/* -*- Mode: c++; c-basic-offset: 2; indent-tabs-mode: nil; tab-width: 40 -*- */ /* 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/. */ #include "MediaManager.h" #include "MediaStreamGraph.h" #include "mozilla/dom/MediaStreamTrack.h" #include "MediaStreamListener.h" #include "nsArray.h" #include "nsContentUtils.h" #include "nsHashPropertyBag.h" #include "nsIEventTarget.h" #include "nsIUUIDGenerator.h" #include "nsIScriptGlobalObject.h" #include "nsIPermissionManager.h" #include "nsIPopupWindowManager.h" #include "nsIDocShell.h" #include "nsIDocument.h" #include "nsISupportsPrimitives.h" #include "nsIInterfaceRequestorUtils.h" #include "nsIIDNService.h" #include "nsNetCID.h" #include "nsNetUtil.h" #include "nsICryptoHash.h" #include "nsICryptoHMAC.h" #include "nsIKeyModule.h" #include "nsAppDirectoryServiceDefs.h" #include "nsIInputStream.h" #include "nsILineInputStream.h" #include "mozilla/Telemetry.h" #include "mozilla/Types.h" #include "mozilla/PeerIdentity.h" #include "mozilla/dom/BindingDeclarations.h" #include "mozilla/dom/ContentChild.h" #include "mozilla/dom/Element.h" #include "mozilla/dom/File.h" #include "mozilla/dom/MediaStreamBinding.h" #include "mozilla/dom/MediaStreamTrackBinding.h" #include "mozilla/dom/GetUserMediaRequestBinding.h" #include "mozilla/dom/Promise.h" #include "mozilla/dom/MediaDevices.h" #include "mozilla/Base64.h" #include "mozilla/ipc/BackgroundChild.h" #include "mozilla/media/MediaChild.h" #include "mozilla/media/MediaTaskUtils.h" #include "MediaTrackConstraints.h" #include "VideoUtils.h" #include "Latency.h" #include "nsProxyRelease.h" #include "NullPrincipal.h" #include "nsVariant.h" // For snprintf #include "mozilla/Sprintf.h" #include "nsJSUtils.h" #include "nsGlobalWindow.h" #include "nsIUUIDGenerator.h" #include "nspr.h" #include "nss.h" #include "pk11pub.h" /* Using WebRTC backend on Desktops (Mac, Windows, Linux), otherwise default */ #include "MediaEngineDefault.h" #if defined(MOZ_WEBRTC) #include "MediaEngineWebRTC.h" #include "browser_logging/WebRtcLog.h" #endif #if defined (XP_WIN) #include "mozilla/WindowsVersion.h" #include #include #include #endif // GetCurrentTime is defined in winbase.h as zero argument macro forwarding to // GetTickCount() and conflicts with MediaStream::GetCurrentTime. #ifdef GetCurrentTime #undef GetCurrentTime #endif // XXX Workaround for bug 986974 to maintain the existing broken semantics template<> struct nsIMediaDevice::COMTypeInfo { static const nsIID kIID; }; const nsIID nsIMediaDevice::COMTypeInfo::kIID = NS_IMEDIADEVICE_IID; template<> struct nsIMediaDevice::COMTypeInfo { static const nsIID kIID; }; const nsIID nsIMediaDevice::COMTypeInfo::kIID = NS_IMEDIADEVICE_IID; namespace { already_AddRefed GetShutdownPhase() { nsCOMPtr svc = mozilla::services::GetAsyncShutdown(); MOZ_RELEASE_ASSERT(svc); nsCOMPtr shutdownPhase; nsresult rv = svc->GetProfileBeforeChange(getter_AddRefs(shutdownPhase)); if (!shutdownPhase) { // We are probably in a content process. We need to do cleanup at // XPCOM shutdown in leakchecking builds. rv = svc->GetXpcomWillShutdown(getter_AddRefs(shutdownPhase)); } MOZ_RELEASE_ASSERT(shutdownPhase); MOZ_RELEASE_ASSERT(NS_SUCCEEDED(rv)); return shutdownPhase.forget(); } } namespace mozilla { #ifdef LOG #undef LOG #endif LogModule* GetMediaManagerLog() { static LazyLogModule sLog("MediaManager"); return sLog; } #define LOG(msg) MOZ_LOG(GetMediaManagerLog(), mozilla::LogLevel::Debug, msg) using dom::BasicTrackSource; using dom::ConstrainDOMStringParameters; using dom::File; using dom::GetUserMediaRequest; using dom::MediaSourceEnum; using dom::MediaStreamConstraints; using dom::MediaStreamError; using dom::MediaStreamTrack; using dom::MediaStreamTrackSource; using dom::MediaTrackConstraints; using dom::MediaTrackConstraintSet; using dom::OwningBooleanOrMediaTrackConstraints; using dom::OwningStringOrStringSequence; using dom::OwningStringOrStringSequenceOrConstrainDOMStringParameters; using dom::Promise; using dom::Sequence; using media::NewRunnableFrom; using media::NewTaskFrom; using media::Pledge; using media::Refcountable; static Atomic sInShutdown; typedef media::Pledge PledgeVoid; class SourceListener : public MediaStreamListener { public: SourceListener(); /** * Registers this source listener as belonging to the given window listener. */ void Register(GetUserMediaWindowListener* aListener); /** * Marks this listener as active and adds itself as a listener to aStream. */ void Activate(SourceMediaStream* aStream, AudioDevice* aAudioDevice, VideoDevice* aVideoDevice); /** * Stops all live tracks, finishes the associated MediaStream and cleans up. */ void Stop(); /** * Removes this SourceListener from its associated MediaStream and marks it * removed. Also removes the weak reference to the associated window listener. */ void Remove(); /** * Posts a task to stop the device associated with aTrackID and notifies the * associated window listener that a track was stopped. * Should this track be the last live one to be stopped, we'll also clean up. */ void StopTrack(TrackID aTrackID); /** * Stops all screen/app/window/audioCapture sharing, but not camera or * microphone. */ void StopSharing(); MediaStream* Stream() const { return mStream; } SourceMediaStream* GetSourceStream(); AudioDevice* GetAudioDevice() const { return mAudioDevice; } VideoDevice* GetVideoDevice() const { return mVideoDevice; } void GetSettings(dom::MediaTrackSettings& aOutSettings, TrackID aTrackID); void NotifyPull(MediaStreamGraph* aGraph, StreamTime aDesiredTime) override; void NotifyEvent(MediaStreamGraph* aGraph, MediaStreamGraphEvent aEvent) override; void NotifyFinished(); /** * this can be in response to our own RemoveListener() (via ::Remove()), or * because the DOM GC'd the DOMLocalMediaStream/etc we're attached to. */ void NotifyRemoved(); bool Activated() const { return mStream; } bool Stopped() const { return mStopped; } bool CapturingVideo() const; bool CapturingAudio() const; bool CapturingScreen() const; bool CapturingWindow() const; bool CapturingApplication() const; bool CapturingBrowser() const; already_AddRefed ApplyConstraintsToTrack(nsPIDOMWindowInner* aWindow, TrackID aTrackID, const dom::MediaTrackConstraints& aConstraints, dom::CallerType aCallerType); PrincipalHandle GetPrincipalHandle() const; private: // true after this listener has had all devices stopped. MainThread only. bool mStopped; // true after the stream this listener is listening to has finished in the // MediaStreamGraph. MainThread only. bool mFinished; // true after this listener has been removed from its MediaStream. // MainThread only. bool mRemoved; // true if we have stopped mAudioDevice. MainThread only. bool mAudioStopped; // true if we have stopped mVideoDevice. MainThread only. bool mVideoStopped; // never ever indirect off this; just for assertions PRThread* mMainThreadCheck; // Set in Register() on main thread, then read from any thread. PrincipalHandle mPrincipalHandle; // Weak pointer to the window listener that owns us. MainThread only. GetUserMediaWindowListener* mWindowListener; // Set at Activate on MainThread // Accessed from MediaStreamGraph thread, MediaManager thread, and MainThread // No locking needed as they're only addrefed except on the MediaManager thread RefPtr mAudioDevice; // threadsafe refcnt RefPtr mVideoDevice; // threadsafe refcnt RefPtr mStream; // threadsafe refcnt }; /** * This class represents a WindowID and handles all MediaStreamListeners * (here subclassed as SourceListeners) used to feed GetUserMedia source * streams. It proxies feedback from them into messages for browser chrome. * The SourceListeners are used to Start() and Stop() the underlying * MediaEngineSource when MediaStreams are assigned and deassigned in content. */ class GetUserMediaWindowListener { friend MediaManager; public: NS_INLINE_DECL_THREADSAFE_REFCOUNTING(GetUserMediaWindowListener) // Create in an inactive state GetUserMediaWindowListener(base::Thread *aThread, uint64_t aWindowID, const PrincipalHandle& aPrincipalHandle) : mMediaThread(aThread) , mWindowID(aWindowID) , mPrincipalHandle(aPrincipalHandle) , mChromeNotificationTaskPosted(false) {} /** * Registers an inactive gUM source listener for this WindowListener. */ void Register(SourceListener* aListener) { MOZ_ASSERT(NS_IsMainThread()); if (!aListener || aListener->Activated()) { MOZ_ASSERT(false, "Invalid listener"); return; } if (mInactiveListeners.Contains(aListener)) { MOZ_ASSERT(false, "Already registered"); return; } if (mActiveListeners.Contains(aListener)) { MOZ_ASSERT(false, "Already activated"); return; } aListener->Register(this); mInactiveListeners.AppendElement(aListener); } /** * Activates an already registered and inactive gUM source listener for this * WindowListener. */ void Activate(SourceListener* aListener, SourceMediaStream* aStream, AudioDevice* aAudioDevice, VideoDevice* aVideoDevice) { MOZ_ASSERT(NS_IsMainThread()); if (!aListener || aListener->Activated()) { MOZ_ASSERT(false, "Cannot activate already activated source listener"); return; } if (!mInactiveListeners.RemoveElement(aListener)) { MOZ_ASSERT(false, "Cannot activate non-registered source listener"); return; } RefPtr listener = aListener; listener->Activate(aStream, aAudioDevice, aVideoDevice); mActiveListeners.AppendElement(listener.forget()); } // Can be invoked from EITHER MainThread or MSG thread void Stop() { MOZ_ASSERT(NS_IsMainThread(), "Only call on main thread"); for (auto& source : mActiveListeners) { source->Stop(); } // Once all tracks have stopped, that will trigger the chrome notification } /** * Removes all SourceListeners from this window listener. * Removes this window listener from the list of active windows, so callers * need to make sure to hold a strong reference. */ void RemoveAll() { MOZ_ASSERT(NS_IsMainThread()); // Shallow copy since SourceListener::Remove() will modify the arrays. nsTArray> listeners(mInactiveListeners.Length() + mActiveListeners.Length()); listeners.AppendElements(mInactiveListeners); listeners.AppendElements(mActiveListeners); for (auto& l : listeners) { Remove(l); } MOZ_ASSERT(mInactiveListeners.Length() == 0); MOZ_ASSERT(mActiveListeners.Length() == 0); MediaManager* mgr = MediaManager::GetIfExists(); if (!mgr) { MOZ_ASSERT(false, "MediaManager should stay until everything is removed"); return; } GetUserMediaWindowListener* windowListener = mgr->GetWindowListener(mWindowID); if (!windowListener) { nsCOMPtr obs = services::GetObserverService(); auto* globalWindow = nsGlobalWindowInner::GetInnerWindowWithId(mWindowID); if (globalWindow) { RefPtr req = new GetUserMediaRequest(globalWindow->AsInner(), VoidString(), VoidString()); obs->NotifyObservers(req, "recording-device-stopped", nullptr); } return; } MOZ_ASSERT(windowListener == this, "There should only be one window listener per window ID"); LOG(("GUMWindowListener %p removing windowID %" PRIu64, this, mWindowID)); mgr->RemoveWindowID(mWindowID); } bool Remove(SourceListener* aListener) { MOZ_ASSERT(NS_IsMainThread()); if (!mInactiveListeners.RemoveElement(aListener) && !mActiveListeners.RemoveElement(aListener)) { return false; } MOZ_ASSERT(!mInactiveListeners.Contains(aListener), "A SourceListener should only be once in one of " "mInactiveListeners and mActiveListeners"); MOZ_ASSERT(!mActiveListeners.Contains(aListener), "A SourceListener should only be once in one of " "mInactiveListeners and mActiveListeners"); LOG(("GUMWindowListener %p removing SourceListener %p.", this, aListener)); aListener->Remove(); if (VideoDevice* removedDevice = aListener->GetVideoDevice()) { bool revokeVideoPermission = true; nsString removedRawId; nsString removedSourceType; removedDevice->GetRawId(removedRawId); removedDevice->GetMediaSource(removedSourceType); for (const auto& l : mActiveListeners) { if (VideoDevice* device = l->GetVideoDevice()) { nsString rawId; device->GetRawId(rawId); if (removedRawId.Equals(rawId)) { revokeVideoPermission = false; break; } } } if (revokeVideoPermission) { nsCOMPtr obs = services::GetObserverService(); auto* globalWindow = nsGlobalWindowInner::GetInnerWindowWithId(mWindowID); nsPIDOMWindowInner* window = globalWindow ? globalWindow->AsInner() : nullptr; RefPtr req = new GetUserMediaRequest(window, removedRawId, removedSourceType); obs->NotifyObservers(req, "recording-device-stopped", nullptr); } } if (AudioDevice* removedDevice = aListener->GetAudioDevice()) { bool revokeAudioPermission = true; nsString removedRawId; nsString removedSourceType; removedDevice->GetRawId(removedRawId); removedDevice->GetMediaSource(removedSourceType); for (const auto& l : mActiveListeners) { if (AudioDevice* device = l->GetAudioDevice()) { nsString rawId; device->GetRawId(rawId); if (removedRawId.Equals(rawId)) { revokeAudioPermission = false; break; } } } if (revokeAudioPermission) { nsCOMPtr obs = services::GetObserverService(); auto* globalWindow = nsGlobalWindowInner::GetInnerWindowWithId(mWindowID); nsPIDOMWindowInner* window = globalWindow ? globalWindow->AsInner() : nullptr; RefPtr req = new GetUserMediaRequest(window, removedRawId, removedSourceType); obs->NotifyObservers(req, "recording-device-stopped", nullptr); } } if (mInactiveListeners.Length() == 0 && mActiveListeners.Length() == 0) { LOG(("GUMWindowListener %p Removed the last SourceListener. " "Cleaning up.", this)); RemoveAll(); } return true; } void StopSharing(); void StopRawID(const nsString& removedDeviceID); /** * Called by one of our SourceListeners when one of its tracks has stopped. * Schedules an event for the next stable state to update chrome. */ void NotifySourceTrackStopped(); /** * Called in stable state to send a notification to update chrome. */ void NotifyChromeOfTrackStops(); bool CapturingVideo() const { MOZ_ASSERT(NS_IsMainThread()); for (auto& l : mActiveListeners) { if (l->CapturingVideo()) { return true; } } return false; } bool CapturingAudio() const { MOZ_ASSERT(NS_IsMainThread()); for (auto& l : mActiveListeners) { if (l->CapturingAudio()) { return true; } } return false; } bool CapturingScreen() const { MOZ_ASSERT(NS_IsMainThread()); for (auto& l : mActiveListeners) { if (l->CapturingScreen()) { return true; } } return false; } bool CapturingWindow() const { MOZ_ASSERT(NS_IsMainThread()); for (auto& l : mActiveListeners) { if (l->CapturingWindow()) { return true; } } return false; } bool CapturingApplication() const { MOZ_ASSERT(NS_IsMainThread()); for (auto& l : mActiveListeners) { if (l->CapturingApplication()) { return true; } } return false; } bool CapturingBrowser() const { MOZ_ASSERT(NS_IsMainThread()); for (auto& l : mActiveListeners) { if (l->CapturingBrowser()) { return true; } } return false; } uint64_t WindowID() const { return mWindowID; } PrincipalHandle GetPrincipalHandle() const { return mPrincipalHandle; } private: ~GetUserMediaWindowListener() { for (auto& l : mInactiveListeners) { l->NotifyRemoved(); } mInactiveListeners.Clear(); for (auto& l : mActiveListeners) { l->NotifyRemoved(); } mActiveListeners.Clear(); Unused << mMediaThread; // It's OK to release mStream on any thread; they have thread-safe // refcounts. } // Set at construction base::Thread* mMediaThread; uint64_t mWindowID; const PrincipalHandle mPrincipalHandle; // true if we have scheduled a task to notify chrome in the next stable state. // The task will reset this to false. MainThread only. bool mChromeNotificationTaskPosted; nsTArray> mInactiveListeners; nsTArray> mActiveListeners; }; /** * Send an error back to content. * Do this only on the main thread. The onSuccess callback is also passed here * so it can be released correctly. */ template class ErrorCallbackRunnable : public Runnable { public: ErrorCallbackRunnable(nsCOMPtr&& aOnSuccess, nsCOMPtr&& aOnFailure, MediaMgrError& aError, uint64_t aWindowID) : Runnable("ErrorCallbackRunnable") , mError(&aError) , mWindowID(aWindowID) , mManager(MediaManager::GetInstance()) { mOnSuccess.swap(aOnSuccess); mOnFailure.swap(aOnFailure); } NS_IMETHOD Run() override { MOZ_ASSERT(NS_IsMainThread()); nsCOMPtr onSuccess = mOnSuccess.forget(); nsCOMPtr onFailure = mOnFailure.forget(); // Only run if the window is still active. if (!