gecko/dom/media/omx/MediaCodecReader.h

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13 KiB
C++

/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim:set ts=2 sw=2 sts=2 et cindent: */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#ifndef MEDIA_CODEC_READER_H
#define MEDIA_CODEC_READER_H
#include <utils/threads.h>
#include <base/message_loop.h>
#include <mozilla/CheckedInt.h>
#include <mozilla/Mutex.h>
#include <mozilla/Monitor.h>
#include <nsDataHashtable.h>
#include "MediaData.h"
#include "I420ColorConverterHelper.h"
#include "MediaCodecProxy.h"
#include "MediaOmxCommonReader.h"
namespace android {
struct ALooper;
struct AMessage;
class MOZ_EXPORT MediaExtractor;
class MOZ_EXPORT MetaData;
class MOZ_EXPORT MediaBuffer;
struct MOZ_EXPORT MediaSource;
class GonkNativeWindow;
} // namespace android
namespace mozilla {
class MediaTaskQueue;
class MP3FrameParser;
namespace layers {
class TextureClient;
} // namespace mozilla::layers
class MediaCodecReader : public MediaOmxCommonReader
{
typedef mozilla::layers::TextureClient TextureClient;
public:
MediaCodecReader(AbstractMediaDecoder* aDecoder);
virtual ~MediaCodecReader();
// Initializes the reader, returns NS_OK on success, or NS_ERROR_FAILURE
// on failure.
virtual nsresult Init(MediaDecoderReader* aCloneDonor);
// True if this reader is waiting media resource allocation
virtual bool IsWaitingMediaResources();
// True when this reader need to become dormant state
virtual bool IsDormantNeeded();
// Release media resources they should be released in dormant state
virtual void ReleaseMediaResources();
// Destroys the decoding state. The reader cannot be made usable again.
// This is different from ReleaseMediaResources() as Shutdown() is
// irreversible, whereas ReleaseMediaResources() is reversible.
virtual nsRefPtr<ShutdownPromise> Shutdown();
// Used to retrieve some special information that can only be retrieved after
// all contents have been continuously parsed. (ex. total duration of some
// variable-bit-rate MP3 files.)
virtual void NotifyDataArrived(const char* aBuffer, uint32_t aLength, int64_t aOffset);
// Flush the MediaTaskQueue, flush MediaCodec and raise the mDiscontinuity.
virtual nsresult ResetDecode() MOZ_OVERRIDE;
// Disptach a DecodeVideoFrameTask to decode video data.
virtual nsRefPtr<VideoDataPromise>
RequestVideoData(bool aSkipToNextKeyframe,
int64_t aTimeThreshold) MOZ_OVERRIDE;
// Disptach a DecodeAduioDataTask to decode video data.
virtual nsRefPtr<AudioDataPromise> RequestAudioData() MOZ_OVERRIDE;
virtual bool HasAudio();
virtual bool HasVideo();
virtual void PreReadMetadata() MOZ_OVERRIDE;
// Read header data for all bitstreams in the file. Fills aInfo with
// the data required to present the media, and optionally fills *aTags
// with tag metadata from the file.
// Returns NS_OK on success, or NS_ERROR_FAILURE on failure.
virtual nsresult ReadMetadata(MediaInfo* aInfo,
MetadataTags** aTags);
// Moves the decode head to aTime microseconds. aStartTime and aEndTime
// denote the start and end times of the media in usecs, and aCurrentTime
// is the current playback position in microseconds.
virtual void Seek(int64_t aTime,
int64_t aStartTime,
int64_t aEndTime,
int64_t aCurrentTime);
virtual bool IsMediaSeekable() MOZ_OVERRIDE;
virtual android::sp<android::MediaSource> GetAudioOffloadTrack();
protected:
struct TrackInputCopier
{
virtual ~TrackInputCopier();
virtual bool Copy(android::MediaBuffer* aSourceBuffer,
android::sp<android::ABuffer> aCodecBuffer);
};
struct Track
{
enum Type
{
kUnknown = 0,
kAudio,
kVideo,
};
Track(Type type=kUnknown);
const Type mType;
// pipeline parameters
android::sp<android::MediaSource> mSource;
bool mSourceIsStopped;
android::sp<android::MediaCodecProxy> mCodec;
android::Vector<android::sp<android::ABuffer> > mInputBuffers;
android::Vector<android::sp<android::ABuffer> > mOutputBuffers;
android::sp<android::GonkNativeWindow> mNativeWindow;
// pipeline copier
nsAutoPtr<TrackInputCopier> mInputCopier;
// media parameters
Mutex mDurationLock; // mDurationUs might be read or updated from multiple
// threads.
int64_t mDurationUs;
// playback parameters
CheckedUint32 mInputIndex;
// mDiscontinuity, mFlushed, mInputEndOfStream, mInputEndOfStream,
// mSeekTimeUs don't be protected by a lock because the
// mTaskQueue->Flush() will flush all tasks.
bool mInputEndOfStream;
bool mOutputEndOfStream;
int64_t mSeekTimeUs;
bool mFlushed; // meaningless when mSeekTimeUs is invalid.
bool mDiscontinuity;
nsRefPtr<MediaTaskQueue> mTaskQueue;
private:
// Forbidden
Track(const Track &rhs) MOZ_DELETE;
const Track &operator=(const Track&) MOZ_DELETE;
};
// Receive a message from MessageHandler.
