// 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 "chrome/browser/io_thread.h" #include #include "base/base64.h" #include "base/bind.h" #include "base/bind_helpers.h" #include "base/command_line.h" #include "base/compiler_specific.h" #include "base/debug/leak_tracker.h" #include "base/debug/trace_event.h" #include "base/logging.h" #include "base/metrics/field_trial.h" #include "base/prefs/pref_registry_simple.h" #include "base/prefs/pref_service.h" #include "base/stl_util.h" #include "base/strings/string_number_conversions.h" #include "base/strings/string_piece.h" #include "base/strings/string_split.h" #include "base/strings/string_util.h" #include "base/threading/sequenced_worker_pool.h" #include "base/threading/thread.h" #include "base/threading/worker_pool.h" #include "base/time/time.h" #include "build/build_config.h" #include "chrome/browser/browser_process.h" #include "chrome/browser/net/async_dns_field_trial.h" #include "chrome/browser/net/chrome_net_log.h" #include "chrome/browser/net/chrome_network_delegate.h" #include "chrome/browser/net/connect_interceptor.h" #include "chrome/browser/net/dns_probe_service.h" #include "chrome/browser/net/pref_proxy_config_tracker.h" #include "chrome/browser/net/proxy_service_factory.h" #include "chrome/browser/net/spdyproxy/data_reduction_proxy_chrome_settings.h" #include "chrome/browser/net/spdyproxy/data_reduction_proxy_chrome_settings_factory.h" #include "chrome/common/chrome_content_client.h" #include "chrome/common/chrome_switches.h" #include "chrome/common/chrome_version_info.h" #include "chrome/common/pref_names.h" #include "components/data_reduction_proxy/browser/data_reduction_proxy_auth_request_handler.h" #include "components/data_reduction_proxy/browser/data_reduction_proxy_delegate.h" #include "components/data_reduction_proxy/browser/data_reduction_proxy_params.h" #include "components/data_reduction_proxy/browser/data_reduction_proxy_prefs.h" #include "components/data_reduction_proxy/browser/data_reduction_proxy_protocol.h" #include "components/data_reduction_proxy/browser/data_reduction_proxy_settings.h" #include "components/policy/core/common/policy_service.h" #include "components/variations/variations_associated_data.h" #include "content/public/browser/browser_thread.h" #include "content/public/browser/cookie_store_factory.h" #include "net/base/host_mapping_rules.h" #include "net/base/net_util.h" #include "net/cert/cert_verifier.h" #include "net/cert/cert_verify_proc.h" #include "net/cert/ct_known_logs.h" #include "net/cert/ct_log_verifier.h" #include "net/cert/ct_verifier.h" #include "net/cert/multi_log_ct_verifier.h" #include "net/cert/multi_threaded_cert_verifier.h" #include "net/cookies/cookie_store.h" #include "net/dns/host_cache.h" #include "net/dns/host_resolver.h" #include "net/dns/mapped_host_resolver.h" #include "net/ftp/ftp_network_layer.h" #include "net/http/http_auth_filter.h" #include "net/http/http_auth_handler_factory.h" #include "net/http/http_network_layer.h" #include "net/http/http_server_properties_impl.h" #include "net/proxy/proxy_config_service.h" #include "net/proxy/proxy_script_fetcher_impl.h" #include "net/proxy/proxy_service.h" #include "net/quic/crypto/crypto_protocol.h" #include "net/quic/quic_protocol.h" #include "net/socket/tcp_client_socket.h" #include "net/spdy/spdy_session.h" #include "net/ssl/channel_id_service.h" #include "net/ssl/default_channel_id_store.h" #include "net/url_request/data_protocol_handler.h" #include "net/url_request/file_protocol_handler.h" #include "net/url_request/ftp_protocol_handler.h" #include "net/url_request/static_http_user_agent_settings.h" #include "net/url_request/url_fetcher.h" #include "net/url_request/url_request_context.h" #include "net/url_request/url_request_context_getter.h" #include "net/url_request/url_request_job_factory_impl.h" #include "net/url_request/url_request_throttler_manager.h" #include "url/url_constants.h" #if defined(ENABLE_CONFIGURATION_POLICY) #include "policy/policy_constants.h" #endif #if defined(ENABLE_EXTENSIONS) #include "chrome/browser/extensions/event_router_forwarder.h" #endif #if defined(USE_NSS) || defined(OS_IOS) #include "net/ocsp/nss_ocsp.h" #endif #if defined(OS_CHROMEOS) #include "chrome/browser/chromeos/net/cert_verify_proc_chromeos.h" #include "chromeos/network/host_resolver_impl_chromeos.h" #endif using content::BrowserThread; class SafeBrowsingURLRequestContext; // The IOThread object must outlive any tasks posted to the IO thread before the // Quit task, so base::Bind() calls are not refcounted. namespace { const char kTCPFastOpenFieldTrialName[] = "TCPFastOpen"; const char kTCPFastOpenHttpsEnabledGroupName[] = "HttpsEnabled"; const char kQuicFieldTrialName[] = "QUIC"; const char kQuicFieldTrialEnabledGroupName[] = "Enabled"; const char kQuicFieldTrialHttpsEnabledGroupName[] = "HttpsEnabled"; const char kQuicFieldTrialPacketLengthSuffix[] = "BytePackets"; const char kQuicFieldTrialPacingSuffix[] = "WithPacing"; const char kQuicFieldTrialTimeBasedLossDetectionSuffix[] = "WithTimeBasedLossDetection"; // The SPDY trial composes two different trial plus control groups: // * A "holdback" group with SPDY disabled, and corresponding control // (SPDY/3.1). The primary purpose of the holdback group is to encourage site // operators to do feature detection rather than UA-sniffing. As such, this // trial runs continuously. // * A SPDY/4 experiment, for SPDY/4 (aka HTTP/2) vs SPDY/3.1 comparisons and // eventual SPDY/4 deployment. const char kSpdyFieldTrialName[] = "SPDY"; const char kSpdyFieldTrialHoldbackGroupNamePrefix[] = "SpdyDisabled"; const char kSpdyFieldTrialHoldbackControlGroupName[] = "Control"; const char kSpdyFieldTrialSpdy31GroupNamePrefix[] = "Spdy31Enabled"; const char kSpdyFieldTrialSpdy4GroupNamePrefix[] = "Spdy4Enabled"; const char kSpdyFieldTrialSpdy4ControlGroupName[] = "Spdy4Control"; #if defined(OS_MACOSX) && !defined(OS_IOS) void ObserveKeychainEvents() { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); net::CertDatabase::GetInstance()->SetMessageLoopForKeychainEvents(); } #endif // Used for the "system" URLRequestContext. class SystemURLRequestContext : public net::URLRequestContext { public: SystemURLRequestContext() { #if defined(USE_NSS) || defined(OS_IOS) net::SetURLRequestContextForNSSHttpIO(this); #endif } private: virtual ~SystemURLRequestContext() { AssertNoURLRequests(); #if defined(USE_NSS) || defined(OS_IOS) net::SetURLRequestContextForNSSHttpIO(NULL); #endif } }; scoped_ptr