/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*-*/ /* 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/. */ #ifndef NSDOMMEDIASTREAM_H_ #define NSDOMMEDIASTREAM_H_ #include "nsIDOMMediaStream.h" #include "nsCycleCollectionParticipant.h" #include "nsWrapperCache.h" #include "StreamBuffer.h" #include "nsIDOMWindow.h" #include "nsIPrincipal.h" #include "mozilla/PeerIdentity.h" class nsXPCClassInfo; // GetCurrentTime is defined in winbase.h as zero argument macro forwarding to // GetTickCount() and conflicts with NS_DECL_NSIDOMMEDIASTREAM, containing // currentTime getter. #ifdef GetCurrentTime #undef GetCurrentTime #endif // X11 has a #define for CurrentTime. Unbelievable :-(. // See content/media/webaudio/AudioContext.h for more fun! #ifdef CurrentTime #undef CurrentTime #endif namespace mozilla { class MediaStream; namespace dom { class AudioNode; class MediaStreamTrack; class AudioStreamTrack; class VideoStreamTrack; } class MediaStreamDirectListener; /** * DOM wrapper for MediaStreams. */ class DOMMediaStream : public nsIDOMMediaStream, public nsWrapperCache { friend class DOMLocalMediaStream; typedef dom::MediaStreamTrack MediaStreamTrack; typedef dom::AudioStreamTrack AudioStreamTrack; typedef dom::VideoStreamTrack VideoStreamTrack; public: typedef uint8_t TrackTypeHints; DOMMediaStream(); NS_DECL_CYCLE_COLLECTION_SCRIPT_HOLDER_CLASS(DOMMediaStream) NS_DECL_CYCLE_COLLECTING_ISUPPORTS nsIDOMWindow* GetParentObject() const { return mWindow; } virtual JSObject* WrapObject(JSContext* aCx) MOZ_OVERRIDE; // WebIDL double CurrentTime(); void GetAudioTracks(nsTArray >& aTracks); void GetVideoTracks(nsTArray >& aTracks); MediaStream* GetStream() const { return mStream; } /** * Overridden in DOMLocalMediaStreams to allow getUserMedia to pass * data directly to RTCPeerConnection without going through graph queuing. * Returns a bool to let us know if direct data will be delivered. */ virtual bool AddDirectListener(MediaStreamDirectListener *aListener) { return false; } virtual void RemoveDirectListener(MediaStreamDirectListener *aListener) {} /** * Overridden in DOMLocalMediaStreams to allow getUserMedia to disable * media at the SourceMediaStream. */ virtual void SetTrackEnabled(TrackID aTrackID, bool aEnabled); bool IsFinished(); /** * Returns a principal indicating who may access this stream. The stream contents * can only be accessed by principals subsuming this principal. */ nsIPrincipal* GetPrincipal() { return mPrincipal; } /** * These are used in WebRTC. A peerIdentity constrained MediaStream cannot be sent * across the network to anything other than a peer with the provided identity. * If this is set, then mPrincipal should be an instance of nsNullPrincipal. */ PeerIdentity* GetPeerIdentity() const { return mPeerIdentity; } void SetPeerIdentity(PeerIdentity* aPeerIdentity) { mPeerIdentity = aPeerIdentity; } /** * Indicate that data will be contributed to this stream from origin aPrincipal. * If aPrincipal is null, this is ignored. Otherwise, from now on the contents * of this stream can only be accessed by principals that subsume aPrincipal. * Returns true if the stream's principal changed. */ bool CombineWithPrincipal(nsIPrincipal* aPrincipal); /** * This is used in WebRTC to move from a protected state (nsNullPrincipal) to * one where the stream is accessible to script. Don't call this. * CombineWithPrincipal is almost certainly more appropriate. */ void SetPrincipal(nsIPrincipal* aPrincipal); /** * Used to learn about dynamic changes in principal occur. * Operations relating to these observers must be confined to the main thread. */ class PrincipalChangeObserver { public: virtual void PrincipalChanged(DOMMediaStream* aMediaStream) = 0; }; bool AddPrincipalChangeObserver(PrincipalChangeObserver* aObserver); bool RemovePrincipalChangeObserver(PrincipalChangeObserver* aObserver); /** * Called when this stream's MediaStreamGraph has been shut down. Normally * MSGs are only shut down when all streams have been removed, so this * will only be called during a forced shutdown due to application exit. */ void NotifyMediaStreamGraphShutdown(); /** * Called when the main-thread state of the MediaStream changed. */ void NotifyStreamStateChanged(); // Indicate what track types we eventually expect to add to this stream enum { HINT_CONTENTS_AUDIO = 1 << 0, HINT_CONTENTS_VIDEO = 1 << 1 }; TrackTypeHints GetHintContents() const { return mHintContents; } void SetHintContents(TrackTypeHints aHintContents) { mHintContents = aHintContents; } /** * Create an nsDOMMediaStream whose underlying stream is a SourceMediaStream. */ static