(function __HLS_WORKER_BUNDLE__(__IN_WORKER__){ (function (global, factory) { typeof exports === 'object' && typeof module !== 'undefined' ? module.exports = factory() : typeof define === 'function' && define.amd ? define(factory) : (global = typeof globalThis !== 'undefined' ? globalThis : global || self, global.Hls = factory()); })(this, (function () { 'use strict'; function ownKeys(object, enumerableOnly) { var keys = Object.keys(object); if (Object.getOwnPropertySymbols) { var symbols = Object.getOwnPropertySymbols(object); enumerableOnly && (symbols = symbols.filter(function (sym) { return Object.getOwnPropertyDescriptor(object, sym).enumerable; })), keys.push.apply(keys, symbols); } return keys; } function _objectSpread2(target) { for (var i = 1; i < arguments.length; i++) { var source = null != arguments[i] ? arguments[i] : {}; i % 2 ? ownKeys(Object(source), !0).forEach(function (key) { _defineProperty(target, key, source[key]); }) : Object.getOwnPropertyDescriptors ? Object.defineProperties(target, Object.getOwnPropertyDescriptors(source)) : ownKeys(Object(source)).forEach(function (key) { Object.defineProperty(target, key, Object.getOwnPropertyDescriptor(source, key)); }); } return target; } function _defineProperties(target, props) { for (var i = 0; i < props.length; i++) { var descriptor = props[i]; descriptor.enumerable = descriptor.enumerable || false; descriptor.configurable = true; if ("value" in descriptor) descriptor.writable = true; Object.defineProperty(target, _toPropertyKey(descriptor.key), descriptor); } } function _createClass(Constructor, protoProps, staticProps) { if (protoProps) _defineProperties(Constructor.prototype, protoProps); if (staticProps) _defineProperties(Constructor, staticProps); Object.defineProperty(Constructor, "prototype", { writable: false }); return Constructor; } function _defineProperty(obj, key, value) { key = _toPropertyKey(key); if (key in obj) { Object.defineProperty(obj, key, { value: value, enumerable: true, configurable: true, writable: true }); } else { obj[key] = value; } return obj; } function _extends() { _extends = Object.assign ? Object.assign.bind() : function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); } function _inheritsLoose(subClass, superClass) { subClass.prototype = Object.create(superClass.prototype); subClass.prototype.constructor = subClass; _setPrototypeOf(subClass, superClass); } function _getPrototypeOf(o) { _getPrototypeOf = Object.setPrototypeOf ? Object.getPrototypeOf.bind() : function _getPrototypeOf(o) { return o.__proto__ || Object.getPrototypeOf(o); }; return _getPrototypeOf(o); } function _setPrototypeOf(o, p) { _setPrototypeOf = Object.setPrototypeOf ? Object.setPrototypeOf.bind() : function _setPrototypeOf(o, p) { o.__proto__ = p; return o; }; return _setPrototypeOf(o, p); } function _isNativeReflectConstruct() { if (typeof Reflect === "undefined" || !Reflect.construct) return false; if (Reflect.construct.sham) return false; if (typeof Proxy === "function") return true; try { Boolean.prototype.valueOf.call(Reflect.construct(Boolean, [], function () {})); return true; } catch (e) { return false; } } function _construct(Parent, args, Class) { if (_isNativeReflectConstruct()) { _construct = Reflect.construct.bind(); } else { _construct = function _construct(Parent, args, Class) { var a = [null]; a.push.apply(a, args); var Constructor = Function.bind.apply(Parent, a); var instance = new Constructor(); if (Class) _setPrototypeOf(instance, Class.prototype); return instance; }; } return _construct.apply(null, arguments); } function _isNativeFunction(fn) { return Function.toString.call(fn).indexOf("[native code]") !== -1; } function _wrapNativeSuper(Class) { var _cache = typeof Map === "function" ? new Map() : undefined; _wrapNativeSuper = function _wrapNativeSuper(Class) { if (Class === null || !_isNativeFunction(Class)) return Class; if (typeof Class !== "function") { throw new TypeError("Super expression must either be null or a function"); } if (typeof _cache !== "undefined") { if (_cache.has(Class)) return _cache.get(Class); _cache.set(Class, Wrapper); } function Wrapper() { return _construct(Class, arguments, _getPrototypeOf(this).constructor); } Wrapper.prototype = Object.create(Class.prototype, { constructor: { value: Wrapper, enumerable: false, writable: true, configurable: true } }); return _setPrototypeOf(Wrapper, Class); }; return _wrapNativeSuper(Class); } function _assertThisInitialized(self) { if (self === void 0) { throw new ReferenceError("this hasn't been initialised - super() hasn't been called"); } return self; } function _unsupportedIterableToArray(o, minLen) { if (!o) return; if (typeof o === "string") return _arrayLikeToArray(o, minLen); var n = Object.prototype.toString.call(o).slice(8, -1); if (n === "Object" && o.constructor) n = o.constructor.name; if (n === "Map" || n === "Set") return Array.from(o); if (n === "Arguments" || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(n)) return _arrayLikeToArray(o, minLen); } function _arrayLikeToArray(arr, len) { if (len == null || len > arr.length) len = arr.length; for (var i = 0, arr2 = new Array(len); i < len; i++) arr2[i] = arr[i]; return arr2; } function _createForOfIteratorHelperLoose(o, allowArrayLike) { var it = typeof Symbol !== "undefined" && o[Symbol.iterator] || o["@@iterator"]; if (it) return (it = it.call(o)).next.bind(it); if (Array.isArray(o) || (it = _unsupportedIterableToArray(o)) || allowArrayLike && o && typeof o.length === "number") { if (it) o = it; var i = 0; return function () { if (i >= o.length) return { done: true }; return { done: false, value: o[i++] }; }; } throw new TypeError("Invalid attempt to iterate non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method."); } function _toPrimitive(input, hint) { if (typeof input !== "object" || input === null) return input; var prim = input[Symbol.toPrimitive]; if (prim !== undefined) { var res = prim.call(input, hint || "default"); if (typeof res !== "object") return res; throw new TypeError("@@toPrimitive must return a primitive value."); } return (hint === "string" ? String : Number)(input); } function _toPropertyKey(arg) { var key = _toPrimitive(arg, "string"); return typeof key === "symbol" ? key : String(key); } function getDefaultExportFromCjs (x) { return x && x.__esModule && Object.prototype.hasOwnProperty.call(x, 'default') ? x['default'] : x; } var urlToolkit = {exports: {}}; (function (module, exports) { // see https://tools.ietf.org/html/rfc1808 (function (root) { var URL_REGEX = /^(?=((?:[a-zA-Z0-9+\-.]+:)?))\1(?=((?:\/\/[^\/?#]*)?))\2(?=((?:(?:[^?#\/]*\/)*[^;?#\/]*)?))\3((?:;[^?#]*)?)(\?[^#]*)?(#[^]*)?$/; var FIRST_SEGMENT_REGEX = /^(?=([^\/?#]*))\1([^]*)$/; var SLASH_DOT_REGEX = /(?:\/|^)\.(?=\/)/g; var SLASH_DOT_DOT_REGEX = /(?:\/|^)\.\.\/(?!\.\.\/)[^\/]*(?=\/)/g; var URLToolkit = { // If opts.alwaysNormalize is true then the path will always be normalized even when it starts with / or // // E.g // With opts.alwaysNormalize = false (default, spec compliant) // http://a.com/b/cd + /e/f/../g => http://a.com/e/f/../g // With opts.alwaysNormalize = true (not spec compliant) // http://a.com/b/cd + /e/f/../g => http://a.com/e/g buildAbsoluteURL: function (baseURL, relativeURL, opts) { opts = opts || {}; // remove any remaining space and CRLF baseURL = baseURL.trim(); relativeURL = relativeURL.trim(); if (!relativeURL) { // 2a) If the embedded URL is entirely empty, it inherits the // entire base URL (i.e., is set equal to the base URL) // and we are done. if (!opts.alwaysNormalize) { return baseURL; } var basePartsForNormalise = URLToolkit.parseURL(baseURL); if (!basePartsForNormalise) { throw new Error('Error trying to parse base URL.'); } basePartsForNormalise.path = URLToolkit.normalizePath( basePartsForNormalise.path ); return URLToolkit.buildURLFromParts(basePartsForNormalise); } var relativeParts = URLToolkit.parseURL(relativeURL); if (!relativeParts) { throw new Error('Error trying to parse relative URL.'); } if (relativeParts.scheme) { // 2b) If the embedded URL starts with a scheme name, it is // interpreted as an absolute URL and we are done. if (!opts.alwaysNormalize) { return relativeURL; } relativeParts.path = URLToolkit.normalizePath(relativeParts.path); return URLToolkit.buildURLFromParts(relativeParts); } var baseParts = URLToolkit.parseURL(baseURL); if (!baseParts) { throw new Error('Error trying to parse base URL.'); } if (!baseParts.netLoc && baseParts.path && baseParts.path[0] !== '/') { // If netLoc missing and path doesn't start with '/', assume everthing before the first '/' is the netLoc // This causes 'example.com/a' to be handled as '//example.com/a' instead of '/example.com/a' var pathParts = FIRST_SEGMENT_REGEX.exec(baseParts.path); baseParts.netLoc = pathParts[1]; baseParts.path = pathParts[2]; } if (baseParts.netLoc && !baseParts.path) { baseParts.path = '/'; } var builtParts = { // 2c) Otherwise, the embedded URL inherits the scheme of // the base URL. scheme: baseParts.scheme, netLoc: relativeParts.netLoc, path: null, params: relativeParts.params, query: relativeParts.query, fragment: relativeParts.fragment, }; if (!relativeParts.netLoc) { // 3) If the embedded URL's is non-empty, we skip to // Step 7. Otherwise, the embedded URL inherits the // (if any) of the base URL. builtParts.netLoc = baseParts.netLoc; // 4) If the embedded URL path is preceded by a slash "/", the // path is not relative and we skip to Step 7. if (relativeParts.path[0] !== '/') { if (!relativeParts.path) { // 5) If the embedded URL path is empty (and not preceded by a // slash), then the embedded URL inherits the base URL path builtParts.path = baseParts.path; // 5a) if the embedded URL's is non-empty, we skip to // step 7; otherwise, it inherits the of the base // URL (if any) and if (!relativeParts.params) { builtParts.params = baseParts.params; // 5b) if the embedded URL's is non-empty, we skip to // step 7; otherwise, it inherits the of the base // URL (if any) and we skip to step 7. if (!relativeParts.query) { builtParts.query = baseParts.query; } } } else { // 6) The last segment of the base URL's path (anything // following the rightmost slash "/", or the entire path if no // slash is present) is removed and the embedded URL's path is // appended in its place. var baseURLPath = baseParts.path; var newPath = baseURLPath.substring(0, baseURLPath.lastIndexOf('/') + 1) + relativeParts.path; builtParts.path = URLToolkit.normalizePath(newPath); } } } if (builtParts.path === null) { builtParts.path = opts.alwaysNormalize ? URLToolkit.normalizePath(relativeParts.path) : relativeParts.path; } return URLToolkit.buildURLFromParts(builtParts); }, parseURL: function (url) { var parts = URL_REGEX.exec(url); if (!parts) { return null; } return { scheme: parts[1] || '', netLoc: parts[2] || '', path: parts[3] || '', params: parts[4] || '', query: parts[5] || '', fragment: parts[6] || '', }; }, normalizePath: function (path) { // The following operations are // then applied, in order, to the new path: // 6a) All occurrences of "./", where "." is a complete path // segment, are removed. // 6b) If the path ends with "." as a complete path segment, // that "." is removed. path = path.split('').reverse().join('').replace(SLASH_DOT_REGEX, ''); // 6c) All occurrences of "/../", where is a // complete path segment not equal to "..", are removed. // Removal of these path segments is performed iteratively, // removing the leftmost matching pattern on each iteration, // until no matching pattern remains. // 6d) If the path ends with "/..", where is a // complete path segment not equal to "..", that // "/.." is removed. while ( path.length !== (path = path.replace(SLASH_DOT_DOT_REGEX, '')).length ) {} return path.split('').reverse().join(''); }, buildURLFromParts: function (parts) { return ( parts.scheme + parts.netLoc + parts.path + parts.params + parts.query + parts.fragment ); }, }; module.exports = URLToolkit; })(); } (urlToolkit)); var urlToolkitExports = urlToolkit.exports; var isFiniteNumber = Number.isFinite || function (value) { return typeof value === 'number' && isFinite(value); }; var Events = /*#__PURE__*/function (Events) { Events["MEDIA_ATTACHING"] = "hlsMediaAttaching"; Events["MEDIA_ATTACHED"] = "hlsMediaAttached"; Events["MEDIA_DETACHING"] = "hlsMediaDetaching"; Events["MEDIA_DETACHED"] = "hlsMediaDetached"; Events["BUFFER_RESET"] = "hlsBufferReset"; Events["BUFFER_CODECS"] = "hlsBufferCodecs"; Events["BUFFER_CREATED"] = "hlsBufferCreated"; Events["BUFFER_APPENDING"] = "hlsBufferAppending"; Events["BUFFER_APPENDED"] = "hlsBufferAppended"; Events["BUFFER_EOS"] = "hlsBufferEos"; Events["BUFFER_FLUSHING"] = "hlsBufferFlushing"; Events["BUFFER_FLUSHED"] = "hlsBufferFlushed"; Events["MANIFEST_LOADING"] = "hlsManifestLoading"; Events["MANIFEST_LOADED"] = "hlsManifestLoaded"; Events["MANIFEST_PARSED"] = "hlsManifestParsed"; Events["LEVEL_SWITCHING"] = "hlsLevelSwitching"; Events["LEVEL_SWITCHED"] = "hlsLevelSwitched"; Events["LEVEL_LOADING"] = "hlsLevelLoading"; Events["LEVEL_LOADED"] = "hlsLevelLoaded"; Events["LEVEL_UPDATED"] = "hlsLevelUpdated"; Events["LEVEL_PTS_UPDATED"] = "hlsLevelPtsUpdated"; Events["LEVELS_UPDATED"] = "hlsLevelsUpdated"; Events["AUDIO_TRACKS_UPDATED"] = "hlsAudioTracksUpdated"; Events["AUDIO_TRACK_SWITCHING"] = "hlsAudioTrackSwitching"; Events["AUDIO_TRACK_SWITCHED"] = "hlsAudioTrackSwitched"; Events["AUDIO_TRACK_LOADING"] = "hlsAudioTrackLoading"; Events["AUDIO_TRACK_LOADED"] = "hlsAudioTrackLoaded"; Events["SUBTITLE_TRACKS_UPDATED"] = "hlsSubtitleTracksUpdated"; Events["SUBTITLE_TRACKS_CLEARED"] = "hlsSubtitleTracksCleared"; Events["SUBTITLE_TRACK_SWITCH"] = "hlsSubtitleTrackSwitch"; Events["SUBTITLE_TRACK_LOADING"] = "hlsSubtitleTrackLoading"; Events["SUBTITLE_TRACK_LOADED"] = "hlsSubtitleTrackLoaded"; Events["SUBTITLE_FRAG_PROCESSED"] = "hlsSubtitleFragProcessed"; Events["CUES_PARSED"] = "hlsCuesParsed"; Events["NON_NATIVE_TEXT_TRACKS_FOUND"] = "hlsNonNativeTextTracksFound"; Events["INIT_PTS_FOUND"] = "hlsInitPtsFound"; Events["FRAG_LOADING"] = "hlsFragLoading"; Events["FRAG_LOAD_EMERGENCY_ABORTED"] = "hlsFragLoadEmergencyAborted"; Events["FRAG_LOADED"] = "hlsFragLoaded"; Events["FRAG_DECRYPTED"] = "hlsFragDecrypted"; Events["FRAG_PARSING_INIT_SEGMENT"] = "hlsFragParsingInitSegment"; Events["FRAG_PARSING_USERDATA"] = "hlsFragParsingUserdata"; Events["FRAG_PARSING_METADATA"] = "hlsFragParsingMetadata"; Events["FRAG_PARSED"] = "hlsFragParsed"; Events["FRAG_BUFFERED"] = "hlsFragBuffered"; Events["FRAG_CHANGED"] = "hlsFragChanged"; Events["FPS_DROP"] = "hlsFpsDrop"; Events["FPS_DROP_LEVEL_CAPPING"] = "hlsFpsDropLevelCapping"; Events["ERROR"] = "hlsError"; Events["DESTROYING"] = "hlsDestroying"; Events["KEY_LOADING"] = "hlsKeyLoading"; Events["KEY_LOADED"] = "hlsKeyLoaded"; Events["LIVE_BACK_BUFFER_REACHED"] = "hlsLiveBackBufferReached"; Events["BACK_BUFFER_REACHED"] = "hlsBackBufferReached"; return Events; }({}); /** * Defines each Event type and payload by Event name. Used in {@link hls.js#HlsEventEmitter} to strongly type the event listener API. */ var ErrorTypes = /*#__PURE__*/function (ErrorTypes) { ErrorTypes["NETWORK_ERROR"] = "networkError"; ErrorTypes["MEDIA_ERROR"] = "mediaError"; ErrorTypes["KEY_SYSTEM_ERROR"] = "keySystemError"; ErrorTypes["MUX_ERROR"] = "muxError"; ErrorTypes["OTHER_ERROR"] = "otherError"; return ErrorTypes; }({}); var ErrorDetails = /*#__PURE__*/function (ErrorDetails) { ErrorDetails["KEY_SYSTEM_NO_KEYS"] = "keySystemNoKeys"; ErrorDetails["KEY_SYSTEM_NO_ACCESS"] = "keySystemNoAccess"; ErrorDetails["KEY_SYSTEM_NO_SESSION"] = "keySystemNoSession"; ErrorDetails["KEY_SYSTEM_NO_CONFIGURED_LICENSE"] = "keySystemNoConfiguredLicense"; ErrorDetails["KEY_SYSTEM_LICENSE_REQUEST_FAILED"] = "keySystemLicenseRequestFailed"; ErrorDetails["KEY_SYSTEM_SERVER_CERTIFICATE_REQUEST_FAILED"] = "keySystemServerCertificateRequestFailed"; ErrorDetails["KEY_SYSTEM_SERVER_CERTIFICATE_UPDATE_FAILED"] = "keySystemServerCertificateUpdateFailed"; ErrorDetails["KEY_SYSTEM_SESSION_UPDATE_FAILED"] = "keySystemSessionUpdateFailed"; ErrorDetails["KEY_SYSTEM_STATUS_OUTPUT_RESTRICTED"] = "keySystemStatusOutputRestricted"; ErrorDetails["KEY_SYSTEM_STATUS_INTERNAL_ERROR"] = "keySystemStatusInternalError"; ErrorDetails["MANIFEST_LOAD_ERROR"] = "manifestLoadError"; ErrorDetails["MANIFEST_LOAD_TIMEOUT"] = "manifestLoadTimeOut"; ErrorDetails["MANIFEST_PARSING_ERROR"] = "manifestParsingError"; ErrorDetails["MANIFEST_INCOMPATIBLE_CODECS_ERROR"] = "manifestIncompatibleCodecsError"; ErrorDetails["LEVEL_EMPTY_ERROR"] = "levelEmptyError"; ErrorDetails["LEVEL_LOAD_ERROR"] = "levelLoadError"; ErrorDetails["LEVEL_LOAD_TIMEOUT"] = "levelLoadTimeOut"; ErrorDetails["LEVEL_PARSING_ERROR"] = "levelParsingError"; ErrorDetails["LEVEL_SWITCH_ERROR"] = "levelSwitchError"; ErrorDetails["AUDIO_TRACK_LOAD_ERROR"] = "audioTrackLoadError"; ErrorDetails["AUDIO_TRACK_LOAD_TIMEOUT"] = "audioTrackLoadTimeOut"; ErrorDetails["SUBTITLE_LOAD_ERROR"] = "subtitleTrackLoadError"; ErrorDetails["SUBTITLE_TRACK_LOAD_TIMEOUT"] = "subtitleTrackLoadTimeOut"; ErrorDetails["FRAG_LOAD_ERROR"] = "fragLoadError"; ErrorDetails["FRAG_LOAD_TIMEOUT"] = "fragLoadTimeOut"; ErrorDetails["FRAG_DECRYPT_ERROR"] = "fragDecryptError"; ErrorDetails["FRAG_PARSING_ERROR"] = "fragParsingError"; ErrorDetails["FRAG_GAP"] = "fragGap"; ErrorDetails["REMUX_ALLOC_ERROR"] = "remuxAllocError"; ErrorDetails["KEY_LOAD_ERROR"] = "keyLoadError"; ErrorDetails["KEY_LOAD_TIMEOUT"] = "keyLoadTimeOut"; ErrorDetails["BUFFER_ADD_CODEC_ERROR"] = "bufferAddCodecError"; ErrorDetails["BUFFER_INCOMPATIBLE_CODECS_ERROR"] = "bufferIncompatibleCodecsError"; ErrorDetails["BUFFER_APPEND_ERROR"] = "bufferAppendError"; ErrorDetails["BUFFER_APPENDING_ERROR"] = "bufferAppendingError"; ErrorDetails["BUFFER_STALLED_ERROR"] = "bufferStalledError"; ErrorDetails["BUFFER_FULL_ERROR"] = "bufferFullError"; ErrorDetails["BUFFER_SEEK_OVER_HOLE"] = "bufferSeekOverHole"; ErrorDetails["BUFFER_NUDGE_ON_STALL"] = "bufferNudgeOnStall"; ErrorDetails["INTERNAL_EXCEPTION"] = "internalException"; ErrorDetails["INTERNAL_ABORTED"] = "aborted"; ErrorDetails["UNKNOWN"] = "unknown"; return ErrorDetails; }({}); var noop = function noop() {}; var fakeLogger = { trace: noop, debug: noop, log: noop, warn: noop, info: noop, error: noop }; var exportedLogger = fakeLogger; // let lastCallTime; // function formatMsgWithTimeInfo(type, msg) { // const now = Date.now(); // const diff = lastCallTime ? '+' + (now - lastCallTime) : '0'; // lastCallTime = now; // msg = (new Date(now)).toISOString() + ' | [' + type + '] > ' + msg + ' ( ' + diff + ' ms )'; // return msg; // } function consolePrintFn(type) { var func = self.console[type]; if (func) { return func.bind(self.console, "[" + type + "] >"); } return noop; } function exportLoggerFunctions(debugConfig) { for (var _len = arguments.length, functions = new Array(_len > 1 ? _len - 1 : 0), _key = 1; _key < _len; _key++) { functions[_key - 1] = arguments[_key]; } functions.forEach(function (type) { exportedLogger[type] = debugConfig[type] ? debugConfig[type].bind(debugConfig) : consolePrintFn(type); }); } function enableLogs(debugConfig, id) { // check that console is available if (self.console && debugConfig === true || typeof debugConfig === 'object') { exportLoggerFunctions(debugConfig, // Remove out from list here to hard-disable a log-level // 'trace', 'debug', 'log', 'info', 'warn', 'error'); // Some browsers don't allow to use bind on console object anyway // fallback to default if needed try { exportedLogger.log("Debug logs enabled for \"" + id + "\" in hls.js version " + "1.4.10"); } catch (e) { exportedLogger = fakeLogger; } } else { exportedLogger = fakeLogger; } } var logger = exportedLogger; var DECIMAL_RESOLUTION_REGEX = /^(\d+)x(\d+)$/; var ATTR_LIST_REGEX = /(.+?)=(".*?"|.*?)(?:,|$)/g; // adapted from https://github.com/kanongil/node-m3u8parse/blob/master/attrlist.js var AttrList = /*#__PURE__*/function () { function AttrList(attrs) { if (typeof attrs === 'string') { attrs = AttrList.parseAttrList(attrs); } for (var attr in attrs) { if (attrs.hasOwnProperty(attr)) { if (attr.substring(0, 2) === 'X-') { this.clientAttrs = this.clientAttrs || []; this.clientAttrs.push(attr); } this[attr] = attrs[attr]; } } } var _proto = AttrList.prototype; _proto.decimalInteger = function decimalInteger(attrName) { var intValue = parseInt(this[attrName], 10); if (intValue > Number.MAX_SAFE_INTEGER) { return Infinity; } return intValue; }; _proto.hexadecimalInteger = function hexadecimalInteger(attrName) { if (this[attrName]) { var stringValue = (this[attrName] || '0x').slice(2); stringValue = (stringValue.length & 1 ? '0' : '') + stringValue; var value = new Uint8Array(stringValue.length / 2); for (var i = 0; i < stringValue.length / 2; i++) { value[i] = parseInt(stringValue.slice(i * 2, i * 2 + 2), 16); } return value; } else { return null; } }; _proto.hexadecimalIntegerAsNumber = function hexadecimalIntegerAsNumber(attrName) { var intValue = parseInt(this[attrName], 16); if (intValue > Number.MAX_SAFE_INTEGER) { return Infinity; } return intValue; }; _proto.decimalFloatingPoint = function decimalFloatingPoint(attrName) { return parseFloat(this[attrName]); }; _proto.optionalFloat = function optionalFloat(attrName, defaultValue) { var value = this[attrName]; return value ? parseFloat(value) : defaultValue; }; _proto.enumeratedString = function enumeratedString(attrName) { return this[attrName]; }; _proto.bool = function bool(attrName) { return this[attrName] === 'YES'; }; _proto.decimalResolution = function decimalResolution(attrName) { var res = DECIMAL_RESOLUTION_REGEX.exec(this[attrName]); if (res === null) { return undefined; } return { width: parseInt(res[1], 10), height: parseInt(res[2], 10) }; }; AttrList.parseAttrList = function parseAttrList(input) { var match; var attrs = {}; var quote = '"'; ATTR_LIST_REGEX.lastIndex = 0; while ((match = ATTR_LIST_REGEX.exec(input)) !== null) { var value = match[2]; if (value.indexOf(quote) === 0 && value.lastIndexOf(quote) === value.length - 1) { value = value.slice(1, -1); } var name = match[1].trim(); attrs[name] = value; } return attrs; }; return AttrList; }(); // Avoid exporting const enum so that these values can be inlined function isDateRangeCueAttribute(attrName) { return attrName !== "ID" && attrName !== "CLASS" && attrName !== "START-DATE" && attrName !== "DURATION" && attrName !== "END-DATE" && attrName !== "END-ON-NEXT"; } function isSCTE35Attribute(attrName) { return attrName === "SCTE35-OUT" || attrName === "SCTE35-IN"; } var DateRange = /*#__PURE__*/function () { function DateRange(dateRangeAttr, dateRangeWithSameId) { this.attr = void 0; this._startDate = void 0; this._endDate = void 0; this._badValueForSameId = void 0; if (dateRangeWithSameId) { var previousAttr = dateRangeWithSameId.attr; for (var key in previousAttr) { if (Object.prototype.hasOwnProperty.call(dateRangeAttr, key) && dateRangeAttr[key] !== previousAttr[key]) { logger.warn("DATERANGE tag attribute: \"" + key + "\" does not match for tags with ID: \"" + dateRangeAttr.ID + "\""); this._badValueForSameId = key; break; } } // Merge DateRange tags with the same ID dateRangeAttr = _extends(new AttrList({}), previousAttr, dateRangeAttr); } this.attr = dateRangeAttr; this._startDate = new Date(dateRangeAttr["START-DATE"]); if ("END-DATE" in this.attr) { var endDate = new Date(this.attr["END-DATE"]); if (isFiniteNumber(endDate.getTime())) { this._endDate = endDate; } } } _createClass(DateRange, [{ key: "id", get: function get() { return this.attr.ID; } }, { key: "class", get: function get() { return this.attr.CLASS; } }, { key: "startDate", get: function get() { return this._startDate; } }, { key: "endDate", get: function get() { if (this._endDate) { return this._endDate; } var duration = this.duration; if (duration !== null) { return new Date(this._startDate.getTime() + duration * 1000); } return null; } }, { key: "duration", get: function get() { if ("DURATION" in this.attr) { var duration = this.attr.decimalFloatingPoint("DURATION"); if (isFiniteNumber(duration)) { return duration; } } else if (this._endDate) { return (this._endDate.getTime() - this._startDate.getTime()) / 1000; } return null; } }, { key: "plannedDuration", get: function get() { if ("PLANNED-DURATION" in this.attr) { return this.attr.decimalFloatingPoint("PLANNED-DURATION"); } return null; } }, { key: "endOnNext", get: function get() { return this.attr.bool("END-ON-NEXT"); } }, { key: "isValid", get: function get() { return !!this.id && !this._badValueForSameId && isFiniteNumber(this.startDate.getTime()) && (this.duration === null || this.duration >= 0) && (!this.endOnNext || !!this.class); } }]); return DateRange; }(); var LoadStats = function LoadStats() { this.aborted = false; this.loaded = 0; this.retry = 0; this.total = 0; this.chunkCount = 0; this.bwEstimate = 0; this.loading = { start: 0, first: 0, end: 0 }; this.parsing = { start: 0, end: 0 }; this.buffering = { start: 0, first: 0, end: 0 }; }; var ElementaryStreamTypes = { AUDIO: "audio", VIDEO: "video", AUDIOVIDEO: "audiovideo" }; var BaseSegment = /*#__PURE__*/function () { // baseurl is the URL to the playlist // relurl is the portion of the URL that comes from inside the playlist. // Holds the types of data this fragment supports function BaseSegment(baseurl) { var _this$elementaryStrea; this._byteRange = null; this._url = null; this.baseurl = void 0; this.relurl = void 0; this.elementaryStreams = (_this$elementaryStrea = {}, _this$elementaryStrea[ElementaryStreamTypes.AUDIO] = null, _this$elementaryStrea[ElementaryStreamTypes.VIDEO] = null, _this$elementaryStrea[ElementaryStreamTypes.AUDIOVIDEO] = null, _this$elementaryStrea); this.baseurl = baseurl; } // setByteRange converts a EXT-X-BYTERANGE attribute into a two element array var _proto = BaseSegment.prototype; _proto.setByteRange = function setByteRange(value, previous) { var params = value.split('@', 2); var byteRange = []; if (params.length === 1) { byteRange[0] = previous ? previous.byteRangeEndOffset : 0; } else { byteRange[0] = parseInt(params[1]); } byteRange[1] = parseInt(params[0]) + byteRange[0]; this._byteRange = byteRange; }; _createClass(BaseSegment, [{ key: "byteRange", get: function get() { if (!this._byteRange) { return []; } return this._byteRange; } }, { key: "byteRangeStartOffset", get: function get() { return this.byteRange[0]; } }, { key: "byteRangeEndOffset", get: function get() { return this.byteRange[1]; } }, { key: "url", get: function get() { if (!this._url && this.baseurl && this.relurl) { this._url = urlToolkitExports.buildAbsoluteURL(this.baseurl, this.relurl, { alwaysNormalize: true }); } return this._url || ''; }, set: function set(value) { this._url = value; } }]); return BaseSegment; }(); /** * Object representing parsed data from an HLS Segment. Found in {@link hls.js#LevelDetails.fragments}. */ var Fragment = /*#__PURE__*/function (_BaseSegment) { _inheritsLoose(Fragment, _BaseSegment); // EXTINF has to be present for a m3u8 to be considered valid // sn notates the sequence number for a segment, and if set to a string can be 'initSegment' // levelkeys are the EXT-X-KEY tags that apply to this segment for decryption // core difference from the private field _decryptdata is the lack of the initialized IV // _decryptdata will set the IV for this segment based on the segment number in the fragment // A string representing the fragment type // A reference to the loader. Set while the fragment is loading, and removed afterwards. Used to abort fragment loading // A reference to the key loader. Set while the key is loading, and removed afterwards. Used to abort key loading // The level/track index to which the fragment belongs // The continuity counter of the fragment // The starting Presentation Time Stamp (PTS) of the fragment. Set after transmux complete. // The ending Presentation Time Stamp (PTS) of the fragment. Set after transmux complete. // The starting Decode Time Stamp (DTS) of the fragment. Set after transmux complete. // The ending Decode Time Stamp (DTS) of the fragment. Set after transmux complete. // The start time of the fragment, as listed in the manifest. Updated after transmux complete. // Set by `updateFragPTSDTS` in level-helper // The maximum starting Presentation Time Stamp (audio/video PTS) of the fragment. Set after transmux complete. // The minimum ending Presentation Time Stamp (audio/video PTS) of the fragment. Set after transmux complete. // Load/parse timing information // A flag indicating whether the segment was downloaded in order to test bitrate, and was not buffered // #EXTINF segment title // The Media Initialization Section for this segment // Fragment is the last fragment in the media playlist // Fragment is marked by an EXT-X-GAP tag indicating that it does not contain media data and should not be loaded function Fragment(type, baseurl) { var _this; _this = _BaseSegment.call(this, baseurl) || this; _this._decryptdata = null; _this.rawProgramDateTime = null; _this.programDateTime = null; _this.tagList = []; _this.duration = 0; _this.sn = 0; _this.levelkeys = void 0; _this.type = void 0; _this.loader = null; _this.keyLoader = null; _this.level = -1; _this.cc = 0; _this.startPTS = void 0; _this.endPTS = void 0; _this.startDTS = void 0; _this.endDTS = void 0; _this.start = 0; _this.deltaPTS = void 0; _this.maxStartPTS = void 0; _this.minEndPTS = void 0; _this.stats = new LoadStats(); _this.urlId = 0; _this.data = void 0; _this.bitrateTest = false; _this.title = null; _this.initSegment = null; _this.endList = void 0; _this.gap = void 0; _this.type = type; return _this; } var _proto2 = Fragment.prototype; _proto2.setKeyFormat = function setKeyFormat(keyFormat) { if (this.levelkeys) { var _key = this.levelkeys[keyFormat]; if (_key && !this._decryptdata) { this._decryptdata = _key.getDecryptData(this.sn); } } }; _proto2.abortRequests = function abortRequests() { var _this$loader, _this$keyLoader; (_this$loader = this.loader) == null ? void 0 : _this$loader.abort(); (_this$keyLoader = this.keyLoader) == null ? void 0 : _this$keyLoader.abort(); }; _proto2.setElementaryStreamInfo = function setElementaryStreamInfo(type, startPTS, endPTS, startDTS, endDTS, partial) { if (partial === void 0) { partial = false; } var elementaryStreams = this.elementaryStreams; var info = elementaryStreams[type]; if (!info) { elementaryStreams[type] = { startPTS: startPTS, endPTS: endPTS, startDTS: startDTS, endDTS: endDTS, partial: partial }; return; } info.startPTS = Math.min(info.startPTS, startPTS); info.endPTS = Math.max(info.endPTS, endPTS); info.startDTS = Math.min(info.startDTS, startDTS); info.endDTS = Math.max(info.endDTS, endDTS); }; _proto2.clearElementaryStreamInfo = function clearElementaryStreamInfo() { var elementaryStreams = this.elementaryStreams; elementaryStreams[ElementaryStreamTypes.AUDIO] = null; elementaryStreams[ElementaryStreamTypes.VIDEO] = null; elementaryStreams[ElementaryStreamTypes.AUDIOVIDEO] = null; }; _createClass(Fragment, [{ key: "decryptdata", get: function get() { var levelkeys = this.levelkeys; if (!levelkeys && !this._decryptdata) { return null; } if (!this._decryptdata && this.levelkeys && !this.levelkeys.NONE) { var _key2 = this.levelkeys.identity; if (_key2) { this._decryptdata = _key2.getDecryptData(this.sn); } else { var keyFormats = Object.keys(this.levelkeys); if (keyFormats.length === 1) { return this._decryptdata = this.levelkeys[keyFormats[0]].getDecryptData(this.sn); } } } return this._decryptdata; } }, { key: "end", get: function get() { return this.start + this.duration; } }, { key: "endProgramDateTime", get: function get() { if (this.programDateTime === null) { return null; } if (!isFiniteNumber(this.programDateTime)) { return null; } var duration = !isFiniteNumber(this.duration) ? 0 : this.duration; return this.programDateTime + duration * 1000; } }, { key: "encrypted", get: function get() { var _this$_decryptdata; // At the m3u8-parser level we need to add support for manifest signalled keyformats // when we want the fragment to start reporting that it is encrypted. // Currently, keyFormat will only be set for identity keys if ((_this$_decryptdata = this._decryptdata) != null && _this$_decryptdata.encrypted) { return true; } else if (this.levelkeys) { var keyFormats = Object.keys(this.levelkeys); var len = keyFormats.length; if (len > 1 || len === 1 && this.levelkeys[keyFormats[0]].encrypted) { return true; } } return false; } }]); return Fragment; }(BaseSegment); /** * Object representing parsed data from an HLS Partial Segment. Found in {@link hls.js#LevelDetails.partList}. */ var Part = /*#__PURE__*/function (_BaseSegment2) { _inheritsLoose(Part, _BaseSegment2); function Part(partAttrs, frag, baseurl, index, previous) { var _this2; _this2 = _BaseSegment2.call(this, baseurl) || this; _this2.fragOffset = 0; _this2.duration = 0; _this2.gap = false; _this2.independent = false; _this2.relurl = void 0; _this2.fragment = void 0; _this2.index = void 0; _this2.stats = new LoadStats(); _this2.duration = partAttrs.decimalFloatingPoint('DURATION'); _this2.gap = partAttrs.bool('GAP'); _this2.independent = partAttrs.bool('INDEPENDENT'); _this2.relurl = partAttrs.enumeratedString('URI'); _this2.fragment = frag; _this2.index = index; var byteRange = partAttrs.enumeratedString('BYTERANGE'); if (byteRange) { _this2.setByteRange(byteRange, previous); } if (previous) { _this2.fragOffset = previous.fragOffset + previous.duration; } return _this2; } _createClass(Part, [{ key: "start", get: function get() { return this.fragment.start + this.fragOffset; } }, { key: "end", get: function get() { return this.start + this.duration; } }, { key: "loaded", get: function get() { var elementaryStreams = this.elementaryStreams; return !!(elementaryStreams.audio || elementaryStreams.video || elementaryStreams.audiovideo); } }]); return Part; }(BaseSegment); var DEFAULT_TARGET_DURATION = 10; /** * Object representing parsed data from an HLS Media Playlist. Found in {@link hls.js#Level.details}. */ var LevelDetails = /*#__PURE__*/function () { // Manifest reload synchronization function LevelDetails(baseUrl) { this.PTSKnown = false; this.alignedSliding = false; this.averagetargetduration = void 0; this.endCC = 0; this.endSN = 0; this.fragments = void 0; this.fragmentHint = void 0; this.partList = null; this.dateRanges = void 0; this.live = true; this.ageHeader = 0; this.advancedDateTime = void 0; this.updated = true; this.advanced = true; this.availabilityDelay = void 0; this.misses = 0; this.startCC = 0; this.startSN = 0; this.startTimeOffset = null; this.targetduration = 0; this.totalduration = 0; this.type = null; this.url = void 0; this.m3u8 = ''; this.version = null; this.canBlockReload = false; this.canSkipUntil = 0; this.canSkipDateRanges = false; this.skippedSegments = 0; this.recentlyRemovedDateranges = void 0; this.partHoldBack = 0; this.holdBack = 0; this.partTarget = 0; this.preloadHint = void 0; this.renditionReports = void 0; this.tuneInGoal = 0; this.deltaUpdateFailed = void 0; this.driftStartTime = 0; this.driftEndTime = 0; this.driftStart = 0; this.driftEnd = 0; this.encryptedFragments = void 0; this.playlistParsingError = null; this.variableList = null; this.hasVariableRefs = false; this.fragments = []; this.encryptedFragments = []; this.dateRanges = {}; this.url = baseUrl; } var _proto = LevelDetails.prototype; _proto.reloaded = function reloaded(previous) { if (!previous) { this.advanced = true; this.updated = true; return; } var partSnDiff = this.lastPartSn - previous.lastPartSn; var partIndexDiff = this.lastPartIndex - previous.lastPartIndex; this.updated = this.endSN !== previous.endSN || !!partIndexDiff || !!partSnDiff; this.advanced = this.endSN > previous.endSN || partSnDiff > 0 || partSnDiff === 0 && partIndexDiff > 0; if (this.updated || this.advanced) { this.misses = Math.floor(previous.misses * 0.6); } else { this.misses = previous.misses + 1; } this.availabilityDelay = previous.availabilityDelay; }; _createClass(LevelDetails, [{ key: "hasProgramDateTime", get: function get() { if (this.fragments.length) { return isFiniteNumber(this.fragments[this.fragments.length - 1].programDateTime); } return false; } }, { key: "levelTargetDuration", get: function get() { return this.averagetargetduration || this.targetduration || DEFAULT_TARGET_DURATION; } }, { key: "drift", get: function get() { var runTime = this.driftEndTime - this.driftStartTime; if (runTime > 0) { var runDuration = this.driftEnd - this.driftStart; return runDuration * 1000 / runTime; } return 1; } }, { key: "edge", get: function get() { return this.partEnd || this.fragmentEnd; } }, { key: "partEnd", get: function get() { var _this$partList; if ((_this$partList = this.partList) != null && _this$partList.length) { return this.partList[this.partList.length - 1].end; } return this.fragmentEnd; } }, { key: "fragmentEnd", get: function get() { var _this$fragments; if ((_this$fragments = this.fragments) != null && _this$fragments.length) { return this.fragments[this.fragments.length - 1].end; } return 0; } }, { key: "age", get: function get() { if (this.advancedDateTime) { return Math.max(Date.now() - this.advancedDateTime, 0) / 1000; } return 0; } }, { key: "lastPartIndex", get: function get() { var _this$partList2; if ((_this$partList2 = this.partList) != null && _this$partList2.length) { return this.partList[this.partList.length - 1].index; } return -1; } }, { key: "lastPartSn", get: function get() { var _this$partList3; if ((_this$partList3 = this.partList) != null && _this$partList3.length) { return this.partList[this.partList.length - 1].fragment.sn; } return this.endSN; } }]); return LevelDetails; }(); function base64Decode(base64encodedStr) { return Uint8Array.from(atob(base64encodedStr), function (c) { return c.charCodeAt(0); }); } function getKeyIdBytes(str) { var keyIdbytes = strToUtf8array(str).subarray(0, 16); var paddedkeyIdbytes = new Uint8Array(16); paddedkeyIdbytes.set(keyIdbytes, 16 - keyIdbytes.length); return paddedkeyIdbytes; } function changeEndianness(keyId) { var swap = function swap(array, from, to) { var cur = array[from]; array[from] = array[to]; array[to] = cur; }; swap(keyId, 0, 3); swap(keyId, 1, 2); swap(keyId, 4, 5); swap(keyId, 6, 7); } function convertDataUriToArrayBytes(uri) { // data:[ var colonsplit = uri.split(':'); var keydata = null; if (colonsplit[0] === 'data' && colonsplit.length === 2) { var semicolonsplit = colonsplit[1].split(';'); var commasplit = semicolonsplit[semicolonsplit.length - 1].split(','); if (commasplit.length === 2) { var isbase64 = commasplit[0] === 'base64'; var data = commasplit[1]; if (isbase64) { semicolonsplit.splice(-1, 1); // remove from processing keydata = base64Decode(data); } else { keydata = getKeyIdBytes(data); } } } return keydata; } function strToUtf8array(str) { return Uint8Array.from(unescape(encodeURIComponent(str)), function (c) { return c.charCodeAt(0); }); } /** * @see https://developer.mozilla.org/en-US/docs/Web/API/Navigator/requestMediaKeySystemAccess */ var KeySystems = { CLEARKEY: "org.w3.clearkey", FAIRPLAY: "com.apple.fps", PLAYREADY: "com.microsoft.playready", WIDEVINE: "com.widevine.alpha" }; // Playlist #EXT-X-KEY KEYFORMAT values var KeySystemFormats = { CLEARKEY: "org.w3.clearkey", FAIRPLAY: "com.apple.streamingkeydelivery", PLAYREADY: "com.microsoft.playready", WIDEVINE: "urn:uuid:edef8ba9-79d6-4ace-a3c8-27dcd51d21ed" }; function keySystemFormatToKeySystemDomain(format) { switch (format) { case KeySystemFormats.FAIRPLAY: return KeySystems.FAIRPLAY; case KeySystemFormats.PLAYREADY: return KeySystems.PLAYREADY; case KeySystemFormats.WIDEVINE: return KeySystems.WIDEVINE; case KeySystemFormats.CLEARKEY: return KeySystems.CLEARKEY; } } // System IDs for which we can extract a key ID from "encrypted" event PSSH var KeySystemIds = { WIDEVINE: "edef8ba979d64acea3c827dcd51d21ed" }; function keySystemIdToKeySystemDomain(systemId) { if (systemId === KeySystemIds.WIDEVINE) { return KeySystems.WIDEVINE; // } else if (systemId === KeySystemIds.PLAYREADY) { // return KeySystems.PLAYREADY; // } else if (systemId === KeySystemIds.CENC || systemId === KeySystemIds.CLEARKEY) { // return KeySystems.CLEARKEY; } } function keySystemDomainToKeySystemFormat(keySystem) { switch (keySystem) { case KeySystems.FAIRPLAY: return KeySystemFormats.FAIRPLAY; case KeySystems.PLAYREADY: return KeySystemFormats.PLAYREADY; case KeySystems.WIDEVINE: return KeySystemFormats.WIDEVINE; case KeySystems.CLEARKEY: return KeySystemFormats.CLEARKEY; } } function getKeySystemsForConfig(config) { var drmSystems = config.drmSystems, widevineLicenseUrl = config.widevineLicenseUrl; var keySystemsToAttempt = drmSystems ? [KeySystems.FAIRPLAY, KeySystems.WIDEVINE, KeySystems.PLAYREADY, KeySystems.CLEARKEY].filter(function (keySystem) { return !!drmSystems[keySystem]; }) : []; if (!keySystemsToAttempt[KeySystems.WIDEVINE] && widevineLicenseUrl) { keySystemsToAttempt.push(KeySystems.WIDEVINE); } return keySystemsToAttempt; } var requestMediaKeySystemAccess = function () { if (typeof self !== 'undefined' && self.navigator && self.navigator.requestMediaKeySystemAccess) { return self.navigator.requestMediaKeySystemAccess.bind(self.navigator); } else { return null; } }(); /** * @see https://developer.mozilla.org/en-US/docs/Web/API/MediaKeySystemConfiguration */ function getSupportedMediaKeySystemConfigurations(keySystem, audioCodecs, videoCodecs, drmSystemOptions) { var initDataTypes; switch (keySystem) { case KeySystems.FAIRPLAY: initDataTypes = ['cenc', 'sinf']; break; case KeySystems.WIDEVINE: case KeySystems.PLAYREADY: initDataTypes = ['cenc']; break; case KeySystems.CLEARKEY: initDataTypes = ['cenc', 'keyids']; break; default: throw new Error("Unknown key-system: " + keySystem); } return createMediaKeySystemConfigurations(initDataTypes, audioCodecs, videoCodecs, drmSystemOptions); } function createMediaKeySystemConfigurations(initDataTypes, audioCodecs, videoCodecs, drmSystemOptions) { var baseConfig = { initDataTypes: initDataTypes, persistentState: drmSystemOptions.persistentState || 'not-allowed', distinctiveIdentifier: drmSystemOptions.distinctiveIdentifier || 'not-allowed', sessionTypes: drmSystemOptions.sessionTypes || [drmSystemOptions.sessionType || 'temporary'], audioCapabilities: audioCodecs.map(function (codec) { return { contentType: "audio/mp4; codecs=\"" + codec + "\"", robustness: drmSystemOptions.audioRobustness || '', encryptionScheme: drmSystemOptions.audioEncryptionScheme || null }; }), videoCapabilities: videoCodecs.map(function (codec) { return { contentType: "video/mp4; codecs=\"" + codec + "\"", robustness: drmSystemOptions.videoRobustness || '', encryptionScheme: drmSystemOptions.videoEncryptionScheme || null }; }) }; return [baseConfig]; } function sliceUint8(array, start, end) { // @ts-expect-error This polyfills IE11 usage of Uint8Array slice. // It always exists in the TypeScript definition so fails, but it fails at runtime on IE11. return Uint8Array.prototype.slice ? array.slice(start, end) : new Uint8Array(Array.prototype.slice.call(array, start, end)); } // breaking up those two types in order to clarify what is happening in the decoding path. /** * Returns true if an ID3 header can be found at offset in data * @param data - The data to search * @param offset - The offset at which to start searching */ var isHeader$2 = function isHeader(data, offset) { /* * http://id3.org/id3v2.3.0 * [0] = 'I' * [1] = 'D' * [2] = '3' * [3,4] = {Version} * [5] = {Flags} * [6-9] = {ID3 Size} * * An ID3v2 tag can be detected with the following pattern: * $49 44 33 yy yy xx zz zz zz zz * Where yy is less than $FF, xx is the 'flags' byte and zz is less than $80 */ if (offset + 10 <= data.length) { // look for 'ID3' identifier if (data[offset] === 0x49 && data[offset + 1] === 0x44 && data[offset + 2] === 0x33) { // check version is within range if (data[offset + 3] < 0xff && data[offset + 4] < 0xff) { // check size is within range if (data[offset + 6] < 0x80 && data[offset + 7] < 0x80 && data[offset + 8] < 0x80 && data[offset + 9] < 0x80) { return true; } } } } return false; }; /** * Returns true if an ID3 footer can be found at offset in data * @param data - The data to search * @param offset - The offset at which to start searching */ var isFooter = function isFooter(data, offset) { /* * The footer is a copy of the header, but with a different identifier */ if (offset + 10 <= data.length) { // look for '3DI' identifier if (data[offset] === 0x33 && data[offset + 1] === 0x44 && data[offset + 2] === 0x49) { // check version is within range if (data[offset + 3] < 0xff && data[offset + 4] < 0xff) { // check size is within range if (data[offset + 6] < 0x80 && data[offset + 7] < 0x80 && data[offset + 8] < 0x80 && data[offset + 9] < 0x80) { return true; } } } } return false; }; /** * Returns any adjacent ID3 tags found in data starting at offset, as one block of data * @param data - The data to search in * @param offset - The offset at which to start searching * @returns the block of data containing any ID3 tags found * or *undefined* if no header is found at the starting offset */ var getID3Data = function getID3Data(data, offset) { var front = offset; var length = 0; while (isHeader$2(data, offset)) { // ID3 header is 10 bytes length += 10; var size = readSize(data, offset + 6); length += size; if (isFooter(data, offset + 10)) { // ID3 footer is 10 bytes length += 10; } offset += length; } if (length > 0) { return data.subarray(front, front + length); } return undefined; }; var readSize = function readSize(data, offset) { var size = 0; size = (data[offset] & 0x7f) << 21; size |= (data[offset + 1] & 0x7f) << 14; size |= (data[offset + 2] & 0x7f) << 7; size |= data[offset + 3] & 0x7f; return size; }; var canParse$2 = function canParse(data, offset) { return isHeader$2(data, offset) && readSize(data, offset + 6) + 10 <= data.length - offset; }; /** * Searches for the Elementary Stream timestamp found in the ID3 data chunk * @param data - Block of data containing one or more ID3 tags */ var getTimeStamp = function getTimeStamp(data) { var frames = getID3Frames(data); for (var i = 0; i < frames.length; i++) { var frame = frames[i]; if (isTimeStampFrame(frame)) { return readTimeStamp(frame); } } return undefined; }; /** * Returns true if the ID3 frame is an Elementary Stream timestamp frame */ var isTimeStampFrame = function isTimeStampFrame(frame) { return frame && frame.key === 'PRIV' && frame.info === 'com.apple.streaming.transportStreamTimestamp'; }; var getFrameData = function getFrameData(data) { /* Frame ID $xx xx xx xx (four characters) Size $xx xx xx xx Flags $xx xx */ var type = String.fromCharCode(data[0], data[1], data[2], data[3]); var size = readSize(data, 4); // skip frame id, size, and flags var offset = 10; return { type: type, size: size, data: data.subarray(offset, offset + size) }; }; /** * Returns an array of ID3 frames found in all the ID3 tags in the id3Data * @param id3Data - The ID3 data containing one or more ID3 tags */ var getID3Frames = function getID3Frames(id3Data) { var offset = 0; var frames = []; while (isHeader$2(id3Data, offset)) { var size = readSize(id3Data, offset + 6); // skip past ID3 header offset += 10; var end = offset + size; // loop through frames in the ID3 tag while (offset + 8 < end) { var frameData = getFrameData(id3Data.subarray(offset)); var frame = decodeFrame(frameData); if (frame) { frames.push(frame); } // skip frame header and frame data offset += frameData.size + 10; } if (isFooter(id3Data, offset)) { offset += 10; } } return frames; }; var decodeFrame = function decodeFrame(frame) { if (frame.type === 'PRIV') { return decodePrivFrame(frame); } else if (frame.type[0] === 'W') { return decodeURLFrame(frame); } return decodeTextFrame(frame); }; var decodePrivFrame = function decodePrivFrame(frame) { /* Format: \0 */ if (frame.size < 2) { return undefined; } var owner = utf8ArrayToStr(frame.data, true); var privateData = new Uint8Array(frame.data.subarray(owner.length + 1)); return { key: frame.type, info: owner, data: privateData.buffer }; }; var decodeTextFrame = function decodeTextFrame(frame) { if (frame.size < 2) { return undefined; } if (frame.type === 'TXXX') { /* Format: [0] = {Text Encoding} [1-?] = {Description}\0{Value} */ var index = 1; var description = utf8ArrayToStr(frame.data.subarray(index), true); index += description.length + 1; var value = utf8ArrayToStr(frame.data.subarray(index)); return { key: frame.type, info: description, data: value }; } /* Format: [0] = {Text Encoding} [1-?] = {Value} */ var text = utf8ArrayToStr(frame.data.subarray(1)); return { key: frame.type, data: text }; }; var decodeURLFrame = function decodeURLFrame(frame) { if (frame.type === 'WXXX') { /* Format: [0] = {Text Encoding} [1-?] = {Description}\0{URL} */ if (frame.size < 2) { return undefined; } var index = 1; var description = utf8ArrayToStr(frame.data.subarray(index), true); index += description.length + 1; var value = utf8ArrayToStr(frame.data.subarray(index)); return { key: frame.type, info: description, data: value }; } /* Format: [0-?] = {URL} */ var url = utf8ArrayToStr(frame.data); return { key: frame.type, data: url }; }; var readTimeStamp = function readTimeStamp(timeStampFrame) { if (timeStampFrame.data.byteLength === 8) { var data = new Uint8Array(timeStampFrame.data); // timestamp is 33 bit expressed as a big-endian eight-octet number, // with the upper 31 bits set to zero. var pts33Bit = data[3] & 0x1; var timestamp = (data[4] << 23) + (data[5] << 15) + (data[6] << 7) + data[7]; timestamp /= 45; if (pts33Bit) { timestamp += 47721858.84; } // 2^32 / 90 return Math.round(timestamp); } return undefined; }; // http://stackoverflow.com/questions/8936984/uint8array-to-string-in-javascript/22373197 // http://www.onicos.com/staff/iz/amuse/javascript/expert/utf.txt /* utf.js - UTF-8 <=> UTF-16 convertion * * Copyright (C) 1999 Masanao Izumo * Version: 1.0 * LastModified: Dec 25 1999 * This library is free. You can redistribute it and/or modify it. */ var utf8ArrayToStr = function utf8ArrayToStr(array, exitOnNull) { if (exitOnNull === void 0) { exitOnNull = false; } var decoder = getTextDecoder(); if (decoder) { var decoded = decoder.decode(array); if (exitOnNull) { // grab up to the first null var idx = decoded.indexOf('\0'); return idx !== -1 ? decoded.substring(0, idx) : decoded; } // remove any null characters return decoded.replace(/\0/g, ''); } var len = array.length; var c; var char2; var char3; var out = ''; var i = 0; while (i < len) { c = array[i++]; if (c === 0x00 && exitOnNull) { return out; } else if (c === 0x00 || c === 0x03) { // If the character is 3 (END_OF_TEXT) or 0 (NULL) then skip it continue; } switch (c >> 4) { case 0: case 1: case 2: case 3: case 4: case 5: case 6: case 7: // 0xxxxxxx out += String.fromCharCode(c); break; case 12: case 13: // 110x xxxx 10xx xxxx char2 = array[i++]; out += String.fromCharCode((c & 0x1f) << 6 | char2 & 0x3f); break; case 14: // 1110 xxxx 10xx xxxx 10xx xxxx char2 = array[i++]; char3 = array[i++]; out += String.fromCharCode((c & 0x0f) << 12 | (char2 & 0x3f) << 6 | (char3 & 0x3f) << 0); break; } } return out; }; var decoder; function getTextDecoder() { if (!decoder && typeof self.TextDecoder !== 'undefined') { decoder = new self.TextDecoder('utf-8'); } return decoder; } /** * hex dump helper class */ var Hex = { hexDump: function hexDump(array) { var str = ''; for (var i = 0; i < array.length; i++) { var h = array[i].toString(16); if (h.length < 2) { h = '0' + h; } str += h; } return str; } }; var UINT32_MAX$1 = Math.pow(2, 32) - 1; var push = [].push; // We are using fixed track IDs for driving the MP4 remuxer // instead of following the TS PIDs. // There is no reason not to do this and some browsers/SourceBuffer-demuxers // may not like if there are TrackID "switches" // See https://github.com/video-dev/hls.js/issues/1331 // Here we are mapping our internal track types to constant MP4 track IDs // With MSE currently one can only have one track of each, and we are muxing // whatever video/audio rendition in them. var RemuxerTrackIdConfig = { video: 1, audio: 2, id3: 3, text: 4 }; function bin2str(data) { return String.fromCharCode.apply(null, data); } function readUint16(buffer, offset) { var val = buffer[offset] << 8 | buffer[offset + 1]; return val < 0 ? 65536 + val : val; } function readUint32(buffer, offset) { var val = readSint32(buffer, offset); return val < 0 ? 4294967296 + val : val; } function readSint32(buffer, offset) { return buffer[offset] << 24 | buffer[offset + 1] << 16 | buffer[offset + 2] << 8 | buffer[offset + 3]; } function writeUint32(buffer, offset, value) { buffer[offset] = value >> 24; buffer[offset + 1] = value >> 16 & 0xff; buffer[offset + 2] = value >> 8 & 0xff; buffer[offset + 3] = value & 0xff; } // Find the data for a box specified by its path function findBox(data, path) { var results = []; if (!path.length) { // short-circuit the search for empty paths return results; } var end = data.byteLength; for (var i = 0; i < end;) { var size = readUint32(data, i); var type = bin2str(data.subarray(i + 4, i + 8)); var endbox = size > 1 ? i + size : end; if (type === path[0]) { if (path.length === 1) { // this is the end of the path and we've found the box we were // looking for results.push(data.subarray(i + 8, endbox)); } else { // recursively search for the next box along the path var subresults = findBox(data.subarray(i + 8, endbox), path.slice(1)); if (subresults.length) { push.apply(results, subresults); } } } i = endbox; } // we've finished searching all of data return results; } function parseSegmentIndex(sidx) { var references = []; var version = sidx[0]; // set initial offset, we skip the reference ID (not needed) var index = 8; var timescale = readUint32(sidx, index); index += 4; // TODO: parse earliestPresentationTime and firstOffset // usually zero in our case var earliestPresentationTime = 0; var firstOffset = 0; if (version === 0) { index += 8; } else { index += 16; } // skip reserved index += 2; var startByte = sidx.length + firstOffset; var referencesCount = readUint16(sidx, index); index += 2; for (var i = 0; i < referencesCount; i++) { var referenceIndex = index; var referenceInfo = readUint32(sidx, referenceIndex); referenceIndex += 4; var referenceSize = referenceInfo & 0x7fffffff; var referenceType = (referenceInfo & 0x80000000) >>> 31; if (referenceType === 1) { logger.warn('SIDX has hierarchical references (not supported)'); return null; } var subsegmentDuration = readUint32(sidx, referenceIndex); referenceIndex += 4; references.push({ referenceSize: referenceSize, subsegmentDuration: subsegmentDuration, // unscaled info: { duration: subsegmentDuration / timescale, start: startByte, end: startByte + referenceSize - 1 } }); startByte += referenceSize; // Skipping 1 bit for |startsWithSap|, 3 bits for |sapType|, and 28 bits // for |sapDelta|. referenceIndex += 4; // skip to next ref index = referenceIndex; } return { earliestPresentationTime: earliestPresentationTime, timescale: timescale, version: version, referencesCount: referencesCount, references: references }; } /** * Parses an MP4 initialization segment and extracts stream type and * timescale values for any declared tracks. Timescale values indicate the * number of clock ticks per second to assume for time-based values * elsewhere in the MP4. * * To determine the start time of an MP4, you need two pieces of * information: the timescale unit and the earliest base media decode * time. Multiple timescales can be specified within an MP4 but the * base media decode time is always expressed in the timescale from * the media header box for the track: * ``` * moov > trak > mdia > mdhd.timescale * moov > trak > mdia > hdlr * ``` * @param initSegment the bytes of the init segment * @returns a hash of track type to timescale values or null if * the init segment is malformed. */ function parseInitSegment(initSegment) { var result = []; var traks = findBox(initSegment, ['moov', 'trak']); for (var i = 0; i < traks.length; i++) { var trak = traks[i]; var tkhd = findBox(trak, ['tkhd'])[0]; if (tkhd) { var version = tkhd[0]; var _index = version === 0 ? 12 : 20; var trackId = readUint32(tkhd, _index); var mdhd = findBox(trak, ['mdia', 'mdhd'])[0]; if (mdhd) { version = mdhd[0]; _index = version === 0 ? 12 : 20; var timescale = readUint32(mdhd, _index); var hdlr = findBox(trak, ['mdia', 'hdlr'])[0]; if (hdlr) { var hdlrType = bin2str(hdlr.subarray(8, 12)); var type = { soun: ElementaryStreamTypes.AUDIO, vide: ElementaryStreamTypes.VIDEO }[hdlrType]; if (type) { // Parse codec details var stsd = findBox(trak, ['mdia', 'minf', 'stbl', 'stsd'])[0]; var codec = void 0; if (stsd) { codec = bin2str(stsd.subarray(12, 16)); // TODO: Parse codec details to be able to build MIME type. // stsd.start += 8; // const codecBox = findBox(stsd, [codec])[0]; // if (codecBox) { // TODO: Codec parsing support for avc1, mp4a, hevc, av01... // } } result[trackId] = { timescale: timescale, type: type }; result[type] = { timescale: timescale, id: trackId, codec: codec }; } } } } } var trex = findBox(initSegment, ['moov', 'mvex', 'trex']); trex.forEach(function (trex) { var trackId = readUint32(trex, 4); var track = result[trackId]; if (track) { track.default = { duration: readUint32(trex, 12), flags: readUint32(trex, 20) }; } }); return result; } function patchEncyptionData(initSegment, decryptdata) { if (!initSegment || !decryptdata) { return initSegment; } var keyId = decryptdata.keyId; if (keyId && decryptdata.isCommonEncryption) { var traks = findBox(initSegment, ['moov', 'trak']); traks.forEach(function (trak) { var stsd = findBox(trak, ['mdia', 'minf', 'stbl', 'stsd'])[0]; // skip the sample entry count var sampleEntries = stsd.subarray(8); var encBoxes = findBox(sampleEntries, ['enca']); var isAudio = encBoxes.length > 0; if (!isAudio) { encBoxes = findBox(sampleEntries, ['encv']); } encBoxes.forEach(function (enc) { var encBoxChildren = isAudio ? enc.subarray(28) : enc.subarray(78); var sinfBoxes = findBox(encBoxChildren, ['sinf']); sinfBoxes.forEach(function (sinf) { var tenc = parseSinf(sinf); if (tenc) { // Look for default key id (keyID offset is always 8 within the tenc box): var tencKeyId = tenc.subarray(8, 24); if (!tencKeyId.some(function (b) { return b !== 0; })) { logger.log("[eme] Patching keyId in 'enc" + (isAudio ? 'a' : 'v') + ">sinf>>tenc' box: " + Hex.hexDump(tencKeyId) + " -> " + Hex.hexDump(keyId)); tenc.set(keyId, 8); } } }); }); }); } return initSegment; } function parseSinf(sinf) { var schm = findBox(sinf, ['schm'])[0]; if (schm) { var scheme = bin2str(schm.subarray(4, 8)); if (scheme === 'cbcs' || scheme === 'cenc') { return findBox(sinf, ['schi', 'tenc'])[0]; } } logger.error("[eme] missing 'schm' box"); return null; } /** * Determine the base media decode start time, in seconds, for an MP4 * fragment. If multiple fragments are specified, the earliest time is * returned. * * The base media decode time can be parsed from track fragment * metadata: * ``` * moof > traf > tfdt.baseMediaDecodeTime * ``` * It requires the timescale value from the mdhd to interpret. * * @param initData - a hash of track type to timescale values * @param fmp4 - the bytes of the mp4 fragment * @returns the earliest base media decode start time for the * fragment, in seconds */ function getStartDTS(initData, fmp4) { // we need info from two children of each track fragment box return findBox(fmp4, ['moof', 'traf']).reduce(function (result, traf) { var tfdt = findBox(traf, ['tfdt'])[0]; var version = tfdt[0]; var start = findBox(traf, ['tfhd']).reduce(function (result, tfhd) { // get the track id from the tfhd var id = readUint32(tfhd, 4); var track = initData[id]; if (track) { var baseTime = readUint32(tfdt, 4); if (version === 1) { // If value is too large, assume signed 64-bit. Negative track fragment decode times are invalid, but they exist in the wild. // This prevents large values from being used for initPTS, which can cause playlist sync issues. // https://github.com/video-dev/hls.js/issues/5303 if (baseTime === UINT32_MAX$1) { logger.warn("[mp4-demuxer]: Ignoring assumed invalid signed 64-bit track fragment decode time"); return result; } baseTime *= UINT32_MAX$1 + 1; baseTime += readUint32(tfdt, 8); } // assume a 90kHz clock if no timescale was specified var scale = track.timescale || 90e3; // convert base time to seconds var startTime = baseTime / scale; if (isFinite(startTime) && (result === null || startTime < result)) { return startTime; } } return result; }, null); if (start !== null && isFinite(start) && (result === null || start < result)) { return start; } return result; }, null); } /* For Reference: aligned(8) class TrackFragmentHeaderBox extends FullBox(‘tfhd’, 0, tf_flags){ unsigned int(32) track_ID; // all the following are optional fields unsigned int(64) base_data_offset; unsigned int(32) sample_description_index; unsigned int(32) default_sample_duration; unsigned int(32) default_sample_size; unsigned int(32) default_sample_flags } */ function getDuration(data, initData) { var rawDuration = 0; var videoDuration = 0; var audioDuration = 0; var trafs = findBox(data, ['moof', 'traf']); for (var i = 0; i < trafs.length; i++) { var traf = trafs[i]; // There is only one tfhd & trun per traf // This is true for CMAF style content, and we should perhaps check the ftyp // and only look for a single trun then, but for ISOBMFF we should check // for multiple track runs. var tfhd = findBox(traf, ['tfhd'])[0]; // get the track id from the tfhd var id = readUint32(tfhd, 4); var track = initData[id]; if (!track) { continue; } var trackDefault = track.default; var tfhdFlags = readUint32(tfhd, 0) | (trackDefault == null ? void 0 : trackDefault.flags); var sampleDuration = trackDefault == null ? void 0 : trackDefault.duration; if (tfhdFlags & 0x000008) { // 0x000008 indicates the presence of the default_sample_duration field if (tfhdFlags & 0x000002) { // 0x000002 indicates the presence of the sample_description_index field, which precedes default_sample_duration // If present, the default_sample_duration exists at byte offset 12 sampleDuration = readUint32(tfhd, 12); } else { // Otherwise, the duration is at byte offset 8 sampleDuration = readUint32(tfhd, 8); } } // assume a 90kHz clock if no timescale was specified var timescale = track.timescale || 90e3; var truns = findBox(traf, ['trun']); for (var j = 0; j < truns.length; j++) { rawDuration = computeRawDurationFromSamples(truns[j]); if (!rawDuration && sampleDuration) { var sampleCount = readUint32(truns[j], 4); rawDuration = sampleDuration * sampleCount; } if (track.type === ElementaryStreamTypes.VIDEO) { videoDuration += rawDuration / timescale; } else if (track.type === ElementaryStreamTypes.AUDIO) { audioDuration += rawDuration / timescale; } } } if (videoDuration === 0 && audioDuration === 0) { // If duration samples are not available in the traf use sidx subsegment_duration var sidxDuration = 0; var sidxs = findBox(data, ['sidx']); for (var _i = 0; _i < sidxs.length; _i++) { var sidx = parseSegmentIndex(sidxs[_i]); if (sidx != null && sidx.references) { sidxDuration += sidx.references.reduce(function (dur, ref) { return dur + ref.info.duration || 0; }, 0); } } return sidxDuration; } if (videoDuration) { return videoDuration; } return audioDuration; } /* For Reference: aligned(8) class TrackRunBox extends FullBox(‘trun’, version, tr_flags) { unsigned int(32) sample_count; // the following are optional fields signed int(32) data_offset; unsigned int(32) first_sample_flags; // all fields in the following array are optional { unsigned int(32) sample_duration; unsigned int(32) sample_size; unsigned int(32) sample_flags if (version == 0) { unsigned int(32) else { signed int(32) }[ sample_count ] } */ function computeRawDurationFromSamples(trun) { var flags = readUint32(trun, 0); // Flags are at offset 0, non-optional sample_count is at offset 4. Therefore we start 8 bytes in. // Each field is an int32, which is 4 bytes var offset = 8; // data-offset-present flag if (flags & 0x000001) { offset += 4; } // first-sample-flags-present flag if (flags & 0x000004) { offset += 4; } var duration = 0; var sampleCount = readUint32(trun, 4); for (var i = 0; i < sampleCount; i++) { // sample-duration-present flag if (flags & 0x000100) { var sampleDuration = readUint32(trun, offset); duration += sampleDuration; offset += 4; } // sample-size-present flag if (flags & 0x000200) { offset += 4; } // sample-flags-present flag if (flags & 0x000400) { offset += 4; } // sample-composition-time-offsets-present flag if (flags & 0x000800) { offset += 4; } } return duration; } function offsetStartDTS(initData, fmp4, timeOffset) { findBox(fmp4, ['moof', 'traf']).forEach(function (traf) { findBox(traf, ['tfhd']).forEach(function (tfhd) { // get the track id from the tfhd var id = readUint32(tfhd, 4); var track = initData[id]; if (!track) { return; } // assume a 90kHz clock if no timescale was specified var timescale = track.timescale || 90e3; // get the base media decode time from the tfdt findBox(traf, ['tfdt']).forEach(function (tfdt) { var version = tfdt[0]; var baseMediaDecodeTime = readUint32(tfdt, 4); if (version === 0) { baseMediaDecodeTime -= timeOffset * timescale; baseMediaDecodeTime = Math.max(baseMediaDecodeTime, 0); writeUint32(tfdt, 4, baseMediaDecodeTime); } else { baseMediaDecodeTime *= Math.pow(2, 32); baseMediaDecodeTime += readUint32(tfdt, 8); baseMediaDecodeTime -= timeOffset * timescale; baseMediaDecodeTime = Math.max(baseMediaDecodeTime, 0); var upper = Math.floor(baseMediaDecodeTime / (UINT32_MAX$1 + 1)); var lower = Math.floor(baseMediaDecodeTime % (UINT32_MAX$1 + 1)); writeUint32(tfdt, 4, upper); writeUint32(tfdt, 8, lower); } }); }); }); } // TODO: Check if the last moof+mdat pair is part of the valid range function segmentValidRange(data) { var segmentedRange = { valid: null, remainder: null }; var moofs = findBox(data, ['moof']); if (!moofs) { return segmentedRange; } else if (moofs.length < 2) { segmentedRange.remainder = data; return segmentedRange; } var last = moofs[moofs.length - 1]; // Offset by 8 bytes; findBox offsets the start by as much segmentedRange.valid = sliceUint8(data, 0, last.byteOffset - 8); segmentedRange.remainder = sliceUint8(data, last.byteOffset - 8); return segmentedRange; } function appendUint8Array(data1, data2) { var temp = new Uint8Array(data1.length + data2.length); temp.set(data1); temp.set(data2, data1.length); return temp; } function parseSamples(timeOffset, track) { var seiSamples = []; var videoData = track.samples; var timescale = track.timescale; var trackId = track.id; var isHEVCFlavor = false; var moofs = findBox(videoData, ['moof']); moofs.map(function (moof) { var moofOffset = moof.byteOffset - 8; var trafs = findBox(moof, ['traf']); trafs.map(function (traf) { // get the base media decode time from the tfdt var baseTime = findBox(traf, ['tfdt']).map(function (tfdt) { var version = tfdt[0]; var result = readUint32(tfdt, 4); if (version === 1) { result *= Math.pow(2, 32); result += readUint32(tfdt, 8); } return result / timescale; })[0]; if (baseTime !== undefined) { timeOffset = baseTime; } return findBox(traf, ['tfhd']).map(function (tfhd) { var id = readUint32(tfhd, 4); var tfhdFlags = readUint32(tfhd, 0) & 0xffffff; var baseDataOffsetPresent = (tfhdFlags & 0x000001) !== 0; var sampleDescriptionIndexPresent = (tfhdFlags & 0x000002) !== 0; var defaultSampleDurationPresent = (tfhdFlags & 0x000008) !== 0; var defaultSampleDuration = 0; var defaultSampleSizePresent = (tfhdFlags & 0x000010) !== 0; var defaultSampleSize = 0; var defaultSampleFlagsPresent = (tfhdFlags & 0x000020) !== 0; var tfhdOffset = 8; if (id === trackId) { if (baseDataOffsetPresent) { tfhdOffset += 8; } if (sampleDescriptionIndexPresent) { tfhdOffset += 4; } if (defaultSampleDurationPresent) { defaultSampleDuration = readUint32(tfhd, tfhdOffset); tfhdOffset += 4; } if (defaultSampleSizePresent) { defaultSampleSize = readUint32(tfhd, tfhdOffset); tfhdOffset += 4; } if (defaultSampleFlagsPresent) { tfhdOffset += 4; } if (track.type === 'video') { isHEVCFlavor = isHEVC(track.codec); } findBox(traf, ['trun']).map(function (trun) { var version = trun[0]; var flags = readUint32(trun, 0) & 0xffffff; var dataOffsetPresent = (flags & 0x000001) !== 0; var dataOffset = 0; var firstSampleFlagsPresent = (flags & 0x000004) !== 0; var sampleDurationPresent = (flags & 0x000100) !== 0; var sampleDuration = 0; var sampleSizePresent = (flags & 0x000200) !== 0; var sampleSize = 0; var sampleFlagsPresent = (flags & 0x000400) !== 0; var sampleCompositionOffsetsPresent = (flags & 0x000800) !== 0; var compositionOffset = 0; var sampleCount = readUint32(trun, 4); var trunOffset = 8; // past version, flags, and sample count if (dataOffsetPresent) { dataOffset = readUint32(trun, trunOffset); trunOffset += 4; } if (firstSampleFlagsPresent) { trunOffset += 4; } var sampleOffset = dataOffset + moofOffset; for (var ix = 0; ix < sampleCount; ix++) { if (sampleDurationPresent) { sampleDuration = readUint32(trun, trunOffset); trunOffset += 4; } else { sampleDuration = defaultSampleDuration; } if (sampleSizePresent) { sampleSize = readUint32(trun, trunOffset); trunOffset += 4; } else { sampleSize = defaultSampleSize; } if (sampleFlagsPresent) { trunOffset += 4; } if (sampleCompositionOffsetsPresent) { if (version === 0) { compositionOffset = readUint32(trun, trunOffset); } else { compositionOffset = readSint32(trun, trunOffset); } trunOffset += 4; } if (track.type === ElementaryStreamTypes.VIDEO) { var naluTotalSize = 0; while (naluTotalSize < sampleSize) { var naluSize = readUint32(videoData, sampleOffset); sampleOffset += 4; if (isSEIMessage(isHEVCFlavor, videoData[sampleOffset])) { var data = videoData.subarray(sampleOffset, sampleOffset + naluSize); parseSEIMessageFromNALu(data, isHEVCFlavor ? 2 : 1, timeOffset + compositionOffset / timescale, seiSamples); } sampleOffset += naluSize; naluTotalSize += naluSize + 4; } } timeOffset += sampleDuration / timescale; } }); } }); }); }); return seiSamples; } function isHEVC(codec) { if (!codec) { return false; } var delimit = codec.indexOf('.'); var baseCodec = delimit < 0 ? codec : codec.substring(0, delimit); return baseCodec === 'hvc1' || baseCodec === 'hev1' || // Dolby Vision baseCodec === 'dvh1' || baseCodec === 'dvhe'; } function isSEIMessage(isHEVCFlavor, naluHeader) { if (isHEVCFlavor) { var naluType = naluHeader >> 1 & 0x3f; return naluType === 39 || naluType === 40; } else { var _naluType = naluHeader & 0x1f; return _naluType === 6; } } function parseSEIMessageFromNALu(unescapedData, headerSize, pts, samples) { var data = discardEPB(unescapedData); var seiPtr = 0; // skip nal header seiPtr += headerSize; var payloadType = 0; var payloadSize = 0; var endOfCaptions = false; var b = 0; while (seiPtr < data.length) { payloadType = 0; do { if (seiPtr >= data.length) { break; } b = data[seiPtr++]; payloadType += b; } while (b === 0xff); // Parse payload size. payloadSize = 0; do { if (seiPtr >= data.length) { break; } b = data[seiPtr++]; payloadSize += b; } while (b === 0xff); var leftOver = data.length - seiPtr; if (!endOfCaptions && payloadType === 4 && seiPtr < data.length) { endOfCaptions = true; var countryCode = data[seiPtr++]; if (countryCode === 181) { var providerCode = readUint16(data, seiPtr); seiPtr += 2; if (providerCode === 49) { var userStructure = readUint32(data, seiPtr); seiPtr += 4; if (userStructure === 0x47413934) { var userDataType = data[seiPtr++]; // Raw CEA-608 bytes wrapped in CEA-708 packet if (userDataType === 3) { var firstByte = data[seiPtr++]; var totalCCs = 0x1f & firstByte; var enabled = 0x40 & firstByte; var totalBytes = enabled ? 2 + totalCCs * 3 : 0; var byteArray = new Uint8Array(totalBytes); if (enabled) { byteArray[0] = firstByte; for (var i = 1; i < totalBytes; i++) { byteArray[i] = data[seiPtr++]; } } samples.push({ type: userDataType, payloadType: payloadType, pts: pts, bytes: byteArray }); } } } } } else if (payloadType === 5 && payloadSize < leftOver) { endOfCaptions = true; if (payloadSize > 16) { var uuidStrArray = []; for (var _i2 = 0; _i2 < 16; _i2++) { var _b = data[seiPtr++].toString(16); uuidStrArray.push(_b.length == 1 ? '0' + _b : _b); if (_i2 === 3 || _i2 === 5 || _i2 === 7 || _i2 === 9) { uuidStrArray.push('-'); } } var length = payloadSize - 16; var userDataBytes = new Uint8Array(length); for (var _i3 = 0; _i3 < length; _i3++) { userDataBytes[_i3] = data[seiPtr++]; } samples.push({ payloadType: payloadType, pts: pts, uuid: uuidStrArray.join(''), userData: utf8ArrayToStr(userDataBytes), userDataBytes: userDataBytes }); } } else if (payloadSize < leftOver) { seiPtr += payloadSize; } else if (payloadSize > leftOver) { break; } } } /** * remove Emulation Prevention bytes from a RBSP */ function discardEPB(data) { var length = data.byteLength; var EPBPositions = []; var i = 1; // Find all `Emulation Prevention Bytes` while (i < length - 2) { if (data[i] === 0 && data[i + 1] === 0 && data[i + 2] === 0x03) { EPBPositions.push(i + 2); i += 2; } else { i++; } } // If no Emulation Prevention Bytes were found just return the original // array if (EPBPositions.length === 0) { return data; } // Create a new array to hold the NAL unit data var newLength = length - EPBPositions.length; var newData = new Uint8Array(newLength); var sourceIndex = 0; for (i = 0; i < newLength; sourceIndex++, i++) { if (sourceIndex === EPBPositions[0]) { // Skip this byte sourceIndex++; // Remove this position index EPBPositions.shift(); } newData[i] = data[sourceIndex]; } return newData; } function parseEmsg(data) { var version = data[0]; var schemeIdUri = ''; var value = ''; var timeScale = 0; var presentationTimeDelta = 0; var presentationTime = 0; var eventDuration = 0; var id = 0; var offset = 0; if (version === 0) { while (bin2str(data.subarray(offset, offset + 1)) !== '\0') { schemeIdUri += bin2str(data.subarray(offset, offset + 1)); offset += 1; } schemeIdUri += bin2str(data.subarray(offset, offset + 1)); offset += 1; while (bin2str(data.subarray(offset, offset + 1)) !== '\0') { value += bin2str(data.subarray(offset, offset + 1)); offset += 1; } value += bin2str(data.subarray(offset, offset + 1)); offset += 1; timeScale = readUint32(data, 12); presentationTimeDelta = readUint32(data, 16); eventDuration = readUint32(data, 20); id = readUint32(data, 24); offset = 28; } else if (version === 1) { offset += 4; timeScale = readUint32(data, offset); offset += 4; var leftPresentationTime = readUint32(data, offset); offset += 4; var rightPresentationTime = readUint32(data, offset); offset += 4; presentationTime = Math.pow(2, 32) * leftPresentationTime + rightPresentationTime; if (!Number.isSafeInteger(presentationTime)) { presentationTime = Number.MAX_SAFE_INTEGER; logger.warn('Presentation time exceeds safe integer limit and wrapped to max safe integer in parsing emsg box'); } eventDuration = readUint32(data, offset); offset += 4; id = readUint32(data, offset); offset += 4; while (bin2str(data.subarray(offset, offset + 1)) !== '\0') { schemeIdUri += bin2str(data.subarray(offset, offset + 1)); offset += 1; } schemeIdUri += bin2str(data.subarray(offset, offset + 1)); offset += 1; while (bin2str(data.subarray(offset, offset + 1)) !== '\0') { value += bin2str(data.subarray(offset, offset + 1)); offset += 1; } value += bin2str(data.subarray(offset, offset + 1)); offset += 1; } var payload = data.subarray(offset, data.byteLength); return { schemeIdUri: schemeIdUri, value: value, timeScale: timeScale, presentationTime: presentationTime, presentationTimeDelta: presentationTimeDelta, eventDuration: eventDuration, id: id, payload: payload }; } function mp4Box(type) { for (var _len = arguments.length, payload = new Array(_len > 1 ? _len - 1 : 0), _key = 1; _key < _len; _key++) { payload[_key - 1] = arguments[_key]; } var len = payload.length; var size = 8; var i = len; while (i--) { size += payload[i].byteLength; } var result = new Uint8Array(size); result[0] = size >> 24 & 0xff; result[1] = size >> 16 & 0xff; result[2] = size >> 8 & 0xff; result[3] = size & 0xff; result.set(type, 4); for (i = 0, size = 8; i < len; i++) { result.set(payload[i], size); size += payload[i].byteLength; } return result; } function mp4pssh(systemId, keyids, data) { if (systemId.byteLength !== 16) { throw new RangeError('Invalid system id'); } var version; var kids; if (keyids) { version = 1; kids = new Uint8Array(keyids.length * 16); for (var ix = 0; ix < keyids.length; ix++) { var k = keyids[ix]; // uint8array if (k.byteLength !== 16) { throw new RangeError('Invalid key'); } kids.set(k, ix * 16); } } else { version = 0; kids = new Uint8Array(); } var kidCount; if (version > 0) { kidCount = new Uint8Array(4); if (keyids.length > 0) { new DataView(kidCount.buffer).setUint32(0, keyids.length, false); } } else { kidCount = new Uint8Array(); } var dataSize = new Uint8Array(4); if (data && data.byteLength > 0) { new DataView(dataSize.buffer).setUint32(0, data.byteLength, false); } return mp4Box([112, 115, 115, 104], new Uint8Array([version, 0x00, 0x00, 0x00 // Flags ]), systemId, // 16 bytes kidCount, kids, dataSize, data || new Uint8Array()); } function parsePssh(initData) { if (!(initData instanceof ArrayBuffer) || initData.byteLength < 32) { return null; } var result = { version: 0, systemId: '', kids: null, data: null }; var view = new DataView(initData); var boxSize = view.getUint32(0); if (initData.byteLength !== boxSize && boxSize > 44) { return null; } var type = view.getUint32(4); if (type !== 0x70737368) { return null; } result.version = view.getUint32(8) >>> 24; if (result.version > 1) { return null; } result.systemId = Hex.hexDump(new Uint8Array(initData, 12, 16)); var dataSizeOrKidCount = view.getUint32(28); if (result.version === 0) { if (boxSize - 32 < dataSizeOrKidCount) { return null; } result.data = new Uint8Array(initData, 32, dataSizeOrKidCount); } else if (result.version === 1) { result.kids = []; for (var i = 0; i < dataSizeOrKidCount; i++) { result.kids.push(new Uint8Array(initData, 32 + i * 16, 16)); } } return result; } var keyUriToKeyIdMap = {}; var LevelKey = /*#__PURE__*/function () { LevelKey.clearKeyUriToKeyIdMap = function clearKeyUriToKeyIdMap() { keyUriToKeyIdMap = {}; }; function LevelKey(method, uri, format, formatversions, iv) { if (formatversions === void 0) { formatversions = [1]; } if (iv === void 0) { iv = null; } this.uri = void 0; this.method = void 0; this.keyFormat = void 0; this.keyFormatVersions = void 0; this.encrypted = void 0; this.isCommonEncryption = void 0; this.iv = null; this.key = null; this.keyId = null; this.pssh = null; this.method = method; this.uri = uri; this.keyFormat = format; this.keyFormatVersions = formatversions; this.iv = iv; this.encrypted = method ? method !== 'NONE' : false; this.isCommonEncryption = this.encrypted && method !== 'AES-128'; } var _proto = LevelKey.prototype; _proto.isSupported = function isSupported() { // If it's Segment encryption or No encryption, just select that key system if (this.method) { if (this.method === 'AES-128' || this.method === 'NONE') { return true; } if (this.keyFormat === 'identity') { // Maintain support for clear SAMPLE-AES with MPEG-3 TS return this.method === 'SAMPLE-AES'; } else { switch (this.keyFormat) { case KeySystemFormats.FAIRPLAY: case KeySystemFormats.WIDEVINE: case KeySystemFormats.PLAYREADY: case KeySystemFormats.CLEARKEY: return ['ISO-23001-7', 'SAMPLE-AES', 'SAMPLE-AES-CENC', 'SAMPLE-AES-CTR'].indexOf(this.method) !== -1; } } } return false; }; _proto.getDecryptData = function getDecryptData(sn) { if (!this.encrypted || !this.uri) { return null; } if (this.method === 'AES-128' && this.uri && !this.iv) { if (typeof sn !== 'number') { // We are fetching decryption data for a initialization segment // If the segment was encrypted with AES-128 // It must have an IV defined. We cannot substitute the Segment Number in. if (this.method === 'AES-128' && !this.iv) { logger.warn("missing IV for initialization segment with method=\"" + this.method + "\" - compliance issue"); } // Explicitly set sn to resulting value from implicit conversions 'initSegment' values for IV generation. sn = 0; } var iv = createInitializationVector(sn); var decryptdata = new LevelKey(this.method, this.uri, 'identity', this.keyFormatVersions, iv); return decryptdata; } // Initialize keyId if possible var keyBytes = convertDataUriToArrayBytes(this.uri); if (keyBytes) { switch (this.keyFormat) { case KeySystemFormats.WIDEVINE: this.pssh = keyBytes; // In case of widevine keyID is embedded in PSSH box. Read Key ID. if (keyBytes.length >= 22) { this.keyId = keyBytes.subarray(keyBytes.length - 22, keyBytes.length - 6); } break; case KeySystemFormats.PLAYREADY: { var PlayReadyKeySystemUUID = new Uint8Array([0x9a, 0x04, 0xf0, 0x79, 0x98, 0x40, 0x42, 0x86, 0xab, 0x92, 0xe6, 0x5b, 0xe0, 0x88, 0x5f, 0x95]); this.pssh = mp4pssh(PlayReadyKeySystemUUID, null, keyBytes); var keyBytesUtf16 = new Uint16Array(keyBytes.buffer, keyBytes.byteOffset, keyBytes.byteLength / 2); var keyByteStr = String.fromCharCode.apply(null, Array.from(keyBytesUtf16)); // Parse Playready WRMHeader XML var xmlKeyBytes = keyByteStr.substring(keyByteStr.indexOf('<'), keyByteStr.length); var parser = new DOMParser(); var xmlDoc = parser.parseFromString(xmlKeyBytes, 'text/xml'); var keyData = xmlDoc.getElementsByTagName('KID')[0]; if (keyData) { var keyId = keyData.childNodes[0] ? keyData.childNodes[0].nodeValue : keyData.getAttribute('VALUE'); if (keyId) { var keyIdArray = base64Decode(keyId).subarray(0, 16); // KID value in PRO is a base64-encoded little endian GUID interpretation of UUID // KID value in ‘tenc’ is a big endian UUID GUID interpretation of UUID changeEndianness(keyIdArray); this.keyId = keyIdArray; } } break; } default: { var keydata = keyBytes.subarray(0, 16); if (keydata.length !== 16) { var padded = new Uint8Array(16); padded.set(keydata, 16 - keydata.length); keydata = padded; } this.keyId = keydata; break; } } } // Default behavior: assign a new keyId for each uri if (!this.keyId || this.keyId.byteLength !== 16) { var _keyId = keyUriToKeyIdMap[this.uri]; if (!_keyId) { var val = Object.keys(keyUriToKeyIdMap).length % Number.MAX_SAFE_INTEGER; _keyId = new Uint8Array(16); var dv = new DataView(_keyId.buffer, 12, 4); // Just set the last 4 bytes dv.setUint32(0, val); keyUriToKeyIdMap[this.uri] = _keyId; } this.keyId = _keyId; } return this; }; return LevelKey; }(); function createInitializationVector(segmentNumber) { var uint8View = new Uint8Array(16); for (var i = 12; i < 16; i++) { uint8View[i] = segmentNumber >> 8 * (15 - i) & 0xff; } return uint8View; } var VARIABLE_REPLACEMENT_REGEX = /\{\$([a-zA-Z0-9-_]+)\}/g; function hasVariableReferences(str) { return VARIABLE_REPLACEMENT_REGEX.test(str); } function substituteVariablesInAttributes(parsed, attr, attributeNames) { if (parsed.variableList !== null || parsed.hasVariableRefs) { for (var i = attributeNames.length; i--;) { var name = attributeNames[i]; var value = attr[name]; if (value) { attr[name] = substituteVariables(parsed, value); } } } } function substituteVariables(parsed, value) { if (parsed.variableList !== null || parsed.hasVariableRefs) { var variableList = parsed.variableList; return value.replace(VARIABLE_REPLACEMENT_REGEX, function (variableReference) { var variableName = variableReference.substring(2, variableReference.length - 1); var variableValue = variableList == null ? void 0 : variableList[variableName]; if (variableValue === undefined) { parsed.playlistParsingError || (parsed.playlistParsingError = new Error("Missing preceding EXT-X-DEFINE tag for Variable Reference: \"" + variableName + "\"")); return variableReference; } return variableValue; }); } return value; } function addVariableDefinition(parsed, attr, parentUrl) { var variableList = parsed.variableList; if (!variableList) { parsed.variableList = variableList = {}; } var NAME; var VALUE; if ('QUERYPARAM' in attr) { NAME = attr.QUERYPARAM; try { var searchParams = new self.URL(parentUrl).searchParams; if (searchParams.has(NAME)) { VALUE = searchParams.get(NAME); } else { throw new Error("\"" + NAME + "\" does not match any query parameter in URI: \"" + parentUrl + "\""); } } catch (error) { parsed.playlistParsingError || (parsed.playlistParsingError = new Error("EXT-X-DEFINE QUERYPARAM: " + error.message)); } } else { NAME = attr.NAME; VALUE = attr.VALUE; } if (NAME in variableList) { parsed.playlistParsingError || (parsed.playlistParsingError = new Error("EXT-X-DEFINE duplicate Variable Name declarations: \"" + NAME + "\"")); } else { variableList[NAME] = VALUE || ''; } } function importVariableDefinition(parsed, attr, sourceVariableList) { var IMPORT = attr.IMPORT; if (sourceVariableList && IMPORT in sourceVariableList) { var variableList = parsed.variableList; if (!variableList) { parsed.variableList = variableList = {}; } variableList[IMPORT] = sourceVariableList[IMPORT]; } else { parsed.playlistParsingError || (parsed.playlistParsingError = new Error("EXT-X-DEFINE IMPORT attribute not found in Multivariant Playlist: \"" + IMPORT + "\"")); } } /** * MediaSource helper */ function getMediaSource() { if (typeof self === 'undefined') return undefined; return self.MediaSource || self.WebKitMediaSource; } // from http://mp4ra.org/codecs.html var sampleEntryCodesISO = { audio: { a3ds: true, 'ac-3': true, 'ac-4': true, alac: true, alaw: true, dra1: true, 'dts+': true, 'dts-': true, dtsc: true, dtse: true, dtsh: true, 'ec-3': true, enca: true, g719: true, g726: true, m4ae: true, mha1: true, mha2: true, mhm1: true, mhm2: true, mlpa: true, mp4a: true, 'raw ': true, Opus: true, opus: true, // browsers expect this to be lowercase despite MP4RA says 'Opus' samr: true, sawb: true, sawp: true, sevc: true, sqcp: true, ssmv: true, twos: true, ulaw: true }, video: { avc1: true, avc2: true, avc3: true, avc4: true, avcp: true, av01: true, drac: true, dva1: true, dvav: true, dvh1: true, dvhe: true, encv: true, hev1: true, hvc1: true, mjp2: true, mp4v: true, mvc1: true, mvc2: true, mvc3: true, mvc4: true, resv: true, rv60: true, s263: true, svc1: true, svc2: true, 'vc-1': true, vp08: true, vp09: true }, text: { stpp: true, wvtt: true } }; var MediaSource$2 = getMediaSource(); function isCodecType(codec, type) { var typeCodes = sampleEntryCodesISO[type]; return !!typeCodes && typeCodes[codec.slice(0, 4)] === true; } function isCodecSupportedInMp4(codec, type) { var _MediaSource$isTypeSu; return (_MediaSource$isTypeSu = MediaSource$2 == null ? void 0 : MediaSource$2.isTypeSupported((type || 'video') + "/mp4;codecs=\"" + codec + "\"")) != null ? _MediaSource$isTypeSu : false; } var MASTER_PLAYLIST_REGEX = /#EXT-X-STREAM-INF:([^\r\n]*)(?:[\r\n](?:#[^\r\n]*)?)*([^\r\n]+)|#EXT-X-(SESSION-DATA|SESSION-KEY|DEFINE|CONTENT-STEERING|START):([^\r\n]*)[\r\n]+/g; var MASTER_PLAYLIST_MEDIA_REGEX = /#EXT-X-MEDIA:(.*)/g; var IS_MEDIA_PLAYLIST = /^#EXT(?:INF|-X-TARGETDURATION):/m; // Handle empty Media Playlist (first EXTINF not signaled, but TARGETDURATION present) var LEVEL_PLAYLIST_REGEX_FAST = new RegExp([/#EXTINF:\s*(\d*(?:\.\d+)?)(?:,(.*)\s+)?/.source, // duration (#EXTINF:,), group 1 => duration, group 2 => title /(?!#) *(\S[\S ]*)/.source, // segment URI, group 3 => the URI (note newline is not eaten) /#EXT-X-BYTERANGE:*(.+)/.source, // next segment's byterange, group 4 => range spec (x@y) /#EXT-X-PROGRAM-DATE-TIME:(.+)/.source, // next segment's program date/time group 5 => the datetime spec /#.*/.source // All other non-segment oriented tags will match with all groups empty ].join('|'), 'g'); var LEVEL_PLAYLIST_REGEX_SLOW = new RegExp([/#(EXTM3U)/.source, /#EXT-X-(DATERANGE|DEFINE|KEY|MAP|PART|PART-INF|PLAYLIST-TYPE|PRELOAD-HINT|RENDITION-REPORT|SERVER-CONTROL|SKIP|START):(.+)/.source, /#EXT-X-(BITRATE|DISCONTINUITY-SEQUENCE|MEDIA-SEQUENCE|TARGETDURATION|VERSION): *(\d+)/.source, /#EXT-X-(DISCONTINUITY|ENDLIST|GAP)/.source, /(#)([^:]*):(.*)/.source, /(#)(.*)(?:.*)\r?\n?