// Called on MediaCodecReader::mLooper thread.
void onMessageReceived(const android::sp<android::AMessage>& aMessage);
// Receive a notify from ResourceListener.
// Called on Binder thread.
virtual void codecReserved(Track& aTrack);
virtual void codecCanceled(Track& aTrack);
virtual bool CreateExtractor();
// Check the underlying HW resource is available and store the result in
// mIsWaitingResources.
void UpdateIsWaitingMediaResources();
android::sp<android::MediaExtractor> mExtractor;
// A cache value updated by UpdateIsWaitingMediaResources(), makes the
// "waiting resources state" is synchronous to StateMachine.
bool mIsWaitingResources;
private:
// An intermediary class that can be managed by android::sp<T>.
// Redirect onMessageReceived() to MediaCodecReader.
class MessageHandler : public android::AHandler
{
public:
MessageHandler(MediaCodecReader* aReader);
~MessageHandler();
virtual void onMessageReceived(const android::sp<android::AMessage>& aMessage);
private:
// Forbidden
MessageHandler() MOZ_DELETE;
MessageHandler(const MessageHandler& rhs) MOZ_DELETE;
const MessageHandler& operator=(const MessageHandler& rhs) MOZ_DELETE;
MediaCodecReader *mReader;
};
friend class MessageHandler;
// An intermediary class that can be managed by android::sp<T>.
// Redirect codecReserved() and codecCanceled() to MediaCodecReader.
class VideoResourceListener : public android::MediaCodecProxy::CodecResourceListener
{
public:
VideoResourceListener(MediaCodecReader* aReader);
~VideoResourceListener();
virtual void codecReserved();
virtual void codecCanceled();
private:
// Forbidden
VideoResourceListener() MOZ_DELETE;
VideoResourceListener(const VideoResourceListener& rhs) MOZ_DELETE;
const VideoResourceListener& operator=(const VideoResourceListener& rhs) MOZ_DELETE;
MediaCodecReader* mReader;
};
friend class VideoResourceListener;
class VorbisInputCopier : public TrackInputCopier
{
virtual bool Copy(android::MediaBuffer* aSourceBuffer,
android::sp<android::ABuffer> aCodecBuffer);
};
struct AudioTrack : public Track
{
AudioTrack();
private:
// Forbidden
AudioTrack(const AudioTrack &rhs) MOZ_DELETE;
const AudioTrack &operator=(const AudioTrack &rhs) MOZ_DELETE;
};
struct VideoTrack : public Track
{
VideoTrack();
int32_t mWidth;
int32_t mHeight;
int32_t mStride;
int32_t mSliceHeight;
int32_t mColorFormat;
int32_t mRotation;
nsIntSize mFrameSize;
nsIntRect mPictureRect;
gfx::IntRect mRelativePictureRect;
private:
// Forbidden
VideoTrack(const VideoTrack &rhs) MOZ_DELETE;
const VideoTrack &operator=(const VideoTrack &rhs) MOZ_DELETE;
};
struct CodecBufferInfo
{
CodecBufferInfo();
android::sp<android::ABuffer> mBuffer;
size_t mIndex;
size_t mOffset;
size_t mSize;
int64_t mTimeUs;
uint32_t mFlags;
};
class SignalObject
{
public:
NS_INLINE_DECL_THREADSAFE_REFCOUNTING(SignalObject)
SignalObject(const char* aName);
~SignalObject();
void Wait();
void Signal();
private:
// Forbidden
SignalObject() MOZ_DELETE;
SignalObject(const SignalObject &rhs) MOZ_DELETE;
const SignalObject &operator=(const SignalObject &rhs) MOZ_DELETE;
Monitor mMonitor;
bool mSignaled;
};
class ParseCachedDataRunnable : public nsRunnable
{
public:
ParseCachedDataRunnable(nsRefPtr<MediaCodecReader> aReader,
const char* aBuffer,
uint32_t aLength,
int64_t aOffset,
nsRefPtr<SignalObject> aSignal);
NS_IMETHOD Run() MOZ_OVERRIDE;
private:
// Forbidden
ParseCachedDataRunnable() MOZ_DELETE;
ParseCachedDataRunnable(const ParseCachedDataRunnable &rhs) MOZ_DELETE;
const ParseCachedDataRunnable &operator=(const ParseCachedDataRunnable &rhs) MOZ_DELETE;
nsRefPtr<MediaCodecReader> mReader;
nsAutoArrayPtr<const char> mBuffer;
