/* -*- 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(WebMReader_h_) #define WebMReader_h_ #include "mozilla/StandardInteger.h" #include "nsDeque.h" #include "MediaDecoderReader.h" #include "nsAutoRef.h" #include "nestegg/nestegg.h" #define VPX_DONT_DEFINE_STDINT_TYPES #include "vpx/vpx_codec.h" #ifdef MOZ_TREMOR #include "tremor/ivorbiscodec.h" #else #include "vorbis/codec.h" #endif #ifdef MOZ_DASH #include "DASHRepReader.h" #endif namespace mozilla { class WebMBufferedState; // Holds a nestegg_packet, and its file offset. This is needed so we // know the offset in the file we've played up to, in order to calculate // whether it's likely we can play through to the end without needing // to stop to buffer, given the current download rate. class NesteggPacketHolder { public: NesteggPacketHolder(nestegg_packet* aPacket, int64_t aOffset) : mPacket(aPacket), mOffset(aOffset) { MOZ_COUNT_CTOR(NesteggPacketHolder); } ~NesteggPacketHolder() { MOZ_COUNT_DTOR(NesteggPacketHolder); nestegg_free_packet(mPacket); } nestegg_packet* mPacket; // Offset in bytes. This is the offset of the end of the Block // which contains the packet. int64_t mOffset; private: // Copy constructor and assignment operator not implemented. Don't use them! NesteggPacketHolder(const NesteggPacketHolder &aOther); NesteggPacketHolder& operator= (NesteggPacketHolder const& aOther); }; // Thread and type safe wrapper around nsDeque. class PacketQueueDeallocator : public nsDequeFunctor { virtual void* operator() (void* anObject) { delete static_cast(anObject); return nullptr; } }; // Typesafe queue for holding nestegg packets. It has // ownership of the items in the queue and will free them // when destroyed. class WebMPacketQueue : private nsDeque { public: WebMPacketQueue() : nsDeque(new PacketQueueDeallocator()) {} ~WebMPacketQueue() { Reset(); } inline int32_t GetSize() { return nsDeque::GetSize(); } inline void Push(NesteggPacketHolder* aItem) { NS_ASSERTION(aItem, "NULL pushed to WebMPacketQueue"); nsDeque::Push(aItem); } inline void PushFront(NesteggPacketHolder* aItem) { NS_ASSERTION(aItem, "NULL pushed to WebMPacketQueue"); nsDeque::PushFront(aItem); } inline NesteggPacketHolder* PopFront() { return static_cast(nsDeque::PopFront()); } void Reset() { while (GetSize() > 0) { delete PopFront(); } } }; #ifdef MOZ_DASH class WebMReader : public DASHRepReader #else class WebMReader : public MediaDecoderReader #endif { public: WebMReader(AbstractMediaDecoder* aDecoder); ~WebMReader(); virtual nsresult Init(MediaDecoderReader* aCloneDonor); virtual nsresult ResetDecode(); virtual bool DecodeAudioData(); // If the Theora granulepos has not been captured, it may read several packets // until one with a granulepos has been captured, to ensure that all packets // read have valid time info. virtual bool DecodeVideoFrame(bool &aKeyframeSkip, int64_t aTimeThreshold); virtual bool HasAudio() { NS_ASSERTION(mDecoder->OnDecodeThread(), "Should be on decode thread."); return mHasAudio; } virtual bool HasVideo() { NS_ASSERTION(mDecoder->OnDecodeThread(), "Should be on decode thread."); return mHasVideo; } virtual nsresult ReadMetadata(VideoInfo* aInfo, MetadataTags** aTags); virtual nsresult Seek(int64_t aTime, int64_t aStartTime, int64_t aEndTime, int64_t aCurrentTime); virtual nsresult GetBuffered(nsTimeRanges* aBuffered, int64_t aStartTime); virtual void NotifyDataArrived(const char* aBuffer, uint32_t aLength, int64_t aOffset); #ifdef MOZ_DASH virtual void SetMainReader(DASHReader *aMainReader) MOZ_OVERRIDE { NS_ASSERTION(aMainReader, "aMainReader is null."); mMainReader = aMainReader; } // Called by |DASHReader| on the decode thread so that this reader will // start reading at the appropriate subsegment/cluster. If this is not the // current reader and a switch was previously requested, then it will seek to // starting offset of the subsegment at which it is supposed to switch. // Called on the decode thread, enters the decode monitor. void PrepareToDecode() MOZ_OVERRIDE; // Returns a reference to the audio/video queue of the main reader. // Allows for a single audio/video queue to be shared among multiple // |WebMReader|s. MediaQueue& AudioQueue() MOZ_OVERRIDE { if (mMainReader) { return mMainReader->AudioQueue(); } else { return MediaDecoderReader::AudioQueue(); } } MediaQueue& VideoQueue() MOZ_OVERRIDE { if (mMainReader) { return mMainReader->VideoQueue(); } else { return MediaDecoderReader::VideoQueue(); } } // Sets byte range for initialization (EBML); used by DASH. void SetInitByteRange(MediaByteRange &aByteRange) MOZ_OVERRIDE { mInitByteRange = aByteRange; } // Sets byte range for cue points, i.e. cluster offsets; used by DASH. void SetIndexByteRange(MediaByteRange &aByteRange) MOZ_OVERRIDE { mCuesByteRange = aByteRange; } // Returns the index of the subsegment which contains the seek time. int64_t GetSubsegmentForSeekTime(int64_t aSeekToTime) MOZ_OVERRIDE; // Returns list of ranges for cluster start and end offsets. nsresult GetSubsegmentByteRanges(nsTArray& aByteRanges) MOZ_OVERRIDE; // Called by |DASHReader|::|PossiblySwitchVideoReaders| to check if this // reader has reached a switch access point and it's ok to switch readers. // Called on the decode thread. bool HasReachedSubsegment(uint32_t aSubsegmentIndex) MOZ_OVERRIDE; // Requests that this reader seek to the specified subsegment. Seek