already_AddRefed CreateSourceStream(nsIDOMWindow* aWindow, TrackTypeHints aHintContents); /** * Create an nsDOMMediaStream whose underlying stream is a TrackUnionStream. */ static already_AddRefed CreateTrackUnionStream(nsIDOMWindow* aWindow, TrackTypeHints aHintContents = 0); void SetLogicalStreamStartTime(StreamTime aTime) { mLogicalStreamStartTime = aTime; } // Notifications from StreamListener. // CreateDOMTrack should only be called when it's safe to run script. MediaStreamTrack* CreateDOMTrack(TrackID aTrackID, MediaSegment::Type aType); MediaStreamTrack* GetDOMTrackFor(TrackID aTrackID); class OnTracksAvailableCallback { public: OnTracksAvailableCallback(uint8_t aExpectedTracks = 0) : mExpectedTracks(aExpectedTracks) {} virtual ~OnTracksAvailableCallback() {} virtual void NotifyTracksAvailable(DOMMediaStream* aStream) = 0; TrackTypeHints GetExpectedTracks() { return mExpectedTracks; } void SetExpectedTracks(TrackTypeHints aExpectedTracks) { mExpectedTracks = aExpectedTracks; } private: TrackTypeHints mExpectedTracks; }; // When one track of the appropriate type has been added for each bit set // in aCallback->GetExpectedTracks(), run aCallback->NotifyTracksAvailable. // It is allowed to do anything, including run script. // aCallback may run immediately during this call if tracks are already // available! // We only care about track additions, we'll fire the notification even if // some of the tracks have been removed. // Takes ownership of aCallback. // If GetExpectedTracks() returns 0, the callback will be fired as soon as there are any tracks. void OnTracksAvailable(OnTracksAvailableCallback* aCallback); /** * Add an nsISupports object that this stream will keep alive as long as * the stream is not finished. */ void AddConsumerToKeepAlive(nsISupports* aConsumer) { if (!IsFinished() && !mNotifiedOfMediaStreamGraphShutdown) { mConsumersToKeepAlive.AppendElement(aConsumer); } } protected: virtual ~DOMMediaStream(); void Destroy(); void InitSourceStream(nsIDOMWindow* aWindow, TrackTypeHints aHintContents); void InitTrackUnionStream(nsIDOMWindow* aWindow, TrackTypeHints aHintContents); void InitStreamCommon(MediaStream* aStream); void CheckTracksAvailable(); class StreamListener; friend class StreamListener; // StreamTime at which the currentTime attribute would return 0. StreamTime mLogicalStreamStartTime; // We need this to track our parent object. nsCOMPtr mWindow; // MediaStream is owned by the graph, but we tell it when to die, and it won't // die until we let it. MediaStream* mStream; nsAutoTArray,2> mTracks; nsRefPtr mListener; nsTArray > mRunOnTracksAvailable; // Keep these alive until the stream finishes nsTArray > mConsumersToKeepAlive; // Indicate what track types we eventually expect to add to this stream uint8_t mHintContents; // Indicate what track types have been added to this stream uint8_t mTrackTypesAvailable; bool mNotifiedOfMediaStreamGraphShutdown; private: void NotifyPrincipalChanged(); // Principal identifying who may access the contents of this stream. // If null, this stream can be used by anyone because it has no content yet. nsCOMPtr mPrincipal; nsTArray mPrincipalChangeObservers; // this is used in gUM and WebRTC to identify peers that this stream // is allowed to be sent to nsAutoPtr mPeerIdentity; }; class DOMLocalMediaStream : public DOMMediaStream, public nsIDOMLocalMediaStream { public: DOMLocalMediaStream() {} virtual ~DOMLocalMediaStream(); NS_DECL_ISUPPORTS_INHERITED virtual JSObject* WrapObject(JSContext* aCx) MOZ_OVERRIDE; virtual void Stop(); /** * Create an nsDOMLocalMediaStream whose underlying stream is a SourceMediaStream. */ static already_AddRefed CreateSourceStream(nsIDOMWindow* aWindow, TrackTypeHints aHintContents); /** * Create an nsDOMLocalMediaStream whose underlying stream is a TrackUnionStream. */ static already_AddRefed CreateTrackUnionStream(nsIDOMWindow* aWindow, TrackTypeHints aHintContents = 0); }; class DOMAudioNodeMediaStream : public DOMMediaStream { typedef dom::AudioNode AudioNode; public: DOMAudioNodeMediaStream(AudioNode* aNode); ~DOMAudioNodeMediaStream(); NS_DECL_ISUPPORTS_INHERITED NS_DECL_CYCLE_COLLECTION_CLASS_INHERITED(DOMAudioNodeMediaStream, DOMMediaStream) /** * Create a DOMAudioNodeMediaStream whose underlying stream is a TrackUnionStream. */ static already_AddRefed CreateTrackUnionStream(nsIDOMWindow* aWindow, AudioNode* aNode, TrackTypeHints aHintContents = 0); private: // If this object wraps a stream owned by an AudioNode, we need to ensure that // the node isn't cycle-collected too early. nsRefPtr mStreamNode; }; } #endif /* NSDOMMEDIASTREAM_H_ */