src/controller/buffer-controller.ts
/*
* Buffer Controller
*/
import Events from '../events';
import EventHandler from '../event-handler';
import { BufferHelper } from '../utils/buffer-helper';
import { logger } from '../utils/logger';
import { ErrorTypes, ErrorDetails } from '../errors';
import { getMediaSource } from '../utils/mediasource-helper';
import { TrackSet } from '../types/track';
import { Segment } from '../types/segment';
import { BufferControllerConfig } from '../config';
// Add extension properties to SourceBuffers from the DOM API.
type ExtendedSourceBuffer = SourceBuffer & {
ended?: boolean
};
type SourceBufferName = 'video' | 'audio';
type SourceBuffers = Partial<Record<SourceBufferName, ExtendedSourceBuffer>>;
interface SourceBufferFlushRange {
start: number;
end: number;
type: SourceBufferName
}
const MediaSource = getMediaSource();
class BufferController extends EventHandler {
// the value that we have set mediasource.duration to
// (the actual duration may be tweaked slighly by the browser)
private _msDuration: number | null = null;
// the value that we want to set mediaSource.duration to
private _levelDuration: number | null = null;
// the target duration of the current media playlist
private _levelTargetDuration: number = 10;
// current stream state: true - for live broadcast, false - for VoD content
private _live: boolean | null = null;
// cache the self generated object url to detect hijack of video tag
private _objectUrl: string | null = null;
// signals that the sourceBuffers need to be flushed
private _needsFlush: boolean = false;
// signals that mediaSource should have endOfStream called
private _needsEos: boolean = false;
private config: BufferControllerConfig;
// this is optional because this property is removed from the class sometimes
public audioTimestampOffset?: number;
// The number of BUFFER_CODEC events received before any sourceBuffers are created
public bufferCodecEventsExpected: number = 0;
// The total number of BUFFER_CODEC events received
private _bufferCodecEventsTotal: number = 0;
// A reference to the attached media element
public media: HTMLMediaElement | null = null;
// A reference to the active media source
public mediaSource: MediaSource | null = null;
// List of pending segments to be appended to source buffer
public segments: Segment[] = [];
public parent?: string;
// A guard to see if we are currently appending to the source buffer
public appending: boolean = false;
// counters
public appended: number = 0;
public appendError: number = 0;
public flushBufferCounter: number = 0;
public tracks: TrackSet = {};
public pendingTracks: TrackSet = {};
public sourceBuffer: SourceBuffers = {};
public flushRange: SourceBufferFlushRange[] = [];
constructor (hls: any) {
super(hls,
Events.MEDIA_ATTACHING,
Events.MEDIA_DETACHING,
Events.MANIFEST_PARSED,
Events.BUFFER_RESET,
Events.BUFFER_APPENDING,
Events.BUFFER_CODECS,
Events.BUFFER_EOS,
Events.BUFFER_FLUSHING,
Events.LEVEL_PTS_UPDATED,
Events.LEVEL_UPDATED);
this.config = hls.config;
}
destroy () {
EventHandler.prototype.destroy.call(this);
}
onLevelPtsUpdated (data: { details, type: SourceBufferName, start: number }) {
let type = data.type;
let audioTrack = this.tracks.audio;
// Adjusting `SourceBuffer.timestampOffset` (desired point in the timeline where the next frames should be appended)
// in Chrome browser when we detect MPEG audio container and time delta between level PTS and `SourceBuffer.timestampOffset`
// is greater than 100ms (this is enough to handle seek for VOD or level change for LIVE videos). At the time of change we issue
// `SourceBuffer.abort()` and adjusting `SourceBuffer.timestampOffset` if `SourceBuffer.updating` is false or awaiting `updateend`
// event if SB is in updating state.