(mManager->IsWindowStillActive(mWindowID))) { return NS_OK; } // This is safe since we're on main-thread, and the windowlist can only // be invalidated from the main-thread (see OnNavigation) if (auto* window = nsGlobalWindowInner::GetInnerWindowWithId(mWindowID)) { RefPtr error = new MediaStreamError(window->AsInner(), *mError); onFailure->OnError(error); } return NS_OK; } private: ~ErrorCallbackRunnable() { MOZ_ASSERT(!mOnSuccess && !mOnFailure); } nsCOMPtr mOnSuccess; nsCOMPtr mOnFailure; RefPtr mError; uint64_t mWindowID; RefPtr mManager; // get ref to this when creating the runnable }; /** * nsIMediaDevice implementation. */ NS_IMPL_ISUPPORTS(MediaDevice, nsIMediaDevice) MediaDevice::MediaDevice(MediaEngineSource* aSource, bool aIsVideo) : mScary(aSource->GetScary()) , mMediaSource(aSource->GetMediaSource()) , mSource(aSource) , mIsVideo(aIsVideo) { mSource->GetName(mName); nsCString id; mSource->GetUUID(id); CopyUTF8toUTF16(id, mID); } VideoDevice::VideoDevice(MediaEngineVideoSource* aSource) : MediaDevice(aSource, true) {} /** * Helper functions that implement the constraints algorithm from * http://dev.w3.org/2011/webrtc/editor/getusermedia.html#methods-5 */ bool MediaDevice::StringsContain(const OwningStringOrStringSequence& aStrings, nsString aN) { return aStrings.IsString() ? aStrings.GetAsString() == aN : aStrings.GetAsStringSequence().Contains(aN); } /* static */ uint32_t MediaDevice::FitnessDistance(nsString aN, const ConstrainDOMStringParameters& aParams) { if (aParams.mExact.WasPassed() && !StringsContain(aParams.mExact.Value(), aN)) { return UINT32_MAX; } if (aParams.mIdeal.WasPassed() && !StringsContain(aParams.mIdeal.Value(), aN)) { return 1; } return 0; } // Binding code doesn't templatize well... /* static */ uint32_t MediaDevice::FitnessDistance(nsString aN, const OwningStringOrStringSequenceOrConstrainDOMStringParameters& aConstraint) { if (aConstraint.IsString()) { ConstrainDOMStringParameters params; params.mIdeal.Construct(); params.mIdeal.Value().SetAsString() = aConstraint.GetAsString(); return FitnessDistance(aN, params); } else if (aConstraint.IsStringSequence()) { ConstrainDOMStringParameters params; params.mIdeal.Construct(); params.mIdeal.Value().SetAsStringSequence() = aConstraint.GetAsStringSequence(); return FitnessDistance(aN, params); } else { return FitnessDistance(aN, aConstraint.GetAsConstrainDOMStringParameters()); } } uint32_t MediaDevice::GetBestFitnessDistance( const nsTArray& aConstraintSets, bool aIsChrome) { nsString mediaSource; GetMediaSource(mediaSource); // This code is reused for audio, where the mediaSource constraint does // not currently have a function, but because it defaults to "camera" in // webidl, we ignore it for audio here. if (!mediaSource.EqualsASCII("microphone")) { for (const auto& constraint : aConstraintSets) { if (constraint->mMediaSource.mIdeal.find(mediaSource) == constraint->mMediaSource.mIdeal.end()) { return UINT32_MAX; } } } // Forward request to underlying object to interrogate per-mode capabilities. // Pass in device's origin-specific id for deviceId constraint comparison. nsString id; if (aIsChrome) { GetRawId(id); } else { GetId(id); } return mSource->GetBestFitnessDistance(aConstraintSets, id); } AudioDevice::AudioDevice(MediaEngineAudioSource* aSource) : MediaDevice(aSource, false) { mMediaSource = aSource->GetMediaSource(); } NS_IMETHODIMP MediaDevice::GetName(nsAString& aName) { aName.Assign(mName); return NS_OK; } NS_IMETHODIMP MediaDevice::GetType(nsAString& aType) { return NS_OK; } NS_IMETHODIMP VideoDevice::GetType(nsAString& aType) { aType.AssignLiteral(u"video"); return NS_OK; } NS_IMETHODIMP AudioDevice::GetType(nsAString& aType) { aType.AssignLiteral(u"audio"); return NS_OK; } NS_IMETHODIMP MediaDevice::GetId(nsAString& aID) { aID.Assign(mID); return NS_OK; } NS_IMETHODIMP MediaDevice::GetRawId(nsAString& aID) { aID.Assign(mRawID); return NS_OK; } NS_IMETHODIMP MediaDevice::GetScary(bool* aScary) { *aScary = mScary; return NS_OK; } void MediaDevice::SetId(const nsAString& aID) { mID.Assign(aID); } void MediaDevice::SetRawId(const nsAString& aID) { mRawID.Assign(aID); } NS_IMETHODIMP MediaDevice::GetMediaSource(nsAString& aMediaSource) { if (mMediaSource == MediaSourceEnum::Microphone) { aMediaSource.AssignLiteral(u"microphone"); } else if (mMediaSource == MediaSourceEnum::AudioCapture) { aMediaSource.AssignLiteral(u"audioCapture"); } else if (mMediaSource == MediaSourceEnum::Window) { // this will go away aMediaSource.AssignLiteral(u"window"); } else { // all the rest are shared aMediaSource.Assign(NS_ConvertUTF8toUTF16( dom::MediaSourceEnumValues::strings[uint32_t(mMediaSource)].value)); } return NS_OK; } VideoDevice::Source* VideoDevice::GetSource() { return static_cast(&*mSource); } AudioDevice::Source* AudioDevice::GetSource() { return static_cast(&*mSource); } nsresult MediaDevice::Allocate(const dom::MediaTrackConstraints &aConstraints, const MediaEnginePrefs &aPrefs, const ipc::PrincipalInfo& aPrincipalInfo, const char** aOutBadConstraint) { return GetSource()->Allocate(aConstraints, aPrefs, mID, aPrincipalInfo, getter_AddRefs(mAllocationHandle), aOutBadConstraint); } nsresult MediaDevice::Restart(const dom::MediaTrackConstraints &aConstraints, const MediaEnginePrefs &aPrefs, const char** aOutBadConstraint) { return GetSource()->Restart(mAllocationHandle, aConstraints, aPrefs, mID, aOutBadConstraint); } nsresult MediaDevice::Deallocate() { return GetSource()->Deallocate(mAllocationHandle); } static bool IsOn(const OwningBooleanOrMediaTrackConstraints &aUnion) { return !aUnion.IsBoolean() || aUnion.GetAsBoolean(); } static const MediaTrackConstraints& GetInvariant(const OwningBooleanOrMediaTrackConstraints &aUnion) { static const MediaTrackConstraints empty; return aUnion.IsMediaTrackConstraints() ? aUnion.GetAsMediaTrackConstraints() : empty; } /** * This class is only needed since fake tracks are added dynamically. * Instead of refactoring to add them explicitly we let the DOMMediaStream * query us for the source as they become available. * Since they are used only for testing the API surface, we make them very * simple. */ class FakeTrackSourceGetter : public MediaStreamTrackSourceGetter { public: NS_DECL_ISUPPORTS_INHERITED NS_DECL_CYCLE_COLLECTION_CLASS_INHERITED(FakeTrackSourceGetter, MediaStreamTrackSourceGetter) explicit FakeTrackSourceGetter(nsIPrincipal* aPrincipal) : mPrincipal(aPrincipal) {} already_AddRefed GetMediaStreamTrackSource(TrackID aInputTrackID) override { NS_ASSERTION(kAudioTrack != aInputTrackID, "Only fake tracks should appear dynamically"); NS_ASSERTION(kVideoTrack != aInputTrackID, "Only fake tracks should appear dynamically"); return do_AddRef(new BasicTrackSource(mPrincipal)); } protected: virtual ~FakeTrackSourceGetter() {} nsCOMPtr mPrincipal; }; NS_IMPL_ADDREF_INHERITED(FakeTrackSourceGetter, MediaStreamTrackSourceGetter) NS_IMPL_RELEASE_INHERITED(FakeTrackSourceGetter, MediaStreamTrackSourceGetter) NS_INTERFACE_MAP_BEGIN_CYCLE_COLLECTION(FakeTrackSourceGetter) NS_INTERFACE_MAP_END_INHERITING(MediaStreamTrackSourceGetter) NS_IMPL_CYCLE_COLLECTION_INHERITED(FakeTrackSourceGetter, MediaStreamTrackSourceGetter, mPrincipal) /** * Creates a MediaStream, attaches a listener and fires off a success callback * to the DOM with the stream. We also pass in the error callback so it can * be released correctly. * * All of this must be done on the main thread! * * Note that the various GetUserMedia Runnable classes currently allow for * two streams. If we ever need to support getting more than two streams * at once, we could convert everything to nsTArray >'s, * though that would complicate the constructors some. Currently the * GetUserMedia spec does not allow for more than 2 streams to be obtained in * one call, to simplify handling of constraints. */ class GetUserMediaStreamRunnable : public Runnable { public: GetUserMediaStreamRunnable( nsCOMPtr& aOnSuccess, nsCOMPtr& aOnFailure, uint64_t aWindowID, GetUserMediaWindowListener* aWindowListener, SourceListener* aSourceListener, const ipc::PrincipalInfo& aPrincipalInfo, const MediaStreamConstraints& aConstraints, AudioDevice* aAudioDevice, VideoDevice* aVideoDevice, PeerIdentity* aPeerIdentity) : Runnable("GetUserMediaStreamRunnable") , mConstraints(aConstraints) , mAudioDevice(aAudioDevice) , mVideoDevice(aVideoDevice) , mWindowID(aWindowID) , mWindowListener(aWindowListener) , mSourceListener(aSourceListener) , mPrincipalInfo(aPrincipalInfo) , mPeerIdentity(aPeerIdentity) , mManager(MediaManager::GetInstance()) { mOnSuccess.swap(aOnSuccess); mOnFailure.swap(aOnFailure); } ~GetUserMediaStreamRunnable() {} class TracksAvailableCallback : public OnTracksAvailableCallback { public: TracksAvailableCallback(MediaManager* aManager, already_AddRefed aSuccess, uint64_t aWindowID, DOMMediaStream* aStream) : mWindowID(aWindowID), mOnSuccess(aSuccess), mManager(aManager), mStream(aStream) {} void NotifyTracksAvailable(DOMMediaStream* aStream) override { // We're in the main thread, so no worries here. if (!(mManager->IsWindowStillActive(mWindowID))) { return; } // Start currentTime from the point where this stream was successfully // returned. aStream->SetLogicalStreamStartTime(aStream->GetPlaybackStream()->GetCurrentTime()); // This is safe since we're on main-thread, and the windowlist can only // be invalidated from the main-thread (see OnNavigation) LOG(("Returning success for getUserMedia()")); mOnSuccess->OnSuccess(aStream); } uint64_t mWindowID; nsCOMPtr mOnSuccess; RefPtr mManager; // Keep the DOMMediaStream alive until the NotifyTracksAvailable callback // has fired, otherwise we might immediately destroy the DOMMediaStream and // shut down the underlying MediaStream prematurely. // This creates a cycle which is broken when NotifyTracksAvailable // is fired (which will happen unless the browser shuts down, // since we only add this callback when we've successfully appended // the desired tracks in the MediaStreamGraph) or when // DOMMediaStream::NotifyMediaStreamGraphShutdown is called. RefPtr mStream; }; NS_IMETHOD Run() override { MOZ_ASSERT(NS_IsMainThread()); nsGlobalWindowInner* globalWindow = nsGlobalWindowInner::GetInnerWindowWithId(mWindowID); nsPIDOMWindowInner* window = globalWindow ? globalWindow->AsInner() : nullptr; // We're on main-thread, and the windowlist can only // be invalidated from the main-thread (see OnNavigation) GetUserMediaWindowListener* listener = mManager->GetWindowListener(mWindowID); if (!listener || !window || !window->GetExtantDoc()) { // This window is no longer live. mListener has already been removed return NS_OK; } MediaStreamGraph::GraphDriverType graphDriverType = mAudioDevice ? MediaStreamGraph::AUDIO_THREAD_DRIVER : MediaStreamGraph::SYSTEM_THREAD_DRIVER; MediaStreamGraph* msg = MediaStreamGraph::GetInstance(graphDriverType, window); RefPtr domStream; RefPtr stream; // AudioCapture is a special case, here, in the sense that we're not really // using the audio source and the SourceMediaStream, which acts as // placeholders. We re-route a number of stream internaly in the MSG and mix // them down instead. if (mAudioDevice && mAudioDevice->GetMediaSource() == MediaSourceEnum::AudioCapture) { // It should be possible to pipe the capture stream to anything. CORS is // not a problem here, we got explicit user content. nsCOMPtr principal = window->GetExtantDoc()->NodePrincipal(); domStream = DOMMediaStream::CreateAudioCaptureStreamAsInput(window, principal, msg); stream = msg->CreateSourceStream(); // Placeholder msg->RegisterCaptureStreamForWindow( mWindowID, domStream->GetInputStream()->AsProcessedStream()); window->SetAudioCapture(true); } else { class LocalTrackSource : public MediaStreamTrackSource { public: LocalTrackSource(nsIPrincipal* aPrincipal, const nsString& aLabel, SourceListener* aListener, const MediaSourceEnum aSource, const TrackID aTrackID, const PeerIdentity* aPeerIdentity) : MediaStreamTrackSource(aPrincipal, aLabel), mListener(aListener), mSource(aSource), mTrackID(aTrackID), mPeerIdentity(aPeerIdentity) {} MediaSourceEnum GetMediaSource() const override { return mSource; } const PeerIdentity* GetPeerIdentity() const