// Copyright 2014 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/http/http_server_properties_manager.h" #include #include "base/bind.h" #include "base/metrics/histogram_macros.h" #include "base/stl_util.h" #include "base/strings/string_number_conversions.h" #include "base/values.h" #include "net/base/ip_address.h" #include "net/base/port_util.h" #include "net/third_party/quic/platform/api/quic_hostname_utils.h" #include "url/gurl.h" namespace net { namespace { // Time to wait before starting an update the http_server_properties_impl_ cache // from preferences. Scheduling another update during this period will be a // no-op. constexpr base::TimeDelta kUpdateCacheDelay = base::TimeDelta::FromSeconds(1); // Time to wait before starting an update the preferences from the // http_server_properties_impl_ cache. Scheduling another update during this // period will be a no-op. constexpr base::TimeDelta kUpdatePrefsDelay = base::TimeDelta::FromSeconds(60); // "version" 0 indicates, http_server_properties doesn't have "version" // property. const int kMissingVersion = 0; // The version number of persisted http_server_properties. const int kVersionNumber = 5; // Persist at most 200 currently-broken alternative services to disk. const int kMaxBrokenAlternativeServicesToPersist = 200; const char kVersionKey[] = "version"; const char kServersKey[] = "servers"; const char kSupportsSpdyKey[] = "supports_spdy"; const char kSupportsQuicKey[] = "supports_quic"; const char kQuicServers[] = "quic_servers"; const char kServerInfoKey[] = "server_info"; const char kUsedQuicKey[] = "used_quic"; const char kAddressKey[] = "address"; const char kAlternativeServiceKey[] = "alternative_service"; const char kProtocolKey[] = "protocol_str"; const char kHostKey[] = "host"; const char kPortKey[] = "port"; const char kExpirationKey[] = "expiration"; const char kAdvertisedVersionsKey[] = "advertised_versions"; const char kNetworkStatsKey[] = "network_stats"; const char kSrttKey[] = "srtt"; const char kBrokenAlternativeServicesKey[] = "broken_alternative_services"; const char kBrokenUntilKey[] = "broken_until"; const char kBrokenCountKey[] = "broken_count"; void AddAlternativeServiceFieldsToDictionaryValue( const AlternativeService& alternative_service, base::DictionaryValue* dict) { dict->SetInteger(kPortKey, alternative_service.port); if (!alternative_service.host.empty()) { dict->SetString(kHostKey, alternative_service.host); } dict->SetString(kProtocolKey, NextProtoToString(alternative_service.protocol)); } std::unique_ptr NetLogCallback( const base::Value* http_server_properties_dict, NetLogCaptureMode capture_mode) { return http_server_properties_dict->CreateDeepCopy(); } // A local or temporary data structure to hold preferences for a server. // This is used only in UpdatePrefs. struct ServerPref { bool supports_spdy = false; AlternativeServiceInfoVector alternative_service_info_vector; bool server_network_stats_valid = false; ServerNetworkStats server_network_stats; }; QuicServerId QuicServerIdFromString(const std::string& str) { GURL url(str); if (!url.is_valid()) { return QuicServerId(); } return QuicServerId(HostPortPair::FromURL(url), url.path_piece() == "/private" ? PRIVACY_MODE_ENABLED : PRIVACY_MODE_DISABLED); } } // namespace //////////////////////////////////////////////////////////////////////////////// // HttpServerPropertiesManager HttpServerPropertiesManager::PrefDelegate::~PrefDelegate() = default; HttpServerPropertiesManager::HttpServerPropertiesManager( std::unique_ptr pref_delegate, NetLog* net_log, const base::TickClock* clock) : pref_delegate_(std::move(pref_delegate)), clock_(clock ? clock : base::DefaultTickClock::GetInstance()), net_log_( NetLogWithSource::Make(net_log, NetLogSourceType::HTTP_SERVER_PROPERTIES)) { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); DCHECK(pref_delegate_); DCHECK(clock_); pref_delegate_->StartListeningForUpdates(base::BindRepeating( &HttpServerPropertiesManager::OnHttpServerPropertiesChanged, base::Unretained(this))); net_log_.BeginEvent(NetLogEventType::HTTP_SERVER_PROPERTIES_INITIALIZATION); http_server_properties_impl_.reset( new HttpServerPropertiesImpl(clock_, nullptr)); } HttpServerPropertiesManager::~HttpServerPropertiesManager() { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); // Flush settings on destruction. UpdatePrefsFromCache(base::OnceClosure()); } // static void HttpServerPropertiesManager::SetVersion( base::DictionaryValue* http_server_properties_dict, int version_number) { if (version_number < 0) version_number = kVersionNumber; DCHECK_LE(version_number, kVersionNumber); if (version_number <= kVersionNumber) http_server_properties_dict->SetInteger(kVersionKey, version_number); } void HttpServerPropertiesManager::Clear(base::OnceClosure callback) { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); http_server_properties_impl_->Clear(base::OnceClosure()); UpdatePrefsFromCache(std::move(callback)); } bool HttpServerPropertiesManager::SupportsRequestPriority( const url::SchemeHostPort& server) { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); return http_server_properties_impl_->SupportsRequestPriority(server); } bool HttpServerPropertiesManager::GetSupportsSpdy( const url::SchemeHostPort& server) { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); return http_server_properties_impl_->GetSupportsSpdy(server); } void HttpServerPropertiesManager::SetSupportsSpdy( const url::SchemeHostPort& server, bool