/** * @license * Copyright 2016 Google Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ goog.provide('shaka.dash.DashParser'); goog.require('goog.asserts'); goog.require('shaka.abr.Ewma'); goog.require('shaka.dash.ContentProtection'); goog.require('shaka.dash.MpdUtils'); goog.require('shaka.dash.SegmentBase'); goog.require('shaka.dash.SegmentList'); goog.require('shaka.dash.SegmentTemplate'); goog.require('shaka.log'); goog.require('shaka.media.DrmEngine'); goog.require('shaka.media.ManifestParser'); goog.require('shaka.media.PresentationTimeline'); goog.require('shaka.media.SegmentIndex'); goog.require('shaka.net.NetworkingEngine'); goog.require('shaka.text.TextEngine'); goog.require('shaka.util.Error'); goog.require('shaka.util.Functional'); goog.require('shaka.util.Iterables'); goog.require('shaka.util.LanguageUtils'); goog.require('shaka.util.ManifestParserUtils'); goog.require('shaka.util.MimeUtils'); goog.require('shaka.util.Networking'); goog.require('shaka.util.OperationManager'); goog.require('shaka.util.StringUtils'); goog.require('shaka.util.XmlUtils'); /** * Creates a new DASH parser. * * @implements {shaka.extern.ManifestParser} * @export */ shaka.dash.DashParser = class { /** Creates a new DASH parser. */ constructor() { /** @private {?shaka.extern.ManifestConfiguration} */ this.config_ = null; /** @private {?shaka.extern.ManifestParser.PlayerInterface} */ this.playerInterface_ = null; /** @private {!Array.} */ this.manifestUris_ = []; /** @private {?shaka.extern.Manifest} */ this.manifest_ = null; /** @private {!Array.} */ this.periodIds_ = []; /** @private {number} */ this.globalId_ = 1; /** * A map of IDs to SegmentIndex objects. * ID: Period@id,AdaptationSet@id,@Representation@id * e.g.: '1,5,23' * @private {!Object.} */ this.segmentIndexMap_ = {}; /** * The update period in seconds, or 0 for no updates. * @private {number} */ this.updatePeriod_ = 0; /** * An ewma that tracks how long updates take. * This is to mitigate issues caused by slow parsing on embedded devices. * @private {!shaka.abr.Ewma} */ this.averageUpdateDuration_ = new shaka.abr.Ewma(5); /** @private {shaka.util.Timer} */ this.updateTimer_ = new shaka.util.Timer(() => { this.onUpdate_(); }); /** @private {!shaka.util.OperationManager} */ this.operationManager_ = new shaka.util.OperationManager(); } /** * @override * @exportInterface */ configure(config) { goog.asserts.assert(config.dash != null, 'DashManifestConfiguration should not be null!'); this.config_ = config; } /** * @override * @exportInterface */ async start(uri, playerInterface) { goog.asserts.assert(this.config_, 'Must call configure() before start()!'); this.manifestUris_ = [uri]; this.playerInterface_ = playerInterface; const updateDelay = await this.requestManifest_(); if (this.playerInterface_) { this.setUpdateTimer_(updateDelay); } // Make sure that the parser has not been destroyed. if (!this.playerInterface_) { throw new shaka.util.Error( shaka.util.Error.Severity.CRITICAL, shaka.util.Error.Category.PLAYER, shaka.util.Error.Code.OPERATION_ABORTED); } goog.asserts.assert(this.manifest_, 'Manifest should be non-null!'); return this.manifest_; } /** * @override * @exportInterface */ stop() { this.playerInterface_ = null; this.config_ = null; this.manifestUris_ = []; this.manifest_ = null; this.periodIds_ = []; this.segmentIndexMap_ = {}; if (this.updateTimer_ != null) { this.updateTimer_.stop(); this.updateTimer_ = null; } return this.operationManager_.destroy(); } /** * @override * @exportInterface */ async update() { try { await this.requestManifest_(); } catch (error) { if (!this.playerInterface_ || !error) { return; } goog.asserts.assert(error instanceof shaka.util.Error, 'Bad error type'); this.playerInterface_.onError(error); } } /** * @override * @exportInterface */ onExpirationUpdated(sessionId, expiration) { // No-op } /** * Makes a network request for the manifest and parses the resulting data. * * @return {!Promise.} Resolves with the time it took, in seconds, to * fulfill the request and parse the data. * @private */ async requestManifest_() { const requestType = shaka.net.NetworkingEngine.RequestType.MANIFEST; const request = shaka.net.NetworkingEngine.makeRequest( this.manifestUris_, this.config_.retryParameters); const networkingEngine = this.playerInterface_.networkingEngine; const startTime = Date.now(); const operation = networkingEngine.request(requestType, request); this.operationManager_.manage(operation); const response = await operation.promise; // Detect calls to stop(). if (!this.playerInterface_) { return 0; } // For redirections add the response uri to the first entry in the // Manifest Uris array. if (response.uri && !this.manifestUris_.includes(response.uri)) { this.manifestUris_.unshift(response.uri); } // This may throw, but it will result in a failed promise. await this.parseManifest_(response.data, response.uri); // Keep track of how long the longest manifest update took. const endTime = Date.now(); const updateDuration = (endTime - startTime) / 1000.0; this.averageUpdateDuration_.sample(1, updateDuration); // Let the caller know how long this update took. return updateDuration; } /** * Parses the manifest XML. This also handles updates and will update the * stored manifest. * * @param {ArrayBuffer} data * @param {string} finalManifestUri The final manifest URI, which may * differ from this.manifestUri_ if there has been a redirect. * @return {!Promise} * @throws shaka.util.Error When there is a parsing error. * @private */ async parseManifest_(data, finalManifestUri) { const Error = shaka.util.Error; const MpdUtils = shaka.dash.MpdUtils; const mpd = shaka.util.XmlUtils.parseXml(data, 'MPD'); if (!mpd) { throw new Error( Error.Severity.CRITICAL, Error.Category.MANIFEST, Error.Code.DASH_INVALID_XML, finalManifestUri); } // Process the mpd to account for xlink connections. const failGracefully = this.config_.dash.xlinkFailGracefully; const xlinkOperation = MpdUtils.processXlinks( mpd, this.config_.retryParameters, failGracefully, finalManifestUri, this.playerInterface_.networkingEngine); this.operationManager_.manage(xlinkOperation); const finalMpd = await xlinkOperation.promise; return this.processManifest_(finalMpd, finalManifestUri); } /** * Takes a formatted MPD and converts it into a manifest. * * @param {!Element} mpd * @param {string} finalManifestUri The final manifest URI, which may * differ from this.manifestUri_ if there has been a redirect. * @return {!Promise} * @throws shaka.util.Error When there is a parsing error. * @private */ async processManifest_(mpd, finalManifestUri) { const Functional = shaka.util.Functional; const XmlUtils = shaka.util.XmlUtils; // Get any Location elements. This will update the manifest location and // the base URI. /** @type {!Array.