/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim:set ts=2 sw=2 sts=2 et cindent: */ /* 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 AudioContext_h_ #define AudioContext_h_ #include "X11UndefineNone.h" #include "AudioParamDescriptorMap.h" #include "mozilla/dom/OfflineAudioContextBinding.h" #include "mozilla/dom/AudioContextBinding.h" #include "MediaBufferDecoder.h" #include "mozilla/Attributes.h" #include "mozilla/DOMEventTargetHelper.h" #include "mozilla/MemoryReporting.h" #include "mozilla/dom/TypedArray.h" #include "mozilla/RelativeTimeline.h" #include "mozilla/TypedEnumBits.h" #include "mozilla/UniquePtr.h" #include "nsCOMPtr.h" #include "nsCycleCollectionParticipant.h" #include "nsDataHashtable.h" #include "nsHashKeys.h" #include "nsTHashtable.h" #include "js/TypeDecls.h" #include "nsIMemoryReporter.h" namespace WebCore { class PeriodicWave; } // namespace WebCore class nsPIDOMWindowInner; namespace mozilla { class DOMMediaStream; class ErrorResult; class MediaTrack; class MediaTrackGraph; class AudioNodeTrack; namespace dom { enum class AudioContextState : uint8_t; class AnalyserNode; class AudioBuffer; class AudioBufferSourceNode; class AudioDestinationNode; class AudioListener; class AudioNode; class BiquadFilterNode; class ChannelMergerNode; class ChannelSplitterNode; class ConstantSourceNode; class ConvolverNode; class DelayNode; class DynamicsCompressorNode; class GainNode; class GlobalObject; class HTMLMediaElement; class IIRFilterNode; class MediaElementAudioSourceNode; class MediaStreamAudioDestinationNode; class MediaStreamAudioSourceNode; class MediaStreamTrack; class MediaStreamTrackAudioSourceNode; class OscillatorNode; class PannerNode; class ScriptProcessorNode; class StereoPannerNode; class WaveShaperNode; class Worklet; class PeriodicWave; struct PeriodicWaveConstraints; class Promise; enum class OscillatorType : uint8_t; // This is addrefed by the OscillatorNodeEngine on the main thread // and then used from the MTG thread. // It can be released either from the graph thread or the main thread. class BasicWaveFormCache { public: explicit BasicWaveFormCache(uint32_t aSampleRate); NS_INLINE_DECL_THREADSAFE_REFCOUNTING(BasicWaveFormCache) WebCore::PeriodicWave* GetBasicWaveForm(OscillatorType aType); private: ~BasicWaveFormCache(); RefPtr mSawtooth; RefPtr mSquare; RefPtr mTriangle; uint32_t mSampleRate; }; /* This runnable allows the MTG to notify the main thread when audio is actually * flowing */ class StateChangeTask final : public Runnable { public: /* This constructor should be used when this event is sent from the main * thread. */ StateChangeTask(AudioContext* aAudioContext, void* aPromise, AudioContextState aNewState); /* This constructor should be used when this event is sent from the audio * thread. */ StateChangeTask(AudioNodeTrack* aTrack, void* aPromise, AudioContextState aNewState); NS_IMETHOD Run() override; private: RefPtr mAudioContext; void* mPromise; RefPtr mAudioNodeTrack; AudioContextState mNewState; }; enum class AudioContextOperation { Suspend, Resume, Close }; // When suspending or resuming an AudioContext, some operations have to notify // the main thread, so that the Promise is resolved, the state is modified, and // the statechanged event is sent. Some other operations don't go back to the // main thread, for example when the AudioContext is paused by something that is // not caused by the page itself: opening a debugger, breaking on a breakpoint, // reloading a document. enum class AudioContextOperationFlags { None, SendStateChange }; MOZ_MAKE_ENUM_CLASS_BITWISE_OPERATORS(AudioContextOperationFlags); struct AudioContextOptions; class AudioContext final : public DOMEventTargetHelper, public nsIMemoryReporter, public RelativeTimeline { AudioContext(nsPIDOMWindowInner* aParentWindow, bool aIsOffline, uint32_t aNumberOfChannels = 0, uint32_t aLength = 0, float aSampleRate = 0.0f); ~AudioContext(); public: typedef uint64_t AudioContextId; NS_DECL_ISUPPORTS_INHERITED NS_DECL_CYCLE_COLLECTION_CLASS_INHERITED(AudioContext, DOMEventTargetHelper) MOZ_DEFINE_MALLOC_SIZE_OF(MallocSizeOf) nsPIDOMWindowInner* GetParentObject() const { return GetOwner(); } nsISerialEventTarget* GetMainThread() const; virtual void DisconnectFromOwner() override; void OnWindowDestroy(); // idempotent JSObject* WrapObject(JSContext* aCx, JS::Handle aGivenProto) override; using DOMEventTargetHelper::DispatchTrustedEvent; // Constructor for regular AudioContext static already_AddRefed Constructor( const GlobalObject& aGlobal, const AudioContextOptions& aOptions, ErrorResult& aRv); // Constructor for offline AudioContext with options object static already_AddRefed Constructor( const GlobalObject& aGlobal, const OfflineAudioContextOptions& aOptions, ErrorResult& aRv); // Constructor for offline AudioContext static already_AddRefed Constructor(const