support_spdy) { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); bool old_support_spdy = http_server_properties_impl_->GetSupportsSpdy(server); http_server_properties_impl_->SetSupportsSpdy(server, support_spdy); bool new_support_spdy = http_server_properties_impl_->GetSupportsSpdy(server); if (old_support_spdy != new_support_spdy) ScheduleUpdatePrefs(SUPPORTS_SPDY); } bool HttpServerPropertiesManager::RequiresHTTP11(const HostPortPair& server) { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); return http_server_properties_impl_->RequiresHTTP11(server); } void HttpServerPropertiesManager::SetHTTP11Required( const HostPortPair& server) { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); http_server_properties_impl_->SetHTTP11Required(server); ScheduleUpdatePrefs(HTTP_11_REQUIRED); } void HttpServerPropertiesManager::MaybeForceHTTP11(const HostPortPair& server, SSLConfig* ssl_config) { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); http_server_properties_impl_->MaybeForceHTTP11(server, ssl_config); } AlternativeServiceInfoVector HttpServerPropertiesManager::GetAlternativeServiceInfos( const url::SchemeHostPort& origin) { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); return http_server_properties_impl_->GetAlternativeServiceInfos(origin); } bool HttpServerPropertiesManager::SetHttp2AlternativeService( const url::SchemeHostPort& origin, const AlternativeService& alternative_service, base::Time expiration) { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); const bool changed = http_server_properties_impl_->SetHttp2AlternativeService( origin, alternative_service, expiration); if (changed) { ScheduleUpdatePrefs(SET_ALTERNATIVE_SERVICES); } return changed; } bool HttpServerPropertiesManager::SetQuicAlternativeService( const url::SchemeHostPort& origin, const AlternativeService& alternative_service, base::Time expiration, const QuicTransportVersionVector& advertised_versions) { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); const bool changed = http_server_properties_impl_->SetQuicAlternativeService( origin, alternative_service, expiration, advertised_versions); if (changed) { ScheduleUpdatePrefs(SET_ALTERNATIVE_SERVICES); } return changed; } bool HttpServerPropertiesManager::SetAlternativeServices( const url::SchemeHostPort& origin, const AlternativeServiceInfoVector& alternative_service_info_vector) { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); const bool changed = http_server_properties_impl_->SetAlternativeServices( origin, alternative_service_info_vector); if (changed) { ScheduleUpdatePrefs(SET_ALTERNATIVE_SERVICES); } return changed; } void HttpServerPropertiesManager::MarkAlternativeServiceBroken( const AlternativeService& alternative_service) { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); http_server_properties_impl_->MarkAlternativeServiceBroken( alternative_service); ScheduleUpdatePrefs(MARK_ALTERNATIVE_SERVICE_BROKEN); } void HttpServerPropertiesManager::MarkAlternativeServiceRecentlyBroken( const AlternativeService& alternative_service) { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); http_server_properties_impl_->MarkAlternativeServiceRecentlyBroken( alternative_service); ScheduleUpdatePrefs(MARK_ALTERNATIVE_SERVICE_RECENTLY_BROKEN); } bool HttpServerPropertiesManager::IsAlternativeServiceBroken( const AlternativeService& alternative_service) const { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); return http_server_properties_impl_->IsAlternativeServiceBroken( alternative_service); } bool HttpServerPropertiesManager::WasAlternativeServiceRecentlyBroken( const AlternativeService& alternative_service) { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); return http_server_properties_impl_->WasAlternativeServiceRecentlyBroken( alternative_service); } void HttpServerPropertiesManager::ConfirmAlternativeService( const AlternativeService& alternative_service) { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); bool old_value = http_server_properties_impl_->IsAlternativeServiceBroken( alternative_service); http_server_properties_impl_->ConfirmAlternativeService(alternative_service); bool new_value = http_server_properties_impl_->IsAlternativeServiceBroken( alternative_service); // For persisting, we only care about the value returned by // IsAlternativeServiceBroken. If that value changes, then call persist. if (old_value != new_value) ScheduleUpdatePrefs(CONFIRM_ALTERNATIVE_SERVICE); } const AlternativeServiceMap& HttpServerPropertiesManager::alternative_service_map() const { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); return http_server_properties_impl_->alternative_service_map(); } std::unique_ptr HttpServerPropertiesManager::GetAlternativeServiceInfoAsValue() const { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); return http_server_properties_impl_->GetAlternativeServiceInfoAsValue(); } bool HttpServerPropertiesManager::GetSupportsQuic( IPAddress* last_address) const { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); return http_server_properties_impl_->GetSupportsQuic(last_address); } void HttpServerPropertiesManager::SetSupportsQuic(bool used_quic, const IPAddress& address) { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); IPAddress old_last_quic_addr; http_server_properties_impl_->GetSupportsQuic(&old_last_quic_addr); http_server_properties_impl_->SetSupportsQuic(used_quic, address); IPAddress