зеркало из https://github.com/mozilla/gecko-dev.git
836 строки
27 KiB
C++
836 строки
27 KiB
C++
/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*-*/
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this file,
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* You can obtain one at http://mozilla.org/MPL/2.0/. */
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#ifndef MOZILLA_MEDIASTREAMGRAPHIMPL_H_
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#define MOZILLA_MEDIASTREAMGRAPHIMPL_H_
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#include "MediaStreamGraph.h"
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#include "AudioMixer.h"
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#include "GraphDriver.h"
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#include "Latency.h"
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#include "mozilla/Monitor.h"
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#include "mozilla/Services.h"
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#include "mozilla/TimeStamp.h"
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#include "mozilla/UniquePtr.h"
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#include "mozilla/WeakPtr.h"
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#include "nsDataHashtable.h"
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#include "nsIMemoryReporter.h"
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#include "nsINamed.h"
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#include "nsIRunnable.h"
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#include "nsIThread.h"
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#include "nsITimer.h"
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namespace mozilla {
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namespace media {
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class ShutdownTicket;
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}
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template <typename T>
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class LinkedList;
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#ifdef MOZ_WEBRTC
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class AudioOutputObserver;
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#endif
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/**
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* A per-stream update message passed from the media graph thread to the
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* main thread.
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*/
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struct StreamUpdate
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{
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RefPtr<MediaStream> mStream;
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StreamTime mNextMainThreadCurrentTime;
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bool mNextMainThreadFinished;
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};
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/**
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* This represents a message run on the graph thread to modify stream or graph
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* state. These are passed from main thread to graph thread through
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* AppendMessage(), or scheduled on the graph thread with
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* RunMessageAfterProcessing(). A ControlMessage
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* always has a weak reference to a particular affected stream.
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*/
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class ControlMessage
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{
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public:
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explicit ControlMessage(MediaStream* aStream) : mStream(aStream)
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{
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MOZ_COUNT_CTOR(ControlMessage);
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}
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// All these run on the graph thread
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virtual ~ControlMessage()
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{
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MOZ_COUNT_DTOR(ControlMessage);
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}
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// Do the action of this message on the MediaStreamGraph thread. Any actions
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// affecting graph processing should take effect at mProcessedTime.
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// All stream data for times < mProcessedTime has already been
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// computed.
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virtual void Run() = 0;
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// RunDuringShutdown() is only relevant to messages generated on the main
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// thread (for AppendMessage()).
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// When we're shutting down the application, most messages are ignored but
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// some cleanup messages should still be processed (on the main thread).
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// This must not add new control messages to the graph.
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virtual void RunDuringShutdown() {}
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MediaStream* GetStream() { return mStream; }
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protected:
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// We do not hold a reference to mStream. The graph will be holding
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// a reference to the stream until the Destroy message is processed. The
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// last message referencing a stream is the Destroy message for that stream.
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MediaStream* mStream;
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};
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class MessageBlock
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{
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public:
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nsTArray<UniquePtr<ControlMessage>> mMessages;
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};
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/**
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* The implementation of a media stream graph. This class is private to this
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* file. It's not in the anonymous namespace because MediaStream needs to
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* be able to friend it.
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*
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* There can be multiple MediaStreamGraph per process: one per document.
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* Additionaly, each OfflineAudioContext object creates its own MediaStreamGraph
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* object too.
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*/
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class MediaStreamGraphImpl : public MediaStreamGraph,
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public nsIMemoryReporter,
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public nsITimerCallback,
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public nsINamed
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{
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public:
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NS_DECL_THREADSAFE_ISUPPORTS
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NS_DECL_NSIMEMORYREPORTER
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NS_DECL_NSITIMERCALLBACK
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NS_DECL_NSINAMED
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/**
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* Use aGraphDriverRequested with SYSTEM_THREAD_DRIVER or AUDIO_THREAD_DRIVER
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* to create a MediaStreamGraph which provides support for real-time audio
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* and/or video. Set it to OFFLINE_THREAD_DRIVER in order to create a
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* non-realtime instance which just churns through its inputs and produces
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* output. Those objects currently only support audio, and are used to
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* implement OfflineAudioContext. They do not support MediaStream inputs.
