/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=2 et sw=2 tw=80: */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #ifdef MOZ_WIDGET_ANDROID # include "AndroidDecoderModule.h" #endif #include "mozilla/AppShutdown.h" #include "mozilla/DebugOnly.h" #include "base/basictypes.h" #include "base/shared_memory.h" #include "ContentParent.h" #include "mozilla/ipc/ProcessUtils.h" #include "mozilla/CmdLineAndEnvUtils.h" #include "BrowserParent.h" #include "chrome/common/process_watcher.h" #include "mozilla/Result.h" #include "mozilla/XREAppData.h" #include "nsComponentManagerUtils.h" #include "nsIBrowserDOMWindow.h" #ifdef ACCESSIBILITY # include "mozilla/a11y/PDocAccessible.h" #endif #include "GMPServiceParent.h" #include "HandlerServiceParent.h" #include "IHistory.h" #if defined(XP_WIN) && defined(ACCESSIBILITY) # include "mozilla/a11y/AccessibleWrap.h" # include "mozilla/a11y/Compatibility.h" # include "mozilla/mscom/ActCtxResource.h" # include "mozilla/StaticPrefs_accessibility.h" #endif #include #include #include "ContentProcessManager.h" #include "GeckoProfiler.h" #include "Geolocation.h" #include "GfxInfoBase.h" #include "MMPrinter.h" #include "PreallocatedProcessManager.h" #include "ProcessPriorityManager.h" #include "ProfilerParent.h" #include "SandboxHal.h" #include "SourceSurfaceRawData.h" #include "mozilla/ipc/URIUtils.h" #include "gfxPlatform.h" #include "gfxPlatformFontList.h" #include "nsDNSService2.h" #include "nsPIDNSService.h" #include "mozilla/AntiTrackingUtils.h" #include "mozilla/AppShutdown.h" #include "mozilla/AutoRestore.h" #include "mozilla/BasePrincipal.h" #include "mozilla/BenchmarkStorageParent.h" #include "mozilla/ContentBlockingUserInteraction.h" #include "mozilla/ClearOnShutdown.h" #include "mozilla/FOGIPC.h" #include "mozilla/GlobalStyleSheetCache.h" #include "mozilla/GeckoArgs.h" #include "mozilla/HangDetails.h" #include "mozilla/LoginReputationIPC.h" #include "mozilla/LookAndFeel.h" #include "mozilla/Maybe.h" #include "mozilla/NullPrincipal.h" #include "mozilla/PerformanceMetricsCollector.h" #include "mozilla/Preferences.h" #include "mozilla/PresShell.h" #include "mozilla/ProcessHangMonitor.h" #include "mozilla/ProcessHangMonitorIPC.h" #include "mozilla/ProfilerLabels.h" #include "mozilla/ProfilerMarkers.h" #include "mozilla/ScopeExit.h" #include "mozilla/ScriptPreloader.h" #include "mozilla/Components.h" #include "mozilla/Sprintf.h" #include "mozilla/StaticPrefs_dom.h" #include "mozilla/StaticPrefs_fission.h" #include "mozilla/StaticPrefs_media.h" #include "mozilla/StaticPrefs_widget.h" #include "mozilla/StorageAccessAPIHelper.h" #include "mozilla/StyleSheet.h" #include "mozilla/StyleSheetInlines.h" #include "mozilla/TaskController.h" #include "mozilla/Telemetry.h" #include "mozilla/TelemetryIPC.h" #include "mozilla/Unused.h" #include "mozilla/WebBrowserPersistDocumentParent.h" #include "mozilla/devtools/HeapSnapshotTempFileHelperParent.h" #include "mozilla/dom/BlobURLProtocolHandler.h" #include "mozilla/dom/BrowserHost.h" #include "mozilla/dom/BrowsingContext.h" #include "mozilla/dom/BrowsingContextGroup.h" #include "mozilla/dom/CancelContentJSOptionsBinding.h" #include "mozilla/dom/CanonicalBrowsingContext.h" #include "mozilla/dom/ClientManager.h" #include "mozilla/dom/ContentChild.h" #include "mozilla/dom/DataTransfer.h" #include "mozilla/dom/Document.h" #include "mozilla/dom/Element.h" #include "mozilla/dom/ExternalHelperAppParent.h" #include "mozilla/dom/File.h" #include "mozilla/dom/FileSystemSecurity.h" #include "mozilla/dom/GeolocationBinding.h" #include "mozilla/dom/GeolocationPositionError.h" #include "mozilla/dom/GetFilesHelper.h" #include "mozilla/dom/IPCBlobUtils.h" #include "mozilla/dom/JSActorService.h" #include "mozilla/dom/JSProcessActorBinding.h" #include "mozilla/dom/LocalStorageCommon.h" #include "mozilla/dom/MediaController.h" #include "mozilla/dom/MemoryReportRequest.h" #include "mozilla/dom/MediaStatusManager.h" #include "mozilla/dom/Notification.h" #include "mozilla/dom/PContentPermissionRequestParent.h" #include "mozilla/dom/PCycleCollectWithLogsParent.h" #include "mozilla/dom/ParentProcessMessageManager.h" #include "mozilla/dom/Permissions.h" #include "mozilla/dom/ProcessMessageManager.h" #include "mozilla/dom/PushNotifier.h" #include "mozilla/dom/ServiceWorkerManager.h" #include "mozilla/dom/ServiceWorkerRegistrar.h" #include "mozilla/dom/ServiceWorkerUtils.h" #include "mozilla/dom/SessionHistoryEntry.h" #include "mozilla/dom/SessionStorageManager.h" #include "mozilla/dom/StorageIPC.h" #include "mozilla/dom/URLClassifierParent.h" #include "mozilla/dom/WakeLock.h" #include "mozilla/dom/WindowGlobalParent.h" #include "mozilla/dom/ipc/SharedMap.h" #include "mozilla/dom/ipc/StructuredCloneData.h" #include "mozilla/dom/nsMixedContentBlocker.h" #include "mozilla/dom/power/PowerManagerService.h" #include "mozilla/dom/quota/QuotaManagerService.h" #include "mozilla/extensions/ExtensionsParent.h" #include "mozilla/extensions/StreamFilterParent.h" #include "mozilla/gfx/GPUProcessManager.h" #include "mozilla/gfx/gfxVars.h" #include "mozilla/glean/GleanPings.h" #include "mozilla/hal_sandbox/PHalParent.h" #include "mozilla/intl/L10nRegistry.h" #include "mozilla/intl/LocaleService.h" #include "mozilla/ipc/BackgroundChild.h" #include "mozilla/ipc/BackgroundParent.h" #include "mozilla/ipc/ByteBuf.h" #include "mozilla/ipc/CrashReporterHost.h" #include "mozilla/ipc/Endpoint.h" #include "mozilla/ipc/FileDescriptorUtils.h" #include "mozilla/ipc/IPCStreamUtils.h" #include "mozilla/ipc/TestShellParent.h" #include "mozilla/layers/CompositorThread.h" #include "mozilla/layers/ImageBridgeParent.h" #include "mozilla/layers/LayerTreeOwnerTracker.h" #include "mozilla/layers/PAPZParent.h" #include "mozilla/loader/ScriptCacheActors.h" #include "mozilla/media/MediaParent.h" #include "mozilla/mozSpellChecker.h" #include "mozilla/net/CookieServiceParent.h" #include "mozilla/net/NeckoMessageUtils.h" #include "mozilla/net/NeckoParent.h" #include "mozilla/net/PCookieServiceParent.h" #include "mozilla/net/CookieKey.h" #include "mozilla/net/TRRService.h" #include "mozilla/TelemetryComms.h" #include "mozilla/TelemetryEventEnums.h" #include "mozilla/RemoteLazyInputStreamParent.h" #include "mozilla/widget/RemoteLookAndFeel.h" #include "mozilla/widget/ScreenManager.h" #include "mozilla/widget/TextRecognition.h" #include "nsAnonymousTemporaryFile.h" #include "nsAppRunner.h" #include "nsCExternalHandlerService.h" #include "nsCOMPtr.h" #include "nsChromeRegistryChrome.h" #include "nsConsoleMessage.h" #include "nsConsoleService.h" #include "nsContentPermissionHelper.h" #include "nsContentUtils.h" #include "nsCRT.h" #include "nsDebugImpl.h" #include "nsDirectoryServiceDefs.h" #include "nsDocShell.h" #include "nsEmbedCID.h" #include "nsFocusManager.h" #include "nsFrameLoader.h" #include "nsFrameMessageManager.h" #include "nsHashPropertyBag.h" #include "nsHyphenationManager.h" #include "nsIAlertsService.h" #include "nsIAppShell.h" #include "nsIAppWindow.h" #include "nsIAsyncInputStream.h" #include "nsIBidiKeyboard.h" #include "nsICaptivePortalService.h" #include "nsICertOverrideService.h" #include "nsIClipboard.h" #include "nsIContentProcess.h" #include "nsIContentSecurityPolicy.h" #include "nsICookie.h" #include "nsICrashService.h" #include "nsICycleCollectorListener.h" #include "nsIDOMChromeWindow.h" #include "nsIDocShell.h" #include "nsIDocShellTreeOwner.h" #include "nsIDragService.h" #include "nsIExternalProtocolService.h" #include "nsIGfxInfo.h" #include "nsIUserIdleService.h" #include "nsIInterfaceRequestorUtils.h" #include "nsILocalStorageManager.h" #include "nsIMemoryInfoDumper.h" #include "nsIMemoryReporter.h" #include "nsIMozBrowserFrame.h" #include "nsINetworkLinkService.h" #include "nsIObserverService.h" #include "nsIParentChannel.h" #include "nsIScriptError.h" #include "nsIScriptSecurityManager.h" #include "nsIServiceWorkerManager.h" #include "nsISiteSecurityService.h" #include "nsISound.h" #include "nsIStringBundle.h" #include "nsITimer.h" #include "nsIURL.h" #include "nsIWebBrowserChrome.h" #include "nsIX509Cert.h" #include "nsIXULRuntime.h" #if defined(MOZ_WIDGET_GTK) || defined(XP_WIN) # include "nsIconChannel.h" #endif #include "nsMemoryInfoDumper.h" #include "nsMemoryReporterManager.h" #include "nsOpenURIInFrameParams.h" #include "nsPIWindowWatcher.h" #include "nsPluginHost.h" #include "nsPluginTags.h" #include "nsQueryObject.h" #include "nsReadableUtils.h" #include "nsSHistory.h" #include "nsScriptError.h" #include "nsServiceManagerUtils.h" #include "nsStreamUtils.h" #include "nsStyleSheetService.h" #include "nsThread.h" #include "nsThreadUtils.h" #include "nsWidgetsCID.h" #include "nsWindowWatcher.h" #include "prio.h" #include "private/pprio.h" #include "xpcpublic.h" #include "nsOpenWindowInfo.h" #include "nsFrameLoaderOwner.h" #ifdef MOZ_WEBRTC # include "jsapi/WebrtcGlobalParent.h" #endif #if defined(XP_MACOSX) # include "nsMacUtilsImpl.h" # include "mozilla/AvailableMemoryWatcher.h" #endif #if defined(ANDROID) || defined(LINUX) # include "nsSystemInfo.h" #endif #if defined(XP_LINUX) # include "mozilla/Hal.h" #endif #ifdef ANDROID # include "gfxAndroidPlatform.h" #endif #include "mozilla/PermissionManager.h" #ifdef MOZ_WIDGET_ANDROID # include "AndroidBridge.h" # include "mozilla/java/GeckoProcessManagerWrappers.h" # include "mozilla/java/GeckoProcessTypeWrappers.h" #endif #ifdef MOZ_WIDGET_GTK # include # include "mozilla/WidgetUtilsGtk.h" #endif #include "mozilla/RemoteSpellCheckEngineParent.h" #include "Crypto.h" #ifdef MOZ_WEBSPEECH # include "mozilla/dom/SpeechSynthesisParent.h" #endif #if defined(MOZ_SANDBOX) # include "mozilla/SandboxSettings.h" # if defined(XP_LINUX) # include "mozilla/SandboxInfo.h" # include "mozilla/SandboxBroker.h" # include "mozilla/SandboxBrokerPolicyFactory.h" # endif # if defined(XP_MACOSX) # include "mozilla/Sandbox.h" # endif #endif #ifdef XP_WIN # include "mozilla/widget/AudioSession.h" # include "mozilla/WinDllServices.h" #endif #ifdef ACCESSIBILITY # include "nsAccessibilityService.h" #endif #ifdef MOZ_CODE_COVERAGE # include "mozilla/CodeCoverageHandler.h" #endif #ifdef FUZZING_SNAPSHOT # include "mozilla/fuzzing/IPCFuzzController.h" #endif // For VP9Benchmark::sBenchmarkFpsPref #include "Benchmark.h" #include "nsIToolkitProfileService.h" #include "nsIToolkitProfile.h" static NS_DEFINE_CID(kCClipboardCID, NS_CLIPBOARD_CID); using base::KillProcess; using namespace CrashReporter; using namespace mozilla::dom::power; using namespace mozilla::media; using namespace mozilla::embedding; using namespace mozilla::gfx; using namespace mozilla::gmp; using namespace mozilla::hal; using namespace mozilla::ipc; using namespace mozilla::intl; using namespace mozilla::layers; using namespace mozilla::layout; using namespace mozilla::net; using namespace mozilla::psm; using namespace mozilla::widget; using namespace mozilla::Telemetry; using mozilla::loader::PScriptCacheParent; using mozilla::Telemetry::ProcessID; extern mozilla::LazyLogModule gFocusLog; #define LOGFOCUS(args) MOZ_LOG(gFocusLog, mozilla::LogLevel::Debug, args) namespace mozilla { namespace CubebUtils { extern FileDescriptor CreateAudioIPCConnection(); } namespace dom { LazyLogModule gProcessLog("Process"); static std::map sCodecsSupported; /* static */ uint32_t ContentParent::sMaxContentProcesses = 0; /* static */ Maybe ContentParent::sLastContentProcessLaunch = Nothing(); /* static */ LogModule* ContentParent::GetLog() { return gProcessLog; } /* static */ uint32_t ContentParent::sPageLoadEventCounter = 0; #define NS_IPC_IOSERVICE_SET_OFFLINE_TOPIC "ipc:network:set-offline" #define NS_IPC_IOSERVICE_SET_CONNECTIVITY_TOPIC "ipc:network:set-connectivity" // IPC receiver for remote GC/CC logging. class CycleCollectWithLogsParent final : public PCycleCollectWithLogsParent { public: MOZ_COUNTED_DTOR(CycleCollectWithLogsParent) static bool AllocAndSendConstructor(ContentParent* aManager, bool aDumpAllTraces, nsICycleCollectorLogSink* aSink, nsIDumpGCAndCCLogsCallback* aCallback) { CycleCollectWithLogsParent* actor; FILE* gcLog; FILE* ccLog; nsresult rv; actor = new CycleCollectWithLogsParent(aSink, aCallback); rv = actor->mSink->Open(&gcLog, &ccLog); if (NS_WARN_IF(NS_FAILED(rv))) { delete actor; return false; } return aManager->SendPCycleCollectWithLogsConstructor( actor, aDumpAllTraces, FILEToFileDescriptor(gcLog), FILEToFileDescriptor(ccLog)); } private: virtual mozilla::ipc::IPCResult RecvCloseGCLog() override { Unused << mSink->CloseGCLog(); return IPC_OK(); } virtual mozilla::ipc::IPCResult RecvCloseCCLog() override { Unused << mSink->CloseCCLog(); return IPC_OK(); } virtual mozilla::ipc::IPCResult Recv__delete__() override { // Report completion to mCallback only on successful // completion of the protocol. nsCOMPtr gcLog, ccLog; mSink->GetGcLog(getter_AddRefs(gcLog)); mSink->GetCcLog(getter_AddRefs(ccLog)); Unused << mCallback->OnDump(gcLog, ccLog, /* parent = */ false); return IPC_OK(); } virtual void ActorDestroy(ActorDestroyReason aReason) override { // If the actor is unexpectedly destroyed, we deliberately // don't call Close[GC]CLog on the sink, because the logs may // be incomplete. See also the nsCycleCollectorLogSinkToFile // implementaiton of those methods, and its destructor. } CycleCollectWithLogsParent(nsICycleCollectorLogSink* aSink, nsIDumpGCAndCCLogsCallback* aCallback) : mSink(aSink), mCallback(aCallback) { MOZ_COUNT_CTOR(CycleCollectWithLogsParent); } nsCOMPtr mSink; nsCOMPtr mCallback; }; // A memory reporter for ContentParent objects themselves. class ContentParentsMemoryReporter final : public nsIMemoryReporter { ~ContentParentsMemoryReporter() = default; public: NS_DECL_ISUPPORTS NS_DECL_NSIMEMORYREPORTER }; NS_IMPL_ISUPPORTS(ContentParentsMemoryReporter, nsIMemoryReporter) NS_IMETHODIMP ContentParentsMemoryReporter::CollectReports( nsIHandleReportCallback* aHandleReport, nsISupports* aData, bool aAnonymize) { AutoTArray cps; ContentParent::GetAllEvenIfDead(cps); for (uint32_t i = 0; i < cps.Length(); i++) { ContentParent* cp = cps[i]; MessageChannel* channel = cp->GetIPCChannel(); nsString friendlyName; cp->FriendlyName(friendlyName, aAnonymize); cp->AddRef(); nsrefcnt refcnt = cp->Release(); const char* channelStr = "no channel"; uint32_t numQueuedMessages = 0; if (channel) { if (channel->IsClosed()) { channelStr = "closed channel"; } else { channelStr = "open channel"; } numQueuedMessages = 0; // XXX was channel->Unsound_NumQueuedMessages(); Bug 1754876 } nsPrintfCString path( "queued-ipc-messages/content-parent" "(%s, pid=%d, %s, 0x%p, refcnt=%" PRIuPTR ")", NS_ConvertUTF16toUTF8(friendlyName).get(), cp->Pid(), channelStr, static_cast(cp), refcnt); constexpr auto desc = "The number of unset IPC messages held in this ContentParent's " "channel. A large value here might indicate that we're leaking " "messages. Similarly, a ContentParent object for a process that's no " "longer running could indicate that we're leaking ContentParents."_ns; aHandleReport->Callback(/* process */ ""_ns, path, KIND_OTHER, UNITS_COUNT, numQueuedMessages, desc, aData); } return NS_OK; } // A hashtable (by type) of processes/ContentParents. This includes // processes that are in the Preallocator cache (which would be type // 'prealloc'), and recycled processes ('web' and in the future // eTLD+1-locked) processes). nsClassHashtable>* ContentParent::sBrowserContentParents; namespace { uint64_t ComputeLoadedOriginHash(nsIPrincipal* aPrincipal) { uint32_t originNoSuffix = BasePrincipal::Cast(aPrincipal)->GetOriginNoSuffixHash(); uint32_t originSuffix = BasePrincipal::Cast(aPrincipal)->GetOriginSuffixHash(); return ((uint64_t)originNoSuffix) << 32 | originSuffix; } class ScriptableCPInfo final : public nsIContentProcessInfo { public: explicit ScriptableCPInfo(ContentParent* aParent) : mContentParent(aParent) { MOZ_ASSERT(mContentParent); } NS_DECL_ISUPPORTS NS_DECL_NSICONTENTPROCESSINFO void ProcessDied() { mContentParent = nullptr; } private: ~ScriptableCPInfo() { MOZ_ASSERT(!mContentParent, "must call ProcessDied"); } ContentParent* mContentParent; }; NS_IMPL_ISUPPORTS(ScriptableCPInfo, nsIContentProcessInfo) NS_IMETHODIMP ScriptableCPInfo::GetIsAlive(bool* aIsAlive) { *aIsAlive = mContentParent != nullptr; return NS_OK; } NS_IMETHODIMP ScriptableCPInfo::GetProcessId(int32_t* aPID) { if (!mContentParent) { *aPID = -1; return NS_ERROR_NOT_INITIALIZED; } *aPID = mContentParent->Pid(); if (*aPID == -1) { return NS_ERROR_FAILURE; } return NS_OK; } NS_IMETHODIMP ScriptableCPInfo::GetTabCount(int32_t* aTabCount) { if (!mContentParent) { return NS_ERROR_NOT_INITIALIZED; } ContentProcessManager* cpm = ContentProcessManager::GetSingleton(); *aTabCount = cpm->GetBrowserParentCountByProcessId(mContentParent->ChildID()); return NS_OK; } NS_IMETHODIMP ScriptableCPInfo::GetMessageManager(nsISupports** aMessenger) { *aMessenger = nullptr; if (!mContentParent) { return NS_ERROR_NOT_INITIALIZED; } RefPtr manager = mContentParent->GetMessageManager(); manager.forget(aMessenger); return NS_OK; } ProcessID GetTelemetryProcessID(const nsACString& remoteType) { // OOP WebExtensions run in a content process. // For Telemetry though we want to break out collected data from the // WebExtensions process into a separate bucket, to make sure we can analyze // it separately and avoid skewing normal content process metrics. return remoteType == EXTENSION_REMOTE_TYPE ? ProcessID::Extension : ProcessID::Content; } } // anonymous namespace StaticAutoPtr> ContentParent::sJSPluginContentParents; StaticAutoPtr> ContentParent::sContentParents; StaticRefPtr ContentParent::sRecycledE10SProcess; #if defined(XP_LINUX) && defined(MOZ_SANDBOX) StaticAutoPtr ContentParent::sSandboxBrokerPolicyFactory; #endif #if defined(XP_MACOSX) && defined(MOZ_SANDBOX) StaticAutoPtr> ContentParent::sMacSandboxParams; #endif // Set to true when the first content process gets created. static bool sCreatedFirstContentProcess = false; #ifdef MOZ_DIAGNOSTIC_ASSERT_ENABLED // True when we're running the process selection code, and do not expect to // enter code paths where processes may die. static bool sInProcessSelector = false; #endif // The first content child has ID 1, so the chrome process can have ID 0. static uint64_t gContentChildID = 1; static const char* sObserverTopics[] = { NS_IPC_IOSERVICE_SET_OFFLINE_TOPIC, NS_IPC_IOSERVICE_SET_CONNECTIVITY_TOPIC, NS_IPC_CAPTIVE_PORTAL_SET_STATE, "application-background", "application-foreground", "memory-pressure", "child-gc-request", "child-cc-request", "child-mmu-request", "child-ghost-request", "last-pb-context-exited", "file-watcher-update", #ifdef ACCESSIBILITY "a11y-init-or-shutdown", #endif "cacheservice:empty-cache", "intl:app-locales-changed", "intl:requested-locales-changed", "cookie-changed", "private-cookie-changed", NS_NETWORK_LINK_TYPE_TOPIC, "network:socket-process-crashed", DEFAULT_TIMEZONE_CHANGED_OBSERVER_TOPIC, }; // PreallocateProcess is called by the PreallocatedProcessManager. // ContentParent then takes this process back within GetNewOrUsedBrowserProcess. /*static*/ already_AddRefed ContentParent::MakePreallocProcess() { RefPtr process = new ContentParent(PREALLOC_REMOTE_TYPE); return process.forget(); } /*static*/ void ContentParent::StartUp() { // FIXME Bug 1023701 - Stop using ContentParent static methods in // child process if (!XRE_IsParentProcess()) { return; } // From this point on, NS_WARNING, NS_ASSERTION, etc. should print out the // PID along with the warning. nsDebugImpl::SetMultiprocessMode("Parent"); // Note: This reporter measures all ContentParents. RegisterStrongMemoryReporter(new ContentParentsMemoryReporter()); BackgroundChild::Startup(); ClientManager::Startup(); Preferences::RegisterCallbackAndCall(&OnFissionBlocklistPrefChange, kFissionEnforceBlockList); Preferences::RegisterCallbackAndCall(&OnFissionBlocklistPrefChange, kFissionOmitBlockListValues); #if defined(XP_LINUX) && defined(MOZ_SANDBOX) sSandboxBrokerPolicyFactory = new SandboxBrokerPolicyFactory(); #endif #if defined(XP_MACOSX) && defined(MOZ_SANDBOX) sMacSandboxParams = new std::vector(); #endif } /*static*/ void ContentParent::ShutDown() { // For the most, we rely on normal process shutdown and // ClearOnShutdown() to clean up our state. #if defined(XP_LINUX) && defined(MOZ_SANDBOX) sSandboxBrokerPolicyFactory = nullptr; #endif #if defined(XP_MACOSX) && defined(MOZ_SANDBOX) sMacSandboxParams = nullptr; #endif } /*static*/ uint32_t ContentParent::GetPoolSize(const nsACString& aContentProcessType) { if (!sBrowserContentParents) { return 0; } nsTArray* parents = sBrowserContentParents->Get(aContentProcessType); return parents ? parents->Length() : 0; } /*static*/ nsTArray& ContentParent::GetOrCreatePool( const nsACString& aContentProcessType) { if (!sBrowserContentParents) { sBrowserContentParents = new nsClassHashtable>; } return *sBrowserContentParents->GetOrInsertNew(aContentProcessType); } const nsDependentCSubstring RemoteTypePrefix( const nsACString& aContentProcessType) { // The suffix after a `=` in a remoteType is dynamic, and used to control the // process pool to use. int32_t equalIdx = aContentProcessType.FindChar(L'='); if (equalIdx == kNotFound) { equalIdx = aContentProcessType.Length(); } return StringHead(aContentProcessType, equalIdx); } bool IsWebRemoteType(const nsACString& aContentProcessType) { // Note: matches webIsolated, web, and webCOOP+COEP types. return StringBeginsWith(aContentProcessType, DEFAULT_REMOTE_TYPE); } bool IsWebCoopCoepRemoteType(const nsACString& aContentProcessType) { return StringBeginsWith(aContentProcessType, WITH_COOP_COEP_REMOTE_TYPE_PREFIX); } bool IsPrivilegedMozillaRemoteType(const nsACString& aContentProcessType) { return aContentProcessType == PRIVILEGEDMOZILLA_REMOTE_TYPE; } bool IsExtensionRemoteType(const nsACString& aContentProcessType) { return aContentProcessType == EXTENSION_REMOTE_TYPE; } /*static*/ uint32_t ContentParent::GetMaxProcessCount( const nsACString& aContentProcessType) { // Max process count is based only on the prefix. const nsDependentCSubstring processTypePrefix = RemoteTypePrefix(aContentProcessType); // Check for the default remote type of "web", as it uses different prefs. if (processTypePrefix == DEFAULT_REMOTE_TYPE) { return GetMaxWebProcessCount(); } // Read the pref controling this remote type. `dom.ipc.processCount` is not // used as a fallback, as it is intended to control the number of "web" // content processes, checked in `mozilla::GetMaxWebProcessCount()`. nsAutoCString processCountPref("dom.ipc.processCount."); processCountPref.Append(processTypePrefix); int32_t maxContentParents = Preferences::GetInt(processCountPref.get(), 1); if (maxContentParents < 1) { maxContentParents = 1; } return static_cast(maxContentParents); } /*static*/ bool ContentParent::IsMaxProcessCountReached( const nsACString& aContentProcessType) { return GetPoolSize(aContentProcessType) >= GetMaxProcessCount(aContentProcessType); } // Really more ReleaseUnneededProcesses() /*static*/ void ContentParent::ReleaseCachedProcesses() { MOZ_LOG(ContentParent::GetLog(), LogLevel::Debug, ("ReleaseCachedProcesses:")); if (!sBrowserContentParents) { return; } #ifdef DEBUG for (const auto& cps : *sBrowserContentParents) { MOZ_LOG(ContentParent::GetLog(), LogLevel::Debug, ("%s: %zu processes", PromiseFlatCString(cps.GetKey()).get(), cps.GetData()->Length())); } #endif // We process the toRelease array outside of the iteration to avoid modifying // the list (via RemoveFromList()) while we're iterating it. nsTArray toRelease; for (const auto& contentParents : sBrowserContentParents->Values()) { // Shutting down these processes will change the array so let's use another // array for the removal. for (auto* cp : *contentParents) { if (cp->ManagedPBrowserParent().Count() == 0 && !cp->HasActiveWorkerOrJSPlugin() && cp->mRemoteType == DEFAULT_REMOTE_TYPE) { toRelease.AppendElement(cp); } else { MOZ_LOG(ContentParent::GetLog(), LogLevel::Debug, (" Skipping %p (%s), count %d, HasActiveWorkerOrJSPlugin %d", cp, cp->mRemoteType.get(), cp->ManagedPBrowserParent().Count(), cp->HasActiveWorkerOrJSPlugin())); } } } for (auto* cp : toRelease) { MOZ_LOG(ContentParent::GetLog(), LogLevel::Debug, (" Shutdown %p (%s)", cp, cp->mRemoteType.get())); PreallocatedProcessManager::Erase(cp); // Start a soft shutdown. cp->ShutDownProcess(SEND_SHUTDOWN_MESSAGE); // Make sure we don't select this process for new tabs. cp->MarkAsDead(); // Make sure that this process is no longer accessible from JS by its // message manager. cp->ShutDownMessageManager(); } } /*static*/ already_AddRefed ContentParent::MinTabSelect( const nsTArray& aContentParents, int32_t aMaxContentParents) { uint32_t maxSelectable = std::min(static_cast(aContentParents.Length()), static_cast(aMaxContentParents)); uint32_t min = INT_MAX; RefPtr candidate; ContentProcessManager* cpm = ContentProcessManager::GetSingleton(); for (uint32_t i = 0; i < maxSelectable; i++) { ContentParent* p = aContentParents[i]; MOZ_DIAGNOSTIC_ASSERT(!p->IsDead()); uint32_t tabCount = cpm->GetBrowserParentCountByProcessId(p->ChildID()); if (tabCount < min) { candidate = p; min = tabCount; } } // If all current processes have at least one tab and we have not yet reached // the maximum, use a new process. if (min > 0 && aContentParents.Length() < static_cast(aMaxContentParents)) { return nullptr; } // Otherwise we return candidate. return candidate.forget(); } /* static */ already_AddRefed ContentParent::CreateRemoteTypeIsolationPrincipal( const nsACString& aRemoteType) { if ((RemoteTypePrefix(aRemoteType) != FISSION_WEB_REMOTE_TYPE) && !StringBeginsWith(aRemoteType, WITH_COOP_COEP_REMOTE_TYPE_PREFIX)) { return nullptr; } int32_t offset = aRemoteType.FindChar('=') + 1; MOZ_ASSERT(offset > 1, "can not extract origin from that remote type"); nsAutoCString origin( Substring(aRemoteType, offset, aRemoteType.Length() - offset)); nsIScriptSecurityManager* ssm = nsContentUtils::GetSecurityManager(); nsCOMPtr principal; ssm->CreateContentPrincipalFromOrigin(origin, getter_AddRefs(principal)); return principal.forget(); } /*static*/ already_AddRefed ContentParent::GetUsedBrowserProcess( const nsACString& aRemoteType, nsTArray& aContentParents, uint32_t aMaxContentParents, bool aPreferUsed, ProcessPriority aPriority) { #ifdef MOZ_DIAGNOSTIC_ASSERT_ENABLED AutoRestore ar(sInProcessSelector); sInProcessSelector = true; #endif uint32_t numberOfParents = aContentParents.Length(); nsTArray> infos(numberOfParents); for (auto* cp : aContentParents) { infos.AppendElement(cp->mScriptableHelper); } if (aPreferUsed && numberOfParents) { // If we prefer re-using existing content processes, we don't want to create // a new process, and instead re-use an existing one, so pretend the process // limit is at the current number of processes. aMaxContentParents = numberOfParents; } nsCOMPtr cpp = do_GetService("@mozilla.org/ipc/processselector;1"); int32_t index; if (cpp && NS_SUCCEEDED(cpp->ProvideProcess(aRemoteType, infos, aMaxContentParents, &index))) { // If the provider returned an existing ContentParent, use that one. if (0 <= index && static_cast(index) <= aMaxContentParents) { RefPtr retval = aContentParents[index]; if (profiler_thread_is_being_profiled_for_markers()) { nsPrintfCString marker("Reused process %u", (unsigned int)retval->ChildID()); PROFILER_MARKER_TEXT("Process", DOM, {}, marker); } MOZ_LOG(ContentParent::GetLog(), LogLevel::Debug, ("GetUsedProcess: Reused process %p (%u) for %s", retval.get(), (unsigned int)retval->ChildID(), PromiseFlatCString(aRemoteType).get())); retval->AssertAlive(); retval->StopRecycling(); return retval.forget(); } } else { // If there was a problem with the JS chooser, fall back to a random // selection. NS_WARNING("nsIContentProcessProvider failed to return a process"); RefPtr random; if ((random = MinTabSelect(aContentParents, aMaxContentParents))) { MOZ_LOG(ContentParent::GetLog(), LogLevel::Debug, ("GetUsedProcess: Reused random process %p (%d) for %s", random.get(), (unsigned int)random->ChildID(), PromiseFlatCString(aRemoteType).get())); random->AssertAlive(); random->StopRecycling(); return random.forget(); } } // If we are loading into the "web" remote type, are choosing to launch a new // tab, and have a recycled E10S process, we should launch into that process. if (aRemoteType == DEFAULT_REMOTE_TYPE && sRecycledE10SProcess) { RefPtr recycled = sRecycledE10SProcess; MOZ_DIAGNOSTIC_ASSERT(recycled->GetRemoteType() == DEFAULT_REMOTE_TYPE); recycled->AssertAlive(); recycled->StopRecycling(); if (profiler_thread_is_being_profiled_for_markers()) { nsPrintfCString marker("Recycled process %u (%p)", (unsigned int)recycled->ChildID(), recycled.get()); PROFILER_MARKER_TEXT("Process", DOM, {}, marker); } MOZ_LOG(ContentParent::GetLog(), LogLevel::Debug, ("Recycled process %p", recycled.get())); return recycled.forget(); } // Try to take a preallocated process except for certain remote types. // Note: this process may not have finished launching yet RefPtr preallocated; if (aRemoteType != FILE_REMOTE_TYPE && aRemoteType != PRIVILEGEDABOUT_REMOTE_TYPE && aRemoteType != EXTENSION_REMOTE_TYPE && // Bug 1638119 (preallocated = PreallocatedProcessManager::Take(aRemoteType))) { MOZ_DIAGNOSTIC_ASSERT(preallocated->GetRemoteType() == PREALLOC_REMOTE_TYPE); MOZ_DIAGNOSTIC_ASSERT(sRecycledE10SProcess != preallocated); preallocated->AssertAlive(); if (profiler_thread_is_being_profiled_for_markers()) { nsPrintfCString marker( "Assigned preallocated process %u%s", (unsigned int)preallocated->ChildID(), preallocated->IsLaunching() ? " (still launching)" : ""); PROFILER_MARKER_TEXT("Process", DOM, {}, marker); } MOZ_LOG(ContentParent::GetLog(), LogLevel::Debug, ("Adopted preallocated process %p for type %s%s", preallocated.get(), PromiseFlatCString(aRemoteType).get(), preallocated->IsLaunching() ? " (still launching)" : "")); // This ensures that the preallocator won't shut down the process once // it finishes starting preallocated->mRemoteType.Assign(aRemoteType); { MutexAutoLock lock(preallocated->mThreadsafeHandle->mMutex); preallocated->mThreadsafeHandle->mRemoteType = preallocated->mRemoteType; } preallocated->mRemoteTypeIsolationPrincipal = CreateRemoteTypeIsolationPrincipal(aRemoteType); preallocated->mActivateTS = TimeStamp::Now(); preallocated->AddToPool(aContentParents); // rare, but will happen if (!preallocated->IsLaunching()) { // Specialize this process for the appropriate remote type, and activate // it. Unused << preallocated->SendRemoteType(preallocated->mRemoteType, preallocated->mProfile); nsCOMPtr obs = mozilla::services::GetObserverService(); if (obs) { nsAutoString cpId; cpId.AppendInt(static_cast(preallocated->ChildID())); obs->NotifyObservers(static_cast(preallocated), "process-type-set", cpId.get()); preallocated->AssertAlive(); } } return preallocated.forget(); } return nullptr; } /*static*/ already_AddRefed ContentParent::GetNewOrUsedLaunchingBrowserProcess( const nsACString& aRemoteType, BrowsingContextGroup* aGroup, ProcessPriority aPriority, bool aPreferUsed) { MOZ_LOG(ContentParent::GetLog(), LogLevel::Debug, ("GetNewOrUsedProcess for type %s", PromiseFlatCString(aRemoteType).get())); // If we have an existing host process attached to this BrowsingContextGroup, // always return it, as we can never have multiple host processes within a // single BrowsingContextGroup. RefPtr contentParent; if (aGroup) { contentParent = aGroup->GetHostProcess(aRemoteType); if (contentParent) { MOZ_LOG(ContentParent::GetLog(), LogLevel::Debug, ("GetNewOrUsedProcess: Existing host process %p (launching %d)", contentParent.get(), contentParent->IsLaunching())); contentParent->AssertAlive(); contentParent->StopRecycling(); return contentParent.forget(); } } nsTArray& contentParents = GetOrCreatePool(aRemoteType); uint32_t maxContentParents = GetMaxProcessCount(aRemoteType); // Let's try and reuse an existing process. contentParent = GetUsedBrowserProcess( aRemoteType, contentParents, maxContentParents, aPreferUsed, aPriority); if (!contentParent) { // No reusable process. Let's create and launch one. // The life cycle will be set to `LifecycleState::LAUNCHING`. MOZ_LOG(ContentParent::GetLog(), LogLevel::Debug, ("Launching new process immediately for type %s", PromiseFlatCString(aRemoteType).get())); contentParent = new ContentParent(aRemoteType); if (NS_WARN_IF(!contentParent->BeginSubprocessLaunch(aPriority))) { // Launch aborted because of shutdown. Bailout. contentParent->LaunchSubprocessReject(); return nullptr; } // Until the new process is ready let's not allow to start up any // preallocated processes. The blocker will be removed once we receive // the first idle message. contentParent->mIsAPreallocBlocker = true; PreallocatedProcessManager::AddBlocker(aRemoteType, contentParent); // Store this process for future reuse. contentParent->AddToPool(contentParents); MOZ_LOG( ContentParent::GetLog(), LogLevel::Debug, ("GetNewOrUsedProcess: new immediate process %p", contentParent.get())); } // else we have an existing or preallocated process (which may be // still launching) contentParent->AssertAlive(); contentParent->StopRecycling(); if (aGroup) { aGroup->EnsureHostProcess(contentParent); } return contentParent.forget(); } /*static*/ RefPtr ContentParent::GetNewOrUsedBrowserProcessAsync(const nsACString& aRemoteType, BrowsingContextGroup* aGroup, ProcessPriority aPriority, bool aPreferUsed) { // Obtain a `ContentParent` launched asynchronously. RefPtr contentParent = GetNewOrUsedLaunchingBrowserProcess( aRemoteType, aGroup, aPriority, aPreferUsed); if (!contentParent) { // In case of launch error, stop here. return LaunchPromise::CreateAndReject(LaunchError(), __func__); } return contentParent->WaitForLaunchAsync(aPriority); } /*static*/ already_AddRefed ContentParent::GetNewOrUsedBrowserProcess( const nsACString& aRemoteType, BrowsingContextGroup* aGroup, ProcessPriority aPriority, bool aPreferUsed) { RefPtr contentParent = GetNewOrUsedLaunchingBrowserProcess( aRemoteType, aGroup, aPriority, aPreferUsed); if (!contentParent || !contentParent->WaitForLaunchSync(aPriority)) { // In case of launch error, stop here. return nullptr; } return contentParent.forget(); } RefPtr ContentParent::WaitForLaunchAsync( ProcessPriority aPriority) { MOZ_DIAGNOSTIC_ASSERT(!IsDead()); if (!IsLaunching()) { MOZ_LOG(ContentParent::GetLog(), LogLevel::Debug, ("WaitForLaunchAsync: launched")); return LaunchPromise::CreateAndResolve(this, __func__); } // We've started an async content process launch. Telemetry::Accumulate(Telemetry::CONTENT_PROCESS_LAUNCH_IS_SYNC, 0); // We have located a process that hasn't finished initializing, then attempt // to finish initializing. Both `LaunchSubprocessResolve` and // `LaunchSubprocessReject` are safe to call multiple times if we race with // other `WaitForLaunchAsync` callbacks. return mSubprocess->WhenProcessHandleReady()->Then( GetCurrentSerialEventTarget(), __func__, [self = RefPtr{this}, aPriority] { if (self->LaunchSubprocessResolve(/* aIsSync = */ false, aPriority)) { MOZ_LOG(ContentParent::GetLog(), LogLevel::Debug, ("WaitForLaunchAsync: async, now launched")); self->mActivateTS = TimeStamp::Now(); return LaunchPromise::CreateAndResolve(self, __func__); } self->LaunchSubprocessReject(); return LaunchPromise::CreateAndReject(LaunchError(), __func__); }, [self = RefPtr{this}] { MOZ_LOG(ContentParent::GetLog(), LogLevel::Debug, ("WaitForLaunchAsync: async, rejected")); self->LaunchSubprocessReject(); return LaunchPromise::CreateAndReject(LaunchError(), __func__); }); } bool ContentParent::WaitForLaunchSync(ProcessPriority aPriority) { MOZ_DIAGNOSTIC_ASSERT(!IsDead()); if (!IsLaunching()) { return true; } // We've started a sync content process launch. Telemetry::Accumulate(Telemetry::CONTENT_PROCESS_LAUNCH_IS_SYNC, 1); // We're a process which hasn't finished initializing. We may be racing // against whoever launched it (and whoever else is already racing). Since // we're sync, we win the race and finish the initialization. bool launchSuccess = mSubprocess->WaitForProcessHandle(); if (launchSuccess && LaunchSubprocessResolve(/* aIsSync = */ true, aPriority)) { mActivateTS = TimeStamp::Now(); return true; } // In case of failure. LaunchSubprocessReject(); return false; } /*static*/ already_AddRefed ContentParent::GetNewOrUsedJSPluginProcess( uint32_t aPluginID, const hal::ProcessPriority& aPriority) { RefPtr p; if (sJSPluginContentParents) { p = sJSPluginContentParents->Get(aPluginID); } else { sJSPluginContentParents = new nsTHashMap(); } if (p) { return p.forget(); } p = new ContentParent(aPluginID); if (!p->LaunchSubprocessSync(aPriority)) { return nullptr; } sJSPluginContentParents->InsertOrUpdate(aPluginID, p); return p.forget(); } #if defined(XP_WIN) /*static*/ void ContentParent::SendAsyncUpdate(nsIWidget* aWidget) {} #endif // defined(XP_WIN) static nsIDocShell* GetOpenerDocShellHelper(Element* aFrameElement) { // Propagate the private-browsing status of the element's parent // docshell to the remote docshell, via the chrome flags. MOZ_ASSERT(aFrameElement); nsPIDOMWindowOuter* win = aFrameElement->OwnerDoc()->GetWindow(); if (!win) { NS_WARNING("Remote frame has no window"); return nullptr; } nsIDocShell* docShell = win->GetDocShell(); if (!docShell) { NS_WARNING("Remote frame has no docshell"); return nullptr; } return docShell; } mozilla::ipc::IPCResult ContentParent::RecvCreateGMPService() { Endpoint parent; Endpoint child; if (mGMPCreated) { return IPC_FAIL(this, "GMP Service already created"); } nsresult rv; rv = PGMPService::CreateEndpoints(base::GetCurrentProcId(), OtherPid(), &parent, &child); if (NS_FAILED(rv)) { return IPC_FAIL(this, "CreateEndpoints failed"); } if (!GMPServiceParent::Create(std::move(parent))) { return IPC_FAIL(this, "GMPServiceParent::Create failed"); } if (!SendInitGMPService(std::move(child))) { return IPC_FAIL(this, "SendInitGMPService failed"); } mGMPCreated = true; return IPC_OK(); } Atomic sContentParentTelemetryEventEnabled(false); /*static*/ void ContentParent::LogAndAssertFailedPrincipalValidationInfo( nsIPrincipal* aPrincipal, const char* aMethod) { // nsContentSecurityManager may also enable this same event, but that's okay if (!sContentParentTelemetryEventEnabled.exchange(true)) { sContentParentTelemetryEventEnabled = true; Telemetry::SetEventRecordingEnabled("security"_ns, true); } // Send Telemetry nsAutoCString principalScheme, principalType, spec; CopyableTArray extra(2); if (!aPrincipal) { principalType.AssignLiteral("NullPtr"); } else if (aPrincipal->IsSystemPrincipal()) { principalType.AssignLiteral("SystemPrincipal"); } else if (aPrincipal->GetIsExpandedPrincipal()) { principalType.AssignLiteral("ExpandedPrincipal"); } else if (aPrincipal->GetIsContentPrincipal()) { principalType.AssignLiteral("ContentPrincipal"); aPrincipal->GetSpec(spec); aPrincipal->GetScheme(principalScheme); extra.AppendElement(EventExtraEntry{"scheme"_ns, principalScheme}); } else { principalType.AssignLiteral("Unknown"); } extra.AppendElement(EventExtraEntry{"principalType"_ns, principalType}); // Do not send telemetry when chrome-debugging is enabled bool isChromeDebuggingEnabled = Preferences::GetBool("devtools.chrome.enabled", false); if (!isChromeDebuggingEnabled) { Telemetry::EventID eventType = Telemetry::EventID::Security_Fissionprincipals_Contentparent; Telemetry::RecordEvent(eventType, mozilla::Some(aMethod), mozilla::Some(extra)); } // And log it MOZ_LOG( ContentParent::GetLog(), LogLevel::Error, (" Receiving unexpected Principal (%s) within %s", aPrincipal && aPrincipal->GetIsContentPrincipal() ? spec.get() : principalType.get(), aMethod)); #ifdef DEBUG // Not only log but also ensure we do not receive an unexpected // principal when running in debug mode. MOZ_ASSERT(false, "Receiving unexpected Principal"); #endif } bool ContentParent::ValidatePrincipal( nsIPrincipal* aPrincipal, const EnumSet& aOptions) { // If the pref says we should not validate, then there is nothing to do if (!StaticPrefs::dom_security_enforceIPCBasedPrincipalVetting()) { return true; } // If there is no principal, then there is nothing to validate! if (!aPrincipal) { return aOptions.contains(ValidatePrincipalOptions::AllowNullPtr); } // We currently do not track relationships between specific null principals // and content processes, so we can not validate much here - just allow all // null principals we see because they are generally safe anyway! if (aPrincipal->GetIsNullPrincipal()) { return true; } // Only allow the system principal if the passed in options flags // request permitting the system principal. if (aPrincipal->IsSystemPrincipal()) { return aOptions.contains(ValidatePrincipalOptions::AllowSystem); } // XXXckerschb: we should eliminate the resource carve-out here and always // validate the Principal, see Bug 1686200: Investigate Principal for pdf.js if (aPrincipal->SchemeIs("resource")) { return true; } // Validate each inner principal individually, allowing us to catch expanded // principals containing the system principal, etc. if (aPrincipal->GetIsExpandedPrincipal()) { if (!aOptions.contains(ValidatePrincipalOptions::AllowExpanded)) { return false; } // FIXME: There are more constraints on expanded principals in-practice, // such as the structure of extension expanded principals. This may need // to be investigated more in the future. nsCOMPtr expandedPrincipal = do_QueryInterface(aPrincipal); const auto& allowList = expandedPrincipal->AllowList(); for (const auto& innerPrincipal : allowList) { if (!ValidatePrincipal(innerPrincipal, aOptions)) { return false; } } return true; } // A URI with a file:// scheme can never load in a non-file content process // due to sandboxing. if (aPrincipal->SchemeIs("file")) { // If we don't support a separate 'file' process, then we can return here. if (!StaticPrefs::browser_tabs_remote_separateFileUriProcess()) { return true; } return mRemoteType == FILE_REMOTE_TYPE; } if (aPrincipal->SchemeIs("about")) { uint32_t flags = 0; if (NS_FAILED(aPrincipal->GetAboutModuleFlags(&flags))) { return false; } // Block principals for about: URIs which can't load in this process. if (!(flags & (nsIAboutModule::URI_CAN_LOAD_IN_CHILD | nsIAboutModule::URI_MUST_LOAD_IN_CHILD))) { return false; } if (flags & nsIAboutModule::URI_MUST_LOAD_IN_EXTENSION_PROCESS) { return mRemoteType == EXTENSION_REMOTE_TYPE; } return true; } if (!mRemoteTypeIsolationPrincipal || RemoteTypePrefix(mRemoteType) != FISSION_WEB_REMOTE_TYPE) { return true; } // Web content can contain extension content frames, so a content process may // send us an extension's principal. auto* addonPolicy = BasePrincipal::Cast(aPrincipal)->AddonPolicy(); if (addonPolicy) { return true; } // Ensure that the expected site-origin matches the one specified by our // mRemoteTypeIsolationPrincipal. nsAutoCString siteOriginNoSuffix; if (NS_FAILED(aPrincipal->GetSiteOriginNoSuffix(siteOriginNoSuffix))) { return false; } nsAutoCString remoteTypeSiteOriginNoSuffix; if (NS_FAILED(mRemoteTypeIsolationPrincipal->GetSiteOriginNoSuffix( remoteTypeSiteOriginNoSuffix))) { return false; } return remoteTypeSiteOriginNoSuffix.Equals(siteOriginNoSuffix); } mozilla::ipc::IPCResult ContentParent::RecvRemovePermission( nsIPrincipal* aPrincipal, const nsACString& aPermissionType, nsresult* aRv) { if (!aPrincipal) { return IPC_FAIL(this, "No principal"); } if (!ValidatePrincipal(aPrincipal)) { LogAndAssertFailedPrincipalValidationInfo(aPrincipal, __func__); } *aRv = Permissions::RemovePermission(aPrincipal, aPermissionType); return IPC_OK(); } /*static*/ already_AddRefed ContentParent::CreateBrowser( const TabContext& aContext, Element* aFrameElement, const nsACString& aRemoteType, BrowsingContext* aBrowsingContext, ContentParent* aOpenerContentParent) { AUTO_PROFILER_LABEL("ContentParent::CreateBrowser", OTHER); MOZ_DIAGNOSTIC_ASSERT( !aBrowsingContext->Canonical()->GetBrowserParent(), "BrowsingContext must not have BrowserParent, or have previous " "BrowserParent cleared"); // Take a shortcut (BeginSubprpocessLaunch would fail later, too). if (AppShutdown::IsInOrBeyond(ShutdownPhase::AppShutdown)) { MOZ_ASSERT(false, "Late attempt to CreateBrowser!"); return nullptr; } nsAutoCString remoteType(aRemoteType); if (remoteType.IsEmpty()) { remoteType = DEFAULT_REMOTE_TYPE; } TabId tabId(nsContentUtils::GenerateTabId()); nsIDocShell* docShell = GetOpenerDocShellHelper(aFrameElement); TabId openerTabId; if (docShell) { openerTabId = BrowserParent::GetTabIdFrom(docShell); } RefPtr constructorSender; MOZ_RELEASE_ASSERT(XRE_IsParentProcess(), "Cannot allocate BrowserParent in content process"); if (aOpenerContentParent && aOpenerContentParent->IsAlive()) { constructorSender = aOpenerContentParent; } else { if (aContext.IsJSPlugin()) { constructorSender = GetNewOrUsedJSPluginProcess( aContext.JSPluginId(), PROCESS_PRIORITY_FOREGROUND); } else { constructorSender = GetNewOrUsedBrowserProcess( remoteType, aBrowsingContext->Group(), PROCESS_PRIORITY_FOREGROUND); } if (!constructorSender) { return nullptr; } } aBrowsingContext->SetEmbedderElement(aFrameElement); // Ensure that the process which we're using to launch is set as the host // process for this BrowsingContextGroup. aBrowsingContext->Group()->EnsureHostProcess(constructorSender); nsCOMPtr treeOwner; docShell->GetTreeOwner(getter_AddRefs(treeOwner)); if (!treeOwner) { return nullptr; } nsCOMPtr wbc = do_GetInterface(treeOwner); if (!wbc) { return nullptr; } uint32_t chromeFlags = 0; wbc->GetChromeFlags(&chromeFlags); nsCOMPtr loadContext = do_QueryInterface(docShell); if (loadContext && loadContext->UsePrivateBrowsing()) { chromeFlags |= nsIWebBrowserChrome::CHROME_PRIVATE_WINDOW; } if (loadContext && loadContext->UseRemoteTabs()) { chromeFlags |= nsIWebBrowserChrome::CHROME_REMOTE_WINDOW; } if (loadContext && loadContext->UseRemoteSubframes()) { chromeFlags |= nsIWebBrowserChrome::CHROME_FISSION_WINDOW; } if (tabId == 0) { return nullptr; } aBrowsingContext->Canonical()->SetOwnerProcessId( constructorSender->ChildID()); RefPtr browserParent = new BrowserParent(constructorSender, tabId, aContext, aBrowsingContext->Canonical(), chromeFlags); // Open a remote endpoint for our PBrowser actor. ManagedEndpoint childEp = constructorSender->OpenPBrowserEndpoint(browserParent); if (NS_WARN_IF(!childEp.IsValid())) { return nullptr; } ContentProcessManager* cpm = ContentProcessManager::GetSingleton(); if (NS_WARN_IF(!cpm)) { return nullptr; } cpm->RegisterRemoteFrame(browserParent); nsCOMPtr initialPrincipal = NullPrincipal::Create(aBrowsingContext->OriginAttributesRef()); WindowGlobalInit windowInit = WindowGlobalActor::AboutBlankInitializer( aBrowsingContext, initialPrincipal); RefPtr windowParent = WindowGlobalParent::CreateDisconnected(windowInit); if (NS_WARN_IF(!windowParent)) { return nullptr; } // Open a remote endpoint for the initial PWindowGlobal actor. ManagedEndpoint windowEp = browserParent->OpenPWindowGlobalEndpoint(windowParent); if (NS_WARN_IF(!windowEp.IsValid())) { return nullptr; } // Tell the content process to set up its PBrowserChild. bool ok = constructorSender->SendConstructBrowser( std::move(childEp), std::move(windowEp), tabId, aContext.AsIPCTabContext(), windowInit, chromeFlags, constructorSender->ChildID(), constructorSender->IsForBrowser(), /* aIsTopLevel */ true); if (NS_WARN_IF(!ok)) { return nullptr; } // Ensure that we're marked as the current BrowserParent on our // CanonicalBrowsingContext. aBrowsingContext->Canonical()->SetCurrentBrowserParent(browserParent); windowParent->Init(); RefPtr browserHost = new BrowserHost(browserParent); browserParent->SetOwnerElement(aFrameElement); return browserHost.forget(); } void ContentParent::GetAll(nsTArray& aArray) { aArray.Clear(); for (auto* cp : AllProcesses(eLive)) { aArray.AppendElement(cp); } } void ContentParent::GetAllEvenIfDead(nsTArray& aArray) { aArray.Clear(); for (auto* cp : AllProcesses(eAll)) { aArray.AppendElement(cp); } } void ContentParent::BroadcastStringBundle( const StringBundleDescriptor& aBundle) { AutoTArray array; array.AppendElement(aBundle); for (auto* cp : AllProcesses(eLive)) { Unused << cp->SendRegisterStringBundles(array); } } void ContentParent::BroadcastFontListChanged() { for (auto* cp : AllProcesses(eLive)) { Unused << cp->SendFontListChanged(); } } void ContentParent::BroadcastShmBlockAdded(uint32_t aGeneration, uint32_t aIndex) { auto* pfl = gfxPlatformFontList::PlatformFontList(); for (auto* cp : AllProcesses(eLive)) { base::SharedMemoryHandle handle = pfl->ShareShmBlockToProcess(aIndex, cp->Pid()); if (handle == base::SharedMemory::NULLHandle()) { // If something went wrong here, we just skip it; the child will need to // request the block as needed, at some performance cost. continue; } Unused << cp->SendFontListShmBlockAdded(aGeneration, aIndex, std::move(handle)); } } void ContentParent::BroadcastThemeUpdate(widget::ThemeChangeKind aKind) { const FullLookAndFeel& lnf = *RemoteLookAndFeel::ExtractData(); for (auto* cp : AllProcesses(eLive)) { Unused << cp->SendThemeChanged(lnf, aKind); } } /*static */ void ContentParent::BroadcastMediaCodecsSupportedUpdate( RemoteDecodeIn aLocation, const media::MediaCodecsSupported& aSupported) { // Merge incoming codec support with existing support list media::MCSInfo::AddSupport(aSupported); auto support = media::MCSInfo::GetSupport(); // Update processes sCodecsSupported[aLocation] = support; for (auto* cp : AllProcesses(eAll)) { Unused << cp->SendUpdateMediaCodecsSupported(aLocation, support); } // Generate + save support string for display in about:support nsCString supportString; media::MCSInfo::GetMediaCodecsSupportedString(supportString, support); gfx::gfxVars::SetCodecSupportInfo(supportString); } const nsACString& ContentParent::GetRemoteType() const { return mRemoteType; } static StaticRefPtr sXPCOMShutdownClient; static StaticRefPtr sProfileBeforeChangeClient; static StaticRefPtr sQuitApplicationGrantedClient; void ContentParent::Init() { MOZ_ASSERT(sXPCOMShutdownClient); nsCOMPtr obs = mozilla::services::GetObserverService(); if (obs) { size_t length = ArrayLength(sObserverTopics); for (size_t i = 0; i < length; ++i) { obs->AddObserver(this, sObserverTopics[i], false); } } if (obs) { nsAutoString cpId; cpId.AppendInt(static_cast(this->ChildID())); obs->NotifyObservers(static_cast(this), "ipc:content-created", cpId.get()); } #ifdef ACCESSIBILITY // If accessibility is running in chrome process then start it in content // process. if (GetAccService()) { # if defined(XP_WIN) // Don't init content a11y if we detect an incompat version of JAWS in use. if (!mozilla::a11y::Compatibility::IsOldJAWS()) { Unused << SendActivateA11y( ::GetCurrentThreadId(), a11y::MsaaAccessible::GetContentProcessIdFor(ChildID())); } # else Unused << SendActivateA11y(0, 0); # endif } #endif // #ifdef ACCESSIBILITY Unused << SendInitProfiler(ProfilerParent::CreateForProcess(OtherPid())); RefPtr gmps( GeckoMediaPluginServiceParent::GetSingleton()); gmps->UpdateContentProcessGMPCapabilities(this); // Flush any pref updates that happened during launch and weren't // included in the blobs set up in BeginSubprocessLaunch. for (const Pref& pref : mQueuedPrefs) { Unused << NS_WARN_IF(!SendPreferenceUpdate(pref)); } mQueuedPrefs.Clear(); Unused << SendInitNextGenLocalStorageEnabled(NextGenLocalStorageEnabled()); } void ContentParent::MaybeBeginShutDown(uint32_t aExpectedBrowserCount, bool aSendShutDown) { MOZ_LOG(ContentParent::GetLog(), LogLevel::Verbose, ("MaybeBeginShutdown %p, %u vs %u", this, ManagedPBrowserParent().Count(), aExpectedBrowserCount)); MOZ_ASSERT(NS_IsMainThread()); if (ManagedPBrowserParent().Count() != aExpectedBrowserCount || ShouldKeepProcessAlive() || TryToRecycle()) { return; } MOZ_LOG( ContentParent::GetLog(), LogLevel::Debug, ("Beginning ContentParent Shutdown %p (%s)", this, mRemoteType.get())); // We're dying now, prevent anything from re-using this process. MarkAsDead(); SignalImpendingShutdownToContentJS(); StartForceKillTimer(); if (aSendShutDown) { MaybeAsyncSendShutDownMessage(); } } void ContentParent::MaybeAsyncSendShutDownMessage() { MOZ_LOG(ContentParent::GetLog(), LogLevel::Verbose, ("MaybeAsyncSendShutDownMessage %p", this)); MOZ_ASSERT(NS_IsMainThread()); MOZ_ASSERT(sRecycledE10SProcess != this); #ifdef DEBUG // Calling this below while the lock is acquired will deadlock. bool shouldKeepProcessAlive = ShouldKeepProcessAlive(); #endif { MutexAutoLock lock(mThreadsafeHandle->mMutex); MOZ_ASSERT_IF(!mThreadsafeHandle->mRemoteWorkerActorCount, !shouldKeepProcessAlive); if (mThreadsafeHandle->mRemoteWorkerActorCount) { return; } MOZ_ASSERT(!mThreadsafeHandle->mShutdownStarted); mThreadsafeHandle->mShutdownStarted = true; } // In the case of normal shutdown, send a shutdown message to child to // allow it to perform shutdown tasks. GetCurrentSerialEventTarget()->Dispatch(NewRunnableMethod( "dom::ContentParent::ShutDownProcess", this, &ContentParent::ShutDownProcess, SEND_SHUTDOWN_MESSAGE)); } void MaybeLogBlockShutdownDiagnostics(ContentParent* aSelf, const char* aMsg, const char* aFile, int32_t aLine) { #if defined(MOZ_DIAGNOSTIC_ASSERT_ENABLED) if (aSelf->IsBlockingShutdown()) { MOZ_LOG(ContentParent::GetLog(), LogLevel::Info, ("ContentParent: id=%p - %s at %s(%d)", aSelf, aMsg, aFile, aLine)); } #else Unused << aSelf; Unused << aMsg; Unused << aFile; Unused << aLine; #endif } bool ContentParent::ShutDownProcess(ShutDownMethod aMethod) { bool result = false; MOZ_LOG(ContentParent::GetLog(), LogLevel::Debug, ("ShutDownProcess: %p", this)); // NB: must MarkAsDead() here so that this isn't accidentally // returned from Get*() while in the midst of shutdown. MarkAsDead(); // Shutting down by sending a shutdown message works differently than the // other methods. We first call Shutdown() in the child. After the child is // ready, it calls FinishShutdown() on us. Then we close the channel. if (aMethod == SEND_SHUTDOWN_MESSAGE) { if (!mShutdownPending) { if (CanSend()) { // Stop sending input events with input priority when shutting down. SetInputPriorityEventEnabled(false); // Send a high priority announcement first. If this fails, SendShutdown // will also fail. Unused << SendShutdownConfirmedHP(); // Send the definite message with normal priority. if (SendShutdown()) { MaybeLogBlockShutdownDiagnostics( this, "ShutDownProcess: Sent shutdown message.", __FILE__, __LINE__); mShutdownPending = true; // Start the force-kill timer if we haven't already. // This can happen if we shutdown a process while launching or // because it is removed from the cached processes pool. if (!mForceKillTimer) { SignalImpendingShutdownToContentJS(); StartForceKillTimer(); } result = true; } else { MaybeLogBlockShutdownDiagnostics( this, "ShutDownProcess: !!! Send shutdown message failed! !!!", __FILE__, __LINE__); } } else { MaybeLogBlockShutdownDiagnostics( this, "ShutDownProcess: !!! !CanSend !!!", __FILE__, __LINE__); } } else { MaybeLogBlockShutdownDiagnostics( this, "ShutDownProcess: Shutdown already pending.", __FILE__, __LINE__); result = true; } // If call was not successful, the channel must have been broken // somehow, and we will clean up the error in ActorDestroy. return result; } using mozilla::dom::quota::QuotaManagerService; if (QuotaManagerService* qms = QuotaManagerService::GetOrCreate()) { qms->AbortOperationsForProcess(mChildID); } // If Close() fails with an error, we'll end up back in this function, but // with aMethod = CLOSE_CHANNEL_WITH_ERROR. if (aMethod == CLOSE_CHANNEL) { if (!mCalledClose) { MaybeLogBlockShutdownDiagnostics( this, "ShutDownProcess: Closing channel.", __FILE__, __LINE__); // Close() can only be called once: It kicks off the destruction // sequence. mCalledClose = true; Close(); } result = true; } // A ContentParent object might not get freed until after XPCOM shutdown has // shut down the cycle collector. But by then it's too late to release any // CC'ed objects, so we need to null them out here, while we still can. See // bug 899761. ShutDownMessageManager(); return result; } mozilla::ipc::IPCResult ContentParent::RecvNotifyShutdownSuccess() { if (!mShutdownPending) { return IPC_FAIL(this, "RecvNotifyShutdownSuccess without mShutdownPending"); } mIsNotifiedShutdownSuccess = true; return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvFinishShutdown() { if (!mShutdownPending) { return IPC_FAIL(this, "RecvFinishShutdown without mShutdownPending"); } // At this point, we already called ShutDownProcess once with // SEND_SHUTDOWN_MESSAGE. To actually close the channel, we call // ShutDownProcess again with CLOSE_CHANNEL. if (mCalledClose) { MaybeLogBlockShutdownDiagnostics( this, "RecvFinishShutdown: Channel already closed.", __FILE__, __LINE__); } ShutDownProcess(CLOSE_CHANNEL); return IPC_OK(); } void ContentParent::ShutDownMessageManager() { if (!mMessageManager) { return; } mMessageManager->ReceiveMessage(mMessageManager, nullptr, CHILD_PROCESS_SHUTDOWN_MESSAGE, false, nullptr, nullptr, IgnoreErrors()); mMessageManager->SetOsPid(-1); mMessageManager->Disconnect(); mMessageManager = nullptr; } void ContentParent::AddToPool(nsTArray& aPool) { MOZ_DIAGNOSTIC_ASSERT(!mIsInPool); AssertAlive(); MOZ_DIAGNOSTIC_ASSERT(!mCalledKillHard); aPool.AppendElement(this); mIsInPool = true; } void ContentParent::RemoveFromPool(nsTArray& aPool) { MOZ_DIAGNOSTIC_ASSERT(mIsInPool); aPool.RemoveElement(this); mIsInPool = false; } void ContentParent::AssertNotInPool() { MOZ_RELEASE_ASSERT(!mIsInPool); MOZ_RELEASE_ASSERT(sRecycledE10SProcess != this); if (IsForJSPlugin()) { MOZ_RELEASE_ASSERT(!sJSPluginContentParents || !sJSPluginContentParents->Get(mJSPluginID)); } else { MOZ_RELEASE_ASSERT( !sBrowserContentParents || !sBrowserContentParents->Contains(mRemoteType) || !sBrowserContentParents->Get(mRemoteType)->Contains(this)); for (const auto& group : mGroups) { MOZ_RELEASE_ASSERT(group->GetHostProcess(mRemoteType) != this, "still a host process for one of our groups?"); } } } void ContentParent::AssertAlive() { MOZ_DIAGNOSTIC_ASSERT(!IsDead()); } void ContentParent::RemoveFromList() { if (IsForJSPlugin()) { if (sJSPluginContentParents) { sJSPluginContentParents->Remove(mJSPluginID); if (!sJSPluginContentParents->Count()) { sJSPluginContentParents = nullptr; } } return; } if (!mIsInPool) { #ifdef MOZ_DIAGNOSTIC_ASSERT_ENABLED AssertNotInPool(); #endif return; } // Ensure that this BrowsingContextGroup is no longer used to host new // documents from any associated BrowsingContextGroups. It may become a host // again in the future, if it is restored to the pool. for (const auto& group : mGroups) { group->RemoveHostProcess(this); } StopRecycling(/* aForeground */ false); if (sBrowserContentParents) { if (auto entry = sBrowserContentParents->Lookup(mRemoteType)) { const auto& contentParents = entry.Data(); RemoveFromPool(*contentParents); if (contentParents->IsEmpty()) { entry.Remove(); } } if (sBrowserContentParents->IsEmpty()) { delete sBrowserContentParents; sBrowserContentParents = nullptr; } } } void ContentParent::MarkAsDead() { MOZ_LOG(ContentParent::GetLog(), LogLevel::Verbose, ("Marking ContentProcess %p as dead", this)); MOZ_DIAGNOSTIC_ASSERT(!sInProcessSelector); RemoveFromList(); PreallocatedProcessManager::Erase(this); #ifdef MOZ_WIDGET_ANDROID if (IsAlive()) { // We're intentionally killing the content process at this point to ensure // that we never have a "dead" content process sitting around and occupying // an Android Service. nsCOMPtr launcherThread(GetIPCLauncher()); MOZ_ASSERT(launcherThread); auto procType = java::GeckoProcessType::CONTENT(); auto selector = java::GeckoProcessManager::Selector::New(procType, OtherPid()); launcherThread->Dispatch(NS_NewRunnableFunction( "ContentParent::MarkAsDead", [selector = java::GeckoProcessManager::Selector::GlobalRef(selector)]() { java::GeckoProcessManager::ShutdownProcess(selector); })); } #endif if (mScriptableHelper) { static_cast(mScriptableHelper.get())->ProcessDied(); mScriptableHelper = nullptr; } mLifecycleState = LifecycleState::DEAD; } void ContentParent::OnChannelError() { RefPtr kungFuDeathGrip(this); PContentParent::OnChannelError(); } void ContentParent::ProcessingError(Result aCode, const char* aReason) { if (MsgDropped == aCode) { return; } #ifndef FUZZING // Other errors are big deals. KillHard(aReason); #endif } void ContentParent::ActorDestroy(ActorDestroyReason why) { MOZ_RELEASE_ASSERT(mSelfRef); if (mForceKillTimer) { mForceKillTimer->Cancel(); mForceKillTimer = nullptr; } // Signal shutdown completion regardless of error state, so we can // finish waiting in the xpcom-shutdown/profile-before-change observer. RemoveShutdownBlockers(); if (mHangMonitorActor) { ProcessHangMonitor::RemoveProcess(mHangMonitorActor); mHangMonitorActor = nullptr; } RefPtr fss = FileSystemSecurity::Get(); if (fss) { fss->Forget(ChildID()); } if (why == NormalShutdown && !mCalledClose) { // If we shut down normally but haven't called Close, assume somebody // else called