new_last_quic_addr; http_server_properties_impl_->GetSupportsQuic(&new_last_quic_addr); if (old_last_quic_addr != new_last_quic_addr) ScheduleUpdatePrefs(SET_SUPPORTS_QUIC); } void HttpServerPropertiesManager::SetServerNetworkStats( const url::SchemeHostPort& server, ServerNetworkStats stats) { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); ServerNetworkStats old_stats; const ServerNetworkStats* old_stats_ptr = http_server_properties_impl_->GetServerNetworkStats(server); if (http_server_properties_impl_->GetServerNetworkStats(server)) old_stats = *old_stats_ptr; http_server_properties_impl_->SetServerNetworkStats(server, stats); ServerNetworkStats new_stats = *(http_server_properties_impl_->GetServerNetworkStats(server)); if (old_stats != new_stats) ScheduleUpdatePrefs(SET_SERVER_NETWORK_STATS); } void HttpServerPropertiesManager::ClearServerNetworkStats( const url::SchemeHostPort& server) { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); bool need_update = http_server_properties_impl_->GetServerNetworkStats(server) != nullptr; http_server_properties_impl_->ClearServerNetworkStats(server); if (need_update) ScheduleUpdatePrefs(CLEAR_SERVER_NETWORK_STATS); } const ServerNetworkStats* HttpServerPropertiesManager::GetServerNetworkStats( const url::SchemeHostPort& server) { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); return http_server_properties_impl_->GetServerNetworkStats(server); } const ServerNetworkStatsMap& HttpServerPropertiesManager::server_network_stats_map() const { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); return http_server_properties_impl_->server_network_stats_map(); } bool HttpServerPropertiesManager::SetQuicServerInfo( const QuicServerId& server_id, const std::string& server_info) { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); bool changed = http_server_properties_impl_->SetQuicServerInfo(server_id, server_info); if (changed) ScheduleUpdatePrefs(SET_QUIC_SERVER_INFO); return changed; } const std::string* HttpServerPropertiesManager::GetQuicServerInfo( const QuicServerId& server_id) { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); return http_server_properties_impl_->GetQuicServerInfo(server_id); } const QuicServerInfoMap& HttpServerPropertiesManager::quic_server_info_map() const { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); return http_server_properties_impl_->quic_server_info_map(); } size_t HttpServerPropertiesManager::max_server_configs_stored_in_properties() const { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); return http_server_properties_impl_ ->max_server_configs_stored_in_properties(); } void HttpServerPropertiesManager::SetMaxServerConfigsStoredInProperties( size_t max_server_configs_stored_in_properties) { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); return http_server_properties_impl_->SetMaxServerConfigsStoredInProperties( max_server_configs_stored_in_properties); } bool HttpServerPropertiesManager::IsInitialized() const { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); return is_initialized_; } // static base::TimeDelta HttpServerPropertiesManager::GetUpdateCacheDelayForTesting() { return kUpdateCacheDelay; } // static base::TimeDelta HttpServerPropertiesManager::GetUpdatePrefsDelayForTesting() { return kUpdatePrefsDelay; } void HttpServerPropertiesManager::ScheduleUpdateCacheForTesting() { ScheduleUpdateCache(); } void HttpServerPropertiesManager::ScheduleUpdateCache() { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); // Do not schedule a new update if there is already one scheduled. if (pref_cache_update_timer_.IsRunning()) return; if (!is_initialized_) { UpdateCacheFromPrefs(); return; } pref_cache_update_timer_.Start( FROM_HERE, kUpdateCacheDelay, this, &HttpServerPropertiesManager::UpdateCacheFromPrefs); } void HttpServerPropertiesManager::UpdateCacheFromPrefs() { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); if (!is_initialized_) { net_log_.EndEvent(NetLogEventType::HTTP_SERVER_PROPERTIES_INITIALIZATION); is_initialized_ = true; } const base::DictionaryValue* http_server_properties_dict = pref_delegate_->GetServerProperties(); // If there are no preferences set, do nothing. if (!http_server_properties_dict) return; bool detected_corrupted_prefs = false; net_log_.AddEvent(NetLogEventType::HTTP_SERVER_PROPERTIES_UPDATE_CACHE, base::Bind(&NetLogCallback, http_server_properties_dict)); int version = kMissingVersion; if (!http_server_properties_dict->GetIntegerWithoutPathExpansion(kVersionKey, &version)) { DVLOG(1) << "Missing version. Clearing all properties."; return; } const base::DictionaryValue* servers_dict = nullptr; const base::ListValue* servers_list = nullptr; if (version < 4) { // The properties for a given server is in // http_server_properties_dict["servers"][server]. // Before Version 4, server data was stored in the following format in // alphabetical order. // // "http_server_properties": { // "servers": { // "0-edge-chat.facebook.com:443" : {...}, // "0.client-channel.google.com:443" : {...}, // "yt3.ggpht.com:80" : {...}, // ... // }, ... // }, if (!http_server_properties_dict->GetDictionaryWithoutPathExpansion( kServersKey, &servers_dict)) { DVLOG(1) << "Malformed http_server_properties for servers."; return; } } else { // For Version 4, data was stored in the following format. // |servers| are saved in MRU order. // // "http_server_properties": { // "servers": [ // {"yt3.ggpht.com:443" : {...}}, // {"0.client-channel.google.com:443" : {...