// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // SourceBufferStream is a data structure that stores media Buffers in ranges. // Buffers can be appended out of presentation order. Buffers are retrieved by // seeking to the desired start point and calling GetNextBuffer(). Buffers are // returned in sequential presentation order. #ifndef MEDIA_FILTERS_SOURCE_BUFFER_STREAM_H_ #define MEDIA_FILTERS_SOURCE_BUFFER_STREAM_H_ #include #include #include #include #include #include "base/basictypes.h" #include "base/memory/ref_counted.h" #include "media/base/audio_decoder_config.h" #include "media/base/media_export.h" #include "media/base/media_log.h" #include "media/base/ranges.h" #include "media/base/stream_parser_buffer.h" #include "media/base/text_track_config.h" #include "media/base/video_decoder_config.h" namespace media { class SourceBufferRange; // See file-level comment for complete description. class MEDIA_EXPORT SourceBufferStream { public: typedef StreamParser::BufferQueue BufferQueue; typedef std::list RangeList; // Status returned by GetNextBuffer(). // kSuccess: Indicates that the next buffer was returned. // kNeedBuffer: Indicates that we need more data before a buffer can be // returned. // kConfigChange: Indicates that the next buffer requires a config change. enum Status { kSuccess, kNeedBuffer, kConfigChange, kEndOfStream }; enum Type { kAudio, kVideo, kText }; SourceBufferStream(const AudioDecoderConfig& audio_config, const scoped_refptr& media_log, bool splice_frames_enabled); SourceBufferStream(const VideoDecoderConfig& video_config, const scoped_refptr& media_log, bool splice_frames_enabled); SourceBufferStream(const TextTrackConfig& text_config, const scoped_refptr& media_log, bool splice_frames_enabled); ~SourceBufferStream(); // Signals that the next buffers appended are part of a new media segment // starting at |media_segment_start_time|. // TODO(acolwell/wolenetz): This should be changed to a presentation // timestamp. See http://crbug.com/402502 void OnNewMediaSegment(DecodeTimestamp media_segment_start_time); // Add the |buffers| to the SourceBufferStream. Buffers within the queue are // expected to be in order, but multiple calls to Append() may add buffers out // of order or overlapping. Assumes all buffers within |buffers| are in // presentation order and are non-overlapping. // Returns true if Append() was successful, false if |buffers| are not added. // TODO(vrk): Implement garbage collection. (crbug.com/125070) bool Append(const BufferQueue& buffers); // Removes buffers between |start| and |end| according to the steps // in the "Coded Frame Removal Algorithm" in the Media Source // Extensions Spec. // https://dvcs.w3.org/hg/html-media/raw-file/default/media-source/media-source.html#sourcebuffer-coded-frame-removal // // |duration| is the current duration of the presentation. It is // required by the computation outlined in the spec. void Remove(base::TimeDelta start, base::TimeDelta end, base::TimeDelta duration); // Frees up space if the SourceBufferStream is taking up too much memory. // |media_time| is current playback position. bool GarbageCollectIfNeeded(DecodeTimestamp media_time, size_t newDataSize); // Changes the SourceBufferStream's state so that it will start returning // buffers starting from the closest keyframe before |timestamp|. void Seek(base::TimeDelta timestamp); // Returns true if the SourceBufferStream has seeked to a time without // buffered data and is waiting for more data to be appended. bool IsSeekPending() const; // Notifies the SourceBufferStream that the media duration has been changed to // |duration| so it should drop any data past that point. void OnSetDuration(base::TimeDelta duration); // Fills |out_buffer| with a new buffer. Buffers are presented in order from // the last call to Seek(), or starting with the first buffer appended if // Seek() has not been called yet. // |out_buffer|'s timestamp may be earlier than the |timestamp| passed to // the last Seek() call. // Returns kSuccess if |out_buffer| is filled with a valid buffer, kNeedBuffer // if there is not enough data buffered to fulfill the request, and // kConfigChange if the next buffer requires a config change. Status GetNextBuffer(scoped_refptr* out_buffer); // Returns a list of the buffered time ranges. Ranges GetBufferedTime() const; // Returns the duration of the buffered ranges, which is equivalent // to the end timestamp of the last buffered range. If no data is buffered // then base::TimeDelta() is returned. base::TimeDelta GetBufferedDuration() const; // Returns the size of the buffered