// More info here: https://github.com/video-dev/hls.js/issues/332#issuecomment-257986486
if (type === 'audio' && audioTrack && audioTrack.container === 'audio/mpeg') { // Chrome audio mp3 track
let audioBuffer = this.sourceBuffer.audio;
if (!audioBuffer) {
throw Error('Level PTS Updated and source buffer for audio uninitalized');
}
let delta = Math.abs(audioBuffer.timestampOffset - data.start);
// adjust timestamp offset if time delta is greater than 100ms
if (delta > 0.1) {
let updating = audioBuffer.updating;
try {
audioBuffer.abort();
} catch (err) {
logger.warn('can not abort audio buffer: ' + err);
}
if (!updating) {
logger.warn('change mpeg audio timestamp offset from ' + audioBuffer.timestampOffset + ' to ' + data.start);
audioBuffer.timestampOffset = data.start;
} else {
this.audioTimestampOffset = data.start;
}
}
}
if (this.config.liveDurationInfinity) {
this.updateSeekableRange(data.details);
}
}
onManifestParsed (data: { altAudio: boolean, audio: boolean, video: boolean }) {
// in case of alt audio (where all tracks have urls) 2 BUFFER_CODECS events will be triggered, one per stream controller
// sourcebuffers will be created all at once when the expected nb of tracks will be reached
// in case alt audio is not used, only one BUFFER_CODEC event will be fired from main stream controller
// it will contain the expected nb of source buffers, no need to compute it
let codecEvents: number = 2;
if (data.audio && !data.video || !data.altAudio) {
codecEvents = 1;
}
this.bufferCodecEventsExpected = this._bufferCodecEventsTotal = codecEvents;
logger.log(`${this.bufferCodecEventsExpected} bufferCodec event(s) expected`);
}
onMediaAttaching (data: { media: HTMLMediaElement }) {
let media = this.media = data.media;
if (media && MediaSource) {
// setup the media source
let ms = this.mediaSource = new MediaSource();
// Media Source listeners
ms.addEventListener('sourceopen', this._onMediaSourceOpen);
ms.addEventListener('sourceended', this._onMediaSourceEnded);
ms.addEventListener('sourceclose', this._onMediaSourceClose);
// link video and media Source
media.src = window.URL.createObjectURL(ms);
// cache the locally generated object url
this._objectUrl = media.src;
}
}
onMediaDetaching () {
logger.log('media source detaching');
let ms = this.mediaSource;
if (ms) {
if (ms.readyState === 'open') {
try {
// endOfStream could trigger exception if any sourcebuffer is in updating state
// we don't really care about checking sourcebuffer state here,
// as we are anyway detaching the MediaSource
// let's just avoid this exception to propagate
ms.endOfStream();
} catch (err) {
logger.warn(`onMediaDetaching:${err.message} while calling endOfStream`);
}
}
ms.removeEventListener('sourceopen', this._onMediaSourceOpen);
ms.removeEventListener('sourceended', this._onMediaSourceEnded);
ms.removeEventListener('sourceclose', this._onMediaSourceClose);
// Detach properly the MediaSource from the HTMLMediaElement as
// suggested in https://github.com/w3c/media-source/issues/53.
if (this.media) {
if (this._objectUrl) {
window.URL.revokeObjectURL(this._objectUrl);
}
// clean up video tag src only if it's our own url. some external libraries might
// hijack the video tag and change its 'src' without destroying the Hls instance first
if (this.media.src === this._objectUrl) {
this.media.removeAttribute('src');
this.media.load();
} else {
logger.warn('media.src was changed by a third party - skip cleanup');
}
}
this.mediaSource = null;
this.media = null;
this._objectUrl = null;
this.bufferCodecEventsExpected = this._bufferCodecEventsTotal;
this.pendingTracks = {};
this.tracks = {};
this.sourceBuffer = {};
this.flushRange = [];
this.segments = [];
this.appended = 0;
}
this.hls.trigger(Events.MEDIA_DETACHED);
}
checkPendingTracks () {
let { bufferCodecEventsExpected, pendingTracks } = this;
// Check if we've received all of the expected bufferCodec events. When none remain, create all the sourceBuffers at once.
// This is important because the MSE spec allows implementations to throw QuotaExceededErrors if creating new sourceBuffers after
// data has been appended to existing ones.