}}, // {"0-edge-chat.facebook.com:80" : {...}}, // ... // ], ... // }, // For Version 5, data was stored in the following format. // |servers| are saved in MRU order. |servers| are in the format flattened // representation of (scheme/host/port) where port might be ignored if is // default with scheme. // // "http_server_properties": { // "servers": [ // {"https://yt3.ggpht.com" : {...}}, // {"http://0.client-channel.google.com:443" : {...}}, // {"http://0-edge-chat.facebook.com" : {...}}, // ... // ], ... // }, if (!http_server_properties_dict->GetListWithoutPathExpansion( kServersKey, &servers_list)) { DVLOG(1) << "Malformed http_server_properties for servers list."; return; } } std::unique_ptr addr = std::make_unique(); ReadSupportsQuic(*http_server_properties_dict, addr.get()); // String is "scheme://host:port" tuple of spdy server. std::unique_ptr spdy_servers_map = std::make_unique(); std::unique_ptr alternative_service_map = std::make_unique(); std::unique_ptr server_network_stats_map = std::make_unique(); std::unique_ptr quic_server_info_map = std::make_unique( max_server_configs_stored_in_properties()); if (version < 4) { if (!AddServersData(*servers_dict, spdy_servers_map.get(), alternative_service_map.get(), server_network_stats_map.get(), version)) { detected_corrupted_prefs = true; } } else { // Iterate servers list in reverse MRU order so that entries are inserted // into |spdy_servers_map|, |alternative_service_map|, and // |server_network_stats_map| from oldest to newest. for (base::ListValue::const_iterator it = servers_list->end(); it != servers_list->begin();) { --it; if (!it->GetAsDictionary(&servers_dict)) { DVLOG(1) << "Malformed http_server_properties for servers dictionary."; detected_corrupted_prefs = true; continue; } if (!AddServersData(*servers_dict, spdy_servers_map.get(), alternative_service_map.get(), server_network_stats_map.get(), version)) { detected_corrupted_prefs = true; } } } if (!AddToQuicServerInfoMap(*http_server_properties_dict, quic_server_info_map.get())) { detected_corrupted_prefs = true; } // Read list containing broken and recently-broken alternative services, if // it exists. std::unique_ptr broken_alternative_service_list; std::unique_ptr recently_broken_alternative_services; const base::ListValue* broken_alt_svc_list; if (http_server_properties_dict->GetListWithoutPathExpansion( kBrokenAlternativeServicesKey, &broken_alt_svc_list)) { broken_alternative_service_list = std::make_unique(); recently_broken_alternative_services = std::make_unique(); // Iterate list in reverse-MRU order for (base::ListValue::const_iterator it = broken_alt_svc_list->end(); it != broken_alt_svc_list->begin();) { --it; const base::DictionaryValue* entry_dict; if (!it->GetAsDictionary(&entry_dict)) { DVLOG(1) << "Malformed broken alterantive service entry."; detected_corrupted_prefs = true; continue; } if (!AddToBrokenAlternativeServices( *entry_dict, broken_alternative_service_list.get(), recently_broken_alternative_services.get())) { detected_corrupted_prefs = true; continue; } } } // Set the properties loaded from prefs on |http_server_properties_impl_|. UMA_HISTOGRAM_COUNTS_1M("Net.CountOfSpdyServers", spdy_servers_map->size()); http_server_properties_impl_->SetSpdyServers(std::move(spdy_servers_map)); // Update the cached data and use the new alternative service list from // preferences. UMA_HISTOGRAM_COUNTS_1M("Net.CountOfAlternateProtocolServers", alternative_service_map->size()); http_server_properties_impl_->SetAlternativeServiceServers( std::move(alternative_service_map)); http_server_properties_impl_->SetSupportsQuic(*addr); http_server_properties_impl_->SetServerNetworkStats( std::move(server_network_stats_map)); UMA_HISTOGRAM_COUNTS_1000("Net.CountOfQuicServerInfos", quic_server_info_map->size()); http_server_properties_impl_->SetQuicServerInfoMap( std::move(quic_server_info_map)); if (recently_broken_alternative_services) { DCHECK(broken_alternative_service_list); UMA_HISTOGRAM_COUNTS_1000("Net.CountOfBrokenAlternativeServices", broken_alternative_service_list->size()); UMA_HISTOGRAM_COUNTS_1000("Net.CountOfRecentlyBrokenAlternativeServices", recently_broken_alternative_services->size()); http_server_properties_impl_->SetBrokenAndRecentlyBrokenAlternativeServices( std::move(broken_alternative_service_list), std::move(recently_broken_alternative_services)); } // Update the prefs with what we have read (delete all corrupted prefs). if (detected_corrupted_prefs) ScheduleUpdatePrefs(DETECTED_CORRUPTED_PREFS); } bool HttpServerPropertiesManager::AddToBrokenAlternativeServices( const base::DictionaryValue& broken_alt_svc_entry_dict, BrokenAlternativeServiceList* broken_alternative_service_list, RecentlyBrokenAlternativeServices* recently_broken_alternative_services) { AlternativeService alt_service; if (!ParseAlternativeServiceDict(broken_alt_svc_entry_dict, false, "broken alternative services", &alt_service)) { return false; } // Each entry must contain either broken-count and/or broken-until fields. bool contains_broken_count_or_broken_until = false; // Read broken-count and add an entry for |alt_service| into // |recently_broken_alternative_services|. if (broken_alt_svc_entry_dict.HasKey(kBrokenCountKey)) { int broken_count; if (!broken_alt_svc_entry_dict.GetIntegerWithoutPathExpansion( kBrokenCountKey, &broken_count)) { DVLOG(1) << "Recently broken alternative service has malformed " << "broken-count."; return false; } if (broken_count < 0) { DVLOG(1) << "Broken