/.source].join('|')); var M3U8Parser = /*#__PURE__*/function () { function M3U8Parser() {} M3U8Parser.findGroup = function findGroup(groups, mediaGroupId) { for (var i = 0; i < groups.length; i++) { var group = groups[i]; if (group.id === mediaGroupId) { return group; } } }; M3U8Parser.convertAVC1ToAVCOTI = function convertAVC1ToAVCOTI(codec) { // Convert avc1 codec string from RFC-4281 to RFC-6381 for MediaSource.isTypeSupported var avcdata = codec.split('.'); if (avcdata.length > 2) { var result = avcdata.shift() + '.'; result += parseInt(avcdata.shift()).toString(16); result += ('000' + parseInt(avcdata.shift()).toString(16)).slice(-4); return result; } return codec; }; M3U8Parser.resolve = function resolve(url, baseUrl) { return urlToolkitExports.buildAbsoluteURL(baseUrl, url, { alwaysNormalize: true }); }; M3U8Parser.isMediaPlaylist = function isMediaPlaylist(str) { return IS_MEDIA_PLAYLIST.test(str); }; M3U8Parser.parseMasterPlaylist = function parseMasterPlaylist(string, baseurl) { var hasVariableRefs = hasVariableReferences(string) ; var parsed = { contentSteering: null, levels: [], playlistParsingError: null, sessionData: null, sessionKeys: null, startTimeOffset: null, variableList: null, hasVariableRefs: hasVariableRefs }; var levelsWithKnownCodecs = []; MASTER_PLAYLIST_REGEX.lastIndex = 0; var result; while ((result = MASTER_PLAYLIST_REGEX.exec(string)) != null) { if (result[1]) { var _level$unknownCodecs; // '#EXT-X-STREAM-INF' is found, parse level tag in group 1 var attrs = new AttrList(result[1]); { substituteVariablesInAttributes(parsed, attrs, ['CODECS', 'SUPPLEMENTAL-CODECS', 'ALLOWED-CPC', 'PATHWAY-ID', 'STABLE-VARIANT-ID', 'AUDIO', 'VIDEO', 'SUBTITLES', 'CLOSED-CAPTIONS', 'NAME']); } var uri = substituteVariables(parsed, result[2]) ; var level = { attrs: attrs, bitrate: attrs.decimalInteger('AVERAGE-BANDWIDTH') || attrs.decimalInteger('BANDWIDTH'), name: attrs.NAME, url: M3U8Parser.resolve(uri, baseurl) }; var resolution = attrs.decimalResolution('RESOLUTION'); if (resolution) { level.width = resolution.width; level.height = resolution.height; } setCodecs((attrs.CODECS || '').split(/[ ,]+/).filter(function (c) { return c; }), level); if (level.videoCodec && level.videoCodec.indexOf('avc1') !== -1) { level.videoCodec = M3U8Parser.convertAVC1ToAVCOTI(level.videoCodec); } if (!((_level$unknownCodecs = level.unknownCodecs) != null && _level$unknownCodecs.length)) { levelsWithKnownCodecs.push(level); } parsed.levels.push(level); } else if (result[3]) { var tag = result[3]; var attributes = result[4]; switch (tag) { case 'SESSION-DATA': { // #EXT-X-SESSION-DATA var sessionAttrs = new AttrList(attributes); { substituteVariablesInAttributes(parsed, sessionAttrs, ['DATA-ID', 'LANGUAGE', 'VALUE', 'URI']); } var dataId = sessionAttrs['DATA-ID']; if (dataId) { if (parsed.sessionData === null) { parsed.sessionData = {}; } parsed.sessionData[dataId] = sessionAttrs; } break; } case 'SESSION-KEY': { // #EXT-X-SESSION-KEY var sessionKey = parseKey(attributes, baseurl, parsed); if (sessionKey.encrypted && sessionKey.isSupported()) { if (parsed.sessionKeys === null) { parsed.sessionKeys = []; } parsed.sessionKeys.push(sessionKey); } else { logger.warn("[Keys] Ignoring invalid EXT-X-SESSION-KEY tag: \"" + attributes + "\""); } break; } case 'DEFINE': { // #EXT-X-DEFINE { var variableAttributes = new AttrList(attributes); substituteVariablesInAttributes(parsed, variableAttributes, ['NAME', 'VALUE', 'QUERYPARAM']); addVariableDefinition(parsed, variableAttributes, baseurl); } break; } case 'CONTENT-STEERING': { // #EXT-X-CONTENT-STEERING var contentSteeringAttributes = new AttrList(attributes); { substituteVariablesInAttributes(parsed, contentSteeringAttributes, ['SERVER-URI', 'PATHWAY-ID']); } parsed.contentSteering = { uri: M3U8Parser.resolve(contentSteeringAttributes['SERVER-URI'], baseurl), pathwayId: contentSteeringAttributes['PATHWAY-ID'] || '.' }; break; } case 'START': { // #EXT-X-START parsed.startTimeOffset = parseStartTimeOffset(attributes); break; } } } } // Filter out levels with unknown codecs if it does not remove all levels var stripUnknownCodecLevels = levelsWithKnownCodecs.length > 0 && levelsWithKnownCodecs.length < parsed.levels.length; parsed.levels = stripUnknownCodecLevels ? levelsWithKnownCodecs : parsed.levels; if (parsed.levels.length === 0) { parsed.playlistParsingError = new Error('no levels found in manifest'); } return parsed; }; M3U8Parser.parseMasterPlaylistMedia = function parseMasterPlaylistMedia(string, baseurl, parsed) { var result; var results = {}; var levels = parsed.levels; var groupsByType = { AUDIO: levels.map(function (level) { return { id: level.attrs.AUDIO, audioCodec: level.audioCodec }; }), SUBTITLES: levels.map(function (level) { return { id: level.attrs.SUBTITLES, textCodec: level.textCodec }; }), 'CLOSED-CAPTIONS': [] }; var id = 0; MASTER_PLAYLIST_MEDIA_REGEX.lastIndex = 0; while ((result = MASTER_PLAYLIST_MEDIA_REGEX.exec(string)) !== null) { var attrs = new AttrList(result[1]); var type = attrs.TYPE; if (type) { var groups = groupsByType[type]; var medias = results[type] || []; results[type] = medias; { substituteVariablesInAttributes(parsed, attrs, ['URI', 'GROUP-ID', 'LANGUAGE', 'ASSOC-LANGUAGE', 'STABLE-RENDITION-ID', 'NAME', 'INSTREAM-ID', 'CHARACTERISTICS', 'CHANNELS']); } var media = { attrs: attrs, bitrate: 0, id: id++, groupId: attrs['GROUP-ID'] || '', instreamId: attrs['INSTREAM-ID'], name: attrs.NAME || attrs.LANGUAGE || '', type: type, default: attrs.bool('DEFAULT'), autoselect: attrs.bool('AUTOSELECT'), forced: attrs.bool('FORCED'), lang: attrs.LANGUAGE, url: attrs.URI ? M3U8Parser.resolve(attrs.URI, baseurl) : '' }; if (groups != null && groups.length) { // If there are audio or text groups signalled in the manifest, let's look for a matching codec string for this track // If we don't find the track signalled, lets use the first audio groups codec we have // Acting as a best guess var groupCodec = M3U8Parser.findGroup(groups, media.groupId) || groups[0]; assignCodec(media, groupCodec, 'audioCodec'); assignCodec(media, groupCodec, 'textCodec'); } medias.push(media); } } return results; }; M3U8Parser.parseLevelPlaylist = function parseLevelPlaylist(string, baseurl, id, type, levelUrlId, multivariantVariableList) { var level = new LevelDetails(baseurl); var fragments = level.fragments; // The most recent init segment seen (applies to all subsequent segments) var currentInitSegment = null; var currentSN = 0; var currentPart = 0; var totalduration = 0; var discontinuityCounter = 0; var prevFrag = null; var frag = new Fragment(type, baseurl); var result; var i; var levelkeys; var firstPdtIndex = -1; var createNextFrag = false; LEVEL_PLAYLIST_REGEX_FAST.lastIndex = 0; level.m3u8 = string; level.hasVariableRefs = hasVariableReferences(string) ; while ((result = LEVEL_PLAYLIST_REGEX_FAST.exec(string)) !== null) { if (createNextFrag) { createNextFrag = false; frag = new Fragment(type, baseurl); // setup the next fragment for part loading frag.start = totalduration; frag.sn = currentSN; frag.cc = discontinuityCounter; frag.level = id; if (currentInitSegment) { frag.initSegment = currentInitSegment; frag.rawProgramDateTime = currentInitSegment.rawProgramDateTime; currentInitSegment.rawProgramDateTime = null; } } var duration = result[1]; if (duration) { // INF frag.duration = parseFloat(duration); // avoid sliced strings https://github.com/video-dev/hls.js/issues/939 var title = (' ' + result[2]).slice(1); frag.title = title || null; frag.tagList.push(title ? ['INF', duration, title] : ['INF', duration]); } else if (result[3]) { // url if (isFiniteNumber(frag.duration)) { frag.start = totalduration; if (levelkeys) { setFragLevelKeys(frag, levelkeys, level); } frag.sn = currentSN; frag.level = id; frag.cc = discontinuityCounter; frag.urlId = levelUrlId; fragments.push(frag); // avoid sliced strings https://github.com/video-dev/hls.js/issues/939 var uri = (' ' + result[3]).slice(1); frag.relurl = substituteVariables(level, uri) ; assignProgramDateTime(frag, prevFrag); prevFrag = frag; totalduration += frag.duration; currentSN++; currentPart = 0; createNextFrag = true; } } else if (result[4]) { // X-BYTERANGE var data = (' ' + result[4]).slice(1); if (prevFrag) { frag.setByteRange(data, prevFrag); } else { frag.setByteRange(data); } } else if (result[5]) { // PROGRAM-DATE-TIME // avoid sliced strings https://github.com/video-dev/hls.js/issues/939 frag.rawProgramDateTime = (' ' + result[5]).slice(1); frag.tagList.push(['PROGRAM-DATE-TIME', frag.rawProgramDateTime]); if (firstPdtIndex === -1) { firstPdtIndex = fragments.length; } } else { result = result[0].match(LEVEL_PLAYLIST_REGEX_SLOW); if (!result) { logger.warn('No matches on slow regex match for level playlist!'); continue; } for (i = 1; i < result.length; i++) { if (typeof result[i] !== 'undefined') { break; } } // avoid sliced strings https://github.com/video-dev/hls.js/issues/939 var tag = (' ' + result[i]).slice(1); var value1 = (' ' + result[i + 1]).slice(1); var value2 = result[i + 2] ? (' ' + result[i + 2]).slice(1) : ''; switch (tag) { case 'PLAYLIST-TYPE': level.type = value1.toUpperCase(); break; case 'MEDIA-SEQUENCE': currentSN = level.startSN = parseInt(value1); break; case 'SKIP': { var skipAttrs = new AttrList(value1); { substituteVariablesInAttributes(level, skipAttrs, ['RECENTLY-REMOVED-DATERANGES']); } var skippedSegments = skipAttrs.decimalInteger('SKIPPED-SEGMENTS'); if (isFiniteNumber(skippedSegments)) { level.skippedSegments = skippedSegments; // This will result in fragments[] containing undefined values, which we will fill in with `mergeDetails` for (var _i = skippedSegments; _i--;) { fragments.unshift(null); } currentSN += skippedSegments; } var recentlyRemovedDateranges = skipAttrs.enumeratedString('RECENTLY-REMOVED-DATERANGES'); if (recentlyRemovedDateranges) { level.recentlyRemovedDateranges = recentlyRemovedDateranges.split('\t'); } break; } case 'TARGETDURATION': level.targetduration = Math.max(parseInt(value1), 1); break; case 'VERSION': level.version = parseInt(value1); break; case 'EXTM3U': break; case 'ENDLIST': level.live = false; break; case '#': if (value1 || value2) { frag.tagList.push(value2 ? [value1, value2] : [value1]); } break; case 'DISCONTINUITY': discontinuityCounter++; frag.tagList.push(['DIS']); break; case 'GAP': frag.gap = true; frag.tagList.push([tag]); break; case 'BITRATE': frag.tagList.push([tag, value1]); break; case 'DATERANGE': { var dateRangeAttr = new AttrList(value1); { substituteVariablesInAttributes(level, dateRangeAttr, ['ID', 'CLASS', 'START-DATE', 'END-DATE', 'SCTE35-CMD', 'SCTE35-OUT', 'SCTE35-IN']); substituteVariablesInAttributes(level, dateRangeAttr, dateRangeAttr.clientAttrs); } var dateRange = new DateRange(dateRangeAttr, level.dateRanges[dateRangeAttr.ID]); if (dateRange.isValid || level.skippedSegments) { level.dateRanges[dateRange.id] = dateRange; } else { logger.warn("Ignoring invalid DATERANGE tag: \"" + value1 + "\""); } // Add to fragment tag list for backwards compatibility (< v1.2.0) frag.tagList.push(['EXT-X-DATERANGE', value1]); break; } case 'DEFINE': { { var variableAttributes = new AttrList(value1); substituteVariablesInAttributes(level, variableAttributes, ['NAME', 'VALUE', 'IMPORT', 'QUERYPARAM']); if ('IMPORT' in variableAttributes) { importVariableDefinition(level, variableAttributes, multivariantVariableList); } else { addVariableDefinition(level, variableAttributes, baseurl); } } break; } case 'DISCONTINUITY-SEQUENCE': discontinuityCounter = parseInt(value1); break; case 'KEY': { var levelKey = parseKey(value1, baseurl, level); if (levelKey.isSupported()) { if (levelKey.method === 'NONE') { levelkeys = undefined; break; } if (!levelkeys) { levelkeys = {}; } if (levelkeys[levelKey.keyFormat]) { levelkeys = _extends({}, levelkeys); } levelkeys[levelKey.keyFormat] = levelKey; } else { logger.warn("[Keys] Ignoring invalid EXT-X-KEY tag: \"" + value1 + "\""); } break; } case 'START': level.startTimeOffset = parseStartTimeOffset(value1); break; case 'MAP': { var mapAttrs = new AttrList(value1); { substituteVariablesInAttributes(level, mapAttrs, ['BYTERANGE', 'URI']); } if (frag.duration) { // Initial segment tag is after segment duration tag. // #EXTINF: 6.0 // #EXT-X-MAP:URI="init.mp4 var init = new Fragment(type, baseurl); setInitSegment(init, mapAttrs, id, levelkeys); currentInitSegment = init; frag.initSegment = currentInitSegment; if (currentInitSegment.rawProgramDateTime && !frag.rawProgramDateTime) { frag.rawProgramDateTime = currentInitSegment.rawProgramDateTime; } } else { // Initial segment tag is before segment duration tag setInitSegment(frag, mapAttrs, id, levelkeys); currentInitSegment = frag; createNextFrag = true; } break; } case 'SERVER-CONTROL': { var serverControlAttrs = new AttrList(value1); level.canBlockReload = serverControlAttrs.bool('CAN-BLOCK-RELOAD'); level.canSkipUntil = serverControlAttrs.optionalFloat('CAN-SKIP-UNTIL', 0); level.canSkipDateRanges = level.canSkipUntil > 0 && serverControlAttrs.bool('CAN-SKIP-DATERANGES'); level.partHoldBack = serverControlAttrs.optionalFloat('PART-HOLD-BACK', 0); level.holdBack = serverControlAttrs.optionalFloat('HOLD-BACK', 0); break; } case 'PART-INF': { var partInfAttrs = new AttrList(value1); level.partTarget = partInfAttrs.decimalFloatingPoint('PART-TARGET'); break; } case 'PART': { var partList = level.partList; if (!partList) { partList = level.partList = []; } var previousFragmentPart = currentPart > 0 ? partList[partList.length - 1] : undefined; var index = currentPart++; var partAttrs = new AttrList(value1); { substituteVariablesInAttributes(level, partAttrs, ['BYTERANGE', 'URI']); } var part = new Part(partAttrs, frag, baseurl, index, previousFragmentPart); partList.push(part); frag.duration += part.duration; break; } case 'PRELOAD-HINT': { var preloadHintAttrs = new AttrList(value1); { substituteVariablesInAttributes(level, preloadHintAttrs, ['URI']); } level.preloadHint = preloadHintAttrs; break; } case 'RENDITION-REPORT': { var renditionReportAttrs = new AttrList(value1); { substituteVariablesInAttributes(level, renditionReportAttrs, ['URI']); } level.renditionReports = level.renditionReports || []; level.renditionReports.push(renditionReportAttrs); break; } default: logger.warn("line parsed but not handled: " + result); break; } } } if (prevFrag && !prevFrag.relurl) { fragments.pop(); totalduration -= prevFrag.duration; if (level.partList) { level.fragmentHint = prevFrag; } } else if (level.partList) { assignProgramDateTime(frag, prevFrag); frag.cc = discontinuityCounter; level.fragmentHint = frag; if (levelkeys) { setFragLevelKeys(frag, levelkeys, level); } } var fragmentLength = fragments.length; var firstFragment = fragments[0]; var lastFragment = fragments[fragmentLength - 1]; totalduration += level.skippedSegments * level.targetduration; if (totalduration > 0 && fragmentLength && lastFragment) { level.averagetargetduration = totalduration / fragmentLength; var lastSn = lastFragment.sn; level.endSN = lastSn !== 'initSegment' ? lastSn : 0; if (!level.live) { lastFragment.endList = true; } if (firstFragment) { level.startCC = firstFragment.cc; } } else { level.endSN = 0; level.startCC = 0; } if (level.fragmentHint) { totalduration += level.fragmentHint.duration; } level.totalduration = totalduration; level.endCC = discontinuityCounter; /** * Backfill any missing PDT values * "If the first EXT-X-PROGRAM-DATE-TIME tag in a Playlist appears after * one or more Media Segment URIs, the client SHOULD extrapolate * backward from that tag (using EXTINF durations and/or media * timestamps) to associate dates with those segments." * We have already extrapolated forward, but all fragments up to the first instance of PDT do not have their PDTs * computed. */ if (firstPdtIndex > 0) { backfillProgramDateTimes(fragments, firstPdtIndex); } return level; }; return M3U8Parser; }(); function parseKey(keyTagAttributes, baseurl, parsed) { var _keyAttrs$METHOD, _keyAttrs$KEYFORMAT; // https://tools.ietf.org/html/rfc8216#section-4.3.2.4 var keyAttrs = new AttrList(keyTagAttributes); { substituteVariablesInAttributes(parsed, keyAttrs, ['KEYFORMAT', 'KEYFORMATVERSIONS', 'URI', 'IV', 'URI']); } var decryptmethod = (_keyAttrs$METHOD = keyAttrs.METHOD) != null ? _keyAttrs$METHOD : ''; var decrypturi = keyAttrs.URI; var decryptiv = keyAttrs.hexadecimalInteger('IV'); var decryptkeyformatversions = keyAttrs.KEYFORMATVERSIONS; // From RFC: This attribute is OPTIONAL; its absence indicates an implicit value of "identity". var decryptkeyformat = (_keyAttrs$KEYFORMAT = keyAttrs.KEYFORMAT) != null ? _keyAttrs$KEYFORMAT : 'identity'; if (decrypturi && keyAttrs.IV && !decryptiv) { logger.error("Invalid IV: " + keyAttrs.IV); } // If decrypturi is a URI with a scheme, then baseurl will be ignored // No uri is allowed when METHOD is NONE var resolvedUri = decrypturi ? M3U8Parser.resolve(decrypturi, baseurl) : ''; var keyFormatVersions = (decryptkeyformatversions ? decryptkeyformatversions : '1').split('/').map(Number).filter(Number.isFinite); return new LevelKey(decryptmethod, resolvedUri, decryptkeyformat, keyFormatVersions, decryptiv); } function parseStartTimeOffset(startAttributes) { var startAttrs = new AttrList(startAttributes); var startTimeOffset = startAttrs.decimalFloatingPoint('TIME-OFFSET'); if (isFiniteNumber(startTimeOffset)) { return startTimeOffset; } return null; } function setCodecs(codecs, level) { ['video', 'audio', 'text'].forEach(function (type) { var filtered = codecs.filter(function (codec) { return isCodecType(codec, type); }); if (filtered.length) { var preferred = filtered.filter(function (codec) { return codec.lastIndexOf('avc1', 0) === 0 || codec.lastIndexOf('mp4a', 0) === 0; }); level[type + "Codec"] = preferred.length > 0 ? preferred[0] : filtered[0]; // remove from list codecs = codecs.filter(function (codec) { return filtered.indexOf(codec) === -1; }); } }); level.unknownCodecs = codecs; } function assignCodec(media, groupItem, codecProperty) { var codecValue = groupItem[codecProperty]; if (codecValue) { media[codecProperty] = codecValue; } } function backfillProgramDateTimes(fragments, firstPdtIndex) { var fragPrev = fragments[firstPdtIndex]; for (var i = firstPdtIndex; i--;) { var frag = fragments[i]; // Exit on delta-playlist skipped segments if (!frag) { return; } frag.programDateTime = fragPrev.programDateTime - frag.duration * 1000; fragPrev = frag; } } function assignProgramDateTime(frag, prevFrag) { if (frag.rawProgramDateTime) { frag.programDateTime = Date.parse(frag.rawProgramDateTime); } else if (prevFrag != null && prevFrag.programDateTime) { frag.programDateTime = prevFrag.endProgramDateTime; } if (!isFiniteNumber(frag.programDateTime)) { frag.programDateTime = null; frag.rawProgramDateTime = null; } } function setInitSegment(frag, mapAttrs, id, levelkeys) { frag.relurl = mapAttrs.URI; if (mapAttrs.BYTERANGE) { frag.setByteRange(mapAttrs.BYTERANGE); } frag.level = id; frag.sn = 'initSegment'; if (levelkeys) { frag.levelkeys = levelkeys; } frag.initSegment = null; } function setFragLevelKeys(frag, levelkeys, level) { frag.levelkeys = levelkeys; var encryptedFragments = level.encryptedFragments; if ((!encryptedFragments.length || encryptedFragments[encryptedFragments.length - 1].levelkeys !== levelkeys) && Object.keys(levelkeys).some(function (format) { return levelkeys[format].isCommonEncryption; })) { encryptedFragments.push(frag); } } var PlaylistContextType = { MANIFEST: "manifest", LEVEL: "level", AUDIO_TRACK: "audioTrack", SUBTITLE_TRACK: "subtitleTrack" }; var PlaylistLevelType = { MAIN: "main", AUDIO: "audio", SUBTITLE: "subtitle" }; function mapContextToLevelType(context) { var type = context.type; switch (type) { case PlaylistContextType.AUDIO_TRACK: return PlaylistLevelType.AUDIO; case PlaylistContextType.SUBTITLE_TRACK: return PlaylistLevelType.SUBTITLE; default: return PlaylistLevelType.MAIN; } } function getResponseUrl(response, context) { var url = response.url; // responseURL not supported on some browsers (it is used to detect URL redirection) // data-uri mode also not supported (but no need to detect redirection) if (url === undefined || url.indexOf('data:') === 0) { // fallback to initial URL url = context.url; } return url; } var PlaylistLoader = /*#__PURE__*/function () { function PlaylistLoader(hls) { this.hls = void 0; this.loaders = Object.create(null); this.variableList = null; this.hls = hls; this.registerListeners(); } var _proto = PlaylistLoader.prototype; _proto.startLoad = function startLoad(startPosition) {}; _proto.stopLoad = function stopLoad() { this.destroyInternalLoaders(); }; _proto.registerListeners = function registerListeners() { var hls = this.hls; hls.on(Events.MANIFEST_LOADING, this.onManifestLoading, this); hls.on(Events.LEVEL_LOADING, this.onLevelLoading, this); hls.on(Events.AUDIO_TRACK_LOADING, this.onAudioTrackLoading, this); hls.on(Events.SUBTITLE_TRACK_LOADING, this.onSubtitleTrackLoading, this); }; _proto.unregisterListeners = function unregisterListeners() { var hls = this.hls; hls.off(Events.MANIFEST_LOADING, this.onManifestLoading, this); hls.off(Events.LEVEL_LOADING, this.onLevelLoading, this); hls.off(Events.AUDIO_TRACK_LOADING, this.onAudioTrackLoading, this); hls.off(Events.SUBTITLE_TRACK_LOADING, this.onSubtitleTrackLoading, this); } /** * Returns defaults or configured loader-type overloads (pLoader and loader config params) */; _proto.createInternalLoader = function createInternalLoader(context) { var config = this.hls.config; var PLoader = config.pLoader; var Loader = config.loader; var InternalLoader = PLoader || Loader; var loader = new InternalLoader(config); this.loaders[context.type] = loader; return loader; }; _proto.getInternalLoader = function getInternalLoader(context) { return this.loaders[context.type]; }; _proto.resetInternalLoader = function resetInternalLoader(contextType) { if (this.loaders[contextType]) { delete this.loaders[contextType]; } } /** * Call `destroy` on all internal loader instances mapped (one per context type) */; _proto.destroyInternalLoaders = function destroyInternalLoaders() { for (var contextType in this.loaders) { var loader = this.loaders[contextType]; if (loader) { loader.destroy(); } this.resetInternalLoader(contextType); } }; _proto.destroy = function destroy() { this.variableList = null; this.unregisterListeners(); this.destroyInternalLoaders(); }; _proto.onManifestLoading = function onManifestLoading(event, data) { var url = data.url; this.variableList = null; this.load({ id: null, level: 0, responseType: 'text', type: PlaylistContextType.MANIFEST, url: url, deliveryDirectives: null }); }; _proto.onLevelLoading = function onLevelLoading(event, data) { var id = data.id, level = data.level, url = data.url, deliveryDirectives = data.deliveryDirectives; this.load({ id: id, level: level, responseType: 'text', type: PlaylistContextType.LEVEL, url: url, deliveryDirectives: deliveryDirectives }); }; _proto.onAudioTrackLoading = function onAudioTrackLoading(event, data) { var id = data.id, groupId = data.groupId, url = data.url, deliveryDirectives = data.deliveryDirectives; this.load({ id: id, groupId: groupId, level: null, responseType: 'text', type: PlaylistContextType.AUDIO_TRACK, url: url, deliveryDirectives: deliveryDirectives }); }; _proto.onSubtitleTrackLoading = function onSubtitleTrackLoading(event, data) { var id = data.id, groupId = data.groupId, url = data.url, deliveryDirectives = data.deliveryDirectives; this.load({ id: id, groupId: groupId, level: null, responseType: 'text', type: PlaylistContextType.SUBTITLE_TRACK, url: url, deliveryDirectives: deliveryDirectives }); }; _proto.load = function load(context) { var _context$deliveryDire, _this = this; var config = this.hls.config; // logger.debug(`[playlist-loader]: Loading playlist of type ${context.type}, level: ${context.level}, id: ${context.id}`); // Check if a loader for this context already exists var loader = this.getInternalLoader(context); if (loader) { var loaderContext = loader.context; if (loaderContext && loaderContext.url === context.url) { // same URL can't overlap logger.trace('[playlist-loader]: playlist request ongoing'); return; } logger.log("[playlist-loader]: aborting previous loader for type: " + context.type); loader.abort(); } // apply different configs for retries depending on // context (manifest, level, audio/subs playlist) var loadPolicy; if (context.type === PlaylistContextType.MANIFEST) { loadPolicy = config.manifestLoadPolicy.default; } else { loadPolicy = _extends({}, config.playlistLoadPolicy.default, { timeoutRetry: null, errorRetry: null }); } loader = this.createInternalLoader(context); // Override level/track timeout for LL-HLS requests // (the default of 10000ms is counter productive to blocking playlist reload requests) if ((_context$deliveryDire = context.deliveryDirectives) != null && _context$deliveryDire.part) { var levelDetails; if (context.type === PlaylistContextType.LEVEL && context.level !== null) { levelDetails = this.hls.levels[context.level].details; } else if (context.type === PlaylistContextType.AUDIO_TRACK && context.id !== null) { levelDetails = this.hls.audioTracks[context.id].details; } else if (context.type === PlaylistContextType.SUBTITLE_TRACK && context.id !== null) { levelDetails = this.hls.subtitleTracks[context.id].details; } if (levelDetails) { var partTarget = levelDetails.partTarget; var targetDuration = levelDetails.targetduration; if (partTarget && targetDuration) { var maxLowLatencyPlaylistRefresh = Math.max(partTarget * 3, targetDuration * 0.8) * 1000; loadPolicy = _extends({}, loadPolicy, { maxTimeToFirstByteMs: Math.min(maxLowLatencyPlaylistRefresh, loadPolicy.maxTimeToFirstByteMs), maxLoadTimeMs: Math.min(maxLowLatencyPlaylistRefresh, loadPolicy.maxTimeToFirstByteMs) }); } } } var legacyRetryCompatibility = loadPolicy.errorRetry || loadPolicy.timeoutRetry || {}; var loaderConfig = { loadPolicy: loadPolicy, timeout: loadPolicy.maxLoadTimeMs, maxRetry: legacyRetryCompatibility.maxNumRetry || 0, retryDelay: legacyRetryCompatibility.retryDelayMs || 0, maxRetryDelay: legacyRetryCompatibility.maxRetryDelayMs || 0 }; var loaderCallbacks = { onSuccess: function onSuccess(response, stats, context, networkDetails) { var loader = _this.getInternalLoader(context); _this.resetInternalLoader(context.type); var string = response.data; // Validate if it is an M3U8 at all if (string.indexOf('#EXTM3U') !== 0) { _this.handleManifestParsingError(response, context, new Error('no EXTM3U delimiter'), networkDetails || null, stats); return; } stats.parsing.start = performance.now(); if (M3U8Parser.isMediaPlaylist(string)) { _this.handleTrackOrLevelPlaylist(response, stats, context, networkDetails || null, loader); } else { _this.handleMasterPlaylist(response, stats, context, networkDetails); } }, onError: function onError(response, context, networkDetails, stats) { _this.handleNetworkError(context, networkDetails, false, response, stats); }, onTimeout: function onTimeout(stats, context, networkDetails) { _this.handleNetworkError(context, networkDetails, true, undefined, stats); } }; // logger.debug(`[playlist-loader]: Calling internal loader delegate for URL: ${context.url}`); loader.load(context, loaderConfig, loaderCallbacks); }; _proto.handleMasterPlaylist = function handleMasterPlaylist(response, stats, context, networkDetails) { var hls = this.hls; var string = response.data; var url = getResponseUrl(response, context); var parsedResult = M3U8Parser.parseMasterPlaylist(string, url); if (parsedResult.playlistParsingError) { this.handleManifestParsingError(response, context, parsedResult.playlistParsingError, networkDetails, stats); return; } var contentSteering = parsedResult.contentSteering, levels = parsedResult.levels, sessionData = parsedResult.sessionData, sessionKeys = parsedResult.sessionKeys, startTimeOffset = parsedResult.startTimeOffset, variableList = parsedResult.variableList; this.variableList = variableList; var _M3U8Parser$parseMast = M3U8Parser.parseMasterPlaylistMedia(string, url, parsedResult), _M3U8Parser$parseMast2 = _M3U8Parser$parseMast.AUDIO, audioTracks = _M3U8Parser$parseMast2 === void 0 ? [] : _M3U8Parser$parseMast2, subtitles = _M3U8Parser$parseMast.SUBTITLES, captions = _M3U8Parser$parseMast['CLOSED-CAPTIONS']; if (audioTracks.length) { // check if we have found an audio track embedded in main playlist (audio track without URI attribute) var embeddedAudioFound = audioTracks.some(function (audioTrack) { return !audioTrack.url; }); // if no embedded audio track defined, but audio codec signaled in quality level, // we need to signal this main audio track this could happen with playlists with // alt audio rendition in which quality levels (main) // contains both audio+video. but with mixed audio track not signaled if (!embeddedAudioFound && levels[0].audioCodec && !levels[0].attrs.AUDIO) { logger.log('[playlist-loader]: audio codec signaled in quality level, but no embedded audio track signaled, create one'); audioTracks.unshift({ type: 'main', name: 'main', groupId: 'main', default: false, autoselect: false, forced: false, id: -1, attrs: new AttrList({}), bitrate: 0, url: '' }); } } hls.trigger(Events.MANIFEST_LOADED, { levels: levels, audioTracks: audioTracks, subtitles: subtitles, captions: captions, contentSteering: contentSteering, url: url, stats: stats, networkDetails: networkDetails, sessionData: sessionData, sessionKeys: sessionKeys, startTimeOffset: startTimeOffset, variableList: variableList }); }; _proto.handleTrackOrLevelPlaylist = function handleTrackOrLevelPlaylist(response, stats, context, networkDetails, loader) { var hls = this.hls; var id = context.id, level = context.level, type = context.type; var url = getResponseUrl(response, context); var levelUrlId = isFiniteNumber(id) ? id : 0; var levelId = isFiniteNumber(level) ? level : levelUrlId; var levelType = mapContextToLevelType(context); var levelDetails = M3U8Parser.parseLevelPlaylist(response.data, url, levelId, levelType, levelUrlId, this.variableList); // We have done our first request (Manifest-type) and receive // not a master playlist but a chunk-list (track/level) // We fire the manifest-loaded event anyway with the parsed level-details // by creating a single-level structure for it. if (type === PlaylistContextType.MANIFEST) { var singleLevel = { attrs: new AttrList({}), bitrate: 0, details: levelDetails, name: '', url: url }; hls.trigger(Events.MANIFEST_LOADED, { levels: [singleLevel], audioTracks: [], url: url, stats: stats, networkDetails: networkDetails, sessionData: null, sessionKeys: null, contentSteering: null, startTimeOffset: null, variableList: null }); } // save parsing time stats.parsing.end = performance.now(); // extend the context with the new levelDetails property context.levelDetails = levelDetails; this.handlePlaylistLoaded(levelDetails, response, stats, context, networkDetails, loader); }; _proto.handleManifestParsingError = function handleManifestParsingError(response, context, error, networkDetails, stats) { this.hls.trigger(Events.ERROR, { type: ErrorTypes.NETWORK_ERROR, details: ErrorDetails.MANIFEST_PARSING_ERROR, fatal: context.type === PlaylistContextType.MANIFEST, url: response.url, err: error, error: error, reason: error.message, response: response, context: context, networkDetails: networkDetails, stats: stats }); }; _proto.handleNetworkError = function handleNetworkError(context, networkDetails, timeout, response, stats) { if (timeout === void 0) { timeout = false; } var message = "A network " + (timeout ? 'timeout' : 'error' + (response ? ' (status ' + response.code + ')' : '')) + " occurred while loading " + context.type; if (context.type === PlaylistContextType.LEVEL) { message += ": " + context.level + " id: " + context.id; } else if (context.type === PlaylistContextType.AUDIO_TRACK || context.type === PlaylistContextType.SUBTITLE_TRACK) { message += " id: " + context.id + " group-id: \"" + context.groupId + "\""; } var error = new Error(message); logger.warn("[playlist-loader]: " + message); var details = ErrorDetails.UNKNOWN; var fatal = false; var loader = this.getInternalLoader(context); switch (context.type) { case PlaylistContextType.MANIFEST: details = timeout ? ErrorDetails.MANIFEST_LOAD_TIMEOUT : ErrorDetails.MANIFEST_LOAD_ERROR; fatal = true; break; case PlaylistContextType.LEVEL: details = timeout ? ErrorDetails.LEVEL_LOAD_TIMEOUT : ErrorDetails.LEVEL_LOAD_ERROR; fatal = false; break; case PlaylistContextType.AUDIO_TRACK: details = timeout ? ErrorDetails.AUDIO_TRACK_LOAD_TIMEOUT : ErrorDetails.AUDIO_TRACK_LOAD_ERROR; fatal = false; break; case PlaylistContextType.SUBTITLE_TRACK: details = timeout ? ErrorDetails.SUBTITLE_TRACK_LOAD_TIMEOUT : ErrorDetails.SUBTITLE_LOAD_ERROR; fatal = false; break; } if (loader) { this.resetInternalLoader(context.type); } var errorData = { type: ErrorTypes.NETWORK_ERROR, details: details, fatal: fatal, url: context.url, loader: loader, context: context, error: error, networkDetails: networkDetails, stats: stats }; if (response) { var url = (networkDetails == null ? void 0 : networkDetails.url) || context.url; errorData.response = _objectSpread2({ url: url, data: undefined }, response); } this.hls.trigger(Events.ERROR, errorData); }; _proto.handlePlaylistLoaded = function handlePlaylistLoaded(levelDetails, response, stats, context, networkDetails, loader) { var hls = this.hls; var type = context.type, level = context.level, id = context.id, groupId = context.groupId, deliveryDirectives = context.deliveryDirectives; var url = getResponseUrl(response, context); var parent = mapContextToLevelType(context); var levelIndex = typeof context.level === 'number' && parent === PlaylistLevelType.MAIN ? level : undefined; if (!levelDetails.fragments.length) { var _error = new Error('No Segments found in Playlist'); hls.trigger(Events.ERROR, { type: ErrorTypes.NETWORK_ERROR, details: ErrorDetails.LEVEL_EMPTY_ERROR, fatal: false, url: url, error: _error, reason: _error.message, response: response, context: context, level: levelIndex, parent: parent, networkDetails: networkDetails, stats: stats }); return; } if (!levelDetails.targetduration) { levelDetails.playlistParsingError = new Error('Missing Target Duration'); } var error = levelDetails.playlistParsingError; if (error) { hls.trigger(Events.ERROR, { type: ErrorTypes.NETWORK_ERROR, details: ErrorDetails.LEVEL_PARSING_ERROR, fatal: false, url: url, error: error, reason: error.message, response: response, context: context, level: levelIndex, parent: parent, networkDetails: networkDetails, stats: stats }); return; } if (levelDetails.live && loader) { if (loader.getCacheAge) { levelDetails.ageHeader = loader.getCacheAge() || 0; } if (!loader.getCacheAge || isNaN(levelDetails.ageHeader)) { levelDetails.ageHeader = 0; } } switch (type) { case PlaylistContextType.MANIFEST: case PlaylistContextType.LEVEL: hls.trigger(Events.LEVEL_LOADED, { details: levelDetails, level: levelIndex || 0, id: id || 0, stats: stats, networkDetails: networkDetails, deliveryDirectives: deliveryDirectives }); break; case PlaylistContextType.AUDIO_TRACK: hls.trigger(Events.AUDIO_TRACK_LOADED, { details: levelDetails, id: id || 0, groupId: groupId || '', stats: stats, networkDetails: networkDetails, deliveryDirectives: deliveryDirectives }); break; case PlaylistContextType.SUBTITLE_TRACK: hls.trigger(Events.SUBTITLE_TRACK_LOADED, { details: levelDetails, id: id || 0, groupId: groupId || '', stats: stats, networkDetails: networkDetails, deliveryDirectives: deliveryDirectives }); break; } }; return PlaylistLoader; }(); function sendAddTrackEvent(track, videoEl) { var event; try { event = new Event('addtrack'); } catch (err) { // for IE11 event = document.createEvent('Event'); event.initEvent('addtrack', false, false); } event.track = track; videoEl.dispatchEvent(event); } function addCueToTrack(track, cue) { // Sometimes there are cue overlaps on segmented vtts so the same // cue can appear more than once in different vtt files. // This avoid showing duplicated cues with same timecode and text. var mode = track.mode; if (mode === 'disabled') { track.mode = 'hidden'; } if (track.cues && !track.cues.getCueById(cue.id)) { try { track.addCue(cue); if (!track.cues.getCueById(cue.id)) { throw new Error("addCue is failed for: " + cue); } } catch (err) { logger.debug("[texttrack-utils]: " + err); try { var textTrackCue = new self.TextTrackCue(cue.startTime, cue.endTime, cue.text); textTrackCue.id = cue.id; track.addCue(textTrackCue); } catch (err2) { logger.debug("[texttrack-utils]: Legacy TextTrackCue fallback failed: " + err2); } } } if (mode === 'disabled') { track.mode = mode; } } function clearCurrentCues(track) { // When track.mode is disabled, track.cues will be null. // To guarantee the removal of cues, we need to temporarily // change the mode to hidden var mode = track.mode; if (mode === 'disabled') { track.mode = 'hidden'; } if (track.cues) { for (var i = track.cues.length; i--;) { track.removeCue(track.cues[i]); } } if (mode === 'disabled') { track.mode = mode; } } function removeCuesInRange(track, start, end, predicate) { var mode = track.mode; if (mode === 'disabled') { track.mode = 'hidden'; } if (track.cues && track.cues.length > 0) { var cues = getCuesInRange(track.cues, start, end); for (var i = 0; i < cues.length; i++) { if (!predicate || predicate(cues[i])) { track.removeCue(cues[i]); } } } if (mode === 'disabled') { track.mode = mode; } } // Find first cue starting after given time. // Modified version of binary search O(log(n)). function getFirstCueIndexAfterTime(cues, time) { // If first cue starts after time, start there if (time < cues[0].startTime) { return 0; } // If the last cue ends before time there is no overlap var len = cues.length - 1; if (time > cues[len].endTime) { return -1; } var left = 0; var right = len; while (left <= right) { var mid = Math.floor((right + left) / 2); if (time < cues[mid].startTime) { right = mid - 1; } else if (time > cues[mid].startTime && left < len) { left = mid + 1; } else { // If it's not lower or higher, it must be equal. return mid; } } // At this point, left and right have swapped. // No direct match was found, left or right element must be the closest. Check which one has the smallest diff. return cues[left].startTime - time < time - cues[right].startTime ? left : right; } function getCuesInRange(cues, start, end) { var cuesFound = []; var firstCueInRange = getFirstCueIndexAfterTime(cues, start); if (firstCueInRange > -1) { for (var i = firstCueInRange, len = cues.length; i < len; i++) { var _cue = cues[i]; if (_cue.startTime >= start && _cue.endTime <= end) { cuesFound.push(_cue); } else if (_cue.startTime > end) { return cuesFound; } } } return cuesFound; } var MetadataSchema = { audioId3: "org.id3", dateRange: "com.apple.quicktime.HLS", emsg: "https://aomedia.org/emsg/ID3" }; var MIN_CUE_DURATION = 0.25; function getCueClass() { if (typeof self === 'undefined') return undefined; // Attempt to recreate Safari functionality by creating // WebKitDataCue objects when available and store the decoded // ID3 data in the value property of the cue return self.WebKitDataCue || self.VTTCue || self.TextTrackCue; } // VTTCue latest draft allows an infinite duration, fallback // to MAX_VALUE if necessary var MAX_CUE_ENDTIME = function () { var Cue = getCueClass(); try { new Cue(0, Number.POSITIVE_INFINITY, ''); } catch (e) { return Number.MAX_VALUE; } return Number.POSITIVE_INFINITY; }(); function dateRangeDateToTimelineSeconds(date, offset) { return date.getTime() / 1000 - offset; } function hexToArrayBuffer(str) { return Uint8Array.from(str.replace(/^0x/, '').replace(/([\da-fA-F]{2}) ?/g, '0x$1 ').replace(/ +$/, '').split(' ')).buffer; } var ID3TrackController = /*#__PURE__*/function () { function ID3TrackController(hls) { this.hls = void 0; this.id3Track = null; this.media = null; this.dateRangeCuesAppended = {}; this.hls = hls; this._registerListeners(); } var _proto = ID3TrackController.prototype; _proto.destroy = function destroy() { this._unregisterListeners(); this.id3Track = null; this.media = null; this.dateRangeCuesAppended = {}; // @ts-ignore this.hls = null; }; _proto._registerListeners = function _registerListeners() { var hls = this.hls; hls.on(Events.MEDIA_ATTACHED, this.onMediaAttached, this); hls.on(Events.MEDIA_DETACHING, this.onMediaDetaching, this); hls.on(Events.MANIFEST_LOADING, this.onManifestLoading, this); hls.on(Events.FRAG_PARSING_METADATA, this.onFragParsingMetadata, this); hls.on(Events.BUFFER_FLUSHING, this.onBufferFlushing, this); hls.on(Events.LEVEL_UPDATED, this.onLevelUpdated, this); }; _proto._unregisterListeners = function _unregisterListeners() { var hls = this.hls; hls.off(Events.MEDIA_ATTACHED, this.onMediaAttached, this); hls.off(Events.MEDIA_DETACHING, this.onMediaDetaching, this); hls.off(Events.MANIFEST_LOADING, this.onManifestLoading, this); hls.off(Events.FRAG_PARSING_METADATA, this.onFragParsingMetadata, this); hls.off(Events.BUFFER_FLUSHING, this.onBufferFlushing, this); hls.off(Events.LEVEL_UPDATED, this.onLevelUpdated, this); } // Add ID3 metatadata text track. ; _proto.onMediaAttached = function onMediaAttached(event, data) { this.media = data.media; }; _proto.onMediaDetaching = function onMediaDetaching() { if (!this.id3Track) { return; } clearCurrentCues(this.id3Track); this.id3Track = null; this.media = null; this.dateRangeCuesAppended = {}; }; _proto.onManifestLoading = function onManifestLoading() { this.dateRangeCuesAppended = {}; }; _proto.createTrack = function createTrack(media) { var track = this.getID3Track(media.textTracks); track.mode = 'hidden'; return track; }; _proto.getID3Track = function getID3Track(textTracks) { if (!this.media) { return; } for (var i = 0; i < textTracks.length; i++) { var textTrack = textTracks[i]; if (textTrack.kind === 'metadata' && textTrack.label === 'id3') { // send 'addtrack' when reusing the textTrack for metadata, // same as what we do for captions sendAddTrackEvent(textTrack, this.media); return textTrack; } } return this.media.addTextTrack('metadata', 'id3'); }; _proto.onFragParsingMetadata = function onFragParsingMetadata(event, data) { if (!this.media) { return; } var _this$hls$config = this.hls.config, enableEmsgMetadataCues = _this$hls$config.enableEmsgMetadataCues, enableID3MetadataCues = _this$hls$config.enableID3MetadataCues; if (!enableEmsgMetadataCues && !enableID3MetadataCues) { return; } var samples = data.samples; // create track dynamically if (!this.id3Track) { this.id3Track = this.createTrack(this.media); } var Cue = getCueClass(); for (var i = 0; i < samples.length; i++) { var type = samples[i].type; if (type === MetadataSchema.emsg && !enableEmsgMetadataCues || !enableID3MetadataCues) { continue; } var frames = getID3Frames(samples[i].data); if (frames) { var startTime = samples[i].pts; var endTime = startTime + samples[i].duration; if (endTime > MAX_CUE_ENDTIME) { endTime = MAX_CUE_ENDTIME; } var timeDiff = endTime - startTime; if (timeDiff <= 0) { endTime = startTime + MIN_CUE_DURATION; } for (var j = 0; j < frames.length; j++) { var frame = frames[j]; // Safari doesn't put the timestamp frame in the TextTrack if (!isTimeStampFrame(frame)) { // add a bounds to any unbounded cues this.updateId3CueEnds(startTime, type); var cue = new Cue(startTime, endTime, ''); cue.value = frame; if (type) { cue.type = type; } this.id3Track.addCue(cue); } } } } }; _proto.updateId3CueEnds = function updateId3CueEnds(startTime, type) { var _this$id3Track; var cues = (_this$id3Track = this.id3Track) == null ? void 0 : _this$id3Track.cues; if (cues) { for (var i = cues.length; i--;) { var cue = cues[i]; if (cue.type === type && cue.startTime < startTime && cue.endTime === MAX_CUE_ENDTIME) { cue.endTime = startTime; } } } }; _proto.onBufferFlushing = function onBufferFlushing(event, _ref) { var startOffset = _ref.startOffset, endOffset = _ref.endOffset, type = _ref.type; var id3Track = this.id3Track, hls = this.hls; if (!hls) { return; } var _hls$config = hls.config, enableEmsgMetadataCues = _hls$config.enableEmsgMetadataCues, enableID3MetadataCues = _hls$config.enableID3MetadataCues; if (id3Track && (enableEmsgMetadataCues || enableID3MetadataCues)) { var predicate; if (type === 'audio') { predicate = function predicate(cue) { return cue.type === MetadataSchema.audioId3 && enableID3MetadataCues; }; } else if (type === 'video') { predicate = function predicate(cue) { return cue.type === MetadataSchema.emsg && enableEmsgMetadataCues; }; } else { predicate = function predicate(cue) { return cue.type === MetadataSchema.audioId3 && enableID3MetadataCues || cue.type === MetadataSchema.emsg && enableEmsgMetadataCues; }; } removeCuesInRange(id3Track, startOffset, endOffset, predicate); } }; _proto.onLevelUpdated = function onLevelUpdated(event, _ref2) { var _this = this; var details = _ref2.details; if (!this.media || !details.hasProgramDateTime || !this.hls.config.enableDateRangeMetadataCues) { return; } var dateRangeCuesAppended = this.dateRangeCuesAppended, id3Track = this.id3Track; var dateRanges = details.dateRanges; var ids = Object.keys(dateRanges); // Remove cues from track not found in details.dateRanges if (id3Track) { var idsToRemove = Object.keys(dateRangeCuesAppended).filter(function (id) { return !ids.includes(id); }); var _loop = function _loop() { var id = idsToRemove[i]; Object.keys(dateRangeCuesAppended[id].cues).forEach(function (key) { id3Track.removeCue(dateRangeCuesAppended[id].cues[key]); }); delete dateRangeCuesAppended[id]; }; for (var i = idsToRemove.length; i--;) { _loop(); } } // Exit if the playlist does not have Date Ranges or does not have Program Date Time var lastFragment = details.fragments[details.fragments.length - 1]; if (ids.length === 0 || !isFiniteNumber(lastFragment == null ? void 0 : lastFragment.programDateTime)) { return; } if (!this.id3Track) { this.id3Track = this.createTrack(this.media); } var dateTimeOffset = lastFragment.programDateTime / 1000 - lastFragment.start; var Cue = getCueClass(); var _loop2 = function _loop2() { var id = ids[_i]; var dateRange = dateRanges[id]; var appendedDateRangeCues = dateRangeCuesAppended[id]; var cues = (appendedDateRangeCues == null ? void 0 : appendedDateRangeCues.cues) || {}; var durationKnown = (appendedDateRangeCues == null ? void 0 : appendedDateRangeCues.durationKnown) || false; var startTime = dateRangeDateToTimelineSeconds(dateRange.startDate, dateTimeOffset); var endTime = MAX_CUE_ENDTIME; var endDate = dateRange.endDate; if (endDate) { endTime = dateRangeDateToTimelineSeconds(endDate, dateTimeOffset); durationKnown = true; } else if (dateRange.endOnNext && !durationKnown) { var nextDateRangeWithSameClass = ids.reduce(function (filterMapArray, id) { var candidate = dateRanges[id]; if (candidate.class === dateRange.class && candidate.id !== id && candidate.startDate > dateRange.startDate) { filterMapArray.push(candidate); } return filterMapArray; }, []).sort(function (a, b) { return a.startDate.getTime() - b.startDate.getTime(); })[0]; if (nextDateRangeWithSameClass) { endTime = dateRangeDateToTimelineSeconds(nextDateRangeWithSameClass.startDate, dateTimeOffset); durationKnown = true; } } var attributes = Object.keys(dateRange.attr); for (var j = 0; j < attributes.length; j++) { var key = attributes[j]; if (!isDateRangeCueAttribute(key)) { continue; } var cue = cues[key]; if (cue) { if (durationKnown && !appendedDateRangeCues.durationKnown) { cue.endTime = endTime; } } else { var data = dateRange.attr[key]; cue = new Cue(startTime, endTime, ''); if (isSCTE35Attribute(key)) { data = hexToArrayBuffer(data); } cue.value = { key: key, data: data }; cue.type = MetadataSchema.dateRange; cue.id = id; _this.id3Track.addCue(cue); cues[key] = cue; } } dateRangeCuesAppended[id] = { cues: cues, dateRange: dateRange, durationKnown: durationKnown }; }; for (var _i = 0; _i < ids.length; _i++) { _loop2(); } }; return ID3TrackController; }(); var LatencyController = /*#__PURE__*/function () { function LatencyController(hls) { var _this = this; this.hls = void 0; this.config = void 0; this.media = null; this.levelDetails = null; this.currentTime = 0; this.stallCount = 0; this._latency = null; this.timeupdateHandler = function () { return _this.timeupdate(); }; this.hls = hls; this.config = hls.config; this.registerListeners(); } var _proto = LatencyController.prototype; _proto.destroy = function destroy() { this.unregisterListeners(); this.onMediaDetaching(); this.levelDetails = null; // @ts-ignore this.hls = this.timeupdateHandler = null; }; _proto.registerListeners = function registerListeners() { this.hls.on(Events.MEDIA_ATTACHED, this.onMediaAttached, this); this.hls.on(Events.MEDIA_DETACHING, this.onMediaDetaching, this); this.hls.on(Events.MANIFEST_LOADING, this.onManifestLoading, this); this.hls.on(Events.LEVEL_UPDATED, this.onLevelUpdated, this); this.hls.on(Events.ERROR, this.onError, this); }; _proto.unregisterListeners = function unregisterListeners() { this.hls.off(Events.MEDIA_ATTACHED, this.onMediaAttached, this); this.hls.off(Events.MEDIA_DETACHING, this.onMediaDetaching, this); this.hls.off(Events.MANIFEST_LOADING, this.onManifestLoading, this); this.hls.off(Events.LEVEL_UPDATED, this.onLevelUpdated, this); this.hls.off(Events.ERROR, this.onError, this); }; _proto.onMediaAttached = function onMediaAttached(event, data) { this.media = data.media; this.media.addEventListener('timeupdate', this.timeupdateHandler); }; _proto.onMediaDetaching = function onMediaDetaching() { if (this.media) { this.media.removeEventListener('timeupdate', this.timeupdateHandler); this.media = null; } }; _proto.onManifestLoading = function onManifestLoading() { this.levelDetails = null; this._latency = null; this.stallCount = 0; }; _proto.onLevelUpdated = function onLevelUpdated(event, _ref) { var details = _ref.details; this.levelDetails = details; if (details.advanced) { this.timeupdate(); } if (!details.live && this.media) { this.media.removeEventListener('timeupdate', this.timeupdateHandler); } }; _proto.onError = function onError(event, data) { var _this$levelDetails; if (data.details !== ErrorDetails.BUFFER_STALLED_ERROR) { return; } this.stallCount++; if ((_this$levelDetails = this.levelDetails) != null && _this$levelDetails.live) { logger.warn('[playback-rate-controller]: Stall detected, adjusting target latency'); } }; _proto.timeupdate = function timeupdate() { var media = this.media, levelDetails = this.levelDetails; if (!media || !levelDetails) { return; } this.currentTime = media.currentTime; var latency = this.computeLatency(); if (latency === null) { return; } this._latency = latency; // Adapt playbackRate to meet target latency in low-latency mode var _this$config = this.config, lowLatencyMode = _this$config.lowLatencyMode, maxLiveSyncPlaybackRate = _this$config.maxLiveSyncPlaybackRate; if (!lowLatencyMode || maxLiveSyncPlaybackRate === 1) { return; } var targetLatency = this.targetLatency; if (targetLatency === null) { return; } var distanceFromTarget = latency - targetLatency; // Only adjust playbackRate when within one target duration of targetLatency // and more than one second from under-buffering. // Playback further than one target duration from target can be considered DVR playback. var liveMinLatencyDuration = Math.min(this.maxLatency, targetLatency + levelDetails.targetduration); var inLiveRange = distanceFromTarget < liveMinLatencyDuration; if (levelDetails.live && inLiveRange && distanceFromTarget > 0.05 && this.forwardBufferLength > 1) { var max = Math.min(2, Math.max(1.0, maxLiveSyncPlaybackRate)); var rate = Math.round(2 / (1 + Math.exp(-0.75 * distanceFromTarget - this.edgeStalled)) * 20) / 20; media.playbackRate = Math.min(max, Math.max(1, rate)); } else if (media.playbackRate !== 1 && media.playbackRate !== 0) { media.playbackRate = 1; } }; _proto.estimateLiveEdge = function estimateLiveEdge() { var levelDetails = this.levelDetails; if (levelDetails === null) { return null; } return levelDetails.edge + levelDetails.age; }; _proto.computeLatency = function computeLatency() { var liveEdge = this.estimateLiveEdge(); if (liveEdge === null) { return null; } return liveEdge - this.currentTime; }; _createClass(LatencyController, [{ key: "latency", get: function get() { return this._latency || 0; } }, { key: "maxLatency", get: function get() { var config = this.config, levelDetails = this.levelDetails; if (config.liveMaxLatencyDuration !== undefined) { return config.liveMaxLatencyDuration; } return levelDetails ? config.liveMaxLatencyDurationCount * levelDetails.targetduration : 0; } }, { key: "targetLatency", get: function get() { var levelDetails = this.levelDetails; if (levelDetails === null) { return null; } var holdBack = levelDetails.holdBack, partHoldBack = levelDetails.partHoldBack, targetduration = levelDetails.targetduration; var _this$config2 = this.config, liveSyncDuration = _this$config2.liveSyncDuration, liveSyncDurationCount = _this$config2.liveSyncDurationCount, lowLatencyMode = _this$config2.lowLatencyMode; var userConfig = this.hls.userConfig; var targetLatency = lowLatencyMode ? partHoldBack || holdBack : holdBack; if (userConfig.liveSyncDuration || userConfig.liveSyncDurationCount || targetLatency === 0) { targetLatency = liveSyncDuration !== undefined ? liveSyncDuration : liveSyncDurationCount * targetduration; } var maxLiveSyncOnStallIncrease = targetduration; var liveSyncOnStallIncrease = 1.0; return targetLatency + Math.min(this.stallCount * liveSyncOnStallIncrease, maxLiveSyncOnStallIncrease); } }, { key: "liveSyncPosition", get: function get() { var liveEdge = this.estimateLiveEdge(); var targetLatency = this.targetLatency; var levelDetails = this.levelDetails; if (liveEdge === null || targetLatency === null || levelDetails === null) { return null; } var edge = levelDetails.edge; var syncPosition = liveEdge - targetLatency - this.edgeStalled; var min = edge - levelDetails.totalduration; var max = edge - (this.config.lowLatencyMode && levelDetails.partTarget || levelDetails.targetduration); return Math.min(Math.max(min, syncPosition), max); } }, { key: "drift", get: function get() { var levelDetails = this.levelDetails; if (levelDetails === null) { return 1; } return levelDetails.drift; } }, { key: "edgeStalled", get: function get() { var levelDetails = this.levelDetails; if (levelDetails === null) { return 0; } var maxLevelUpdateAge = (this.config.lowLatencyMode && levelDetails.partTarget || levelDetails.targetduration) * 3; return Math.max(levelDetails.age - maxLevelUpdateAge, 0); } }, { key: "forwardBufferLength", get: function get() { var media = this.media, levelDetails = this.levelDetails; if (!media || !levelDetails) { return 0; } var bufferedRanges = media.buffered.length; return (bufferedRanges ? media.buffered.end(bufferedRanges - 1) : levelDetails.edge) - this.currentTime; } }]); return LatencyController; }(); var HdcpLevels = ['NONE', 'TYPE-0', 'TYPE-1', null]; var HlsSkip = { No: "", Yes: "YES", v2: "v2" }; function getSkipValue(details, msn) { var canSkipUntil = details.canSkipUntil, canSkipDateRanges = details.canSkipDateRanges, endSN = details.endSN; var snChangeGoal = msn !== undefined ? msn - endSN : 0; if (canSkipUntil && snChangeGoal < canSkipUntil) { if (canSkipDateRanges) { return HlsSkip.v2; } return HlsSkip.Yes; } return HlsSkip.No; } var HlsUrlParameters = /*#__PURE__*/function () { function HlsUrlParameters(msn, part, skip) { this.msn = void 0; this.part = void 0; this.skip = void 0; this.msn = msn; this.part = part; this.skip = skip; } var _proto = HlsUrlParameters.prototype; _proto.addDirectives = function addDirectives(uri) { var url = new self.URL(uri); if (this.msn !== undefined) { url.searchParams.set('_HLS_msn', this.msn.toString()); } if (this.part !== undefined) { url.searchParams.set('_HLS_part', this.part.toString()); } if (this.skip) { url.searchParams.set('_HLS_skip', this.skip); } return url.href; }; return HlsUrlParameters; }(); var Level = /*#__PURE__*/function () { function Level(data) { this._attrs = void 0; this.audioCodec = void 0; this.bitrate = void 0; this.codecSet = void 0; this.height = void 0; this.id = void 0; this.name = void 0; this.videoCodec = void 0; this.width = void 0; this.unknownCodecs = void 0; this.audioGroupIds = void 0; this.details = void 0; this.fragmentError = 0; this.loadError = 0; this.loaded = void 0; this.realBitrate = 0; this.textGroupIds = void 0; this.url = void 0; this._urlId = 0; this.url = [data.url]; this._attrs = [data.attrs]; this.bitrate = data.bitrate; if (data.details) { this.details = data.details; } this.id = data.id || 0; this.name = data.name; this.width = data.width || 0; this.height = data.height || 0; this.audioCodec = data.audioCodec; this.videoCodec = data.videoCodec; this.unknownCodecs = data.unknownCodecs; this.codecSet = [data.videoCodec, data.audioCodec].filter(function (c) { return c; }).join(',').replace(/\.[^.,]+/g, ''); } var _proto2 = Level.prototype; _proto2.addFallback = function addFallback(data) { this.url.push(data.url); this._attrs.push(data.attrs); }; _createClass(Level, [{ key: "maxBitrate", get: function get() { return Math.max(this.realBitrate, this.bitrate); } }, { key: "attrs", get: function get() { return this._attrs[this._urlId]; } }, { key: "pathwayId", get: function get() { return this.attrs['PATHWAY-ID'] || '.'; } }, { key: "uri", get: function get() { return this.url[this._urlId] || ''; } }, { key: "urlId", get: function get() { return this._urlId; }, set: function set(value) { var newValue = value % this.url.length; if (this._urlId !== newValue) { this.fragmentError = 0; this.loadError = 0; this.details = undefined; this._urlId = newValue; } } }, { key: "audioGroupId", get: function get() { var _this$audioGroupIds; return (_this$audioGroupIds = this.audioGroupIds) == null ? void 0 : _this$audioGroupIds[this.urlId]; } }, { key: "textGroupId", get: function get() { var _this$textGroupIds; return (_this$textGroupIds = this.textGroupIds) == null ? void 0 : _this$textGroupIds[this.urlId]; } }]); return Level; }(); function updateFromToPTS(fragFrom, fragTo) { var fragToPTS = fragTo.startPTS; // if we know startPTS[toIdx] if (isFiniteNumber(fragToPTS)) { // update fragment duration. // it helps to fix drifts between playlist reported duration and fragment real duration var duration = 0; var frag; if (fragTo.sn > fragFrom.sn) { duration = fragToPTS - fragFrom.start; frag = fragFrom; } else { duration = fragFrom.start - fragToPTS; frag = fragTo; } if (frag.duration !== duration) { frag.duration = duration; } // we dont know startPTS[toIdx] } else if (fragTo.sn > fragFrom.sn) { var contiguous = fragFrom.cc === fragTo.cc; // TODO: With part-loading end/durations we need to confirm the whole fragment is loaded before using (or setting) minEndPTS if (contiguous && fragFrom.minEndPTS) { fragTo.start = fragFrom.start + (fragFrom.minEndPTS - fragFrom.start); } else { fragTo.start = fragFrom.start + fragFrom.duration; } } else { fragTo.start = Math.max(fragFrom.start - fragTo.duration, 0); } } function updateFragPTSDTS(details, frag, startPTS, endPTS, startDTS, endDTS) { var parsedMediaDuration = endPTS - startPTS; if (parsedMediaDuration <= 0) { logger.warn('Fragment should have a positive duration', frag); endPTS = startPTS + frag.duration; endDTS = startDTS + frag.duration; } var maxStartPTS = startPTS; var minEndPTS = endPTS; var fragStartPts = frag.startPTS; var fragEndPts = frag.endPTS; if (isFiniteNumber(fragStartPts)) { // delta PTS between audio and video var deltaPTS = Math.abs(fragStartPts - startPTS); if (!isFiniteNumber(frag.deltaPTS)) { frag.deltaPTS = deltaPTS; } else { frag.deltaPTS = Math.max(deltaPTS, frag.deltaPTS); } maxStartPTS = Math.max(startPTS, fragStartPts); startPTS = Math.min(startPTS, fragStartPts); startDTS = Math.min(startDTS, frag.startDTS); minEndPTS = Math.min(endPTS, fragEndPts); endPTS = Math.max(endPTS, fragEndPts); endDTS = Math.max(endDTS, frag.endDTS); } var drift = startPTS - frag.start; if (frag.start !== 0) { frag.start = startPTS; } frag.duration = endPTS - frag.start; frag.startPTS = startPTS; frag.maxStartPTS = maxStartPTS; frag.startDTS = startDTS; frag.endPTS = endPTS; frag.minEndPTS = minEndPTS; frag.endDTS = endDTS; var sn = frag.sn; // 'initSegment' // exit if sn out of range if (!details || sn < details.startSN || sn > details.endSN) { return 0; } var i; var fragIdx = sn - details.startSN; var fragments = details.fragments; // update frag reference in fragments array // rationale is that fragments array might not contain this frag object. // this will happen if playlist has been refreshed between frag loading and call to updateFragPTSDTS() // if we don't update frag, we won't be able to propagate PTS info on the playlist // resulting in invalid sliding computation fragments[fragIdx] = frag; // adjust fragment PTS/duration from seqnum-1 to frag 0 for (i = fragIdx; i > 0; i--) { updateFromToPTS(fragments[i], fragments[i - 1]); } // adjust fragment PTS/duration from seqnum to last frag for (i = fragIdx; i < fragments.length - 1; i++) { updateFromToPTS(fragments[i], fragments[i + 1]); } if (details.fragmentHint) { updateFromToPTS(fragments[fragments.length - 1], details.fragmentHint); } details.PTSKnown = details.alignedSliding = true; return drift; } function mergeDetails(oldDetails, newDetails) { // Track the last initSegment processed. Initialize it to the last one on the timeline. var currentInitSegment = null; var oldFragments = oldDetails.fragments; for (var i = oldFragments.length - 1; i >= 0; i--) { var oldInit = oldFragments[i].initSegment; if (oldInit) { currentInitSegment = oldInit; break; } } if (oldDetails.fragmentHint) { // prevent PTS and duration from being adjusted on the next hint delete oldDetails.fragmentHint.endPTS; } // check if old/new playlists have fragments in common // loop through overlapping SN and update startPTS , cc, and duration if any found var ccOffset = 0; var PTSFrag; mapFragmentIntersection(oldDetails, newDetails, function (oldFrag, newFrag) { if (oldFrag.relurl) { // Do not compare CC if the old fragment has no url. This is a level.fragmentHint used by LL-HLS parts. // It maybe be off by 1 if it was created before any parts or discontinuity tags were appended to the end // of the playlist. ccOffset = oldFrag.cc - newFrag.cc; } if (isFiniteNumber(oldFrag.startPTS) && isFiniteNumber(oldFrag.endPTS)) { newFrag.start = newFrag.startPTS = oldFrag.startPTS; newFrag.startDTS = oldFrag.startDTS; newFrag.maxStartPTS = oldFrag.maxStartPTS; newFrag.endPTS = oldFrag.endPTS; newFrag.endDTS = oldFrag.endDTS; newFrag.minEndPTS = oldFrag.minEndPTS; newFrag.duration = oldFrag.endPTS - oldFrag.startPTS; if (newFrag.duration) { PTSFrag = newFrag; } // PTS is known when any segment has startPTS and endPTS newDetails.PTSKnown = newDetails.alignedSliding = true; } newFrag.elementaryStreams = oldFrag.elementaryStreams; newFrag.loader = oldFrag.loader; newFrag.stats = oldFrag.stats; newFrag.urlId = oldFrag.urlId; if (oldFrag.initSegment) { newFrag.initSegment = oldFrag.initSegment; currentInitSegment = oldFrag.initSegment; } }); if (currentInitSegment) { var fragmentsToCheck = newDetails.fragmentHint ? newDetails.fragments.concat(newDetails.fragmentHint) : newDetails.fragments; fragmentsToCheck.forEach(function (frag) { var _currentInitSegment; if (!frag.initSegment || frag.initSegment.relurl === ((_currentInitSegment = currentInitSegment) == null ? void 0 : _currentInitSegment.relurl)) { frag.initSegment = currentInitSegment; } }); } if (newDetails.skippedSegments) { newDetails.deltaUpdateFailed = newDetails.fragments.some(function (frag) { return !frag; }); if (newDetails.deltaUpdateFailed) { logger.warn('[level-helper] Previous playlist missing segments skipped in delta playlist'); for (var _i = newDetails.skippedSegments; _i--;) { newDetails.fragments.shift(); } newDetails.startSN = newDetails.fragments[0].sn; newDetails.startCC = newDetails.fragments[0].cc; } else if (newDetails.canSkipDateRanges) { newDetails.dateRanges = mergeDateRanges(oldDetails.dateRanges, newDetails.dateRanges, newDetails.recentlyRemovedDateranges); } } var newFragments = newDetails.fragments; if (ccOffset) { logger.warn('discontinuity sliding from playlist, take drift into account'); for (var _i2 = 0; _i2 < newFragments.length; _i2++) { newFragments[_i2].cc += ccOffset; } } if (newDetails.skippedSegments) { newDetails.startCC = newDetails.fragments[0].cc; } // Merge parts mapPartIntersection(oldDetails.partList, newDetails.partList, function (oldPart, newPart) { newPart.elementaryStreams = oldPart.elementaryStreams; newPart.stats = oldPart.stats; }); // if at least one fragment contains PTS info, recompute PTS information for all fragments if (PTSFrag) { updateFragPTSDTS(newDetails, PTSFrag, PTSFrag.startPTS, PTSFrag.endPTS, PTSFrag.startDTS, PTSFrag.endDTS); } else { // ensure that delta is within oldFragments range // also adjust sliding in case delta is 0 (we could have old=[50-60] and new=old=[50-61]) // in that case we also need to adjust start offset of all fragments adjustSliding(oldDetails, newDetails); } if (newFragments.length) { newDetails.totalduration = newDetails.edge - newFragments[0].start; } newDetails.driftStartTime = oldDetails.driftStartTime; newDetails.driftStart = oldDetails.driftStart; var advancedDateTime = newDetails.advancedDateTime; if (newDetails.advanced && advancedDateTime) { var edge = newDetails.edge; if (!newDetails.driftStart) { newDetails.driftStartTime = advancedDateTime; newDetails.driftStart = edge; } newDetails.driftEndTime = advancedDateTime; newDetails.driftEnd = edge; } else { newDetails.driftEndTime = oldDetails.driftEndTime; newDetails.driftEnd = oldDetails.driftEnd; newDetails.advancedDateTime = oldDetails.advancedDateTime; } } function mergeDateRanges(oldDateRanges, deltaDateRanges, recentlyRemovedDateranges) { var dateRanges = _extends({}, oldDateRanges); if (recentlyRemovedDateranges) { recentlyRemovedDateranges.forEach(function (id) { delete dateRanges[id]; }); } Object.keys(deltaDateRanges).forEach(function (id) { var dateRange = new DateRange(deltaDateRanges[id].attr, dateRanges[id]); if (dateRange.isValid) { dateRanges[id] = dateRange; } else { logger.warn("Ignoring invalid Playlist Delta Update DATERANGE tag: \"" + JSON.stringify(deltaDateRanges[id].attr) + "\""); } }); return dateRanges; } function mapPartIntersection(oldParts, newParts, intersectionFn) { if (oldParts && newParts) { var delta = 0; for (var i = 0, len = oldParts.length; i <= len; i++) { var _oldPart = oldParts[i]; var _newPart = newParts[i + delta]; if (_oldPart && _newPart && _oldPart.index === _newPart.index && _oldPart.fragment.sn === _newPart.fragment.sn) { intersectionFn(_oldPart, _newPart); } else { delta--; } } } } function mapFragmentIntersection(oldDetails, newDetails, intersectionFn) { var skippedSegments = newDetails.skippedSegments; var start = Math.max(oldDetails.startSN, newDetails.startSN) - newDetails.startSN; var end = (oldDetails.fragmentHint ? 1 : 0) + (skippedSegments ? newDetails.endSN : Math.min(oldDetails.endSN, newDetails.endSN)) - newDetails.startSN; var delta = newDetails.startSN - oldDetails.startSN; var newFrags = newDetails.fragmentHint ? newDetails.fragments.concat(newDetails.fragmentHint) : newDetails.fragments; var oldFrags = oldDetails.fragmentHint ? oldDetails.fragments.concat(oldDetails.fragmentHint) : oldDetails.fragments; for (var i = start; i <= end; i++) { var _oldFrag = oldFrags[delta + i]; var _newFrag = newFrags[i]; if (skippedSegments && !_newFrag && i < skippedSegments) { // Fill in skipped segments in delta playlist _newFrag = newDetails.fragments[i] = _oldFrag; } if (_oldFrag && _newFrag) { intersectionFn(_oldFrag, _newFrag); } } } function adjustSliding(oldDetails, newDetails) { var delta = newDetails.startSN + newDetails.skippedSegments - oldDetails.startSN; var oldFragments = oldDetails.fragments; if (delta < 0 || delta >= oldFragments.length) { return; } addSliding(newDetails, oldFragments[delta].start); } function addSliding(details, start) { if (start) { var fragments = details.fragments; for (var i = details.skippedSegments; i < fragments.length; i++) { fragments[i].start += start; } if (details.fragmentHint) { details.fragmentHint.start += start; } } } function computeReloadInterval(newDetails, distanceToLiveEdgeMs) { if (distanceToLiveEdgeMs === void 0) { distanceToLiveEdgeMs = Infinity; } var reloadInterval = 1000 * newDetails.targetduration; if (newDetails.updated) { // Use last segment duration when shorter than target duration and near live edge var fragments = newDetails.fragments; var liveEdgeMaxTargetDurations = 4; if (fragments.length && reloadInterval * liveEdgeMaxTargetDurations > distanceToLiveEdgeMs) { var lastSegmentDuration = fragments[fragments.length - 1].duration * 1000; if (lastSegmentDuration < reloadInterval) { reloadInterval = lastSegmentDuration; } } } else { // estimate = 'miss half average'; // follow HLS Spec, If the client reloads a Playlist file and finds that it has not // changed then it MUST wait for a period of one-half the target // duration before retrying. reloadInterval /= 2; } return Math.round(reloadInterval); } function getFragmentWithSN(level, sn, fragCurrent) { if (!(level != null && level.details)) { return null; } var levelDetails = level.details; var fragment = levelDetails.fragments[sn - levelDetails.startSN]; if (fragment) { return fragment; } fragment = levelDetails.fragmentHint; if (fragment && fragment.sn === sn) { return fragment; } if (sn < levelDetails.startSN && fragCurrent && fragCurrent.sn === sn) { return fragCurrent; } return null; } function getPartWith(level, sn, partIndex) { var _level$details; if (!(level != null && level.details)) { return null; } return findPart((_level$details = level.details) == null ? void 0 : _level$details.partList, sn, partIndex); } function findPart(partList, sn, partIndex) { if (partList) { for (var i = partList.length; i--;) { var part = partList[i]; if (part.index === partIndex && part.fragment.sn === sn) { return part; } } } return null; } function isTimeoutError(error) { switch (error.details) { case ErrorDetails.FRAG_LOAD_TIMEOUT: case ErrorDetails.KEY_LOAD_TIMEOUT: case ErrorDetails.LEVEL_LOAD_TIMEOUT: case ErrorDetails.MANIFEST_LOAD_TIMEOUT: return true; } return false; } function getRetryConfig(loadPolicy, error) { var isTimeout = isTimeoutError(error); return loadPolicy.default[(isTimeout ? 'timeout' : 'error') + "Retry"]; } function getRetryDelay(retryConfig, retryCount) { // exponential backoff capped to max retry delay var backoffFactor = retryConfig.backoff === 'linear' ? 1 : Math.pow(2, retryCount); return Math.min(backoffFactor * retryConfig.retryDelayMs, retryConfig.maxRetryDelayMs); } function getLoaderConfigWithoutReties(loderConfig) { return _objectSpread2(_objectSpread2({}, loderConfig), { errorRetry: null, timeoutRetry: null }); } function shouldRetry(retryConfig, retryCount, isTimeout, httpStatus) { return !!retryConfig && retryCount < retryConfig.maxNumRetry && (retryForHttpStatus(httpStatus) || !!isTimeout); } function retryForHttpStatus(httpStatus) { // Do not retry on status 4xx, status 0 (CORS error), or undefined (decrypt/gap/parse error) return httpStatus === 0 && navigator.onLine === false || !!httpStatus && (httpStatus < 400 || httpStatus > 499); } var BinarySearch = { /** * Searches for an item in an array which matches a certain condition. * This requires the condition to only match one item in the array, * and for the array to be ordered. * * @param list The array to search. * @param comparisonFn * Called and provided a candidate item as the first argument. * Should return: * > -1 if the item should be located at a lower index than the provided item. * > 1 if the item should be located at a higher index than the provided item. * > 0 if the item is the item you're looking for. * * @returns the object if found, otherwise returns null */ search: function search(list, comparisonFn) { var minIndex = 0; var maxIndex = list.length - 1; var currentIndex = null; var currentElement = null; while (minIndex <= maxIndex) { currentIndex = (minIndex + maxIndex) / 2 | 0; currentElement = list[currentIndex]; var comparisonResult = comparisonFn(currentElement); if (comparisonResult > 0) { minIndex = currentIndex + 1; } else if (comparisonResult < 0) { maxIndex = currentIndex - 1; } else { return currentElement; } } return null; } }; /** * Returns first fragment whose endPdt value exceeds the given PDT, or null. * @param fragments - The array of candidate fragments * @param PDTValue - The PDT value which must be exceeded * @param maxFragLookUpTolerance - The amount of time that a fragment's start/end can be within in order to be considered contiguous */ function findFragmentByPDT(fragments, PDTValue, maxFragLookUpTolerance) { if (PDTValue === null || !Array.isArray(fragments) || !fragments.length || !isFiniteNumber(PDTValue)) { return null; } // if less than start var startPDT = fragments[0].programDateTime; if (PDTValue < (startPDT || 0)) { return null; } var endPDT = fragments[fragments.length - 1].endProgramDateTime; if (PDTValue >= (endPDT || 0)) { return null; } maxFragLookUpTolerance = maxFragLookUpTolerance || 0; for (var seg = 0; seg < fragments.length; ++seg) { var frag = fragments[seg]; if (pdtWithinToleranceTest(PDTValue, maxFragLookUpTolerance, frag)) { return frag; } } return null; } /** * Finds a fragment based on the SN of the previous fragment; or based on the needs of the current buffer. * This method compensates for small buffer gaps by applying a tolerance to the start of any candidate fragment, thus * breaking any traps which would cause the same fragment to be continuously selected within a small range. * @param fragPrevious - The last frag successfully appended * @param fragments - The array of candidate fragments * @param bufferEnd - The end of the contiguous buffered range the playhead is currently within * @param maxFragLookUpTolerance - The amount of time that a fragment's start/end can be within in order to be considered contiguous * @returns a matching fragment or null */ function findFragmentByPTS(fragPrevious, fragments, bufferEnd, maxFragLookUpTolerance) { if (bufferEnd === void 0) { bufferEnd = 0; } if (maxFragLookUpTolerance === void 0) { maxFragLookUpTolerance = 0; } var fragNext = null; if (fragPrevious) { fragNext = fragments[fragPrevious.sn - fragments[0].sn + 1] || null; } else if (bufferEnd === 0 && fragments[0].start === 0) { fragNext = fragments[0]; } // Prefer the next fragment if it's within tolerance if (fragNext && fragmentWithinToleranceTest(bufferEnd, maxFragLookUpTolerance, fragNext) === 0) { return fragNext; } // We might be seeking past the tolerance so find the best match var foundFragment = BinarySearch.search(fragments, fragmentWithinToleranceTest.bind(null, bufferEnd, maxFragLookUpTolerance)); if (foundFragment && (foundFragment !== fragPrevious || !fragNext)) { return foundFragment; } // If no match was found return the next fragment after fragPrevious, or null return fragNext; } /** * The test function used by the findFragmentBySn's BinarySearch to look for the best match to the current buffer conditions. * @param candidate - The fragment to test * @param bufferEnd - The end of the current buffered range the playhead is currently within * @param maxFragLookUpTolerance - The amount of time that a fragment's start can be within in order to be considered contiguous * @returns 0 if it matches, 1 if too low, -1 if too high */ function fragmentWithinToleranceTest(bufferEnd, maxFragLookUpTolerance, candidate) { if (bufferEnd === void 0) { bufferEnd = 0; } if (maxFragLookUpTolerance === void 0) { maxFragLookUpTolerance = 0; } // eagerly accept an accurate match (no tolerance) if (candidate.start <= bufferEnd && candidate.start + candidate.duration > bufferEnd) { return 0; } // offset should be within fragment boundary - config.maxFragLookUpTolerance // this is to cope with situations like // bufferEnd = 9.991 // frag[Ø] : [0,10] // frag[1] : [10,20] // bufferEnd is within frag[0] range ... although what we are expecting is to return frag[1] here // frag start frag start+duration // |-----------------------------| // <---> <---> // ...--------><-----------------------------><---------.... // previous frag matching fragment next frag // return -1 return 0 return 1 // logger.log(`level/sn/start/end/bufEnd:${level}/${candidate.sn}/${candidate.start}/${(candidate.start+candidate.duration)}/${bufferEnd}`); // Set the lookup tolerance to be small enough to detect the current segment - ensures we don't skip over very small segments var candidateLookupTolerance = Math.min(maxFragLookUpTolerance, candidate.duration + (candidate.deltaPTS ? candidate.deltaPTS : 0)); if (candidate.start + candidate.duration - candidateLookupTolerance <= bufferEnd) { return 1; } else if (candidate.start - candidateLookupTolerance > bufferEnd && candidate.start) { // if maxFragLookUpTolerance will have negative value then don't return -1 for first element return -1; } return 0; } /** * The test function used by the findFragmentByPdt's BinarySearch to look for the best match to the current buffer conditions. * This function tests the candidate's program date time values, as represented in Unix time * @param candidate - The fragment to test * @param pdtBufferEnd - The Unix time representing the end of the current buffered range * @param maxFragLookUpTolerance - The amount of time that a fragment's start can be within in order to be considered contiguous * @returns true if contiguous, false otherwise */ function pdtWithinToleranceTest(pdtBufferEnd, maxFragLookUpTolerance, candidate) { var candidateLookupTolerance = Math.min(maxFragLookUpTolerance, candidate.duration + (candidate.deltaPTS ? candidate.deltaPTS : 0)) * 1000; // endProgramDateTime can be null, default to zero var endProgramDateTime = candidate.endProgramDateTime || 0; return endProgramDateTime - candidateLookupTolerance > pdtBufferEnd; } function findFragWithCC(fragments, cc) { return BinarySearch.search(fragments, function (candidate) { if (candidate.cc < cc) { return 1; } else if (candidate.cc > cc) { return -1; } else { return 0; } }); } var RENDITION_PENALTY_DURATION_MS = 300000; var NetworkErrorAction = { DoNothing: 0, SendEndCallback: 1, SendAlternateToPenaltyBox: 2, RemoveAlternatePermanently: 3, InsertDiscontinuity: 4, RetryRequest: 5 }; var ErrorActionFlags = { None: 0, MoveAllAlternatesMatchingHost: 1, MoveAllAlternatesMatchingHDCP: 2, SwitchToSDR: 4 }; // Reserved for future use var ErrorController = /*#__PURE__*/function () { function ErrorController(hls) { this.hls = void 0; this.playlistError = 0; this.penalizedRenditions = {}; this.log = void 0; this.warn = void 0; this.error = void 0; this.hls = hls; this.log = logger.log.bind(logger, "[info]:"); this.warn = logger.warn.bind(logger, "[warning]:"); this.error = logger.error.bind(logger, "[error]:"); this.registerListeners(); } var _proto = ErrorController.prototype; _proto.registerListeners = function registerListeners() { var hls = this.hls; hls.on(Events.ERROR, this.onError, this); hls.on(Events.MANIFEST_LOADING, this.onManifestLoading, this); hls.on(Events.LEVEL_UPDATED, this.onLevelUpdated, this); }; _proto.unregisterListeners = function unregisterListeners() { var hls = this.hls; if (!hls) { return; } hls.off(Events.ERROR, this.onError, this); hls.off(Events.ERROR, this.onErrorOut, this); hls.off(Events.MANIFEST_LOADING, this.onManifestLoading, this); hls.off(Events.LEVEL_UPDATED, this.onLevelUpdated, this); }; _proto.destroy = function destroy() { this.unregisterListeners(); // @ts-ignore this.hls = null; this.penalizedRenditions = {}; }; _proto.startLoad = function startLoad(startPosition) { this.playlistError = 0; }; _proto.stopLoad = function stopLoad() {}; _proto.getVariantLevelIndex = function getVariantLevelIndex(frag) { return (frag == null ? void 0 : frag.type) === PlaylistLevelType.MAIN ? frag.level : this.hls.loadLevel; }; _proto.onManifestLoading = function onManifestLoading() { this.playlistError = 0; this.penalizedRenditions = {}; }; _proto.onLevelUpdated = function onLevelUpdated() { this.playlistError = 0; }; _proto.onError = function onError(event, data) { var _data$frag, _data$level; if (data.fatal) { return; } var hls = this.hls; var context = data.context; switch (data.details) { case ErrorDetails.FRAG_LOAD_ERROR: case ErrorDetails.FRAG_LOAD_TIMEOUT: case ErrorDetails.KEY_LOAD_ERROR: case ErrorDetails.KEY_LOAD_TIMEOUT: data.errorAction = this.getFragRetryOrSwitchAction(data); return; case ErrorDetails.FRAG_PARSING_ERROR: // ignore empty segment errors marked as gap if ((_data$frag = data.frag) != null && _data$frag.gap) { data.errorAction = { action: NetworkErrorAction.DoNothing, flags: ErrorActionFlags.None }; return; } // falls through case ErrorDetails.FRAG_GAP: case ErrorDetails.FRAG_DECRYPT_ERROR: { // Switch level if possible, otherwise allow retry count to reach max error retries data.errorAction = this.getFragRetryOrSwitchAction(data); data.errorAction.action = NetworkErrorAction.SendAlternateToPenaltyBox; return; } case ErrorDetails.LEVEL_EMPTY_ERROR: case ErrorDetails.LEVEL_PARSING_ERROR: { var _data$context, _data$context$levelDe; // Only retry when empty and live var levelIndex = data.parent === PlaylistLevelType.MAIN ? data.level : hls.loadLevel; if (data.details === ErrorDetails.LEVEL_EMPTY_ERROR && !!((_data$context = data.context) != null && (_data$context$levelDe = _data$context.levelDetails) != null && _data$context$levelDe.live)) { data.errorAction = this.getPlaylistRetryOrSwitchAction(data, levelIndex); } else { // Escalate to fatal if not retrying or switching data.levelRetry = false; data.errorAction = this.getLevelSwitchAction(data, levelIndex); } } return; case ErrorDetails.LEVEL_LOAD_ERROR: case ErrorDetails.LEVEL_LOAD_TIMEOUT: if (typeof (context == null ? void 0 : context.level) === 'number') { data.errorAction = this.getPlaylistRetryOrSwitchAction(data, context.level); } return; case ErrorDetails.AUDIO_TRACK_LOAD_ERROR: case ErrorDetails.AUDIO_TRACK_LOAD_TIMEOUT: case ErrorDetails.SUBTITLE_LOAD_ERROR: case ErrorDetails.SUBTITLE_TRACK_LOAD_TIMEOUT: if (context) { var level = hls.levels[hls.loadLevel]; if (level && (context.type === PlaylistContextType.AUDIO_TRACK && context.groupId === level.audioGroupId || context.type === PlaylistContextType.SUBTITLE_TRACK && context.groupId === level.textGroupId)) { // Perform Pathway switch or Redundant failover if possible for fastest recovery // otherwise allow playlist retry count to reach max error retries data.errorAction = this.getPlaylistRetryOrSwitchAction(data, hls.loadLevel); data.errorAction.action = NetworkErrorAction.SendAlternateToPenaltyBox; data.errorAction.flags = ErrorActionFlags.MoveAllAlternatesMatchingHost; return; } } return; case ErrorDetails.KEY_SYSTEM_STATUS_OUTPUT_RESTRICTED: { var _level = hls.levels[hls.loadLevel]; var restrictedHdcpLevel = _level == null ? void 0 : _level.attrs['HDCP-LEVEL']; if (restrictedHdcpLevel) { data.errorAction = { action: NetworkErrorAction.SendAlternateToPenaltyBox, flags: ErrorActionFlags.MoveAllAlternatesMatchingHDCP, hdcpLevel: restrictedHdcpLevel }; } } return; case ErrorDetails.BUFFER_ADD_CODEC_ERROR: case ErrorDetails.REMUX_ALLOC_ERROR: data.errorAction = this.getLevelSwitchAction(data, (_data$level = data.level) != null ? _data$level : hls.loadLevel); return; case ErrorDetails.INTERNAL_EXCEPTION: case ErrorDetails.BUFFER_APPENDING_ERROR: case ErrorDetails.BUFFER_APPEND_ERROR: case ErrorDetails.BUFFER_FULL_ERROR: case ErrorDetails.LEVEL_SWITCH_ERROR: case ErrorDetails.BUFFER_STALLED_ERROR: case ErrorDetails.BUFFER_SEEK_OVER_HOLE: case ErrorDetails.BUFFER_NUDGE_ON_STALL: data.errorAction = { action: NetworkErrorAction.DoNothing, flags: ErrorActionFlags.None }; return; } if (data.type === ErrorTypes.KEY_SYSTEM_ERROR) { var _levelIndex = this.getVariantLevelIndex(data.frag); // Do not retry level. Escalate to fatal if switching levels fails. data.levelRetry = false; data.errorAction = this.getLevelSwitchAction(data, _levelIndex); return; } }; _proto.getPlaylistRetryOrSwitchAction = function getPlaylistRetryOrSwitchAction(data, levelIndex) { var _data$response; var hls = this.hls; var retryConfig = getRetryConfig(hls.config.playlistLoadPolicy, data); var retryCount = this.playlistError++; var httpStatus = (_data$response = data.response) == null ? void 0 : _data$response.code; var retry = shouldRetry(retryConfig, retryCount, isTimeoutError(data), httpStatus); if (retry) { return { action: NetworkErrorAction.RetryRequest, flags: ErrorActionFlags.None, retryConfig: retryConfig, retryCount: retryCount }; } var errorAction = this.getLevelSwitchAction(data, levelIndex); if (retryConfig) { errorAction.retryConfig = retryConfig; errorAction.retryCount = retryCount; } return errorAction; }; _proto.getFragRetryOrSwitchAction = function getFragRetryOrSwitchAction(data) { var hls = this.hls; // Share fragment error count accross media options (main, audio, subs) // This allows for level based rendition switching when media option assets fail var variantLevelIndex = this.getVariantLevelIndex(data.frag); var level = hls.levels[variantLevelIndex]; var _hls$config = hls.config, fragLoadPolicy = _hls$config.fragLoadPolicy, keyLoadPolicy = _hls$config.keyLoadPolicy; var retryConfig = getRetryConfig(data.details.startsWith('key') ? keyLoadPolicy : fragLoadPolicy, data); var fragmentErrors = hls.levels.reduce(function (acc, level) { return acc + level.fragmentError; }, 0); // Switch levels when out of retried or level index out of bounds if (level) { var _data$response2; if (data.details !== ErrorDetails.FRAG_GAP) { level.fragmentError++; } var httpStatus = (_data$response2 = data.response) == null ? void 0 : _data$response2.code; var retry = shouldRetry(retryConfig, fragmentErrors, isTimeoutError(data), httpStatus); if (retry) { return { action: NetworkErrorAction.RetryRequest, flags: ErrorActionFlags.None, retryConfig: retryConfig, retryCount: fragmentErrors }; } } // Reach max retry count, or Missing level reference // Switch to valid index var errorAction = this.getLevelSwitchAction(data, variantLevelIndex); // Add retry details to allow skipping of FRAG_PARSING_ERROR if (retryConfig) { errorAction.retryConfig = retryConfig; errorAction.retryCount = fragmentErrors; } return errorAction; }; _proto.getLevelSwitchAction = function getLevelSwitchAction(data, levelIndex) { var hls = this.hls; if (levelIndex === null || levelIndex === undefined) { levelIndex = hls.loadLevel; } var level = this.hls.levels[levelIndex]; if (level) { level.loadError++; if (hls.autoLevelEnabled) { var _data$frag2, _data$context2; // Search for next level to retry var nextLevel = -1; var levels = hls.levels, loadLevel = hls.loadLevel, minAutoLevel = hls.minAutoLevel, maxAutoLevel = hls.maxAutoLevel; var fragErrorType = (_data$frag2 = data.frag) == null ? void 0 : _data$frag2.type; var _ref = (_data$context2 = data.context) != null ? _data$context2 : {}, playlistErrorType = _ref.type, playlistErrorGroupId = _ref.groupId; for (var i = levels.length; i--;) { var candidate = (i + loadLevel) % levels.length; if (candidate !== loadLevel && candidate >= minAutoLevel && candidate <= maxAutoLevel && levels[candidate].loadError === 0) { var levelCandidate = levels[candidate]; // Skip level switch if GAP tag is found in next level at same position if (data.details === ErrorDetails.FRAG_GAP && data.frag) { var levelDetails = levels[candidate].details; if (levelDetails) { var fragCandidate = findFragmentByPTS(data.frag, levelDetails.fragments, data.frag.start); if (fragCandidate != null && fragCandidate.gap) { continue; } } } else if (playlistErrorType === PlaylistContextType.AUDIO_TRACK && playlistErrorGroupId === levelCandidate.audioGroupId || playlistErrorType === PlaylistContextType.SUBTITLE_TRACK && playlistErrorGroupId === levelCandidate.textGroupId) { // For audio/subs playlist errors find another group ID or fallthrough to redundant fail-over continue; } else if (fragErrorType === PlaylistLevelType.AUDIO && level.audioGroupId === levelCandidate.audioGroupId || fragErrorType === PlaylistLevelType.SUBTITLE && level.textGroupId === levelCandidate.textGroupId) { // For audio/subs frag errors find another group ID or fallthrough to redundant fail-over continue; } nextLevel = candidate; break; } } if (nextLevel > -1 && hls.loadLevel !