// 2 tracks is the max (one for audio, one for video). If we've reach this max go ahead and create the buffers.
const pendingTracksCount = Object.keys(pendingTracks).length;
if ((pendingTracksCount && !bufferCodecEventsExpected) || pendingTracksCount === 2) {
// ok, let's create them now !
this.createSourceBuffers(pendingTracks);
this.pendingTracks = {};
// append any pending segments now !
this.doAppending();
}
}
private _onMediaSourceOpen = () => {
logger.log('media source opened');
this.hls.trigger(Events.MEDIA_ATTACHED, { media: this.media });
let mediaSource = this.mediaSource;
if (mediaSource) {
// once received, don't listen anymore to sourceopen event
mediaSource.removeEventListener('sourceopen', this._onMediaSourceOpen);
}
this.checkPendingTracks();
}
private _onMediaSourceClose = () => {
logger.log('media source closed');
}
private _onMediaSourceEnded = () => {
logger.log('media source ended');
}
private _onSBUpdateEnd = () => {
// update timestampOffset
if (this.audioTimestampOffset && this.sourceBuffer.audio) {
let audioBuffer = this.sourceBuffer.audio;
logger.warn(`change mpeg audio timestamp offset from ${audioBuffer.timestampOffset} to ${this.audioTimestampOffset}`);
audioBuffer.timestampOffset = this.audioTimestampOffset;
delete this.audioTimestampOffset;
}
if (this._needsFlush) {
this.doFlush();
}
if (this._needsEos) {
this.checkEos();
}
this.appending = false;
let parent = this.parent;
// count nb of pending segments waiting for appending on this sourcebuffer
let pending = this.segments.reduce((counter, segment) => (segment.parent === parent) ? counter + 1 : counter, 0);
// this.sourceBuffer is better to use than media.buffered as it is closer to the PTS data from the fragments
const timeRanges: Partial<Record<SourceBufferName, TimeRanges>> = {};
const sbSet = this.sourceBuffer;
for (let streamType in sbSet) {
const sb = sbSet[streamType as SourceBufferName];
if (!sb) {
throw Error(`handling source buffer update end error: source buffer for ${streamType} uninitilized and unable to update buffered TimeRanges.`);
}
timeRanges[streamType as SourceBufferName] = BufferHelper.getBuffered(sb);
}
this.hls.trigger(Events.BUFFER_APPENDED, { parent, pending, timeRanges });
// don't append in flushing mode
if (!this._needsFlush) {
this.doAppending();
}
this.updateMediaElementDuration();
// appending goes first
if (pending === 0) {
this.flushLiveBackBuffer();
}
}
private _onSBUpdateError = (event: Event) => {
logger.error('sourceBuffer error:', event);
// according to http://www.w3.org/TR/media-source/#sourcebuffer-append-error
// this error might not always be fatal (it is fatal if decode error is set, in that case
// it will be followed by a mediaElement error ...)
this.hls.trigger(Events.ERROR, { type: ErrorTypes.MEDIA_ERROR, details: ErrorDetails.BUFFER_APPENDING_ERROR, fatal: false });
// we don't need to do more than that, as accordin to the spec, updateend will be fired just after
}
onBufferReset () {
const sourceBuffer = this.sourceBuffer;
for (let type in sourceBuffer) {
const sb = sourceBuffer[type];
try {
if (sb) {
if (this.mediaSource) {
this.mediaSource.removeSourceBuffer(sb);
}
sb.removeEventListener('updateend', this._onSBUpdateEnd);
sb.removeEventListener('error', this._onSBUpdateError);
}
} catch (err) {
}
}
this.sourceBuffer = {};
this.flushRange = [];
this.segments = [];
this.appended = 0;
}
onBufferCodecs (tracks: TrackSet) {
// if source buffer(s) not created yet, appended buffer tracks in this.pendingTracks
// if sourcebuffers already created, do nothing ...