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*/
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explicit MediaStreamGraphImpl(GraphDriverType aGraphDriverRequested,
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TrackRate aSampleRate,
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AbstractThread* aWindow);
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/**
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* Unregisters memory reporting and deletes this instance. This should be
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* called instead of calling the destructor directly.
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*/
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void Destroy();
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// Main thread only.
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/**
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* This runs every time we need to sync state from the media graph thread
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* to the main thread while the main thread is not in the middle
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* of a script. It runs during a "stable state" (per HTML5) or during
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* an event posted to the main thread.
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* The boolean affects which boolean controlling runnable dispatch is cleared
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*/
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void RunInStableState(bool aSourceIsMSG);
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/**
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* Ensure a runnable to run RunInStableState is posted to the appshell to
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* run at the next stable state (per HTML5).
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* See EnsureStableStateEventPosted.
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*/
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void EnsureRunInStableState();
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/**
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* Called to apply a StreamUpdate to its stream.
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*/
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void ApplyStreamUpdate(StreamUpdate* aUpdate);
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/**
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* Append a ControlMessage to the message queue. This queue is drained
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* during RunInStableState; the messages will run on the graph thread.
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*/
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void AppendMessage(UniquePtr<ControlMessage> aMessage);
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/**
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* Dispatches a runnable from any thread to the correct main thread for this
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* MediaStreamGraph.
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*/
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void Dispatch(already_AddRefed<nsIRunnable>&& aRunnable);
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/**
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* Make this MediaStreamGraph enter forced-shutdown state. This state
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* will be noticed by the media graph thread, which will shut down all streams
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* and other state controlled by the media graph thread.
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* This is called during application shutdown.
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*/
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void ForceShutDown(media::ShutdownTicket* aShutdownTicket);
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/**
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* Called before the thread runs.
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*/
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void Init();
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/**
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* Respond to CollectReports with sizes collected on the graph thread.
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*/
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static void
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FinishCollectReports(nsIHandleReportCallback* aHandleReport,
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nsISupports* aData,
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const nsTArray<AudioNodeSizes>& aAudioStreamSizes);
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// The following methods run on the graph thread (or possibly the main thread
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// if mLifecycleState > LIFECYCLE_RUNNING)
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void CollectSizesForMemoryReport(
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already_AddRefed<nsIHandleReportCallback> aHandleReport,
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already_AddRefed<nsISupports> aHandlerData);
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/**
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* Returns true if this MediaStreamGraph should keep running
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*/
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bool UpdateMainThreadState();
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/**
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* Returns true if this MediaStreamGraph should keep running
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*/
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bool OneIteration(GraphTime aStateEnd);
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bool Running() const
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{
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mMonitor.AssertCurrentThreadOwns();
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return mLifecycleState == LIFECYCLE_RUNNING;
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}
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/* This is the end of the current iteration, that is, the current time of the
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* graph. */
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GraphTime IterationEnd() const;
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/**
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* Ensure there is an event posted to the main thread to run RunInStableState.
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* mMonitor must be held.
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* See EnsureRunInStableState
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*/
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void EnsureStableStateEventPosted();
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/**
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* Generate messages to the main thread to update it for all state changes.
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* mMonitor must be held.
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*/
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void PrepareUpdatesToMainThreadState(bool aFinalUpdate);
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/**
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* Returns false if there is any stream that has finished but not yet finished
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* playing out.
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*/
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bool AllFinishedStreamsNotified();
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/**
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* If we are rendering in non-realtime mode, we don't want to send messages to
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* the main thread at each iteration for performance reasons. We instead
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* notify the main thread at the same rate
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*/
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bool ShouldUpdateMainThread();
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// The following methods are the various stages of RunThread processing.
