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https://github.com/mozilla/gecko-dev.git
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3668b5d165
I still want to assert in the method instead of making it a no-op because I'm going to work on AudioContext sleep and wakeup soon, and this will catch errors. --HG-- extra : rebase_source : dd5ea81c6c2c3eb85c89b95995bc436ed840b979
514 lines
18 KiB
C++
514 lines
18 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 GRAPHDRIVER_H_
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#define GRAPHDRIVER_H_
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#include "nsAutoPtr.h"
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#include "nsAutoRef.h"
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#include "AudioBufferUtils.h"
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#include "AudioMixer.h"
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#include "AudioSegment.h"
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#include "mozilla/Atomics.h"
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struct cubeb_stream;
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template <>
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class nsAutoRefTraits<cubeb_stream> : public nsPointerRefTraits<cubeb_stream>
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{
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public:
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static void Release(cubeb_stream* aStream) { cubeb_stream_destroy(aStream); }
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};
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namespace mozilla {
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/**
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* Assume we can run an iteration of the MediaStreamGraph loop in this much time
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* or less.
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* We try to run the control loop at this rate.
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*/
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static const int MEDIA_GRAPH_TARGET_PERIOD_MS = 10;
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/**
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* Assume that we might miss our scheduled wakeup of the MediaStreamGraph by
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* this much.
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*/
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static const int SCHEDULE_SAFETY_MARGIN_MS = 10;
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/**
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* Try have this much audio buffered in streams and queued to the hardware.
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* The maximum delay to the end of the next control loop
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* is 2*MEDIA_GRAPH_TARGET_PERIOD_MS + SCHEDULE_SAFETY_MARGIN_MS.
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* There is no point in buffering more audio than this in a stream at any
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* given time (until we add processing).
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* This is not optimal yet.
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*/
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static const int AUDIO_TARGET_MS = 2*MEDIA_GRAPH_TARGET_PERIOD_MS +
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SCHEDULE_SAFETY_MARGIN_MS;
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/**
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* Try have this much video buffered. Video frames are set
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* near the end of the iteration of the control loop. The maximum delay
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* to the setting of the next video frame is 2*MEDIA_GRAPH_TARGET_PERIOD_MS +
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* SCHEDULE_SAFETY_MARGIN_MS. This is not optimal yet.
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*/
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static const int VIDEO_TARGET_MS = 2*MEDIA_GRAPH_TARGET_PERIOD_MS +
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SCHEDULE_SAFETY_MARGIN_MS;
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class MediaStreamGraphImpl;
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class MessageBlock;
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/**
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* Microseconds relative to the start of the graph timeline.
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*/
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typedef int64_t GraphTime;
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const GraphTime GRAPH_TIME_MAX = MEDIA_TIME_MAX;
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class AudioCallbackDriver;
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class OfflineClockDriver;
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/**
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* A driver is responsible for the scheduling of the processing, the thread
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* management, and give the different clocks to a MediaStreamGraph. This is an
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* abstract base class. A MediaStreamGraph can be driven by an
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* OfflineClockDriver, if the graph is offline, or a SystemClockDriver, if the
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* graph is real time.
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* A MediaStreamGraph holds an owning reference to its driver.