if (Object.keys(this.sourceBuffer).length) {
return;
}
Object.keys(tracks).forEach(trackName => {
this.pendingTracks[trackName] = tracks[trackName];
});
this.bufferCodecEventsExpected = Math.max(this.bufferCodecEventsExpected - 1, 0);
if (this.mediaSource && this.mediaSource.readyState === 'open') {
this.checkPendingTracks();
}
}
createSourceBuffers (tracks: TrackSet) {
const { sourceBuffer, mediaSource } = this;
if (!mediaSource) {
throw Error('createSourceBuffers called when mediaSource was null');
}
for (let trackName in tracks) {
if (!sourceBuffer[trackName]) {
let track = tracks[trackName as keyof TrackSet];
if (!track) {
throw Error(`source buffer exists for track ${trackName}, however track does not`);
}
// use levelCodec as first priority
let codec = track.levelCodec || track.codec;
let mimeType = `${track.container};codecs=${codec}`;
logger.log(`creating sourceBuffer(${mimeType})`);
try {
let sb = sourceBuffer[trackName] = mediaSource.addSourceBuffer(mimeType);
sb.addEventListener('updateend', this._onSBUpdateEnd);
sb.addEventListener('error', this._onSBUpdateError);
this.tracks[trackName] = {
buffer: sb,
codec: codec,
id: track.id,
container: track.container,
levelCodec: track.levelCodec
};
} catch (err) {
logger.error(`error while trying to add sourceBuffer:${err.message}`);
this.hls.trigger(Events.ERROR, { type: ErrorTypes.MEDIA_ERROR, details: ErrorDetails.BUFFER_ADD_CODEC_ERROR, fatal: false, err: err, mimeType: mimeType });
}
}
}
this.hls.trigger(Events.BUFFER_CREATED, { tracks: this.tracks });
}
onBufferAppending (data: Segment) {
if (!this._needsFlush) {
if (!this.segments) {
this.segments = [ data ];
} else {
this.segments.push(data);
}
this.doAppending();
}
}
// on BUFFER_EOS mark matching sourcebuffer(s) as ended and trigger checkEos()
// an undefined data.type will mark all buffers as EOS.
onBufferEos (data: { type?: SourceBufferName }) {
for (const type in this.sourceBuffer) {
if (!data.type || data.type === type) {
const sb = this.sourceBuffer[type as SourceBufferName];
if (sb && !sb.ended) {
sb.ended = true;
logger.log(`${type} sourceBuffer now EOS`);
}
}
}
this.checkEos();
}
// if all source buffers are marked as ended, signal endOfStream() to MediaSource.
checkEos () {
const { sourceBuffer, mediaSource } = this;
if (!mediaSource || mediaSource.readyState !== 'open') {
this._needsEos = false;
return;
}
for (let type in sourceBuffer) {
const sb = sourceBuffer[type as SourceBufferName];
if (!sb) continue;
if (!sb.ended) {
return;
}
if (sb.updating) {
this._needsEos = true;
return;
}
}
logger.log('all media data are available, signal endOfStream() to MediaSource and stop loading fragment');
// Notify the media element that it now has all of the media data
try {
mediaSource.endOfStream();
} catch (e) {
logger.warn('exception while calling mediaSource.endOfStream()');
}
this._needsEos = false;
}
onBufferFlushing (data: { startOffset: number, endOffset: number, type?: SourceBufferName }) {
if (data.type) {
this.flushRange.push({ start: data.startOffset, end: data.endOffset, type: data.type });
} else {
this.flushRange.push({ start: data.startOffset, end: data.endOffset, type: 'video' });
this.flushRange.push({ start: data.startOffset, end: data.endOffset, type: 'audio' });
}
// attempt flush immediately
this.flushBufferCounter = 0;
this.doFlush();
}
flushLiveBackBuffer () {
// clear back buffer for live only
if (!this._live) {
return;
}
const liveBackBufferLength = this.config.liveBackBufferLength;
if (!isFinite(liveBackBufferLength) || liveBackBufferLength < 0) {
return;
}
if (!this.media) {
logger.error('flushLiveBackBuffer called without attaching media');
return;
}
const currentTime = this.media.currentTime;
const sourceBuffer = this.sourceBuffer;
const bufferTypes = Object.keys(sourceBuffer);
const targetBackBufferPosition = currentTime - Math.max(liveBackBufferLength, this._levelTargetDuration);
for (let index = bufferTypes.length - 1; index >= 0; index--) {
const bufferType = bufferTypes[index];
const sb = sourceBuffer[bufferType as SourceBufferName];
if (sb) {
const buffered = BufferHelper.getBuffered(sb);
// when target buffer start exceeds actual buffer start
if (buffered.length > 0 && targetBackBufferPosition > buffered.start(0)) {
