gecko-dev/content/media/AudioStream.h

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/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim:set ts=2 sw=2 sts=2 et cindent: */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#if !defined(AudioStream_h_)
#define AudioStream_h_
#include "AudioSampleFormat.h"
#include "AudioChannelCommon.h"
#include "nsAutoPtr.h"
#include "nsAutoRef.h"
#include "nsCOMPtr.h"
#include "Latency.h"
#include "mozilla/StaticMutex.h"
#include "cubeb/cubeb.h"
template <>
class nsAutoRefTraits<cubeb_stream> : public nsPointerRefTraits<cubeb_stream>
{
public:
static void Release(cubeb_stream* aStream) { cubeb_stream_destroy(aStream); }
};
namespace soundtouch {
class SoundTouch;
}
namespace mozilla {
class AudioStream;
class AudioClock
{
public:
AudioClock(AudioStream* aStream);
// Initialize the clock with the current AudioStream. Need to be called
// before querying the clock. Called on the audio thread.
void Init();
// Update the number of samples that has been written in the audio backend.
// Called on the state machine thread.
void UpdateWritePosition(uint32_t aCount);
// Get the read position of the stream, in microseconds.
// Called on the state machine thead.
uint64_t GetPosition();
// Get the read position of the stream, in frames.
// Called on the state machine thead.
uint64_t GetPositionInFrames();
// Set the playback rate.
// Called on the audio thread.
void SetPlaybackRate(double aPlaybackRate);
// Get the current playback rate.
// Called on the audio thread.
double GetPlaybackRate();
// Set if we are preserving the pitch.
// Called on the audio thread.
void SetPreservesPitch(bool aPreservesPitch);
// Get the current pitch preservation state.
// Called on the audio thread.
bool GetPreservesPitch();
// Get the number of frames written to the backend.
int64_t GetWritten();
private:
// This AudioStream holds a strong reference to this AudioClock. This
// pointer is garanteed to always be valid.
AudioStream* mAudioStream;
// The old output rate, to compensate audio latency for the period inbetween
// the moment resampled buffers are pushed to the hardware and the moment the
// clock should take the new rate into account for A/V sync.
int mOldOutRate;
// Position at which the last playback rate change occured
int64_t mBasePosition;
// Offset, in frames, at which the last playback rate change occured
int64_t mBaseOffset;
// Old base offset (number of samples), used when changing rate to compute the
// position in the stream.
int64_t mOldBaseOffset;
// Old base position (number of microseconds), when changing rate. This is the
// time in the media, not wall clock position.
int64_t mOldBasePosition;
// Write position at which the playbackRate change occured.
int64_t mPlaybackRateChangeOffset;
// The previous position reached in the media, used when compensating
// latency, to have the position at which the playbackRate change occured.
int64_t mPreviousPosition;
// Number of samples effectivelly written in backend, i.e. write position.
int64_t mWritten;
// Output rate in Hz (characteristic of the playback rate)
int mOutRate;
// Input rate in Hz (characteristic of the media being played)
int mInRate;
// True if the we are timestretching, false if we are resampling.
bool mPreservesPitch;
// True if we are playing at the old playbackRate after it has been changed.
bool mCompensatingLatency;
};
class CircularByteBuffer
{
public:
CircularByteBuffer()
: mBuffer(nullptr), mCapacity(0), mStart(0), mCount(0)
{}
// Set the capacity of the buffer in bytes. Must be called before any
// call to append or pop elements.
void SetCapacity(uint32_t aCapacity) {
NS_ABORT_IF_FALSE(!mBuffer, "Buffer allocated.");
mCapacity = aCapacity;
mBuffer = new uint8_t[mCapacity];
}
uint32_t Length() {
return mCount;
}
uint32_t Capacity() {
return mCapacity;
}
uint32_t Available() {
return Capacity() - Length();
}
// Append aLength bytes from aSrc to the buffer. Caller must check that
// sufficient space is available.
void AppendElements(const uint8_t* aSrc, uint32_t aLength) {
NS_ABORT_IF_FALSE(mBuffer && mCapacity, "Buffer not initialized.");
NS_ABORT_IF_FALSE(aLength <= Available(), "Buffer full.");
uint32_t end = (mStart + mCount) % mCapacity;
uint32_t toCopy = std::min(mCapacity - end, aLength);
memcpy(&mBuffer[end], aSrc, toCopy);
memcpy(&mBuffer[0], aSrc + toCopy, aLength - toCopy);
mCount += aLength;
}
// Remove aSize bytes from the buffer. Caller must check returned size in
// aSize{1,2} before using the pointer returned in aData{1,2}. Caller
// must not specify an aSize larger than Length().
