/* -*- 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(OggReader_h_) #define OggReader_h_ #include #include #ifdef MOZ_TREMOR #include #else #include #endif #include "MediaDecoderReader.h" #include "OggCodecState.h" #include "VideoUtils.h" #include "mozilla/Monitor.h" namespace mozilla { namespace dom { class TimeRanges; } } namespace mozilla { // Thread safe container to store the codec information and the serial for each // streams. class OggCodecStore { public: OggCodecStore(); void Add(uint32_t serial, OggCodecState* codecState); bool Contains(uint32_t serial); OggCodecState* Get(uint32_t serial); bool IsKnownStream(uint32_t aSerial); private: // Maps Ogg serialnos to OggStreams. nsClassHashtable mCodecStates; // Protects the |mCodecStates| and the |mKnownStreams| members. Monitor mMonitor; }; class OggReader MOZ_FINAL : public MediaDecoderReader { public: explicit OggReader(AbstractMediaDecoder* aDecoder); protected: ~OggReader(); public: 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() { return (mVorbisState != 0 && mVorbisState->mActive) #ifdef MOZ_OPUS || (mOpusState != 0 && mOpusState->mActive) #endif /* MOZ_OPUS */ ; } virtual bool HasVideo() { return mTheoraState != 0 && mTheoraState->mActive; } virtual nsresult ReadMetadata(MediaInfo* aInfo, MetadataTags** aTags); virtual nsresult Seek(int64_t aTime, int64_t aStartTime, int64_t aEndTime, int64_t aCurrentTime); virtual nsresult GetBuffered(dom::TimeRanges* aBuffered); virtual bool IsMediaSeekable() MOZ_OVERRIDE; private: // TODO: DEPRECATED. This uses synchronous decoding. // Stores the presentation time of the first frame we'd be able to play if // we started playback at the current position. Returns the first video // frame, if we have video. VideoData* FindStartTime(int64_t& aOutStartTime); AudioData* DecodeToFirstAudioData(); // This monitor should be taken when reading or writing to mIsChained. ReentrantMonitor mMonitor; // Specialized Reset() method to signal if the seek is // to the start of the stream. nsresult ResetDecode(bool start); bool HasSkeleton() { return mSkeletonState != 0 && mSkeletonState->mActive; } // Seeks to the keyframe preceeding the target time using available // keyframe indexes. enum IndexedSeekResult { SEEK_OK, // Success. SEEK_INDEX_FAIL, // Failure due to no index, or invalid index. SEEK_FATAL_ERROR // Error returned by a stream operation. }; IndexedSeekResult SeekToKeyframeUsingIndex(int64_t aTarget); // Rolls back a seek-using-index attempt, returning a failure error code. IndexedSeekResult RollbackIndexedSeek(int64_t aOffset); // Represents a section of contiguous media, with a start and end offset, // and the timestamps of the start and end of that range, that is cached. // Used to denote the extremities of a range in which we can seek quickly // (because it's cached). class SeekRange { public: SeekRange() : mOffsetStart(0), mOffsetEnd(0), mTimeStart(0), mTimeEnd(0) {} SeekRange(int64_t aOffsetStart, int64_t aOffsetEnd, int64_t aTimeStart, int64_t aTimeEnd) : mOffsetStart(aOffsetStart), mOffsetEnd(aOffsetEnd), mTimeStart(aTimeStart), mTimeEnd(aTimeEnd) {} bool IsNull() const { return mOffsetStart == 0 && mOffsetEnd == 0 && mTimeStart == 0 && mTimeEnd == 0; } int64_t mOffsetStart, mOffsetEnd; // in bytes. int64_t mTimeStart, mTimeEnd; // in usecs. }; // Seeks to aTarget usecs in the buffered range aRange using bisection search, // or to the keyframe prior to aTarget if we have video. aAdjustedTarget is // an adjusted version of the target used to account for Opus pre-roll, if // necessary. aStartTime must be the presentation time at the start of media, // and aEndTime the time at end of media. aRanges must be the time/byte ranges // buffered in the media cache as per GetSeekRanges(). nsresult SeekInBufferedRange(int64_t aTarget, int64_t aAdjustedTarget, int64_t aStartTime, int64_t aEndTime, const nsTArray& aRanges, const SeekRange& aRange); // Seeks to before aTarget usecs in media using bisection search. If the media // has video, this will seek to before the keyframe required to render the // media at aTarget. Will use aRanges in order to narrow the bisection // search space. aStartTime must be the presentation time at the start of // media, and aEndTime the time at end of media. aRanges must be the time/byte // ranges buffered in the media cache as per GetSeekRanges(). nsresult SeekInUnbuffered(int64_t aTarget, int64_t aStartTime, int64_t aEndTime, const nsTArray& aRanges); // Get the end time of aEndOffset. This is the playback position we'd reach // after playback finished at aEndOffset. int64_t RangeEndTime(int64_t aEndOffset); // Get the end time of aEndOffset, without reading before aStartOffset. // This is the playback position we'd reach after playback finished at // aEndOffset. If bool aCachedDataOnly is true, then we'll only read // from data which is cached in the media cached, otherwise we'll do // regular blocking reads from the media stream. If bool aCachedDataOnly // is true, this can safely be called on the main thread, otherwise it // must be called on the state machine thread. int64_t RangeEndTime(int64_t aStartOffset, int64_t aEndOffset, bool aCachedDataOnly); // Get the start time of the range beginning at aOffset. This is the start // time of the first frame and or audio sample we'd be able