override { return mPeerIdentity; } already_AddRefed ApplyConstraints(nsPIDOMWindowInner* aWindow, const MediaTrackConstraints& aConstraints, dom::CallerType aCallerType) override { if (sInShutdown || !mListener) { // Track has been stopped, or we are in shutdown. In either case // there's no observable outcome, so pretend we succeeded. RefPtr p = new PledgeVoid(); p->Resolve(false); return p.forget(); } return mListener->ApplyConstraintsToTrack(aWindow, mTrackID, aConstraints, aCallerType); } void GetSettings(dom::MediaTrackSettings& aOutSettings) override { if (mListener) { mListener->GetSettings(aOutSettings, mTrackID); } } void Stop() override { if (mListener) { mListener->StopTrack(mTrackID); mListener = nullptr; } } protected: ~LocalTrackSource() {} RefPtr mListener; const MediaSourceEnum mSource; const TrackID mTrackID; const RefPtr mPeerIdentity; }; nsCOMPtr principal; if (mPeerIdentity) { principal = NullPrincipal::CreateWithInheritedAttributes(window->GetExtantDoc()->NodePrincipal()); } else { principal = window->GetExtantDoc()->NodePrincipal(); } // Normal case, connect the source stream to the track union stream to // avoid us blocking. Pass a simple TrackSourceGetter for potential // fake tracks. Apart from them gUM never adds tracks dynamically. domStream = DOMLocalMediaStream::CreateSourceStreamAsInput(window, msg, new FakeTrackSourceGetter(principal)); stream = domStream->GetInputStream()->AsSourceStream(); if (mAudioDevice) { nsString audioDeviceName; mAudioDevice->GetName(audioDeviceName); const MediaSourceEnum source = mAudioDevice->GetSource()->GetMediaSource(); RefPtr audioSource = new LocalTrackSource(principal, audioDeviceName, mSourceListener, source, kAudioTrack, mPeerIdentity); MOZ_ASSERT(IsOn(mConstraints.mAudio)); RefPtr track = domStream->CreateDOMTrack(kAudioTrack, MediaSegment::AUDIO, audioSource, GetInvariant(mConstraints.mAudio)); domStream->AddTrackInternal(track); } if (mVideoDevice) { nsString videoDeviceName; mVideoDevice->GetName(videoDeviceName); const MediaSourceEnum source = mVideoDevice->GetSource()->GetMediaSource(); RefPtr videoSource = new LocalTrackSource(principal, videoDeviceName, mSourceListener, source, kVideoTrack, mPeerIdentity); MOZ_ASSERT(IsOn(mConstraints.mVideo)); RefPtr track = domStream->CreateDOMTrack(kVideoTrack, MediaSegment::VIDEO, videoSource, GetInvariant(mConstraints.mVideo)); domStream->AddTrackInternal(track); } } if (!domStream || !stream || sInShutdown) { nsCOMPtr onFailure = mOnFailure.forget(); LOG(("Returning error for getUserMedia() - no stream")); if (auto* window = nsGlobalWindowInner::GetInnerWindowWithId(mWindowID)) { RefPtr error = new MediaStreamError(window->AsInner(), NS_LITERAL_STRING("InternalError"), sInShutdown ? NS_LITERAL_STRING("In shutdown") : NS_LITERAL_STRING("No stream.")); onFailure->OnError(error); } return NS_OK; } // Activate our source listener. We'll call Start() on the source when we // get a callback that the MediaStream has started consuming. The listener // is freed when the page is invalidated (on navigation or close). mWindowListener->Activate(mSourceListener, stream, mAudioDevice, mVideoDevice); // Note: includes JS callbacks; must be released on MainThread auto callback = MakeRefPtr>>( new TracksAvailableCallback(mManager, mOnSuccess.forget(), mWindowID, domStream)); // Dispatch to the media thread to ask it to start the sources, // because that can take a while. // Pass ownership of domStream through the lambda to // GetUserMediaNotificationEvent to ensure it's kept alive until the // GetUserMediaNotificationEvent runs or is discarded. RefPtr self = this; MediaManager::PostTask(NewTaskFrom([self, domStream, callback]() mutable { MOZ_ASSERT(MediaManager::IsInMediaThread()); SourceMediaStream* source = self->mSourceListener->GetSourceStream(); RefPtr error = nullptr; if (self->mAudioDevice) { nsresult rv = self->mAudioDevice->GetSource()->Start(source, kAudioTrack, self->mSourceListener->GetPrincipalHandle()); if (NS_FAILED(rv)) { nsString log; if (rv == NS_ERROR_NOT_AVAILABLE) { log.AssignASCII("Concurrent mic process limit."); error = new MediaMgrError(NS_LITERAL_STRING("NotReadableError"), log); } else { log.AssignASCII("Starting audio failed"); error = new MediaMgrError(NS_LITERAL_STRING("InternalError"), log); } } } if (!error && self->mVideoDevice) { nsresult rv = self->mVideoDevice->GetSource()->Start(source, kVideoTrack, self->mSourceListener->GetPrincipalHandle()); if (NS_FAILED(rv)) { nsString log; log.AssignASCII("Starting video failed"); error = new MediaMgrError(NS_LITERAL_STRING("InternalError"), log); } } if (error) { // The DOM stream and track callback must be released on main thread. NS_DispatchToMainThread(do_AddRef(new ReleaseMediaOperationResource( domStream.forget(), callback.forget()))); // Dispatch the error callback on main thread. nsCOMPtr onSuccess; NS_DispatchToMainThread(do_AddRef( new ErrorCallbackRunnable( Move(onSuccess), Move(self->mOnFailure), *error, self->mWindowID))); // This should be empty now MOZ_ASSERT(!self->mOnFailure); return NS_OK; } // Start() queued the tracks to be added synchronously to avoid races source->FinishAddTracks(); source->SetPullEnabled(true); source->AdvanceKnownTracksTime(STREAM_TIME_MAX); LOG(("started all sources")); // Forward onTracksAvailableCallback to GetUserMediaNotificationEvent, // because onTracksAvailableCallback needs to be added to domStream // on the main thread. // The event runnable must always be released on mainthread due to the JS // callbacks in the TracksAvailableCallback. NS_DispatchToMainThread(do_AddRef( new GetUserMediaNotificationEvent( GetUserMediaNotificationEvent::STARTING, domStream.forget(), callback.forget(), self->mWindowID, self->mOnFailure.forget()))); NS_DispatchToMainThread(NS_NewRunnableFunction("MediaManager::SendPendingGUMRequest", []() -> void { MediaManager* manager = MediaManager::GetIfExists(); if (!manager) { return; } manager->SendPendingGUMRequest(); })); return NS_OK; })); if (!IsPincipalInfoPrivate(mPrincipalInfo)) { // Call GetPrincipalKey again, this time w/persist = true, to promote // deviceIds to persistent, in case they're not already. Fire'n'forget. RefPtr> p = media::GetPrincipalKey(mPrincipalInfo, true); } return NS_OK; } private: nsCOMPtr mOnSuccess; nsCOMPtr mOnFailure; MediaStreamConstraints mConstraints; RefPtr mAudioDevice; RefPtr mVideoDevice; uint64_t mWindowID; RefPtr mWindowListener; RefPtr mSourceListener; ipc::PrincipalInfo mPrincipalInfo; RefPtr mPeerIdentity; RefPtr mManager; // get ref to this when creating the runnable }; // Source getter returning full list template static void GetSources(MediaEngine *engine, MediaSourceEnum aSrcType, void (MediaEngine::* aEnumerate)(MediaSourceEnum, nsTArray >*), nsTArray>& aResult, const char* media_device_name = nullptr) { nsTArray> sources; (engine->*aEnumerate)(aSrcType, &sources); /** * We're allowing multiple tabs to access the same camera for parity * with Chrome. See bug 811757 for some of the issues surrounding * this decision. To disallow, we'd filter by IsAvailable() as we used * to. */ if (media_device_name && *media_device_name) { for (auto& source : sources) { nsString deviceName; source->GetName(deviceName); if (deviceName.EqualsASCII(media_device_name)) { aResult.AppendElement(new DeviceType(source)); break; } } } else { for (auto& source : sources) { aResult.AppendElement(new DeviceType(source)); } } } // TODO: Remove once upgraded to GCC 4.8+ on linux. Bogus error on static func: // error: 'this' was not captured for this lambda function static auto& MediaManager_ToJSArray = MediaManager::ToJSArray; static auto& MediaManager_AnonymizeDevices = MediaManager::AnonymizeDevices; already_AddRefed MediaManager::SelectSettings( MediaStreamConstraints& aConstraints, bool aIsChrome, RefPtr>>& aSources) { MOZ_ASSERT(NS_IsMainThread()); RefPtr p = new PledgeChar(); uint32_t id = mOutstandingCharPledges.Append(*p); // Algorithm accesses device capabilities code and must run on media thread. // Modifies passed-in aSources. MediaManager::PostTask(NewTaskFrom([id, aConstraints, aSources, aIsChrome]() mutable { auto& sources = **aSources; // Since the advanced part of the constraints algorithm needs to know when // a candidate set is overconstrained (zero members), we must split up the // list into videos and audios, and put it back together again at the end. nsTArray> videos; nsTArray> audios; for (auto& source : sources) { if (source->mIsVideo) { RefPtr video = static_cast(source.get()); videos.AppendElement(video); } else { RefPtr audio = static_cast(source.get()); audios.AppendElement(audio); } } sources.Clear(); const char* badConstraint = nullptr; bool needVideo = IsOn(aConstraints.mVideo); bool needAudio = IsOn(aConstraints.mAudio); if (needVideo && videos.Length()) { badConstraint = MediaConstraintsHelper::SelectSettings( NormalizedConstraints(GetInvariant(aConstraints.mVideo)), videos, aIsChrome); } if (!badConstraint && needAudio && audios.Length()) { badConstraint = MediaConstraintsHelper::SelectSettings( NormalizedConstraints(GetInvariant(aConstraints.mAudio)), audios, aIsChrome); } if (!badConstraint && !needVideo == !videos.Length() && !needAudio == !audios.Length()) { for (auto& video : videos) { sources.AppendElement(video); } for (auto& audio : audios) { sources.AppendElement(audio); } } NS_DispatchToMainThread(NewRunnableFrom([id, badConstraint]() mutable { MediaManager* mgr = MediaManager::GetIfExists(); if (!mgr) { return NS_OK; } RefPtr p = mgr->mOutstandingCharPledges.Remove(id); if (p) { p->Resolve(badConstraint); } return NS_OK; })); })); return p.forget(); } /** * Runs on a seperate thread and is responsible for enumerating devices. * Depending on whether a picture or stream was asked for, either * ProcessGetUserMedia is called, and the results are sent back to the DOM. * * Do not run this on the main thread. The success and error callbacks *MUST* * be dispatched on the main thread! */ class GetUserMediaTask : public Runnable { public: GetUserMediaTask( const MediaStreamConstraints& aConstraints, already_AddRefed aOnSuccess, already_AddRefed aOnFailure, uint64_t aWindowID, GetUserMediaWindowListener* aWindowListener, SourceListener* aSourceListener, MediaEnginePrefs& aPrefs, const ipc::PrincipalInfo& aPrincipalInfo, bool aIsChrome, MediaManager::SourceSet* aSourceSet) : Runnable("GetUserMediaTask") , mConstraints(aConstraints) , mOnSuccess(aOnSuccess) , mOnFailure(aOnFailure) , mWindowID(aWindowID) , mWindowListener(aWindowListener) , mSourceListener(aSourceListener) , mPrefs(aPrefs) , mPrincipalInfo(aPrincipalInfo) , mIsChrome(aIsChrome) , mDeviceChosen(false) , mSourceSet(aSourceSet) , mManager(MediaManager::GetInstance()) {} ~GetUserMediaTask() { } void Fail(const nsAString& aName, const nsAString& aMessage = EmptyString(), const nsAString& aConstraint = EmptyString()) { RefPtr error = new MediaMgrError(aName, aMessage, aConstraint); auto errorRunnable = MakeRefPtr>( Move(mOnSuccess), Move(mOnFailure), *error, mWindowID); // These should be empty now MOZ_ASSERT(!mOnSuccess); MOZ_ASSERT(!mOnFailure); NS_DispatchToMainThread(errorRunnable.forget()); // Do after ErrorCallbackRunnable Run()s, as it checks active window list NS_DispatchToMainThread(NewRunnableMethod>( "GetUserMediaWindowListener::Remove", mWindowListener, &GetUserMediaWindowListener::Remove, mSourceListener)); } NS_IMETHOD Run() override { MOZ_ASSERT(!NS_IsMainThread()); MOZ_ASSERT(mOnSuccess); MOZ_ASSERT(mOnFailure); MOZ_ASSERT(mDeviceChosen); // Allocate a video or audio device and return a MediaStream via // a GetUserMediaStreamRunnable. nsresult rv; const char* errorMsg = nullptr; const char* badConstraint = nullptr; if (mAudioDevice) { auto& constraints = GetInvariant(mConstraints.mAudio); rv = mAudioDevice->Allocate(constraints, mPrefs, mPrincipalInfo, &badConstraint); if (NS_FAILED(rv)) { errorMsg = "Failed to allocate audiosource"; if (rv == NS_ERROR_NOT_AVAILABLE && !badConstraint) { nsTArray> audios; audios.AppendElement(mAudioDevice); badConstraint = MediaConstraintsHelper::SelectSettings( NormalizedConstraints(constraints), audios, mIsChrome); } } } if (!errorMsg && mVideoDevice) { auto& constraints = GetInvariant(mConstraints.mVideo); rv = mVideoDevice->Allocate(constraints, mPrefs, mPrincipalInfo, &badConstraint); if (NS_FAILED(rv)) { errorMsg = "Failed to allocate videosource"; if (rv == NS_ERROR_NOT_AVAILABLE && !badConstraint) { nsTArray> videos; videos.AppendElement(mVideoDevice); badConstraint = MediaConstraintsHelper::SelectSettings( NormalizedConstraints(constraints), videos, mIsChrome); } if (mAudioDevice) { mAudioDevice->Deallocate(); } } } if (errorMsg) { LOG(("%s %" PRIu32, errorMsg, static_cast(rv))); if (badConstraint) { Fail(NS_LITERAL_STRING("OverconstrainedError"), NS_LITERAL_STRING(""), NS_ConvertUTF8toUTF16(badConstraint)); } else { Fail(NS_LITERAL_STRING("NotReadableError"), NS_ConvertUTF8toUTF16(errorMsg)); } NS_DispatchToMainThread(NS_NewRunnableFunction("MediaManager::SendPendingGUMRequest", []() -> void { MediaManager* manager = MediaManager::GetIfExists(); if (!manager) { return; } manager->SendPendingGUMRequest(); })); return NS_OK; } PeerIdentity* peerIdentity = nullptr; if (!mConstraints.mPeerIdentity.IsEmpty()) { peerIdentity = new PeerIdentity(mConstraints.mPeerIdentity); } NS_DispatchToMainThread(do_AddRef( new GetUserMediaStreamRunnable(mOnSuccess, mOnFailure, mWindowID, mWindowListener, mSourceListener, mPrincipalInfo, mConstraints, mAudioDevice, mVideoDevice, peerIdentity))); MOZ_ASSERT(!mOnSuccess); MOZ_ASSERT(!mOnFailure); return NS_OK; } nsresult Denied(const nsAString& aName, const nsAString& aMessage = EmptyString()) { MOZ_ASSERT(mOnSuccess); MOZ_ASSERT(mOnFailure); // We add a disabled listener to the StreamListeners array until accepted // If this was the only active MediaStream, remove the window from the list. if (NS_IsMainThread()) { // This is safe since we're on main-thread, and the window can only // be invalidated from the main-thread (see OnNavigation) nsCOMPtr onSuccess = mOnSuccess.forget(); nsCOMPtr onFailure = mOnFailure.forget(); if (auto* window = nsGlobalWindowInner::GetInnerWindowWithId(mWindowID)) { RefPtr error = new MediaStreamError(window->AsInner(), aName, aMessage); onFailure->OnError(error); } // Should happen *after* error runs for consistency, but may not matter mWindowListener->Remove(mSourceListener); } else { // This will re-check the window being alive on main-thread // and remove the listener on MainThread as well Fail(aName, aMessage); } MOZ_ASSERT(!mOnSuccess); MOZ_ASSERT(!mOnFailure); return NS_OK; } nsresult SetContraints(const MediaStreamConstraints& aConstraints) { mConstraints = aConstraints; return NS_OK; } const MediaStreamConstraints& GetConstraints() { return mConstraints; } nsresult SetAudioDevice(AudioDevice* aAudioDevice) { mAudioDevice = aAudioDevice; mDeviceChosen = true; return NS_OK; } nsresult SetVideoDevice(VideoDevice* aVideoDevice) { mVideoDevice = aVideoDevice; mDeviceChosen = true; return NS_OK; } uint64_t GetWindowID() { return mWindowID; } private: MediaStreamConstraints mConstraints; nsCOMPtr mOnSuccess; nsCOMPtr mOnFailure; uint64_t mWindowID; RefPtr mWindowListener; RefPtr mSourceListener; RefPtr mAudioDevice; RefPtr mVideoDevice; MediaEnginePrefs mPrefs; ipc::PrincipalInfo mPrincipalInfo; bool mIsChrome; bool mDeviceChosen; public: nsAutoPtr mSourceSet; private: RefPtr mManager; // get ref to this when creating the runnable }; #if defined(ANDROID) class GetUserMediaRunnableWrapper : public Runnable { public: // This object must take ownership of task GetUserMediaRunnableWrapper(GetUserMediaTask* task) : Runnable("GetUserMediaRunnableWrapper") , mTask(task) { } ~GetUserMediaRunnableWrapper() { } NS_IMETHOD Run() override { mTask->Run(); return NS_OK; } private: nsAutoPtr mTask; }; #endif /** * EnumerateRawDevices - Enumerate a list of audio & video devices that * satisfy passed-in constraints. List contains raw id's. */ already_AddRefed MediaManager::EnumerateRawDevices(uint64_t aWindowId, MediaSourceEnum aVideoType, MediaSourceEnum aAudioType, bool aFake) { MOZ_ASSERT(NS_IsMainThread()); MOZ_ASSERT(aVideoType != MediaSourceEnum::Other || aAudioType != MediaSourceEnum::Other); RefPtr p = new PledgeSourceSet(); uint32_t id = mOutstandingPledges.Append(*p); nsAutoCString audioLoopDev, videoLoopDev; if (!aFake) { // Fake stream not requested. The entire device stack is available. // Loop in loopback devices if they are set, and their respective type is // requested. This is currently used for automated media tests only. if (aVideoType == MediaSourceEnum::Camera) { Preferences::GetCString("media.video_loopback_dev", videoLoopDev); } if (aAudioType == MediaSourceEnum::Microphone) { Preferences::GetCString("media.audio_loopback_dev", audioLoopDev); } } RefPtr task = NewTaskFrom([id, aWindowId, audioLoopDev, videoLoopDev, aVideoType, aAudioType, aFake]() mutable { // Only enumerate what's asked for, and only fake cams and mics. bool hasVideo = aVideoType != MediaSourceEnum::Other; bool hasAudio = aAudioType != MediaSourceEnum::Other; bool fakeCams = aFake && aVideoType == MediaSourceEnum::Camera; bool fakeMics = aFake && aAudioType == MediaSourceEnum::Microphone; RefPtr fakeBackend, realBackend; if (fakeCams || fakeMics) { fakeBackend = new MediaEngineDefault(); } if ((!fakeCams && hasVideo) || (!fakeMics && hasAudio)) { MediaManager* manager = MediaManager::GetIfExists(); MOZ_RELEASE_ASSERT(manager); // Must exist while media thread is alive realBackend = manager->GetBackend(aWindowId); // We need to listen to this event even JS didn't listen to it. realBackend->AddDeviceChangeCallback(manager); } auto result = MakeUnique(); if (hasVideo) { nsTArray> videos; GetSources(fakeCams? fakeBackend : realBackend, aVideoType, &MediaEngine::EnumerateVideoDevices, videos, videoLoopDev.get()); for (auto& source : videos) { result->AppendElement(source); } } if (hasAudio) { nsTArray> audios; GetSources(fakeMics? fakeBackend : realBackend, aAudioType, &MediaEngine::EnumerateAudioDevices, audios, audioLoopDev.get()); for (auto& source : audios) { result->AppendElement(source); } } SourceSet* handoff = result.release(); NS_DispatchToMainThread(NewRunnableFrom([id, handoff]() mutable { UniquePtr result(handoff); // grab result MediaManager* mgr = MediaManager::GetIfExists(); if (!mgr) { return NS_OK; } RefPtr p = mgr->mOutstandingPledges.Remove(id); if (p) { p->Resolve(result.release()); } return NS_OK; })); }); if (!aFake && (aVideoType == MediaSourceEnum::Camera || aAudioType == MediaSourceEnum::Microphone) && Preferences::GetBool("media.navigator.permission.device", false)) { // Need to ask permission to retrieve list of all devices; // notify frontend observer and wait for callback notification to post task. const char16_t* const type = (aVideoType != MediaSourceEnum::Camera) ? u"audio" : (aAudioType != MediaSourceEnum::Microphone) ? u"video" : u"all"; nsCOMPtr obs = services::GetObserverService(); obs->NotifyObservers(static_cast(task), "getUserMedia:ask-device-permission", type); } else { // Don't need to ask permission to retrieve list of all devices; // post the retrieval task immediately. MediaManager::PostTask(task.forget()); } return p.forget(); } MediaManager::MediaManager() : mMediaThread(nullptr) , mBackend(nullptr) { mPrefs.mFreq = 1000; // 1KHz test tone mPrefs.mWidth = 0; // adaptive default mPrefs.mHeight = 0; // adaptive default mPrefs.mFPS = MediaEngine::DEFAULT_VIDEO_FPS; mPrefs.mAecOn = false; mPrefs.mAgcOn = false; mPrefs.mNoiseOn = false; mPrefs.mExtendedFilter = true; mPrefs.mDelayAgnostic = true; mPrefs.mFakeDeviceChangeEventOn = false; #ifdef MOZ_WEBRTC mPrefs.mAec = webrtc::kEcUnchanged; mPrefs.mAgc = webrtc::kAgcUnchanged; mPrefs.mNoise = webrtc::kNsUnchanged; #else mPrefs.mAec = 0; mPrefs.mAgc = 0; mPrefs.mNoise = 0; #endif mPrefs.mFullDuplex = false; mPrefs.mChannels = 0; // max channels default nsresult rv; nsCOMPtr prefs = do_GetService("@mozilla.org/preferences-service;1", &rv); if (NS_SUCCEEDED(rv)) { nsCOMPtr branch = do_QueryInterface(prefs); if (branch) { GetPrefs(branch, nullptr); } } LOG(("%s: default prefs: %dx%d @%dfps, %dHz test tones, aec: %s," "agc: %s, noise: %s, aec level: %d, agc level: %d, noise level: %d," "%sfull_duplex, extended aec %s, delay_agnostic %s " "channels %d", __FUNCTION__, mPrefs.mWidth, mPrefs.mHeight, mPrefs.mFPS, mPrefs.mFreq, mPrefs.mAecOn ? "on" : "off", mPrefs.mAgcOn ? "on": "off", mPrefs.mNoiseOn ? "on": "off", mPrefs.mAec, mPrefs.mAgc, mPrefs.mNoise, mPrefs.mFullDuplex ? "" : "not ", mPrefs.mExtendedFilter ? "on" : "off", mPrefs.mDelayAgnostic ? "on" : "off", mPrefs.mChannels)); } NS_IMPL_ISUPPORTS(MediaManager, nsIMediaManagerService, nsIObserver) /* static */ StaticRefPtr MediaManager::sSingleton; #ifdef DEBUG /* static */ bool MediaManager::IsInMediaThread() { return sSingleton? (sSingleton->mMediaThread->thread_id() == PlatformThread::CurrentId()) : false; } #endif // NOTE: never Dispatch(....,NS_DISPATCH_SYNC) to the MediaManager // thread from the MainThread, as we NS_DISPATCH_SYNC to MainThread // from MediaManager thread. // Guaranteed never to return nullptr. /* static */ MediaManager* MediaManager::Get() { if (!sSingleton) { MOZ_ASSERT(NS_IsMainThread()); static int timesCreated = 0; timesCreated++; MOZ_RELEASE_ASSERT(timesCreated == 1); sSingleton = new MediaManager(); sSingleton->mMediaThread = new base::Thread("MediaManager"); base::Thread::Options options; #if defined(_WIN32) options.message_loop_type = MessageLoop::TYPE_MOZILLA_NONMAINUITHREAD; #else options.message_loop_type = MessageLoop::TYPE_MOZILLA_NONMAINTHREAD; #endif if (!sSingleton->mMediaThread->StartWithOptions(options)) { MOZ_CRASH(); } LOG(("New Media thread for gum")); nsCOMPtr obs = services::GetObserverService(); if (obs) { obs->AddObserver(sSingleton, "last-pb-context-exited", false); obs->AddObserver(sSingleton, "getUserMedia:got-device-permission", false); obs->AddObserver(sSingleton, "getUserMedia:privileged:allow", false); obs->AddObserver(sSingleton, "getUserMedia:response:allow", false); obs->AddObserver(sSingleton, "getUserMedia:response:deny", false); obs->AddObserver(sSingleton, "getUserMedia:revoke", false); } // else MediaManager won't work properly and will leak (see bug 837874) nsCOMPtr prefs = do_GetService(NS_PREFSERVICE_CONTRACTID); if (prefs) { prefs->AddObserver("media.navigator.video.default_width", sSingleton, false); prefs->AddObserver("media.navigator.video.default_height", sSingleton, false); prefs->AddObserver("media.navigator.video.default_fps", sSingleton, false); prefs->AddObserver("media.navigator.audio.fake_frequency", sSingleton, false); prefs->AddObserver("media.navigator.audio.full_duplex", sSingleton, false); #ifdef MOZ_WEBRTC prefs->AddObserver("media.getusermedia.aec_enabled", sSingleton, false); prefs->AddObserver("media.getusermedia.aec", sSingleton, false); prefs->AddObserver("media.getusermedia.agc_enabled", sSingleton, false); prefs->AddObserver("media.getusermedia.agc", sSingleton, false); prefs->AddObserver("media.getusermedia.noise_enabled", sSingleton, false); prefs->AddObserver("media.getusermedia.noise", sSingleton, false); prefs->AddObserver("media.ondevicechange.fakeDeviceChangeEvent.enabled", sSingleton, false); prefs->AddObserver("media.getusermedia.channels", sSingleton, false); #endif } // Prepare async shutdown nsCOMPtr shutdownPhase = GetShutdownPhase(); class Blocker : public media::ShutdownBlocker { public: Blocker() : media::ShutdownBlocker(NS_LITERAL_STRING( "Media shutdown: blocking on media thread")) {} NS_IMETHOD BlockShutdown(nsIAsyncShutdownClient*) override { MOZ_RELEASE_ASSERT(MediaManager::GetIfExists()); MediaManager::GetIfExists()->Shutdown(); return NS_OK; } }; sSingleton->mShutdownBlocker = new Blocker(); nsresult rv = shutdownPhase->AddBlocker(sSingleton->mShutdownBlocker, NS_LITERAL_STRING(__FILE__), __LINE__, NS_LITERAL_STRING("Media shutdown")); MOZ_RELEASE_ASSERT(NS_SUCCEEDED(rv)); } return sSingleton; } /* static */ MediaManager* MediaManager::GetIfExists() { return sSingleton; } /* static */ already_AddRefed MediaManager::GetInstance() { // so we can have non-refcounted getters RefPtr service = MediaManager::Get(); return service.forget(); } media::Parent* MediaManager::GetNonE10sParent() { if (!mNonE10sParent) { mNonE10sParent = new media::Parent(); } return mNonE10sParent; } /* static */ void MediaManager::StartupInit() { #ifdef WIN32 if (!IsWin8OrLater()) { // Bug 1107702 - Older Windows fail in GetAdaptersInfo (and others) if the // first(?) call occurs after the process size is over 2GB (kb/2588507). // Attempt to 'prime' the pump by making a call at startup. unsigned long out_buf_len = sizeof(IP_ADAPTER_INFO); PIP_ADAPTER_INFO pAdapterInfo = (IP_ADAPTER_INFO *) moz_xmalloc(out_buf_len); if (GetAdaptersInfo(pAdapterInfo, &out_buf_len) == ERROR_BUFFER_OVERFLOW) { free(pAdapterInfo); pAdapterInfo = (IP_ADAPTER_INFO *) moz_xmalloc(out_buf_len); GetAdaptersInfo(pAdapterInfo, &out_buf_len); } if (pAdapterInfo) { free(pAdapterInfo); } } #endif } /* static */ void MediaManager::PostTask(already_AddRefed task) { if (sInShutdown) { // Can't safely delete task here since it may have items with specific // thread-release requirements. // XXXkhuey well then who is supposed to delete it?! We don't signal // that we failed ... MOZ_CRASH(); return; } NS_ASSERTION(Get(), "MediaManager singleton?"); NS_ASSERTION(Get()->mMediaThread, "No thread yet"); Get()->mMediaThread->message_loop()->PostTask(Move(task)); } /* static */ nsresult MediaManager::NotifyRecordingStatusChange(nsPIDOMWindowInner* aWindow, const nsString& aMsg) { NS_ENSURE_ARG(aWindow); nsCOMPtr obs = services::GetObserverService(); if (!obs) { NS_WARNING("Could not get the Observer service for GetUserMedia recording notification."); return NS_ERROR_FAILURE; } RefPtr props = new nsHashPropertyBag(); nsCString pageURL; nsCOMPtr docURI = aWindow->GetDocumentURI(); NS_ENSURE_TRUE(docURI, NS_ERROR_FAILURE); nsresult rv = docURI->GetSpec(pageURL); NS_ENSURE_SUCCESS(rv, rv); NS_ConvertUTF8toUTF16 requestURL(pageURL); props->SetPropertyAsAString(NS_LITERAL_STRING("requestURL"), requestURL); obs->NotifyObservers(static_cast(props), "recording-device-events", aMsg.get()); return NS_OK; } int MediaManager::AddDeviceChangeCallback(DeviceChangeCallback* aCallback) { bool fakeDeviceChangeEventOn = mPrefs.mFakeDeviceChangeEventOn; MediaManager::PostTask(NewTaskFrom([fakeDeviceChangeEventOn]() { MediaManager* manager = MediaManager::GetIfExists(); MOZ_RELEASE_ASSERT(manager); // Must exist while media thread is alive if (fakeDeviceChangeEventOn) manager->GetBackend(0)->SetFakeDeviceChangeEvents(); })); return DeviceChangeCallback::AddDeviceChangeCallback(aCallback); } static void StopRawIDCallback(MediaManager *aThis, uint64_t aWindowID, GetUserMediaWindowListener *aListener, void *aData) { if (!aListener || !aData) { return; } nsString* removedDeviceID = static_cast(aData); aListener->StopRawID(*removedDeviceID); } void MediaManager::OnDeviceChange() { RefPtr self(this); NS_DispatchToMainThread(media::NewRunnableFrom([self]() mutable { MOZ_ASSERT(NS_IsMainThread()); if (sInShutdown) { return NS_OK; } self->DeviceChangeCallback::OnDeviceChange(); // On some Windows machine, if we call EnumertaeRawDevices immediately after receiving // devicechange event, sometimes we would get outdated devices list. PR_Sleep(PR_MillisecondsToInterval(100)); RefPtr p = self->EnumerateRawDevices(0, MediaSourceEnum::Camera, MediaSourceEnum::Microphone, false); p->Then([self](SourceSet*& aDevices) mutable { UniquePtr devices(aDevices); nsTArray deviceIDs; for (auto& device : *devices) { nsString id; device->GetId(id); id.ReplaceSubstring(NS_LITERAL_STRING("default: "), NS_LITERAL_STRING("")); if (!deviceIDs.Contains(id)) { deviceIDs.AppendElement(id); } } for (auto& id : self->mDeviceIDs) { if (!deviceIDs.Contains(id)) { // Stop the coresponding SourceListener nsGlobalWindowInner::InnerWindowByIdTable* windowsById = nsGlobalWindowInner::GetWindowsTable(); if (windowsById) { for (auto iter = windowsById->Iter(); !iter.Done(); iter.Next()) { nsGlobalWindowInner* window = iter.Data(); self->IterateWindowListeners(window->AsInner(), StopRawIDCallback, &id); } } } } self->mDeviceIDs = deviceIDs; }, [](MediaStreamError*& reason) {}); return NS_OK; })); } nsresult MediaManager::GenerateUUID(nsAString& aResult) { nsresult rv; nsCOMPtr uuidgen = do_GetService("@mozilla.org/uuid-generator;1", &rv); NS_ENSURE_SUCCESS(rv, rv); // Generate a call ID. nsID id; rv = uuidgen->GenerateUUIDInPlace(&id); NS_ENSURE_SUCCESS(rv, rv); char buffer[NSID_LENGTH]; id.ToProvidedString(buffer); aResult.Assign(NS_ConvertUTF8toUTF16(buffer)); return NS_OK; } static bool IsFullyActive(nsPIDOMWindowInner* aWindow) { while (true) { if (!aWindow) { return false; } nsIDocument* document = aWindow->GetExtantDoc(); if (!document) { return false; } if (!document->IsCurrentActiveDocument()) { return false; } nsPIDOMWindowOuter* context = aWindow->GetOuterWindow(); if (!context) { return false; } if (context->IsTopLevelWindow()) { return true; } nsCOMPtr frameElement = nsGlobalWindowOuter::Cast(context)->GetRealFrameElementOuter(); if (!frameElement) { return false; } aWindow = frameElement->OwnerDoc()->GetInnerWindow(); } } enum class GetUserMediaSecurityState { Other = 0, HTTPS = 1, File = 2, App = 3, Localhost = 4, Loop = 5, Privileged = 6 }; /** * This function is used in getUserMedia when privacy.resistFingerprinting is true. * Only mediaSource of audio/video constraint will be kept. */ static void ReduceConstraint( mozilla::dom::OwningBooleanOrMediaTrackConstraints& aConstraint) { // Not requesting stream. if (!IsOn(aConstraint)) { return; } // It looks like {audio: true}, do nothing. if (!aConstraint.IsMediaTrackConstraints()) { return; } // Keep mediaSource, ignore all other constraints. auto& c = aConstraint.GetAsMediaTrackConstraints(); nsString mediaSource = c.mMediaSource; aConstraint.SetAsMediaTrackConstraints().mMediaSource = mediaSource; } /** * The entry point for this file. A call from Navigator::mozGetUserMedia * will end up here. MediaManager is a singleton that is responsible * for handling all incoming getUserMedia calls from every window. */ nsresult MediaManager::GetUserMedia(nsPIDOMWindowInner* aWindow, const MediaStreamConstraints& aConstraintsPassedIn, nsIDOMGetUserMediaSuccessCallback* aOnSuccess, nsIDOMGetUserMediaErrorCallback* aOnFailure, dom::CallerType aCallerType) { MOZ_ASSERT(NS_IsMainThread()); MOZ_ASSERT(aWindow); MOZ_ASSERT(aOnFailure); MOZ_ASSERT(aOnSuccess); nsCOMPtr onSuccess(aOnSuccess); nsCOMPtr onFailure(aOnFailure); uint64_t windowID = aWindow->WindowID(); MediaStreamConstraints c(aConstraintsPassedIn); // use a modifiable copy // Do all the validation we can while we're sync (to return an // already-rejected promise on failure). if (!IsOn(c.mVideo) && !IsOn(c.mAudio)) { RefPtr error = new MediaStreamError(aWindow, NS_LITERAL_STRING("TypeError"), NS_LITERAL_STRING("audio and/or video is required")); onFailure->OnError(error); return NS_OK; } if (!IsFullyActive(aWindow)) { RefPtr error = new MediaStreamError(aWindow, NS_LITERAL_STRING("InvalidStateError")); onFailure->OnError(error); return NS_OK; } if (sInShutdown) { RefPtr error = new MediaStreamError(aWindow, NS_LITERAL_STRING("AbortError"), NS_LITERAL_STRING("In shutdown")); onFailure->OnError(error); return NS_OK; } // Determine permissions early (while we still have a stack). nsIURI* docURI = aWindow->GetDocumentURI(); if (!docURI) { return NS_ERROR_UNEXPECTED; } bool isChrome = (aCallerType == dom::CallerType::System); bool privileged = isChrome || Preferences::GetBool("media.navigator.permission.disabled", false); bool isHTTPS = false; docURI->SchemeIs("https", &isHTTPS); nsCString host; nsresult rv = docURI->GetHost(host); // Test for some other schemes that ServiceWorker recognizes bool isFile; docURI->SchemeIs("file", &isFile); bool isApp; docURI->SchemeIs("app", &isApp); // Same localhost check as ServiceWorkers uses // (see IsOriginPotentiallyTrustworthy()) bool isLocalhost = NS_SUCCEEDED(rv) && (host.LowerCaseEqualsLiteral("localhost") || host.LowerCaseEqualsLiteral("127.0.0.1") || host.LowerCaseEqualsLiteral("::1")); // Record telemetry about whether the source of the call was secure, i.e., // privileged or HTTPS. We may handle other cases if (privileged) { Telemetry::Accumulate(Telemetry::WEBRTC_GET_USER_MEDIA_SECURE_ORIGIN, (uint32_t) GetUserMediaSecurityState::Privileged); } else if (isHTTPS) { Telemetry::Accumulate(Telemetry::WEBRTC_GET_USER_MEDIA_SECURE_ORIGIN, (uint32_t) GetUserMediaSecurityState::HTTPS); } else if (isFile) { Telemetry::Accumulate(Telemetry::WEBRTC_GET_USER_MEDIA_SECURE_ORIGIN, (uint32_t) GetUserMediaSecurityState::File); } else if (isApp) { Telemetry::Accumulate(Telemetry::WEBRTC_GET_USER_MEDIA_SECURE_ORIGIN, (uint32_t) GetUserMediaSecurityState::App); } else if (isLocalhost) { Telemetry::Accumulate(Telemetry::WEBRTC_GET_USER_MEDIA_SECURE_ORIGIN, (uint32_t) GetUserMediaSecurityState::Localhost); } else { Telemetry::Accumulate(Telemetry::WEBRTC_GET_USER_MEDIA_SECURE_ORIGIN, (uint32_t) GetUserMediaSecurityState::Other); } nsCOMPtr principal = nsGlobalWindowInner::Cast(aWindow)->GetPrincipal(); if (NS_WARN_IF(!principal)) { return NS_ERROR_FAILURE; } // This principal needs to be sent to different threads and so via IPC. // For this reason it's better to convert it to PrincipalInfo right now. ipc::PrincipalInfo principalInfo; rv = PrincipalToPrincipalInfo(principal, &principalInfo); if (NS_WARN_IF(NS_FAILED(rv))) { return rv; } const bool resistFingerprinting = nsContentUtils::ResistFingerprinting(aCallerType); if (resistFingerprinting) { ReduceConstraint(c.mVideo); ReduceConstraint(c.mAudio); } if (!Preferences::GetBool("media.navigator.video.enabled", true)) { c.mVideo.SetAsBoolean() = false; } MediaSourceEnum videoType = MediaSourceEnum::Other; // none MediaSourceEnum audioType = MediaSourceEnum::Other; // none if (c.mVideo.IsMediaTrackConstraints()) { auto& vc = c.mVideo.GetAsMediaTrackConstraints(); videoType = StringToEnum(dom::MediaSourceEnumValues::strings, vc.mMediaSource, MediaSourceEnum::Other); Telemetry::Accumulate(Telemetry::WEBRTC_GET_USER_MEDIA_TYPE, (uint32_t) videoType); switch (videoType) { case MediaSourceEnum::Camera: break; case MediaSourceEnum::Browser: // If no window id is passed in then default to the caller's window. // Functional defaults are helpful in tests, but also a natural outcome // of the constraints API's limited semantics for requiring input. if (!vc.mBrowserWindow.WasPassed()) { nsPIDOMWindowOuter* outer = aWindow->GetOuterWindow(); vc.mBrowserWindow.Construct(outer->WindowID()); } MOZ_FALLTHROUGH; case MediaSourceEnum::Screen: case MediaSourceEnum::Application: case MediaSourceEnum::Window: // Deny screensharing request if support is disabled, or // the requesting document is not from a host on the whitelist. if (!Preferences::GetBool(((videoType == MediaSourceEnum::Browser)? "media.getusermedia.browser.enabled" : "media.getusermedia.screensharing.enabled"), false) || (!privileged && !aWindow->IsSecureContext())) { RefPtr error = new MediaStreamError(aWindow, NS_LITERAL_STRING("NotAllowedError")); onFailure->OnError(error); return NS_OK; } break; case MediaSourceEnum::Microphone: case MediaSourceEnum::Other: default: { RefPtr error = new MediaStreamError(aWindow, NS_LITERAL_STRING("OverconstrainedError"), NS_LITERAL_STRING(""), NS_LITERAL_STRING("mediaSource")); onFailure->OnError(error); return NS_OK; } } if (vc.mAdvanced.WasPassed() && videoType != MediaSourceEnum::Camera) { // iterate through advanced, forcing all unset mediaSources to match "root" const char *unset = EnumToASCII(dom::MediaSourceEnumValues::strings, MediaSourceEnum::Camera); for (MediaTrackConstraintSet& cs : vc.mAdvanced.Value()) { if (cs.mMediaSource.EqualsASCII(unset)) { cs.mMediaSource = vc.mMediaSource; } } } if (!privileged) { // only allow privileged content to set the window id if (vc.mBrowserWindow.WasPassed()) { vc.mBrowserWindow.Value() = -1; } if (vc.mAdvanced.WasPassed()) { for (MediaTrackConstraintSet& cs : vc.mAdvanced.Value()) { if (cs.mBrowserWindow.WasPassed()) { cs.mBrowserWindow.Value() = -1; } } } } } else if (IsOn(c.mVideo)) { videoType = MediaSourceEnum::Camera; Telemetry::Accumulate(Telemetry::WEBRTC_GET_USER_MEDIA_TYPE, (uint32_t) videoType); } if (c.mAudio.IsMediaTrackConstraints()) { auto& ac = c.mAudio.GetAsMediaTrackConstraints(); MediaConstraintsHelper::ConvertOldWithWarning(ac.mMozAutoGainControl, ac.mAutoGainControl, "MozAutoGainControlWarning", aWindow); MediaConstraintsHelper::ConvertOldWithWarning(ac.mMozNoiseSuppression, ac.mNoiseSuppression, "MozNoiseSuppressionWarning", aWindow); audioType = StringToEnum(dom::MediaSourceEnumValues::strings, ac.mMediaSource, MediaSourceEnum::Other); // Work around WebIDL default since spec uses same dictionary w/audio & video. if (audioType == MediaSourceEnum::Camera) { audioType = MediaSourceEnum::Microphone; ac.mMediaSource.AssignASCII(EnumToASCII(dom::MediaSourceEnumValues::strings, audioType)); } Telemetry::Accumulate(Telemetry::WEBRTC_GET_USER_MEDIA_TYPE, (uint32_t) audioType); switch (audioType) { case MediaSourceEnum::Microphone: break; case MediaSourceEnum::AudioCapture: // Only enable AudioCapture if the pref is enabled. If it's not, we can // deny right away. if (!Preferences::GetBool("media.getusermedia.audiocapture.enabled")) { RefPtr error = new MediaStreamError(aWindow, NS_LITERAL_STRING("NotAllowedError")); onFailure->OnError(error); return NS_OK; } break; case MediaSourceEnum::Other: default: { RefPtr error = new MediaStreamError(aWindow, NS_LITERAL_STRING("OverconstrainedError"), NS_LITERAL_STRING(""), NS_LITERAL_STRING("mediaSource")); onFailure->OnError(error); return NS_OK; } } if (ac.mAdvanced.WasPassed()) { // iterate through advanced, forcing all unset mediaSources to match "root" const char *unset = EnumToASCII(dom::MediaSourceEnumValues::strings, MediaSourceEnum::Camera); for (MediaTrackConstraintSet& cs : ac.mAdvanced.Value()) { if (cs.mMediaSource.EqualsASCII(unset)) { cs.mMediaSource = ac.mMediaSource; } } } } else if (IsOn(c.mAudio)) { audioType = MediaSourceEnum::Microphone; Telemetry::Accumulate(Telemetry::WEBRTC_GET_USER_MEDIA_TYPE, (uint32_t) audioType); } // Create a window listener if it doesn't already exist. RefPtr windowListener = GetWindowListener(windowID); if (windowListener) { PrincipalHandle existingPrincipalHandle = windowListener->GetPrincipalHandle(); MOZ_ASSERT(PrincipalHandleMatches(existingPrincipalHandle, principal)); } else { windowListener = new GetUserMediaWindowListener(mMediaThread, windowID, MakePrincipalHandle(principal)); AddWindowID(windowID, windowListener); } RefPtr sourceListener = new SourceListener(); windowListener->Register(sourceListener); if (!privileged) { // Check if this site has had persistent permissions denied. nsCOMPtr permManager = do_GetService(NS_PERMISSIONMANAGER_CONTRACTID, &rv); NS_ENSURE_SUCCESS(rv, rv); uint32_t audioPerm = nsIPermissionManager::UNKNOWN_ACTION; if (IsOn(c.mAudio)) { if (audioType == MediaSourceEnum::Microphone && Preferences::GetBool("media.getusermedia.microphone.deny", false)) { audioPerm = nsIPermissionManager::DENY_ACTION; } else { rv = permManager->TestExactPermissionFromPrincipal( principal, "microphone", &audioPerm); NS_ENSURE_SUCCESS(rv, rv); } } uint32_t videoPerm = nsIPermissionManager::UNKNOWN_ACTION; if (IsOn(c.mVideo)) { if (videoType == MediaSourceEnum::Camera && Preferences::GetBool("media.getusermedia.camera.deny", false)) { videoPerm = nsIPermissionManager::DENY_ACTION; } else { rv = permManager->TestExactPermissionFromPrincipal( principal, videoType == MediaSourceEnum::Camera ? "camera" : "screen", &videoPerm); NS_ENSURE_SUCCESS(rv, rv); } } if ((!IsOn(c.mAudio) && !IsOn(c.mVideo)) || (IsOn(c.mAudio) && audioPerm == nsIPermissionManager::DENY_ACTION) || (IsOn(c.mVideo) && videoPerm == nsIPermissionManager::DENY_ACTION)) { RefPtr error = new MediaStreamError(aWindow, NS_LITERAL_STRING("NotAllowedError")); onFailure->OnError(error); windowListener->Remove(sourceListener); return NS_OK; } } // Get list of all devices, with origin-specific device ids. MediaEnginePrefs prefs = mPrefs; nsString callID; rv = GenerateUUID(callID); NS_ENSURE_SUCCESS(rv, rv); bool fake = c.mFake.WasPassed()? c.mFake.Value() : Preferences::GetBool("media.navigator.streams.fake"); bool askPermission = (!privileged || Preferences::GetBool("media.navigator.permission.force")) && (!fake || Preferences::GetBool("media.navigator.permission.fake")); RefPtr p = EnumerateDevicesImpl(windowID, videoType, audioType, fake); RefPtr self = this; p->Then([self, onSuccess, onFailure, windowID, c, windowListener, sourceListener, askPermission, prefs, isHTTPS, callID, principalInfo, isChrome, resistFingerprinting](SourceSet*& aDevices) mutable { // grab result auto devices = MakeRefPtr>>(aDevices); // Ensure that our windowID is still good. if (!nsGlobalWindowInner::GetInnerWindowWithId(windowID)) { return; } // Apply any constraints. This modifies the passed-in list. RefPtr p2 = self->SelectSettings(c, isChrome, devices); p2->Then([self, onSuccess, onFailure, windowID, c, windowListener, sourceListener, askPermission, prefs, isHTTPS, callID, principalInfo, isChrome, devices, resistFingerprinting ](const char*& badConstraint) mutable { // Ensure that the captured 'this' pointer and our windowID are still good. auto* globalWindow = nsGlobalWindowInner::GetInnerWindowWithId(windowID); RefPtr window = globalWindow ? globalWindow->AsInner() : nullptr; if (!MediaManager::Exists() || !window) { return; } if (badConstraint) { nsString constraint; constraint.AssignASCII(badConstraint); RefPtr error = new MediaStreamError(window, NS_LITERAL_STRING("OverconstrainedError"), NS_LITERAL_STRING(""), constraint); onFailure->OnError(error); return; } if (!