} */ let manifestBaseUris = [finalManifestUri]; /** @type {!Array.} */ const locations = XmlUtils.findChildren(mpd, 'Location') .map(XmlUtils.getContents) .filter(Functional.isNotNull); if (locations.length > 0) { const absoluteLocations = shaka.util.ManifestParserUtils.resolveUris( manifestBaseUris, locations); this.manifestUris_ = absoluteLocations; manifestBaseUris = absoluteLocations; } const uris = XmlUtils.findChildren(mpd, 'BaseURL').map(XmlUtils.getContents); const baseUris = shaka.util.ManifestParserUtils.resolveUris( manifestBaseUris, uris); const ignoreMinBufferTime = this.config_.dash.ignoreMinBufferTime; let minBufferTime = 0; if (!ignoreMinBufferTime) { minBufferTime = XmlUtils.parseAttr(mpd, 'minBufferTime', XmlUtils.parseDuration); } this.updatePeriod_ = /** @type {number} */ (XmlUtils.parseAttr( mpd, 'minimumUpdatePeriod', XmlUtils.parseDuration, -1)); const presentationStartTime = XmlUtils.parseAttr( mpd, 'availabilityStartTime', XmlUtils.parseDate); let segmentAvailabilityDuration = XmlUtils.parseAttr( mpd, 'timeShiftBufferDepth', XmlUtils.parseDuration); const suggestedPresentationDelay = XmlUtils.parseAttr( mpd, 'suggestedPresentationDelay', XmlUtils.parseDuration); const maxSegmentDuration = XmlUtils.parseAttr( mpd, 'maxSegmentDuration', XmlUtils.parseDuration); const mpdType = mpd.getAttribute('type') || 'static'; /** @type {!shaka.media.PresentationTimeline} */ let presentationTimeline; if (this.manifest_) { presentationTimeline = this.manifest_.presentationTimeline; } else { // DASH IOP v3.0 suggests using a default delay between minBufferTime // and timeShiftBufferDepth. This is literally the range of all // feasible choices for the value. Nothing older than // timeShiftBufferDepth is still available, and anything less than // minBufferTime will cause buffering issues. // // We have decided that our default will be 1.5 * minBufferTime, // or 10s (configurable) whichever is larger. This is fairly // conservative. Content providers should provide a // suggestedPresentationDelay whenever possible to optimize the live // streaming experience. const defaultPresentationDelay = Math.max( this.config_.dash.defaultPresentationDelay, minBufferTime * 1.5); const presentationDelay = suggestedPresentationDelay != null ? suggestedPresentationDelay : defaultPresentationDelay; presentationTimeline = new shaka.media.PresentationTimeline( presentationStartTime, presentationDelay, this.config_.dash.autoCorrectDrift); } /** @type {shaka.dash.DashParser.Context} */ const context = { // Don't base on updatePeriod_ since emsg boxes can cause manifest // updates. dynamic: mpdType != 'static', presentationTimeline: presentationTimeline, period: null, periodInfo: null, adaptationSet: null, representation: null, bandwidth: 0, indexRangeWarningGiven: false, }; const periodsAndDuration = this.parsePeriods_(context, baseUris, mpd); const duration = periodsAndDuration.duration; const periods = periodsAndDuration.periods; presentationTimeline.setStatic(mpdType == 'static'); if (mpdType == 'static' || !periodsAndDuration.durationDerivedFromPeriods) { // Ignore duration calculated from Period lengths if this is dynamic. presentationTimeline.setDuration(duration || Infinity); } const isLive = presentationTimeline.isLive(); // If it's live, we check for an override. if (isLive && !isNaN(this.config_.availabilityWindowOverride)) { segmentAvailabilityDuration = this.config_.availabilityWindowOverride; } // If it's null, that means segments are always available. This is always // the case for VOD, and sometimes the case for live. if (segmentAvailabilityDuration == null) { segmentAvailabilityDuration = Infinity; } presentationTimeline.setSegmentAvailabilityDuration( segmentAvailabilityDuration); // Use @maxSegmentDuration to override smaller, derived values. presentationTimeline.notifyMaxSegmentDuration(maxSegmentDuration || 1); if (goog.DEBUG) { presentationTimeline.assertIsValid(); } // These steps are not done on manifest update. if (!this.manifest_) { this.manifest_ = { presentationTimeline: presentationTimeline, periods: periods, offlineSessionIds: [], minBufferTime: minBufferTime || 0, }; // We only need to do clock sync when we're using presentation start // time. This condition also excludes VOD streams. if (presentationTimeline.usingPresentationStartTime()) { const timingElements = XmlUtils.findChildren(mpd, 'UTCTiming'); const offset = await this.parseUtcTiming_(baseUris, timingElements); // Detect calls to stop(). if (!this.playerInterface_) { return; } presentationTimeline.setClockOffset(offset); } } } /** * Reads and parses the periods from the manifest. This first does some * partial parsing so the start and duration is available when parsing * children. * * @param {shaka.dash.DashParser.Context} context * @param {!Array.} baseUris * @param {!Element} mpd * @return {{ * periods: !Array., * duration: ?number, * durationDerivedFromPeriods: boolean * }} * @private */ parsePeriods_(context, baseUris, mpd) { const XmlUtils = shaka.util.XmlUtils; const presentationDuration = XmlUtils.parseAttr( mpd, 'mediaPresentationDuration', XmlUtils.parseDuration); const periods = []; let prevEnd = 0; const periodNodes = XmlUtils.findChildren(mpd, 'Period'); // This uses a for-loop rather than a for-of loop because this needs to look // ahead to the next element. const enumerate = (it) => shaka.util.Iterables.enumerate(it); for (const {i, item: elem, next} of enumerate(periodNodes)) { const start = /** @type {number} */ ( XmlUtils.parseAttr(elem, 'start', XmlUtils.parseDuration, prevEnd)); const givenDuration = XmlUtils.parseAttr(elem, 'duration', XmlUtils.parseDuration); let periodDuration = null; if (next) { // "The difference between the start time of a Period and the start time // of the following Period is the duration of the media content // represented by this Period." const nextStart = XmlUtils.parseAttr(next, 'start', XmlUtils.parseDuration); if (nextStart != null) { periodDuration = nextStart - start; } } else if (presentationDuration != null) { // "The Period extends until the Period.start of the next Period, or // until the end of the Media Presentation in the case of the last // Period." periodDuration = presentationDuration - start; } const threshold = shaka.util.ManifestParserUtils.GAP_OVERLAP_TOLERANCE_SECONDS; if (periodDuration && givenDuration && Math.abs(periodDuration - givenDuration) > threshold) { shaka.log.warning('There is a gap/overlap between Periods', elem); } // Only use the @duration in the MPD if we can't calculate it. We should // favor the @start of the following Period. This ensures that there // aren't gaps between Periods. if (periodDuration == null) { periodDuration = givenDuration; } // Parse child nodes. const info = { start: start, duration: periodDuration, node: elem, isLastPeriod: periodDuration == null || !next, }; const period = this.parsePeriod_(context, baseUris, info); periods.push(period); // If the period ID is new, add it to the list. This must be done for // both the initial manifest parse and for updates. // See https://github.com/google/shaka-player/issues/963 const periodId = context.period.id; goog.asserts.assert(periodId, 'Period IDs should not be null!'); if (!this.periodIds_.includes(periodId)) { this.periodIds_.push(periodId); // If this is an update, call filterNewPeriod and add it to the // manifest. // If this is the first parse of the manifest (this.manifest_ == null), // filterAllPeriods will be called later. if (this.manifest_) { this.playerInterface_.filterNewPeriod(period); this.manifest_.periods.push(period); } } if (periodDuration == null) { if (next) { // If the duration is still null and we aren't at the end, then we // will skip any remaining periods. shaka.log.warning( 'Skipping Period', i + 1, 'and any subsequent Periods:', 'Period', i + 1, 'does not have a valid start time.', next); } // The duration is unknown, so the end is unknown. prevEnd = null; break; } prevEnd = start + periodDuration; } // end of period parsing loop // Call filterAllPeriods if this is the initial parse. if (this.manifest_ == null) { this.playerInterface_.filterAllPeriods(periods); } if (presentationDuration != null) { if (prevEnd != presentationDuration) { shaka.log.warning( '@mediaPresentationDuration does not match the total duration of ', 'all Periods.'); // Assume @mediaPresentationDuration is correct. } return { periods: periods, duration: presentationDuration, durationDerivedFromPeriods: false, }; } else { return { periods: periods, duration: prevEnd, durationDerivedFromPeriods: true, }; } } /** * Parses a Period XML element. Unlike the other parse methods, this is not * given the Node; it is given a PeriodInfo structure. Also, partial parsing * was done before this was called so start and duration are valid. * * @param {shaka.dash.DashParser.Context} context * @param {!Array.} baseUris * @param {shaka.dash.DashParser.PeriodInfo} periodInfo * @return {shaka.extern.Period} * @throws shaka.util.Error When there is a parsing error. * @private */ parsePeriod_(context, baseUris, periodInfo) { const Functional = shaka.util.Functional; const XmlUtils = shaka.util.XmlUtils; const ContentType = shaka.util.ManifestParserUtils.ContentType; context.period = this.createFrame_(periodInfo.node, null, baseUris); context.periodInfo = periodInfo; // If the period doesn't have an ID, give it one based on its start time. if (!context.period.id) { shaka.log.info( 'No Period ID given for Period with start time ' + periodInfo.start + ', Assigning a default'); context.period.id = '__shaka_period_' + periodInfo.start; } const eventStreamNodes = XmlUtils.findChildren(periodInfo.node, 'EventStream'); for (const node of eventStreamNodes) { this.parseEventStream_(periodInfo.start, periodInfo.duration, node); } const adaptationSetNodes = XmlUtils.findChildren(periodInfo.node, 'AdaptationSet'); const adaptationSets = adaptationSetNodes .map((node) => this.parseAdaptationSet_(context, node)) .filter(Functional.isNotNull); // For dynamic manifests, we use rep IDs internally, and they must be // unique. if (context.dynamic) { const ids = []; for (const set of adaptationSets) { for (const id of set.representationIds) { ids.push(id); } } const uniqueIds = new Set(ids); if (ids.length != uniqueIds.size) { throw new shaka.util.Error( shaka.util.Error.Severity.CRITICAL, shaka.util.Error.Category.MANIFEST, shaka.util.Error.Code.DASH_DUPLICATE_REPRESENTATION_ID); } } const normalAdaptationSets = adaptationSets .filter((as) => { return !as.trickModeFor; }); const trickModeAdaptationSets = adaptationSets .filter((as) => { return as.trickModeFor; }); // Attach trick mode tracks to normal tracks. for (const trickModeSet of trickModeAdaptationSets) { // There may be multiple trick mode streams, but we do not currently // support that. Just choose one. const trickModeVideo = trickModeSet.streams[0]; const targetId = trickModeSet.trickModeFor; for (const normalSet of normalAdaptationSets) { if (normalSet.id == targetId) { for (const stream of normalSet.streams) { stream.trickModeVideo = trickModeVideo; } } } } let videoSets = this.getSetsOfType_(normalAdaptationSets, ContentType.VIDEO); let audioSets = this.getSetsOfType_(normalAdaptationSets, ContentType.AUDIO); if (!videoSets.length && !audioSets.length) { throw new shaka.util.Error( shaka.util.Error.Severity.CRITICAL, shaka.util.Error.Category.MANIFEST, shaka.util.Error.Code.DASH_EMPTY_PERIOD); } // In case of audio-only or video-only content, we create an array of one // item containing a null. This way, the double-loop works for all kinds of // content. if (!audioSets.length) { audioSets = [null]; } if (!videoSets.length) { videoSets = [null]; } // TODO: Limit number of combinations. Come up with a heuristic // to decide which audio tracks to combine with which video tracks. const variants = []; for (const audioSet of audioSets) { for (const videoSet of videoSets) { this.createVariants_(audioSet, videoSet, variants); } } const textSets = this.getSetsOfType_(normalAdaptationSets, ContentType.TEXT); const textStreams = []; for (const textSet of textSets) { textStreams.push(...textSet.streams); } return { startTime: periodInfo.start, textStreams: textStreams, variants: variants, }; } /** * @param {!Array.} adaptationSets * @param {string} type * @return {!Array.