Close on us. In that case, we still need to call // ShutDownProcess below to perform other necessary clean up. mCalledClose = true; } // Make sure we always clean up. ShutDownProcess(why == NormalShutdown ? CLOSE_CHANNEL : CLOSE_CHANNEL_WITH_ERROR); nsCOMPtr obs = mozilla::services::GetObserverService(); if (obs) { size_t length = ArrayLength(sObserverTopics); for (size_t i = 0; i < length; ++i) { obs->RemoveObserver(static_cast(this), sObserverTopics[i]); } } // remove the global remote preferences observers Preferences::RemoveObserver(this, ""); gfxVars::RemoveReceiver(this); if (GPUProcessManager* gpu = GPUProcessManager::Get()) { // Note: the manager could have shutdown already. gpu->RemoveListener(this); } RecvRemoveGeolocationListener(); // Destroy our JSProcessActors, and reject any pending queries. JSActorDidDestroy(); if (obs) { RefPtr props = new nsHashPropertyBag(); props->SetPropertyAsUint64(u"childID"_ns, mChildID); if (AbnormalShutdown == why) { Telemetry::Accumulate(Telemetry::SUBPROCESS_ABNORMAL_ABORT, "content"_ns, 1); props->SetPropertyAsBool(u"abnormal"_ns, true); nsAutoString dumpID; // There's a window in which child processes can crash // after IPC is established, but before a crash reporter // is created. if (mCrashReporter) { // if mCreatedPairedMinidumps is true, we've already generated // parent/child dumps for desktop crashes. if (!mCreatedPairedMinidumps) { #if defined(XP_MACOSX) RefPtr memWatcher; memWatcher = nsAvailableMemoryWatcherBase::GetSingleton(); memWatcher->AddChildAnnotations(mCrashReporter); #endif mCrashReporter->GenerateCrashReport(OtherPid()); } if (mCrashReporter->HasMinidump()) { dumpID = mCrashReporter->MinidumpID(); } } else { HandleOrphanedMinidump(&dumpID); } if (!dumpID.IsEmpty()) { props->SetPropertyAsAString(u"dumpID"_ns, dumpID); } } nsAutoString cpId; cpId.AppendInt(static_cast(this->ChildID())); obs->NotifyObservers((nsIPropertyBag2*)props, "ipc:content-shutdown", cpId.get()); } // Remove any and all idle listeners. if (mIdleListeners.Length() > 0) { nsCOMPtr idleService = do_GetService("@mozilla.org/widget/useridleservice;1"); if (idleService) { RefPtr listener; for (const auto& lentry : mIdleListeners) { listener = static_cast(lentry.get()); idleService->RemoveIdleObserver(listener, listener->mTime); } } mIdleListeners.Clear(); } MOZ_LOG(ContentParent::GetLog(), LogLevel::Verbose, ("destroying Subprocess in ActorDestroy: ContentParent %p " "mSubprocess %p handle %" PRIuPTR, this, mSubprocess, mSubprocess ? (uintptr_t)mSubprocess->GetChildProcessHandle() : -1)); // FIXME (bug 1520997): does this really need an additional dispatch? if (GetCurrentSerialEventTarget()) { GetCurrentSerialEventTarget()->Dispatch(NS_NewRunnableFunction( "DelayedDeleteSubprocessRunnable", [subprocess = mSubprocess] { MOZ_LOG(ContentParent::GetLog(), LogLevel::Debug, ("destroyed Subprocess in ActorDestroy: Subprocess %p handle " "%" PRIuPTR, subprocess, subprocess ? (uintptr_t)subprocess->GetChildProcessHandle() : -1)); subprocess->Destroy(); })); } mSubprocess = nullptr; ContentProcessManager* cpm = ContentProcessManager::GetSingleton(); if (cpm) { cpm->RemoveContentProcess(this->ChildID()); } if (mDriverCrashGuard) { mDriverCrashGuard->NotifyCrashed(); } // Unregister all the BlobURLs registered by the ContentChild. for (uint32_t i = 0; i < mBlobURLs.Length(); ++i) { BlobURLProtocolHandler::RemoveDataEntry(mBlobURLs[i]); } mBlobURLs.Clear(); #if defined(XP_WIN) && defined(ACCESSIBILITY) a11y::MsaaAccessible::ReleaseContentProcessIdFor(ChildID()); #endif #ifdef MOZ_DIAGNOSTIC_ASSERT_ENABLED AssertNotInPool(); #endif // As this process is going away, ensure that every BrowsingContext hosted by // it has been detached, and every BrowsingContextGroup has been fully // unsubscribed. BrowsingContext::DiscardFromContentParent(this); const nsTHashSet> groups = std::move(mGroups); for (const auto& group : groups) { group->Unsubscribe(this); } MOZ_DIAGNOSTIC_ASSERT(mGroups.IsEmpty()); mPendingLoadStates.Clear(); } void ContentParent::ActorDealloc() { mSelfRef = nullptr; } bool ContentParent::TryToRecycle() { // Only try to recycle "web" content processes, as other remote types are // generally more unique, and cannot be effectively re-used. This is disabled // with Fission, as "web" content processes are no longer frequently used. // // Disabling the process pre-allocator will also disable process recycling, // allowing for more consistent process counts under testing. if (mRemoteType != DEFAULT_REMOTE_TYPE || mozilla::FissionAutostart() || !PreallocatedProcessManager::Enabled()) { return false; } // This life time check should be replaced by a memory health check (memory // usage + fragmentation). // Note that this is specifically to help with edge cases that rapidly // create-and-destroy processes const double kMaxLifeSpan = 5; MOZ_LOG( ContentParent::GetLog(), LogLevel::Debug, ("TryToRecycle ContentProcess %p (%u) with lifespan %f seconds", this, (unsigned int)ChildID(), (TimeStamp::Now() - mActivateTS).ToSeconds())); if (mCalledKillHard || !IsAlive() || (TimeStamp::Now() - mActivateTS).ToSeconds() > kMaxLifeSpan) { MOZ_LOG(ContentParent::GetLog(), LogLevel::Debug, ("TryToRecycle did not recycle %p", this)); // It's possible that the process was already cached, and we're being called // from a different path, and we're now past kMaxLifeSpan (or some other). // Ensure that if we're going to kill this process we don't recycle it. StopRecycling(/* aForeground */ false); return false; } if (!sRecycledE10SProcess) { MOZ_LOG(ContentParent::GetLog(), LogLevel::Debug, ("TryToRecycle began recycling %p", this)); sRecycledE10SProcess = this; ProcessPriorityManager::SetProcessPriority(this, PROCESS_PRIORITY_BACKGROUND); return true; } if (sRecycledE10SProcess == this) { MOZ_LOG(ContentParent::GetLog(), LogLevel::Debug, ("TryToRecycle continue recycling %p", this)); return true; } // Some other process is already being recycled, just shut this one down. MOZ_LOG(ContentParent::GetLog(), LogLevel::Debug, ("TryToRecycle did not recycle %p (already recycling %p)", this, sRecycledE10SProcess.get())); return false; } void ContentParent::StopRecycling(bool aForeground) { if (sRecycledE10SProcess != this) { return; } sRecycledE10SProcess = nullptr; if (aForeground) { ProcessPriorityManager::SetProcessPriority(this, PROCESS_PRIORITY_FOREGROUND); } } bool ContentParent::HasActiveWorkerOrJSPlugin() { if (IsForJSPlugin()) { return true; } // If we have active workers, we need to stay alive. { MutexAutoLock lock(mThreadsafeHandle->mMutex); if (mThreadsafeHandle->mRemoteWorkerActorCount) { return true; } } return false; } bool ContentParent::ShouldKeepProcessAlive() { if (HasActiveWorkerOrJSPlugin()) { return true; } if (mNumKeepaliveCalls > 0) { return true; } if (IsLaunching()) { return true; } // If we have already been marked as dead, don't prevent shutdown. if (IsDead()) { return false; } if (!sBrowserContentParents) { return false; } auto contentParents = sBrowserContentParents->Get(mRemoteType); if (!contentParents) { return false; } // We might want to keep some content processes alive for performance reasons. // e.g. test runs and privileged content process for some about: pages. // We don't want to alter behavior if the pref is not set, so default to 0. int32_t processesToKeepAlive = 0; nsAutoCString keepAlivePref("dom.ipc.keepProcessesAlive."); if (StringBeginsWith(mRemoteType, FISSION_WEB_REMOTE_TYPE) && xpc::IsInAutomation()) { keepAlivePref.Append(FISSION_WEB_REMOTE_TYPE); keepAlivePref.AppendLiteral(".perOrigin"); } else { keepAlivePref.Append(mRemoteType); } if (NS_FAILED( Preferences::GetInt(keepAlivePref.get(), &processesToKeepAlive))) { return false; } int32_t numberOfAliveProcesses = contentParents->Length(); return numberOfAliveProcesses <= processesToKeepAlive; } void ContentParent::NotifyTabDestroying() { MOZ_LOG(ContentParent::GetLog(), LogLevel::Debug, ("NotifyTabDestroying %p:", this)); // There can be more than one PBrowser for a given app process // because of popup windows. PBrowsers can also destroy // concurrently. When all the PBrowsers are destroying, kick off // another task to ensure the child process *really* shuts down, // even if the PBrowsers themselves never finish destroying. ++mNumDestroyingTabs; /** * We intentionally skip this code on Android: * 1. Android has a fixed upper bound on the number of content processes, so * we prefer to re-use them whenever possible (as opposed to letting an * old process wind down while we launch a new one). * 2. GeckoView always hard-kills content processes (and if it does not, * Android itself will), so we don't concern ourselves with the ForceKill * timer either. */ #if !defined(MOZ_WIDGET_ANDROID) MaybeBeginShutDown(/* aExpectedBrowserCount */ mNumDestroyingTabs, /* aSendShutDown */ false); #endif // !defined(MOZ_WIDGET_ANDROID) } void ContentParent::AddKeepAlive() { // Something wants to keep this content process alive. ++mNumKeepaliveCalls; } void ContentParent::RemoveKeepAlive() { MOZ_DIAGNOSTIC_ASSERT(mNumKeepaliveCalls > 0); --mNumKeepaliveCalls; MaybeBeginShutDown(); } void ContentParent::StartForceKillTimer() { if (mForceKillTimer || !CanSend()) { return; } int32_t timeoutSecs = StaticPrefs::dom_ipc_tabs_shutdownTimeoutSecs(); if (timeoutSecs > 0) { NS_NewTimerWithFuncCallback(getter_AddRefs(mForceKillTimer), ContentParent::ForceKillTimerCallback, this, timeoutSecs * 1000, nsITimer::TYPE_ONE_SHOT, "dom::ContentParent::StartForceKillTimer"); MOZ_ASSERT(mForceKillTimer); } } void ContentParent::NotifyTabDestroyed(const TabId& aTabId, bool aNotifiedDestroying) { if (aNotifiedDestroying) { --mNumDestroyingTabs; } nsTArray parentArray = nsContentPermissionUtils::GetContentPermissionRequestParentById(aTabId); // Need to close undeleted ContentPermissionRequestParents before tab is // closed. for (auto& permissionRequestParent : parentArray) { Unused << PContentPermissionRequestParent::Send__delete__( permissionRequestParent); } // There can be more than one PBrowser for a given app process // because of popup windows. When the last one closes, shut // us down. MOZ_LOG(ContentParent::GetLog(), LogLevel::Verbose, ("NotifyTabDestroyed %p", this)); MaybeBeginShutDown(/* aExpectedBrowserCount */ 1); } TestShellParent* ContentParent::CreateTestShell() { return static_cast(SendPTestShellConstructor()); } bool ContentParent::DestroyTestShell(TestShellParent* aTestShell) { return PTestShellParent::Send__delete__(aTestShell); } TestShellParent* ContentParent::GetTestShellSingleton() { PTestShellParent* p = LoneManagedOrNullAsserts(ManagedPTestShellParent()); return static_cast(p); } #if defined(XP_MACOSX) && defined(MOZ_SANDBOX) // Append the sandbox command line parameters that are not static. i.e., // parameters that can be different for different child processes. void ContentParent::AppendDynamicSandboxParams( std::vector& aArgs) { // For file content processes if (GetRemoteType() == FILE_REMOTE_TYPE) { MacSandboxInfo::AppendFileAccessParam(aArgs, true); } } // Generate the static sandbox command line parameters and store // them in the provided params vector to be used each time a new // content process is launched. static void CacheSandboxParams(std::vector& aCachedParams) { // This must only be called once and we should // be starting with an empty list of parameters. MOZ_ASSERT(aCachedParams.empty()); MacSandboxInfo info; info.type = MacSandboxType_Content; info.level = GetEffectiveContentSandboxLevel(); // Sandbox logging if (Preferences::GetBool("security.sandbox.logging.enabled") || PR_GetEnv("MOZ_SANDBOX_LOGGING")) { info.shouldLog = true; } // Audio access if (!StaticPrefs::media_cubeb_sandbox()) { info.hasAudio = true; } // Window server access. If the disconnect-windowserver pref is not // "true" or out-of-process WebGL is not enabled, allow window server // access in the sandbox policy. if (!Preferences::GetBool( "security.sandbox.content.mac.disconnect-windowserver") || !Preferences::GetBool("webgl.out-of-process")) { info.hasWindowServer = true; } // .app path (normalized) nsAutoCString appPath; if (!nsMacUtilsImpl::GetAppPath(appPath)) { MOZ_CRASH("Failed to get app dir paths"); } info.appPath = appPath.get(); // TESTING_READ_PATH1 nsAutoCString testingReadPath1; Preferences::GetCString("security.sandbox.content.mac.testing_read_path1", testingReadPath1); if (!testingReadPath1.IsEmpty()) { info.testingReadPath1 = testingReadPath1.get(); } // TESTING_READ_PATH2 nsAutoCString testingReadPath2; Preferences::GetCString("security.sandbox.content.mac.testing_read_path2", testingReadPath2); if (!testingReadPath2.IsEmpty()) { info.testingReadPath2 = testingReadPath2.get(); } // TESTING_READ_PATH3, TESTING_READ_PATH4. In development builds, // these are used to whitelist the repo dir and object dir respectively. nsresult rv; if (mozilla::IsDevelopmentBuild()) { // Repo dir nsCOMPtr repoDir; rv = nsMacUtilsImpl::GetRepoDir(getter_AddRefs(repoDir)); if (NS_FAILED(rv)) { MOZ_CRASH("Failed to get path to repo dir"); } nsCString repoDirPath; Unused << repoDir->GetNativePath(repoDirPath); info.testingReadPath3 = repoDirPath.get(); // Object dir nsCOMPtr objDir; rv = nsMacUtilsImpl::GetObjDir(getter_AddRefs(objDir)); if (NS_FAILED(rv)) { MOZ_CRASH("Failed to get path to build object dir"); } nsCString objDirPath; Unused << objDir->GetNativePath(objDirPath); info.testingReadPath4 = objDirPath.get(); } // DEBUG_WRITE_DIR # ifdef DEBUG // For bloat/leak logging or when a content process dies intentionally // (|NoteIntentionalCrash|) for tests, it wants to log that it did this. // Allow writing to this location. nsAutoCString bloatLogDirPath; if (NS_SUCCEEDED(nsMacUtilsImpl::GetBloatLogDir(bloatLogDirPath))) { info.debugWriteDir = bloatLogDirPath.get(); } # endif // DEBUG info.AppendAsParams(aCachedParams); } // Append sandboxing command line parameters. void ContentParent::AppendSandboxParams(std::vector& aArgs) { MOZ_ASSERT(sMacSandboxParams != nullptr); // An empty sMacSandboxParams indicates this is the // first invocation and we don't have cached params yet. if (sMacSandboxParams->empty()) { CacheSandboxParams(*sMacSandboxParams); MOZ_ASSERT(!sMacSandboxParams->empty()); } // Append cached arguments. aArgs.insert(aArgs.end(), sMacSandboxParams->begin(), sMacSandboxParams->end()); // Append remaining arguments. AppendDynamicSandboxParams(aArgs); } #endif // XP_MACOSX && MOZ_SANDBOX bool ContentParent::BeginSubprocessLaunch(ProcessPriority aPriority) { AUTO_PROFILER_LABEL("ContentParent::LaunchSubprocess", OTHER); // Ensure we will not rush through our shutdown phases while launching. // LaunchSubprocessReject will remove them in case of failure, // otherwise ActorDestroy will take care. AddShutdownBlockers(); if (AppShutdown::IsInOrBeyond(ShutdownPhase::AppShutdown)) { MOZ_ASSERT(false, "Late attempt to launch a process!"); return false; } if (!ContentProcessManager::GetSingleton()) { MOZ_ASSERT(false, "Unable to acquire ContentProcessManager singleton!"); return false; } std::vector extraArgs; geckoargs::sChildID.Put(mChildID, extraArgs); geckoargs::sIsForBrowser.Put(IsForBrowser(), extraArgs); geckoargs::sNotForBrowser.Put(!IsForBrowser(), extraArgs); // Prefs information is passed via anonymous shared memory to avoid bloating // the command line. // Instantiate the pref serializer. It will be cleaned up in // `LaunchSubprocessReject`/`LaunchSubprocessResolve`. mPrefSerializer = MakeUnique(); if (!mPrefSerializer->SerializeToSharedMemory(GeckoProcessType_Content, GetRemoteType())) { NS_WARNING("SharedPreferenceSerializer::SerializeToSharedMemory failed"); MarkAsDead(); return false; } mPrefSerializer->AddSharedPrefCmdLineArgs(*mSubprocess, extraArgs); // The JS engine does some computation during the initialization which can be // shared across processes. We add command line arguments to pass a file // handle and its content length, to minimize the startup time of content // processes. ::mozilla::ipc::ExportSharedJSInit(*mSubprocess, extraArgs); #if defined(XP_WIN) && defined(ACCESSIBILITY) // Determining the accessibility resource ID causes problems with the sandbox, // so we pass it on the command line as it is required very early in process // start up. It is not required when the caching mechanism is being used. if (!StaticPrefs::accessibility_cache_enabled_AtStartup()) { // The accessibility resource ID may not be set in some cases, for example // in xpcshell tests. auto resourceId = mscom::ActCtxResource::GetAccessibilityResourceId(); if (resourceId) { geckoargs::sA11yResourceId.Put(resourceId, extraArgs); } } #endif // Register ContentParent as an observer for changes to any pref // whose prefix matches the empty string, i.e. all of them. The // observation starts here in order to capture pref updates that // happen during async launch. Preferences::AddStrongObserver(this, ""); if (gSafeMode) { geckoargs::sSafeMode.Put(extraArgs); } #if defined(XP_MACOSX) && defined(MOZ_SANDBOX) if (IsContentSandboxEnabled()) { AppendSandboxParams(extraArgs); mSubprocess->DisableOSActivityMode(); } #endif nsCString parentBuildID(mozilla::PlatformBuildID()); geckoargs::sParentBuildID.Put(parentBuildID.get(), extraArgs); #ifdef MOZ_WIDGET_GTK // This is X11-only pending a solution for WebGL in Wayland mode. if (StaticPrefs::dom_ipc_avoid_gtk() && StaticPrefs::widget_non_native_theme_enabled() && widget::GdkIsX11Display()) { mSubprocess->SetEnv("MOZ_HEADLESS", "1"); } #endif // See also ActorDealloc. mSelfRef = this; mLaunchYieldTS = TimeStamp::Now(); return mSubprocess->AsyncLaunch(std::move(extraArgs)); } void ContentParent::LaunchSubprocessReject() { NS_WARNING("failed to launch child in the parent"); MOZ_LOG(ContentParent::GetLog(), LogLevel::Verbose, ("failed to launch child in the parent")); // Now that communication with the child is complete, we can cleanup // the preference serializer. mPrefSerializer = nullptr; if (mIsAPreallocBlocker) { PreallocatedProcessManager::RemoveBlocker(mRemoteType, this); mIsAPreallocBlocker = false; } MarkAsDead(); RemoveShutdownBlockers(); } bool ContentParent::LaunchSubprocessResolve(bool aIsSync, ProcessPriority aPriority) { AUTO_PROFILER_LABEL("ContentParent::LaunchSubprocess::resolve", OTHER); if (mLaunchResolved) { // We've already been called, return. MOZ_ASSERT(sCreatedFirstContentProcess); MOZ_ASSERT(!mPrefSerializer); MOZ_ASSERT(mLifecycleState != LifecycleState::LAUNCHING); return mLaunchResolvedOk; } mLaunchResolved = true; // Now that communication with the child is complete, we can cleanup // the preference serializer. mPrefSerializer = nullptr; const auto launchResumeTS = TimeStamp::Now(); if (profiler_thread_is_being_profiled_for_markers()) { nsPrintfCString marker("Process start%s for %u", mIsAPreallocBlocker ? " (immediate)" : "", (unsigned int)ChildID()); PROFILER_MARKER_TEXT( mIsAPreallocBlocker ? ProfilerString8View("Process Immediate Launch") : ProfilerString8View("Process Launch"), DOM, MarkerTiming::Interval(mLaunchTS, launchResumeTS), marker); } if (!sCreatedFirstContentProcess) { nsCOMPtr obs = mozilla::services::GetObserverService(); obs->NotifyObservers(nullptr, "ipc:first-content-process-created", nullptr); sCreatedFirstContentProcess = true; } mSubprocess->TakeInitialEndpoint().Bind(this); ContentProcessManager* cpm = ContentProcessManager::GetSingleton(); if (!cpm) { NS_WARNING("immediately shutting-down caused by our shutdown"); ShutDownProcess(SEND_SHUTDOWN_MESSAGE); return false; } cpm->AddContentProcess(this); #ifdef MOZ_CODE_COVERAGE Unused << SendShareCodeCoverageMutex( CodeCoverageHandler::Get()->GetMutexHandle()); #endif // We must be in the LAUNCHING state still. If we've somehow already been // marked as DEAD, fail the process launch, and immediately begin tearing down // the content process. if (IsDead()) { NS_WARNING("immediately shutting-down already-dead process"); ShutDownProcess(SEND_SHUTDOWN_MESSAGE); return false; } MOZ_ASSERT(mLifecycleState == LifecycleState::LAUNCHING); mLifecycleState = LifecycleState::ALIVE; if (!InitInternal(aPriority)) { NS_WARNING("failed to initialize child in the parent"); // We've already called Open() by this point, so we need to close the // channel to avoid leaking the process. ShutDownProcess(SEND_SHUTDOWN_MESSAGE); return false; } mHangMonitorActor = ProcessHangMonitor::AddProcess(this); // Set a reply timeout for CPOWs. SetReplyTimeoutMs(StaticPrefs::dom_ipc_cpow_timeout()); nsCOMPtr obs = mozilla::services::GetObserverService(); if (obs) { nsAutoString cpId; cpId.AppendInt(static_cast(this->ChildID())); obs->NotifyObservers(static_cast(this), "ipc:content-initializing", cpId.get()); } Init(); mLifecycleState = LifecycleState::INITIALIZED; if (aIsSync) { Telemetry::AccumulateTimeDelta(Telemetry::CONTENT_PROCESS_SYNC_LAUNCH_MS, mLaunchTS); } else { Telemetry::AccumulateTimeDelta(Telemetry::CONTENT_PROCESS_LAUNCH_TOTAL_MS, mLaunchTS); Telemetry::Accumulate( Telemetry::CONTENT_PROCESS_LAUNCH_MAINTHREAD_MS, static_cast( ((mLaunchYieldTS - mLaunchTS) + (TimeStamp::Now() - launchResumeTS)) .ToMilliseconds())); } mLaunchResolvedOk = true; return true; } bool ContentParent::LaunchSubprocessSync( hal::ProcessPriority aInitialPriority) { // We've started a sync content process launch. Telemetry::Accumulate(Telemetry::CONTENT_PROCESS_LAUNCH_IS_SYNC, 1); if (BeginSubprocessLaunch(aInitialPriority)) { const bool ok = mSubprocess->WaitForProcessHandle(); if (ok && LaunchSubprocessResolve(/* aIsSync = */ true, aInitialPriority)) { ContentParent::DidLaunchSubprocess(); return true; } } LaunchSubprocessReject(); return false; } RefPtr ContentParent::LaunchSubprocessAsync( hal::ProcessPriority aInitialPriority) { // We've started an async content process launch. Telemetry::Accumulate(Telemetry::CONTENT_PROCESS_LAUNCH_IS_SYNC, 0); if (!BeginSubprocessLaunch(aInitialPriority)) { // Launch aborted because of shutdown. Bailout. LaunchSubprocessReject(); return LaunchPromise::CreateAndReject(LaunchError(), __func__); } // Otherwise, wait until the process is ready. RefPtr ready = mSubprocess->WhenProcessHandleReady(); RefPtr self = this; mLaunchYieldTS = TimeStamp::Now(); return ready->Then( GetCurrentSerialEventTarget(), __func__, [self, aInitialPriority]( const ProcessHandlePromise::ResolveOrRejectValue& aValue) { if (aValue.IsResolve() && self->LaunchSubprocessResolve(/* aIsSync = */ false, aInitialPriority)) { ContentParent::DidLaunchSubprocess(); return LaunchPromise::CreateAndResolve(self, __func__); } self->LaunchSubprocessReject(); return LaunchPromise::CreateAndReject(LaunchError(), __func__); }); } ContentParent::ContentParent(const nsACString& aRemoteType, int32_t aJSPluginID) : mSelfRef(nullptr), mSubprocess(nullptr), mLaunchTS(TimeStamp::Now()), mLaunchYieldTS(mLaunchTS), mActivateTS(mLaunchTS), mIsAPreallocBlocker(false), mRemoteType(aRemoteType), mChildID(gContentChildID++), mGeolocationWatchID(-1), mJSPluginID(aJSPluginID), mThreadsafeHandle( new ThreadsafeContentParentHandle(this, mChildID, mRemoteType)), mNumDestroyingTabs(0), mNumKeepaliveCalls(0), mLifecycleState(LifecycleState::LAUNCHING), mIsForBrowser(!mRemoteType.IsEmpty()), mCalledClose(false), mCalledKillHard(false), mCreatedPairedMinidumps(false), mShutdownPending(false), mLaunchResolved(false), mLaunchResolvedOk(false), mIsRemoteInputEventQueueEnabled(false), mIsInputPriorityEventEnabled(false), mIsInPool(false), mGMPCreated(false), #ifdef MOZ_DIAGNOSTIC_ASSERT_ENABLED mBlockShutdownCalled(false), #endif mHangMonitorActor(nullptr) { MOZ_DIAGNOSTIC_ASSERT(!IsForJSPlugin(), "XXX(nika): How are we creating a JSPlugin?"); mRemoteTypeIsolationPrincipal = CreateRemoteTypeIsolationPrincipal(aRemoteType); // Insert ourselves into the global linked list of ContentParent objects. if (!sContentParents) { sContentParents = new LinkedList(); } sContentParents->insertBack(this); mMessageManager = nsFrameMessageManager::NewProcessMessageManager(true); #if defined(XP_WIN) // Request Windows message deferral behavior on our side of the PContent // channel. Generally only applies to the situation where we get caught in // a deadlock with the plugin process when sending CPOWs. GetIPCChannel()->SetChannelFlags( MessageChannel::REQUIRE_DEFERRED_MESSAGE_PROTECTION); #endif NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); bool isFile = mRemoteType == FILE_REMOTE_TYPE; mSubprocess = new GeckoChildProcessHost(GeckoProcessType_Content, isFile); MOZ_LOG(ContentParent::GetLog(), LogLevel::Verbose, ("CreateSubprocess: ContentParent %p mSubprocess %p handle %" PRIuPTR, this, mSubprocess, mSubprocess ? (uintptr_t)mSubprocess->GetChildProcessHandle() : -1)); // This is safe to do in the constructor, as it doesn't take a strong // reference. mScriptableHelper = new ScriptableCPInfo(this); } ContentParent::~ContentParent() { if (mForceKillTimer) { mForceKillTimer->Cancel(); } AssertIsOnMainThread(); // Clear the weak reference from the threadsafe handle back to this actor. mThreadsafeHandle->mWeakActor = nullptr; if (mIsAPreallocBlocker) { MOZ_LOG(ContentParent::GetLog(), LogLevel::Debug, ("Removing blocker on ContentProcess destruction")); PreallocatedProcessManager::RemoveBlocker(mRemoteType, this); mIsAPreallocBlocker = false; } // We should be removed from all these lists in ActorDestroy. AssertNotInPool(); // Normally mSubprocess is destroyed in ActorDestroy, but that won't // happen if the process wasn't launched or if it failed to launch. if (mSubprocess) { MOZ_LOG( ContentParent::GetLog(), LogLevel::Verbose, ("DestroySubprocess: ContentParent %p mSubprocess %p handle %" PRIuPTR, this, mSubprocess, mSubprocess ? (uintptr_t)mSubprocess->GetChildProcessHandle() : -1)); mSubprocess->Destroy(); } // Make sure to clear the connection from `mScriptableHelper` if it hasn't // been cleared yet. if (mScriptableHelper) { static_cast(mScriptableHelper.get())->ProcessDied(); mScriptableHelper = nullptr; } } bool ContentParent::InitInternal(ProcessPriority aInitialPriority) { // We can't access the locale service after shutdown has started. Since we // can't init the process without it, and since we're going to be canceling // whatever load attempt that initiated this process creation anyway, just // bail out now if shutdown has already started. if (PastShutdownPhase(ShutdownPhase::XPCOMShutdown)) { return false; } XPCOMInitData xpcomInit; MOZ_LOG(ContentParent::GetLog(), LogLevel::Debug, ("ContentParent::InitInternal: %p", (void*)this)); nsCOMPtr io(do_GetIOService()); MOZ_ASSERT(io, "No IO service?"); DebugOnly rv = io->GetOffline(&xpcomInit.isOffline()); MOZ_ASSERT(NS_SUCCEEDED(rv), "Failed getting offline?"); rv = io->GetConnectivity(&xpcomInit.isConnected()); MOZ_ASSERT(NS_SUCCEEDED(rv), "Failed getting connectivity?"); xpcomInit.captivePortalState() = nsICaptivePortalService::UNKNOWN; nsCOMPtr cps = do_GetService(NS_CAPTIVEPORTAL_CONTRACTID); if (cps) { cps->GetState(&xpcomInit.captivePortalState()); } if (StaticPrefs::fission_processProfileName()) { nsCOMPtr profileSvc = do_GetService(NS_PROFILESERVICE_CONTRACTID); if (profileSvc) { nsCOMPtr currentProfile; nsresult rv = profileSvc->GetCurrentProfile(getter_AddRefs(currentProfile)); if (NS_SUCCEEDED(rv) && currentProfile) { currentProfile->GetName(mProfile); } } } nsIBidiKeyboard* bidi = nsContentUtils::GetBidiKeyboard(); xpcomInit.isLangRTL() = false; xpcomInit.haveBidiKeyboards() = false; if (bidi) { bidi->IsLangRTL(&xpcomInit.isLangRTL()); bidi->GetHaveBidiKeyboards(&xpcomInit.haveBidiKeyboards()); } RefPtr spellChecker(mozSpellChecker::Create()); MOZ_ASSERT(spellChecker, "No spell checker?"); spellChecker->GetDictionaryList(&xpcomInit.dictionaries()); LocaleService::GetInstance()->GetAppLocalesAsBCP47(xpcomInit.appLocales()); LocaleService::GetInstance()->GetRequestedLocales( xpcomInit.requestedLocales()); L10nRegistry::GetParentProcessFileSourceDescriptors( xpcomInit.l10nFileSources()); nsCOMPtr clipboard( do_GetService("@mozilla.org/widget/clipboard;1")); MOZ_ASSERT(clipboard, "No clipboard?"); rv = clipboard->SupportsSelectionClipboard( &xpcomInit.clipboardCaps().supportsSelectionClipboard()); MOZ_ASSERT(NS_SUCCEEDED(rv)); rv = clipboard->SupportsFindClipboard( &xpcomInit.clipboardCaps().supportsFindClipboard()); MOZ_ASSERT(NS_SUCCEEDED(rv)); // Let's copy the domain policy from the parent to the child (if it's active). StructuredCloneData initialData; nsIScriptSecurityManager* ssm = nsContentUtils::GetSecurityManager(); if (ssm) { ssm->CloneDomainPolicy(&xpcomInit.domainPolicy()); if (ParentProcessMessageManager* mm = nsFrameMessageManager::sParentProcessManager) { AutoJSAPI jsapi; if (NS_WARN_IF(!jsapi.Init(xpc::PrivilegedJunkScope()))) { MOZ_CRASH(); } JS::Rooted init(jsapi.cx()); // We'll crash on failure, so use a IgnoredErrorResult (which also // auto-suppresses exceptions). IgnoredErrorResult rv; mm->GetInitialProcessData(jsapi.cx(), &init, rv); if (NS_WARN_IF(rv.Failed())) { MOZ_CRASH(); } initialData.Write(jsapi.cx(), init, rv); if (NS_WARN_IF(rv.Failed())) { MOZ_CRASH(); } } } // This is only implemented (returns a non-empty list) by MacOSX and Linux // at present. SystemFontList fontList; gfxPlatform::GetPlatform()->ReadSystemFontList(&fontList); const FullLookAndFeel& lnf = *RemoteLookAndFeel::ExtractData(); // If the shared fontlist is in use, collect its shmem block handles to pass // to the child. nsTArray sharedFontListBlocks; gfxPlatformFontList::PlatformFontList()->ShareFontListToProcess( &sharedFontListBlocks, OtherPid()); // Content processes have no permission to access profile directory, so we // send the file URL instead. auto* sheetCache = GlobalStyleSheetCache::Singleton(); if (StyleSheet* ucs = sheetCache->GetUserContentSheet()) { xpcomInit.userContentSheetURL() = ucs->GetSheetURI(); } else { xpcomInit.userContentSheetURL() = nullptr; } // 1. Build ContentDeviceData first, as it may affect some gfxVars. gfxPlatform::GetPlatform()->BuildContentDeviceData( &xpcomInit.contentDeviceData()); // 2. Gather non-default gfxVars. xpcomInit.gfxNonDefaultVarUpdates() = gfxVars::FetchNonDefaultVars(); // 3. Start listening for gfxVars updates, to notify content process later on. gfxVars::AddReceiver(this); nsCOMPtr gfxInfo = components::GfxInfo::Service(); if (gfxInfo) { GfxInfoBase* gfxInfoRaw = static_cast(gfxInfo.get()); xpcomInit.gfxFeatureStatus() = gfxInfoRaw->GetAllFeatures(); } // Send the dynamic scalar definitions to the new process. TelemetryIPC::GetDynamicScalarDefinitions(xpcomInit.dynamicScalarDefs()); for (auto const& [location, supported] : sCodecsSupported) { Unused << SendUpdateMediaCodecsSupported(location, supported); } #ifdef MOZ_WIDGET_ANDROID if (!