== nextLevel) { data.levelRetry = true; this.playlistError = 0; return { action: NetworkErrorAction.SendAlternateToPenaltyBox, flags: ErrorActionFlags.None, nextAutoLevel: nextLevel }; } } } // No levels to switch / Manual level selection / Level not found // Resolve with Pathway switch, Redundant fail-over, or stay on lowest Level return { action: NetworkErrorAction.SendAlternateToPenaltyBox, flags: ErrorActionFlags.MoveAllAlternatesMatchingHost }; }; _proto.onErrorOut = function onErrorOut(event, data) { var _data$errorAction; switch ((_data$errorAction = data.errorAction) == null ? void 0 : _data$errorAction.action) { case NetworkErrorAction.DoNothing: break; case NetworkErrorAction.SendAlternateToPenaltyBox: this.sendAlternateToPenaltyBox(data); if (!data.errorAction.resolved && data.details !== ErrorDetails.FRAG_GAP) { data.fatal = true; } break; } if (data.fatal) { this.hls.stopLoad(); return; } }; _proto.sendAlternateToPenaltyBox = function sendAlternateToPenaltyBox(data) { var hls = this.hls; var errorAction = data.errorAction; if (!errorAction) { return; } var flags = errorAction.flags, hdcpLevel = errorAction.hdcpLevel, nextAutoLevel = errorAction.nextAutoLevel; switch (flags) { case ErrorActionFlags.None: this.switchLevel(data, nextAutoLevel); break; case ErrorActionFlags.MoveAllAlternatesMatchingHost: { // Handle Redundant Levels here. Pathway switching is handled by content-steering-controller if (!errorAction.resolved) { errorAction.resolved = this.redundantFailover(data); } } break; case ErrorActionFlags.MoveAllAlternatesMatchingHDCP: if (hdcpLevel) { hls.maxHdcpLevel = HdcpLevels[HdcpLevels.indexOf(hdcpLevel) - 1]; errorAction.resolved = true; } this.warn("Restricting playback to HDCP-LEVEL of \"" + hls.maxHdcpLevel + "\" or lower"); break; } // If not resolved by previous actions try to switch to next level if (!errorAction.resolved) { this.switchLevel(data, nextAutoLevel); } }; _proto.switchLevel = function switchLevel(data, levelIndex) { if (levelIndex !== undefined && data.errorAction) { this.warn("switching to level " + levelIndex + " after " + data.details); this.hls.nextAutoLevel = levelIndex; data.errorAction.resolved = true; // Stream controller is responsible for this but won't switch on false start this.hls.nextLoadLevel = this.hls.nextAutoLevel; } }; _proto.redundantFailover = function redundantFailover(data) { var _this = this; var hls = this.hls, penalizedRenditions = this.penalizedRenditions; var levelIndex = data.parent === PlaylistLevelType.MAIN ? data.level : hls.loadLevel; var level = hls.levels[levelIndex]; var redundantLevels = level.url.length; var errorUrlId = data.frag ? data.frag.urlId : level.urlId; if (level.urlId === errorUrlId && (!data.frag || level.details)) { this.penalizeRendition(level, data); } var _loop = function _loop() { var newUrlId = (errorUrlId + i) % redundantLevels; var penalizedRendition = penalizedRenditions[newUrlId]; // Check if rendition is penalized and skip if it is a bad fit for failover if (!penalizedRendition || checkExpired(penalizedRendition, data, penalizedRenditions[errorUrlId])) { // delete penalizedRenditions[newUrlId]; // Update the url id of all levels so that we stay on the same set of variants when level switching _this.warn("Switching to Redundant Stream " + (newUrlId + 1) + "/" + redundantLevels + ": \"" + level.url[newUrlId] + "\" after " + data.details); _this.playlistError = 0; hls.levels.forEach(function (lv) { lv.urlId = newUrlId; }); hls.nextLoadLevel = levelIndex; return { v: true }; } }; for (var i = 1; i < redundantLevels; i++) { var _ret = _loop(); if (typeof _ret === "object") return _ret.v; } return false; }; _proto.penalizeRendition = function penalizeRendition(level, data) { var penalizedRenditions = this.penalizedRenditions; var penalizedRendition = penalizedRenditions[level.urlId] || { lastErrorPerfMs: 0, errors: [], details: undefined }; penalizedRendition.lastErrorPerfMs = performance.now(); penalizedRendition.errors.push(data); penalizedRendition.details = level.details; penalizedRenditions[level.urlId] = penalizedRendition; }; return ErrorController; }(); function checkExpired(penalizedRendition, data, currentPenaltyState) { // Expire penalty for switching back to rendition after RENDITION_PENALTY_DURATION_MS if (performance.now() - penalizedRendition.lastErrorPerfMs > RENDITION_PENALTY_DURATION_MS) { return true; } // Expire penalty on GAP tag error if rendition has no GAP at position (does not cover media tracks) var lastErrorDetails = penalizedRendition.details; if (data.details === ErrorDetails.FRAG_GAP && lastErrorDetails && data.frag) { var position = data.frag.start; var candidateFrag = findFragmentByPTS(null, lastErrorDetails.fragments, position); if (candidateFrag && !candidateFrag.gap) { return true; } } // Expire penalty if there are more errors in currentLevel than in penalizedRendition if (currentPenaltyState && penalizedRendition.errors.length < currentPenaltyState.errors.length) { var lastCandidateError = penalizedRendition.errors[penalizedRendition.errors.length - 1]; if (lastErrorDetails && lastCandidateError.frag && data.frag && Math.abs(lastCandidateError.frag.start - data.frag.start) > lastErrorDetails.targetduration * 3) { return true; } } return false; } var BasePlaylistController = /*#__PURE__*/function () { function BasePlaylistController(hls, logPrefix) { this.hls = void 0; this.timer = -1; this.requestScheduled = -1; this.canLoad = false; this.log = void 0; this.warn = void 0; this.log = logger.log.bind(logger, logPrefix + ":"); this.warn = logger.warn.bind(logger, logPrefix + ":"); this.hls = hls; } var _proto = BasePlaylistController.prototype; _proto.destroy = function destroy() { this.clearTimer(); // @ts-ignore this.hls = this.log = this.warn = null; }; _proto.clearTimer = function clearTimer() { clearTimeout(this.timer); this.timer = -1; }; _proto.startLoad = function startLoad() { this.canLoad = true; this.requestScheduled = -1; this.loadPlaylist(); }; _proto.stopLoad = function stopLoad() { this.canLoad = false; this.clearTimer(); }; _proto.switchParams = function switchParams(playlistUri, previous) { var renditionReports = previous == null ? void 0 : previous.renditionReports; if (renditionReports) { var foundIndex = -1; for (var i = 0; i < renditionReports.length; i++) { var attr = renditionReports[i]; var uri = void 0; try { uri = new self.URL(attr.URI, previous.url).href; } catch (error) { logger.warn("Could not construct new URL for Rendition Report: " + error); uri = attr.URI || ''; } // Use exact match. Otherwise, the last partial match, if any, will be used // (Playlist URI includes a query string that the Rendition Report does not) if (uri === playlistUri) { foundIndex = i; break; } else if (uri === playlistUri.substring(0, uri.length)) { foundIndex = i; } } if (foundIndex !== -1) { var _attr = renditionReports[foundIndex]; var msn = parseInt(_attr['LAST-MSN']) || (previous == null ? void 0 : previous.lastPartSn); var part = parseInt(_attr['LAST-PART']) || (previous == null ? void 0 : previous.lastPartIndex); if (this.hls.config.lowLatencyMode) { var currentGoal = Math.min(previous.age - previous.partTarget, previous.targetduration); if (part >= 0 && currentGoal > previous.partTarget) { part += 1; } } return new HlsUrlParameters(msn, part >= 0 ? part : undefined, HlsSkip.No); } } }; _proto.loadPlaylist = function loadPlaylist(hlsUrlParameters) { if (this.requestScheduled === -1) { this.requestScheduled = self.performance.now(); } // Loading is handled by the subclasses }; _proto.shouldLoadPlaylist = function shouldLoadPlaylist(playlist) { return this.canLoad && !!playlist && !!playlist.url && (!playlist.details || playlist.details.live); }; _proto.shouldReloadPlaylist = function shouldReloadPlaylist(playlist) { return this.timer === -1 && this.requestScheduled === -1 && this.shouldLoadPlaylist(playlist); }; _proto.playlistLoaded = function playlistLoaded(index, data, previousDetails) { var _this = this; var details = data.details, stats = data.stats; // Set last updated date-time var now = self.performance.now(); var elapsed = stats.loading.first ? Math.max(0, now - stats.loading.first) : 0; details.advancedDateTime = Date.now() - elapsed; // if current playlist is a live playlist, arm a timer to reload it if (details.live || previousDetails != null && previousDetails.live) { details.reloaded(previousDetails); if (previousDetails) { this.log("live playlist " + index + " " + (details.advanced ? 'REFRESHED ' + details.lastPartSn + '-' + details.lastPartIndex : 'MISSED')); } // Merge live playlists to adjust fragment starts and fill in delta playlist skipped segments if (previousDetails && details.fragments.length > 0) { mergeDetails(previousDetails, details); } if (!this.canLoad || !details.live) { return; } var deliveryDirectives; var msn = undefined; var part = undefined; if (details.canBlockReload && details.endSN && details.advanced) { // Load level with LL-HLS delivery directives var lowLatencyMode = this.hls.config.lowLatencyMode; var lastPartSn = details.lastPartSn; var endSn = details.endSN; var lastPartIndex = details.lastPartIndex; var hasParts = lastPartIndex !== -1; var lastPart = lastPartSn === endSn; // When low latency mode is disabled, we'll skip part requests once the last part index is found var nextSnStartIndex = lowLatencyMode ? 0 : lastPartIndex; if (hasParts) { msn = lastPart ? endSn + 1 : lastPartSn; part = lastPart ? nextSnStartIndex : lastPartIndex + 1; } else { msn = endSn + 1; } // Low-Latency CDN Tune-in: "age" header and time since load indicates we're behind by more than one part // Update directives to obtain the Playlist that has the estimated additional duration of media var lastAdvanced = details.age; var cdnAge = lastAdvanced + details.ageHeader; var currentGoal = Math.min(cdnAge - details.partTarget, details.targetduration * 1.5); if (currentGoal > 0) { if (previousDetails && currentGoal > previousDetails.tuneInGoal) { // If we attempted to get the next or latest playlist update, but currentGoal increased, // then we either can't catchup, or the "age" header cannot be trusted. this.warn("CDN Tune-in goal increased from: " + previousDetails.tuneInGoal + " to: " + currentGoal + " with playlist age: " + details.age); currentGoal = 0; } else { var segments = Math.floor(currentGoal / details.targetduration); msn += segments; if (part !== undefined) { var parts = Math.round(currentGoal % details.targetduration / details.partTarget); part += parts; } this.log("CDN Tune-in age: " + details.ageHeader + "s last advanced " + lastAdvanced.toFixed(2) + "s goal: " + currentGoal + " skip sn " + segments + " to part " + part); } details.tuneInGoal = currentGoal; } deliveryDirectives = this.getDeliveryDirectives(details, data.deliveryDirectives, msn, part); if (lowLatencyMode || !lastPart) { this.loadPlaylist(deliveryDirectives); return; } } else if (details.canBlockReload) { deliveryDirectives = this.getDeliveryDirectives(details, data.deliveryDirectives, msn, part); } var bufferInfo = this.hls.mainForwardBufferInfo; var position = bufferInfo ? bufferInfo.end - bufferInfo.len : 0; var distanceToLiveEdgeMs = (details.edge - position) * 1000; var reloadInterval = computeReloadInterval(details, distanceToLiveEdgeMs); if (details.updated && now > this.requestScheduled + reloadInterval) { this.requestScheduled = stats.loading.start; } if (msn !== undefined && details.canBlockReload) { this.requestScheduled = stats.loading.first + reloadInterval - (details.partTarget * 1000 || 1000); } else if (this.requestScheduled === -1 || this.requestScheduled + reloadInterval < now) { this.requestScheduled = now; } else if (this.requestScheduled - now <= 0) { this.requestScheduled += reloadInterval; } var estimatedTimeUntilUpdate = this.requestScheduled - now; estimatedTimeUntilUpdate = Math.max(0, estimatedTimeUntilUpdate); this.log("reload live playlist " + index + " in " + Math.round(estimatedTimeUntilUpdate) + " ms"); // this.log( // `live reload ${details.updated ? 'REFRESHED' : 'MISSED'} // reload in ${estimatedTimeUntilUpdate / 1000} // round trip ${(stats.loading.end - stats.loading.start) / 1000} // diff ${ // (reloadInterval - // (estimatedTimeUntilUpdate + // stats.loading.end - // stats.loading.start)) / // 1000 // } // reload interval ${reloadInterval / 1000} // target duration ${details.targetduration} // distance to edge ${distanceToLiveEdgeMs / 1000}` // ); this.timer = self.setTimeout(function () { return _this.loadPlaylist(deliveryDirectives); }, estimatedTimeUntilUpdate); } else { this.clearTimer(); } }; _proto.getDeliveryDirectives = function getDeliveryDirectives(details, previousDeliveryDirectives, msn, part) { var skip = getSkipValue(details, msn); if (previousDeliveryDirectives != null && previousDeliveryDirectives.skip && details.deltaUpdateFailed) { msn = previousDeliveryDirectives.msn; part = previousDeliveryDirectives.part; skip = HlsSkip.No; } return new HlsUrlParameters(msn, part, skip); }; _proto.checkRetry = function checkRetry(errorEvent) { var _this2 = this; var errorDetails = errorEvent.details; var isTimeout = isTimeoutError(errorEvent); var errorAction = errorEvent.errorAction; var _ref = errorAction || {}, action = _ref.action, _ref$retryCount = _ref.retryCount, retryCount = _ref$retryCount === void 0 ? 0 : _ref$retryCount, retryConfig = _ref.retryConfig; var retry = !!errorAction && !!retryConfig && (action === NetworkErrorAction.RetryRequest || !errorAction.resolved && action === NetworkErrorAction.SendAlternateToPenaltyBox); if (retry) { var _errorEvent$context; this.requestScheduled = -1; if (retryCount >= retryConfig.maxNumRetry) { return false; } if (isTimeout && (_errorEvent$context = errorEvent.context) != null && _errorEvent$context.deliveryDirectives) { // The LL-HLS request already timed out so retry immediately this.warn("Retrying playlist loading " + (retryCount + 1) + "/" + retryConfig.maxNumRetry + " after \"" + errorDetails + "\" without delivery-directives"); this.loadPlaylist(); } else { var delay = getRetryDelay(retryConfig, retryCount); // Schedule level/track reload this.timer = self.setTimeout(function () { return _this2.loadPlaylist(); }, delay); this.warn("Retrying playlist loading " + (retryCount + 1) + "/" + retryConfig.maxNumRetry + " after \"" + errorDetails + "\" in " + delay + "ms"); } // `levelRetry = true` used to inform other controllers that a retry is happening errorEvent.levelRetry = true; errorAction.resolved = true; } return retry; }; return BasePlaylistController; }(); var chromeOrFirefox; var LevelController = /*#__PURE__*/function (_BasePlaylistControll) { _inheritsLoose(LevelController, _BasePlaylistControll); function LevelController(hls, contentSteeringController) { var _this; _this = _BasePlaylistControll.call(this, hls, '[level-controller]') || this; _this._levels = []; _this._firstLevel = -1; _this._startLevel = void 0; _this.currentLevel = null; _this.currentLevelIndex = -1; _this.manualLevelIndex = -1; _this.steering = void 0; _this.onParsedComplete = void 0; _this.steering = contentSteeringController; _this._registerListeners(); return _this; } var _proto = LevelController.prototype; _proto._registerListeners = function _registerListeners() { var hls = this.hls; hls.on(Events.MANIFEST_LOADING, this.onManifestLoading, this); hls.on(Events.MANIFEST_LOADED, this.onManifestLoaded, this); hls.on(Events.LEVEL_LOADED, this.onLevelLoaded, this); hls.on(Events.LEVELS_UPDATED, this.onLevelsUpdated, this); hls.on(Events.AUDIO_TRACK_SWITCHED, this.onAudioTrackSwitched, this); hls.on(Events.FRAG_LOADED, this.onFragLoaded, this); hls.on(Events.ERROR, this.onError, this); }; _proto._unregisterListeners = function _unregisterListeners() { var hls = this.hls; hls.off(Events.MANIFEST_LOADING, this.onManifestLoading, this); hls.off(Events.MANIFEST_LOADED, this.onManifestLoaded, this); hls.off(Events.LEVEL_LOADED, this.onLevelLoaded, this); hls.off(Events.LEVELS_UPDATED, this.onLevelsUpdated, this); hls.off(Events.AUDIO_TRACK_SWITCHED, this.onAudioTrackSwitched, this); hls.off(Events.FRAG_LOADED, this.onFragLoaded, this); hls.off(Events.ERROR, this.onError, this); }; _proto.destroy = function destroy() { this._unregisterListeners(); this.steering = null; this.resetLevels(); _BasePlaylistControll.prototype.destroy.call(this); }; _proto.startLoad = function startLoad() { var levels = this._levels; // clean up live level details to force reload them, and reset load errors levels.forEach(function (level) { level.loadError = 0; level.fragmentError = 0; }); _BasePlaylistControll.prototype.startLoad.call(this); }; _proto.resetLevels = function resetLevels() { this._startLevel = undefined; this.manualLevelIndex = -1; this.currentLevelIndex = -1; this.currentLevel = null; this._levels = []; }; _proto.onManifestLoading = function onManifestLoading(event, data) { this.resetLevels(); }; _proto.onManifestLoaded = function onManifestLoaded(event, data) { var levels = []; var levelSet = {}; var levelFromSet; // regroup redundant levels together data.levels.forEach(function (levelParsed) { var _levelParsed$audioCod; var attributes = levelParsed.attrs; // erase audio codec info if browser does not support mp4a.40.34. // demuxer will autodetect codec and fallback to mpeg/audio if (((_levelParsed$audioCod = levelParsed.audioCodec) == null ? void 0 : _levelParsed$audioCod.indexOf('mp4a.40.34')) !== -1) { chromeOrFirefox || (chromeOrFirefox = /chrome|firefox/i.test(navigator.userAgent)); if (chromeOrFirefox) { levelParsed.audioCodec = undefined; } } var AUDIO = attributes.AUDIO, CODECS = attributes.CODECS, FRAMERATE = attributes['FRAME-RATE'], PATHWAY = attributes['PATHWAY-ID'], RESOLUTION = attributes.RESOLUTION, SUBTITLES = attributes.SUBTITLES; var contentSteeringPrefix = (PATHWAY || '.') + "-" ; var levelKey = "" + contentSteeringPrefix + levelParsed.bitrate + "-" + RESOLUTION + "-" + FRAMERATE + "-" + CODECS; levelFromSet = levelSet[levelKey]; if (!levelFromSet) { levelFromSet = new Level(levelParsed); levelSet[levelKey] = levelFromSet; levels.push(levelFromSet); } else { levelFromSet.addFallback(levelParsed); } addGroupId(levelFromSet, 'audio', AUDIO); addGroupId(levelFromSet, 'text', SUBTITLES); }); this.filterAndSortMediaOptions(levels, data); }; _proto.filterAndSortMediaOptions = function filterAndSortMediaOptions(unfilteredLevels, data) { var _this2 = this; var audioTracks = []; var subtitleTracks = []; var resolutionFound = false; var videoCodecFound = false; var audioCodecFound = false; // only keep levels with supported audio/video codecs var levels = unfilteredLevels.filter(function (_ref) { var audioCodec = _ref.audioCodec, videoCodec = _ref.videoCodec, width = _ref.width, height = _ref.height, unknownCodecs = _ref.unknownCodecs; resolutionFound || (resolutionFound = !!(width && height)); videoCodecFound || (videoCodecFound = !!videoCodec); audioCodecFound || (audioCodecFound = !!audioCodec); return !(unknownCodecs != null && unknownCodecs.length) && (!audioCodec || isCodecSupportedInMp4(audioCodec, 'audio')) && (!videoCodec || isCodecSupportedInMp4(videoCodec, 'video')); }); // remove audio-only level if we also have levels with video codecs or RESOLUTION signalled if ((resolutionFound || videoCodecFound) && audioCodecFound) { levels = levels.filter(function (_ref2) { var videoCodec = _ref2.videoCodec, width = _ref2.width, height = _ref2.height; return !!videoCodec || !!(width && height); }); } if (levels.length === 0) { // Dispatch error after MANIFEST_LOADED is done propagating Promise.resolve().then(function () { if (_this2.hls) { var error = new Error('no level with compatible codecs found in manifest'); _this2.hls.trigger(Events.ERROR, { type: ErrorTypes.MEDIA_ERROR, details: ErrorDetails.MANIFEST_INCOMPATIBLE_CODECS_ERROR, fatal: true, url: data.url, error: error, reason: error.message }); } }); return; } if (data.audioTracks) { audioTracks = data.audioTracks.filter(function (track) { return !track.audioCodec || isCodecSupportedInMp4(track.audioCodec, 'audio'); }); // Assign ids after filtering as array indices by group-id assignTrackIdsByGroup(audioTracks); } if (data.subtitles) { subtitleTracks = data.subtitles; assignTrackIdsByGroup(subtitleTracks); } // start bitrate is the first bitrate of the manifest var unsortedLevels = levels.slice(0); // sort levels from lowest to highest levels.sort(function (a, b) { if (a.attrs['HDCP-LEVEL'] !== b.attrs['HDCP-LEVEL']) { return (a.attrs['HDCP-LEVEL'] || '') > (b.attrs['HDCP-LEVEL'] || '') ? 1 : -1; } if (a.bitrate !== b.bitrate) { return a.bitrate - b.bitrate; } if (a.attrs['FRAME-RATE'] !== b.attrs['FRAME-RATE']) { return a.attrs.decimalFloatingPoint('FRAME-RATE') - b.attrs.decimalFloatingPoint('FRAME-RATE'); } if (a.attrs.SCORE !== b.attrs.SCORE) { return a.attrs.decimalFloatingPoint('SCORE') - b.attrs.decimalFloatingPoint('SCORE'); } if (resolutionFound && a.height !== b.height) { return a.height - b.height; } return 0; }); var firstLevelInPlaylist = unsortedLevels[0]; if (this.steering) { levels = this.steering.filterParsedLevels(levels); if (levels.length !== unsortedLevels.length) { for (var i = 0; i < unsortedLevels.length; i++) { if (unsortedLevels[i].pathwayId === levels[0].pathwayId) { firstLevelInPlaylist = unsortedLevels[i]; break; } } } } this._levels = levels; // find index of first level in sorted levels for (var _i = 0; _i < levels.length; _i++) { if (levels[_i] === firstLevelInPlaylist) { this._firstLevel = _i; this.log("manifest loaded, " + levels.length + " level(s) found, first bitrate: " + firstLevelInPlaylist.bitrate); break; } } // Audio is only alternate if manifest include a URI along with the audio group tag, // and this is not an audio-only stream where levels contain audio-only var audioOnly = audioCodecFound && !videoCodecFound; var edata = { levels: levels, audioTracks: audioTracks, subtitleTracks: subtitleTracks, sessionData: data.sessionData, sessionKeys: data.sessionKeys, firstLevel: this._firstLevel, stats: data.stats, audio: audioCodecFound, video: videoCodecFound, altAudio: !audioOnly && audioTracks.some(function (t) { return !!t.url; }) }; this.hls.trigger(Events.MANIFEST_PARSED, edata); // Initiate loading after all controllers have received MANIFEST_PARSED if (this.hls.config.autoStartLoad || this.hls.forceStartLoad) { this.hls.startLoad(this.hls.config.startPosition); } }; _proto.onError = function onError(event, data) { if (data.fatal || !data.context) { return; } if (data.context.type === PlaylistContextType.LEVEL && data.context.level === this.level) { this.checkRetry(data); } } // reset errors on the successful load of a fragment ; _proto.onFragLoaded = function onFragLoaded(event, _ref3) { var frag = _ref3.frag; if (frag !== undefined && frag.type === PlaylistLevelType.MAIN) { var level = this._levels[frag.level]; if (level !== undefined) { level.loadError = 0; } } }; _proto.onLevelLoaded = function onLevelLoaded(event, data) { var _data$deliveryDirecti2; var level = data.level, details = data.details; var curLevel = this._levels[level]; if (!curLevel) { var _data$deliveryDirecti; this.warn("Invalid level index " + level); if ((_data$deliveryDirecti = data.deliveryDirectives) != null && _data$deliveryDirecti.skip) { details.deltaUpdateFailed = true; } return; } // only process level loaded events matching with expected level if (level === this.currentLevelIndex) { // reset level load error counter on successful level loaded only if there is no issues with fragments if (curLevel.fragmentError === 0) { curLevel.loadError = 0; } this.playlistLoaded(level, data, curLevel.details); } else if ((_data$deliveryDirecti2 = data.deliveryDirectives) != null && _data$deliveryDirecti2.skip) { // received a delta playlist update that cannot be merged details.deltaUpdateFailed = true; } }; _proto.onAudioTrackSwitched = function onAudioTrackSwitched(event, data) { var currentLevel = this.currentLevel; if (!currentLevel) { return; } var audioGroupId = this.hls.audioTracks[data.id].groupId; if (currentLevel.audioGroupIds && currentLevel.audioGroupId !== audioGroupId) { var urlId = -1; for (var i = 0; i < currentLevel.audioGroupIds.length; i++) { if (currentLevel.audioGroupIds[i] === audioGroupId) { urlId = i; break; } } if (urlId !== -1 && urlId !== currentLevel.urlId) { currentLevel.urlId = urlId; if (this.canLoad) { this.startLoad(); } } } }; _proto.loadPlaylist = function loadPlaylist(hlsUrlParameters) { _BasePlaylistControll.prototype.loadPlaylist.call(this); var currentLevelIndex = this.currentLevelIndex; var currentLevel = this.currentLevel; if (currentLevel && this.shouldLoadPlaylist(currentLevel)) { var id = currentLevel.urlId; var url = currentLevel.uri; if (hlsUrlParameters) { try { url = hlsUrlParameters.addDirectives(url); } catch (error) { this.warn("Could not construct new URL with HLS Delivery Directives: " + error); } } var pathwayId = currentLevel.attrs['PATHWAY-ID']; this.log("Loading level index " + currentLevelIndex + ((hlsUrlParameters == null ? void 0 : hlsUrlParameters.msn) !== undefined ? ' at sn ' + hlsUrlParameters.msn + ' part ' + hlsUrlParameters.part : '') + " with" + (pathwayId ? ' Pathway ' + pathwayId : '') + " URI " + (id + 1) + "/" + currentLevel.url.length + " " + url); // console.log('Current audio track group ID:', this.hls.audioTracks[this.hls.audioTrack].groupId); // console.log('New video quality level audio group id:', levelObject.attrs.AUDIO, level); this.clearTimer(); this.hls.trigger(Events.LEVEL_LOADING, { url: url, level: currentLevelIndex, id: id, deliveryDirectives: hlsUrlParameters || null }); } }; _proto.removeLevel = function removeLevel(levelIndex, urlId) { var _this3 = this; var filterLevelAndGroupByIdIndex = function filterLevelAndGroupByIdIndex(url, id) { return id !== urlId; }; var levels = this._levels.filter(function (level, index) { if (index !== levelIndex) { return true; } if (level.url.length > 1 && urlId !== undefined) { level.url = level.url.filter(filterLevelAndGroupByIdIndex); if (level.audioGroupIds) { level.audioGroupIds = level.audioGroupIds.filter(filterLevelAndGroupByIdIndex); } if (level.textGroupIds) { level.textGroupIds = level.textGroupIds.filter(filterLevelAndGroupByIdIndex); } level.urlId = 0; return true; } if (_this3.steering) { _this3.steering.removeLevel(level); } return false; }); this.hls.trigger(Events.LEVELS_UPDATED, { levels: levels }); }; _proto.onLevelsUpdated = function onLevelsUpdated(event, _ref4) { var levels = _ref4.levels; levels.forEach(function (level, index) { var details = level.details; if (details != null && details.fragments) { details.fragments.forEach(function (fragment) { fragment.level = index; }); } }); this._levels = levels; }; _createClass(LevelController, [{ key: "levels", get: function get() { if (this._levels.length === 0) { return null; } return this._levels; } }, { key: "level", get: function get() { return this.currentLevelIndex; }, set: function set(newLevel) { var levels = this._levels; if (levels.length === 0) { return; } // check if level idx is valid if (newLevel < 0 || newLevel >= levels.length) { // invalid level id given, trigger error var error = new Error('invalid level idx'); var fatal = newLevel < 0; this.hls.trigger(Events.ERROR, { type: ErrorTypes.OTHER_ERROR, details: ErrorDetails.LEVEL_SWITCH_ERROR, level: newLevel, fatal: fatal, error: error, reason: error.message }); if (fatal) { return; } newLevel = Math.min(newLevel, levels.length - 1); } var lastLevelIndex = this.currentLevelIndex; var lastLevel = this.currentLevel; var lastPathwayId = lastLevel ? lastLevel.attrs['PATHWAY-ID'] : undefined; var level = levels[newLevel]; var pathwayId = level.attrs['PATHWAY-ID']; this.currentLevelIndex = newLevel; this.currentLevel = level; if (lastLevelIndex === newLevel && level.details && lastLevel && lastPathwayId === pathwayId) { return; } this.log("Switching to level " + newLevel + (pathwayId ? ' with Pathway ' + pathwayId : '') + " from level " + lastLevelIndex + (lastPathwayId ? ' with Pathway ' + lastPathwayId : '')); var levelSwitchingData = _extends({}, level, { level: newLevel, maxBitrate: level.maxBitrate, attrs: level.attrs, uri: level.uri, urlId: level.urlId }); // @ts-ignore delete levelSwitchingData._attrs; // @ts-ignore delete levelSwitchingData._urlId; this.hls.trigger(Events.LEVEL_SWITCHING, levelSwitchingData); // check if we need to load playlist for this level var levelDetails = level.details; if (!levelDetails || levelDetails.live) { // level not retrieved yet, or live playlist we need to (re)load it var hlsUrlParameters = this.switchParams(level.uri, lastLevel == null ? void 0 : lastLevel.details); this.loadPlaylist(hlsUrlParameters); } } }, { key: "manualLevel", get: function get() { return this.manualLevelIndex; }, set: function set(newLevel) { this.manualLevelIndex = newLevel; if (this._startLevel === undefined) { this._startLevel = newLevel; } if (newLevel !== -1) { this.level = newLevel; } } }, { key: "firstLevel", get: function get() { return this._firstLevel; }, set: function set(newLevel) { this._firstLevel = newLevel; } }, { key: "startLevel", get: function get() { // hls.startLevel takes precedence over config.startLevel // if none of these values are defined, fallback on this._firstLevel (first quality level appearing in variant manifest) if (this._startLevel === undefined) { var configStartLevel = this.hls.config.startLevel; if (configStartLevel !== undefined) { return configStartLevel; } else { return this._firstLevel; } } else { return this._startLevel; } }, set: function set(newLevel) { this._startLevel = newLevel; } }, { key: "nextLoadLevel", get: function get() { if (this.manualLevelIndex !== -1) { return this.manualLevelIndex; } else { return this.hls.nextAutoLevel; } }, set: function set(nextLevel) { this.level = nextLevel; if (this.manualLevelIndex === -1) { this.hls.nextAutoLevel = nextLevel; } } }]); return LevelController; }(BasePlaylistController); function addGroupId(level, type, id) { if (!id) { return; } if (type === 'audio') { if (!level.audioGroupIds) { level.audioGroupIds = []; } level.audioGroupIds[level.url.length - 1] = id; } else if (type === 'text') { if (!level.textGroupIds) { level.textGroupIds = []; } level.textGroupIds[level.url.length - 1] = id; } } function assignTrackIdsByGroup(tracks) { var groups = {}; tracks.forEach(function (track) { var groupId = track.groupId || ''; track.id = groups[groupId] = groups[groupId] || 0; groups[groupId]++; }); } var FragmentState = { NOT_LOADED: "NOT_LOADED", APPENDING: "APPENDING", PARTIAL: "PARTIAL", OK: "OK" }; var FragmentTracker = /*#__PURE__*/function () { function FragmentTracker(hls) { this.activePartLists = Object.create(null); this.endListFragments = Object.create(null); this.fragments = Object.create(null); this.timeRanges = Object.create(null); this.bufferPadding = 0.2; this.hls = void 0; this.hasGaps = false; this.hls = hls; this._registerListeners(); } var _proto = FragmentTracker.prototype; _proto._registerListeners = function _registerListeners() { var hls = this.hls; hls.on(Events.BUFFER_APPENDED, this.onBufferAppended, this); hls.on(Events.FRAG_BUFFERED, this.onFragBuffered, this); hls.on(Events.FRAG_LOADED, this.onFragLoaded, this); }; _proto._unregisterListeners = function _unregisterListeners() { var hls = this.hls; hls.off(Events.BUFFER_APPENDED, this.onBufferAppended, this); hls.off(Events.FRAG_BUFFERED, this.onFragBuffered, this); hls.off(Events.FRAG_LOADED, this.onFragLoaded, this); }; _proto.destroy = function destroy() { this._unregisterListeners(); // @ts-ignore this.fragments = // @ts-ignore this.activePartLists = // @ts-ignore this.endListFragments = this.timeRanges = null; } /** * Return a Fragment or Part with an appended range that matches the position and levelType * Otherwise, return null */; _proto.getAppendedFrag = function getAppendedFrag(position, levelType) { var activeParts = this.activePartLists[levelType]; if (activeParts) { for (var i = activeParts.length; i--;) { var activePart = activeParts[i]; if (!activePart) { break; } var appendedPTS = activePart.end; if (activePart.start <= position && appendedPTS !== null && position <= appendedPTS) { return activePart; } } } return this.getBufferedFrag(position, levelType); } /** * Return a buffered Fragment that matches the position and levelType. * A buffered Fragment is one whose loading, parsing and appending is done (completed or "partial" meaning aborted). * If not found any Fragment, return null */; _proto.getBufferedFrag = function getBufferedFrag(position, levelType) { var fragments = this.fragments; var keys = Object.keys(fragments); for (var i = keys.length; i--;) { var fragmentEntity = fragments[keys[i]]; if ((fragmentEntity == null ? void 0 : fragmentEntity.body.type) === levelType && fragmentEntity.buffered) { var frag = fragmentEntity.body; if (frag.start <= position && position <= frag.end) { return frag; } } } return null; } /** * Partial fragments effected by coded frame eviction will be removed * The browser will unload parts of the buffer to free up memory for new buffer data * Fragments will need to be reloaded when the buffer is freed up, removing partial fragments will allow them to reload(since there might be parts that are still playable) */; _proto.detectEvictedFragments = function detectEvictedFragments(elementaryStream, timeRange, playlistType, appendedPart) { var _this = this; if (this.timeRanges) { this.timeRanges[elementaryStream] = timeRange; } // Check if any flagged fragments have been unloaded // excluding anything newer than appendedPartSn var appendedPartSn = (appendedPart == null ? void 0 : appendedPart.fragment.sn) || -1; Object.keys(this.fragments).forEach(function (key) { var fragmentEntity = _this.fragments[key]; if (!fragmentEntity) { return; } if (appendedPartSn >= fragmentEntity.body.sn) { return; } if (!fragmentEntity.buffered && !fragmentEntity.loaded) { if (fragmentEntity.body.type === playlistType) { _this.removeFragment(fragmentEntity.body); } return; } var esData = fragmentEntity.range[elementaryStream]; if (!esData) { return; } esData.time.some(function (time) { var isNotBuffered = !_this.isTimeBuffered(time.startPTS, time.endPTS, timeRange); if (isNotBuffered) { // Unregister partial fragment as it needs to load again to be reused _this.removeFragment(fragmentEntity.body); } return isNotBuffered; }); }); } /** * Checks if the fragment passed in is loaded in the buffer properly * Partially loaded fragments will be registered as a partial fragment */; _proto.detectPartialFragments = function detectPartialFragments(data) { var _this2 = this; var timeRanges = this.timeRanges; var frag = data.frag, part = data.part; if (!timeRanges || frag.sn === 'initSegment') { return; } var fragKey = getFragmentKey(frag); var fragmentEntity = this.fragments[fragKey]; if (!fragmentEntity || fragmentEntity.buffered && frag.gap) { return; } var isFragHint = !frag.relurl; Object.keys(timeRanges).forEach(function (elementaryStream) { var streamInfo = frag.elementaryStreams[elementaryStream]; if (!streamInfo) { return; } var timeRange = timeRanges[elementaryStream]; var partial = isFragHint || streamInfo.partial === true; fragmentEntity.range[elementaryStream] = _this2.getBufferedTimes(frag, part, partial, timeRange); }); fragmentEntity.loaded = null; if (Object.keys(fragmentEntity.range).length) { fragmentEntity.buffered = true; if (fragmentEntity.body.endList) { this.endListFragments[fragmentEntity.body.type] = fragmentEntity; } if (!isPartial(fragmentEntity)) { // Remove older fragment parts from lookup after frag is tracked as buffered this.removeParts(frag.sn - 1, frag.type); } } else { // remove fragment if nothing was appended this.removeFragment(fragmentEntity.body); } }; _proto.removeParts = function removeParts(snToKeep, levelType) { var activeParts = this.activePartLists[levelType]; if (!activeParts) { return; } this.activePartLists[levelType] = activeParts.filter(function (part) { return part.fragment.sn >= snToKeep; }); }; _proto.fragBuffered = function fragBuffered(frag, force) { var fragKey = getFragmentKey(frag); var fragmentEntity = this.fragments[fragKey]; if (!fragmentEntity && force) { fragmentEntity = this.fragments[fragKey] = { body: frag, appendedPTS: null, loaded: null, buffered: false, range: Object.create(null) }; if (frag.gap) { this.hasGaps = true; } } if (fragmentEntity) { fragmentEntity.loaded = null; fragmentEntity.buffered = true; } }; _proto.getBufferedTimes = function getBufferedTimes(fragment, part, partial, timeRange) { var buffered = { time: [], partial: partial }; var startPTS = fragment.start; var endPTS = fragment.end; var minEndPTS = fragment.minEndPTS || endPTS; var maxStartPTS = fragment.maxStartPTS || startPTS; for (var i = 0; i < timeRange.length; i++) { var startTime = timeRange.start(i) - this.bufferPadding; var endTime = timeRange.end(i) + this.bufferPadding; if (maxStartPTS >= startTime && minEndPTS <= endTime) { // Fragment is entirely contained in buffer // No need to check the other timeRange times since it's completely playable buffered.time.push({ startPTS: Math.max(startPTS, timeRange.start(i)), endPTS: Math.min(endPTS, timeRange.end(i)) }); break; } else if (startPTS < endTime && endPTS > startTime) { buffered.partial = true; // Check for intersection with buffer // Get playable sections of the fragment buffered.time.push({ startPTS: Math.max(startPTS, timeRange.start(i)), endPTS: Math.min(endPTS, timeRange.end(i)) }); } else if (endPTS <= startTime) { // No need to check the rest of the timeRange as it is in order break; } } return buffered; } /** * Gets the partial fragment for a certain time */; _proto.getPartialFragment = function getPartialFragment(time) { var bestFragment = null; var timePadding; var startTime; var endTime; var bestOverlap = 0; var bufferPadding = this.bufferPadding, fragments = this.fragments; Object.keys(fragments).forEach(function (key) { var fragmentEntity = fragments[key]; if (!fragmentEntity) { return; } if (isPartial(fragmentEntity)) { startTime = fragmentEntity.body.start - bufferPadding; endTime = fragmentEntity.body.end + bufferPadding; if (time >= startTime && time <= endTime) { // Use the fragment that has the most padding from start and end time timePadding = Math.min(time - startTime, endTime - time); if (bestOverlap <= timePadding) { bestFragment = fragmentEntity.body; bestOverlap = timePadding; } } } }); return bestFragment; }; _proto.isEndListAppended = function isEndListAppended(type) { var lastFragmentEntity = this.endListFragments[type]; return lastFragmentEntity !== undefined && (lastFragmentEntity.buffered || isPartial(lastFragmentEntity)); }; _proto.getState = function getState(fragment) { var fragKey = getFragmentKey(fragment); var fragmentEntity = this.fragments[fragKey]; if (fragmentEntity) { if (!fragmentEntity.buffered) { return FragmentState.APPENDING; } else if (isPartial(fragmentEntity)) { return FragmentState.PARTIAL; } else { return FragmentState.OK; } } return FragmentState.NOT_LOADED; }; _proto.isTimeBuffered = function isTimeBuffered(startPTS, endPTS, timeRange) { var startTime; var endTime; for (var i = 0; i < timeRange.length; i++) { startTime = timeRange.start(i) - this.bufferPadding; endTime = timeRange.end(i) + this.bufferPadding; if (startPTS >= startTime && endPTS <= endTime) { return true; } if (endPTS <= startTime) { // No need to check the rest of the timeRange as it is in order return false; } } return false; }; _proto.onFragLoaded = function onFragLoaded(event, data) { var frag = data.frag, part = data.part; // don't track initsegment (for which sn is not a number) // don't track frags used for bitrateTest, they're irrelevant. if (frag.sn === 'initSegment' || frag.bitrateTest) { return; } // Fragment entity `loaded` FragLoadedData is null when loading parts var loaded = part ? null : data; var fragKey = getFragmentKey(frag); this.fragments[fragKey] = { body: frag, appendedPTS: null, loaded: loaded, buffered: false, range: Object.create(null) }; }; _proto.onBufferAppended = function onBufferAppended(event, data) { var _this3 = this; var frag = data.frag, part = data.part, timeRanges = data.timeRanges; if (frag.sn === 'initSegment') { return; } var playlistType = frag.type; if (part) { var activeParts = this.activePartLists[playlistType]; if (!activeParts) { this.activePartLists[playlistType] = activeParts = []; } activeParts.push(part); } // Store the latest timeRanges loaded in the buffer this.timeRanges = timeRanges; Object.keys(timeRanges).forEach(function (elementaryStream) { var timeRange = timeRanges[elementaryStream]; _this3.detectEvictedFragments(elementaryStream, timeRange, playlistType, part); }); }; _proto.onFragBuffered = function onFragBuffered(event, data) { this.detectPartialFragments(data); }; _proto.hasFragment = function hasFragment(fragment) { var fragKey = getFragmentKey(fragment); return !!this.fragments[fragKey]; }; _proto.hasParts = function hasParts(type) { var _this$activePartLists; return !!((_this$activePartLists = this.activePartLists[type]) != null && _this$activePartLists.length); }; _proto.removeFragmentsInRange = function removeFragmentsInRange(start, end, playlistType, withGapOnly, unbufferedOnly) { var _this4 = this; if (withGapOnly && !this.hasGaps) { return; } Object.keys(this.fragments).forEach(function (key) { var fragmentEntity = _this4.fragments[key]; if (!fragmentEntity) { return; } var frag = fragmentEntity.body; if (frag.type !== playlistType || withGapOnly && !frag.gap) { return; } if (frag.start < end && frag.end > start && (fragmentEntity.buffered || unbufferedOnly)) { _this4.removeFragment(frag); } }); }; _proto.removeFragment = function removeFragment(fragment) { var fragKey = getFragmentKey(fragment); fragment.stats.loaded = 0; fragment.clearElementaryStreamInfo(); var activeParts = this.activePartLists[fragment.type]; if (activeParts) { var snToRemove = fragment.sn; this.activePartLists[fragment.type] = activeParts.filter(function (part) { return part.fragment.sn !== snToRemove; }); } delete this.fragments[fragKey]; if (fragment.endList) { delete this.endListFragments[fragment.type]; } }; _proto.removeAllFragments = function removeAllFragments() { this.fragments = Object.create(null); this.endListFragments = Object.create(null); this.activePartLists = Object.create(null); this.hasGaps = false; }; return FragmentTracker; }(); function isPartial(fragmentEntity) { var _fragmentEntity$range, _fragmentEntity$range2, _fragmentEntity$range3; return fragmentEntity.buffered && (fragmentEntity.body.gap || ((_fragmentEntity$range = fragmentEntity.range.video) == null ? void 0 : _fragmentEntity$range.partial) || ((_fragmentEntity$range2 = fragmentEntity.range.audio) == null ? void 0 : _fragmentEntity$range2.partial) || ((_fragmentEntity$range3 = fragmentEntity.range.audiovideo) == null ? void 0 : _fragmentEntity$range3.partial)); } function getFragmentKey(fragment) { return fragment.type + "_" + fragment.level + "_" + fragment.urlId + "_" + fragment.sn; } var MIN_CHUNK_SIZE = Math.pow(2, 17); // 128kb var FragmentLoader = /*#__PURE__*/function () { function FragmentLoader(config) { this.config = void 0; this.loader = null; this.partLoadTimeout = -1; this.config = config; } var _proto = FragmentLoader.prototype; _proto.destroy = function destroy() { if (this.loader) { this.loader.destroy(); this.loader = null; } }; _proto.abort = function abort() { if (this.loader) { // Abort the loader for current fragment. Only one may load at any given time this.loader.abort(); } }; _proto.load = function load(frag, _onProgress) { var _this = this; var url = frag.url; if (!url) { return Promise.reject(new LoadError({ type: ErrorTypes.NETWORK_ERROR, details: ErrorDetails.FRAG_LOAD_ERROR, fatal: false, frag: frag, error: new Error("Fragment does not have a " + (url ? 'part list' : 'url')), networkDetails: null })); } this.abort(); var config = this.config; var FragmentILoader = config.fLoader; var DefaultILoader = config.loader; return new Promise(function (resolve, reject) { if (_this.loader) { _this.loader.destroy(); } if (frag.gap) { if (frag.tagList.some(function (tags) { return tags[0] === 'GAP'; })) { reject(createGapLoadError(frag)); return; } else { // Reset temporary treatment as GAP tag frag.gap = false; } } var loader = _this.loader = frag.loader = FragmentILoader ? new FragmentILoader(config) : new DefaultILoader(config); var loaderContext = createLoaderContext(frag); var loadPolicy = getLoaderConfigWithoutReties(config.fragLoadPolicy.default); var loaderConfig = { loadPolicy: loadPolicy, timeout: loadPolicy.maxLoadTimeMs, maxRetry: 0, retryDelay: 0, maxRetryDelay: 0, highWaterMark: frag.sn === 'initSegment' ? Infinity : MIN_CHUNK_SIZE }; // Assign frag stats to the loader's stats reference frag.stats = loader.stats; loader.load(loaderContext, loaderConfig, { onSuccess: function onSuccess(response, stats, context, networkDetails) { _this.resetLoader(frag, loader); var payload = response.data; if (context.resetIV && frag.decryptdata) { frag.decryptdata.iv = new Uint8Array(payload.slice(0, 16)); payload = payload.slice(16); } resolve({ frag: frag, part: null, payload: payload, networkDetails: networkDetails }); }, onError: function onError(response, context, networkDetails, stats) { _this.resetLoader(frag, loader); reject(new LoadError({ type: ErrorTypes.NETWORK_ERROR, details: ErrorDetails.FRAG_LOAD_ERROR, fatal: false, frag: frag, response: _objectSpread2({ url: url, data: undefined }, response), error: new Error("HTTP Error " + response.code + " " + response.text), networkDetails: networkDetails, stats: stats })); }, onAbort: function onAbort(stats, context, networkDetails) { _this.resetLoader(frag, loader); reject(new LoadError({ type: ErrorTypes.NETWORK_ERROR, details: ErrorDetails.INTERNAL_ABORTED, fatal: false, frag: frag, error: new Error('Aborted'), networkDetails: networkDetails, stats: stats })); }, onTimeout: function onTimeout(stats, context, networkDetails) { _this.resetLoader(frag, loader); reject(new LoadError({ type: ErrorTypes.NETWORK_ERROR, details: ErrorDetails.FRAG_LOAD_TIMEOUT, fatal: false, frag: frag, error: new Error("Timeout after " + loaderConfig.timeout + "ms"), networkDetails: networkDetails, stats: stats })); }, onProgress: function onProgress(stats, context, data, networkDetails) { if (_onProgress) { _onProgress({ frag: frag, part: null, payload: data, networkDetails: networkDetails }); } } }); }); }; _proto.loadPart = function loadPart(frag, part, onProgress) { var _this2 = this; this.abort(); var config = this.config; var FragmentILoader = config.fLoader; var DefaultILoader = config.loader; return new Promise(function (resolve, reject) { if (_this2.loader) { _this2.loader.destroy(); } if (frag.gap || part.gap) { reject(createGapLoadError(frag, part)); return; } var loader = _this2.loader = frag.loader = FragmentILoader ? new FragmentILoader(config) : new DefaultILoader(config); var loaderContext = createLoaderContext(frag, part); // Should we define another load policy for parts? var loadPolicy = getLoaderConfigWithoutReties(config.fragLoadPolicy.default); var loaderConfig = { loadPolicy: loadPolicy, timeout: loadPolicy.maxLoadTimeMs, maxRetry: 0, retryDelay: 0, maxRetryDelay: 0, highWaterMark: MIN_CHUNK_SIZE }; // Assign part stats to the loader's stats reference part.stats = loader.stats; loader.load(loaderContext, loaderConfig, { onSuccess: function onSuccess(response, stats, context, networkDetails) { _this2.resetLoader(frag, loader); _this2.updateStatsFromPart(frag, part); var partLoadedData = { frag: frag, part: part, payload: response.data, networkDetails: networkDetails }; onProgress(partLoadedData); resolve(partLoadedData); }, onError: function onError(response, context, networkDetails, stats) { _this2.resetLoader(frag, loader); reject(new LoadError({ type: ErrorTypes.NETWORK_ERROR, details: ErrorDetails.FRAG_LOAD_ERROR, fatal: false, frag: frag, part: part, response: _objectSpread2({ url: loaderContext.url, data: undefined }, response), error: new Error("HTTP Error " + response.code + " " + response.text), networkDetails: networkDetails, stats: stats })); }, onAbort: function onAbort(stats, context, networkDetails) { frag.stats.aborted = part.stats.aborted; _this2.resetLoader(frag, loader); reject(new LoadError({ type: ErrorTypes.NETWORK_ERROR, details: ErrorDetails.INTERNAL_ABORTED, fatal: false, frag: frag, part: part, error: new Error('Aborted'), networkDetails: networkDetails, stats: stats })); }, onTimeout: function onTimeout(stats, context, networkDetails) { _this2.resetLoader(frag, loader); reject(new LoadError({ type: ErrorTypes.NETWORK_ERROR, details: ErrorDetails.FRAG_LOAD_TIMEOUT, fatal: false, frag: frag, part: part, error: new Error("Timeout after " + loaderConfig.timeout + "ms"), networkDetails: networkDetails, stats: stats })); } }); }); }; _proto.updateStatsFromPart = function updateStatsFromPart(frag, part) { var fragStats = frag.stats; var partStats = part.stats; var partTotal = partStats.total; fragStats.loaded += partStats.loaded; if (partTotal) { var estTotalParts = Math.round(frag.duration / part.duration); var estLoadedParts = Math.min(Math.round(fragStats.loaded / partTotal), estTotalParts); var estRemainingParts = estTotalParts - estLoadedParts; var estRemainingBytes = estRemainingParts * Math.round(fragStats.loaded / estLoadedParts); fragStats.total = fragStats.loaded + estRemainingBytes; } else { fragStats.total = Math.max(fragStats.loaded, fragStats.total); } var fragLoading = fragStats.loading; var partLoading = partStats.loading; if (fragLoading.start) { // add to fragment loader latency fragLoading.first += partLoading.first - partLoading.start; } else { fragLoading.start = partLoading.start; fragLoading.first = partLoading.first; } fragLoading.end = partLoading.end; }; _proto.resetLoader = function resetLoader(frag, loader) { frag.loader = null; if (this.loader === loader) { self.clearTimeout(this.partLoadTimeout); this.loader = null; } loader.destroy(); }; return FragmentLoader; }(); function createLoaderContext(frag, part) { if (part === void 0) { part = null; } var segment = part || frag; var loaderContext = { frag: frag, part: part, responseType: 'arraybuffer', url: segment.url, headers: {}, rangeStart: 0, rangeEnd: 0 }; var start = segment.byteRangeStartOffset; var end = segment.byteRangeEndOffset; if (isFiniteNumber(start) && isFiniteNumber(end)) { var _frag$decryptdata; var byteRangeStart = start; var byteRangeEnd = end; if (frag.sn === 'initSegment' && ((_frag$decryptdata = frag.decryptdata) == null ? void 0 : _frag$decryptdata.method) === 'AES-128') { // MAP segment encrypted with method 'AES-128', when served with HTTP Range, // has the unencrypted size specified in the range. // Ref: https://tools.ietf.org/html/draft-pantos-hls-rfc8216bis-08#section-6.3.6 var fragmentLen = end - start; if (fragmentLen % 16) { byteRangeEnd = end + (16 - fragmentLen % 16); } if (start !== 0) { loaderContext.resetIV = true; byteRangeStart = start - 16; } } loaderContext.rangeStart = byteRangeStart; loaderContext.rangeEnd = byteRangeEnd; } return loaderContext; } function createGapLoadError(frag, part) { var error = new Error("GAP " + (frag.gap ? 'tag' : 'attribute') + " found"); var errorData = { type: ErrorTypes.MEDIA_ERROR, details: ErrorDetails.FRAG_GAP, fatal: false, frag: frag, error: error, networkDetails: null }; if (part) { errorData.part = part; } (part ? part : frag).stats.aborted = true; return new LoadError(errorData); } var LoadError = /*#__PURE__*/function (_Error) { _inheritsLoose(LoadError, _Error); function LoadError(data) { var _this3; _this3 = _Error.call(this, data.error.message) || this; _this3.data = void 0; _this3.data = data; return _this3; } return LoadError; }( /*#__PURE__*/_wrapNativeSuper(Error)); var KeyLoader = /*#__PURE__*/function () { function KeyLoader(config) { this.config = void 0; this.keyUriToKeyInfo = {}; this.emeController = null; this.config = config; } var _proto = KeyLoader.prototype; _proto.abort = function abort(type) { for (var uri in this.keyUriToKeyInfo) { var loader = this.keyUriToKeyInfo[uri].loader; if (loader) { if (type && type !== loader.context.frag.type) { return; } loader.abort(); } } }; _proto.detach = function detach() { for (var uri in this.keyUriToKeyInfo) { var keyInfo = this.keyUriToKeyInfo[uri]; // Remove cached EME keys on detach if (keyInfo.mediaKeySessionContext || keyInfo.decryptdata.isCommonEncryption) { delete this.keyUriToKeyInfo[uri]; } } }; _proto.destroy = function destroy() { this.detach(); for (var uri in this.keyUriToKeyInfo) { var loader = this.keyUriToKeyInfo[uri].loader; if (loader) { loader.destroy(); } } this.keyUriToKeyInfo = {}; }; _proto.createKeyLoadError = function createKeyLoadError(frag, details, error, networkDetails, response) { if (details === void 0) { details = ErrorDetails.KEY_LOAD_ERROR; } return new LoadError({ type: ErrorTypes.NETWORK_ERROR, details: details, fatal: false, frag: frag, response: response, error: error, networkDetails: networkDetails }); }; _proto.loadClear = function loadClear(loadingFrag, encryptedFragments) { var _this = this; if (this.emeController && this.config.emeEnabled) { // access key-system with nearest key on start (loaidng frag is unencrypted) var sn = loadingFrag.sn, cc = loadingFrag.cc; var _loop = function _loop() { var frag = encryptedFragments[i]; if (cc <= frag.cc && (sn === 'initSegment' || frag.sn === 'initSegment' || sn < frag.sn)) { _this.emeController.selectKeySystemFormat(frag).then(function (keySystemFormat) { frag.setKeyFormat(keySystemFormat); }); return "break"; } }; for (var i = 0; i < encryptedFragments.length; i++) { var _ret = _loop(); if (_ret === "break") break; } } }; _proto.load = function load(frag) { var _this2 = this; if (!frag.decryptdata && frag.encrypted && this.emeController) { // Multiple keys, but none selected, resolve in eme-controller return this.emeController.selectKeySystemFormat(frag).then(function (keySystemFormat) { return _this2.loadInternal(frag, keySystemFormat); }); } return this.loadInternal(frag); }; _proto.loadInternal = function loadInternal(frag, keySystemFormat) { var _keyInfo, _keyInfo2; if (keySystemFormat) { frag.setKeyFormat(keySystemFormat); } var decryptdata = frag.decryptdata; if (!decryptdata) { var error = new Error(keySystemFormat ? "Expected frag.decryptdata to be defined after setting format " + keySystemFormat : 'Missing decryption data on fragment in onKeyLoading'); return Promise.reject(this.createKeyLoadError(frag, ErrorDetails.KEY_LOAD_ERROR, error)); } var uri = decryptdata.uri; if (!uri) { return Promise.reject(this.createKeyLoadError(frag, ErrorDetails.KEY_LOAD_ERROR, new Error("Invalid key URI: \"" + uri + "\""))); } var keyInfo = this.keyUriToKeyInfo[uri]; if ((_keyInfo = keyInfo) != null && _keyInfo.decryptdata.key) { decryptdata.key = keyInfo.decryptdata.key; return Promise.resolve({ frag: frag, keyInfo: keyInfo }); } // Return key load promise as long as it does not have a mediakey session with an unusable key status if ((_keyInfo2 = keyInfo) != null && _keyInfo2.keyLoadPromise) { var _keyInfo$mediaKeySess; switch ((_keyInfo$mediaKeySess = keyInfo.mediaKeySessionContext) == null ? void 0 : _keyInfo$mediaKeySess.keyStatus) { case undefined: case 'status-pending': case 'usable': case 'usable-in-future': return keyInfo.keyLoadPromise.then(function (keyLoadedData) { // Return the correct fragment with updated decryptdata key and loaded keyInfo decryptdata.key = keyLoadedData.keyInfo.decryptdata.key; return { frag: frag, keyInfo: keyInfo }; }); } // If we have a key session and status and it is not pending or usable, continue // This will go back to the eme-controller for expired keys to get a new keyLoadPromise } // Load the key or return the loading promise keyInfo = this.keyUriToKeyInfo[uri] = { decryptdata: decryptdata, keyLoadPromise: null, loader: null, mediaKeySessionContext: null }; switch (decryptdata.method) { case 'ISO-23001-7': case 'SAMPLE-AES': case 'SAMPLE-AES-CENC': case 'SAMPLE-AES-CTR': if (decryptdata.keyFormat === 'identity') { // loadKeyHTTP handles http(s) and data URLs return this.loadKeyHTTP(keyInfo, frag); } return this.loadKeyEME(keyInfo, frag); case 'AES-128': return this.loadKeyHTTP(keyInfo, frag); default: return Promise.reject(this.createKeyLoadError(frag, ErrorDetails.KEY_LOAD_ERROR, new Error("Key supplied with unsupported METHOD: \"" + decryptdata.method + "\""))); } }; _proto.loadKeyEME = function loadKeyEME(keyInfo, frag) { var keyLoadedData = { frag: frag, keyInfo: keyInfo }; if (this.emeController && this.config.emeEnabled) { var keySessionContextPromise = this.emeController.loadKey(keyLoadedData); if (keySessionContextPromise) { return (keyInfo.keyLoadPromise = keySessionContextPromise.then(function (keySessionContext) { keyInfo.mediaKeySessionContext = keySessionContext; return keyLoadedData; })).catch(function (error) { // Remove promise for license renewal or retry keyInfo.keyLoadPromise = null; throw error; }); } } return Promise.resolve(keyLoadedData); }; _proto.loadKeyHTTP = function loadKeyHTTP(keyInfo, frag) { var _this3 = this; var config = this.config; var Loader = config.loader; var keyLoader = new Loader(config); frag.keyLoader = keyInfo.loader = keyLoader; return keyInfo.keyLoadPromise = new Promise(function (resolve, reject) { var loaderContext = { keyInfo: keyInfo, frag: frag, responseType: 'arraybuffer', url: keyInfo.decryptdata.uri }; // maxRetry is 0 so that instead of retrying the same key on the same variant multiple times, // key-loader will trigger an error and rely on stream-controller to handle retry logic. // this will also align retry logic with fragment-loader var loadPolicy = config.keyLoadPolicy.default; var loaderConfig = { loadPolicy: loadPolicy, timeout: loadPolicy.maxLoadTimeMs, maxRetry: 0, retryDelay: 0, maxRetryDelay: 0 }; var loaderCallbacks = { onSuccess: function onSuccess(response, stats, context, networkDetails) { var frag = context.frag, keyInfo = context.keyInfo, uri = context.url; if (!frag.decryptdata || keyInfo !== _this3.keyUriToKeyInfo[uri]) { return reject(_this3.createKeyLoadError(frag, ErrorDetails.KEY_LOAD_ERROR, new Error('after key load, decryptdata unset or changed'), networkDetails)); } keyInfo.decryptdata.key = frag.decryptdata.key = new Uint8Array(response.data); // detach fragment key loader on load success frag.keyLoader = null; keyInfo.loader = null; resolve({ frag: frag, keyInfo: keyInfo }); }, onError: function onError(response, context, networkDetails, stats) { _this3.resetLoader(context); reject(_this3.createKeyLoadError(frag, ErrorDetails.KEY_LOAD_ERROR, new Error("HTTP Error " + response.code + " loading key " + response.text), networkDetails, _objectSpread2({ url: loaderContext.url, data: undefined }, response))); }, onTimeout: function onTimeout(stats, context, networkDetails) { _this3.resetLoader(context); reject(_this3.createKeyLoadError(frag, ErrorDetails.KEY_LOAD_TIMEOUT, new Error('key loading timed out'), networkDetails)); }, onAbort: function onAbort(stats, context, networkDetails) { _this3.resetLoader(context); reject(_this3.createKeyLoadError(frag, ErrorDetails.INTERNAL_ABORTED, new Error('key loading aborted'), networkDetails)); } }; keyLoader.load(loaderContext, loaderConfig, loaderCallbacks); }); }; _proto.resetLoader = function resetLoader(context) { var frag = context.frag, keyInfo = context.keyInfo, uri = context.url; var loader = keyInfo.loader; if (frag.keyLoader === loader) { frag.keyLoader = null; keyInfo.loader = null; } delete this.keyUriToKeyInfo[uri]; if (loader) { loader.destroy(); } }; return KeyLoader; }(); /** * @ignore * Sub-class specialization of EventHandler base class. * * TaskLoop allows to schedule a task function being called (optionnaly repeatedly) on the main loop, * scheduled asynchroneously, avoiding recursive calls in the same tick. * * The task itself is implemented in `doTick`. It can be requested and called for single execution * using the `tick` method. * * It will be assured that the task execution method (`tick`) only gets called once per main loop "tick", * no matter how often it gets requested for execution. Execution in further ticks will be scheduled accordingly. * * If further execution requests have already been scheduled on the next tick, it can be checked with `hasNextTick`, * and cancelled with `clearNextTick`. * * The task can be scheduled as an interval repeatedly with a period as parameter (see `setInterval`, `clearInterval`). * * Sub-classes need to implement the `doTick` method which will effectively have the task execution routine. * * Further explanations: * * The baseclass has a `tick` method that will schedule the doTick call. It may be called synchroneously * only for a stack-depth of one. On re-entrant calls, sub-sequent calls are scheduled for next main loop ticks. * * When the task execution (`tick` method) is called in re-entrant way this is detected and * we are limiting the task execution per call stack to exactly one, but scheduling/post-poning further * task processing on the next main loop iteration (also known as "next tick" in the Node/JS runtime lingo). */ var TaskLoop = /*#__PURE__*/function () { function TaskLoop() { this._boundTick = void 0; this._tickTimer = null; this._tickInterval = null; this._tickCallCount = 0; this._boundTick = this.tick.bind(this); } var _proto = TaskLoop.prototype; _proto.destroy = function destroy() { this.onHandlerDestroying(); this.onHandlerDestroyed(); }; _proto.onHandlerDestroying = function onHandlerDestroying() { // clear all timers before unregistering from event bus this.clearNextTick(); this.clearInterval(); }; _proto.onHandlerDestroyed = function onHandlerDestroyed() {}; _proto.hasInterval = function hasInterval() { return !!this._tickInterval; }; _proto.hasNextTick = function hasNextTick() { return !!this._tickTimer; } /** * @param millis - Interval time (ms) * @eturns True when interval has been scheduled, false when already scheduled (no effect) */; _proto.setInterval = function setInterval(millis) { if (!this._tickInterval) { this._tickCallCount = 0; this._tickInterval = self.setInterval(this._boundTick, millis); return true; } return false; } /** * @returns True when interval was cleared, false when none was set (no effect) */; _proto.clearInterval = function clearInterval() { if (this._tickInterval) { self.clearInterval(this._tickInterval); this._tickInterval = null; return true; } return false; } /** * @returns True when timeout was cleared, false when none was set (no effect) */; _proto.clearNextTick = function clearNextTick() { if (this._tickTimer) { self.clearTimeout(this._tickTimer); this._tickTimer = null; return true; } return false; } /** * Will call the subclass doTick implementation in this main loop tick * or in the next one (via setTimeout(,0)) in case it has already been called * in this tick (in case this is a re-entrant call). */; _proto.tick = function tick() { this._tickCallCount++; if (this._tickCallCount === 1) { this.doTick(); // re-entrant call to tick from previous doTick call stack // -> schedule a call on the next main loop iteration to process this task processing request if (this._tickCallCount > 1) { // make sure only one timer exists at any time at max this.tickImmediate(); } this._tickCallCount = 0; } }; _proto.tickImmediate = function tickImmediate() { this.clearNextTick(); this._tickTimer = self.setTimeout(this._boundTick, 0); } /** * For subclass to implement task logic * @abstract */; _proto.doTick = function doTick() {}; return TaskLoop; }(); /** * Provides methods dealing with buffer length retrieval for example. * * In general, a helper around HTML5 MediaElement TimeRanges gathered from `buffered` property. * * Also @see https://developer.mozilla.org/en-US/docs/Web/API/HTMLMediaElement/buffered */ var noopBuffered = { length: 0, start: function start() { return 0; }, end: function end() { return 0; } }; var BufferHelper = /*#__PURE__*/function () { function BufferHelper() {} /** * Return true if `media`'s buffered include `position` */ BufferHelper.isBuffered = function isBuffered(media, position) { try { if (media) { var buffered = BufferHelper.getBuffered(media); for (var i = 0; i < buffered.length; i++) { if (position >= buffered.start(i) && position <= buffered.end(i)) { return true; } } } } catch (error) { // this is to catch // InvalidStateError: Failed to read the 'buffered' property from 'SourceBuffer': // This SourceBuffer has been removed from the parent media source } return false; }; BufferHelper.bufferInfo = function bufferInfo(media, pos, maxHoleDuration) { try { if (media) { var vbuffered = BufferHelper.getBuffered(media); var buffered = []; var i; for (i = 0; i < vbuffered.length; i++) { buffered.push({ start: vbuffered.start(i), end: vbuffered.end(i) }); } return this.bufferedInfo(buffered, pos, maxHoleDuration); } } catch (error) { // this is to catch // InvalidStateError: Failed to read the 'buffered' property from 'SourceBuffer': // This SourceBuffer has been removed from the parent media source } return { len: 0, start: pos, end: pos, nextStart: undefined }; }; BufferHelper.bufferedInfo = function bufferedInfo(buffered, pos, maxHoleDuration) { pos = Math.max(0, pos); // sort on buffer.start/smaller end (IE does not always return sorted buffered range) buffered.sort(function (a, b) { var diff = a.start - b.start; if (diff) { return diff; } else { return b.end - a.end; } }); var buffered2 = []; if (maxHoleDuration) { // there might be some small holes between buffer time range // consider that holes smaller than maxHoleDuration are irrelevant and build another // buffer time range representations that discards those holes for (var i = 0; i < buffered.length; i++) { var buf2len = buffered2.length; if (buf2len) { var buf2end = buffered2[buf2len - 1].end; // if small hole (value between 0 or maxHoleDuration ) or overlapping (negative) if (buffered[i].start - buf2end < maxHoleDuration) { // merge overlapping time ranges // update lastRange.end only if smaller than item.end // e.g. [ 1, 15] with [ 2,8] => [ 1,15] (no need to modify lastRange.end) // whereas [ 1, 8] with [ 2,15] => [ 1,15] ( lastRange should switch from [1,8] to [1,15]) if (buffered[i].end > buf2end) { buffered2[buf2len - 1].end = buffered[i].end; } } else { // big hole buffered2.push(buffered[i]); } } else { // first value buffered2.push(buffered[i]); } } } else { buffered2 = buffered; } var bufferLen = 0; // bufferStartNext can possibly be undefined based on the conditional logic below var bufferStartNext; // bufferStart and bufferEnd are buffer boundaries around current video position var bufferStart = pos; var bufferEnd = pos; for (var _i = 0; _i < buffered2.length; _i++) { var start = buffered2[_i].start; var end = buffered2[_i].end; // logger.log('buf start/end:' + buffered.start(i) + '/' + buffered.end(i)); if (pos + maxHoleDuration >= start && pos < end) { // play position is inside this buffer TimeRange, retrieve end of buffer position and buffer length bufferStart = start; bufferEnd = end; bufferLen = bufferEnd - pos; } else if (pos + maxHoleDuration < start) { bufferStartNext = start; break; } } return { len: bufferLen, start: bufferStart || 0, end: bufferEnd || 0, nextStart: bufferStartNext }; } /** * Safe method to get buffered property. * SourceBuffer.buffered may throw if SourceBuffer is removed from it's MediaSource */; BufferHelper.getBuffered = function getBuffered(media) { try { return media.buffered; } catch (e) { logger.log('failed to get media.buffered', e); return noopBuffered; } }; return BufferHelper; }(); var ChunkMetadata = function ChunkMetadata(level, sn, id, size, part, partial) { if (size === void 0) { size = 0; } if (part === void 0) { part = -1; } if (partial === void 0) { partial = false; } this.level = void 0; this.sn = void 0; this.part = void 0; this.id = void 0; this.size = void 0; this.partial = void 0; this.transmuxing = getNewPerformanceTiming(); this.buffering = { audio: getNewPerformanceTiming(), video: getNewPerformanceTiming(), audiovideo: getNewPerformanceTiming() }; this.level = level; this.sn = sn; this.id = id; this.size = size; this.part = part; this.partial = partial; }; function getNewPerformanceTiming() { return { start: 0, executeStart: 0, executeEnd: 0, end: 0 }; } function findFirstFragWithCC(fragments, cc) { var firstFrag = null; for (var i = 0, len = fragments.length; i < len; i++) { var currentFrag = fragments[i]; if (currentFrag && currentFrag.cc === cc) { firstFrag = currentFrag; break; } } return firstFrag; } function shouldAlignOnDiscontinuities(lastFrag, lastLevel, details) { if (lastLevel.details) { if (details.endCC > details.startCC || lastFrag && lastFrag.cc < details.startCC) { return true; } } return false; } // Find the first frag in the previous level which matches the CC of the first frag of the new level function findDiscontinuousReferenceFrag(prevDetails, curDetails, referenceIndex) { var prevFrags = prevDetails.fragments; var curFrags = curDetails.fragments; if (!curFrags.length || !prevFrags.length) { logger.log('No fragments to align'); return; } var prevStartFrag = findFirstFragWithCC(prevFrags, curFrags[0].cc); if (!prevStartFrag || prevStartFrag && !prevStartFrag.startPTS) { logger.log('No frag in previous level to align on'); return; } return prevStartFrag; } function adjustFragmentStart(frag, sliding) { if (frag) { var start = frag.start + sliding; frag.start = frag.startPTS = start; frag.endPTS = start + frag.duration; } } function adjustSlidingStart(sliding, details) { // Update segments var fragments = details.fragments; for (var i = 0, len = fragments.length; i < len; i++) { adjustFragmentStart(fragments[i], sliding); } // Update LL-HLS parts at the end of the playlist if (details.fragmentHint) { adjustFragmentStart(details.fragmentHint, sliding); } details.alignedSliding = true; } /** * Using the parameters of the last level, this function computes PTS' of the new fragments so that they form a * contiguous stream with the last fragments. * The PTS of a fragment lets Hls.js know where it fits into a stream - by knowing every PTS, we know which fragment to * download at any given time. PTS is normally computed when the fragment is demuxed, so taking this step saves us time * and an extra download. * @param lastFrag * @param lastLevel * @param details */ function alignStream(lastFrag, lastLevel, details) { if (!lastLevel) { return; } alignDiscontinuities(lastFrag, details, lastLevel); if (!details.alignedSliding && lastLevel.details) { // If the PTS wasn't figured out via discontinuity sequence that means there was no CC increase within the level. // Aligning via Program Date Time should therefore be reliable, since PDT should be the same within the same // discontinuity sequence. alignPDT(details, lastLevel.details); } if (!details.alignedSliding && lastLevel.details && !details.skippedSegments) { // Try to align on sn so that we pick a better start fragment. // Do not perform this on playlists with delta updates as this is only to align levels on switch // and adjustSliding only adjusts fragments after skippedSegments. adjustSliding(lastLevel.details, details); } } /** * Computes the PTS if a new level's fragments using the PTS of a fragment in the last level which shares the same * discontinuity sequence. * @param lastFrag - The last Fragment which shares the same discontinuity sequence * @param lastLevel - The details of the last loaded level * @param details - The details of the new level */ function alignDiscontinuities(lastFrag, details, lastLevel) { if (shouldAlignOnDiscontinuities(lastFrag, lastLevel, details)) { var referenceFrag = findDiscontinuousReferenceFrag(lastLevel.details, details); if (referenceFrag && isFiniteNumber(referenceFrag.start)) { logger.log("Adjusting PTS using last level due to CC increase within current level " + details.url); adjustSlidingStart(referenceFrag.start, details); } } } /** * Computes the PTS of a new level's fragments using the difference in Program Date Time from the last level. * @param details - The details of the new level * @param lastDetails - The details of the last loaded level */ function alignPDT(details, lastDetails) { // This check protects the unsafe "!" usage below for null program date time access. if (!lastDetails.fragments.length || !details.hasProgramDateTime || !lastDetails.hasProgramDateTime) { return; } // if last level sliding is 1000 and its first frag PROGRAM-DATE-TIME is 2017-08-20 1:10:00 AM // and if new details first frag PROGRAM DATE-TIME is 2017-08-20 1:10:08 AM // then we can deduce that playlist B sliding is 1000+8 = 1008s var lastPDT = lastDetails.fragments[0].programDateTime; // hasProgramDateTime check above makes this safe. var newPDT = details.fragments[0].programDateTime; // date diff is in ms. frag.start is in seconds var sliding = (newPDT - lastPDT) / 1000 + lastDetails.fragments[0].start; if (sliding && isFiniteNumber(sliding)) { logger.log("Adjusting PTS using programDateTime delta " + (newPDT - lastPDT) + "ms, sliding:" + sliding.toFixed(3) + " " + details.url + " "); adjustSlidingStart(sliding, details); } } /** * Ensures appropriate time-alignment between renditions based on PDT. Unlike `alignPDT`, which adjusts * the timeline based on the delta between PDTs of the 0th fragment of two playlists/`LevelDetails`, * this function assumes the timelines represented in `refDetails` are accurate, including the PDTs, * and uses the "wallclock"/PDT timeline as a cross-reference to `details`, adjusting the presentation * times/timelines of `details` accordingly. * Given the asynchronous nature of fetches and initial loads of live `main` and audio/subtitle tracks, * the primary purpose of this function is to ensure the "local timelines" of audio/subtitle tracks * are aligned to the main/video timeline, using PDT as the cross-reference/"anchor" that should * be consistent across playlists, per the HLS spec. * @param details - The details of the rendition you'd like to time-align (e.g. an audio rendition). * @param refDetails - The details of the reference rendition with start and PDT times for alignment. */ function alignMediaPlaylistByPDT(details, refDetails) { if (!details.hasProgramDateTime || !refDetails.hasProgramDateTime) { return; } var fragments = details.fragments; var refFragments = refDetails.fragments; if (!fragments.length || !refFragments.length) { return; } // Calculate a delta to apply to all fragments according to the delta in PDT times and start times // of a fragment in the reference details, and a fragment in the target details of the same discontinuity. // If a fragment of the same discontinuity was not found use the middle fragment of both. var middleFrag = Math.round(refFragments.length / 2) - 1; var refFrag = refFragments[middleFrag]; var frag = findFirstFragWithCC(fragments, refFrag.cc) || fragments[Math.round(fragments.length / 2) - 1]; var refPDT = refFrag.programDateTime; var targetPDT = frag.programDateTime; if (refPDT === null || targetPDT === null) { return; } var delta = (targetPDT - refPDT) / 1000 - (frag.start - refFrag.start); adjustSlidingStart(delta, details); } var AESCrypto = /*#__PURE__*/function () { function AESCrypto(subtle, iv) { this.subtle = void 0; this.aesIV = void 0; this.subtle = subtle; this.aesIV = iv; } var _proto = AESCrypto.prototype; _proto.decrypt = function decrypt(data, key) { return this.subtle.decrypt({ name: 'AES-CBC', iv: this.aesIV }, key, data); }; return AESCrypto; }(); var FastAESKey = /*#__PURE__*/function () { function FastAESKey(subtle, key) { this.subtle = void 0; this.key = void 0; this.subtle = subtle; this.key = key; } var _proto = FastAESKey.prototype; _proto.expandKey = function expandKey() { return this.subtle.importKey('raw', this.key, { name: 'AES-CBC' }, false, ['encrypt', 'decrypt']); }; return FastAESKey; }(); // PKCS7 function removePadding(array) { var outputBytes = array.byteLength; var paddingBytes = outputBytes && new DataView(array.buffer).getUint8(outputBytes - 1); if (paddingBytes) { return sliceUint8(array, 0, outputBytes - paddingBytes); } return array; } var AESDecryptor = /*#__PURE__*/function () { function AESDecryptor() { this.rcon = [0x0, 0x1, 0x2, 0x4, 0x8, 0x10, 0x20, 0x40, 0x80, 0x1b, 0x36]; this.subMix = [new Uint32Array(256), new Uint32Array(256), new Uint32Array(256), new Uint32Array(256)]; this.invSubMix = [new Uint32Array(256), new Uint32Array(256), new Uint32Array(256), new Uint32Array(256)]; this.sBox = new Uint32Array(256); this.invSBox = new Uint32Array(256); this.key = new Uint32Array(0); this.ksRows = 0; this.keySize = 0; this.keySchedule = void 0; this.invKeySchedule = void 0; this.initTable(); } // Using view.getUint32() also swaps the byte order. var _proto = AESDecryptor.prototype; _proto.uint8ArrayToUint32Array_ = function uint8ArrayToUint32Array_(arrayBuffer) { var view = new DataView(arrayBuffer); var newArray = new Uint32Array(4); for (var i = 0; i < 4; i++) { newArray[i] = view.getUint32(i * 4); } return newArray; }; _proto.initTable = function initTable() { var sBox = this.sBox; var invSBox = this.invSBox; var subMix = this.subMix; var subMix0 = subMix[0]; var subMix1 = subMix[1]; var subMix2 = subMix[2]; var subMix3 = subMix[3]; var invSubMix = this.invSubMix; var invSubMix0 = invSubMix[0]; var invSubMix1 = invSubMix[1]; var invSubMix2 = invSubMix[2]; var invSubMix3 = invSubMix[3]; var d = new Uint32Array(256); var x = 0; var xi = 0; var i = 0; for (i = 0; i < 256; i++) { if (i < 128) { d[i] = i << 1; } else { d[i] = i << 1 ^ 0x11b; } } for (i = 0; i < 256; i++) { var sx = xi ^ xi << 1 ^ xi << 2 ^ xi << 3 ^ xi << 4; sx = sx >>> 8 ^ sx & 0xff ^ 0x63; sBox[x] = sx; invSBox[sx] = x; // Compute multiplication var x2 = d[x]; var x4 = d[x2]; var x8 = d[x4]; // Compute sub/invSub bytes, mix columns tables var t = d[sx] * 0x101 ^ sx * 0x1010100; subMix0[x] = t << 24 | t >>> 8; subMix1[x] = t << 16 | t >>> 16; subMix2[x] = t << 8 | t >>> 24; subMix3[x] = t; // Compute inv sub bytes, inv mix columns tables t = x8 * 0x1010101 ^ x4 * 0x10001 ^ x2 * 0x101 ^ x * 0x1010100; invSubMix0[sx] = t << 24 | t >>> 8; invSubMix1[sx] = t << 16 | t >>> 16; invSubMix2[sx] = t << 8 | t >>> 24; invSubMix3[sx] = t; // Compute next counter if (!x) { x = xi = 1; } else { x = x2 ^ d[d[d[x8 ^ x2]]]; xi ^= d[d[xi]]; } } }; _proto.expandKey = function expandKey(keyBuffer) { // convert keyBuffer to Uint32Array var key = this.uint8ArrayToUint32Array_(keyBuffer); var sameKey = true; var offset = 0; while (offset < key.length && sameKey) { sameKey = key[offset] === this.key[offset]; offset++; } if (sameKey) { return; } this.key = key; var keySize = this.keySize = key.length; if (keySize !== 4 && keySize !== 6 && keySize !== 8) { throw new Error('Invalid aes key size=' + keySize); } var ksRows = this.ksRows = (keySize + 6 + 1) * 4; var ksRow; var invKsRow; var keySchedule = this.keySchedule = new Uint32Array(ksRows); var invKeySchedule = this.invKeySchedule = new Uint32Array(ksRows); var sbox = this.sBox; var rcon = this.rcon; var invSubMix = this.invSubMix; var invSubMix0 = invSubMix[0]; var invSubMix1 = invSubMix[1]; var invSubMix2 = invSubMix[2]; var invSubMix3 = invSubMix[3]; var prev; var t; for (ksRow = 0; ksRow < ksRows; ksRow++) { if (ksRow < keySize) { prev = keySchedule[ksRow] = key[ksRow]; continue; } t = prev; if (ksRow % keySize === 0) { // Rot word t = t << 8 | t >>> 24; // Sub word t = sbox[t >>> 24] << 24 | sbox[t >>> 16 & 0xff] << 16 | sbox[t >>> 8 & 0xff] << 8 | sbox[t & 0xff]; // Mix Rcon t ^= rcon[ksRow / keySize | 0] << 24; } else if (keySize > 6 && ksRow % keySize === 4) { // Sub word t = sbox[t >>> 24] << 24 | sbox[t >>> 16 & 0xff] << 16 | sbox[t >>> 8 & 0xff] << 8 | sbox[t & 0xff]; } keySchedule[ksRow] = prev = (keySchedule[ksRow - keySize] ^ t) >>> 0; } for (invKsRow = 0; invKsRow < ksRows; invKsRow++) { ksRow = ksRows - invKsRow; if (invKsRow & 3) { t = keySchedule[ksRow]; } else { t = keySchedule[ksRow - 4]; } if (invKsRow < 4 || ksRow <= 4) { invKeySchedule[invKsRow] = t; } else { invKeySchedule[invKsRow] = invSubMix0[sbox[t >>> 24]] ^ invSubMix1[sbox[t >>> 16 & 0xff]] ^ invSubMix2[sbox[t >>> 8 & 0xff]] ^ invSubMix3[sbox[t & 0xff]]; } invKeySchedule[invKsRow] = invKeySchedule[invKsRow] >>> 0; } } // Adding this as a method greatly improves performance. ; _proto.networkToHostOrderSwap = function networkToHostOrderSwap(word) { return word << 24 | (word & 0xff00) << 8 | (word & 0xff0000) >> 8 | word >>> 24; }; _proto.decrypt = function decrypt(inputArrayBuffer, offset, aesIV) { var nRounds = this.keySize + 6; var invKeySchedule = this.invKeySchedule; var invSBOX = this.invSBox; var invSubMix = this.invSubMix; var invSubMix0 = invSubMix[0]; var invSubMix1 = invSubMix[1]; var invSubMix2 = invSubMix[2]; var invSubMix3 = invSubMix[3]; var initVector = this.uint8ArrayToUint32Array_(aesIV); var initVector0 = initVector[0]; var initVector1 = initVector[1]; var initVector2 = initVector[2]; var initVector3 = initVector[3]; var inputInt32 = new Int32Array(inputArrayBuffer); var outputInt32 = new Int32Array(inputInt32.length); var t0, t1, t2, t3; var s0, s1, s2, s3; var inputWords0, inputWords1, inputWords2, inputWords3; var ksRow, i; var swapWord = this.networkToHostOrderSwap; while (offset < inputInt32.length) { inputWords0 = swapWord(inputInt32[offset]); inputWords1 = swapWord(inputInt32[offset + 1]); inputWords2 = swapWord(inputInt32[offset + 2]); inputWords3 = swapWord(inputInt32[offset + 3]); s0 = inputWords0 ^ invKeySchedule[0]; s1 = inputWords3 ^ invKeySchedule[1]; s2 = inputWords2 ^ invKeySchedule[2]; s3 = inputWords1 ^ invKeySchedule[3]; ksRow = 4; // Iterate through the rounds of decryption for (i = 1; i < nRounds; i++) { t0 = invSubMix0[s0 >>> 24] ^ invSubMix1[s1 >> 16 & 0xff] ^ invSubMix2[s2 >> 8 & 0xff] ^ invSubMix3[s3 & 0xff] ^ invKeySchedule[ksRow]; t1 = invSubMix0[s1 >>> 24] ^ invSubMix1[s2 >> 16 & 0xff] ^ invSubMix2[s3 >> 8 & 0xff] ^ invSubMix3[s0 & 0xff] ^ invKeySchedule[ksRow + 1]; t2 = invSubMix0[s2 >>> 24] ^ invSubMix1[s3 >> 16 & 0xff] ^ invSubMix2[s0 >> 8 & 0xff] ^ invSubMix3[s1 & 0xff] ^ invKeySchedule[ksRow + 2]; t3 = invSubMix0[s3 >>> 24] ^ invSubMix1[s0 >> 16 & 0xff] ^ invSubMix2[s1 >> 8 & 0xff] ^ invSubMix3[s2 & 0xff] ^ invKeySchedule[ksRow + 3]; // Update state s0 = t0; s1 = t1; s2 = t2; s3 = t3; ksRow = ksRow + 4; } // Shift rows, sub bytes, add round key t0 = invSBOX[s0 >>> 24] << 24 ^ invSBOX[s1 >> 16 & 0xff] << 16 ^ invSBOX[s2 >> 8 & 0xff] << 8 ^ invSBOX[s3 & 0xff] ^ invKeySchedule[ksRow]; t1 = invSBOX[s1 >>> 24] << 24 ^ invSBOX[s2 >> 16 & 0xff] << 16 ^ invSBOX[s3 >> 8 & 0xff] << 8 ^ invSBOX[s0 & 0xff] ^ invKeySchedule[ksRow + 1]; t2 = invSBOX[s2 >>> 24] << 24 ^ invSBOX[s3 >> 16 & 0xff] << 16 ^ invSBOX[s0 >> 8 & 0xff] << 8 ^ invSBOX[s1 & 0xff] ^ invKeySchedule[ksRow + 2]; t3 = invSBOX[s3 >>> 24] << 24 ^ invSBOX[s0 >> 16 & 0xff] << 16 ^ invSBOX[s1 >> 8 & 0xff] << 8 ^ invSBOX[s2 & 0xff] ^ invKeySchedule[ksRow + 3]; // Write outputInt32[offset] = swapWord(t0 ^ initVector0); outputInt32[offset + 1] = swapWord(t3 ^ initVector1); outputInt32[offset + 2] = swapWord(t2 ^ initVector2); outputInt32[offset + 3] = swapWord(t1 ^ initVector3); // reset initVector to last 4 unsigned int initVector0 = inputWords0; initVector1 = inputWords1; initVector2 = inputWords2; initVector3 = inputWords3; offset = offset + 4; } return outputInt32.buffer; }; return AESDecryptor; }(); var CHUNK_SIZE = 16; // 16 bytes, 128 bits var Decrypter = /*#__PURE__*/function () { function Decrypter(config, _temp) { var _ref = _temp === void 0 ? {} : _temp, _ref$removePKCS7Paddi = _ref.removePKCS7Padding, removePKCS7Padding = _ref$removePKCS7Paddi === void 0 ? true : _ref$removePKCS7Paddi; this.logEnabled = true; this.removePKCS7Padding = void 0; this.subtle = null; this.softwareDecrypter = null; this.key = null; this.fastAesKey = null; this.remainderData = null; this.currentIV = null; this.currentResult = null; this.useSoftware = void 0; this.useSoftware = config.enableSoftwareAES; this.removePKCS7Padding = removePKCS7Padding; // built in decryptor expects PKCS7 padding if (removePKCS7Padding) { try { var browserCrypto = self.crypto; if (browserCrypto) { this.subtle = browserCrypto.subtle || browserCrypto.webkitSubtle; } } catch (e) { /* no-op */ } } if (this.subtle === null) { this.useSoftware = true; } } var _proto = Decrypter.prototype; _proto.destroy = function destroy() { this.subtle = null; this.softwareDecrypter = null; this.key = null; this.fastAesKey = null; this.remainderData = null; this.currentIV = null; this.currentResult = null; }; _proto.isSync = function isSync() { return this.useSoftware; }; _proto.flush = function flush() { var currentResult = this.currentResult, remainderData = this.remainderData; if (!currentResult || remainderData) { this.reset(); return null; } var data = new Uint8Array(currentResult); this.reset(); if (this.removePKCS7Padding) { return removePadding(data); } return data; }; _proto.reset = function reset() { this.currentResult = null; this.currentIV = null; this.remainderData = null; if (this.softwareDecrypter) { this.softwareDecrypter = null; } }; _proto.decrypt = function decrypt(data, key, iv) { var _this = this; if (this.useSoftware) { return new Promise(function (resolve, reject) { _this.softwareDecrypt(new Uint8Array(data), key, iv); var decryptResult = _this.flush(); if (decryptResult) { resolve(decryptResult.buffer); } else { reject(new Error('[softwareDecrypt] Failed to decrypt data')); } }); } return this.webCryptoDecrypt(new Uint8Array(data), key, iv); } // Software decryption is progressive. Progressive decryption may not return a result on each call. Any cached // data is handled in the flush() call ; _proto.softwareDecrypt = function softwareDecrypt(data, key, iv) { var currentIV = this.currentIV, currentResult = this.currentResult, remainderData = this.remainderData; this.logOnce('JS AES decrypt'); // The output is staggered during progressive parsing - the current result is cached, and emitted on the next call // This is done in order to strip PKCS7 padding, which is found at the end of each segment. We only know we've reached // the end on flush(), but by that time we have already received all bytes for the segment. // Progressive decryption does not work with WebCrypto if (remainderData) { data = appendUint8Array(remainderData, data); this.remainderData = null; } // Byte length must be a multiple of 16 (AES-128 = 128 bit blocks = 16 bytes) var currentChunk = this.getValidChunk(data); if (!currentChunk.length) { return null; } if (currentIV) { iv = currentIV; } var softwareDecrypter = this.softwareDecrypter; if (!softwareDecrypter) { softwareDecrypter = this.softwareDecrypter = new AESDecryptor(); } softwareDecrypter.expandKey(key); var result = currentResult; this.currentResult = softwareDecrypter.decrypt(currentChunk.buffer, 0, iv); this.currentIV = sliceUint8(currentChunk, -16).buffer; if (!result) { return null; } return result; }; _proto.webCryptoDecrypt = function webCryptoDecrypt(data, key, iv) { var _this2 = this; var subtle = this.subtle; if (this.key !== key || !this.fastAesKey) { this.key = key; this.fastAesKey = new FastAESKey(subtle, key); } return this.fastAesKey.expandKey().then(function (aesKey) { // decrypt using web crypto if (!subtle) { return Promise.reject(new Error('web crypto not initialized')); } _this2.logOnce('WebCrypto AES decrypt'); var crypto = new AESCrypto(subtle, new Uint8Array(iv)); return crypto.decrypt(data.buffer, aesKey); }).catch(function (err) { logger.warn("[decrypter]: WebCrypto Error, disable WebCrypto API, " + err.name + ": " + err.message); return _this2.onWebCryptoError(data, key, iv); }); }; _proto.onWebCryptoError = function onWebCryptoError(data, key, iv) { this.useSoftware = true; this.logEnabled = true; this.softwareDecrypt(data, key, iv); var decryptResult = this.flush(); if (decryptResult) { return decryptResult.buffer; } throw new Error('WebCrypto and softwareDecrypt: failed to decrypt data'); }; _proto.getValidChunk = function getValidChunk(data) { var currentChunk = data; var splitPoint = data.length - data.length % CHUNK_SIZE; if (splitPoint !