} * @private */ getSetsOfType_(adaptationSets, type) { return adaptationSets.filter((as) => { return as.contentType == type; }); } /** * Combines Streams into Variants * * @param {?shaka.dash.DashParser.AdaptationInfo} audio * @param {?shaka.dash.DashParser.AdaptationInfo} video * @param {!Array.} variants New variants are pushed * onto this array. * @private */ createVariants_(audio, video, variants) { const ContentType = shaka.util.ManifestParserUtils.ContentType; // Since both audio and video are of the same type, this assertion will // catch certain mistakes at runtime that the compiler would miss. goog.asserts.assert(!audio || audio.contentType == ContentType.AUDIO, 'Audio parameter mismatch!'); goog.asserts.assert(!video || video.contentType == ContentType.VIDEO, 'Video parameter mismatch!'); /** @type {number} */ let bandwidth; /** @type {shaka.extern.Variant} */ let variant; if (!audio && !video) { return; } if (audio && video) { // Audio+video variants. const DrmEngine = shaka.media.DrmEngine; if (DrmEngine.areDrmCompatible(audio.drmInfos, video.drmInfos)) { const drmInfos = DrmEngine.getCommonDrmInfos(audio.drmInfos, video.drmInfos); for (const audioStream of audio.streams) { for (const videoStream of video.streams) { bandwidth = (videoStream.bandwidth || 0) + (audioStream.bandwidth || 0); variant = { id: this.globalId_++, language: audio.language, primary: audio.main || video.main, audio: audioStream, video: videoStream, bandwidth: bandwidth, drmInfos: drmInfos, allowedByApplication: true, allowedByKeySystem: true, }; variants.push(variant); } } } } else { // Audio or video only variants. const set = audio || video; for (const stream of set.streams) { bandwidth = stream.bandwidth || 0; variant = { id: this.globalId_++, language: set.language || 'und', primary: set.main, audio: audio ? stream : null, video: video ? stream : null, bandwidth: bandwidth, drmInfos: set.drmInfos, allowedByApplication: true, allowedByKeySystem: true, }; variants.push(variant); } } } /** * Parses an AdaptationSet XML element. * * @param {shaka.dash.DashParser.Context} context * @param {!Element} elem The AdaptationSet element. * @return {?shaka.dash.DashParser.AdaptationInfo} * @throws shaka.util.Error When there is a parsing error. * @private */ parseAdaptationSet_(context, elem) { const XmlUtils = shaka.util.XmlUtils; const Functional = shaka.util.Functional; const ManifestParserUtils = shaka.util.ManifestParserUtils; const ContentType = ManifestParserUtils.ContentType; const ContentProtection = shaka.dash.ContentProtection; context.adaptationSet = this.createFrame_(elem, context.period, null); let main = false; const roleElements = XmlUtils.findChildren(elem, 'Role'); const roleValues = roleElements.map((role) => { return role.getAttribute('value'); }).filter(Functional.isNotNull); // Default kind for text streams is 'subtitle' if unspecified in the // manifest. let kind = undefined; const isText = context.adaptationSet.contentType == ContentType.TEXT; if (isText) { kind = ManifestParserUtils.TextStreamKind.SUBTITLE; } for (const roleElement of roleElements) { const scheme = roleElement.getAttribute('schemeIdUri'); if (scheme == null || scheme == 'urn:mpeg:dash:role:2011') { // These only apply for the given scheme, but allow them to be specified // if there is no scheme specified. // See: DASH section 5.8.5.5 const value = roleElement.getAttribute('value'); switch (value) { case 'main': main = true; break; case 'caption': case 'subtitle': kind = value; break; } } } const essentialProperties = XmlUtils.findChildren(elem, 'EssentialProperty'); // ID of real AdaptationSet if this is a trick mode set: let trickModeFor = null; let unrecognizedEssentialProperty = false; for (const prop of essentialProperties) { const schemeId = prop.getAttribute('schemeIdUri'); if (schemeId == 'http://dashif.org/guidelines/trickmode') { trickModeFor = prop.getAttribute('value'); } else { unrecognizedEssentialProperty = true; } } const accessibilities = XmlUtils.findChildren(elem, 'Accessibility'); const LanguageUtils = shaka.util.LanguageUtils; const closedCaptions = new Map(); for (const prop of accessibilities) { const schemeId = prop.getAttribute('schemeIdUri'); const value = prop.getAttribute('value'); if (schemeId == 'urn:scte:dash:cc:cea-608:2015' || schemeId == 'urn:scte:dash:cc:cea-708:2015') { let channelId = 1; if (value != null) { for (const captionStr of value.split(';')) { let channel; let language; // Some closed caption descriptions have channel number and // language, like "CC1=eng" or "1=lang:eng", others may only have // the language, like "eng". if (!captionStr.includes('=')) { // Since only odd numbers are used as channel numbers, like CC1, // CC3, CC5, etc, when the channel number is not provided, use an // odd number as the key. https://en.wikipedia.org/wiki/EIA-608 channel = 'CC' + channelId; channelId += 2; language = captionStr; } else { const channelAndLanguage = captionStr.split('='); // The channel info can be '1' or 'CC1'. // If the channel info only has channel number(like '1'), add 'CC' // as prefix so that it can be a full channel id (like 'CC1'). channel = channelAndLanguage[0].startsWith('CC') ? channelAndLanguage[0] : 'CC' + channelAndLanguage[0]; // The language info can be different formats, like 'eng', // 'lang:eng', or 'lang:eng,war:1,er:1'. Extract the language info // and convert it to 2-letter language code format. language = channelAndLanguage[1].split(',')[0].split(':').pop(); } closedCaptions.set(channel, LanguageUtils.normalize(language)); } } else { // If channel and language information has not been provided, assign // 'CC1' as channel id and 'und' as language info. closedCaptions.set('CC1', 'und'); } } else if (schemeId == 'urn:mpeg:dash:role:2011') { // See DASH IOP 3.9.2 Table 4. if (value != null) { roleValues.push(value); if (value == 'captions') { kind = ManifestParserUtils.TextStreamKind.CLOSED_CAPTION; } } } } // According to DASH spec (2014) section 5.8.4.8, "the successful processing // of the descriptor is essential to properly use the information in the // parent element". According to DASH IOP v3.3, section 3.3.4, "if the // scheme or the value" for EssentialProperty is not recognized, "the DASH // client shall ignore the parent element." if (unrecognizedEssentialProperty) { // Stop parsing this