data in bytes. size_t GetBufferedSize() const; // Notifies this object that end of stream has been signalled. void MarkEndOfStream(); // Clear the end of stream state set by MarkEndOfStream(). void UnmarkEndOfStream(); const AudioDecoderConfig& GetCurrentAudioDecoderConfig(); const VideoDecoderConfig& GetCurrentVideoDecoderConfig(); const TextTrackConfig& GetCurrentTextTrackConfig(); // Notifies this object that the audio config has changed and buffers in // future Append() calls should be associated with this new config. bool UpdateAudioConfig(const AudioDecoderConfig& config); // Notifies this object that the video config has changed and buffers in // future Append() calls should be associated with this new config. bool UpdateVideoConfig(const VideoDecoderConfig& config); // Returns the largest distance between two adjacent buffers in this stream, // or an estimate if no two adjacent buffers have been appended to the stream // yet. base::TimeDelta GetMaxInterbufferDistance() const; void set_memory_limit(size_t memory_limit) { memory_limit_ = memory_limit; } private: friend class SourceBufferStreamTest; // Attempts to delete approximately |total_bytes_to_free| amount of data // |ranges_|, starting at the front of |ranges_| and moving linearly forward // through the buffers. Deletes starting from the back if |reverse_direction| // is true. |media_time| is current playback position. // Returns the number of bytes freed. size_t FreeBuffers(size_t total_bytes_to_free, DecodeTimestamp media_time, bool reverse_direction); // Attempts to delete approximately |total_bytes_to_free| amount of data from // |ranges_|, starting after the last appended buffer before the current // playback position |media_time|. size_t FreeBuffersAfterLastAppended(size_t total_bytes_to_free, DecodeTimestamp media_time); // Gets the removal range to secure |byte_to_free| from // [|start_timestamp|, |end_timestamp|). // Returns the size of buffers to secure if future // Remove(|start_timestamp|, |removal_end_timestamp|, duration) is called. // Will not update |removal_end_timestamp| if the returned size is 0. size_t GetRemovalRange(DecodeTimestamp start_timestamp, DecodeTimestamp end_timestamp, size_t byte_to_free, DecodeTimestamp* removal_end_timestamp); // Prepares |range_for_next_append_| so |new_buffers| can be appended. // This involves removing buffers between the end of the previous append // and any buffers covered by the time range in |new_buffers|. // |deleted_buffers| is an output parameter containing candidates for // |track_buffer_| if this method ends up removing the current playback // position from the range. void PrepareRangesForNextAppend(const BufferQueue& new_buffers, BufferQueue* deleted_buffers); // Removes buffers, from the |track_buffer_|, that come after |timestamp|. void PruneTrackBuffer(const DecodeTimestamp timestamp); // Checks to see if |range_with_new_buffers_itr| can be merged with the range // next to it, and merges them if so. void MergeWithAdjacentRangeIfNecessary( const RangeList::iterator& range_with_new_buffers_itr); // Returns true if |second_timestamp| is the timestamp of the next buffer in // sequence after |first_timestamp|, false otherwise. bool AreAdjacentInSequence( DecodeTimestamp first_timestamp, DecodeTimestamp second_timestamp) const; // Helper method that returns the timestamp for the next buffer that // |selected_range_| will return from GetNextBuffer() call, or kNoTimestamp() // if in between seeking (i.e. |selected_range_| is null). DecodeTimestamp GetNextBufferTimestamp(); // Finds the range that should contain a media segment that begins with // |start_timestamp| and returns the iterator pointing to it. Returns // |ranges_.end()| if there's no such existing range. RangeList::iterator FindExistingRangeFor(DecodeTimestamp start_timestamp); // Inserts |new_range| into |ranges_| preserving sorted order. Returns an // iterator in |ranges_| that points to |new_range|. RangeList::iterator AddToRanges(SourceBufferRange* new_range); // Returns an iterator that points to the place in |ranges_| where // |selected_range_| lives. RangeList::iterator GetSelectedRangeItr(); // Sets the |selected_range_| to |range| and resets the next buffer position // for the previous |selected_range_|. void SetSelectedRange(SourceBufferRange* range); // Seeks |range| to |seek_timestamp| and then calls SetSelectedRange() with // |range|. void SeekAndSetSelectedRange(SourceBufferRange* range, DecodeTimestamp seek_timestamp); // Resets this stream back to an unseeked state. void ResetSeekState(); // Returns true if |seek_timestamp| refers to the beginning of the first range // in |ranges_|, false otherwise or if |ranges_| is empty. bool ShouldSeekToStartOfBuffered(base::TimeDelta seek_timestamp) const; // Returns true if the timestamps of |buffers| are monotonically increasing // since the previous append to the media segment, false otherwise. bool IsMonotonicallyIncreasing(const BufferQueue& buffers) const; // Returns true if |next_timestamp| and |next_is_keyframe| are valid for // the first buffer after the previous append. bool IsNextTimestampValid(DecodeTimestamp next_timestamp, bool next_is_keyframe) const; // Returns true if |selected_range_| is the only range in |ranges_| that // HasNextBufferPosition(). bool OnlySelectedRangeIsSeeked() const; // Measures the distances between buffer timestamps and tracks the max. void UpdateMaxInterbufferDistance(const BufferQueue& buffers); // Sets the config ID for each buffer to |append_config_index_|. void SetConfigIds(const BufferQueue& buffers); // Called to complete a config change. Updates |current_config_index_| to // match the index of the next buffer. Calling this method causes // GetNextBuffer() to stop returning kConfigChange and start returning // kSuccess. void CompleteConfigChange(); // Sets |selected_range_| and seeks to the nearest keyframe after // |timestamp| if necessary and possible. This method only attempts to // set |selected_range_| if |seleted_range_| is null and |track_buffer_| // is empty. void SetSelectedRangeIfNeeded(const DecodeTimestamp timestamp); // Find a keyframe timestamp that is >= |start_timestamp| and can be used to // find a new selected range. // Returns kNoTimestamp() if an appropriate keyframe timestamp could not be // found. DecodeTimestamp FindNewSelectedRangeSeekTimestamp( const DecodeTimestamp start_timestamp); // Searches |ranges_| for the first keyframe timestamp that is >= |timestamp|. // If |ranges_| doesn't contain a GOP that covers |timestamp| or doesn't // have a keyframe after |timestamp| then kNoTimestamp() is returned. DecodeTimestamp FindKeyframeAfterTimestamp(const DecodeTimestamp timestamp); // Returns "VIDEO" for a video SourceBufferStream, "AUDIO" for an audio // stream, and "TEXT" for a text stream. std::string GetStreamTypeName() const; // Returns true if end of stream has been reached, i.e. the // following conditions are met: // 1. end of stream is marked and there is nothing in the track_buffer. // 2. We don't have any ranges, or the last or no range is selected, // or there is a pending seek beyond any existing ranges. bool IsEndOfStreamReached() const; // Deletes the range pointed to by |*itr| and removes it from |ranges_|. // If |*itr| points to |selected_range_|, then |selected_range_| is set to // NULL. After the range is removed, |*itr| is to the range after the one that // was removed or to |ranges_.end()| if the last range was removed. void DeleteAndRemoveRange(RangeList::iterator* itr); // Helper function used by Remove() and PrepareRangesForNextAppend() to // remove buffers and ranges between |start| and |end|. // |exclude_start| - If set to true, buffers with timestamps that // match |start| are not removed. If set to false, buffers with // timestamps that match |start| will be removed. // |*deleted_buffers| - Filled with buffers for the current playback position // if the removal range included the current playback position. These buffers // can be used as candidates for placing in the |track_buffer_|. void RemoveInternal(DecodeTimestamp start, DecodeTimestamp end, bool exclude_start, BufferQueue* deleted_buffers); Type GetType() const; // See GetNextBuffer() for additional details. This method handles splice // frame processing. Status HandleNextBufferWithSplice( scoped_refptr* out_buffer); // See GetNextBuffer() for additional details. This method handles preroll // frame processing. Status HandleNextBufferWithPreroll( scoped_refptr* out_buffer); // See GetNextBuffer() for additional details. The internal method hands out // single buffers from the |track_buffer_| and |selected_range_| without // additional processing for splice frame or preroll buffers. Status GetNextBufferInternal(scoped_refptr* out_buffer); // If the next buffer's timestamp is significantly beyond the last output // buffer, and if we just exhausted |track_buffer_| on the previous read, this // method logs a warning to |media_log_| that there could be perceivable // delay. Apps can avoid this behavior by not overlap-appending buffers near // current playback position. void WarnIfTrackBufferExhaustionSkipsForward( const scoped_refptr& next_buffer); // Called