== data.length) { currentChunk = sliceUint8(data, 0, splitPoint); this.remainderData = sliceUint8(data, splitPoint); } return currentChunk; }; _proto.logOnce = function logOnce(msg) { if (!this.logEnabled) { return; } logger.log("[decrypter]: " + msg); this.logEnabled = false; }; return Decrypter; }(); /** * TimeRanges to string helper */ var TimeRanges = { toString: function toString(r) { var log = ''; var len = r.length; for (var i = 0; i < len; i++) { log += "[" + r.start(i).toFixed(3) + "-" + r.end(i).toFixed(3) + "]"; } return log; } }; var State = { STOPPED: 'STOPPED', IDLE: 'IDLE', KEY_LOADING: 'KEY_LOADING', FRAG_LOADING: 'FRAG_LOADING', FRAG_LOADING_WAITING_RETRY: 'FRAG_LOADING_WAITING_RETRY', WAITING_TRACK: 'WAITING_TRACK', PARSING: 'PARSING', PARSED: 'PARSED', ENDED: 'ENDED', ERROR: 'ERROR', WAITING_INIT_PTS: 'WAITING_INIT_PTS', WAITING_LEVEL: 'WAITING_LEVEL' }; var BaseStreamController = /*#__PURE__*/function (_TaskLoop) { _inheritsLoose(BaseStreamController, _TaskLoop); function BaseStreamController(hls, fragmentTracker, keyLoader, logPrefix, playlistType) { var _this; _this = _TaskLoop.call(this) || this; _this.hls = void 0; _this.fragPrevious = null; _this.fragCurrent = null; _this.fragmentTracker = void 0; _this.transmuxer = null; _this._state = State.STOPPED; _this.playlistType = void 0; _this.media = null; _this.mediaBuffer = null; _this.config = void 0; _this.bitrateTest = false; _this.lastCurrentTime = 0; _this.nextLoadPosition = 0; _this.startPosition = 0; _this.startTimeOffset = null; _this.loadedmetadata = false; _this.retryDate = 0; _this.levels = null; _this.fragmentLoader = void 0; _this.keyLoader = void 0; _this.levelLastLoaded = null; _this.startFragRequested = false; _this.decrypter = void 0; _this.initPTS = []; _this.onvseeking = null; _this.onvended = null; _this.logPrefix = ''; _this.log = void 0; _this.warn = void 0; _this.playlistType = playlistType; _this.logPrefix = logPrefix; _this.log = logger.log.bind(logger, logPrefix + ":"); _this.warn = logger.warn.bind(logger, logPrefix + ":"); _this.hls = hls; _this.fragmentLoader = new FragmentLoader(hls.config); _this.keyLoader = keyLoader; _this.fragmentTracker = fragmentTracker; _this.config = hls.config; _this.decrypter = new Decrypter(hls.config); hls.on(Events.MANIFEST_LOADED, _this.onManifestLoaded, _assertThisInitialized(_this)); return _this; } var _proto = BaseStreamController.prototype; _proto.doTick = function doTick() { this.onTickEnd(); }; _proto.onTickEnd = function onTickEnd() {} // eslint-disable-next-line @typescript-eslint/no-unused-vars ; _proto.startLoad = function startLoad(startPosition) {}; _proto.stopLoad = function stopLoad() { this.fragmentLoader.abort(); this.keyLoader.abort(this.playlistType); var frag = this.fragCurrent; if (frag != null && frag.loader) { frag.abortRequests(); this.fragmentTracker.removeFragment(frag); } this.resetTransmuxer(); this.fragCurrent = null; this.fragPrevious = null; this.clearInterval(); this.clearNextTick(); this.state = State.STOPPED; }; _proto._streamEnded = function _streamEnded(bufferInfo, levelDetails) { // If playlist is live, there is another buffered range after the current range, nothing buffered, media is detached, // of nothing loading/loaded return false if (levelDetails.live || bufferInfo.nextStart || !bufferInfo.end || !this.media) { return false; } var partList = levelDetails.partList; // Since the last part isn't guaranteed to correspond to the last playlist segment for Low-Latency HLS, // check instead if the last part is buffered. if (partList != null && partList.length) { var lastPart = partList[partList.length - 1]; // Checking the midpoint of the part for potential margin of error and related issues. // NOTE: Technically I believe parts could yield content that is < the computed duration (including potential a duration of 0) // and still be spec-compliant, so there may still be edge cases here. Likewise, there could be issues in end of stream // part mismatches for independent audio and video playlists/segments. var lastPartBuffered = BufferHelper.isBuffered(this.media, lastPart.start + lastPart.duration / 2); return lastPartBuffered; } var playlistType = levelDetails.fragments[levelDetails.fragments.length - 1].type; return this.fragmentTracker.isEndListAppended(playlistType); }; _proto.getLevelDetails = function getLevelDetails() { if (this.levels && this.levelLastLoaded !== null) { var _this$levels$this$lev; return (_this$levels$this$lev = this.levels[this.levelLastLoaded]) == null ? void 0 : _this$levels$this$lev.details; } }; _proto.onMediaAttached = function onMediaAttached(event, data) { var media = this.media = this.mediaBuffer = data.media; this.onvseeking = this.onMediaSeeking.bind(this); this.onvended = this.onMediaEnded.bind(this); media.addEventListener('seeking', this.onvseeking); media.addEventListener('ended', this.onvended); var config = this.config; if (this.levels && config.autoStartLoad && this.state === State.STOPPED) { this.startLoad(config.startPosition); } }; _proto.onMediaDetaching = function onMediaDetaching() { var media = this.media; if (media != null && media.ended) { this.log('MSE detaching and video ended, reset startPosition'); this.startPosition = this.lastCurrentTime = 0; } // remove video listeners if (media && this.onvseeking && this.onvended) { media.removeEventListener('seeking', this.onvseeking); media.removeEventListener('ended', this.onvended); this.onvseeking = this.onvended = null; } if (this.keyLoader) { this.keyLoader.detach(); } this.media = this.mediaBuffer = null; this.loadedmetadata = false; this.fragmentTracker.removeAllFragments(); this.stopLoad(); }; _proto.onMediaSeeking = function onMediaSeeking() { var config = this.config, fragCurrent = this.fragCurrent, media = this.media, mediaBuffer = this.mediaBuffer, state = this.state; var currentTime = media ? media.currentTime : 0; var bufferInfo = BufferHelper.bufferInfo(mediaBuffer ? mediaBuffer : media, currentTime, config.maxBufferHole); this.log("media seeking to " + (isFiniteNumber(currentTime) ? currentTime.toFixed(3) : currentTime) + ", state: " + state); if (this.state === State.ENDED) { this.resetLoadingState(); } else if (fragCurrent) { // Seeking while frag load is in progress var tolerance = config.maxFragLookUpTolerance; var fragStartOffset = fragCurrent.start - tolerance; var fragEndOffset = fragCurrent.start + fragCurrent.duration + tolerance; // if seeking out of buffered range or into new one if (!bufferInfo.len || fragEndOffset < bufferInfo.start || fragStartOffset > bufferInfo.end) { var pastFragment = currentTime > fragEndOffset; // if the seek position is outside the current fragment range if (currentTime < fragStartOffset || pastFragment) { if (pastFragment && fragCurrent.loader) { this.log('seeking outside of buffer while fragment load in progress, cancel fragment load'); fragCurrent.abortRequests(); this.resetLoadingState(); } this.fragPrevious = null; } } } if (media) { // Remove gap fragments this.fragmentTracker.removeFragmentsInRange(currentTime, Infinity, this.playlistType, true); this.lastCurrentTime = currentTime; } // in case seeking occurs although no media buffered, adjust startPosition and nextLoadPosition to seek target if (!this.loadedmetadata && !bufferInfo.len) { this.nextLoadPosition = this.startPosition = currentTime; } // Async tick to speed up processing this.tickImmediate(); }; _proto.onMediaEnded = function onMediaEnded() { // reset startPosition and lastCurrentTime to restart playback @ stream beginning this.startPosition = this.lastCurrentTime = 0; }; _proto.onManifestLoaded = function onManifestLoaded(event, data) { this.startTimeOffset = data.startTimeOffset; this.initPTS = []; }; _proto.onHandlerDestroying = function onHandlerDestroying() { this.stopLoad(); _TaskLoop.prototype.onHandlerDestroying.call(this); }; _proto.onHandlerDestroyed = function onHandlerDestroyed() { this.state = State.STOPPED; if (this.fragmentLoader) { this.fragmentLoader.destroy(); } if (this.keyLoader) { this.keyLoader.destroy(); } if (this.decrypter) { this.decrypter.destroy(); } this.hls = this.log = this.warn = this.decrypter = this.keyLoader = this.fragmentLoader = this.fragmentTracker = null; _TaskLoop.prototype.onHandlerDestroyed.call(this); }; _proto.loadFragment = function loadFragment(frag, level, targetBufferTime) { this._loadFragForPlayback(frag, level, targetBufferTime); }; _proto._loadFragForPlayback = function _loadFragForPlayback(frag, level, targetBufferTime) { var _this2 = this; var progressCallback = function progressCallback(data) { if (_this2.fragContextChanged(frag)) { _this2.warn("Fragment " + frag.sn + (data.part ? ' p: ' + data.part.index : '') + " of level " + frag.level + " was dropped during download."); _this2.fragmentTracker.removeFragment(frag); return; } frag.stats.chunkCount++; _this2._handleFragmentLoadProgress(data); }; this._doFragLoad(frag, level, targetBufferTime, progressCallback).then(function (data) { if (!data) { // if we're here we probably needed to backtrack or are waiting for more parts return; } var state = _this2.state; if (_this2.fragContextChanged(frag)) { if (state === State.FRAG_LOADING || !_this2.fragCurrent && state === State.PARSING) { _this2.fragmentTracker.removeFragment(frag); _this2.state = State.IDLE; } return; } if ('payload' in data) { _this2.log("Loaded fragment " + frag.sn + " of level " + frag.level); _this2.hls.trigger(Events.FRAG_LOADED, data); } // Pass through the whole payload; controllers not implementing progressive loading receive data from this callback _this2._handleFragmentLoadComplete(data); }).catch(function (reason) { if (_this2.state === State.STOPPED || _this2.state === State.ERROR) { return; } _this2.warn(reason); _this2.resetFragmentLoading(frag); }); }; _proto.clearTrackerIfNeeded = function clearTrackerIfNeeded(frag) { var _this$mediaBuffer; var fragmentTracker = this.fragmentTracker; var fragState = fragmentTracker.getState(frag); if (fragState === FragmentState.APPENDING) { // Lower the buffer size and try again var playlistType = frag.type; var bufferedInfo = this.getFwdBufferInfo(this.mediaBuffer, playlistType); var minForwardBufferLength = Math.max(frag.duration, bufferedInfo ? bufferedInfo.len : this.config.maxBufferLength); if (this.reduceMaxBufferLength(minForwardBufferLength)) { fragmentTracker.removeFragment(frag); } } else if (((_this$mediaBuffer = this.mediaBuffer) == null ? void 0 : _this$mediaBuffer.buffered.length) === 0) { // Stop gap for bad tracker / buffer flush behavior fragmentTracker.removeAllFragments(); } else if (fragmentTracker.hasParts(frag.type)) { // In low latency mode, remove fragments for which only some parts were buffered fragmentTracker.detectPartialFragments({ frag: frag, part: null, stats: frag.stats, id: frag.type }); if (fragmentTracker.getState(frag) === FragmentState.PARTIAL) { fragmentTracker.removeFragment(frag); } } }; _proto.flushMainBuffer = function flushMainBuffer(startOffset, endOffset, type) { if (type === void 0) { type = null; } if (!(startOffset - endOffset)) { return; } // When alternate audio is playing, the audio-stream-controller is responsible for the audio buffer. Otherwise, // passing a null type flushes both buffers var flushScope = { startOffset: startOffset, endOffset: endOffset, type: type }; this.hls.trigger(Events.BUFFER_FLUSHING, flushScope); }; _proto._loadInitSegment = function _loadInitSegment(frag, level) { var _this3 = this; this._doFragLoad(frag, level).then(function (data) { if (!data || _this3.fragContextChanged(frag) || !_this3.levels) { throw new Error('init load aborted'); } return data; }).then(function (data) { var hls = _this3.hls; var payload = data.payload; var decryptData = frag.decryptdata; // check to see if the payload needs to be decrypted if (payload && payload.byteLength > 0 && decryptData && decryptData.key && decryptData.iv && decryptData.method === 'AES-128') { var startTime = self.performance.now(); // decrypt init segment data return _this3.decrypter.decrypt(new Uint8Array(payload), decryptData.key.buffer, decryptData.iv.buffer).catch(function (err) { hls.trigger(Events.ERROR, { type: ErrorTypes.MEDIA_ERROR, details: ErrorDetails.FRAG_DECRYPT_ERROR, fatal: false, error: err, reason: err.message, frag: frag }); throw err; }).then(function (decryptedData) { var endTime = self.performance.now(); hls.trigger(Events.FRAG_DECRYPTED, { frag: frag, payload: decryptedData, stats: { tstart: startTime, tdecrypt: endTime } }); data.payload = decryptedData; return data; }); } return data; }).then(function (data) { var fragCurrent = _this3.fragCurrent, hls = _this3.hls, levels = _this3.levels; if (!levels) { throw new Error('init load aborted, missing levels'); } var stats = frag.stats; _this3.state = State.IDLE; level.fragmentError = 0; frag.data = new Uint8Array(data.payload); stats.parsing.start = stats.buffering.start = self.performance.now(); stats.parsing.end = stats.buffering.end = self.performance.now(); // Silence FRAG_BUFFERED event if fragCurrent is null if (data.frag === fragCurrent) { hls.trigger(Events.FRAG_BUFFERED, { stats: stats, frag: fragCurrent, part: null, id: frag.type }); } _this3.tick(); }).catch(function (reason) { if (_this3.state === State.STOPPED || _this3.state === State.ERROR) { return; } _this3.warn(reason); _this3.resetFragmentLoading(frag); }); }; _proto.fragContextChanged = function fragContextChanged(frag) { var fragCurrent = this.fragCurrent; return !frag || !fragCurrent || frag.level !== fragCurrent.level || frag.sn !== fragCurrent.sn || frag.urlId !== fragCurrent.urlId; }; _proto.fragBufferedComplete = function fragBufferedComplete(frag, part) { var _frag$startPTS, _frag$endPTS, _this$fragCurrent, _this$fragPrevious; var media = this.mediaBuffer ? this.mediaBuffer : this.media; this.log("Buffered " + frag.type + " sn: " + frag.sn + (part ? ' part: ' + part.index : '') + " of " + (this.playlistType === PlaylistLevelType.MAIN ? 'level' : 'track') + " " + frag.level + " (frag:[" + ((_frag$startPTS = frag.startPTS) != null ? _frag$startPTS : NaN).toFixed(3) + "-" + ((_frag$endPTS = frag.endPTS) != null ? _frag$endPTS : NaN).toFixed(3) + "] > buffer:" + (media ? TimeRanges.toString(BufferHelper.getBuffered(media)) : '(detached)') + ")"); this.state = State.IDLE; if (!media) { return; } if (!this.loadedmetadata && frag.type == PlaylistLevelType.MAIN && media.buffered.length && ((_this$fragCurrent = this.fragCurrent) == null ? void 0 : _this$fragCurrent.sn) === ((_this$fragPrevious = this.fragPrevious) == null ? void 0 : _this$fragPrevious.sn)) { this.loadedmetadata = true; this.seekToStartPos(); } this.tick(); }; _proto.seekToStartPos = function seekToStartPos() {}; _proto._handleFragmentLoadComplete = function _handleFragmentLoadComplete(fragLoadedEndData) { var transmuxer = this.transmuxer; if (!transmuxer) { return; } var frag = fragLoadedEndData.frag, part = fragLoadedEndData.part, partsLoaded = fragLoadedEndData.partsLoaded; // If we did not load parts, or loaded all parts, we have complete (not partial) fragment data var complete = !partsLoaded || partsLoaded.length === 0 || partsLoaded.some(function (fragLoaded) { return !fragLoaded; }); var chunkMeta = new ChunkMetadata(frag.level, frag.sn, frag.stats.chunkCount + 1, 0, part ? part.index : -1, !complete); transmuxer.flush(chunkMeta); } // eslint-disable-next-line @typescript-eslint/no-unused-vars ; _proto._handleFragmentLoadProgress = function _handleFragmentLoadProgress(frag) {}; _proto._doFragLoad = function _doFragLoad(frag, level, targetBufferTime, progressCallback) { var _frag$decryptdata, _this4 = this; if (targetBufferTime === void 0) { targetBufferTime = null; } var details = level == null ? void 0 : level.details; if (!this.levels || !details) { throw new Error("frag load aborted, missing level" + (details ? '' : ' detail') + "s"); } var keyLoadingPromise = null; if (frag.encrypted && !((_frag$decryptdata = frag.decryptdata) != null && _frag$decryptdata.key)) { this.log("Loading key for " + frag.sn + " of [" + details.startSN + "-" + details.endSN + "], " + (this.logPrefix === '[stream-controller]' ? 'level' : 'track') + " " + frag.level); this.state = State.KEY_LOADING; this.fragCurrent = frag; keyLoadingPromise = this.keyLoader.load(frag).then(function (keyLoadedData) { if (!_this4.fragContextChanged(keyLoadedData.frag)) { _this4.hls.trigger(Events.KEY_LOADED, keyLoadedData); if (_this4.state === State.KEY_LOADING) { _this4.state = State.IDLE; } return keyLoadedData; } }); this.hls.trigger(Events.KEY_LOADING, { frag: frag }); if (this.fragCurrent === null) { keyLoadingPromise = Promise.reject(new Error("frag load aborted, context changed in KEY_LOADING")); } } else if (!frag.encrypted && details.encryptedFragments.length) { this.keyLoader.loadClear(frag, details.encryptedFragments); } targetBufferTime = Math.max(frag.start, targetBufferTime || 0); if (this.config.lowLatencyMode && frag.sn !== 'initSegment') { var partList = details.partList; if (partList && progressCallback) { if (targetBufferTime > frag.end && details.fragmentHint) { frag = details.fragmentHint; } var partIndex = this.getNextPart(partList, frag, targetBufferTime); if (partIndex > -1) { var part = partList[partIndex]; this.log("Loading part sn: " + frag.sn + " p: " + part.index + " cc: " + frag.cc + " of playlist [" + details.startSN + "-" + details.endSN + "] parts [0-" + partIndex + "-" + (partList.length - 1) + "] " + (this.logPrefix === '[stream-controller]' ? 'level' : 'track') + ": " + frag.level + ", target: " + parseFloat(targetBufferTime.toFixed(3))); this.nextLoadPosition = part.start + part.duration; this.state = State.FRAG_LOADING; var _result; if (keyLoadingPromise) { _result = keyLoadingPromise.then(function (keyLoadedData) { if (!keyLoadedData || _this4.fragContextChanged(keyLoadedData.frag)) { return null; } return _this4.doFragPartsLoad(frag, part, level, progressCallback); }).catch(function (error) { return _this4.handleFragLoadError(error); }); } else { _result = this.doFragPartsLoad(frag, part, level, progressCallback).catch(function (error) { return _this4.handleFragLoadError(error); }); } this.hls.trigger(Events.FRAG_LOADING, { frag: frag, part: part, targetBufferTime: targetBufferTime }); if (this.fragCurrent === null) { return Promise.reject(new Error("frag load aborted, context changed in FRAG_LOADING parts")); } return _result; } else if (!frag.url || this.loadedEndOfParts(partList, targetBufferTime)) { // Fragment hint has no parts return Promise.resolve(null); } } } this.log("Loading fragment " + frag.sn + " cc: " + frag.cc + " " + (details ? 'of [' + details.startSN + '-' + details.endSN + '] ' : '') + (this.logPrefix === '[stream-controller]' ? 'level' : 'track') + ": " + frag.level + ", target: " + parseFloat(targetBufferTime.toFixed(3))); // Don't update nextLoadPosition for fragments which are not buffered if (isFiniteNumber(frag.sn) && !this.bitrateTest) { this.nextLoadPosition = frag.start + frag.duration; } this.state = State.FRAG_LOADING; // Load key before streaming fragment data var dataOnProgress = this.config.progressive; var result; if (dataOnProgress && keyLoadingPromise) { result = keyLoadingPromise.then(function (keyLoadedData) { if (!keyLoadedData || _this4.fragContextChanged(keyLoadedData == null ? void 0 : keyLoadedData.frag)) { return null; } return _this4.fragmentLoader.load(frag, progressCallback); }).catch(function (error) { return _this4.handleFragLoadError(error); }); } else { // load unencrypted fragment data with progress event, // or handle fragment result after key and fragment are finished loading result = Promise.all([this.fragmentLoader.load(frag, dataOnProgress ? progressCallback : undefined), keyLoadingPromise]).then(function (_ref) { var fragLoadedData = _ref[0]; if (!dataOnProgress && fragLoadedData && progressCallback) { progressCallback(fragLoadedData); } return fragLoadedData; }).catch(function (error) { return _this4.handleFragLoadError(error); }); } this.hls.trigger(Events.FRAG_LOADING, { frag: frag, targetBufferTime: targetBufferTime }); if (this.fragCurrent === null) { return Promise.reject(new Error("frag load aborted, context changed in FRAG_LOADING")); } return result; }; _proto.doFragPartsLoad = function doFragPartsLoad(frag, fromPart, level, progressCallback) { var _this5 = this; return new Promise(function (resolve, reject) { var _level$details; var partsLoaded = []; var initialPartList = (_level$details = level.details) == null ? void 0 : _level$details.partList; var loadPart = function loadPart(part) { _this5.fragmentLoader.loadPart(frag, part, progressCallback).then(function (partLoadedData) { partsLoaded[part.index] = partLoadedData; var loadedPart = partLoadedData.part; _this5.hls.trigger(Events.FRAG_LOADED, partLoadedData); var nextPart = getPartWith(level, frag.sn, part.index + 1) || findPart(initialPartList, frag.sn, part.index + 1); if (nextPart) { loadPart(nextPart); } else { return resolve({ frag: frag, part: loadedPart, partsLoaded: partsLoaded }); } }).catch(reject); }; loadPart(fromPart); }); }; _proto.handleFragLoadError = function handleFragLoadError(error) { if ('data' in error) { var data = error.data; if (error.data && data.details === ErrorDetails.INTERNAL_ABORTED) { this.handleFragLoadAborted(data.frag, data.part); } else { this.hls.trigger(Events.ERROR, data); } } else { this.hls.trigger(Events.ERROR, { type: ErrorTypes.OTHER_ERROR, details: ErrorDetails.INTERNAL_EXCEPTION, err: error, error: error, fatal: true }); } return null; }; _proto._handleTransmuxerFlush = function _handleTransmuxerFlush(chunkMeta) { var context = this.getCurrentContext(chunkMeta); if (!context || this.state !== State.PARSING) { if (!this.fragCurrent && this.state !== State.STOPPED && this.state !== State.ERROR) { this.state = State.IDLE; } return; } var frag = context.frag, part = context.part, level = context.level; var now = self.performance.now(); frag.stats.parsing.end = now; if (part) { part.stats.parsing.end = now; } this.updateLevelTiming(frag, part, level, chunkMeta.partial); }; _proto.getCurrentContext = function getCurrentContext(chunkMeta) { var levels = this.levels, fragCurrent = this.fragCurrent; var levelIndex = chunkMeta.level, sn = chunkMeta.sn, partIndex = chunkMeta.part; if (!(levels != null && levels[levelIndex])) { this.warn("Levels object was unset while buffering fragment " + sn + " of level " + levelIndex + ". The current chunk will not be buffered."); return null; } var level = levels[levelIndex]; var part = partIndex > -1 ? getPartWith(level, sn, partIndex) : null; var frag = part ? part.fragment : getFragmentWithSN(level, sn, fragCurrent); if (!frag) { return null; } if (fragCurrent && fragCurrent !== frag) { frag.stats = fragCurrent.stats; } return { frag: frag, part: part, level: level }; }; _proto.bufferFragmentData = function bufferFragmentData(data, frag, part, chunkMeta, noBacktracking) { var _buffer; if (!data || this.state !== State.PARSING) { return; } var data1 = data.data1, data2 = data.data2; var buffer = data1; if (data1 && data2) { // Combine the moof + mdat so that we buffer with a single append buffer = appendUint8Array(data1, data2); } if (!((_buffer = buffer) != null && _buffer.length)) { return; } var segment = { type: data.type, frag: frag, part: part, chunkMeta: chunkMeta, parent: frag.type, data: buffer }; this.hls.trigger(Events.BUFFER_APPENDING, segment); if (data.dropped && data.independent && !part) { if (noBacktracking) { return; } // Clear buffer so that we reload previous segments sequentially if required this.flushBufferGap(frag); } }; _proto.flushBufferGap = function flushBufferGap(frag) { var media = this.media; if (!media) { return; } // If currentTime is not buffered, clear the back buffer so that we can backtrack as much as needed if (!BufferHelper.isBuffered(media, media.currentTime)) { this.flushMainBuffer(0, frag.start); return; } // Remove back-buffer without interrupting playback to allow back tracking var currentTime = media.currentTime; var bufferInfo = BufferHelper.bufferInfo(media, currentTime, 0); var fragDuration = frag.duration; var segmentFraction = Math.min(this.config.maxFragLookUpTolerance * 2, fragDuration * 0.25); var start = Math.max(Math.min(frag.start - segmentFraction, bufferInfo.end - segmentFraction), currentTime + segmentFraction); if (frag.start - start > segmentFraction) { this.flushMainBuffer(start, frag.start); } }; _proto.getFwdBufferInfo = function getFwdBufferInfo(bufferable, type) { var pos = this.getLoadPosition(); if (!isFiniteNumber(pos)) { return null; } return this.getFwdBufferInfoAtPos(bufferable, pos, type); }; _proto.getFwdBufferInfoAtPos = function getFwdBufferInfoAtPos(bufferable, pos, type) { var maxBufferHole = this.config.maxBufferHole; var bufferInfo = BufferHelper.bufferInfo(bufferable, pos, maxBufferHole); // Workaround flaw in getting forward buffer when maxBufferHole is smaller than gap at current pos if (bufferInfo.len === 0 && bufferInfo.nextStart !== undefined) { var bufferedFragAtPos = this.fragmentTracker.getBufferedFrag(pos, type); if (bufferedFragAtPos && bufferInfo.nextStart < bufferedFragAtPos.end) { return BufferHelper.bufferInfo(bufferable, pos, Math.max(bufferInfo.nextStart, maxBufferHole)); } } return bufferInfo; }; _proto.getMaxBufferLength = function getMaxBufferLength(levelBitrate) { var config = this.config; var maxBufLen; if (levelBitrate) { maxBufLen = Math.max(8 * config.maxBufferSize / levelBitrate, config.maxBufferLength); } else { maxBufLen = config.maxBufferLength; } return Math.min(maxBufLen, config.maxMaxBufferLength); }; _proto.reduceMaxBufferLength = function reduceMaxBufferLength(threshold) { var config = this.config; var minLength = threshold || config.maxBufferLength; if (config.maxMaxBufferLength >= minLength) { // reduce max buffer length as it might be too high. we do this to avoid loop flushing ... config.maxMaxBufferLength /= 2; this.warn("Reduce max buffer length to " + config.maxMaxBufferLength + "s"); return true; } return false; }; _proto.getAppendedFrag = function getAppendedFrag(position, playlistType) { var fragOrPart = this.fragmentTracker.getAppendedFrag(position, PlaylistLevelType.MAIN); if (fragOrPart && 'fragment' in fragOrPart) { return fragOrPart.fragment; } return fragOrPart; }; _proto.getNextFragment = function getNextFragment(pos, levelDetails) { var fragments = levelDetails.fragments; var fragLen = fragments.length; if (!fragLen) { return null; } // find fragment index, contiguous with end of buffer position var config = this.config; var start = fragments[0].start; var frag; if (levelDetails.live) { var initialLiveManifestSize = config.initialLiveManifestSize; if (fragLen < initialLiveManifestSize) { this.warn("Not enough fragments to start playback (have: " + fragLen + ", need: " + initialLiveManifestSize + ")"); return null; } // The real fragment start times for a live stream are only known after the PTS range for that level is known. // In order to discover the range, we load the best matching fragment for that level and demux it. // Do not load using live logic if the starting frag is requested - we want to use getFragmentAtPosition() so that // we get the fragment matching that start time if (!levelDetails.PTSKnown && !this.startFragRequested && this.startPosition === -1) { frag = this.getInitialLiveFragment(levelDetails, fragments); this.startPosition = frag ? this.hls.liveSyncPosition || frag.start : pos; } } else if (pos <= start) { // VoD playlist: if loadPosition before start of playlist, load first fragment frag = fragments[0]; } // If we haven't run into any special cases already, just load the fragment most closely matching the requested position if (!frag) { var end = config.lowLatencyMode ? levelDetails.partEnd : levelDetails.fragmentEnd; frag = this.getFragmentAtPosition(pos, end, levelDetails); } return this.mapToInitFragWhenRequired(frag); }; _proto.isLoopLoading = function isLoopLoading(frag, targetBufferTime) { var trackerState = this.fragmentTracker.getState(frag); return (trackerState === FragmentState.OK || trackerState === FragmentState.PARTIAL && !!frag.gap) && this.nextLoadPosition > targetBufferTime; }; _proto.getNextFragmentLoopLoading = function getNextFragmentLoopLoading(frag, levelDetails, bufferInfo, playlistType, maxBufLen) { var gapStart = frag.gap; var nextFragment = this.getNextFragment(this.nextLoadPosition, levelDetails); if (nextFragment === null) { return nextFragment; } frag = nextFragment; if (gapStart && frag && !frag.gap && bufferInfo.nextStart) { // Media buffered after GAP tags should not make the next buffer timerange exceed forward buffer length var nextbufferInfo = this.getFwdBufferInfoAtPos(this.mediaBuffer ? this.mediaBuffer : this.media, bufferInfo.nextStart, playlistType); if (nextbufferInfo !== null && bufferInfo.len + nextbufferInfo.len >= maxBufLen) { // Returning here might result in not finding an audio and video candiate to skip to this.log("buffer full after gaps in \"" + playlistType + "\" playlist starting at sn: " + frag.sn); return null; } } return frag; }; _proto.mapToInitFragWhenRequired = function mapToInitFragWhenRequired(frag) { // If an initSegment is present, it must be buffered first if (frag != null && frag.initSegment && !(frag != null && frag.initSegment.data) && !this.bitrateTest) { return frag.initSegment; } return frag; }; _proto.getNextPart = function getNextPart(partList, frag, targetBufferTime) { var nextPart = -1; var contiguous = false; var independentAttrOmitted = true; for (var i = 0, len = partList.length; i < len; i++) { var part = partList[i]; independentAttrOmitted = independentAttrOmitted && !part.independent; if (nextPart > -1 && targetBufferTime < part.start) { break; } var loaded = part.loaded; if (loaded) { nextPart = -1; } else if ((contiguous || part.independent || independentAttrOmitted) && part.fragment === frag) { nextPart = i; } contiguous = loaded; } return nextPart; }; _proto.loadedEndOfParts = function loadedEndOfParts(partList, targetBufferTime) { var lastPart = partList[partList.length - 1]; return lastPart && targetBufferTime > lastPart.start && lastPart.loaded; } /* This method is used find the best matching first fragment for a live playlist. This fragment is used to calculate the "sliding" of the playlist, which is its offset from the start of playback. After sliding we can compute the real start and end times for each fragment in the playlist (after which this method will not need to be called). */; _proto.getInitialLiveFragment = function getInitialLiveFragment(levelDetails, fragments) { var fragPrevious = this.fragPrevious; var frag = null; if (fragPrevious) { if (levelDetails.hasProgramDateTime) { // Prefer using PDT, because it can be accurate enough to choose the correct fragment without knowing the level sliding this.log("Live playlist, switching playlist, load frag with same PDT: " + fragPrevious.programDateTime); frag = findFragmentByPDT(fragments, fragPrevious.endProgramDateTime, this.config.maxFragLookUpTolerance); } if (!frag) { // SN does not need to be accurate between renditions, but depending on the packaging it may be so. var targetSN = fragPrevious.sn + 1; if (targetSN >= levelDetails.startSN && targetSN <= levelDetails.endSN) { var fragNext = fragments[targetSN - levelDetails.startSN]; // Ensure that we're staying within the continuity range, since PTS resets upon a new range if (fragPrevious.cc === fragNext.cc) { frag = fragNext; this.log("Live playlist, switching playlist, load frag with next SN: " + frag.sn); } } // It's important to stay within the continuity range if available; otherwise the fragments in the playlist // will have the wrong start times if (!frag) { frag = findFragWithCC(fragments, fragPrevious.cc); if (frag) { this.log("Live playlist, switching playlist, load frag with same CC: " + frag.sn); } } } } else { // Find a new start fragment when fragPrevious is null var liveStart = this.hls.liveSyncPosition; if (liveStart !== null) { frag = this.getFragmentAtPosition(liveStart, this.bitrateTest ? levelDetails.fragmentEnd : levelDetails.edge, levelDetails); } } return frag; } /* This method finds the best matching fragment given the provided position. */; _proto.getFragmentAtPosition = function getFragmentAtPosition(bufferEnd, end, levelDetails) { var config = this.config; var fragPrevious = this.fragPrevious; var fragments = levelDetails.fragments, endSN = levelDetails.endSN; var fragmentHint = levelDetails.fragmentHint; var tolerance = config.maxFragLookUpTolerance; var partList = levelDetails.partList; var loadingParts = !!(config.lowLatencyMode && partList != null && partList.length && fragmentHint); if (loadingParts && fragmentHint && !this.bitrateTest) { // Include incomplete fragment with parts at end fragments = fragments.concat(fragmentHint); endSN = fragmentHint.sn; } var frag; if (bufferEnd < end) { var lookupTolerance = bufferEnd > end - tolerance ? 0 : tolerance; // Remove the tolerance if it would put the bufferEnd past the actual end of stream // Uses buffer and sequence number to calculate switch segment (required if using EXT-X-DISCONTINUITY-SEQUENCE) frag = findFragmentByPTS(fragPrevious, fragments, bufferEnd, lookupTolerance); } else { // reach end of playlist frag = fragments[fragments.length - 1]; } if (frag) { var curSNIdx = frag.sn - levelDetails.startSN; // Move fragPrevious forward to support forcing the next fragment to load // when the buffer catches up to a previously buffered range. var fragState = this.fragmentTracker.getState(frag); if (fragState === FragmentState.OK || fragState === FragmentState.PARTIAL && frag.gap) { fragPrevious = frag; } if (fragPrevious && frag.sn === fragPrevious.sn && (!loadingParts || partList[0].fragment.sn > frag.sn)) { // Force the next fragment to load if the previous one was already selected. This can occasionally happen with // non-uniform fragment durations var sameLevel = fragPrevious && frag.level === fragPrevious.level; if (sameLevel) { var nextFrag = fragments[curSNIdx + 1]; if (frag.sn < endSN && this.fragmentTracker.getState(nextFrag) !== FragmentState.OK) { frag = nextFrag; } else { frag = null; } } } } return frag; }; _proto.synchronizeToLiveEdge = function synchronizeToLiveEdge(levelDetails) { var config = this.config, media = this.media; if (!media) { return; } var liveSyncPosition = this.hls.liveSyncPosition; var currentTime = media.currentTime; var start = levelDetails.fragments[0].start; var end = levelDetails.edge; var withinSlidingWindow = currentTime >= start - config.maxFragLookUpTolerance && currentTime <= end; // Continue if we can seek forward to sync position or if current time is outside of sliding window if (liveSyncPosition !== null && media.duration > liveSyncPosition && (currentTime < liveSyncPosition || !withinSlidingWindow)) { // Continue if buffer is starving or if current time is behind max latency var maxLatency = config.liveMaxLatencyDuration !== undefined ? config.liveMaxLatencyDuration : config.liveMaxLatencyDurationCount * levelDetails.targetduration; if (!withinSlidingWindow && media.readyState < 4 || currentTime < end - maxLatency) { if (!this.loadedmetadata) { this.nextLoadPosition = liveSyncPosition; } // Only seek if ready and there is not a significant forward buffer available for playback if (media.readyState) { this.warn("Playback: " + currentTime.toFixed(3) + " is located too far from the end of live sliding playlist: " + end + ", reset currentTime to : " + liveSyncPosition.toFixed(3)); media.currentTime = liveSyncPosition; } } } }; _proto.alignPlaylists = function alignPlaylists(details, previousDetails) { var levels = this.levels, levelLastLoaded = this.levelLastLoaded, fragPrevious = this.fragPrevious; var lastLevel = levelLastLoaded !== null ? levels[levelLastLoaded] : null; // FIXME: If not for `shouldAlignOnDiscontinuities` requiring fragPrevious.cc, // this could all go in level-helper mergeDetails() var length = details.fragments.length; if (!length) { this.warn("No fragments in live playlist"); return 0; } var slidingStart = details.fragments[0].start; var firstLevelLoad = !previousDetails; var aligned = details.alignedSliding && isFiniteNumber(slidingStart); if (firstLevelLoad || !aligned && !slidingStart) { alignStream(fragPrevious, lastLevel, details); var alignedSlidingStart = details.fragments[0].start; this.log("Live playlist sliding: " + alignedSlidingStart.toFixed(2) + " start-sn: " + (previousDetails ? previousDetails.startSN : 'na') + "->" + details.startSN + " prev-sn: " + (fragPrevious ? fragPrevious.sn : 'na') + " fragments: " + length); return alignedSlidingStart; } return slidingStart; }; _proto.waitForCdnTuneIn = function waitForCdnTuneIn(details) { // Wait for Low-Latency CDN Tune-in to get an updated playlist var advancePartLimit = 3; return details.live && details.canBlockReload && details.partTarget && details.tuneInGoal > Math.max(details.partHoldBack, details.partTarget * advancePartLimit); }; _proto.setStartPosition = function setStartPosition(details, sliding) { // compute start position if set to -1. use it straight away if value is defined var startPosition = this.startPosition; if (startPosition < sliding) { startPosition = -1; } if (startPosition === -1 || this.lastCurrentTime === -1) { // Use Playlist EXT-X-START:TIME-OFFSET when set // Prioritize Multivariant Playlist offset so that main, audio, and subtitle stream-controller start times match var offsetInMultivariantPlaylist = this.startTimeOffset !== null; var startTimeOffset = offsetInMultivariantPlaylist ? this.startTimeOffset : details.startTimeOffset; if (startTimeOffset !== null && isFiniteNumber(startTimeOffset)) { startPosition = sliding + startTimeOffset; if (startTimeOffset < 0) { startPosition += details.totalduration; } startPosition = Math.min(Math.max(sliding, startPosition), sliding + details.totalduration); this.log("Start time offset " + startTimeOffset + " found in " + (offsetInMultivariantPlaylist ? 'multivariant' : 'media') + " playlist, adjust startPosition to " + startPosition); this.startPosition = startPosition; } else if (details.live) { // Leave this.startPosition at -1, so that we can use `getInitialLiveFragment` logic when startPosition has // not been specified via the config or an as an argument to startLoad (#3736). startPosition = this.hls.liveSyncPosition || sliding; } else { this.startPosition = startPosition = 0; } this.lastCurrentTime = startPosition; } this.nextLoadPosition = startPosition; }; _proto.getLoadPosition = function getLoadPosition() { var media = this.media; // if we have not yet loaded any fragment, start loading from start position var pos = 0; if (this.loadedmetadata && media) { pos = media.currentTime; } else if (this.nextLoadPosition) { pos = this.nextLoadPosition; } return pos; }; _proto.handleFragLoadAborted = function handleFragLoadAborted(frag, part) { if (this.transmuxer && frag.sn !== 'initSegment' && frag.stats.aborted) { this.warn("Fragment " + frag.sn + (part ? ' part ' + part.index : '') + " of level " + frag.level + " was aborted"); this.resetFragmentLoading(frag); } }; _proto.resetFragmentLoading = function resetFragmentLoading(frag) { if (!this.fragCurrent || !this.fragContextChanged(frag) && this.state !== State.FRAG_LOADING_WAITING_RETRY) { this.state = State.IDLE; } }; _proto.onFragmentOrKeyLoadError = function onFragmentOrKeyLoadError(filterType, data) { if (data.chunkMeta && !data.frag) { var context = this.getCurrentContext(data.chunkMeta); if (context) { data.frag = context.frag; } } var frag = data.frag; // Handle frag error related to caller's filterType if (!frag || frag.type !== filterType || !this.levels) { return; } if (this.fragContextChanged(frag)) { var _this$fragCurrent2; this.warn("Frag load error must match current frag to retry " + frag.url + " > " + ((_this$fragCurrent2 = this.fragCurrent) == null ? void 0 : _this$fragCurrent2.url)); return; } var gapTagEncountered = data.details === ErrorDetails.FRAG_GAP; if (gapTagEncountered) { this.fragmentTracker.fragBuffered(frag, true); } // keep retrying until the limit will be reached var errorAction = data.errorAction; var _ref2 = errorAction || {}, action = _ref2.action, _ref2$retryCount = _ref2.retryCount, retryCount = _ref2$retryCount === void 0 ? 0 : _ref2$retryCount, retryConfig = _ref2.retryConfig; if (errorAction && action === NetworkErrorAction.RetryRequest && retryConfig) { var _this$levelLastLoaded; this.resetStartWhenNotLoaded((_this$levelLastLoaded = this.levelLastLoaded) != null ? _this$levelLastLoaded : frag.level); var delay = getRetryDelay(retryConfig, retryCount); this.warn("Fragment " + frag.sn + " of " + filterType + " " + frag.level + " errored with " + data.details + ", retrying loading " + (retryCount + 1) + "/" + retryConfig.maxNumRetry + " in " + delay + "ms"); errorAction.resolved = true; this.retryDate = self.performance.now() + delay; this.state = State.FRAG_LOADING_WAITING_RETRY; } else if (retryConfig && errorAction) { this.resetFragmentErrors(filterType); if (retryCount < retryConfig.maxNumRetry) { // Network retry is skipped when level switch is preferred if (!gapTagEncountered) { errorAction.resolved = true; } } else { logger.warn(data.details + " reached or exceeded max retry (" + retryCount + ")"); } } else if ((errorAction == null ? void 0 : errorAction.action) === NetworkErrorAction.SendAlternateToPenaltyBox) { this.state = State.WAITING_LEVEL; } else { this.state = State.ERROR; } // Perform next async tick sooner to speed up error action resolution this.tickImmediate(); }; _proto.reduceLengthAndFlushBuffer = function reduceLengthAndFlushBuffer(data) { // if in appending state if (this.state === State.PARSING || this.state === State.PARSED) { var playlistType = data.parent; var bufferedInfo = this.getFwdBufferInfo(this.mediaBuffer, playlistType); // 0.5 : tolerance needed as some browsers stalls playback before reaching buffered end // reduce max buf len if current position is buffered var buffered = bufferedInfo && bufferedInfo.len > 0.5; if (buffered) { this.reduceMaxBufferLength(bufferedInfo.len); } var flushBuffer = !buffered; if (flushBuffer) { // current position is not buffered, but browser is still complaining about buffer full error // this happens on IE/Edge, refer to https://github.com/video-dev/hls.js/pull/708 // in that case flush the whole audio buffer to recover this.warn("Buffer full error while media.currentTime is not buffered, flush " + playlistType + " buffer"); } if (data.frag) { this.fragmentTracker.removeFragment(data.frag); this.nextLoadPosition = data.frag.start; } this.resetLoadingState(); return flushBuffer; } return false; }; _proto.resetFragmentErrors = function resetFragmentErrors(filterType) { if (filterType === PlaylistLevelType.AUDIO) { // Reset current fragment since audio track audio is essential and may not have a fail-over track this.fragCurrent = null; } // Fragment errors that result in a level switch or redundant fail-over // should reset the stream controller state to idle if (!this.loadedmetadata) { this.startFragRequested = false; } if (this.state !== State.STOPPED) { this.state = State.IDLE; } }; _proto.afterBufferFlushed = function afterBufferFlushed(media, bufferType, playlistType) { if (!media) { return; } // After successful buffer flushing, filter flushed fragments from bufferedFrags use mediaBuffered instead of media // (so that we will check against video.buffered ranges in case of alt audio track) var bufferedTimeRanges = BufferHelper.getBuffered(media); this.fragmentTracker.detectEvictedFragments(bufferType, bufferedTimeRanges, playlistType); if (this.state === State.ENDED) { this.resetLoadingState(); } }; _proto.resetLoadingState = function resetLoadingState() { this.log('Reset loading state'); this.fragCurrent = null; this.fragPrevious = null; this.state = State.IDLE; }; _proto.resetStartWhenNotLoaded = function resetStartWhenNotLoaded(level) { // if loadedmetadata is not set, it means that first frag request failed // in that case, reset startFragRequested flag if (!this.loadedmetadata) { this.startFragRequested = false; var details = this.levels ? this.levels[level].details : null; if (details != null && details.live) { // Update the start position and return to IDLE to recover live start this.startPosition = -1; this.setStartPosition(details, 0); this.resetLoadingState(); } else { this.nextLoadPosition = this.startPosition; } } }; _proto.resetWhenMissingContext = function resetWhenMissingContext(chunkMeta) { var _this$levelLastLoaded2; this.warn("The loading context changed while buffering fragment " + chunkMeta.sn + " of level " + chunkMeta.level + ". This chunk will not be buffered."); this.removeUnbufferedFrags(); this.resetStartWhenNotLoaded((_this$levelLastLoaded2 = this.levelLastLoaded) != null ? _this$levelLastLoaded2 : chunkMeta.level); this.resetLoadingState(); }; _proto.removeUnbufferedFrags = function removeUnbufferedFrags(start) { if (start === void 0) { start = 0; } this.fragmentTracker.removeFragmentsInRange(start, Infinity, this.playlistType, false, true); }; _proto.updateLevelTiming = function updateLevelTiming(frag, part, level, partial) { var _this6 = this, _this$transmuxer; var details = level.details; if (!details) { this.warn('level.details undefined'); return; } var parsed = Object.keys(frag.elementaryStreams).reduce(function (result, type) { var info = frag.elementaryStreams[type]; if (info) { var parsedDuration = info.endPTS - info.startPTS; if (parsedDuration <= 0) { // Destroy the transmuxer after it's next time offset failed to advance because duration was <= 0. // The new transmuxer will be configured with a time offset matching the next fragment start, // preventing the timeline from shifting. _this6.warn("Could not parse fragment " + frag.sn + " " + type + " duration reliably (" + parsedDuration + ")"); return result || false; } var drift = partial ? 0 : updateFragPTSDTS(details, frag, info.startPTS, info.endPTS, info.startDTS, info.endDTS); _this6.hls.trigger(Events.LEVEL_PTS_UPDATED, { details: details, level: level, drift: drift, type: type, frag: frag, start: info.startPTS, end: info.endPTS }); return true; } return result; }, false); if (parsed) { level.fragmentError = 0; } else if (((_this$transmuxer = this.transmuxer) == null ? void 0 : _this$transmuxer.error) === null) { var error = new Error("Found no media in fragment " + frag.sn + " of level " + frag.level + " resetting transmuxer to fallback to playlist timing"); if (level.fragmentError === 0) { // Mark and track the odd empty segment as a gap to avoid reloading level.fragmentError++; frag.gap = true; this.fragmentTracker.removeFragment(frag); this.fragmentTracker.fragBuffered(frag, true); } this.warn(error.message); this.hls.trigger(Events.ERROR, { type: ErrorTypes.MEDIA_ERROR, details: ErrorDetails.FRAG_PARSING_ERROR, fatal: false, error: error, frag: frag, reason: "Found no media in msn " + frag.sn + " of level \"" + level.url + "\"" }); if (!this.hls) { return; } this.resetTransmuxer(); // For this error fallthrough. Marking parsed will allow advancing to next fragment. } this.state = State.PARSED; this.hls.trigger(Events.FRAG_PARSED, { frag: frag, part: part }); }; _proto.resetTransmuxer = function resetTransmuxer() { if (this.transmuxer) { this.transmuxer.destroy(); this.transmuxer = null; } }; _proto.recoverWorkerError = function recoverWorkerError(data) { if (data.event === 'demuxerWorker') { var _ref3, _this$levelLastLoaded3, _this$fragCurrent3; this.fragmentTracker.removeAllFragments(); this.resetTransmuxer(); this.resetStartWhenNotLoaded((_ref3 = (_this$levelLastLoaded3 = this.levelLastLoaded) != null ? _this$levelLastLoaded3 : (_this$fragCurrent3 = this.fragCurrent) == null ? void 0 : _this$fragCurrent3.level) != null ? _ref3 : 0); this.resetLoadingState(); } }; _createClass(BaseStreamController, [{ key: "state", get: function get() { return this._state; }, set: function set(nextState) { var previousState = this._state; if (previousState !== nextState) { this._state = nextState; this.log(previousState + "->" + nextState); } } }]); return BaseStreamController; }(TaskLoop); function getSourceBuffer() { return self.SourceBuffer || self.WebKitSourceBuffer; } /** * @ignore */ function isSupported() { var mediaSource = getMediaSource(); if (!mediaSource) { return false; } var sourceBuffer = getSourceBuffer(); var isTypeSupported = mediaSource && typeof mediaSource.isTypeSupported === 'function' && mediaSource.isTypeSupported('video/mp4; codecs="avc1.42E01E,mp4a.40.2"'); // if SourceBuffer is exposed ensure its API is valid // Older browsers do not expose SourceBuffer globally so checking SourceBuffer.prototype is impossible var sourceBufferValidAPI = !sourceBuffer || sourceBuffer.prototype && typeof sourceBuffer.prototype.appendBuffer === 'function' && typeof sourceBuffer.prototype.remove === 'function'; return !!isTypeSupported && !!sourceBufferValidAPI; } /** * @ignore */ function changeTypeSupported() { var _sourceBuffer$prototy; var sourceBuffer = getSourceBuffer(); return typeof (sourceBuffer == null ? void 0 : (_sourceBuffer$prototy = sourceBuffer.prototype) == null ? void 0 : _sourceBuffer$prototy.changeType) === 'function'; } function dummyTrack(type, inputTimeScale) { if (type === void 0) { type = ''; } if (inputTimeScale === void 0) { inputTimeScale = 90000; } return { type: type, id: -1, pid: -1, inputTimeScale: inputTimeScale, sequenceNumber: -1, samples: [], dropped: 0 }; } var BaseAudioDemuxer = /*#__PURE__*/function () { function BaseAudioDemuxer() { this._audioTrack = void 0; this._id3Track = void 0; this.frameIndex = 0; this.cachedData = null; this.basePTS = null; this.initPTS = null; this.lastPTS = null; } var _proto = BaseAudioDemuxer.prototype; _proto.resetInitSegment = function resetInitSegment(initSegment, audioCodec, videoCodec, trackDuration) { this._id3Track = { type: 'id3', id: 3, pid: -1, inputTimeScale: 90000, sequenceNumber: 0, samples: [], dropped: 0 }; }; _proto.resetTimeStamp = function resetTimeStamp(deaultTimestamp) { this.initPTS = deaultTimestamp; this.resetContiguity(); }; _proto.resetContiguity = function resetContiguity() { this.basePTS = null; this.lastPTS = null; this.frameIndex = 0; }; _proto.canParse = function canParse(data, offset) { return false; }; _proto.appendFrame = function appendFrame(track, data, offset) {} // feed incoming data to the front of the parsing pipeline ; _proto.demux = function demux(data, timeOffset) { if (this.cachedData) { data = appendUint8Array(this.cachedData, data); this.cachedData = null; } var id3Data = getID3Data(data, 0); var offset = id3Data ? id3Data.length : 0; var lastDataIndex; var track = this._audioTrack; var id3Track = this._id3Track; var timestamp = id3Data ? getTimeStamp(id3Data) : undefined; var length = data.length; if (this.basePTS === null || this.frameIndex === 0 && isFiniteNumber(timestamp)) { this.basePTS = initPTSFn(timestamp, timeOffset, this.initPTS); this.lastPTS = this.basePTS; } if (this.lastPTS === null) { this.lastPTS = this.basePTS; } // more expressive than alternative: id3Data?.length if (id3Data && id3Data.length > 0) { id3Track.samples.push({ pts: this.lastPTS, dts: this.lastPTS, data: id3Data, type: MetadataSchema.audioId3, duration: Number.POSITIVE_INFINITY }); } while (offset < length) { if (this.canParse(data, offset)) { var frame = this.appendFrame(track, data, offset); if (frame) { this.frameIndex++; this.lastPTS = frame.sample.pts; offset += frame.length; lastDataIndex = offset; } else { offset = length; } } else if (canParse$2(data, offset)) { // after a ID3.canParse, a call to ID3.getID3Data *should* always returns some data id3Data = getID3Data(data, offset); id3Track.samples.push({ pts: this.lastPTS, dts: this.lastPTS, data: id3Data, type: MetadataSchema.audioId3, duration: Number.POSITIVE_INFINITY }); offset += id3Data.length; lastDataIndex = offset; } else { offset++; } if (offset === length && lastDataIndex !== length) { var partialData = sliceUint8(data, lastDataIndex); if (this.cachedData) { this.cachedData = appendUint8Array(this.cachedData, partialData); } else { this.cachedData = partialData; } } } return { audioTrack: track, videoTrack: dummyTrack(), id3Track: id3Track, textTrack: dummyTrack() }; }; _proto.demuxSampleAes = function demuxSampleAes(data, keyData, timeOffset) { return Promise.reject(new Error("[" + this + "] This demuxer does not support Sample-AES decryption")); }; _proto.flush = function flush(timeOffset) { // Parse cache in case of remaining frames. var cachedData = this.cachedData; if (cachedData) { this.cachedData = null; this.demux(cachedData, 0); } return { audioTrack: this._audioTrack, videoTrack: dummyTrack(), id3Track: this._id3Track, textTrack: dummyTrack() }; }; _proto.destroy = function destroy() {}; return BaseAudioDemuxer; }(); /** * Initialize PTS * <p> * use timestamp unless it is undefined, NaN or Infinity * </p> */ var initPTSFn = function initPTSFn(timestamp, timeOffset, initPTS) { if (isFiniteNumber(timestamp)) { return timestamp * 90; } var init90kHz = initPTS ? initPTS.baseTime * 90000 / initPTS.timescale : 0; return timeOffset * 90000 + init90kHz; }; /** * ADTS parser helper * @link https://wiki.multimedia.cx/index.php?title=ADTS */ function getAudioConfig(observer, data, offset, audioCodec) { var adtsObjectType; var adtsExtensionSamplingIndex; var adtsChannelConfig; var config; var userAgent = navigator.userAgent.toLowerCase(); var manifestCodec = audioCodec; var adtsSamplingRates = [96000, 88200, 64000, 48000, 44100, 32000, 24000, 22050, 16000, 12000, 11025, 8000, 7350]; // byte 2 adtsObjectType = ((data[offset + 2] & 0xc0) >>> 6) + 1; var adtsSamplingIndex = (data[offset + 2] & 0x3c) >>> 2; if (adtsSamplingIndex > adtsSamplingRates.length - 1) { observer.trigger(Events.ERROR, { type: ErrorTypes.MEDIA_ERROR, details: ErrorDetails.FRAG_PARSING_ERROR, fatal: true, reason: "invalid ADTS sampling index:" + adtsSamplingIndex }); return; } adtsChannelConfig = (data[offset + 2] & 0x01) << 2; // byte 3 adtsChannelConfig |= (data[offset + 3] & 0xc0) >>> 6; logger.log("manifest codec:" + audioCodec + ", ADTS type:" + adtsObjectType + ", samplingIndex:" + adtsSamplingIndex); // firefox: freq less than 24kHz = AAC SBR (HE-AAC) if (/firefox/i.test(userAgent)) { if (adtsSamplingIndex >= 6) { adtsObjectType = 5; config = new Array(4); // HE-AAC uses SBR (Spectral Band Replication) , high frequencies are constructed from low frequencies // there is a factor 2 between frame sample rate and output sample rate // multiply frequency by 2 (see table below, equivalent to substract 3) adtsExtensionSamplingIndex = adtsSamplingIndex - 3; } else { adtsObjectType = 2; config = new Array(2); adtsExtensionSamplingIndex = adtsSamplingIndex; } // Android : always use AAC } else if (userAgent.indexOf('android') !== -1) { adtsObjectType = 2; config = new Array(2); adtsExtensionSamplingIndex = adtsSamplingIndex; } else { /* for other browsers (Chrome/Vivaldi/Opera ...) always force audio type to be HE-AAC SBR, as some browsers do not support audio codec switch properly (like Chrome ...) */ adtsObjectType = 5; config = new Array(4); // if (manifest codec is HE-AAC or HE-AACv2) OR (manifest codec not specified AND frequency less than 24kHz) if (audioCodec && (audioCodec.indexOf('mp4a.40.29') !== -1 || audioCodec.indexOf('mp4a.40.5') !== -1) || !audioCodec && adtsSamplingIndex >= 6) { // HE-AAC uses SBR (Spectral Band Replication) , high frequencies are constructed from low frequencies // there is a factor 2 between frame sample rate and output sample rate // multiply frequency by 2 (see table below, equivalent to substract 3) adtsExtensionSamplingIndex = adtsSamplingIndex - 3; } else { // if (manifest codec is AAC) AND (frequency less than 24kHz AND nb channel is 1) OR (manifest codec not specified and mono audio) // Chrome fails to play back with low frequency AAC LC mono when initialized with HE-AAC. This is not a problem with stereo. if (audioCodec && audioCodec.indexOf('mp4a.40.2') !== -1 && (adtsSamplingIndex >= 6 && adtsChannelConfig === 1 || /vivaldi/i.test(userAgent)) || !audioCodec && adtsChannelConfig === 1) { adtsObjectType = 2; config = new Array(2); } adtsExtensionSamplingIndex = adtsSamplingIndex; } } /* refer to http://wiki.multimedia.cx/index.php?title=MPEG-4_Audio#Audio_Specific_Config ISO 14496-3 (AAC).pdf - Table 1.13 — Syntax of AudioSpecificConfig() Audio Profile / Audio Object Type 0: Null 1: AAC Main 2: AAC LC (Low Complexity) 3: AAC SSR (Scalable Sample Rate) 4: AAC LTP (Long Term Prediction) 5: SBR (Spectral Band Replication) 6: AAC Scalable sampling freq 0: 96000 Hz 1: 88200 Hz 2: 64000 Hz 3: 48000 Hz 4: 44100 Hz 5: 32000 Hz 6: 24000 Hz 7: 22050 Hz 8: 16000 Hz 9: 12000 Hz 10: 11025 Hz 11: 8000 Hz 12: 7350 Hz 13: Reserved 14: Reserved 15: frequency is written explictly Channel Configurations These are the channel configurations: 0: Defined in AOT Specifc Config 1: 1 channel: front-center 2: 2 channels: front-left, front-right */ // audioObjectType = profile => profile, the MPEG-4 Audio Object Type minus 1 config[0] = adtsObjectType << 3; // samplingFrequencyIndex config[0] |= (adtsSamplingIndex & 0x0e) >> 1; config[1] |= (adtsSamplingIndex & 0x01) << 7; // channelConfiguration config[1] |= adtsChannelConfig << 3; if (adtsObjectType === 5) { // adtsExtensionSamplingIndex config[1] |= (adtsExtensionSamplingIndex & 0x0e) >> 1; config[2] = (adtsExtensionSamplingIndex & 0x01) << 7; // adtsObjectType (force to 2, chrome is checking that object type is less than 5 ??? // https://chromium.googlesource.com/chromium/src.git/+/master/media/formats/mp4/aac.cc config[2] |= 2 << 2; config[3] = 0; } return { config: config, samplerate: adtsSamplingRates[adtsSamplingIndex], channelCount: adtsChannelConfig, codec: 'mp4a.40.' + adtsObjectType, manifestCodec: manifestCodec }; } function isHeaderPattern$1(data, offset) { return data[offset] === 0xff && (data[offset + 1] & 0xf6) === 0xf0; } function getHeaderLength(data, offset) { return data[offset + 1] & 0x01 ? 7 : 9; } function getFullFrameLength(data, offset) { return (data[offset + 3] & 0x03) << 11 | data[offset + 4] << 3 | (data[offset + 5] & 0xe0) >>> 5; } function canGetFrameLength(data, offset) { return offset + 5 < data.length; } function isHeader$1(data, offset) { // Look for ADTS header | 1111 1111 | 1111 X00X | where X can be either 0 or 1 // Layer bits (position 14 and 15) in header should be always 0 for ADTS // More info https://wiki.multimedia.cx/index.php?title=ADTS return offset + 1 < data.length && isHeaderPattern$1(data, offset); } function canParse$1(data, offset) { return canGetFrameLength(data, offset) && isHeaderPattern$1(data, offset) && getFullFrameLength(data, offset) <= data.length - offset; } function probe$1(data, offset) { // same as isHeader but we also check that ADTS frame follows last ADTS frame // or end of data is reached if (isHeader$1(data, offset)) { // ADTS header Length var headerLength = getHeaderLength(data, offset); if (offset + headerLength >= data.length) { return false; } // ADTS frame Length var frameLength = getFullFrameLength(data, offset); if (frameLength <= headerLength) { return false; } var newOffset = offset + frameLength; return newOffset === data.length || isHeader$1(data, newOffset); } return false; } function initTrackConfig(track, observer, data, offset, audioCodec) { if (!track.samplerate) { var config = getAudioConfig(observer, data, offset, audioCodec); if (!config) { return; } track.config = config.config; track.samplerate = config.samplerate; track.channelCount = config.channelCount; track.codec = config.codec; track.manifestCodec = config.manifestCodec; logger.log("parsed codec:" + track.codec + ", rate:" + config.samplerate + ", channels:" + config.channelCount); } } function getFrameDuration(samplerate) { return 1024 * 90000 / samplerate; } function parseFrameHeader(data, offset) { // The protection skip bit tells us if we have 2 bytes of CRC data at the end of the ADTS header var headerLength = getHeaderLength(data, offset); if (offset + headerLength <= data.length) { // retrieve frame size var frameLength = getFullFrameLength(data, offset) - headerLength; if (frameLength > 0) { // logger.log(`AAC frame, offset/length/total/pts:${offset+headerLength}/${frameLength}/${data.byteLength}`); return { headerLength: headerLength, frameLength: frameLength }; } } } function appendFrame$1(track, data, offset, pts, frameIndex) { var frameDuration = getFrameDuration(track.samplerate); var stamp = pts + frameIndex * frameDuration; var header = parseFrameHeader(data, offset); var unit; if (header) { var frameLength = header.frameLength, headerLength = header.headerLength; var _length = headerLength + frameLength; var missing = Math.max(0, offset + _length - data.length); // logger.log(`AAC frame ${frameIndex}, pts:${stamp} length@offset/total: ${frameLength}@${offset+headerLength}/${data.byteLength} missing: ${missing}`); if (missing) { unit = new Uint8Array(_length - headerLength); unit.set(data.subarray(offset + headerLength, data.length), 0); } else { unit = data.subarray(offset + headerLength, offset + _length); } var _sample = { unit: unit, pts: stamp }; if (!missing) { track.samples.push(_sample); } return { sample: _sample, length: _length, missing: missing }; } // overflow incomplete header var length = data.length - offset; unit = new Uint8Array(length); unit.set(data.subarray(offset, data.length), 0); var sample = { unit: unit, pts: stamp }; return { sample: sample, length: length, missing: -1 }; } var AACDemuxer = /*#__PURE__*/function (_BaseAudioDemuxer) { _inheritsLoose(AACDemuxer, _BaseAudioDemuxer); function AACDemuxer(observer, config) { var _this; _this = _BaseAudioDemuxer.call(this) || this; _this.observer = void 0; _this.config = void 0; _this.observer = observer; _this.config = config; return _this; } var _proto = AACDemuxer.prototype; _proto.resetInitSegment = function resetInitSegment(initSegment, audioCodec, videoCodec, trackDuration) { _BaseAudioDemuxer.prototype.resetInitSegment.call(this, initSegment, audioCodec, videoCodec, trackDuration); this._audioTrack = { container: 'audio/adts', type: 'audio', id: 2, pid: -1, sequenceNumber: 0, segmentCodec: 'aac', samples: [], manifestCodec: audioCodec, duration: trackDuration, inputTimeScale: 90000, dropped: 0 }; } // Source for probe info - https://wiki.multimedia.cx/index.php?title=ADTS ; AACDemuxer.probe = function probe(data) { if (!data) { return false; } // Check for the ADTS sync word // Look for ADTS header | 1111 1111 | 1111 X00X | where X can be either 0 or 1 // Layer bits (position 14 and 15) in header should be always 0 for ADTS // More info https://wiki.multimedia.cx/index.php?title=ADTS var id3Data = getID3Data(data, 0) || []; var offset = id3Data.length; for (var length = data.length; offset < length; offset++) { if (probe$1(data, offset)) { logger.log('ADTS sync word found !'); return true; } } return false; }; _proto.canParse = function canParse(data, offset) { return canParse$1(data, offset); }; _proto.appendFrame = function appendFrame(track, data, offset) { initTrackConfig(track, this.observer, data, offset, track.manifestCodec); var frame = appendFrame$1(track, data, offset, this.basePTS, this.frameIndex); if (frame && frame.missing === 0) { return frame; } }; return AACDemuxer; }(BaseAudioDemuxer); var emsgSchemePattern = /\/emsg[-/]ID3/i; var MP4Demuxer = /*#__PURE__*/function () { function MP4Demuxer(observer, config) { this.remainderData = null; this.timeOffset = 0; this.config = void 0; this.videoTrack = void 0; this.audioTrack = void 0; this.id3Track = void 0; this.txtTrack = void 0; this.config = config; } var _proto = MP4Demuxer.prototype; _proto.resetTimeStamp = function resetTimeStamp() {}; _proto.resetInitSegment = function resetInitSegment(initSegment, audioCodec, videoCodec, trackDuration) { var videoTrack = this.videoTrack = dummyTrack('video', 1); var audioTrack = this.audioTrack = dummyTrack('audio', 1); var captionTrack = this.txtTrack = dummyTrack('text', 1); this.id3Track = dummyTrack('id3', 1); this.timeOffset = 0; if (!(initSegment != null && initSegment.byteLength)) { return; } var initData = parseInitSegment(initSegment); if (initData.video) { var _initData$video = initData.video, id = _initData$video.id, timescale = _initData$video.timescale, codec = _initData$video.codec; videoTrack.id = id; videoTrack.timescale = captionTrack.timescale = timescale; videoTrack.codec = codec; } if (initData.audio) { var _initData$audio = initData.audio, _id = _initData$audio.id, _timescale = _initData$audio.timescale, _codec = _initData$audio.codec; audioTrack.id = _id; audioTrack.timescale = _timescale; audioTrack.codec = _codec; } captionTrack.id = RemuxerTrackIdConfig.text; videoTrack.sampleDuration = 0; videoTrack.duration = audioTrack.duration = trackDuration; }; _proto.resetContiguity = function resetContiguity() { this.remainderData = null; }; MP4Demuxer.probe = function probe(data) { // ensure we find a moof box in the first 16 kB data = data.length > 16384 ? data.subarray(0, 16384) : data; return findBox(data, ['moof']).length > 0; }; _proto.demux = function demux(data, timeOffset) { this.timeOffset = timeOffset; // Load all data into the avc track. The CMAF remuxer will look for the data in the samples object; the rest of the fields do not matter var videoSamples = data; var videoTrack = this.videoTrack; var textTrack = this.txtTrack; if (this.config.progressive) { // Split the bytestream into two ranges: one encompassing all data up until the start of the last moof, and everything else. // This is done to guarantee that we're sending valid data to MSE - when demuxing progressively, we have no guarantee // that the fetch loader gives us flush moof+mdat pairs. If we push jagged data to MSE, it will throw an exception. if (this.remainderData) { videoSamples = appendUint8Array(this.remainderData, data); } var segmentedData = segmentValidRange(videoSamples); this.remainderData = segmentedData.remainder; videoTrack.samples = segmentedData.valid || new Uint8Array(); } else { videoTrack.samples = videoSamples; } var id3Track = this.extractID3Track(videoTrack, timeOffset); textTrack.samples = parseSamples(timeOffset, videoTrack); return { videoTrack: videoTrack, audioTrack: this.audioTrack, id3Track: id3Track, textTrack: this.txtTrack }; }; _proto.flush = function flush() { var timeOffset = this.timeOffset; var videoTrack = this.videoTrack; var textTrack = this.txtTrack; videoTrack.samples = this.remainderData || new Uint8Array(); this.remainderData = null; var id3Track = this.extractID3Track(videoTrack, this.timeOffset); textTrack.samples = parseSamples(timeOffset, videoTrack); return { videoTrack: videoTrack, audioTrack: dummyTrack(), id3Track: id3Track, textTrack: dummyTrack() }; }; _proto.extractID3Track = function extractID3Track(videoTrack, timeOffset) { var id3Track = this.id3Track; if (videoTrack.samples.length) { var emsgs = findBox(videoTrack.samples, ['emsg']); if (emsgs) { emsgs.forEach(function (data) { var emsgInfo = parseEmsg(data); if (emsgSchemePattern.test(emsgInfo.schemeIdUri)) { var pts = isFiniteNumber(emsgInfo.presentationTime) ? emsgInfo.presentationTime / emsgInfo.timeScale : timeOffset + emsgInfo.presentationTimeDelta / emsgInfo.timeScale; var duration = emsgInfo.eventDuration === 0xffffffff ? Number.POSITIVE_INFINITY : emsgInfo.eventDuration / emsgInfo.timeScale; // Safari takes anything <= 0.001 seconds and maps it to Infinity if (duration <= 0.001) { duration = Number.POSITIVE_INFINITY; } var payload = emsgInfo.payload; id3Track.samples.push({ data: payload, len: payload.byteLength, dts: pts, pts: pts, type: MetadataSchema.emsg, duration: duration }); } }); } } return id3Track; }; _proto.demuxSampleAes = function demuxSampleAes(data, keyData, timeOffset) { return Promise.reject(new Error('The MP4 demuxer does not support SAMPLE-AES decryption')); }; _proto.destroy = function destroy() {}; return MP4Demuxer; }(); /** * MPEG parser helper */ var chromeVersion$1 = null; var BitratesMap = [32, 64, 96, 128, 160, 192, 224, 256, 288, 320, 352, 384, 416, 448, 32, 48, 56, 64, 80, 96, 112, 128, 160, 192, 224, 256, 320, 384, 32, 40, 48, 56, 64, 80, 96, 112, 128, 160, 192, 224, 256, 320, 32, 48, 56, 64, 80, 96, 112, 128, 144, 160, 176, 192, 224, 256, 8, 16, 24, 32, 40, 48, 56, 64, 80, 96, 112, 128, 144, 160]; var SamplingRateMap = [44100, 48000, 32000, 22050, 24000, 16000, 11025, 12000, 8000]; var SamplesCoefficients = [ // MPEG 2.5 [0, // Reserved 72, // Layer3 144, // Layer2 12 // Layer1 ], // Reserved [0, // Reserved 0, // Layer3 0, // Layer2 0 // Layer1 ], // MPEG 2 [0, // Reserved 72, // Layer3 144, // Layer2 12 // Layer1 ], // MPEG 1 [0, // Reserved 144, // Layer3 144, // Layer2 12 // Layer1 ]]; var BytesInSlot = [0, // Reserved 1, // Layer3 1, // Layer2 4 // Layer1 ]; function appendFrame(track, data, offset, pts, frameIndex) { // Using http://www.datavoyage.com/mpgscript/mpeghdr.htm as a reference if (offset + 24 > data.length) { return; } var header = parseHeader(data, offset); if (header && offset + header.frameLength <= data.length) { var frameDuration = header.samplesPerFrame * 90000 / header.sampleRate; var stamp = pts + frameIndex * frameDuration; var sample = { unit: data.subarray(offset, offset + header.frameLength), pts: stamp, dts: stamp }; track.config = []; track.channelCount = header.channelCount; track.samplerate = header.sampleRate; track.samples.push(sample); return { sample: sample, length: header.frameLength, missing: 0 }; } } function parseHeader(data, offset) { var mpegVersion = data[offset + 1] >> 3 & 3; var mpegLayer = data[offset + 1] >> 1 & 3; var bitRateIndex = data[offset + 2] >> 4 & 15; var sampleRateIndex = data[offset + 2] >> 2 & 3; if (mpegVersion !== 1 && bitRateIndex !== 0 && bitRateIndex !== 15 && sampleRateIndex !== 3) { var paddingBit = data[offset + 2] >> 1 & 1; var channelMode = data[offset + 3] >> 6; var columnInBitrates = mpegVersion === 3 ? 3 - mpegLayer : mpegLayer === 3 ? 3 : 4; var bitRate = BitratesMap[columnInBitrates * 14 + bitRateIndex - 1] * 1000; var columnInSampleRates = mpegVersion === 3 ? 0 : mpegVersion === 2 ? 1 : 2; var sampleRate = SamplingRateMap[columnInSampleRates * 3 + sampleRateIndex]; var channelCount = channelMode === 3 ? 1 : 2; // If bits of channel mode are `11` then it is a single channel (Mono) var sampleCoefficient = SamplesCoefficients[mpegVersion][mpegLayer]; var bytesInSlot = BytesInSlot[mpegLayer]; var samplesPerFrame = sampleCoefficient * 8 * bytesInSlot; var frameLength = Math.floor(sampleCoefficient * bitRate / sampleRate + paddingBit) * bytesInSlot; if (chromeVersion$1 === null) { var userAgent = navigator.userAgent || ''; var result = userAgent.match(/Chrome\/(\d+)/i); chromeVersion$1 = result ? parseInt(result[1]) : 0; } var needChromeFix = !!chromeVersion$1 && chromeVersion$1 <= 87; if (needChromeFix && mpegLayer === 2 && bitRate >= 224000 && channelMode === 0) { // Work around bug in Chromium by setting channelMode to dual-channel (01) instead of stereo (00) data[offset + 3] = data[offset + 3] | 0x80; } return { sampleRate: sampleRate, channelCount: channelCount, frameLength: frameLength, samplesPerFrame: samplesPerFrame }; } } function isHeaderPattern(data, offset) { return data[offset] === 0xff && (data[offset + 1] & 0xe0) === 0xe0 && (data[offset + 1] & 0x06) !== 0x00; } function isHeader(data, offset) { // Look for MPEG header | 1111 1111 | 111X XYZX | where X can be either 0 or 1 and Y or Z should be 1 // Layer bits (position 14 and 15) in header should be always different from 0 (Layer I or Layer II or Layer III) // More info http://www.mp3-tech.org/programmer/frame_header.html return offset + 1 < data.length && isHeaderPattern(data, offset); } function canParse(data, offset) { var headerSize = 4; return isHeaderPattern(data, offset) && headerSize <= data.length - offset; } function probe(data, offset) { // same as isHeader but we also check that MPEG frame follows last MPEG frame // or end of data is reached if (offset + 1 < data.length && isHeaderPattern(data, offset)) { // MPEG header Length var headerLength = 4; // MPEG frame Length var header = parseHeader(data, offset); var frameLength = headerLength; if (header != null && header.frameLength) { frameLength = header.frameLength; } var newOffset = offset + frameLength; return newOffset === data.length || isHeader(data, newOffset); } return false; } /** * Parser for exponential Golomb codes, a variable-bitwidth number encoding scheme used by h264. */ var ExpGolomb = /*#__PURE__*/function () { function ExpGolomb(data) { this.data = void 0; this.bytesAvailable = void 0; this.word = void 0; this.bitsAvailable = void 0; this.data = data; // the number of bytes left to examine in this.data this.bytesAvailable = data.byteLength; // the current word being examined this.word = 0; // :uint // the number of bits left to examine in the current word this.bitsAvailable = 0; // :uint } // ():void var _proto = ExpGolomb.prototype; _proto.loadWord = function loadWord() { var data = this.data; var bytesAvailable = this.bytesAvailable; var position = data.byteLength - bytesAvailable; var workingBytes = new Uint8Array(4); var availableBytes = Math.min(4, bytesAvailable); if (availableBytes === 0) { throw new Error('no bytes available'); } workingBytes.set(data.subarray(position, position + availableBytes)); this.word = new DataView(workingBytes.buffer).getUint32(0); // track the amount of this.data that has been processed this.bitsAvailable = availableBytes * 8; this.bytesAvailable -= availableBytes; } // (count:int):void ; _proto.skipBits = function skipBits(count) { var skipBytes; // :int count = Math.min(count, this.bytesAvailable * 8 + this.bitsAvailable); if (this.bitsAvailable > count) { this.word <<= count; this.bitsAvailable -= count; } else { count -= this.bitsAvailable; skipBytes = count >> 3; count -= skipBytes << 3; this.bytesAvailable -= skipBytes; this.loadWord(); this.word <<= count; this.bitsAvailable -= count; } } // (size:int):uint ; _proto.readBits = function readBits(size) { var bits = Math.min(this.bitsAvailable, size); // :uint var valu = this.word >>> 32 - bits; // :uint if (size > 32) { logger.error('Cannot read more than 32 bits at a time'); } this.bitsAvailable -= bits; if (this.bitsAvailable > 0) { this.word <<= bits; } else if (this.bytesAvailable > 0) { this.loadWord(); } else { throw new Error('no bits available'); } bits = size - bits; if (bits > 0 && this.bitsAvailable) { return valu << bits | this.readBits(bits); } else { return valu; } } // ():uint ; _proto.skipLZ = function skipLZ() { var leadingZeroCount; // :uint for (leadingZeroCount = 0; leadingZeroCount < this.bitsAvailable; ++leadingZeroCount) { if ((this.word & 0x80000000 >>> leadingZeroCount) !== 0) { // the first bit of working word is 1 this.word <<= leadingZeroCount; this.bitsAvailable -= leadingZeroCount; return leadingZeroCount; } } // we exhausted word and still have not found a 1 this.loadWord(); return leadingZeroCount + this.skipLZ(); } // ():void ; _proto.skipUEG = function skipUEG() { this.skipBits(1 + this.skipLZ()); } // ():void ; _proto.skipEG = function skipEG() { this.skipBits(1 + this.skipLZ()); } // ():uint ; _proto.readUEG = function readUEG() { var clz = this.skipLZ(); // :uint return this.readBits(clz + 1) - 1; } // ():int ; _proto.readEG = function readEG() { var valu = this.readUEG(); // :int if (0x01 & valu) { // the number is odd if the low order bit is set return 1 + valu >>> 1; // add 1 to make it even, and divide by 2 } else { return -1 * (valu >>> 1); // divide by two then make it negative } } // Some convenience functions // :Boolean ; _proto.readBoolean = function readBoolean() { return this.readBits(1) === 1; } // ():int ; _proto.readUByte = function readUByte() { return this.readBits(8); } // ():int ; _proto.readUShort = function readUShort() { return this.readBits(16); } // ():int ; _proto.readUInt = function readUInt() { return this.readBits(32); } /** * Advance the ExpGolomb decoder past a scaling list. The scaling * list is optionally transmitted as part of a sequence parameter * set and is not relevant to transmuxing. * @param count the number of entries in this scaling list * @see Recommendation ITU-T H.264, Section 7.3.2.1.1.1 */; _proto.skipScalingList = function skipScalingList(count) { var lastScale = 8; var nextScale = 8; var deltaScale; for (var j = 0; j < count; j++) { if (nextScale !== 0) { deltaScale = this.readEG(); nextScale = (lastScale + deltaScale + 256) % 256; } lastScale = nextScale === 0 ? lastScale : nextScale; } } /** * Read a sequence parameter set and return some interesting video * properties. A sequence parameter set is the H264 metadata that * describes the properties of upcoming video frames. * @returns an object with configuration parsed from the * sequence parameter set, including the dimensions of the * associated video frames. */; _proto.readSPS = function readSPS() { var frameCropLeftOffset = 0; var frameCropRightOffset = 0; var frameCropTopOffset = 0; var frameCropBottomOffset = 0; var numRefFramesInPicOrderCntCycle; var scalingListCount; var i; var readUByte = this.readUByte.bind(this); var readBits = this.readBits.bind(this); var readUEG = this.readUEG.bind(this); var readBoolean = this.readBoolean.bind(this); var skipBits = this.skipBits.bind(this); var skipEG = this.skipEG.bind(this); var skipUEG = this.skipUEG.bind(this); var skipScalingList = this.skipScalingList.bind(this); readUByte(); var profileIdc = readUByte(); // profile_idc readBits(5); // profileCompat constraint_set[0-4]_flag, u(5) skipBits(3); // reserved_zero_3bits u(3), readUByte(); // level_idc u(8) skipUEG(); // seq_parameter_set_id // some profiles have more optional data we don't need if (profileIdc === 100 || profileIdc === 110 || profileIdc === 122 || profileIdc === 244 || profileIdc === 44 || profileIdc === 83 || profileIdc === 86 || profileIdc === 118 || profileIdc === 128) { var chromaFormatIdc = readUEG(); if (chromaFormatIdc === 3) { skipBits(1); } // separate_colour_plane_flag skipUEG(); // bit_depth_luma_minus8 skipUEG(); // bit_depth_chroma_minus8 skipBits(1); // qpprime_y_zero_transform_bypass_flag if (readBoolean()) { // seq_scaling_matrix_present_flag scalingListCount = chromaFormatIdc !== 3 ? 8 : 12; for (i = 0; i < scalingListCount; i++) { if (readBoolean()) { // seq_scaling_list_present_flag[ i ] if (i < 6) { skipScalingList(16); } else { skipScalingList(64); } } } } } skipUEG(); // log2_max_frame_num_minus4 var picOrderCntType = readUEG(); if (picOrderCntType === 0) { readUEG(); // log2_max_pic_order_cnt_lsb_minus4 } else if (picOrderCntType === 1) { skipBits(1); // delta_pic_order_always_zero_flag skipEG(); // offset_for_non_ref_pic skipEG(); // offset_for_top_to_bottom_field numRefFramesInPicOrderCntCycle = readUEG(); for (i = 0; i < numRefFramesInPicOrderCntCycle; i++) { skipEG(); } // offset_for_ref_frame[ i ] } skipUEG(); // max_num_ref_frames skipBits(1); // gaps_in_frame_num_value_allowed_flag var picWidthInMbsMinus1 = readUEG(); var picHeightInMapUnitsMinus1 = readUEG(); var frameMbsOnlyFlag = readBits(1); if (frameMbsOnlyFlag === 0) { skipBits(1); } // mb_adaptive_frame_field_flag skipBits(1); // direct_8x8_inference_flag if (readBoolean()) { // frame_cropping_flag frameCropLeftOffset = readUEG(); frameCropRightOffset = readUEG(); frameCropTopOffset = readUEG(); frameCropBottomOffset = readUEG(); } var pixelRatio = [1, 1]; if (readBoolean()) { // vui_parameters_present_flag if (readBoolean()) { // aspect_ratio_info_present_flag var aspectRatioIdc = readUByte(); switch (aspectRatioIdc) { case 1: pixelRatio = [1, 1]; break; case 2: pixelRatio = [12, 11]; break; case 3: pixelRatio = [10, 11]; break; case 4: pixelRatio = [16, 11]; break; case 5: pixelRatio = [40, 33]; break; case 6: pixelRatio = [24, 11]; break; case 7: pixelRatio = [20, 11]; break; case 8: pixelRatio = [32, 11]; break; case 9: pixelRatio = [80, 33]; break; case 10: pixelRatio = [18, 11]; break; case 11: pixelRatio = [15, 11]; break; case 12: pixelRatio = [64, 33]; break; case 13: pixelRatio = [160, 99]; break; case 14: pixelRatio = [4, 3]; break; case 15: pixelRatio = [3, 2]; break; case 16: pixelRatio = [2, 1]; break; case 255: { pixelRatio = [readUByte() << 8 | readUByte(), readUByte() << 8 | readUByte()]; break; } } } } return { width: Math.ceil((picWidthInMbsMinus1 + 1) * 16 - frameCropLeftOffset * 2 - frameCropRightOffset * 2), height: (2 - frameMbsOnlyFlag) * (picHeightInMapUnitsMinus1 + 1) * 16 - (frameMbsOnlyFlag ? 2 : 4) * (frameCropTopOffset + frameCropBottomOffset), pixelRatio: pixelRatio }; }; _proto.readSliceType = function readSliceType() { // skip NALu type this.readUByte(); // discard first_mb_in_slice this.readUEG(); // return slice_type return this.readUEG(); }; return ExpGolomb; }(); /** * SAMPLE-AES decrypter */ var SampleAesDecrypter = /*#__PURE__*/function () { function SampleAesDecrypter(observer, config, keyData) { this.keyData = void 0; this.decrypter = void 0; this.keyData = keyData; this.decrypter = new Decrypter(config, { removePKCS7Padding: false }); } var _proto = SampleAesDecrypter.prototype; _proto.decryptBuffer = function decryptBuffer(encryptedData) { return this.decrypter.decrypt(encryptedData, this.keyData.key.buffer, this.keyData.iv.buffer); } // AAC - encrypt all full 16 bytes blocks starting from offset 16 ; _proto.decryptAacSample = function decryptAacSample(samples, sampleIndex, callback) { var _this = this; var curUnit = samples[sampleIndex].unit; if (curUnit.length <= 16) { // No encrypted portion in this sample (first 16 bytes is not // encrypted, see https://developer.apple.com/library/archive/documentation/AudioVideo/Conceptual/HLS_Sample_Encryption/Encryption/Encryption.html), return; } var encryptedData = curUnit.subarray(16, curUnit.length - curUnit.length % 16); var encryptedBuffer = encryptedData.buffer.slice(encryptedData.byteOffset, encryptedData.byteOffset + encryptedData.length); this.decryptBuffer(encryptedBuffer).then(function (decryptedBuffer) { var decryptedData = new Uint8Array(decryptedBuffer); curUnit.set(decryptedData, 16); if (!_this.decrypter.isSync()) { _this.decryptAacSamples(samples, sampleIndex + 1, callback); } }); }; _proto.decryptAacSamples = function decryptAacSamples(samples, sampleIndex, callback) { for (;; sampleIndex++) { if (sampleIndex >= samples.length) { callback(); return; } if (samples[sampleIndex].unit.length < 32) { continue; } this.decryptAacSample(samples, sampleIndex, callback); if (!this.decrypter.isSync()) { return; } } } // AVC - encrypt one 16 bytes block out of ten, starting from offset 32 ; _proto.getAvcEncryptedData = function getAvcEncryptedData(decodedData) { var encryptedDataLen = Math.floor((decodedData.length - 48) / 160) * 16 + 16; var encryptedData = new Int8Array(encryptedDataLen); var outputPos = 0; for (var inputPos = 32; inputPos < decodedData.length - 16; inputPos += 160, outputPos += 16) { encryptedData.set(decodedData.subarray(inputPos, inputPos + 16), outputPos); } return encryptedData; }; _proto.getAvcDecryptedUnit = function getAvcDecryptedUnit(decodedData, decryptedData) { var uint8DecryptedData = new Uint8Array(decryptedData); var inputPos = 0; for (var outputPos = 32; outputPos < decodedData.length - 16; outputPos += 160, inputPos += 16) { decodedData.set(uint8DecryptedData.subarray(inputPos, inputPos + 16), outputPos); } return decodedData; }; _proto.decryptAvcSample = function decryptAvcSample(samples, sampleIndex, unitIndex, callback, curUnit) { var _this2 = this; var decodedData = discardEPB(curUnit.data); var encryptedData = this.getAvcEncryptedData(decodedData); this.decryptBuffer(encryptedData.buffer).then(function (decryptedBuffer) { curUnit.data = _this2.getAvcDecryptedUnit(decodedData, decryptedBuffer); if (!_this2.decrypter.isSync()) { _this2.decryptAvcSamples(samples, sampleIndex, unitIndex + 1, callback); } }); }; _proto.decryptAvcSamples = function decryptAvcSamples(samples, sampleIndex, unitIndex, callback) { if (samples instanceof Uint8Array) { throw new Error('Cannot decrypt samples of type Uint8Array'); } for (;; sampleIndex++, unitIndex = 0) { if (sampleIndex >= samples.length) { callback(); return; } var curUnits = samples[sampleIndex].units; for (;; unitIndex++) { if (unitIndex >= curUnits.length) { break; } var curUnit = curUnits[unitIndex]; if (curUnit.data.length <= 48 || curUnit.type !== 1 && curUnit.type !== 5) { continue; } this.decryptAvcSample(samples, sampleIndex, unitIndex, callback, curUnit); if (!this.decrypter.isSync()) { return; } } } }; return SampleAesDecrypter; }(); var PACKET_LENGTH = 188; var TSDemuxer = /*#__PURE__*/function () { function TSDemuxer(observer, config, typeSupported) { this.observer = void 0; this.config = void 0; this.typeSupported = void 0; this.sampleAes = null; this.pmtParsed = false; this.audioCodec = void 0; this.videoCodec = void 0; this._duration = 0; this._pmtId = -1; this._avcTrack = void 0; this._audioTrack = void 0; this._id3Track = void 0; this._txtTrack = void 0; this.aacOverFlow = null; this.avcSample = null; this.remainderData = null; this.observer = observer; this.config = config; this.typeSupported = typeSupported; } TSDemuxer.probe = function probe(data) { var syncOffset = TSDemuxer.syncOffset(data); if (syncOffset > 0) { logger.warn("MPEG2-TS detected but first sync word found @ offset " + syncOffset); } return syncOffset !== -1; }; TSDemuxer.syncOffset = function syncOffset(data) { var length = data.length; var scanwindow = Math.min(PACKET_LENGTH * 5, data.length - PACKET_LENGTH) + 1; var i = 0; while (i < scanwindow) { // a TS init segment should contain at least 2 TS packets: PAT and PMT, each starting with 0x47 var foundPat = false; var packetStart = -1; var tsPackets = 0; for (var j = i; j < length; j += PACKET_LENGTH) { if (data[j] === 0x47) { tsPackets++; if (packetStart === -1) { packetStart = j; // First sync word found at offset, increase scan length (#5251) if (packetStart !== 0) { scanwindow = Math.min(packetStart + PACKET_LENGTH * 99, data.length - PACKET_LENGTH) + 1; } } if (!foundPat) { foundPat = parsePID(data, j) === 0; } // Sync word found at 0 with 3 packets, or found at offset least 2 packets up to scanwindow (#5501) if (foundPat && tsPackets > 1 && (packetStart === 0 && tsPackets > 2 || j + PACKET_LENGTH > scanwindow)) { return packetStart; } } else if (tsPackets) { // Exit if sync word found, but does not contain contiguous packets (#5501) return -1; } else { break; } } i++; } return -1; } /** * Creates a track model internal to demuxer used to drive remuxing input */; TSDemuxer.createTrack = function createTrack(type, duration) { return { container: type === 'video' || type === 'audio' ? 'video/mp2t' : undefined, type: type, id: RemuxerTrackIdConfig[type], pid: -1, inputTimeScale: 90000, sequenceNumber: 0, samples: [], dropped: 0, duration: type === 'audio' ? duration : undefined }; } /** * Initializes a new init segment on the demuxer/remuxer interface. Needed for discontinuities/track-switches (or at stream start) * Resets all internal track instances of the demuxer. */; var _proto = TSDemuxer.prototype; _proto.resetInitSegment = function resetInitSegment(initSegment, audioCodec, videoCodec, trackDuration) { this.pmtParsed = false; this._pmtId = -1; this._avcTrack = TSDemuxer.createTrack('video'); this._audioTrack = TSDemuxer.createTrack('audio', trackDuration); this._id3Track = TSDemuxer.createTrack('id3'); this._txtTrack = TSDemuxer.createTrack('text'); this._audioTrack.segmentCodec = 'aac'; // flush any partial content this.aacOverFlow = null; this.avcSample = null; this.remainderData = null; this.audioCodec = audioCodec; this.videoCodec = videoCodec; this._duration = trackDuration; }; _proto.resetTimeStamp = function resetTimeStamp() {}; _proto.resetContiguity = function resetContiguity() { var _audioTrack = this._audioTrack, _avcTrack = this._avcTrack, _id3Track = this._id3Track; if (_audioTrack) { _audioTrack.pesData = null; } if (_avcTrack) { _avcTrack.pesData = null; } if (_id3Track) { _id3Track.pesData = null; } this.aacOverFlow = null; this.avcSample = null; this.remainderData = null; }; _proto.demux = function demux(data, timeOffset, isSampleAes, flush) { if (isSampleAes === void 0) { isSampleAes = false; } if (flush === void 0) { flush = false; } if (!isSampleAes) { this.sampleAes = null; } var pes; var videoTrack = this._avcTrack; var audioTrack = this._audioTrack; var id3Track = this._id3Track; var textTrack = this._txtTrack; var avcId = videoTrack.pid; var avcData = videoTrack.pesData; var audioId = audioTrack.pid; var id3Id = id3Track.pid; var audioData = audioTrack.pesData; var id3Data = id3Track.pesData; var unknownPID = null; var pmtParsed = this.pmtParsed; var pmtId = this._pmtId; var len = data.length; if (this.remainderData) { data = appendUint8Array(this.remainderData, data); len = data.length; this.remainderData = null; } if (len < PACKET_LENGTH && !flush) { this.remainderData = data; return { audioTrack: audioTrack, videoTrack: videoTrack, id3Track: id3Track, textTrack: textTrack }; } var syncOffset = Math.max(0, TSDemuxer.syncOffset(data)); len -= (len - syncOffset) % PACKET_LENGTH; if (len < data.byteLength && !flush) { this.remainderData = new Uint8Array(data.buffer, len, data.buffer.byteLength - len); } // loop through TS packets var tsPacketErrors = 0; for (var start = syncOffset; start < len; start += PACKET_LENGTH) { if (data[start] === 0x47) { var stt = !!