/* * Copyright (C) 2012-2015 Apple Inc. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS'' * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF * THE POSSIBILITY OF SUCH DAMAGE. */ #include "config.h" #include "NetworkProcess.h" #include "ArgumentCoders.h" #include "Attachment.h" #include "AuthenticationManager.h" #include "ChildProcessMessages.h" #include "CustomProtocolManager.h" #include "Logging.h" #include "NetworkConnectionToWebProcess.h" #include "NetworkProcessCreationParameters.h" #include "NetworkProcessPlatformStrategies.h" #include "NetworkProcessProxyMessages.h" #include "NetworkResourceLoader.h" #include "RemoteNetworkingContext.h" #include "SessionTracker.h" #include "StatisticsData.h" #include "WebCookieManager.h" #include "WebProcessPoolMessages.h" #include "WebsiteData.h" #include #include #include #include #include #include #include #include #include #include #if ENABLE(SEC_ITEM_SHIM) #include "SecItemShim.h" #endif #if ENABLE(NETWORK_CACHE) #include "NetworkCache.h" #include "NetworkCacheCoders.h" #endif using namespace WebCore; namespace WebKit { NetworkProcess& NetworkProcess::singleton() { static NeverDestroyed networkProcess; return networkProcess; } NetworkProcess::NetworkProcess() : m_hasSetCacheModel(false) , m_cacheModel(CacheModelDocumentViewer) , m_diskCacheIsDisabledForTesting(false) , m_canHandleHTTPSServerTrustEvaluation(true) #if PLATFORM(COCOA) , m_clearCacheDispatchGroup(0) #endif #if PLATFORM(IOS) , m_webSQLiteDatabaseTracker(*this) #endif { NetworkProcessPlatformStrategies::initialize(); addSupplement(); addSupplement(); addSupplement(); } NetworkProcess::~NetworkProcess() { } AuthenticationManager& NetworkProcess::authenticationManager() { return *supplement(); } DownloadManager& NetworkProcess::downloadManager() { static NeverDestroyed downloadManager(*this); return downloadManager; } void NetworkProcess::removeNetworkConnectionToWebProcess(NetworkConnectionToWebProcess* connection) { size_t vectorIndex = m_webProcessConnections.find(connection); ASSERT(vectorIndex != notFound); m_webProcessConnections.remove(vectorIndex); } bool NetworkProcess::shouldTerminate() { // Network process keeps session cookies and credentials, so it should never terminate (as long as UI process connection is alive). return false; } void NetworkProcess::didReceiveMessage(IPC::Connection& connection, IPC::MessageDecoder& decoder) { if (messageReceiverMap().dispatchMessage(connection, decoder)) return; if (decoder.messageReceiverName() == Messages::ChildProcess::messageReceiverName()) { ChildProcess::didReceiveMessage(connection, decoder); return; } didReceiveNetworkProcessMessage(connection, decoder); } void NetworkProcess::didReceiveSyncMessage(IPC::Connection& connection, IPC::MessageDecoder& decoder, std::unique_ptr& replyEncoder) { if (messageReceiverMap().dispatchSyncMessage(connection, decoder, replyEncoder)) return; didReceiveSyncNetworkProcessMessage(connection, decoder, replyEncoder); } void NetworkProcess::didClose(IPC::Connection&) { // The UIProcess just exited. RunLoop::current().stop(); } void NetworkProcess::didReceiveInvalidMessage(IPC::Connection&, IPC::StringReference, IPC::StringReference) { RunLoop::current().stop(); } void NetworkProcess::didCreateDownload() { disableTermination(); } void NetworkProcess::didDestroyDownload() { enableTermination(); } IPC::Connection* NetworkProcess::downloadProxyConnection() { return parentProcessConnection(); } AuthenticationManager& NetworkProcess::downloadsAuthenticationManager() { return authenticationManager(); } void NetworkProcess::lowMemoryHandler(Critical critical) { platformLowMemoryHandler(critical); WTF::releaseFastMallocFreeMemory(); } void NetworkProcess::initializeNetworkProcess(const NetworkProcessCreationParameters& parameters) { platformInitializeNetworkProcess(parameters); WTF::setCurrentThreadIsUserInitiated(); auto& memoryPressureHandler = MemoryPressureHandler::singleton(); memoryPressureHandler.setLowMemoryHandler([this] (Critical critical, Synchronous) { lowMemoryHandler(critical); }); memoryPressureHandler.install(); m_diskCacheIsDisabledForTesting = parameters.shouldUseTestingNetworkSession; m_diskCacheSizeOverride = parameters.diskCacheSizeOverride; setCacheModel(static_cast(parameters.cacheModel)); setCanHandleHTTPSServerTrustEvaluation(parameters.canHandleHTTPSServerTrustEvaluation); #if PLATFORM(COCOA) || USE(CFNETWORK) SessionTracker::setIdentifierBase(parameters.uiProcessBundleIdentifier); #endif // FIXME: instead of handling this here, a message should be sent later (scales to multiple sessions) if (parameters.privateBrowsingEnabled) RemoteNetworkingContext::ensurePrivateBrowsingSession(SessionID::legacyPrivateSessionID()); if (parameters.shouldUseTestingNetworkSession) NetworkStorageSession::switchToNewTestingSession(); NetworkProcessSupplementMap::const_iterator it = m_supplements.begin(); NetworkProcessSupplementMap::const_iterator end = m_supplements.end(); for (; it != end; ++it) it->value->initialize(parameters); } void NetworkProcess::initializeConnection(IPC::Connection* connection) { ChildProcess::initializeConnection(connection); #if ENABLE(SEC_ITEM_SHIM) SecItemShim::singleton().initializeConnection(connection); #endif NetworkProcessSupplementMap::const_iterator it = m_supplements.begin(); NetworkProcessSupplementMap::const_iterator end = m_supplements.end(); for (; it != end; ++it) it->value->initializeConnection(connection); } void NetworkProcess::createNetworkConnectionToWebProcess() { #if USE(UNIX_DOMAIN_SOCKETS) IPC::Connection::SocketPair socketPair = IPC::Connection::createPlatformConnection(); RefPtr connection = NetworkConnectionToWebProcess::create(socketPair.server); m_webProcessConnections.append(connection.release()); IPC::Attachment clientSocket(socketPair.client); parentProcessConnection()->send(Messages::NetworkProcessProxy::DidCreateNetworkConnectionToWebProcess(clientSocket), 0); #elif OS(WINDOWS) IPC::Connection::Identifier serverIdentifier, clientIdentifier; if (!IPC::Connection::createServerAndClientIdentifiers(serverIdentifier, clientIdentifier)) { // log it? return; } RefPtr connection = NetworkConnectionToWebProcess::create(serverIdentifier); m_webProcessConnections.append(connection.release()); IPC::Attachment clientSocket(clientIdentifier); parentProcessConnection()->send(Messages::NetworkProcessProxy::DidCreateNetworkConnectionToWebProcess(clientSocket), 0); #elif OS(DARWIN) // Create the listening port. mach_port_t listeningPort; mach_port_allocate(mach_task_self(), MACH_PORT_RIGHT_RECEIVE, &listeningPort); // Create a listening connection. RefPtr connection = NetworkConnectionToWebProcess::create(IPC::Connection::Identifier(listeningPort)); m_webProcessConnections.append(connection.release()); IPC::Attachment clientPort(listeningPort, MACH_MSG_TYPE_MAKE_SEND); parentProcessConnection()->send(Messages::NetworkProcessProxy::DidCreateNetworkConnectionToWebProcess(clientPort), 0); #else notImplemented(); #endif } void NetworkProcess::clearCachedCredentials() { NetworkStorageSession::defaultStorageSession().credentialStorage().clearCredentials(); } void NetworkProcess::ensurePrivateBrowsingSession(SessionID sessionID) { RemoteNetworkingContext::ensurePrivateBrowsingSession(sessionID); } void NetworkProcess::destroyPrivateBrowsingSession(SessionID sessionID) { SessionTracker::destroySession(sessionID); } static void fetchDiskCacheEntries(SessionID sessionID, std::function)> completionHandler) { #if ENABLE(NETWORK_CACHE) if (NetworkCache::singleton().isEnabled()) { auto* origins = new HashSet>(); NetworkCache::singleton().traverse([completionHandler, origins](const NetworkCache::Cache::TraversalEntry *traversalEntry) { if (!traversalEntry) { Vector entries; for (auto& origin : *origins) entries.append(WebsiteData::Entry { origin, WebsiteDataTypeDiskCache }); delete origins; RunLoop::main().dispatch([completionHandler, entries] { completionHandler(entries); }); return; } origins->add(SecurityOrigin::create(traversalEntry->entry.response().url())); }); return; } #endif Vector entries; #if USE(CFURLCACHE) for (auto& origin : NetworkProcess::cfURLCacheOrigins()) entries.append(WebsiteData::Entry { WTFMove(origin), WebsiteDataTypeDiskCache }); #endif RunLoop::main().dispatch([completionHandler, entries] { completionHandler(entries); }); } void NetworkProcess::fetchWebsiteData(SessionID