CreateGlobalHostResolver(net::NetLog* net_log) { TRACE_EVENT0("startup", "IOThread::CreateGlobalHostResolver"); const CommandLine& command_line = *CommandLine::ForCurrentProcess(); net::HostResolver::Options options; // Use the concurrency override from the command-line, if any. if (command_line.HasSwitch(switches::kHostResolverParallelism)) { std::string s = command_line.GetSwitchValueASCII(switches::kHostResolverParallelism); // Parse the switch (it should be a positive integer formatted as decimal). int n; if (base::StringToInt(s, &n) && n > 0) { options.max_concurrent_resolves = static_cast(n); } else { LOG(ERROR) << "Invalid switch for host resolver parallelism: " << s; } } // Use the retry attempts override from the command-line, if any. if (command_line.HasSwitch(switches::kHostResolverRetryAttempts)) { std::string s = command_line.GetSwitchValueASCII(switches::kHostResolverRetryAttempts); // Parse the switch (it should be a non-negative integer). int n; if (base::StringToInt(s, &n) && n >= 0) { options.max_retry_attempts = static_cast(n); } else { LOG(ERROR) << "Invalid switch for host resolver retry attempts: " << s; } } scoped_ptr global_host_resolver; #if defined OS_CHROMEOS global_host_resolver = chromeos::HostResolverImplChromeOS::CreateSystemResolver(options, net_log); #else global_host_resolver = net::HostResolver::CreateSystemResolver(options, net_log); #endif // Determine if we should disable IPv6 support. if (command_line.HasSwitch(switches::kEnableIPv6)) { // Disable IPv6 probing. global_host_resolver->SetDefaultAddressFamily( net::ADDRESS_FAMILY_UNSPECIFIED); } else if (command_line.HasSwitch(switches::kDisableIPv6)) { global_host_resolver->SetDefaultAddressFamily(net::ADDRESS_FAMILY_IPV4); } // If hostname remappings were specified on the command-line, layer these // rules on top of the real host resolver. This allows forwarding all requests // through a designated test server. if (!command_line.HasSwitch(switches::kHostResolverRules)) return global_host_resolver.PassAs(); scoped_ptr remapped_resolver( new net::MappedHostResolver(global_host_resolver.Pass())); remapped_resolver->SetRulesFromString( command_line.GetSwitchValueASCII(switches::kHostResolverRules)); return remapped_resolver.PassAs(); } // TODO(willchan): Remove proxy script fetcher context since it's not necessary // now that I got rid of refcounting URLRequestContexts. // See IOThread::Globals for details. net::URLRequestContext* ConstructProxyScriptFetcherContext(IOThread::Globals* globals, net::NetLog* net_log) { net::URLRequestContext* context = new net::URLRequestContext; context->set_net_log(net_log); context->set_host_resolver(globals->host_resolver.get()); context->set_cert_verifier(globals->cert_verifier.get()); context->set_transport_security_state( globals->transport_security_state.get()); context->set_cert_transparency_verifier( globals->cert_transparency_verifier.get()); context->set_http_auth_handler_factory( globals->http_auth_handler_factory.get()); context->set_proxy_service(globals->proxy_script_fetcher_proxy_service.get()); context->set_http_transaction_factory( globals->proxy_script_fetcher_http_transaction_factory.get()); context->set_job_factory( globals->proxy_script_fetcher_url_request_job_factory.get()); context->set_cookie_store(globals->system_cookie_store.get()); context->set_channel_id_service( globals->system_channel_id_service.get()); context->set_network_delegate(globals->system_network_delegate.get()); context->set_http_user_agent_settings( globals->http_user_agent_settings.get()); // TODO(rtenneti): We should probably use HttpServerPropertiesManager for the // system URLRequestContext too. There's no reason this should be tied to a // profile. return context; } net::URLRequestContext* ConstructSystemRequestContext(IOThread::Globals* globals, net::NetLog* net_log) { net::URLRequestContext* context = new SystemURLRequestContext; context->set_net_log(net_log); context->set_host_resolver(globals->host_resolver.get()); context->set_cert_verifier(globals->cert_verifier.get()); context->set_transport_security_state( globals->transport_security_state.get()); context->set_cert_transparency_verifier( globals->cert_transparency_verifier.get()); context->set_http_auth_handler_factory( globals->http_auth_handler_factory.get()); context->set_proxy_service(globals->system_proxy_service.get()); context->set_http_transaction_factory( globals->system_http_transaction_factory.get()); context->set_job_factory(globals->system_url_request_job_factory.get()); context->set_cookie_store(globals->system_cookie_store.get()); context->set_channel_id_service( globals->system_channel_id_service.get()); context->set_throttler_manager(globals->throttler_manager.get()); context->set_network_delegate(globals->system_network_delegate.get()); context->set_http_user_agent_settings( globals->http_user_agent_settings.get()); return context; } int GetSwitchValueAsInt(const CommandLine& command_line, const std::string& switch_name) { int value; if (!base::StringToInt(command_line.GetSwitchValueASCII(switch_name), &value)) { return 0; } return value; } // Returns the value associated with |key| in |params| or "" if the // key is not present in the map. const std::string& GetVariationParam( const std::map& params, const std::string& key) { std::map::const_iterator it = params.find(key); if (it == params.end()) return base::EmptyString(); return it->second; } } // namespace class IOThread::LoggingNetworkChangeObserver : public net::NetworkChangeNotifier::IPAddressObserver, public net::NetworkChangeNotifier::ConnectionTypeObserver, public net::NetworkChangeNotifier::NetworkChangeObserver { public: // |net_log| must remain valid throughout our lifetime. explicit LoggingNetworkChangeObserver(net::NetLog* net_log) : net_log_(net_log) { net::NetworkChangeNotifier::AddIPAddressObserver(this); net::NetworkChangeNotifier::AddConnectionTypeObserver(this); net::NetworkChangeNotifier::AddNetworkChangeObserver(this); } virtual ~LoggingNetworkChangeObserver() { net::NetworkChangeNotifier::RemoveIPAddressObserver(this); net::NetworkChangeNotifier::RemoveConnectionTypeObserver(this); net::NetworkChangeNotifier::RemoveNetworkChangeObserver(this); } // NetworkChangeNotifier::IPAddressObserver implementation. virtual void OnIPAddressChanged() OVERRIDE { VLOG(1) << "Observed a change to the network IP addresses"; net_log_->AddGlobalEntry(net::NetLog::TYPE_NETWORK_IP_ADDRESSES_CHANGED); } // NetworkChangeNotifier::ConnectionTypeObserver