void PopElements(uint32_t aSize, void** aData1, uint32_t* aSize1,
void** aData2, uint32_t* aSize2) {
NS_ABORT_IF_FALSE(mBuffer && mCapacity, "Buffer not initialized.");
NS_ABORT_IF_FALSE(aSize <= Length(), "Request too large.");
*aData1 = &mBuffer[mStart];
*aSize1 = std::min(mCapacity - mStart, aSize);
*aData2 = &mBuffer[0];
*aSize2 = aSize - *aSize1;
mCount -= *aSize1 + *aSize2;
mStart += *aSize1 + *aSize2;
mStart %= mCapacity;
}
private:
nsAutoArrayPtr<uint8_t> mBuffer;
uint32_t mCapacity;
uint32_t mStart;
uint32_t mCount;
};
// Access to a single instance of this class must be synchronized by
// callers, or made from a single thread. One exception is that access to
// GetPosition, GetPositionInFrames, SetVolume, and Get{Rate,Channels}
// is thread-safe without external synchronization.
class AudioStream MOZ_FINAL
{
public:
// Initialize Audio Library. Some Audio backends require initializing the
// library before using it.
static void InitLibrary();
// Shutdown Audio Library. Some Audio backends require shutting down the
// library after using it.
static void ShutdownLibrary();
// Returns the maximum number of channels supported by the audio hardware.
static int MaxNumberOfChannels();
static void InitPreferredSampleRate();
// Returns the samplerate the systems prefer, because it is the
// samplerate the hardware/mixer supports.
static int PreferredSampleRate() {
MOZ_ASSERT(sPreferredSampleRate);
return sPreferredSampleRate;
}
AudioStream();
~AudioStream();
enum LatencyRequest {
HighLatency,
LowLatency
};
// Initialize the audio stream. aNumChannels is the number of audio
// channels (1 for mono, 2 for stereo, etc) and aRate is the sample rate
// (22050Hz, 44100Hz, etc).
nsresult Init(int32_t aNumChannels, int32_t aRate,
const dom::AudioChannelType aAudioStreamType,
LatencyRequest aLatencyRequest);
// Closes the stream. All future use of the stream is an error.
void Shutdown();
// Write audio data to the audio hardware. aBuf is an array of AudioDataValues
// AudioDataValue of length aFrames*mChannels. If aFrames is larger
// than the result of Available(), the write will block until sufficient
// buffer space is available. aTime is the time in ms associated with the first sample
// for latency calculations
nsresult Write(const AudioDataValue* aBuf, uint32_t aFrames, TimeStamp* aTime = nullptr);
// Return the number of audio frames that can be written without blocking.
uint32_t Available();
// Set the current volume of the audio playback. This is a value from
// 0 (meaning muted) to 1 (meaning full volume). Thread-safe.
void SetVolume(double aVolume);
// Block until buffered audio data has been consumed.
void Drain();
// Start the stream.
void Start();
// Return the number of frames written so far in the stream. This allow the
// caller to check if it is safe to start the stream, if needed.
int64_t GetWritten();
// Pause audio playback.
void Pause();
// Resume audio playback.
void Resume();
// Return the position in microseconds of the audio frame being played by
// the audio hardware, compensated for playback rate change. Thread-safe.
int64_t GetPosition();
// Return the position, measured in audio frames played since the stream
// was opened, of the audio hardware. Thread-safe.
int64_t GetPositionInFrames();
// Return the position, measured in audio framed played since the stream was
// opened, of the audio hardware, not adjusted for the changes of playback
// rate.
int64_t GetPositionInFramesInternal();
// Returns true when the audio stream is paused.
bool IsPaused();
int GetRate() { return mOutRate; }
int GetChannels() { return mChannels; }
// This should be called before attempting to use the time stretcher.
nsresult EnsureTimeStretcherInitialized();
// Set playback rate as a multiple of the intrinsic playback rate. This is to
// be called only with aPlaybackRate > 0.0.
nsresult SetPlaybackRate(double aPlaybackRate);
// Switch between resampling (if false) and time stretching (if true, default).