// remove buffer up until current time minus minimum back buffer length (removing buffer too close to current
// time will lead to playback freezing)
// credits for level target duration - https://github.com/videojs/http-streaming/blob/3132933b6aa99ddefab29c10447624efd6fd6e52/src/segment-loader.js#L91
if (this.removeBufferRange(bufferType, sb, 0, targetBackBufferPosition)) {
this.hls.trigger(Events.LIVE_BACK_BUFFER_REACHED, { bufferEnd: targetBackBufferPosition });
}
}
}
}
}
onLevelUpdated ({ details }: { details: { totalduration: number, targetduration?: number, averagetargetduration?: number, live: boolean, fragments: any[] } }) {
if (details.fragments.length > 0) {
this._levelDuration = details.totalduration + details.fragments[0].start;
this._levelTargetDuration = details.averagetargetduration || details.targetduration || 10;
this._live = details.live;
this.updateMediaElementDuration();
if (this.config.liveDurationInfinity) {
this.updateSeekableRange(details);
}
}
}
/**
* Update Media Source duration to current level duration or override to Infinity if configuration parameter
* 'liveDurationInfinity` is set to `true`
* More details: https://github.com/video-dev/hls.js/issues/355
*/
updateMediaElementDuration () {
let { config } = this;
let duration: number;
if (this._levelDuration === null ||
!this.media ||
!this.mediaSource ||
!this.sourceBuffer ||
this.media.readyState === 0 ||
this.mediaSource.readyState !== 'open') {
return;
}
for (let type in this.sourceBuffer) {
const sb = this.sourceBuffer[type];
if (sb && sb.updating === true) {
// can't set duration whilst a buffer is updating
return;
}
}
duration = this.media.duration;
// initialise to the value that the media source is reporting
if (this._msDuration === null) {
this._msDuration = this.mediaSource.duration;
}
if (this._live === true && config.liveDurationInfinity) {
// Override duration to Infinity
logger.log('Media Source duration is set to Infinity');
this._msDuration = this.mediaSource.duration = Infinity;
} else if ((this._levelDuration > this._msDuration && this._levelDuration > duration) || !Number.isFinite(duration)) {
// levelDuration was the last value we set.
// not using mediaSource.duration as the browser may tweak this value
// only update Media Source duration if its value increase, this is to avoid
// flushing already buffered portion when switching between quality level
logger.log(`Updating Media Source duration to ${this._levelDuration.toFixed(3)}`);
this._msDuration = this.mediaSource.duration = this._levelDuration;
}
}
updateSeekableRange (levelDetails) {
const mediaSource = this.mediaSource;
const fragments = levelDetails.fragments;
const len = fragments.length;
if (len && mediaSource?.setLiveSeekableRange) {
const start = fragments[0]?.start;
const end = fragments[len - 1].start + fragments[len - 1].duration;
mediaSource.setLiveSeekableRange(start, end);
}
}
doFlush () {
// loop through all buffer ranges to flush
while (this.flushRange.length) {
let range = this.flushRange[0];
// flushBuffer will abort any buffer append in progress and flush Audio/Video Buffer
if (this.flushBuffer(range.start, range.end, range.type)) {
// range flushed, remove from flush array
this.flushRange.shift();
this.flushBufferCounter = 0;
} else {
this._needsFlush = true;
// avoid looping, wait for SB update end to retrigger a flush
return;
}
}
if (this.flushRange.length === 0) {
// everything flushed
this._needsFlush = false;
// let's recompute this.appended, which is used to avoid flush looping
let appended = 0;
let sourceBuffer = this.sourceBuffer;
for (let type in sourceBuffer) {
const sb = sourceBuffer[type];
if (sb) {
appended += BufferHelper.getBuffered(sb).length;
}
}
this.appended = appended;
this.hls.trigger(Events.BUFFER_FLUSHED);
}
}
doAppending () {
let { config, hls, segments, sourceBuffer } = this;
if (!Object.keys(sourceBuffer).length) {
// early exit if no source buffers have been initialized yet
return;
}
if (!this.media || this.media.error) {
this.segments = [];
logger.error('trying to append although a media error occured, flush segment and abort');
return;
}
if (this.appending) {
// logger.log(`sb appending in progress`);
return;
}
const segment = segments.shift();
if (!segment) { // handle undefined shift
return;
}
try {
const sb = sourceBuffer[segment.type];