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/**
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* Advance all stream state to mStateComputedTime.
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*/
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void UpdateCurrentTimeForStreams(GraphTime aPrevCurrentTime);
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/**
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* Process chunks for all streams and raise events for properties that have
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* changed, such as principalId.
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*/
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void ProcessChunkMetadata(GraphTime aPrevCurrentTime);
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/**
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* Process chunks for the given stream and interval, and raise events for
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* properties that have changed, such as principalId.
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*/
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template<typename C, typename Chunk>
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void ProcessChunkMetadataForInterval(MediaStream* aStream,
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TrackID aTrackID,
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C& aSegment,
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StreamTime aStart,
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StreamTime aEnd);
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/**
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* Process graph messages in mFrontMessageQueue.
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*/
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void RunMessagesInQueue();
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/**
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* Update stream processing order and recompute stream blocking until
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* aEndBlockingDecisions.
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*/
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void UpdateGraph(GraphTime aEndBlockingDecisions);
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void SwapMessageQueues()
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{
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MOZ_ASSERT(CurrentDriver()->OnThread());
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MOZ_ASSERT(mFrontMessageQueue.IsEmpty());
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mMonitor.AssertCurrentThreadOwns();
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mFrontMessageQueue.SwapElements(mBackMessageQueue);
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}
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/**
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* Do all the processing and play the audio and video, from
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* mProcessedTime to mStateComputedTime.
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*/
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void Process();
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/**
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* Extract any state updates pending in aStream, and apply them.
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*/
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void ExtractPendingInput(SourceMediaStream* aStream,
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GraphTime aDesiredUpToTime,
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bool* aEnsureNextIteration);
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/**
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* For use during ProcessedMediaStream::ProcessInput() or
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* MediaStreamListener callbacks, when graph state cannot be changed.
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* Schedules |aMessage| to run after processing, at a time when graph state
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* can be changed. Graph thread.
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*/
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void RunMessageAfterProcessing(UniquePtr<ControlMessage> aMessage);
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/**
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* Called when a suspend/resume/close operation has been completed, on the
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* graph thread.
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*/
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void AudioContextOperationCompleted(MediaStream* aStream,
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void* aPromise,
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dom::AudioContextOperation aOperation);
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/**
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* Apply and AudioContext operation (suspend/resume/closed), on the graph
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* thread.
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*/
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void ApplyAudioContextOperationImpl(MediaStream* aDestinationStream,
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const nsTArray<MediaStream*>& aStreams,
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dom::AudioContextOperation aOperation,
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void* aPromise);
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/**
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* Increment suspend count on aStream and move it to mSuspendedStreams if
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* necessary.
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*/
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void IncrementSuspendCount(MediaStream* aStream);
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/**
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* Increment suspend count on aStream and move it to mStreams if
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* necessary.
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*/
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void DecrementSuspendCount(MediaStream* aStream);
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/*
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* Move streams from the mStreams to mSuspendedStream if suspending/closing an
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* AudioContext, or the inverse when resuming an AudioContext.
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*/
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void SuspendOrResumeStreams(dom::AudioContextOperation aAudioContextOperation,
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const nsTArray<MediaStream*>& aStreamSet);
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/**
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* Determine if we have any audio tracks, or are about to add any audiotracks.
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* Also checks if we'll need the AEC running (i.e. microphone input tracks)
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*/
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bool AudioTrackPresent(bool& aNeedsAEC);
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/**
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* Sort mStreams so that every stream not in a cycle is after any streams
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* it depends on, and every stream in a cycle is marked as being in a cycle.
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* Also sets mIsConsumed on every stream.
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*/
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void UpdateStreamOrder();
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/**
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* Returns smallest value of t such that t is a multiple of
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* WEBAUDIO_BLOCK_SIZE and t > aTime.
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*/
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GraphTime RoundUpToNextAudioBlock(GraphTime aTime);
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/**
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* Produce data for all streams >= aStreamIndex for the current time interval.