implementation. virtual void OnConnectionTypeChanged( net::NetworkChangeNotifier::ConnectionType type) OVERRIDE { std::string type_as_string = net::NetworkChangeNotifier::ConnectionTypeToString(type); VLOG(1) << "Observed a change to network connectivity state " << type_as_string; net_log_->AddGlobalEntry( net::NetLog::TYPE_NETWORK_CONNECTIVITY_CHANGED, net::NetLog::StringCallback("new_connection_type", &type_as_string)); } // NetworkChangeNotifier::NetworkChangeObserver implementation. virtual void OnNetworkChanged( net::NetworkChangeNotifier::ConnectionType type) OVERRIDE { std::string type_as_string = net::NetworkChangeNotifier::ConnectionTypeToString(type); VLOG(1) << "Observed a network change to state " << type_as_string; net_log_->AddGlobalEntry( net::NetLog::TYPE_NETWORK_CHANGED, net::NetLog::StringCallback("new_connection_type", &type_as_string)); } private: net::NetLog* net_log_; DISALLOW_COPY_AND_ASSIGN(LoggingNetworkChangeObserver); }; class SystemURLRequestContextGetter : public net::URLRequestContextGetter { public: explicit SystemURLRequestContextGetter(IOThread* io_thread); // Implementation for net::UrlRequestContextGetter. virtual net::URLRequestContext* GetURLRequestContext() OVERRIDE; virtual scoped_refptr GetNetworkTaskRunner() const OVERRIDE; protected: virtual ~SystemURLRequestContextGetter(); private: IOThread* const io_thread_; // Weak pointer, owned by BrowserProcess. scoped_refptr network_task_runner_; base::debug::LeakTracker leak_tracker_; }; SystemURLRequestContextGetter::SystemURLRequestContextGetter( IOThread* io_thread) : io_thread_(io_thread), network_task_runner_( BrowserThread::GetMessageLoopProxyForThread(BrowserThread::IO)) { } SystemURLRequestContextGetter::~SystemURLRequestContextGetter() {} net::URLRequestContext* SystemURLRequestContextGetter::GetURLRequestContext() { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::IO)); DCHECK(io_thread_->globals()->system_request_context.get()); return io_thread_->globals()->system_request_context.get(); } scoped_refptr SystemURLRequestContextGetter::GetNetworkTaskRunner() const { return network_task_runner_; } IOThread::Globals:: SystemRequestContextLeakChecker::SystemRequestContextLeakChecker( Globals* globals) : globals_(globals) { DCHECK(globals_); } IOThread::Globals:: SystemRequestContextLeakChecker::~SystemRequestContextLeakChecker() { if (globals_->system_request_context.get()) globals_->system_request_context->AssertNoURLRequests(); } IOThread::Globals::Globals() : system_request_context_leak_checker(this), enable_ssl_connect_job_waiting(false), ignore_certificate_errors(false), testing_fixed_http_port(0), testing_fixed_https_port(0), enable_user_alternate_protocol_ports(false) { } IOThread::Globals::~Globals() {} // |local_state| is passed in explicitly in order to (1) reduce implicit // dependencies and (2) make IOThread more flexible for testing. IOThread::IOThread( PrefService* local_state, policy::PolicyService* policy_service, ChromeNetLog* net_log, extensions::EventRouterForwarder* extension_event_router_forwarder) : net_log_(net_log), #if defined(ENABLE_EXTENSIONS) extension_event_router_forwarder_(extension_event_router_forwarder), #endif globals_(NULL), is_spdy_disabled_by_policy_(false), creation_time_(base::TimeTicks::Now()), weak_factory_(this) { auth_schemes_ = local_state->GetString(prefs::kAuthSchemes); negotiate_disable_cname_lookup_ = local_state->GetBoolean( prefs::kDisableAuthNegotiateCnameLookup); negotiate_enable_port_ = local_state->GetBoolean( prefs::kEnableAuthNegotiatePort); auth_server_whitelist_ = local_state->GetString(prefs::kAuthServerWhitelist); auth_delegate_whitelist_ = local_state->GetString( prefs::kAuthNegotiateDelegateWhitelist); gssapi_library_name_ = local_state->GetString(prefs::kGSSAPILibraryName); pref_proxy_config_tracker_.reset( ProxyServiceFactory::CreatePrefProxyConfigTrackerOfLocalState( local_state)); ChromeNetworkDelegate::InitializePrefsOnUIThread( &system_enable_referrers_, NULL, NULL, local_state); ssl_config_service_manager_.reset( SSLConfigServiceManager::CreateDefaultManager(local_state)); base::Value* dns_client_enabled_default = new base::FundamentalValue( chrome_browser_net::ConfigureAsyncDnsFieldTrial()); local_state->SetDefaultPrefValue(prefs::kBuiltInDnsClientEnabled, dns_client_enabled_default); dns_client_enabled_.Init(prefs::kBuiltInDnsClientEnabled, local_state, base::Bind(&IOThread::UpdateDnsClientEnabled, base::Unretained(this))); dns_client_enabled_.MoveToThread( BrowserThread::GetMessageLoopProxyForThread(BrowserThread::IO)); quick_check_enabled_.Init(prefs::kQuickCheckEnabled, local_state); quick_check_enabled_.MoveToThread( BrowserThread::GetMessageLoopProxyForThread(BrowserThread::IO)); #if defined(ENABLE_CONFIGURATION_POLICY) is_spdy_disabled_by_policy_ = policy_service->GetPolicies( policy::PolicyNamespace(policy::POLICY_DOMAIN_CHROME, std::string())).Get( policy::key::kDisableSpdy) != NULL; #endif // ENABLE_CONFIGURATION_POLICY BrowserThread::SetDelegate(BrowserThread::IO, this); } IOThread::~IOThread() { // This isn't needed for production code, but in tests, IOThread may // be multiply constructed. BrowserThread::SetDelegate(BrowserThread::IO, NULL); pref_proxy_config_tracker_->DetachFromPrefService(); DCHECK(!globals_); } IOThread::Globals* IOThread::globals() { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::IO)); return globals_; } void IOThread::SetGlobalsForTesting(Globals* globals) { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::IO)); DCHECK(!globals || !globals_); globals_ = globals; } ChromeNetLog* IOThread::net_log() { return net_log_; } void IOThread::ChangedToOnTheRecord() { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); BrowserThread::PostTask( BrowserThread::IO, FROM_HERE, base::Bind(&IOThread::ChangedToOnTheRecordOnIOThread, base::Unretained(this))); } net::URLRequestContextGetter* IOThread::system_url_request_context_getter() { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); if (!system_url_request_context_getter_.get()) { InitSystemRequestContext(); } return system_url_request_context_getter_.get(); } void IOThread::Init() { // Prefer to use InitAsync unless you need initialization to block // the UI thread } void IOThread::InitAsync() { TRACE_EVENT0("startup", "IOThread::InitAsync"); DCHECK(BrowserThread::CurrentlyOn(BrowserThread::IO)); #if defined(USE_NSS) || defined(OS_IOS) net::SetMessageLoopForNSSHttpIO(); #endif const