AdaptationSet and let the caller filter out the // nulls. return null; } const contentProtectionElems = XmlUtils.findChildren(elem, 'ContentProtection'); const contentProtection = ContentProtection.parseFromAdaptationSet( contentProtectionElems, this.config_.dash.customScheme, this.config_.dash.ignoreDrmInfo); const language = shaka.util.LanguageUtils.normalize(elem.getAttribute('lang') || 'und'); // This attribute is currently non-standard, but it is supported by Kaltura. const label = elem.getAttribute('label'); // Parse Representations into Streams. const representations = XmlUtils.findChildren(elem, 'Representation'); const streams = representations.map((representation) => { return this.parseRepresentation_(context, contentProtection, kind, language, label, main, roleValues, closedCaptions, representation); }).filter((s) => !!s); if (streams.length == 0) { // Ignore empty AdaptationSets if they are for text content. if (isText) { return null; } throw new shaka.util.Error( shaka.util.Error.Severity.CRITICAL, shaka.util.Error.Category.MANIFEST, shaka.util.Error.Code.DASH_EMPTY_ADAPTATION_SET); } // If AdaptationSet's type is unknown or is ambiguously "application", // guess based on the information in the first stream. If the attributes // mimeType and codecs are split across levels, they will both be inherited // down to the stream level by this point, so the stream will have all the // necessary information. if (!context.adaptationSet.contentType || context.adaptationSet.contentType == ContentType.APPLICATION) { const mimeType = streams[0].mimeType; const codecs = streams[0].codecs; context.adaptationSet.contentType = shaka.dash.DashParser.guessContentType_(mimeType, codecs); for (const stream of streams) { stream.type = context.adaptationSet.contentType; } } for (const stream of streams) { // Some DRM license providers require that we have a default // key ID from the manifest in the wrapped license request. // Thus, it should be put in drmInfo to be accessible to request filters. for (const drmInfo of contentProtection.drmInfos) { if (stream.keyId) { drmInfo.keyIds.push(stream.keyId); } } } const repIds = representations .map((node) => { return node.getAttribute('id'); }) .filter(shaka.util.Functional.isNotNull); return { id: context.adaptationSet.id || ('__fake__' + this.globalId_++), contentType: context.adaptationSet.contentType, language: language, main: main, streams: streams, drmInfos: contentProtection.drmInfos, trickModeFor: trickModeFor, representationIds: repIds, }; } /** * Parses a Representation XML element. * * @param {shaka.dash.DashParser.Context} context * @param {shaka.dash.ContentProtection.Context} contentProtection * @param {(string|undefined)} kind * @param {string} language * @param {string} label * @param {boolean} isPrimary * @param {!Array.} roles * @param {Map.} closedCaptions * @param {!Element} node * @return {?shaka.extern.Stream} The Stream, or null when there is a * non-critical parsing error. * @throws shaka.util.Error When there is a parsing error. * @private */ parseRepresentation_(context, contentProtection, kind, language, label, isPrimary, roles, closedCaptions, node) { const XmlUtils = shaka.util.XmlUtils; const ContentType = shaka.util.ManifestParserUtils.ContentType; context.representation = this.createFrame_(node, context.adaptationSet, null); if (!this.verifyRepresentation_(context.representation)) { shaka.log.warning('Skipping Representation', context.representation); return null; } // NOTE: bandwidth is a mandatory attribute according to the spec, and zero // does not make sense in the DASH spec's bandwidth formulas. // In some content, however, the attribute is missing or zero. // To avoid NaN at the variant level on broken content, fall back to zero. // https://github.com/google/shaka-player/issues/938#issuecomment-317278180 context.bandwidth = XmlUtils.parseAttr(node, 'bandwidth', XmlUtils.parsePositiveInt) || 0; /** @type {?shaka.dash.DashParser.StreamInfo} */ let streamInfo; const contentType = context.representation.contentType; const isText = contentType == ContentType.TEXT || contentType == ContentType.APPLICATION; try { const requestInitSegment = (uris, startByte, endByte) => { return this.requestInitSegment_(uris, startByte, endByte); }; if (context.representation.segmentBase) { streamInfo = shaka.dash.SegmentBase.createStreamInfo( context, requestInitSegment); } else if (context.representation.segmentList) { streamInfo = shaka.dash.SegmentList.createStreamInfo( context, this.segmentIndexMap_); } else if (context.representation.segmentTemplate) { const hasManifest = !!this.manifest_; streamInfo = shaka.dash.SegmentTemplate.createStreamInfo( context, requestInitSegment, this.segmentIndexMap_, hasManifest, this.config_.dash.initialSegmentLimit); } else { goog.asserts.assert(isText, 'Must have Segment* with non-text streams.'); const baseUris = context.representation.baseUris; const duration = context.periodInfo.duration || 0; streamInfo = { generateSegmentIndex: () => { return Promise.resolve(shaka.media.SegmentIndex.forSingleSegment( duration, baseUris)); }, }; } } catch (error) { if (isText && error.code == shaka.util.Error.Code.DASH_NO_SEGMENT_INFO) { // We will ignore any DASH_NO_SEGMENT_INFO errors for text streams. return null; } // For anything else, re-throw. throw error; } const contentProtectionElems = XmlUtils.findChildren(node, 'ContentProtection'); const keyId = shaka.dash.ContentProtection.parseFromRepresentation( contentProtectionElems, this.config_.dash.customScheme, contentProtection, this.config_.dash.ignoreDrmInfo); /** @type {shaka.extern.Stream} */ const stream = { id: this.globalId_++, originalId: context.representation.id, createSegmentIndex: async () => { if (!stream.segmentIndex) { stream.segmentIndex = await streamInfo.generateSegmentIndex(); } }, segmentIndex: null, mimeType: context.representation.mimeType, codecs: context.representation.codecs, frameRate: context.representation.frameRate, bandwidth: context.bandwidth, width: context.representation.width, height: context.representation.height, kind: kind, encrypted: contentProtection.drmInfos.length > 0, keyId: keyId, language: language, label: label, type: context.adaptationSet.contentType, primary: isPrimary, trickModeVideo: null, emsgSchemeIdUris: context.representation.emsgSchemeIdUris, roles: roles, channelsCount: context.representation.numChannels, closedCaptions: closedCaptions, }; return stream; } /** * Called when the update timer ticks. * * @return {!Promise} * @private */ async onUpdate_() { goog.asserts.assert(this.updatePeriod_ >= 0, 'There should be an update period'); shaka.log.info('Updating manifest...'); // Default the update delay to 0 seconds so that if there is an error we can // try again right away. let updateDelay = 0; try { updateDelay = await this.requestManifest_(); } catch (error) { goog.asserts.assert(error instanceof shaka.util.Error, 'Should only receive a Shaka error'); // Try updating again, but ensure we haven't been destroyed. if (this.playerInterface_) { // We will retry updating, so override the severity of the error. error.severity = shaka.util.Error.Severity.RECOVERABLE; this.playerInterface_.onError(error); } } // Detect a call to stop() if (!this.playerInterface_) { return; } this.setUpdateTimer_(updateDelay); } /** * Sets the update timer. Does nothing if the manifest does not specify an * update period. * * @param {number} offset An offset, in seconds, to apply to the manifest's * update period. * @private */ setUpdateTimer_(offset) { // NOTE: An updatePeriod_ of -1 means the attribute was missing. // An attribute which is present and set to 0 should still result in // periodic updates. For more, see: // https://github.com/google/shaka-player/issues/331 if (this.updatePeriod_ < 0) { return; } const finalDelay = Math.max( shaka.dash.DashParser.MIN_UPDATE_PERIOD_, this.updatePeriod_ - offset, this.averageUpdateDuration_.getEstimate()); // We do not run the timer as repeating because part of update is async and // we need schedule the update after it finished. this.updateTimer_.tickAfter(/* seconds= */ finalDelay); } /** * Creates a new inheritance frame for the given element. * * @param {!Element} elem * @param {?shaka.dash.DashParser.InheritanceFrame} parent * @param {Array.} baseUris * @return {shaka.dash.DashParser.InheritanceFrame} * @private */ createFrame_(elem, parent, baseUris) { goog.asserts.assert(parent || baseUris, 'Must provide either parent or baseUris'); const ManifestParserUtils = shaka.util.ManifestParserUtils; const XmlUtils = shaka.util.XmlUtils; parent = parent || /** @type {shaka.dash.DashParser.InheritanceFrame} */ ({ contentType: '', mimeType: '', codecs: '', emsgSchemeIdUris: [], frameRate: undefined, numChannels: null, }); baseUris = baseUris || parent.baseUris; const parseNumber = XmlUtils.parseNonNegativeInt; const evalDivision = XmlUtils.evalDivision; const uris = XmlUtils.findChildren(elem, 'BaseURL').map(XmlUtils.getContents); let contentType = elem.getAttribute('contentType') || parent.contentType; const mimeType = elem.getAttribute('mimeType') || parent.mimeType; const codecs = elem.getAttribute('codecs') || parent.codecs; const frameRate = XmlUtils.parseAttr(elem, 'frameRate', evalDivision) || parent.frameRate; const emsgSchemeIdUris = this.emsgSchemeIdUris_( XmlUtils.findChildren(elem, 'InbandEventStream'), parent.emsgSchemeIdUris); const audioChannelConfigs = XmlUtils.findChildren(elem, 'AudioChannelConfiguration'); const numChannels = this.parseAudioChannels_(audioChannelConfigs) || parent.numChannels; if (!contentType) { contentType = shaka.dash.DashParser.guessContentType_(mimeType, codecs); } return { baseUris: ManifestParserUtils.resolveUris(baseUris, uris), segmentBase: XmlUtils.findChild(elem, 'SegmentBase') || parent.segmentBase, segmentList: XmlUtils.findChild(elem, 'SegmentList') || parent.segmentList, segmentTemplate: XmlUtils.findChild(elem, 'SegmentTemplate') || parent.segmentTemplate, width: XmlUtils.parseAttr(elem, 'width', parseNumber) || parent.width, height: XmlUtils.parseAttr(elem, 'height', parseNumber) || parent.height, contentType: contentType, mimeType: mimeType, codecs: codecs, frameRate: frameRate, emsgSchemeIdUris: emsgSchemeIdUris, id: elem.getAttribute('id'), numChannels: numChannels, }; } /** * Returns a new array of InbandEventStream schemeIdUri containing the union * of the ones parsed from inBandEventStreams and the ones provided in * emsgSchemeIdUris. * * @param {!Array.} inBandEventStreams Array of InbandEventStream * elements to parse and add to the returned array. * @param {!Array.} emsgSchemeIdUris Array of parsed * InbandEventStream schemeIdUri attributes to add to the returned array. * @return {!Array.} schemeIdUris Array of parsed * InbandEventStream schemeIdUri attributes. * @private */ emsgSchemeIdUris_(inBandEventStreams, emsgSchemeIdUris) { const schemeIdUris = emsgSchemeIdUris.slice(); for (const event of inBandEventStreams) { const schemeIdUri = event.getAttribute('schemeIdUri'); if (!schemeIdUris.includes(schemeIdUri)) { schemeIdUris.push(schemeIdUri); } } return schemeIdUris; } /** * @param {!Array.} audioChannelConfigs An array of * AudioChannelConfiguration elements. * @return {?number} The number of audio channels, or null if unknown. * @private */ parseAudioChannels_(audioChannelConfigs) { for (const elem of audioChannelConfigs) { const scheme = elem.getAttribute('schemeIdUri'); if (!scheme) { continue; } const value = elem.getAttribute('value'); if (!value) { continue; } switch (scheme) { case 'urn:mpeg:dash:outputChannelPositionList:2012': // A space-separated list of speaker positions, so the number of // channels is the length of this list. return value.trim().split(/ +/).length; case 'urn:mpeg:dash:23003:3:audio_channel_configuration:2011': case 'urn:dts:dash:audio_channel_configuration:2012': { // As far as we can tell, this is a number of channels. const intValue = parseInt(value, 10); if (!intValue) { // 0 or NaN shaka.log.warning('Channel parsing failure! ' + 'Ignoring scheme and value', scheme, value); continue; } return intValue; } case 'tag:dolby.com,2014:dash:audio_channel_configuration:2011': case 'urn:dolby:dash:audio_channel_configuration:2011': { // A hex-encoded 16-bit integer, in which each bit represents a // channel. let hexValue = parseInt(value, 16); if (!hexValue) { // 0 or NaN shaka.log.warning('Channel parsing failure! ' + 'Ignoring scheme and value', scheme, value); continue; } // Count the 1-bits in hexValue. let numBits = 0; while (hexValue) { if (hexValue & 1) { ++numBits; } hexValue >>= 1; } return numBits; } default: shaka.log.warning( 'Unrecognized audio channel scheme:', scheme, value); continue; } } return null; } /** * Verifies that a Representation has exactly one Segment* element. Prints * warnings if there is a problem. * * @param {shaka.dash.DashParser.InheritanceFrame} frame * @return {boolean} True if the Representation is usable; otherwise return * false. * @private */ verifyRepresentation_(frame) { const ContentType = shaka.util.ManifestParserUtils.ContentType; let n = 0; n += frame.segmentBase ? 