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*/
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class GraphDriver
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{
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public:
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explicit GraphDriver(MediaStreamGraphImpl* aGraphImpl);
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NS_INLINE_DECL_THREADSAFE_REFCOUNTING(GraphDriver);
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/* When the graph wakes up to do an iteration, this returns the range of time
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* that will be processed. */
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virtual void GetIntervalForIteration(GraphTime& aFrom,
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GraphTime& aTo) = 0;
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/* Returns the current time for this graph. This is the end of the current
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* iteration. */
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virtual GraphTime GetCurrentTime() = 0;
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/* For real-time graphs, this waits until it's time to process more data. For
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* offline graphs, this is a no-op. */
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virtual void WaitForNextIteration() = 0;
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/* Wakes up the graph if it is waiting. */
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virtual void WakeUp() = 0;
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virtual void Destroy() {}
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/* Start the graph, init the driver, start the thread. */
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virtual void Start() = 0;
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/* Stop the graph, shutting down the thread. */
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virtual void Stop() = 0;
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/* Resume after a stop */
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virtual void Resume() = 0;
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/* Revive this driver, as more messages just arrived. */
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virtual void Revive() = 0;
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void Shutdown();
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/* Rate at which the GraphDriver runs, in ms. This can either be user
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* controlled (because we are using a {System,Offline}ClockDriver, and decide
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* how often we want to wakeup/how much we want to process per iteration), or
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* it can be indirectly set by the latency of the audio backend, and the
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* number of buffers of this audio backend: say we have four buffers, and 40ms
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* latency, we will get a callback approximately every 10ms. */
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virtual uint32_t IterationDuration() = 0;
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/* Return whether we are switching or not. */
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bool Switching() {
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return mNextDriver || mPreviousDriver;
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}
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/**
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* If we are running a real time graph, get the current time stamp to schedule
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* video frames. This has to be reimplemented by real time drivers.
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*/
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virtual TimeStamp GetCurrentTimeStamp() {
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return mCurrentTimeStamp;
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}
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bool IsWaiting() {
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return mWaitState == WAITSTATE_WAITING_INDEFINITELY ||
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mWaitState == WAITSTATE_WAITING_FOR_NEXT_ITERATION;
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}
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bool IsWaitingIndefinitly() {
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return mWaitState == WAITSTATE_WAITING_INDEFINITELY;
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}
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GraphTime IterationStart() {
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return mIterationStart;
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}
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GraphTime IterationEnd() {
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return mIterationEnd;
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}
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GraphTime StateComputedTime() {
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return mStateComputedTime;
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}
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virtual void GetAudioBuffer(float** aBuffer, long& aFrames) {
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MOZ_CRASH("This is not an Audio GraphDriver!");
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}
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virtual AudioCallbackDriver* AsAudioCallbackDriver() {
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return nullptr;
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}
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virtual OfflineClockDriver* AsOfflineClockDriver() {
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return nullptr;
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}
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/**
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* Tell the driver it has to stop and return the current time of the graph, so
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* another driver can start from the right point in time.
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*/
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virtual void SwitchAtNextIteration(GraphDriver* aDriver);
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/**
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* Set the time for a graph, on a driver. This is used so a new driver just
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* created can start at the right point in time.
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*/
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void SetGraphTime(GraphDriver* aPreviousDriver,
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GraphTime aLastSwitchNextIterationStart,
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GraphTime aLastSwitchNextIterationEnd,
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GraphTime aLastSwitchNextStateComputedTime,
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GraphTime aLastSwitchStateComputedTime);
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/**
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* Whenever the graph has computed the time until it has all state
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* (mStateComputedState), it calls this to indicate the new time until which
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* we have computed state.
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*/
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void UpdateStateComputedTime(GraphTime aStateComputedTime);
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/**
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* Call this to indicate that another iteration of the control loop is
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* required immediately. The monitor must already be held.
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*/
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void EnsureImmediateWakeUpLocked();
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/**
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* Call this to indicate that another iteration of the control loop is
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* required on its regular schedule. The monitor must not be held.
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* This function has to be idempotent.
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*/
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void EnsureNextIteration();
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/**
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* Same thing, but not locked.
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*/
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void EnsureNextIterationLocked();
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MediaStreamGraphImpl* GraphImpl() {
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return mGraphImpl;
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}
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virtual bool OnThread() = 0;
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protected:
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// Time of the start of this graph iteration.
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GraphTime mIterationStart;
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// Time of the end of this graph iteration.
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GraphTime mIterationEnd;
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// Time, in the future, for which blocking has been computed.
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GraphTime mStateComputedTime;
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GraphTime mNextStateComputedTime;
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// The MediaStreamGraphImpl that owns this driver. This has a lifetime longer
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// than the driver, and will never be null.
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MediaStreamGraphImpl* mGraphImpl;
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// This enum specifies the wait state of the driver.