(data[start + 1] & 0x40); var pid = parsePID(data, start); var atf = (data[start + 3] & 0x30) >> 4; // if an adaption field is present, its length is specified by the fifth byte of the TS packet header. var offset = void 0; if (atf > 1) { offset = start + 5 + data[start + 4]; // continue if there is only adaptation field if (offset === start + PACKET_LENGTH) { continue; } } else { offset = start + 4; } switch (pid) { case avcId: if (stt) { if (avcData && (pes = parsePES(avcData))) { this.parseAVCPES(videoTrack, textTrack, pes, false); } avcData = { data: [], size: 0 }; } if (avcData) { avcData.data.push(data.subarray(offset, start + PACKET_LENGTH)); avcData.size += start + PACKET_LENGTH - offset; } break; case audioId: if (stt) { if (audioData && (pes = parsePES(audioData))) { switch (audioTrack.segmentCodec) { case 'aac': this.parseAACPES(audioTrack, pes); break; case 'mp3': this.parseMPEGPES(audioTrack, pes); break; } } audioData = { data: [], size: 0 }; } if (audioData) { audioData.data.push(data.subarray(offset, start + PACKET_LENGTH)); audioData.size += start + PACKET_LENGTH - offset; } break; case id3Id: if (stt) { if (id3Data && (pes = parsePES(id3Data))) { this.parseID3PES(id3Track, pes); } id3Data = { data: [], size: 0 }; } if (id3Data) { id3Data.data.push(data.subarray(offset, start + PACKET_LENGTH)); id3Data.size += start + PACKET_LENGTH - offset; } break; case 0: if (stt) { offset += data[offset] + 1; } pmtId = this._pmtId = parsePAT(data, offset); // logger.log('PMT PID:' + this._pmtId); break; case pmtId: { if (stt) { offset += data[offset] + 1; } var parsedPIDs = parsePMT(data, offset, this.typeSupported, isSampleAes); // only update track id if track PID found while parsing PMT // this is to avoid resetting the PID to -1 in case // track PID transiently disappears from the stream // this could happen in case of transient missing audio samples for example // NOTE this is only the PID of the track as found in TS, // but we are not using this for MP4 track IDs. avcId = parsedPIDs.avc; if (avcId > 0) { videoTrack.pid = avcId; } audioId = parsedPIDs.audio; if (audioId > 0) { audioTrack.pid = audioId; audioTrack.segmentCodec = parsedPIDs.segmentCodec; } id3Id = parsedPIDs.id3; if (id3Id > 0) { id3Track.pid = id3Id; } if (unknownPID !== null && !pmtParsed) { logger.warn("MPEG-TS PMT found at " + start + " after unknown PID '" + unknownPID + "'. Backtracking to sync byte @" + syncOffset + " to parse all TS packets."); unknownPID = null; // we set it to -188, the += 188 in the for loop will reset start to 0 start = syncOffset - 188; } pmtParsed = this.pmtParsed = true; break; } case 0x11: case 0x1fff: break; default: unknownPID = pid; break; } } else { tsPacketErrors++; } } if (tsPacketErrors > 0) { var error = new Error("Found " + tsPacketErrors + " TS packet/s that do not start with 0x47"); this.observer.emit(Events.ERROR, Events.ERROR, { type: ErrorTypes.MEDIA_ERROR, details: ErrorDetails.FRAG_PARSING_ERROR, fatal: false, error: error, reason: error.message }); } videoTrack.pesData = avcData; audioTrack.pesData = audioData; id3Track.pesData = id3Data; var demuxResult = { audioTrack: audioTrack, videoTrack: videoTrack, id3Track: id3Track, textTrack: textTrack }; if (flush) { this.extractRemainingSamples(demuxResult); } return demuxResult; }; _proto.flush = function flush() { var remainderData = this.remainderData; this.remainderData = null; var result; if (remainderData) { result = this.demux(remainderData, -1, false, true); } else { result = { videoTrack: this._avcTrack, audioTrack: this._audioTrack, id3Track: this._id3Track, textTrack: this._txtTrack }; } this.extractRemainingSamples(result); if (this.sampleAes) { return this.decrypt(result, this.sampleAes); } return result; }; _proto.extractRemainingSamples = function extractRemainingSamples(demuxResult) { var audioTrack = demuxResult.audioTrack, videoTrack = demuxResult.videoTrack, id3Track = demuxResult.id3Track, textTrack = demuxResult.textTrack; var avcData = videoTrack.pesData; var audioData = audioTrack.pesData; var id3Data = id3Track.pesData; // try to parse last PES packets var pes; if (avcData && (pes = parsePES(avcData))) { this.parseAVCPES(videoTrack, textTrack, pes, true); videoTrack.pesData = null; } else { // either avcData null or PES truncated, keep it for next frag parsing videoTrack.pesData = avcData; } if (audioData && (pes = parsePES(audioData))) { switch (audioTrack.segmentCodec) { case 'aac': this.parseAACPES(audioTrack, pes); break; case 'mp3': this.parseMPEGPES(audioTrack, pes); break; } audioTrack.pesData = null; } else { if (audioData != null && audioData.size) { logger.log('last AAC PES packet truncated,might overlap between fragments'); } // either audioData null or PES truncated, keep it for next frag parsing audioTrack.pesData = audioData; } if (id3Data && (pes = parsePES(id3Data))) { this.parseID3PES(id3Track, pes); id3Track.pesData = null; } else { // either id3Data null or PES truncated, keep it for next frag parsing id3Track.pesData = id3Data; } }; _proto.demuxSampleAes = function demuxSampleAes(data, keyData, timeOffset) { var demuxResult = this.demux(data, timeOffset, true, !this.config.progressive); var sampleAes = this.sampleAes = new SampleAesDecrypter(this.observer, this.config, keyData); return this.decrypt(demuxResult, sampleAes); }; _proto.decrypt = function decrypt(demuxResult, sampleAes) { return new Promise(function (resolve) { var audioTrack = demuxResult.audioTrack, videoTrack = demuxResult.videoTrack; if (audioTrack.samples && audioTrack.segmentCodec === 'aac') { sampleAes.decryptAacSamples(audioTrack.samples, 0, function () { if (videoTrack.samples) { sampleAes.decryptAvcSamples(videoTrack.samples, 0, 0, function () { resolve(demuxResult); }); } else { resolve(demuxResult); } }); } else if (videoTrack.samples) { sampleAes.decryptAvcSamples(videoTrack.samples, 0, 0, function () { resolve(demuxResult); }); } }); }; _proto.destroy = function destroy() { this._duration = 0; }; _proto.parseAVCPES = function parseAVCPES(track, textTrack, pes, last) { var _this = this; var units = this.parseAVCNALu(track, pes.data); var avcSample = this.avcSample; var push; var spsfound = false; // free pes.data to save up some memory pes.data = null; // if new NAL units found and last sample still there, let's push ... // this helps parsing streams with missing AUD (only do this if AUD never found) if (avcSample && units.length && !track.audFound) { pushAccessUnit(avcSample, track); avcSample = this.avcSample = createAVCSample(false, pes.pts, pes.dts, ''); } units.forEach(function (unit) { var _avcSample2; switch (unit.type) { // NDR case 1: { var iskey = false; push = true; var data = unit.data; // only check slice type to detect KF in case SPS found in same packet (any keyframe is preceded by SPS ...) if (spsfound && data.length > 4) { // retrieve slice type by parsing beginning of NAL unit (follow H264 spec, slice_header definition) to detect keyframe embedded in NDR var sliceType = new ExpGolomb(data).readSliceType(); // 2 : I slice, 4 : SI slice, 7 : I slice, 9: SI slice // SI slice : A slice that is coded using intra prediction only and using quantisation of the prediction samples. // An SI slice can be coded such that its decoded samples can be constructed identically to an SP slice. // I slice: A slice that is not an SI slice that is decoded using intra prediction only. // if (sliceType === 2 || sliceType === 7) { if (sliceType === 2 || sliceType === 4 || sliceType === 7 || sliceType === 9) { iskey = true; } } if (iskey) { var _avcSample; // if we have non-keyframe data already, that cannot belong to the same frame as a keyframe, so force a push if ((_avcSample = avcSample) != null && _avcSample.frame && !avcSample.key) { pushAccessUnit(avcSample, track); avcSample = _this.avcSample = null; } } if (!avcSample) { avcSample = _this.avcSample = createAVCSample(true, pes.pts, pes.dts, ''); } avcSample.frame = true; avcSample.key = iskey; break; // IDR } case 5: push = true; // handle PES not starting with AUD // if we have non-keyframe data already, that cannot belong to the same frame as a keyframe, so force a push if ((_avcSample2 = avcSample) != null && _avcSample2.frame && !avcSample.key) { pushAccessUnit(avcSample, track); avcSample = _this.avcSample = null; } if (!avcSample) { avcSample = _this.avcSample = createAVCSample(true, pes.pts, pes.dts, ''); } avcSample.key = true; avcSample.frame = true; break; // SEI case 6: { push = true; parseSEIMessageFromNALu(unit.data, 1, pes.pts, textTrack.samples); break; // SPS } case 7: push = true; spsfound = true; if (!track.sps) { var sps = unit.data; var expGolombDecoder = new ExpGolomb(sps); var config = expGolombDecoder.readSPS(); track.width = config.width; track.height = config.height; track.pixelRatio = config.pixelRatio; track.sps = [sps]; track.duration = _this._duration; var codecarray = sps.subarray(1, 4); var codecstring = 'avc1.'; for (var i = 0; i < 3; i++) { var h = codecarray[i].toString(16); if (h.length < 2) { h = '0' + h; } codecstring += h; } track.codec = codecstring; } break; // PPS case 8: push = true; if (!track.pps) { track.pps = [unit.data]; } break; // AUD case 9: push = false; track.audFound = true; if (avcSample) { pushAccessUnit(avcSample, track); } avcSample = _this.avcSample = createAVCSample(false, pes.pts, pes.dts, ''); break; // Filler Data case 12: push = true; break; default: push = false; if (avcSample) { avcSample.debug += 'unknown NAL ' + unit.type + ' '; } break; } if (avcSample && push) { var _units = avcSample.units; _units.push(unit); } }); // if last PES packet, push samples if (last && avcSample) { pushAccessUnit(avcSample, track); this.avcSample = null; } }; _proto.getLastNalUnit = function getLastNalUnit(samples) { var _avcSample3; var avcSample = this.avcSample; var lastUnit; // try to fallback to previous sample if current one is empty if (!avcSample || avcSample.units.length === 0) { avcSample = samples[samples.length - 1]; } if ((_avcSample3 = avcSample) != null && _avcSample3.units) { var units = avcSample.units; lastUnit = units[units.length - 1]; } return lastUnit; }; _proto.parseAVCNALu = function parseAVCNALu(track, array) { var len = array.byteLength; var state = track.naluState || 0; var lastState = state; var units = []; var i = 0; var value; var overflow; var unitType; var lastUnitStart = -1; var lastUnitType = 0; // logger.log('PES:' + Hex.hexDump(array)); if (state === -1) { // special use case where we found 3 or 4-byte start codes exactly at the end of previous PES packet lastUnitStart = 0; // NALu type is value read from offset 0 lastUnitType = array[0] & 0x1f; state = 0; i = 1; } while (i < len) { value = array[i++]; // optimization. state 0 and 1 are the predominant case. let's handle them outside of the switch/case if (!state) { state = value ? 0 : 1; continue; } if (state === 1) { state = value ? 0 : 2; continue; } // here we have state either equal to 2 or 3 if (!value) { state = 3; } else if (value === 1) { if (lastUnitStart >= 0) { var unit = { data: array.subarray(lastUnitStart, i - state - 1), type: lastUnitType }; // logger.log('pushing NALU, type/size:' + unit.type + '/' + unit.data.byteLength); units.push(unit); } else { // lastUnitStart is undefined => this is the first start code found in this PES packet // first check if start code delimiter is overlapping between 2 PES packets, // ie it started in last packet (lastState not zero) // and ended at the beginning of this PES packet (i <= 4 - lastState) var lastUnit = this.getLastNalUnit(track.samples); if (lastUnit) { if (lastState && i <= 4 - lastState) { // start delimiter overlapping between PES packets // strip start delimiter bytes from the end of last NAL unit // check if lastUnit had a state different from zero if (lastUnit.state) { // strip last bytes lastUnit.data = lastUnit.data.subarray(0, lastUnit.data.byteLength - lastState); } } // If NAL units are not starting right at the beginning of the PES packet, push preceding data into previous NAL unit. overflow = i - state - 1; if (overflow > 0) { // logger.log('first NALU found with overflow:' + overflow); var tmp = new Uint8Array(lastUnit.data.byteLength + overflow); tmp.set(lastUnit.data, 0); tmp.set(array.subarray(0, overflow), lastUnit.data.byteLength); lastUnit.data = tmp; lastUnit.state = 0; } } } // check if we can read unit type if (i < len) { unitType = array[i] & 0x1f; // logger.log('find NALU @ offset:' + i + ',type:' + unitType); lastUnitStart = i; lastUnitType = unitType; state = 0; } else { // not enough byte to read unit type. let's read it on next PES parsing state = -1; } } else { state = 0; } } if (lastUnitStart >= 0 && state >= 0) { var _unit = { data: array.subarray(lastUnitStart, len), type: lastUnitType, state: state }; units.push(_unit); // logger.log('pushing NALU, type/size/state:' + unit.type + '/' + unit.data.byteLength + '/' + state); } // no NALu found if (units.length === 0) { // append pes.data to previous NAL unit var _lastUnit = this.getLastNalUnit(track.samples); if (_lastUnit) { var _tmp = new Uint8Array(_lastUnit.data.byteLength + array.byteLength); _tmp.set(_lastUnit.data, 0); _tmp.set(array, _lastUnit.data.byteLength); _lastUnit.data = _tmp; } } track.naluState = state; return units; }; _proto.parseAACPES = function parseAACPES(track, pes) { var startOffset = 0; var aacOverFlow = this.aacOverFlow; var data = pes.data; if (aacOverFlow) { this.aacOverFlow = null; var frameMissingBytes = aacOverFlow.missing; var sampleLength = aacOverFlow.sample.unit.byteLength; // logger.log(`AAC: append overflowing ${sampleLength} bytes to beginning of new PES`); if (frameMissingBytes === -1) { var tmp = new Uint8Array(sampleLength + data.byteLength); tmp.set(aacOverFlow.sample.unit, 0); tmp.set(data, sampleLength); data = tmp; } else { var frameOverflowBytes = sampleLength - frameMissingBytes; aacOverFlow.sample.unit.set(data.subarray(0, frameMissingBytes), frameOverflowBytes); track.samples.push(aacOverFlow.sample); startOffset = aacOverFlow.missing; } } // look for ADTS header (0xFFFx) var offset; var len; for (offset = startOffset, len = data.length; offset < len - 1; offset++) { if (isHeader$1(data, offset)) { break; } } // if ADTS header does not start straight from the beginning of the PES payload, raise an error if (offset !== startOffset) { var reason; var recoverable = offset < len - 1; if (recoverable) { reason = "AAC PES did not start with ADTS header,offset:" + offset; } else { reason = 'No ADTS header found in AAC PES'; } var error = new Error(reason); logger.warn("parsing error: " + reason); this.observer.emit(Events.ERROR, Events.ERROR, { type: ErrorTypes.MEDIA_ERROR, details: ErrorDetails.FRAG_PARSING_ERROR, fatal: false, levelRetry: recoverable, error: error, reason: reason }); if (!recoverable) { return; } } initTrackConfig(track, this.observer, data, offset, this.audioCodec); var pts; if (pes.pts !== undefined) { pts = pes.pts; } else if (aacOverFlow) { // if last AAC frame is overflowing, we should ensure timestamps are contiguous: // first sample PTS should be equal to last sample PTS + frameDuration var frameDuration = getFrameDuration(track.samplerate); pts = aacOverFlow.sample.pts + frameDuration; } else { logger.warn('[tsdemuxer]: AAC PES unknown PTS'); return; } // scan for aac samples var frameIndex = 0; var frame; while (offset < len) { frame = appendFrame$1(track, data, offset, pts, frameIndex); offset += frame.length; if (!frame.missing) { frameIndex++; for (; offset < len - 1; offset++) { if (isHeader$1(data, offset)) { break; } } } else { this.aacOverFlow = frame; break; } } }; _proto.parseMPEGPES = function parseMPEGPES(track, pes) { var data = pes.data; var length = data.length; var frameIndex = 0; var offset = 0; var pts = pes.pts; if (pts === undefined) { logger.warn('[tsdemuxer]: MPEG PES unknown PTS'); return; } while (offset < length) { if (isHeader(data, offset)) { var frame = appendFrame(track, data, offset, pts, frameIndex); if (frame) { offset += frame.length; frameIndex++; } else { // logger.log('Unable to parse Mpeg audio frame'); break; } } else { // nothing found, keep looking offset++; } } }; _proto.parseID3PES = function parseID3PES(id3Track, pes) { if (pes.pts === undefined) { logger.warn('[tsdemuxer]: ID3 PES unknown PTS'); return; } var id3Sample = _extends({}, pes, { type: this._avcTrack ? MetadataSchema.emsg : MetadataSchema.audioId3, duration: Number.POSITIVE_INFINITY }); id3Track.samples.push(id3Sample); }; return TSDemuxer; }(); function createAVCSample(key, pts, dts, debug) { return { key: key, frame: false, pts: pts, dts: dts, units: [], debug: debug, length: 0 }; } function parsePID(data, offset) { // pid is a 13-bit field starting at the last bit of TS[1] return ((data[offset + 1] & 0x1f) << 8) + data[offset + 2]; } function parsePAT(data, offset) { // skip the PSI header and parse the first PMT entry return (data[offset + 10] & 0x1f) << 8 | data[offset + 11]; } function parsePMT(data, offset, typeSupported, isSampleAes) { var result = { audio: -1, avc: -1, id3: -1, segmentCodec: 'aac' }; var sectionLength = (data[offset + 1] & 0x0f) << 8 | data[offset + 2]; var tableEnd = offset + 3 + sectionLength - 4; // to determine where the table is, we have to figure out how // long the program info descriptors are var programInfoLength = (data[offset + 10] & 0x0f) << 8 | data[offset + 11]; // advance the offset to the first entry in the mapping table offset += 12 + programInfoLength; while (offset < tableEnd) { var pid = parsePID(data, offset); switch (data[offset]) { case 0xcf: // SAMPLE-AES AAC if (!isSampleAes) { logger.log('ADTS AAC with AES-128-CBC frame encryption found in unencrypted stream'); break; } /* falls through */ case 0x0f: // ISO/IEC 13818-7 ADTS AAC (MPEG-2 lower bit-rate audio) // logger.log('AAC PID:' + pid); if (result.audio === -1) { result.audio = pid; } break; // Packetized metadata (ID3) case 0x15: // logger.log('ID3 PID:' + pid); if (result.id3 === -1) { result.id3 = pid; } break; case 0xdb: // SAMPLE-AES AVC if (!isSampleAes) { logger.log('H.264 with AES-128-CBC slice encryption found in unencrypted stream'); break; } /* falls through */ case 0x1b: // ITU-T Rec. H.264 and ISO/IEC 14496-10 (lower bit-rate video) // logger.log('AVC PID:' + pid); if (result.avc === -1) { result.avc = pid; } break; // ISO/IEC 11172-3 (MPEG-1 audio) // or ISO/IEC 13818-3 (MPEG-2 halved sample rate audio) case 0x03: case 0x04: // logger.log('MPEG PID:' + pid); if (typeSupported.mpeg !== true && typeSupported.mp3 !== true) { logger.log('MPEG audio found, not supported in this browser'); } else if (result.audio === -1) { result.audio = pid; result.segmentCodec = 'mp3'; } break; case 0x24: logger.warn('Unsupported HEVC stream type found'); break; } // move to the next table entry // skip past the elementary stream descriptors, if present offset += ((data[offset + 3] & 0x0f) << 8 | data[offset + 4]) + 5; } return result; } function parsePES(stream) { var i = 0; var frag; var pesLen; var pesHdrLen; var pesPts; var pesDts; var data = stream.data; // safety check if (!stream || stream.size === 0) { return null; } // we might need up to 19 bytes to read PES header // if first chunk of data is less than 19 bytes, let's merge it with following ones until we get 19 bytes // usually only one merge is needed (and this is rare ...) while (data[0].length < 19 && data.length > 1) { var newData = new Uint8Array(data[0].length + data[1].length); newData.set(data[0]); newData.set(data[1], data[0].length); data[0] = newData; data.splice(1, 1); } // retrieve PTS/DTS from first fragment frag = data[0]; var pesPrefix = (frag[0] << 16) + (frag[1] << 8) + frag[2]; if (pesPrefix === 1) { pesLen = (frag[4] << 8) + frag[5]; // if PES parsed length is not zero and greater than total received length, stop parsing. PES might be truncated // minus 6 : PES header size if (pesLen && pesLen > stream.size - 6) { return null; } var pesFlags = frag[7]; if (pesFlags & 0xc0) { /* PES header described here : http://dvd.sourceforge.net/dvdinfo/pes-hdr.html as PTS / DTS is 33 bit we cannot use bitwise operator in JS, as Bitwise operators treat their operands as a sequence of 32 bits */ pesPts = (frag[9] & 0x0e) * 536870912 + // 1 << 29 (frag[10] & 0xff) * 4194304 + // 1 << 22 (frag[11] & 0xfe) * 16384 + // 1 << 14 (frag[12] & 0xff) * 128 + // 1 << 7 (frag[13] & 0xfe) / 2; if (pesFlags & 0x40) { pesDts = (frag[14] & 0x0e) * 536870912 + // 1 << 29 (frag[15] & 0xff) * 4194304 + // 1 << 22 (frag[16] & 0xfe) * 16384 + // 1 << 14 (frag[17] & 0xff) * 128 + // 1 << 7 (frag[18] & 0xfe) / 2; if (pesPts - pesDts > 60 * 90000) { logger.warn(Math.round((pesPts - pesDts) / 90000) + "s delta between PTS and DTS, align them"); pesPts = pesDts; } } else { pesDts = pesPts; } } pesHdrLen = frag[8]; // 9 bytes : 6 bytes for PES header + 3 bytes for PES extension var payloadStartOffset = pesHdrLen + 9; if (stream.size <= payloadStartOffset) { return null; } stream.size -= payloadStartOffset; // reassemble PES packet var pesData = new Uint8Array(stream.size); for (var j = 0, dataLen = data.length; j < dataLen; j++) { frag = data[j]; var len = frag.byteLength; if (payloadStartOffset) { if (payloadStartOffset > len) { // trim full frag if PES header bigger than frag payloadStartOffset -= len; continue; } else { // trim partial frag if PES header smaller than frag frag = frag.subarray(payloadStartOffset); len -= payloadStartOffset; payloadStartOffset = 0; } } pesData.set(frag, i); i += len; } if (pesLen) { // payload size : remove PES header + PES extension pesLen -= pesHdrLen + 3; } return { data: pesData, pts: pesPts, dts: pesDts, len: pesLen }; } return null; } function pushAccessUnit(avcSample, avcTrack) { if (avcSample.units.length && avcSample.frame) { // if sample does not have PTS/DTS, patch with last sample PTS/DTS if (avcSample.pts === undefined) { var samples = avcTrack.samples; var nbSamples = samples.length; if (nbSamples) { var lastSample = samples[nbSamples - 1]; avcSample.pts = lastSample.pts; avcSample.dts = lastSample.dts; } else { // dropping samples, no timestamp found avcTrack.dropped++; return; } } avcTrack.samples.push(avcSample); } if (avcSample.debug.length) { logger.log(avcSample.pts + '/' + avcSample.dts + ':' + avcSample.debug); } } var MP3Demuxer = /*#__PURE__*/function (_BaseAudioDemuxer) { _inheritsLoose(MP3Demuxer, _BaseAudioDemuxer); function MP3Demuxer() { return _BaseAudioDemuxer.apply(this, arguments) || this; } var _proto = MP3Demuxer.prototype; _proto.resetInitSegment = function resetInitSegment(initSegment, audioCodec, videoCodec, trackDuration) { _BaseAudioDemuxer.prototype.resetInitSegment.call(this, initSegment, audioCodec, videoCodec, trackDuration); this._audioTrack = { container: 'audio/mpeg', type: 'audio', id: 2, pid: -1, sequenceNumber: 0, segmentCodec: 'mp3', samples: [], manifestCodec: audioCodec, duration: trackDuration, inputTimeScale: 90000, dropped: 0 }; }; MP3Demuxer.probe = function probe$1(data) { if (!data) { return false; } // check if data contains ID3 timestamp and MPEG sync word // Look for MPEG header | 1111 1111 | 111X XYZX | where X can be either 0 or 1 and Y or Z should be 1 // Layer bits (position 14 and 15) in header should be always different from 0 (Layer I or Layer II or Layer III) // More info http://www.mp3-tech.org/programmer/frame_header.html var id3Data = getID3Data(data, 0) || []; var offset = id3Data.length; for (var length = data.length; offset < length; offset++) { if (probe(data, offset)) { logger.log('MPEG Audio sync word found !'); return true; } } return false; }; _proto.canParse = function canParse$1(data, offset) { return canParse(data, offset); }; _proto.appendFrame = function appendFrame$1(track, data, offset) { if (this.basePTS === null) { return; } return appendFrame(track, data, offset, this.basePTS, this.frameIndex); }; return MP3Demuxer; }(BaseAudioDemuxer); /** * AAC helper */ var AAC = /*#__PURE__*/function () { function AAC() {} AAC.getSilentFrame = function getSilentFrame(codec, channelCount) { switch (codec) { case 'mp4a.40.2': if (channelCount === 1) { return new Uint8Array([0x00, 0xc8, 0x00, 0x80, 0x23, 0x80]); } else if (channelCount === 2) { return new Uint8Array([0x21, 0x00, 0x49, 0x90, 0x02, 0x19, 0x00, 0x23, 0x80]); } else if (channelCount === 3) { return new Uint8Array([0x00, 0xc8, 0x00, 0x80, 0x20, 0x84, 0x01, 0x26, 0x40, 0x08, 0x64, 0x00, 0x8e]); } else if (channelCount === 4) { return new Uint8Array([0x00, 0xc8, 0x00, 0x80, 0x20, 0x84, 0x01, 0x26, 0x40, 0x08, 0x64, 0x00, 0x80, 0x2c, 0x80, 0x08, 0x02, 0x38]); } else if (channelCount === 5) { return new Uint8Array([0x00, 0xc8, 0x00, 0x80, 0x20, 0x84, 0x01, 0x26, 0x40, 0x08, 0x64, 0x00, 0x82, 0x30, 0x04, 0x99, 0x00, 0x21, 0x90, 0x02, 0x38]); } else if (channelCount === 6) { return new Uint8Array([0x00, 0xc8, 0x00, 0x80, 0x20, 0x84, 0x01, 0x26, 0x40, 0x08, 0x64, 0x00, 0x82, 0x30, 0x04, 0x99, 0x00, 0x21, 0x90, 0x02, 0x00, 0xb2, 0x00, 0x20, 0x08, 0xe0]); } break; // handle HE-AAC below (mp4a.40.5 / mp4a.40.29) default: if (channelCount === 1) { // ffmpeg -y -f lavfi -i "aevalsrc=0:d=0.05" -c:a libfdk_aac -profile:a aac_he -b:a 4k output.aac && hexdump -v -e '16/1 "0x%x," "\n"' -v output.aac return new Uint8Array([0x1, 0x40, 0x22, 0x80, 0xa3, 0x4e, 0xe6, 0x80, 0xba, 0x8, 0x0, 0x0, 0x0, 0x1c, 0x6, 0xf1, 0xc1, 0xa, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5e]); } else if (channelCount === 2) { // ffmpeg -y -f lavfi -i "aevalsrc=0|0:d=0.05" -c:a libfdk_aac -profile:a aac_he_v2 -b:a 4k output.aac && hexdump -v -e '16/1 "0x%x," "\n"' -v output.aac return new Uint8Array([0x1, 0x40, 0x22, 0x80, 0xa3, 0x5e, 0xe6, 0x80, 0xba, 0x8, 0x0, 0x0, 0x0, 0x0, 0x95, 0x0, 0x6, 0xf1, 0xa1, 0xa, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5e]); } else if (channelCount === 3) { // ffmpeg -y -f lavfi -i "aevalsrc=0|0|0:d=0.05" -c:a libfdk_aac -profile:a aac_he_v2 -b:a 4k output.aac && hexdump -v -e '16/1 "0x%x," "\n"' -v output.aac return new Uint8Array([0x1, 0x40, 0x22, 0x80, 0xa3, 0x5e, 0xe6, 0x80, 0xba, 0x8, 0x0, 0x0, 0x0, 0x0, 0x95, 0x0, 0x6, 0xf1, 0xa1, 0xa, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5a, 0x5e]); } break; } return undefined; }; return AAC; }(); /** * Generate MP4 Box */ var UINT32_MAX = Math.pow(2, 32) - 1; var MP4 = /*#__PURE__*/function () { function MP4() {} MP4.init = function init() { MP4.types = { avc1: [], // codingname avcC: [], btrt: [], dinf: [], dref: [], esds: [], ftyp: [], hdlr: [], mdat: [], mdhd: [], mdia: [], mfhd: [], minf: [], moof: [], moov: [], mp4a: [], '.mp3': [], mvex: [], mvhd: [], pasp: [], sdtp: [], stbl: [], stco: [], stsc: [], stsd: [], stsz: [], stts: [], tfdt: [], tfhd: [], traf: [], trak: [], trun: [], trex: [], tkhd: [], vmhd: [], smhd: [] }; var i; for (i in MP4.types) { if (MP4.types.hasOwnProperty(i)) { MP4.types[i] = [i.charCodeAt(0), i.charCodeAt(1), i.charCodeAt(2), i.charCodeAt(3)]; } } var videoHdlr = new Uint8Array([0x00, // version 0 0x00, 0x00, 0x00, // flags 0x00, 0x00, 0x00, 0x00, // pre_defined 0x76, 0x69, 0x64, 0x65, // handler_type: 'vide' 0x00, 0x00, 0x00, 0x00, // reserved 0x00, 0x00, 0x00, 0x00, // reserved 0x00, 0x00, 0x00, 0x00, // reserved 0x56, 0x69, 0x64, 0x65, 0x6f, 0x48, 0x61, 0x6e, 0x64, 0x6c, 0x65, 0x72, 0x00 // name: 'VideoHandler' ]); var audioHdlr = new Uint8Array([0x00, // version 0 0x00, 0x00, 0x00, // flags 0x00, 0x00, 0x00, 0x00, // pre_defined 0x73, 0x6f, 0x75, 0x6e, // handler_type: 'soun' 0x00, 0x00, 0x00, 0x00, // reserved 0x00, 0x00, 0x00, 0x00, // reserved 0x00, 0x00, 0x00, 0x00, // reserved 0x53, 0x6f, 0x75, 0x6e, 0x64, 0x48, 0x61, 0x6e, 0x64, 0x6c, 0x65, 0x72, 0x00 // name: 'SoundHandler' ]); MP4.HDLR_TYPES = { video: videoHdlr, audio: audioHdlr }; var dref = new Uint8Array([0x00, // version 0 0x00, 0x00, 0x00, // flags 0x00, 0x00, 0x00, 0x01, // entry_count 0x00, 0x00, 0x00, 0x0c, // entry_size 0x75, 0x72, 0x6c, 0x20, // 'url' type 0x00, // version 0 0x00, 0x00, 0x01 // entry_flags ]); var stco = new Uint8Array([0x00, // version 0x00, 0x00, 0x00, // flags 0x00, 0x00, 0x00, 0x00 // entry_count ]); MP4.STTS = MP4.STSC = MP4.STCO = stco; MP4.STSZ = new Uint8Array([0x00, // version 0x00, 0x00, 0x00, // flags 0x00, 0x00, 0x00, 0x00, // sample_size 0x00, 0x00, 0x00, 0x00 // sample_count ]); MP4.VMHD = new Uint8Array([0x00, // version 0x00, 0x00, 0x01, // flags 0x00, 0x00, // graphicsmode 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 // opcolor ]); MP4.SMHD = new Uint8Array([0x00, // version 0x00, 0x00, 0x00, // flags 0x00, 0x00, // balance 0x00, 0x00 // reserved ]); MP4.STSD = new Uint8Array([0x00, // version 0 0x00, 0x00, 0x00, // flags 0x00, 0x00, 0x00, 0x01]); // entry_count var majorBrand = new Uint8Array([105, 115, 111, 109]); // isom var avc1Brand = new Uint8Array([97, 118, 99, 49]); // avc1 var minorVersion = new Uint8Array([0, 0, 0, 1]); MP4.FTYP = MP4.box(MP4.types.ftyp, majorBrand, minorVersion, majorBrand, avc1Brand); MP4.DINF = MP4.box(MP4.types.dinf, MP4.box(MP4.types.dref, dref)); }; MP4.box = function box(type) { var size = 8; for (var _len = arguments.length, payload = new Array(_len > 1 ? _len - 1 : 0), _key = 1; _key < _len; _key++) { payload[_key - 1] = arguments[_key]; } var i = payload.length; var len = i; // calculate the total size we need to allocate while (i--) { size += payload[i].byteLength; } var result = new Uint8Array(size); result[0] = size >> 24 & 0xff; result[1] = size >> 16 & 0xff; result[2] = size >> 8 & 0xff; result[3] = size & 0xff; result.set(type, 4); // copy the payload into the result for (i = 0, size = 8; i < len; i++) { // copy payload[i] array @ offset size result.set(payload[i], size); size += payload[i].byteLength; } return result; }; MP4.hdlr = function hdlr(type) { return MP4.box(MP4.types.hdlr, MP4.HDLR_TYPES[type]); }; MP4.mdat = function mdat(data) { return MP4.box(MP4.types.mdat, data); }; MP4.mdhd = function mdhd(timescale, duration) { duration *= timescale; var upperWordDuration = Math.floor(duration / (UINT32_MAX + 1)); var lowerWordDuration = Math.floor(duration % (UINT32_MAX + 1)); return MP4.box(MP4.types.mdhd, new Uint8Array([0x01, // version 1 0x00, 0x00, 0x00, // flags 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, // creation_time 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x03, // modification_time timescale >> 24 & 0xff, timescale >> 16 & 0xff, timescale >> 8 & 0xff, timescale & 0xff, // timescale upperWordDuration >> 24, upperWordDuration >> 16 & 0xff, upperWordDuration >> 8 & 0xff, upperWordDuration & 0xff, lowerWordDuration >> 24, lowerWordDuration >> 16 & 0xff, lowerWordDuration >> 8 & 0xff, lowerWordDuration & 0xff, 0x55, 0xc4, // 'und' language (undetermined) 0x00, 0x00])); }; MP4.mdia = function mdia(track) { return MP4.box(MP4.types.mdia, MP4.mdhd(track.timescale, track.duration), MP4.hdlr(track.type), MP4.minf(track)); }; MP4.mfhd = function mfhd(sequenceNumber) { return MP4.box(MP4.types.mfhd, new Uint8Array([0x00, 0x00, 0x00, 0x00, // flags sequenceNumber >> 24, sequenceNumber >> 16 & 0xff, sequenceNumber >> 8 & 0xff, sequenceNumber & 0xff // sequence_number ])); }; MP4.minf = function minf(track) { if (track.type === 'audio') { return MP4.box(MP4.types.minf, MP4.box(MP4.types.smhd, MP4.SMHD), MP4.DINF, MP4.stbl(track)); } else { return MP4.box(MP4.types.minf, MP4.box(MP4.types.vmhd, MP4.VMHD), MP4.DINF, MP4.stbl(track)); } }; MP4.moof = function moof(sn, baseMediaDecodeTime, track) { return MP4.box(MP4.types.moof, MP4.mfhd(sn), MP4.traf(track, baseMediaDecodeTime)); }; MP4.moov = function moov(tracks) { var i = tracks.length; var boxes = []; while (i--) { boxes[i] = MP4.trak(tracks[i]); } return MP4.box.apply(null, [MP4.types.moov, MP4.mvhd(tracks[0].timescale, tracks[0].duration)].concat(boxes).concat(MP4.mvex(tracks))); }; MP4.mvex = function mvex(tracks) { var i = tracks.length; var boxes = []; while (i--) { boxes[i] = MP4.trex(tracks[i]); } return MP4.box.apply(null, [MP4.types.mvex].concat(boxes)); }; MP4.mvhd = function mvhd(timescale, duration) { duration *= timescale; var upperWordDuration = Math.floor(duration / (UINT32_MAX + 1)); var lowerWordDuration = Math.floor(duration % (UINT32_MAX + 1)); var bytes = new Uint8Array([0x01, // version 1 0x00, 0x00, 0x00, // flags 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, // creation_time 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x03, // modification_time timescale >> 24 & 0xff, timescale >> 16 & 0xff, timescale >> 8 & 0xff, timescale & 0xff, // timescale upperWordDuration >> 24, upperWordDuration >> 16 & 0xff, upperWordDuration >> 8 & 0xff, upperWordDuration & 0xff, lowerWordDuration >> 24, lowerWordDuration >> 16 & 0xff, lowerWordDuration >> 8 & 0xff, lowerWordDuration & 0xff, 0x00, 0x01, 0x00, 0x00, // 1.0 rate 0x01, 0x00, // 1.0 volume 0x00, 0x00, // reserved 0x00, 0x00, 0x00, 0x00, // reserved 0x00, 0x00, 0x00, 0x00, // reserved 0x00, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x40, 0x00, 0x00, 0x00, // transformation: unity matrix 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // pre_defined 0xff, 0xff, 0xff, 0xff // next_track_ID ]); return MP4.box(MP4.types.mvhd, bytes); }; MP4.sdtp = function sdtp(track) { var samples = track.samples || []; var bytes = new Uint8Array(4 + samples.length); var i; var flags; // leave the full box header (4 bytes) all zero // write the sample table for (i = 0; i < samples.length; i++) { flags = samples[i].flags; bytes[i + 4] = flags.dependsOn << 4 | flags.isDependedOn << 2 | flags.hasRedundancy; } return MP4.box(MP4.types.sdtp, bytes); }; MP4.stbl = function stbl(track) { return MP4.box(MP4.types.stbl, MP4.stsd(track), MP4.box(MP4.types.stts, MP4.STTS), MP4.box(MP4.types.stsc, MP4.STSC), MP4.box(MP4.types.stsz, MP4.STSZ), MP4.box(MP4.types.stco, MP4.STCO)); }; MP4.avc1 = function avc1(track) { var sps = []; var pps = []; var i; var data; var len; // assemble the SPSs for (i = 0; i < track.sps.length; i++) { data = track.sps[i]; len = data.byteLength; sps.push(len >>> 8 & 0xff); sps.push(len & 0xff); // SPS sps = sps.concat(Array.prototype.slice.call(data)); } // assemble the PPSs for (i = 0; i < track.pps.length; i++) { data = track.pps[i]; len = data.byteLength; pps.push(len >>> 8 & 0xff); pps.push(len & 0xff); pps = pps.concat(Array.prototype.slice.call(data)); } var avcc = MP4.box(MP4.types.avcC, new Uint8Array([0x01, // version sps[3], // profile sps[4], // profile compat sps[5], // level 0xfc | 3, // lengthSizeMinusOne, hard-coded to 4 bytes 0xe0 | track.sps.length // 3bit reserved (111) + numOfSequenceParameterSets ].concat(sps).concat([track.pps.length // numOfPictureParameterSets ]).concat(pps))); // "PPS" var width = track.width; var height = track.height; var hSpacing = track.pixelRatio[0]; var vSpacing = track.pixelRatio[1]; return MP4.box(MP4.types.avc1, new Uint8Array([0x00, 0x00, 0x00, // reserved 0x00, 0x00, 0x00, // reserved 0x00, 0x01, // data_reference_index 0x00, 0x00, // pre_defined 0x00, 0x00, // reserved 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // pre_defined width >> 8 & 0xff, width & 0xff, // width height >> 8 & 0xff, height & 0xff, // height 0x00, 0x48, 0x00, 0x00, // horizresolution 0x00, 0x48, 0x00, 0x00, // vertresolution 0x00, 0x00, 0x00, 0x00, // reserved 0x00, 0x01, // frame_count 0x12, 0x64, 0x61, 0x69, 0x6c, // dailymotion/hls.js 0x79, 0x6d, 0x6f, 0x74, 0x69, 0x6f, 0x6e, 0x2f, 0x68, 0x6c, 0x73, 0x2e, 0x6a, 0x73, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // compressorname 0x00, 0x18, // depth = 24 0x11, 0x11]), // pre_defined = -1 avcc, MP4.box(MP4.types.btrt, new Uint8Array([0x00, 0x1c, 0x9c, 0x80, // bufferSizeDB 0x00, 0x2d, 0xc6, 0xc0, // maxBitrate 0x00, 0x2d, 0xc6, 0xc0])), // avgBitrate MP4.box(MP4.types.pasp, new Uint8Array([hSpacing >> 24, // hSpacing hSpacing >> 16 & 0xff, hSpacing >> 8 & 0xff, hSpacing & 0xff, vSpacing >> 24, // vSpacing vSpacing >> 16 & 0xff, vSpacing >> 8 & 0xff, vSpacing & 0xff]))); }; MP4.esds = function esds(track) { var configlen = track.config.length; return new Uint8Array([0x00, // version 0 0x00, 0x00, 0x00, // flags 0x03, // descriptor_type 0x17 + configlen, // length 0x00, 0x01, // es_id 0x00, // stream_priority 0x04, // descriptor_type 0x0f + configlen, // length 0x40, // codec : mpeg4_audio 0x15, // stream_type 0x00, 0x00, 0x00, // buffer_size 0x00, 0x00, 0x00, 0x00, // maxBitrate 0x00, 0x00, 0x00, 0x00, // avgBitrate 0x05 // descriptor_type ].concat([configlen]).concat(track.config).concat([0x06, 0x01, 0x02])); // GASpecificConfig)); // length + audio config descriptor }; MP4.mp4a = function mp4a(track) { var samplerate = track.samplerate; return MP4.box(MP4.types.mp4a, new Uint8Array([0x00, 0x00, 0x00, // reserved 0x00, 0x00, 0x00, // reserved 0x00, 0x01, // data_reference_index 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // reserved 0x00, track.channelCount, // channelcount 0x00, 0x10, // sampleSize:16bits 0x00, 0x00, 0x00, 0x00, // reserved2 samplerate >> 8 & 0xff, samplerate & 0xff, // 0x00, 0x00]), MP4.box(MP4.types.esds, MP4.esds(track))); }; MP4.mp3 = function mp3(track) { var samplerate = track.samplerate; return MP4.box(MP4.types['.mp3'], new Uint8Array([0x00, 0x00, 0x00, // reserved 0x00, 0x00, 0x00, // reserved 0x00, 0x01, // data_reference_index 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // reserved 0x00, track.channelCount, // channelcount 0x00, 0x10, // sampleSize:16bits 0x00, 0x00, 0x00, 0x00, // reserved2 samplerate >> 8 & 0xff, samplerate & 0xff, // 0x00, 0x00])); }; MP4.stsd = function stsd(track) { if (track.type === 'audio') { if (track.segmentCodec === 'mp3' && track.codec === 'mp3') { return MP4.box(MP4.types.stsd, MP4.STSD, MP4.mp3(track)); } return MP4.box(MP4.types.stsd, MP4.STSD, MP4.mp4a(track)); } else { return MP4.box(MP4.types.stsd, MP4.STSD, MP4.avc1(track)); } }; MP4.tkhd = function tkhd(track) { var id = track.id; var duration = track.duration * track.timescale; var width = track.width; var height = track.height; var upperWordDuration = Math.floor(duration / (UINT32_MAX + 1)); var lowerWordDuration = Math.floor(duration % (UINT32_MAX + 1)); return MP4.box(MP4.types.tkhd, new Uint8Array([0x01, // version 1 0x00, 0x00, 0x07, // flags 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, // creation_time 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x03, // modification_time id >> 24 & 0xff, id >> 16 & 0xff, id >> 8 & 0xff, id & 0xff, // track_ID 0x00, 0x00, 0x00, 0x00, // reserved upperWordDuration >> 24, upperWordDuration >> 16 & 0xff, upperWordDuration >> 8 & 0xff, upperWordDuration & 0xff, lowerWordDuration >> 24, lowerWordDuration >> 16 & 0xff, lowerWordDuration >> 8 & 0xff, lowerWordDuration & 0xff, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // reserved 0x00, 0x00, // layer 0x00, 0x00, // alternate_group 0x00, 0x00, // non-audio track volume 0x00, 0x00, // reserved 0x00, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x40, 0x00, 0x00, 0x00, // transformation: unity matrix width >> 8 & 0xff, width & 0xff, 0x00, 0x00, // width height >> 8 & 0xff, height & 0xff, 0x00, 0x00 // height ])); }; MP4.traf = function traf(track, baseMediaDecodeTime) { var sampleDependencyTable = MP4.sdtp(track); var id = track.id; var upperWordBaseMediaDecodeTime = Math.floor(baseMediaDecodeTime / (UINT32_MAX + 1)); var lowerWordBaseMediaDecodeTime = Math.floor(baseMediaDecodeTime % (UINT32_MAX + 1)); return MP4.box(MP4.types.traf, MP4.box(MP4.types.tfhd, new Uint8Array([0x00, // version 0 0x00, 0x00, 0x00, // flags id >> 24, id >> 16 & 0xff, id >> 8 & 0xff, id & 0xff // track_ID ])), MP4.box(MP4.types.tfdt, new Uint8Array([0x01, // version 1 0x00, 0x00, 0x00, // flags upperWordBaseMediaDecodeTime >> 24, upperWordBaseMediaDecodeTime >> 16 & 0xff, upperWordBaseMediaDecodeTime >> 8 & 0xff, upperWordBaseMediaDecodeTime & 0xff, lowerWordBaseMediaDecodeTime >> 24, lowerWordBaseMediaDecodeTime >> 16 & 0xff, lowerWordBaseMediaDecodeTime >> 8 & 0xff, lowerWordBaseMediaDecodeTime & 0xff])), MP4.trun(track, sampleDependencyTable.length + 16 + // tfhd 20 + // tfdt 8 + // traf header 16 + // mfhd 8 + // moof header 8), // mdat header sampleDependencyTable); } /** * Generate a track box. * @param track a track definition */; MP4.trak = function trak(track) { track.duration = track.duration || 0xffffffff; return MP4.box(MP4.types.trak, MP4.tkhd(track), MP4.mdia(track)); }; MP4.trex = function trex(track) { var id = track.id; return MP4.box(MP4.types.trex, new Uint8Array([0x00, // version 0 0x00, 0x00, 0x00, // flags id >> 24, id >> 16 & 0xff, id >> 8 & 0xff, id & 0xff, // track_ID 0x00, 0x00, 0x00, 0x01, // default_sample_description_index 0x00, 0x00, 0x00, 0x00, // default_sample_duration 0x00, 0x00, 0x00, 0x00, // default_sample_size 0x00, 0x01, 0x00, 0x01 // default_sample_flags ])); }; MP4.trun = function trun(track, offset) { var samples = track.samples || []; var len = samples.length; var arraylen = 12 + 16 * len; var array = new Uint8Array(arraylen); var i; var sample; var duration; var size; var flags; var cts; offset += 8 + arraylen; array.set([track.type === 'video' ? 0x01 : 0x00, // version 1 for video with signed-int sample_composition_time_offset 0x00, 0x0f, 0x01, // flags len >>> 24 & 0xff, len >>> 16 & 0xff, len >>> 8 & 0xff, len & 0xff, // sample_count offset >>> 24 & 0xff, offset >>> 16 & 0xff, offset >>> 8 & 0xff, offset & 0xff // data_offset ], 0); for (i = 0; i < len; i++) { sample = samples[i]; duration = sample.duration; size = sample.size; flags = sample.flags; cts = sample.cts; array.set([duration >>> 24 & 0xff, duration >>> 16 & 0xff, duration >>> 8 & 0xff, duration & 0xff, // sample_duration size >>> 24 & 0xff, size >>> 16 & 0xff, size >>> 8 & 0xff, size & 0xff, // sample_size flags.isLeading << 2 | flags.dependsOn, flags.isDependedOn << 6 | flags.hasRedundancy << 4 | flags.paddingValue << 1 | flags.isNonSync, flags.degradPrio & 0xf0 << 8, flags.degradPrio & 0x0f, // sample_flags cts >>> 24 & 0xff, cts >>> 16 & 0xff, cts >>> 8 & 0xff, cts & 0xff // sample_composition_time_offset ], 12 + 16 * i); } return MP4.box(MP4.types.trun, array); }; MP4.initSegment = function initSegment(tracks) { if (!MP4.types) { MP4.init(); } var movie = MP4.moov(tracks); var result = new Uint8Array(MP4.FTYP.byteLength + movie.byteLength); result.set(MP4.FTYP); result.set(movie, MP4.FTYP.byteLength); return result; }; return MP4; }(); MP4.types = void 0; MP4.HDLR_TYPES = void 0; MP4.STTS = void 0; MP4.STSC = void 0; MP4.STCO = void 0; MP4.STSZ = void 0; MP4.VMHD = void 0; MP4.SMHD = void 0; MP4.STSD = void 0; MP4.FTYP = void 0; MP4.DINF = void 0; var MPEG_TS_CLOCK_FREQ_HZ = 90000; function toTimescaleFromBase(baseTime, destScale, srcBase, round) { if (srcBase === void 0) { srcBase = 1; } if (round === void 0) { round = false; } var result = baseTime * destScale * srcBase; // equivalent to `(value * scale) / (1 / base)` return round ? Math.round(result) : result; } function toTimescaleFromScale(baseTime, destScale, srcScale, round) { if (srcScale === void 0) { srcScale = 1; } if (round === void 0) { round = false; } return toTimescaleFromBase(baseTime, destScale, 1 / srcScale, round); } function toMsFromMpegTsClock(baseTime, round) { if (round === void 0) { round = false; } return toTimescaleFromBase(baseTime, 1000, 1 / MPEG_TS_CLOCK_FREQ_HZ, round); } function toMpegTsClockFromTimescale(baseTime, srcScale) { if (srcScale === void 0) { srcScale = 1; } return toTimescaleFromBase(baseTime, MPEG_TS_CLOCK_FREQ_HZ, 1 / srcScale); } var MAX_SILENT_FRAME_DURATION = 10 * 1000; // 10 seconds var AAC_SAMPLES_PER_FRAME = 1024; var MPEG_AUDIO_SAMPLE_PER_FRAME = 1152; var chromeVersion = null; var safariWebkitVersion = null; var MP4Remuxer = /*#__PURE__*/function () { function MP4Remuxer(observer, config, typeSupported, vendor) { this.observer = void 0; this.config = void 0; this.typeSupported = void 0; this.ISGenerated = false; this._initPTS = null; this._initDTS = null; this.nextAvcDts = null; this.nextAudioPts = null; this.videoSampleDuration = null; this.isAudioContiguous = false; this.isVideoContiguous = false; this.observer = observer; this.config = config; this.typeSupported = typeSupported; this.ISGenerated = false; if (chromeVersion === null) { var userAgent = navigator.userAgent || ''; var result = userAgent.match(/Chrome\/(\d+)/i); chromeVersion = result ? parseInt(result[1]) : 0; } if (safariWebkitVersion === null) { var _result = navigator.userAgent.match(/Safari\/(\d+)/i); safariWebkitVersion = _result ? parseInt(_result[1]) : 0; } } var _proto = MP4Remuxer.prototype; _proto.destroy = function destroy() {}; _proto.resetTimeStamp = function resetTimeStamp(defaultTimeStamp) { logger.log('[mp4-remuxer]: initPTS & initDTS reset'); this._initPTS = this._initDTS = defaultTimeStamp; }; _proto.resetNextTimestamp = function resetNextTimestamp() { logger.log('[mp4-remuxer]: reset next timestamp'); this.isVideoContiguous = false; this.isAudioContiguous = false; }; _proto.resetInitSegment = function resetInitSegment() { logger.log('[mp4-remuxer]: ISGenerated flag reset'); this.ISGenerated = false; }; _proto.getVideoStartPts = function getVideoStartPts(videoSamples) { var rolloverDetected = false; var startPTS = videoSamples.reduce(function (minPTS, sample) { var delta = sample.pts - minPTS; if (delta < -4294967296) { // 2^32, see PTSNormalize for reasoning, but we're hitting a rollover here, and we don't want that to impact the timeOffset calculation rolloverDetected = true; return normalizePts(minPTS, sample.pts); } else if (delta > 0) { return minPTS; } else { return sample.pts; } }, videoSamples[0].pts); if (rolloverDetected) { logger.debug('PTS rollover detected'); } return startPTS; }; _proto.remux = function remux(audioTrack, videoTrack, id3Track, textTrack, timeOffset, accurateTimeOffset, flush, playlistType) { var video; var audio; var initSegment; var text; var id3; var independent; var audioTimeOffset = timeOffset; var videoTimeOffset = timeOffset; // If we're remuxing audio and video progressively, wait until we've received enough samples for each track before proceeding. // This is done to synchronize the audio and video streams. We know if the current segment will have samples if the "pid" // parameter is greater than -1. The pid is set when the PMT is parsed, which contains the tracks list. // However, if the initSegment has already been generated, or we've reached the end of a segment (flush), // then we can remux one track without waiting for the other. var hasAudio = audioTrack.pid > -1; var hasVideo = videoTrack.pid > -1; var length = videoTrack.samples.length; var enoughAudioSamples = audioTrack.samples.length > 0; var enoughVideoSamples = flush && length > 0 || length > 1; var canRemuxAvc = (!hasAudio || enoughAudioSamples) && (!hasVideo || enoughVideoSamples) || this.ISGenerated || flush; if (canRemuxAvc) { if (!this.ISGenerated) { initSegment = this.generateIS(audioTrack, videoTrack, timeOffset, accurateTimeOffset); } var isVideoContiguous = this.isVideoContiguous; var firstKeyFrameIndex = -1; var firstKeyFramePTS; if (enoughVideoSamples) { firstKeyFrameIndex = findKeyframeIndex(videoTrack.samples); if (!isVideoContiguous && this.config.forceKeyFrameOnDiscontinuity) { independent = true; if (firstKeyFrameIndex > 0) { logger.warn("[mp4-remuxer]: Dropped " + firstKeyFrameIndex + " out of " + length + " video samples due to a missing keyframe"); var startPTS = this.getVideoStartPts(videoTrack.samples); videoTrack.samples = videoTrack.samples.slice(firstKeyFrameIndex); videoTrack.dropped += firstKeyFrameIndex; videoTimeOffset += (videoTrack.samples[0].pts - startPTS) / videoTrack.inputTimeScale; firstKeyFramePTS = videoTimeOffset; } else if (firstKeyFrameIndex === -1) { logger.warn("[mp4-remuxer]: No keyframe found out of " + length + " video samples"); independent = false; } } } if (this.ISGenerated) { if (enoughAudioSamples && enoughVideoSamples) { // timeOffset is expected to be the offset of the first timestamp of this fragment (first DTS) // if first audio DTS is not aligned with first video DTS then we need to take that into account // when providing timeOffset to remuxAudio / remuxVideo. if we don't do that, there might be a permanent / small // drift between audio and video streams var _startPTS = this.getVideoStartPts(videoTrack.samples); var tsDelta = normalizePts(audioTrack.samples[0].pts, _startPTS) - _startPTS; var audiovideoTimestampDelta = tsDelta / videoTrack.inputTimeScale; audioTimeOffset += Math.max(0, audiovideoTimestampDelta); videoTimeOffset += Math.max(0, -audiovideoTimestampDelta); } // Purposefully remuxing audio before video, so that remuxVideo can use nextAudioPts, which is calculated in remuxAudio. if (enoughAudioSamples) { // if initSegment was generated without audio samples, regenerate it again if (!audioTrack.samplerate) { logger.warn('[mp4-remuxer]: regenerate InitSegment as audio detected'); initSegment = this.generateIS(audioTrack, videoTrack, timeOffset, accurateTimeOffset); } audio = this.remuxAudio(audioTrack, audioTimeOffset, this.isAudioContiguous, accurateTimeOffset, hasVideo || enoughVideoSamples || playlistType === PlaylistLevelType.AUDIO ? videoTimeOffset : undefined); if (enoughVideoSamples) { var audioTrackLength = audio ? audio.endPTS - audio.startPTS : 0; // if initSegment was generated without video samples, regenerate it again if (!videoTrack.inputTimeScale) { logger.warn('[mp4-remuxer]: regenerate InitSegment as video detected'); initSegment = this.generateIS(audioTrack, videoTrack, timeOffset, accurateTimeOffset); } video = this.remuxVideo(videoTrack, videoTimeOffset, isVideoContiguous, audioTrackLength); } } else if (enoughVideoSamples) { video = this.remuxVideo(videoTrack, videoTimeOffset, isVideoContiguous, 0); } if (video) { video.firstKeyFrame = firstKeyFrameIndex; video.independent = firstKeyFrameIndex !== -1; video.firstKeyFramePTS = firstKeyFramePTS; } } } // Allow ID3 and text to remux, even if more audio/video samples are required if (this.ISGenerated && this._initPTS && this._initDTS) { if (id3Track.samples.length) { id3 = flushTextTrackMetadataCueSamples(id3Track, timeOffset, this._initPTS, this._initDTS); } if (textTrack.samples.length) { text = flushTextTrackUserdataCueSamples(textTrack, timeOffset, this._initPTS); } } return { audio: audio, video: video, initSegment: initSegment, independent: independent, text: text, id3: id3 }; }; _proto.generateIS = function generateIS(audioTrack, videoTrack, timeOffset, accurateTimeOffset) { var audioSamples = audioTrack.samples; var videoSamples = videoTrack.samples; var typeSupported = this.typeSupported; var tracks = {}; var _initPTS = this._initPTS; var computePTSDTS = !_initPTS || accurateTimeOffset; var container = 'audio/mp4'; var initPTS; var initDTS; var timescale; if (computePTSDTS) { initPTS = initDTS = Infinity; } if (audioTrack.config && audioSamples.length) { // let's use audio sampling rate as MP4 time scale. // rationale is that there is a integer nb of audio frames per audio sample (1024 for AAC) // using audio sampling rate here helps having an integer MP4 frame duration // this avoids potential rounding issue and AV sync issue audioTrack.timescale = audioTrack.samplerate; switch (audioTrack.segmentCodec) { case 'mp3': if (typeSupported.mpeg) { // Chrome and Safari container = 'audio/mpeg'; audioTrack.codec = ''; } else if (typeSupported.mp3) { // Firefox audioTrack.codec = 'mp3'; } break; } tracks.audio = { id: 'audio', container: container, codec: audioTrack.codec, initSegment: audioTrack.segmentCodec === 'mp3' && typeSupported.mpeg ? new Uint8Array(0) : MP4.initSegment([audioTrack]), metadata: { channelCount: audioTrack.channelCount } }; if (computePTSDTS) { timescale = audioTrack.inputTimeScale; if (!_initPTS || timescale !== _initPTS.timescale) { // remember first PTS of this demuxing context. for audio, PTS = DTS initPTS = initDTS = audioSamples[0].pts - Math.round(timescale * timeOffset); } else { computePTSDTS = false; } } } if (videoTrack.sps && videoTrack.pps && videoSamples.length) { // let's use input time scale as MP4 video timescale // we use input time scale straight away to avoid rounding issues on frame duration / cts computation videoTrack.timescale = videoTrack.inputTimeScale; tracks.video = { id: 'main', container: 'video/mp4', codec: videoTrack.codec, initSegment: MP4.initSegment([videoTrack]), metadata: { width: videoTrack.width, height: videoTrack.height } }; if (computePTSDTS) { timescale = videoTrack.inputTimeScale; if (!_initPTS || timescale !== _initPTS.timescale) { var startPTS = this.getVideoStartPts(videoSamples); var startOffset = Math.round(timescale * timeOffset); initDTS = Math.min(initDTS, normalizePts(videoSamples[0].dts, startPTS) - startOffset); initPTS = Math.min(initPTS, startPTS - startOffset); } else { computePTSDTS = false; } } } if (Object.keys(tracks).length) { this.ISGenerated = true; if (computePTSDTS) { this._initPTS = { baseTime: initPTS, timescale: timescale }; this._initDTS = { baseTime: initDTS, timescale: timescale }; } else { initPTS = timescale = undefined; } return { tracks: tracks, initPTS: initPTS, timescale: timescale }; } }; _proto.remuxVideo = function remuxVideo(track, timeOffset, contiguous, audioTrackLength) { var timeScale = track.inputTimeScale; var inputSamples = track.samples; var outputSamples = []; var nbSamples = inputSamples.length; var initPTS = this._initPTS; var nextAvcDts = this.nextAvcDts; var offset = 8; var mp4SampleDuration = this.videoSampleDuration; var firstDTS; var lastDTS; var minPTS = Number.POSITIVE_INFINITY; var maxPTS = Number.NEGATIVE_INFINITY; var sortSamples = false; // if parsed fragment is contiguous with last one, let's use last DTS value as reference if (!contiguous || nextAvcDts === null) { var pts = timeOffset * timeScale; var cts = inputSamples[0].pts - normalizePts(inputSamples[0].dts, inputSamples[0].pts); // if not contiguous, let's use target timeOffset nextAvcDts = pts - cts; } // PTS is coded on 33bits, and can loop from -2^32 to 2^32 // PTSNormalize will make PTS/DTS value monotonic, we use last known DTS value as reference value var initTime = initPTS.baseTime * timeScale / initPTS.timescale; for (var i = 0; i < nbSamples; i++) { var sample = inputSamples[i]; sample.pts = normalizePts(sample.pts - initTime, nextAvcDts); sample.dts = normalizePts(sample.dts - initTime, nextAvcDts); if (sample.dts < inputSamples[i > 0 ? i - 1 : i].dts) { sortSamples = true; } } // sort video samples by DTS then PTS then demux id order if (sortSamples) { inputSamples.sort(function (a, b) { var deltadts = a.dts - b.dts; var deltapts = a.pts - b.pts; return deltadts || deltapts; }); } // Get first/last DTS firstDTS = inputSamples[0].dts; lastDTS = inputSamples[inputSamples.length - 1].dts; // Sample duration (as expected by trun MP4 boxes), should be the delta between sample DTS // set this constant duration as being the avg delta between consecutive DTS. var inputDuration = lastDTS - firstDTS; var averageSampleDuration = inputDuration ? Math.round(inputDuration / (nbSamples - 1)) : mp4SampleDuration || track.inputTimeScale / 30; // if fragment are contiguous, detect hole/overlapping between fragments if (contiguous) { // check timestamp continuity across consecutive fragments (this is to remove inter-fragment gap/hole) var delta = firstDTS - nextAvcDts; var foundHole = delta > averageSampleDuration; var foundOverlap = delta < -1; if (foundHole || foundOverlap) { if (foundHole) { logger.warn("AVC: " + toMsFromMpegTsClock(delta, true) + " ms (" + delta + "dts) hole between fragments detected, filling it"); } else { logger.warn("AVC: " + toMsFromMpegTsClock(-delta, true) + " ms (" + delta + "dts) overlapping between fragments detected"); } if (!foundOverlap || nextAvcDts >= inputSamples[0].pts) { firstDTS = nextAvcDts; var firstPTS = inputSamples[0].pts - delta; inputSamples[0].dts = firstDTS; inputSamples[0].pts = firstPTS; logger.log("Video: First PTS/DTS adjusted: " + toMsFromMpegTsClock(firstPTS, true) + "/" + toMsFromMpegTsClock(firstDTS, true) + ", delta: " + toMsFromMpegTsClock(delta, true) + " ms"); } } } firstDTS = Math.max(0, firstDTS); var nbNalu = 0; var naluLen = 0; for (var _i = 0; _i < nbSamples; _i++) { // compute total/avc sample length and nb of NAL units var _sample = inputSamples[_i]; var units = _sample.units; var nbUnits = units.length; var sampleLen = 0; for (var j = 0; j < nbUnits; j++) { sampleLen += units[j].data.length; } naluLen += sampleLen; nbNalu += nbUnits; _sample.length = sampleLen; // ensure sample monotonic DTS _sample.dts = Math.max(_sample.dts, firstDTS); minPTS = Math.min(_sample.pts, minPTS); maxPTS = Math.max(_sample.pts, maxPTS); } lastDTS = inputSamples[nbSamples - 1].dts; /* concatenate the video data and construct the mdat in place (need 8 more bytes to fill length and mpdat type) */ var mdatSize = naluLen + 4 * nbNalu + 8; var mdat; try { mdat = new Uint8Array(mdatSize); } catch (err) { this.observer.emit(Events.ERROR, Events.ERROR, { type: ErrorTypes.MUX_ERROR, details: ErrorDetails.REMUX_ALLOC_ERROR, fatal: false, error: err, bytes: mdatSize, reason: "fail allocating video mdat " + mdatSize }); return; } var view = new DataView(mdat.buffer); view.setUint32(0, mdatSize); mdat.set(MP4.types.mdat, 4); var stretchedLastFrame = false; var minDtsDelta = Number.POSITIVE_INFINITY; var minPtsDelta = Number.POSITIVE_INFINITY; var maxDtsDelta = Number.NEGATIVE_INFINITY; var maxPtsDelta = Number.NEGATIVE_INFINITY; for (var _i2 = 0; _i2 < nbSamples; _i2++) { var avcSample = inputSamples[_i2]; var avcSampleUnits = avcSample.units; var mp4SampleLength = 0; // convert NALU bitstream to MP4 format (prepend NALU with size field) for (var _j = 0, _nbUnits = avcSampleUnits.length; _j < _nbUnits; _j++) { var unit = avcSampleUnits[_j]; var unitData = unit.data; var unitDataLen = unit.data.byteLength; view.setUint32(offset, unitDataLen); offset += 4; mdat.set(unitData, offset); offset += unitDataLen; mp4SampleLength += 4 + unitDataLen; } // expected sample duration is the Decoding Timestamp diff of consecutive samples var ptsDelta = void 0; if (_i2 < nbSamples - 1) { mp4SampleDuration = inputSamples[_i2 + 1].dts - avcSample.dts; ptsDelta = inputSamples[_i2 + 1].pts - avcSample.pts; } else { var config = this.config; var lastFrameDuration = _i2 > 0 ? avcSample.dts - inputSamples[_i2 - 1].dts : averageSampleDuration; ptsDelta = _i2 > 0 ? avcSample.pts - inputSamples[_i2 - 1].pts : averageSampleDuration; if (config.stretchShortVideoTrack && this.nextAudioPts !== null) { // In some cases, a segment's audio track duration may exceed the video track duration. // Since we've already remuxed audio, and we know how long the audio track is, we look to // see if the delta to the next segment is longer than maxBufferHole. // If so, playback would potentially get stuck, so we artificially inflate // the duration of the last frame to minimize any potential gap between segments. var gapTolerance = Math.floor(config.maxBufferHole * timeScale); var deltaToFrameEnd = (audioTrackLength ? minPTS + audioTrackLength * timeScale : this.nextAudioPts) - avcSample.pts; if (deltaToFrameEnd > gapTolerance) { // We subtract lastFrameDuration from deltaToFrameEnd to try to prevent any video // frame overlap. maxBufferHole should be >> lastFrameDuration anyway. mp4SampleDuration = deltaToFrameEnd - lastFrameDuration; if (mp4SampleDuration < 0) { mp4SampleDuration = lastFrameDuration; } else { stretchedLastFrame = true; } logger.log("[mp4-remuxer]: It is approximately " + deltaToFrameEnd / 90 + " ms to the next segment; using duration " + mp4SampleDuration / 90 + " ms for the last video frame."); } else { mp4SampleDuration = lastFrameDuration; } } else { mp4SampleDuration = lastFrameDuration; } } var compositionTimeOffset = Math.round(avcSample.pts - avcSample.dts); minDtsDelta = Math.min(minDtsDelta, mp4SampleDuration); maxDtsDelta = Math.max(maxDtsDelta, mp4SampleDuration); minPtsDelta = Math.min(minPtsDelta, ptsDelta); maxPtsDelta = Math.max(maxPtsDelta, ptsDelta); outputSamples.push(new Mp4Sample(avcSample.key, mp4SampleDuration, mp4SampleLength, compositionTimeOffset)); } if (outputSamples.length) { if (chromeVersion) { if (chromeVersion < 70) { // Chrome workaround, mark first sample as being a Random Access Point (keyframe) to avoid sourcebuffer append issue // https://code.google.com/p/chromium/issues/detail?id=229412 var flags = outputSamples[0].flags; flags.dependsOn = 2; flags.isNonSync = 0; } } else if (safariWebkitVersion) { // Fix for "CNN special report, with CC" in test-streams (Safari browser only) // Ignore DTS when frame durations are irregular. Safari MSE does not handle this leading to gaps. if (maxPtsDelta - minPtsDelta < maxDtsDelta - minDtsDelta && averageSampleDuration / maxDtsDelta < 0.025 && outputSamples[0].cts === 0) { logger.warn('Found irregular gaps in sample duration. Using PTS instead of DTS to determine MP4 sample duration.'); var dts = firstDTS; for (var _i3 = 0, len = outputSamples.length; _i3 < len; _i3++) { var nextDts = dts + outputSamples[_i3].duration; var _pts = dts + outputSamples[_i3].cts; if (_i3 < len - 1) { var nextPts = nextDts + outputSamples[_i3 + 1].cts; outputSamples[_i3].duration = nextPts - _pts; } else { outputSamples[_i3].duration = _i3 ? outputSamples[_i3 - 1].duration : averageSampleDuration; } outputSamples[_i3].cts = 0; dts = nextDts; } } } } // next AVC sample DTS should be equal to last sample DTS + last sample duration (in PES timescale) mp4SampleDuration = stretchedLastFrame || !mp4SampleDuration ? averageSampleDuration : mp4SampleDuration; this.nextAvcDts = nextAvcDts = lastDTS + mp4SampleDuration; this.videoSampleDuration = mp4SampleDuration; this.isVideoContiguous = true; var moof = MP4.moof(track.sequenceNumber++, firstDTS, _extends({}, track, { samples: outputSamples })); var type = 'video'; var data = { data1: moof, data2: mdat, startPTS: minPTS / timeScale, endPTS: (maxPTS + mp4SampleDuration) / timeScale, startDTS: firstDTS / timeScale, endDTS: nextAvcDts / timeScale, type: type, hasAudio: false, hasVideo: true, nb: outputSamples.length, dropped: track.dropped }; track.samples = []; track.dropped = 0; return data; }; _proto.remuxAudio = function remuxAudio(track, timeOffset, contiguous, accurateTimeOffset, videoTimeOffset) { var inputTimeScale = track.inputTimeScale; var mp4timeScale = track.samplerate ? track.samplerate : inputTimeScale; var scaleFactor = inputTimeScale / mp4timeScale; var mp4SampleDuration = track.segmentCodec === 'aac' ? AAC_SAMPLES_PER_FRAME : MPEG_AUDIO_SAMPLE_PER_FRAME; var inputSampleDuration = mp4SampleDuration * scaleFactor; var initPTS = this._initPTS; var rawMPEG = track.segmentCodec === 'mp3' && this.typeSupported.mpeg; var outputSamples = []; var alignedWithVideo = videoTimeOffset !== undefined; var inputSamples = track.samples; var offset = rawMPEG ? 0 : 8; var nextAudioPts = this.nextAudioPts || -1; // window.audioSamples ? window.audioSamples.push(inputSamples.map(s => s.pts)) : (window.audioSamples = [inputSamples.map(s => s.pts)]); // for audio samples, also consider consecutive fragments as being contiguous (even if a level switch occurs), // for sake of clarity: // consecutive fragments are frags with // - less than 100ms gaps between new time offset (if accurate) and next expected PTS OR // - less than 20 audio frames distance // contiguous fragments are consecutive fragments from same quality level (same level, new SN = old SN + 1) // this helps ensuring audio continuity // and this also avoids audio glitches/cut when switching quality, or reporting wrong duration on first audio frame var timeOffsetMpegTS = timeOffset * inputTimeScale; var initTime = initPTS.baseTime * inputTimeScale / initPTS.timescale; this.isAudioContiguous = contiguous = contiguous || inputSamples.length && nextAudioPts > 0 && (accurateTimeOffset && Math.abs(timeOffsetMpegTS - nextAudioPts) < 9000 || Math.abs(normalizePts(inputSamples[0].pts - initTime, timeOffsetMpegTS) - nextAudioPts) < 20 * inputSampleDuration); // compute normalized PTS inputSamples.forEach(function (sample) { sample.pts = normalizePts(sample.pts - initTime, timeOffsetMpegTS); }); if (!contiguous || nextAudioPts < 0) { // filter out sample with negative PTS that are not playable anyway // if we don't remove these negative samples, they will shift all audio samples forward. // leading to audio overlap between current / next fragment inputSamples = inputSamples.filter(function (sample) { return sample.pts >= 0; }); // in case all samples have negative PTS, and have been filtered out, return now if (!inputSamples.length) { return; } if (videoTimeOffset === 0) { // Set the start to 0 to match video so that start gaps larger than inputSampleDuration are filled with silence nextAudioPts = 0; } else if (accurateTimeOffset && !alignedWithVideo) { // When not seeking, not live, and LevelDetails.PTSKnown, use fragment start as predicted next audio PTS nextAudioPts = Math.max(0, timeOffsetMpegTS); } else { // if frags are not contiguous and if we cant trust time offset, let's use first sample PTS as next audio PTS nextAudioPts = inputSamples[0].pts; } } // If the audio track is missing samples, the frames seem to get "left-shifted" within the // resulting mp4 segment, causing sync issues and leaving gaps at the end of the audio segment. // In an effort to prevent this from happening, we inject frames here where there are gaps. // When possible, we inject a silent frame; when that's not possible, we duplicate the last // frame. if (track.segmentCodec === 'aac') { var maxAudioFramesDrift = this.config.maxAudioFramesDrift; for (var i = 0, nextPts = nextAudioPts; i < inputSamples.length; i++) { // First, let's see how far off this frame is from where we expect it to be var sample = inputSamples[i]; var pts = sample.pts; var delta = pts - nextPts; var duration = Math.abs(1000 * delta / inputTimeScale); // When remuxing with video, if we're overlapping by more than a duration, drop this sample to stay in sync if (delta <= -maxAudioFramesDrift * inputSampleDuration && alignedWithVideo) { if (i === 0) { logger.warn("Audio frame @ " + (pts / inputTimeScale).toFixed(3) + "s overlaps nextAudioPts by " + Math.round(1000 * delta / inputTimeScale) + " ms."); this.nextAudioPts = nextAudioPts = nextPts = pts; } } // eslint-disable-line brace-style // Insert missing frames if: // 1: We're more than maxAudioFramesDrift frame away // 2: Not more than MAX_SILENT_FRAME_DURATION away // 3: currentTime (aka nextPtsNorm) is not 0 // 4: remuxing with video (videoTimeOffset !== undefined) else if (delta >= maxAudioFramesDrift * inputSampleDuration && duration < MAX_SILENT_FRAME_DURATION && alignedWithVideo) { var missing = Math.round(delta / inputSampleDuration); // Adjust nextPts so that silent samples are aligned with media pts. This will prevent media samples from // later being shifted if nextPts is based on timeOffset and delta is not a multiple of inputSampleDuration. nextPts = pts - missing * inputSampleDuration; if (nextPts < 0) { missing--; nextPts += inputSampleDuration; } if (i === 0) { this.nextAudioPts = nextAudioPts = nextPts; } logger.warn("[mp4-remuxer]: Injecting " + missing + " audio frame @ " + (nextPts / inputTimeScale).toFixed(3) + "s due to " + Math.round(1000 * delta / inputTimeScale) + " ms gap."); for (var j = 0; j < missing; j++) { var newStamp = Math.max(nextPts, 0); var fillFrame = AAC.getSilentFrame(track.manifestCodec || track.codec, track.channelCount); if (!fillFrame) { logger.log('[mp4-remuxer]: Unable to get silent frame for given audio codec; duplicating last frame instead.'); fillFrame = sample.unit.subarray(); } inputSamples.splice(i, 0, { unit: fillFrame, pts: newStamp }); nextPts += inputSampleDuration; i++; } } sample.pts = nextPts; nextPts += inputSampleDuration; } } var firstPTS = null; var lastPTS = null; var mdat; var mdatSize = 0; var sampleLength = inputSamples.length; while (sampleLength--) { mdatSize += inputSamples[sampleLength].unit.byteLength; } for (var _j2 = 0, _nbSamples = inputSamples.length; _j2 < _nbSamples; _j2++) { var audioSample = inputSamples[_j2]; var unit = audioSample.unit; var _pts2 = audioSample.pts; if (lastPTS !== null) { // If we have more than one sample, set the duration of the sample to the "real" duration; the PTS diff with // the previous sample var prevSample = outputSamples[_j2 - 1]; prevSample.duration = Math.round((_pts2 - lastPTS) / scaleFactor); } else { if (contiguous && track.segmentCodec === 'aac') { // set PTS/DTS to expected PTS/DTS _pts2 = nextAudioPts; } // remember first PTS of our audioSamples firstPTS = _pts2; if (mdatSize > 0) { /* concatenate the audio data and construct the mdat in place (need 8 more bytes to fill length and mdat type) */ mdatSize += offset; try { mdat = new Uint8Array(mdatSize); } catch (err) { this.observer.emit(Events.ERROR, Events.ERROR, { type: ErrorTypes.MUX_ERROR, details: ErrorDetails.REMUX_ALLOC_ERROR, fatal: false, error: err, bytes: mdatSize, reason: "fail allocating audio mdat " + mdatSize }); return; } if (!rawMPEG) { var view = new DataView(mdat.buffer); view.setUint32(0, mdatSize); mdat.set(MP4.types.mdat, 4); } } else { // no audio samples return; } } mdat.set(unit, offset); var unitLen = unit.byteLength; offset += unitLen; // Default the sample's duration to the computed mp4SampleDuration, which will either be 1024 for AAC or 1152 for MPEG // In the case that we have 1 sample, this will be the duration. If we have more than one sample, the duration // becomes the PTS diff with the previous sample outputSamples.push(new Mp4Sample(true, mp4SampleDuration, unitLen, 0)); lastPTS = _pts2; } // We could end up with no audio samples if all input samples were overlapping with the previously remuxed ones var nbSamples = outputSamples.length; if (!nbSamples) { return; } // The next audio sample PTS should be equal to last sample PTS + duration var lastSample = outputSamples[outputSamples.length - 1]; this.nextAudioPts = nextAudioPts = lastPTS + scaleFactor * lastSample.duration; // Set the track samples from inputSamples to outputSamples before remuxing var moof = rawMPEG ? new Uint8Array(0) : MP4.moof(track.sequenceNumber++, firstPTS / scaleFactor, _extends({}, track, { samples: outputSamples })); // Clear the track samples. This also clears the samples array in the demuxer, since the reference is shared track.samples = []; var start = firstPTS / inputTimeScale; var end = nextAudioPts / inputTimeScale; var type = 'audio'; var audioData = { data1: moof, data2: mdat, startPTS: start, endPTS: end, startDTS: start, endDTS: end, type: type, hasAudio: true, hasVideo: false, nb: nbSamples }; this.isAudioContiguous = true; return audioData; }; _proto.remuxEmptyAudio = function remuxEmptyAudio(track, timeOffset, contiguous, videoData) { var inputTimeScale = track.inputTimeScale; var mp4timeScale = track.samplerate ? track.samplerate : inputTimeScale; var scaleFactor = inputTimeScale / mp4timeScale; var nextAudioPts = this.nextAudioPts; // sync with video's timestamp var initDTS = this._initDTS; var init90kHz = initDTS.baseTime * 90000 / initDTS.timescale; var startDTS = (nextAudioPts !== null ? nextAudioPts : videoData.startDTS * inputTimeScale) + init90kHz; var endDTS = videoData.endDTS * inputTimeScale + init90kHz; // one sample's duration value var frameDuration = scaleFactor * AAC_SAMPLES_PER_FRAME; // samples count of this segment's duration var nbSamples = Math.ceil((endDTS - startDTS) / frameDuration); // silent frame var silentFrame = AAC.getSilentFrame(track.manifestCodec || track.codec, track.channelCount); logger.warn('[mp4-remuxer]: remux empty Audio'); // Can't remux if we can't generate a silent frame... if (!silentFrame) { logger.trace('[mp4-remuxer]: Unable to remuxEmptyAudio since we were unable to get a silent frame for given audio codec'); return; } var samples = []; for (var i = 0; i < nbSamples; i++) { var stamp = startDTS + i * frameDuration; samples.push({ unit: silentFrame, pts: stamp, dts: stamp }); } track.samples = samples; return this.remuxAudio(track, timeOffset, contiguous, false); }; return MP4Remuxer; }(); function normalizePts(value, reference) { var offset; if (reference === null) { return value; } if (reference < value) { // - 2^33 offset = -8589934592; } else { // + 2^33 offset = 8589934592; } /* PTS is 33bit (from 0 to 2^33 -1) if diff between value and reference is bigger than half of the amplitude (2^32) then it means that PTS looping occured. fill the gap */ while (Math.abs(value - reference) > 4294967296) { value += offset; } return value; } function findKeyframeIndex(samples) { for (var i = 0; i < samples.length; i++) { if (samples[i].key) { return i; } } return -1; } function flushTextTrackMetadataCueSamples(track, timeOffset, initPTS, initDTS) { var length = track.samples.length; if (!length) { return; } var inputTimeScale = track.inputTimeScale; for (var index = 0; index < length; index++) { var sample = track.samples[index]; // setting id3 pts, dts to relative time // using this._initPTS and this._initDTS to calculate relative time sample.pts = normalizePts(sample.pts - initPTS.baseTime * inputTimeScale / initPTS.timescale, timeOffset * inputTimeScale) / inputTimeScale; sample.dts = normalizePts(sample.dts - initDTS.baseTime * inputTimeScale / initDTS.timescale, timeOffset * inputTimeScale) / inputTimeScale; } var samples = track.samples; track.samples = []; return { samples: samples }; } function flushTextTrackUserdataCueSamples(track, timeOffset, initPTS) { var length = track.samples.length; if (!length) { return; } var inputTimeScale = track.inputTimeScale; for (var index = 0; index < length; index++) { var sample = track.samples[index]; // setting text pts, dts to relative time // using this._initPTS and this._initDTS to calculate relative time sample.pts = normalizePts(sample.pts - initPTS.baseTime * inputTimeScale / initPTS.timescale, timeOffset * inputTimeScale) / inputTimeScale; } track.samples.sort(function (a, b) { return a.pts - b.pts; }); var samples = track.samples; track.samples = []; return { samples: samples }; } var Mp4Sample = function Mp4Sample(isKeyframe, duration, size, cts) { this.size = void 0; this.duration = void 0; this.cts = void 0; this.flags = void 0; this.duration = duration; this.size = size; this.cts = cts; this.flags = new Mp4SampleFlags(isKeyframe); }; var Mp4SampleFlags = function Mp4SampleFlags(isKeyframe) { this.isLeading = 0; this.isDependedOn = 0; this.hasRedundancy = 0; this.degradPrio = 0; this.dependsOn = 1; this.isNonSync = 1; this.dependsOn = isKeyframe ? 2 : 1; this.isNonSync = isKeyframe ? 0 : 1; }; var PassThroughRemuxer = /*#__PURE__*/function () { function PassThroughRemuxer() { this.emitInitSegment = false; this.audioCodec = void 0; this.videoCodec = void 0; this.initData = void 0; this.initPTS = null; this.initTracks = void 0; this.lastEndTime = null; } var _proto = PassThroughRemuxer.prototype; _proto.destroy = function destroy() {}; _proto.resetTimeStamp = function resetTimeStamp(defaultInitPTS) { this.initPTS = defaultInitPTS; this.lastEndTime = null; }; _proto.resetNextTimestamp = function resetNextTimestamp() { this.lastEndTime = null; }; _proto.resetInitSegment = function resetInitSegment(initSegment, audioCodec, videoCodec, decryptdata) { this.audioCodec = audioCodec; this.videoCodec = videoCodec; this.generateInitSegment(patchEncyptionData(initSegment, decryptdata)); this.emitInitSegment = true; }; _proto.generateInitSegment = function generateInitSegment(initSegment) { var audioCodec = this.audioCodec, videoCodec = this.videoCodec; if (!(initSegment != null && initSegment.byteLength)) { this.initTracks = undefined; this.initData = undefined; return; } var initData = this.initData = parseInitSegment(initSegment); // Get codec from initSegment or fallback to default if (!audioCodec) { audioCodec = getParsedTrackCodec(initData.audio, ElementaryStreamTypes.AUDIO); } if (!videoCodec) { videoCodec = getParsedTrackCodec(initData.video, ElementaryStreamTypes.VIDEO); } var tracks = {}; if (initData.audio && initData.video) { tracks.audiovideo = { container: 'video/mp4', codec: audioCodec + ',' + videoCodec, initSegment: initSegment, id: 'main' }; } else if (initData.audio) { tracks.audio = { container: 'audio/mp4', codec: audioCodec, initSegment: initSegment, id: 'audio' }; } else if (initData.video) { tracks.video = { container: 'video/mp4', codec: videoCodec, initSegment: initSegment, id: 'main' }; } else { logger.warn('[passthrough-remuxer.ts]: initSegment does not contain moov or trak boxes.'); } this.initTracks = tracks; }; _proto.remux = function remux(audioTrack, videoTrack, id3Track, textTrack, timeOffset, accurateTimeOffset) { var _initData, _initData2; var initPTS = this.initPTS, lastEndTime = this.lastEndTime; var result = { audio: undefined, video: undefined, text: textTrack, id3: id3Track, initSegment: undefined }; // If we haven't yet set a lastEndDTS, or it was reset, set it to the provided timeOffset. We want to use the // lastEndDTS over timeOffset whenever possible; during progressive playback, the media source will not update // the media duration (which is what timeOffset is provided as) before we need to process the next chunk. if (!isFiniteNumber(lastEndTime)) { lastEndTime = this.lastEndTime = timeOffset || 0; } // The binary segment data is added to the videoTrack in the mp4demuxer. We don't check to see if the data is only // audio or video (or both); adding it to video was an arbitrary choice. var data = videoTrack.samples; if (!(data != null && data.length)) { return result; } var initSegment = { initPTS: undefined, timescale: 1 }; var initData = this.initData; if (!((_initData = initData) != null && _initData.length)) { this.generateInitSegment(data); initData = this.initData; } if (!((_initData2 = initData) != null && _initData2.length)) { // We can't remux if the initSegment could not be generated logger.warn('[passthrough-remuxer.ts]: Failed to generate initSegment.'); return result; } if (this.emitInitSegment) { initSegment.tracks = this.initTracks; this.emitInitSegment = false; } var duration = getDuration(data, initData); var startDTS = getStartDTS(initData, data); var decodeTime = startDTS === null ? timeOffset : startDTS; if (isInvalidInitPts(initPTS, decodeTime, timeOffset, duration) || initSegment.timescale !== initPTS.timescale && accurateTimeOffset) { initSegment.initPTS = decodeTime - timeOffset; if (initPTS && initPTS.timescale === 1) { logger.warn("Adjusting initPTS by " + (initSegment.initPTS - initPTS.baseTime)); } this.initPTS = initPTS = { baseTime: initSegment.initPTS, timescale: 1 }; } var startTime = audioTrack ? decodeTime - initPTS.baseTime / initPTS.timescale : lastEndTime; var endTime = startTime + duration; offsetStartDTS(initData, data, initPTS.baseTime / initPTS.timescale); if (duration > 0) { this.lastEndTime = endTime; } else { logger.warn('Duration parsed from mp4 should be greater than zero'); this.resetNextTimestamp(); } var hasAudio = !!initData.audio; var hasVideo = !!initData.video; var type = ''; if (hasAudio) { type += 'audio'; } if (hasVideo) { type += 'video'; } var track = { data1: data, startPTS: startTime, startDTS: startTime, endPTS: endTime, endDTS: endTime, type: type, hasAudio: hasAudio, hasVideo: hasVideo, nb: 1, dropped: 0 }; result.audio = track.type === 'audio' ? track : undefined; result.video = track.type !== 'audio' ? track : undefined; result.initSegment = initSegment; result.id3 = flushTextTrackMetadataCueSamples(id3Track, timeOffset, initPTS, initPTS); if (textTrack.samples.length) { result.text = flushTextTrackUserdataCueSamples(textTrack, timeOffset, initPTS); } return result; }; return PassThroughRemuxer; }(); function isInvalidInitPts(initPTS, startDTS, timeOffset, duration) { if (initPTS === null) { return true; } // InitPTS is invalid when distance from program would be more than segment duration or a minimum of one second var minDuration = Math.max(duration, 1); var startTime = startDTS - initPTS.baseTime / initPTS.timescale; return Math.abs(startTime - timeOffset) > minDuration; } function getParsedTrackCodec(track, type) { var parsedCodec = track == null ? void 0 : track.codec; if (parsedCodec && parsedCodec.length > 4) { return parsedCodec; } // Since mp4-tools cannot parse full codec string (see 'TODO: Parse codec details'... in mp4-tools) // Provide defaults based on codec type // This allows for some playback of some fmp4 playlists without CODECS defined in manifest if (parsedCodec === 'hvc1' || parsedCodec === 'hev1') { return 'hvc1.1.6.L120.90'; } if (parsedCodec === 'av01') { return 'av01.0.04M.08'; } if (parsedCodec === 'avc1' || type === ElementaryStreamTypes.VIDEO) { return 'avc1.42e01e'; } return 'mp4a.40.5'; } var now; // performance.now() not available on WebWorker, at least on Safari Desktop try { now = self.performance.now.bind(self.performance); } catch (err) { logger.debug('Unable to use Performance API on this environment'); now = typeof self !== 'undefined' && self.Date.now; } var muxConfig = [{ demux: MP4Demuxer, remux: PassThroughRemuxer }, { demux: TSDemuxer, remux: MP4Remuxer }, { demux: AACDemuxer, remux: MP4Remuxer }, { demux: MP3Demuxer, remux: MP4Remuxer }]; var Transmuxer = /*#__PURE__*/function () { function Transmuxer(observer, typeSupported, config, vendor, id) { this.async = false; this.observer = void 0; this.typeSupported = void 0; this.config = void 0; this.vendor = void 0; this.id = void 0; this.demuxer = void 0; this.remuxer = void 0; this.decrypter = void 0; this.probe = void 0; this.decryptionPromise = null; this.transmuxConfig = void 0; this.currentTransmuxState = void 0; this.observer = observer; this.typeSupported = typeSupported; this.config = config; this.vendor = vendor; this.id = id; } var _proto = Transmuxer.prototype; _proto.configure = function configure(transmuxConfig) { this.transmuxConfig = transmuxConfig; if (this.decrypter) { this.decrypter.reset(); } }; _proto.push = function push(data, decryptdata, chunkMeta, state) { var _this = this; var stats = chunkMeta.transmuxing; stats.executeStart = now(); var uintData = new Uint8Array(data); var currentTransmuxState = this.currentTransmuxState, transmuxConfig = this.transmuxConfig; if (state) { this.currentTransmuxState = state; } var _ref = state || currentTransmuxState, contiguous = _ref.contiguous, discontinuity = _ref.discontinuity, trackSwitch = _ref.trackSwitch, accurateTimeOffset = _ref.accurateTimeOffset, timeOffset = _ref.timeOffset, initSegmentChange = _ref.initSegmentChange; var audioCodec = transmuxConfig.audioCodec, videoCodec = transmuxConfig.videoCodec, defaultInitPts = transmuxConfig.defaultInitPts, duration = transmuxConfig.duration, initSegmentData = transmuxConfig.initSegmentData; var keyData = getEncryptionType(uintData, decryptdata); if (keyData && keyData.method === 'AES-128') { var decrypter = this.getDecrypter(); // Software decryption is synchronous; webCrypto is not if (decrypter.isSync()) { // Software decryption is progressive. Progressive decryption may not return a result on each call. Any cached // data is handled in the flush() call var decryptedData = decrypter.softwareDecrypt(uintData, keyData.key.buffer, keyData.iv.buffer); // For Low-Latency HLS Parts, decrypt in place, since part parsing is expected on push progress var loadingParts = chunkMeta.part > -1; if (loadingParts) { decryptedData = decrypter.flush(); } if (!decryptedData) { stats.executeEnd = now(); return emptyResult(chunkMeta); } uintData = new Uint8Array(decryptedData); } else { this.decryptionPromise = decrypter.webCryptoDecrypt(uintData, keyData.key.buffer, keyData.iv.buffer).then(function (decryptedData) { // Calling push here is important; if flush() is called while this is still resolving, this ensures that // the decrypted data has been transmuxed var result = _this.push(decryptedData, null, chunkMeta); _this.decryptionPromise = null; return result; }); return this.decryptionPromise; } } var resetMuxers = this.needsProbing(discontinuity, trackSwitch); if (resetMuxers) { var error = this.configureTransmuxer(uintData); if (error) { logger.warn("[transmuxer] " + error.message); this.observer.emit(Events.ERROR, Events.ERROR, { type: ErrorTypes.MEDIA_ERROR, details: ErrorDetails.FRAG_PARSING_ERROR, fatal: false, error: error, reason: error.message }); stats.executeEnd = now(); return emptyResult(chunkMeta); } } if (discontinuity || trackSwitch || initSegmentChange || resetMuxers) { this.resetInitSegment(initSegmentData, audioCodec, videoCodec, duration, decryptdata); } if (discontinuity || initSegmentChange || resetMuxers) { this.resetInitialTimestamp(defaultInitPts); } if (!contiguous) { this.resetContiguity(); } var result = this.transmux(uintData, keyData, timeOffset, accurateTimeOffset, chunkMeta); var currentState = this.currentTransmuxState; currentState.contiguous = true; currentState.discontinuity = false; currentState.trackSwitch = false; stats.executeEnd = now(); return result; } // Due to data caching, flush calls can produce more than one TransmuxerResult (hence the Array type) ; _proto.flush = function flush(chunkMeta) { var _this2 = this; var stats = chunkMeta.transmuxing; stats.executeStart = now(); var decrypter = this.decrypter, currentTransmuxState = this.currentTransmuxState, decryptionPromise = this.decryptionPromise; if (decryptionPromise) { // Upon resolution, the decryption promise calls push() and returns its TransmuxerResult up the stack. Therefore // only flushing is required for async decryption return decryptionPromise.then(function () { return _this2.flush(chunkMeta); }); } var transmuxResults = []; var timeOffset = currentTransmuxState.timeOffset; if (decrypter) { // The decrypter may have data cached, which needs to be demuxed. In this case we'll have two TransmuxResults // This happens in the case that we receive only 1 push call for a segment (either for non-progressive downloads, // or for progressive downloads with small segments) var decryptedData = decrypter.flush(); if (decryptedData) { // Push always returns a TransmuxerResult if decryptdata is null transmuxResults.push(this.push(decryptedData, null, chunkMeta)); } } var demuxer = this.demuxer, remuxer = this.remuxer; if (!demuxer || !remuxer) { // If probing failed, then Hls.js has been given content its not able to handle stats.executeEnd = now(); return [emptyResult(chunkMeta)]; } var demuxResultOrPromise = demuxer.flush(timeOffset); if (isPromise(demuxResultOrPromise)) { // Decrypt final SAMPLE-AES samples return demuxResultOrPromise.then(function (demuxResult) { _this2.flushRemux(transmuxResults, demuxResult, chunkMeta); return transmuxResults; }); } this.flushRemux(transmuxResults, demuxResultOrPromise, chunkMeta); return transmuxResults; }; _proto.flushRemux = function flushRemux(transmuxResults, demuxResult, chunkMeta) { var audioTrack = demuxResult.audioTrack, videoTrack = demuxResult.videoTrack, id3Track = demuxResult.id3Track, textTrack = demuxResult.textTrack; var _this$currentTransmux = this.currentTransmuxState, accurateTimeOffset = _this$currentTransmux.accurateTimeOffset, timeOffset = _this$currentTransmux.timeOffset; logger.log("[transmuxer.ts]: Flushed fragment " + chunkMeta.sn + (chunkMeta.part > -1 ? ' p: ' + chunkMeta.part : '') + " of level " + chunkMeta.level); var remuxResult = this.remuxer.remux(audioTrack, videoTrack, id3Track, textTrack, timeOffset, accurateTimeOffset, true, this.id); transmuxResults.push({ remuxResult: remuxResult, chunkMeta: chunkMeta }); chunkMeta.transmuxing.executeEnd = now(); }; _proto.resetInitialTimestamp = function resetInitialTimestamp(defaultInitPts) { var demuxer = this.demuxer, remuxer = this.remuxer; if (!demuxer || !remuxer) { return; } demuxer.resetTimeStamp(defaultInitPts); remuxer.resetTimeStamp(defaultInitPts); }; _proto.resetContiguity = function resetContiguity() { var demuxer = this.demuxer, remuxer = this.remuxer; if (!demuxer || !remuxer) { return; } demuxer.resetContiguity(); remuxer.resetNextTimestamp(); }; _proto.resetInitSegment = function resetInitSegment(initSegmentData, audioCodec, videoCodec, trackDuration, decryptdata) { var demuxer = this.demuxer, remuxer = this.remuxer; if (!demuxer || !remuxer) { return; } demuxer.resetInitSegment(initSegmentData, audioCodec, videoCodec, trackDuration); remuxer.resetInitSegment(initSegmentData, audioCodec, videoCodec, decryptdata); }; _proto.destroy = function destroy() { if (this.demuxer) { this.demuxer.destroy(); this.demuxer = undefined; } if (this.remuxer) { this.remuxer.destroy(); this.remuxer = undefined; } }; _proto.transmux = function transmux(data, keyData, timeOffset, accurateTimeOffset, chunkMeta) { var result; if (keyData && keyData.method === 'SAMPLE-AES') { result = this.transmuxSampleAes(data, keyData, timeOffset, accurateTimeOffset, chunkMeta); } else { result = this.transmuxUnencrypted(data, timeOffset, accurateTimeOffset, chunkMeta); } return result; }; _proto.transmuxUnencrypted = function transmuxUnencrypted(data, timeOffset, accurateTimeOffset, chunkMeta) { var _demux = this.demuxer.demux(data, timeOffset, false, !this.config.progressive), audioTrack = _demux.audioTrack, videoTrack = _demux.videoTrack, id3Track = _demux.id3Track, textTrack = _demux.textTrack; var remuxResult = this.remuxer.remux(audioTrack, videoTrack, id3Track, textTrack, timeOffset, accurateTimeOffset, false, this.id); return { remuxResult: remuxResult, chunkMeta: chunkMeta }; }; _proto.transmuxSampleAes = function transmuxSampleAes(data, decryptData, timeOffset, accurateTimeOffset, chunkMeta) { var _this3 = this; return this.demuxer.demuxSampleAes(data, decryptData, timeOffset).then(function (demuxResult) { var remuxResult = _this3.remuxer.remux(demuxResult.audioTrack, demuxResult.videoTrack, demuxResult.id3Track, demuxResult.textTrack, timeOffset, accurateTimeOffset, false, _this3.id); return { remuxResult: remuxResult, chunkMeta: chunkMeta }; }); }; _proto.configureTransmuxer = function configureTransmuxer(data) { var config = this.config, observer = this.observer, typeSupported = this.typeSupported, vendor = this.vendor; // probe for content type var mux; for (var i = 0, len = muxConfig.length; i < len; i++) { if (muxConfig[i].demux.probe(data)) { mux = muxConfig[i]; break; } } if (!mux) { return new Error('Failed to find demuxer by probing fragment data'); } // so let's check that current remuxer and demuxer are still valid var demuxer = this.demuxer; var remuxer = this.remuxer; var Remuxer = mux.remux; var Demuxer = mux.demux; if (!remuxer || !