CommandLine& command_line = *CommandLine::ForCurrentProcess(); DCHECK(!globals_); globals_ = new Globals; // Add an observer that will emit network change events to the ChromeNetLog. // Assuming NetworkChangeNotifier dispatches in FIFO order, we should be // logging the network change before other IO thread consumers respond to it. network_change_observer_.reset( new LoggingNetworkChangeObserver(net_log_)); // Setup the HistogramWatcher to run on the IO thread. net::NetworkChangeNotifier::InitHistogramWatcher(); #if defined(ENABLE_EXTENSIONS) globals_->extension_event_router_forwarder = extension_event_router_forwarder_; #endif ChromeNetworkDelegate* network_delegate = new ChromeNetworkDelegate(extension_event_router_forwarder(), &system_enable_referrers_); if (command_line.HasSwitch(switches::kEnableClientHints)) network_delegate->SetEnableClientHints(); #if defined(ENABLE_EXTENSIONS) if (command_line.HasSwitch(switches::kDisableExtensionsHttpThrottling)) network_delegate->NeverThrottleRequests(); #endif globals_->system_network_delegate.reset(network_delegate); globals_->host_resolver = CreateGlobalHostResolver(net_log_); UpdateDnsClientEnabled(); #if defined(OS_CHROMEOS) // Creates a CertVerifyProc that doesn't allow any profile-provided certs. globals_->cert_verifier.reset(new net::MultiThreadedCertVerifier( new chromeos::CertVerifyProcChromeOS())); #else globals_->cert_verifier.reset(new net::MultiThreadedCertVerifier( net::CertVerifyProc::CreateDefault())); #endif globals_->transport_security_state.reset(new net::TransportSecurityState()); net::MultiLogCTVerifier* ct_verifier = new net::MultiLogCTVerifier(); globals_->cert_transparency_verifier.reset(ct_verifier); // Add built-in logs ct_verifier->AddLogs(net::ct::CreateLogVerifiersForKnownLogs()); // Add logs from command line if (command_line.HasSwitch(switches::kCertificateTransparencyLog)) { std::string switch_value = command_line.GetSwitchValueASCII( switches::kCertificateTransparencyLog); std::vector logs; base::SplitString(switch_value, ',', &logs); for (std::vector::iterator it = logs.begin(); it != logs.end(); ++it) { const std::string& curr_log = *it; size_t delim_pos = curr_log.find(":"); CHECK(delim_pos != std::string::npos) << "CT log description not provided (switch format" " is 'description:base64_key')"; std::string log_description(curr_log.substr(0, delim_pos)); std::string ct_public_key_data; CHECK(base::Base64Decode(curr_log.substr(delim_pos + 1), &ct_public_key_data)) << "Unable to decode CT public key."; scoped_ptr external_log_verifier( net::CTLogVerifier::Create(ct_public_key_data, log_description)); CHECK(external_log_verifier) << "Unable to parse CT public key."; VLOG(1) << "Adding log with description " << log_description; ct_verifier->AddLog(external_log_verifier.Pass()); } } globals_->ssl_config_service = GetSSLConfigService(); SetupDataReductionProxy(network_delegate); globals_->http_auth_handler_factory.reset(CreateDefaultAuthHandlerFactory( globals_->host_resolver.get())); globals_->http_server_properties.reset(new net::HttpServerPropertiesImpl()); // For the ProxyScriptFetcher, we use a direct ProxyService. globals_->proxy_script_fetcher_proxy_service.reset( net::ProxyService::CreateDirectWithNetLog(net_log_)); // In-memory cookie store. globals_->system_cookie_store = content::CreateCookieStore(content::CookieStoreConfig()); // In-memory channel ID store. globals_->system_channel_id_service.reset( new net::ChannelIDService( new net::DefaultChannelIDStore(NULL), base::WorkerPool::GetTaskRunner(true))); globals_->dns_probe_service.reset(new chrome_browser_net::DnsProbeService()); globals_->host_mapping_rules.reset(new net::HostMappingRules()); globals_->http_user_agent_settings.reset( new net::StaticHttpUserAgentSettings(std::string(), GetUserAgent())); if (command_line.HasSwitch(switches::kHostRules)) { TRACE_EVENT_BEGIN0("startup", "IOThread::InitAsync:SetRulesFromString"); globals_->host_mapping_rules->SetRulesFromString( command_line.GetSwitchValueASCII(switches::kHostRules)); TRACE_EVENT_END0("startup", "IOThread::InitAsync:SetRulesFromString"); } if (command_line.HasSwitch(switches::kEnableSSLConnectJobWaiting)) globals_->enable_ssl_connect_job_waiting = true; if (command_line.HasSwitch(switches::kIgnoreCertificateErrors)) globals_->ignore_certificate_errors = true; if (command_line.HasSwitch(switches::kTestingFixedHttpPort)) { globals_->testing_fixed_http_port = GetSwitchValueAsInt(command_line, switches::kTestingFixedHttpPort); } if (command_line.HasSwitch(switches::kTestingFixedHttpsPort)) { globals_->testing_fixed_https_port = GetSwitchValueAsInt(command_line, switches::kTestingFixedHttpsPort); } ConfigureQuic(command_line); if (command_line.HasSwitch( switches::kEnableUserAlternateProtocolPorts)) { globals_->enable_user_alternate_protocol_ports = true; } InitializeNetworkOptions(command_line); net::HttpNetworkSession::Params session_params; InitializeNetworkSessionParams(&session_params); session_params.net_log = net_log_; session_params.proxy_service = globals_->proxy_script_fetcher_proxy_service.get(); TRACE_EVENT_BEGIN0("startup", "IOThread::InitAsync:HttpNetworkSession"); scoped_refptr network_session( new net::HttpNetworkSession(session_params)); globals_->proxy_script_fetcher_http_transaction_factory .reset(new net::HttpNetworkLayer(network_session.get())); TRACE_EVENT_END0("startup", "IOThread::InitAsync:HttpNetworkSession"); scoped_ptr job_factory( new net::URLRequestJobFactoryImpl()); job_factory->SetProtocolHandler(url::kDataScheme, new net::DataProtocolHandler()); job_factory->SetProtocolHandler( url::kFileScheme, new net::FileProtocolHandler( content::BrowserThread::GetBlockingPool()-> GetTaskRunnerWithShutdownBehavior( base::SequencedWorkerPool::SKIP_ON_SHUTDOWN))); #if !defined(DISABLE_FTP_SUPPORT) globals_->proxy_script_fetcher_ftp_transaction_factory.reset( new net::FtpNetworkLayer(globals_->host_resolver.get())); job_factory->SetProtocolHandler( url::kFtpScheme, new net::FtpProtocolHandler( globals_->proxy_script_fetcher_ftp_transaction_factory.get())); #endif globals_->proxy_script_fetcher_url_request_job_factory = job_factory.PassAs(); globals_->throttler_manager.reset(new net::URLRequestThrottlerManager()); globals_->throttler_manager->set_net_log(net_log_); // Always done in production, disabled only for unit tests. globals_->throttler_manager->set_enable_thread_checks(true); globals_->proxy_script_fetcher_context.reset( ConstructProxyScriptFetcherContext(globals_, net_log_)); #if