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enum WaitState {
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// RunThread() is running normally
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WAITSTATE_RUNNING,
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// RunThread() is paused waiting for its next iteration, which will
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// happen soon
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WAITSTATE_WAITING_FOR_NEXT_ITERATION,
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// RunThread() is paused indefinitely waiting for something to change
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WAITSTATE_WAITING_INDEFINITELY,
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// Something has signaled RunThread() to wake up immediately,
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// but it hasn't done so yet
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WAITSTATE_WAKING_UP
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};
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WaitState mWaitState;
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TimeStamp mCurrentTimeStamp;
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// This is non-null only when this driver has recently switched from an other
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// driver, and has not cleaned it up yet (for example because the audio stream
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// is currently calling the callback during initialization).
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nsRefPtr<GraphDriver> mPreviousDriver;
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// This is non-null only when this driver is going to switch to an other
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// driver at the end of this iteration.
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nsRefPtr<GraphDriver> mNextDriver;
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virtual ~GraphDriver()
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{ }
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};
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class MediaStreamGraphInitThreadRunnable;
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/**
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* This class is a driver that manages its own thread.
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*/
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class ThreadedDriver : public GraphDriver
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{
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public:
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explicit ThreadedDriver(MediaStreamGraphImpl* aGraphImpl);
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virtual ~ThreadedDriver();
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virtual void Start() MOZ_OVERRIDE;
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virtual void Stop() MOZ_OVERRIDE;
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virtual void Resume() MOZ_OVERRIDE;
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virtual void Revive() MOZ_OVERRIDE;
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/**
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* Runs main control loop on the graph thread. Normally a single invocation
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* of this runs for the entire lifetime of the graph thread.
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*/
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void RunThread();
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friend class MediaStreamGraphInitThreadRunnable;
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uint32_t IterationDuration() {
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return MEDIA_GRAPH_TARGET_PERIOD_MS;
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}
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virtual bool OnThread() MOZ_OVERRIDE { return !mThread || NS_GetCurrentThread() == mThread; }
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protected:
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nsCOMPtr<nsIThread> mThread;
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};
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/**
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* A SystemClockDriver drives a MediaStreamGraph using a system clock, and waits
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* using a monitor, between each iteration.
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*/
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class SystemClockDriver : public ThreadedDriver
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{
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public:
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explicit SystemClockDriver(MediaStreamGraphImpl* aGraphImpl);
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virtual ~SystemClockDriver();
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virtual void GetIntervalForIteration(GraphTime& aFrom,
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GraphTime& aTo) MOZ_OVERRIDE;
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virtual GraphTime GetCurrentTime() MOZ_OVERRIDE;
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virtual void WaitForNextIteration() MOZ_OVERRIDE;
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virtual void WakeUp() MOZ_OVERRIDE;
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private:
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TimeStamp mInitialTimeStamp;
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TimeStamp mLastTimeStamp;
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};
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/**
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* An OfflineClockDriver runs the graph as fast as possible, without waiting
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* between iteration.
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*/
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class OfflineClockDriver : public ThreadedDriver
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{
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public:
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OfflineClockDriver(MediaStreamGraphImpl* aGraphImpl, GraphTime aSlice);
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virtual ~OfflineClockDriver();
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virtual void GetIntervalForIteration(GraphTime& aFrom,
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GraphTime& aTo) MOZ_OVERRIDE;
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virtual GraphTime GetCurrentTime() MOZ_OVERRIDE;
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virtual void WaitForNextIteration() MOZ_OVERRIDE;
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virtual void WakeUp() MOZ_OVERRIDE;
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virtual TimeStamp GetCurrentTimeStamp() MOZ_OVERRIDE;
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virtual OfflineClockDriver* AsOfflineClockDriver() {
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return this;
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}
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private:
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// Time, in GraphTime, for each iteration
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GraphTime mSlice;
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};
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/**
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* This is a graph driver that is based on callback functions called by the
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* audio api. This ensures minimal audio latency, because it means there is no
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* buffering happening: the audio is generated inside the callback.