(remuxer instanceof Remuxer)) { this.remuxer = new Remuxer(observer, config, typeSupported, vendor); } if (!demuxer || !(demuxer instanceof Demuxer)) { this.demuxer = new Demuxer(observer, config, typeSupported); this.probe = Demuxer.probe; } }; _proto.needsProbing = function needsProbing(discontinuity, trackSwitch) { // in case of continuity change, or track switch // we might switch from content type (AAC container to TS container, or TS to fmp4 for example) return !this.demuxer || !this.remuxer || discontinuity || trackSwitch; }; _proto.getDecrypter = function getDecrypter() { var decrypter = this.decrypter; if (!decrypter) { decrypter = this.decrypter = new Decrypter(this.config); } return decrypter; }; return Transmuxer; }(); function getEncryptionType(data, decryptData) { var encryptionType = null; if (data.byteLength > 0 && decryptData != null && decryptData.key != null && decryptData.iv !== null && decryptData.method != null) { encryptionType = decryptData; } return encryptionType; } var emptyResult = function emptyResult(chunkMeta) { return { remuxResult: {}, chunkMeta: chunkMeta }; }; function isPromise(p) { return 'then' in p && p.then instanceof Function; } var TransmuxConfig = function TransmuxConfig(audioCodec, videoCodec, initSegmentData, duration, defaultInitPts) { this.audioCodec = void 0; this.videoCodec = void 0; this.initSegmentData = void 0; this.duration = void 0; this.defaultInitPts = void 0; this.audioCodec = audioCodec; this.videoCodec = videoCodec; this.initSegmentData = initSegmentData; this.duration = duration; this.defaultInitPts = defaultInitPts || null; }; var TransmuxState = function TransmuxState(discontinuity, contiguous, accurateTimeOffset, trackSwitch, timeOffset, initSegmentChange) { this.discontinuity = void 0; this.contiguous = void 0; this.accurateTimeOffset = void 0; this.trackSwitch = void 0; this.timeOffset = void 0; this.initSegmentChange = void 0; this.discontinuity = discontinuity; this.contiguous = contiguous; this.accurateTimeOffset = accurateTimeOffset; this.trackSwitch = trackSwitch; this.timeOffset = timeOffset; this.initSegmentChange = initSegmentChange; }; var eventemitter3 = {exports: {}}; (function (module) { var has = Object.prototype.hasOwnProperty , prefix = '~'; /** * Constructor to create a storage for our `EE` objects. * An `Events` instance is a plain object whose properties are event names. * * @constructor * @private */ function Events() {} // // We try to not inherit from `Object.prototype`. In some engines creating an // instance in this way is faster than calling `Object.create(null)` directly. // If `Object.create(null)` is not supported we prefix the event names with a // character to make sure that the built-in object properties are not // overridden or used as an attack vector. // if (Object.create) { Events.prototype = Object.create(null); // // This hack is needed because the `__proto__` property is still inherited in // some old browsers like Android 4, iPhone 5.1, Opera 11 and Safari 5. // if (!new Events().__proto__) prefix = false; } /** * Representation of a single event listener. * * @param {Function} fn The listener function. * @param {*} context The context to invoke the listener with. * @param {Boolean} [once=false] Specify if the listener is a one-time listener. * @constructor * @private */ function EE(fn, context, once) { this.fn = fn; this.context = context; this.once = once || false; } /** * Add a listener for a given event. * * @param {EventEmitter} emitter Reference to the `EventEmitter` instance. * @param {(String|Symbol)} event The event name. * @param {Function} fn The listener function. * @param {*} context The context to invoke the listener with. * @param {Boolean} once Specify if the listener is a one-time listener. * @returns {EventEmitter} * @private */ function addListener(emitter, event, fn, context, once) { if (typeof fn !== 'function') { throw new TypeError('The listener must be a function'); } var listener = new EE(fn, context || emitter, once) , evt = prefix ? prefix + event : event; if (!emitter._events[evt]) emitter._events[evt] = listener, emitter._eventsCount++; else if (!emitter._events[evt].fn) emitter._events[evt].push(listener); else emitter._events[evt] = [emitter._events[evt], listener]; return emitter; } /** * Clear event by name. * * @param {EventEmitter} emitter Reference to the `EventEmitter` instance. * @param {(String|Symbol)} evt The Event name. * @private */ function clearEvent(emitter, evt) { if (--emitter._eventsCount === 0) emitter._events = new Events(); else delete emitter._events[evt]; } /** * Minimal `EventEmitter` interface that is molded against the Node.js * `EventEmitter` interface. * * @constructor * @public */ function EventEmitter() { this._events = new Events(); this._eventsCount = 0; } /** * Return an array listing the events for which the emitter has registered * listeners. * * @returns {Array} * @public */ EventEmitter.prototype.eventNames = function eventNames() { var names = [] , events , name; if (this._eventsCount === 0) return names; for (name in (events = this._events)) { if (has.call(events, name)) names.push(prefix ? name.slice(1) : name); } if (Object.getOwnPropertySymbols) { return names.concat(Object.getOwnPropertySymbols(events)); } return names; }; /** * Return the listeners registered for a given event. * * @param {(String|Symbol)} event The event name. * @returns {Array} The registered listeners. * @public */ EventEmitter.prototype.listeners = function listeners(event) { var evt = prefix ? prefix + event : event , handlers = this._events[evt]; if (!handlers) return []; if (handlers.fn) return [handlers.fn]; for (var i = 0, l = handlers.length, ee = new Array(l); i < l; i++) { ee[i] = handlers[i].fn; } return ee; }; /** * Return the number of listeners listening to a given event. * * @param {(String|Symbol)} event The event name. * @returns {Number} The number of listeners. * @public */ EventEmitter.prototype.listenerCount = function listenerCount(event) { var evt = prefix ? prefix + event : event , listeners = this._events[evt]; if (!listeners) return 0; if (listeners.fn) return 1; return listeners.length; }; /** * Calls each of the listeners registered for a given event. * * @param {(String|Symbol)} event The event name. * @returns {Boolean} `true` if the event had listeners, else `false`. * @public */ EventEmitter.prototype.emit = function emit(event, a1, a2, a3, a4, a5) { var evt = prefix ? prefix + event : event; if (!this._events[evt]) return false; var listeners = this._events[evt] , len = arguments.length , args , i; if (listeners.fn) { if (listeners.once) this.removeListener(event, listeners.fn, undefined, true); switch (len) { case 1: return listeners.fn.call(listeners.context), true; case 2: return listeners.fn.call(listeners.context, a1), true; case 3: return listeners.fn.call(listeners.context, a1, a2), true; case 4: return listeners.fn.call(listeners.context, a1, a2, a3), true; case 5: return listeners.fn.call(listeners.context, a1, a2, a3, a4), true; case 6: return listeners.fn.call(listeners.context, a1, a2, a3, a4, a5), true; } for (i = 1, args = new Array(len -1); i < len; i++) { args[i - 1] = arguments[i]; } listeners.fn.apply(listeners.context, args); } else { var length = listeners.length , j; for (i = 0; i < length; i++) { if (listeners[i].once) this.removeListener(event, listeners[i].fn, undefined, true); switch (len) { case 1: listeners[i].fn.call(listeners[i].context); break; case 2: listeners[i].fn.call(listeners[i].context, a1); break; case 3: listeners[i].fn.call(listeners[i].context, a1, a2); break; case 4: listeners[i].fn.call(listeners[i].context, a1, a2, a3); break; default: if (!args) for (j = 1, args = new Array(len -1); j < len; j++) { args[j - 1] = arguments[j]; } listeners[i].fn.apply(listeners[i].context, args); } } } return true; }; /** * Add a listener for a given event. * * @param {(String|Symbol)} event The event name. * @param {Function} fn The listener function. * @param {*} [context=this] The context to invoke the listener with. * @returns {EventEmitter} `this`. * @public */ EventEmitter.prototype.on = function on(event, fn, context) { return addListener(this, event, fn, context, false); }; /** * Add a one-time listener for a given event. * * @param {(String|Symbol)} event The event name. * @param {Function} fn The listener function. * @param {*} [context=this] The context to invoke the listener with. * @returns {EventEmitter} `this`. * @public */ EventEmitter.prototype.once = function once(event, fn, context) { return addListener(this, event, fn, context, true); }; /** * Remove the listeners of a given event. * * @param {(String|Symbol)} event The event name. * @param {Function} fn Only remove the listeners that match this function. * @param {*} context Only remove the listeners that have this context. * @param {Boolean} once Only remove one-time listeners. * @returns {EventEmitter} `this`. * @public */ EventEmitter.prototype.removeListener = function removeListener(event, fn, context, once) { var evt = prefix ? prefix + event : event; if (!this._events[evt]) return this; if (!fn) { clearEvent(this, evt); return this; } var listeners = this._events[evt]; if (listeners.fn) { if ( listeners.fn === fn && (!once || listeners.once) && (!context || listeners.context === context) ) { clearEvent(this, evt); } } else { for (var i = 0, events = [], length = listeners.length; i < length; i++) { if ( listeners[i].fn !== fn || (once && !listeners[i].once) || (context && listeners[i].context !== context) ) { events.push(listeners[i]); } } // // Reset the array, or remove it completely if we have no more listeners. // if (events.length) this._events[evt] = events.length === 1 ? events[0] : events; else clearEvent(this, evt); } return this; }; /** * Remove all listeners, or those of the specified event. * * @param {(String|Symbol)} [event] The event name. * @returns {EventEmitter} `this`. * @public */ EventEmitter.prototype.removeAllListeners = function removeAllListeners(event) { var evt; if (event) { evt = prefix ? prefix + event : event; if (this._events[evt]) clearEvent(this, evt); } else { this._events = new Events(); this._eventsCount = 0; } return this; }; // // Alias methods names because people roll like that. // EventEmitter.prototype.off = EventEmitter.prototype.removeListener; EventEmitter.prototype.addListener = EventEmitter.prototype.on; // // Expose the prefix. // EventEmitter.prefixed = prefix; // // Allow `EventEmitter` to be imported as module namespace. // EventEmitter.EventEmitter = EventEmitter; // // Expose the module. // { module.exports = EventEmitter; } } (eventemitter3)); var eventemitter3Exports = eventemitter3.exports; var EventEmitter = /*@__PURE__*/getDefaultExportFromCjs(eventemitter3Exports); if (typeof __IN_WORKER__ !== 'undefined' && __IN_WORKER__) { startWorker(self); } function startWorker(self) { var observer = new EventEmitter(); var forwardMessage = function forwardMessage(ev, data) { self.postMessage({ event: ev, data: data }); }; // forward events to main thread observer.on(Events.FRAG_DECRYPTED, forwardMessage); observer.on(Events.ERROR, forwardMessage); // forward logger events to main thread var forwardWorkerLogs = function forwardWorkerLogs() { var _loop = function _loop(logFn) { var func = function func(message) { forwardMessage('workerLog', { logType: logFn, message: message }); }; logger[logFn] = func; }; for (var logFn in logger) { _loop(logFn); } }; self.addEventListener('message', function (ev) { var data = ev.data; switch (data.cmd) { case 'init': { var config = JSON.parse(data.config); self.transmuxer = new Transmuxer(observer, data.typeSupported, config, data.vendor, data.id); enableLogs(config.debug, data.id); forwardWorkerLogs(); forwardMessage('init', null); break; } case 'configure': { self.transmuxer.configure(data.config); break; } case 'demux': { var transmuxResult = self.transmuxer.push(data.data, data.decryptdata, data.chunkMeta, data.state); if (isPromise(transmuxResult)) { self.transmuxer.async = true; transmuxResult.then(function (data) { emitTransmuxComplete(self, data); }).catch(function (error) { forwardMessage(Events.ERROR, { type: ErrorTypes.MEDIA_ERROR, details: ErrorDetails.FRAG_PARSING_ERROR, chunkMeta: data.chunkMeta, fatal: false, error: error, err: error, reason: "transmuxer-worker push error" }); }); } else { self.transmuxer.async = false; emitTransmuxComplete(self, transmuxResult); } break; } case 'flush': { var id = data.chunkMeta; var _transmuxResult = self.transmuxer.flush(id); var asyncFlush = isPromise(_transmuxResult); if (asyncFlush || self.transmuxer.async) { if (!isPromise(_transmuxResult)) { _transmuxResult = Promise.resolve(_transmuxResult); } _transmuxResult.then(function (results) { handleFlushResult(self, results, id); }).catch(function (error) { forwardMessage(Events.ERROR, { type: ErrorTypes.MEDIA_ERROR, details: ErrorDetails.FRAG_PARSING_ERROR, chunkMeta: data.chunkMeta, fatal: false, error: error, err: error, reason: "transmuxer-worker flush error" }); }); } else { handleFlushResult(self, _transmuxResult, id); } break; } } }); } function emitTransmuxComplete(self, transmuxResult) { if (isEmptyResult(transmuxResult.remuxResult)) { return false; } var transferable = []; var _transmuxResult$remux = transmuxResult.remuxResult, audio = _transmuxResult$remux.audio, video = _transmuxResult$remux.video; if (audio) { addToTransferable(transferable, audio); } if (video) { addToTransferable(transferable, video); } self.postMessage({ event: 'transmuxComplete', data: transmuxResult }, transferable); return true; } // Converts data to a transferable object https://developers.google.com/web/updates/2011/12/Transferable-Objects-Lightning-Fast) // in order to minimize message passing overhead function addToTransferable(transferable, track) { if (track.data1) { transferable.push(track.data1.buffer); } if (track.data2) { transferable.push(track.data2.buffer); } } function handleFlushResult(self, results, chunkMeta) { var parsed = results.reduce(function (parsed, result) { return emitTransmuxComplete(self, result) || parsed; }, false); if (!parsed) { // Emit at least one "transmuxComplete" message even if media is not found to update stream-controller state to PARSING self.postMessage({ event: 'transmuxComplete', data: results[0] }); } self.postMessage({ event: 'flush', data: chunkMeta }); } function isEmptyResult(remuxResult) { return !remuxResult.audio && !remuxResult.video && !remuxResult.text && !remuxResult.id3 && !remuxResult.initSegment; } // ensure the worker ends up in the bundle // If the worker should not be included this gets aliased to empty.js function hasUMDWorker() { return typeof __HLS_WORKER_BUNDLE__ === 'function'; } function injectWorker() { var blob = new self.Blob(["var exports={};var module={exports:exports};function define(f){f()};define.amd=true;(" + __HLS_WORKER_BUNDLE__.toString() + ")(true);"], { type: 'text/javascript' }); var objectURL = self.URL.createObjectURL(blob); var worker = new self.Worker(objectURL); return { worker: worker, objectURL: objectURL }; } function loadWorker(path) { var scriptURL = new self.URL(path, self.location.href).href; var worker = new self.Worker(scriptURL); return { worker: worker, scriptURL: scriptURL }; } var MediaSource$1 = getMediaSource() || { isTypeSupported: function isTypeSupported() { return false; } }; var TransmuxerInterface = /*#__PURE__*/function () { function TransmuxerInterface(hls, id, onTransmuxComplete, onFlush) { var _this = this; this.error = null; this.hls = void 0; this.id = void 0; this.observer = void 0; this.frag = null; this.part = null; this.useWorker = void 0; this.workerContext = null; this.onwmsg = void 0; this.transmuxer = null; this.onTransmuxComplete = void 0; this.onFlush = void 0; var config = hls.config; this.hls = hls; this.id = id; this.useWorker = !!config.enableWorker; this.onTransmuxComplete = onTransmuxComplete; this.onFlush = onFlush; var forwardMessage = function forwardMessage(ev, data) { data = data || {}; data.frag = _this.frag; data.id = _this.id; if (ev === Events.ERROR) { _this.error = data.error; } _this.hls.trigger(ev, data); }; // forward events to main thread this.observer = new EventEmitter(); this.observer.on(Events.FRAG_DECRYPTED, forwardMessage); this.observer.on(Events.ERROR, forwardMessage); var typeSupported = { mp4: MediaSource$1.isTypeSupported('video/mp4'), mpeg: MediaSource$1.isTypeSupported('audio/mpeg'), mp3: MediaSource$1.isTypeSupported('audio/mp4; codecs="mp3"') }; // navigator.vendor is not always available in Web Worker // refer to https://developer.mozilla.org/en-US/docs/Web/API/WorkerGlobalScope/navigator var vendor = navigator.vendor; if (this.useWorker && typeof Worker !== 'undefined') { var canCreateWorker = config.workerPath || hasUMDWorker(); if (canCreateWorker) { try { if (config.workerPath) { logger.log("loading Web Worker " + config.workerPath + " for \"" + id + "\""); this.workerContext = loadWorker(config.workerPath); } else { logger.log("injecting Web Worker for \"" + id + "\""); this.workerContext = injectWorker(); } this.onwmsg = function (ev) { return _this.onWorkerMessage(ev); }; var worker = this.workerContext.worker; worker.addEventListener('message', this.onwmsg); worker.onerror = function (event) { var error = new Error(event.message + " (" + event.filename + ":" + event.lineno + ")"); config.enableWorker = false; logger.warn("Error in \"" + id + "\" Web Worker, fallback to inline"); _this.hls.trigger(Events.ERROR, { type: ErrorTypes.OTHER_ERROR, details: ErrorDetails.INTERNAL_EXCEPTION, fatal: false, event: 'demuxerWorker', error: error }); }; worker.postMessage({ cmd: 'init', typeSupported: typeSupported, vendor: vendor, id: id, config: JSON.stringify(config) }); } catch (err) { logger.warn("Error setting up \"" + id + "\" Web Worker, fallback to inline", err); this.resetWorker(); this.error = null; this.transmuxer = new Transmuxer(this.observer, typeSupported, config, vendor, id); } return; } } this.transmuxer = new Transmuxer(this.observer, typeSupported, config, vendor, id); } var _proto = TransmuxerInterface.prototype; _proto.resetWorker = function resetWorker() { if (this.workerContext) { var _this$workerContext = this.workerContext, worker = _this$workerContext.worker, objectURL = _this$workerContext.objectURL; if (objectURL) { // revoke the Object URL that was used to create transmuxer worker, so as not to leak it self.URL.revokeObjectURL(objectURL); } worker.removeEventListener('message', this.onwmsg); worker.onerror = null; worker.terminate(); this.workerContext = null; } }; _proto.destroy = function destroy() { if (this.workerContext) { this.resetWorker(); this.onwmsg = undefined; } else { var transmuxer = this.transmuxer; if (transmuxer) { transmuxer.destroy(); this.transmuxer = null; } } var observer = this.observer; if (observer) { observer.removeAllListeners(); } this.frag = null; // @ts-ignore this.observer = null; // @ts-ignore this.hls = null; }; _proto.push = function push(data, initSegmentData, audioCodec, videoCodec, frag, part, duration, accurateTimeOffset, chunkMeta, defaultInitPTS) { var _frag$initSegment, _lastFrag$initSegment, _this2 = this; chunkMeta.transmuxing.start = self.performance.now(); var transmuxer = this.transmuxer; var timeOffset = part ? part.start : frag.start; // TODO: push "clear-lead" decrypt data for unencrypted fragments in streams with encrypted ones var decryptdata = frag.decryptdata; var lastFrag = this.frag; var discontinuity = !(lastFrag && frag.cc === lastFrag.cc); var trackSwitch = !(lastFrag && chunkMeta.level === lastFrag.level); var snDiff = lastFrag ? chunkMeta.sn - lastFrag.sn : -1; var partDiff = this.part ? chunkMeta.part - this.part.index : -1; var progressive = snDiff === 0 && chunkMeta.id > 1 && chunkMeta.id === (lastFrag == null ? void 0 : lastFrag.stats.chunkCount); var contiguous = !trackSwitch && (snDiff === 1 || snDiff === 0 && (partDiff === 1 || progressive && partDiff <= 0)); var now = self.performance.now(); if (trackSwitch || snDiff || frag.stats.parsing.start === 0) { frag.stats.parsing.start = now; } if (part && (partDiff || !contiguous)) { part.stats.parsing.start = now; } var initSegmentChange = !(lastFrag && ((_frag$initSegment = frag.initSegment) == null ? void 0 : _frag$initSegment.url) === ((_lastFrag$initSegment = lastFrag.initSegment) == null ? void 0 : _lastFrag$initSegment.url)); var state = new TransmuxState(discontinuity, contiguous, accurateTimeOffset, trackSwitch, timeOffset, initSegmentChange); if (!contiguous || discontinuity || initSegmentChange) { logger.log("[transmuxer-interface, " + frag.type + "]: Starting new transmux session for sn: " + chunkMeta.sn + " p: " + chunkMeta.part + " level: " + chunkMeta.level + " id: " + chunkMeta.id + "\n discontinuity: " + discontinuity + "\n trackSwitch: " + trackSwitch + "\n contiguous: " + contiguous + "\n accurateTimeOffset: " + accurateTimeOffset + "\n timeOffset: " + timeOffset + "\n initSegmentChange: " + initSegmentChange); var config = new TransmuxConfig(audioCodec, videoCodec, initSegmentData, duration, defaultInitPTS); this.configureTransmuxer(config); } this.frag = frag; this.part = part; // Frags with sn of 'initSegment' are not transmuxed if (this.workerContext) { // post fragment payload as transferable objects for ArrayBuffer (no copy) this.workerContext.worker.postMessage({ cmd: 'demux', data: data, decryptdata: decryptdata, chunkMeta: chunkMeta, state: state }, data instanceof ArrayBuffer ? [data] : []); } else if (transmuxer) { var _transmuxResult = transmuxer.push(data, decryptdata, chunkMeta, state); if (isPromise(_transmuxResult)) { transmuxer.async = true; _transmuxResult.then(function (data) { _this2.handleTransmuxComplete(data); }).catch(function (error) { _this2.transmuxerError(error, chunkMeta, 'transmuxer-interface push error'); }); } else { transmuxer.async = false; this.handleTransmuxComplete(_transmuxResult); } } }; _proto.flush = function flush(chunkMeta) { var _this3 = this; chunkMeta.transmuxing.start = self.performance.now(); var transmuxer = this.transmuxer; if (this.workerContext) { this.workerContext.worker.postMessage({ cmd: 'flush', chunkMeta: chunkMeta }); } else if (transmuxer) { var _transmuxResult2 = transmuxer.flush(chunkMeta); var asyncFlush = isPromise(_transmuxResult2); if (asyncFlush || transmuxer.async) { if (!isPromise(_transmuxResult2)) { _transmuxResult2 = Promise.resolve(_transmuxResult2); } _transmuxResult2.then(function (data) { _this3.handleFlushResult(data, chunkMeta); }).catch(function (error) { _this3.transmuxerError(error, chunkMeta, 'transmuxer-interface flush error'); }); } else { this.handleFlushResult(_transmuxResult2, chunkMeta); } } }; _proto.transmuxerError = function transmuxerError(error, chunkMeta, reason) { if (!this.hls) { return; } this.error = error; this.hls.trigger(Events.ERROR, { type: ErrorTypes.MEDIA_ERROR, details: ErrorDetails.FRAG_PARSING_ERROR, chunkMeta: chunkMeta, fatal: false, error: error, err: error, reason: reason }); }; _proto.handleFlushResult = function handleFlushResult(results, chunkMeta) { var _this4 = this; results.forEach(function (result) { _this4.handleTransmuxComplete(result); }); this.onFlush(chunkMeta); }; _proto.onWorkerMessage = function onWorkerMessage(ev) { var data = ev.data; var hls = this.hls; switch (data.event) { case 'init': { var _this$workerContext2; var objectURL = (_this$workerContext2 = this.workerContext) == null ? void 0 : _this$workerContext2.objectURL; if (objectURL) { // revoke the Object URL that was used to create transmuxer worker, so as not to leak it self.URL.revokeObjectURL(objectURL); } break; } case 'transmuxComplete': { this.handleTransmuxComplete(data.data); break; } case 'flush': { this.onFlush(data.data); break; } // pass logs from the worker thread to the main logger case 'workerLog': if (logger[data.data.logType]) { logger[data.data.logType](data.data.message); } break; default: { data.data = data.data || {}; data.data.frag = this.frag; data.data.id = this.id; hls.trigger(data.event, data.data); break; } } }; _proto.configureTransmuxer = function configureTransmuxer(config) { var transmuxer = this.transmuxer; if (this.workerContext) { this.workerContext.worker.postMessage({ cmd: 'configure', config: config }); } else if (transmuxer) { transmuxer.configure(config); } }; _proto.handleTransmuxComplete = function handleTransmuxComplete(result) { result.chunkMeta.transmuxing.end = self.performance.now(); this.onTransmuxComplete(result); }; return TransmuxerInterface; }(); var STALL_MINIMUM_DURATION_MS = 250; var MAX_START_GAP_JUMP = 2.0; var SKIP_BUFFER_HOLE_STEP_SECONDS = 0.1; var SKIP_BUFFER_RANGE_START = 0.05; var GapController = /*#__PURE__*/function () { function GapController(config, media, fragmentTracker, hls) { this.config = void 0; this.media = null; this.fragmentTracker = void 0; this.hls = void 0; this.nudgeRetry = 0; this.stallReported = false; this.stalled = null; this.moved = false; this.seeking = false; this.config = config; this.media = media; this.fragmentTracker = fragmentTracker; this.hls = hls; } var _proto = GapController.prototype; _proto.destroy = function destroy() { this.media = null; // @ts-ignore this.hls = this.fragmentTracker = null; } /** * Checks if the playhead is stuck within a gap, and if so, attempts to free it. * A gap is an unbuffered range between two buffered ranges (or the start and the first buffered range). * * @param lastCurrentTime - Previously read playhead position */; _proto.poll = function poll(lastCurrentTime, activeFrag) { var config = this.config, media = this.media, stalled = this.stalled; if (media === null) { return; } var currentTime = media.currentTime, seeking = media.seeking; var seeked = this.seeking && !seeking; var beginSeek = !this.seeking && seeking; this.seeking = seeking; // The playhead is moving, no-op if (currentTime !== lastCurrentTime) { this.moved = true; if (stalled !== null) { // The playhead is now moving, but was previously stalled if (this.stallReported) { var _stalledDuration = self.performance.now() - stalled; logger.warn("playback not stuck anymore @" + currentTime + ", after " + Math.round(_stalledDuration) + "ms"); this.stallReported = false; } this.stalled = null; this.nudgeRetry = 0; } return; } // Clear stalled state when beginning or finishing seeking so that we don't report stalls coming out of a seek if (beginSeek || seeked) { this.stalled = null; return; } // The playhead should not be moving if (media.paused && !seeking || media.ended || media.playbackRate === 0 || !BufferHelper.getBuffered(media).length) { return; } var bufferInfo = BufferHelper.bufferInfo(media, currentTime, 0); var isBuffered = bufferInfo.len > 0; var nextStart = bufferInfo.nextStart || 0; // There is no playable buffer (seeked, waiting for buffer) if (!isBuffered && !nextStart) { return; } if (seeking) { // Waiting for seeking in a buffered range to complete var hasEnoughBuffer = bufferInfo.len > MAX_START_GAP_JUMP; // Next buffered range is too far ahead to jump to while still seeking var noBufferGap = !nextStart || activeFrag && activeFrag.start <= currentTime || nextStart - currentTime > MAX_START_GAP_JUMP && !this.fragmentTracker.getPartialFragment(currentTime); if (hasEnoughBuffer || noBufferGap) { return; } // Reset moved state when seeking to a point in or before a gap this.moved = false; } // Skip start gaps if we haven't played, but the last poll detected the start of a stall // The addition poll gives the browser a chance to jump the gap for us if (!this.moved && this.stalled !== null) { var _level$details; // Jump start gaps within jump threshold var startJump = Math.max(nextStart, bufferInfo.start || 0) - currentTime; // When joining a live stream with audio tracks, account for live playlist window sliding by allowing // a larger jump over start gaps caused by the audio-stream-controller buffering a start fragment // that begins over 1 target duration after the video start position. var level = this.hls.levels ? this.hls.levels[this.hls.currentLevel] : null; var isLive = level == null ? void 0 : (_level$details = level.details) == null ? void 0 : _level$details.live; var maxStartGapJump = isLive ? level.details.targetduration * 2 : MAX_START_GAP_JUMP; var partialOrGap = this.fragmentTracker.getPartialFragment(currentTime); if (startJump > 0 && (startJump <= maxStartGapJump || partialOrGap)) { this._trySkipBufferHole(partialOrGap); return; } } // Start tracking stall time var tnow = self.performance.now(); if (stalled === null) { this.stalled = tnow; return; } var stalledDuration = tnow - stalled; if (!seeking && stalledDuration >= STALL_MINIMUM_DURATION_MS) { // Report stalling after trying to fix this._reportStall(bufferInfo); if (!this.media) { return; } } var bufferedWithHoles = BufferHelper.bufferInfo(media, currentTime, config.maxBufferHole); this._tryFixBufferStall(bufferedWithHoles, stalledDuration); } /** * Detects and attempts to fix known buffer stalling issues. * @param bufferInfo - The properties of the current buffer. * @param stalledDurationMs - The amount of time Hls.js has been stalling for. * @private */; _proto._tryFixBufferStall = function _tryFixBufferStall(bufferInfo, stalledDurationMs) { var config = this.config, fragmentTracker = this.fragmentTracker, media = this.media; if (media === null) { return; } var currentTime = media.currentTime; var partial = fragmentTracker.getPartialFragment(currentTime); if (partial) { // Try to skip over the buffer hole caused by a partial fragment // This method isn't limited by the size of the gap between buffered ranges var targetTime = this._trySkipBufferHole(partial); // we return here in this case, meaning // the branch below only executes when we haven't seeked to a new position if (targetTime || !this.media) { return; } } // if we haven't had to skip over a buffer hole of a partial fragment // we may just have to "nudge" the playlist as the browser decoding/rendering engine // needs to cross some sort of threshold covering all source-buffers content // to start playing properly. if ((bufferInfo.len > config.maxBufferHole || bufferInfo.nextStart && bufferInfo.nextStart - currentTime < config.maxBufferHole) && stalledDurationMs > config.highBufferWatchdogPeriod * 1000) { logger.warn('Trying to nudge playhead over buffer-hole'); // Try to nudge currentTime over a buffer hole if we've been stalling for the configured amount of seconds // We only try to jump the hole if it's under the configured size // Reset stalled so to rearm watchdog timer this.stalled = null; this._tryNudgeBuffer(); } } /** * Triggers a BUFFER_STALLED_ERROR event, but only once per stall period. * @param bufferLen - The playhead distance from the end of the current buffer segment. * @private */; _proto._reportStall = function _reportStall(bufferInfo) { var hls = this.hls, media = this.media, stallReported = this.stallReported; if (!stallReported && media) { // Report stalled error once this.stallReported = true; var error = new Error("Playback stalling at @" + media.currentTime + " due to low buffer (" + JSON.stringify(bufferInfo) + ")"); logger.warn(error.message); hls.trigger(Events.ERROR, { type: ErrorTypes.MEDIA_ERROR, details: ErrorDetails.BUFFER_STALLED_ERROR, fatal: false, error: error, buffer: bufferInfo.len }); } } /** * Attempts to fix buffer stalls by jumping over known gaps caused by partial fragments * @param partial - The partial fragment found at the current time (where playback is stalling). * @private */; _proto._trySkipBufferHole = function _trySkipBufferHole(partial) { var config = this.config, hls = this.hls, media = this.media; if (media === null) { return 0; } // Check if currentTime is between unbuffered regions of partial fragments var currentTime = media.currentTime; var bufferInfo = BufferHelper.bufferInfo(media, currentTime, 0); var startTime = currentTime < bufferInfo.start ? bufferInfo.start : bufferInfo.nextStart; if (startTime) { var bufferStarved = bufferInfo.len <= config.maxBufferHole; var waiting = bufferInfo.len > 0 && bufferInfo.len < 1 && media.readyState < 3; var gapLength = startTime - currentTime; if (gapLength > 0 && (bufferStarved || waiting)) { // Only allow large gaps to be skipped if it is a start gap, or all fragments in skip range are partial if (gapLength > config.maxBufferHole) { var fragmentTracker = this.fragmentTracker; var startGap = false; if (currentTime === 0) { var startFrag = fragmentTracker.getAppendedFrag(0, PlaylistLevelType.MAIN); if (startFrag && startTime < startFrag.end) { startGap = true; } } if (!startGap) { var startProvisioned = partial || fragmentTracker.getAppendedFrag(currentTime, PlaylistLevelType.MAIN); if (startProvisioned) { var moreToLoad = false; var pos = startProvisioned.end; while (pos < startTime) { var provisioned = fragmentTracker.getPartialFragment(pos); if (provisioned) { pos += provisioned.duration; } else { moreToLoad = true; break; } } if (moreToLoad) { return 0; } } } } var targetTime = Math.max(startTime + SKIP_BUFFER_RANGE_START, currentTime + SKIP_BUFFER_HOLE_STEP_SECONDS); logger.warn("skipping hole, adjusting currentTime from " + currentTime + " to " + targetTime); this.moved = true; this.stalled = null; media.currentTime = targetTime; if (partial && !partial.gap) { var error = new Error("fragment loaded with buffer holes, seeking from " + currentTime + " to " + targetTime); hls.trigger(Events.ERROR, { type: ErrorTypes.MEDIA_ERROR, details: ErrorDetails.BUFFER_SEEK_OVER_HOLE, fatal: false, error: error, reason: error.message, frag: partial }); } return targetTime; } } return 0; } /** * Attempts to fix buffer stalls by advancing the mediaElement's current time by a small amount. * @private */; _proto._tryNudgeBuffer = function _tryNudgeBuffer() { var config = this.config, hls = this.hls, media = this.media, nudgeRetry = this.nudgeRetry; if (media === null) { return; } var currentTime = media.currentTime; this.nudgeRetry++; if (nudgeRetry < config.nudgeMaxRetry) { var targetTime = currentTime + (nudgeRetry + 1) * config.nudgeOffset; // playback stalled in buffered area ... let's nudge currentTime to try to overcome this var error = new Error("Nudging 'currentTime' from " + currentTime + " to " + targetTime); logger.warn(error.message); media.currentTime = targetTime; hls.trigger(Events.ERROR, { type: ErrorTypes.MEDIA_ERROR, details: ErrorDetails.BUFFER_NUDGE_ON_STALL, error: error, fatal: false }); } else { var _error = new Error("Playhead still not moving while enough data buffered @" + currentTime + " after " + config.nudgeMaxRetry + " nudges"); logger.error(_error.message); hls.trigger(Events.ERROR, { type: ErrorTypes.MEDIA_ERROR, details: ErrorDetails.BUFFER_STALLED_ERROR, error: _error, fatal: true }); } }; return GapController; }(); var TICK_INTERVAL$2 = 100; // how often to tick in ms var StreamController = /*#__PURE__*/function (_BaseStreamController) { _inheritsLoose(StreamController, _BaseStreamController); function StreamController(hls, fragmentTracker, keyLoader) { var _this; _this = _BaseStreamController.call(this, hls, fragmentTracker, keyLoader, '[stream-controller]', PlaylistLevelType.MAIN) || this; _this.audioCodecSwap = false; _this.gapController = null; _this.level = -1; _this._forceStartLoad = false; _this.altAudio = false; _this.audioOnly = false; _this.fragPlaying = null; _this.onvplaying = null; _this.onvseeked = null; _this.fragLastKbps = 0; _this.couldBacktrack = false; _this.backtrackFragment = null; _this.audioCodecSwitch = false; _this.videoBuffer = null; _this._registerListeners(); return _this; } var _proto = StreamController.prototype; _proto._registerListeners = function _registerListeners() { var hls = this.hls; hls.on(Events.MEDIA_ATTACHED, this.onMediaAttached, this); hls.on(Events.MEDIA_DETACHING, this.onMediaDetaching, this); hls.on(Events.MANIFEST_LOADING, this.onManifestLoading, this); hls.on(Events.MANIFEST_PARSED, this.onManifestParsed, this); hls.on(Events.LEVEL_LOADING, this.onLevelLoading, this); hls.on(Events.LEVEL_LOADED, this.onLevelLoaded, this); hls.on(Events.FRAG_LOAD_EMERGENCY_ABORTED, this.onFragLoadEmergencyAborted, this); hls.on(Events.ERROR, this.onError, this); hls.on(Events.AUDIO_TRACK_SWITCHING, this.onAudioTrackSwitching, this); hls.on(Events.AUDIO_TRACK_SWITCHED, this.onAudioTrackSwitched, this); hls.on(Events.BUFFER_CREATED, this.onBufferCreated, this); hls.on(Events.BUFFER_FLUSHED, this.onBufferFlushed, this); hls.on(Events.LEVELS_UPDATED, this.onLevelsUpdated, this); hls.on(Events.FRAG_BUFFERED, this.onFragBuffered, this); }; _proto._unregisterListeners = function _unregisterListeners() { var hls = this.hls; hls.off(Events.MEDIA_ATTACHED, this.onMediaAttached, this); hls.off(Events.MEDIA_DETACHING, this.onMediaDetaching, this); hls.off(Events.MANIFEST_LOADING, this.onManifestLoading, this); hls.off(Events.MANIFEST_PARSED, this.onManifestParsed, this); hls.off(Events.LEVEL_LOADED, this.onLevelLoaded, this); hls.off(Events.FRAG_LOAD_EMERGENCY_ABORTED, this.onFragLoadEmergencyAborted, this); hls.off(Events.ERROR, this.onError, this); hls.off(Events.AUDIO_TRACK_SWITCHING, this.onAudioTrackSwitching, this); hls.off(Events.AUDIO_TRACK_SWITCHED, this.onAudioTrackSwitched, this); hls.off(Events.BUFFER_CREATED, this.onBufferCreated, this); hls.off(Events.BUFFER_FLUSHED, this.onBufferFlushed, this); hls.off(Events.LEVELS_UPDATED, this.onLevelsUpdated, this); hls.off(Events.FRAG_BUFFERED, this.onFragBuffered, this); }; _proto.onHandlerDestroying = function onHandlerDestroying() { this._unregisterListeners(); this.onMediaDetaching(); }; _proto.startLoad = function startLoad(startPosition) { if (this.levels) { var lastCurrentTime = this.lastCurrentTime, hls = this.hls; this.stopLoad(); this.setInterval(TICK_INTERVAL$2); this.level = -1; if (!this.startFragRequested) { // determine load level var startLevel = hls.startLevel; if (startLevel === -1) { if (hls.config.testBandwidth && this.levels.length > 1) { // -1 : guess start Level by doing a bitrate test by loading first fragment of lowest quality level startLevel = 0; this.bitrateTest = true; } else { startLevel = hls.nextAutoLevel; } } // set new level to playlist loader : this will trigger start level load // hls.nextLoadLevel remains until it is set to a new value or until a new frag is successfully loaded this.level = hls.nextLoadLevel = startLevel; this.loadedmetadata = false; } // if startPosition undefined but lastCurrentTime set, set startPosition to last currentTime if (lastCurrentTime > 0 && startPosition === -1) { this.log("Override startPosition with lastCurrentTime @" + lastCurrentTime.toFixed(3)); startPosition = lastCurrentTime; } this.state = State.IDLE; this.nextLoadPosition = this.startPosition = this.lastCurrentTime = startPosition; this.tick(); } else { this._forceStartLoad = true; this.state = State.STOPPED; } }; _proto.stopLoad = function stopLoad() { this._forceStartLoad = false; _BaseStreamController.prototype.stopLoad.call(this); }; _proto.doTick = function doTick() { switch (this.state) { case State.WAITING_LEVEL: { var _levels$level; var levels = this.levels, level = this.level; var details = levels == null ? void 0 : (_levels$level = levels[level]) == null ? void 0 : _levels$level.details; if (details && (!details.live || this.levelLastLoaded === this.level)) { if (this.waitForCdnTuneIn(details)) { break; } this.state = State.IDLE; break; } else if (this.hls.nextLoadLevel !== this.level) { this.state = State.IDLE; break; } break; } case State.FRAG_LOADING_WAITING_RETRY: { var _this$media; var now = self.performance.now(); var retryDate = this.retryDate; // if current time is gt than retryDate, or if media seeking let's switch to IDLE state to retry loading if (!retryDate || now >= retryDate || (_this$media = this.media) != null && _this$media.seeking) { this.resetStartWhenNotLoaded(this.level); this.state = State.IDLE; } } break; } if (this.state === State.IDLE) { this.doTickIdle(); } this.onTickEnd(); }; _proto.onTickEnd = function onTickEnd() { _BaseStreamController.prototype.onTickEnd.call(this); this.checkBuffer(); this.checkFragmentChanged(); }; _proto.doTickIdle = function doTickIdle() { var hls = this.hls, levelLastLoaded = this.levelLastLoaded, levels = this.levels, media = this.media; var config = hls.config, level = hls.nextLoadLevel; // if start level not parsed yet OR // if video not attached AND start fragment already requested OR start frag prefetch not enabled // exit loop, as we either need more info (level not parsed) or we need media to be attached to load new fragment if (levelLastLoaded === null || !media && (this.startFragRequested || !config.startFragPrefetch)) { return; } // If the "main" level is audio-only but we are loading an alternate track in the same group, do not load anything if (this.altAudio && this.audioOnly) { return; } if (!(levels != null && levels[level])) { return; } var levelInfo = levels[level]; // if buffer length is less than maxBufLen try to load a new fragment var bufferInfo = this.getMainFwdBufferInfo(); if (bufferInfo === null) { return; } var lastDetails = this.getLevelDetails(); if (lastDetails && this._streamEnded(bufferInfo, lastDetails)) { var data = {}; if (this.altAudio) { data.type = 'video'; } this.hls.trigger(Events.BUFFER_EOS, data); this.state = State.ENDED; return; } // set next load level : this will trigger a playlist load if needed if (hls.loadLevel !== level && hls.manualLevel === -1) { this.log("Adapting to level " + level + " from level " + this.level); } this.level = hls.nextLoadLevel = level; var levelDetails = levelInfo.details; // if level info not retrieved yet, switch state and wait for level retrieval // if live playlist, ensure that new playlist has been refreshed to avoid loading/try to load // a useless and outdated fragment (that might even introduce load error if it is already out of the live playlist) if (!levelDetails || this.state === State.WAITING_LEVEL || levelDetails.live && this.levelLastLoaded !== level) { this.level = level; this.state = State.WAITING_LEVEL; return; } var bufferLen = bufferInfo.len; // compute max Buffer Length that we could get from this load level, based on level bitrate. don't buffer more than 60 MB and more than 30s var maxBufLen = this.getMaxBufferLength(levelInfo.maxBitrate); // Stay idle if we are still with buffer margins if (bufferLen >= maxBufLen) { return; } if (this.backtrackFragment && this.backtrackFragment.start > bufferInfo.end) { this.backtrackFragment = null; } var targetBufferTime = this.backtrackFragment ? this.backtrackFragment.start : bufferInfo.end; var frag = this.getNextFragment(targetBufferTime, levelDetails); // Avoid backtracking by loading an earlier segment in streams with segments that do not start with a key frame (flagged by `couldBacktrack`) if (this.couldBacktrack && !this.fragPrevious && frag && frag.sn !== 'initSegment' && this.fragmentTracker.getState(frag) !== FragmentState.OK) { var _this$backtrackFragme; var backtrackSn = ((_this$backtrackFragme = this.backtrackFragment) != null ? _this$backtrackFragme : frag).sn; var fragIdx = backtrackSn - levelDetails.startSN; var backtrackFrag = levelDetails.fragments[fragIdx - 1]; if (backtrackFrag && frag.cc === backtrackFrag.cc) { frag = backtrackFrag; this.fragmentTracker.removeFragment(backtrackFrag); } } else if (this.backtrackFragment && bufferInfo.len) { this.backtrackFragment = null; } // Avoid loop loading by using nextLoadPosition set for backtracking and skipping consecutive GAP tags if (frag && this.isLoopLoading(frag, targetBufferTime)) { var gapStart = frag.gap; if (!gapStart) { // Cleanup the fragment tracker before trying to find the next unbuffered fragment var type = this.audioOnly && !this.altAudio ? ElementaryStreamTypes.AUDIO : ElementaryStreamTypes.VIDEO; var mediaBuffer = (type === ElementaryStreamTypes.VIDEO ? this.videoBuffer : this.mediaBuffer) || this.media; if (mediaBuffer) { this.afterBufferFlushed(mediaBuffer, type, PlaylistLevelType.MAIN); } } frag = this.getNextFragmentLoopLoading(frag, levelDetails, bufferInfo, PlaylistLevelType.MAIN, maxBufLen); } if (!frag) { return; } if (frag.initSegment && !frag.initSegment.data && !this.bitrateTest) { frag = frag.initSegment; } this.loadFragment(frag, levelInfo, targetBufferTime); }; _proto.loadFragment = function loadFragment(frag, level, targetBufferTime) { // Check if fragment is not loaded var fragState = this.fragmentTracker.getState(frag); this.fragCurrent = frag; if (fragState === FragmentState.NOT_LOADED || fragState === FragmentState.PARTIAL) { if (frag.sn === 'initSegment') { this._loadInitSegment(frag, level); } else if (this.bitrateTest) { this.log("Fragment " + frag.sn + " of level " + frag.level + " is being downloaded to test bitrate and will not be buffered"); this._loadBitrateTestFrag(frag, level); } else { this.startFragRequested = true; _BaseStreamController.prototype.loadFragment.call(this, frag, level, targetBufferTime); } } else { this.clearTrackerIfNeeded(frag); } }; _proto.getBufferedFrag = function getBufferedFrag(position) { return this.fragmentTracker.getBufferedFrag(position, PlaylistLevelType.MAIN); }; _proto.followingBufferedFrag = function followingBufferedFrag(frag) { if (frag) { // try to get range of next fragment (500ms after this range) return this.getBufferedFrag(frag.end + 0.5); } return null; } /* on immediate level switch : - pause playback if playing - cancel any pending load request - and trigger a buffer flush */; _proto.immediateLevelSwitch = function immediateLevelSwitch() { this.abortCurrentFrag(); this.flushMainBuffer(0, Number.POSITIVE_INFINITY); } /** * try to switch ASAP without breaking video playback: * in order to ensure smooth but quick level switching, * we need to find the next flushable buffer range * we should take into account new segment fetch time */; _proto.nextLevelSwitch = function nextLevelSwitch() { var levels = this.levels, media = this.media; // ensure that media is defined and that metadata are available (to retrieve currentTime) if (media != null && media.readyState) { var fetchdelay; var fragPlayingCurrent = this.getAppendedFrag(media.currentTime); if (fragPlayingCurrent && fragPlayingCurrent.start > 1) { // flush buffer preceding current fragment (flush until current fragment start offset) // minus 1s to avoid video freezing, that could happen if we flush keyframe of current video ... this.flushMainBuffer(0, fragPlayingCurrent.start - 1); } var levelDetails = this.getLevelDetails(); if (levelDetails != null && levelDetails.live) { var bufferInfo = this.getMainFwdBufferInfo(); // Do not flush in live stream with low buffer if (!bufferInfo || bufferInfo.len < levelDetails.targetduration * 2) { return; } } if (!media.paused && levels) { // add a safety delay of 1s var nextLevelId = this.hls.nextLoadLevel; var nextLevel = levels[nextLevelId]; var fragLastKbps = this.fragLastKbps; if (fragLastKbps && this.fragCurrent) { fetchdelay = this.fragCurrent.duration * nextLevel.maxBitrate / (1000 * fragLastKbps) + 1; } else { fetchdelay = 0; } } else { fetchdelay = 0; } // this.log('fetchdelay:'+fetchdelay); // find buffer range that will be reached once new fragment will be fetched var bufferedFrag = this.getBufferedFrag(media.currentTime + fetchdelay); if (bufferedFrag) { // we can flush buffer range following this one without stalling playback var nextBufferedFrag = this.followingBufferedFrag(bufferedFrag); if (nextBufferedFrag) { // if we are here, we can also cancel any loading/demuxing in progress, as they are useless this.abortCurrentFrag(); // start flush position is in next buffered frag. Leave some padding for non-independent segments and smoother playback. var maxStart = nextBufferedFrag.maxStartPTS ? nextBufferedFrag.maxStartPTS : nextBufferedFrag.start; var fragDuration = nextBufferedFrag.duration; var startPts = Math.max(bufferedFrag.end, maxStart + Math.min(Math.max(fragDuration - this.config.maxFragLookUpTolerance, fragDuration * 0.5), fragDuration * 0.75)); this.flushMainBuffer(startPts, Number.POSITIVE_INFINITY); } } } }; _proto.abortCurrentFrag = function abortCurrentFrag() { var fragCurrent = this.fragCurrent; this.fragCurrent = null; this.backtrackFragment = null; if (fragCurrent) { fragCurrent.abortRequests(); this.fragmentTracker.removeFragment(fragCurrent); } switch (this.state) { case State.KEY_LOADING: case State.FRAG_LOADING: case State.FRAG_LOADING_WAITING_RETRY: case State.PARSING: case State.PARSED: this.state = State.IDLE; break; } this.nextLoadPosition = this.getLoadPosition(); }; _proto.flushMainBuffer = function flushMainBuffer(startOffset, endOffset) { _BaseStreamController.prototype.flushMainBuffer.call(this, startOffset, endOffset, this.altAudio ? 'video' : null); }; _proto.onMediaAttached = function onMediaAttached(event, data) { _BaseStreamController.prototype.onMediaAttached.call(this, event, data); var media = data.media; this.onvplaying = this.onMediaPlaying.bind(this); this.onvseeked = this.onMediaSeeked.bind(this); media.addEventListener('playing', this.onvplaying); media.addEventListener('seeked', this.onvseeked); this.gapController = new GapController(this.config, media, this.fragmentTracker, this.hls); }; _proto.onMediaDetaching = function onMediaDetaching() { var media = this.media; if (media && this.onvplaying && this.onvseeked) { media.removeEventListener('playing', this.onvplaying); media.removeEventListener('seeked', this.onvseeked); this.onvplaying = this.onvseeked = null; this.videoBuffer = null; } this.fragPlaying = null; if (this.gapController) { this.gapController.destroy(); this.gapController = null; } _BaseStreamController.prototype.onMediaDetaching.call(this); }; _proto.onMediaPlaying = function onMediaPlaying() { // tick to speed up FRAG_CHANGED triggering this.tick(); }; _proto.onMediaSeeked = function onMediaSeeked() { var media = this.media; var currentTime = media ? media.currentTime : null; if (isFiniteNumber(currentTime)) { this.log("Media seeked to " + currentTime.toFixed(3)); } // If seeked was issued before buffer was appended do not tick immediately var bufferInfo = this.getMainFwdBufferInfo(); if (bufferInfo === null || bufferInfo.len === 0) { this.warn("Main forward buffer length on \"seeked\" event " + (bufferInfo ? bufferInfo.len : 'empty') + ")"); return; } // tick to speed up FRAG_CHANGED triggering this.tick(); }; _proto.onManifestLoading = function onManifestLoading() { // reset buffer on manifest loading this.log('Trigger BUFFER_RESET'); this.hls.trigger(Events.BUFFER_RESET, undefined); this.fragmentTracker.removeAllFragments(); this.couldBacktrack = false; this.startPosition = this.lastCurrentTime = 0; this.levels = this.fragPlaying = this.backtrackFragment = null; this.altAudio = this.audioOnly = false; }; _proto.onManifestParsed = function onManifestParsed(event, data) { var aac = false; var heaac = false; var codec; data.levels.forEach(function (level) { // detect if we have different kind of audio codecs used amongst playlists codec = level.audioCodec; if (codec) { if (codec.indexOf('mp4a.40.2') !== -1) { aac = true; } if (codec.indexOf('mp4a.40.5') !== -1) { heaac = true; } } }); this.audioCodecSwitch = aac && heaac && !changeTypeSupported(); if (this.audioCodecSwitch) { this.log('Both AAC/HE-AAC audio found in levels; declaring level codec as HE-AAC'); } this.levels = data.levels; this.startFragRequested = false; }; _proto.onLevelLoading = function onLevelLoading(event, data) { var levels = this.levels; if (!levels || this.state !== State.IDLE) { return; } var level = levels[data.level]; if (!level.details || level.details.live && this.levelLastLoaded !== data.level || this.waitForCdnTuneIn(level.details)) { this.state = State.WAITING_LEVEL; } }; _proto.onLevelLoaded = function onLevelLoaded(event, data) { var _curLevel$details; var levels = this.levels; var newLevelId = data.level; var newDetails = data.details; var duration = newDetails.totalduration; if (!levels) { this.warn("Levels were reset while loading level " + newLevelId); return; } this.log("Level " + newLevelId + " loaded [" + newDetails.startSN + "," + newDetails.endSN + "]" + (newDetails.lastPartSn ? "[part-" + newDetails.lastPartSn + "-" + newDetails.lastPartIndex + "]" : '') + ", cc [" + newDetails.startCC + ", " + newDetails.endCC + "] duration:" + duration); var curLevel = levels[newLevelId]; var fragCurrent = this.fragCurrent; if (fragCurrent && (this.state === State.FRAG_LOADING || this.state === State.FRAG_LOADING_WAITING_RETRY)) { if ((fragCurrent.level !== data.level || fragCurrent.urlId !== curLevel.urlId) && fragCurrent.loader) { this.abortCurrentFrag(); } } var sliding = 0; if (newDetails.live || (_curLevel$details = curLevel.details) != null && _curLevel$details.live) { if (!newDetails.fragments[0]) { newDetails.deltaUpdateFailed = true; } if (newDetails.deltaUpdateFailed) { return; } sliding = this.alignPlaylists(newDetails, curLevel.details); } // override level info curLevel.details = newDetails; this.levelLastLoaded = newLevelId; this.hls.trigger(Events.LEVEL_UPDATED, { details: newDetails, level: newLevelId }); // only switch back to IDLE state if we were waiting for level to start downloading a new fragment if (this.state === State.WAITING_LEVEL) { if (this.waitForCdnTuneIn(newDetails)) { // Wait for Low-Latency CDN Tune-in return; } this.state = State.IDLE; } if (!this.startFragRequested) { this.setStartPosition(newDetails, sliding); } else if (newDetails.live) { this.synchronizeToLiveEdge(newDetails); } // trigger handler right now this.tick(); }; _proto._handleFragmentLoadProgress = function _handleFragmentLoadProgress(data) { var _frag$initSegment; var frag = data.frag, part = data.part, payload = data.payload; var levels = this.levels; if (!levels) { this.warn("Levels were reset while fragment load was in progress. Fragment " + frag.sn + " of level " + frag.level + " will not be buffered"); return; } var currentLevel = levels[frag.level]; var details = currentLevel.details; if (!details) { this.warn("Dropping fragment " + frag.sn + " of level " + frag.level + " after level details were reset"); this.fragmentTracker.removeFragment(frag); return; } var videoCodec = currentLevel.videoCodec; // time Offset is accurate if level PTS is known, or if playlist is not sliding (not live) var accurateTimeOffset = details.PTSKnown || !details.live; var initSegmentData = (_frag$initSegment = frag.initSegment) == null ? void 0 : _frag$initSegment.data; var audioCodec = this._getAudioCodec(currentLevel); // transmux the MPEG-TS data to ISO-BMFF segments // this.log(`Transmuxing ${frag.sn} of [${details.startSN} ,${details.endSN}],level ${frag.level}, cc ${frag.cc}`); var transmuxer = this.transmuxer = this.transmuxer || new TransmuxerInterface(this.hls, PlaylistLevelType.MAIN, this._handleTransmuxComplete.bind(this), this._handleTransmuxerFlush.bind(this)); var partIndex = part ? part.index : -1; var partial = partIndex !== -1; var chunkMeta = new ChunkMetadata(frag.level, frag.sn, frag.stats.chunkCount, payload.byteLength, partIndex, partial); var initPTS = this.initPTS[frag.cc]; transmuxer.push(payload, initSegmentData, audioCodec, videoCodec, frag, part, details.totalduration, accurateTimeOffset, chunkMeta, initPTS); }; _proto.onAudioTrackSwitching = function onAudioTrackSwitching(event, data) { // if any URL found on new audio track, it is an alternate audio track var fromAltAudio = this.altAudio; var altAudio = !!data.url; // if we switch on main audio, ensure that main fragment scheduling is synced with media.buffered // don't do anything if we switch to alt audio: audio stream controller is handling it. // we will just have to change buffer scheduling on audioTrackSwitched if (!altAudio) { if (this.mediaBuffer !== this.media) { this.log('Switching on main audio, use media.buffered to schedule main fragment loading'); this.mediaBuffer = this.media; var fragCurrent = this.fragCurrent; // we need to refill audio buffer from main: cancel any frag loading to speed up audio switch if (fragCurrent) { this.log('Switching to main audio track, cancel main fragment load'); fragCurrent.abortRequests(); this.fragmentTracker.removeFragment(fragCurrent); } // destroy transmuxer to force init segment generation (following audio switch) this.resetTransmuxer(); // switch to IDLE state to load new fragment this.resetLoadingState(); } else if (this.audioOnly) { // Reset audio transmuxer so when switching back to main audio we're not still appending where we left off this.resetTransmuxer(); } var hls = this.hls; // If switching from alt to main audio, flush all audio and trigger track switched if (fromAltAudio) { hls.trigger(Events.BUFFER_FLUSHING, { startOffset: 0, endOffset: Number.POSITIVE_INFINITY, type: null }); this.fragmentTracker.removeAllFragments(); } hls.trigger(Events.AUDIO_TRACK_SWITCHED, data); } }; _proto.onAudioTrackSwitched = function onAudioTrackSwitched(event, data) { var trackId = data.id; var altAudio = !!this.hls.audioTracks[trackId].url; if (altAudio) { var videoBuffer = this.videoBuffer; // if we switched on alternate audio, ensure that main fragment scheduling is synced with video sourcebuffer buffered if (videoBuffer && this.mediaBuffer !== videoBuffer) { this.log('Switching on alternate audio, use video.buffered to schedule main fragment loading'); this.mediaBuffer = videoBuffer; } } this.altAudio = altAudio; this.tick(); }; _proto.onBufferCreated = function onBufferCreated(event, data) { var tracks = data.tracks; var mediaTrack; var name; var alternate = false; for (var type in tracks) { var track = tracks[type]; if (track.id === 'main') { name = type; mediaTrack = track; // keep video source buffer reference if (type === 'video') { var videoTrack = tracks[type]; if (videoTrack) { this.videoBuffer = videoTrack.buffer; } } } else { alternate = true; } } if (alternate && mediaTrack) { this.log("Alternate track found, use " + name + ".buffered to schedule main fragment loading"); this.mediaBuffer = mediaTrack.buffer; } else { this.mediaBuffer = this.media; } }; _proto.onFragBuffered = function onFragBuffered(event, data) { var frag = data.frag, part = data.part; if (frag && frag.type !== PlaylistLevelType.MAIN) { return; } if (this.fragContextChanged(frag)) { // If a level switch was requested while a fragment was buffering, it will emit the FRAG_BUFFERED event upon completion // Avoid setting state back to IDLE, since that will interfere with a level switch this.warn("Fragment " + frag.sn + (part ? ' p: ' + part.index : '') + " of level " + frag.level + " finished buffering, but was aborted. state: " + this.state); if (this.state === State.PARSED) { this.state = State.IDLE; } return; } var stats = part ? part.stats : frag.stats; this.fragLastKbps = Math.round(8 * stats.total / (stats.buffering.end - stats.loading.first)); if (frag.sn !== 'initSegment') { this.fragPrevious = frag; } this.fragBufferedComplete(frag, part); }; _proto.onError = function onError(event, data) { var _data$context; if (data.fatal) { this.state = State.ERROR; return; } switch (data.details) { case ErrorDetails.FRAG_GAP: case ErrorDetails.FRAG_PARSING_ERROR: case ErrorDetails.FRAG_DECRYPT_ERROR: case ErrorDetails.FRAG_LOAD_ERROR: case ErrorDetails.FRAG_LOAD_TIMEOUT: case ErrorDetails.KEY_LOAD_ERROR: case ErrorDetails.KEY_LOAD_TIMEOUT: this.onFragmentOrKeyLoadError(PlaylistLevelType.MAIN, data); break; case ErrorDetails.LEVEL_LOAD_ERROR: case ErrorDetails.LEVEL_LOAD_TIMEOUT: case ErrorDetails.LEVEL_PARSING_ERROR: // in case of non fatal error while loading level, if level controller is not retrying to load level, switch back to IDLE if (!data.levelRetry && this.state === State.WAITING_LEVEL && ((_data$context = data.context) == null ? void 0 : _data$context.type) === PlaylistContextType.LEVEL) { this.state = State.IDLE; } break; case ErrorDetails.BUFFER_FULL_ERROR: if (!data.parent || data.parent !== 'main') { return; } if (this.reduceLengthAndFlushBuffer(data)) { this.flushMainBuffer(0, Number.POSITIVE_INFINITY); } break; case ErrorDetails.INTERNAL_EXCEPTION: this.recoverWorkerError(data); break; } } // Checks the health of the buffer and attempts to resolve playback stalls. ; _proto.checkBuffer = function checkBuffer() { var media = this.media, gapController = this.gapController; if (!media || !gapController || !media.readyState) { // Exit early if we don't have media or if the media hasn't buffered anything yet (readyState 0) return; } if (this.loadedmetadata || !BufferHelper.getBuffered(media).length) { // Resolve gaps using the main buffer, whose ranges are the intersections of the A/V sourcebuffers var activeFrag = this.state !== State.IDLE ? this.fragCurrent : null; gapController.poll(this.lastCurrentTime, activeFrag); } this.lastCurrentTime = media.currentTime; }; _proto.onFragLoadEmergencyAborted = function onFragLoadEmergencyAborted() { this.state = State.IDLE; // if loadedmetadata is not set, it means that we are emergency switch down on first frag // in that case, reset startFragRequested flag if (!this.loadedmetadata) { this.startFragRequested = false; this.nextLoadPosition = this.startPosition; } this.tickImmediate(); }; _proto.onBufferFlushed = function onBufferFlushed(event, _ref) { var type = _ref.type; if (type !== ElementaryStreamTypes.AUDIO || this.audioOnly && !this.altAudio) { var mediaBuffer = (type === ElementaryStreamTypes.VIDEO ? this.videoBuffer : this.mediaBuffer) || this.media; this.afterBufferFlushed(mediaBuffer, type, PlaylistLevelType.MAIN); } }; _proto.onLevelsUpdated = function onLevelsUpdated(event, data) { this.levels = data.levels; }; _proto.swapAudioCodec = function swapAudioCodec() { this.audioCodecSwap = !this.audioCodecSwap; } /** * Seeks to the set startPosition if not equal to the mediaElement's current time. */; _proto.seekToStartPos = function seekToStartPos() { var media = this.media; if (!media) { return; } var currentTime = media.currentTime; var startPosition = this.startPosition; // only adjust currentTime if different from startPosition or if startPosition not buffered // at that stage, there should be only one buffered range, as we reach that code after first fragment has been buffered if (startPosition >= 0 && currentTime < startPosition) { if (media.seeking) { this.log("could not seek to " + startPosition + ", already seeking at " + currentTime); return; } var buffered = BufferHelper.getBuffered(media); var bufferStart = buffered.length ? buffered.start(0) : 0; var delta = bufferStart - startPosition; if (delta > 0 && (delta < this.config.maxBufferHole || delta < this.config.maxFragLookUpTolerance)) { this.log("adjusting start position by " + delta + " to match buffer start"); startPosition += delta; this.startPosition = startPosition; } this.log("seek to target start position " + startPosition + " from current time " + currentTime); media.currentTime = startPosition; } }; _proto._getAudioCodec = function _getAudioCodec(currentLevel) { var audioCodec = this.config.defaultAudioCodec || currentLevel.audioCodec; if (this.audioCodecSwap && audioCodec) { this.log('Swapping audio codec'); if (audioCodec.indexOf('mp4a.40.5') !== -1) { audioCodec = 'mp4a.40.2'; } else { audioCodec = 'mp4a.40.5'; } } return audioCodec; }; _proto._loadBitrateTestFrag = function _loadBitrateTestFrag(frag, level) { var _this2 = this; frag.bitrateTest = true; this._doFragLoad(frag, level).then(function (data) { var hls = _this2.hls; if (!data || _this2.fragContextChanged(frag)) { return; } level.fragmentError = 0; _this2.state = State.IDLE; _this2.startFragRequested = false; _this2.bitrateTest = false; var stats = frag.stats; // Bitrate tests fragments are neither parsed nor buffered stats.parsing.start = stats.parsing.end = stats.buffering.start = stats.buffering.end = self.performance.now(); hls.trigger(Events.FRAG_LOADED, data); frag.bitrateTest = false; }); }; _proto._handleTransmuxComplete = function _handleTransmuxComplete(transmuxResult) { var _id3$samples; var id = 'main'; var hls = this.hls; var remuxResult = transmuxResult.remuxResult, chunkMeta = transmuxResult.chunkMeta; var context = this.getCurrentContext(chunkMeta); if (!context) { this.resetWhenMissingContext(chunkMeta); return; } var frag = context.frag, part = context.part, level = context.level; var video = remuxResult.video, text = remuxResult.text, id3 = remuxResult.id3, initSegment = remuxResult.initSegment; var details = level.details; // The audio-stream-controller handles audio buffering if Hls.js is playing an alternate audio track var audio = this.altAudio ? undefined : remuxResult.audio; // Check if the current fragment has been aborted. We check this by first seeing if we're still playing the current level. // If we are, subsequently check if the currently loading fragment (fragCurrent) has changed. if (this.fragContextChanged(frag)) { this.fragmentTracker.removeFragment(frag); return; } this.state = State.PARSING; if (initSegment) { if (initSegment != null && initSegment.tracks) { var mapFragment = frag.initSegment || frag; this._bufferInitSegment(level, initSegment.tracks, mapFragment, chunkMeta); hls.trigger(Events.FRAG_PARSING_INIT_SEGMENT, { frag: mapFragment, id: id, tracks: initSegment.tracks }); } // This would be nice if Number.isFinite acted as a typeguard, but it doesn't. See: https://github.com/Microsoft/TypeScript/issues/10038 var initPTS = initSegment.initPTS; var timescale = initSegment.timescale; if (isFiniteNumber(initPTS)) { this.initPTS[frag.cc] = { baseTime: initPTS, timescale: timescale }; hls.trigger(Events.INIT_PTS_FOUND, { frag: frag, id: id, initPTS: initPTS, timescale: timescale }); } } // Avoid buffering if backtracking this fragment if (video && details && frag.sn !== 'initSegment') { var prevFrag = details.fragments[frag.sn - 1 - details.startSN]; var isFirstFragment = frag.sn === details.startSN; var isFirstInDiscontinuity = !prevFrag || frag.cc > prevFrag.cc; if (remuxResult.independent !== false) { var startPTS = video.startPTS, endPTS = video.endPTS, startDTS = video.startDTS, endDTS = video.endDTS; if (part) { part.elementaryStreams[video.type] = { startPTS: startPTS, endPTS: endPTS, startDTS: startDTS, endDTS: endDTS }; } else { if (video.firstKeyFrame && video.independent && chunkMeta.id === 1 && !isFirstInDiscontinuity) { this.couldBacktrack = true; } if (video.dropped && video.independent) { // Backtrack if dropped frames create a gap after currentTime var bufferInfo = this.getMainFwdBufferInfo(); var targetBufferTime = (bufferInfo ? bufferInfo.end : this.getLoadPosition()) + this.config.maxBufferHole; var startTime = video.firstKeyFramePTS ? video.firstKeyFramePTS : startPTS; if (!isFirstFragment && targetBufferTime < startTime - this.config.maxBufferHole && !isFirstInDiscontinuity) { this.backtrack(frag); return; } else if (isFirstInDiscontinuity) { // Mark segment with a gap to avoid loop loading frag.gap = true; } // Set video stream start to fragment start so that truncated samples do not distort the timeline, and mark it partial frag.setElementaryStreamInfo(video.type, frag.start, endPTS, frag.start, endDTS, true); } } frag.setElementaryStreamInfo(video.type, startPTS, endPTS, startDTS, endDTS); if (this.backtrackFragment) { this.backtrackFragment = frag; } this.bufferFragmentData(video, frag, part, chunkMeta, isFirstFragment || isFirstInDiscontinuity); } else if (isFirstFragment || isFirstInDiscontinuity) { // Mark segment with a gap to avoid loop loading frag.gap = true; } else { this.backtrack(frag); return; } } if (audio) { var _startPTS = audio.startPTS, _endPTS = audio.endPTS, _startDTS = audio.startDTS, _endDTS = audio.endDTS; if (part) { part.elementaryStreams[ElementaryStreamTypes.AUDIO] = { startPTS: _startPTS, endPTS: _endPTS, startDTS: _startDTS, endDTS: _endDTS }; } frag.setElementaryStreamInfo(ElementaryStreamTypes.AUDIO, _startPTS, _endPTS, _startDTS, _endDTS); this.bufferFragmentData(audio, frag, part, chunkMeta); } if (details && id3 != null && (_id3$samples = id3.samples) != null && _id3$samples.length) { var emittedID3 = { id: id, frag: frag, details: details, samples: id3.samples }; hls.trigger(Events.FRAG_PARSING_METADATA, emittedID3); } if (details && text) { var emittedText = { id: id, frag: frag, details: details, samples: text.samples }; hls.trigger(Events.FRAG_PARSING_USERDATA, emittedText); } }; _proto._bufferInitSegment = function _bufferInitSegment(currentLevel, tracks, frag, chunkMeta) { var _this3 = this; if (this.state !== State.PARSING) { return; } this.audioOnly = !!tracks.audio && !tracks.video; // if audio track is expected to come from audio stream controller, discard any coming from main if (this.altAudio && !this.audioOnly) { delete tracks.audio; } // include levelCodec in audio and video tracks var audio = tracks.audio, video = tracks.video, audiovideo = tracks.audiovideo; if (audio) { var audioCodec = currentLevel.audioCodec; var ua = navigator.userAgent.toLowerCase(); if (this.audioCodecSwitch) { if (audioCodec) { if (audioCodec.indexOf('mp4a.40.5') !== -1) { audioCodec = 'mp4a.40.2'; } else { audioCodec = 'mp4a.40.5'; } } // In the case that AAC and HE-AAC audio codecs are signalled in manifest, // force HE-AAC, as it seems that most browsers prefers it. // don't force HE-AAC if mono stream, or in Firefox if (audio.metadata.channelCount !== 1 && ua.indexOf('firefox') === -1) { audioCodec = 'mp4a.40.5'; } } // HE-AAC is broken on Android, always signal audio codec as AAC even if variant manifest states otherwise if (ua.indexOf('android') !== -1 && audio.container !== 'audio/mpeg') { // Exclude mpeg audio audioCodec = 'mp4a.40.2'; this.log("Android: force audio codec to " + audioCodec); } if (currentLevel.audioCodec && currentLevel.audioCodec !== audioCodec) { this.log("Swapping manifest audio codec \"" + currentLevel.audioCodec + "\" for \"" + audioCodec + "\""); } audio.levelCodec = audioCodec; audio.id = 'main'; this.log("Init audio buffer, container:" + audio.container + ", codecs[selected/level/parsed]=[" + (audioCodec || '') + "/" + (currentLevel.audioCodec || '') + "/" + audio.codec + "]"); } if (video) { video.levelCodec = currentLevel.videoCodec; video.id = 'main'; this.log("Init video buffer, container:" + video.container + ", codecs[level/parsed]=[" + (currentLevel.videoCodec || '') + "/" + video.codec + "]"); } if (audiovideo) { this.log("Init audiovideo buffer, container:" + audiovideo.container + ", codecs[level/parsed]=[" + (currentLevel.attrs.CODECS || '') + "/" + audiovideo.codec + "]"); } this.hls.trigger(Events.BUFFER_CODECS, tracks); // loop through tracks that are going to be provided to bufferController Object.keys(tracks).forEach(function (trackName) { var track = tracks[trackName]; var initSegment = track.initSegment; if (initSegment != null && initSegment.byteLength) { _this3.hls.trigger(Events.BUFFER_APPENDING, { type: trackName, data: initSegment, frag: frag, part: null, chunkMeta: chunkMeta, parent: frag.type }); } }); // trigger handler right now this.tick(); }; _proto.getMainFwdBufferInfo = function getMainFwdBufferInfo() { return this.getFwdBufferInfo(this.mediaBuffer ? this.mediaBuffer : this.media, PlaylistLevelType.MAIN); }; _proto.backtrack = function backtrack(frag) { this.couldBacktrack = true; // Causes findFragments to backtrack through fragments to find the keyframe this.backtrackFragment = frag; this.resetTransmuxer(); this.flushBufferGap(frag); this.fragmentTracker.removeFragment(frag); this.fragPrevious = null; this.nextLoadPosition = frag.start; this.state = State.IDLE; }; _proto.checkFragmentChanged = function checkFragmentChanged() { var video = this.media; var fragPlayingCurrent = null; if (video && video.readyState > 1 && video.seeking === false) { var currentTime = video.currentTime; /* if video element is in seeked state, currentTime can only increase. (assuming that playback rate is positive ...) As sometimes currentTime jumps back to zero after a media decode error, check this, to avoid seeking back to wrong position after a media decode error */ if (BufferHelper.isBuffered(video, currentTime)) { fragPlayingCurrent = this.getAppendedFrag(currentTime); } else if (BufferHelper.isBuffered(video, currentTime + 0.1)) { /* ensure that FRAG_CHANGED event is triggered at startup, when first video frame is displayed and playback is paused. add a tolerance of 100ms, in case current position is not buffered, check if current pos+100ms is buffered and use that buffer range for FRAG_CHANGED event reporting */ fragPlayingCurrent = this.getAppendedFrag(currentTime + 0.1); } if (fragPlayingCurrent) { this.backtrackFragment = null; var fragPlaying = this.fragPlaying; var fragCurrentLevel = fragPlayingCurrent.level; if (!fragPlaying || fragPlayingCurrent.sn !== fragPlaying.sn || fragPlaying.level !== fragCurrentLevel || fragPlayingCurrent.urlId !== fragPlaying.urlId) { this.fragPlaying = fragPlayingCurrent; this.hls.trigger(Events.FRAG_CHANGED, { frag: fragPlayingCurrent }); if (!fragPlaying || fragPlaying.level !== fragCurrentLevel) { this.hls.trigger(Events.LEVEL_SWITCHED, { level: fragCurrentLevel }); } } } } }; _createClass(StreamController, [{ key: "nextLevel", get: function get() { var frag = this.nextBufferedFrag; if (frag) { return frag.level; } return -1; } }, { key: "currentFrag", get: function get() { var media = this.media; if (media) { return this.fragPlaying || this.getAppendedFrag(media.currentTime); } return null; } }, { key: "currentProgramDateTime", get: function get() { var media = this.media; if (media) { var currentTime = media.currentTime; var frag = this.currentFrag; if (frag && isFiniteNumber(currentTime) && isFiniteNumber(frag.programDateTime)) { var epocMs = frag.programDateTime + (currentTime - frag.start) * 1000; return new Date(epocMs); } } return null; } }, { key: "currentLevel", get: function get() { var frag = this.currentFrag; if (frag) { return frag.level; } return -1; } }, { key: "nextBufferedFrag", get: function get() { var frag = this.currentFrag; if (frag) { return this.followingBufferedFrag(frag); } return null; } }, { key: "forceStartLoad", get: function get() { return this._forceStartLoad; } }]); return StreamController; }(BaseStreamController); /* * compute an Exponential Weighted moving average * - https://en.wikipedia.org/wiki/Moving_average#Exponential_moving_average * - heavily inspired from shaka-player */ var EWMA = /*#__PURE__*/function () { // About half of the estimated value will be from the last |halfLife| samples by weight. function EWMA(halfLife, estimate, weight) { if (estimate === void 0) { estimate = 0; } if (weight === void 0) { weight = 0; } this.halfLife = void 0; this.alpha_ = void 0; this.estimate_ = void 0; this.totalWeight_ = void 0; this.halfLife = halfLife; // Larger values of alpha expire historical data more slowly. this.alpha_ = halfLife ? Math.exp(Math.log(0.5) / halfLife) : 0; this.estimate_ = estimate; this.totalWeight_ = weight; } var _proto = EWMA.prototype; _proto.sample = function sample(weight, value) { var adjAlpha = Math.pow(this.alpha_, weight); this.estimate_ = value * (1 - adjAlpha) + adjAlpha * this.estimate_; this.totalWeight_ += weight; }; _proto.getTotalWeight = function getTotalWeight() { return this.totalWeight_; }; _proto.getEstimate = function getEstimate() { if (this.alpha_) { var zeroFactor = 1 - Math.pow(this.alpha_, this.totalWeight_); if (zeroFactor) { return this.estimate_ / zeroFactor; } } return this.estimate_; }; return EWMA; }(); /* * EWMA Bandwidth Estimator * - heavily inspired from shaka-player * Tracks bandwidth samples and estimates available bandwidth. * Based on the minimum of two exponentially-weighted moving averages with * different half-lives. */ var EwmaBandWidthEstimator = /*#__PURE__*/function () { function EwmaBandWidthEstimator(slow, fast, defaultEstimate, defaultTTFB) { if (defaultTTFB === void 0) { defaultTTFB = 100; } this.defaultEstimate_ = void 0; this.minWeight_ = void 0; this.minDelayMs_ = void 0; this.slow_ = void 0; this.fast_ = void 0; this.defaultTTFB_ = void 0; this.ttfb_ = void 0; this.defaultEstimate_ = defaultEstimate; this.minWeight_ = 0.001; this.minDelayMs_ = 50; this.slow_ = new EWMA(slow); this.fast_ = new EWMA(fast); this.defaultTTFB_ = defaultTTFB; this.ttfb_ = new EWMA(slow); } var _proto = EwmaBandWidthEstimator.prototype; _proto.update = function update(slow, fast) { var slow_ = this.slow_, fast_ = this.fast_, ttfb_ = this.ttfb_; if (slow_.halfLife !== slow) { this.slow_ = new EWMA(slow, slow_.getEstimate(), slow_.getTotalWeight()); } if (fast_.halfLife !== fast) { this.fast_ = new EWMA(fast, fast_.getEstimate(), fast_.getTotalWeight()); } if (ttfb_.halfLife !== slow) { this.ttfb_ = new EWMA(slow, ttfb_.getEstimate(), ttfb_.getTotalWeight()); } }; _proto.sample = function sample(durationMs, numBytes) { durationMs = Math.max(durationMs, this.minDelayMs_); var numBits = 8 * numBytes; // weight is duration in seconds var durationS = durationMs / 1000; // value is bandwidth in bits/s var bandwidthInBps = numBits / durationS; this.fast_.sample(durationS, bandwidthInBps); this.slow_.sample(durationS, bandwidthInBps); }; _proto.sampleTTFB = function sampleTTFB(ttfb) { // weight is frequency curve applied to TTFB in seconds // (longer times have less weight with expected input under 1 second) var seconds = ttfb / 1000; var weight = Math.sqrt(2) * Math.exp(-Math.pow(seconds, 2) / 2); this.ttfb_.sample(weight, Math.max(ttfb, 5)); }; _proto.canEstimate = function canEstimate() { return this.fast_.getTotalWeight() >= this.minWeight_; }; _proto.getEstimate = function getEstimate() { if (this.canEstimate()) { // console.log('slow estimate:'+ Math.round(this.slow_.getEstimate())); // console.log('fast estimate:'+ Math.round(this.fast_.getEstimate())); // Take the minimum of these two estimates. This should have the effect of // adapting down quickly, but up more slowly. return Math.min(this.fast_.getEstimate(), this.slow_.getEstimate()); } else { return this.defaultEstimate_; } }; _proto.getEstimateTTFB = function getEstimateTTFB() { if (this.ttfb_.getTotalWeight() >= this.minWeight_) { return this.ttfb_.getEstimate(); } else { return this.defaultTTFB_; } }; _proto.destroy = function destroy() {}; return EwmaBandWidthEstimator; }(); var AbrController = /*#__PURE__*/function () { function AbrController(hls) { this.hls = void 0; this.lastLevelLoadSec = 0; this.lastLoadedFragLevel = 0; this._nextAutoLevel = -1; this.timer = -1; this.onCheck = this._abandonRulesCheck.bind(this); this.fragCurrent = null; this.partCurrent = null; this.bitrateTestDelay = 0; this.bwEstimator = void 0; this.hls = hls; var config = hls.config; this.bwEstimator = new EwmaBandWidthEstimator(config.abrEwmaSlowVoD, config.abrEwmaFastVoD, config.abrEwmaDefaultEstimate); this.registerListeners(); } var _proto = AbrController.prototype; _proto.registerListeners = function registerListeners() { var hls = this.hls; hls.on(Events.FRAG_LOADING, this.onFragLoading, this); hls.on(Events.FRAG_LOADED, this.onFragLoaded, this); hls.on(Events.FRAG_BUFFERED, this.onFragBuffered, this); hls.on(Events.LEVEL_SWITCHING, this.onLevelSwitching, this); hls.on(Events.LEVEL_LOADED, this.onLevelLoaded, this); }; _proto.unregisterListeners = function unregisterListeners() { var hls = this.hls; hls.off(Events.FRAG_LOADING, this.onFragLoading, this); hls.off(Events.FRAG_LOADED, this.onFragLoaded, this); hls.off(Events.FRAG_BUFFERED, this.onFragBuffered, this); hls.off(Events.LEVEL_SWITCHING, this.onLevelSwitching, this); hls.off(Events.LEVEL_LOADED, this.onLevelLoaded, this); }; _proto.destroy = function destroy() { this.unregisterListeners(); this.clearTimer(); // @ts-ignore this.hls = this.onCheck = null; this.fragCurrent = this.partCurrent = null; }; _proto.onFragLoading = function onFragLoading(event, data) { var _data$part; var frag = data.frag; if (this.ignoreFragment(frag)) { return; } this.fragCurrent = frag; this.partCurrent = (_data$part = data.part) != null ? _data$part : null; this.clearTimer(); this.timer = self.setInterval(this.onCheck, 100); }; _proto.onLevelSwitching = function onLevelSwitching(event, data) { this.clearTimer(); }; _proto.getTimeToLoadFrag = function getTimeToLoadFrag(timeToFirstByteSec, bandwidth, fragSizeBits, isSwitch) { var fragLoadSec = timeToFirstByteSec + fragSizeBits / bandwidth; var playlistLoadSec = isSwitch ? this.lastLevelLoadSec : 0; return fragLoadSec + playlistLoadSec; }; _proto.onLevelLoaded = function onLevelLoaded(event, data) { var config = this.hls.config; var _data$stats = data.stats, total = _data$stats.total, bwEstimate = _data$stats.bwEstimate; // Total is the bytelength and bwEstimate in bits/sec if (isFiniteNumber(total) && isFiniteNumber(bwEstimate)) { this.lastLevelLoadSec = 8 * total / bwEstimate; } if (data.details.live) { this.bwEstimator.update(config.abrEwmaSlowLive, config.abrEwmaFastLive); } else { this.bwEstimator.update(config.abrEwmaSlowVoD, config.abrEwmaFastVoD); } } /* This method monitors the download rate of the current fragment, and will downswitch if that fragment will not load quickly enough to prevent underbuffering */; _proto._abandonRulesCheck = function _abandonRulesCheck() { var frag = this.fragCurrent, part = this.partCurrent, hls = this.hls; var autoLevelEnabled = hls.autoLevelEnabled, media = hls.media; if (!frag || !media) { return; } var now = performance.now(); var stats = part ? part.stats : frag.stats; var duration = part ? part.duration : frag.duration; var timeLoading = now - stats.loading.start; // If frag loading is aborted, complete, or from lowest level, stop timer and return if (stats.aborted || stats.loaded && stats.loaded === stats.total || frag.level === 0) { this.clearTimer(); // reset forced auto level value so that next level will be selected this._nextAutoLevel = -1; return; } // This check only runs if we're in ABR mode and actually playing if (!autoLevelEnabled || media.paused || !media.playbackRate || !media.readyState) { return; } var bufferInfo = hls.mainForwardBufferInfo; if (bufferInfo === null) { return; } var ttfbEstimate = this.bwEstimator.getEstimateTTFB(); var playbackRate = Math.abs(media.playbackRate); // To maintain stable adaptive playback, only begin monitoring frag loading after half or more of its playback duration has passed if (timeLoading <= Math.max(ttfbEstimate, 1000 * (duration / (playbackRate * 2)))) { return; } // bufferStarvationDelay is an estimate of the amount time (in seconds) it will take to exhaust the buffer var bufferStarvationDelay = bufferInfo.len / playbackRate; // Only downswitch if less than 2 fragment lengths are buffered if (bufferStarvationDelay >= 2 * duration / playbackRate) { return; } var ttfb = stats.loading.first ? stats.loading.first - stats.loading.start : -1; var loadedFirstByte = stats.loaded && ttfb > -1; var bwEstimate = this.bwEstimator.getEstimate(); var levels = hls.levels, minAutoLevel = hls.minAutoLevel; var level = levels[frag.level]; var expectedLen = stats.total || Math.max(stats.loaded, Math.round(duration * level.maxBitrate / 8)); var timeStreaming = timeLoading - ttfb; if (timeStreaming < 1 && loadedFirstByte) { timeStreaming = Math.min(timeLoading, stats.loaded * 8 / bwEstimate); } var loadRate = loadedFirstByte ? stats.loaded * 1000 / timeStreaming : 0; // fragLoadDelay is an estimate of the time (in seconds) it will take to buffer the remainder of the fragment var fragLoadedDelay = loadRate ? (expectedLen - stats.loaded) / loadRate : expectedLen * 8 / bwEstimate + ttfbEstimate / 1000; // Only downswitch if the time to finish loading the current fragment is greater than the amount of buffer left if (fragLoadedDelay <= bufferStarvationDelay) { return; } var bwe = loadRate ? loadRate * 8 : bwEstimate; var fragLevelNextLoadedDelay = Number.POSITIVE_INFINITY; var nextLoadLevel; // Iterate through lower level and try to find the largest one that avoids rebuffering for (nextLoadLevel = frag.level - 1; nextLoadLevel > minAutoLevel; nextLoadLevel--) { // compute time to load next fragment at lower level // 8 = bits per byte (bps/Bps) var levelNextBitrate = levels[nextLoadLevel].maxBitrate; fragLevelNextLoadedDelay = this.getTimeToLoadFrag(ttfbEstimate / 1000, bwe, duration * levelNextBitrate, !levels[nextLoadLevel].details); if (fragLevelNextLoadedDelay < bufferStarvationDelay) { break; } } // Only emergency switch down if it takes less time to load a new fragment at lowest level instead of continuing // to load the current one if (fragLevelNextLoadedDelay >= fragLoadedDelay) { return; } // if estimated load time of new segment is completely unreasonable, ignore and do not emergency switch down if (fragLevelNextLoadedDelay > duration * 10) { return; } hls.nextLoadLevel = nextLoadLevel; if (loadedFirstByte) { // If there has been loading progress, sample bandwidth using loading time offset by minimum TTFB time this.bwEstimator.sample(timeLoading - Math.min(ttfbEstimate, ttfb), stats.loaded); } else { // If there has been no loading progress, sample TTFB this.bwEstimator.sampleTTFB(timeLoading); } this.clearTimer(); logger.warn("[abr] Fragment " + frag.sn + (part ? ' part ' + part.index : '') + " of level " + frag.level + " is loading too slowly;\n Time to underbuffer: " + bufferStarvationDelay.toFixed(3) + " s\n Estimated load time for current fragment: " + fragLoadedDelay.toFixed(3) + " s\n Estimated load time for down switch fragment: " + fragLevelNextLoadedDelay.toFixed(3) + " s\n TTFB estimate: " + ttfb + "\n Current BW estimate: " + (isFiniteNumber(bwEstimate) ? (bwEstimate / 1024).toFixed(3) : 'Unknown') + " Kb/s\n New BW estimate: " + (this.bwEstimator.getEstimate() / 1024).toFixed(3) + " Kb/s\n Aborting and switching to level " + nextLoadLevel); if (frag.loader) { this.fragCurrent = this.partCurrent = null; frag.abortRequests(); } hls.trigger(Events.FRAG_LOAD_EMERGENCY_ABORTED, { frag: frag, part: part, stats: stats }); }; _proto.onFragLoaded = function onFragLoaded(event, _ref) { var frag = _ref.frag, part = _ref.part; var stats = part ? part.stats : frag.stats; if (frag.type === PlaylistLevelType.MAIN) { this.bwEstimator.sampleTTFB(stats.loading.first - stats.loading.start); } if (this.ignoreFragment(frag)) { return; } // stop monitoring bw once frag loaded this.clearTimer(); // store level id after successful fragment load this.lastLoadedFragLevel = frag.level; // reset forced auto level value so that next level will be selected this._nextAutoLevel = -1; // compute level average bitrate if (this.hls.config.abrMaxWithRealBitrate) { var duration = part ? part.duration : frag.duration; var level = this.hls.levels[frag.level]; var loadedBytes = (level.loaded ? level.loaded.bytes : 0) + stats.loaded; var loadedDuration = (level.loaded ? level.loaded.duration : 0) + duration; level.loaded = { bytes: loadedBytes, duration: loadedDuration }; level.realBitrate = Math.round(8 * loadedBytes / loadedDuration); } if (frag.bitrateTest) { var fragBufferedData = { stats: stats, frag: frag, part: part, id: frag.type }; this.onFragBuffered(Events.FRAG_BUFFERED, fragBufferedData); frag.bitrateTest = false; } }; _proto.onFragBuffered = function onFragBuffered(event, data) { var frag = data.frag, part = data.part; var stats = part != null && part.stats.loaded ? part.stats : frag.stats; if (stats.aborted) { return; } if (this.ignoreFragment(frag)) { return; } // Use the difference between parsing and request instead of buffering and request to compute fragLoadingProcessing; // rationale is that buffer appending only happens once media is attached. This can happen when config.startFragPrefetch // is used. If we used buffering in that case, our BW estimate sample will be very large. var processingMs = stats.parsing.end - stats.loading.start - Math.min(stats.loading.first - stats.loading.start, this.bwEstimator.getEstimateTTFB()); this.bwEstimator.sample(processingMs, stats.loaded); stats.bwEstimate = this.bwEstimator.getEstimate(); if (frag.bitrateTest) { this.bitrateTestDelay = processingMs / 1000; } else { this.bitrateTestDelay = 0; } }; _proto.ignoreFragment = function ignoreFragment(frag) { // Only count non-alt-audio frags which were actually buffered in our BW calculations return frag.type !