1 : 0; n += frame.segmentList ? 1 : 0; n += frame.segmentTemplate ? 1 : 0; if (n == 0) { // TODO: Extend with the list of MIME types registered to TextEngine. if (frame.contentType == ContentType.TEXT || frame.contentType == ContentType.APPLICATION) { return true; } else { shaka.log.warning( 'Representation does not contain a segment information source:', 'the Representation must contain one of SegmentBase, SegmentList,', 'SegmentTemplate, or explicitly indicate that it is "text".', frame); return false; } } if (n != 1) { shaka.log.warning( 'Representation contains multiple segment information sources:', 'the Representation should only contain one of SegmentBase,', 'SegmentList, or SegmentTemplate.', frame); if (frame.segmentBase) { shaka.log.info('Using SegmentBase by default.'); frame.segmentList = null; frame.segmentTemplate = null; } else { goog.asserts.assert(frame.segmentList, 'There should be a SegmentList'); shaka.log.info('Using SegmentList by default.'); frame.segmentTemplate = null; } } return true; } /** * Makes a request to the given URI and calculates the clock offset. * * @param {!Array.} baseUris * @param {string} uri * @param {string} method * @return {!Promise.} * @private */ async requestForTiming_(baseUris, uri, method) { const requestUris = shaka.util.ManifestParserUtils.resolveUris(baseUris, [uri]); const request = shaka.net.NetworkingEngine.makeRequest( requestUris, this.config_.retryParameters); request.method = method; const type = shaka.net.NetworkingEngine.RequestType.TIMING; const operation = this.playerInterface_.networkingEngine.request(type, request); this.operationManager_.manage(operation); const response = await operation.promise; let text; if (method == 'HEAD') { if (!response.headers || !response.headers['date']) { shaka.log.warning('UTC timing response is missing', 'expected date header'); return 0; } text = response.headers['date']; } else { text = shaka.util.StringUtils.fromUTF8(response.data); } const date = Date.parse(text); if (isNaN(date)) { shaka.log.warning('Unable to parse date from UTC timing response'); return 0; } return (date - Date.now()); } /** * Parses an array of UTCTiming elements. * * @param {!Array.} baseUris * @param {!Array.} elems * @return {!Promise.} * @private */ async parseUtcTiming_(baseUris, elems) { const schemesAndValues = elems.map((elem) => { return { scheme: elem.getAttribute('schemeIdUri'), value: elem.getAttribute('value'), }; }); // If there's nothing specified in the manifest, but we have a default from // the config, use that. const clockSyncUri = this.config_.dash.clockSyncUri; if (!schemesAndValues.length && clockSyncUri) { schemesAndValues.push({ scheme: 'urn:mpeg:dash:utc:http-head:2014', value: clockSyncUri, }); } for (const sv of schemesAndValues) { try { const scheme = sv.scheme; const value = sv.value; switch (scheme) { // See DASH IOP Guidelines Section 4.7 // https://bit.ly/DashIop3-2 // Some old ISO23009-1 drafts used 2012. case 'urn:mpeg:dash:utc:http-head:2014': case 'urn:mpeg:dash:utc:http-head:2012': // eslint-disable-next-line no-await-in-loop return await this.requestForTiming_(baseUris, value, 'HEAD'); case 'urn:mpeg:dash:utc:http-xsdate:2014': case 'urn:mpeg:dash:utc:http-iso:2014': case 'urn:mpeg:dash:utc:http-xsdate:2012': case 'urn:mpeg:dash:utc:http-iso:2012': // eslint-disable-next-line no-await-in-loop return await this.requestForTiming_(baseUris, value, 'GET'); case 'urn:mpeg:dash:utc:direct:2014': case 'urn:mpeg:dash:utc:direct:2012': { const date = Date.parse(value); return isNaN(date) ? 0 : (date - Date.now()); } case 'urn:mpeg:dash:utc:http-ntp:2014': case 'urn:mpeg:dash:utc:ntp:2014': case 'urn:mpeg:dash:utc:sntp:2014': shaka.log.alwaysWarn('NTP UTCTiming scheme is not supported'); break; default: shaka.log.alwaysWarn( 'Unrecognized scheme in UTCTiming element', scheme); break; } } catch (e) { shaka.log.warning('Error fetching time from UTCTiming elem', e.message); } } shaka.log.alwaysWarn( 'A UTCTiming element should always be given in live manifests! ' + 'This content may not play on clients with bad clocks!'); return 0; } /** * Parses an EventStream element. * * @param {number} periodStart * @param {?number} periodDuration * @param {!Element} elem * @private */ parseEventStream_(periodStart, periodDuration, elem) { const XmlUtils = shaka.util.XmlUtils; const parseNumber = XmlUtils.parseNonNegativeInt; const schemeIdUri = elem.getAttribute('schemeIdUri') || ''; const value = elem.getAttribute('value') || ''; const timescale = XmlUtils.parseAttr(elem, 'timescale', parseNumber) || 1; for (const eventNode of XmlUtils.findChildren(elem, 'Event')) { const presentationTime = XmlUtils.parseAttr(eventNode, 'presentationTime', parseNumber) || 0; const duration = XmlUtils.parseAttr(eventNode, 'duration', parseNumber) || 0; let startTime = presentationTime / timescale + periodStart; let endTime = startTime + (duration / timescale); if (periodDuration != null) { // An event should not go past the Period, even if the manifest says so. // See: Dash sec. 5.10.2.1 startTime = Math.min(startTime, periodStart + periodDuration); endTime = Math.min(endTime, periodStart + periodDuration); } /** @type {shaka.extern.TimelineRegionInfo} */ const region = { schemeIdUri: schemeIdUri, value: value, startTime: startTime, endTime: endTime, id: eventNode.getAttribute('id') || '', eventElement: eventNode, }; this.playerInterface_.onTimelineRegionAdded(region); } } /** * Makes a network request on behalf of SegmentBase.createStreamInfo. * * @param {!Array.} uris * @param {?number} startByte * @param {?number} endByte * @return {!Promise.