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*
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* This design is less flexible than running our own thread:
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* - We have no control over the thread:
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* - It cannot block, and it has to run for a shorter amount of time than the
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* buffer it is going to fill, or an under-run is going to occur (short burst
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* of silence in the final audio output).
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* - We can't know for sure when the callback function is going to be called
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* (although we compute an estimation so we can schedule video frames)
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* - Creating and shutting the thread down is a blocking operation, that can
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* take _seconds_ in some cases (because IPC has to be set up, and
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* sometimes hardware components are involved and need to be warmed up)
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* - We have no control on how much audio we generate, we have to return exactly
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* the number of frames asked for by the callback. Since for the Web Audio
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* API, we have to do block processing at 128 frames per block, we need to
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* keep a little spill buffer to store the extra frames.
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*/
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class AudioCallbackDriver : public GraphDriver,
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public MixerCallbackReceiver
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{
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public:
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explicit AudioCallbackDriver(MediaStreamGraphImpl* aGraphImpl,
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dom::AudioChannel aChannel = dom::AudioChannel::Normal);
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virtual ~AudioCallbackDriver();
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virtual void Destroy() MOZ_OVERRIDE;
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virtual void Start() MOZ_OVERRIDE;
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virtual void Stop() MOZ_OVERRIDE;
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virtual void Resume() MOZ_OVERRIDE;
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virtual void Revive() MOZ_OVERRIDE;
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virtual void GetIntervalForIteration(GraphTime& aFrom,
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GraphTime& aTo) MOZ_OVERRIDE;
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virtual GraphTime GetCurrentTime() MOZ_OVERRIDE;
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virtual void WaitForNextIteration() MOZ_OVERRIDE;
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virtual void WakeUp() MOZ_OVERRIDE;
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/* Static wrapper function cubeb calls back. */
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static long DataCallback_s(cubeb_stream * aStream,
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void * aUser, void * aBuffer,
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long aFrames);
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static void StateCallback_s(cubeb_stream* aStream, void * aUser,
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cubeb_state aState);
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static void DeviceChangedCallback_s(void * aUser);
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/* This function is called by the underlying audio backend when a refill is
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* needed. This is what drives the whole graph when it is used to output
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* audio. If the return value is exactly aFrames, this function will get
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* called again. If it is less than aFrames, the stream will go in draining
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* mode, and this function will not be called again. */
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long DataCallback(AudioDataValue* aBuffer, long aFrames);
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/* This function is called by the underlying audio backend, but is only used
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* for informational purposes at the moment. */
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void StateCallback(cubeb_state aState);
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/* This is an approximation of the number of millisecond there are between two
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* iterations of the graph. */
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uint32_t IterationDuration();
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/* This function gets called when the graph has produced the audio frames for
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* this iteration. */
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virtual void MixerCallback(AudioDataValue* aMixedBuffer,
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AudioSampleFormat aFormat,
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uint32_t aChannels,
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uint32_t aFrames,
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uint32_t aSampleRate) MOZ_OVERRIDE;
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virtual AudioCallbackDriver* AsAudioCallbackDriver() {
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return this;
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}
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/**
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* Whether the audio callback is processing. This is for asserting only.
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*/
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bool InCallback();
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virtual bool OnThread() MOZ_OVERRIDE { return !mStarted || InCallback(); }
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/* Whether the underlying cubeb stream has been started. See comment for
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* mStarted for details. */
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bool IsStarted();
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/* Tell the driver whether this process is using a microphone or not. This is
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* thread safe. */
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void SetMicrophoneActive(bool aActive);
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private:
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/**
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* On certain MacBookPro, the microphone is located near the left speaker.