== PlaylistLevelType.MAIN || frag.sn === 'initSegment'; }; _proto.clearTimer = function clearTimer() { self.clearInterval(this.timer); } // return next auto level ; _proto.getNextABRAutoLevel = function getNextABRAutoLevel() { var fragCurrent = this.fragCurrent, partCurrent = this.partCurrent, hls = this.hls; var maxAutoLevel = hls.maxAutoLevel, config = hls.config, minAutoLevel = hls.minAutoLevel, media = hls.media; var currentFragDuration = partCurrent ? partCurrent.duration : fragCurrent ? fragCurrent.duration : 0; // playbackRate is the absolute value of the playback rate; if media.playbackRate is 0, we use 1 to load as // if we're playing back at the normal rate. var playbackRate = media && media.playbackRate !== 0 ? Math.abs(media.playbackRate) : 1.0; var avgbw = this.bwEstimator ? this.bwEstimator.getEstimate() : config.abrEwmaDefaultEstimate; // bufferStarvationDelay is the wall-clock time left until the playback buffer is exhausted. var bufferInfo = hls.mainForwardBufferInfo; var bufferStarvationDelay = (bufferInfo ? bufferInfo.len : 0) / playbackRate; // First, look to see if we can find a level matching with our avg bandwidth AND that could also guarantee no rebuffering at all var bestLevel = this.findBestLevel(avgbw, minAutoLevel, maxAutoLevel, bufferStarvationDelay, config.abrBandWidthFactor, config.abrBandWidthUpFactor); if (bestLevel >= 0) { return bestLevel; } logger.trace("[abr] " + (bufferStarvationDelay ? 'rebuffering expected' : 'buffer is empty') + ", finding optimal quality level"); // not possible to get rid of rebuffering ... let's try to find level that will guarantee less than maxStarvationDelay of rebuffering // if no matching level found, logic will return 0 var maxStarvationDelay = currentFragDuration ? Math.min(currentFragDuration, config.maxStarvationDelay) : config.maxStarvationDelay; var bwFactor = config.abrBandWidthFactor; var bwUpFactor = config.abrBandWidthUpFactor; if (!bufferStarvationDelay) { // in case buffer is empty, let's check if previous fragment was loaded to perform a bitrate test var bitrateTestDelay = this.bitrateTestDelay; if (bitrateTestDelay) { // if it is the case, then we need to adjust our max starvation delay using maxLoadingDelay config value // max video loading delay used in automatic start level selection : // in that mode ABR controller will ensure that video loading time (ie the time to fetch the first fragment at lowest quality level + // the time to fetch the fragment at the appropriate quality level is less than ```maxLoadingDelay``` ) // cap maxLoadingDelay and ensure it is not bigger 'than bitrate test' frag duration var maxLoadingDelay = currentFragDuration ? Math.min(currentFragDuration, config.maxLoadingDelay) : config.maxLoadingDelay; maxStarvationDelay = maxLoadingDelay - bitrateTestDelay; logger.trace("[abr] bitrate test took " + Math.round(1000 * bitrateTestDelay) + "ms, set first fragment max fetchDuration to " + Math.round(1000 * maxStarvationDelay) + " ms"); // don't use conservative factor on bitrate test bwFactor = bwUpFactor = 1; } } bestLevel = this.findBestLevel(avgbw, minAutoLevel, maxAutoLevel, bufferStarvationDelay + maxStarvationDelay, bwFactor, bwUpFactor); return Math.max(bestLevel, 0); }; _proto.findBestLevel = function findBestLevel(currentBw, minAutoLevel, maxAutoLevel, maxFetchDuration, bwFactor, bwUpFactor) { var _level$details; var fragCurrent = this.fragCurrent, partCurrent = this.partCurrent, currentLevel = this.lastLoadedFragLevel; var levels = this.hls.levels; var level = levels[currentLevel]; var live = !!(level != null && (_level$details = level.details) != null && _level$details.live); var currentCodecSet = level == null ? void 0 : level.codecSet; var currentFragDuration = partCurrent ? partCurrent.duration : fragCurrent ? fragCurrent.duration : 0; var ttfbEstimateSec = this.bwEstimator.getEstimateTTFB() / 1000; var levelSkippedMin = minAutoLevel; var levelSkippedMax = -1; for (var i = maxAutoLevel; i >= minAutoLevel; i--) { var levelInfo = levels[i]; if (!levelInfo || currentCodecSet && levelInfo.codecSet !== currentCodecSet) { if (levelInfo) { levelSkippedMin = Math.min(i, levelSkippedMin); levelSkippedMax = Math.max(i, levelSkippedMax); } continue; } if (levelSkippedMax !== -1) { logger.trace("[abr] Skipped level(s) " + levelSkippedMin + "-" + levelSkippedMax + " with CODECS:\"" + levels[levelSkippedMax].attrs.CODECS + "\"; not compatible with \"" + level.attrs.CODECS + "\""); } var levelDetails = levelInfo.details; var avgDuration = (partCurrent ? levelDetails == null ? void 0 : levelDetails.partTarget : levelDetails == null ? void 0 : levelDetails.averagetargetduration) || currentFragDuration; var adjustedbw = void 0; // follow algorithm captured from stagefright : // https://android.googlesource.com/platform/frameworks/av/+/master/media/libstagefright/httplive/LiveSession.cpp // Pick the highest bandwidth stream below or equal to estimated bandwidth. // consider only 80% of the available bandwidth, but if we are switching up, // be even more conservative (70%) to avoid overestimating and immediately // switching back. if (i <= currentLevel) { adjustedbw = bwFactor * currentBw; } else { adjustedbw = bwUpFactor * currentBw; } var bitrate = levels[i].maxBitrate; var fetchDuration = this.getTimeToLoadFrag(ttfbEstimateSec, adjustedbw, bitrate * avgDuration, levelDetails === undefined); logger.trace("[abr] level:" + i + " adjustedbw-bitrate:" + Math.round(adjustedbw - bitrate) + " avgDuration:" + avgDuration.toFixed(1) + " maxFetchDuration:" + maxFetchDuration.toFixed(1) + " fetchDuration:" + fetchDuration.toFixed(1)); // if adjusted bw is greater than level bitrate AND if (adjustedbw > bitrate && ( // fragment fetchDuration unknown OR live stream OR fragment fetchDuration less than max allowed fetch duration, then this level matches // we don't account for max Fetch Duration for live streams, this is to avoid switching down when near the edge of live sliding window ... // special case to support startLevel = -1 (bitrateTest) on live streams : in that case we should not exit loop so that findBestLevel will return -1 fetchDuration === 0 || !isFiniteNumber(fetchDuration) || live && !this.bitrateTestDelay || fetchDuration < maxFetchDuration)) { // as we are looping from highest to lowest, this will return the best achievable quality level return i; } } // not enough time budget even with quality level 0 ... rebuffering might happen return -1; }; _createClass(AbrController, [{ key: "nextAutoLevel", get: function get() { var forcedAutoLevel = this._nextAutoLevel; var bwEstimator = this.bwEstimator; // in case next auto level has been forced, and bw not available or not reliable, return forced value if (forcedAutoLevel !== -1 && !bwEstimator.canEstimate()) { return forcedAutoLevel; } // compute next level using ABR logic var nextABRAutoLevel = this.getNextABRAutoLevel(); // use forced auto level when ABR selected level has errored if (forcedAutoLevel !== -1) { var levels = this.hls.levels; if (levels.length > Math.max(forcedAutoLevel, nextABRAutoLevel) && levels[forcedAutoLevel].loadError <= levels[nextABRAutoLevel].loadError) { return forcedAutoLevel; } } // if forced auto level has been defined, use it to cap ABR computed quality level if (forcedAutoLevel !== -1) { nextABRAutoLevel = Math.min(forcedAutoLevel, nextABRAutoLevel); } return nextABRAutoLevel; }, set: function set(nextLevel) { this._nextAutoLevel = nextLevel; } }]); return AbrController; }(); var ChunkCache = /*#__PURE__*/function () { function ChunkCache() { this.chunks = []; this.dataLength = 0; } var _proto = ChunkCache.prototype; _proto.push = function push(chunk) { this.chunks.push(chunk); this.dataLength += chunk.length; }; _proto.flush = function flush() { var chunks = this.chunks, dataLength = this.dataLength; var result; if (!chunks.length) { return new Uint8Array(0); } else if (chunks.length === 1) { result = chunks[0]; } else { result = concatUint8Arrays(chunks, dataLength); } this.reset(); return result; }; _proto.reset = function reset() { this.chunks.length = 0; this.dataLength = 0; }; return ChunkCache; }(); function concatUint8Arrays(chunks, dataLength) { var result = new Uint8Array(dataLength); var offset = 0; for (var i = 0; i < chunks.length; i++) { var chunk = chunks[i]; result.set(chunk, offset); offset += chunk.length; } return result; } var TICK_INTERVAL$1 = 100; // how often to tick in ms var AudioStreamController = /*#__PURE__*/function (_BaseStreamController) { _inheritsLoose(AudioStreamController, _BaseStreamController); function AudioStreamController(hls, fragmentTracker, keyLoader) { var _this; _this = _BaseStreamController.call(this, hls, fragmentTracker, keyLoader, '[audio-stream-controller]', PlaylistLevelType.AUDIO) || this; _this.videoBuffer = null; _this.videoTrackCC = -1; _this.waitingVideoCC = -1; _this.bufferedTrack = null; _this.switchingTrack = null; _this.trackId = -1; _this.waitingData = null; _this.mainDetails = null; _this.bufferFlushed = false; _this.cachedTrackLoadedData = null; _this._registerListeners(); return _this; } var _proto = AudioStreamController.prototype; _proto.onHandlerDestroying = function onHandlerDestroying() { this._unregisterListeners(); this.mainDetails = null; this.bufferedTrack = null; this.switchingTrack = null; }; _proto._registerListeners = function _registerListeners() { var hls = this.hls; hls.on(Events.MEDIA_ATTACHED, this.onMediaAttached, this); hls.on(Events.MEDIA_DETACHING, this.onMediaDetaching, this); hls.on(Events.MANIFEST_LOADING, this.onManifestLoading, this); hls.on(Events.LEVEL_LOADED, this.onLevelLoaded, this); hls.on(Events.AUDIO_TRACKS_UPDATED, this.onAudioTracksUpdated, this); hls.on(Events.AUDIO_TRACK_SWITCHING, this.onAudioTrackSwitching, this); hls.on(Events.AUDIO_TRACK_LOADED, this.onAudioTrackLoaded, this); hls.on(Events.ERROR, this.onError, this); hls.on(Events.BUFFER_RESET, this.onBufferReset, this); hls.on(Events.BUFFER_CREATED, this.onBufferCreated, this); hls.on(Events.BUFFER_FLUSHED, this.onBufferFlushed, this); hls.on(Events.INIT_PTS_FOUND, this.onInitPtsFound, this); hls.on(Events.FRAG_BUFFERED, this.onFragBuffered, this); }; _proto._unregisterListeners = function _unregisterListeners() { var hls = this.hls; hls.off(Events.MEDIA_ATTACHED, this.onMediaAttached, this); hls.off(Events.MEDIA_DETACHING, this.onMediaDetaching, this); hls.off(Events.MANIFEST_LOADING, this.onManifestLoading, this); hls.off(Events.LEVEL_LOADED, this.onLevelLoaded, this); hls.off(Events.AUDIO_TRACKS_UPDATED, this.onAudioTracksUpdated, this); hls.off(Events.AUDIO_TRACK_SWITCHING, this.onAudioTrackSwitching, this); hls.off(Events.AUDIO_TRACK_LOADED, this.onAudioTrackLoaded, this); hls.off(Events.ERROR, this.onError, this); hls.off(Events.BUFFER_RESET, this.onBufferReset, this); hls.off(Events.BUFFER_CREATED, this.onBufferCreated, this); hls.off(Events.BUFFER_FLUSHED, this.onBufferFlushed, this); hls.off(Events.INIT_PTS_FOUND, this.onInitPtsFound, this); hls.off(Events.FRAG_BUFFERED, this.onFragBuffered, this); } // INIT_PTS_FOUND is triggered when the video track parsed in the stream-controller has a new PTS value ; _proto.onInitPtsFound = function onInitPtsFound(event, _ref) { var frag = _ref.frag, id = _ref.id, initPTS = _ref.initPTS, timescale = _ref.timescale; // Always update the new INIT PTS // Can change due level switch if (id === 'main') { var cc = frag.cc; this.initPTS[frag.cc] = { baseTime: initPTS, timescale: timescale }; this.log("InitPTS for cc: " + cc + " found from main: " + initPTS); this.videoTrackCC = cc; // If we are waiting, tick immediately to unblock audio fragment transmuxing if (this.state === State.WAITING_INIT_PTS) { this.tick(); } } }; _proto.startLoad = function startLoad(startPosition) { if (!this.levels) { this.startPosition = startPosition; this.state = State.STOPPED; return; } var lastCurrentTime = this.lastCurrentTime; this.stopLoad(); this.setInterval(TICK_INTERVAL$1); if (lastCurrentTime > 0 && startPosition === -1) { this.log("Override startPosition with lastCurrentTime @" + lastCurrentTime.toFixed(3)); startPosition = lastCurrentTime; this.state = State.IDLE; } else { this.loadedmetadata = false; this.state = State.WAITING_TRACK; } this.nextLoadPosition = this.startPosition = this.lastCurrentTime = startPosition; this.tick(); }; _proto.doTick = function doTick() { switch (this.state) { case State.IDLE: this.doTickIdle(); break; case State.WAITING_TRACK: { var _levels$trackId; var levels = this.levels, trackId = this.trackId; var details = levels == null ? void 0 : (_levels$trackId = levels[trackId]) == null ? void 0 : _levels$trackId.details; if (details) { if (this.waitForCdnTuneIn(details)) { break; } this.state = State.WAITING_INIT_PTS; } break; } case State.FRAG_LOADING_WAITING_RETRY: { var _this$media; var now = performance.now(); var retryDate = this.retryDate; // if current time is gt than retryDate, or if media seeking let's switch to IDLE state to retry loading if (!retryDate || now >= retryDate || (_this$media = this.media) != null && _this$media.seeking) { this.log('RetryDate reached, switch back to IDLE state'); this.resetStartWhenNotLoaded(this.trackId); this.state = State.IDLE; } break; } case State.WAITING_INIT_PTS: { // Ensure we don't get stuck in the WAITING_INIT_PTS state if the waiting frag CC doesn't match any initPTS var waitingData = this.waitingData; if (waitingData) { var frag = waitingData.frag, part = waitingData.part, cache = waitingData.cache, complete = waitingData.complete; if (this.initPTS[frag.cc] !== undefined) { this.waitingData = null; this.waitingVideoCC = -1; this.state = State.FRAG_LOADING; var payload = cache.flush(); var data = { frag: frag, part: part, payload: payload, networkDetails: null }; this._handleFragmentLoadProgress(data); if (complete) { _BaseStreamController.prototype._handleFragmentLoadComplete.call(this, data); } } else if (this.videoTrackCC !== this.waitingVideoCC) { // Drop waiting fragment if videoTrackCC has changed since waitingFragment was set and initPTS was not found this.log("Waiting fragment cc (" + frag.cc + ") cancelled because video is at cc " + this.videoTrackCC); this.clearWaitingFragment(); } else { // Drop waiting fragment if an earlier fragment is needed var pos = this.getLoadPosition(); var bufferInfo = BufferHelper.bufferInfo(this.mediaBuffer, pos, this.config.maxBufferHole); var waitingFragmentAtPosition = fragmentWithinToleranceTest(bufferInfo.end, this.config.maxFragLookUpTolerance, frag); if (waitingFragmentAtPosition < 0) { this.log("Waiting fragment cc (" + frag.cc + ") @ " + frag.start + " cancelled because another fragment at " + bufferInfo.end + " is needed"); this.clearWaitingFragment(); } } } else { this.state = State.IDLE; } } } this.onTickEnd(); }; _proto.clearWaitingFragment = function clearWaitingFragment() { var waitingData = this.waitingData; if (waitingData) { this.fragmentTracker.removeFragment(waitingData.frag); this.waitingData = null; this.waitingVideoCC = -1; this.state = State.IDLE; } }; _proto.resetLoadingState = function resetLoadingState() { this.clearWaitingFragment(); _BaseStreamController.prototype.resetLoadingState.call(this); }; _proto.onTickEnd = function onTickEnd() { var media = this.media; if (!(media != null && media.readyState)) { // Exit early if we don't have media or if the media hasn't buffered anything yet (readyState 0) return; } this.lastCurrentTime = media.currentTime; }; _proto.doTickIdle = function doTickIdle() { var hls = this.hls, levels = this.levels, media = this.media, trackId = this.trackId; var config = hls.config; if (!(levels != null && levels[trackId])) { return; } // if video not attached AND // start fragment already requested OR start frag prefetch not enabled // exit loop // => if media not attached but start frag prefetch is enabled and start frag not requested yet, we will not exit loop if (!media && (this.startFragRequested || !config.startFragPrefetch)) { return; } var levelInfo = levels[trackId]; var trackDetails = levelInfo.details; if (!trackDetails || trackDetails.live && this.levelLastLoaded !== trackId || this.waitForCdnTuneIn(trackDetails)) { this.state = State.WAITING_TRACK; return; } var bufferable = this.mediaBuffer ? this.mediaBuffer : this.media; if (this.bufferFlushed && bufferable) { this.bufferFlushed = false; this.afterBufferFlushed(bufferable, ElementaryStreamTypes.AUDIO, PlaylistLevelType.AUDIO); } var bufferInfo = this.getFwdBufferInfo(bufferable, PlaylistLevelType.AUDIO); if (bufferInfo === null) { return; } var bufferedTrack = this.bufferedTrack, switchingTrack = this.switchingTrack; if (!switchingTrack && this._streamEnded(bufferInfo, trackDetails)) { hls.trigger(Events.BUFFER_EOS, { type: 'audio' }); this.state = State.ENDED; return; } var mainBufferInfo = this.getFwdBufferInfo(this.videoBuffer ? this.videoBuffer : this.media, PlaylistLevelType.MAIN); var bufferLen = bufferInfo.len; var maxBufLen = this.getMaxBufferLength(mainBufferInfo == null ? void 0 : mainBufferInfo.len); // if buffer length is less than maxBufLen try to load a new fragment if (bufferLen >= maxBufLen && !switchingTrack) { return; } var fragments = trackDetails.fragments; var start = fragments[0].start; var targetBufferTime = bufferInfo.end; if (switchingTrack && media) { var pos = this.getLoadPosition(); if (bufferedTrack && switchingTrack.attrs !== bufferedTrack.attrs) { targetBufferTime = pos; } // if currentTime (pos) is less than alt audio playlist start time, it means that alt audio is ahead of currentTime if (trackDetails.PTSKnown && pos < start) { // if everything is buffered from pos to start or if audio buffer upfront, let's seek to start if (bufferInfo.end > start || bufferInfo.nextStart) { this.log('Alt audio track ahead of main track, seek to start of alt audio track'); media.currentTime = start + 0.05; } } } var frag = this.getNextFragment(targetBufferTime, trackDetails); var atGap = false; // Avoid loop loading by using nextLoadPosition set for backtracking and skipping consecutive GAP tags if (frag && this.isLoopLoading(frag, targetBufferTime)) { atGap = !!frag.gap; frag = this.getNextFragmentLoopLoading(frag, trackDetails, bufferInfo, PlaylistLevelType.MAIN, maxBufLen); } if (!frag) { this.bufferFlushed = true; return; } // Buffer audio up to one target duration ahead of main buffer var atBufferSyncLimit = mainBufferInfo && frag.start > mainBufferInfo.end + trackDetails.targetduration; if (atBufferSyncLimit || // Or wait for main buffer after buffing some audio !(mainBufferInfo != null && mainBufferInfo.len) && bufferInfo.len) { // Check fragment-tracker for main fragments since GAP segments do not show up in bufferInfo var mainFrag = this.getAppendedFrag(frag.start, PlaylistLevelType.MAIN); if (mainFrag === null) { return; } // Bridge gaps in main buffer atGap || (atGap = !!mainFrag.gap || !!atBufferSyncLimit && mainBufferInfo.len === 0); if (atBufferSyncLimit && !atGap || atGap && bufferInfo.nextStart && bufferInfo.nextStart < mainFrag.end) { return; } } this.loadFragment(frag, levelInfo, targetBufferTime); }; _proto.getMaxBufferLength = function getMaxBufferLength(mainBufferLength) { var maxConfigBuffer = _BaseStreamController.prototype.getMaxBufferLength.call(this); if (!mainBufferLength) { return maxConfigBuffer; } return Math.min(Math.max(maxConfigBuffer, mainBufferLength), this.config.maxMaxBufferLength); }; _proto.onMediaDetaching = function onMediaDetaching() { this.videoBuffer = null; _BaseStreamController.prototype.onMediaDetaching.call(this); }; _proto.onAudioTracksUpdated = function onAudioTracksUpdated(event, _ref2) { var audioTracks = _ref2.audioTracks; this.resetTransmuxer(); this.levels = audioTracks.map(function (mediaPlaylist) { return new Level(mediaPlaylist); }); }; _proto.onAudioTrackSwitching = function onAudioTrackSwitching(event, data) { // if any URL found on new audio track, it is an alternate audio track var altAudio = !!data.url; this.trackId = data.id; var fragCurrent = this.fragCurrent; if (fragCurrent) { fragCurrent.abortRequests(); this.removeUnbufferedFrags(fragCurrent.start); } this.resetLoadingState(); // destroy useless transmuxer when switching audio to main if (!altAudio) { this.resetTransmuxer(); } else { // switching to audio track, start timer if not already started this.setInterval(TICK_INTERVAL$1); } // should we switch tracks ? if (altAudio) { this.switchingTrack = data; // main audio track are handled by stream-controller, just do something if switching to alt audio track this.state = State.IDLE; } else { this.switchingTrack = null; this.bufferedTrack = data; this.state = State.STOPPED; } this.tick(); }; _proto.onManifestLoading = function onManifestLoading() { this.fragmentTracker.removeAllFragments(); this.startPosition = this.lastCurrentTime = 0; this.bufferFlushed = false; this.levels = this.mainDetails = this.waitingData = this.bufferedTrack = this.cachedTrackLoadedData = this.switchingTrack = null; this.startFragRequested = false; this.trackId = this.videoTrackCC = this.waitingVideoCC = -1; }; _proto.onLevelLoaded = function onLevelLoaded(event, data) { this.mainDetails = data.details; if (this.cachedTrackLoadedData !== null) { this.hls.trigger(Events.AUDIO_TRACK_LOADED, this.cachedTrackLoadedData); this.cachedTrackLoadedData = null; } }; _proto.onAudioTrackLoaded = function onAudioTrackLoaded(event, data) { var _track$details; if (this.mainDetails == null) { this.cachedTrackLoadedData = data; return; } var levels = this.levels; var newDetails = data.details, trackId = data.id; if (!levels) { this.warn("Audio tracks were reset while loading level " + trackId); return; } this.log("Track " + trackId + " loaded [" + newDetails.startSN + "," + newDetails.endSN + "]" + (newDetails.lastPartSn ? "[part-" + newDetails.lastPartSn + "-" + newDetails.lastPartIndex + "]" : '') + ",duration:" + newDetails.totalduration); var track = levels[trackId]; var sliding = 0; if (newDetails.live || (_track$details = track.details) != null && _track$details.live) { var mainDetails = this.mainDetails; if (!newDetails.fragments[0]) { newDetails.deltaUpdateFailed = true; } if (newDetails.deltaUpdateFailed || !mainDetails) { return; } if (!track.details && newDetails.hasProgramDateTime && mainDetails.hasProgramDateTime) { // Make sure our audio rendition is aligned with the "main" rendition, using // pdt as our reference times. alignMediaPlaylistByPDT(newDetails, mainDetails); sliding = newDetails.fragments[0].start; } else { sliding = this.alignPlaylists(newDetails, track.details); } } track.details = newDetails; this.levelLastLoaded = trackId; // compute start position if we are aligned with the main playlist if (!this.startFragRequested && (this.mainDetails || !newDetails.live)) { this.setStartPosition(track.details, sliding); } // only switch back to IDLE state if we were waiting for track to start downloading a new fragment if (this.state === State.WAITING_TRACK && !this.waitForCdnTuneIn(newDetails)) { this.state = State.IDLE; } // trigger handler right now this.tick(); }; _proto._handleFragmentLoadProgress = function _handleFragmentLoadProgress(data) { var _frag$initSegment; var frag = data.frag, part = data.part, payload = data.payload; var config = this.config, trackId = this.trackId, levels = this.levels; if (!levels) { this.warn("Audio tracks were reset while fragment load was in progress. Fragment " + frag.sn + " of level " + frag.level + " will not be buffered"); return; } var track = levels[trackId]; if (!track) { this.warn('Audio track is undefined on fragment load progress'); return; } var details = track.details; if (!details) { this.warn('Audio track details undefined on fragment load progress'); this.removeUnbufferedFrags(frag.start); return; } var audioCodec = config.defaultAudioCodec || track.audioCodec || 'mp4a.40.2'; var transmuxer = this.transmuxer; if (!transmuxer) { transmuxer = this.transmuxer = new TransmuxerInterface(this.hls, PlaylistLevelType.AUDIO, this._handleTransmuxComplete.bind(this), this._handleTransmuxerFlush.bind(this)); } // Check if we have video initPTS // If not we need to wait for it var initPTS = this.initPTS[frag.cc]; var initSegmentData = (_frag$initSegment = frag.initSegment) == null ? void 0 : _frag$initSegment.data; if (initPTS !== undefined) { // this.log(`Transmuxing ${sn} of [${details.startSN} ,${details.endSN}],track ${trackId}`); // time Offset is accurate if level PTS is known, or if playlist is not sliding (not live) var accurateTimeOffset = false; // details.PTSKnown || !details.live; var partIndex = part ? part.index : -1; var partial = partIndex !== -1; var chunkMeta = new ChunkMetadata(frag.level, frag.sn, frag.stats.chunkCount, payload.byteLength, partIndex, partial); transmuxer.push(payload, initSegmentData, audioCodec, '', frag, part, details.totalduration, accurateTimeOffset, chunkMeta, initPTS); } else { this.log("Unknown video PTS for cc " + frag.cc + ", waiting for video PTS before demuxing audio frag " + frag.sn + " of [" + details.startSN + " ," + details.endSN + "],track " + trackId); var _this$waitingData = this.waitingData = this.waitingData || { frag: frag, part: part, cache: new ChunkCache(), complete: false }, cache = _this$waitingData.cache; cache.push(new Uint8Array(payload)); this.waitingVideoCC = this.videoTrackCC; this.state = State.WAITING_INIT_PTS; } }; _proto._handleFragmentLoadComplete = function _handleFragmentLoadComplete(fragLoadedData) { if (this.waitingData) { this.waitingData.complete = true; return; } _BaseStreamController.prototype._handleFragmentLoadComplete.call(this, fragLoadedData); }; _proto.onBufferReset = function onBufferReset( /* event: Events.BUFFER_RESET */ ) { // reset reference to sourcebuffers this.mediaBuffer = this.videoBuffer = null; this.loadedmetadata = false; }; _proto.onBufferCreated = function onBufferCreated(event, data) { var audioTrack = data.tracks.audio; if (audioTrack) { this.mediaBuffer = audioTrack.buffer || null; } if (data.tracks.video) { this.videoBuffer = data.tracks.video.buffer || null; } }; _proto.onFragBuffered = function onFragBuffered(event, data) { var frag = data.frag, part = data.part; if (frag.type !== PlaylistLevelType.AUDIO) { if (!this.loadedmetadata && frag.type === PlaylistLevelType.MAIN) { var bufferable = this.videoBuffer || this.media; if (bufferable) { var bufferedTimeRanges = BufferHelper.getBuffered(bufferable); if (bufferedTimeRanges.length) { this.loadedmetadata = true; } } } return; } if (this.fragContextChanged(frag)) { // If a level switch was requested while a fragment was buffering, it will emit the FRAG_BUFFERED event upon completion // Avoid setting state back to IDLE or concluding the audio switch; otherwise, the switched-to track will not buffer this.warn("Fragment " + frag.sn + (part ? ' p: ' + part.index : '') + " of level " + frag.level + " finished buffering, but was aborted. state: " + this.state + ", audioSwitch: " + (this.switchingTrack ? this.switchingTrack.name : 'false')); return; } if (frag.sn !== 'initSegment') { this.fragPrevious = frag; var track = this.switchingTrack; if (track) { this.bufferedTrack = track; this.switchingTrack = null; this.hls.trigger(Events.AUDIO_TRACK_SWITCHED, _objectSpread2({}, track)); } } this.fragBufferedComplete(frag, part); }; _proto.onError = function onError(event, data) { var _data$context; if (data.fatal) { this.state = State.ERROR; return; } switch (data.details) { case ErrorDetails.FRAG_GAP: case ErrorDetails.FRAG_PARSING_ERROR: case ErrorDetails.FRAG_DECRYPT_ERROR: case ErrorDetails.FRAG_LOAD_ERROR: case ErrorDetails.FRAG_LOAD_TIMEOUT: case ErrorDetails.KEY_LOAD_ERROR: case ErrorDetails.KEY_LOAD_TIMEOUT: this.onFragmentOrKeyLoadError(PlaylistLevelType.AUDIO, data); break; case ErrorDetails.AUDIO_TRACK_LOAD_ERROR: case ErrorDetails.AUDIO_TRACK_LOAD_TIMEOUT: case ErrorDetails.LEVEL_PARSING_ERROR: // in case of non fatal error while loading track, if not retrying to load track, switch back to IDLE if (!data.levelRetry && this.state === State.WAITING_TRACK && ((_data$context = data.context) == null ? void 0 : _data$context.type) === PlaylistContextType.AUDIO_TRACK) { this.state = State.IDLE; } break; case ErrorDetails.BUFFER_FULL_ERROR: if (!data.parent || data.parent !== 'audio') { return; } if (this.reduceLengthAndFlushBuffer(data)) { this.bufferedTrack = null; _BaseStreamController.prototype.flushMainBuffer.call(this, 0, Number.POSITIVE_INFINITY, 'audio'); } break; case ErrorDetails.INTERNAL_EXCEPTION: this.recoverWorkerError(data); break; } }; _proto.onBufferFlushed = function onBufferFlushed(event, _ref3) { var type = _ref3.type; if (type === ElementaryStreamTypes.AUDIO) { this.bufferFlushed = true; if (this.state === State.ENDED) { this.state = State.IDLE; } } }; _proto._handleTransmuxComplete = function _handleTransmuxComplete(transmuxResult) { var _id3$samples; var id = 'audio'; var hls = this.hls; var remuxResult = transmuxResult.remuxResult, chunkMeta = transmuxResult.chunkMeta; var context = this.getCurrentContext(chunkMeta); if (!context) { this.resetWhenMissingContext(chunkMeta); return; } var frag = context.frag, part = context.part, level = context.level; var details = level.details; var audio = remuxResult.audio, text = remuxResult.text, id3 = remuxResult.id3, initSegment = remuxResult.initSegment; // Check if the current fragment has been aborted. We check this by first seeing if we're still playing the current level. // If we are, subsequently check if the currently loading fragment (fragCurrent) has changed. if (this.fragContextChanged(frag) || !details) { this.fragmentTracker.removeFragment(frag); return; } this.state = State.PARSING; if (this.switchingTrack && audio) { this.completeAudioSwitch(this.switchingTrack); } if (initSegment != null && initSegment.tracks) { var mapFragment = frag.initSegment || frag; this._bufferInitSegment(initSegment.tracks, mapFragment, chunkMeta); hls.trigger(Events.FRAG_PARSING_INIT_SEGMENT, { frag: mapFragment, id: id, tracks: initSegment.tracks }); // Only flush audio from old audio tracks when PTS is known on new audio track } if (audio) { var startPTS = audio.startPTS, endPTS = audio.endPTS, startDTS = audio.startDTS, endDTS = audio.endDTS; if (part) { part.elementaryStreams[ElementaryStreamTypes.AUDIO] = { startPTS: startPTS, endPTS: endPTS, startDTS: startDTS, endDTS: endDTS }; } frag.setElementaryStreamInfo(ElementaryStreamTypes.AUDIO, startPTS, endPTS, startDTS, endDTS); this.bufferFragmentData(audio, frag, part, chunkMeta); } if (id3 != null && (_id3$samples = id3.samples) != null && _id3$samples.length) { var emittedID3 = _extends({ id: id, frag: frag, details: details }, id3); hls.trigger(Events.FRAG_PARSING_METADATA, emittedID3); } if (text) { var emittedText = _extends({ id: id, frag: frag, details: details }, text); hls.trigger(Events.FRAG_PARSING_USERDATA, emittedText); } }; _proto._bufferInitSegment = function _bufferInitSegment(tracks, frag, chunkMeta) { if (this.state !== State.PARSING) { return; } // delete any video track found on audio transmuxer if (tracks.video) { delete tracks.video; } // include levelCodec in audio and video tracks var track = tracks.audio; if (!track) { return; } track.levelCodec = track.codec; track.id = 'audio'; this.log("Init audio buffer, container:" + track.container + ", codecs[parsed]=[" + track.codec + "]"); this.hls.trigger(Events.BUFFER_CODECS, tracks); var initSegment = track.initSegment; if (initSegment != null && initSegment.byteLength) { var segment = { type: 'audio', frag: frag, part: null, chunkMeta: chunkMeta, parent: frag.type, data: initSegment }; this.hls.trigger(Events.BUFFER_APPENDING, segment); } // trigger handler right now this.tick(); }; _proto.loadFragment = function loadFragment(frag, track, targetBufferTime) { // only load if fragment is not loaded or if in audio switch var fragState = this.fragmentTracker.getState(frag); this.fragCurrent = frag; // we force a frag loading in audio switch as fragment tracker might not have evicted previous frags in case of quick audio switch if (this.switchingTrack || fragState === FragmentState.NOT_LOADED || fragState === FragmentState.PARTIAL) { var _track$details2; if (frag.sn === 'initSegment') { this._loadInitSegment(frag, track); } else if ((_track$details2 = track.details) != null && _track$details2.live && !this.initPTS[frag.cc]) { this.log("Waiting for video PTS in continuity counter " + frag.cc + " of live stream before loading audio fragment " + frag.sn + " of level " + this.trackId); this.state = State.WAITING_INIT_PTS; } else { this.startFragRequested = true; _BaseStreamController.prototype.loadFragment.call(this, frag, track, targetBufferTime); } } else { this.clearTrackerIfNeeded(frag); } }; _proto.completeAudioSwitch = function completeAudioSwitch(switchingTrack) { var hls = this.hls, media = this.media, bufferedTrack = this.bufferedTrack; var bufferedAttributes = bufferedTrack == null ? void 0 : bufferedTrack.attrs; var switchAttributes = switchingTrack.attrs; if (media && bufferedAttributes && (bufferedAttributes.CHANNELS !== switchAttributes.CHANNELS || bufferedAttributes.NAME !== switchAttributes.NAME || bufferedAttributes.LANGUAGE !== switchAttributes.LANGUAGE)) { this.log('Switching audio track : flushing all audio'); _BaseStreamController.prototype.flushMainBuffer.call(this, 0, Number.POSITIVE_INFINITY, 'audio'); } this.bufferedTrack = switchingTrack; this.switchingTrack = null; hls.trigger(Events.AUDIO_TRACK_SWITCHED, _objectSpread2({}, switchingTrack)); }; return AudioStreamController; }(BaseStreamController); var AudioTrackController = /*#__PURE__*/function (_BasePlaylistControll) { _inheritsLoose(AudioTrackController, _BasePlaylistControll); function AudioTrackController(hls) { var _this; _this = _BasePlaylistControll.call(this, hls, '[audio-track-controller]') || this; _this.tracks = []; _this.groupId = null; _this.tracksInGroup = []; _this.trackId = -1; _this.currentTrack = null; _this.selectDefaultTrack = true; _this.registerListeners(); return _this; } var _proto = AudioTrackController.prototype; _proto.registerListeners = function registerListeners() { var hls = this.hls; hls.on(Events.MANIFEST_LOADING, this.onManifestLoading, this); hls.on(Events.MANIFEST_PARSED, this.onManifestParsed, this); hls.on(Events.LEVEL_LOADING, this.onLevelLoading, this); hls.on(Events.LEVEL_SWITCHING, this.onLevelSwitching, this); hls.on(Events.AUDIO_TRACK_LOADED, this.onAudioTrackLoaded, this); hls.on(Events.ERROR, this.onError, this); }; _proto.unregisterListeners = function unregisterListeners() { var hls = this.hls; hls.off(Events.MANIFEST_LOADING, this.onManifestLoading, this); hls.off(Events.MANIFEST_PARSED, this.onManifestParsed, this); hls.off(Events.LEVEL_LOADING, this.onLevelLoading, this); hls.off(Events.LEVEL_SWITCHING, this.onLevelSwitching, this); hls.off(Events.AUDIO_TRACK_LOADED, this.onAudioTrackLoaded, this); hls.off(Events.ERROR, this.onError, this); }; _proto.destroy = function destroy() { this.unregisterListeners(); this.tracks.length = 0; this.tracksInGroup.length = 0; this.currentTrack = null; _BasePlaylistControll.prototype.destroy.call(this); }; _proto.onManifestLoading = function onManifestLoading() { this.tracks = []; this.groupId = null; this.tracksInGroup = []; this.trackId = -1; this.currentTrack = null; this.selectDefaultTrack = true; }; _proto.onManifestParsed = function onManifestParsed(event, data) { this.tracks = data.audioTracks || []; }; _proto.onAudioTrackLoaded = function onAudioTrackLoaded(event, data) { var id = data.id, groupId = data.groupId, details = data.details; var trackInActiveGroup = this.tracksInGroup[id]; if (!trackInActiveGroup || trackInActiveGroup.groupId !== groupId) { this.warn("Track with id:" + id + " and group:" + groupId + " not found in active group " + trackInActiveGroup.groupId); return; } var curDetails = trackInActiveGroup.details; trackInActiveGroup.details = data.details; this.log("audio-track " + id + " \"" + trackInActiveGroup.name + "\" lang:" + trackInActiveGroup.lang + " group:" + groupId + " loaded [" + details.startSN + "-" + details.endSN + "]"); if (id === this.trackId) { this.playlistLoaded(id, data, curDetails); } }; _proto.onLevelLoading = function onLevelLoading(event, data) { this.switchLevel(data.level); }; _proto.onLevelSwitching = function onLevelSwitching(event, data) { this.switchLevel(data.level); }; _proto.switchLevel = function switchLevel(levelIndex) { var levelInfo = this.hls.levels[levelIndex]; if (!(levelInfo != null && levelInfo.audioGroupIds)) { return; } var audioGroupId = levelInfo.audioGroupIds[levelInfo.urlId]; if (this.groupId !== audioGroupId) { this.groupId = audioGroupId || null; var audioTracks = this.tracks.filter(function (track) { return !audioGroupId || track.groupId === audioGroupId; }); // Disable selectDefaultTrack if there are no default tracks if (this.selectDefaultTrack && !audioTracks.some(function (track) { return track.default; })) { this.selectDefaultTrack = false; } this.tracksInGroup = audioTracks; var audioTracksUpdated = { audioTracks: audioTracks }; this.log("Updating audio tracks, " + audioTracks.length + " track(s) found in group:" + audioGroupId); this.hls.trigger(Events.AUDIO_TRACKS_UPDATED, audioTracksUpdated); this.selectInitialTrack(); } else if (this.shouldReloadPlaylist(this.currentTrack)) { // Retry playlist loading if no playlist is or has been loaded yet this.setAudioTrack(this.trackId); } }; _proto.onError = function onError(event, data) { if (data.fatal || !data.context) { return; } if (data.context.type === PlaylistContextType.AUDIO_TRACK && data.context.id === this.trackId && data.context.groupId === this.groupId) { this.requestScheduled = -1; this.checkRetry(data); } }; _proto.setAudioTrack = function setAudioTrack(newId) { var tracks = this.tracksInGroup; // check if level idx is valid if (newId < 0 || newId >= tracks.length) { this.warn('Invalid id passed to audio-track controller'); return; } // stopping live reloading timer if any this.clearTimer(); var lastTrack = this.currentTrack; tracks[this.trackId]; var track = tracks[newId]; var groupId = track.groupId, name = track.name; this.log("Switching to audio-track " + newId + " \"" + name + "\" lang:" + track.lang + " group:" + groupId); this.trackId = newId; this.currentTrack = track; this.selectDefaultTrack = false; this.hls.trigger(Events.AUDIO_TRACK_SWITCHING, _objectSpread2({}, track)); // Do not reload track unless live if (track.details && !track.details.live) { return; } var hlsUrlParameters = this.switchParams(track.url, lastTrack == null ? void 0 : lastTrack.details); this.loadPlaylist(hlsUrlParameters); }; _proto.selectInitialTrack = function selectInitialTrack() { var audioTracks = this.tracksInGroup; var trackId = this.findTrackId(this.currentTrack) | this.findTrackId(null); if (trackId !== -1) { this.setAudioTrack(trackId); } else { var error = new Error("No track found for running audio group-ID: " + this.groupId + " track count: " + audioTracks.length); this.warn(error.message); this.hls.trigger(Events.ERROR, { type: ErrorTypes.MEDIA_ERROR, details: ErrorDetails.AUDIO_TRACK_LOAD_ERROR, fatal: true, error: error }); } }; _proto.findTrackId = function findTrackId(currentTrack) { var audioTracks = this.tracksInGroup; for (var i = 0; i < audioTracks.length; i++) { var track = audioTracks[i]; if (!this.selectDefaultTrack || track.default) { if (!currentTrack || currentTrack.attrs['STABLE-RENDITION-ID'] !== undefined && currentTrack.attrs['STABLE-RENDITION-ID'] === track.attrs['STABLE-RENDITION-ID']) { return track.id; } if (currentTrack.name === track.name && currentTrack.lang === track.lang) { return track.id; } } } return -1; }; _proto.loadPlaylist = function loadPlaylist(hlsUrlParameters) { _BasePlaylistControll.prototype.loadPlaylist.call(this); var audioTrack = this.tracksInGroup[this.trackId]; if (this.shouldLoadPlaylist(audioTrack)) { var id = audioTrack.id; var groupId = audioTrack.groupId; var url = audioTrack.url; if (hlsUrlParameters) { try { url = hlsUrlParameters.addDirectives(url); } catch (error) { this.warn("Could not construct new URL with HLS Delivery Directives: " + error); } } // track not retrieved yet, or live playlist we need to (re)load it this.log("loading audio-track playlist " + id + " \"" + audioTrack.name + "\" lang:" + audioTrack.lang + " group:" + groupId); this.clearTimer(); this.hls.trigger(Events.AUDIO_TRACK_LOADING, { url: url, id: id, groupId: groupId, deliveryDirectives: hlsUrlParameters || null }); } }; _createClass(AudioTrackController, [{ key: "audioTracks", get: function get() { return this.tracksInGroup; } }, { key: "audioTrack", get: function get() { return this.trackId; }, set: function set(newId) { // If audio track is selected from API then don't choose from the manifest default track this.selectDefaultTrack = false; this.setAudioTrack(newId); } }]); return AudioTrackController; }(BasePlaylistController); function subtitleOptionsIdentical(trackList1, trackList2) { if (trackList1.length !== trackList2.length) { return false; } for (var i = 0; i < trackList1.length; i++) { if (!subtitleAttributesIdentical(trackList1[i].attrs, trackList2[i].attrs)) { return false; } } return true; } function subtitleAttributesIdentical(attrs1, attrs2) { // Media options with the same rendition ID must be bit identical var stableRenditionId = attrs1['STABLE-RENDITION-ID']; if (stableRenditionId) { return stableRenditionId === attrs2['STABLE-RENDITION-ID']; } // When rendition ID is not present, compare attributes return !['LANGUAGE', 'NAME', 'CHARACTERISTICS', 'AUTOSELECT', 'DEFAULT', 'FORCED'].some(function (subtitleAttribute) { return attrs1[subtitleAttribute] !== attrs2[subtitleAttribute]; }); } var TICK_INTERVAL = 500; // how often to tick in ms var SubtitleStreamController = /*#__PURE__*/function (_BaseStreamController) { _inheritsLoose(SubtitleStreamController, _BaseStreamController); function SubtitleStreamController(hls, fragmentTracker, keyLoader) { var _this; _this = _BaseStreamController.call(this, hls, fragmentTracker, keyLoader, '[subtitle-stream-controller]', PlaylistLevelType.SUBTITLE) || this; _this.levels = []; _this.currentTrackId = -1; _this.tracksBuffered = []; _this.mainDetails = null; _this._registerListeners(); return _this; } var _proto = SubtitleStreamController.prototype; _proto.onHandlerDestroying = function onHandlerDestroying() { this._unregisterListeners(); this.mainDetails = null; }; _proto._registerListeners = function _registerListeners() { var hls = this.hls; hls.on(Events.MEDIA_ATTACHED, this.onMediaAttached, this); hls.on(Events.MEDIA_DETACHING, this.onMediaDetaching, this); hls.on(Events.MANIFEST_LOADING, this.onManifestLoading, this); hls.on(Events.LEVEL_LOADED, this.onLevelLoaded, this); hls.on(Events.ERROR, this.onError, this); hls.on(Events.SUBTITLE_TRACKS_UPDATED, this.onSubtitleTracksUpdated, this); hls.on(Events.SUBTITLE_TRACK_SWITCH, this.onSubtitleTrackSwitch, this); hls.on(Events.SUBTITLE_TRACK_LOADED, this.onSubtitleTrackLoaded, this); hls.on(Events.SUBTITLE_FRAG_PROCESSED, this.onSubtitleFragProcessed, this); hls.on(Events.BUFFER_FLUSHING, this.onBufferFlushing, this); hls.on(Events.FRAG_BUFFERED, this.onFragBuffered, this); }; _proto._unregisterListeners = function _unregisterListeners() { var hls = this.hls; hls.off(Events.MEDIA_ATTACHED, this.onMediaAttached, this); hls.off(Events.MEDIA_DETACHING, this.onMediaDetaching, this); hls.off(Events.MANIFEST_LOADING, this.onManifestLoading, this); hls.off(Events.LEVEL_LOADED, this.onLevelLoaded, this); hls.off(Events.ERROR, this.onError, this); hls.off(Events.SUBTITLE_TRACKS_UPDATED, this.onSubtitleTracksUpdated, this); hls.off(Events.SUBTITLE_TRACK_SWITCH, this.onSubtitleTrackSwitch, this); hls.off(Events.SUBTITLE_TRACK_LOADED, this.onSubtitleTrackLoaded, this); hls.off(Events.SUBTITLE_FRAG_PROCESSED, this.onSubtitleFragProcessed, this); hls.off(Events.BUFFER_FLUSHING, this.onBufferFlushing, this); hls.off(Events.FRAG_BUFFERED, this.onFragBuffered, this); }; _proto.startLoad = function startLoad(startPosition) { this.stopLoad(); this.state = State.IDLE; this.setInterval(TICK_INTERVAL); this.nextLoadPosition = this.startPosition = this.lastCurrentTime = startPosition; this.tick(); }; _proto.onManifestLoading = function onManifestLoading() { this.mainDetails = null; this.fragmentTracker.removeAllFragments(); }; _proto.onMediaDetaching = function onMediaDetaching() { this.tracksBuffered = []; _BaseStreamController.prototype.onMediaDetaching.call(this); }; _proto.onLevelLoaded = function onLevelLoaded(event, data) { this.mainDetails = data.details; }; _proto.onSubtitleFragProcessed = function onSubtitleFragProcessed(event, data) { var frag = data.frag, success = data.success; this.fragPrevious = frag; this.state = State.IDLE; if (!success) { return; } var buffered = this.tracksBuffered[this.currentTrackId]; if (!buffered) { return; } // Create/update a buffered array matching the interface used by BufferHelper.bufferedInfo // so we can re-use the logic used to detect how much has been buffered var timeRange; var fragStart = frag.start; for (var i = 0; i < buffered.length; i++) { if (fragStart >= buffered[i].start && fragStart <= buffered[i].end) { timeRange = buffered[i]; break; } } var fragEnd = frag.start + frag.duration; if (timeRange) { timeRange.end = fragEnd; } else { timeRange = { start: fragStart, end: fragEnd }; buffered.push(timeRange); } this.fragmentTracker.fragBuffered(frag); }; _proto.onBufferFlushing = function onBufferFlushing(event, data) { var startOffset = data.startOffset, endOffset = data.endOffset; if (startOffset === 0 && endOffset !== Number.POSITIVE_INFINITY) { var endOffsetSubtitles = endOffset - 1; if (endOffsetSubtitles <= 0) { return; } data.endOffsetSubtitles = Math.max(0, endOffsetSubtitles); this.tracksBuffered.forEach(function (buffered) { for (var i = 0; i < buffered.length;) { if (buffered[i].end <= endOffsetSubtitles) { buffered.shift(); continue; } else if (buffered[i].start < endOffsetSubtitles) { buffered[i].start = endOffsetSubtitles; } else { break; } i++; } }); this.fragmentTracker.removeFragmentsInRange(startOffset, endOffsetSubtitles, PlaylistLevelType.SUBTITLE); } }; _proto.onFragBuffered = function onFragBuffered(event, data) { if (!this.loadedmetadata && data.frag.type === PlaylistLevelType.MAIN) { var _this$media; if ((_this$media = this.media) != null && _this$media.buffered.length) { this.loadedmetadata = true; } } } // If something goes wrong, proceed to next frag, if we were processing one. ; _proto.onError = function onError(event, data) { var frag = data.frag; if ((frag == null ? void 0 : frag.type) === PlaylistLevelType.SUBTITLE) { if (this.fragCurrent) { this.fragCurrent.abortRequests(); } if (this.state !== State.STOPPED) { this.state = State.IDLE; } } } // Got all new subtitle levels. ; _proto.onSubtitleTracksUpdated = function onSubtitleTracksUpdated(event, _ref) { var _this2 = this; var subtitleTracks = _ref.subtitleTracks; if (subtitleOptionsIdentical(this.levels, subtitleTracks)) { this.levels = subtitleTracks.map(function (mediaPlaylist) { return new Level(mediaPlaylist); }); return; } this.tracksBuffered = []; this.levels = subtitleTracks.map(function (mediaPlaylist) { var level = new Level(mediaPlaylist); _this2.tracksBuffered[level.id] = []; return level; }); this.fragmentTracker.removeFragmentsInRange(0, Number.POSITIVE_INFINITY, PlaylistLevelType.SUBTITLE); this.fragPrevious = null; this.mediaBuffer = null; }; _proto.onSubtitleTrackSwitch = function onSubtitleTrackSwitch(event, data) { this.currentTrackId = data.id; if (!this.levels.length || this.currentTrackId === -1) { this.clearInterval(); return; } // Check if track has the necessary details to load fragments var currentTrack = this.levels[this.currentTrackId]; if (currentTrack != null && currentTrack.details) { this.mediaBuffer = this.mediaBufferTimeRanges; } else { this.mediaBuffer = null; } if (currentTrack) { this.setInterval(TICK_INTERVAL); } } // Got a new set of subtitle fragments. ; _proto.onSubtitleTrackLoaded = function onSubtitleTrackLoaded(event, data) { var _track$details; var newDetails = data.details, trackId = data.id; var currentTrackId = this.currentTrackId, levels = this.levels; if (!levels.length) { return; } var track = levels[currentTrackId]; if (trackId >= levels.length || trackId !== currentTrackId || !track) { return; } this.mediaBuffer = this.mediaBufferTimeRanges; var sliding = 0; if (newDetails.live || (_track$details = track.details) != null && _track$details.live) { var mainDetails = this.mainDetails; if (newDetails.deltaUpdateFailed || !mainDetails) { return; } var mainSlidingStartFragment = mainDetails.fragments[0]; if (!track.details) { if (newDetails.hasProgramDateTime && mainDetails.hasProgramDateTime) { alignMediaPlaylistByPDT(newDetails, mainDetails); sliding = newDetails.fragments[0].start; } else if (mainSlidingStartFragment) { // line up live playlist with main so that fragments in range are loaded sliding = mainSlidingStartFragment.start; addSliding(newDetails, sliding); } } else { sliding = this.alignPlaylists(newDetails, track.details); if (sliding === 0 && mainSlidingStartFragment) { // realign with main when there is no overlap with last refresh sliding = mainSlidingStartFragment.start; addSliding(newDetails, sliding); } } } track.details = newDetails; this.levelLastLoaded = trackId; if (!this.startFragRequested && (this.mainDetails || !newDetails.live)) { this.setStartPosition(track.details, sliding); } // trigger handler right now this.tick(); // If playlist is misaligned because of bad PDT or drift, delete details to resync with main on reload if (newDetails.live && !this.fragCurrent && this.media && this.state === State.IDLE) { var foundFrag = findFragmentByPTS(null, newDetails.fragments, this.media.currentTime, 0); if (!foundFrag) { this.warn('Subtitle playlist not aligned with playback'); track.details = undefined; } } }; _proto._handleFragmentLoadComplete = function _handleFragmentLoadComplete(fragLoadedData) { var _this3 = this; var frag = fragLoadedData.frag, payload = fragLoadedData.payload; var decryptData = frag.decryptdata; var hls = this.hls; if (this.fragContextChanged(frag)) { return; } // check to see if the payload needs to be decrypted if (payload && payload.byteLength > 0 && decryptData && decryptData.key && decryptData.iv && decryptData.method === 'AES-128') { var startTime = performance.now(); // decrypt the subtitles this.decrypter.decrypt(new Uint8Array(payload), decryptData.key.buffer, decryptData.iv.buffer).catch(function (err) { hls.trigger(Events.ERROR, { type: ErrorTypes.MEDIA_ERROR, details: ErrorDetails.FRAG_DECRYPT_ERROR, fatal: false, error: err, reason: err.message, frag: frag }); throw err; }).then(function (decryptedData) { var endTime = performance.now(); hls.trigger(Events.FRAG_DECRYPTED, { frag: frag, payload: decryptedData, stats: { tstart: startTime, tdecrypt: endTime } }); }).catch(function (err) { _this3.warn(err.name + ": " + err.message); _this3.state = State.IDLE; }); } }; _proto.doTick = function doTick() { if (!this.media) { this.state = State.IDLE; return; } if (this.state === State.IDLE) { var currentTrackId = this.currentTrackId, levels = this.levels; var track = levels[currentTrackId]; if (!levels.length || !track || !track.details) { return; } var config = this.config; var currentTime = this.getLoadPosition(); var bufferedInfo = BufferHelper.bufferedInfo(this.tracksBuffered[this.currentTrackId] || [], currentTime, config.maxBufferHole); var targetBufferTime = bufferedInfo.end, bufferLen = bufferedInfo.len; var mainBufferInfo = this.getFwdBufferInfo(this.media, PlaylistLevelType.MAIN); var trackDetails = track.details; var maxBufLen = this.getMaxBufferLength(mainBufferInfo == null ? void 0 : mainBufferInfo.len) + trackDetails.levelTargetDuration; if (bufferLen > maxBufLen) { return; } var fragments = trackDetails.fragments; var fragLen = fragments.length; var end = trackDetails.edge; var foundFrag = null; var fragPrevious = this.fragPrevious; if (targetBufferTime < end) { var tolerance = config.maxFragLookUpTolerance; var lookupTolerance = targetBufferTime > end - tolerance ? 0 : tolerance; foundFrag = findFragmentByPTS(fragPrevious, fragments, Math.max(fragments[0].start, targetBufferTime), lookupTolerance); if (!foundFrag && fragPrevious && fragPrevious.start < fragments[0].start) { foundFrag = fragments[0]; } } else { foundFrag = fragments[fragLen - 1]; } if (!foundFrag) { return; } foundFrag = this.mapToInitFragWhenRequired(foundFrag); if (foundFrag.sn !== 'initSegment') { // Load earlier fragment in same discontinuity to make up for misaligned playlists and cues that extend beyond end of segment var curSNIdx = foundFrag.sn - trackDetails.startSN; var prevFrag = fragments[curSNIdx - 1]; if (prevFrag && prevFrag.cc === foundFrag.cc && this.fragmentTracker.getState(prevFrag) === FragmentState.NOT_LOADED) { foundFrag = prevFrag; } } if (this.fragmentTracker.getState(foundFrag) === FragmentState.NOT_LOADED) { // only load if fragment is not loaded this.loadFragment(foundFrag, track, targetBufferTime); } } }; _proto.getMaxBufferLength = function getMaxBufferLength(mainBufferLength) { var maxConfigBuffer = _BaseStreamController.prototype.getMaxBufferLength.call(this); if (!mainBufferLength) { return maxConfigBuffer; } return Math.max(maxConfigBuffer, mainBufferLength); }; _proto.loadFragment = function loadFragment(frag, level, targetBufferTime) { this.fragCurrent = frag; if (frag.sn === 'initSegment') { this._loadInitSegment(frag, level); } else { this.startFragRequested = true; _BaseStreamController.prototype.loadFragment.call(this, frag, level, targetBufferTime); } }; _createClass(SubtitleStreamController, [{ key: "mediaBufferTimeRanges", get: function get() { return new BufferableInstance(this.tracksBuffered[this.currentTrackId] || []); } }]); return SubtitleStreamController; }(BaseStreamController); var BufferableInstance = function BufferableInstance(timeranges) { this.buffered = void 0; var getRange = function getRange(name, index, length) { index = index >>> 0; if (index > length - 1) { throw new DOMException("Failed to execute '" + name + "' on 'TimeRanges': The index provided (" + index + ") is greater than the maximum bound (" + length + ")"); } return timeranges[index][name]; }; this.buffered = { get length() { return timeranges.length; }, end: function end(index) { return getRange('end', index, timeranges.length); }, start: function start(index) { return getRange('start', index, timeranges.length); } }; }; var SubtitleTrackController = /*#__PURE__*/function (_BasePlaylistControll) { _inheritsLoose(SubtitleTrackController, _BasePlaylistControll); function SubtitleTrackController(hls) { var _this; _this = _BasePlaylistControll.call(this, hls, '[subtitle-track-controller]') || this; _this.media = null; _this.tracks = []; _this.groupId = null; _this.tracksInGroup = []; _this.trackId = -1; _this.selectDefaultTrack = true; _this.queuedDefaultTrack = -1; _this.trackChangeListener = function () { return _this.onTextTracksChanged(); }; _this.asyncPollTrackChange = function () { return _this.pollTrackChange(0); }; _this.useTextTrackPolling = false; _this.subtitlePollingInterval = -1; _this._subtitleDisplay = true; _this.registerListeners(); return _this; } var _proto = SubtitleTrackController.prototype; _proto.destroy = function destroy() { this.unregisterListeners(); this.tracks.length = 0; this.tracksInGroup.length = 0; this.trackChangeListener = this.asyncPollTrackChange = null; _BasePlaylistControll.prototype.destroy.call(this); }; _proto.registerListeners = function registerListeners() { var hls = this.hls; hls.on(Events.MEDIA_ATTACHED, this.onMediaAttached, this); hls.on(Events.MEDIA_DETACHING, this.onMediaDetaching, this); hls.on(Events.MANIFEST_LOADING, this.onManifestLoading, this); hls.on(Events.MANIFEST_PARSED, this.onManifestParsed, this); hls.on(Events.LEVEL_LOADING, this.onLevelLoading, this); hls.on(Events.LEVEL_SWITCHING, this.onLevelSwitching, this); hls.on(Events.SUBTITLE_TRACK_LOADED, this.onSubtitleTrackLoaded, this); hls.on(Events.ERROR, this.onError, this); }; _proto.unregisterListeners = function unregisterListeners() { var hls = this.hls; hls.off(Events.MEDIA_ATTACHED, this.onMediaAttached, this); hls.off(Events.MEDIA_DETACHING, this.onMediaDetaching, this); hls.off(Events.MANIFEST_LOADING, this.onManifestLoading, this); hls.off(Events.MANIFEST_PARSED, this.onManifestParsed, this); hls.off(Events.LEVEL_LOADING, this.onLevelLoading, this); hls.off(Events.LEVEL_SWITCHING, this.onLevelSwitching, this); hls.off(Events.SUBTITLE_TRACK_LOADED, this.onSubtitleTrackLoaded, this); hls.off(Events.ERROR, this.onError, this); } // Listen for subtitle track change, then extract the current track ID. ; _proto.onMediaAttached = function onMediaAttached(event, data) { this.media = data.media; if (!this.media) { return; } if (this.queuedDefaultTrack > -1) { this.subtitleTrack = this.queuedDefaultTrack; this.queuedDefaultTrack = -1; } this.useTextTrackPolling = !(this.media.textTracks && 'onchange' in this.media.textTracks); if (this.useTextTrackPolling) { this.pollTrackChange(500); } else { this.media.textTracks.addEventListener('change', this.asyncPollTrackChange); } }; _proto.pollTrackChange = function pollTrackChange(timeout) { self.clearInterval(this.subtitlePollingInterval); this.subtitlePollingInterval = self.setInterval(this.trackChangeListener, timeout); }; _proto.onMediaDetaching = function onMediaDetaching() { if (!this.media) { return; } self.clearInterval(this.subtitlePollingInterval); if (!this.useTextTrackPolling) { this.media.textTracks.removeEventListener('change', this.asyncPollTrackChange); } if (this.trackId > -1) { this.queuedDefaultTrack = this.trackId; } var textTracks = filterSubtitleTracks(this.media.textTracks); // Clear loaded cues on media detachment from tracks textTracks.forEach(function (track) { clearCurrentCues(track); }); // Disable all subtitle tracks before detachment so when reattached only tracks in that content are enabled. this.subtitleTrack = -1; this.media = null; }; _proto.onManifestLoading = function onManifestLoading() { this.tracks = []; this.groupId = null; this.tracksInGroup = []; this.trackId = -1; this.selectDefaultTrack = true; } // Fired whenever a new manifest is loaded. ; _proto.onManifestParsed = function onManifestParsed(event, data) { this.tracks = data.subtitleTracks; }; _proto.onSubtitleTrackLoaded = function onSubtitleTrackLoaded(event, data) { var id = data.id, details = data.details; var trackId = this.trackId; var currentTrack = this.tracksInGroup[trackId]; if (!currentTrack) { this.warn("Invalid subtitle track id " + id); return; } var curDetails = currentTrack.details; currentTrack.details = data.details; this.log("subtitle track " + id + " loaded [" + details.startSN + "-" + details.endSN + "]"); if (id === this.trackId) { this.playlistLoaded(id, data, curDetails); } }; _proto.onLevelLoading = function onLevelLoading(event, data) { this.switchLevel(data.level); }; _proto.onLevelSwitching = function onLevelSwitching(event, data) { this.switchLevel(data.level); }; _proto.switchLevel = function switchLevel(levelIndex) { var levelInfo = this.hls.levels[levelIndex]; if (!(levelInfo != null && levelInfo.textGroupIds)) { return; } var textGroupId = levelInfo.textGroupIds[levelInfo.urlId]; var lastTrack = this.tracksInGroup ? this.tracksInGroup[this.trackId] : undefined; if (this.groupId !== textGroupId) { var subtitleTracks = this.tracks.filter(function (track) { return !textGroupId || track.groupId === textGroupId; }); this.tracksInGroup = subtitleTracks; var initialTrackId = this.findTrackId(lastTrack == null ? void 0 : lastTrack.name) || this.findTrackId(); this.groupId = textGroupId || null; var subtitleTracksUpdated = { subtitleTracks: subtitleTracks }; this.log("Updating subtitle tracks, " + subtitleTracks.length + " track(s) found in \"" + textGroupId + "\" group-id"); this.hls.trigger(Events.SUBTITLE_TRACKS_UPDATED, subtitleTracksUpdated); if (initialTrackId !== -1) { this.setSubtitleTrack(initialTrackId, lastTrack); } } else if (this.shouldReloadPlaylist(lastTrack)) { // Retry playlist loading if no playlist is or has been loaded yet this.setSubtitleTrack(this.trackId, lastTrack); } }; _proto.findTrackId = function findTrackId(name) { var textTracks = this.tracksInGroup; for (var i = 0; i < textTracks.length; i++) { var track = textTracks[i]; if (!this.selectDefaultTrack || track.default) { if (!name || name === track.name) { return track.id; } } } return -1; }; _proto.onError = function onError(event, data) { if (data.fatal || !data.context) { return; } if (data.context.type === PlaylistContextType.SUBTITLE_TRACK && data.context.id === this.trackId && data.context.groupId === this.groupId) { this.checkRetry(data); } } /** get alternate subtitle tracks list from playlist **/; _proto.loadPlaylist = function loadPlaylist(hlsUrlParameters) { _BasePlaylistControll.prototype.loadPlaylist.call(this); var currentTrack = this.tracksInGroup[this.trackId]; if (this.shouldLoadPlaylist(currentTrack)) { var id = currentTrack.id; var groupId = currentTrack.groupId; var url = currentTrack.url; if (hlsUrlParameters) { try { url = hlsUrlParameters.addDirectives(url); } catch (error) { this.warn("Could not construct new URL with HLS Delivery Directives: " + error); } } this.log("Loading subtitle playlist for id " + id); this.hls.trigger(Events.SUBTITLE_TRACK_LOADING, { url: url, id: id, groupId: groupId, deliveryDirectives: hlsUrlParameters || null }); } } /** * Disables the old subtitleTrack and sets current mode on the next subtitleTrack. * This operates on the DOM textTracks. * A value of -1 will disable all subtitle tracks. */; _proto.toggleTrackModes = function toggleTrackModes(newId) { var _this2 = this; var media = this.media, trackId = this.trackId; if (!media) { return; } var textTracks = filterSubtitleTracks(media.textTracks); var groupTracks = textTracks.filter(function (track) { return track.groupId === _this2.groupId; }); if (newId === -1) { [].slice.call(textTracks).forEach(function (track) { track.mode = 'disabled'; }); } else { var oldTrack = groupTracks[trackId]; if (oldTrack) { oldTrack.mode = 'disabled'; } } var nextTrack = groupTracks[newId]; if (nextTrack) { nextTrack.mode = this.subtitleDisplay ? 'showing' : 'hidden'; } } /** * This method is responsible for validating the subtitle index and periodically reloading if live. * Dispatches the SUBTITLE_TRACK_SWITCH event, which instructs the subtitle-stream-controller to load the selected track. */; _proto.setSubtitleTrack = function setSubtitleTrack(newId, lastTrack) { var _tracks$newId; var tracks = this.tracksInGroup; // setting this.subtitleTrack will trigger internal logic // if media has not been attached yet, it will fail // we keep a reference to the default track id // and we'll set subtitleTrack when onMediaAttached is triggered if (!this.media) { this.queuedDefaultTrack = newId; return; } if (this.trackId !== newId) { this.toggleTrackModes(newId); } // exit if track id as already set or invalid if (this.trackId === newId && (newId === -1 || (_tracks$newId = tracks[newId]) != null && _tracks$newId.details) || newId < -1 || newId >= tracks.length) { return; } // stopping live reloading timer if any this.clearTimer(); var track = tracks[newId]; this.log("Switching to subtitle-track " + newId + (track ? " \"" + track.name + "\" lang:" + track.lang + " group:" + track.groupId : '')); this.trackId = newId; if (track) { var id = track.id, _track$groupId = track.groupId, groupId = _track$groupId === void 0 ? '' : _track$groupId, name = track.name, type = track.type, url = track.url; this.hls.trigger(Events.SUBTITLE_TRACK_SWITCH, { id: id, groupId: groupId, name: name, type: type, url: url }); var hlsUrlParameters = this.switchParams(track.url, lastTrack == null ? void 0 : lastTrack.details); this.loadPlaylist(hlsUrlParameters); } else { // switch to -1 this.hls.trigger(Events.SUBTITLE_TRACK_SWITCH, { id: newId }); } }; _proto.onTextTracksChanged = function onTextTracksChanged() { if (!this.useTextTrackPolling) { self.clearInterval(this.subtitlePollingInterval); } // Media is undefined when switching streams via loadSource() if (!this.media || !this.hls.config.renderTextTracksNatively) { return; } var trackId = -1; var tracks = filterSubtitleTracks(this.media.textTracks); for (var id = 0; id < tracks.length; id++) { if (tracks[id].mode === 'hidden') { // Do not break in case there is a following track with showing. trackId = id; } else if (tracks[id].mode === 'showing') { trackId = id; break; } } // Setting current subtitleTrack will invoke code. if (this.subtitleTrack !== trackId) { this.subtitleTrack = trackId; } }; _createClass(SubtitleTrackController, [{ key: "subtitleDisplay", get: function get() { return this._subtitleDisplay; }, set: function set(value) { this._subtitleDisplay = value; if (this.trackId > -1) { this.toggleTrackModes(this.trackId); } } }, { key: "subtitleTracks", get: function get() { return this.tracksInGroup; } /** get/set index of the selected subtitle track (based on index in subtitle track lists) **/ }, { key: "subtitleTrack", get: function get() { return this.trackId; }, set: function set(newId) { this.selectDefaultTrack = false; var lastTrack = this.tracksInGroup ? this.tracksInGroup[this.trackId] : undefined; this.setSubtitleTrack(newId, lastTrack); } }]); return SubtitleTrackController; }(BasePlaylistController); function filterSubtitleTracks(textTrackList) { var tracks = []; for (var i = 0; i < textTrackList.length; i++) { var track = textTrackList[i]; // Edge adds a track without a label; we don't want to use it if ((track.kind === 'subtitles' || track.kind === 'captions') && track.label) { tracks.push(textTrackList[i]); } } return tracks; } var BufferOperationQueue = /*#__PURE__*/function () { function BufferOperationQueue(sourceBufferReference) { this.buffers = void 0; this.queues = { video: [], audio: [], audiovideo: [] }; this.buffers = sourceBufferReference; } var _proto = BufferOperationQueue.prototype; _proto.append = function append(operation, type) { var queue = this.queues[type]; queue.push(operation); if (queue.length === 1 && this.buffers[type]) { this.executeNext(type); } }; _proto.insertAbort = function insertAbort(operation, type) { var queue = this.queues[type]; queue.unshift(operation); this.executeNext(type); }; _proto.appendBlocker = function appendBlocker(type) { var execute; var promise = new Promise(function (resolve) { execute = resolve; }); var operation = { execute: execute, onStart: function onStart() {}, onComplete: function onComplete() {}, onError: function onError() {} }; this.append(operation, type); return promise; }; _proto.executeNext = function executeNext(type) { var buffers = this.buffers, queues = this.queues; var sb = buffers[type]; var queue = queues[type]; if (queue.length) { var operation = queue[0]; try { // Operations are expected to result in an 'updateend' event being fired. If not, the queue will lock. Operations // which do not end with this event must call _onSBUpdateEnd manually operation.execute(); } catch (e) { logger.warn('[buffer-operation-queue]: Unhandled exception executing the current operation'); operation.onError(e); // Only shift the current operation off, otherwise the updateend handler will do this for us if (!(sb != null && sb.updating)) { queue.shift(); this.executeNext(type); } } } }; _proto.shiftAndExecuteNext = function shiftAndExecuteNext(type) { this.queues[type].shift(); this.executeNext(type); }; _proto.current = function current(type) { return this.queues[type][0]; }; return BufferOperationQueue; }(); var MediaSource = getMediaSource(); var VIDEO_CODEC_PROFILE_REPACE = /([ha]vc.)(?:\.[^.,]+)+/; var BufferController = /*#__PURE__*/function () { // The level details used to determine duration, target-duration and live // cache the self generated object url to detect hijack of video tag // A queue of buffer operations which require the SourceBuffer to not be updating upon execution // References to event listeners for each SourceBuffer, so that they can be referenced for event removal // The number of BUFFER_CODEC events received before any sourceBuffers are created // The total number of BUFFER_CODEC events received // A reference to the attached media element // A reference to the active media source // Last MP3 audio chunk appended // counters function BufferController(hls) { var _this = this; this.details = null; this._objectUrl = null; this.operationQueue = void 0; this.listeners = void 0; this.hls = void 0; this.bufferCodecEventsExpected = 0; this._bufferCodecEventsTotal = 0; this.media = null; this.mediaSource = null; this.lastMpegAudioChunk = null; this.appendError = 0; this.tracks = {}; this.pendingTracks = {}; this.sourceBuffer = void 0; // Keep as arrow functions so that we can directly reference these functions directly as event listeners this._onMediaSourceOpen = function () { var media = _this.media, mediaSource = _this.mediaSource; logger.log('[buffer-controller]: Media source opened'); if (media) { media.removeEventListener('emptied', _this._onMediaEmptied); _this.updateMediaElementDuration(); _this.hls.trigger(Events.MEDIA_ATTACHED, { media: media }); } if (mediaSource) { // once received, don't listen anymore to sourceopen event mediaSource.removeEventListener('sourceopen', _this._onMediaSourceOpen); } _this.checkPendingTracks(); }; this._onMediaSourceClose = function () { logger.log('[buffer-controller]: Media source closed'); }; this._onMediaSourceEnded = function () { logger.log('[buffer-controller]: Media source ended'); }; this._onMediaEmptied = function () { var media = _this.media, _objectUrl = _this._objectUrl; if (media && media.src !== _objectUrl) { logger.error("Media element src was set while attaching MediaSource (" + _objectUrl + " > " + media.src + ")"); } }; this.hls = hls; this._initSourceBuffer(); this.registerListeners(); } var _proto = BufferController.prototype; _proto.hasSourceTypes = function hasSourceTypes() { return this.getSourceBufferTypes().length > 0 || Object.keys(this.pendingTracks).length > 0; }; _proto.destroy = function destroy() { this.unregisterListeners(); this.details = null; this.lastMpegAudioChunk = null; }; _proto.registerListeners = function registerListeners() { var hls = this.hls; hls.on(Events.MEDIA_ATTACHING, this.onMediaAttaching, this); hls.on(Events.MEDIA_DETACHING, this.onMediaDetaching, this); hls.on(Events.MANIFEST_LOADING, this.onManifestLoading, this); hls.on(Events.MANIFEST_PARSED, this.onManifestParsed, this); hls.on(Events.BUFFER_RESET, this.onBufferReset, this); hls.on(Events.BUFFER_APPENDING, this.onBufferAppending, this); hls.on(Events.BUFFER_CODECS, this.onBufferCodecs, this); hls.on(Events.BUFFER_EOS, this.onBufferEos, this); hls.on(Events.BUFFER_FLUSHING, this.onBufferFlushing, this); hls.on(Events.LEVEL_UPDATED, this.onLevelUpdated, this); hls.on(Events.FRAG_PARSED, this.onFragParsed, this); hls.on(Events.FRAG_CHANGED, this.onFragChanged, this); }; _proto.unregisterListeners = function unregisterListeners() { var hls = this.hls; hls.off(Events.MEDIA_ATTACHING, this.onMediaAttaching, this); hls.off(Events.MEDIA_DETACHING, this.onMediaDetaching, this); hls.off(Events.MANIFEST_LOADING, this.onManifestLoading, this); hls.off(Events.MANIFEST_PARSED, this.onManifestParsed, this); hls.off(Events.BUFFER_RESET, this.onBufferReset, this); hls.off(Events.BUFFER_APPENDING, this.onBufferAppending, this); hls.off(Events.BUFFER_CODECS, this.onBufferCodecs, this); hls.off(Events.BUFFER_EOS, this.onBufferEos, this); hls.off(Events.BUFFER_FLUSHING, this.onBufferFlushing, this); hls.off(Events.LEVEL_UPDATED, this.onLevelUpdated, this); hls.off(Events.FRAG_PARSED, this.onFragParsed, this); hls.off(Events.FRAG_CHANGED, this.onFragChanged, this); }; _proto._initSourceBuffer = function _initSourceBuffer() { this.sourceBuffer = {}; this.operationQueue = new BufferOperationQueue(this.sourceBuffer); this.listeners = { audio: [], video: [], audiovideo: [] }; this.lastMpegAudioChunk = null; }; _proto.onManifestLoading = function onManifestLoading() { this.bufferCodecEventsExpected = this._bufferCodecEventsTotal = 0; this.details = null; }; _proto.onManifestParsed = function onManifestParsed(event, data) { // in case of alt audio 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 var codecEvents = 2; if (data.audio && !data.video || !data.altAudio || !true) { codecEvents = 1; } this.bufferCodecEventsExpected = this._bufferCodecEventsTotal = codecEvents; logger.log(this.bufferCodecEventsExpected + " bufferCodec event(s) expected"); }; _proto.onMediaAttaching = function onMediaAttaching(event, data) { var media = this.media = data.media; if (media && MediaSource) { var ms = this.mediaSource = new MediaSource(); // MediaSource listeners are arrow functions with a lexical scope, and do not need to be bound ms.addEventListener('sourceopen', this._onMediaSourceOpen); ms.addEventListener('sourceended', this._onMediaSourceEnded); ms.addEventListener('sourceclose', this._onMediaSourceClose); // link video and media Source media.src = self.URL.createObjectURL(ms); // cache the locally generated object url this._objectUrl = media.src; media.addEventListener('emptied', this._onMediaEmptied); } }; _proto.onMediaDetaching = function onMediaDetaching() { var media = this.media, mediaSource = this.mediaSource, _objectUrl = this._objectUrl; if (mediaSource) { logger.log('[buffer-controller]: media source detaching'); if (mediaSource.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 mediaSource.endOfStream(); } catch (err) { logger.warn("[buffer-controller]: onMediaDetaching: " + err.message + " while calling endOfStream"); } } // Clean up the SourceBuffers by invoking onBufferReset this.onBufferReset(); mediaSource.removeEventListener('sourceopen', this._onMediaSourceOpen); mediaSource.removeEventListener('sourceended', this._onMediaSourceEnded); mediaSource.removeEventListener('sourceclose', this._onMediaSourceClose); // Detach properly the MediaSource from the HTMLMediaElement as // suggested in https://github.com/w3c/media-source/issues/53. if (media) { media.removeEventListener('emptied', this._onMediaEmptied); if (_objectUrl) { self.URL.revokeObjectURL(_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 (media.src === _objectUrl) { media.removeAttribute('src'); media.load(); } else { logger.warn('[buffer-controller]: 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.hls.trigger(Events.MEDIA_DETACHED, undefined); }; _proto.onBufferReset = function onBufferReset() { var _this2 = this; this.getSourceBufferTypes().forEach(function (type) { var sb = _this2.sourceBuffer[type]; try { if (sb) { _this2.removeBufferListeners(type); if (_this2.mediaSource) { _this2.mediaSource.removeSourceBuffer(sb); } // Synchronously remove the SB from the map before the next call in order to prevent an async function from // accessing it _this2.sourceBuffer[type] = undefined; } } catch (err) { logger.warn("[buffer-controller]: Failed to reset the " + type + " buffer", err); } }); this._initSourceBuffer(); }; _proto.onBufferCodecs = function onBufferCodecs(event, data) { var _this3 = this; var sourceBufferCount = this.getSourceBufferTypes().length; Object.keys(data).forEach(function (trackName) { if (sourceBufferCount) { // check if SourceBuffer codec needs to change var track = _this3.tracks[trackName]; if (track && typeof track.buffer.changeType === 'function') { var _data$trackName = data[trackName], id = _data$trackName.id, codec = _data$trackName.codec, levelCodec = _data$trackName.levelCodec, container = _data$trackName.container, metadata = _data$trackName.metadata; var currentCodec = (track.levelCodec || track.codec).replace(VIDEO_CODEC_PROFILE_REPACE, '$1'); var nextCodec = (levelCodec || codec).replace(VIDEO_CODEC_PROFILE_REPACE, '$1'); if (currentCodec !== nextCodec) { var mimeType = container + ";codecs=" + (levelCodec || codec); _this3.appendChangeType(trackName, mimeType); logger.log("[buffer-controller]: switching codec " + currentCodec + " to " + nextCodec); _this3.tracks[trackName] = { buffer: track.buffer, codec: codec, container: container, levelCodec: levelCodec, metadata: metadata, id: id }; } } } else { // if source buffer(s) not created yet, appended buffer tracks in this.pendingTracks _this3.pendingTracks[trackName] = data[trackName]; } }); // if sourcebuffers already created, do nothing ... if (sourceBufferCount) { return; } this.bufferCodecEventsExpected = Math.max(this.bufferCodecEventsExpected - 1, 0); if (this.mediaSource && this.mediaSource.readyState === 'open') { this.checkPendingTracks(); } }; _proto.appendChangeType = function appendChangeType(type, mimeType) { var _this4 = this; var operationQueue = this.operationQueue; var operation = { execute: function execute() { var sb = _this4.sourceBuffer[type]; if (sb) { logger.log("[buffer-controller]: changing " + type + " sourceBuffer type to " + mimeType); sb.changeType(mimeType); } operationQueue.shiftAndExecuteNext(type); }, onStart: function onStart() {}, onComplete: function onComplete() {}, onError: function onError(e) { logger.warn("[buffer-controller]: Failed to change " + type + " SourceBuffer type", e); } }; operationQueue.append(operation, type); }; _proto.onBufferAppending = function onBufferAppending(event, eventData) { var _this5 = this; var hls = this.hls, operationQueue = this.operationQueue, tracks = this.tracks; var data = eventData.data, type = eventData.type, frag = eventData.frag, part = eventData.part, chunkMeta = eventData.chunkMeta; var chunkStats = chunkMeta.buffering[type]; var bufferAppendingStart = self.performance.now(); chunkStats.start = bufferAppendingStart; var fragBuffering = frag.stats.buffering; var partBuffering = part ? part.stats.buffering : null; if (fragBuffering.start === 0) { fragBuffering.start = bufferAppendingStart; } if (partBuffering && partBuffering.start === 0) { partBuffering.start = bufferAppendingStart; } // TODO: Only update timestampOffset when audio/mpeg fragment or part is not contiguous with previously appended // 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). // More info here: https://github.com/video-dev/hls.js/issues/332#issuecomment-257986486 var audioTrack = tracks.audio; var checkTimestampOffset = false; if (type === 'audio' && (audioTrack == null ? void 0 : audioTrack.container) === 'audio/mpeg') { checkTimestampOffset = !this.lastMpegAudioChunk || chunkMeta.id === 1 || this.lastMpegAudioChunk.sn !== chunkMeta.sn; this.lastMpegAudioChunk = chunkMeta; } var fragStart = frag.start; var operation = { execute: function execute() { chunkStats.executeStart = self.performance.now(); if (checkTimestampOffset) { var sb = _this5.sourceBuffer[type]; if (sb) { var delta = fragStart - sb.timestampOffset; if (Math.abs(delta) >= 0.1) { logger.log("[buffer-controller]: Updating audio SourceBuffer timestampOffset to " + fragStart + " (delta: " + delta + ") sn: " + frag.sn + ")"); sb.timestampOffset = fragStart; } } } _this5.appendExecutor(data, type); }, onStart: function onStart() { // logger.debug(`[buffer-controller]: ${type} SourceBuffer updatestart`); }, onComplete: function onComplete() { // logger.debug(`[buffer-controller]: ${type} SourceBuffer updateend`); var end = self.performance.now(); chunkStats.executeEnd = chunkStats.end = end; if (fragBuffering.first === 0) { fragBuffering.first = end; } if (partBuffering && partBuffering.first === 0) { partBuffering.first = end; } var sourceBuffer = _this5.sourceBuffer; var timeRanges = {}; for (var _type in sourceBuffer) { timeRanges[_type] = BufferHelper.getBuffered(sourceBuffer[_type]); } _this5.appendError = 0; _this5.hls.trigger(Events.BUFFER_APPENDED, { type: type, frag: frag, part: part, chunkMeta: chunkMeta, parent: frag.type, timeRanges: timeRanges }); }, onError: function onError(err) { // in case any error occured while appending, put back segment in segments table logger.error("[buffer-controller]: Error encountered while trying to append to the " + type + " SourceBuffer", err); var event = { type: ErrorTypes.MEDIA_ERROR, parent: frag.type, details: ErrorDetails.BUFFER_APPEND_ERROR, frag: frag, part: part, chunkMeta: chunkMeta, error: err, err: err, fatal: false }; if (err.code === DOMException.QUOTA_EXCEEDED_ERR) { // QuotaExceededError: http://www.w3.org/TR/html5/infrastructure.html#quotaexceedederror // let's stop appending any segments, and report BUFFER_FULL_ERROR error event.details = ErrorDetails.BUFFER_FULL_ERROR; } else { _this5.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 can help recover. */ if (_this5.appendError > hls.config.appendErrorMaxRetry) { logger.error("[buffer-controller]: Failed " + hls.config.appendErrorMaxRetry + " times to append segment in sourceBuffer"); event.fatal = true; } } hls.trigger(Events.ERROR, event); } }; operationQueue.append(operation, type); }; _proto.onBufferFlushing = function onBufferFlushing(event, data) { var _this6 = this; var operationQueue = this.operationQueue; var flushOperation = function flushOperation(type) { return { execute: _this6.removeExecutor.bind(_this6, type, data.startOffset, data.endOffset), onStart: function onStart() { // logger.debug(`[buffer-controller]: Started flushing ${data.startOffset} -> ${data.endOffset} for ${type} Source Buffer`); }, onComplete: function onComplete() { // logger.debug(`[buffer-controller]: Finished flushing ${data.startOffset} -> ${data.endOffset} for ${type} Source Buffer`); _this6.hls.trigger(Events.BUFFER_FLUSHED, { type: type }); }, onError: function onError(e) { logger.warn("[buffer-controller]: Failed to remove from " + type + " SourceBuffer", e); } }; }; if (data.type) { operationQueue.append(flushOperation(data.type), data.type); } else { this.getSourceBufferTypes().forEach(function (type) { operationQueue.append(flushOperation(type), type); }); } }; _proto.onFragParsed = function onFragParsed(event, data) { var _this7 = this; var frag = data.frag, part = data.part; var buffersAppendedTo = []; var elementaryStreams = part ? part.elementaryStreams : frag.elementaryStreams; if (elementaryStreams[ElementaryStreamTypes.AUDIOVIDEO]) { buffersAppendedTo.push('audiovideo'); } else { if (elementaryStreams[ElementaryStreamTypes.AUDIO]) { buffersAppendedTo.push('audio'); } if (elementaryStreams[ElementaryStreamTypes.VIDEO]) { buffersAppendedTo.push('video'); } } var onUnblocked = function onUnblocked() { var now = self.performance.now(); frag.stats.buffering.end = now; if (part) { part.stats.buffering.end = now; } var stats = part ? part.stats : frag.stats; _this7.hls.trigger(Events.FRAG_BUFFERED, { frag: frag, part: part, stats: stats, id: frag.type }); }; if (buffersAppendedTo.length === 0) { logger.warn("Fragments must have at least one ElementaryStreamType set. type: " + frag.type + " level: " + frag.level + " sn: " + frag.sn); } this.blockBuffers(onUnblocked, buffersAppendedTo); }; _proto.onFragChanged = function onFragChanged(event, data) { this.flushBackBuffer(); } // on BUFFER_EOS mark matching sourcebuffer(s) as ended and trigger checkEos() // an undefined data.type will mark all buffers as EOS. ; _proto.onBufferEos = function onBufferEos(event, data) { var _this8 = this; var ended = this.getSourceBufferTypes().reduce(function (acc, type) { var sb = _this8.sourceBuffer[type]; if (sb && (!data.type || data.type === type)) { sb.ending = true; if (!sb.ended) { sb.ended = true; logger.log("[buffer-controller]: " + type + " sourceBuffer now EOS"); } } return acc && !!(!sb || sb.ended); }, true); if (ended) { logger.log("[buffer-controller]: Queueing mediaSource.endOfStream()"); this.blockBuffers(function () { _this8.getSourceBufferTypes().forEach(function (type) { var sb = _this8.sourceBuffer[type]; if (sb) { sb.ending = false; } }); var mediaSource = _this8.mediaSource; if (!mediaSource || mediaSource.readyState !== 'open') { if (mediaSource) { logger.info("[buffer-controller]: Could not call mediaSource.endOfStream(). mediaSource.readyState: " + mediaSource.readyState); } return; } logger.log("[buffer-controller]: Calling mediaSource.endOfStream()"); // Allow this to throw and be caught by the enqueueing function mediaSource.endOfStream(); }); } }; _proto.onLevelUpdated = function onLevelUpdated(event, _ref) { var details = _ref.details; if (!details.fragments.length) { return; } this.details = details; if (this.getSourceBufferTypes().length) { this.blockBuffers(this.updateMediaElementDuration.bind(this)); } else { this.updateMediaElementDuration(); } }; _proto.flushBackBuffer = function flushBackBuffer() { var hls = this.hls, details = this.details, media = this.media, sourceBuffer = this.sourceBuffer; if (!media || details === null) { return; } var sourceBufferTypes = this.getSourceBufferTypes(); if (!sourceBufferTypes.length) { return; } // Support for deprecated liveBackBufferLength var backBufferLength = details.live && hls.config.liveBackBufferLength !