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* Advances block by block, each iteration producing data for all streams
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* for a single block.
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* This is called whenever we have an AudioNodeStream in the graph.
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*/
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void ProduceDataForStreamsBlockByBlock(uint32_t aStreamIndex,
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TrackRate aSampleRate);
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/**
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* If aStream will underrun between aTime, and aEndBlockingDecisions, returns
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* the time at which the underrun will start. Otherwise return
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* aEndBlockingDecisions.
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*/
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GraphTime WillUnderrun(MediaStream* aStream, GraphTime aEndBlockingDecisions);
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/**
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* Given a graph time aTime, convert it to a stream time taking into
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* account the time during which aStream is scheduled to be blocked.
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*/
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StreamTime GraphTimeToStreamTimeWithBlocking(MediaStream* aStream, GraphTime aTime);
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/**
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* Call NotifyHaveCurrentData on aStream's listeners.
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*/
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void NotifyHasCurrentData(MediaStream* aStream);
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/**
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* If aStream needs an audio stream but doesn't have one, create it.
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* If aStream doesn't need an audio stream but has one, destroy it.
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*/
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void CreateOrDestroyAudioStreams(MediaStream* aStream);
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/**
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* Queue audio (mix of stream audio and silence for blocked intervals)
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* to the audio output stream. Returns the number of frames played.
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*/
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StreamTime PlayAudio(MediaStream* aStream);
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/**
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* No more data will be forthcoming for aStream. The stream will end
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* at the current buffer end point. The StreamTracks's tracks must be
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* explicitly set to finished by the caller.
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*/
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void OpenAudioInputImpl(int aID,
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AudioDataListener *aListener);
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virtual nsresult OpenAudioInput(int aID,
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AudioDataListener *aListener) override;
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void CloseAudioInputImpl(AudioDataListener *aListener);
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virtual void CloseAudioInput(AudioDataListener *aListener) override;
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void FinishStream(MediaStream* aStream);
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/**
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* Compute how much stream data we would like to buffer for aStream.
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*/
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StreamTime GetDesiredBufferEnd(MediaStream* aStream);
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/**
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* Returns true when there are no active streams.
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*/
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bool IsEmpty() const
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{
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return mStreams.IsEmpty() && mSuspendedStreams.IsEmpty() && mPortCount == 0;
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}
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/**
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* Add aStream to the graph and initializes its graph-specific state.
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*/
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void AddStreamGraphThread(MediaStream* aStream);
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/**
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* Remove aStream from the graph. Ensures that pending messages about the
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* stream back to the main thread are flushed.
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*/
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void RemoveStreamGraphThread(MediaStream* aStream);
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/**
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* Remove aPort from the graph and release it.
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*/
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void DestroyPort(MediaInputPort* aPort);
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/**
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* Mark the media stream order as dirty.
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*/
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void SetStreamOrderDirty()
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{
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mStreamOrderDirty = true;
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}
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uint32_t AudioChannelCount() const
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{
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return mOutputChannels;
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}
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double MediaTimeToSeconds(GraphTime aTime) const
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{
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NS_ASSERTION(aTime > -STREAM_TIME_MAX && aTime <= STREAM_TIME_MAX,
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"Bad time");
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return static_cast<double>(aTime)/GraphRate();
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}
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GraphTime SecondsToMediaTime(double aS) const
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{
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NS_ASSERTION(0 <= aS && aS <= TRACK_TICKS_MAX/TRACK_RATE_MAX,
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"Bad seconds");
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return GraphRate() * aS;
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}
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GraphTime MillisecondsToMediaTime(int32_t aMS) const
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{
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return RateConvertTicksRoundDown(GraphRate(), 1000, aMS);
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}
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/**
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* Signal to the graph that the thread has paused indefinitly,
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* or resumed.
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*/
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void PausedIndefinitly();
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void ResumedFromPaused();
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/**
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* Not safe to call off the MediaStreamGraph thread unless monitor is held!