sessionID, uint64_t websiteDataTypes, uint64_t callbackID) { struct CallbackAggregator final : public RefCounted { explicit CallbackAggregator(std::function completionHandler) : m_completionHandler(WTFMove(completionHandler)) { } ~CallbackAggregator() { ASSERT(RunLoop::isMain()); auto completionHandler = WTFMove(m_completionHandler); auto websiteData = WTFMove(m_websiteData); RunLoop::main().dispatch([completionHandler, websiteData] { completionHandler(websiteData); }); } std::function m_completionHandler; WebsiteData m_websiteData; }; RefPtr callbackAggregator = adoptRef(new CallbackAggregator([this, callbackID](WebsiteData websiteData) { parentProcessConnection()->send(Messages::NetworkProcessProxy::DidFetchWebsiteData(callbackID, websiteData), 0); })); if (websiteDataTypes & WebsiteDataTypeCookies) { if (auto* networkStorageSession = SessionTracker::storageSession(sessionID)) getHostnamesWithCookies(*networkStorageSession, callbackAggregator->m_websiteData.hostNamesWithCookies); } if (websiteDataTypes & WebsiteDataTypeDiskCache) { fetchDiskCacheEntries(sessionID, [callbackAggregator](Vector entries) { callbackAggregator->m_websiteData.entries.appendVector(entries); }); } } void NetworkProcess::deleteWebsiteData(SessionID sessionID, uint64_t websiteDataTypes, std::chrono::system_clock::time_point modifiedSince, uint64_t callbackID) { #if PLATFORM(COCOA) if (websiteDataTypes & WebsiteDataTypeHSTSCache) { if (auto* networkStorageSession = SessionTracker::storageSession(sessionID)) clearHSTSCache(*networkStorageSession, modifiedSince); } #endif if (websiteDataTypes & WebsiteDataTypeCookies) { if (auto* networkStorageSession = SessionTracker::storageSession(sessionID)) deleteAllCookiesModifiedSince(*networkStorageSession, modifiedSince); } auto completionHandler = [this, callbackID] { parentProcessConnection()->send(Messages::NetworkProcessProxy::DidDeleteWebsiteData(callbackID), 0); }; if ((websiteDataTypes & WebsiteDataTypeDiskCache) && !sessionID.isEphemeral()) { clearDiskCache(modifiedSince, WTFMove(completionHandler)); return; } completionHandler(); } static void clearDiskCacheEntries(const Vector& origins, std::function completionHandler) { #if ENABLE(NETWORK_CACHE) if (NetworkCache::singleton().isEnabled()) { auto* originsToDelete = new HashSet>(); for (auto& origin : origins) originsToDelete->add(origin.securityOrigin()); auto* cacheKeysToDelete = new Vector; NetworkCache::singleton().traverse([completionHandler, originsToDelete, cacheKeysToDelete](const NetworkCache::Cache::TraversalEntry *traversalEntry) { if (traversalEntry) { if (originsToDelete->contains(SecurityOrigin::create(traversalEntry->entry.response().url()))) cacheKeysToDelete->append(traversalEntry->entry.key()); return; } delete originsToDelete; for (auto& key : *cacheKeysToDelete) NetworkCache::singleton().remove(key); delete cacheKeysToDelete; RunLoop::main().dispatch(completionHandler); return; }); return; } #endif #if USE(CFURLCACHE) NetworkProcess::clearCFURLCacheForOrigins(origins); #endif RunLoop::main().dispatch(WTFMove(completionHandler)); } void NetworkProcess::deleteWebsiteDataForOrigins(SessionID sessionID, uint64_t websiteDataTypes, const Vector& origins, const Vector& cookieHostNames, uint64_t callbackID) { if (websiteDataTypes & WebsiteDataTypeCookies) { if (auto* networkStorageSession = SessionTracker::storageSession(sessionID)) deleteCookiesForHostnames(*networkStorageSession, cookieHostNames); } auto completionHandler = [this, callbackID] { parentProcessConnection()->send(Messages::NetworkProcessProxy::DidDeleteWebsiteDataForOrigins(callbackID), 0); }; if ((websiteDataTypes & WebsiteDataTypeDiskCache) && !sessionID.isEphemeral()) { clearDiskCacheEntries(origins, WTFMove(completionHandler)); return; } completionHandler(); } void NetworkProcess::downloadRequest(SessionID sessionID, DownloadID downloadID, const ResourceRequest& request) { downloadManager().startDownload(sessionID, downloadID, request); } void NetworkProcess::resumeDownload(SessionID sessionID, DownloadID downloadID, const IPC::DataReference& resumeData, const String& path, const