(StaticPrefs::media_utility_process_enabled() && StaticPrefs::media_utility_android_media_codec_enabled())) { Unused << SendDecoderSupportedMimeTypes( AndroidDecoderModule::GetSupportedMimeTypes()); } #endif // Must send screen info before send initialData ScreenManager& screenManager = ScreenManager::GetSingleton(); screenManager.CopyScreensToRemote(this); // Send the UA sheet shared memory buffer and the address it is mapped at. Maybe sharedUASheetHandle; uintptr_t sharedUASheetAddress = sheetCache->GetSharedMemoryAddress(); if (SharedMemoryHandle handle = sheetCache->CloneHandle()) { sharedUASheetHandle.emplace(std::move(handle)); } else { sharedUASheetAddress = 0; } bool isReadyForBackgroundProcessing = false; #if defined(XP_WIN) RefPtr dllSvc(DllServices::Get()); isReadyForBackgroundProcessing = dllSvc->IsReadyForBackgroundProcessing(); #endif xpcomInit.perfStatsMask() = PerfStats::GetCollectionMask(); nsCOMPtr dns = do_GetService(NS_DNSSERVICE_CONTRACTID); dns->GetTrrDomain(xpcomInit.trrDomain()); Unused << SendSetXPCOMProcessAttributes( xpcomInit, initialData, lnf, fontList, std::move(sharedUASheetHandle), sharedUASheetAddress, std::move(sharedFontListBlocks), isReadyForBackgroundProcessing); ipc::WritableSharedMap* sharedData = nsFrameMessageManager::sParentProcessManager->SharedData(); sharedData->Flush(); sharedData->SendTo(this); nsCOMPtr registrySvc = nsChromeRegistry::GetService(); nsChromeRegistryChrome* chromeRegistry = static_cast(registrySvc.get()); chromeRegistry->SendRegisteredChrome(this); nsCOMPtr stringBundleService = components::StringBundle::Service(); stringBundleService->SendContentBundles(this); if (gAppData) { nsCString version(gAppData->version); nsCString buildID(gAppData->buildID); nsCString name(gAppData->name); nsCString UAName(gAppData->UAName); nsCString ID(gAppData->ID); nsCString vendor(gAppData->vendor); nsCString sourceURL(gAppData->sourceURL); nsCString updateURL(gAppData->updateURL); // Sending all information to content process. Unused << SendAppInfo(version, buildID, name, UAName, ID, vendor, sourceURL, updateURL); } // Send the child its remote type. On Mac, this needs to be sent prior // to the message we send to enable the Sandbox (SendStartProcessSandbox) // because different remote types require different sandbox privileges. Unused << SendRemoteType(mRemoteType, mProfile); ScriptPreloader::InitContentChild(*this); // Initialize the message manager (and load delayed scripts) now that we // have established communications with the child. mMessageManager->InitWithCallback(this); mMessageManager->SetOsPid(Pid()); // Set the subprocess's priority. We do this early on because we're likely // /lowering/ the process's CPU and memory priority, which it has inherited // from this process. // // This call can cause us to send IPC messages to the child process, so it // must come after the Open() call above. ProcessPriorityManager::SetProcessPriority(this, aInitialPriority); // NB: internally, this will send an IPC message to the child // process to get it to create the CompositorBridgeChild. This // message goes through the regular IPC queue for this // channel, so delivery will happen-before any other messages // we send. The CompositorBridgeChild must be created before any // PBrowsers are created, because they rely on the Compositor // already being around. (Creation is async, so can't happen // on demand.) GPUProcessManager* gpm = GPUProcessManager::Get(); Endpoint compositor; Endpoint imageBridge; Endpoint vrBridge; Endpoint videoManager; AutoTArray namespaces; if (!gpm->CreateContentBridges(OtherPid(), &compositor, &imageBridge, &vrBridge, &videoManager, &namespaces)) { // This can fail if we've already started shutting down the compositor // thread. See Bug 1562763 comment 8. return false; } Unused << SendInitRendering(std::move(compositor), std::move(imageBridge), std::move(vrBridge), std::move(videoManager), namespaces); gpm->AddListener(this); nsStyleSheetService* sheetService = nsStyleSheetService::GetInstance(); if (sheetService) { // This looks like a lot of work, but in a normal browser session we just // send two loads. // // The URIs of the Gecko and Servo sheets should be the same, so it // shouldn't matter which we look at. for (StyleSheet* sheet : *sheetService->AgentStyleSheets()) { Unused << SendLoadAndRegisterSheet(sheet->GetSheetURI(), nsIStyleSheetService::AGENT_SHEET); } for (StyleSheet* sheet : *sheetService->UserStyleSheets()) { Unused << SendLoadAndRegisterSheet(sheet->GetSheetURI(), nsIStyleSheetService::USER_SHEET); } for (StyleSheet* sheet : *sheetService->AuthorStyleSheets()) { Unused << SendLoadAndRegisterSheet(sheet->GetSheetURI(), nsIStyleSheetService::AUTHOR_SHEET); } } #ifdef MOZ_SANDBOX bool shouldSandbox = true; Maybe brokerFd; // XXX: Checking the pref here makes it possible to enable/disable sandboxing // during an active session. Currently the pref is only used for testing // purpose. If the decision is made to permanently rely on the pref, this // should be changed so that it is required to restart firefox for the change // of value to take effect. Always send SetProcessSandbox message on macOS. # if !defined(XP_MACOSX) shouldSandbox = IsContentSandboxEnabled(); # endif # ifdef XP_LINUX if (shouldSandbox) { MOZ_ASSERT(!mSandboxBroker); bool isFileProcess = mRemoteType == FILE_REMOTE_TYPE; UniquePtr policy = sSandboxBrokerPolicyFactory->GetContentPolicy(Pid(), isFileProcess); if (policy) { brokerFd = Some(FileDescriptor()); mSandboxBroker = SandboxBroker::Create(std::move(policy), Pid(), brokerFd.ref()); if (!mSandboxBroker) { KillHard("SandboxBroker::Create failed"); return false; } MOZ_ASSERT(brokerFd.ref().IsValid()); } } # endif if (shouldSandbox && !SendSetProcessSandbox(brokerFd)) { KillHard("SandboxInitFailed"); } #endif // Ensure that the default set of permissions are avaliable in the content // process before we try to load any URIs in it. // // NOTE: All default permissions has to be transmitted to the child process // before the blob urls in the for loop below (See Bug 1738713 comment 12). EnsurePermissionsByKey(""_ns, ""_ns); { nsTArray registrations; BlobURLProtocolHandler::ForEachBlobURL( [&](BlobImpl* aBlobImpl, nsIPrincipal* aPrincipal, const Maybe& aAgentClusterId, const nsACString& aURI, bool aRevoked) { // We send all moz-extension Blob URL's to all content processes // because content scripts mean that a moz-extension can live in any // process. Same thing for system principal Blob URLs. Content Blob // URL's are sent for content principals on-demand by // AboutToLoadHttpFtpDocumentForChild and RemoteWorkerManager. if (!BlobURLProtocolHandler::IsBlobURLBroadcastPrincipal( aPrincipal)) { return true; } IPCBlob ipcBlob; nsresult rv = IPCBlobUtils::Serialize(aBlobImpl, ipcBlob); if (NS_WARN_IF(NS_FAILED(rv))) { return false; } registrations.AppendElement(BlobURLRegistrationData( nsCString(aURI), ipcBlob, aPrincipal, aAgentClusterId, aRevoked)); rv = TransmitPermissionsForPrincipal(aPrincipal); Unused << NS_WARN_IF(NS_FAILED(rv)); return true; }); if (!registrations.IsEmpty()) { Unused << SendInitBlobURLs(registrations); } } // Send down { Parent, Window }ActorOptions at startup to content process. RefPtr actorSvc = JSActorService::GetSingleton(); if (actorSvc) { nsTArray contentInfos; actorSvc->GetJSProcessActorInfos(contentInfos); nsTArray windowInfos; actorSvc->GetJSWindowActorInfos(windowInfos); Unused << SendInitJSActorInfos(contentInfos, windowInfos); } // Begin subscribing to any BrowsingContextGroups which were hosted by this // process before it finished launching. for (const auto& group : mGroups) { group->Subscribe(this); } MaybeEnableRemoteInputEventQueue(); return true; } bool ContentParent::IsAlive() const { return mLifecycleState == LifecycleState::ALIVE || mLifecycleState == LifecycleState::INITIALIZED; } bool ContentParent::IsInitialized() const { return mLifecycleState == LifecycleState::INITIALIZED; } int32_t ContentParent::Pid() const { if (!mSubprocess || !mSubprocess->GetChildProcessHandle()) { return -1; } return base::GetProcId(mSubprocess->GetChildProcessHandle()); } mozilla::ipc::IPCResult ContentParent::RecvGetGfxVars( nsTArray* aVars) { // Ensure gfxVars is initialized (for xpcshell tests). gfxVars::Initialize(); *aVars = gfxVars::FetchNonDefaultVars(); // Now that content has initialized gfxVars, we can start listening for // updates. gfxVars::AddReceiver(this); return IPC_OK(); } void ContentParent::OnCompositorUnexpectedShutdown() { GPUProcessManager* gpm = GPUProcessManager::Get(); Endpoint compositor; Endpoint imageBridge; Endpoint vrBridge; Endpoint videoManager; AutoTArray namespaces; DebugOnly opened = gpm->CreateContentBridges(OtherPid(), &compositor, &imageBridge, &vrBridge, &videoManager, &namespaces); MOZ_ASSERT(opened); Unused << SendReinitRendering(std::move(compositor), std::move(imageBridge), std::move(vrBridge), std::move(videoManager), namespaces); } void ContentParent::OnCompositorDeviceReset() { Unused << SendReinitRenderingForDeviceReset(); } void ContentParent::MaybeEnableRemoteInputEventQueue() { MOZ_ASSERT(!mIsRemoteInputEventQueueEnabled); if (!IsInputEventQueueSupported()) { return; } mIsRemoteInputEventQueueEnabled = true; Unused << SendSetInputEventQueueEnabled(); SetInputPriorityEventEnabled(true); } void ContentParent::SetInputPriorityEventEnabled(bool aEnabled) { if (!IsInputEventQueueSupported() || !mIsRemoteInputEventQueueEnabled || mIsInputPriorityEventEnabled == aEnabled) { return; } mIsInputPriorityEventEnabled = aEnabled; // Send IPC messages to flush the pending events in the input event queue and // the normal event queue. See PContent.ipdl for more details. Unused << SendSuspendInputEventQueue(); Unused << SendFlushInputEventQueue(); Unused << SendResumeInputEventQueue(); } /*static*/ bool ContentParent::IsInputEventQueueSupported() { static bool sSupported = false; static bool sInitialized = false; if (!sInitialized) { MOZ_ASSERT(Preferences::IsServiceAvailable()); sSupported = Preferences::GetBool("input_event_queue.supported", false); sInitialized = true; } return sSupported; } void ContentParent::OnVarChanged(const GfxVarUpdate& aVar) { if (!CanSend()) { return; } Unused << SendVarUpdate(aVar); } mozilla::ipc::IPCResult ContentParent::RecvSetClipboard( const IPCDataTransfer& aDataTransfer, const bool& aIsPrivateData, nsIPrincipal* aRequestingPrincipal, const nsContentPolicyType& aContentPolicyType, const int32_t& aWhichClipboard) { // aRequestingPrincipal is allowed to be nullptr here. if (!ValidatePrincipal(aRequestingPrincipal, {ValidatePrincipalOptions::AllowNullPtr})) { LogAndAssertFailedPrincipalValidationInfo(aRequestingPrincipal, __func__); } nsresult rv; nsCOMPtr clipboard(do_GetService(kCClipboardCID, &rv)); NS_ENSURE_SUCCESS(rv, IPC_OK()); nsCOMPtr trans = do_CreateInstance("@mozilla.org/widget/transferable;1", &rv); NS_ENSURE_SUCCESS(rv, IPC_OK()); trans->Init(nullptr); rv = nsContentUtils::IPCTransferableToTransferable( aDataTransfer, aIsPrivateData, aRequestingPrincipal, aContentPolicyType, true /* aAddDataFlavor */, trans, true /* aFilterUnknownFlavors */); NS_ENSURE_SUCCESS(rv, IPC_OK()); clipboard->SetData(trans, nullptr, aWhichClipboard); return IPC_OK(); } namespace { static Result, nsresult> CreateTransferable( const nsTArray& aTypes) { nsresult rv; nsCOMPtr trans = do_CreateInstance("@mozilla.org/widget/transferable;1", &rv); if (NS_FAILED(rv)) { return Err(rv); } MOZ_TRY(trans->Init(nullptr)); // The private flag is only used to prevent the data from being cached to the // disk. The flag is not exported to the IPCDataTransfer object. // The flag is set because we are not sure whether the clipboard data is used // in a private browsing context. The transferable is only used in this scope, // so the cache would not reduce memory consumption anyway. trans->SetIsPrivateData(true); // Fill out flavors for transferable for (uint32_t t = 0; t < aTypes.Length(); t++) { MOZ_TRY(trans->AddDataFlavor(aTypes[t].get())); } return std::move(trans); } } // anonymous namespace mozilla::ipc::IPCResult ContentParent::RecvGetClipboard( nsTArray&& aTypes, const int32_t& aWhichClipboard, IPCDataTransfer* aDataTransfer) { nsresult rv; // Retrieve clipboard nsCOMPtr clipboard(do_GetService(kCClipboardCID, &rv)); if (NS_FAILED(rv)) { return IPC_OK(); } // Create transferable auto result = CreateTransferable(aTypes); if (result.isErr()) { return IPC_OK(); } // Get data from clipboard nsCOMPtr trans = result.unwrap(); clipboard->GetData(trans, aWhichClipboard); nsContentUtils::TransferableToIPCTransferable( trans, aDataTransfer, true /* aInSyncMessage */, nullptr, this); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvEmptyClipboard( const int32_t& aWhichClipboard) { nsresult rv; nsCOMPtr clipboard(do_GetService(kCClipboardCID, &rv)); NS_ENSURE_SUCCESS(rv, IPC_OK()); clipboard->EmptyClipboard(aWhichClipboard); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvClipboardHasType( nsTArray&& aTypes, const int32_t& aWhichClipboard, bool* aHasType) { nsresult rv; nsCOMPtr clipboard(do_GetService(kCClipboardCID, &rv)); NS_ENSURE_SUCCESS(rv, IPC_OK()); clipboard->HasDataMatchingFlavors(aTypes, aWhichClipboard, aHasType); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvClipboardHasTypesAsync( nsTArray&& aTypes, const int32_t& aWhichClipboard, ClipboardHasTypesAsyncResolver&& aResolver) { nsresult rv; nsCOMPtr clipboard(do_GetService(kCClipboardCID, &rv)); if (NS_FAILED(rv)) { return IPC_FAIL(this, "RecvGetClipboardTypes failed."); } clipboard->AsyncHasDataMatchingFlavors(aTypes, aWhichClipboard) ->Then( GetMainThreadSerialEventTarget(), __func__, /* resolve */ [aResolver](nsTArray types) { aResolver(types); }, /* reject */ [aResolver](nsresult rv) { aResolver(nsTArray{}); }); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvGetExternalClipboardFormats( const int32_t& aWhichClipboard, const bool& aPlainTextOnly, nsTArray* aTypes) { MOZ_ASSERT(aTypes); DataTransfer::GetExternalClipboardFormats(aWhichClipboard, aPlainTextOnly, aTypes); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvGetClipboardAsync( nsTArray&& aTypes, const int32_t& aWhichClipboard, GetClipboardAsyncResolver&& aResolver) { nsresult rv; // Retrieve clipboard nsCOMPtr clipboard(do_GetService(kCClipboardCID, &rv)); if (NS_FAILED(rv)) { aResolver(rv); return IPC_OK(); } // Create transferable auto result = CreateTransferable(aTypes); if (result.isErr()) { aResolver(result.unwrapErr()); return IPC_OK(); } // Get data from clipboard nsCOMPtr trans = result.unwrap(); clipboard->AsyncGetData(trans, nsIClipboard::kGlobalClipboard) ->Then(GetMainThreadSerialEventTarget(), __func__, [trans, aResolver, self = RefPtr{this}]( GenericPromise::ResolveOrRejectValue&& aValue) { IPCDataTransfer ipcDataTransfer; nsContentUtils::TransferableToIPCTransferable( trans, &ipcDataTransfer, false /* aInSyncMessage */, nullptr, self); aResolver(std::move(ipcDataTransfer)); }); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvPlaySound(nsIURI* aURI) { // If the check here fails, it can only mean that this message was spoofed. if (!aURI || !aURI->SchemeIs("chrome")) { // PlaySound only accepts a valid chrome URI. return IPC_FAIL(this, "Invalid aURI passed."); } nsCOMPtr soundURL(do_QueryInterface(aURI)); if (!soundURL) { return IPC_OK(); } nsresult rv; nsCOMPtr sound(do_GetService(NS_SOUND_CID, &rv)); NS_ENSURE_SUCCESS(rv, IPC_OK()); sound->Play(soundURL); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvBeep() { nsresult rv; nsCOMPtr sound(do_GetService(NS_SOUND_CID, &rv)); NS_ENSURE_SUCCESS(rv, IPC_OK()); sound->Beep(); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvPlayEventSound( const uint32_t& aEventId) { nsresult rv; nsCOMPtr sound(do_GetService(NS_SOUND_CID, &rv)); NS_ENSURE_SUCCESS(rv, IPC_OK()); sound->PlayEventSound(aEventId); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvGetIconForExtension( const nsACString& aFileExt, const uint32_t& aIconSize, nsTArray* bits) { #ifdef MOZ_WIDGET_ANDROID NS_ASSERTION(AndroidBridge::Bridge() != nullptr, "AndroidBridge is not available"); if (AndroidBridge::Bridge() == nullptr) { // Do not fail - just no icon will be shown return IPC_OK(); } bits->AppendElements(aIconSize * aIconSize * 4); AndroidBridge::Bridge()->GetIconForExtension(aFileExt, aIconSize, bits->Elements()); #endif return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvFirstIdle() { // When the ContentChild goes idle, it sends us a FirstIdle message // which we use as a good time to signal the PreallocatedProcessManager // that it can start allocating processes from now on. if (mIsAPreallocBlocker) { MOZ_LOG( ContentParent::GetLog(), LogLevel::Verbose, ("RecvFirstIdle %p: Removing Blocker for %s", this, mRemoteType.get())); PreallocatedProcessManager::RemoveBlocker(mRemoteType, this); mIsAPreallocBlocker = false; } return IPC_OK(); } already_AddRefed ContentParent::TakePendingLoadStateForId( uint64_t aLoadIdentifier) { return mPendingLoadStates.Extract(aLoadIdentifier).valueOr(nullptr).forget(); } void ContentParent::StorePendingLoadState(nsDocShellLoadState* aLoadState) { MOZ_DIAGNOSTIC_ASSERT( !mPendingLoadStates.Contains(aLoadState->GetLoadIdentifier()), "The same nsDocShellLoadState was sent to the same content process " "twice? This will mess with cross-process tracking of loads"); mPendingLoadStates.InsertOrUpdate(aLoadState->GetLoadIdentifier(), aLoadState); } mozilla::ipc::IPCResult ContentParent::RecvCleanupPendingLoadState( uint64_t aLoadIdentifier) { mPendingLoadStates.Remove(aLoadIdentifier); return IPC_OK(); } // We want ContentParent to show up in CC logs for debugging purposes, but we // don't actually cycle collect it. NS_IMPL_CYCLE_COLLECTION_0(ContentParent) NS_IMPL_CYCLE_COLLECTING_ADDREF(ContentParent) NS_IMPL_CYCLE_COLLECTING_RELEASE(ContentParent) NS_INTERFACE_MAP_BEGIN_CYCLE_COLLECTION(ContentParent) NS_INTERFACE_MAP_ENTRY_CONCRETE(ContentParent) NS_INTERFACE_MAP_ENTRY(nsIDOMProcessParent) NS_INTERFACE_MAP_ENTRY(nsIObserver) NS_INTERFACE_MAP_ENTRY(nsIDOMGeoPositionCallback) NS_INTERFACE_MAP_ENTRY(nsIDOMGeoPositionErrorCallback) NS_INTERFACE_MAP_ENTRY(nsIAsyncShutdownBlocker) NS_INTERFACE_MAP_ENTRY(nsIInterfaceRequestor) NS_INTERFACE_MAP_ENTRY_AMBIGUOUS(nsISupports, nsIDOMProcessParent) NS_INTERFACE_MAP_END class RequestContentJSInterruptRunnable final : public Runnable { public: explicit RequestContentJSInterruptRunnable(PProcessHangMonitorParent* aActor) : Runnable("dom::RequestContentJSInterruptRunnable"), mHangMonitorActor(aActor) {} NS_IMETHOD Run() override { MOZ_ASSERT(mHangMonitorActor); Unused << mHangMonitorActor->SendRequestContentJSInterrupt(); return NS_OK; } private: // The end-of-life of ContentParent::mHangMonitorActor is bound to // ContentParent::ActorDestroy and then HangMonitorParent::Shutdown // dispatches a shutdown runnable to this queue and waits for it to be // executed. So the runnable needs not to care about keeping it alive, // as it is surely dispatched earlier than the // HangMonitorParent::ShutdownOnThread. PProcessHangMonitorParent* mHangMonitorActor; }; void ContentParent::SignalImpendingShutdownToContentJS() { if (!mIsSignaledImpendingShutdown && !AppShutdown::IsInOrBeyond(ShutdownPhase::AppShutdown)) { MaybeLogBlockShutdownDiagnostics( this, "BlockShutdown: NotifyImpendingShutdown.", __FILE__, __LINE__); NotifyImpendingShutdown(); mIsSignaledImpendingShutdown = true; if (mHangMonitorActor && StaticPrefs::dom_abort_script_on_child_shutdown()) { MaybeLogBlockShutdownDiagnostics( this, "BlockShutdown: RequestContentJSInterrupt.", __FILE__, __LINE__); RefPtr r = new RequestContentJSInterruptRunnable(mHangMonitorActor); ProcessHangMonitor::Get()->Dispatch(r.forget()); } } } // Async shutdown blocker NS_IMETHODIMP ContentParent::BlockShutdown(nsIAsyncShutdownClient* aClient) { if (!AppShutdown::IsInOrBeyond(ShutdownPhase::AppShutdown)) { #ifdef MOZ_DIAGNOSTIC_ASSERT_ENABLED mBlockShutdownCalled = true; #endif // Our real shutdown has not yet started. Just notify the // impending shutdown and eventually cancel content JS. SignalImpendingShutdownToContentJS(); if (sQuitApplicationGrantedClient) { Unused << sQuitApplicationGrantedClient->RemoveBlocker(this); } #ifdef MOZ_DIAGNOSTIC_ASSERT_ENABLED mBlockShutdownCalled = false; #endif return NS_OK; } #ifdef MOZ_DIAGNOSTIC_ASSERT_ENABLED // We register two final shutdown blockers and both would call us, but if // things go well we will unregister both as (delayed) reaction to the first // call we get and thus never receive a second call. Thus we believe that we // will get called only once except for quit-application-granted, which is // handled above. MOZ_ASSERT(!mBlockShutdownCalled); mBlockShutdownCalled = true; #endif if (CanSend()) { MaybeLogBlockShutdownDiagnostics(this, "BlockShutdown: CanSend.", __FILE__, __LINE__); // Make sure that our process will get scheduled. ProcessPriorityManager::SetProcessPriority(this, PROCESS_PRIORITY_FOREGROUND); // The normal shutdown sequence is to send a shutdown message // to the child and then just wait for ActorDestroy which will // cleanup everything and remove our blockers. if (!ShutDownProcess(SEND_SHUTDOWN_MESSAGE)) { KillHard("Failed to send Shutdown message. Destroying the process..."); return NS_OK; } } else if (IsLaunching()) { MaybeLogBlockShutdownDiagnostics( this, "BlockShutdown: !CanSend && IsLaunching.", __FILE__, __LINE__); // If we get here while we are launching, we must wait for the child to // be able to react on our commands. Mark this process as dead. This // will make bail out LaunchSubprocessResolve and kick off the normal // shutdown sequence. MarkAsDead(); } else { MOZ_ASSERT(IsDead()); if (!IsDead()) { MaybeLogBlockShutdownDiagnostics( this, "BlockShutdown: !!! !CanSend && !IsLaunching && !IsDead !!!", __FILE__, __LINE__); } else { MaybeLogBlockShutdownDiagnostics( this, "BlockShutdown: !CanSend && !IsLaunching && IsDead.", __FILE__, __LINE__); } // Nothing left we can do. We must assume that we race with an ongoing // process shutdown, such that we can expect our shutdown blockers to be // removed normally. } return NS_OK; } NS_IMETHODIMP ContentParent::GetName(nsAString& aName) { aName.AssignLiteral("ContentParent:"); aName.AppendPrintf(" id=%p", this); return NS_OK; } NS_IMETHODIMP ContentParent::GetState(nsIPropertyBag** aResult) { auto props = MakeRefPtr(); props->SetPropertyAsACString(u"remoteTypePrefix"_ns, RemoteTypePrefix(mRemoteType)); *aResult = props.forget().downcast().take(); return NS_OK; } static void InitShutdownClients() { if (!sXPCOMShutdownClient) { nsresult rv; nsCOMPtr svc = services::GetAsyncShutdownService(); if (!svc) { return; } nsCOMPtr client; // TODO: It seems as if getPhase from AsyncShutdown.sys.mjs does not check // if we are beyond our phase already. See bug 1762840. if (!AppShutdown::IsInOrBeyond(ShutdownPhase::XPCOMWillShutdown)) { rv = svc->GetXpcomWillShutdown(getter_AddRefs(client)); if (NS_SUCCEEDED(rv)) { sXPCOMShutdownClient = client.forget(); ClearOnShutdown(&sXPCOMShutdownClient); } } if (!AppShutdown::IsInOrBeyond(ShutdownPhase::AppShutdown)) { rv = svc->GetProfileBeforeChange(getter_AddRefs(client)); if (NS_SUCCEEDED(rv)) { sProfileBeforeChangeClient = client.forget(); ClearOnShutdown(&sProfileBeforeChangeClient); } } // TODO: ShutdownPhase::AppShutdownConfirmed is not mapping to // QuitApplicationGranted, see bug 1762840 comment 4. if (!AppShutdown::IsInOrBeyond(ShutdownPhase::AppShutdownConfirmed)) { rv = svc->GetQuitApplicationGranted(getter_AddRefs(client)); if (NS_SUCCEEDED(rv)) { sQuitApplicationGrantedClient = client.forget(); ClearOnShutdown(&sQuitApplicationGrantedClient); } } } } void ContentParent::AddShutdownBlockers() { InitShutdownClients(); MOZ_ASSERT(sXPCOMShutdownClient); MOZ_ASSERT(sProfileBeforeChangeClient); if (sXPCOMShutdownClient) { sXPCOMShutdownClient->AddBlocker( this, NS_LITERAL_STRING_FROM_CSTRING(__FILE__), __LINE__, u""_ns); } if (sProfileBeforeChangeClient) { sProfileBeforeChangeClient->AddBlocker( this, NS_LITERAL_STRING_FROM_CSTRING(__FILE__), __LINE__, u""_ns); } if (sQuitApplicationGrantedClient) { sQuitApplicationGrantedClient->AddBlocker( this, NS_LITERAL_STRING_FROM_CSTRING(__FILE__), __LINE__, u""_ns); } } void ContentParent::RemoveShutdownBlockers() { MOZ_ASSERT(sXPCOMShutdownClient); MOZ_ASSERT(sProfileBeforeChangeClient); MaybeLogBlockShutdownDiagnostics(this, "RemoveShutdownBlockers", __FILE__, __LINE__); #ifdef MOZ_DIAGNOSTIC_ASSERT_ENABLED mBlockShutdownCalled = false; #endif if (sXPCOMShutdownClient) { Unused << sXPCOMShutdownClient->RemoveBlocker(this); } if (sProfileBeforeChangeClient) { Unused << sProfileBeforeChangeClient->RemoveBlocker(this); } if (sQuitApplicationGrantedClient) { Unused << sQuitApplicationGrantedClient->RemoveBlocker(this); } } NS_IMETHODIMP ContentParent::Observe(nsISupports* aSubject, const char* aTopic, const char16_t* aData) { if (IsDead() || !mSubprocess) { return NS_OK; } if (!strcmp(aTopic, "nsPref:changed")) { // We know prefs are ASCII here. NS_LossyConvertUTF16toASCII strData(aData); Pref pref(strData, /* isLocked */ false, /* isSanitized */ false, Nothing(), Nothing()); Preferences::GetPreference(&pref, GeckoProcessType_Content, GetRemoteType()); if (IsInitialized()) { MOZ_ASSERT(mQueuedPrefs.IsEmpty()); if (!SendPreferenceUpdate(pref)) { return NS_ERROR_NOT_AVAILABLE; } } else { MOZ_ASSERT(!IsDead()); mQueuedPrefs.AppendElement(pref); } } if (!IsAlive()) { return NS_OK; } // listening for memory pressure event if (!strcmp(aTopic, "memory-pressure")) { Unused << SendFlushMemory(nsDependentString(aData)); } else if (!strcmp(aTopic, "application-background")) { Unused << SendApplicationBackground(); } else if (!strcmp(aTopic, "application-foreground")) { Unused << SendApplicationForeground(); } else if (!strcmp(aTopic, NS_IPC_IOSERVICE_SET_OFFLINE_TOPIC)) { NS_ConvertUTF16toUTF8 dataStr(aData); const char* offline = dataStr.get(); if (!SendSetOffline(!strcmp(offline, "true"))) { return NS_ERROR_NOT_AVAILABLE; } } else if (!strcmp(aTopic, NS_IPC_IOSERVICE_SET_CONNECTIVITY_TOPIC)) { if (!SendSetConnectivity(u"true"_ns.Equals(aData))) { return NS_ERROR_NOT_AVAILABLE; } } else if (!strcmp(aTopic, NS_IPC_CAPTIVE_PORTAL_SET_STATE)) { nsCOMPtr cps = do_QueryInterface(aSubject); MOZ_ASSERT(cps, "Should QI to a captive portal service"); if (!cps) { return NS_ERROR_FAILURE; } int32_t state; cps->GetState(&state); if (!SendSetCaptivePortalState(state)) { return NS_ERROR_NOT_AVAILABLE; } } // listening for alert notifications else if (!strcmp(aTopic, "alertfinished") || !strcmp(aTopic, "alertclickcallback") || !strcmp(aTopic, "alertshow") || !strcmp(aTopic, "alertdisablecallback") || !strcmp(aTopic, "alertsettingscallback")) { if (!SendNotifyAlertsObserver(nsDependentCString(aTopic), nsDependentString(aData))) return NS_ERROR_NOT_AVAILABLE; } else if (!strcmp(aTopic, "child-gc-request")) { Unused << SendGarbageCollect(); } else if (!strcmp(aTopic, "child-cc-request")) { Unused << SendCycleCollect(); } else if (!strcmp(aTopic, "child-mmu-request")) { Unused << SendMinimizeMemoryUsage(); } else if (!strcmp(aTopic, "child-ghost-request")) { Unused << SendUnlinkGhosts(); } else if (!strcmp(aTopic, "last-pb-context-exited")) { Unused << SendLastPrivateDocShellDestroyed(); } #ifdef ACCESSIBILITY else if (aData && !strcmp(aTopic, "a11y-init-or-shutdown")) { if (*aData == '1') { // Make sure accessibility is running in content process when // accessibility gets initiated in chrome process. # if defined(XP_WIN) // Don't init content a11y if we detect an incompat version of JAWS in // use. if (!mozilla::a11y::Compatibility::IsOldJAWS()) { Unused << SendActivateA11y( ::GetCurrentThreadId(), a11y::MsaaAccessible::GetContentProcessIdFor(ChildID())); } # else Unused << SendActivateA11y(0, 0); # endif } else { // If possible, shut down accessibility in content process when // accessibility gets shutdown in chrome process. Unused << SendShutdownA11y(); } } #endif else if (!strcmp(aTopic, "cacheservice:empty-cache")) { Unused << SendNotifyEmptyHTTPCache(); } else if (!strcmp(aTopic, "intl:app-locales-changed")) { nsTArray appLocales; LocaleService::GetInstance()->GetAppLocalesAsBCP47(appLocales); Unused << SendUpdateAppLocales(appLocales); } else if (!strcmp(aTopic, "intl:requested-locales-changed")) { nsTArray requestedLocales; LocaleService::GetInstance()->GetRequestedLocales(requestedLocales); Unused << SendUpdateRequestedLocales(requestedLocales); } else if (!strcmp(aTopic, "cookie-changed") || !strcmp(aTopic, "private-cookie-changed")) { if (!aData) { return NS_ERROR_UNEXPECTED; } PNeckoParent* neckoParent = LoneManagedOrNullAsserts(ManagedPNeckoParent()); if (!neckoParent) { return NS_OK; } PCookieServiceParent* csParent = LoneManagedOrNullAsserts(neckoParent->ManagedPCookieServiceParent()); if (!csParent) { return NS_OK; } auto* cs = static_cast(csParent); // Do not push these cookie updates to the same process they originated // from. if (cs->ProcessingCookie()) { return NS_OK; } if (!nsCRT::strcmp(aData, u"batch-deleted")) { nsCOMPtr cookieList = do_QueryInterface(aSubject); NS_ASSERTION(cookieList, "couldn't get cookie list"); cs->RemoveBatchDeletedCookies(cookieList); return NS_OK; } if (!nsCRT::strcmp(aData, u"cleared")) { cs->RemoveAll(); return NS_OK; } nsCOMPtr xpcCookie = do_QueryInterface(aSubject); NS_ASSERTION(xpcCookie, "couldn't get cookie"); // only broadcast the cookie change to content processes that need it const Cookie& cookie = xpcCookie->AsCookie(); if (!cs->CookieMatchesContentList(cookie)) { return NS_OK; } if (!nsCRT::strcmp(aData, u"deleted")) { cs->RemoveCookie(cookie); } else if ((!nsCRT::strcmp(aData, u"added")) || (!nsCRT::strcmp(aData, u"changed"))) { cs->AddCookie(cookie); } } else if (!strcmp(aTopic, NS_NETWORK_LINK_TYPE_TOPIC)) { UpdateNetworkLinkType(); } else if (!strcmp(aTopic, "network:socket-process-crashed")) { Unused << SendSocketProcessCrashed(); } else if (!strcmp(aTopic, DEFAULT_TIMEZONE_CHANGED_OBSERVER_TOPIC)) { Unused << SendSystemTimezoneChanged(); } return NS_OK; } void ContentParent::UpdateNetworkLinkType() { nsresult rv; nsCOMPtr nls = do_GetService(NS_NETWORK_LINK_SERVICE_CONTRACTID, &rv); if (NS_FAILED(rv)) { return; } uint32_t linkType = nsINetworkLinkService::LINK_TYPE_UNKNOWN; rv = nls->GetLinkType(&linkType); if (NS_FAILED(rv)) { return; } Unused << SendNetworkLinkTypeChange(linkType); } NS_IMETHODIMP ContentParent::GetInterface(const nsIID& aIID, void** aResult) { NS_ENSURE_ARG_POINTER(aResult); if (aIID.Equals(NS_GET_IID(nsIMessageSender))) { nsCOMPtr mm = GetMessageManager(); mm.forget(aResult); return NS_OK; } return NS_NOINTERFACE; } mozilla::ipc::IPCResult ContentParent::RecvInitBackground( Endpoint&& aEndpoint) { if (!BackgroundParent::AllocStarter(this, std::move(aEndpoint))) { NS_WARNING("BackgroundParent::Alloc failed"); } return IPC_OK(); } bool ContentParent::CanOpenBrowser(const IPCTabContext& aContext) { // (PopupIPCTabContext lets the child process prove that it has access to // the app it's trying to open.) // On e10s we also allow UnsafeTabContext to allow service workers to open // windows. This is enforced in MaybeInvalidTabContext. if (aContext.type() != IPCTabContext::TPopupIPCTabContext) { MOZ_CRASH_UNLESS_FUZZING( "Unexpected IPCTabContext type. Aborting AllocPBrowserParent."); return false; } if (aContext.type() == IPCTabContext::TPopupIPCTabContext) { const PopupIPCTabContext& popupContext = aContext.get_PopupIPCTabContext(); auto opener = BrowserParent::GetFrom(popupContext.openerParent()); if (!opener) { MOZ_CRASH_UNLESS_FUZZING( "Got null opener from child; aborting AllocPBrowserParent."); return false; } } MaybeInvalidTabContext tc(aContext); if (!tc.IsValid()) { NS_ERROR(nsPrintfCString("Child passed us an invalid TabContext. (%s) " "Aborting AllocPBrowserParent.", tc.GetInvalidReason()) .get()); return false; } return true; } static bool CloneIsLegal(ContentParent* aCp, CanonicalBrowsingContext& aSource, CanonicalBrowsingContext& aTarget) { // Source and target must be in the same BCG if (NS_WARN_IF(aSource.Group() != aTarget.Group())) { return false; } // The source and target must be in different toplevel s if (NS_WARN_IF(aSource.Top() == aTarget.Top())) { return false; } // Neither source nor target must be toplevel. if (NS_WARN_IF(aSource.IsTop()) || NS_WARN_IF(aTarget.IsTop())) { return false; } // Both should be embedded by the same process. auto* sourceEmbedder = aSource.GetParentWindowContext(); if (NS_WARN_IF(!sourceEmbedder) || NS_WARN_IF(sourceEmbedder->GetContentParent() != aCp)) { return false; } auto* targetEmbedder = aSource.GetParentWindowContext(); if (NS_WARN_IF(!targetEmbedder) || NS_WARN_IF(targetEmbedder->GetContentParent() != aCp)) { return false; } // All seems sane. return true; } mozilla::ipc::IPCResult ContentParent::RecvCloneDocumentTreeInto( const MaybeDiscarded& aSource, const MaybeDiscarded& aTarget, PrintData&& aPrintData) { if (aSource.IsNullOrDiscarded() || aTarget.IsNullOrDiscarded()) { return IPC_OK(); } auto* source = aSource.get_canonical(); auto* target = aTarget.get_canonical(); if (!CloneIsLegal(this, *source, *target)) { return IPC_FAIL(this, "Illegal subframe clone"); } ContentParent* cp = source->GetContentParent(); if (NS_WARN_IF(!cp)) { return IPC_OK(); } if (NS_WARN_IF(cp->GetRemoteType() == GetRemoteType())) { // Wanted to switch to a target browsing context that's already local again. // See bug 1676996 for how this can happen. // // Dropping the switch on the floor seems fine for this case, though we // could also try to clone the local document. // // If the remote type matches & it's in the same group (which was confirmed // by CloneIsLegal), it must be the exact same process. MOZ_DIAGNOSTIC_ASSERT(cp == this); return IPC_OK(); } target->CloneDocumentTreeInto(source, cp->GetRemoteType(), std::move(aPrintData)); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvUpdateRemotePrintSettings( const MaybeDiscarded& aTarget, PrintData&& aPrintData) { if (aTarget.IsNullOrDiscarded()) { return IPC_OK(); } auto* target = aTarget.get_canonical(); auto* bp = target->GetBrowserParent(); if (NS_WARN_IF(!bp)) { return IPC_OK(); } Unused << bp->SendUpdateRemotePrintSettings(std::move(aPrintData)); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvConstructPopupBrowser( ManagedEndpoint&& aBrowserEp, ManagedEndpoint&& aWindowEp, const TabId& aTabId, const IPCTabContext& aContext, const WindowGlobalInit& aInitialWindowInit, const uint32_t& aChromeFlags) { MOZ_ASSERT(XRE_IsParentProcess()); if (!CanOpenBrowser(aContext)) { return IPC_FAIL(this, "CanOpenBrowser Failed"); } RefPtr browsingContext = CanonicalBrowsingContext::Get( aInitialWindowInit.context().mBrowsingContextId); if (!browsingContext || browsingContext->IsDiscarded()) { return IPC_FAIL(this, "Null or discarded initial BrowsingContext"); } if (!aInitialWindowInit.principal()) { return IPC_FAIL(this, "Cannot create without valid initial principal"); } if (!ValidatePrincipal(aInitialWindowInit.principal())) { LogAndAssertFailedPrincipalValidationInfo(aInitialWindowInit.principal(), __func__); } if (browsingContext->GetBrowserParent()) { return IPC_FAIL(this, "BrowsingContext already has a BrowserParent"); } uint32_t chromeFlags = aChromeFlags; TabId openerTabId(0); ContentParentId openerCpId(0); if (aContext.type() == IPCTabContext::TPopupIPCTabContext) { // CanOpenBrowser has ensured that the IPCTabContext is of // type PopupIPCTabContext, and that the opener BrowserParent is // reachable. const PopupIPCTabContext& popupContext = aContext.get_PopupIPCTabContext(); auto opener = BrowserParent::GetFrom(popupContext.openerParent()); openerTabId = opener->GetTabId(); openerCpId = opener->Manager()->ChildID(); // We must ensure that the private browsing and remoteness flags // match those of the opener. nsCOMPtr loadContext = opener->GetLoadContext(); if (!loadContext) { return IPC_FAIL(this, "Missing Opener LoadContext"); } if (loadContext->UsePrivateBrowsing()) { chromeFlags |= nsIWebBrowserChrome::CHROME_PRIVATE_WINDOW; } if (loadContext->UseRemoteSubframes()) { chromeFlags |= nsIWebBrowserChrome::CHROME_FISSION_WINDOW; } } // And because we're allocating a remote browser, of course the // window is remote. chromeFlags |= nsIWebBrowserChrome::CHROME_REMOTE_WINDOW; if (NS_WARN_IF(!browsingContext->IsOwnedByProcess(ChildID()))) { return IPC_FAIL(this, "BrowsingContext Owned by Incorrect Process!"); } MaybeInvalidTabContext tc(aContext); MOZ_ASSERT(tc.IsValid()); RefPtr initialWindow = WindowGlobalParent::CreateDisconnected(aInitialWindowInit); if (!initialWindow) { return IPC_FAIL(this, "Failed to create WindowGlobalParent"); } auto parent = MakeRefPtr(this, aTabId, tc.GetTabContext(), browsingContext, chromeFlags); // Bind the created BrowserParent to IPC to actually link the actor. if (NS_WARN_IF(!BindPBrowserEndpoint(std::move(aBrowserEp), parent))) { return IPC_FAIL(this, "BindPBrowserEndpoint failed"); } // XXX: Why are we checking these requirements? It seems we should register // the created frame unconditionally? if (openerTabId > 0) { // The creation of PBrowser was triggered from content process through // window.open(). // We need to register remote frame with the child generated tab id. auto* cpm = ContentProcessManager::GetSingleton(); if (!cpm || !cpm->RegisterRemoteFrame(parent)) { return IPC_FAIL(this, "RegisterRemoteFrame Failed"); } } if (NS_WARN_IF(!parent->BindPWindowGlobalEndpoint(std::move(aWindowEp), initialWindow))) { return IPC_FAIL(this, "BindPWindowGlobalEndpoint failed"); } browsingContext->SetCurrentBrowserParent(parent); initialWindow->Init(); // When enabling input event prioritization, input events may preempt other // normal priority IPC messages. To prevent the input events preempt // PBrowserConstructor, we use an IPC 'RemoteIsReadyToHandleInputEvents' to // notify parent that BrowserChild is created. In this case, PBrowser is // initiated from content so that we can set BrowserParent as ready to handle // input parent->SetReadyToHandleInputEvents(); return IPC_OK(); } mozilla::PRemoteSpellcheckEngineParent* ContentParent::AllocPRemoteSpellcheckEngineParent() { mozilla::RemoteSpellcheckEngineParent* parent = new mozilla::RemoteSpellcheckEngineParent(); return parent; } bool ContentParent::DeallocPRemoteSpellcheckEngineParent( PRemoteSpellcheckEngineParent* parent) { delete parent; return true; } /* static */ void ContentParent::ForceKillTimerCallback(nsITimer* aTimer, void* aClosure) { // We don't want to time out the content process during XPCShell tests. This // is the easiest way to ensure that. if (PR_GetEnv("XPCSHELL_TEST_PROFILE_DIR")) { return; } auto self = static_cast(aClosure); self->KillHard("ShutDownKill"); } void ContentParent::GeneratePairedMinidump(const char* aReason) { // We're about to kill the child process associated with this content. // Something has gone wrong to get us here, so we generate a minidump // of the parent and child for submission to the crash server unless we're // already shutting down. if (mCrashReporter && !AppShutdown::IsInOrBeyond(ShutdownPhase::AppShutdownConfirmed) && StaticPrefs::dom_ipc_tabs_createKillHardCrashReports_AtStartup()) { // GeneratePairedMinidump creates two minidumps for us - the main // one is for the content process we're about to kill, and the other // one is for the main browser process. That second one is the extra // minidump tagging along, so we have to tell the crash reporter that // it exists and is being appended. nsAutoCString additionalDumps("browser"); mCrashReporter->AddAnnotation( CrashReporter::Annotation::additional_minidumps, additionalDumps); nsDependentCString reason(aReason); mCrashReporter->AddAnnotation(CrashReporter::Annotation::ipc_channel_error, reason); // Generate the report and insert into the queue for submittal. if (mCrashReporter->GenerateMinidumpAndPair(this, "browser"_ns)) { mCrashReporter->FinalizeCrashReport(); mCreatedPairedMinidumps = true; } } } void ContentParent::HandleOrphanedMinidump(nsString* aDumpId) { if (CrashReporter::FinalizeOrphanedMinidump( OtherPid(), GeckoProcessType_Content, aDumpId)) { CrashReporterHost::RecordCrash(GeckoProcessType_Content, nsICrashService::CRASH_TYPE_CRASH, *aDumpId); } else { NS_WARNING(nsPrintfCString("content process pid = %" PRIPID " crashed without leaving a minidump behind", OtherPid()) .get()); } } // WARNING: aReason appears in telemetry, so any new value passed in requires // data review. void ContentParent::KillHard(const char* aReason) { AUTO_PROFILER_LABEL("ContentParent::KillHard", OTHER); // On Windows, calling KillHard multiple times causes problems - the // process handle becomes invalid on the first call, causing a second call // to crash our process - more details in bug 890840. if (mCalledKillHard) { return; } mCalledKillHard = true; mForceKillTimer = nullptr; RemoveShutdownBlockers(); nsCString reason = nsDependentCString(aReason); // If we find mIsNotifiedShutdownSuccess there is no reason to blame this // content process, most probably our parent process is just slow in // processing its own main thread queue. if (!mIsNotifiedShutdownSuccess) { GeneratePairedMinidump(aReason); } else { reason = nsDependentCString("KillHard after IsNotifiedShutdownSuccess."); } Telemetry::Accumulate(Telemetry::SUBPROCESS_KILL_HARD, reason, 1); ProcessHandle otherProcessHandle; if (!base::OpenProcessHandle(OtherPid(), &otherProcessHandle)) { NS_ERROR("Failed to open child process when attempting kill."); return; } if (!KillProcess(otherProcessHandle, base::PROCESS_END_KILLED_BY_USER)) { if (mCrashReporter) { mCrashReporter->DeleteCrashReport(); } NS_WARNING("failed to kill subprocess!"); } if (mSubprocess) { MOZ_LOG( ContentParent::GetLog(), LogLevel::Verbose, ("KillHard Subprocess(%s): ContentParent %p mSubprocess %p handle " "%" PRIuPTR, aReason, this, mSubprocess, mSubprocess ? (uintptr_t)mSubprocess->GetChildProcessHandle() : -1)); mSubprocess->SetAlreadyDead(); } // EnsureProcessTerminated has responsibilty for closing otherProcessHandle. XRE_GetIOMessageLoop()->PostTask( NewRunnableFunction("EnsureProcessTerminatedRunnable", &ProcessWatcher::EnsureProcessTerminated, otherProcessHandle, /*force=*/true)); } void ContentParent::FriendlyName(nsAString& aName, bool aAnonymize) { aName.Truncate(); if (mIsForBrowser) { aName.AssignLiteral("Browser"); } else if (aAnonymize) { aName.AssignLiteral(""); } else { aName.AssignLiteral("???"); } } mozilla::ipc::IPCResult ContentParent::RecvInitCrashReporter( const NativeThreadId& aThreadId) { mCrashReporter = MakeUnique(GeckoProcessType_Content, aThreadId); return IPC_OK(); } hal_sandbox::PHalParent* ContentParent::AllocPHalParent() { return hal_sandbox::CreateHalParent(); } bool ContentParent::DeallocPHalParent(hal_sandbox::PHalParent* aHal) { delete aHal; return true; } devtools::PHeapSnapshotTempFileHelperParent* ContentParent::AllocPHeapSnapshotTempFileHelperParent() { return devtools::HeapSnapshotTempFileHelperParent::Create(); } bool ContentParent::DeallocPHeapSnapshotTempFileHelperParent( devtools::PHeapSnapshotTempFileHelperParent* aHeapSnapshotHelper) { delete aHeapSnapshotHelper; return true; } bool ContentParent::SendRequestMemoryReport( const uint32_t& aGeneration, const bool& aAnonymize, const bool& aMinimizeMemoryUsage, const Maybe& aDMDFile) { // This automatically cancels the previous request. mMemoryReportRequest = MakeUnique(aGeneration); // If we run the callback in response to a reply, then by definition |this| // is still alive, so the ref pointer is redundant, but it seems easier // to hold a strong reference than to worry about that. RefPtr self(this); PContentParent::SendRequestMemoryReport( aGeneration, aAnonymize, aMinimizeMemoryUsage, aDMDFile, [&, self](const uint32_t& aGeneration2) { if (self->mMemoryReportRequest) { self->mMemoryReportRequest->Finish(aGeneration2); self->mMemoryReportRequest = nullptr; } }, [&, self](mozilla::ipc::ResponseRejectReason) { self->mMemoryReportRequest = nullptr; }); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvAddMemoryReport( const MemoryReport& aReport) { if (mMemoryReportRequest) { mMemoryReportRequest->RecvReport(aReport); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvAddPerformanceMetrics( const nsID& aID, nsTArray&& aMetrics) { nsresult rv = PerformanceMetricsCollector::DataReceived(aID, aMetrics); Unused << NS_WARN_IF(NS_FAILED(rv)); return IPC_OK(); } PCycleCollectWithLogsParent* ContentParent::AllocPCycleCollectWithLogsParent( const bool& aDumpAllTraces, const FileDescriptor& aGCLog, const FileDescriptor& aCCLog) { MOZ_CRASH("Don't call this; use ContentParent::CycleCollectWithLogs"); } bool ContentParent::DeallocPCycleCollectWithLogsParent( PCycleCollectWithLogsParent* aActor) { delete aActor; return true; } bool ContentParent::CycleCollectWithLogs( bool aDumpAllTraces, nsICycleCollectorLogSink* aSink, nsIDumpGCAndCCLogsCallback* aCallback) { return CycleCollectWithLogsParent::AllocAndSendConstructor( this, aDumpAllTraces, aSink, aCallback); } PTestShellParent* ContentParent::AllocPTestShellParent() { return new TestShellParent(); } bool ContentParent::DeallocPTestShellParent(PTestShellParent* shell) { delete shell; return true; } PScriptCacheParent* ContentParent::AllocPScriptCacheParent( const FileDescOrError& cacheFile, const bool& wantCacheData) { return new loader::ScriptCacheParent(wantCacheData); } bool ContentParent::DeallocPScriptCacheParent(PScriptCacheParent* cache) { delete static_cast(cache); return true; } already_AddRefed ContentParent::AllocPNeckoParent() { RefPtr actor = new NeckoParent(); return actor.forget(); } mozilla::ipc::IPCResult ContentParent::RecvInitStreamFilter( const uint64_t& aChannelId, const nsAString& aAddonId, InitStreamFilterResolver&& aResolver) { extensions::StreamFilterParent::Create(this, aChannelId, aAddonId) ->Then( GetCurrentSerialEventTarget(), __func__, [aResolver](mozilla::ipc::Endpoint&& aEndpoint) { aResolver(std::move(aEndpoint)); }, [aResolver](bool aDummy) { aResolver(mozilla::ipc::Endpoint()); }); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvAddSecurityState( const MaybeDiscarded& aContext, uint32_t aStateFlags) { if (aContext.IsNullOrDiscarded()) { return IPC_OK(); } aContext.get()->AddSecurityState(aStateFlags); return IPC_OK(); } already_AddRefed ContentParent::AllocPExternalHelperAppParent( nsIURI* uri, const Maybe& aLoadInfoArgs, const nsACString& aMimeContentType, const nsACString& aContentDisposition, const uint32_t& aContentDispositionHint, const nsAString& aContentDispositionFilename, const bool& aForceSave, const int64_t& aContentLength, const bool& aWasFileChannel, nsIURI* aReferrer, const MaybeDiscarded& aContext, const bool& aShouldCloseWindow) { RefPtr parent = new ExternalHelperAppParent( uri, aContentLength, aWasFileChannel, aContentDisposition, aContentDispositionHint, aContentDispositionFilename); return parent.forget(); } mozilla::ipc::IPCResult ContentParent::RecvPExternalHelperAppConstructor( PExternalHelperAppParent* actor, nsIURI* uri, const Maybe& loadInfoArgs, const nsACString& aMimeContentType, const nsACString& aContentDisposition, const uint32_t& aContentDispositionHint, const nsAString& aContentDispositionFilename, const bool& aForceSave, const int64_t& aContentLength, const bool& aWasFileChannel, nsIURI* aReferrer, const MaybeDiscarded& aContext, const bool& aShouldCloseWindow) { BrowsingContext* context = aContext.IsDiscarded() ? nullptr : aContext.get(); if (!static_cast(actor)->Init( loadInfoArgs, aMimeContentType, aForceSave, aReferrer, context, aShouldCloseWindow)) { return IPC_FAIL(this, "Init failed."); } return IPC_OK(); } already_AddRefed ContentParent::AllocPHandlerServiceParent() { RefPtr actor = new HandlerServiceParent(); return actor.forget(); } media::PMediaParent* ContentParent::AllocPMediaParent() { return media::AllocPMediaParent(); } bool ContentParent::DeallocPMediaParent(media::PMediaParent* aActor) { return media::DeallocPMediaParent(aActor); } PBenchmarkStorageParent* ContentParent::AllocPBenchmarkStorageParent() { return new BenchmarkStorageParent; } bool ContentParent::DeallocPBenchmarkStorageParent( PBenchmarkStorageParent* aActor) { delete aActor; return true; } #ifdef MOZ_WEBSPEECH PSpeechSynthesisParent* ContentParent::AllocPSpeechSynthesisParent() { if (!StaticPrefs::media_webspeech_synth_enabled()) { return nullptr; } return new mozilla::dom::SpeechSynthesisParent(); } bool ContentParent::DeallocPSpeechSynthesisParent( PSpeechSynthesisParent* aActor) { delete aActor; return true; } mozilla::ipc::IPCResult ContentParent::RecvPSpeechSynthesisConstructor( PSpeechSynthesisParent* aActor) { if (!static_cast(aActor)->SendInit()) { return IPC_FAIL(this, "SpeechSynthesisParent::SendInit failed."); } return IPC_OK(); } #endif mozilla::ipc::IPCResult ContentParent::RecvStartVisitedQueries( const nsTArray>& aUris) { nsCOMPtr history = components::History::Service(); if (!history) { return IPC_OK(); } for (const auto& uri : aUris) { if (NS_WARN_IF(!uri)) { continue; } history->ScheduleVisitedQuery(uri, this); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvSetURITitle(nsIURI* uri, const nsAString& title) { if (!uri) { return IPC_FAIL(this, "uri must not be null."); } nsCOMPtr history = components::History::Service(); if (history) { history->SetURITitle(uri, title); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvIsSecureURI( nsIURI* aURI, const OriginAttributes& aOriginAttributes, bool* aIsSecureURI) { nsCOMPtr sss(do_GetService(NS_SSSERVICE_CONTRACTID)); if (!sss) { return IPC_FAIL(this, "Failed to get nsISiteSecurityService."); } if (!aURI) { return IPC_FAIL(this, "aURI must not be null."); } nsresult rv = sss->IsSecureURI(aURI, aOriginAttributes, aIsSecureURI); if (NS_FAILED(rv)) { return IPC_FAIL(this, "IsSecureURI failed."); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvAccumulateMixedContentHSTS( nsIURI* aURI, const bool& aActive, const OriginAttributes& aOriginAttributes) { if (!aURI) { return IPC_FAIL(this, "aURI must not be null."); } nsMixedContentBlocker::AccumulateMixedContentHSTS(aURI, aActive, aOriginAttributes); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvLoadURIExternal( nsIURI* uri, nsIPrincipal* aTriggeringPrincipal, nsIPrincipal* aRedirectPrincipal, const MaybeDiscarded& aContext, bool aWasExternallyTriggered, bool aHasValidUserGestureActivation) { if (aContext.IsDiscarded()) { return IPC_OK(); } nsCOMPtr extProtService( do_GetService(NS_EXTERNALPROTOCOLSERVICE_CONTRACTID)); if (!extProtService) { return IPC_OK(); } if (!uri) { return IPC_FAIL(this, "uri must not be null."); } BrowsingContext* bc = aContext.get(); extProtService->LoadURI(uri, aTriggeringPrincipal, aRedirectPrincipal, bc, aWasExternallyTriggered, aHasValidUserGestureActivation); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvExtProtocolChannelConnectParent( const uint64_t& registrarId) { nsresult rv; // First get the real channel created before redirect on the parent. nsCOMPtr channel; rv = NS_LinkRedirectChannels(registrarId, nullptr, getter_AddRefs(channel)); NS_ENSURE_SUCCESS(rv, IPC_OK()); nsCOMPtr parent = do_QueryInterface(channel, &rv); NS_ENSURE_SUCCESS(rv, IPC_OK()); // The channel itself is its own (faked) parent, link it. rv = NS_LinkRedirectChannels(registrarId, parent, getter_AddRefs(channel)); NS_ENSURE_SUCCESS(rv, IPC_OK()); // Signal the parent channel that it's a redirect-to parent. This will // make AsyncOpen on it do nothing (what we want). // Yes, this is a bit of a hack, but I don't think it's necessary to invent // a new interface just to set this flag on the channel. parent->SetParentListener(nullptr); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvShowAlert( nsIAlertNotification* aAlert) { if (!aAlert) { return IPC_FAIL(this, "aAlert must not be null."); } nsCOMPtr sysAlerts(components::Alerts::Service()); if (sysAlerts) { sysAlerts->ShowAlert(aAlert, this); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvCloseAlert(const nsAString& aName, bool aContextClosed) { nsCOMPtr sysAlerts(components::Alerts::Service()); if (sysAlerts) { sysAlerts->CloseAlert(aName, aContextClosed); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvDisableNotifications( nsIPrincipal* aPrincipal) { if (!aPrincipal) { return IPC_FAIL(this, "No principal"); } if (!ValidatePrincipal(aPrincipal)) { LogAndAssertFailedPrincipalValidationInfo(aPrincipal, __func__); } Unused << Notification::RemovePermission(aPrincipal); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvOpenNotificationSettings( nsIPrincipal* aPrincipal) { if (!aPrincipal) { return IPC_FAIL(this, "No principal"); } if (!ValidatePrincipal(aPrincipal)) { LogAndAssertFailedPrincipalValidationInfo(aPrincipal, __func__); } Unused << Notification::OpenSettings(aPrincipal); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvNotificationEvent( const nsAString& aType, const NotificationEventData& aData) { nsCOMPtr swm = mozilla::components::ServiceWorkerManager::Service(); if (NS_WARN_IF(!swm)) { // Probably shouldn't happen, but no need to crash the child process. return IPC_OK(); } if (aType.EqualsLiteral("click")) { nsresult rv = swm->SendNotificationClickEvent( aData.originSuffix(), aData.scope(), aData.ID(), aData.title(), aData.dir(), aData.lang(), aData.body(), aData.tag(), aData.icon(), aData.data(), aData.behavior()); Unused << NS_WARN_IF(NS_FAILED(rv)); } else { MOZ_ASSERT(aType.EqualsLiteral("close")); nsresult rv = swm->SendNotificationCloseEvent( aData.originSuffix(), aData.scope(), aData.ID(), aData.title(), aData.dir(), aData.lang(), aData.body(), aData.tag(), aData.icon(), aData.data(), aData.behavior()); Unused << NS_WARN_IF(NS_FAILED(rv)); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvSyncMessage( const nsAString& aMsg, const ClonedMessageData& aData, nsTArray* aRetvals) { AUTO_PROFILER_LABEL_DYNAMIC_LOSSY_NSSTRING("ContentParent::RecvSyncMessage", OTHER, aMsg); MMPrinter::Print("ContentParent::RecvSyncMessage", aMsg, aData); RefPtr ppm = mMessageManager; if (ppm) { ipc::StructuredCloneData data; ipc::UnpackClonedMessageData(aData, data); ppm->ReceiveMessage(ppm, nullptr, aMsg, true, &data, aRetvals, IgnoreErrors()); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvAsyncMessage( const nsAString& aMsg, const ClonedMessageData& aData) { AUTO_PROFILER_LABEL_DYNAMIC_LOSSY_NSSTRING("ContentParent::RecvAsyncMessage", OTHER, aMsg); MMPrinter::Print("ContentParent::RecvAsyncMessage", aMsg, aData); RefPtr ppm = mMessageManager; if (ppm) { ipc::StructuredCloneData data; ipc::UnpackClonedMessageData(aData, data); ppm->ReceiveMessage(ppm, nullptr, aMsg, false, &data, nullptr, IgnoreErrors()); } return IPC_OK(); } MOZ_CAN_RUN_SCRIPT static int32_t AddGeolocationListener( nsIDOMGeoPositionCallback* watcher, nsIDOMGeoPositionErrorCallback* errorCallBack, bool highAccuracy) { RefPtr geo = Geolocation::NonWindowSingleton(); UniquePtr options = MakeUnique(); options->mTimeout = 0; options->mMaximumAge = 0; options->mEnableHighAccuracy = highAccuracy; return geo->WatchPosition(watcher, errorCallBack, std::move(options)); } mozilla::ipc::IPCResult ContentParent::RecvAddGeolocationListener( const bool& aHighAccuracy) { // To ensure no geolocation updates are skipped, we always force the // creation of a new listener. RecvRemoveGeolocationListener(); mGeolocationWatchID = AddGeolocationListener(this, this, aHighAccuracy); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvRemoveGeolocationListener() { if (mGeolocationWatchID != -1) { RefPtr geo = Geolocation::NonWindowSingleton(); if (geo) { geo->ClearWatch(mGeolocationWatchID); } mGeolocationWatchID = -1; } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvSetGeolocationHigherAccuracy( const bool& aEnable) { // This should never be called without a listener already present, // so this check allows us to forgo securing privileges. if (mGeolocationWatchID != -1) { RecvRemoveGeolocationListener(); mGeolocationWatchID = AddGeolocationListener(this, this, aEnable); } return IPC_OK(); } NS_IMETHODIMP ContentParent::HandleEvent(nsIDOMGeoPosition* postion) { Unused << SendGeolocationUpdate(postion); return NS_OK; } NS_IMETHODIMP ContentParent::HandleEvent(GeolocationPositionError* positionError) { Unused << SendGeolocationError(positionError->Code()); return NS_OK; } mozilla::ipc::IPCResult ContentParent::RecvConsoleMessage( const nsAString& aMessage) { nsresult rv; nsCOMPtr consoleService = do_GetService(NS_CONSOLESERVICE_CONTRACTID, &rv); if (NS_SUCCEEDED(rv)) { RefPtr msg(new nsConsoleMessage(aMessage)); msg->SetIsForwardedFromContentProcess(true); consoleService->LogMessageWithMode(msg, nsIConsoleService::SuppressLog); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvReportFrameTimingData( const mozilla::Maybe& loadInfoArgs, const nsAString& entryName, const nsAString& initiatorType, UniquePtr&& aData) { if (!aData) { return IPC_FAIL(this, "aData should not be null"); } if (loadInfoArgs.isNothing()) { return IPC_FAIL(this, "loadInfoArgs should not be null"); } RefPtr parent = WindowGlobalParent::GetByInnerWindowId(loadInfoArgs->innerWindowID()); if (!parent || !parent->GetContentParent()) { return IPC_OK(); } MOZ_ASSERT(parent->GetContentParent() != this, "No need to bounce around if in the same process"); Unused << parent->GetContentParent()->SendReportFrameTimingData( loadInfoArgs, entryName, initiatorType, std::move(aData)); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvScriptError( const nsAString& aMessage, const nsAString& aSourceName, const nsAString& aSourceLine, const uint32_t& aLineNumber, const uint32_t& aColNumber, const uint32_t& aFlags, const nsACString& aCategory, const bool& aFromPrivateWindow, const uint64_t& aInnerWindowId, const bool& aFromChromeContext) { return RecvScriptErrorInternal(aMessage, aSourceName, aSourceLine, aLineNumber, aColNumber, aFlags, aCategory, aFromPrivateWindow, aFromChromeContext); } mozilla::ipc::IPCResult ContentParent::RecvScriptErrorWithStack( const nsAString& aMessage, const nsAString& aSourceName, const nsAString& aSourceLine, const uint32_t& aLineNumber, const uint32_t& aColNumber, const uint32_t& aFlags, const nsACString& aCategory, const bool& aFromPrivateWindow, const bool& aFromChromeContext, const ClonedMessageData& aFrame) { return RecvScriptErrorInternal( aMessage, aSourceName, aSourceLine, aLineNumber, aColNumber, aFlags, aCategory, aFromPrivateWindow, aFromChromeContext, &aFrame); } mozilla::ipc::IPCResult ContentParent::RecvScriptErrorInternal( const nsAString& aMessage, const nsAString& aSourceName, const nsAString& aSourceLine, const uint32_t& aLineNumber, const uint32_t& aColNumber, const uint32_t& aFlags, const nsACString& aCategory, const bool& aFromPrivateWindow, const bool& aFromChromeContext, const ClonedMessageData* aStack) { nsresult rv; nsCOMPtr consoleService = do_GetService(NS_CONSOLESERVICE_CONTRACTID, &rv); if (NS_FAILED(rv)) { return IPC_OK(); } nsCOMPtr msg; if (aStack) { StructuredCloneData data; UnpackClonedMessageData(*aStack, data); AutoJSAPI jsapi; if (NS_WARN_IF(!jsapi.Init(xpc::PrivilegedJunkScope()))) { MOZ_CRASH(); } JSContext* cx = jsapi.cx(); JS::Rooted stack(cx); ErrorResult rv; data.Read(cx, &stack, rv); if (rv.Failed() || !stack.isObject()) { rv.SuppressException(); return IPC_OK(); } JS::Rooted stackObj(cx, &stack.toObject()); MOZ_ASSERT(JS::IsUnwrappedSavedFrame(stackObj)); JS::Rooted stackGlobal(cx, JS::GetNonCCWObjectGlobal(stackObj)); msg = new nsScriptErrorWithStack(JS::NothingHandleValue, stackObj, stackGlobal); } else { msg = new nsScriptError(); } rv = msg->Init(aMessage, aSourceName, aSourceLine, aLineNumber, aColNumber, aFlags, aCategory, aFromPrivateWindow, aFromChromeContext); if (NS_FAILED(rv)) return IPC_OK(); msg->SetIsForwardedFromContentProcess(true); consoleService->LogMessageWithMode(msg, nsIConsoleService::SuppressLog); return IPC_OK(); } bool ContentParent::DoLoadMessageManagerScript(const nsAString& aURL, bool aRunInGlobalScope) { MOZ_ASSERT(!aRunInGlobalScope); return SendLoadProcessScript(aURL); } nsresult ContentParent::DoSendAsyncMessage(const nsAString& aMessage, StructuredCloneData& aHelper) { ClonedMessageData data; if (!BuildClonedMessageData(aHelper, data)) { return NS_ERROR_DOM_DATA_CLONE_ERR; } if (!SendAsyncMessage(aMessage, data)) { return NS_ERROR_UNEXPECTED; } return NS_OK; } mozilla::ipc::IPCResult ContentParent::RecvCopyFavicon( nsIURI* aOldURI, nsIURI* aNewURI, const bool& aInPrivateBrowsing) { if (!aOldURI) { return IPC_FAIL(this, "aOldURI should not be null"); } if (!aNewURI) { return IPC_FAIL(this, "aNewURI should not be null"); } nsDocShell::CopyFavicon(aOldURI, aNewURI, aInPrivateBrowsing); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvFindImageText( IPCImage&& aImage, nsTArray&& aLanguages, FindImageTextResolver&& aResolver) { RefPtr