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*/
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GraphDriver* CurrentDriver() const
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{
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#ifdef DEBUG
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if (!OnGraphThreadOrNotRunning()) {
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mMonitor.AssertCurrentThreadOwns();
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}
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#endif
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return mDriver;
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}
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/**
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* Effectively set the new driver, while we are switching.
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* It is only safe to call this at the very end of an iteration, when there
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* has been a SwitchAtNextIteration call during the iteration. The driver
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* should return and pass the control to the new driver shortly after.
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* We can also switch from Revive() (on MainThread), in which case the
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* monitor is held
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*/
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void SetCurrentDriver(GraphDriver* aDriver)
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{
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#ifdef DEBUG
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mMonitor.AssertCurrentThreadOwns();
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AssertOnGraphThreadOrNotRunning();
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#endif
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mDriver = aDriver;
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}
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Monitor& GetMonitor()
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{
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return mMonitor;
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}
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void EnsureNextIteration()
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{
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mNeedAnotherIteration = true; // atomic
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// Note: GraphDriver must ensure that there's no race on setting
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// mNeedAnotherIteration and mGraphDriverAsleep -- see WaitForNextIteration()
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if (mGraphDriverAsleep) { // atomic
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MonitorAutoLock mon(mMonitor);
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CurrentDriver()->WakeUp(); // Might not be the same driver; might have woken already
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}
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}
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void EnsureNextIterationLocked()
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{
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mNeedAnotherIteration = true; // atomic
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if (mGraphDriverAsleep) { // atomic
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CurrentDriver()->WakeUp(); // Might not be the same driver; might have woken already
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}
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}
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// Capture Stream API. This allows to get a mixed-down output for a window.
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void RegisterCaptureStreamForWindow(uint64_t aWindowId,
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ProcessedMediaStream* aCaptureStream);
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void UnregisterCaptureStreamForWindow(uint64_t aWindowId);
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already_AddRefed<MediaInputPort>
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ConnectToCaptureStream(uint64_t aWindowId, MediaStream* aMediaStream);
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class StreamSet {
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public:
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class iterator {
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public:
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explicit iterator(MediaStreamGraphImpl& aGraph)
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: mGraph(&aGraph), mArrayNum(-1), mArrayIndex(0)
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{
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++(*this);
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}
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iterator() : mGraph(nullptr), mArrayNum(2), mArrayIndex(0) {}
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MediaStream* operator*()
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{
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return Array()->ElementAt(mArrayIndex);
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}
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iterator operator++()
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{
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++mArrayIndex;
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while (mArrayNum < 2 &&
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(mArrayNum < 0 || mArrayIndex >= Array()->Length())) {
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++mArrayNum;
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mArrayIndex = 0;
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}
|
|
return *this;
|
|
}
|
|
bool operator==(const iterator& aOther) const
|
|
{
|
|
return mArrayNum == aOther.mArrayNum && mArrayIndex == aOther.mArrayIndex;
|
|
}
|
|
bool operator!=(const iterator& aOther) const
|
|
{
|
|
return !(*this == aOther);
|
|
}
|
|
private:
|
|
nsTArray<MediaStream*>* Array()
|
|
{
|
|
return mArrayNum == 0 ? &mGraph->mStreams : &mGraph->mSuspendedStreams;
|
|
}
|
|
MediaStreamGraphImpl* mGraph;
|
|
int mArrayNum;
|
|
uint32_t mArrayIndex;
|
|
};
|
|
|
|
explicit StreamSet(MediaStreamGraphImpl& aGraph) : mGraph(aGraph) {}
|
|
iterator begin() { return iterator(mGraph); }
|
|
iterator end() { return iterator(); }
|
|
private:
|
|
MediaStreamGraphImpl& mGraph;
|
|
};
|
|
StreamSet AllStreams() { return StreamSet(*this); }
|
|
|
|
// Data members
|
|
//
|
|
/**
|
|
* Graphs own owning references to their driver, until shutdown. When a driver
|
|
* switch occur, previous driver is either deleted, or it's ownership is
|
|
* passed to a event that will take care of the asynchronous cleanup, as
|
|
* audio stream can take some time to shut down.