alternative service has negative broken-count."; return false; } recently_broken_alternative_services->Put(alt_service, broken_count); contains_broken_count_or_broken_until = true; } // Read broken-until and add an entry for |alt_service| in // |broken_alternative_service_list|. if (broken_alt_svc_entry_dict.HasKey(kBrokenUntilKey)) { std::string expiration_string; int64_t expiration_int64; if (!broken_alt_svc_entry_dict.GetStringWithoutPathExpansion( kBrokenUntilKey, &expiration_string) || !base::StringToInt64(expiration_string, &expiration_int64)) { DVLOG(1) << "Broken alternative service has malformed broken-until " << "string."; return false; } time_t expiration_time_t = static_cast(expiration_int64); // Convert expiration from time_t to Time to TimeTicks base::TimeTicks expiration_time_ticks = clock_->NowTicks() + (base::Time::FromTimeT(expiration_time_t) - base::Time::Now()); broken_alternative_service_list->push_back( std::make_pair(alt_service, expiration_time_ticks)); contains_broken_count_or_broken_until = true; } if (!contains_broken_count_or_broken_until) { DVLOG(1) << "Broken alternative service has neither broken-count nor " << "broken-until specified."; return false; } return true; } bool HttpServerPropertiesManager::AddServersData( const base::DictionaryValue& servers_dict, SpdyServersMap* spdy_servers_map, AlternativeServiceMap* alternative_service_map, ServerNetworkStatsMap* network_stats_map, int version) { for (base::DictionaryValue::Iterator it(servers_dict); !it.IsAtEnd(); it.Advance()) { // Get server's scheme/host/pair. const std::string& server_str = it.key(); std::string spdy_server_url = server_str; if (version < 5) { // For old version disk data, always use HTTPS as the scheme. spdy_server_url.insert(0, "https://"); } url::SchemeHostPort spdy_server((GURL(spdy_server_url))); if (spdy_server.host().empty()) { DVLOG(1) << "Malformed http_server_properties for server: " << server_str; return false; } const base::DictionaryValue* server_pref_dict = nullptr; if (!it.value().GetAsDictionary(&server_pref_dict)) { DVLOG(1) << "Malformed http_server_properties server: " << server_str; return false; } // Get if server supports Spdy. bool supports_spdy = false; if (server_pref_dict->GetBoolean(kSupportsSpdyKey, &supports_spdy) && supports_spdy) { spdy_servers_map->Put(spdy_server.Serialize(), supports_spdy); } if (!AddToAlternativeServiceMap(spdy_server, *server_pref_dict, alternative_service_map) || !AddToNetworkStatsMap(spdy_server, *server_pref_dict, network_stats_map)) { return false; } } return true; } bool HttpServerPropertiesManager::ParseAlternativeServiceDict( const base::DictionaryValue& dict, bool host_optional, const std::string& parsing_under, AlternativeService* alternative_service) { // Protocol is mandatory. std::string protocol_str; if (!dict.GetStringWithoutPathExpansion(kProtocolKey, &protocol_str)) { DVLOG(1) << "Malformed alternative service protocol string under: " << parsing_under; return false; } NextProto protocol = NextProtoFromString(protocol_str); if (!IsAlternateProtocolValid(protocol)) { DVLOG(1) << "Invalid alternative service protocol string \"" << protocol_str << "\" under: " << parsing_under; return false; } alternative_service->protocol = protocol; // If host is optional, it defaults to "". std::string host = ""; if (dict.HasKey(kHostKey)) { if (!dict.GetStringWithoutPathExpansion(kHostKey, &host)) { DVLOG(1) << "Malformed alternative service host string under: " << parsing_under; return false; } } else if (!host_optional) { DVLOG(1) << "alternative service missing host string under: " << parsing_under; return false; } alternative_service->host = host; // Port is mandatory. int port = 0; if (!dict.GetInteger(kPortKey, &port) || !IsPortValid(port)) { DVLOG(1) << "Malformed alternative service port under: " << parsing_under; return false; } alternative_service->port = static_cast(port); return true; } bool HttpServerPropertiesManager::ParseAlternativeServiceInfoDictOfServer( const base::DictionaryValue& dict, const std::string& server_str, AlternativeServiceInfo* alternative_service_info) { AlternativeService alternative_service; if (!ParseAlternativeServiceDict(dict, true, "server " + server_str, &alternative_service)) { return false; } alternative_service_info->set_alternative_service(alternative_service); // Expiration is optional, defaults to one day. if (!dict.HasKey(kExpirationKey)) { alternative_service_info->set_expiration(base::Time::Now() + base::TimeDelta::FromDays(1)); } else { std::string expiration_string; if (dict.GetStringWithoutPathExpansion(kExpirationKey, &expiration_string)) { int64_t expiration_int64 = 0; if (!base::StringToInt64(expiration_string, &expiration_int64)) { DVLOG(1) << "Malformed alternative service expiration for server: " << server_str; return false; } alternative_service_info->set_expiration( base::Time::FromInternalValue(expiration_int64)); } else { DVLOG(1) << "Malformed alternative service expiration for server: " << server_str; return false; } } // Advertised versions list is optional. if (dict.HasKey(kAdvertisedVersionsKey)) { const base::ListValue* versions_list = nullptr; if (!dict.GetListWithoutPathExpansion(kAdvertisedVersionsKey, &versions_list)) { DVLOG(1) << "Malformed alternative service advertised versions list for " << "server: " << server_str; return false; } QuicTransportVersionVector advertised_versions; for (const auto& value : *versions_list) { int version; if (!value.GetAsInteger(&version)) { DVLOG(1) << "Malformed alternative service version for server: " << server_str; return false; } advertised_versions.push_back(QuicTransportVersion(version)); } alternative_service_info->set_advertised_versions(advertised_versions); } return true; } bool HttpServerPropertiesManager::AddToAlternativeServiceMap( const url::SchemeHostPort& server, const base::DictionaryValue& server_pref_dict, AlternativeServiceMap* alternative_service_map) { DCHECK(alternative_service_map->Peek(server) == alternative_service_map->end()); const base::ListValue* alternative_service_list; if (!server_pref_dict.GetListWithoutPathExpansion( kAlternativeServiceKey, &alternative_service_list)) { return true; } if (server.scheme() != "https") { return false; } AlternativeServiceInfoVector alternative_service_info_vector; for (const auto& alternative_service_list_item : *alternative_service_list) { const base::DictionaryValue* alternative_service_dict; if (!alternative_service_list_item.GetAsDictionary( &alternative_service_dict)) return false; AlternativeServiceInfo alternative_service_info; if (!ParseAlternativeServiceInfoDictOfServer(*alternative_service_dict, server.Serialize(), &alternative_service_info)) { return false; } if (base::Time::Now() < alternative_service_info.expiration()) { alternative_service_info_vector.push_back(alternative_service_info); } } if (alternative_service_info_vector.empty()) { return false; } alternative_service_map->Put(server, alternative_service_info_vector); return true; } bool HttpServerPropertiesManager::ReadSupportsQuic( const base::DictionaryValue& http_server_properties_dict, IPAddress* last_quic_address) { const base::DictionaryValue* supports_quic_dict = nullptr; if (!http_server_properties_dict.GetDictionaryWithoutPathExpansion( kSupportsQuicKey, &supports_quic_dict)) { return true; } bool used_quic = false; if (!supports_quic_dict->GetBooleanWithoutPathExpansion(kUsedQuicKey, &used_quic)) { DVLOG(1) << "Malformed SupportsQuic"; return false; } if (!used_quic) return false; std::string address; if (!supports_quic_dict->GetStringWithoutPathExpansion(kAddressKey, &address) || !last_quic_address->AssignFromIPLiteral(address)) { DVLOG(1) << "Malformed SupportsQuic"; return false; } return true; } bool HttpServerPropertiesManager::AddToNetworkStatsMap( const url::SchemeHostPort& server, const base::DictionaryValue& server_pref_dict, ServerNetworkStatsMap* network_stats_map) { DCHECK(network_stats_map->Peek(server) == network_stats_map->end()); const base::DictionaryValue* server_network_stats_dict = nullptr; if (!server_pref_dict.GetDictionaryWithoutPathExpansion( kNetworkStatsKey, &server_network_stats_dict)) { return true; } int srtt; if (!server_network_stats_dict->GetIntegerWithoutPathExpansion(kSrttKey, &srtt)) { DVLOG(1) << "Malformed ServerNetworkStats for server: " << server.Serialize(); return false; } ServerNetworkStats server_network_stats; server_network_stats.srtt = base::TimeDelta::FromMicroseconds(srtt); // TODO(rtenneti): When QUIC starts using bandwidth_estimate, then persist // bandwidth_estimate. network_stats_map->Put(server, server_network_stats); return true; } bool HttpServerPropertiesManager::AddToQuicServerInfoMap( const base::DictionaryValue& http_server_properties_dict, QuicServerInfoMap* quic_server_info_map) { const base::DictionaryValue* quic_servers_dict = nullptr; if (!http_server_properties_dict.GetDictionaryWithoutPathExpansion( kQuicServers, &quic_servers_dict)) { DVLOG(1) << "Malformed http_server_properties for quic_servers."; return true; } bool detected_corrupted_prefs = false; for (base::DictionaryValue::Iterator it(*quic_servers_dict); !it.IsAtEnd(); it.Advance()) { // Get quic_server_id. const std::string& quic_server_id_str = it.key(); QuicServerId quic_server_id = QuicServerIdFromString(quic_server_id_str); if (quic_server_id.host().empty()) { DVLOG(1) << "Malformed http_server_properties for quic server: " << quic_server_id_str; detected_corrupted_prefs = true; continue; } const base::DictionaryValue* quic_server_pref_dict = nullptr; if (!it.value().GetAsDictionary(&quic_server_pref_dict)) { DVLOG(1) << "Malformed http_server_properties quic server dict: " << quic_server_id_str; detected_corrupted_prefs = true; continue; } std::string quic_server_info; if (!quic_server_pref_dict->GetStringWithoutPathExpansion( kServerInfoKey, &quic_server_info)) { DVLOG(1) << "Malformed http_server_properties quic server info: " << quic_server_id_str; detected_corrupted_prefs = true; continue; } quic_server_info_map->Put(quic_server_id, quic_server_info); } return !detected_corrupted_prefs; } // // Update Preferences with data from the cached data. // void HttpServerPropertiesManager::ScheduleUpdatePrefs(Location location) { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); // Do not schedule a new update if there is already one scheduled. if (network_prefs_update_timer_.IsRunning()) return; network_prefs_update_timer_.Start( FROM_HERE, kUpdatePrefsDelay, base::Bind(&HttpServerPropertiesManager::UpdatePrefsFromCache, base::Unretained(this), base::Passed(base::OnceClosure()))); // TODO(rtenneti): Delete the following histogram after collecting some data. UMA_HISTOGRAM_ENUMERATION("Net.HttpServerProperties.UpdatePrefs", location, HttpServerPropertiesManager::NUM_LOCATIONS); } void HttpServerPropertiesManager::UpdatePrefsFromCache( base::OnceClosure callback) { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); typedef