if (!sb) {
// in case we don't have any source buffer matching with this segment type,
// it means that Mediasource fails to create sourcebuffer
// discard this segment, and trigger update end
this._onSBUpdateEnd();
return;
}
if (sb.updating) {
// if we are still updating the source buffer from the last segment, place this back at the front of the queue
segments.unshift(segment);
return;
}
// reset sourceBuffer ended flag before appending segment
sb.ended = false;
// logger.log(`appending ${segment.content} ${type} SB, size:${segment.data.length}, ${segment.parent}`);
this.parent = segment.parent;
sb.appendBuffer(segment.data);
this.appendError = 0;
this.appended++;
this.appending = true;
} catch (err) {
// in case any error occured while appending, put back segment in segments table
logger.error(`error while trying to append buffer:${err.message}`);
segments.unshift(segment);
let event = { type: ErrorTypes.MEDIA_ERROR, parent: segment.parent, details: '', fatal: false };
if (err.code === 22) {
// QuotaExceededError: http://www.w3.org/TR/html5/infrastructure.html#quotaexceedederror
// let's stop appending any segments, and report BUFFER_FULL_ERROR error
this.segments = [];
event.details = ErrorDetails.BUFFER_FULL_ERROR;
} else {
this.appendError++;
event.details = ErrorDetails.BUFFER_APPEND_ERROR;
/* with UHD content, we could get loop of quota exceeded error until
browser is able to evict some data from sourcebuffer. retrying help recovering this
*/
if (this.appendError > config.appendErrorMaxRetry) {
logger.log(`fail ${config.appendErrorMaxRetry} times to append segment in sourceBuffer`);
this.segments = [];
event.fatal = true;
}
}
hls.trigger(Events.ERROR, event);
}
}
/*
flush specified buffered range,
return true once range has been flushed.
as sourceBuffer.remove() is asynchronous, flushBuffer will be retriggered on sourceBuffer update end
*/
flushBuffer (startOffset: number, endOffset: number, sbType: SourceBufferName): boolean {
const sourceBuffer = this.sourceBuffer;
// exit if no sourceBuffers are initialized
if (!Object.keys(sourceBuffer).length) {
return true;
}
let currentTime: string = 'null';
if (this.media) {
currentTime = this.media.currentTime.toFixed(3);
}
logger.log(`flushBuffer,pos/start/end: ${currentTime}/${startOffset}/${endOffset}`);
// safeguard to avoid infinite looping : don't try to flush more than the nb of appended segments
if (this.flushBufferCounter >= this.appended) {
logger.warn('abort flushing too many retries');
return true;
}
const sb = sourceBuffer[sbType];
// we are going to flush buffer, mark source buffer as 'not ended'
if (sb) {
sb.ended = false;
if (!sb.updating) {
if (this.removeBufferRange(sbType, sb, startOffset, endOffset)) {
this.flushBufferCounter++;
return false;
}
} else {
logger.warn('cannot flush, sb updating in progress');
return false;
}
}
logger.log('buffer flushed');
// everything flushed !
return true;
}
/**
* Removes first buffered range from provided source buffer that lies within given start and end offsets.
*
* @param {string} type Type of the source buffer, logging purposes only.
* @param {SourceBuffer} sb Target SourceBuffer instance.
* @param {number} startOffset
* @param {number} endOffset
*
* @returns {boolean} True when source buffer remove requested.
*/
removeBufferRange (type: string, sb: ExtendedSourceBuffer, startOffset: number, endOffset: number): boolean {
try {
const buffered = BufferHelper.getBuffered(sb);
for (let i = 0; i < buffered.length; i++) {
let bufStart = buffered.start(i);
let bufEnd = buffered.end(i);
let removeStart = Math.max(bufStart, startOffset);
let removeEnd = Math.min(bufEnd, endOffset);
/* sometimes sourcebuffer.remove() does not flush
the exact expected time range.
to avoid rounding issues/infinite loop,
only flush buffer range of length greater than 500ms.
*/
if (Math.min(removeEnd, bufEnd) - removeStart > 0.5) {
let currentTime: string = 'null';
if (this.media) {
currentTime = this.media.currentTime.toString();
}
logger.log(`sb remove ${type} [${removeStart},${removeEnd}], of [${bufStart},${bufEnd}], pos:${currentTime}`);
sb.remove(removeStart, removeEnd);
return true;
}
}
} catch (error) {
logger.warn('removeBufferRange failed', error);
}
return false;
}
}
export default BufferController;