(*devices)->Length()) { RefPtr error = new MediaStreamError( window, // When privacy.resistFingerprinting = true, no available // device implies content script is requesting a fake // device, so report NotAllowedError. resistFingerprinting ? NS_LITERAL_STRING("NotAllowedError") : NS_LITERAL_STRING("NotFoundError")); onFailure->OnError(error); return; } nsCOMPtr devicesCopy = nsArray::Create(); // before we give up devices below if (!askPermission) { for (auto& device : **devices) { nsresult rv = devicesCopy->AppendElement(device); if (NS_WARN_IF(NS_FAILED(rv))) { return; } } } // Pass callbacks and listeners along to GetUserMediaTask. RefPtr task (new GetUserMediaTask(c, onSuccess.forget(), onFailure.forget(), windowID, windowListener, sourceListener, prefs, principalInfo, isChrome, devices->release())); // Store the task w/callbacks. self->mActiveCallbacks.Put(callID, task.forget()); // Add a WindowID cross-reference so OnNavigation can tear things down nsTArray* array; if (!self->mCallIds.Get(windowID, &array)) { array = new nsTArray(); self->mCallIds.Put(windowID, array); } array->AppendElement(callID); nsCOMPtr obs = services::GetObserverService(); if (!askPermission) { obs->NotifyObservers(devicesCopy, "getUserMedia:privileged:allow", callID.BeginReading()); } else { RefPtr req = new GetUserMediaRequest(window, callID, c, isHTTPS); if (!Preferences::GetBool("media.navigator.permission.force") && array->Length() > 1) { // there is at least 1 pending gUM request // For the scarySources test case, always send the request self->mPendingGUMRequest.AppendElement(req.forget()); } else { obs->NotifyObservers(req, "getUserMedia:request", nullptr); } } #ifdef MOZ_WEBRTC EnableWebRtcLog(); #endif }, [onFailure](MediaStreamError*& reason) mutable { onFailure->OnError(reason); }); }, [onFailure](MediaStreamError*& reason) mutable { onFailure->OnError(reason); }); return NS_OK; } /* static */ void MediaManager::AnonymizeDevices(SourceSet& aDevices, const nsACString& aOriginKey) { if (!aOriginKey.IsEmpty()) { for (auto& device : aDevices) { nsString id; device->GetId(id); device->SetRawId(id); AnonymizeId(id, aOriginKey); device->SetId(id); } } } /* static */ nsresult MediaManager::AnonymizeId(nsAString& aId, const nsACString& aOriginKey) { MOZ_ASSERT(NS_IsMainThread()); nsresult rv; nsCOMPtr factory = do_GetService("@mozilla.org/security/keyobjectfactory;1", &rv); if (NS_FAILED(rv)) { return rv; } nsCString rawKey; rv = Base64Decode(aOriginKey, rawKey); if (NS_FAILED(rv)) { return rv; } nsCOMPtr key; rv = factory->KeyFromString(nsIKeyObject::HMAC, rawKey, getter_AddRefs(key)); if (NS_FAILED(rv)) { return rv; } nsCOMPtr hasher = do_CreateInstance(NS_CRYPTO_HMAC_CONTRACTID, &rv); if (NS_FAILED(rv)) { return rv; } rv = hasher->Init(nsICryptoHMAC::SHA256, key); if (NS_FAILED(rv)) { return rv; } NS_ConvertUTF16toUTF8 id(aId); rv = hasher->Update(reinterpret_cast (id.get()), id.Length()); if (NS_FAILED(rv)) { return rv; } nsCString mac; rv = hasher->Finish(true, mac); if (NS_FAILED(rv)) { return rv; } aId = NS_ConvertUTF8toUTF16(mac); return NS_OK; } /* static */ already_AddRefed MediaManager::ToJSArray(SourceSet& aDevices) { MOZ_ASSERT(NS_IsMainThread()); RefPtr var = new nsVariantCC(); size_t len = aDevices.Length(); if (len) { nsTArray tmp(len); for (auto& device : aDevices) { tmp.AppendElement(device); } auto* elements = static_cast(tmp.Elements()); nsresult rv = var->SetAsArray(nsIDataType::VTYPE_INTERFACE, &NS_GET_IID(nsIMediaDevice), len, const_cast(elements)); if (NS_WARN_IF(NS_FAILED(rv))) { return nullptr; } } else { var->SetAsEmptyArray(); // because SetAsArray() fails on zero length arrays. } return var.forget(); } already_AddRefed MediaManager::EnumerateDevicesImpl(uint64_t aWindowId, MediaSourceEnum aVideoType, MediaSourceEnum aAudioType, bool aFake) { MOZ_ASSERT(NS_IsMainThread()); nsPIDOMWindowInner* window = nsGlobalWindowInner::GetInnerWindowWithId(aWindowId)->AsInner(); // This function returns a pledge, a promise-like object with the future result RefPtr pledge = new PledgeSourceSet(); uint32_t id = mOutstandingPledges.Append(*pledge); // To get a device list anonymized for a particular origin, we must: // 1. Get an origin-key (for either regular or private browsing) // 2. Get the raw devices list // 3. Anonymize the raw list with the origin-key. nsCOMPtr principal = nsGlobalWindowInner::Cast(window)->GetPrincipal(); MOZ_ASSERT(principal); ipc::PrincipalInfo principalInfo; nsresult rv = PrincipalToPrincipalInfo(principal, &principalInfo); if (NS_WARN_IF(NS_FAILED(rv))) { RefPtr p = new PledgeSourceSet(); RefPtr error = new MediaStreamError(window, NS_LITERAL_STRING("NotAllowedError")); p->Reject(error); return p.forget(); } bool persist = IsActivelyCapturingOrHasAPermission(aWindowId); // GetPrincipalKey is an async API that returns a pledge (a promise-like // pattern). We use .Then() to pass in a lambda to run back on this same // thread later once GetPrincipalKey resolves. Needed variables are "captured" // (passed by value) safely into the lambda. RefPtr> p = media::GetPrincipalKey(principalInfo, persist); p->Then([id, aWindowId, aVideoType, aAudioType, aFake](const nsCString& aOriginKey) mutable { MOZ_ASSERT(NS_IsMainThread()); MediaManager* mgr = MediaManager::GetIfExists(); if (!mgr) { return; } RefPtr p = mgr->EnumerateRawDevices(aWindowId, aVideoType, aAudioType, aFake); p->Then([id, aWindowId, aOriginKey, aFake, aVideoType, aAudioType](SourceSet*& aDevices) mutable { UniquePtr devices(aDevices); // secondary result // Only run if window is still on our active list. MediaManager* mgr = MediaManager::GetIfExists(); if (!mgr) { return NS_OK; } if (aVideoType == MediaSourceEnum::Camera && aAudioType == MediaSourceEnum::Microphone && !aFake) { mgr->mDeviceIDs.Clear(); for (auto& device : *devices) { nsString id; device->GetId(id); id.ReplaceSubstring(NS_LITERAL_STRING("default: "), NS_LITERAL_STRING("")); if (!mgr->mDeviceIDs.Contains(id)) { mgr->mDeviceIDs.AppendElement(id); } } } RefPtr p = mgr->mOutstandingPledges.Remove(id); if (!p || !mgr->IsWindowStillActive(aWindowId)) { return NS_OK; } MediaManager_AnonymizeDevices(*devices, aOriginKey); p->Resolve(devices.release()); return NS_OK; }); }); return pledge.forget(); } nsresult MediaManager::EnumerateDevices(nsPIDOMWindowInner* aWindow, nsIGetUserMediaDevicesSuccessCallback* aOnSuccess, nsIDOMGetUserMediaErrorCallback* aOnFailure, dom::CallerType aCallerType) { MOZ_ASSERT(NS_IsMainThread()); NS_ENSURE_TRUE(!sInShutdown, NS_ERROR_FAILURE); nsCOMPtr onSuccess(aOnSuccess); nsCOMPtr onFailure(aOnFailure); uint64_t windowId = aWindow->WindowID(); nsIPrincipal* principal = aWindow->GetExtantDoc()->NodePrincipal(); RefPtr windowListener = GetWindowListener(windowId); if (windowListener) { PrincipalHandle existingPrincipalHandle = windowListener->GetPrincipalHandle(); MOZ_ASSERT(PrincipalHandleMatches(existingPrincipalHandle, principal)); } else { windowListener = new GetUserMediaWindowListener(mMediaThread, windowId, MakePrincipalHandle(principal)); AddWindowID(windowId, windowListener); } // Create an inactive SourceListener to act as a placeholder, so the // window listener doesn't clean itself up until we're done. RefPtr sourceListener = new SourceListener(); windowListener->Register(sourceListener); bool fake = Preferences::GetBool("media.navigator.streams.fake") || nsContentUtils::ResistFingerprinting(aCallerType); RefPtr p = EnumerateDevicesImpl(windowId, MediaSourceEnum::Camera, MediaSourceEnum::Microphone, fake); p->Then([onSuccess, windowListener, sourceListener](SourceSet*& aDevices) mutable { UniquePtr devices(aDevices); // grab result DebugOnly rv = windowListener->Remove(sourceListener); MOZ_ASSERT(rv); nsCOMPtr array = MediaManager_ToJSArray(*devices); onSuccess->OnSuccess(array); }, [onFailure, windowListener, sourceListener](MediaStreamError*& reason) mutable { DebugOnly rv = windowListener->Remove(sourceListener); MOZ_ASSERT(rv); onFailure->OnError(reason); }); return NS_OK; } /* * GetUserMediaDevices - called by the UI-part of getUserMedia from chrome JS. */ nsresult MediaManager::GetUserMediaDevices(nsPIDOMWindowInner* aWindow, const MediaStreamConstraints& aConstraints, nsIGetUserMediaDevicesSuccessCallback* aOnSuccess, nsIDOMGetUserMediaErrorCallback* aOnFailure, uint64_t aWindowId, const nsAString& aCallID) { MOZ_ASSERT(NS_IsMainThread()); nsCOMPtr onSuccess(aOnSuccess); nsCOMPtr onFailure(aOnFailure); if (!aWindowId) { aWindowId = aWindow->WindowID(); } // Ignore passed-in constraints, instead locate + return already-constrained list. nsTArray* callIDs; if (!mCallIds.Get(aWindowId, &callIDs)) { return NS_ERROR_UNEXPECTED; } for (auto& callID : *callIDs) { RefPtr task; if (!aCallID.Length() || aCallID == callID) { if (mActiveCallbacks.Get(callID, getter_AddRefs(task))) { nsCOMPtr array = MediaManager_ToJSArray(*task->mSourceSet); onSuccess->OnSuccess(array); return NS_OK; } } } return NS_ERROR_UNEXPECTED; } MediaEngine* MediaManager::GetBackend(uint64_t aWindowId) { MOZ_ASSERT(MediaManager::IsInMediaThread()); // Plugin backends as appropriate. The default engine also currently // includes picture support for Android. // This IS called off main-thread. if (!mBackend) { MOZ_RELEASE_ASSERT(!sInShutdown); // we should never create a new backend in shutdown #if defined(MOZ_WEBRTC) mBackend = new MediaEngineWebRTC(mPrefs); #else mBackend = new MediaEngineDefault(); #endif } return mBackend; } static void StopSharingCallback(MediaManager *aThis, uint64_t aWindowID, GetUserMediaWindowListener *aListener, void *aData) { MOZ_ASSERT(NS_IsMainThread()); // Grab a strong ref since RemoveAll() might destroy the listener mid-way // when clearing the mActiveWindows reference. RefPtr listener(aListener); if (!listener) { return; } listener->Stop(); listener->RemoveAll(); MOZ_ASSERT(!aThis->GetWindowListener(aWindowID)); } void MediaManager::OnNavigation(uint64_t aWindowID) { MOZ_ASSERT(NS_IsMainThread()); LOG(("OnNavigation for %" PRIu64, aWindowID)); // Stop the streams for this window. The runnables check this value before // making a call to content. nsTArray* callIDs; if (mCallIds.Get(aWindowID, &callIDs)) { for (auto& callID : *callIDs) { mActiveCallbacks.Remove(callID); } mCallIds.Remove(aWindowID); } // This is safe since we're on main-thread, and the windowlist can only // be added to from the main-thread auto* window = nsGlobalWindowInner::GetInnerWindowWithId(aWindowID); if (window) { IterateWindowListeners(window->AsInner(), StopSharingCallback, nullptr); } else { RemoveWindowID(aWindowID); } MOZ_ASSERT(!GetWindowListener(aWindowID)); RemoveMediaDevicesCallback(aWindowID); } void MediaManager::RemoveMediaDevicesCallback(uint64_t aWindowID) { MutexAutoLock lock(mCallbackMutex); for (DeviceChangeCallback* observer : mDeviceChangeCallbackList) { dom::MediaDevices* mediadevices = static_cast(observer); MOZ_ASSERT(mediadevices); if (mediadevices) { nsPIDOMWindowInner* window = mediadevices->GetOwner(); MOZ_ASSERT(window); if (window && window->WindowID() == aWindowID) { DeviceChangeCallback::RemoveDeviceChangeCallbackLocked(observer); return; } } } } void MediaManager::AddWindowID(uint64_t aWindowId, GetUserMediaWindowListener* aListener) { MOZ_ASSERT(NS_IsMainThread()); // Store the WindowID in a hash table and mark as active. The entry is removed // when this window is closed or navigated away from. // This is safe since we're on main-thread, and the windowlist can only // be invalidated from the main-thread (see OnNavigation) if (IsWindowStillActive(aWindowId)) { MOZ_ASSERT(false, "Window already added"); return; } GetActiveWindows()->Put(aWindowId, aListener); } void MediaManager::RemoveWindowID(uint64_t aWindowId) { mActiveWindows.Remove(aWindowId); // get outer windowID auto* window = nsGlobalWindowInner::GetInnerWindowWithId(aWindowId); if (!window) { LOG(("No inner window for %" PRIu64, aWindowId)); return; } nsPIDOMWindowOuter* outer = window->AsInner()->GetOuterWindow(); if (!outer) { LOG(("No outer window for inner %" PRIu64, aWindowId)); return; } uint64_t outerID = outer->WindowID(); // Notify the UI that this window no longer has gUM active char windowBuffer[32]; SprintfLiteral(windowBuffer, "%" PRIu64, outerID); nsString data = NS_ConvertUTF8toUTF16(windowBuffer); nsCOMPtr obs = services::GetObserverService(); obs->NotifyObservers(nullptr, "recording-window-ended", data.get()); LOG(("Sent recording-window-ended for window %" PRIu64 " (outer %" PRIu64 ")", aWindowId, outerID)); } void MediaManager::GetPref(nsIPrefBranch *aBranch, const char *aPref, const char *aData, int32_t *aVal) { int32_t temp; if (aData == nullptr || strcmp(aPref,aData) == 0) { if (NS_SUCCEEDED(aBranch->GetIntPref(aPref, &temp))) { *aVal = temp; } } } void MediaManager::GetPrefBool(nsIPrefBranch *aBranch, const char *aPref, const char *aData, bool *aVal) { bool temp; if (aData == nullptr || strcmp(aPref,aData) == 0) { if (NS_SUCCEEDED(aBranch->GetBoolPref(aPref, &temp))) { *aVal = temp; } } } void MediaManager::GetPrefs(nsIPrefBranch *aBranch, const char *aData) { GetPref(aBranch, "media.navigator.video.default_width", aData, &mPrefs.mWidth); GetPref(aBranch, "media.navigator.video.default_height", aData, &mPrefs.mHeight); GetPref(aBranch, "media.navigator.video.default_fps", aData, &mPrefs.mFPS); GetPref(aBranch, "media.navigator.audio.fake_frequency", aData, &mPrefs.mFreq); #ifdef MOZ_WEBRTC GetPrefBool(aBranch, "media.getusermedia.aec_enabled", aData, &mPrefs.mAecOn); GetPrefBool(aBranch, "media.getusermedia.agc_enabled", aData, &mPrefs.mAgcOn); GetPrefBool(aBranch, "media.getusermedia.noise_enabled", aData, &mPrefs.mNoiseOn); GetPref(aBranch, "media.getusermedia.aec", aData, &mPrefs.mAec); GetPref(aBranch, "media.getusermedia.agc", aData, &mPrefs.mAgc); GetPref(aBranch, "media.getusermedia.noise", aData, &mPrefs.mNoise); GetPrefBool(aBranch, "media.getusermedia.aec_extended_filter", aData, &mPrefs.mExtendedFilter); GetPrefBool(aBranch, "media.getusermedia.aec_aec_delay_agnostic", aData, &mPrefs.mDelayAgnostic); GetPref(aBranch, "media.getusermedia.channels", aData, &mPrefs.mChannels); GetPrefBool(aBranch, "media.ondevicechange.fakeDeviceChangeEvent.enabled", aData, &mPrefs.mFakeDeviceChangeEventOn); #endif GetPrefBool(aBranch, "media.navigator.audio.full_duplex", aData, &mPrefs.mFullDuplex); } void MediaManager::Shutdown() { MOZ_ASSERT(NS_IsMainThread()); if (sInShutdown) { return; } sInShutdown = true; nsCOMPtr obs = services::GetObserverService(); obs->RemoveObserver(this, "last-pb-context-exited"); obs->RemoveObserver(this, "getUserMedia:privileged:allow"); obs->RemoveObserver(this, "getUserMedia:response:allow"); obs->RemoveObserver(this, "getUserMedia:response:deny"); obs->RemoveObserver(this, "getUserMedia:revoke"); nsCOMPtr