} * @private */ async requestInitSegment_(uris, startByte, endByte) { const requestType = shaka.net.NetworkingEngine.RequestType.SEGMENT; const request = shaka.util.Networking.createSegmentRequest( uris, startByte, endByte, this.config_.retryParameters); const networkingEngine = this.playerInterface_.networkingEngine; const operation = networkingEngine.request(requestType, request); this.operationManager_.manage(operation); const response = await operation.promise; return response.data; } /** * Guess the content type based on MIME type and codecs. * * @param {string} mimeType * @param {string} codecs * @return {string} * @private */ static guessContentType_(mimeType, codecs) { const fullMimeType = shaka.util.MimeUtils.getFullType(mimeType, codecs); if (shaka.text.TextEngine.isTypeSupported(fullMimeType)) { // If it's supported by TextEngine, it's definitely text. // We don't check MediaSourceEngine, because that would report support // for platform-supported video and audio types as well. return shaka.util.ManifestParserUtils.ContentType.TEXT; } // Otherwise, just split the MIME type. This handles video and audio // types well. return mimeType.split('/')[0]; } }; /** * Contains the minimum amount of time, in seconds, between manifest update * requests. * * @private * @const {number} */ shaka.dash.DashParser.MIN_UPDATE_PERIOD_ = 3; /** * @typedef { * function(!Array., ?number, ?number):!Promise. * } */ shaka.dash.DashParser.RequestInitSegmentCallback; /** * @typedef {{ * segmentBase: Element, * segmentList: Element, * segmentTemplate: Element, * baseUris: !Array., * width: (number|undefined), * height: (number|undefined), * contentType: string, * mimeType: string, * codecs: string, * frameRate: (number|undefined), * emsgSchemeIdUris: !Array., * id: ?string, * numChannels: ?number * }} * * @description * A collection of elements and properties which are inherited across levels * of a DASH manifest. * * @property {Element} segmentBase * The XML node for SegmentBase. * @property {Element} segmentList * The XML node for SegmentList. * @property {Element} segmentTemplate * The XML node for SegmentTemplate. * @property {!Array.} baseUris * An array of absolute base URIs for the frame. * @property {(number|undefined)} width * The inherited width value. * @property {(number|undefined)} height * The inherited height value. * @property {string} contentType * The inherited media type. * @property {string} mimeType * The inherited MIME type value. * @property {string} codecs * The inherited codecs value. * @property {(number|undefined)} frameRate * The inherited framerate value. * @property {!Array.} emsgSchemeIdUris * emsg registered schemeIdUris. * @property {?string} id * The ID of the element. * @property {?number} numChannels * The number of audio channels, or null if unknown. */ shaka.dash.DashParser.InheritanceFrame; /** * @typedef {{ * dynamic: boolean, * presentationTimeline: !shaka.media.PresentationTimeline, * period: ?shaka.dash.DashParser.InheritanceFrame, * periodInfo: ?shaka.dash.DashParser.PeriodInfo, * adaptationSet: ?shaka.dash.DashParser.InheritanceFrame, * representation: ?shaka.dash.DashParser.InheritanceFrame, * bandwidth: number, * indexRangeWarningGiven: boolean * }} * * @description * Contains context data for the streams. This is designed to be * shallow-copyable, so the parser must overwrite (not modify) each key as the * parser moves through the manifest and the parsing context changes. * * @property {boolean} dynamic * True if the MPD is dynamic (not all segments available at once) * @property {!shaka.media.PresentationTimeline} presentationTimeline * The PresentationTimeline. * @property {?shaka.dash.DashParser.InheritanceFrame} period * The inheritance from the Period element. * @property {?shaka.dash.DashParser.PeriodInfo} periodInfo * The Period info for the current Period. * @property {?shaka.dash.DashParser.InheritanceFrame} adaptationSet * The inheritance from the AdaptationSet element. * @property {?shaka.dash.DashParser.InheritanceFrame} representation * The inheritance from the Representation element. * @property {number} bandwidth * The bandwidth of the Representation, or zero if missing. * @property {boolean} indexRangeWarningGiven * True if the warning about SegmentURL@indexRange has been printed. */ shaka.dash.DashParser.Context; /** * @typedef {{ * start: number, * duration: ?number, * node: !Element, * isLastPeriod: boolean * }} * * @description * Contains information about a Period element. * * @property {number} start * The start time of the period. * @property {?number} duration * The duration of the period; or null if the duration is not given. This * will be non-null for all periods except the last. * @property {!Element} node * The XML Node for the Period. * @property {boolean} isLastPeriod * Whether this Period is the last one in the manifest. */ shaka.dash.DashParser.PeriodInfo; /** * @typedef {{ * id: string, * contentType: ?string, * language: string, * main: boolean, * streams: !Array., * drmInfos: !Array., * trickModeFor: ?string, * representationIds: !Array. * }} * * @description * Contains information about an AdaptationSet element. * * @property {string} id * The unique ID of the adaptation set. * @property {?string} contentType * The content type of the AdaptationSet. * @property {string} language * The language of the AdaptationSet. * @property {boolean} main * Whether the AdaptationSet has the 'main' type. * @property {!Array.} streams * The streams this AdaptationSet contains. * @property {!Array.} drmInfos * The DRM info for the AdaptationSet. * @property {?string} trickModeFor * If non-null, this AdaptationInfo represents trick mode tracks. This * property is the ID of the normal AdaptationSet these tracks should be * associated with. * @property {!Array.} representationIds * An array of the IDs of the Representations this AdaptationSet contains. */ shaka.dash.DashParser.AdaptationInfo; /** * @typedef {function():!Promise.} * @description * An async function which generates and returns a SegmentIndex. */ shaka.dash.DashParser.GenerateSegmentIndexFunction; /** * @typedef {{ * generateSegmentIndex: shaka.dash.DashParser.GenerateSegmentIndexFunction * }} * * @description * Contains information about a Stream. This is passed from the createStreamInfo * methods. * * @property {shaka.dash.DashParser.GenerateSegmentIndexFunction} * generateSegmentIndex * An async function to create the SegmentIndex for the stream. */ shaka.dash.DashParser.StreamInfo; shaka.media.ManifestParser.registerParserByExtension( 'mpd', shaka.dash.DashParser); shaka.media.ManifestParser.registerParserByMime( 'application/dash+xml', shaka.dash.DashParser);