defined(OS_MACOSX) && !defined(OS_IOS) // Start observing Keychain events. This needs to be done on the UI thread, // as Keychain services requires a CFRunLoop. BrowserThread::PostTask(BrowserThread::UI, FROM_HERE, base::Bind(&ObserveKeychainEvents)); #endif // InitSystemRequestContext turns right around and posts a task back // to the IO thread, so we can't let it run until we know the IO // thread has started. // // Note that since we are at BrowserThread::Init time, the UI thread // is blocked waiting for the thread to start. Therefore, posting // this task to the main thread's message loop here is guaranteed to // get it onto the message loop while the IOThread object still // exists. However, the message might not be processed on the UI // thread until after IOThread is gone, so use a weak pointer. BrowserThread::PostTask(BrowserThread::UI, FROM_HERE, base::Bind(&IOThread::InitSystemRequestContext, weak_factory_.GetWeakPtr())); } void IOThread::CleanUp() { base::debug::LeakTracker::CheckForLeaks(); #if defined(USE_NSS) || defined(OS_IOS) net::ShutdownNSSHttpIO(); #endif system_url_request_context_getter_ = NULL; // Release objects that the net::URLRequestContext could have been pointing // to. // Shutdown the HistogramWatcher on the IO thread. net::NetworkChangeNotifier::ShutdownHistogramWatcher(); // This must be reset before the ChromeNetLog is destroyed. network_change_observer_.reset(); system_proxy_config_service_.reset(); delete globals_; globals_ = NULL; base::debug::LeakTracker::CheckForLeaks(); } void IOThread::InitializeNetworkOptions(const CommandLine& command_line) { // Only handle use-spdy command line flags if "spdy.disabled" preference is // not disabled via policy. if (is_spdy_disabled_by_policy_) { base::FieldTrial* trial = base::FieldTrialList::Find(kSpdyFieldTrialName); if (trial) trial->Disable(); } else { if (command_line.HasSwitch(switches::kTrustedSpdyProxy)) { globals_->trusted_spdy_proxy.set( command_line.GetSwitchValueASCII(switches::kTrustedSpdyProxy)); } if (command_line.HasSwitch(switches::kIgnoreUrlFetcherCertRequests)) net::URLFetcher::SetIgnoreCertificateRequests(true); if (command_line.HasSwitch(switches::kUseSpdy)) { std::string spdy_mode = command_line.GetSwitchValueASCII(switches::kUseSpdy); EnableSpdy(spdy_mode); } else if (command_line.HasSwitch(switches::kEnableSpdy4)) { globals_->next_protos = net::NextProtosSpdy4Http2(); globals_->use_alternate_protocols.set(true); } else if (command_line.HasSwitch(switches::kDisableSpdy31)) { globals_->next_protos = net::NextProtosSpdy3(); globals_->use_alternate_protocols.set(true); } else if (command_line.HasSwitch(switches::kEnableNpnHttpOnly)) { globals_->next_protos = net::NextProtosHttpOnly(); globals_->use_alternate_protocols.set(false); } else if (command_line.HasSwitch(switches::kEnableWebSocketOverSpdy)) { // Use the current SPDY default (SPDY/3.1). globals_->next_protos = net::NextProtosSpdy31(); globals_->use_alternate_protocols.set(true); } else { // No SPDY command-line flags have been specified. Examine trial groups. ConfigureSpdyFromTrial( base::FieldTrialList::FindFullName(kSpdyFieldTrialName), globals_); } if (command_line.HasSwitch(switches::kEnableWebSocketOverSpdy)) globals_->enable_websocket_over_spdy.set(true); } ConfigureTCPFastOpen(command_line); // TODO(rch): Make the client socket factory a per-network session // instance, constructed from a NetworkSession::Params, to allow us // to move this option to IOThread::Globals & // HttpNetworkSession::Params. } void IOThread::ConfigureTCPFastOpen(const CommandLine& command_line) { const std::string trial_group = base::FieldTrialList::FindFullName(kTCPFastOpenFieldTrialName); if (trial_group == kTCPFastOpenHttpsEnabledGroupName) globals_->enable_tcp_fast_open_for_ssl.set(true); bool always_enable_if_supported = command_line.HasSwitch(switches::kEnableTcpFastOpen); // Check for OS support of TCP FastOpen, and turn it on for all connections // if indicated by user. net::CheckSupportAndMaybeEnableTCPFastOpen(always_enable_if_supported); } void IOThread::ConfigureSpdyFromTrial(base::StringPiece spdy_trial_group, Globals* globals) { if (spdy_trial_group.starts_with(kSpdyFieldTrialHoldbackGroupNamePrefix)) { // TODO(jgraettinger): Use net::NextProtosHttpOnly() instead? net::HttpStreamFactory::set_spdy_enabled(false); } else if (spdy_trial_group == kSpdyFieldTrialHoldbackControlGroupName) { // Use the current SPDY default (SPDY/3.1). globals->next_protos = net::NextProtosSpdy31(); globals->use_alternate_protocols.set(true); } else if (spdy_trial_group.starts_with( kSpdyFieldTrialSpdy31GroupNamePrefix)) { globals->next_protos = net::NextProtosSpdy4Http2(); globals->use_alternate_protocols.set(true); } else if (spdy_trial_group.starts_with( kSpdyFieldTrialSpdy4GroupNamePrefix)) { globals->next_protos = net::NextProtosSpdy4Http2(); globals->use_alternate_protocols.set(true); } else if (spdy_trial_group == kSpdyFieldTrialSpdy4ControlGroupName) { // This control group is pinned at SPDY/3.1. globals->next_protos = net::NextProtosSpdy31(); globals->use_alternate_protocols.set(true); } else { // Use the current SPDY default (SPDY/3.1). globals->next_protos = net::NextProtosSpdy31(); globals->use_alternate_protocols.set(true); } } void IOThread::EnableSpdy(const std::string& mode) { static const char kOff[] = "off"; static const char kSSL[] = "ssl"; static const char kDisableSSL[] = "no-ssl"; static const char kDisablePing[] = "no-ping"; static const char kExclude[] = "exclude"; // Hosts to exclude static const char kDisableCompression[] = "no-compress"; static const char kDisableAltProtocols[] = "no-alt-protocols"; static const char kForceAltProtocols[] = "force-alt-protocols"; static const char kSingleDomain[] = "single-domain"; static const char kInitialMaxConcurrentStreams[] = "init-max-streams"; std::vector spdy_options; base::SplitString(mode, ',', &spdy_options); for (std::vector::iterator it = spdy_options.begin(); it != spdy_options.end(); ++it) { const std::string& element = *it; std::vector name_value; base::SplitString(element, '=', &name_value); const std::string& option = name_value.size() > 0 ? name_value[0] : std::string(); const std::string value = name_value.size() > 1 ? name_value[1] : std::string(); if (option == kOff) { net::HttpStreamFactory::set_spdy_enabled(false); } else if (option == kDisableSSL) { globals_->spdy_default_protocol.set(net::kProtoSPDY3); globals_->force_spdy_over_ssl.set(false); globals_->force_spdy_always.set(true); } else