|
|
*/
|
|
RefPtr<GraphDriver> mDriver;
|
|
|
|
// The following state is managed on the graph thread only, unless
|
|
// mLifecycleState > LIFECYCLE_RUNNING in which case the graph thread
|
|
// is not running and this state can be used from the main thread.
|
|
|
|
/**
|
|
* The graph keeps a reference to each stream.
|
|
* References are maintained manually to simplify reordering without
|
|
* unnecessary thread-safe refcount changes.
|
|
*/
|
|
nsTArray<MediaStream*> mStreams;
|
|
/**
|
|
* This stores MediaStreams that are part of suspended AudioContexts.
|
|
* mStreams and mSuspendStream are disjoint sets: a stream is either suspended
|
|
* or not suspended. Suspended streams are not ordered in UpdateStreamOrder,
|
|
* and are therefore not doing any processing.
|
|
*/
|
|
nsTArray<MediaStream*> mSuspendedStreams;
|
|
/**
|
|
* Suspended AudioContext IDs
|
|
*/
|
|
nsTHashtable<nsUint64HashKey> mSuspendedContexts;
|
|
/**
|
|
* Streams from mFirstCycleBreaker to the end of mStreams produce output
|
|
* before they receive input. They correspond to DelayNodes that are in
|
|
* cycles.
|
|
*/
|
|
uint32_t mFirstCycleBreaker;
|
|
/**
|
|
* Blocking decisions have been computed up to this time.
|
|
* Between each iteration, this is the same as mProcessedTime.
|
|
*/
|
|
GraphTime mStateComputedTime = 0;
|
|
/**
|
|
* All stream contents have been computed up to this time.
|
|
* The next batch of updates from the main thread will be processed
|
|
* at this time. This is behind mStateComputedTime during processing.
|
|
*/
|
|
GraphTime mProcessedTime = 0;
|
|
/**
|
|
* Date of the last time we updated the main thread with the graph state.
|
|
*/
|
|
TimeStamp mLastMainThreadUpdate;
|
|
/**
|
|
* Number of active MediaInputPorts
|
|
*/
|
|
int32_t mPortCount;
|
|
|
|
/**
|
|
* Devices to use for cubeb input & output, or NULL for no input (void*),
|
|
* and boolean to control if we want input/output
|
|
*/
|
|
bool mInputWanted;
|
|
int mInputDeviceID;
|
|
bool mOutputWanted;
|
|
int mOutputDeviceID;
|
|
// Maps AudioDataListeners to a usecount of streams using the listener
|
|
// so we can know when it's no longer in use.
|
|
nsDataHashtable<nsPtrHashKey<AudioDataListener>, uint32_t> mInputDeviceUsers;
|
|
|
|
// True if the graph needs another iteration after the current iteration.
|
|
Atomic<bool> mNeedAnotherIteration;
|
|
// GraphDriver may need a WakeUp() if something changes
|
|
Atomic<bool> mGraphDriverAsleep;
|
|
|
|
// mMonitor guards the data below.
|
|
// MediaStreamGraph normally does its work without holding mMonitor, so it is
|
|
// not safe to just grab mMonitor from some thread and start monkeying with
|
|
// the graph. Instead, communicate with the graph thread using provided
|
|
// mechanisms such as the ControlMessage queue.
|
|
Monitor mMonitor;
|
|
|
|
// Data guarded by mMonitor (must always be accessed with mMonitor held,
|
|
// regardless of the value of mLifecycleState).
|
|
|
|
/**
|
|
* State to copy to main thread
|
|
*/
|
|
nsTArray<StreamUpdate> mStreamUpdates;
|
|
/**
|
|
* Runnables to run after the next update to main thread state.