nsresult SetPreservesPitch(bool aPreservesPitch);
private:
static int PrefChanged(const char* aPref, void* aClosure);
static double GetVolumeScale();
static cubeb* GetCubebContext();
static cubeb* GetCubebContextUnlocked();
static uint32_t GetCubebLatency();
static bool CubebLatencyPrefSet();
static long DataCallback_S(cubeb_stream*, void* aThis, void* aBuffer, long aFrames)
{
return static_cast<AudioStream*>(aThis)->DataCallback(aBuffer, aFrames);
}
static void StateCallback_S(cubeb_stream*, void* aThis, cubeb_state aState)
{
static_cast<AudioStream*>(aThis)->StateCallback(aState);
}
long DataCallback(void* aBuffer, long aFrames);
void StateCallback(cubeb_state aState);
nsresult EnsureTimeStretcherInitializedUnlocked();
// aTime is the time in ms the samples were inserted into MediaStreamGraph
long GetUnprocessed(void* aBuffer, long aFrames, int64_t &aTime);
long GetTimeStretched(void* aBuffer, long aFrames, int64_t &aTime);
long GetUnprocessedWithSilencePadding(void* aBuffer, long aFrames, int64_t &aTime);
// Shared implementation of underflow adjusted position calculation.
// Caller must own the monitor.
int64_t GetPositionInFramesUnlocked();
int64_t GetLatencyInFrames();
void GetBufferInsertTime(int64_t &aTimeMs);
void StartUnlocked();
// The monitor is held to protect all access to member variables. Write()
// waits while mBuffer is full; DataCallback() notifies as it consumes
// data from mBuffer. Drain() waits while mState is DRAINING;
// StateCallback() notifies when mState is DRAINED.
Monitor mMonitor;
// Input rate in Hz (characteristic of the media being played)
int mInRate;
// Output rate in Hz (characteristic of the playback rate)
int mOutRate;
int mChannels;
// Number of frames written to the buffers.
int64_t mWritten;
AudioClock mAudioClock;
nsAutoPtr<soundtouch::SoundTouch> mTimeStretcher;
nsRefPtr<AsyncLatencyLogger> mLatencyLog;
// copy of Latency logger's starting time for offset calculations
TimeStamp mStartTime;
// Whether we are playing a low latency stream, or a normal stream.
LatencyRequest mLatencyRequest;
// Where in the current mInserts[0] block cubeb has read to
int64_t mReadPoint;
// Keep track of each inserted block of samples and the time it was inserted
// so we can estimate the clock time for a specific sample's insertion (for when
// we send data to cubeb). Blocks are aged out as needed.
struct Inserts {
int64_t mTimeMs;
int64_t mFrames;
};
nsAutoTArray<Inserts, 8> mInserts;
// Sum of silent frames written when DataCallback requests more frames
// than are available in mBuffer.
uint64_t mLostFrames;
// Output file for dumping audio
FILE* mDumpFile;
// Temporary audio buffer. Filled by Write() and consumed by
// DataCallback(). Once mBuffer is full, Write() blocks until sufficient
// space becomes available in mBuffer. mBuffer is sized in bytes, not
// frames.
CircularByteBuffer mBuffer;
// Software volume level. Applied during the servicing of DataCallback().
double mVolume;
// Owning reference to a cubeb_stream. cubeb_stream_destroy is called by
// nsAutoRef's destructor.
nsAutoRef<cubeb_stream> mCubebStream;
uint32_t mBytesPerFrame;
uint32_t BytesToFrames(uint32_t aBytes) {
NS_ASSERTION(aBytes % mBytesPerFrame == 0,
"Byte count not aligned on frames size.");
return aBytes / mBytesPerFrame;
}
uint32_t FramesToBytes(uint32_t aFrames) {
return aFrames * mBytesPerFrame;
}
enum StreamState {
INITIALIZED, // Initialized, playback has not begun.
STARTED, // Started by a call to Write() (iff INITIALIZED) or Resume().
STOPPED, // Stopped by a call to Pause().
DRAINING, // Drain requested. DataCallback will indicate end of stream
// once the remaining contents of mBuffer are requested by
// cubeb, after which StateCallback will indicate drain
// completion.
DRAINED, // StateCallback has indicated that the drain is complete.
ERRORED // Stream disabled due to an internal error.
};
StreamState mState;
// Prefered samplerate, in Hz (characteristic of the
// hardware/mixer/platform/API used).
static uint32_t sPreferredSampleRate;
// This mutex protects the static members below
static StaticMutex sMutex;
static cubeb* sCubebContext;
static double sVolumeScale;
static uint32_t sCubebLatency;
static bool sCubebLatencyPrefSet;
};
} // namespace mozilla
#endif