GlobalObject& aGlobal, uint32_t aNumberOfChannels, uint32_t aLength, float aSampleRate, ErrorResult& aRv); // AudioContext methods AudioDestinationNode* Destination() const { return mDestination; } float SampleRate() const { return mSampleRate; } bool ShouldSuspendNewTrack() const { return mSuspendCalled || mCloseCalled; } double CurrentTime(); AudioListener* Listener(); AudioContextState State() const { return mAudioContextState; } double BaseLatency() const { // Gecko does not do any buffering between rendering the audio and sending // it to the audio subsystem. return 0.0; } double OutputLatency(); void GetOutputTimestamp(AudioTimestamp& aTimeStamp); Worklet* GetAudioWorklet(ErrorResult& aRv); bool IsRunning() const; // Called when an AudioScheduledSourceNode started or the source node starts, // this method might resume the AudioContext if it was not allowed to start. void StartBlockedAudioContextIfAllowed(); // Those three methods return a promise to content, that is resolved when an // (possibly long) operation is completed on the MTG (and possibly other) // thread(s). To avoid having to match the calls and asychronous result when // the operation is completed, we keep a reference to the promises on the main // thread, and then send the promises pointers down the MTG thread, as a void* // (to make it very clear that the pointer is to merely be treated as an ID). // When back on the main thread, we can resolve or reject the promise, by // casting it back to a `Promise*` while asserting we're back on the main // thread and removing the reference we added. already_AddRefed Suspend(ErrorResult& aRv); already_AddRefed Resume(ErrorResult& aRv); already_AddRefed Close(ErrorResult& aRv); IMPL_EVENT_HANDLER(statechange) // These two functions are similar with Suspend() and Resume(), the difference // is they are designed for calling from chrome side, not content side. eg. // calling from inner window, so we won't need to return promise for caller. void SuspendFromChrome(); void ResumeFromChrome(); // Called on completion of offline rendering: void OfflineClose(); already_AddRefed CreateBufferSource(); already_AddRefed CreateConstantSource(); already_AddRefed CreateBuffer(uint32_t aNumberOfChannels, uint32_t aLength, float aSampleRate, ErrorResult& aRv); already_AddRefed CreateMediaStreamDestination(ErrorResult& aRv); already_AddRefed CreateScriptProcessor( uint32_t aBufferSize, uint32_t aNumberOfInputChannels, uint32_t aNumberOfOutputChannels, ErrorResult& aRv); already_AddRefed CreateStereoPanner(ErrorResult& aRv); already_AddRefed CreateAnalyser(ErrorResult& aRv); already_AddRefed CreateGain(ErrorResult& aRv); already_AddRefed CreateWaveShaper(ErrorResult& aRv); already_AddRefed CreateMediaElementSource( HTMLMediaElement& aMediaElement, ErrorResult& aRv); already_AddRefed CreateMediaStreamSource( DOMMediaStream& aMediaStream, ErrorResult& aRv); already_AddRefed CreateMediaStreamTrackSource(MediaStreamTrack& aMediaStreamTrack, ErrorResult& aRv); already_AddRefed CreateDelay(double aMaxDelayTime, ErrorResult& aRv); already_AddRefed CreatePanner(ErrorResult& aRv); already_AddRefed CreateConvolver(ErrorResult& aRv); already_AddRefed CreateChannelSplitter( uint32_t aNumberOfOutputs, ErrorResult& aRv); already_AddRefed CreateChannelMerger( uint32_t aNumberOfInputs, ErrorResult& aRv); already_AddRefed CreateDynamicsCompressor( ErrorResult& aRv); already_AddRefed CreateBiquadFilter(ErrorResult& aRv); already_AddRefed CreateIIRFilter( const Sequence& aFeedforward, const Sequence& aFeedback, mozilla::ErrorResult& aRv); already_AddRefed CreateOscillator(ErrorResult& aRv); already_AddRefed CreatePeriodicWave( const Float32Array& aRealData, const Float32Array& aImagData, const PeriodicWaveConstraints& aConstraints, ErrorResult& aRv); already_AddRefed DecodeAudioData( const ArrayBuffer& aBuffer, const Optional>& aSuccessCallback, const Optional>& aFailureCallback, ErrorResult& aRv); // OfflineAudioContext methods already_AddRefed StartRendering(ErrorResult& aRv); IMPL_EVENT_HANDLER(complete) unsigned long Length(); bool IsOffline() const { return mIsOffline; } MediaTrackGraph* Graph() const; AudioNodeTrack* DestinationTrack() const; // Nodes register here if they will produce sound even if they have silent // or no input connections. The AudioContext will keep registered nodes // alive until the context is collected. This takes care of "playing" // references and "tail-time" references. void RegisterActiveNode(AudioNode* aNode); // Nodes unregister when they have finished producing sound for the // foreseeable future. // Do NOT call UnregisterActiveNode from an AudioNode destructor. // If the destructor is called, then the Node has already been unregistered. // The destructor may be called during hashtable enumeration, during which // unregistering would not be safe. void