|
|
*/
|
|
nsTArray<nsCOMPtr<nsIRunnable> > mUpdateRunnables;
|
|
/**
|
|
* A list of batches of messages to process. Each batch is processed
|
|
* as an atomic unit.
|
|
*/
|
|
/*
|
|
* Message queue processed by the MSG thread during an iteration.
|
|
* Accessed on graph thread only.
|
|
*/
|
|
nsTArray<MessageBlock> mFrontMessageQueue;
|
|
/*
|
|
* Message queue in which the main thread appends messages.
|
|
* Access guarded by mMonitor.
|
|
*/
|
|
nsTArray<MessageBlock> mBackMessageQueue;
|
|
|
|
/* True if there will messages to process if we swap the message queues. */
|
|
bool MessagesQueued() const
|
|
{
|
|
mMonitor.AssertCurrentThreadOwns();
|
|
return !mBackMessageQueue.IsEmpty();
|
|
}
|
|
/**
|
|
* This enum specifies where this graph is in its lifecycle. This is used
|
|
* to control shutdown.
|
|
* Shutdown is tricky because it can happen in two different ways:
|
|
* 1) Shutdown due to inactivity. RunThread() detects that it has no
|
|
* pending messages and no streams, and exits. The next RunInStableState()
|
|
* checks if there are new pending messages from the main thread (true only
|
|
* if new stream creation raced with shutdown); if there are, it revives
|
|
* RunThread(), otherwise it commits to shutting down the graph. New stream
|
|
* creation after this point will create a new graph. An async event is
|
|
* dispatched to Shutdown() the graph's threads and then delete the graph
|
|
* object.
|
|
* 2) Forced shutdown at application shutdown, or completion of a
|
|
* non-realtime graph. A flag is set, RunThread() detects the flag and
|
|
* exits, the next RunInStableState() detects the flag, and dispatches the
|
|
* async event to Shutdown() the graph's threads. However the graph object
|
|
* is not deleted. New messages for the graph are processed synchronously on
|
|
* the main thread if necessary. When the last stream is destroyed, the
|
|
* graph object is deleted.
|
|
*
|
|
* This should be kept in sync with the LifecycleState_str array in
|
|
* MediaStreamGraph.cpp
|
|
*/
|
|
enum LifecycleState
|
|
{
|
|
// The graph thread hasn't started yet.
|
|
LIFECYCLE_THREAD_NOT_STARTED,
|
|
// RunThread() is running normally.
|
|
LIFECYCLE_RUNNING,
|
|
// In the following states, the graph thread is not running so
|
|
// all "graph thread only" state in this class can be used safely
|
|
// on the main thread.
|
|
// RunThread() has exited and we're waiting for the next
|
|
// RunInStableState(), at which point we can clean up the main-thread
|
|
// side of the graph.
|
|
LIFECYCLE_WAITING_FOR_MAIN_THREAD_CLEANUP,
|
|
// RunInStableState() posted a ShutdownRunnable, and we're waiting for it
|
|
// to shut down the graph thread(s).
|
|
LIFECYCLE_WAITING_FOR_THREAD_SHUTDOWN,
|
|
// Graph threads have shut down but we're waiting for remaining streams
|
|
// to be destroyed. Only happens during application shutdown and on
|
|
// completed non-realtime graphs, since normally we'd only shut down a
|
|
// realtime graph when it has no streams.
|
|
LIFECYCLE_WAITING_FOR_STREAM_DESTRUCTION
|
|
};
|
|
/**
|
|
* Modified only on the main thread in mMonitor.
|
|
*/
|
|
LifecycleState mLifecycleState;
|
|
/**
|
|
* The graph should stop processing at or after this time.
|
|
*/
|
|
GraphTime mEndTime;
|
|
|
|
/**
|
|
* True when we need to do a forced shutdown during application shutdown.
|
|
*/
|
|
bool mForceShutDown;
|
|
|
|
/**
|
|
* Drop this reference during shutdown to unblock shutdown.