prefs = do_GetService(NS_PREFSERVICE_CONTRACTID); if (prefs) { prefs->RemoveObserver("media.navigator.video.default_width", this); prefs->RemoveObserver("media.navigator.video.default_height", this); prefs->RemoveObserver("media.navigator.video.default_fps", this); prefs->RemoveObserver("media.navigator.audio.fake_frequency", this); #ifdef MOZ_WEBRTC prefs->RemoveObserver("media.getusermedia.aec_enabled", this); prefs->RemoveObserver("media.getusermedia.aec", this); prefs->RemoveObserver("media.getusermedia.agc_enabled", this); prefs->RemoveObserver("media.getusermedia.agc", this); prefs->RemoveObserver("media.getusermedia.noise_enabled", this); prefs->RemoveObserver("media.getusermedia.noise", this); prefs->RemoveObserver("media.ondevicechange.fakeDeviceChangeEvent.enabled", this); prefs->RemoveObserver("media.getusermedia.channels", this); #endif prefs->RemoveObserver("media.navigator.audio.full_duplex", this); } // Close off any remaining active windows. GetActiveWindows()->Clear(); mActiveCallbacks.Clear(); mCallIds.Clear(); mPendingGUMRequest.Clear(); mDeviceIDs.Clear(); #ifdef MOZ_WEBRTC StopWebRtcLog(); #endif // Because mMediaThread is not an nsThread, we must dispatch to it so it can // clean up BackgroundChild. Continue stopping thread once this is done. class ShutdownTask : public Runnable { public: ShutdownTask(MediaManager* aManager, already_AddRefed aReply) : mozilla::Runnable("ShutdownTask") , mManager(aManager) , mReply(aReply) { } private: NS_IMETHOD Run() override { LOG(("MediaManager Thread Shutdown")); MOZ_ASSERT(MediaManager::IsInMediaThread()); // Must shutdown backend on MediaManager thread, since that's where we started it from! { if (mManager->mBackend) { mManager->mBackend->Shutdown(); // ok to invoke multiple times mManager->mBackend->RemoveDeviceChangeCallback(mManager); } } mozilla::ipc::BackgroundChild::CloseForCurrentThread(); // must explicitly do this before dispatching the reply, since the reply may kill us with Stop() mManager->mBackend = nullptr; // last reference, will invoke Shutdown() again if (NS_FAILED(NS_DispatchToMainThread(mReply.forget()))) { LOG(("Will leak thread: DispatchToMainthread of reply runnable failed in MediaManager shutdown")); } return NS_OK; } RefPtr mManager; RefPtr mReply; }; // Post ShutdownTask to execute on mMediaThread and pass in a lambda // callback to be executed back on this thread once it is done. // // The lambda callback "captures" the 'this' pointer for member access. // This is safe since this is guaranteed to be here since sSingleton isn't // cleared until the lambda function clears it. // note that this == sSingleton MOZ_ASSERT(this == sSingleton); RefPtr that = this; // Release the backend (and call Shutdown()) from within the MediaManager thread // Don't use MediaManager::PostTask() because we're sInShutdown=true here! RefPtr shutdown = new ShutdownTask(this, media::NewRunnableFrom([this, that]() mutable { LOG(("MediaManager shutdown lambda running, releasing MediaManager singleton and thread")); if (mMediaThread) { mMediaThread->Stop(); } // Remove async shutdown blocker nsCOMPtr shutdownPhase = GetShutdownPhase(); shutdownPhase->RemoveBlocker(sSingleton->mShutdownBlocker); // we hold a ref to 'that' which is the same as sSingleton sSingleton = nullptr; return NS_OK; })); mMediaThread->message_loop()->PostTask(shutdown.forget()); } void MediaManager::SendPendingGUMRequest() { if (mPendingGUMRequest.Length() > 0) { nsCOMPtr obs = services::GetObserverService(); obs->NotifyObservers(mPendingGUMRequest[0], "getUserMedia:request", nullptr); mPendingGUMRequest.RemoveElementAt(0); } } nsresult MediaManager::Observe(nsISupports* aSubject, const char* aTopic, const char16_t* aData) { MOZ_ASSERT(NS_IsMainThread()); if (!strcmp(aTopic, NS_PREFBRANCH_PREFCHANGE_TOPIC_ID)) { nsCOMPtr branch( do_QueryInterface(aSubject) ); if (branch) { GetPrefs(branch,NS_ConvertUTF16toUTF8(aData).get()); LOG(("%s: %dx%d @%dfps", __FUNCTION__, mPrefs.mWidth, mPrefs.mHeight, mPrefs.mFPS)); } } else if (!strcmp(aTopic, "last-pb-context-exited")) { // Clear memory of private-browsing-specific deviceIds. Fire and forget. media::SanitizeOriginKeys(0, true); return NS_OK; } else if (!strcmp(aTopic, "getUserMedia:got-device-permission")) { MOZ_ASSERT(aSubject); nsCOMPtr task = do_QueryInterface(aSubject); MediaManager::PostTask(NewTaskFrom([task] { task->Run(); })); return NS_OK; } else if (!strcmp(aTopic, "getUserMedia:privileged:allow") || !strcmp(aTopic, "getUserMedia:response:allow")) { nsString key(aData); RefPtr task; mActiveCallbacks.Remove(key, getter_AddRefs(task)); if (!task) { return NS_OK; } nsTArray* array; if (!mCallIds.Get(task->GetWindowID(), &array)) { return NS_OK; } array->RemoveElement(key); if (aSubject) { // A particular device or devices were chosen by the user. // NOTE: does not allow setting a device to null; assumes nullptr nsCOMPtr array(do_QueryInterface(aSubject)); MOZ_ASSERT(array); uint32_t len = 0; array->GetLength(&len); bool videoFound = false, audioFound = false; for (uint32_t i = 0; i < len; i++) { nsCOMPtr device; array->QueryElementAt(i, NS_GET_IID(nsIMediaDevice), getter_AddRefs(device)); MOZ_ASSERT(device); // shouldn't be returning anything else... if (device) { nsString type; device->GetType(type); if (type.EqualsLiteral("video")) { if (!videoFound) { task->SetVideoDevice(static_cast(device.get())); videoFound = true; } } else if (type.EqualsLiteral("audio")) { if (!audioFound) { task->SetAudioDevice(static_cast(device.get())); audioFound = true; } } else { NS_WARNING("Unknown device type in getUserMedia"); } } } bool needVideo = IsOn(task->GetConstraints().mVideo); bool needAudio = IsOn(task->GetConstraints().mAudio); MOZ_ASSERT(needVideo || needAudio); if ((needVideo && !videoFound) || (needAudio && !audioFound)) { task->Denied(NS_LITERAL_STRING("NotAllowedError")); return NS_OK; } } if (sInShutdown) { return task->Denied(NS_LITERAL_STRING("In shutdown")); } // Reuse the same thread to save memory. MediaManager::PostTask(task.forget()); return NS_OK; } else if (!strcmp(aTopic, "getUserMedia:response:deny")) { nsString errorMessage(NS_LITERAL_STRING("NotAllowedError")); if (aSubject) { nsCOMPtr msg(do_QueryInterface(aSubject)); MOZ_ASSERT(msg); msg->GetData(errorMessage); if (errorMessage.IsEmpty()) errorMessage.AssignLiteral(u"InternalError"); } nsString key(aData); RefPtr task; mActiveCallbacks.Remove(key, getter_AddRefs(task)); if (task) { task->Denied(errorMessage); nsTArray* array; if (!mCallIds.Get(task->GetWindowID(), &array)) { return NS_OK; } array->RemoveElement(key); SendPendingGUMRequest(); } return NS_OK; } else if (!strcmp(aTopic, "getUserMedia:revoke")) { nsresult rv; // may be windowid or screen:windowid nsDependentString data(aData); if (Substring(data, 0, strlen("screen:")).EqualsLiteral("screen:")) { uint64_t windowID = PromiseFlatString(Substring(data, strlen("screen:"))).ToInteger64(&rv); MOZ_ASSERT(NS_SUCCEEDED(rv)); if (NS_SUCCEEDED(rv)) { LOG(("Revoking Screen/windowCapture access for window %" PRIu64, windowID)); StopScreensharing(windowID); } } else { uint64_t windowID = nsString(aData).ToInteger64(&rv); MOZ_ASSERT(NS_SUCCEEDED(rv)); if (NS_SUCCEEDED(rv)) { LOG(("Revoking MediaCapture access for window %" PRIu64, windowID)); OnNavigation(windowID); } } return NS_OK; } return NS_OK; } nsresult MediaManager::GetActiveMediaCaptureWindows(nsIArray** aArray) { MOZ_ASSERT(aArray); nsCOMPtr array = nsArray::Create(); for (auto iter = mActiveWindows.Iter(); !iter.Done(); iter.Next()) { const uint64_t& id = iter.Key(); RefPtr winListener = iter.UserData(); if (!winListener) { continue; } nsPIDOMWindowInner* window = nsGlobalWindowInner::GetInnerWindowWithId(id)->AsInner(); MOZ_ASSERT(window); // XXXkhuey ... if (!window) { continue; } if (winListener->CapturingVideo() || winListener->CapturingAudio() || winListener->CapturingScreen() || winListener->CapturingWindow() || winListener->CapturingApplication()) { array->AppendElement(window); } } array.forget(aArray); return NS_OK; } // XXX flags might be better... struct CaptureWindowStateData { bool *mVideo; bool *mAudio; bool *mScreenShare; bool *mWindowShare; bool *mAppShare; bool *mBrowserShare; }; static void CaptureWindowStateCallback(MediaManager *aThis, uint64_t aWindowID, GetUserMediaWindowListener *aListener, void *aData) { struct CaptureWindowStateData *data = (struct CaptureWindowStateData *) aData; if (!aListener) { return; } if (aListener->CapturingVideo()) { *data->mVideo = true; } if (aListener->CapturingAudio()) { *data->mAudio = true; } if (aListener->CapturingScreen()) { *data->mScreenShare = true; } if (aListener->CapturingWindow()) { *data->mWindowShare = true; } if (aListener->CapturingApplication()) { *data->mAppShare = true; } if (aListener->CapturingBrowser()) { *data->mBrowserShare = true; } } NS_IMETHODIMP MediaManager::MediaCaptureWindowState(nsIDOMWindow* aWindow, bool* aVideo, bool* aAudio, bool *aScreenShare, bool* aWindowShare, bool *aAppShare, bool *aBrowserShare) { MOZ_ASSERT(NS_IsMainThread()); struct CaptureWindowStateData data; data.mVideo = aVideo; data.mAudio = aAudio; data.mScreenShare = aScreenShare; data.mWindowShare = aWindowShare; data.mAppShare = aAppShare; data.mBrowserShare = aBrowserShare; *aVideo = false; *aAudio = false; *aScreenShare = false; *aWindowShare = false; *aAppShare = false; *aBrowserShare = false; nsCOMPtr piWin = do_QueryInterface(aWindow); if (piWin) { IterateWindowListeners(piWin, CaptureWindowStateCallback, &data); } #ifdef DEBUG LOG(("%s: window %" PRIu64 " capturing %s %s %s %s %s %s", __FUNCTION__, piWin ? piWin->WindowID() : -1, *aVideo ? "video" : "", *aAudio ? "audio" : "", *aScreenShare ? "screenshare" : "", *aWindowShare ? "windowshare" : "", *aAppShare ? "appshare" : "", *aBrowserShare ? "browsershare" : "")); #endif return NS_OK; } NS_IMETHODIMP MediaManager::SanitizeDeviceIds(int64_t aSinceWhen) { MOZ_ASSERT(NS_IsMainThread()); LOG(("%s: sinceWhen = %" PRId64, __FUNCTION__, aSinceWhen)); media::SanitizeOriginKeys(aSinceWhen, false); // we fire and forget return NS_OK; } static void StopScreensharingCallback(MediaManager *aThis, uint64_t aWindowID, GetUserMediaWindowListener *aListener, void *aData) { if (!aListener) { return; } aListener->StopSharing(); } void MediaManager::StopScreensharing(uint64_t aWindowID) { // We need to stop window/screensharing for all streams in all innerwindows that // correspond to that outerwindow. auto* window = nsGlobalWindowInner::GetInnerWindowWithId(aWindowID); if (!window) { return; } IterateWindowListeners(window->AsInner(), &StopScreensharingCallback, nullptr); } // lets us do all sorts of things to the listeners void MediaManager::IterateWindowListeners(nsPIDOMWindowInner* aWindow, WindowListenerCallback aCallback, void *aData) { // Iterate the docshell tree to find all the child windows, and for each // invoke the callback if (aWindow) { { uint64_t windowID = aWindow->WindowID(); GetUserMediaWindowListener* listener = GetWindowListener(windowID); (*aCallback)(this, windowID, listener, aData); // NB: `listener` might have been destroyed. } // iterate any children of *this* window (iframes, etc) nsCOMPtr docShell = aWindow->GetDocShell(); if (docShell) { int32_t i, count; docShell->GetChildCount(&count); for (i = 0; i < count; ++i) { nsCOMPtr item; docShell->GetChildAt(i, getter_AddRefs(item)); nsCOMPtr winOuter = item ? item->GetWindow() : nullptr; if (winOuter) { IterateWindowListeners(winOuter->GetCurrentInnerWindow(), aCallback, aData); } } } } } void MediaManager::StopMediaStreams() { nsCOMPtr array; GetActiveMediaCaptureWindows(getter_AddRefs(array)); uint32_t len; array->GetLength(&len); for (uint32_t i = 0; i < len; i++) { nsCOMPtr win; array->QueryElementAt(i, NS_GET_IID(nsPIDOMWindowInner), getter_AddRefs(win)); if (win) { OnNavigation(win->WindowID()); } } } bool MediaManager::IsActivelyCapturingOrHasAPermission(uint64_t aWindowId) { // Does page currently have a gUM stream active? nsCOMPtr array; GetActiveMediaCaptureWindows(getter_AddRefs(array)); uint32_t len; array->GetLength(&len); for (uint32_t i = 0; i < len; i++) { nsCOMPtr win; array->QueryElementAt(i, NS_GET_IID(nsPIDOMWindowInner), getter_AddRefs(win)); if (win && win->WindowID() == aWindowId) { return true; } } // Or are persistent permissions (audio or video) granted? auto* window = nsGlobalWindowInner::GetInnerWindowWithId(aWindowId); if (NS_WARN_IF(!window)) { return false; } // Check if this site has persistent permissions. nsresult rv; nsCOMPtr mgr = do_GetService(NS_PERMISSIONMANAGER_CONTRACTID, &rv); if (NS_WARN_IF(NS_FAILED(rv))) { return false; // no permission manager no permissions! } uint32_t audio = nsIPermissionManager::UNKNOWN_ACTION; uint32_t video = nsIPermissionManager::UNKNOWN_ACTION; { auto* principal = window->GetExtantDoc()->NodePrincipal(); rv = mgr->TestExactPermissionFromPrincipal(principal, "microphone", &audio); if (NS_WARN_IF(NS_FAILED(rv))) { return false; } rv = mgr->TestExactPermissionFromPrincipal(principal, "camera", &video); if (NS_WARN_IF(NS_FAILED(rv))) { return false; } } return audio == nsIPermissionManager::ALLOW_ACTION || video == nsIPermissionManager::ALLOW_ACTION; } SourceListener::SourceListener() : mStopped(false) , mFinished(false) , mRemoved(false) , mAudioStopped(false) , mVideoStopped(false) , mMainThreadCheck(nullptr) , mPrincipalHandle(PRINCIPAL_HANDLE_NONE) , mWindowListener(nullptr) {} void SourceListener::Register(GetUserMediaWindowListener* aListener) { LOG(("SourceListener %p registering with window listener %p", this, aListener)); if (mWindowListener) { MOZ_ASSERT(false, "Already registered"); return; } if (Activated()) { MOZ_ASSERT(false, "Already activated"); return; } if (!aListener) { MOZ_ASSERT(false, "No listener"); return; } mPrincipalHandle = aListener->GetPrincipalHandle(); mWindowListener = aListener; } void SourceListener::Activate(SourceMediaStream* aStream, AudioDevice* aAudioDevice, VideoDevice* aVideoDevice) { MOZ_ASSERT(NS_IsMainThread(), "Only call on main thread"); LOG(("SourceListener %p activating