UnregisterActiveNode(AudioNode* aNode); uint32_t MaxChannelCount() const; uint32_t ActiveNodeCount() const; void Mute() const; void Unmute() const; void RegisterNode(AudioNode* aNode); void UnregisterNode(AudioNode* aNode); void OnStateChanged(void* aPromise, AudioContextState aNewState); BasicWaveFormCache* GetBasicWaveFormCache(); void ShutdownWorklet(); // Steals from |aParamMap| void SetParamMapForWorkletName(const nsAString& aName, AudioParamDescriptorMap* aParamMap); const AudioParamDescriptorMap* GetParamMapForWorkletName( const nsAString& aName) { return mWorkletParamDescriptors.GetValue(aName); } void Dispatch(already_AddRefed&& aRunnable); private: void DisconnectFromWindow(); already_AddRefed CreatePromise(ErrorResult& aRv); void RemoveFromDecodeQueue(WebAudioDecodeJob* aDecodeJob); void ShutdownDecoder(); size_t SizeOfIncludingThis(mozilla::MallocSizeOf aMallocSizeOf) const; NS_DECL_NSIMEMORYREPORTER friend struct ::mozilla::WebAudioDecodeJob; nsTArray> GetAllTracks() const; void ResumeInternal(AudioContextOperationFlags aFlags); void SuspendInternal(void* aPromise, AudioContextOperationFlags aFlags); void CloseInternal(void* aPromise, AudioContextOperationFlags aFlags); // Will report error message to console and dispatch testing event if needed // when AudioContext is blocked by autoplay policy. void ReportBlocked(); void ReportToConsole(uint32_t aErrorFlags, const char* aMsg) const; // This function should be called everytime we decide whether allow to start // audio context, it's used to update Telemetry related variables. void UpdateAutoplayAssumptionStatus(); // These functions are used for updating Telemetry. // - MaybeUpdateAutoplayTelemetry: update category 'AllowedAfterBlocked' // - MaybeUpdateAutoplayTelemetryWhenShutdown: update category 'NeverBlocked' // and 'NeverAllowed', so we need to call it when shutdown AudioContext void MaybeUpdateAutoplayTelemetry(); void MaybeUpdateAutoplayTelemetryWhenShutdown(); private: // Each AudioContext has an id, that is passed down the MediaTracks that // back the AudioNodes, so we can easily compute the set of all the // MediaTracks for a given context, on the MediasTrackGraph side. const AudioContextId mId; // Note that it's important for mSampleRate to be initialized before // mDestination, as mDestination's constructor needs to access it! const float mSampleRate; AudioContextState mAudioContextState; RefPtr mDestination; RefPtr mListener; RefPtr mWorklet; nsTArray> mDecodeJobs; // This array is used to keep the suspend/close promises alive until // they are resolved, so we can safely pass them accross threads. nsTArray> mPromiseGripArray; // This array is used to onlly keep the resume promises alive until they are // resolved, so we can safely pass them accross threads. If the audio context // is not allowed to play, the promise would be pending in this array and be // resolved until audio context has been allowed and user call resume() again. nsTArray> mPendingResumePromises; // See RegisterActiveNode. These will keep the AudioContext alive while it // is rendering and the window remains alive. nsTHashtable> mActiveNodes; // Raw (non-owning) references to all AudioNodes for this AudioContext. nsTHashtable> mAllNodes; nsDataHashtable mWorkletParamDescriptors; // Cache to avoid recomputing basic waveforms all the time. RefPtr mBasicWaveFormCache; // Number of channels passed in the OfflineAudioContext ctor. uint32_t mNumberOfChannels; bool mIsOffline; bool mIsStarted; bool mIsShutDown; // Close has been called, reject suspend and resume call. bool mCloseCalled; // Suspend has been called with no following resume. bool mSuspendCalled; bool mIsDisconnecting; // This flag stores the value of previous status of `allowed-to-start`. bool mWasAllowedToStart; // True if this AudioContext has been suspended by the page. bool mSuspendedByContent; // These variables are used for telemetry, they're not reflect the actual // status of AudioContext, they are based on the "assumption" of enabling // blocking web audio. Because we want to record Telemetry no matter user // enable blocking autoplay or not. // - 'mWasEverAllowedToStart' would be true when AudioContext had ever been // allowed to start if we enable blocking web audio. // - 'mWasEverBlockedToStart' would be true when AudioContext had ever been // blocked to start if we enable blocking web audio. // - 'mWouldBeAllowedToStart' stores the value of previous status of // `allowed-to-start` if we enable blocking web audio. bool mWasEverAllowedToStart; bool mWasEverBlockedToStart; bool mWouldBeAllowedToStart; }; static const dom::AudioContext::AudioContextId NO_AUDIO_CONTEXT = 0; } // namespace dom } // namespace mozilla inline nsISupports* ToSupports(mozilla::dom::AudioContext* p) { return NS_CYCLE_COLLECTION_CLASSNAME(mozilla::dom::AudioContext)::Upcast(p); } #endif