to play if we // started playback at aOffset. int64_t RangeStartTime(int64_t aOffset); // Performs a seek bisection to move the media stream's read cursor to the // last ogg page boundary which has end time before aTarget usecs on both the // Theora and Vorbis bitstreams. Limits its search to data inside aRange; // i.e. it will only read inside of the aRange's start and end offsets. // aFuzz is the number of usecs of leniency we'll allow; we'll terminate the // seek when we land in the range (aTime - aFuzz, aTime) usecs. nsresult SeekBisection(int64_t aTarget, const SeekRange& aRange, uint32_t aFuzz); // Returns true if the serial number is for a stream we encountered // while reading metadata. Call on the main thread only. bool IsKnownStream(uint32_t aSerial); // Fills aRanges with SeekRanges denoting the sections of the media which // have been downloaded and are stored in the media cache. The reader // monitor must must be held with exactly one lock count. The MediaResource // must be pinned while calling this. nsresult GetSeekRanges(nsTArray& aRanges); // Returns the range in which you should perform a seek bisection if // you wish to seek to aTarget usecs, given the known (buffered) byte ranges // in aRanges. If aExact is true, we only return an exact copy of a // range in which aTarget lies, or a null range if aTarget isn't contained // in any of the (buffered) ranges. Otherwise, when aExact is false, // we'll construct the smallest possible range we can, based on the times // and byte offsets known in aRanges. We can then use this to minimize our // bisection's search space when the target isn't in a known buffered range. SeekRange SelectSeekRange(const nsTArray& aRanges, int64_t aTarget, int64_t aStartTime, int64_t aEndTime, bool aExact); private: // Decodes a packet of Vorbis data, and inserts its samples into the // audio queue. nsresult DecodeVorbis(ogg_packet* aPacket); // Decodes a packet of Opus data, and inserts its samples into the // audio queue. nsresult DecodeOpus(ogg_packet* aPacket); // Decodes a packet of Theora data, and inserts its frame into the // video queue. May return NS_ERROR_OUT_OF_MEMORY. Caller must have obtained // the reader's monitor. aTimeThreshold is the current playback position // in media time in microseconds. Frames with an end time before this will // not be enqueued. nsresult DecodeTheora(ogg_packet* aPacket, int64_t aTimeThreshold); // Read a page of data from the Ogg file. Returns true if a page has been // read, false if the page read failed or end of file reached. bool ReadOggPage(ogg_page* aPage); // Reads and decodes header packets for aState, until either header decode // fails, or is complete. Initializes the codec state before returning. // Returns true if reading headers and initializtion of the stream // succeeds. bool ReadHeaders(OggCodecState* aState); // Reads the next link in the chain. bool ReadOggChain(); // Set this media as being a chain and notifies the state machine that the // media is no longer seekable. void SetChained(bool aIsChained); // Returns the next Ogg packet for an bitstream/codec state. Returns a // pointer to an ogg_packet on success, or nullptr if the read failed. // The caller is responsible for deleting the packet and its |packet| field. ogg_packet* NextOggPacket(OggCodecState* aCodecState); // Fills aTracks with the serial numbers of each active stream, for use by // various SkeletonState functions. void BuildSerialList(nsTArray& aTracks); // Setup target bitstreams for decoding. void SetupTargetTheora(TheoraState* aTheoraState); void SetupTargetVorbis(VorbisState* aVorbisState); void SetupTargetOpus(OpusState* aOpusState); void SetupTargetSkeleton(SkeletonState* aSkeletonState); void SetupMediaTracksInfo(const nsTArray& aSerials); OggCodecStore mCodecStore; // Decode state of the Theora bitstream we're decoding, if we have video. TheoraState* mTheoraState; // Decode state of the Vorbis bitstream we're decoding, if we have audio. VorbisState* mVorbisState; #ifdef MOZ_OPUS // Decode state of the Opus bitstream we're decoding, if we have one. OpusState *mOpusState; // Represents the user pref media.opus.enabled at the time our // contructor was called. We can't check it dynamically because // we're not on the main thread; bool mOpusEnabled; #endif /* MOZ_OPUS */ // Decode state of the Skeleton bitstream. SkeletonState* mSkeletonState; // Ogg decoding state. ogg_sync_state mOggState; // Vorbis/Opus/Theora data used to compute timestamps. This is written on the // decoder thread and read on the main thread. All reading on the main // thread must be done after metadataloaded. We can't use the existing // data in the codec states due to threading issues. You must check the // associated mTheoraState or mVorbisState pointer is non-null before // using this codec data. uint32_t mVorbisSerial; uint32_t mOpusSerial; uint32_t mTheoraSerial; vorbis_info mVorbisInfo; int mOpusPreSkip; th_info mTheoraInfo; // The picture region inside Theora frame to be displayed, if we have // a Theora video track. nsIntRect mPicture; // True if we are decoding a chained ogg. Reading or writing to this member // should be done with |mMonitor| acquired. bool mIsChained; // Number of audio frames decoded so far. int64_t mDecodedAudioFrames; }; } // namespace mozilla #endif