if (option == kSSL) { globals_->spdy_default_protocol.set(net::kProtoSPDY3); globals_->force_spdy_over_ssl.set(true); globals_->force_spdy_always.set(true); } else if (option == kDisablePing) { globals_->enable_spdy_ping_based_connection_checking.set(false); } else if (option == kExclude) { globals_->forced_spdy_exclusions.insert( net::HostPortPair::FromURL(GURL(value))); } else if (option == kDisableCompression) { globals_->enable_spdy_compression.set(false); } else if (option == kDisableAltProtocols) { globals_->use_alternate_protocols.set(false); } else if (option == kForceAltProtocols) { net::AlternateProtocolInfo pair(443, net::NPN_SPDY_3, 1); net::HttpServerPropertiesImpl::ForceAlternateProtocol(pair); } else if (option == kSingleDomain) { DVLOG(1) << "FORCING SINGLE DOMAIN"; globals_->force_spdy_single_domain.set(true); } else if (option == kInitialMaxConcurrentStreams) { int streams; if (base::StringToInt(value, &streams)) globals_->initial_max_spdy_concurrent_streams.set(streams); } else if (option.empty() && it == spdy_options.begin()) { continue; } else { LOG(DFATAL) << "Unrecognized spdy option: " << option; } } } // static void IOThread::RegisterPrefs(PrefRegistrySimple* registry) { registry->RegisterStringPref(prefs::kAuthSchemes, "basic,digest,ntlm,negotiate," "spdyproxy"); registry->RegisterBooleanPref(prefs::kDisableAuthNegotiateCnameLookup, false); registry->RegisterBooleanPref(prefs::kEnableAuthNegotiatePort, false); registry->RegisterStringPref(prefs::kAuthServerWhitelist, std::string()); registry->RegisterStringPref(prefs::kAuthNegotiateDelegateWhitelist, std::string()); registry->RegisterStringPref(prefs::kGSSAPILibraryName, std::string()); registry->RegisterStringPref( data_reduction_proxy::prefs::kDataReductionProxy, std::string()); registry->RegisterBooleanPref(prefs::kEnableReferrers, true); data_reduction_proxy::RegisterPrefs(registry); registry->RegisterBooleanPref(prefs::kBuiltInDnsClientEnabled, true); registry->RegisterBooleanPref(prefs::kQuickCheckEnabled, true); } net::HttpAuthHandlerFactory* IOThread::CreateDefaultAuthHandlerFactory( net::HostResolver* resolver) { net::HttpAuthFilterWhitelist* auth_filter_default_credentials = NULL; if (!auth_server_whitelist_.empty()) { auth_filter_default_credentials = new net::HttpAuthFilterWhitelist(auth_server_whitelist_); } net::HttpAuthFilterWhitelist* auth_filter_delegate = NULL; if (!auth_delegate_whitelist_.empty()) { auth_filter_delegate = new net::HttpAuthFilterWhitelist(auth_delegate_whitelist_); } globals_->url_security_manager.reset( net::URLSecurityManager::Create(auth_filter_default_credentials, auth_filter_delegate)); std::vector supported_schemes; base::SplitString(auth_schemes_, ',', &supported_schemes); scoped_ptr registry_factory( net::HttpAuthHandlerRegistryFactory::Create( supported_schemes, globals_->url_security_manager.get(), resolver, gssapi_library_name_, negotiate_disable_cname_lookup_, negotiate_enable_port_)); return registry_factory.release(); } void IOThread::ClearHostCache() { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::IO)); net::HostCache* host_cache = globals_->host_resolver->GetHostCache(); if (host_cache) host_cache->clear(); } void IOThread::InitializeNetworkSessionParams( net::HttpNetworkSession::Params* params) { InitializeNetworkSessionParamsFromGlobals(*globals_, params); } // static void IOThread::InitializeNetworkSessionParamsFromGlobals( const IOThread::Globals& globals, net::HttpNetworkSession::Params* params) { params->host_resolver = globals.host_resolver.get(); params->cert_verifier = globals.cert_verifier.get(); params->channel_id_service = globals.system_channel_id_service.get(); params->transport_security_state = globals.transport_security_state.get(); params->ssl_config_service = globals.ssl_config_service.get(); params->http_auth_handler_factory = globals.http_auth_handler_factory.get(); params->http_server_properties = globals.http_server_properties->GetWeakPtr(); params->network_delegate = globals.system_network_delegate.get(); params->host_mapping_rules = globals.host_mapping_rules.get(); params->enable_ssl_connect_job_waiting = globals.enable_ssl_connect_job_waiting; params->ignore_certificate_errors = globals.ignore_certificate_errors; params->testing_fixed_http_port = globals.testing_fixed_http_port; params->testing_fixed_https_port = globals.testing_fixed_https_port; globals.enable_tcp_fast_open_for_ssl.CopyToIfSet( ¶ms->enable_tcp_fast_open_for_ssl); globals.initial_max_spdy_concurrent_streams.CopyToIfSet( ¶ms->spdy_initial_max_concurrent_streams); globals.force_spdy_single_domain.CopyToIfSet( ¶ms->force_spdy_single_domain); globals.enable_spdy_compression.CopyToIfSet( ¶ms->enable_spdy_compression); globals.enable_spdy_ping_based_connection_checking.CopyToIfSet( ¶ms->enable_spdy_ping_based_connection_checking); globals.spdy_default_protocol.CopyToIfSet( ¶ms->spdy_default_protocol); params->next_protos = globals.next_protos; globals.trusted_spdy_proxy.CopyToIfSet(¶ms->trusted_spdy_proxy); globals.force_spdy_over_ssl.CopyToIfSet(¶ms->force_spdy_over_ssl); globals.force_spdy_always.CopyToIfSet(¶ms->force_spdy_always); params->forced_spdy_exclusions = globals.forced_spdy_exclusions; globals.use_alternate_protocols.CopyToIfSet( ¶ms->use_alternate_protocols); globals.alternate_protocol_probability_threshold.CopyToIfSet( ¶ms->alternate_protocol_probability_threshold); globals.enable_websocket_over_spdy.CopyToIfSet( ¶ms->enable_websocket_over_spdy); globals.enable_quic.CopyToIfSet(¶ms->enable_quic); globals.enable_quic_time_based_loss_detection.CopyToIfSet( ¶ms->enable_quic_time_based_loss_detection); globals.quic_always_require_handshake_confirmation.CopyToIfSet( ¶ms->quic_always_require_handshake_confirmation); globals.quic_disable_connection_pooling.CopyToIfSet( ¶ms->quic_disable_connection_pooling); globals.enable_quic_port_selection.CopyToIfSet( ¶ms->enable_quic_port_selection); globals.quic_max_packet_length.CopyToIfSet(¶ms->quic_max_packet_length); globals.quic_user_agent_id.CopyToIfSet(¶ms->quic_user_agent_id); globals.quic_supported_versions.CopyToIfSet( ¶ms->quic_supported_versions); params->quic_connection_options = globals.quic_connection_options; globals.origin_to_force_quic_on.CopyToIfSet( ¶ms->origin_to_force_quic_on); params->enable_user_alternate_protocol_ports = globals.enable_user_alternate_protocol_ports; params->proxy_delegate = globals.data_reduction_proxy_delegate.get(); } base::TimeTicks IOThread::creation_time() const { return creation_time_; } net::SSLConfigService* IOThread::GetSSLConfigService() { return ssl_config_service_manager_->Get(); } void IOThread::ChangedToOnTheRecordOnIOThread() { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::IO)); // Clear the host cache to avoid showing entries from the OTR session // in about:net-internals. ClearHostCache(); } void IOThread::InitSystemRequestContext() { if (system_url_request_context_getter_.get()) return; // If we're in unit_tests, IOThread may not be run. if (!BrowserThread::IsMessageLoopValid(BrowserThread::IO)) return; system_proxy_config_service_.reset( ProxyServiceFactory::CreateProxyConfigService( pref_proxy_config_tracker_.get())); system_url_request_context_getter_ = new SystemURLRequestContextGetter(this); // Safe to post an unretained this pointer, since IOThread is // guaranteed to outlive the IO BrowserThread. BrowserThread::PostTask( BrowserThread::IO, FROM_HERE, base::Bind(&IOThread::InitSystemRequestContextOnIOThread, base::Unretained(this))); } void IOThread::InitSystemRequestContextOnIOThread() { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::IO)); DCHECK(!globals_->system_proxy_service.get()); DCHECK(system_proxy_config_service_.get()); const CommandLine& command_line = *CommandLine::ForCurrentProcess(); globals_->system_proxy_service.reset( ProxyServiceFactory::CreateProxyService( net_log_, globals_->proxy_script_fetcher_context.get(), globals_->system_network_delegate.get(), system_proxy_config_service_.release(), command_line, quick_check_enabled_.GetValue())); DCHECK(globals_->data_reduction_proxy_params); net::HttpNetworkSession::Params system_params; InitializeNetworkSessionParams(&system_params); system_params.net_log = net_log_; system_params.proxy_service = globals_->system_proxy_service.get(); globals_->system_http_transaction_factory.reset( new net::HttpNetworkLayer( new net::HttpNetworkSession(system_params))); globals_->system_url_request_job_factory.reset( new net::URLRequestJobFactoryImpl()); globals_->system_request_context.reset( ConstructSystemRequestContext(globals_, net_log_)); globals_->system_request_context->set_ssl_config_service( globals_->ssl_config_service.get()); globals_->system_request_context->set_http_server_properties( globals_->http_server_properties->GetWeakPtr()); } void IOThread::UpdateDnsClientEnabled() { globals()->host_resolver->SetDnsClientEnabled(*dns_client_enabled_); } void IOThread::ConfigureQuic(const CommandLine& command_line) { // Always fetch the field trial group to ensure it is reported correctly. // The command line flags will be associated with a group that is reported // so long as trial is actually queried. std::string group = base::FieldTrialList::FindFullName(kQuicFieldTrialName); VariationParameters params; if (!variations::GetVariationParams(kQuicFieldTrialName, ¶ms)) { params.clear(); } ConfigureQuicGlobals(command_line, group, params, globals_); } void IOThread::SetupDataReductionProxy( ChromeNetworkDelegate* network_delegate) { // TODO(kundaji): Move flags initialization to DataReductionProxyParams and // merge with flag initialization in // data_reduction_proxy_chrome_settings_factory.cc. int flags = data_reduction_proxy::DataReductionProxyParams::kAllowed | data_reduction_proxy::DataReductionProxyParams::kFallbackAllowed | data_reduction_proxy::DataReductionProxyParams::kAlternativeAllowed; if (data_reduction_proxy::DataReductionProxyParams:: IsIncludedInPromoFieldTrial()) { flags |= data_reduction_proxy::DataReductionProxyParams::kPromoAllowed; } if (data_reduction_proxy::DataReductionProxyParams:: IsIncludedInHoldbackFieldTrial()) { flags |= data_reduction_proxy::DataReductionProxyParams::kHoldback; } globals_->data_reduction_proxy_params.reset( new data_reduction_proxy::DataReductionProxyParams(flags)); globals_->data_reduction_proxy_auth_request_handler.reset( new data_reduction_proxy::DataReductionProxyAuthRequestHandler( DataReductionProxyChromeSettings::GetClient(), globals_->data_reduction_proxy_params.get(), BrowserThread::GetMessageLoopProxyForThread(BrowserThread::IO))); globals_->data_reduction_proxy_delegate.reset( new data_reduction_proxy::DataReductionProxyDelegate( globals_->data_reduction_proxy_auth_request_handler.get())); // This is the same as in ProfileImplIOData except that we do not collect // usage stats. network_delegate->set_data_reduction_proxy_params( globals_->data_reduction_proxy_params.get()); network_delegate->set_data_reduction_proxy_auth_request_handler( globals_->data_reduction_proxy_auth_request_handler.get()); network_delegate->set_on_resolve_proxy_handler( base::Bind(data_reduction_proxy::OnResolveProxyHandler)); } // static void IOThread::ConfigureQuicGlobals( const base::CommandLine& command_line, base::StringPiece quic_trial_group, const VariationParameters& quic_trial_params, IOThread::Globals* globals) { bool enable_quic = ShouldEnableQuic(command_line, quic_trial_group); globals->enable_quic.set(enable_quic); if (enable_quic) { globals->enable_quic_time_based_loss_detection.set( ShouldEnableQuicTimeBasedLossDetection(command_line, quic_trial_group, quic_trial_params)); globals->quic_always_require_handshake_confirmation.set( ShouldQuicAlwaysRequireHandshakeConfirmation(quic_trial_params)); globals->quic_disable_connection_pooling.set( ShouldQuicDisableConnectionPooling(quic_trial_params)); globals->enable_quic_port_selection.set( ShouldEnableQuicPortSelection(command_line)); globals->quic_connection_options = GetQuicConnectionOptions(command_line, quic_trial_params); if (ShouldEnableQuicPacing(command_line, quic_trial_group, quic_trial_params)) { globals->quic_connection_options.push_back(net::kPACE); } } size_t max_packet_length = GetQuicMaxPacketLength(command_line, quic_trial_group, quic_trial_params); if (max_packet_length != 0) { globals->quic_max_packet_length.set(max_packet_length); } std::string quic_user_agent_id = chrome::VersionInfo::GetVersionStringModifier(); if (!quic_user_agent_id.empty()) quic_user_agent_id.push_back(' '); chrome::VersionInfo version_info; quic_user_agent_id.append(version_info.ProductNameAndVersionForUserAgent()); globals->quic_user_agent_id.set(quic_user_agent_id); net::QuicVersion version = GetQuicVersion(command_line, quic_trial_params); if (version != net::QUIC_VERSION_UNSUPPORTED) { net::QuicVersionVector supported_versions; supported_versions.push_back(version); globals->quic_supported_versions.set(supported_versions); } double