base::MRUCache ServerPrefMap; ServerPrefMap server_pref_map(ServerPrefMap::NO_AUTO_EVICT); // Add SPDY servers to |server_pref_map|. const SpdyServersMap& spdy_servers_map = http_server_properties_impl_->spdy_servers_map(); for (SpdyServersMap::const_reverse_iterator it = spdy_servers_map.rbegin(); it != spdy_servers_map.rend(); ++it) { // Only add servers that support SPDY. if (!it->second) continue; url::SchemeHostPort server(GURL(it->first)); auto map_it = server_pref_map.Put(server, ServerPref()); map_it->second.supports_spdy = true; } // Add alternative service info to |server_pref_map|. const AlternativeServiceMap& alternative_service_map = http_server_properties_impl_->alternative_service_map(); UMA_HISTOGRAM_COUNTS_1M("Net.CountOfAlternateProtocolServers.Memory", alternative_service_map.size()); typedef std::map CanonicalHostPersistedMap; CanonicalHostPersistedMap persisted_map; const base::Time now = base::Time::Now(); for (AlternativeServiceMap::const_reverse_iterator it = alternative_service_map.rbegin(); it != alternative_service_map.rend(); ++it) { const url::SchemeHostPort& server = it->first; AlternativeServiceInfoVector notbroken_alternative_service_info_vector; for (const AlternativeServiceInfo& alternative_service_info : it->second) { // Do not persist expired entries if (alternative_service_info.expiration() < now) { continue; } if (!IsAlternateProtocolValid( alternative_service_info.alternative_service().protocol)) { continue; } notbroken_alternative_service_info_vector.push_back( alternative_service_info); } if (notbroken_alternative_service_info_vector.empty()) { continue; } const std::string* canonical_suffix = http_server_properties_impl_->GetCanonicalSuffix(server.host()); if (canonical_suffix != nullptr) { if (persisted_map.find(*canonical_suffix) != persisted_map.end()) continue; persisted_map[*canonical_suffix] = true; } auto map_it = server_pref_map.Get(server); if (map_it == server_pref_map.end()) map_it = server_pref_map.Put(server, ServerPref()); map_it->second.alternative_service_info_vector = std::move(notbroken_alternative_service_info_vector); } // Add server network stats to |server_pref_map|. const ServerNetworkStatsMap& server_network_stats_map = http_server_properties_impl_->server_network_stats_map(); for (ServerNetworkStatsMap::const_reverse_iterator it = server_network_stats_map.rbegin(); it != server_network_stats_map.rend(); ++it) { const url::SchemeHostPort& server = it->first; auto map_it = server_pref_map.Get(server); if (map_it == server_pref_map.end()) map_it = server_pref_map.Put(server, ServerPref()); map_it->second.server_network_stats_valid = true; map_it->second.server_network_stats = it->second; } base::DictionaryValue http_server_properties_dict; // Convert |server_pref_map| to a DictionaryValue and add it to // |http_server_properties_dict|. auto servers_list = std::make_unique(); for (ServerPrefMap::const_reverse_iterator map_it = server_pref_map.rbegin(); map_it != server_pref_map.rend(); ++map_it) { const url::SchemeHostPort server = map_it->first; const ServerPref& server_pref = map_it->second; auto servers_dict = std::make_unique(); auto server_pref_dict = std::make_unique(); if (server_pref.supports_spdy) { server_pref_dict->SetBoolean(kSupportsSpdyKey, server_pref.supports_spdy); } if (!server_pref.alternative_service_info_vector.empty()) { SaveAlternativeServiceToServerPrefs( server_pref.alternative_service_info_vector, server_pref_dict.get()); } if (server_pref.server_network_stats_valid) { SaveNetworkStatsToServerPrefs(server_pref.server_network_stats, server_pref_dict.get()); } servers_dict->SetWithoutPathExpansion(server.Serialize(), std::move(server_pref_dict)); bool value = servers_list->AppendIfNotPresent(std::move(servers_dict)); DCHECK(value); // Should never happen. } http_server_properties_dict.SetWithoutPathExpansion(kServersKey, std::move(servers_list)); SetVersion(&http_server_properties_dict, kVersionNumber); IPAddress last_quic_addr; if (http_server_properties_impl_->GetSupportsQuic(&last_quic_addr)) { SaveSupportsQuicToPrefs(last_quic_addr, &http_server_properties_dict); } SaveQuicServerInfoMapToServerPrefs( http_server_properties_impl_->quic_server_info_map(), &http_server_properties_dict); SaveBrokenAlternativeServicesToPrefs( http_server_properties_impl_->broken_alternative_service_list(), kMaxBrokenAlternativeServicesToPersist, http_server_properties_impl_->recently_broken_alternative_services(), &http_server_properties_dict); setting_prefs_ = true; pref_delegate_->SetServerProperties(http_server_properties_dict, std::move(callback)); setting_prefs_ = false; net_log_.AddEvent(NetLogEventType::HTTP_SERVER_PROPERTIES_UPDATE_PREFS, base::Bind(&NetLogCallback, &http_server_properties_dict)); } void HttpServerPropertiesManager::SaveAlternativeServiceToServerPrefs( const AlternativeServiceInfoVector& alternative_service_info_vector, base::DictionaryValue* server_pref_dict) { if (alternative_service_info_vector.empty()) { return; } std::unique_ptr alternative_service_list( new base::ListValue); for (const AlternativeServiceInfo& alternative_service_info : alternative_service_info_vector) { const AlternativeService& alternative_service = alternative_service_info.alternative_service(); DCHECK(IsAlternateProtocolValid(alternative_service.protocol)); std::unique_ptr alternative_service_dict( new base::DictionaryValue); AddAlternativeServiceFieldsToDictionaryValue( alternative_service, alternative_service_dict.get()); // JSON