audio=%p video=%p", this, aAudioDevice, aVideoDevice)); if (mStopped) { MOZ_ASSERT(false, "Cannot activate stopped source listener"); return; } if (Activated()) { MOZ_ASSERT(false, "Already activated"); return; } mMainThreadCheck = GetCurrentVirtualThread(); mStream = aStream; mAudioDevice = aAudioDevice; mVideoDevice = aVideoDevice; mStream->AddListener(this); } void SourceListener::Stop() { MOZ_ASSERT(NS_IsMainThread(), "Only call on main thread"); if (mStopped) { return; } LOG(("SourceListener %p stopping", this)); // StopSharing() has some special logic, at least for audio capture. // It must be called when all tracks have stopped, before setting mStopped. StopSharing(); mStopped = true; if (!Activated()) { MOZ_ASSERT(false, "There are no devices or any source stream to stop"); return; } if (mAudioDevice && !mAudioStopped) { StopTrack(kAudioTrack); } if (mVideoDevice && !mVideoStopped) { StopTrack(kVideoTrack); } RefPtr source = mStream; if (!source) { MOZ_ASSERT(false, "Can't end tracks. No source stream."); return; } MediaManager::PostTask(NewTaskFrom([source]() { MOZ_ASSERT(MediaManager::IsInMediaThread()); source->EndAllTrackAndFinish(); })); } void SourceListener::Remove() { MOZ_ASSERT(NS_IsMainThread()); if (!mStream || mRemoved) { return; } LOG(("SourceListener %p removed on purpose, mFinished = %d", this, (int) mFinished)); mRemoved = true; // RemoveListener is async, avoid races mWindowListener = nullptr; // If it's destroyed, don't call - listener will be removed and we'll be notified! if (!mStream->IsDestroyed()) { mStream->RemoveListener(this); } } void SourceListener::StopTrack(TrackID aTrackID) { MOZ_ASSERT(NS_IsMainThread(), "Only call on main thread"); RefPtr device; if (!Activated()) { MOZ_ASSERT(false, "No device to stop"); return; } switch (aTrackID) { case kAudioTrack: { LOG(("SourceListener %p stopping audio track %d", this, aTrackID)); if (!mAudioDevice) { NS_ASSERTION(false, "Can't stop audio. No device."); return; } if (mAudioStopped) { // Audio already stopped return; } device = mAudioDevice; mAudioStopped = true; break; } case kVideoTrack: { LOG(("SourceListener %p stopping video track %d", this, aTrackID)); if (!mVideoDevice) { NS_ASSERTION(false, "Can't stop video. No device."); return; } if (mVideoStopped) { // Video already stopped return; } device = mVideoDevice; mVideoStopped = true; break; } default: { MOZ_ASSERT(false, "Unknown track id"); return; } } RefPtr source = mStream; MediaManager::PostTask(NewTaskFrom([device, source, aTrackID]() { device->GetSource()->Stop(source, aTrackID); device->Deallocate(); })); if ((!mAudioDevice || mAudioStopped) && (!mVideoDevice || mVideoStopped)) { LOG(("SourceListener %p this was the last track stopped", this)); Stop(); } if (!mWindowListener) { MOZ_ASSERT(false, "Should still have window listener"); return; } mWindowListener->NotifySourceTrackStopped(); } void SourceListener::StopSharing() { MOZ_ASSERT(NS_IsMainThread()); MOZ_RELEASE_ASSERT(mWindowListener); if (mStopped) { return; } LOG(("SourceListener %p StopSharing", this)); if (mVideoDevice && (mVideoDevice->GetMediaSource() == MediaSourceEnum::Screen || mVideoDevice->GetMediaSource() == MediaSourceEnum::Application || mVideoDevice->GetMediaSource() == MediaSourceEnum::Window)) { // We want to stop the whole stream if there's no audio; // just the video track if we have both. // StopTrack figures this out for us. StopTrack(kVideoTrack); } if (mAudioDevice && mAudioDevice->GetMediaSource() == MediaSourceEnum::AudioCapture) { uint64_t windowID = mWindowListener->WindowID(); nsCOMPtr window = nsGlobalWindowInner::GetInnerWindowWithId(windowID)->AsInner(); MOZ_RELEASE_ASSERT(window); window->SetAudioCapture(false); MediaStreamGraph* graph = MediaStreamGraph::GetInstance(MediaStreamGraph::AUDIO_THREAD_DRIVER, window); graph->UnregisterCaptureStreamForWindow(windowID); mStream->Destroy(); } } SourceMediaStream* SourceListener::GetSourceStream() { NS_ASSERTION(mStream,"Getting stream from never-activated SourceListener"); return mStream; } void SourceListener::GetSettings(dom::MediaTrackSettings& aOutSettings, TrackID aTrackID) { switch (aTrackID) { case kVideoTrack: { if (mVideoDevice) { mVideoDevice->GetSource()->GetSettings(aOutSettings); } break; } case kAudioTrack: { if (mAudioDevice) { mAudioDevice->GetSource()->GetSettings(aOutSettings); } break; } default: { MOZ_ASSERT(false, "Unknown track id"); } } } // Proxy NotifyPull() to sources void SourceListener::NotifyPull(MediaStreamGraph* aGraph, StreamTime aDesiredTime) { // Currently audio sources ignore NotifyPull, but they could // watch it especially for fake audio. if (mAudioDevice) { mAudioDevice->GetSource()->NotifyPull(aGraph, mStream, kAudioTrack, aDesiredTime, mPrincipalHandle); } if (mVideoDevice) { mVideoDevice->GetSource()->NotifyPull(aGraph, mStream, kVideoTrack, aDesiredTime, mPrincipalHandle); } } void SourceListener::NotifyEvent(MediaStreamGraph* aGraph, MediaStreamGraphEvent aEvent) { nsCOMPtr target; switch (aEvent) { case MediaStreamGraphEvent::EVENT_FINISHED: target = GetMainThreadEventTarget(); if (NS_WARN_IF(!target)) { NS_ASSERTION(false, "Mainthread not available; running on current thread"); // Ensure this really *was* MainThread (NS_GetCurrentThread won't work) MOZ_RELEASE_ASSERT(mMainThreadCheck == GetCurrentVirtualThread()); NotifyFinished(); return; } target->Dispatch(NewRunnableMethod("SourceListener::NotifyFinished", this, &SourceListener::NotifyFinished), NS_DISPATCH_NORMAL); break; case MediaStreamGraphEvent::EVENT_REMOVED: target = GetMainThreadEventTarget(); if (NS_WARN_IF(!target)) { NS_ASSERTION(false, "Mainthread not available; running on current thread"); // Ensure this really *was* MainThread (NS_GetCurrentThread won't work) MOZ_RELEASE_ASSERT(mMainThreadCheck == GetCurrentVirtualThread()); NotifyRemoved(); return; } target->Dispatch(NewRunnableMethod("SourceListener::NotifyRemoved", this, &SourceListener::NotifyRemoved), NS_DISPATCH_NORMAL); break; default: break; } } void SourceListener::NotifyFinished() { MOZ_ASSERT(NS_IsMainThread()); mFinished = true; if (!mWindowListener) { // Removed explicitly before finished. return; } LOG(("SourceListener %p NotifyFinished", this)); Stop(); // we know it's been activated mWindowListener->Remove(this); } void SourceListener::NotifyRemoved() { MOZ_ASSERT(NS_IsMainThread()); LOG(("SourceListener removed, mFinished = %d", (int) mFinished)); mRemoved = true; if (Activated() && !mFinished) { NotifyFinished(); } mWindowListener = nullptr; } bool SourceListener::CapturingVideo() const { MOZ_ASSERT(NS_IsMainThread()); return Activated() && mVideoDevice && !mVideoStopped && !mVideoDevice->GetSource()->IsAvailable() && mVideoDevice->GetMediaSource() == dom::MediaSourceEnum::Camera && (!mVideoDevice->GetSource()->IsFake() || Preferences::GetBool("media.navigator.permission.fake")); } bool SourceListener::CapturingAudio() const { MOZ_ASSERT(NS_IsMainThread()); return Activated() && mAudioDevice && !mAudioStopped && !mAudioDevice->GetSource()->IsAvailable() && (!mAudioDevice->GetSource()->IsFake() || Preferences::GetBool("media.navigator.permission.fake")); } bool SourceListener::CapturingScreen() const { MOZ_ASSERT(NS_IsMainThread()); return Activated() && mVideoDevice && !mVideoStopped && !mVideoDevice->GetSource()->IsAvailable() && mVideoDevice->GetMediaSource() == dom::MediaSourceEnum::Screen; } bool SourceListener::CapturingWindow() const { MOZ_ASSERT(NS_IsMainThread()); return Activated() && mVideoDevice && !mVideoStopped && !mVideoDevice->GetSource()->IsAvailable() && mVideoDevice->GetMediaSource() == dom::MediaSourceEnum::Window; } bool SourceListener::CapturingApplication() const { MOZ_ASSERT(NS_IsMainThread()); return Activated() && mVideoDevice && !mVideoStopped && !mVideoDevice->GetSource()->IsAvailable() && mVideoDevice->GetMediaSource() == dom::MediaSourceEnum::Application; } bool SourceListener::CapturingBrowser() const { MOZ_ASSERT(NS_IsMainThread()); return Activated() && mVideoDevice && !mVideoStopped && !mVideoDevice->GetSource()->IsAvailable() && mVideoDevice->GetMediaSource() == dom::MediaSourceEnum::Browser; } already_AddRefed SourceListener::ApplyConstraintsToTrack( nsPIDOMWindowInner* aWindow, TrackID aTrackID, const MediaTrackConstraints& aConstraintsPassedIn, dom::CallerType aCallerType) { MOZ_ASSERT(NS_IsMainThread()); RefPtr p = new PledgeVoid(); // XXX to support multiple tracks of a type in a stream, this should key off // the TrackID and not just the type RefPtr audioDevice = aTrackID == kAudioTrack ? mAudioDevice.get() : nullptr; RefPtr videoDevice = aTrackID == kVideoTrack ? mVideoDevice.get() : nullptr; if (mStopped || (!audioDevice && !videoDevice)) { LOG(("gUM track %d applyConstraints, but we don't have type %s", aTrackID, aTrackID == kAudioTrack ? "audio" : "video")); p->Resolve(false); return p.forget(); } MediaTrackConstraints c(aConstraintsPassedIn); // use a modifiable copy MediaConstraintsHelper::ConvertOldWithWarning(c.mMozAutoGainControl, c.mAutoGainControl, "MozAutoGainControlWarning", aWindow); MediaConstraintsHelper::ConvertOldWithWarning(c.mMozNoiseSuppression, c.mNoiseSuppression, "MozNoiseSuppressionWarning", aWindow); MediaManager* mgr = MediaManager::GetIfExists(); if (!mgr) { return p.forget(); } uint32_t id = mgr->mOutstandingVoidPledges.Append(*p); uint64_t windowId = aWindow->WindowID(); bool isChrome = (aCallerType == dom::CallerType::System); MediaManager::PostTask(NewTaskFrom([id, windowId, audioDevice, videoDevice, c, isChrome]() mutable { MOZ_ASSERT(MediaManager::IsInMediaThread()); MediaManager* mgr = MediaManager::GetIfExists(); MOZ_RELEASE_ASSERT(mgr); // Must exist while media thread is alive const char* badConstraint = nullptr; nsresult rv = NS_OK; if (audioDevice) { rv = audioDevice->Restart(c, mgr->mPrefs, &badConstraint); if (rv == NS_ERROR_NOT_AVAILABLE && !badConstraint) { nsTArray> audios; audios.AppendElement(audioDevice); badConstraint = MediaConstraintsHelper::SelectSettings( NormalizedConstraints(c), audios, isChrome); } } else { rv = videoDevice->Restart(c, mgr->mPrefs, &badConstraint); if (rv == NS_ERROR_NOT_AVAILABLE && !badConstraint) { nsTArray> videos; videos.AppendElement(videoDevice); badConstraint = MediaConstraintsHelper::SelectSettings( NormalizedConstraints(c), videos, isChrome); } } NS_DispatchToMainThread(NewRunnableFrom([id, windowId, rv, badConstraint]() mutable { MOZ_ASSERT(NS_IsMainThread()); MediaManager* mgr = MediaManager::GetIfExists(); if (!mgr) { return NS_OK; } RefPtr p = mgr->mOutstandingVoidPledges.Remove(id); if (p) { if (NS_SUCCEEDED(rv)) { p->Resolve(false); } else { auto* window = nsGlobalWindowInner::GetInnerWindowWithId(windowId); if (window) { if (badConstraint) { nsString constraint; constraint.AssignASCII(badConstraint); RefPtr error = new MediaStreamError(window->AsInner(), NS_LITERAL_STRING("OverconstrainedError"), NS_LITERAL_STRING(""), constraint); p->Reject(error); } else { RefPtr error = new MediaStreamError(window->AsInner(), NS_LITERAL_STRING("InternalError")); p->Reject(error); } } } } return NS_OK; })); })); return p.forget(); } PrincipalHandle SourceListener::GetPrincipalHandle() const { return mPrincipalHandle; } // Doesn't kill audio void GetUserMediaWindowListener::StopSharing() { MOZ_ASSERT(NS_IsMainThread(), "Only call on main thread"); for (auto& source : mActiveListeners) { source->StopSharing(); } } void GetUserMediaWindowListener::StopRawID(const nsString& removedDeviceID) { MOZ_ASSERT(NS_IsMainThread(), "Only call on main thread"); for (auto& source : mActiveListeners) { if (source->GetAudioDevice()) { nsString id; source->GetAudioDevice()->GetRawId(id); if (removedDeviceID.Equals(id)) { source->StopTrack(kAudioTrack); } } if (source->GetVideoDevice()) { nsString id; source->GetVideoDevice()->GetRawId(id); if (removedDeviceID.Equals(id)) { source->StopTrack(kVideoTrack); } } } } void GetUserMediaWindowListener::NotifySourceTrackStopped() { MOZ_ASSERT(NS_IsMainThread()); // We wait until stable state before notifying chrome so chrome only does one // update if more tracks are stopped in this event loop. if (mChromeNotificationTaskPosted) { return; } nsCOMPtr runnable = NewRunnableMethod("GetUserMediaWindowListener::NotifyChromeOfTrackStops", this, &GetUserMediaWindowListener::NotifyChromeOfTrackStops); nsContentUtils::RunInStableState(runnable.forget()); mChromeNotificationTaskPosted = true; } void GetUserMediaWindowListener::NotifyChromeOfTrackStops() { MOZ_ASSERT(mChromeNotificationTaskPosted); mChromeNotificationTaskPosted = false; NS_DispatchToMainThread(do_AddRef(new GetUserMediaNotificationEvent( GetUserMediaNotificationEvent::STOPPING, mWindowID))); } GetUserMediaNotificationEvent::GetUserMediaNotificationEvent( GetUserMediaStatus aStatus, uint64_t aWindowID) : Runnable("GetUserMediaNotificationEvent") , mStatus(aStatus) , mWindowID(aWindowID) { } GetUserMediaNotificationEvent::GetUserMediaNotificationEvent( GetUserMediaStatus aStatus, already_AddRefed aStream, already_AddRefed>> aOnTracksAvailableCallback, uint64_t aWindowID, already_AddRefed aError) : Runnable("GetUserMediaNotificationEvent") , mStream(aStream) , mOnTracksAvailableCallback(aOnTracksAvailableCallback) , mStatus(aStatus) , mWindowID(aWindowID) , mOnFailure(aError) { } GetUserMediaNotificationEvent::~GetUserMediaNotificationEvent() { } NS_IMETHODIMP GetUserMediaNotificationEvent::Run() { MOZ_ASSERT(NS_IsMainThread()); // Make sure mStream is cleared and our reference to the DOMMediaStream // is dropped on the main thread, no matter what happens in this method. // Otherwise this object might be destroyed off the main thread, // releasing DOMMediaStream off the main thread, which is not allowed. RefPtr stream = mStream.forget(); nsString msg; switch (mStatus) { case STARTING: msg = NS_LITERAL_STRING("starting"); stream->OnTracksAvailable(mOnTracksAvailableCallback->release()); break; case STOPPING: msg = NS_LITERAL_STRING("shutdown"); break; } RefPtr window = nsGlobalWindowInner::GetInnerWindowWithId(mWindowID); NS_ENSURE_TRUE(window, NS_ERROR_FAILURE); return MediaManager::NotifyRecordingStatusChange(window->AsInner(), msg); } } // namespace mozilla