WebKit::SandboxExtension::Handle& sandboxExtensionHandle) { downloadManager().resumeDownload(sessionID, downloadID, resumeData, path, sandboxExtensionHandle); } void NetworkProcess::cancelDownload(DownloadID downloadID) { downloadManager().cancelDownload(downloadID); } #if PLATFORM(QT) void NetworkProcess::startTransfer(DownloadID downloadID, const String& destination) { downloadManager().startTransfer(downloadID, destination); } #endif #if USE(NETWORK_SESSION) void NetworkProcess::continueCanAuthenticateAgainstProtectionSpace(DownloadID downloadID, bool canAuthenticate) { downloadManager().continueCanAuthenticateAgainstProtectionSpace(downloadID, canAuthenticate); } void NetworkProcess::continueWillSendRequest(DownloadID downloadID, const WebCore::ResourceRequest& request) { downloadManager().continueWillSendRequest(downloadID, request); } #endif void NetworkProcess::setCacheModel(uint32_t cm) { CacheModel cacheModel = static_cast(cm); if (!m_hasSetCacheModel || cacheModel != m_cacheModel) { m_hasSetCacheModel = true; m_cacheModel = cacheModel; platformSetCacheModel(cacheModel); } } void NetworkProcess::setCanHandleHTTPSServerTrustEvaluation(bool value) { m_canHandleHTTPSServerTrustEvaluation = value; } void NetworkProcess::getNetworkProcessStatistics(uint64_t callbackID) { StatisticsData data; auto& networkProcess = NetworkProcess::singleton(); data.statisticsNumbers.set("DownloadsActiveCount", networkProcess.downloadManager().activeDownloadCount()); data.statisticsNumbers.set("OutstandingAuthenticationChallengesCount", networkProcess.authenticationManager().outstandingAuthenticationChallengeCount()); parentProcessConnection()->send(Messages::WebProcessPool::DidGetStatistics(data, callbackID), 0); } void NetworkProcess::logDiagnosticMessage(uint64_t webPageID, const String& message, const String& description, ShouldSample shouldSample) { if (!DiagnosticLoggingClient::shouldLogAfterSampling(shouldSample)) return; parentProcessConnection()->send(Messages::NetworkProcessProxy::LogSampledDiagnosticMessage(webPageID, message, description), 0); } void NetworkProcess::logDiagnosticMessageWithResult(uint64_t webPageID, const String& message, const String& description, DiagnosticLoggingResultType result, ShouldSample shouldSample) { if (!DiagnosticLoggingClient::shouldLogAfterSampling(shouldSample)) return; parentProcessConnection()->send(Messages::NetworkProcessProxy::LogSampledDiagnosticMessageWithResult(webPageID, message, description, result), 0); } void NetworkProcess::logDiagnosticMessageWithValue(uint64_t webPageID, const String& message, const String& description, const String& value, ShouldSample shouldSample) { if (!DiagnosticLoggingClient::shouldLogAfterSampling(shouldSample)) return; parentProcessConnection()->send(Messages::NetworkProcessProxy::LogSampledDiagnosticMessageWithValue(webPageID, message, description, value), 0); } void NetworkProcess::terminate() { platformTerminate(); ChildProcess::terminate(); } void NetworkProcess::processWillSuspendImminently(bool& handled) { lowMemoryHandler(Critical::Yes); handled = true; } void NetworkProcess::prepareToSuspend() { lowMemoryHandler(Critical::Yes); parentProcessConnection()->send(Messages::NetworkProcessProxy::ProcessReadyToSuspend(), 0); } void NetworkProcess::cancelPrepareToSuspend() { // Although it is tempting to send a NetworkProcessProxy::DidCancelProcessSuspension message from here // we do not because prepareToSuspend() already replied with a NetworkProcessProxy::ProcessReadyToSuspend // message. And NetworkProcessProxy expects to receive either a NetworkProcessProxy::ProcessReadyToSuspend- // or NetworkProcessProxy::DidCancelProcessSuspension- message, but not both. } void NetworkProcess::processDidResume() { } void NetworkProcess::prefetchDNS(const String& hostname) { WebCore::prefetchDNS(hostname); } #if !PLATFORM(COCOA) void NetworkProcess::initializeProcess(const ChildProcessInitializationParameters&) { } void NetworkProcess::initializeProcessName(const ChildProcessInitializationParameters&) { } void NetworkProcess::initializeSandbox(const ChildProcessInitializationParameters&, SandboxInitializationParameters&) { } void NetworkProcess::platformLowMemoryHandler(Critical) { } #endif } // namespace WebKit