cannot store int64_t, so expiration is converted to a string. alternative_service_dict->SetString( kExpirationKey, base::Int64ToString( alternative_service_info.expiration().ToInternalValue())); std::unique_ptr advertised_versions_list = std::make_unique(); for (const auto& version : alternative_service_info.advertised_versions()) { advertised_versions_list->AppendInteger(version); } alternative_service_dict->SetList(kAdvertisedVersionsKey, std::move(advertised_versions_list)); alternative_service_list->Append(std::move(alternative_service_dict)); } if (alternative_service_list->GetSize() == 0) return; server_pref_dict->SetWithoutPathExpansion( kAlternativeServiceKey, std::move(alternative_service_list)); } void HttpServerPropertiesManager::SaveSupportsQuicToPrefs( const IPAddress& last_quic_address, base::DictionaryValue* http_server_properties_dict) { if (!last_quic_address.IsValid()) return; auto supports_quic_dict = std::make_unique(); supports_quic_dict->SetBoolean(kUsedQuicKey, true); supports_quic_dict->SetString(kAddressKey, last_quic_address.ToString()); http_server_properties_dict->SetWithoutPathExpansion( kSupportsQuicKey, std::move(supports_quic_dict)); } void HttpServerPropertiesManager::SaveNetworkStatsToServerPrefs( const ServerNetworkStats& server_network_stats, base::DictionaryValue* server_pref_dict) { auto server_network_stats_dict = std::make_unique(); // Becasue JSON doesn't support int64_t, persist int64_t as a string. server_network_stats_dict->SetInteger( kSrttKey, static_cast(server_network_stats.srtt.InMicroseconds())); // TODO(rtenneti): When QUIC starts using bandwidth_estimate, then persist // bandwidth_estimate. server_pref_dict->SetWithoutPathExpansion( kNetworkStatsKey, std::move(server_network_stats_dict)); } void HttpServerPropertiesManager::SaveQuicServerInfoMapToServerPrefs( const QuicServerInfoMap& quic_server_info_map, base::DictionaryValue* http_server_properties_dict) { if (quic_server_info_map.empty()) return; auto quic_servers_dict = std::make_unique(); for (QuicServerInfoMap::const_reverse_iterator it = quic_server_info_map.rbegin(); it != quic_server_info_map.rend(); ++it) { const QuicServerId& server_id = it->first; auto quic_server_pref_dict = std::make_unique(); quic_server_pref_dict->SetKey(kServerInfoKey, base::Value(it->second)); quic_servers_dict->SetWithoutPathExpansion( server_id.ToString(), std::move(quic_server_pref_dict)); } http_server_properties_dict->SetWithoutPathExpansion( kQuicServers, std::move(quic_servers_dict)); } void HttpServerPropertiesManager::SaveBrokenAlternativeServicesToPrefs( const BrokenAlternativeServiceList& broken_alternative_service_list, size_t max_broken_alternative_services, const RecentlyBrokenAlternativeServices& recently_broken_alternative_services, base::DictionaryValue* http_server_properties_dict) { if (broken_alternative_service_list.empty() && recently_broken_alternative_services.empty()) return; // JSON list will be in MRU order according to // |recently_broken_alternative_services|. std::unique_ptr json_list = std::make_unique(); // Maps recently-broken alternative services to the index where it's stored // in |json_list|. std::unordered_map json_list_index_map; if (!recently_broken_alternative_services.empty()) { for (auto it = recently_broken_alternative_services.rbegin(); it != recently_broken_alternative_services.rend(); ++it) { const AlternativeService& alt_service = it->first; int broken_count = it->second; base::DictionaryValue entry_dict; AddAlternativeServiceFieldsToDictionaryValue(alt_service, &entry_dict); entry_dict.SetKey(kBrokenCountKey, base::Value(broken_count)); json_list_index_map[alt_service] = json_list->GetList().size(); json_list->GetList().push_back(std::move(entry_dict)); } } if (!broken_alternative_service_list.empty()) { // Add expiration time info from |broken_alternative_service_list| to // the JSON list. size_t count = 0; for (auto it = broken_alternative_service_list.begin(); it != broken_alternative_service_list.end() && count < max_broken_alternative_services; ++it, ++count) { const AlternativeService& alt_service = it->first; base::TimeTicks expiration_time_ticks = it->second; // Convert expiration from TimeTicks to Time to time_t time_t expiration_time_t = (base::Time::Now() + (expiration_time_ticks - clock_->NowTicks())) .ToTimeT(); int64_t expiration_int64 = static_cast(expiration_time_t); auto index_map_it = json_list_index_map.find(alt_service); if (index_map_it != json_list_index_map.end()) { size_t json_list_index = index_map_it->second; base::DictionaryValue* entry_dict = nullptr; bool result = json_list->GetDictionary(json_list_index, &entry_dict); DCHECK(result); DCHECK(!entry_dict->HasKey(kBrokenUntilKey)); entry_dict->SetKey(kBrokenUntilKey, base::Value(base::Int64ToString(expiration_int64))); } else { base::DictionaryValue entry_dict; AddAlternativeServiceFieldsToDictionaryValue(alt_service, &entry_dict); entry_dict.SetKey(kBrokenUntilKey, base::Value(base::Int64ToString(expiration_int64))); json_list->GetList().push_back(std::move(entry_dict)); } } } DCHECK(!json_list->empty()); http_server_properties_dict->SetWithoutPathExpansion( kBrokenAlternativeServicesKey, std::move(json_list)); } void HttpServerPropertiesManager::OnHttpServerPropertiesChanged() { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); if (!setting_prefs_) ScheduleUpdateCache(); } } // namespace net