threshold = GetAlternateProtocolProbabilityThreshold(command_line, quic_trial_params); if (threshold >=0 && threshold <= 1) { globals->alternate_protocol_probability_threshold.set(threshold); globals->http_server_properties->SetAlternateProtocolProbabilityThreshold( threshold); } if (command_line.HasSwitch(switches::kOriginToForceQuicOn)) { net::HostPortPair quic_origin = net::HostPortPair::FromString( command_line.GetSwitchValueASCII(switches::kOriginToForceQuicOn)); if (!quic_origin.IsEmpty()) { globals->origin_to_force_quic_on.set(quic_origin); } } } bool IOThread::ShouldEnableQuic(const CommandLine& command_line, base::StringPiece quic_trial_group) { if (command_line.HasSwitch(switches::kDisableQuic)) return false; if (command_line.HasSwitch(switches::kEnableQuic)) return true; return quic_trial_group.starts_with(kQuicFieldTrialEnabledGroupName) || quic_trial_group.starts_with(kQuicFieldTrialHttpsEnabledGroupName); } bool IOThread::ShouldEnableQuicPortSelection( const CommandLine& command_line) { if (command_line.HasSwitch(switches::kDisableQuicPortSelection)) return false; if (command_line.HasSwitch(switches::kEnableQuicPortSelection)) return true; return false; // Default to disabling port selection on all channels. } bool IOThread::ShouldEnableQuicPacing( const CommandLine& command_line, base::StringPiece quic_trial_group, const VariationParameters& quic_trial_params) { if (command_line.HasSwitch(switches::kEnableQuicPacing)) return true; if (command_line.HasSwitch(switches::kDisableQuicPacing)) return false; if (LowerCaseEqualsASCII( GetVariationParam(quic_trial_params, "enable_pacing"), "true")) return true; return quic_trial_group.ends_with(kQuicFieldTrialPacingSuffix); } net::QuicTagVector IOThread::GetQuicConnectionOptions( const CommandLine& command_line, const VariationParameters& quic_trial_params) { if (command_line.HasSwitch(switches::kQuicConnectionOptions)) { return ParseQuicConnectionOptions( command_line.GetSwitchValueASCII(switches::kQuicConnectionOptions)); } VariationParameters::const_iterator it = quic_trial_params.find("connection_options"); if (it == quic_trial_params.end()) { // TODO(rch): remove support for deprecated congestion_options. it = quic_trial_params.find("congestion_options"); if (it == quic_trial_params.end()) return net::QuicTagVector(); } return ParseQuicConnectionOptions(it->second); } // static net::QuicTagVector IOThread::ParseQuicConnectionOptions( const std::string& connection_options) { net::QuicTagVector options; std::vector tokens; base::SplitString(connection_options, ',', &tokens); // Tokens are expected to be no more than 4 characters long, but we // handle overflow gracefully. for (std::vector::iterator token = tokens.begin(); token != tokens.end(); ++token) { uint32 option = 0; for (size_t i = token->length() ; i > 0; --i) { option <<= 8; option |= static_cast((*token)[i - 1]); } options.push_back(static_cast(option)); } return options; } // static double IOThread::GetAlternateProtocolProbabilityThreshold( const base::CommandLine& command_line, const VariationParameters& quic_trial_params) { double value; if (command_line.HasSwitch( switches::kAlternateProtocolProbabilityThreshold)) { if (base::StringToDouble( command_line.GetSwitchValueASCII( switches::kAlternateProtocolProbabilityThreshold), &value)) { return value; } } if (command_line.HasSwitch(switches::kEnableQuic)) { return 0; } if (base::StringToDouble( GetVariationParam(quic_trial_params, "alternate_protocol_probability_threshold"), &value)) { return value; } return -1; } // static bool IOThread::ShouldEnableQuicTimeBasedLossDetection( const CommandLine& command_line, base::StringPiece quic_trial_group, const VariationParameters& quic_trial_params) { if (command_line.HasSwitch(switches::kEnableQuicTimeBasedLossDetection)) return true; if (command_line.HasSwitch(switches::kDisableQuicTimeBasedLossDetection)) return false; if (LowerCaseEqualsASCII( GetVariationParam(quic_trial_params, "enable_time_based_loss_detection"), "true")) return true; return quic_trial_group.ends_with( kQuicFieldTrialTimeBasedLossDetectionSuffix); } // static bool IOThread::ShouldQuicAlwaysRequireHandshakeConfirmation( const VariationParameters& quic_trial_params) { return LowerCaseEqualsASCII( GetVariationParam(quic_trial_params, "always_require_handshake_confirmation"), "true"); } // static bool IOThread::ShouldQuicDisableConnectionPooling( const VariationParameters& quic_trial_params) { return LowerCaseEqualsASCII( GetVariationParam(quic_trial_params, "disable_connection_pooling"), "true"); } // static size_t IOThread::GetQuicMaxPacketLength( const CommandLine& command_line, base::StringPiece quic_trial_group, const VariationParameters& quic_trial_params) { if (command_line.HasSwitch(switches::kQuicMaxPacketLength)) { unsigned value; if (!base::StringToUint( command_line.GetSwitchValueASCII(switches::kQuicMaxPacketLength), &value)) { return 0; } return value; } unsigned value; if (base::StringToUint(GetVariationParam(quic_trial_params, "max_packet_length"), &value)) { return value; } // Format of the packet length group names is: // (Https)?EnabledBytePackets. base::StringPiece length_str(quic_trial_group); if (length_str.starts_with(kQuicFieldTrialEnabledGroupName)) { length_str.remove_prefix(strlen(kQuicFieldTrialEnabledGroupName)); } else if (length_str.starts_with(kQuicFieldTrialHttpsEnabledGroupName)) { length_str.remove_prefix(strlen(kQuicFieldTrialHttpsEnabledGroupName)); } else { return 0; } if (!length_str.ends_with(kQuicFieldTrialPacketLengthSuffix)) { return 0; } length_str.remove_suffix(strlen(kQuicFieldTrialPacketLengthSuffix)); if (!base::StringToUint(length_str, &value)) { return 0; } return value; } // static net::QuicVersion IOThread::GetQuicVersion( const CommandLine& command_line, const VariationParameters& quic_trial_params) { if (command_line.HasSwitch(switches::kQuicVersion)) { return ParseQuicVersion( command_line.GetSwitchValueASCII(switches::kQuicVersion)); } return ParseQuicVersion(GetVariationParam(quic_trial_params, "quic_version")); } // static net::QuicVersion IOThread::ParseQuicVersion(const std::string& quic_version) { net::QuicVersionVector supported_versions = net::QuicSupportedVersions(); for (size_t i = 0; i < supported_versions.size(); ++i) { net::QuicVersion version = supported_versions[i]; if (net::QuicVersionToString(version) == quic_version) { return version; } } return net::QUIC_VERSION_UNSUPPORTED; }