by PrepareRangesForNextAppend() before pruning overlapped buffers to // generate a splice frame with a small portion of the overlapped buffers. If // a splice frame is generated, the first buffer in |new_buffers| will have // its timestamps, duration, and fade out preroll updated. void GenerateSpliceFrame(const BufferQueue& new_buffers); // If |out_buffer| has splice buffers or preroll, sets |pending_buffer_| // appropriately and returns true. Otherwise returns false. bool SetPendingBuffer(scoped_refptr* out_buffer); // Used to report log messages that can help the web developer figure out what // is wrong with the content. scoped_refptr media_log_; // List of disjoint buffered ranges, ordered by start time. RangeList ranges_; // Indicates which decoder config is being used by the decoder. // GetNextBuffer() is only allows to return buffers that have a // config ID that matches this index. If there is a mismatch then // it must signal that a config change is needed. int current_config_index_ = 0; // Indicates which decoder config to associate with new buffers // being appended. Each new buffer appended has its config ID set // to the value of this field. int append_config_index_ = 0; // Holds the audio/video configs for this stream. |current_config_index_| // and |append_config_index_| represent indexes into one of these vectors. std::vector audio_configs_; std::vector video_configs_; // Holds the text config for this stream. TextTrackConfig text_track_config_; // True if more data needs to be appended before the Seek() can complete, // false if no Seek() has been requested or the Seek() is completed. bool seek_pending_ = false; // True if the end of the stream has been signalled. bool end_of_stream_ = false; // Timestamp of the last request to Seek(). base::TimeDelta seek_buffer_timestamp_; // Pointer to the seeked-to Range. This is the range from which // GetNextBuffer() calls are fulfilled after the |track_buffer_| has been // emptied. SourceBufferRange* selected_range_ = nullptr; // Queue of the next buffers to be returned from calls to GetNextBuffer(). If // |track_buffer_| is empty, return buffers from |selected_range_|. BufferQueue track_buffer_; // If there has been no intervening Seek, this will be true if the last // emitted buffer emptied |track_buffer_|. bool just_exhausted_track_buffer_ = false; // The start time of the current media segment being appended. DecodeTimestamp media_segment_start_time_; // Points to the range containing the current media segment being appended. RangeList::iterator range_for_next_append_; // True when the next call to Append() begins a new media segment. bool new_media_segment_ = false; // The timestamp of the last buffer appended to the media segment, set to // kNoDecodeTimestamp() if the beginning of the segment. DecodeTimestamp last_appended_buffer_timestamp_; bool last_appended_buffer_is_keyframe_ = false; // The decode timestamp on the last buffer returned by the most recent // GetNextBuffer() call. Set to kNoDecodeTimestamp() if GetNextBuffer() hasn't // been called yet or a seek has happened since the last GetNextBuffer() call. DecodeTimestamp last_output_buffer_timestamp_; // Stores the largest distance between two adjacent buffers in this stream. base::TimeDelta max_interbuffer_distance_; // The maximum amount of data in bytes the stream will keep in memory. size_t memory_limit_; // Indicates that a kConfigChanged status has been reported by GetNextBuffer() // and GetCurrentXXXDecoderConfig() must be called to update the current // config. GetNextBuffer() must not be called again until // GetCurrentXXXDecoderConfig() has been called. bool config_change_pending_ = false; // Used by HandleNextBufferWithSplice() or HandleNextBufferWithPreroll() when // a splice frame buffer or buffer with preroll is returned from // GetNextBufferInternal(). scoped_refptr pending_buffer_; // Indicates which of the splice buffers in |splice_buffer_| should be // handled out next. size_t splice_buffers_index_ = 0; // Indicates that all buffers before |pending_buffer_| have been handed out. bool pending_buffers_complete_ = false; // Indicates that splice frame generation is enabled. const bool splice_frames_enabled_; // To prevent log spam, count the number of warnings and successes logged. int num_splice_generation_warning_logs_ = 0; int num_splice_generation_success_logs_ = 0; int num_track_buffer_gap_warning_logs_ = 0; int num_garbage_collect_algorithm_logs_ = 0; DISALLOW_COPY_AND_ASSIGN(SourceBufferStream); }; } // namespace media #endif // MEDIA_FILTERS_SOURCE_BUFFER_STREAM_H_