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* We need to pan the sound output to the right speaker if we are using the
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* mic and the built-in speaker, or we will have terrible echo. */
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void PanOutputIfNeeded(bool aMicrophoneActive);
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/**
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* This is called when the output device used by the cubeb stream changes. */
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void DeviceChangedCallback();
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/* Start the cubeb stream */
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void StartStream();
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friend class AsyncCubebTask;
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void Init();
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/* MediaStreamGraphs are always down/up mixed to stereo for now. */
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static const uint32_t ChannelCount = 2;
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/* The size of this buffer comes from the fact that some audio backends can
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* call back with a number of frames lower than one block (128 frames), so we
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* need to keep at most two block in the SpillBuffer, because we always round
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* up to block boundaries during an iteration. */
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SpillBuffer<AudioDataValue, WEBAUDIO_BLOCK_SIZE * 2, ChannelCount> mScratchBuffer;
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/* Wrapper to ensure we write exactly the number of frames we need in the
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* audio buffer cubeb passes us. */
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AudioCallbackBufferWrapper<AudioDataValue, ChannelCount> mBuffer;
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/* cubeb stream for this graph. This is guaranteed to be non-null after Init()
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* has been called. */
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nsAutoRef<cubeb_stream> mAudioStream;
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/* The sample rate for the aforementionned cubeb stream. */
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uint32_t mSampleRate;
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/* Approximation of the time between two callbacks. This is used to schedule
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* video frames. This is in milliseconds. */
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uint32_t mIterationDurationMS;
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/* cubeb_stream_init calls the audio callback to prefill the buffers. The
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* previous driver has to be kept alive until the audio stream has been
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* started, because it is responsible to call cubeb_stream_start, so we delay
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* the cleanup of the previous driver until it has started the audio stream.
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* Otherwise, there is a race where we kill the previous driver thread
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* between cubeb_stream_init and cubeb_stream_start,
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* and callbacks after the prefill never get called.
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* This is written on the previous driver's thread (if switching) or main
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* thread (if this driver is the first one).
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* This is read on previous driver's thread (during callbacks from
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* cubeb_stream_init) and the audio thread (when switching away from this
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* driver back to a SystemClockDriver).
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* This is synchronized by the Graph's monitor.
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* */
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bool mStarted;
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struct AutoInCallback
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{
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explicit AutoInCallback(AudioCallbackDriver* aDriver);
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~AutoInCallback();
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AudioCallbackDriver* mDriver;
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};
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/* Thread for off-main-thread initialization and
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* shutdown of the audio stream. */
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nsCOMPtr<nsIThread> mInitShutdownThread;
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dom::AudioChannel mAudioChannel;
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Atomic<bool> mInCallback;
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/* A thread has been created to be able to pause and restart the audio thread,
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* but has not done so yet. This indicates that the callback should return
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* early */
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bool mPauseRequested;
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/**
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* True if microphone is being used by this process. This is synchronized by
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* the graph's monitor. */
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bool mMicrophoneActive;
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};
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class AsyncCubebTask : public nsRunnable
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{
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public:
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enum AsyncCubebOperation {
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INIT,
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SHUTDOWN,
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SLEEP
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};
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AsyncCubebTask(AudioCallbackDriver* aDriver, AsyncCubebOperation aOperation);
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nsresult Dispatch()
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{
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// Can't add 'this' as the event to run, since mThread may not be set yet
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nsresult rv = NS_NewNamedThread("CubebOperation", getter_AddRefs(mThread));
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if (NS_SUCCEEDED(rv)) {
|
|
// Note: event must not null out mThread!
|
|
rv = mThread->Dispatch(this, NS_DISPATCH_NORMAL);
|
|
}
|
|
return rv;
|
|
}
|
|
|
|
protected:
|
|
virtual ~AsyncCubebTask();
|
|
|
|
private:
|
|
NS_IMETHOD Run() MOZ_OVERRIDE MOZ_FINAL;
|
|
nsCOMPtr<nsIThread> mThread;
|
|
nsRefPtr<AudioCallbackDriver> mDriver;
|
|
AsyncCubebOperation mOperation;
|
|
nsRefPtr<MediaStreamGraphImpl> mShutdownGrip;
|
|
};
|
|
|
|
}
|
|
|
|
#endif // GRAPHDRIVER_H_
|