|
|
**/
|
|
RefPtr<media::ShutdownTicket> mForceShutdownTicket;
|
|
|
|
/**
|
|
* True when we have posted an event to the main thread to run
|
|
* RunInStableState() and the event hasn't run yet.
|
|
*/
|
|
bool mPostedRunInStableStateEvent;
|
|
|
|
// Main thread only
|
|
|
|
/**
|
|
* Messages posted by the current event loop task. These are forwarded to
|
|
* the media graph thread during RunInStableState. We can't forward them
|
|
* immediately because we want all messages between stable states to be
|
|
* processed as an atomic batch.
|
|
*/
|
|
nsTArray<UniquePtr<ControlMessage>> mCurrentTaskMessageQueue;
|
|
/**
|
|
* True when RunInStableState has determined that mLifecycleState is >
|
|
* LIFECYCLE_RUNNING. Since only the main thread can reset mLifecycleState to
|
|
* LIFECYCLE_RUNNING, this can be relied on to not change unexpectedly.
|
|
*/
|
|
bool mDetectedNotRunning;
|
|
/**
|
|
* True when a stable state runner has been posted to the appshell to run
|
|
* RunInStableState at the next stable state.
|
|
*/
|
|
bool mPostedRunInStableState;
|
|
/**
|
|
* True when processing real-time audio/video. False when processing non-realtime
|
|
* audio.
|
|
*/
|
|
bool mRealtime;
|
|
/**
|
|
* True when a non-realtime MediaStreamGraph has started to process input. This
|
|
* value is only accessed on the main thread.
|
|
*/
|
|
bool mNonRealtimeProcessing;
|
|
/**
|
|
* True when a change has happened which requires us to recompute the stream
|
|
* blocking order.
|
|
*/
|
|
bool mStreamOrderDirty;
|
|
/**
|
|
* Hold a ref to the Latency logger
|
|
*/
|
|
RefPtr<AsyncLatencyLogger> mLatencyLog;
|
|
AudioMixer mMixer;
|
|
const RefPtr<AbstractThread> mAbstractMainThread;
|
|
#ifdef MOZ_WEBRTC
|
|
RefPtr<AudioOutputObserver> mFarendObserverRef;
|
|
#endif
|
|
|
|
// used to limit graph shutdown time
|
|
nsCOMPtr<nsITimer> mShutdownTimer;
|
|
|
|
private:
|
|
virtual ~MediaStreamGraphImpl();
|
|
|
|
MOZ_DEFINE_MALLOC_SIZE_OF(MallocSizeOf)
|
|
|
|
/**
|
|
* This class uses manual memory management, and all pointers to it are raw
|
|
* pointers. However, in order for it to implement nsIMemoryReporter, it needs
|
|
* to implement nsISupports and so be ref-counted. So it maintains a single
|
|
* nsRefPtr to itself, giving it a ref-count of 1 during its entire lifetime,
|
|
* and Destroy() nulls this self-reference in order to trigger self-deletion.
|
|
*/
|
|
RefPtr<MediaStreamGraphImpl> mSelfRef;
|
|
|
|
struct WindowAndStream
|
|
{
|
|
uint64_t mWindowId;
|
|
RefPtr<ProcessedMediaStream> mCaptureStreamSink;
|
|
};
|
|
/**
|
|
* Stream for window audio capture.
|
|
*/
|
|
nsTArray<WindowAndStream> mWindowCaptureStreams;
|
|
|
|
/**
|
|
* Number of channels on output.
|
|
*/
|
|
const uint32_t mOutputChannels;
|
|
|
|
#ifdef DEBUG
|
|
/**
|
|
* Used to assert when AppendMessage() runs ControlMessages synchronously.
|
|
*/
|
|
bool mCanRunMessagesSynchronously;
|
|
#endif
|
|
};
|
|
|
|
} // namespace mozilla
|
|
|
|
#endif /* MEDIASTREAMGRAPHIMPL_H_ */
|