cert) { CloseAllSessions(ERR_CERT_DATABASE_CHANGED); } void QuicStreamFactory::OnCACertChanged(const X509Certificate* cert) { // We should flush the sessions if we removed trust from a // cert, because a previously trusted server may have become // untrusted. // // We should not flush the sessions if we added trust to a cert. // // Since the OnCACertChanged method doesn't tell us what // kind of change it is, we have to flush the socket // pools to be safe. CloseAllSessions(ERR_CERT_DATABASE_CHANGED); } bool QuicStreamFactory::HasActiveSession( const QuicServerId& server_id) const { return ContainsKey(active_sessions_, server_id); } int QuicStreamFactory::CreateSession( const QuicServerId& server_id, scoped_ptr server_info, const AddressList& address_list, const BoundNetLog& net_log, QuicClientSession** session) { bool enable_port_selection = enable_port_selection_; if (enable_port_selection && ContainsKey(gone_away_aliases_, server_id)) { // Disable port selection when the server is going away. // There is no point in trying to return to the same server, if // that server is no longer handling requests. enable_port_selection = false; gone_away_aliases_.erase(server_id); } QuicConnectionId connection_id = random_generator_->RandUint64(); IPEndPoint addr = *address_list.begin(); scoped_refptr port_suggester = new PortSuggester(server_id.host_port_pair(), port_seed_); DatagramSocket::BindType bind_type = enable_port_selection ? DatagramSocket::RANDOM_BIND : // Use our callback. DatagramSocket::DEFAULT_BIND; // Use OS to randomize. scoped_ptr socket( client_socket_factory_->CreateDatagramClientSocket( bind_type, base::Bind(&PortSuggester::SuggestPort, port_suggester), net_log.net_log(), net_log.source())); int rv = socket->Connect(addr); if (rv != OK) { HistogramCreateSessionFailure(CREATION_ERROR_CONNECTING_SOCKET); return rv; } UMA_HISTOGRAM_COUNTS("Net.QuicEphemeralPortsSuggested", port_suggester->call_count()); if (enable_port_selection) { DCHECK_LE(1u, port_suggester->call_count()); } else { DCHECK_EQ(0u, port_suggester->call_count()); } // We should adaptively set this buffer size, but for now, we'll use a size // that is more than large enough for a full receive window, and yet // does not consume "too much" memory. If we see bursty packet loss, we may // revisit this setting and test for its impact. const int32 kSocketBufferSize(TcpReceiver::kReceiveWindowTCP); rv = socket->SetReceiveBufferSize(kSocketBufferSize); if (rv != OK) { HistogramCreateSessionFailure(CREATION_ERROR_SETTING_RECEIVE_BUFFER); return rv; } // Set a buffer large enough to contain the initial CWND's worth of packet // to work around the problem with CHLO packets being sent out with the // wrong encryption level, when the send buffer is full. rv = socket->SetSendBufferSize(kMaxPacketSize * 20); if (rv != OK) { HistogramCreateSessionFailure(CREATION_ERROR_SETTING_SEND_BUFFER); return rv; } scoped_ptr writer( new QuicDefaultPacketWriter(socket.get())); if (!helper_.get()) { helper_.reset(new QuicConnectionHelper( base::MessageLoop::current()->message_loop_proxy().get(), clock_.get(), random_generator_)); } QuicConnection* connection = new QuicConnection(connection_id, addr, helper_.get(), writer.get(), false, supported_versions_); writer->SetConnection(connection); connection->options()->max_packet_length = max_packet_length_; InitializeCachedStateInCryptoConfig(server_id, server_info); QuicConfig config = config_; config_.SetInitialCongestionWindowToSend( server_id.is_https() ? kServerSecureInitialCongestionWindow : kServerInecureInitialCongestionWindow); if (http_server_properties_) { const HttpServerProperties::NetworkStats* stats = http_server_properties_->GetServerNetworkStats( server_id.host_port_pair()); if (stats != NULL) { config.SetInitialRoundTripTimeUsToSend(stats->srtt.InMicroseconds()); } } *session = new QuicClientSession( connection, socket.Pass(), writer.Pass(), this, quic_crypto_client_stream_factory_, server_info.Pass(), server_id, config, kInitialReceiveWindowSize, &crypto_config_, net_log.net_log()); all_sessions_[*session] = server_id; // owning pointer return OK; } bool QuicStreamFactory::HasActiveJob(const QuicServerId& key) const { return ContainsKey(active_jobs_, key); } void QuicStreamFactory::ActivateSession( const QuicServerId& server_id, QuicClientSession* session) { DCHECK(!HasActiveSession(server_id)); active_sessions_[server_id] = session; session_aliases_[session].insert(server_id); const IpAliasKey ip_alias_key(session->connection()->peer_address(), server_id.is_https()); DCHECK(!ContainsKey(ip_aliases_[ip_alias_key], session)); ip_aliases_[ip_alias_key].insert(session); } void QuicStreamFactory::InitializeCachedStateInCryptoConfig( const QuicServerId& server_id, const scoped_ptr& server_info) { if (!server_info) return; QuicCryptoClientConfig::CachedState* cached = crypto_config_.LookupOrCreate(server_id); if (!cached->IsEmpty()) return; if (!cached->Initialize(server_info->state().server_config, server_info->state().source_address_token, server_info->state().certs, server_info->state().server_config_sig, clock_->WallNow())) return; if (!server_id.is_https()) { // Don't check the certificates for insecure QUIC. cached->SetProofValid(); } } void QuicStreamFactory::ProcessGoingAwaySession( QuicClientSession* session, const QuicServerId& server_id, bool session_was_active) { if (!http_server_properties_) return; const QuicConnectionStats& stats = session->connection()->GetStats(); if (session->IsCryptoHandshakeConfirmed()) { HttpServerProperties::NetworkStats network_stats; network_stats.srtt = base::TimeDelta::FromMicroseconds(stats.srtt_us); network_stats.bandwidth_estimate = stats.estimated_bandwidth; http_server_properties_->SetServerNetworkStats(server_id.host_port_pair(), network_stats); return; } UMA_HISTOGRAM_COUNTS("Net.QuicHandshakeNotConfirmedNumPacketsReceived", stats.packets_received); if (session_was_active) { // TODO(rch): In the special case where the session has received no // packets from the peer, we should consider blacklisting this // differently so that we still race TCP but we don't consider the // session connected until the handshake has been confirmed. HistogramBrokenAlternateProtocolLocation( BROKEN_ALTERNATE_PROTOCOL_LOCATION_QUIC_STREAM_FACTORY); http_server_properties_->SetBrokenAlternateProtocol( server_id.host_port_pair()); } } } // namespace net