will // happen when |PrepareDecodeVideoFrame| is called on the decode // thread. // Called on the main thread or decoder thread. Decode monitor must be held. void RequestSeekToSubsegment(uint32_t aIdx) MOZ_OVERRIDE; // Requests that this reader switch to |aNextReader| at the start of the // specified subsegment. This is the reader to switch FROM. // Called on the main thread or decoder thread. Decode monitor must be held. void RequestSwitchAtSubsegment(int32_t aSubsegmentIdx, MediaDecoderReader* aNextReader) MOZ_OVERRIDE; // Seeks to the beginning of the specified cluster. Called on the decode // thread. void SeekToCluster(uint32_t aIdx); // Returns true if data at the end of the final subsegment has been cached. bool IsDataCachedAtEndOfSubsegments() MOZ_OVERRIDE; #endif protected: // Value passed to NextPacket to determine if we are reading a video or an // audio packet. enum TrackType { VIDEO = 0, AUDIO = 1 }; // Read a packet from the nestegg file. Returns NULL if all packets for // the particular track have been read. Pass VIDEO or AUDIO to indicate the // type of the packet we want to read. #ifdef MOZ_DASH nsReturnRef NextPacketInternal(TrackType aTrackType); // Read a packet from the nestegg file. Returns NULL if all packets for // the particular track have been read. Pass VIDEO or AUDIO to indicate the // type of the packet we want to read. If the reader reaches a switch access // point, this function will get a packet from |mNextReader|. #endif nsReturnRef NextPacket(TrackType aTrackType); // Pushes a packet to the front of the video packet queue. virtual void PushVideoPacket(NesteggPacketHolder* aItem); // Returns an initialized ogg packet with data obtained from the WebM container. ogg_packet InitOggPacket(unsigned char* aData, size_t aLength, bool aBOS, bool aEOS, int64_t aGranulepos); // Decode a nestegg packet of audio data. Push the audio data on the // audio queue. Returns true when there's more audio to decode, // false if the audio is finished, end of file has been reached, // or an un-recoverable read error has occured. The reader's monitor // must be held during this call. This function will free the packet // so the caller must not use the packet after calling. bool DecodeAudioPacket(nestegg_packet* aPacket, int64_t aOffset); // Release context and set to null. Called when an error occurs during // reading metadata or destruction of the reader itself. void Cleanup(); private: // libnestegg context for webm container. Access on state machine thread // or decoder thread only. nestegg* mContext; // VP8 decoder state vpx_codec_ctx_t mVP8; // Vorbis decoder state vorbis_info mVorbisInfo; vorbis_comment mVorbisComment; vorbis_dsp_state mVorbisDsp; vorbis_block mVorbisBlock; uint32_t mPacketCount; uint32_t mChannels; // Queue of video and audio packets that have been read but not decoded. These // must only be accessed from the state machine thread. WebMPacketQueue mVideoPackets; WebMPacketQueue mAudioPackets; // Index of video and audio track to play uint32_t mVideoTrack; uint32_t mAudioTrack; // Time in microseconds of the start of the first audio frame we've decoded. int64_t mAudioStartUsec; // Number of audio frames we've decoded since decoding began at mAudioStartMs. uint64_t mAudioFrames; // Parser state and computed offset-time mappings. Shared by multiple // readers when decoder has been cloned. Main thread only. nsRefPtr mBufferedState; // Size of the frame initially present in the stream. The picture region // is defined as a ratio relative to this. nsIntSize mInitialFrame; // Picture region, as relative to the initial frame size. nsIntRect mPicture; // Booleans to indicate if we have audio and/or video data bool mHasVideo; bool mHasAudio; #ifdef MOZ_DASH // Byte range for initialisation data; e.g. specified in DASH manifest. MediaByteRange mInitByteRange; // Byte range for cues; e.g. specified in DASH manifest. MediaByteRange mCuesByteRange; // Byte ranges for clusters; set internally, derived from cues. nsTArray mClusterByteRanges; // Pointer to the main |DASHReader|. Set in the constructor. DASHReader* mMainReader; // Index of the cluster to switch to. Monitor must be entered for write // access on all threads, read access off the decode thread. int32_t mSwitchingCluster; // Pointer to the next reader. Used in |NextPacket| and |PushVideoPacket| at // switch access points. Monitor must be entered for write access on all // threads, read access off the decode thread. nsRefPtr mNextReader; // Index of the cluster to seek to for a DASH stream request. Monitor must be // entered for write access on all threads, read access off the decode // thread. int32_t mSeekToCluster; // Current end offset of the last packet read in |NextPacket|. Used to check // if the reader reached the switch access point. Accessed on the decode // thread only. int64_t mCurrentOffset; // Set in |NextPacket| if we read a packet from the next reader. If true in // |PushVideoPacket|, we will push the packet onto the next reader's // video packet queue (not video data queue!). Accessed on decode thread // only. bool mPushVideoPacketToNextReader; // Indicates if the reader has reached a switch access point. Set in // |NextPacket| and read in |HasReachedSubsegment|. Accessed on // decode thread only. bool mReachedSwitchAccessPoint; #endif }; } // namespace mozilla #endif