uint32_t mLength;
int64_t mOffset;
nsRefPtr<SignalObject> mSignal;
};
friend class ParseCachedDataRunnable;
class ProcessCachedDataTask : public Task
{
public:
ProcessCachedDataTask(nsRefPtr<MediaCodecReader> aReader,
int64_t aOffset);
void Run() MOZ_OVERRIDE;
private:
// Forbidden
ProcessCachedDataTask() MOZ_DELETE;
ProcessCachedDataTask(const ProcessCachedDataTask &rhs) MOZ_DELETE;
const ProcessCachedDataTask &operator=(const ProcessCachedDataTask &rhs) MOZ_DELETE;
nsRefPtr<MediaCodecReader> mReader;
int64_t mOffset;
};
friend class ProcessCachedDataTask;
// Forbidden
MediaCodecReader() MOZ_DELETE;
const MediaCodecReader& operator=(const MediaCodecReader& rhs) MOZ_DELETE;
bool ReallocateResources();
void ReleaseCriticalResources();
void ReleaseResources();
bool CreateLooper();
void DestroyLooper();
void DestroyExtractor();
bool CreateMediaSources();
void DestroyMediaSources();
bool CreateMediaCodecs();
static bool CreateMediaCodec(android::sp<android::ALooper>& aLooper,
Track& aTrack,
bool aAsync,
android::wp<android::MediaCodecProxy::CodecResourceListener> aListener);
static bool ConfigureMediaCodec(Track& aTrack);
void DestroyMediaCodecs();
static void DestroyMediaCodec(Track& aTrack);
bool CreateTaskQueues();
void ShutdownTaskQueues();
bool DecodeVideoFrameTask(int64_t aTimeThreshold);
bool DecodeVideoFrameSync(int64_t aTimeThreshold);
bool DecodeAudioDataTask();
bool DecodeAudioDataSync();
void DispatchVideoTask(int64_t aTimeThreshold);
void DispatchAudioTask();
inline bool CheckVideoResources() {
return (HasVideo() && mVideoTrack.mSource != nullptr &&
mVideoTrack.mTaskQueue);
}
inline bool CheckAudioResources() {
return (HasAudio() && mAudioTrack.mSource != nullptr &&
mAudioTrack.mTaskQueue);
}
bool TriggerIncrementalParser();
bool UpdateDuration();
bool UpdateAudioInfo();
bool UpdateVideoInfo();
android::status_t FlushCodecData(Track& aTrack);
android::status_t FillCodecInputData(Track& aTrack);
android::status_t GetCodecOutputData(Track& aTrack,
CodecBufferInfo& aBuffer,
int64_t aThreshold,
const TimeStamp& aTimeout);
bool EnsureCodecFormatParsed(Track& aTrack);
uint8_t* GetColorConverterBuffer(int32_t aWidth, int32_t aHeight);
void ClearColorConverterBuffer();
int64_t ProcessCachedData(int64_t aOffset,
nsRefPtr<SignalObject> aSignal);
bool ParseDataSegment(const char* aBuffer,
uint32_t aLength,
int64_t aOffset);
static void TextureClientRecycleCallback(TextureClient* aClient,
void* aClosure);
void TextureClientRecycleCallback(TextureClient* aClient);
void ReleaseRecycledTextureClients();
static PLDHashOperator ReleaseTextureClient(TextureClient* aClient,
size_t& aIndex,
void* aUserArg);
PLDHashOperator ReleaseTextureClient(TextureClient* aClient,
size_t& aIndex);
void ReleaseAllTextureClients();
android::sp<MessageHandler> mHandler;
android::sp<VideoResourceListener> mVideoListener;
android::sp<android::ALooper> mLooper;
android::sp<android::MetaData> mMetaData;
Mutex mTextureClientIndexesLock;
nsDataHashtable<nsPtrHashKey<TextureClient>, size_t> mTextureClientIndexes;
// media tracks
AudioTrack mAudioTrack;
VideoTrack mVideoTrack;
AudioTrack mAudioOffloadTrack; // only Track::mSource is valid
MediaPromiseHolder<AudioDataPromise> mAudioPromise;
MediaPromiseHolder<VideoDataPromise> mVideoPromise;
// color converter
android::I420ColorConverterHelper mColorConverter;
nsAutoArrayPtr<uint8_t> mColorConverterBuffer;
size_t mColorConverterBufferSize;
// incremental parser
Monitor mParserMonitor;
bool mParseDataFromCache;
int64_t mNextParserPosition;
int64_t mParsedDataLength;
nsAutoPtr<MP3FrameParser> mMP3FrameParser;
};
} // namespace mozilla
#endif // MEDIA_CODEC_READER_H