surf = nsContentUtils::IPCImageToSurface(std::move(aImage)); if (!surf) { aResolver(TextRecognitionResultOrError("Failed to read image"_ns)); return IPC_OK(); } TextRecognition::FindText(*surf, aLanguages) ->Then( GetCurrentSerialEventTarget(), __func__, [resolver = std::move(aResolver)]( TextRecognition::NativePromise::ResolveOrRejectValue&& aValue) { if (aValue.IsResolve()) { resolver(TextRecognitionResultOrError(aValue.ResolveValue())); } else { resolver(TextRecognitionResultOrError(aValue.RejectValue())); } }); return IPC_OK(); } bool ContentParent::ShouldContinueFromReplyTimeout() { RefPtr monitor = ProcessHangMonitor::Get(); return !monitor || !monitor->ShouldTimeOutCPOWs(); } mozilla::ipc::IPCResult ContentParent::RecvRecordingDeviceEvents( const nsAString& aRecordingStatus, const nsAString& aPageURL, const bool& aIsAudio, const bool& aIsVideo) { nsCOMPtr obs = mozilla::services::GetObserverService(); if (obs) { // recording-device-ipc-events needs to gather more information from content // process RefPtr props = new nsHashPropertyBag(); props->SetPropertyAsUint64(u"childID"_ns, ChildID()); props->SetPropertyAsBool(u"isAudio"_ns, aIsAudio); props->SetPropertyAsBool(u"isVideo"_ns, aIsVideo); props->SetPropertyAsAString(u"requestURL"_ns, aPageURL); obs->NotifyObservers((nsIPropertyBag2*)props, "recording-device-ipc-events", PromiseFlatString(aRecordingStatus).get()); } else { NS_WARNING( "Could not get the Observer service for " "ContentParent::RecvRecordingDeviceEvents."); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvAddIdleObserver( const uint64_t& aObserver, const uint32_t& aIdleTimeInS) { nsresult rv; nsCOMPtr idleService = do_GetService("@mozilla.org/widget/useridleservice;1", &rv); NS_ENSURE_SUCCESS(rv, IPC_FAIL(this, "Failed to get UserIdleService.")); RefPtr listener = new ParentIdleListener(this, aObserver, aIdleTimeInS); rv = idleService->AddIdleObserver(listener, aIdleTimeInS); NS_ENSURE_SUCCESS(rv, IPC_FAIL(this, "AddIdleObserver failed.")); mIdleListeners.AppendElement(listener); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvRemoveIdleObserver( const uint64_t& aObserver, const uint32_t& aIdleTimeInS) { RefPtr listener; for (int32_t i = mIdleListeners.Length() - 1; i >= 0; --i) { listener = static_cast(mIdleListeners[i].get()); if (listener->mObserver == aObserver && listener->mTime == aIdleTimeInS) { nsresult rv; nsCOMPtr idleService = do_GetService("@mozilla.org/widget/useridleservice;1", &rv); NS_ENSURE_SUCCESS(rv, IPC_FAIL(this, "Failed to get UserIdleService.")); idleService->RemoveIdleObserver(listener, aIdleTimeInS); mIdleListeners.RemoveElementAt(i); break; } } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvBackUpXResources( const FileDescriptor& aXSocketFd) { #ifndef MOZ_X11 MOZ_CRASH("This message only makes sense on X11 platforms"); #else MOZ_ASSERT(0 > mChildXSocketFdDup.get(), "Already backed up X resources??"); if (aXSocketFd.IsValid()) { auto rawFD = aXSocketFd.ClonePlatformHandle(); mChildXSocketFdDup.reset(rawFD.release()); } #endif return IPC_OK(); } class AnonymousTemporaryFileRequestor final : public Runnable { public: AnonymousTemporaryFileRequestor(ContentParent* aCP, const uint64_t& aID) : Runnable("dom::AnonymousTemporaryFileRequestor"), mCP(aCP), mID(aID), mRv(NS_OK), mPRFD(nullptr) {} NS_IMETHOD Run() override { if (NS_IsMainThread()) { FileDescOrError result; if (NS_WARN_IF(NS_FAILED(mRv))) { // Returning false will kill the child process; instead // propagate the error and let the child handle it. result = mRv; } else { result = FileDescriptor(FileDescriptor::PlatformHandleType( PR_FileDesc2NativeHandle(mPRFD))); // The FileDescriptor object owns a duplicate of the file handle; we // must close the original (and clean up the NSPR descriptor). PR_Close(mPRFD); } Unused << mCP->SendProvideAnonymousTemporaryFile(mID, result); // It's important to release this reference while wr're on the main // thread! mCP = nullptr; } else { mRv = NS_OpenAnonymousTemporaryFile(&mPRFD); NS_DispatchToMainThread(this); } return NS_OK; } private: RefPtr mCP; uint64_t mID; nsresult mRv; PRFileDesc* mPRFD; }; mozilla::ipc::IPCResult ContentParent::RecvRequestAnonymousTemporaryFile( const uint64_t& aID) { // Make sure to send a callback to the child if we bail out early. nsresult rv = NS_OK; RefPtr self(this); auto autoNotifyChildOnError = MakeScopeExit([&, self]() { if (NS_FAILED(rv)) { FileDescOrError result(rv); Unused << self->SendProvideAnonymousTemporaryFile(aID, result); } }); // We use a helper runnable to open the anonymous temporary file on the IO // thread. The same runnable will call us back on the main thread when the // file has been opened. nsCOMPtr target = do_GetService(NS_STREAMTRANSPORTSERVICE_CONTRACTID, &rv); if (!target) { return IPC_OK(); } rv = target->Dispatch(new AnonymousTemporaryFileRequestor(this, aID), NS_DISPATCH_NORMAL); if (NS_WARN_IF(NS_FAILED(rv))) { return IPC_OK(); } rv = NS_OK; return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvCreateAudioIPCConnection( CreateAudioIPCConnectionResolver&& aResolver) { FileDescriptor fd = CubebUtils::CreateAudioIPCConnection(); FileDescOrError result; if (fd.IsValid()) { result = fd; } else { result = NS_ERROR_FAILURE; } aResolver(std::move(result)); return IPC_OK(); } already_AddRefed ContentParent::AllocPExtensionsParent() { return MakeAndAddRef(); } void ContentParent::NotifyUpdatedDictionaries() { RefPtr spellChecker(mozSpellChecker::Create()); MOZ_ASSERT(spellChecker, "No spell checker?"); nsTArray dictionaries; spellChecker->GetDictionaryList(&dictionaries); for (auto* cp : AllProcesses(eLive)) { Unused << cp->SendUpdateDictionaryList(dictionaries); } } void ContentParent::NotifyUpdatedFonts(bool aFullRebuild) { if (gfxPlatformFontList::PlatformFontList()->SharedFontList()) { for (auto* cp : AllProcesses(eLive)) { Unused << cp->SendRebuildFontList(aFullRebuild); } return; } SystemFontList fontList; gfxPlatform::GetPlatform()->ReadSystemFontList(&fontList); for (auto* cp : AllProcesses(eLive)) { Unused << cp->SendUpdateFontList(fontList); } } #ifdef MOZ_WEBRTC PWebrtcGlobalParent* ContentParent::AllocPWebrtcGlobalParent() { return WebrtcGlobalParent::Alloc(); } bool ContentParent::DeallocPWebrtcGlobalParent(PWebrtcGlobalParent* aActor) { WebrtcGlobalParent::Dealloc(static_cast(aActor)); return true; } #endif void ContentParent::MaybeInvokeDragSession(BrowserParent* aParent) { // dnd uses IPCBlob to transfer data to the content process and the IPC // message is sent as normal priority. When sending input events with input // priority, the message may be preempted by the later dnd events. To make // sure the input events and the blob message are processed in time order // on the content process, we temporarily send the input events with normal // priority when there is an active dnd session. SetInputPriorityEventEnabled(false); nsCOMPtr dragService = do_GetService("@mozilla.org/widget/dragservice;1"); if (dragService && dragService->MaybeAddChildProcess(this)) { // We need to send transferable data to child process. nsCOMPtr session; dragService->GetCurrentSession(getter_AddRefs(session)); if (session) { nsTArray dataTransfers; RefPtr transfer = session->GetDataTransfer(); if (!transfer) { // Pass eDrop to get DataTransfer with external // drag formats cached. transfer = new DataTransfer(nullptr, eDrop, true, -1); session->SetDataTransfer(transfer); } // Note, even though this fills the DataTransfer object with // external data, the data is usually transfered over IPC lazily when // needed. transfer->FillAllExternalData(); nsCOMPtr lc = aParent ? aParent->GetLoadContext() : nullptr; nsCOMPtr transferables = transfer->GetTransferables(lc); nsContentUtils::TransferablesToIPCTransferables( transferables, dataTransfers, false, nullptr, this); uint32_t action; session->GetDragAction(&action); RefPtr sourceWC; session->GetSourceWindowContext(getter_AddRefs(sourceWC)); mozilla::Unused << SendInvokeDragSession( sourceWC, std::move(dataTransfers), action); } } } mozilla::ipc::IPCResult ContentParent::RecvUpdateDropEffect( const uint32_t& aDragAction, const uint32_t& aDropEffect) { nsCOMPtr dragSession = nsContentUtils::GetDragSession(); if (dragSession) { dragSession->SetDragAction(aDragAction); RefPtr dt = dragSession->GetDataTransfer(); if (dt) { dt->SetDropEffectInt(aDropEffect); } dragSession->UpdateDragEffect(); } return IPC_OK(); } PContentPermissionRequestParent* ContentParent::AllocPContentPermissionRequestParent( const nsTArray& aRequests, nsIPrincipal* aPrincipal, nsIPrincipal* aTopLevelPrincipal, const bool& aIsHandlingUserInput, const bool& aMaybeUnsafePermissionDelegate, const TabId& aTabId) { RefPtr tp; ContentProcessManager* cpm = ContentProcessManager::GetSingleton(); if (cpm) { tp = cpm->GetTopLevelBrowserParentByProcessAndTabId(this->ChildID(), aTabId); } if (!tp) { return nullptr; } nsIPrincipal* topPrincipal = aTopLevelPrincipal; if (!topPrincipal) { nsCOMPtr principal = tp->GetContentPrincipal(); topPrincipal = principal; } return nsContentPermissionUtils::CreateContentPermissionRequestParent( aRequests, tp->GetOwnerElement(), aPrincipal, topPrincipal, aIsHandlingUserInput, aMaybeUnsafePermissionDelegate, aTabId); } bool ContentParent::DeallocPContentPermissionRequestParent( PContentPermissionRequestParent* actor) { nsContentPermissionUtils::NotifyRemoveContentPermissionRequestParent(actor); delete actor; return true; } PWebBrowserPersistDocumentParent* ContentParent::AllocPWebBrowserPersistDocumentParent( PBrowserParent* aBrowser, const MaybeDiscarded& aContext) { return new WebBrowserPersistDocumentParent(); } bool ContentParent::DeallocPWebBrowserPersistDocumentParent( PWebBrowserPersistDocumentParent* aActor) { delete aActor; return true; } mozilla::ipc::IPCResult ContentParent::CommonCreateWindow( PBrowserParent* aThisTab, BrowsingContext& aParent, bool aSetOpener, const uint32_t& aChromeFlags, const bool& aCalledFromJS, const bool& aForPrinting, const bool& aForWindowDotPrint, nsIURI* aURIToLoad, const nsACString& aFeatures, BrowserParent* aNextRemoteBrowser, const nsAString& aName, nsresult& aResult, nsCOMPtr& aNewRemoteTab, bool* aWindowIsNew, int32_t& aOpenLocation, nsIPrincipal* aTriggeringPrincipal, nsIReferrerInfo* aReferrerInfo, bool aLoadURI, nsIContentSecurityPolicy* aCsp, const OriginAttributes& aOriginAttributes) { // The content process should never be in charge of computing whether or // not a window should be private - the parent will do that. const uint32_t badFlags = nsIWebBrowserChrome::CHROME_PRIVATE_WINDOW | nsIWebBrowserChrome::CHROME_NON_PRIVATE_WINDOW | nsIWebBrowserChrome::CHROME_PRIVATE_LIFETIME; if (!!(aChromeFlags & badFlags)) { return IPC_FAIL(this, "Forbidden aChromeFlags passed"); } RefPtr openInfo = new nsOpenWindowInfo(); openInfo->mForceNoOpener = !aSetOpener; openInfo->mParent = &aParent; openInfo->mIsRemote = true; openInfo->mIsForPrinting = aForPrinting; openInfo->mIsForWindowDotPrint = aForWindowDotPrint; openInfo->mNextRemoteBrowser = aNextRemoteBrowser; openInfo->mOriginAttributes = aOriginAttributes; MOZ_ASSERT_IF(aForWindowDotPrint, aForPrinting); RefPtr topParent = BrowserParent::GetFrom(aThisTab); while (topParent && topParent->GetBrowserBridgeParent()) { topParent = topParent->GetBrowserBridgeParent()->Manager(); } RefPtr thisBrowserHost = topParent ? topParent->GetBrowserHost() : nullptr; MOZ_ASSERT_IF(topParent, thisBrowserHost); RefPtr topBC = topParent ? topParent->GetBrowsingContext() : nullptr; MOZ_ASSERT_IF(topParent, topBC); // The content process should have set its remote and fission flags correctly. if (topBC) { if ((!!(aChromeFlags & nsIWebBrowserChrome::CHROME_REMOTE_WINDOW) != topBC->UseRemoteTabs()) || (!!(aChromeFlags & nsIWebBrowserChrome::CHROME_FISSION_WINDOW) != topBC->UseRemoteSubframes())) { return IPC_FAIL(this, "Unexpected aChromeFlags passed"); } if (!aOriginAttributes.EqualsIgnoringFPD(topBC->OriginAttributesRef())) { return IPC_FAIL(this, "Passed-in OriginAttributes does not match opener"); } } nsCOMPtr frame; if (topParent) { frame = topParent->GetOwnerElement(); } nsCOMPtr outerWin; if (frame) { outerWin = frame->OwnerDoc()->GetWindow(); // If our chrome window is in the process of closing, don't try to open a // new tab in it. if (outerWin && outerWin->Closed()) { outerWin = nullptr; } } nsCOMPtr browserDOMWin; if (topParent) { browserDOMWin = topParent->GetBrowserDOMWindow(); } // If we haven't found a chrome window to open in, just use the most recently // opened one. if (!outerWin) { outerWin = nsContentUtils::GetMostRecentNonPBWindow(); if (NS_WARN_IF(!outerWin)) { aResult = NS_ERROR_FAILURE; return IPC_OK(); } nsCOMPtr rootChromeWin = do_QueryInterface(outerWin); if (rootChromeWin) { rootChromeWin->GetBrowserDOMWindow(getter_AddRefs(browserDOMWin)); } } aOpenLocation = nsWindowWatcher::GetWindowOpenLocation( outerWin, aChromeFlags, aCalledFromJS, aForPrinting); MOZ_ASSERT(aOpenLocation == nsIBrowserDOMWindow::OPEN_NEWTAB || aOpenLocation == nsIBrowserDOMWindow::OPEN_NEWWINDOW || aOpenLocation == nsIBrowserDOMWindow::OPEN_PRINT_BROWSER); if (NS_WARN_IF(!browserDOMWin)) { // Opening in the same window or headless requires an nsIBrowserDOMWindow. aOpenLocation = nsIBrowserDOMWindow::OPEN_NEWWINDOW; } if (aOpenLocation == nsIBrowserDOMWindow::OPEN_NEWTAB || aOpenLocation == nsIBrowserDOMWindow::OPEN_PRINT_BROWSER) { RefPtr openerElement = do_QueryObject(frame); nsCOMPtr params = new nsOpenURIInFrameParams(openInfo, openerElement); params->SetReferrerInfo(aReferrerInfo); MOZ_ASSERT(aTriggeringPrincipal, "need a valid triggeringPrincipal"); params->SetTriggeringPrincipal(aTriggeringPrincipal); params->SetCsp(aCsp); RefPtr el; if (aLoadURI) { aResult = browserDOMWin->OpenURIInFrame(aURIToLoad, params, aOpenLocation, nsIBrowserDOMWindow::OPEN_NEW, aName, getter_AddRefs(el)); } else { aResult = browserDOMWin->CreateContentWindowInFrame( aURIToLoad, params, aOpenLocation, nsIBrowserDOMWindow::OPEN_NEW, aName, getter_AddRefs(el)); } RefPtr frameLoaderOwner = do_QueryObject(el); if (NS_SUCCEEDED(aResult) && frameLoaderOwner) { RefPtr frameLoader = frameLoaderOwner->GetFrameLoader(); if (frameLoader) { aNewRemoteTab = frameLoader->GetRemoteTab(); // At this point, it's possible the inserted frameloader hasn't gone // through layout yet. To ensure that the dimensions that we send down // when telling the frameloader to display will be correct (instead of // falling back to a 10x10 default), we force layout if necessary to get // the most up-to-date dimensions. See bug 1358712 for details. frameLoader->ForceLayoutIfNecessary(); } } else if (NS_SUCCEEDED(aResult) && !frameLoaderOwner) { // Fall through to the normal window opening code path when there is no // window which we can open a new tab in. aOpenLocation = nsIBrowserDOMWindow::OPEN_NEWWINDOW; } else { *aWindowIsNew = false; } // If we didn't retarget our window open into a new window, we should return // now. if (aOpenLocation != nsIBrowserDOMWindow::OPEN_NEWWINDOW) { return IPC_OK(); } } nsCOMPtr pwwatch = do_GetService(NS_WINDOWWATCHER_CONTRACTID, &aResult); if (NS_WARN_IF(NS_FAILED(aResult))) { return IPC_OK(); } WindowFeatures features; features.Tokenize(aFeatures); aResult = pwwatch->OpenWindowWithRemoteTab( thisBrowserHost, features, aCalledFromJS, aParent.FullZoom(), openInfo, getter_AddRefs(aNewRemoteTab)); if (NS_WARN_IF(NS_FAILED(aResult))) { return IPC_OK(); } MOZ_ASSERT(aNewRemoteTab); RefPtr newBrowserHost = BrowserHost::GetFrom(aNewRemoteTab); RefPtr newBrowserParent = newBrowserHost->GetActor(); // At this point, it's possible the inserted frameloader hasn't gone through // layout yet. To ensure that the dimensions that we send down when telling // the frameloader to display will be correct (instead of falling back to a // 10x10 default), we force layout if necessary to get the most up-to-date // dimensions. See bug 1358712 for details. nsCOMPtr frameElement = newBrowserHost->GetOwnerElement(); MOZ_ASSERT(frameElement); if (nsWindowWatcher::HaveSpecifiedSize(features)) { // We want to flush the layout anyway because of the resize to the specified // size. (Bug 1793605). RefPtr chromeDoc = frameElement->OwnerDoc(); MOZ_ASSERT(chromeDoc); chromeDoc->FlushPendingNotifications(FlushType::Layout); } else { RefPtr frameLoaderOwner = do_QueryObject(frameElement); MOZ_ASSERT(frameLoaderOwner); RefPtr frameLoader = frameLoaderOwner->GetFrameLoader(); MOZ_ASSERT(frameLoader); frameLoader->ForceLayoutIfNecessary(); } // If we were passed a name for the window which would override the default, // we should send it down to the new tab. if (nsContentUtils::IsOverridingWindowName(aName)) { MOZ_ALWAYS_SUCCEEDS(newBrowserHost->GetBrowsingContext()->SetName(aName)); } MOZ_ASSERT(newBrowserHost->GetBrowsingContext()->OriginAttributesRef() == aOriginAttributes); if (aURIToLoad && aLoadURI) { nsCOMPtr openerWindow; if (aSetOpener && topParent) { openerWindow = topParent->GetParentWindowOuter(); } nsCOMPtr newBrowserDOMWin = newBrowserParent->GetBrowserDOMWindow(); if (NS_WARN_IF(!newBrowserDOMWin)) { aResult = NS_ERROR_ABORT; return IPC_OK(); } RefPtr bc; aResult = newBrowserDOMWin->OpenURI( aURIToLoad, openInfo, nsIBrowserDOMWindow::OPEN_CURRENTWINDOW, nsIBrowserDOMWindow::OPEN_NEW, aTriggeringPrincipal, aCsp, getter_AddRefs(bc)); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvCreateWindow( PBrowserParent* aThisTab, const MaybeDiscarded& aParent, PBrowserParent* aNewTab, const uint32_t& aChromeFlags, const bool& aCalledFromJS, const bool& aForPrinting, const bool& aForPrintPreview, nsIURI* aURIToLoad, const nsACString& aFeatures, nsIPrincipal* aTriggeringPrincipal, nsIContentSecurityPolicy* aCsp, nsIReferrerInfo* aReferrerInfo, const OriginAttributes& aOriginAttributes, CreateWindowResolver&& aResolve) { if (!aTriggeringPrincipal) { return IPC_FAIL(this, "No principal"); } if (!ValidatePrincipal(aTriggeringPrincipal)) { LogAndAssertFailedPrincipalValidationInfo(aTriggeringPrincipal, __func__); } nsresult rv = NS_OK; CreatedWindowInfo cwi; // We always expect to open a new window here. If we don't, it's an error. cwi.windowOpened() = true; cwi.maxTouchPoints() = 0; cwi.hasSiblings() = false; // Make sure to resolve the resolver when this function exits, even if we // failed to generate a valid response. auto resolveOnExit = MakeScopeExit([&] { // Copy over the nsresult, and then resolve. cwi.rv() = rv; aResolve(cwi); }); RefPtr thisTab = BrowserParent::GetFrom(aThisTab); RefPtr newTab = BrowserParent::GetFrom(aNewTab); MOZ_ASSERT(newTab); auto destroyNewTabOnError = MakeScopeExit([&] { // We always expect to open a new window here. If we don't, it's an error. if (!cwi.windowOpened() || NS_FAILED(rv)) { if (newTab) { newTab->Destroy(); } } }); // Don't continue to try to create a new window if we've been fully discarded. RefPtr parent = aParent.GetMaybeDiscarded(); if (NS_WARN_IF(!parent)) { rv = NS_ERROR_FAILURE; return IPC_OK(); } // Validate that our new BrowsingContext looks as we would expect it. RefPtr newBC = newTab->GetBrowsingContext(); if (!newBC) { return IPC_FAIL(this, "Missing BrowsingContext for new tab"); } uint64_t newBCOpenerId = newBC->GetOpenerId(); if (newBCOpenerId != 0 && parent->Id() != newBCOpenerId) { return IPC_FAIL(this, "Invalid opener BrowsingContext for new tab"); } if (newBC->GetParent() != nullptr) { return IPC_FAIL(this, "Unexpected non-toplevel BrowsingContext for new tab"); } if (!!(aChromeFlags & nsIWebBrowserChrome::CHROME_REMOTE_WINDOW) != newBC->UseRemoteTabs() || !!(aChromeFlags & nsIWebBrowserChrome::CHROME_FISSION_WINDOW) != newBC->UseRemoteSubframes()) { return IPC_FAIL(this, "Unexpected aChromeFlags passed"); } if (!aOriginAttributes.EqualsIgnoringFPD(newBC->OriginAttributesRef())) { return IPC_FAIL(this, "Opened tab has mismatched OriginAttributes"); } if (thisTab && BrowserParent::GetFrom(thisTab)->GetBrowsingContext()) { BrowsingContext* thisTabBC = thisTab->GetBrowsingContext(); if (thisTabBC->UseRemoteTabs() != newBC->UseRemoteTabs() || thisTabBC->UseRemoteSubframes() != newBC->UseRemoteSubframes() || thisTabBC->UsePrivateBrowsing() != newBC->UsePrivateBrowsing()) { return IPC_FAIL(this, "New BrowsingContext has mismatched LoadContext"); } } BrowserParent::AutoUseNewTab aunt(newTab); nsCOMPtr newRemoteTab; int32_t openLocation = nsIBrowserDOMWindow::OPEN_NEWWINDOW; mozilla::ipc::IPCResult ipcResult = CommonCreateWindow( aThisTab, *parent, newBCOpenerId != 0, aChromeFlags, aCalledFromJS, aForPrinting, aForPrintPreview, aURIToLoad, aFeatures, newTab, VoidString(), rv, newRemoteTab, &cwi.windowOpened(), openLocation, aTriggeringPrincipal, aReferrerInfo, /* aLoadUri = */ false, aCsp, aOriginAttributes); if (!ipcResult) { return ipcResult; } if (NS_WARN_IF(NS_FAILED(rv)) || !newRemoteTab) { return IPC_OK(); } MOZ_ASSERT(BrowserHost::GetFrom(newRemoteTab.get()) == newTab->GetBrowserHost()); newTab->SwapFrameScriptsFrom(cwi.frameScripts()); newTab->MaybeShowFrame(); nsCOMPtr widget = newTab->GetWidget(); if (widget) { cwi.dimensions() = newTab->GetDimensionInfo(); } cwi.maxTouchPoints() = newTab->GetMaxTouchPoints(); cwi.hasSiblings() = (openLocation == nsIBrowserDOMWindow::OPEN_NEWTAB); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvCreateWindowInDifferentProcess( PBrowserParent* aThisTab, const MaybeDiscarded& aParent, const uint32_t& aChromeFlags, const bool& aCalledFromJS, nsIURI* aURIToLoad, const nsACString& aFeatures, const nsAString& aName, nsIPrincipal* aTriggeringPrincipal, nsIContentSecurityPolicy* aCsp, nsIReferrerInfo* aReferrerInfo, const OriginAttributes& aOriginAttributes) { MOZ_DIAGNOSTIC_ASSERT(!nsContentUtils::IsSpecialName(aName)); // Don't continue to try to create a new window if we've been fully discarded. RefPtr parent = aParent.GetMaybeDiscarded(); if (NS_WARN_IF(!parent)) { return IPC_OK(); } nsCOMPtr newRemoteTab; bool windowIsNew; int32_t openLocation = nsIBrowserDOMWindow::OPEN_NEWWINDOW; // If we have enough data, check the schemes of the loader and loadee // to make sure they make sense. if (aURIToLoad && aURIToLoad->SchemeIs("file") && GetRemoteType() != FILE_REMOTE_TYPE && Preferences::GetBool("browser.tabs.remote.enforceRemoteTypeRestrictions", false)) { #ifdef MOZ_DIAGNOSTIC_ASSERT_ENABLED # ifdef DEBUG nsAutoCString uriToLoadStr; nsAutoCString triggeringUriStr; aURIToLoad->GetAsciiSpec(uriToLoadStr); aTriggeringPrincipal->GetAsciiSpec(triggeringUriStr); NS_WARNING(nsPrintfCString( "RecvCreateWindowInDifferentProcess blocked loading file " "scheme from non-file remotetype: %s tried to load %s", triggeringUriStr.get(), uriToLoadStr.get()) .get()); # endif MOZ_CRASH( "RecvCreateWindowInDifferentProcess blocked loading improper scheme"); #endif return IPC_OK(); } nsresult rv; mozilla::ipc::IPCResult ipcResult = CommonCreateWindow( aThisTab, *parent, /* aSetOpener = */ false, aChromeFlags, aCalledFromJS, /* aForPrinting = */ false, /* aForPrintPreview = */ false, aURIToLoad, aFeatures, /* aNextRemoteBrowser = */ nullptr, aName, rv, newRemoteTab, &windowIsNew, openLocation, aTriggeringPrincipal, aReferrerInfo, /* aLoadUri = */ true, aCsp, aOriginAttributes); if (!ipcResult) { return ipcResult; } if (NS_FAILED(rv)) { NS_WARNING("Call to CommonCreateWindow failed."); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvShutdownProfile( const nsACString& aProfile) { profiler_received_exit_profile(aProfile); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvShutdownPerfStats( const nsACString& aPerfStats) { PerfStats::StorePerfStats(this, aPerfStats); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvGetGraphicsDeviceInitData( ContentDeviceData* aOut) { gfxPlatform::GetPlatform()->BuildContentDeviceData(aOut); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvGetOutputColorProfileData( nsTArray* aOutputColorProfileData) { (*aOutputColorProfileData) = gfxPlatform::GetPlatform()->GetPlatformCMSOutputProfileData(); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvGetFontListShmBlock( const uint32_t& aGeneration, const uint32_t& aIndex, base::SharedMemoryHandle* aOut) { auto* fontList = gfxPlatformFontList::PlatformFontList(); MOZ_RELEASE_ASSERT(fontList, "gfxPlatformFontList not initialized?"); fontList->ShareFontListShmBlockToProcess(aGeneration, aIndex, Pid(), aOut); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvInitializeFamily( const uint32_t& aGeneration, const uint32_t& aFamilyIndex, const bool& aLoadCmaps) { auto* fontList = gfxPlatformFontList::PlatformFontList(); MOZ_RELEASE_ASSERT(fontList, "gfxPlatformFontList not initialized?"); fontList->InitializeFamily(aGeneration, aFamilyIndex, aLoadCmaps); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvSetCharacterMap( const uint32_t& aGeneration, const mozilla::fontlist::Pointer& aFacePtr, const gfxSparseBitSet& aMap) { auto* fontList = gfxPlatformFontList::PlatformFontList(); MOZ_RELEASE_ASSERT(fontList, "gfxPlatformFontList not initialized?"); fontList->SetCharacterMap(aGeneration, aFacePtr, aMap); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvInitOtherFamilyNames( const uint32_t& aGeneration, const bool& aDefer, bool* aLoaded) { auto* fontList = gfxPlatformFontList::PlatformFontList(); MOZ_RELEASE_ASSERT(fontList, "gfxPlatformFontList not initialized?"); *aLoaded = fontList->InitOtherFamilyNames(aGeneration, aDefer); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvSetupFamilyCharMap( const uint32_t& aGeneration, const mozilla::fontlist::Pointer& aFamilyPtr) { auto* fontList = gfxPlatformFontList::PlatformFontList(); MOZ_RELEASE_ASSERT(fontList, "gfxPlatformFontList not initialized?"); fontList->SetupFamilyCharMap(aGeneration, aFamilyPtr); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvStartCmapLoading( const uint32_t& aGeneration, const uint32_t& aStartIndex) { auto* fontList = gfxPlatformFontList::PlatformFontList(); MOZ_RELEASE_ASSERT(fontList, "gfxPlatformFontList not initialized?"); fontList->StartCmapLoading(aGeneration, aStartIndex); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvGetHyphDict( nsIURI* aURI, base::SharedMemoryHandle* aOutHandle, uint32_t* aOutSize) { if (!aURI) { return IPC_FAIL(this, "aURI must not be null."); } nsHyphenationManager::Instance()->ShareHyphDictToProcess( aURI, Pid(), aOutHandle, aOutSize); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvGraphicsError( const nsACString& aError) { if (gfx::LogForwarder* lf = gfx::Factory::GetLogForwarder()) { std::stringstream message; message << "CP+" << aError; lf->UpdateStringsVector(message.str()); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvBeginDriverCrashGuard( const uint32_t& aGuardType, bool* aOutCrashed) { // Only one driver crash guard should be active at a time, per-process. MOZ_ASSERT(!mDriverCrashGuard); UniquePtr guard; switch (gfx::CrashGuardType(aGuardType)) { case gfx::CrashGuardType::D3D11Layers: guard = MakeUnique(this); break; case gfx::CrashGuardType::GLContext: guard = MakeUnique(this); break; case gfx::CrashGuardType::WMFVPXVideo: guard = MakeUnique(this); break; default: return IPC_FAIL(this, "unknown crash guard type"); } if (guard->Crashed()) { *aOutCrashed = true; return IPC_OK(); } *aOutCrashed = false; mDriverCrashGuard = std::move(guard); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvEndDriverCrashGuard( const uint32_t& aGuardType) { mDriverCrashGuard = nullptr; return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvNotifyBenchmarkResult( const nsAString& aCodecName, const uint32_t& aDecodeFPS) { if (aCodecName.EqualsLiteral("VP9")) { Preferences::SetUint(VP9Benchmark::sBenchmarkFpsPref, aDecodeFPS); Preferences::SetUint(VP9Benchmark::sBenchmarkFpsVersionCheck, VP9Benchmark::sBenchmarkVersionID); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvNotifyPushObservers( const nsACString& aScope, nsIPrincipal* aPrincipal, const nsAString& aMessageId) { if (!aPrincipal) { return IPC_FAIL(this, "No principal"); } if (!ValidatePrincipal(aPrincipal)) { LogAndAssertFailedPrincipalValidationInfo(aPrincipal, __func__); } PushMessageDispatcher dispatcher(aScope, aPrincipal, aMessageId, Nothing()); Unused << NS_WARN_IF(NS_FAILED(dispatcher.NotifyObserversAndWorkers())); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvNotifyPushObserversWithData( const nsACString& aScope, nsIPrincipal* aPrincipal, const nsAString& aMessageId, nsTArray&& aData) { if (!aPrincipal) { return IPC_FAIL(this, "No principal"); } if (!ValidatePrincipal(aPrincipal)) { LogAndAssertFailedPrincipalValidationInfo(aPrincipal, __func__); } PushMessageDispatcher dispatcher(aScope, aPrincipal, aMessageId, Some(std::move(aData))); Unused << NS_WARN_IF(NS_FAILED(dispatcher.NotifyObserversAndWorkers())); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvNotifyPushSubscriptionChangeObservers( const nsACString& aScope, nsIPrincipal* aPrincipal) { if (!aPrincipal) { return IPC_FAIL(this, "No principal"); } if (!ValidatePrincipal(aPrincipal)) { LogAndAssertFailedPrincipalValidationInfo(aPrincipal, __func__); } PushSubscriptionChangeDispatcher dispatcher(aScope, aPrincipal); Unused << NS_WARN_IF(NS_FAILED(dispatcher.NotifyObserversAndWorkers())); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvPushError(const nsACString& aScope, nsIPrincipal* aPrincipal, const nsAString& aMessage, const uint32_t& aFlags) { if (!aPrincipal) { return IPC_FAIL(this, "No principal"); } if (!ValidatePrincipal(aPrincipal)) { LogAndAssertFailedPrincipalValidationInfo(aPrincipal, __func__); } PushErrorDispatcher dispatcher(aScope, aPrincipal, aMessage, aFlags); Unused << NS_WARN_IF(NS_FAILED(dispatcher.NotifyObserversAndWorkers())); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvNotifyPushSubscriptionModifiedObservers( const nsACString& aScope, nsIPrincipal* aPrincipal) { if (!aPrincipal) { return IPC_FAIL(this, "No principal"); } if (!ValidatePrincipal(aPrincipal)) { LogAndAssertFailedPrincipalValidationInfo(aPrincipal, __func__); } PushSubscriptionModifiedDispatcher dispatcher(aScope, aPrincipal); Unused << NS_WARN_IF(NS_FAILED(dispatcher.NotifyObservers())); return IPC_OK(); } /* static */ void ContentParent::BroadcastBlobURLRegistration( const nsACString& aURI, BlobImpl* aBlobImpl, nsIPrincipal* aPrincipal, const Maybe& aAgentClusterId, ContentParent* aIgnoreThisCP) { uint64_t originHash = ComputeLoadedOriginHash(aPrincipal); bool toBeSent = BlobURLProtocolHandler::IsBlobURLBroadcastPrincipal(aPrincipal); nsCString uri(aURI); for (auto* cp : AllProcesses(eLive)) { if (cp != aIgnoreThisCP) { if (!toBeSent && !cp->mLoadedOriginHashes.Contains(originHash)) { continue; } nsresult rv = cp->TransmitPermissionsForPrincipal(aPrincipal); if (NS_WARN_IF(NS_FAILED(rv))) { break; } IPCBlob ipcBlob; rv = IPCBlobUtils::Serialize(aBlobImpl, ipcBlob); if (NS_WARN_IF(NS_FAILED(rv))) { break; } Unused << cp->SendBlobURLRegistration(uri, ipcBlob, aPrincipal, aAgentClusterId); } } } /* static */ void ContentParent::BroadcastBlobURLUnregistration( const nsACString& aURI, nsIPrincipal* aPrincipal, ContentParent* aIgnoreThisCP) { uint64_t originHash = ComputeLoadedOriginHash(aPrincipal); bool toBeSent = BlobURLProtocolHandler::IsBlobURLBroadcastPrincipal(aPrincipal); nsCString uri(aURI); for (auto* cp : AllProcesses(eLive)) { if (cp != aIgnoreThisCP && (toBeSent || cp->mLoadedOriginHashes.Contains(originHash))) { Unused << cp->SendBlobURLUnregistration(uri); } } } mozilla::ipc::IPCResult ContentParent::RecvStoreAndBroadcastBlobURLRegistration( const nsACString& aURI, const IPCBlob& aBlob, nsIPrincipal* aPrincipal, const Maybe& aAgentClusterId) { if (!aPrincipal) { return IPC_FAIL(this, "No principal"); } if (!ValidatePrincipal(aPrincipal, {ValidatePrincipalOptions::AllowSystem})) { LogAndAssertFailedPrincipalValidationInfo(aPrincipal, __func__); } RefPtr blobImpl = IPCBlobUtils::Deserialize(aBlob); if (NS_WARN_IF(!blobImpl)) { return IPC_FAIL(this, "Blob deserialization failed."); } BlobURLProtocolHandler::AddDataEntry(aURI, aPrincipal, aAgentClusterId, blobImpl); BroadcastBlobURLRegistration(aURI, blobImpl, aPrincipal, aAgentClusterId, this); // We want to store this blobURL, so we can unregister it if the child // crashes. mBlobURLs.AppendElement(aURI); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvUnstoreAndBroadcastBlobURLUnregistration( const nsACString& aURI, nsIPrincipal* aPrincipal) { if (!aPrincipal) { return IPC_FAIL(this, "No principal"); } if (!ValidatePrincipal(aPrincipal, {ValidatePrincipalOptions::AllowSystem})) { LogAndAssertFailedPrincipalValidationInfo(aPrincipal, __func__); } BlobURLProtocolHandler::RemoveDataEntry(aURI, false /* Don't broadcast */); BroadcastBlobURLUnregistration(aURI, aPrincipal, this); mBlobURLs.RemoveElement(aURI); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvGetA11yContentId( uint32_t* aContentId) { #if defined(XP_WIN) && defined(ACCESSIBILITY) *aContentId = a11y::MsaaAccessible::GetContentProcessIdFor(ChildID()); MOZ_ASSERT(*aContentId); return IPC_OK(); #else return IPC_FAIL_NO_REASON(this); #endif } mozilla::ipc::IPCResult ContentParent::RecvA11yHandlerControl( const uint32_t& aPid, const IHandlerControlHolder& aHandlerControl) { #if defined(XP_WIN) && defined(ACCESSIBILITY) MOZ_ASSERT(!aHandlerControl.IsNull()); RefPtr proxy(aHandlerControl.Get()); a11y::AccessibleWrap::SetHandlerControl(aPid, std::move(proxy)); return IPC_OK(); #else return IPC_FAIL_NO_REASON(this); #endif } bool ContentParent::HandleWindowsMessages(const Message& aMsg) const { MOZ_ASSERT(aMsg.is_sync()); #ifdef ACCESSIBILITY // a11y messages can be triggered by windows messages, which means if we // allow handling windows messages while we wait for the response to a sync // a11y message we can reenter the ipc message sending code. if (a11y::PDocAccessible::PDocAccessibleStart < aMsg.type() && a11y::PDocAccessible::PDocAccessibleEnd > aMsg.type()) { return false; } #endif return true; } mozilla::ipc::IPCResult ContentParent::RecvGetFilesRequest( const nsID& aUUID, const nsAString& aDirectoryPath, const bool& aRecursiveFlag) { MOZ_ASSERT(!mGetFilesPendingRequests.GetWeak(aUUID)); if (!mozilla::Preferences::GetBool("dom.filesystem.pathcheck.disabled", false)) { RefPtr fss = FileSystemSecurity::Get(); if (!fss) { return IPC_FAIL(this, "Failed to get FileSystemSecurity."); } if (!fss->ContentProcessHasAccessTo(ChildID(), aDirectoryPath)) { return IPC_FAIL(this, "ContentProcessHasAccessTo failed."); } } ErrorResult rv; RefPtr helper = GetFilesHelperParent::Create( aUUID, aDirectoryPath, aRecursiveFlag, this, rv); if (NS_WARN_IF(rv.Failed())) { if (!SendGetFilesResponse(aUUID, GetFilesResponseFailure(rv.StealNSResult()))) { return IPC_FAIL(this, "SendGetFilesResponse failed."); } return IPC_OK(); } mGetFilesPendingRequests.InsertOrUpdate(aUUID, std::move(helper)); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvDeleteGetFilesRequest( const nsID& aUUID) { mGetFilesPendingRequests.Remove(aUUID); return IPC_OK(); } void ContentParent::SendGetFilesResponseAndForget( const nsID& aUUID, const GetFilesResponseResult& aResult) { if (mGetFilesPendingRequests.Remove(aUUID)) { Unused << SendGetFilesResponse(aUUID, aResult); } } void ContentParent::PaintTabWhileInterruptingJS( BrowserParent* aBrowserParent, const layers::LayersObserverEpoch& aEpoch) { if (!mHangMonitorActor) { return; } ProcessHangMonitor::PaintWhileInterruptingJS(mHangMonitorActor, aBrowserParent, aEpoch); } void ContentParent::CancelContentJSExecutionIfRunning( BrowserParent* aBrowserParent, nsIRemoteTab::NavigationType aNavigationType, const CancelContentJSOptions& aCancelContentJSOptions) { if (!mHangMonitorActor) { return; } ProcessHangMonitor::CancelContentJSExecutionIfRunning( mHangMonitorActor, aBrowserParent, aNavigationType, aCancelContentJSOptions); } void ContentParent::UpdateCookieStatus(nsIChannel* aChannel) { PNeckoParent* neckoParent = LoneManagedOrNullAsserts(ManagedPNeckoParent()); PCookieServiceParent* csParent = LoneManagedOrNullAsserts(neckoParent->ManagedPCookieServiceParent()); if (csParent) { auto* cs = static_cast(csParent); cs->TrackCookieLoad(aChannel); } } nsresult ContentParent::AboutToLoadHttpFtpDocumentForChild( nsIChannel* aChannel, bool* aShouldWaitForPermissionCookieUpdate) { MOZ_ASSERT(aChannel); if (aShouldWaitForPermissionCookieUpdate) { *aShouldWaitForPermissionCookieUpdate = false; } nsresult rv; bool isDocument = aChannel->IsDocument(); if (!isDocument) { // We may be looking at a nsIHttpChannel which has isMainDocumentChannel set // (e.g. the internal http channel for a view-source: load.). nsCOMPtr httpChannel = do_QueryInterface(aChannel); if (httpChannel) { rv = httpChannel->GetIsMainDocumentChannel(&isDocument); NS_ENSURE_SUCCESS(rv, rv); } } if (!isDocument) { return NS_OK; } // Get the principal for the channel result, so that we can get the permission // key for the document which will be created from this response. nsIScriptSecurityManager* ssm = nsContentUtils::GetSecurityManager(); if (NS_WARN_IF(!ssm)) { return NS_ERROR_FAILURE; } nsCOMPtr principal; nsCOMPtr partitionedPrincipal; rv = ssm->GetChannelResultPrincipals(aChannel, getter_AddRefs(principal), getter_AddRefs(partitionedPrincipal)); NS_ENSURE_SUCCESS(rv, rv); // Let the caller know we're going to send main thread IPC for updating // permisssions/cookies. if (aShouldWaitForPermissionCookieUpdate) { *aShouldWaitForPermissionCookieUpdate = true; } TransmitBlobURLsForPrincipal(principal); // Tranmit permissions for both regular and partitioned principal so that the // content process can get permissions for the partitioned principal. For // example, the desk-notification permission for a partitioned service worker. rv = TransmitPermissionsForPrincipal(principal); NS_ENSURE_SUCCESS(rv, rv); rv = TransmitPermissionsForPrincipal(partitionedPrincipal); NS_ENSURE_SUCCESS(rv, rv); nsLoadFlags newLoadFlags; aChannel->GetLoadFlags(&newLoadFlags); if (newLoadFlags & nsIRequest::LOAD_DOCUMENT_NEEDS_COOKIE) { UpdateCookieStatus(aChannel); } RefPtr loadInfo = aChannel->LoadInfo(); RefPtr browsingContext; rv = loadInfo->GetTargetBrowsingContext(getter_AddRefs(browsingContext)); NS_ENSURE_SUCCESS(rv, rv); if (!NextGenLocalStorageEnabled()) { return NS_OK; } if (principal->GetIsContentPrincipal()) { nsCOMPtr lsm = do_GetService("@mozilla.org/dom/localStorage-manager;1"); if (NS_WARN_IF(!lsm)) { return NS_ERROR_FAILURE; } nsCOMPtr storagePrincipal; rv = ssm->GetChannelResultStoragePrincipal( aChannel, getter_AddRefs(storagePrincipal)); NS_ENSURE_SUCCESS(rv, rv); RefPtr dummy; rv = lsm->Preload(storagePrincipal, nullptr, getter_AddRefs(dummy)); if (NS_FAILED(rv)) { NS_WARNING("Failed to preload local storage!"); } } return NS_OK; } nsresult ContentParent::TransmitPermissionsForPrincipal( nsIPrincipal* aPrincipal) { // Create the key, and send it down to the content process. nsTArray> pairs = PermissionManager::GetAllKeysForPrincipal(aPrincipal); MOZ_ASSERT(pairs.Length() >= 1); for (auto& pair : pairs) { EnsurePermissionsByKey(pair.first, pair.second); } return NS_OK; } void ContentParent::TransmitBlobURLsForPrincipal(nsIPrincipal* aPrincipal) { // If we're already broadcasting BlobURLs with this principal, we don't need // to send them here. if (BlobURLProtocolHandler::IsBlobURLBroadcastPrincipal(aPrincipal)) { return; } // We shouldn't have any Blob URLs with expanded principals, so transmit URLs // for each principal in the AllowList instead. if (nsCOMPtr ep = do_QueryInterface(aPrincipal)) { for (const auto& prin : ep->AllowList()) { TransmitBlobURLsForPrincipal(prin); } return; } uint64_t originHash = ComputeLoadedOriginHash(aPrincipal); if (!mLoadedOriginHashes.Contains(originHash)) { mLoadedOriginHashes.AppendElement(originHash); nsTArray registrations; BlobURLProtocolHandler::ForEachBlobURL( [&](BlobImpl* aBlobImpl, nsIPrincipal* aBlobPrincipal, const Maybe& aAgentClusterId, const nsACString& aURI, bool aRevoked) { // This check uses `ComputeLoadedOriginHash` to compare, rather than // doing the more accurate `Equals` check, as it needs to match the // behaviour of the logic to broadcast new registrations. if (originHash != ComputeLoadedOriginHash(aBlobPrincipal)) { return true; } IPCBlob ipcBlob; nsresult rv = IPCBlobUtils::Serialize(aBlobImpl, ipcBlob); if (NS_WARN_IF(NS_FAILED(rv))) { return false; } registrations.AppendElement( BlobURLRegistrationData(nsCString(aURI), ipcBlob, aBlobPrincipal, aAgentClusterId, aRevoked)); rv = TransmitPermissionsForPrincipal(aBlobPrincipal); Unused << NS_WARN_IF(NS_FAILED(rv)); return true; }); if (!registrations.IsEmpty()) { Unused << SendInitBlobURLs(registrations); } } } void ContentParent::TransmitBlobDataIfBlobURL(nsIURI* aURI) { MOZ_ASSERT(aURI); nsCOMPtr principal; if (BlobURLProtocolHandler::GetBlobURLPrincipal(aURI, getter_AddRefs(principal))) { TransmitBlobURLsForPrincipal(principal); } } void ContentParent::EnsurePermissionsByKey(const nsACString& aKey, const nsACString& aOrigin) { // NOTE: Make sure to initialize the permission manager before updating the // mActivePermissionKeys list. If the permission manager is being initialized // by this call to GetPermissionManager, and we've added the key to // mActivePermissionKeys, then the permission manager will send down a // SendAddPermission before receiving the SendSetPermissionsWithKey message. RefPtr permManager = PermissionManager::GetInstance(); if (!permManager) { return; } if (!mActivePermissionKeys.EnsureInserted(aKey)) { return; } nsTArray perms; if (permManager->GetPermissionsFromOriginOrKey(aOrigin, aKey, perms)) { Unused << SendSetPermissionsWithKey(aKey, perms); } } bool ContentParent::NeedsPermissionsUpdate( const nsACString& aPermissionKey) const { return mActivePermissionKeys.Contains(aPermissionKey); } mozilla::ipc::IPCResult ContentParent::RecvAccumulateChildHistograms( nsTArray&& aAccumulations) { TelemetryIPC::AccumulateChildHistograms(GetTelemetryProcessID(mRemoteType), aAccumulations); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvAccumulateChildKeyedHistograms( nsTArray&& aAccumulations) { TelemetryIPC::AccumulateChildKeyedHistograms( GetTelemetryProcessID(mRemoteType), aAccumulations); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvUpdateChildScalars( nsTArray&& aScalarActions) { TelemetryIPC::UpdateChildScalars(GetTelemetryProcessID(mRemoteType), aScalarActions); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvUpdateChildKeyedScalars( nsTArray&& aScalarActions) { TelemetryIPC::UpdateChildKeyedScalars(GetTelemetryProcessID(mRemoteType), aScalarActions); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvRecordChildEvents( nsTArray&& aEvents) { TelemetryIPC::RecordChildEvents(GetTelemetryProcessID(mRemoteType), aEvents); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvRecordDiscardedData( const mozilla::Telemetry::DiscardedData& aDiscardedData) { TelemetryIPC::RecordDiscardedData(GetTelemetryProcessID(mRemoteType), aDiscardedData); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvRecordPageLoadEvent( const mozilla::glean::perf::PageLoadExtra& aPageLoadEventExtra) { mozilla::glean::perf::page_load.Record(mozilla::Some(aPageLoadEventExtra)); // Send the PageLoadPing after every 30 page loads, or on startup. if (++sPageLoadEventCounter >= 30) { NS_SUCCEEDED(NS_DispatchToMainThreadQueue( NS_NewRunnableFunction( "PageLoadPingIdleTask", [] { mozilla::glean_pings::Pageload.Submit("threshold"_ns); }), EventQueuePriority::Idle)); sPageLoadEventCounter = 0; } return IPC_OK(); } ////////////////////////////////////////////////////////////////// // PURLClassifierParent PURLClassifierParent* ContentParent::AllocPURLClassifierParent( nsIPrincipal* aPrincipal, bool* aSuccess) { MOZ_ASSERT(NS_IsMainThread()); *aSuccess = true; RefPtr actor = new URLClassifierParent(); return actor.forget().take(); } mozilla::ipc::IPCResult ContentParent::RecvPURLClassifierConstructor( PURLClassifierParent* aActor, nsIPrincipal* aPrincipal, bool* aSuccess) { MOZ_ASSERT(NS_IsMainThread()); MOZ_ASSERT(aActor); *aSuccess = false; auto* actor = static_cast(aActor); nsCOMPtr principal(aPrincipal); if (!principal) { actor->ClassificationFailed(); return IPC_OK(); } if (!ValidatePrincipal(aPrincipal)) { LogAndAssertFailedPrincipalValidationInfo(aPrincipal, __func__); } return actor->StartClassify(principal, aSuccess); } bool ContentParent::DeallocPURLClassifierParent(PURLClassifierParent* aActor) { MOZ_ASSERT(NS_IsMainThread()); MOZ_ASSERT(aActor); RefPtr actor = dont_AddRef(static_cast(aActor)); return true; } ////////////////////////////////////////////////////////////////// // PURLClassifierLocalParent PURLClassifierLocalParent* ContentParent::AllocPURLClassifierLocalParent( nsIURI* aURI, const nsTArray& aFeatures) { MOZ_ASSERT(NS_IsMainThread()); RefPtr actor = new URLClassifierLocalParent(); return actor.forget().take(); } mozilla::ipc::IPCResult ContentParent::RecvPURLClassifierLocalConstructor( PURLClassifierLocalParent* aActor, nsIURI* aURI, nsTArray&& aFeatures) { MOZ_ASSERT(NS_IsMainThread()); MOZ_ASSERT(aActor); nsTArray features = std::move(aFeatures); if (!aURI) { return IPC_FAIL(this, "aURI should not be null"); } auto* actor = static_cast(aActor); return actor->StartClassify(aURI, features); } bool ContentParent::DeallocPURLClassifierLocalParent( PURLClassifierLocalParent* aActor) { MOZ_ASSERT(NS_IsMainThread()); MOZ_ASSERT(aActor); RefPtr actor = dont_AddRef(static_cast(aActor)); return true; } PLoginReputationParent* ContentParent::AllocPLoginReputationParent( nsIURI* aURI) { MOZ_ASSERT(NS_IsMainThread()); RefPtr actor = new LoginReputationParent(); return actor.forget().take(); } mozilla::ipc::IPCResult ContentParent::RecvPLoginReputationConstructor( PLoginReputationParent* aActor, nsIURI* aURI) { MOZ_ASSERT(NS_IsMainThread()); MOZ_ASSERT(aActor); if (!aURI) { return IPC_FAIL(this, "aURI should not be null"); } auto* actor = static_cast(aActor); return actor->QueryReputation(aURI); } bool ContentParent::DeallocPLoginReputationParent( PLoginReputationParent* aActor) { MOZ_ASSERT(NS_IsMainThread()); MOZ_ASSERT(aActor); RefPtr actor = dont_AddRef(static_cast(aActor)); return true; } PSessionStorageObserverParent* ContentParent::AllocPSessionStorageObserverParent() { MOZ_ASSERT(NS_IsMainThread()); return mozilla::dom::AllocPSessionStorageObserverParent(); } mozilla::ipc::IPCResult ContentParent::RecvPSessionStorageObserverConstructor( PSessionStorageObserverParent* aActor) { MOZ_ASSERT(NS_IsMainThread()); MOZ_ASSERT(aActor); if (!mozilla::dom::RecvPSessionStorageObserverConstructor(aActor)) { return IPC_FAIL(this, "RecvPSessionStorageObserverConstructor failed."); } return IPC_OK(); } bool ContentParent::DeallocPSessionStorageObserverParent( PSessionStorageObserverParent* aActor) { MOZ_ASSERT(NS_IsMainThread()); MOZ_ASSERT(aActor); return mozilla::dom::DeallocPSessionStorageObserverParent(aActor); } mozilla::ipc::IPCResult ContentParent::RecvDeviceReset() { GPUProcessManager* pm = GPUProcessManager::Get(); if (pm) { pm->SimulateDeviceReset(); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvBHRThreadHang( const HangDetails& aDetails) { nsCOMPtr obs = mozilla::services::GetObserverService(); if (obs) { // Copy the HangDetails recieved over the network into a nsIHangDetails, and // then fire our own observer notification. // XXX: We should be able to avoid this potentially expensive copy here by // moving our deserialized argument. nsCOMPtr hangDetails = new nsHangDetails(HangDetails(aDetails), PersistedToDisk::No); obs->NotifyObservers(hangDetails, "bhr-thread-hang", nullptr); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvAddCertException( nsIX509Cert* aCert, const nsACString& aHostName, int32_t aPort, const OriginAttributes& aOriginAttributes, bool aIsTemporary, AddCertExceptionResolver&& aResolver) { nsCOMPtr overrideService = do_GetService(NS_CERTOVERRIDE_CONTRACTID); if (!overrideService) { aResolver(NS_ERROR_FAILURE); return IPC_OK(); } nsresult rv = overrideService->RememberValidityOverride( aHostName, aPort, aOriginAttributes, aCert, aIsTemporary); aResolver(rv); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvAutomaticStorageAccessPermissionCanBeGranted( nsIPrincipal* aPrincipal, AutomaticStorageAccessPermissionCanBeGrantedResolver&& aResolver) { if (!aPrincipal) { return IPC_FAIL(this, "No principal"); } if (!ValidatePrincipal(aPrincipal)) { LogAndAssertFailedPrincipalValidationInfo(aPrincipal, __func__); } aResolver(Document::AutomaticStorageAccessPermissionCanBeGranted(aPrincipal)); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvStorageAccessPermissionGrantedForOrigin( uint64_t aTopLevelWindowId, const MaybeDiscarded& aParentContext, nsIPrincipal* aTrackingPrincipal, const nsACString& aTrackingOrigin, const int& aAllowMode, const Maybe& aReason, StorageAccessPermissionGrantedForOriginResolver&& aResolver) { if (aParentContext.IsNullOrDiscarded()) { return IPC_OK(); } if (!aTrackingPrincipal) { return IPC_FAIL(this, "No principal"); } // We only report here if we cannot report the console directly in the content // process. In that case, the `aReason` would be given a value. Otherwise, it // will be nothing. if (aReason) { ContentBlockingNotifier::ReportUnblockingToConsole( aParentContext.get_canonical(), NS_ConvertUTF8toUTF16(aTrackingOrigin), aReason.value()); } StorageAccessAPIHelper::SaveAccessForOriginOnParentProcess( aTopLevelWindowId, aParentContext.get_canonical(), aTrackingPrincipal, aAllowMode) ->Then(GetCurrentSerialEventTarget(), __func__, [aResolver = std::move(aResolver)]( StorageAccessAPIHelper::ParentAccessGrantPromise:: ResolveOrRejectValue&& aValue) { bool success = aValue.IsResolve() && NS_SUCCEEDED(aValue.ResolveValue()); aResolver(success); }); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvCompleteAllowAccessFor( const MaybeDiscarded& aParentContext, uint64_t aTopLevelWindowId, nsIPrincipal* aTrackingPrincipal, const nsACString& aTrackingOrigin, uint32_t aCookieBehavior, const ContentBlockingNotifier::StorageAccessPermissionGrantedReason& aReason, CompleteAllowAccessForResolver&& aResolver) { if (aParentContext.IsNullOrDiscarded()) { return IPC_OK(); } StorageAccessAPIHelper::CompleteAllowAccessFor( aParentContext.get_canonical(), aTopLevelWindowId, aTrackingPrincipal, aTrackingOrigin, aCookieBehavior, aReason, nullptr) ->Then(GetCurrentSerialEventTarget(), __func__, [aResolver = std::move(aResolver)]( StorageAccessAPIHelper::StorageAccessPermissionGrantPromise:: ResolveOrRejectValue&& aValue) { Maybe choice; if (aValue.IsResolve()) { choice.emplace(static_cast( aValue.ResolveValue())); } aResolver(choice); }); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvSetAllowStorageAccessRequestFlag( nsIPrincipal* aEmbeddedPrincipal, nsIURI* aEmbeddingOrigin, SetAllowStorageAccessRequestFlagResolver&& aResolver) { MOZ_ASSERT(aEmbeddedPrincipal); MOZ_ASSERT(aEmbeddingOrigin); // Get the permission manager and build the key. RefPtr permManager = PermissionManager::GetInstance(); if (!permManager) { aResolver(false); return IPC_OK(); } nsCOMPtr embeddedURI = aEmbeddedPrincipal->GetURI(); nsCString permissionKey; bool success = AntiTrackingUtils::CreateStorageRequestPermissionKey( embeddedURI, permissionKey); if (!success) { aResolver(false); return IPC_OK(); } // Set the permission to ALLOW for a prefence specified amount of seconds. // Time units are inconsistent, be careful int64_t when = (PR_Now() / PR_USEC_PER_MSEC) + StaticPrefs::dom_storage_access_forward_declared_lifetime() * PR_MSEC_PER_SEC; nsCOMPtr principal = BasePrincipal::CreateContentPrincipal( aEmbeddingOrigin, aEmbeddedPrincipal->OriginAttributesRef()); nsresult rv = permManager->AddFromPrincipal( principal, permissionKey, nsIPermissionManager::ALLOW_ACTION, nsIPermissionManager::EXPIRE_TIME, when); if (NS_FAILED(rv)) { aResolver(false); return IPC_OK(); } // Resolve with success if we set the permission. aResolver(true); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvTestAllowStorageAccessRequestFlag( nsIPrincipal* aEmbeddingPrincipal, nsIURI* aEmbeddedOrigin, TestAllowStorageAccessRequestFlagResolver&& aResolver) { MOZ_ASSERT(aEmbeddingPrincipal); MOZ_ASSERT(aEmbeddedOrigin); // Get the permission manager and build the key. RefPtr permManager = PermissionManager::GetInstance(); if (!permManager) { aResolver(false); return IPC_OK(); } nsCString requestPermissionKey; bool success = AntiTrackingUtils::CreateStorageRequestPermissionKey( aEmbeddedOrigin, requestPermissionKey); if (!success) { aResolver(false); return IPC_OK(); } // Get the permission and resolve false if it is not set to ALLOW. uint32_t access = nsIPermissionManager::UNKNOWN_ACTION; nsresult rv = permManager->TestPermissionFromPrincipal( aEmbeddingPrincipal, requestPermissionKey, &access); if (NS_FAILED(rv)) { aResolver(false); return IPC_OK(); } if (access != nsIPermissionManager::ALLOW_ACTION) { aResolver(false); return IPC_OK(); } // Remove the permission, failing if the permission manager fails rv = permManager->RemoveFromPrincipal(aEmbeddingPrincipal, requestPermissionKey); if (NS_FAILED(rv)) { aResolver(false); return IPC_OK(); } // At this point, signal to our caller that the permission was set aResolver(true); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvStoreUserInteractionAsPermission( nsIPrincipal* aPrincipal) { if (!aPrincipal) { return IPC_FAIL(this, "No principal"); } if (!ValidatePrincipal(aPrincipal)) { LogAndAssertFailedPrincipalValidationInfo(aPrincipal, __func__); } ContentBlockingUserInteraction::Observe(aPrincipal); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvTestCookiePermissionDecided( const MaybeDiscarded& aContext, nsIPrincipal* aPrincipal, const TestCookiePermissionDecidedResolver&& aResolver) { if (aContext.IsNullOrDiscarded()) { return IPC_OK(); } if (!aPrincipal) { return IPC_FAIL(this, "No principal"); } RefPtr wgp = aContext.get_canonical()->GetCurrentWindowGlobal(); nsCOMPtr cjs = wgp->CookieJarSettings(); Maybe result = StorageAccessAPIHelper::CheckCookiesPermittedDecidesStorageAccessAPI( cjs, aPrincipal); aResolver(result); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvTestStorageAccessPermission( nsIPrincipal* aEmbeddingPrincipal, const nsCString& aEmbeddedOrigin, const TestStorageAccessPermissionResolver&& aResolver) { // Get the permission manager and build the key. RefPtr permManager = PermissionManager::GetInstance(); if (!permManager) { aResolver(Nothing()); return IPC_OK(); } nsCString requestPermissionKey; AntiTrackingUtils::CreateStoragePermissionKey(aEmbeddedOrigin, requestPermissionKey); // Test the permission uint32_t access = nsIPermissionManager::UNKNOWN_ACTION; nsresult rv = permManager->TestPermissionFromPrincipal( aEmbeddingPrincipal, requestPermissionKey, &access); if (NS_FAILED(rv)) { aResolver(Nothing()); return IPC_OK(); } if (access == nsIPermissionManager::ALLOW_ACTION) { aResolver(Some(true)); } else if (access == nsIPermissionManager::DENY_ACTION) { aResolver(Some(false)); } else { aResolver(Nothing()); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvNotifyMediaPlaybackChanged( const MaybeDiscarded& aContext, MediaPlaybackState aState) { if (aContext.IsNullOrDiscarded()) { return IPC_OK(); } if (RefPtr updater = aContext.get_canonical()->GetMediaController()) { updater->NotifyMediaPlaybackChanged(aContext.ContextId(), aState); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvNotifyMediaAudibleChanged( const MaybeDiscarded& aContext, MediaAudibleState aState) { if (aContext.IsNullOrDiscarded()) { return IPC_OK(); } if (RefPtr updater = aContext.get_canonical()->GetMediaController()) { updater->NotifyMediaAudibleChanged(aContext.ContextId(), aState); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvNotifyPictureInPictureModeChanged( const MaybeDiscarded& aContext, bool aEnabled) { if (aContext.IsNullOrDiscarded()) { return IPC_OK(); } if (RefPtr controller = aContext.get_canonical()->GetMediaController()) { controller->SetIsInPictureInPictureMode(aContext.ContextId(), aEnabled); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvAbortOtherOrientationPendingPromises( const MaybeDiscarded& aContext) { if (aContext.IsNullOrDiscarded()) { return IPC_OK(); } CanonicalBrowsingContext* context = aContext.get_canonical(); context->Group()->EachOtherParent(this, [&](ContentParent* aParent) { Unused << aParent->SendAbortOrientationPendingPromises(context); }); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvNotifyMediaSessionUpdated( const MaybeDiscarded& aContext, bool aIsCreated) { if (aContext.IsNullOrDiscarded()) { return IPC_OK(); } RefPtr updater = aContext.get_canonical()->GetMediaController(); if (!updater) { return IPC_OK(); } if (aIsCreated) { updater->NotifySessionCreated(aContext->Id()); } else { updater->NotifySessionDestroyed(aContext->Id()); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvNotifyUpdateMediaMetadata( const MaybeDiscarded& aContext, const Maybe& aMetadata) { if (aContext.IsNullOrDiscarded()) { return IPC_OK(); } if (RefPtr updater = aContext.get_canonical()->GetMediaController()) { updater->UpdateMetadata(aContext.ContextId(), aMetadata); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvNotifyMediaSessionPlaybackStateChanged( const MaybeDiscarded& aContext, MediaSessionPlaybackState aPlaybackState) { if (aContext.IsNullOrDiscarded()) { return IPC_OK(); } if (RefPtr updater = aContext.get_canonical()->GetMediaController()) { updater->SetDeclaredPlaybackState(aContext.ContextId(), aPlaybackState); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvNotifyMediaSessionSupportedActionChanged( const MaybeDiscarded& aContext, MediaSessionAction aAction, bool aEnabled) { if (aContext.IsNullOrDiscarded()) { return IPC_OK(); } RefPtr updater = aContext.get_canonical()->GetMediaController(); if (!updater) { return IPC_OK(); } if (aEnabled) { updater->EnableAction(aContext.ContextId(), aAction); } else { updater->DisableAction(aContext.ContextId(), aAction); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvNotifyMediaFullScreenState( const MaybeDiscarded& aContext, bool aIsInFullScreen) { if (aContext.IsNullOrDiscarded()) { return IPC_OK(); } if (RefPtr updater = aContext.get_canonical()->GetMediaController()) { updater->NotifyMediaFullScreenState(aContext.ContextId(), aIsInFullScreen); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvNotifyPositionStateChanged( const MaybeDiscarded& aContext, const PositionState& aState) { if (aContext.IsNullOrDiscarded()) { return IPC_OK(); } if (RefPtr updater = aContext.get_canonical()->GetMediaController()) { updater->UpdatePositionState(aContext.ContextId(), aState); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvAddOrRemovePageAwakeRequest( const MaybeDiscarded& aContext, const bool& aShouldAddCount) { if (aContext.IsNullOrDiscarded()) { return IPC_OK(); } if (aShouldAddCount) { aContext.get_canonical()->AddPageAwakeRequest(); } else { aContext.get_canonical()->RemovePageAwakeRequest(); } return IPC_OK(); } #if defined(XP_WIN) mozilla::ipc::IPCResult ContentParent::RecvGetModulesTrust( ModulePaths&& aModPaths, bool aRunAtNormalPriority, GetModulesTrustResolver&& aResolver) { RefPtr dllSvc(DllServices::Get()); dllSvc->GetModulesTrust(std::move(aModPaths), aRunAtNormalPriority) ->Then( GetMainThreadSerialEventTarget(), __func__, [aResolver](ModulesMapResult&& aResult) { aResolver(Some(ModulesMapResult(std::move(aResult)))); }, [aResolver](nsresult aRv) { aResolver(Nothing()); }); return IPC_OK(); } #endif // defined(XP_WIN) mozilla::ipc::IPCResult ContentParent::RecvCreateBrowsingContext( uint64_t aGroupId, BrowsingContext::IPCInitializer&& aInit) { RefPtr parent; if (aInit.mParentId != 0) { parent = WindowGlobalParent::GetByInnerWindowId(aInit.mParentId); if (!parent) { return IPC_FAIL(this, "Parent doesn't exist in parent process"); } } if (parent && parent->GetContentParent() != this) { // We're trying attach a child BrowsingContext to a parent // WindowContext in another process. This is illegal since the // only thing that could create that child BrowsingContext is the parent // window's process. return IPC_FAIL(this, "Must create BrowsingContext from the parent's process"); } RefPtr opener; if (aInit.GetOpenerId() != 0) { opener = BrowsingContext::Get(aInit.GetOpenerId()); if (!opener) { return IPC_FAIL(this, "Opener doesn't exist in parent process"); } } RefPtr child = BrowsingContext::Get(aInit.mId); if (child) { // This is highly suspicious. BrowsingContexts should only be created once, // so finding one indicates that someone is doing something they shouldn't. return IPC_FAIL(this, "A BrowsingContext with this ID already exists"); } // Ensure that the passed-in BrowsingContextGroup is valid. RefPtr group = BrowsingContextGroup::GetOrCreate(aGroupId); if (parent && parent->Group() != group) { if (parent->Group()->Id() != aGroupId) { return IPC_FAIL(this, "Parent has different group ID"); } else { return IPC_FAIL(this, "Parent has different group object"); } } if (opener && opener->Group() != group) { if (opener->Group()->Id() != aGroupId) { return IPC_FAIL(this, "Opener has different group ID"); } else { return IPC_FAIL(this, "Opener has different group object"); } } if (!parent && !opener && !group->Toplevels().IsEmpty()) { return IPC_FAIL(this, "Unrelated context from child in stale group"); } BrowsingContext::CreateFromIPC(std::move(aInit), group, this); return IPC_OK(); } bool ContentParent::CheckBrowsingContextEmbedder(CanonicalBrowsingContext* aBC, const char* aOperation) const { if (!aBC->IsEmbeddedInProcess(ChildID())) { MOZ_LOG(BrowsingContext::GetLog(), LogLevel::Warning, ("ParentIPC: Trying to %s out of process context 0x%08" PRIx64, aOperation, aBC->Id())); return false; } return true; } mozilla::ipc::IPCResult ContentParent::RecvDiscardBrowsingContext( const MaybeDiscarded& aContext, bool aDoDiscard, DiscardBrowsingContextResolver&& aResolve) { if (CanonicalBrowsingContext* context = CanonicalBrowsingContext::Cast(aContext.GetMaybeDiscarded())) { if (aDoDiscard && !context->IsDiscarded()) { if (!CheckBrowsingContextEmbedder(context, "discard")) { return IPC_FAIL(this, "Illegal Discard attempt"); } context->Detach(/* aFromIPC */ true); } context->AddFinalDiscardListener(aResolve); return IPC_OK(); } // Resolve the promise, as we've received and handled the message. This will // allow the content process to fully-discard references to this BC. aResolve(true); return IPC_OK(); } void ContentParent::UnregisterRemoveWorkerActor() { MOZ_ASSERT(NS_IsMainThread()); { MutexAutoLock lock(mThreadsafeHandle->mMutex); if (--mThreadsafeHandle->mRemoteWorkerActorCount) { return; } } MOZ_LOG(ContentParent::GetLog(), LogLevel::Verbose, ("UnregisterRemoveWorkerActor %p", this)); MaybeBeginShutDown(); } mozilla::ipc::IPCResult ContentParent::RecvWindowClose( const MaybeDiscarded& aContext, bool aTrustedCaller) { if (aContext.IsNullOrDiscarded()) { MOZ_LOG( BrowsingContext::GetLog(), LogLevel::Debug, ("ParentIPC: Trying to send a message to dead or detached context")); return IPC_OK(); } CanonicalBrowsingContext* context = aContext.get_canonical(); // FIXME Need to check that the sending process has access to the unit of // related // browsing contexts of bc. ContentProcessManager* cpm = ContentProcessManager::GetSingleton(); if (cpm) { ContentParent* cp = cpm->GetContentProcessById(ContentParentId(context->OwnerProcessId())); Unused << cp->SendWindowClose(context, aTrustedCaller); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvWindowFocus( const MaybeDiscarded& aContext, CallerType aCallerType, uint64_t aActionId) { if (aContext.IsNullOrDiscarded()) { MOZ_LOG( BrowsingContext::GetLog(), LogLevel::Debug, ("ParentIPC: Trying to send a message to dead or detached context")); return IPC_OK(); } LOGFOCUS(("ContentParent::RecvWindowFocus actionid: %" PRIu64, aActionId)); CanonicalBrowsingContext* context = aContext.get_canonical(); ContentProcessManager* cpm = ContentProcessManager::GetSingleton(); if (cpm) { ContentParent* cp = cpm->GetContentProcessById(ContentParentId(context->OwnerProcessId())); Unused << cp->SendWindowFocus(context, aCallerType, aActionId); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvWindowBlur( const MaybeDiscarded& aContext, CallerType aCallerType) { if (aContext.IsNullOrDiscarded()) { MOZ_LOG( BrowsingContext::GetLog(), LogLevel::Debug, ("ParentIPC: Trying to send a message to dead or detached context")); return IPC_OK(); } CanonicalBrowsingContext* context = aContext.get_canonical(); ContentProcessManager* cpm = ContentProcessManager::GetSingleton(); if (cpm) { ContentParent* cp = cpm->GetContentProcessById(ContentParentId(context->OwnerProcessId())); Unused << cp->SendWindowBlur(context, aCallerType); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvRaiseWindow( const MaybeDiscarded& aContext, CallerType aCallerType, uint64_t aActionId) { if (aContext.IsNullOrDiscarded()) { MOZ_LOG( BrowsingContext::GetLog(), LogLevel::Debug, ("ParentIPC: Trying to send a message to dead or detached context")); return IPC_OK(); } LOGFOCUS(("ContentParent::RecvRaiseWindow actionid: %" PRIu64, aActionId)); CanonicalBrowsingContext* context = aContext.get_canonical(); ContentProcessManager* cpm = ContentProcessManager::GetSingleton(); if (cpm) { ContentParent* cp = cpm->GetContentProcessById(ContentParentId(context->OwnerProcessId())); Unused << cp->SendRaiseWindow(context, aCallerType, aActionId); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvAdjustWindowFocus( const MaybeDiscarded& aContext, bool aIsVisible, uint64_t aActionId) { if (aContext.IsNullOrDiscarded()) { MOZ_LOG( BrowsingContext::GetLog(), LogLevel::Debug, ("ParentIPC: Trying to send a message to dead or detached context")); return IPC_OK(); } LOGFOCUS( ("ContentParent::RecvAdjustWindowFocus isVisible %d actionid: %" PRIu64, aIsVisible, aActionId)); nsTHashMap, bool> processes(2); processes.InsertOrUpdate(this, true); ContentProcessManager* cpm = ContentProcessManager::GetSingleton(); if (cpm) { CanonicalBrowsingContext* context = aContext.get_canonical(); while (context) { BrowsingContext* parent = context->GetParent(); if (!parent) { break; } CanonicalBrowsingContext* canonicalParent = parent->Canonical(); ContentParent* cp = cpm->GetContentProcessById( ContentParentId(canonicalParent->OwnerProcessId())); if (cp && !processes.Get(cp)) { Unused << cp->SendAdjustWindowFocus(context, aIsVisible, aActionId); processes.InsertOrUpdate(cp, true); } context = canonicalParent; } } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvClearFocus( const MaybeDiscarded& aContext) { if (aContext.IsNullOrDiscarded()) { MOZ_LOG( BrowsingContext::GetLog(), LogLevel::Debug, ("ParentIPC: Trying to send a message to dead or detached context")); return IPC_OK(); } CanonicalBrowsingContext* context = aContext.get_canonical(); ContentProcessManager* cpm = ContentProcessManager::GetSingleton(); if (cpm) { ContentParent* cp = cpm->GetContentProcessById(ContentParentId(context->OwnerProcessId())); Unused << cp->SendClearFocus(context); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvSetFocusedBrowsingContext( const MaybeDiscarded& aContext, uint64_t aActionId) { if (aContext.IsNullOrDiscarded()) { MOZ_LOG( BrowsingContext::GetLog(), LogLevel::Debug, ("ParentIPC: Trying to send a message to dead or detached context")); return IPC_OK(); } LOGFOCUS(("ContentParent::RecvSetFocusedBrowsingContext actionid: %" PRIu64, aActionId)); CanonicalBrowsingContext* context = aContext.get_canonical(); nsFocusManager* fm = nsFocusManager::GetFocusManager(); if (!fm) { return IPC_OK(); } if (!fm->SetFocusedBrowsingContextInChrome(context, aActionId)) { LOGFOCUS(( "Ignoring out-of-sequence attempt [%p] to set focused browsing context " "in parent.", context)); Unused << SendReviseFocusedBrowsingContext( aActionId, fm->GetFocusedBrowsingContextInChrome(), fm->GetActionIdForFocusedBrowsingContextInChrome()); return IPC_OK(); } BrowserParent::UpdateFocusFromBrowsingContext(); context->Group()->EachOtherParent(this, [&](ContentParent* aParent) { Unused << aParent->SendSetFocusedBrowsingContext(context, aActionId); }); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvSetActiveBrowsingContext( const MaybeDiscarded& aContext, uint64_t aActionId) { if (aContext.IsNullOrDiscarded()) { MOZ_LOG( BrowsingContext::GetLog(), LogLevel::Debug, ("ParentIPC: Trying to send a message to dead or detached context")); return IPC_OK(); } LOGFOCUS(("ContentParent::RecvSetActiveBrowsingContext actionid: %" PRIu64, aActionId)); CanonicalBrowsingContext* context = aContext.get_canonical(); nsFocusManager* fm = nsFocusManager::GetFocusManager(); if (!fm) { return IPC_OK(); } if (!fm->SetActiveBrowsingContextInChrome(context, aActionId)) { LOGFOCUS( ("Ignoring out-of-sequence attempt [%p] to set active browsing context " "in parent.", context)); Unused << SendReviseActiveBrowsingContext( aActionId, fm->GetActiveBrowsingContextInChrome(), fm->GetActionIdForActiveBrowsingContextInChrome()); return IPC_OK(); } context->Group()->EachOtherParent(this, [&](ContentParent* aParent) { Unused << aParent->SendSetActiveBrowsingContext(context, aActionId); }); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvUnsetActiveBrowsingContext( const MaybeDiscarded& aContext, uint64_t aActionId) { if (aContext.IsNullOrDiscarded()) { MOZ_LOG( BrowsingContext::GetLog(), LogLevel::Debug, ("ParentIPC: Trying to send a message to dead or detached context")); return IPC_OK(); } LOGFOCUS(("ContentParent::RecvUnsetActiveBrowsingContext actionid: %" PRIu64, aActionId)); CanonicalBrowsingContext* context = aContext.get_canonical(); nsFocusManager* fm = nsFocusManager::GetFocusManager(); if (!fm) { return IPC_OK(); } if (!fm->SetActiveBrowsingContextInChrome(nullptr, aActionId)) { LOGFOCUS( ("Ignoring out-of-sequence attempt to unset active browsing context in " "parent [%p].", context)); Unused << SendReviseActiveBrowsingContext( aActionId, fm->GetActiveBrowsingContextInChrome(), fm->GetActionIdForActiveBrowsingContextInChrome()); return IPC_OK(); } context->Group()->EachOtherParent(this, [&](ContentParent* aParent) { Unused << aParent->SendUnsetActiveBrowsingContext(context, aActionId); }); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvSetFocusedElement( const MaybeDiscarded& aContext, bool aNeedsFocus) { if (aContext.IsNullOrDiscarded()) { MOZ_LOG( BrowsingContext::GetLog(), LogLevel::Debug, ("ParentIPC: Trying to send a message to dead or detached context")); return IPC_OK(); } LOGFOCUS(("ContentParent::RecvSetFocusedElement")); CanonicalBrowsingContext* context = aContext.get_canonical(); ContentProcessManager* cpm = ContentProcessManager::GetSingleton(); if (cpm) { ContentParent* cp = cpm->GetContentProcessById(ContentParentId(context->OwnerProcessId())); Unused << cp->SendSetFocusedElement(context, aNeedsFocus); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvFinalizeFocusOuter( const MaybeDiscarded& aContext, bool aCanFocus, CallerType aCallerType) { if (aContext.IsNullOrDiscarded()) { MOZ_LOG( BrowsingContext::GetLog(), LogLevel::Debug, ("ParentIPC: Trying to send a message to dead or detached context")); return IPC_OK(); } LOGFOCUS(("ContentParent::RecvFinalizeFocusOuter")); CanonicalBrowsingContext* context = aContext.get_canonical(); ContentProcessManager* cpm = ContentProcessManager::GetSingleton(); if (cpm) { ContentParent* cp = cpm->GetContentProcessById( ContentParentId(context->EmbedderProcessId())); if (cp) { Unused << cp->SendFinalizeFocusOuter(context, aCanFocus, aCallerType); } } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvInsertNewFocusActionId( uint64_t aActionId) { LOGFOCUS(("ContentParent::RecvInsertNewFocusActionId actionid: %" PRIu64, aActionId)); nsFocusManager* fm = nsFocusManager::GetFocusManager(); if (fm) { fm->InsertNewFocusActionId(aActionId); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvBlurToParent( const MaybeDiscarded& aFocusedBrowsingContext, const MaybeDiscarded& aBrowsingContextToClear, const MaybeDiscarded& aAncestorBrowsingContextToFocus, bool aIsLeavingDocument, bool aAdjustWidget, bool aBrowsingContextToClearHandled, bool aAncestorBrowsingContextToFocusHandled, uint64_t aActionId) { if (aFocusedBrowsingContext.IsNullOrDiscarded()) { MOZ_LOG( BrowsingContext::GetLog(), LogLevel::Debug, ("ParentIPC: Trying to send a message to dead or detached context")); return IPC_OK(); } LOGFOCUS( ("ContentParent::RecvBlurToParent isLeavingDocument %d adjustWidget %d " "browsingContextToClearHandled %d ancestorBrowsingContextToFocusHandled " "%d actionid: %" PRIu64, aIsLeavingDocument, aAdjustWidget, aBrowsingContextToClearHandled, aAncestorBrowsingContextToFocusHandled, aActionId)); CanonicalBrowsingContext* focusedBrowsingContext = aFocusedBrowsingContext.get_canonical(); ContentProcessManager* cpm = ContentProcessManager::GetSingleton(); if (!cpm) { return IPC_OK(); } // If aBrowsingContextToClear and aAncestorBrowsingContextToFocusHandled // didn't get handled in the process that sent this IPC message and they // aren't in the same process as aFocusedBrowsingContext, we need to split // off their handling here and use SendSetFocusedElement to send them // elsewhere than the blurring itself. bool ancestorDifferent = (!aAncestorBrowsingContextToFocusHandled && !aAncestorBrowsingContextToFocus.IsNullOrDiscarded() && (focusedBrowsingContext->OwnerProcessId() != aAncestorBrowsingContextToFocus.get_canonical()->OwnerProcessId())); if (!aBrowsingContextToClearHandled && !aBrowsingContextToClear.IsNullOrDiscarded() && (focusedBrowsingContext->OwnerProcessId() != aBrowsingContextToClear.get_canonical()->OwnerProcessId())) { MOZ_RELEASE_ASSERT(!ancestorDifferent, "This combination is not supposed to happen."); ContentParent* cp = cpm->GetContentProcessById(ContentParentId( aBrowsingContextToClear.get_canonical()->OwnerProcessId())); Unused << cp->SendSetFocusedElement(aBrowsingContextToClear, false); } else if (ancestorDifferent) { ContentParent* cp = cpm->GetContentProcessById(ContentParentId( aAncestorBrowsingContextToFocus.get_canonical()->OwnerProcessId())); Unused << cp->SendSetFocusedElement(aAncestorBrowsingContextToFocus, true); } ContentParent* cp = cpm->GetContentProcessById( ContentParentId(focusedBrowsingContext->OwnerProcessId())); Unused << cp->SendBlurToChild(aFocusedBrowsingContext, aBrowsingContextToClear, aAncestorBrowsingContextToFocus, aIsLeavingDocument, aAdjustWidget, aActionId); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvMaybeExitFullscreen( const MaybeDiscarded& aContext) { if (aContext.IsNullOrDiscarded()) { MOZ_LOG( BrowsingContext::GetLog(), LogLevel::Debug, ("ParentIPC: Trying to send a message to dead or detached context")); return IPC_OK(); } CanonicalBrowsingContext* context = aContext.get_canonical(); ContentProcessManager* cpm = ContentProcessManager::GetSingleton(); if (cpm) { ContentParent* cp = cpm->GetContentProcessById(ContentParentId(context->OwnerProcessId())); Unused << cp->SendMaybeExitFullscreen(context); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvWindowPostMessage( const MaybeDiscarded& aContext, const ClonedOrErrorMessageData& aMessage, const PostMessageData& aData) { if (aContext.IsNullOrDiscarded()) { MOZ_LOG( BrowsingContext::GetLog(), LogLevel::Debug, ("ParentIPC: Trying to send a message to dead or detached context")); return IPC_OK(); } CanonicalBrowsingContext* context = aContext.get_canonical(); if (aData.source().IsDiscarded()) { MOZ_LOG( BrowsingContext::GetLog(), LogLevel::Debug, ("ParentIPC: Trying to send a message from dead or detached context")); return IPC_OK(); } RefPtr cp = context->GetContentParent(); if (!cp) { MOZ_LOG(BrowsingContext::GetLog(), LogLevel::Debug, ("ParentIPC: Trying to send PostMessage to dead content process")); return IPC_OK(); } ClonedOrErrorMessageData message; StructuredCloneData messageFromChild; if (aMessage.type() == ClonedOrErrorMessageData::TClonedMessageData) { UnpackClonedMessageData(aMessage, messageFromChild); ClonedMessageData clonedMessageData; if (BuildClonedMessageData(messageFromChild, clonedMessageData)) { message = std::move(clonedMessageData); } else { // FIXME Logging? message = ErrorMessageData(); } } else { MOZ_ASSERT(aMessage.type() == ClonedOrErrorMessageData::TErrorMessageData); message = ErrorMessageData(); } Unused << cp->SendWindowPostMessage(context, message, aData); return IPC_OK(); } void ContentParent::AddBrowsingContextGroup(BrowsingContextGroup* aGroup) { MOZ_DIAGNOSTIC_ASSERT(aGroup); // Ensure that the group has been inserted, and if we're not launching // anymore, also begin subscribing. Launching processes will be subscribed if // they finish launching in `LaunchSubprocessResolve`. if (mGroups.EnsureInserted(aGroup) && !IsLaunching()) { aGroup->Subscribe(this); } } void ContentParent::RemoveBrowsingContextGroup(BrowsingContextGroup* aGroup) { MOZ_DIAGNOSTIC_ASSERT(aGroup); // Remove the group from our list. This is called from the // BrowsingContextGroup when unsubscribing, so we don't need to do it here. if (mGroups.EnsureRemoved(aGroup) && CanSend()) { // If we're removing the entry for the first time, tell the content process // to clean up the group. Unused << SendDestroyBrowsingContextGroup(aGroup->Id()); } } mozilla::ipc::IPCResult ContentParent::RecvCommitBrowsingContextTransaction( const MaybeDiscarded& aContext, BrowsingContext::BaseTransaction&& aTransaction, uint64_t aEpoch) { // Record the new BrowsingContextFieldEpoch associated with this transaction. // This should be done unconditionally, so that we're always in-sync. // // The order the parent process receives transactions is considered the // "canonical" ordering, so we don't need to worry about doing any // epoch-related validation. MOZ_ASSERT(aEpoch == mBrowsingContextFieldEpoch + 1, "Child process skipped an epoch?"); mBrowsingContextFieldEpoch = aEpoch; return aTransaction.CommitFromIPC(aContext, this); } mozilla::ipc::IPCResult ContentParent::RecvBlobURLDataRequest( const nsACString& aBlobURL, nsIPrincipal* aTriggeringPrincipal, nsIPrincipal* aLoadingPrincipal, const OriginAttributes& aOriginAttributes, uint64_t aInnerWindowId, const Maybe& aAgentClusterId, BlobURLDataRequestResolver&& aResolver) { RefPtr blobImpl; // Since revoked blobs are also retrieved, it is possible that the blob no // longer exists (due to the 5 second timeout) when execution reaches here if (!BlobURLProtocolHandler::GetDataEntry( aBlobURL, getter_AddRefs(blobImpl), aLoadingPrincipal, aTriggeringPrincipal, aOriginAttributes, aInnerWindowId, aAgentClusterId, true /* AlsoIfRevoked */)) { aResolver(NS_ERROR_DOM_BAD_URI); return IPC_OK(); } IPCBlob ipcBlob; nsresult rv = IPCBlobUtils::Serialize(blobImpl, ipcBlob); if (NS_WARN_IF(NS_FAILED(rv))) { aResolver(rv); return IPC_OK(); } aResolver(ipcBlob); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvReportServiceWorkerShutdownProgress( uint32_t aShutdownStateId, ServiceWorkerShutdownState::Progress aProgress) { RefPtr swm = ServiceWorkerManager::GetInstance(); MOZ_RELEASE_ASSERT(swm, "ServiceWorkers should shutdown before SWM."); swm->ReportServiceWorkerShutdownProgress(aShutdownStateId, aProgress); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvNotifyOnHistoryReload( const MaybeDiscarded& aContext, const bool& aForceReload, NotifyOnHistoryReloadResolver&& aResolver) { bool canReload = false; Maybe> loadState; Maybe reloadActiveEntry; if (!aContext.IsDiscarded()) { aContext.get_canonical()->NotifyOnHistoryReload( aForceReload, canReload, loadState, reloadActiveEntry); } aResolver(Tuple>&, const Maybe&>(canReload, loadState, reloadActiveEntry)); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvHistoryCommit( const MaybeDiscarded& aContext, const uint64_t& aLoadID, const nsID& aChangeID, const uint32_t& aLoadType, const bool& aPersist, const bool& aCloneEntryChildren, const bool& aChannelExpired, const uint32_t& aCacheKey) { if (!aContext.IsDiscarded()) { CanonicalBrowsingContext* canonical = aContext.get_canonical(); if (!canonical) { return IPC_FAIL( this, "Could not get canonical. aContext.get_canonical() fails."); } canonical->SessionHistoryCommit(aLoadID, aChangeID, aLoadType, aPersist, aCloneEntryChildren, aChannelExpired, aCacheKey); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvHistoryGo( const MaybeDiscarded& aContext, int32_t aOffset, uint64_t aHistoryEpoch, bool aRequireUserInteraction, bool aUserActivation, HistoryGoResolver&& aResolveRequestedIndex) { if (!aContext.IsDiscarded()) { aResolveRequestedIndex(aContext.get_canonical()->HistoryGo( aOffset, aHistoryEpoch, aRequireUserInteraction, aUserActivation, Some(ChildID()))); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvSynchronizeLayoutHistoryState( const MaybeDiscarded& aContext, nsILayoutHistoryState* aState) { if (aContext.IsNull()) { return IPC_OK(); } BrowsingContext* bc = aContext.GetMaybeDiscarded(); if (!bc) { return IPC_OK(); } SessionHistoryEntry* entry = bc->Canonical()->GetActiveSessionHistoryEntry(); if (entry) { entry->SetLayoutHistoryState(aState); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvSessionHistoryEntryTitle( const MaybeDiscarded& aContext, const nsAString& aTitle) { if (aContext.IsNullOrDiscarded()) { return IPC_OK(); } SessionHistoryEntry* entry = aContext.get_canonical()->GetActiveSessionHistoryEntry(); if (entry) { entry->SetTitle(aTitle); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvSessionHistoryEntryScrollRestorationIsManual( const MaybeDiscarded& aContext, const bool& aIsManual) { if (aContext.IsNullOrDiscarded()) { return IPC_OK(); } SessionHistoryEntry* entry = aContext.get_canonical()->GetActiveSessionHistoryEntry(); if (entry) { entry->SetScrollRestorationIsManual(aIsManual); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvSessionHistoryEntryScrollPosition( const MaybeDiscarded& aContext, const int32_t& aX, const int32_t& aY) { if (aContext.IsNullOrDiscarded()) { return IPC_OK(); } SessionHistoryEntry* entry = aContext.get_canonical()->GetActiveSessionHistoryEntry(); if (entry) { entry->SetScrollPosition(aX, aY); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvSessionHistoryEntryStoreWindowNameInContiguousEntries( const MaybeDiscarded& aContext, const nsAString& aName) { if (aContext.IsNullOrDiscarded()) { return IPC_OK(); } // Per https://html.spec.whatwg.org/#history-traversal 4.2.1, we need to set // the name to all contiguous entries. This has to be called before // CanonicalBrowsingContext::SessionHistoryCommit(), so the active entry is // still the old entry that we want to set. SessionHistoryEntry* entry = aContext.get_canonical()->GetActiveSessionHistoryEntry(); if (entry) { nsSHistory::WalkContiguousEntries( entry, [&](nsISHEntry* aEntry) { aEntry->SetName(aName); }); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvSessionHistoryEntryCacheKey( const MaybeDiscarded& aContext, const uint32_t& aCacheKey) { if (aContext.IsNullOrDiscarded()) { return IPC_OK(); } SessionHistoryEntry* entry = aContext.get_canonical()->GetActiveSessionHistoryEntry(); if (entry) { entry->SetCacheKey(aCacheKey); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvSessionHistoryEntryWireframe( const MaybeDiscarded& aContext, const Wireframe& aWireframe) { if (aContext.IsNull()) { return IPC_OK(); } BrowsingContext* bc = aContext.GetMaybeDiscarded(); if (!bc) { return IPC_OK(); } SessionHistoryEntry* entry = bc->Canonical()->GetActiveSessionHistoryEntry(); if (entry) { entry->SetWireframe(Some(aWireframe)); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvGetLoadingSessionHistoryInfoFromParent( const MaybeDiscarded& aContext, GetLoadingSessionHistoryInfoFromParentResolver&& aResolver) { if (aContext.IsNullOrDiscarded()) { return IPC_OK(); } Maybe info; aContext.get_canonical()->GetLoadingSessionHistoryInfoFromParent(info); aResolver(info); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvRemoveFromBFCache( const MaybeDiscarded& aContext) { if (aContext.IsNullOrDiscarded()) { return IPC_OK(); } nsCOMPtr owner = do_QueryInterface(aContext.get_canonical()->GetEmbedderElement()); if (!owner) { return IPC_OK(); } RefPtr frameLoader = owner->GetFrameLoader(); if (!frameLoader || !frameLoader->GetMaybePendingBrowsingContext()) { return IPC_OK(); } nsCOMPtr shistory = frameLoader->GetMaybePendingBrowsingContext() ->Canonical() ->GetSessionHistory(); if (!shistory) { return IPC_OK(); } uint32_t count = shistory->GetCount(); for (uint32_t i = 0; i < count; ++i) { nsCOMPtr entry; shistory->GetEntryAtIndex(i, getter_AddRefs(entry)); nsCOMPtr she = do_QueryInterface(entry); if (she) { if (RefPtr frameLoader = she->GetFrameLoader()) { if (frameLoader->GetMaybePendingBrowsingContext() == aContext.get()) { she->SetFrameLoader(nullptr); frameLoader->Destroy(); break; } } } } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvSetActiveSessionHistoryEntry( const MaybeDiscarded& aContext, const Maybe& aPreviousScrollPos, SessionHistoryInfo&& aInfo, uint32_t aLoadType, uint32_t aUpdatedCacheKey, const nsID& aChangeID) { if (!aContext.IsDiscarded()) { aContext.get_canonical()->SetActiveSessionHistoryEntry( aPreviousScrollPos, &aInfo, aLoadType, aUpdatedCacheKey, aChangeID); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvReplaceActiveSessionHistoryEntry( const MaybeDiscarded& aContext, SessionHistoryInfo&& aInfo) { if (!aContext.IsDiscarded()) { aContext.get_canonical()->ReplaceActiveSessionHistoryEntry(&aInfo); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvRemoveDynEntriesFromActiveSessionHistoryEntry( const MaybeDiscarded& aContext) { if (!aContext.IsDiscarded()) { aContext.get_canonical()->RemoveDynEntriesFromActiveSessionHistoryEntry(); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvRemoveFromSessionHistory( const MaybeDiscarded& aContext, const nsID& aChangeID) { if (!aContext.IsDiscarded()) { aContext.get_canonical()->RemoveFromSessionHistory(aChangeID); } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvHistoryReload( const MaybeDiscarded& aContext, const uint32_t aReloadFlags) { if (!aContext.IsDiscarded()) { nsISHistory* shistory = aContext.get_canonical()->GetSessionHistory(); if (shistory) { shistory->Reload(aReloadFlags); } } return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvCommitWindowContextTransaction( const MaybeDiscarded& aContext, WindowContext::BaseTransaction&& aTransaction, uint64_t aEpoch) { // Record the new BrowsingContextFieldEpoch associated with this transaction. // This should be done unconditionally, so that we're always in-sync. // // The order the parent process receives transactions is considered the // "canonical" ordering, so we don't need to worry about doing any // epoch-related validation. MOZ_ASSERT(aEpoch == mBrowsingContextFieldEpoch + 1, "Child process skipped an epoch?"); mBrowsingContextFieldEpoch = aEpoch; return aTransaction.CommitFromIPC(aContext, this); } NS_IMETHODIMP ContentParent::GetChildID(uint64_t* aOut) { *aOut = this->ChildID(); return NS_OK; } NS_IMETHODIMP ContentParent::GetOsPid(int32_t* aOut) { *aOut = Pid(); return NS_OK; } NS_IMETHODIMP ContentParent::GetRemoteType(nsACString& aRemoteType) { aRemoteType = GetRemoteType(); return NS_OK; } IPCResult ContentParent::RecvRawMessage( const JSActorMessageMeta& aMeta, const Maybe& aData, const Maybe& aStack) { Maybe data; if (aData) { data.emplace(); data->BorrowFromClonedMessageData(*aData); } Maybe stack; if (aStack) { stack.emplace(); stack->BorrowFromClonedMessageData(*aStack); } ReceiveRawMessage(aMeta, std::move(data), std::move(stack)); return IPC_OK(); } NS_IMETHODIMP ContentParent::GetActor(const nsACString& aName, JSContext* aCx, JSProcessActorParent** retval) { ErrorResult error; RefPtr actor = JSActorManager::GetActor(aCx, aName, error) .downcast(); if (error.MaybeSetPendingException(aCx)) { return NS_ERROR_FAILURE; } actor.forget(retval); return NS_OK; } NS_IMETHODIMP ContentParent::GetExistingActor(const nsACString& aName, JSProcessActorParent** retval) { RefPtr actor = JSActorManager::GetExistingActor(aName).downcast(); actor.forget(retval); return NS_OK; } already_AddRefed ContentParent::InitJSActor( JS::Handle aMaybeActor, const nsACString& aName, ErrorResult& aRv) { RefPtr actor; if (aMaybeActor.get()) { aRv = UNWRAP_OBJECT(JSProcessActorParent, aMaybeActor.get(), actor); if (aRv.Failed()) { return nullptr; } } else { actor = new JSProcessActorParent(); } MOZ_RELEASE_ASSERT(!actor->Manager(), "mManager was already initialized once!"); actor->Init(aName, this); return actor.forget(); } IPCResult ContentParent::RecvFOGData(ByteBuf&& buf) { glean::FOGData(std::move(buf)); return IPC_OK(); } mozilla::ipc::IPCResult ContentParent::RecvSetContainerFeaturePolicy( const MaybeDiscardedBrowsingContext& aContainerContext, FeaturePolicy* aContainerFeaturePolicy) { if (aContainerContext.IsNullOrDiscarded()) { return IPC_OK(); } auto* context = aContainerContext.get_canonical(); context->SetContainerFeaturePolicy(aContainerFeaturePolicy); return IPC_OK(); } NS_IMETHODIMP ContentParent::GetCanSend(bool* aCanSend) { *aCanSend = CanSend(); return NS_OK; } ContentParent* ContentParent::AsContentParent() { return this; } JSActorManager* ContentParent::AsJSActorManager() { return this; } /* static */ void ContentParent::DidLaunchSubprocess() { TimeStamp now = TimeStamp::Now(); uint32_t count = 0; for (auto* parent : ContentParent::AllProcesses(ContentParent::eLive)) { Unused << parent; count += 1; } if (count > sMaxContentProcesses) { sMaxContentProcesses = count; Telemetry::ScalarSet(Telemetry::ScalarID::CONTENT_PROCESS_MAX_PRECISE, count); } if (sLastContentProcessLaunch) { TimeStamp last = *sLastContentProcessLaunch; Telemetry::AccumulateTimeDelta( Telemetry::CONTENT_PROCESS_TIME_SINCE_LAST_LAUNCH_MS, last, now); } sLastContentProcessLaunch = Some(now); } IPCResult ContentParent::RecvGetSystemIcon(nsIURI* aURI, GetSystemIconResolver&& aResolver) { #if defined(MOZ_WIDGET_GTK) Maybe bytebuf = Some(ByteBuf{}); nsresult rv = nsIconChannel::GetIcon(aURI, bytebuf.ptr()); if (NS_WARN_IF(NS_FAILED(rv))) { bytebuf = Nothing(); } using ResolverArgs = Tuple&&>; aResolver(ResolverArgs(rv, std::move(bytebuf))); return IPC_OK(); #elif defined(XP_WIN) using ResolverArgs = Tuple&&>; nsIconChannel::GetIconAsync(aURI)->Then( GetCurrentSerialEventTarget(), __func__, [aResolver](ByteBuf&& aByteBuf) { Maybe bytebuf = Some(std::move(aByteBuf)); aResolver(ResolverArgs(NS_OK, std::move(bytebuf))); }, [aResolver](nsresult aErr) { Maybe bytebuf = Nothing(); aResolver(ResolverArgs(aErr, std::move(bytebuf))); }); return IPC_OK(); #else MOZ_CRASH( "This message is currently implemented only on GTK and Windows " "platforms"); #endif } #ifdef FUZZING_SNAPSHOT IPCResult ContentParent::RecvSignalFuzzingReady() { // No action needed here, we already observe this message directly // on the channel and act accordingly. return IPC_OK(); } #endif nsCString ThreadsafeContentParentHandle::GetRemoteType() { MutexAutoLock lock(mMutex); return mRemoteType; } bool ThreadsafeContentParentHandle::MaybeRegisterRemoteWorkerActor( MoveOnlyFunction aCallback) { MutexAutoLock lock(mMutex); if (aCallback(mRemoteWorkerActorCount, mShutdownStarted)) { ++mRemoteWorkerActorCount; return true; } return false; } } // namespace dom } // namespace mozilla NS_IMPL_ISUPPORTS(ParentIdleListener, nsIObserver) NS_IMETHODIMP ParentIdleListener::Observe(nsISupports*, const char* aTopic, const char16_t* aData) { mozilla::Unused << mParent->SendNotifyIdleObserver( mObserver, nsDependentCString(aTopic), nsDependentString(aData)); return NS_OK; }