== null ? hls.config.liveBackBufferLength : hls.config.backBufferLength; if (!isFiniteNumber(backBufferLength) || backBufferLength < 0) { return; } var currentTime = media.currentTime; var targetDuration = details.levelTargetDuration; var maxBackBufferLength = Math.max(backBufferLength, targetDuration); var targetBackBufferPosition = Math.floor(currentTime / targetDuration) * targetDuration - maxBackBufferLength; sourceBufferTypes.forEach(function (type) { var sb = sourceBuffer[type]; if (sb) { var buffered = BufferHelper.getBuffered(sb); // when target buffer start exceeds actual buffer start if (buffered.length > 0 && targetBackBufferPosition > buffered.start(0)) { hls.trigger(Events.BACK_BUFFER_REACHED, { bufferEnd: targetBackBufferPosition }); // Support for deprecated event: if (details.live) { hls.trigger(Events.LIVE_BACK_BUFFER_REACHED, { bufferEnd: targetBackBufferPosition }); } else if (sb.ended && buffered.end(buffered.length - 1) - currentTime < targetDuration * 2) { logger.info("[buffer-controller]: Cannot flush " + type + " back buffer while SourceBuffer is in ended state"); return; } hls.trigger(Events.BUFFER_FLUSHING, { startOffset: 0, endOffset: targetBackBufferPosition, type: type }); } } }); } /** * 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 */; _proto.updateMediaElementDuration = function updateMediaElementDuration() { if (!this.details || !this.media || !this.mediaSource || this.mediaSource.readyState !== 'open') { return; } var details = this.details, hls = this.hls, media = this.media, mediaSource = this.mediaSource; var levelDuration = details.fragments[0].start + details.totalduration; var mediaDuration = media.duration; var msDuration = isFiniteNumber(mediaSource.duration) ? mediaSource.duration : 0; if (details.live && hls.config.liveDurationInfinity) { // Override duration to Infinity logger.log('[buffer-controller]: Media Source duration is set to Infinity'); mediaSource.duration = Infinity; this.updateSeekableRange(details); } else if (levelDuration > msDuration && levelDuration > mediaDuration || !isFiniteNumber(mediaDuration)) { // 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("[buffer-controller]: Updating Media Source duration to " + levelDuration.toFixed(3)); mediaSource.duration = levelDuration; } }; _proto.updateSeekableRange = function updateSeekableRange(levelDetails) { var mediaSource = this.mediaSource; var fragments = levelDetails.fragments; var len = fragments.length; if (len && levelDetails.live && mediaSource != null && mediaSource.setLiveSeekableRange) { var start = Math.max(0, fragments[0].start); var end = Math.max(start, start + levelDetails.totalduration); mediaSource.setLiveSeekableRange(start, end); } }; _proto.checkPendingTracks = function checkPendingTracks() { var bufferCodecEventsExpected = this.bufferCodecEventsExpected, operationQueue = this.operationQueue, pendingTracks = this.pendingTracks; // 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. var 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 ! var buffers = this.getSourceBufferTypes(); if (buffers.length) { this.hls.trigger(Events.BUFFER_CREATED, { tracks: this.tracks }); buffers.forEach(function (type) { operationQueue.executeNext(type); }); } else { var error = new Error('could not create source buffer for media codec(s)'); this.hls.trigger(Events.ERROR, { type: ErrorTypes.MEDIA_ERROR, details: ErrorDetails.BUFFER_INCOMPATIBLE_CODECS_ERROR, fatal: true, error: error, reason: error.message }); } } }; _proto.createSourceBuffers = function createSourceBuffers(tracks) { var sourceBuffer = this.sourceBuffer, mediaSource = this.mediaSource; if (!mediaSource) { throw Error('createSourceBuffers called when mediaSource was null'); } for (var trackName in tracks) { if (!sourceBuffer[trackName]) { var track = tracks[trackName]; if (!track) { throw Error("source buffer exists for track " + trackName + ", however track does not"); } // use levelCodec as first priority var codec = track.levelCodec || track.codec; var mimeType = track.container + ";codecs=" + codec; logger.log("[buffer-controller]: creating sourceBuffer(" + mimeType + ")"); try { var sb = sourceBuffer[trackName] = mediaSource.addSourceBuffer(mimeType); var sbName = trackName; this.addBufferListener(sbName, 'updatestart', this._onSBUpdateStart); this.addBufferListener(sbName, 'updateend', this._onSBUpdateEnd); this.addBufferListener(sbName, 'error', this._onSBUpdateError); this.tracks[trackName] = { buffer: sb, codec: codec, container: track.container, levelCodec: track.levelCodec, metadata: track.metadata, id: track.id }; } catch (err) { logger.error("[buffer-controller]: 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, error: err, mimeType: mimeType }); } } } }; _proto._onSBUpdateStart = function _onSBUpdateStart(type) { var operationQueue = this.operationQueue; var operation = operationQueue.current(type); operation.onStart(); }; _proto._onSBUpdateEnd = function _onSBUpdateEnd(type) { var operationQueue = this.operationQueue; var operation = operationQueue.current(type); operation.onComplete(); operationQueue.shiftAndExecuteNext(type); }; _proto._onSBUpdateError = function _onSBUpdateError(type, event) { var error = new Error(type + " SourceBuffer error"); logger.error("[buffer-controller]: " + error, event); // according to http://www.w3.org/TR/media-source/#sourcebuffer-append-error // SourceBuffer errors are not necessarily fatal; if so, the HTMLMediaElement will fire an error event this.hls.trigger(Events.ERROR, { type: ErrorTypes.MEDIA_ERROR, details: ErrorDetails.BUFFER_APPENDING_ERROR, error: error, fatal: false }); // updateend is always fired after error, so we'll allow that to shift the current operation off of the queue var operation = this.operationQueue.current(type); if (operation) { operation.onError(event); } } // This method must result in an updateend event; if remove is not called, _onSBUpdateEnd must be called manually ; _proto.removeExecutor = function removeExecutor(type, startOffset, endOffset) { var media = this.media, mediaSource = this.mediaSource, operationQueue = this.operationQueue, sourceBuffer = this.sourceBuffer; var sb = sourceBuffer[type]; if (!media || !mediaSource || !sb) { logger.warn("[buffer-controller]: Attempting to remove from the " + type + " SourceBuffer, but it does not exist"); operationQueue.shiftAndExecuteNext(type); return; } var mediaDuration = isFiniteNumber(media.duration) ? media.duration : Infinity; var msDuration = isFiniteNumber(mediaSource.duration) ? mediaSource.duration : Infinity; var removeStart = Math.max(0, startOffset); var removeEnd = Math.min(endOffset, mediaDuration, msDuration); if (removeEnd > removeStart && !sb.ending) { sb.ended = false; logger.log("[buffer-controller]: Removing [" + removeStart + "," + removeEnd + "] from the " + type + " SourceBuffer"); sb.remove(removeStart, removeEnd); } else { // Cycle the queue operationQueue.shiftAndExecuteNext(type); } } // This method must result in an updateend event; if append is not called, _onSBUpdateEnd must be called manually ; _proto.appendExecutor = function appendExecutor(data, type) { var operationQueue = this.operationQueue, sourceBuffer = this.sourceBuffer; var sb = sourceBuffer[type]; if (!sb) { logger.warn("[buffer-controller]: Attempting to append to the " + type + " SourceBuffer, but it does not exist"); operationQueue.shiftAndExecuteNext(type); return; } sb.ended = false; sb.appendBuffer(data); } // Enqueues an operation to each SourceBuffer queue which, upon execution, resolves a promise. When all promises // resolve, the onUnblocked function is executed. Functions calling this method do not need to unblock the queue // upon completion, since we already do it here ; _proto.blockBuffers = function blockBuffers(onUnblocked, buffers) { var _this9 = this; if (buffers === void 0) { buffers = this.getSourceBufferTypes(); } if (!buffers.length) { logger.log('[buffer-controller]: Blocking operation requested, but no SourceBuffers exist'); Promise.resolve().then(onUnblocked); return; } var operationQueue = this.operationQueue; // logger.debug(`[buffer-controller]: Blocking ${buffers} SourceBuffer`); var blockingOperations = buffers.map(function (type) { return operationQueue.appendBlocker(type); }); Promise.all(blockingOperations).then(function () { // logger.debug(`[buffer-controller]: Blocking operation resolved; unblocking ${buffers} SourceBuffer`); onUnblocked(); buffers.forEach(function (type) { var sb = _this9.sourceBuffer[type]; // Only cycle the queue if the SB is not updating. There's a bug in Chrome which sets the SB updating flag to // true when changing the MediaSource duration (https://bugs.chromium.org/p/chromium/issues/detail?id=959359&can=2&q=mediasource%20duration) // While this is a workaround, it's probably useful to have around if (!(sb != null && sb.updating)) { operationQueue.shiftAndExecuteNext(type); } }); }); }; _proto.getSourceBufferTypes = function getSourceBufferTypes() { return Object.keys(this.sourceBuffer); }; _proto.addBufferListener = function addBufferListener(type, event, fn) { var buffer = this.sourceBuffer[type]; if (!buffer) { return; } var listener = fn.bind(this, type); this.listeners[type].push({ event: event, listener: listener }); buffer.addEventListener(event, listener); }; _proto.removeBufferListeners = function removeBufferListeners(type) { var buffer = this.sourceBuffer[type]; if (!buffer) { return; } this.listeners[type].forEach(function (l) { buffer.removeEventListener(l.event, l.listener); }); }; return BufferController; }(); /** * * This code was ported from the dash.js project at: * https://github.com/Dash-Industry-Forum/dash.js/blob/development/externals/cea608-parser.js * https://github.com/Dash-Industry-Forum/dash.js/commit/8269b26a761e0853bb21d78780ed945144ecdd4d#diff-71bc295a2d6b6b7093a1d3290d53a4b2 * * The original copyright appears below: * * The copyright in this software is being made available under the BSD License, * included below. This software may be subject to other third party and contributor * rights, including patent rights, and no such rights are granted under this license. * * Copyright (c) 2015-2016, DASH Industry Forum. * All rights reserved. * * Redistribution and use in source and binary forms, with or without modification, * are permitted provided that the following conditions are met: * 1. Redistributions of source code must retain the above copyright notice, this * list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation and/or * other materials provided with the distribution. * 2. Neither the name of Dash Industry Forum nor the names of its * contributors may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS AS IS AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ /** * Exceptions from regular ASCII. CodePoints are mapped to UTF-16 codes */ var specialCea608CharsCodes = { 0x2a: 0xe1, // lowercase a, acute accent 0x5c: 0xe9, // lowercase e, acute accent 0x5e: 0xed, // lowercase i, acute accent 0x5f: 0xf3, // lowercase o, acute accent 0x60: 0xfa, // lowercase u, acute accent 0x7b: 0xe7, // lowercase c with cedilla 0x7c: 0xf7, // division symbol 0x7d: 0xd1, // uppercase N tilde 0x7e: 0xf1, // lowercase n tilde 0x7f: 0x2588, // Full block // THIS BLOCK INCLUDES THE 16 EXTENDED (TWO-BYTE) LINE 21 CHARACTERS // THAT COME FROM HI BYTE=0x11 AND LOW BETWEEN 0x30 AND 0x3F // THIS MEANS THAT \x50 MUST BE ADDED TO THE VALUES 0x80: 0xae, // Registered symbol (R) 0x81: 0xb0, // degree sign 0x82: 0xbd, // 1/2 symbol 0x83: 0xbf, // Inverted (open) question mark 0x84: 0x2122, // Trademark symbol (TM) 0x85: 0xa2, // Cents symbol 0x86: 0xa3, // Pounds sterling 0x87: 0x266a, // Music 8'th note 0x88: 0xe0, // lowercase a, grave accent 0x89: 0x20, // transparent space (regular) 0x8a: 0xe8, // lowercase e, grave accent 0x8b: 0xe2, // lowercase a, circumflex accent 0x8c: 0xea, // lowercase e, circumflex accent 0x8d: 0xee, // lowercase i, circumflex accent 0x8e: 0xf4, // lowercase o, circumflex accent 0x8f: 0xfb, // lowercase u, circumflex accent // THIS BLOCK INCLUDES THE 32 EXTENDED (TWO-BYTE) LINE 21 CHARACTERS // THAT COME FROM HI BYTE=0x12 AND LOW BETWEEN 0x20 AND 0x3F 0x90: 0xc1, // capital letter A with acute 0x91: 0xc9, // capital letter E with acute 0x92: 0xd3, // capital letter O with acute 0x93: 0xda, // capital letter U with acute 0x94: 0xdc, // capital letter U with diaresis 0x95: 0xfc, // lowercase letter U with diaeresis 0x96: 0x2018, // opening single quote 0x97: 0xa1, // inverted exclamation mark 0x98: 0x2a, // asterisk 0x99: 0x2019, // closing single quote 0x9a: 0x2501, // box drawings heavy horizontal 0x9b: 0xa9, // copyright sign 0x9c: 0x2120, // Service mark 0x9d: 0x2022, // (round) bullet 0x9e: 0x201c, // Left double quotation mark 0x9f: 0x201d, // Right double quotation mark 0xa0: 0xc0, // uppercase A, grave accent 0xa1: 0xc2, // uppercase A, circumflex 0xa2: 0xc7, // uppercase C with cedilla 0xa3: 0xc8, // uppercase E, grave accent 0xa4: 0xca, // uppercase E, circumflex 0xa5: 0xcb, // capital letter E with diaresis 0xa6: 0xeb, // lowercase letter e with diaresis 0xa7: 0xce, // uppercase I, circumflex 0xa8: 0xcf, // uppercase I, with diaresis 0xa9: 0xef, // lowercase i, with diaresis 0xaa: 0xd4, // uppercase O, circumflex 0xab: 0xd9, // uppercase U, grave accent 0xac: 0xf9, // lowercase u, grave accent 0xad: 0xdb, // uppercase U, circumflex 0xae: 0xab, // left-pointing double angle quotation mark 0xaf: 0xbb, // right-pointing double angle quotation mark // THIS BLOCK INCLUDES THE 32 EXTENDED (TWO-BYTE) LINE 21 CHARACTERS // THAT COME FROM HI BYTE=0x13 AND LOW BETWEEN 0x20 AND 0x3F 0xb0: 0xc3, // Uppercase A, tilde 0xb1: 0xe3, // Lowercase a, tilde 0xb2: 0xcd, // Uppercase I, acute accent 0xb3: 0xcc, // Uppercase I, grave accent 0xb4: 0xec, // Lowercase i, grave accent 0xb5: 0xd2, // Uppercase O, grave accent 0xb6: 0xf2, // Lowercase o, grave accent 0xb7: 0xd5, // Uppercase O, tilde 0xb8: 0xf5, // Lowercase o, tilde 0xb9: 0x7b, // Open curly brace 0xba: 0x7d, // Closing curly brace 0xbb: 0x5c, // Backslash 0xbc: 0x5e, // Caret 0xbd: 0x5f, // Underscore 0xbe: 0x7c, // Pipe (vertical line) 0xbf: 0x223c, // Tilde operator 0xc0: 0xc4, // Uppercase A, umlaut 0xc1: 0xe4, // Lowercase A, umlaut 0xc2: 0xd6, // Uppercase O, umlaut 0xc3: 0xf6, // Lowercase o, umlaut 0xc4: 0xdf, // Esszett (sharp S) 0xc5: 0xa5, // Yen symbol 0xc6: 0xa4, // Generic currency sign 0xc7: 0x2503, // Box drawings heavy vertical 0xc8: 0xc5, // Uppercase A, ring 0xc9: 0xe5, // Lowercase A, ring 0xca: 0xd8, // Uppercase O, stroke 0xcb: 0xf8, // Lowercase o, strok 0xcc: 0x250f, // Box drawings heavy down and right 0xcd: 0x2513, // Box drawings heavy down and left 0xce: 0x2517, // Box drawings heavy up and right 0xcf: 0x251b // Box drawings heavy up and left }; /** * Utils */ var getCharForByte = function getCharForByte(_byte) { var charCode = _byte; if (specialCea608CharsCodes.hasOwnProperty(_byte)) { charCode = specialCea608CharsCodes[_byte]; } return String.fromCharCode(charCode); }; var NR_ROWS = 15; var NR_COLS = 100; // Tables to look up row from PAC data var rowsLowCh1 = { 0x11: 1, 0x12: 3, 0x15: 5, 0x16: 7, 0x17: 9, 0x10: 11, 0x13: 12, 0x14: 14 }; var rowsHighCh1 = { 0x11: 2, 0x12: 4, 0x15: 6, 0x16: 8, 0x17: 10, 0x13: 13, 0x14: 15 }; var rowsLowCh2 = { 0x19: 1, 0x1a: 3, 0x1d: 5, 0x1e: 7, 0x1f: 9, 0x18: 11, 0x1b: 12, 0x1c: 14 }; var rowsHighCh2 = { 0x19: 2, 0x1a: 4, 0x1d: 6, 0x1e: 8, 0x1f: 10, 0x1b: 13, 0x1c: 15 }; var backgroundColors = ['white', 'green', 'blue', 'cyan', 'red', 'yellow', 'magenta', 'black', 'transparent']; var CaptionsLogger = /*#__PURE__*/function () { function CaptionsLogger() { this.time = null; this.verboseLevel = 0; } var _proto = CaptionsLogger.prototype; _proto.log = function log(severity, msg) { if (this.verboseLevel >= severity) { var m = typeof msg === 'function' ? msg() : msg; logger.log(this.time + " [" + severity + "] " + m); } }; return CaptionsLogger; }(); var numArrayToHexArray = function numArrayToHexArray(numArray) { var hexArray = []; for (var j = 0; j < numArray.length; j++) { hexArray.push(numArray[j].toString(16)); } return hexArray; }; var PenState = /*#__PURE__*/function () { function PenState(foreground, underline, italics, background, flash) { this.foreground = void 0; this.underline = void 0; this.italics = void 0; this.background = void 0; this.flash = void 0; this.foreground = foreground || 'white'; this.underline = underline || false; this.italics = italics || false; this.background = background || 'black'; this.flash = flash || false; } var _proto2 = PenState.prototype; _proto2.reset = function reset() { this.foreground = 'white'; this.underline = false; this.italics = false; this.background = 'black'; this.flash = false; }; _proto2.setStyles = function setStyles(styles) { var attribs = ['foreground', 'underline', 'italics', 'background', 'flash']; for (var i = 0; i < attribs.length; i++) { var style = attribs[i]; if (styles.hasOwnProperty(style)) { this[style] = styles[style]; } } }; _proto2.isDefault = function isDefault() { return this.foreground === 'white' && !this.underline && !this.italics && this.background === 'black' && !this.flash; }; _proto2.equals = function equals(other) { return this.foreground === other.foreground && this.underline === other.underline && this.italics === other.italics && this.background === other.background && this.flash === other.flash; }; _proto2.copy = function copy(newPenState) { this.foreground = newPenState.foreground; this.underline = newPenState.underline; this.italics = newPenState.italics; this.background = newPenState.background; this.flash = newPenState.flash; }; _proto2.toString = function toString() { return 'color=' + this.foreground + ', underline=' + this.underline + ', italics=' + this.italics + ', background=' + this.background + ', flash=' + this.flash; }; return PenState; }(); /** * Unicode character with styling and background. * @constructor */ var StyledUnicodeChar = /*#__PURE__*/function () { function StyledUnicodeChar(uchar, foreground, underline, italics, background, flash) { this.uchar = void 0; this.penState = void 0; this.uchar = uchar || ' '; // unicode character this.penState = new PenState(foreground, underline, italics, background, flash); } var _proto3 = StyledUnicodeChar.prototype; _proto3.reset = function reset() { this.uchar = ' '; this.penState.reset(); }; _proto3.setChar = function setChar(uchar, newPenState) { this.uchar = uchar; this.penState.copy(newPenState); }; _proto3.setPenState = function setPenState(newPenState) { this.penState.copy(newPenState); }; _proto3.equals = function equals(other) { return this.uchar === other.uchar && this.penState.equals(other.penState); }; _proto3.copy = function copy(newChar) { this.uchar = newChar.uchar; this.penState.copy(newChar.penState); }; _proto3.isEmpty = function isEmpty() { return this.uchar === ' ' && this.penState.isDefault(); }; return StyledUnicodeChar; }(); /** * CEA-608 row consisting of NR_COLS instances of StyledUnicodeChar. * @constructor */ var Row = /*#__PURE__*/function () { function Row(logger) { this.chars = void 0; this.pos = void 0; this.currPenState = void 0; this.cueStartTime = void 0; this.logger = void 0; this.chars = []; for (var i = 0; i < NR_COLS; i++) { this.chars.push(new StyledUnicodeChar()); } this.logger = logger; this.pos = 0; this.currPenState = new PenState(); } var _proto4 = Row.prototype; _proto4.equals = function equals(other) { var equal = true; for (var i = 0; i < NR_COLS; i++) { if (!this.chars[i].equals(other.chars[i])) { equal = false; break; } } return equal; }; _proto4.copy = function copy(other) { for (var i = 0; i < NR_COLS; i++) { this.chars[i].copy(other.chars[i]); } }; _proto4.isEmpty = function isEmpty() { var empty = true; for (var i = 0; i < NR_COLS; i++) { if (!this.chars[i].isEmpty()) { empty = false; break; } } return empty; } /** * Set the cursor to a valid column. */; _proto4.setCursor = function setCursor(absPos) { if (this.pos !== absPos) { this.pos = absPos; } if (this.pos < 0) { this.logger.log(3, 'Negative cursor position ' + this.pos); this.pos = 0; } else if (this.pos > NR_COLS) { this.logger.log(3, 'Too large cursor position ' + this.pos); this.pos = NR_COLS; } } /** * Move the cursor relative to current position. */; _proto4.moveCursor = function moveCursor(relPos) { var newPos = this.pos + relPos; if (relPos > 1) { for (var i = this.pos + 1; i < newPos + 1; i++) { this.chars[i].setPenState(this.currPenState); } } this.setCursor(newPos); } /** * Backspace, move one step back and clear character. */; _proto4.backSpace = function backSpace() { this.moveCursor(-1); this.chars[this.pos].setChar(' ', this.currPenState); }; _proto4.insertChar = function insertChar(_byte2) { var _this = this; if (_byte2 >= 0x90) { // Extended char this.backSpace(); } var _char = getCharForByte(_byte2); if (this.pos >= NR_COLS) { this.logger.log(0, function () { return 'Cannot insert ' + _byte2.toString(16) + ' (' + _char + ') at position ' + _this.pos + '. Skipping it!'; }); return; } this.chars[this.pos].setChar(_char, this.currPenState); this.moveCursor(1); }; _proto4.clearFromPos = function clearFromPos(startPos) { var i; for (i = startPos; i < NR_COLS; i++) { this.chars[i].reset(); } }; _proto4.clear = function clear() { this.clearFromPos(0); this.pos = 0; this.currPenState.reset(); }; _proto4.clearToEndOfRow = function clearToEndOfRow() { this.clearFromPos(this.pos); }; _proto4.getTextString = function getTextString() { var chars = []; var empty = true; for (var i = 0; i < NR_COLS; i++) { var _char2 = this.chars[i].uchar; if (_char2 !== ' ') { empty = false; } chars.push(_char2); } if (empty) { return ''; } else { return chars.join(''); } }; _proto4.setPenStyles = function setPenStyles(styles) { this.currPenState.setStyles(styles); var currChar = this.chars[this.pos]; currChar.setPenState(this.currPenState); }; return Row; }(); /** * Keep a CEA-608 screen of 32x15 styled characters * @constructor */ var CaptionScreen = /*#__PURE__*/function () { function CaptionScreen(logger) { this.rows = void 0; this.currRow = void 0; this.nrRollUpRows = void 0; this.lastOutputScreen = void 0; this.logger = void 0; this.rows = []; for (var i = 0; i < NR_ROWS; i++) { this.rows.push(new Row(logger)); } // Note that we use zero-based numbering (0-14) this.logger = logger; this.currRow = NR_ROWS - 1; this.nrRollUpRows = null; this.lastOutputScreen = null; this.reset(); } var _proto5 = CaptionScreen.prototype; _proto5.reset = function reset() { for (var i = 0; i < NR_ROWS; i++) { this.rows[i].clear(); } this.currRow = NR_ROWS - 1; }; _proto5.equals = function equals(other) { var equal = true; for (var i = 0; i < NR_ROWS; i++) { if (!this.rows[i].equals(other.rows[i])) { equal = false; break; } } return equal; }; _proto5.copy = function copy(other) { for (var i = 0; i < NR_ROWS; i++) { this.rows[i].copy(other.rows[i]); } }; _proto5.isEmpty = function isEmpty() { var empty = true; for (var i = 0; i < NR_ROWS; i++) { if (!this.rows[i].isEmpty()) { empty = false; break; } } return empty; }; _proto5.backSpace = function backSpace() { var row = this.rows[this.currRow]; row.backSpace(); }; _proto5.clearToEndOfRow = function clearToEndOfRow() { var row = this.rows[this.currRow]; row.clearToEndOfRow(); } /** * Insert a character (without styling) in the current row. */; _proto5.insertChar = function insertChar(_char3) { var row = this.rows[this.currRow]; row.insertChar(_char3); }; _proto5.setPen = function setPen(styles) { var row = this.rows[this.currRow]; row.setPenStyles(styles); }; _proto5.moveCursor = function moveCursor(relPos) { var row = this.rows[this.currRow]; row.moveCursor(relPos); }; _proto5.setCursor = function setCursor(absPos) { this.logger.log(2, 'setCursor: ' + absPos); var row = this.rows[this.currRow]; row.setCursor(absPos); }; _proto5.setPAC = function setPAC(pacData) { this.logger.log(2, function () { return 'pacData = ' + JSON.stringify(pacData); }); var newRow = pacData.row - 1; if (this.nrRollUpRows && newRow < this.nrRollUpRows - 1) { newRow = this.nrRollUpRows - 1; } // Make sure this only affects Roll-up Captions by checking this.nrRollUpRows if (this.nrRollUpRows && this.currRow !== newRow) { // clear all rows first for (var i = 0; i < NR_ROWS; i++) { this.rows[i].clear(); } // Copy this.nrRollUpRows rows from lastOutputScreen and place it in the newRow location // topRowIndex - the start of rows to copy (inclusive index) var topRowIndex = this.currRow + 1 - this.nrRollUpRows; // We only copy if the last position was already shown. // We use the cueStartTime value to check this. var lastOutputScreen = this.lastOutputScreen; if (lastOutputScreen) { var prevLineTime = lastOutputScreen.rows[topRowIndex].cueStartTime; var time = this.logger.time; if (prevLineTime && time !== null && prevLineTime < time) { for (var _i = 0; _i < this.nrRollUpRows; _i++) { this.rows[newRow - this.nrRollUpRows + _i + 1].copy(lastOutputScreen.rows[topRowIndex + _i]); } } } } this.currRow = newRow; var row = this.rows[this.currRow]; if (pacData.indent !== null) { var indent = pacData.indent; var prevPos = Math.max(indent - 1, 0); row.setCursor(pacData.indent); pacData.color = row.chars[prevPos].penState.foreground; } var styles = { foreground: pacData.color, underline: pacData.underline, italics: pacData.italics, background: 'black', flash: false }; this.setPen(styles); } /** * Set background/extra foreground, but first do back_space, and then insert space (backwards compatibility). */; _proto5.setBkgData = function setBkgData(bkgData) { this.logger.log(2, function () { return 'bkgData = ' + JSON.stringify(bkgData); }); this.backSpace(); this.setPen(bkgData); this.insertChar(0x20); // Space }; _proto5.setRollUpRows = function setRollUpRows(nrRows) { this.nrRollUpRows = nrRows; }; _proto5.rollUp = function rollUp() { var _this2 = this; if (this.nrRollUpRows === null) { this.logger.log(3, 'roll_up but nrRollUpRows not set yet'); return; // Not properly setup } this.logger.log(1, function () { return _this2.getDisplayText(); }); var topRowIndex = this.currRow + 1 - this.nrRollUpRows; var topRow = this.rows.splice(topRowIndex, 1)[0]; topRow.clear(); this.rows.splice(this.currRow, 0, topRow); this.logger.log(2, 'Rolling up'); // this.logger.log(VerboseLevel.TEXT, this.get_display_text()) } /** * Get all non-empty rows with as unicode text. */; _proto5.getDisplayText = function getDisplayText(asOneRow) { asOneRow = asOneRow || false; var displayText = []; var text = ''; var rowNr = -1; for (var i = 0; i < NR_ROWS; i++) { var rowText = this.rows[i].getTextString(); if (rowText) { rowNr = i + 1; if (asOneRow) { displayText.push('Row ' + rowNr + ": '" + rowText + "'"); } else { displayText.push(rowText.trim()); } } } if (displayText.length > 0) { if (asOneRow) { text = '[' + displayText.join(' | ') + ']'; } else { text = displayText.join('\n'); } } return text; }; _proto5.getTextAndFormat = function getTextAndFormat() { return this.rows; }; return CaptionScreen; }(); // var modes = ['MODE_ROLL-UP', 'MODE_POP-ON', 'MODE_PAINT-ON', 'MODE_TEXT']; var Cea608Channel = /*#__PURE__*/function () { function Cea608Channel(channelNumber, outputFilter, logger) { this.chNr = void 0; this.outputFilter = void 0; this.mode = void 0; this.verbose = void 0; this.displayedMemory = void 0; this.nonDisplayedMemory = void 0; this.lastOutputScreen = void 0; this.currRollUpRow = void 0; this.writeScreen = void 0; this.cueStartTime = void 0; this.logger = void 0; this.chNr = channelNumber; this.outputFilter = outputFilter; this.mode = null; this.verbose = 0; this.displayedMemory = new CaptionScreen(logger); this.nonDisplayedMemory = new CaptionScreen(logger); this.lastOutputScreen = new CaptionScreen(logger); this.currRollUpRow = this.displayedMemory.rows[NR_ROWS - 1]; this.writeScreen = this.displayedMemory; this.mode = null; this.cueStartTime = null; // Keeps track of where a cue started. this.logger = logger; } var _proto6 = Cea608Channel.prototype; _proto6.reset = function reset() { this.mode = null; this.displayedMemory.reset(); this.nonDisplayedMemory.reset(); this.lastOutputScreen.reset(); this.outputFilter.reset(); this.currRollUpRow = this.displayedMemory.rows[NR_ROWS - 1]; this.writeScreen = this.displayedMemory; this.mode = null; this.cueStartTime = null; }; _proto6.getHandler = function getHandler() { return this.outputFilter; }; _proto6.setHandler = function setHandler(newHandler) { this.outputFilter = newHandler; }; _proto6.setPAC = function setPAC(pacData) { this.writeScreen.setPAC(pacData); }; _proto6.setBkgData = function setBkgData(bkgData) { this.writeScreen.setBkgData(bkgData); }; _proto6.setMode = function setMode(newMode) { if (newMode === this.mode) { return; } this.mode = newMode; this.logger.log(2, function () { return 'MODE=' + newMode; }); if (this.mode === 'MODE_POP-ON') { this.writeScreen = this.nonDisplayedMemory; } else { this.writeScreen = this.displayedMemory; this.writeScreen.reset(); } if (this.mode !== 'MODE_ROLL-UP') { this.displayedMemory.nrRollUpRows = null; this.nonDisplayedMemory.nrRollUpRows = null; } this.mode = newMode; }; _proto6.insertChars = function insertChars(chars) { var _this3 = this; for (var i = 0; i < chars.length; i++) { this.writeScreen.insertChar(chars[i]); } var screen = this.writeScreen === this.displayedMemory ? 'DISP' : 'NON_DISP'; this.logger.log(2, function () { return screen + ': ' + _this3.writeScreen.getDisplayText(true); }); if (this.mode === 'MODE_PAINT-ON' || this.mode === 'MODE_ROLL-UP') { this.logger.log(1, function () { return 'DISPLAYED: ' + _this3.displayedMemory.getDisplayText(true); }); this.outputDataUpdate(); } }; _proto6.ccRCL = function ccRCL() { // Resume Caption Loading (switch mode to Pop On) this.logger.log(2, 'RCL - Resume Caption Loading'); this.setMode('MODE_POP-ON'); }; _proto6.ccBS = function ccBS() { // BackSpace this.logger.log(2, 'BS - BackSpace'); if (this.mode === 'MODE_TEXT') { return; } this.writeScreen.backSpace(); if (this.writeScreen === this.displayedMemory) { this.outputDataUpdate(); } }; _proto6.ccAOF = function ccAOF() { // Reserved (formerly Alarm Off) }; _proto6.ccAON = function ccAON() { // Reserved (formerly Alarm On) }; _proto6.ccDER = function ccDER() { // Delete to End of Row this.logger.log(2, 'DER- Delete to End of Row'); this.writeScreen.clearToEndOfRow(); this.outputDataUpdate(); }; _proto6.ccRU = function ccRU(nrRows) { // Roll-Up Captions-2,3,or 4 Rows this.logger.log(2, 'RU(' + nrRows + ') - Roll Up'); this.writeScreen = this.displayedMemory; this.setMode('MODE_ROLL-UP'); this.writeScreen.setRollUpRows(nrRows); }; _proto6.ccFON = function ccFON() { // Flash On this.logger.log(2, 'FON - Flash On'); this.writeScreen.setPen({ flash: true }); }; _proto6.ccRDC = function ccRDC() { // Resume Direct Captioning (switch mode to PaintOn) this.logger.log(2, 'RDC - Resume Direct Captioning'); this.setMode('MODE_PAINT-ON'); }; _proto6.ccTR = function ccTR() { // Text Restart in text mode (not supported, however) this.logger.log(2, 'TR'); this.setMode('MODE_TEXT'); }; _proto6.ccRTD = function ccRTD() { // Resume Text Display in Text mode (not supported, however) this.logger.log(2, 'RTD'); this.setMode('MODE_TEXT'); }; _proto6.ccEDM = function ccEDM() { // Erase Displayed Memory this.logger.log(2, 'EDM - Erase Displayed Memory'); this.displayedMemory.reset(); this.outputDataUpdate(true); }; _proto6.ccCR = function ccCR() { // Carriage Return this.logger.log(2, 'CR - Carriage Return'); this.writeScreen.rollUp(); this.outputDataUpdate(true); }; _proto6.ccENM = function ccENM() { // Erase Non-Displayed Memory this.logger.log(2, 'ENM - Erase Non-displayed Memory'); this.nonDisplayedMemory.reset(); }; _proto6.ccEOC = function ccEOC() { var _this4 = this; // End of Caption (Flip Memories) this.logger.log(2, 'EOC - End Of Caption'); if (this.mode === 'MODE_POP-ON') { var tmp = this.displayedMemory; this.displayedMemory = this.nonDisplayedMemory; this.nonDisplayedMemory = tmp; this.writeScreen = this.nonDisplayedMemory; this.logger.log(1, function () { return 'DISP: ' + _this4.displayedMemory.getDisplayText(); }); } this.outputDataUpdate(true); }; _proto6.ccTO = function ccTO(nrCols) { // Tab Offset 1,2, or 3 columns this.logger.log(2, 'TO(' + nrCols + ') - Tab Offset'); this.writeScreen.moveCursor(nrCols); }; _proto6.ccMIDROW = function ccMIDROW(secondByte) { // Parse MIDROW command var styles = { flash: false }; styles.underline = secondByte % 2 === 1; styles.italics = secondByte >= 0x2e; if (!styles.italics) { var colorIndex = Math.floor(secondByte / 2) - 0x10; var colors = ['white', 'green', 'blue', 'cyan', 'red', 'yellow', 'magenta']; styles.foreground = colors[colorIndex]; } else { styles.foreground = 'white'; } this.logger.log(2, 'MIDROW: ' + JSON.stringify(styles)); this.writeScreen.setPen(styles); }; _proto6.outputDataUpdate = function outputDataUpdate(dispatch) { if (dispatch === void 0) { dispatch = false; } var time = this.logger.time; if (time === null) { return; } if (this.outputFilter) { if (this.cueStartTime === null && !this.displayedMemory.isEmpty()) { // Start of a new cue this.cueStartTime = time; } else { if (!this.displayedMemory.equals(this.lastOutputScreen)) { this.outputFilter.newCue(this.cueStartTime, time, this.lastOutputScreen); if (dispatch && this.outputFilter.dispatchCue) { this.outputFilter.dispatchCue(); } this.cueStartTime = this.displayedMemory.isEmpty() ? null : time; } } this.lastOutputScreen.copy(this.displayedMemory); } }; _proto6.cueSplitAtTime = function cueSplitAtTime(t) { if (this.outputFilter) { if (!this.displayedMemory.isEmpty()) { if (this.outputFilter.newCue) { this.outputFilter.newCue(this.cueStartTime, t, this.displayedMemory); } this.cueStartTime = t; } } }; return Cea608Channel; }(); // Will be 1 or 2 when parsing captions var Cea608Parser = /*#__PURE__*/function () { function Cea608Parser(field, out1, out2) { this.channels = void 0; this.currentChannel = 0; this.cmdHistory = void 0; this.logger = void 0; var logger = new CaptionsLogger(); this.channels = [null, new Cea608Channel(field, out1, logger), new Cea608Channel(field + 1, out2, logger)]; this.cmdHistory = createCmdHistory(); this.logger = logger; } var _proto7 = Cea608Parser.prototype; _proto7.getHandler = function getHandler(channel) { return this.channels[channel].getHandler(); }; _proto7.setHandler = function setHandler(channel, newHandler) { this.channels[channel].setHandler(newHandler); } /** * Add data for time t in forms of list of bytes (unsigned ints). The bytes are treated as pairs. */; _proto7.addData = function addData(time, byteList) { var cmdFound; var a; var b; var charsFound = false; this.logger.time = time; for (var i = 0; i < byteList.length; i += 2) { a = byteList[i] & 0x7f; b = byteList[i + 1] & 0x7f; if (a === 0 && b === 0) { continue; } else { this.logger.log(3, '[' + numArrayToHexArray([byteList[i], byteList[i + 1]]) + '] -> (' + numArrayToHexArray([a, b]) + ')'); } cmdFound = this.parseCmd(a, b); if (!cmdFound) { cmdFound = this.parseMidrow(a, b); } if (!cmdFound) { cmdFound = this.parsePAC(a, b); } if (!cmdFound) { cmdFound = this.parseBackgroundAttributes(a, b); } if (!cmdFound) { charsFound = this.parseChars(a, b); if (charsFound) { var currChNr = this.currentChannel; if (currChNr && currChNr > 0) { var channel = this.channels[currChNr]; channel.insertChars(charsFound); } else { this.logger.log(2, 'No channel found yet. TEXT-MODE?'); } } } if (!cmdFound && !charsFound) { this.logger.log(2, "Couldn't parse cleaned data " + numArrayToHexArray([a, b]) + ' orig: ' + numArrayToHexArray([byteList[i], byteList[i + 1]])); } } } /** * Parse Command. * @returns True if a command was found */; _proto7.parseCmd = function parseCmd(a, b) { var cmdHistory = this.cmdHistory; var cond1 = (a === 0x14 || a === 0x1c || a === 0x15 || a === 0x1d) && b >= 0x20 && b <= 0x2f; var cond2 = (a === 0x17 || a === 0x1f) && b >= 0x21 && b <= 0x23; if (!(cond1 || cond2)) { return false; } if (hasCmdRepeated(a, b, cmdHistory)) { setLastCmd(null, null, cmdHistory); this.logger.log(3, 'Repeated command (' + numArrayToHexArray([a, b]) + ') is dropped'); return true; } var chNr = a === 0x14 || a === 0x15 || a === 0x17 ? 1 : 2; var channel = this.channels[chNr]; if (a === 0x14 || a === 0x15 || a === 0x1c || a === 0x1d) { if (b === 0x20) { channel.ccRCL(); } else if (b === 0x21) { channel.ccBS(); } else if (b === 0x22) { channel.ccAOF(); } else if (b === 0x23) { channel.ccAON(); } else if (b === 0x24) { channel.ccDER(); } else if (b === 0x25) { channel.ccRU(2); } else if (b === 0x26) { channel.ccRU(3); } else if (b === 0x27) { channel.ccRU(4); } else if (b === 0x28) { channel.ccFON(); } else if (b === 0x29) { channel.ccRDC(); } else if (b === 0x2a) { channel.ccTR(); } else if (b === 0x2b) { channel.ccRTD(); } else if (b === 0x2c) { channel.ccEDM(); } else if (b === 0x2d) { channel.ccCR(); } else if (b === 0x2e) { channel.ccENM(); } else if (b === 0x2f) { channel.ccEOC(); } } else { // a == 0x17 || a == 0x1F channel.ccTO(b - 0x20); } setLastCmd(a, b, cmdHistory); this.currentChannel = chNr; return true; } /** * Parse midrow styling command */; _proto7.parseMidrow = function parseMidrow(a, b) { var chNr = 0; if ((a === 0x11 || a === 0x19) && b >= 0x20 && b <= 0x2f) { if (a === 0x11) { chNr = 1; } else { chNr = 2; } if (chNr !== this.currentChannel) { this.logger.log(0, 'Mismatch channel in midrow parsing'); return false; } var channel = this.channels[chNr]; if (!channel) { return false; } channel.ccMIDROW(b); this.logger.log(3, 'MIDROW (' + numArrayToHexArray([a, b]) + ')'); return true; } return false; } /** * Parse Preable Access Codes (Table 53). * @returns {Boolean} Tells if PAC found */; _proto7.parsePAC = function parsePAC(a, b) { var row; var cmdHistory = this.cmdHistory; var case1 = (a >= 0x11 && a <= 0x17 || a >= 0x19 && a <= 0x1f) && b >= 0x40 && b <= 0x7f; var case2 = (a === 0x10 || a === 0x18) && b >= 0x40 && b <= 0x5f; if (!(case1 || case2)) { return false; } if (hasCmdRepeated(a, b, cmdHistory)) { setLastCmd(null, null, cmdHistory); return true; // Repeated commands are dropped (once) } var chNr = a <= 0x17 ? 1 : 2; if (b >= 0x40 && b <= 0x5f) { row = chNr === 1 ? rowsLowCh1[a] : rowsLowCh2[a]; } else { // 0x60 <= b <= 0x7F row = chNr === 1 ? rowsHighCh1[a] : rowsHighCh2[a]; } var channel = this.channels[chNr]; if (!channel) { return false; } channel.setPAC(this.interpretPAC(row, b)); setLastCmd(a, b, cmdHistory); this.currentChannel = chNr; return true; } /** * Interpret the second byte of the pac, and return the information. * @returns pacData with style parameters */; _proto7.interpretPAC = function interpretPAC(row, _byte3) { var pacIndex; var pacData = { color: null, italics: false, indent: null, underline: false, row: row }; if (_byte3 > 0x5f) { pacIndex = _byte3 - 0x60; } else { pacIndex = _byte3 - 0x40; } pacData.underline = (pacIndex & 1) === 1; if (pacIndex <= 0xd) { pacData.color = ['white', 'green', 'blue', 'cyan', 'red', 'yellow', 'magenta', 'white'][Math.floor(pacIndex / 2)]; } else if (pacIndex <= 0xf) { pacData.italics = true; pacData.color = 'white'; } else { pacData.indent = Math.floor((pacIndex - 0x10) / 2) * 4; } return pacData; // Note that row has zero offset. The spec uses 1. } /** * Parse characters. * @returns An array with 1 to 2 codes corresponding to chars, if found. null otherwise. */; _proto7.parseChars = function parseChars(a, b) { var channelNr; var charCodes = null; var charCode1 = null; if (a >= 0x19) { channelNr = 2; charCode1 = a - 8; } else { channelNr = 1; charCode1 = a; } if (charCode1 >= 0x11 && charCode1 <= 0x13) { // Special character var oneCode; if (charCode1 === 0x11) { oneCode = b + 0x50; } else if (charCode1 === 0x12) { oneCode = b + 0x70; } else { oneCode = b + 0x90; } this.logger.log(2, "Special char '" + getCharForByte(oneCode) + "' in channel " + channelNr); charCodes = [oneCode]; } else if (a >= 0x20 && a <= 0x7f) { charCodes = b === 0 ? [a] : [a, b]; } if (charCodes) { var hexCodes = numArrayToHexArray(charCodes); this.logger.log(3, 'Char codes = ' + hexCodes.join(',')); setLastCmd(a, b, this.cmdHistory); } return charCodes; } /** * Parse extended background attributes as well as new foreground color black. * @returns True if background attributes are found */; _proto7.parseBackgroundAttributes = function parseBackgroundAttributes(a, b) { var case1 = (a === 0x10 || a === 0x18) && b >= 0x20 && b <= 0x2f; var case2 = (a === 0x17 || a === 0x1f) && b >= 0x2d && b <= 0x2f; if (!(case1 || case2)) { return false; } var index; var bkgData = {}; if (a === 0x10 || a === 0x18) { index = Math.floor((b - 0x20) / 2); bkgData.background = backgroundColors[index]; if (b % 2 === 1) { bkgData.background = bkgData.background + '_semi'; } } else if (b === 0x2d) { bkgData.background = 'transparent'; } else { bkgData.foreground = 'black'; if (b === 0x2f) { bkgData.underline = true; } } var chNr = a <= 0x17 ? 1 : 2; var channel = this.channels[chNr]; channel.setBkgData(bkgData); setLastCmd(a, b, this.cmdHistory); return true; } /** * Reset state of parser and its channels. */; _proto7.reset = function reset() { for (var i = 0; i < Object.keys(this.channels).length; i++) { var channel = this.channels[i]; if (channel) { channel.reset(); } } this.cmdHistory = createCmdHistory(); } /** * Trigger the generation of a cue, and the start of a new one if displayScreens are not empty. */; _proto7.cueSplitAtTime = function cueSplitAtTime(t) { for (var i = 0; i < this.channels.length; i++) { var channel = this.channels[i]; if (channel) { channel.cueSplitAtTime(t); } } }; return Cea608Parser; }(); function setLastCmd(a, b, cmdHistory) { cmdHistory.a = a; cmdHistory.b = b; } function hasCmdRepeated(a, b, cmdHistory) { return cmdHistory.a === a && cmdHistory.b === b; } function createCmdHistory() { return { a: null, b: null }; } var OutputFilter = /*#__PURE__*/function () { function OutputFilter(timelineController, trackName) { this.timelineController = void 0; this.cueRanges = []; this.trackName = void 0; this.startTime = null; this.endTime = null; this.screen = null; this.timelineController = timelineController; this.trackName = trackName; } var _proto = OutputFilter.prototype; _proto.dispatchCue = function dispatchCue() { if (this.startTime === null) { return; } this.timelineController.addCues(this.trackName, this.startTime, this.endTime, this.screen, this.cueRanges); this.startTime = null; }; _proto.newCue = function newCue(startTime, endTime, screen) { if (this.startTime === null || this.startTime > startTime) { this.startTime = startTime; } this.endTime = endTime; this.screen = screen; this.timelineController.createCaptionsTrack(this.trackName); }; _proto.reset = function reset() { this.cueRanges = []; this.startTime = null; }; return OutputFilter; }(); /** * Copyright 2013 vtt.js Contributors * * 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. */ var VTTCue = (function () { if (typeof self !== 'undefined' && self.VTTCue) { return self.VTTCue; } var AllowedDirections = ['', 'lr', 'rl']; var AllowedAlignments = ['start', 'middle', 'end', 'left', 'right']; function isAllowedValue(allowed, value) { if (typeof value !== 'string') { return false; } // necessary for assuring the generic conforms to the Array interface if (!Array.isArray(allowed)) { return false; } // reset the type so that the next narrowing works well var lcValue = value.toLowerCase(); // use the allow list to narrow the type to a specific subset of strings if (~allowed.indexOf(lcValue)) { return lcValue; } return false; } function findDirectionSetting(value) { return isAllowedValue(AllowedDirections, value); } function findAlignSetting(value) { return isAllowedValue(AllowedAlignments, value); } function extend(obj) { for (var _len = arguments.length, rest = new Array(_len > 1 ? _len - 1 : 0), _key = 1; _key < _len; _key++) { rest[_key - 1] = arguments[_key]; } var i = 1; for (; i < arguments.length; i++) { var cobj = arguments[i]; for (var p in cobj) { obj[p] = cobj[p]; } } return obj; } function VTTCue(startTime, endTime, text) { var cue = this; var baseObj = { enumerable: true }; /** * Shim implementation specific properties. These properties are not in * the spec. */ // Lets us know when the VTTCue's data has changed in such a way that we need // to recompute its display state. This lets us compute its display state // lazily. cue.hasBeenReset = false; /** * VTTCue and TextTrackCue properties * http://dev.w3.org/html5/webvtt/#vttcue-interface */ var _id = ''; var _pauseOnExit = false; var _startTime = startTime; var _endTime = endTime; var _text = text; var _region = null; var _vertical = ''; var _snapToLines = true; var _line = 'auto'; var _lineAlign = 'start'; var _position = 50; var _positionAlign = 'middle'; var _size = 50; var _align = 'middle'; Object.defineProperty(cue, 'id', extend({}, baseObj, { get: function get() { return _id; }, set: function set(value) { _id = '' + value; } })); Object.defineProperty(cue, 'pauseOnExit', extend({}, baseObj, { get: function get() { return _pauseOnExit; }, set: function set(value) { _pauseOnExit = !!value; } })); Object.defineProperty(cue, 'startTime', extend({}, baseObj, { get: function get() { return _startTime; }, set: function set(value) { if (typeof value !== 'number') { throw new TypeError('Start time must be set to a number.'); } _startTime = value; this.hasBeenReset = true; } })); Object.defineProperty(cue, 'endTime', extend({}, baseObj, { get: function get() { return _endTime; }, set: function set(value) { if (typeof value !== 'number') { throw new TypeError('End time must be set to a number.'); } _endTime = value; this.hasBeenReset = true; } })); Object.defineProperty(cue, 'text', extend({}, baseObj, { get: function get() { return _text; }, set: function set(value) { _text = '' + value; this.hasBeenReset = true; } })); // todo: implement VTTRegion polyfill? Object.defineProperty(cue, 'region', extend({}, baseObj, { get: function get() { return _region; }, set: function set(value) { _region = value; this.hasBeenReset = true; } })); Object.defineProperty(cue, 'vertical', extend({}, baseObj, { get: function get() { return _vertical; }, set: function set(value) { var setting = findDirectionSetting(value); // Have to check for false because the setting an be an empty string. if (setting === false) { throw new SyntaxError('An invalid or illegal string was specified.'); } _vertical = setting; this.hasBeenReset = true; } })); Object.defineProperty(cue, 'snapToLines', extend({}, baseObj, { get: function get() { return _snapToLines; }, set: function set(value) { _snapToLines = !!value; this.hasBeenReset = true; } })); Object.defineProperty(cue, 'line', extend({}, baseObj, { get: function get() { return _line; }, set: function set(value) { if (typeof value !== 'number' && value !== 'auto') { throw new SyntaxError('An invalid number or illegal string was specified.'); } _line = value; this.hasBeenReset = true; } })); Object.defineProperty(cue, 'lineAlign', extend({}, baseObj, { get: function get() { return _lineAlign; }, set: function set(value) { var setting = findAlignSetting(value); if (!setting) { throw new SyntaxError('An invalid or illegal string was specified.'); } _lineAlign = setting; this.hasBeenReset = true; } })); Object.defineProperty(cue, 'position', extend({}, baseObj, { get: function get() { return _position; }, set: function set(value) { if (value < 0 || value > 100) { throw new Error('Position must be between 0 and 100.'); } _position = value; this.hasBeenReset = true; } })); Object.defineProperty(cue, 'positionAlign', extend({}, baseObj, { get: function get() { return _positionAlign; }, set: function set(value) { var setting = findAlignSetting(value); if (!setting) { throw new SyntaxError('An invalid or illegal string was specified.'); } _positionAlign = setting; this.hasBeenReset = true; } })); Object.defineProperty(cue, 'size', extend({}, baseObj, { get: function get() { return _size; }, set: function set(value) { if (value < 0 || value > 100) { throw new Error('Size must be between 0 and 100.'); } _size = value; this.hasBeenReset = true; } })); Object.defineProperty(cue, 'align', extend({}, baseObj, { get: function get() { return _align; }, set: function set(value) { var setting = findAlignSetting(value); if (!setting) { throw new SyntaxError('An invalid or illegal string was specified.'); } _align = setting; this.hasBeenReset = true; } })); /** * Other <track> spec defined properties */ // http://www.whatwg.org/specs/web-apps/current-work/multipage/the-video-element.html#text-track-cue-display-state cue.displayState = undefined; } /** * VTTCue methods */ VTTCue.prototype.getCueAsHTML = function () { // Assume WebVTT.convertCueToDOMTree is on the global. var WebVTT = self.WebVTT; return WebVTT.convertCueToDOMTree(self, this.text); }; // this is a polyfill hack return VTTCue; })(); /* * Source: https://github.com/mozilla/vtt.js/blob/master/dist/vtt.js */ var StringDecoder = /*#__PURE__*/function () { function StringDecoder() {} var _proto = StringDecoder.prototype; // eslint-disable-next-line @typescript-eslint/no-unused-vars _proto.decode = function decode(data, options) { if (!data) { return ''; } if (typeof data !== 'string') { throw new Error('Error - expected string data.'); } return decodeURIComponent(encodeURIComponent(data)); }; return StringDecoder; }(); // Try to parse input as a time stamp. function parseTimeStamp(input) { function computeSeconds(h, m, s, f) { return (h | 0) * 3600 + (m | 0) * 60 + (s | 0) + parseFloat(f || 0); } var m = input.match(/^(?:(\d+):)?(\d{2}):(\d{2})(\.\d+)?/); if (!m) { return null; } if (parseFloat(m[2]) > 59) { // Timestamp takes the form of [hours]:[minutes].[milliseconds] // First position is hours as it's over 59. return computeSeconds(m[2], m[3], 0, m[4]); } // Timestamp takes the form of [hours (optional)]:[minutes]:[seconds].[milliseconds] return computeSeconds(m[1], m[2], m[3], m[4]); } // A settings object holds key/value pairs and will ignore anything but the first // assignment to a specific key. var Settings = /*#__PURE__*/function () { function Settings() { this.values = Object.create(null); } var _proto2 = Settings.prototype; // Only accept the first assignment to any key. _proto2.set = function set(k, v) { if (!this.get(k) && v !== '') { this.values[k] = v; } } // Return the value for a key, or a default value. // If 'defaultKey' is passed then 'dflt' is assumed to be an object with // a number of possible default values as properties where 'defaultKey' is // the key of the property that will be chosen; otherwise it's assumed to be // a single value. ; _proto2.get = function get(k, dflt, defaultKey) { if (defaultKey) { return this.has(k) ? this.values[k] : dflt[defaultKey]; } return this.has(k) ? this.values[k] : dflt; } // Check whether we have a value for a key. ; _proto2.has = function has(k) { return k in this.values; } // Accept a setting if its one of the given alternatives. ; _proto2.alt = function alt(k, v, a) { for (var n = 0; n < a.length; ++n) { if (v === a[n]) { this.set(k, v); break; } } } // Accept a setting if its a valid (signed) integer. ; _proto2.integer = function integer(k, v) { if (/^-?\d+$/.test(v)) { // integer this.set(k, parseInt(v, 10)); } } // Accept a setting if its a valid percentage. ; _proto2.percent = function percent(k, v) { if (/^([\d]{1,3})(\.[\d]*)?%$/.test(v)) { var percent = parseFloat(v); if (percent >= 0 && percent <= 100) { this.set(k, percent); return true; } } return false; }; return Settings; }(); // Helper function to parse input into groups separated by 'groupDelim', and // interpret each group as a key/value pair separated by 'keyValueDelim'. function parseOptions(input, callback, keyValueDelim, groupDelim) { var groups = groupDelim ? input.split(groupDelim) : [input]; for (var i in groups) { if (typeof groups[i] !== 'string') { continue; } var kv = groups[i].split(keyValueDelim); if (kv.length !== 2) { continue; } var _k = kv[0]; var _v = kv[1]; callback(_k, _v); } } var defaults = new VTTCue(0, 0, ''); // 'middle' was changed to 'center' in the spec: https://github.com/w3c/webvtt/pull/244 // Safari doesn't yet support this change, but FF and Chrome do. var center = defaults.align === 'middle' ? 'middle' : 'center'; function parseCue(input, cue, regionList) { // Remember the original input if we need to throw an error. var oInput = input; // 4.1 WebVTT timestamp function consumeTimeStamp() { var ts = parseTimeStamp(input); if (ts === null) { throw new Error('Malformed timestamp: ' + oInput); } // Remove time stamp from input. input = input.replace(/^[^\sa-zA-Z-]+/, ''); return ts; } // 4.4.2 WebVTT cue settings function consumeCueSettings(input, cue) { var settings = new Settings(); parseOptions(input, function (k, v) { var vals; switch (k) { case 'region': // Find the last region we parsed with the same region id. for (var i = regionList.length - 1; i >= 0; i--) { if (regionList[i].id === v) { settings.set(k, regionList[i].region); break; } } break; case 'vertical': settings.alt(k, v, ['rl', 'lr']); break; case 'line': vals = v.split(','); settings.integer(k, vals[0]); if (settings.percent(k, vals[0])) { settings.set('snapToLines', false); } settings.alt(k, vals[0], ['auto']); if (vals.length === 2) { settings.alt('lineAlign', vals[1], ['start', center, 'end']); } break; case 'position': vals = v.split(','); settings.percent(k, vals[0]); if (vals.length === 2) { settings.alt('positionAlign', vals[1], ['start', center, 'end', 'line-left', 'line-right', 'auto']); } break; case 'size': settings.percent(k, v); break; case 'align': settings.alt(k, v, ['start', center, 'end', 'left', 'right']); break; } }, /:/, /\s/); // Apply default values for any missing fields. cue.region = settings.get('region', null); cue.vertical = settings.get('vertical', ''); var line = settings.get('line', 'auto'); if (line === 'auto' && defaults.line === -1) { // set numeric line number for Safari line = -1; } cue.line = line; cue.lineAlign = settings.get('lineAlign', 'start'); cue.snapToLines = settings.get('snapToLines', true); cue.size = settings.get('size', 100); cue.align = settings.get('align', center); var position = settings.get('position', 'auto'); if (position === 'auto' && defaults.position === 50) { // set numeric position for Safari position = cue.align === 'start' || cue.align === 'left' ? 0 : cue.align === 'end' || cue.align === 'right' ? 100 : 50; } cue.position = position; } function skipWhitespace() { input = input.replace(/^\s+/, ''); } // 4.1 WebVTT cue timings. skipWhitespace(); cue.startTime = consumeTimeStamp(); // (1) collect cue start time skipWhitespace(); if (input.slice(0, 3) !== '-->') { // (3) next characters must match '-->' throw new Error("Malformed time stamp (time stamps must be separated by '-->'): " + oInput); } input = input.slice(3); skipWhitespace(); cue.endTime = consumeTimeStamp(); // (5) collect cue end time // 4.1 WebVTT cue settings list. skipWhitespace(); consumeCueSettings(input, cue); } function fixLineBreaks(input) { return input.replace(/<br(?: \/)?>/gi, '\n'); } var VTTParser = /*#__PURE__*/function () { function VTTParser() { this.state = 'INITIAL'; this.buffer = ''; this.decoder = new StringDecoder(); this.regionList = []; this.cue = null; this.oncue = void 0; this.onparsingerror = void 0; this.onflush = void 0; } var _proto3 = VTTParser.prototype; _proto3.parse = function parse(data) { var _this = this; // If there is no data then we won't decode it, but will just try to parse // whatever is in buffer already. This may occur in circumstances, for // example when flush() is called. if (data) { // Try to decode the data that we received. _this.buffer += _this.decoder.decode(data, { stream: true }); } function collectNextLine() { var buffer = _this.buffer; var pos = 0; buffer = fixLineBreaks(buffer); while (pos < buffer.length && buffer[pos] !== '\r' && buffer[pos] !== '\n') { ++pos; } var line = buffer.slice(0, pos); // Advance the buffer early in case we fail below. if (buffer[pos] === '\r') { ++pos; } if (buffer[pos] === '\n') { ++pos; } _this.buffer = buffer.slice(pos); return line; } // 3.2 WebVTT metadata header syntax function parseHeader(input) { parseOptions(input, function (k, v) { // switch (k) { // case 'region': // 3.3 WebVTT region metadata header syntax // console.log('parse region', v); // parseRegion(v); // break; // } }, /:/); } // 5.1 WebVTT file parsing. try { var line = ''; if (_this.state === 'INITIAL') { // We can't start parsing until we have the first line. if (!/\r\n|\n/.test(_this.buffer)) { return this; } line = collectNextLine(); // strip of UTF-8 BOM if any // https://en.wikipedia.org/wiki/Byte_order_mark#UTF-8 var m = line.match(/^()?WEBVTT([ \t].*)?$/); if (!(m != null && m[0])) { throw new Error('Malformed WebVTT signature.'); } _this.state = 'HEADER'; } var alreadyCollectedLine = false; while (_this.buffer) { // We can't parse a line until we have the full line. if (!/\r\n|\n/.test(_this.buffer)) { return this; } if (!alreadyCollectedLine) { line = collectNextLine(); } else { alreadyCollectedLine = false; } switch (_this.state) { case 'HEADER': // 13-18 - Allow a header (metadata) under the WEBVTT line. if (/:/.test(line)) { parseHeader(line); } else if (!line) { // An empty line terminates the header and starts the body (cues). _this.state = 'ID'; } continue; case 'NOTE': // Ignore NOTE blocks. if (!line) { _this.state = 'ID'; } continue; case 'ID': // Check for the start of NOTE blocks. if (/^NOTE($|[ \t])/.test(line)) { _this.state = 'NOTE'; break; } // 19-29 - Allow any number of line terminators, then initialize new cue values. if (!line) { continue; } _this.cue = new VTTCue(0, 0, ''); _this.state = 'CUE'; // 30-39 - Check if self line contains an optional identifier or timing data. if (line.indexOf('-->') === -1) { _this.cue.id = line; continue; } // Process line as start of a cue. /* falls through */ case 'CUE': // 40 - Collect cue timings and settings. if (!_this.cue) { _this.state = 'BADCUE'; continue; } try { parseCue(line, _this.cue, _this.regionList); } catch (e) { // In case of an error ignore rest of the cue. _this.cue = null; _this.state = 'BADCUE'; continue; } _this.state = 'CUETEXT'; continue; case 'CUETEXT': { var hasSubstring = line.indexOf('-->') !== -1; // 34 - If we have an empty line then report the cue. // 35 - If we have the special substring '-->' then report the cue, // but do not collect the line as we need to process the current // one as a new cue. if (!line || hasSubstring && (alreadyCollectedLine = true)) { // We are done parsing self cue. if (_this.oncue && _this.cue) { _this.oncue(_this.cue); } _this.cue = null; _this.state = 'ID'; continue; } if (_this.cue === null) { continue; } if (_this.cue.text) { _this.cue.text += '\n'; } _this.cue.text += line; } continue; case 'BADCUE': // 54-62 - Collect and discard the remaining cue. if (!line) { _this.state = 'ID'; } } } } catch (e) { // If we are currently parsing a cue, report what we have. if (_this.state === 'CUETEXT' && _this.cue && _this.oncue) { _this.oncue(_this.cue); } _this.cue = null; // Enter BADWEBVTT state if header was not parsed correctly otherwise // another exception occurred so enter BADCUE state. _this.state = _this.state === 'INITIAL' ? 'BADWEBVTT' : 'BADCUE'; } return this; }; _proto3.flush = function flush() { var _this = this; try { // Finish decoding the stream. // _this.buffer += _this.decoder.decode(); // Synthesize the end of the current cue or region. if (_this.cue || _this.state === 'HEADER') { _this.buffer += '\n\n'; _this.parse(); } // If we've flushed, parsed, and we're still on the INITIAL state then // that means we don't have enough of the stream to parse the first // line. if (_this.state === 'INITIAL' || _this.state === 'BADWEBVTT') { throw new Error('Malformed WebVTT signature.'); } } catch (e) { if (_this.onparsingerror) { _this.onparsingerror(e); } } if (_this.onflush) { _this.onflush(); } return this; }; return VTTParser; }(); var LINEBREAKS = /\r\n|\n\r|\n|\r/g; // String.prototype.startsWith is not supported in IE11 var startsWith = function startsWith(inputString, searchString, position) { if (position === void 0) { position = 0; } return inputString.slice(position, position + searchString.length) === searchString; }; var cueString2millis = function cueString2millis(timeString) { var ts = parseInt(timeString.slice(-3)); var secs = parseInt(timeString.slice(-6, -4)); var mins = parseInt(timeString.slice(-9, -7)); var hours = timeString.length > 9 ? parseInt(timeString.substring(0, timeString.indexOf(':'))) : 0; if (!isFiniteNumber(ts) || !isFiniteNumber(secs) || !isFiniteNumber(mins) || !isFiniteNumber(hours)) { throw Error("Malformed X-TIMESTAMP-MAP: Local:" + timeString); } ts += 1000 * secs; ts += 60 * 1000 * mins; ts += 60 * 60 * 1000 * hours; return ts; }; // From https://github.com/darkskyapp/string-hash var hash = function hash(text) { var hash = 5381; var i = text.length; while (i) { hash = hash * 33 ^ text.charCodeAt(--i); } return (hash >>> 0).toString(); }; // Create a unique hash id for a cue based on start/end times and text. // This helps timeline-controller to avoid showing repeated captions. function generateCueId(startTime, endTime, text) { return hash(startTime.toString()) + hash(endTime.toString()) + hash(text); } var calculateOffset = function calculateOffset(vttCCs, cc, presentationTime) { var currCC = vttCCs[cc]; var prevCC = vttCCs[currCC.prevCC]; // This is the first discontinuity or cues have been processed since the last discontinuity // Offset = current discontinuity time if (!prevCC || !prevCC.new && currCC.new) { vttCCs.ccOffset = vttCCs.presentationOffset = currCC.start; currCC.new = false; return; } // There have been discontinuities since cues were last parsed. // Offset = time elapsed while ((_prevCC = prevCC) != null && _prevCC.new) { var _prevCC; vttCCs.ccOffset += currCC.start - prevCC.start; currCC.new = false; currCC = prevCC; prevCC = vttCCs[currCC.prevCC]; } vttCCs.presentationOffset = presentationTime; }; function parseWebVTT(vttByteArray, initPTS, vttCCs, cc, timeOffset, callBack, errorCallBack) { var parser = new VTTParser(); // Convert byteArray into string, replacing any somewhat exotic linefeeds with "\n", then split on that character. // Uint8Array.prototype.reduce is not implemented in IE11 var vttLines = utf8ArrayToStr(new Uint8Array(vttByteArray)).trim().replace(LINEBREAKS, '\n').split('\n'); var cues = []; var init90kHz = initPTS ? toMpegTsClockFromTimescale(initPTS.baseTime, initPTS.timescale) : 0; var cueTime = '00:00.000'; var timestampMapMPEGTS = 0; var timestampMapLOCAL = 0; var parsingError; var inHeader = true; parser.oncue = function (cue) { // Adjust cue timing; clamp cues to start no earlier than - and drop cues that don't end after - 0 on timeline. var currCC = vttCCs[cc]; var cueOffset = vttCCs.ccOffset; // Calculate subtitle PTS offset var webVttMpegTsMapOffset = (timestampMapMPEGTS - init90kHz) / 90000; // Update offsets for new discontinuities if (currCC != null && currCC.new) { if (timestampMapLOCAL !== undefined) { // When local time is provided, offset = discontinuity start time - local time cueOffset = vttCCs.ccOffset = currCC.start; } else { calculateOffset(vttCCs, cc, webVttMpegTsMapOffset); } } if (webVttMpegTsMapOffset) { if (!initPTS) { parsingError = new Error('Missing initPTS for VTT MPEGTS'); return; } // If we have MPEGTS, offset = presentation time + discontinuity offset cueOffset = webVttMpegTsMapOffset - vttCCs.presentationOffset; } var duration = cue.endTime - cue.startTime; var startTime = normalizePts((cue.startTime + cueOffset - timestampMapLOCAL) * 90000, timeOffset * 90000) / 90000; cue.startTime = Math.max(startTime, 0); cue.endTime = Math.max(startTime + duration, 0); //trim trailing webvtt block whitespaces var text = cue.text.trim(); // Fix encoding of special characters cue.text = decodeURIComponent(encodeURIComponent(text)); // If the cue was not assigned an id from the VTT file (line above the content), create one. if (!cue.id) { cue.id = generateCueId(cue.startTime, cue.endTime, text); } if (cue.endTime > 0) { cues.push(cue); } }; parser.onparsingerror = function (error) { parsingError = error; }; parser.onflush = function () { if (parsingError) { errorCallBack(parsingError); return; } callBack(cues); }; // Go through contents line by line. vttLines.forEach(function (line) { if (inHeader) { // Look for X-TIMESTAMP-MAP in header. if (startsWith(line, 'X-TIMESTAMP-MAP=')) { // Once found, no more are allowed anyway, so stop searching. inHeader = false; // Extract LOCAL and MPEGTS. line.slice(16).split(',').forEach(function (timestamp) { if (startsWith(timestamp, 'LOCAL:')) { cueTime = timestamp.slice(6); } else if (startsWith(timestamp, 'MPEGTS:')) { timestampMapMPEGTS = parseInt(timestamp.slice(7)); } }); try { // Convert cue time to seconds timestampMapLOCAL = cueString2millis(cueTime) / 1000; } catch (error) { parsingError = error; } // Return without parsing X-TIMESTAMP-MAP line. return; } else if (line === '') { inHeader = false; } } // Parse line by default. parser.parse(line + '\n'); }); parser.flush(); } var IMSC1_CODEC = 'stpp.ttml.im1t'; // Time format: h:m:s:frames(.subframes) var HMSF_REGEX = /^(\d{2,}):(\d{2}):(\d{2}):(\d{2})\.?(\d+)?$/; // Time format: hours, minutes, seconds, milliseconds, frames, ticks var TIME_UNIT_REGEX = /^(\d*(?:\.\d*)?)(h|m|s|ms|f|t)$/; var textAlignToLineAlign = { left: 'start', center: 'center', right: 'end', start: 'start', end: 'end' }; function parseIMSC1(payload, initPTS, callBack, errorCallBack) { var results = findBox(new Uint8Array(payload), ['mdat']); if (results.length === 0) { errorCallBack(new Error('Could not parse IMSC1 mdat')); return; } var ttmlList = results.map(function (mdat) { return utf8ArrayToStr(mdat); }); var syncTime = toTimescaleFromScale(initPTS.baseTime, 1, initPTS.timescale); try { ttmlList.forEach(function (ttml) { return callBack(parseTTML(ttml, syncTime)); }); } catch (error) { errorCallBack(error); } } function parseTTML(ttml, syncTime) { var parser = new DOMParser(); var xmlDoc = parser.parseFromString(ttml, 'text/xml'); var tt = xmlDoc.getElementsByTagName('tt')[0]; if (!tt) { throw new Error('Invalid ttml'); } var defaultRateInfo = { frameRate: 30, subFrameRate: 1, frameRateMultiplier: 0, tickRate: 0 }; var rateInfo = Object.keys(defaultRateInfo).reduce(function (result, key) { result[key] = tt.getAttribute("ttp:" + key) || defaultRateInfo[key]; return result; }, {}); var trim = tt.getAttribute('xml:space') !== 'preserve'; var styleElements = collectionToDictionary(getElementCollection(tt, 'styling', 'style')); var regionElements = collectionToDictionary(getElementCollection(tt, 'layout', 'region')); var cueElements = getElementCollection(tt, 'body', '[begin]'); return [].map.call(cueElements, function (cueElement) { var cueText = getTextContent(cueElement, trim); if (!cueText || !cueElement.hasAttribute('begin')) { return null; } var startTime = parseTtmlTime(cueElement.getAttribute('begin'), rateInfo); var duration = parseTtmlTime(cueElement.getAttribute('dur'), rateInfo); var endTime = parseTtmlTime(cueElement.getAttribute('end'), rateInfo); if (startTime === null) { throw timestampParsingError(cueElement); } if (endTime === null) { if (duration === null) { throw timestampParsingError(cueElement); } endTime = startTime + duration; } var cue = new VTTCue(startTime - syncTime, endTime - syncTime, cueText); cue.id = generateCueId(cue.startTime, cue.endTime, cue.text); var region = regionElements[cueElement.getAttribute('region')]; var style = styleElements[cueElement.getAttribute('style')]; // Apply styles to cue var styles = getTtmlStyles(region, style, styleElements); var textAlign = styles.textAlign; if (textAlign) { // cue.positionAlign not settable in FF~2016 var lineAlign = textAlignToLineAlign[textAlign]; if (lineAlign) { cue.lineAlign = lineAlign; } cue.align = textAlign; } _extends(cue, styles); return cue; }).filter(function (cue) { return cue !== null; }); } function getElementCollection(fromElement, parentName, childName) { var parent = fromElement.getElementsByTagName(parentName)[0]; if (parent) { return [].slice.call(parent.querySelectorAll(childName)); } return []; } function collectionToDictionary(elementsWithId) { return elementsWithId.reduce(function (dict, element) { var id = element.getAttribute('xml:id'); if (id) { dict[id] = element; } return dict; }, {}); } function getTextContent(element, trim) { return [].slice.call(element.childNodes).reduce(function (str, node, i) { var _node$childNodes; if (node.nodeName === 'br' && i) { return str + '\n'; } if ((_node$childNodes = node.childNodes) != null && _node$childNodes.length) { return getTextContent(node, trim); } else if (trim) { return str + node.textContent.trim().replace(/\s+/g, ' '); } return str + node.textContent; }, ''); } function getTtmlStyles(region, style, styleElements) { var ttsNs = 'http://www.w3.org/ns/ttml#styling'; var regionStyle = null; var styleAttributes = ['displayAlign', 'textAlign', 'color', 'backgroundColor', 'fontSize', 'fontFamily' // 'fontWeight', // 'lineHeight', // 'wrapOption', // 'fontStyle', // 'direction', // 'writingMode' ]; var regionStyleName = region != null && region.hasAttribute('style') ? region.getAttribute('style') : null; if (regionStyleName && styleElements.hasOwnProperty(regionStyleName)) { regionStyle = styleElements[regionStyleName]; } return styleAttributes.reduce(function (styles, name) { var value = getAttributeNS(style, ttsNs, name) || getAttributeNS(region, ttsNs, name) || getAttributeNS(regionStyle, ttsNs, name); if (value) { styles[name] = value; } return styles; }, {}); } function getAttributeNS(element, ns, name) { if (!element) { return null; } return element.hasAttributeNS(ns, name) ? element.getAttributeNS(ns, name) : null; } function timestampParsingError(node) { return new Error("Could not parse ttml timestamp " + node); } function parseTtmlTime(timeAttributeValue, rateInfo) { if (!timeAttributeValue) { return null; } var seconds = parseTimeStamp(timeAttributeValue); if (seconds === null) { if (HMSF_REGEX.test(timeAttributeValue)) { seconds = parseHoursMinutesSecondsFrames(timeAttributeValue, rateInfo); } else if (TIME_UNIT_REGEX.test(timeAttributeValue)) { seconds = parseTimeUnits(timeAttributeValue, rateInfo); } } return seconds; } function parseHoursMinutesSecondsFrames(timeAttributeValue, rateInfo) { var m = HMSF_REGEX.exec(timeAttributeValue); var frames = (m[4] | 0) + (m[5] | 0) / rateInfo.subFrameRate; return (m[1] | 0) * 3600 + (m[2] | 0) * 60 + (m[3] | 0) + frames / rateInfo.frameRate; } function parseTimeUnits(timeAttributeValue, rateInfo) { var m = TIME_UNIT_REGEX.exec(timeAttributeValue); var value = Number(m[1]); var unit = m[2]; switch (unit) { case 'h': return value * 3600; case 'm': return value * 60; case 'ms': return value * 1000; case 'f': return value / rateInfo.frameRate; case 't': return value / rateInfo.tickRate; } return value; } var TimelineController = /*#__PURE__*/function () { function TimelineController(hls) { this.hls = void 0; this.media = null; this.config = void 0; this.enabled = true; this.Cues = void 0; this.textTracks = []; this.tracks = []; this.initPTS = []; this.unparsedVttFrags = []; this.captionsTracks = {}; this.nonNativeCaptionsTracks = {}; this.cea608Parser1 = void 0; this.cea608Parser2 = void 0; this.lastSn = -1; this.lastPartIndex = -1; this.prevCC = -1; this.vttCCs = newVTTCCs(); this.captionsProperties = void 0; this.hls = hls; this.config = hls.config; this.Cues = hls.config.cueHandler; this.captionsProperties = { textTrack1: { label: this.config.captionsTextTrack1Label, languageCode: this.config.captionsTextTrack1LanguageCode }, textTrack2: { label: this.config.captionsTextTrack2Label, languageCode: this.config.captionsTextTrack2LanguageCode }, textTrack3: { label: this.config.captionsTextTrack3Label, languageCode: this.config.captionsTextTrack3LanguageCode }, textTrack4: { label: this.config.captionsTextTrack4Label, languageCode: this.config.captionsTextTrack4LanguageCode } }; if (this.config.enableCEA708Captions) { var channel1 = new OutputFilter(this, 'textTrack1'); var channel2 = new OutputFilter(this, 'textTrack2'); var channel3 = new OutputFilter(this, 'textTrack3'); var channel4 = new OutputFilter(this, 'textTrack4'); this.cea608Parser1 = new Cea608Parser(1, channel1, channel2); this.cea608Parser2 = new Cea608Parser(3, channel3, channel4); } hls.on(Events.MEDIA_ATTACHING, this.onMediaAttaching, this); hls.on(Events.MEDIA_DETACHING, this.onMediaDetaching, this); hls.on(Events.MANIFEST_LOADING, this.onManifestLoading, this); hls.on(Events.MANIFEST_LOADED, this.onManifestLoaded, this); hls.on(Events.SUBTITLE_TRACKS_UPDATED, this.onSubtitleTracksUpdated, this); hls.on(Events.FRAG_LOADING, this.onFragLoading, this); hls.on(Events.FRAG_LOADED, this.onFragLoaded, this); hls.on(Events.FRAG_PARSING_USERDATA, this.onFragParsingUserdata, this); hls.on(Events.FRAG_DECRYPTED, this.onFragDecrypted, this); hls.on(Events.INIT_PTS_FOUND, this.onInitPtsFound, this); hls.on(Events.SUBTITLE_TRACKS_CLEARED, this.onSubtitleTracksCleared, this); hls.on(Events.BUFFER_FLUSHING, this.onBufferFlushing, this); } var _proto = TimelineController.prototype; _proto.destroy = function destroy() { var hls = this.hls; hls.off(Events.MEDIA_ATTACHING, this.onMediaAttaching, this); hls.off(Events.MEDIA_DETACHING, this.onMediaDetaching, this); hls.off(Events.MANIFEST_LOADING, this.onManifestLoading, this); hls.off(Events.MANIFEST_LOADED, this.onManifestLoaded, this); hls.off(Events.SUBTITLE_TRACKS_UPDATED, this.onSubtitleTracksUpdated, this); hls.off(Events.FRAG_LOADING, this.onFragLoading, this); hls.off(Events.FRAG_LOADED, this.onFragLoaded, this); hls.off(Events.FRAG_PARSING_USERDATA, this.onFragParsingUserdata, this); hls.off(Events.FRAG_DECRYPTED, this.onFragDecrypted, this); hls.off(Events.INIT_PTS_FOUND, this.onInitPtsFound, this); hls.off(Events.SUBTITLE_TRACKS_CLEARED, this.onSubtitleTracksCleared, this); hls.off(Events.BUFFER_FLUSHING, this.onBufferFlushing, this); // @ts-ignore this.hls = this.config = this.cea608Parser1 = this.cea608Parser2 = null; }; _proto.addCues = function addCues(trackName, startTime, endTime, screen, cueRanges) { // skip cues which overlap more than 50% with previously parsed time ranges var merged = false; for (var i = cueRanges.length; i--;) { var cueRange = cueRanges[i]; var overlap = intersection(cueRange[0], cueRange[1], startTime, endTime); if (overlap >= 0) { cueRange[0] = Math.min(cueRange[0], startTime); cueRange[1] = Math.max(cueRange[1], endTime); merged = true; if (overlap / (endTime - startTime) > 0.5) { return; } } } if (!merged) { cueRanges.push([startTime, endTime]); } if (this.config.renderTextTracksNatively) { var track = this.captionsTracks[trackName]; this.Cues.newCue(track, startTime, endTime, screen); } else { var cues = this.Cues.newCue(null, startTime, endTime, screen); this.hls.trigger(Events.CUES_PARSED, { type: 'captions', cues: cues, track: trackName }); } } // Triggered when an initial PTS is found; used for synchronisation of WebVTT. ; _proto.onInitPtsFound = function onInitPtsFound(event, _ref) { var _this = this; var frag = _ref.frag, id = _ref.id, initPTS = _ref.initPTS, timescale = _ref.timescale; var unparsedVttFrags = this.unparsedVttFrags; if (id === 'main') { this.initPTS[frag.cc] = { baseTime: initPTS, timescale: timescale }; } // Due to asynchronous processing, initial PTS may arrive later than the first VTT fragments are loaded. // Parse any unparsed fragments upon receiving the initial PTS. if (unparsedVttFrags.length) { this.unparsedVttFrags = []; unparsedVttFrags.forEach(function (frag) { _this.onFragLoaded(Events.FRAG_LOADED, frag); }); } }; _proto.getExistingTrack = function getExistingTrack(trackName) { var media = this.media; if (media) { for (var i = 0; i < media.textTracks.length; i++) { var textTrack = media.textTracks[i]; if (textTrack[trackName]) { return textTrack; } } } return null; }; _proto.createCaptionsTrack = function createCaptionsTrack(trackName) { if (this.config.renderTextTracksNatively) { this.createNativeTrack(trackName); } else { this.createNonNativeTrack(trackName); } }; _proto.createNativeTrack = function createNativeTrack(trackName) { if (this.captionsTracks[trackName]) { return; } var captionsProperties = this.captionsProperties, captionsTracks = this.captionsTracks, media = this.media; var _captionsProperties$t = captionsProperties[trackName], label = _captionsProperties$t.label, languageCode = _captionsProperties$t.languageCode; // Enable reuse of existing text track. var existingTrack = this.getExistingTrack(trackName); if (!existingTrack) { var textTrack = this.createTextTrack('captions', label, languageCode); if (textTrack) { // Set a special property on the track so we know it's managed by Hls.js textTrack[trackName] = true; captionsTracks[trackName] = textTrack; } } else { captionsTracks[trackName] = existingTrack; clearCurrentCues(captionsTracks[trackName]); sendAddTrackEvent(captionsTracks[trackName], media); } }; _proto.createNonNativeTrack = function createNonNativeTrack(trackName) { if (this.nonNativeCaptionsTracks[trackName]) { return; } // Create a list of a single track for the provider to consume var trackProperties = this.captionsProperties[trackName]; if (!trackProperties) { return; } var label = trackProperties.label; var track = { _id: trackName, label: label, kind: 'captions', default: trackProperties.media ? !!trackProperties.media.default : false, closedCaptions: trackProperties.media }; this.nonNativeCaptionsTracks[trackName] = track; this.hls.trigger(Events.NON_NATIVE_TEXT_TRACKS_FOUND, { tracks: [track] }); }; _proto.createTextTrack = function createTextTrack(kind, label, lang) { var media = this.media; if (!media) { return; } return media.addTextTrack(kind, label, lang); }; _proto.onMediaAttaching = function onMediaAttaching(event, data) { this.media = data.media; this._cleanTracks(); }; _proto.onMediaDetaching = function onMediaDetaching() { var captionsTracks = this.captionsTracks; Object.keys(captionsTracks).forEach(function (trackName) { clearCurrentCues(captionsTracks[trackName]); delete captionsTracks[trackName]; }); this.nonNativeCaptionsTracks = {}; }; _proto.onManifestLoading = function onManifestLoading() { this.lastSn = -1; // Detect discontinuity in fragment parsing this.lastPartIndex = -1; this.prevCC = -1; this.vttCCs = newVTTCCs(); // Detect discontinuity in subtitle manifests this._cleanTracks(); this.tracks = []; this.captionsTracks = {}; this.nonNativeCaptionsTracks = {}; this.textTracks = []; this.unparsedVttFrags = []; this.initPTS = []; if (this.cea608Parser1 && this.cea608Parser2) { this.cea608Parser1.reset(); this.cea608Parser2.reset(); } }; _proto._cleanTracks = function _cleanTracks() { // clear outdated subtitles var media = this.media; if (!media) { return; } var textTracks = media.textTracks; if (textTracks) { for (var i = 0; i < textTracks.length; i++) { clearCurrentCues(textTracks[i]); } } }; _proto.onSubtitleTracksUpdated = function onSubtitleTracksUpdated(event, data) { var _this2 = this; var tracks = data.subtitleTracks || []; var hasIMSC1 = tracks.some(function (track) { return track.textCodec === IMSC1_CODEC; }); if (this.config.enableWebVTT || hasIMSC1 && this.config.enableIMSC1) { var listIsIdentical = subtitleOptionsIdentical(this.tracks, tracks); if (listIsIdentical) { this.tracks = tracks; return; } this.textTracks = []; this.tracks = tracks; if (this.config.renderTextTracksNatively) { var inUseTracks = this.media ? this.media.textTracks : null; this.tracks.forEach(function (track, index) { var textTrack; if (inUseTracks && index < inUseTracks.length) { var inUseTrack = null; for (var i = 0; i < inUseTracks.length; i++) { if (canReuseVttTextTrack(inUseTracks[i], track)) { inUseTrack = inUseTracks[i]; break; } } // Reuse tracks with the same label, but do not reuse 608/708 tracks if (inUseTrack) { textTrack = inUseTrack; } } if (textTrack) { clearCurrentCues(textTrack); } else { var textTrackKind = _this2._captionsOrSubtitlesFromCharacteristics(track); textTrack = _this2.createTextTrack(textTrackKind, track.name, track.lang); if (textTrack) { textTrack.mode = 'disabled'; } } if (textTrack) { textTrack.groupId = track.groupId; _this2.textTracks.push(textTrack); } }); } else if (this.tracks.length) { // Create a list of tracks for the provider to consume var tracksList = this.tracks.map(function (track) { return { label: track.name, kind: track.type.toLowerCase(), default: track.default, subtitleTrack: track }; }); this.hls.trigger(Events.NON_NATIVE_TEXT_TRACKS_FOUND, { tracks: tracksList }); } } }; _proto._captionsOrSubtitlesFromCharacteristics = function _captionsOrSubtitlesFromCharacteristics(track) { if (track.attrs.CHARACTERISTICS) { var transcribesSpokenDialog = /transcribes-spoken-dialog/gi.test(track.attrs.CHARACTERISTICS); var describesMusicAndSound = /describes-music-and-sound/gi.test(track.attrs.CHARACTERISTICS); if (transcribesSpokenDialog && describesMusicAndSound) { return 'captions'; } } return 'subtitles'; }; _proto.onManifestLoaded = function onManifestLoaded(event, data) { var _this3 = this; if (this.config.enableCEA708Captions && data.captions) { data.captions.forEach(function (captionsTrack) { var instreamIdMatch = /(?:CC|SERVICE)([1-4])/.exec(captionsTrack.instreamId); if (!instreamIdMatch) { return; } var trackName = "textTrack" + instreamIdMatch[1]; var trackProperties = _this3.captionsProperties[trackName]; if (!trackProperties) { return; } trackProperties.label = captionsTrack.name; if (captionsTrack.lang) { // optional attribute trackProperties.languageCode = captionsTrack.lang; } trackProperties.media = captionsTrack; }); } }; _proto.closedCaptionsForLevel = function closedCaptionsForLevel(frag) { var level = this.hls.levels[frag.level]; return level == null ? void 0 : level.attrs['CLOSED-CAPTIONS']; }; _proto.onFragLoading = function onFragLoading(event, data) { var cea608Parser1 = this.cea608Parser1, cea608Parser2 = this.cea608Parser2, lastSn = this.lastSn, lastPartIndex = this.lastPartIndex; if (!this.enabled || !(cea608Parser1 && cea608Parser2)) { return; } // if this frag isn't contiguous, clear the parser so cues with bad start/end times aren't added to the textTrack if (data.frag.type === PlaylistLevelType.MAIN) { var _data$part$index, _data$part; var sn = data.frag.sn; var partIndex = (_data$part$index = data == null ? void 0 : (_data$part = data.part) == null ? void 0 : _data$part.index) != null ? _data$part$index : -1; if (!(sn === lastSn + 1 || sn === lastSn && partIndex === lastPartIndex + 1)) { cea608Parser1.reset(); cea608Parser2.reset(); } this.lastSn = sn; this.lastPartIndex = partIndex; } }; _proto.onFragLoaded = function onFragLoaded(event, data) { var frag = data.frag, payload = data.payload; if (frag.type === PlaylistLevelType.SUBTITLE) { // If fragment is subtitle type, parse as WebVTT. if (payload.byteLength) { var decryptData = frag.decryptdata; // fragment after decryption has a stats object var decrypted = ('stats' in data); // If the subtitles are not encrypted, parse VTTs now. Otherwise, we need to wait. if (decryptData == null || !decryptData.encrypted || decrypted) { var trackPlaylistMedia = this.tracks[frag.level]; var vttCCs = this.vttCCs; if (!vttCCs[frag.cc]) { vttCCs[frag.cc] = { start: frag.start, prevCC: this.prevCC, new: true }; this.prevCC = frag.cc; } if (trackPlaylistMedia && trackPlaylistMedia.textCodec === IMSC1_CODEC) { this._parseIMSC1(frag, payload); } else { this._parseVTTs(data); } } } else { // In case there is no payload, finish unsuccessfully. this.hls.trigger(Events.SUBTITLE_FRAG_PROCESSED, { success: false, frag: frag, error: new Error('Empty subtitle payload') }); } } }; _proto._parseIMSC1 = function _parseIMSC1(frag, payload) { var _this4 = this; var hls = this.hls; parseIMSC1(payload, this.initPTS[frag.cc], function (cues) { _this4._appendCues(cues, frag.level); hls.trigger(Events.SUBTITLE_FRAG_PROCESSED, { success: true, frag: frag }); }, function (error) { logger.log("Failed to parse IMSC1: " + error); hls.trigger(Events.SUBTITLE_FRAG_PROCESSED, { success: false, frag: frag, error: error }); }); }; _proto._parseVTTs = function _parseVTTs(data) { var _frag$initSegment, _this5 = this; var frag = data.frag, payload = data.payload; // We need an initial synchronisation PTS. Store fragments as long as none has arrived var initPTS = this.initPTS, unparsedVttFrags = this.unparsedVttFrags; var maxAvCC = initPTS.length - 1; if (!initPTS[frag.cc] && maxAvCC === -1) { unparsedVttFrags.push(data); return; } var hls = this.hls; // Parse the WebVTT file contents. var payloadWebVTT = (_frag$initSegment = frag.initSegment) != null && _frag$initSegment.data ? appendUint8Array(frag.initSegment.data, new Uint8Array(payload)) : payload; parseWebVTT(payloadWebVTT, this.initPTS[frag.cc], this.vttCCs, frag.cc, frag.start, function (cues) { _this5._appendCues(cues, frag.level); hls.trigger(Events.SUBTITLE_FRAG_PROCESSED, { success: true, frag: frag }); }, function (error) { var missingInitPTS = error.message === 'Missing initPTS for VTT MPEGTS'; if (missingInitPTS) { unparsedVttFrags.push(data); } else { _this5._fallbackToIMSC1(frag, payload); } // Something went wrong while parsing. Trigger event with success false. logger.log("Failed to parse VTT cue: " + error); if (missingInitPTS && maxAvCC > frag.cc) { return; } hls.trigger(Events.SUBTITLE_FRAG_PROCESSED, { success: false, frag: frag, error: error }); }); }; _proto._fallbackToIMSC1 = function _fallbackToIMSC1(frag, payload) { var _this6 = this; // If textCodec is unknown, try parsing as IMSC1. Set textCodec based on the result var trackPlaylistMedia = this.tracks[frag.level]; if (!trackPlaylistMedia.textCodec) { parseIMSC1(payload, this.initPTS[frag.cc], function () { trackPlaylistMedia.textCodec = IMSC1_CODEC; _this6._parseIMSC1(frag, payload); }, function () { trackPlaylistMedia.textCodec = 'wvtt'; }); } }; _proto._appendCues = function _appendCues(cues, fragLevel) { var hls = this.hls; if (this.config.renderTextTracksNatively) { var textTrack = this.textTracks[fragLevel]; // WebVTTParser.parse is an async method and if the currently selected text track mode is set to "disabled" // before parsing is done then don't try to access currentTrack.cues.getCueById as cues will be null // and trying to access getCueById method of cues will throw an exception // Because we check if the mode is disabled, we can force check `cues` below. They can't be null. if (!textTrack || textTrack.mode === 'disabled') { return; } cues.forEach(function (cue) { return addCueToTrack(textTrack, cue); }); } else { var currentTrack = this.tracks[fragLevel]; if (!currentTrack) { return; } var track = currentTrack.default ? 'default' : 'subtitles' + fragLevel; hls.trigger(Events.CUES_PARSED, { type: 'subtitles', cues: cues, track: track }); } }; _proto.onFragDecrypted = function onFragDecrypted(event, data) { var frag = data.frag; if (frag.type === PlaylistLevelType.SUBTITLE) { this.onFragLoaded(Events.FRAG_LOADED, data); } }; _proto.onSubtitleTracksCleared = function onSubtitleTracksCleared() { this.tracks = []; this.captionsTracks = {}; }; _proto.onFragParsingUserdata = function onFragParsingUserdata(event, data) { var cea608Parser1 = this.cea608Parser1, cea608Parser2 = this.cea608Parser2; if (!this.enabled || !(cea608Parser1 && cea608Parser2)) { return; } var frag = data.frag, samples = data.samples; if (frag.type === PlaylistLevelType.MAIN && this.closedCaptionsForLevel(frag) === 'NONE') { return; } // If the event contains captions (found in the bytes property), push all bytes into the parser immediately // It will create the proper timestamps based on the PTS value for (var i = 0; i < samples.length; i++) { var ccBytes = samples[i].bytes; if (ccBytes) { var ccdatas = this.extractCea608Data(ccBytes); cea608Parser1.addData(samples[i].pts, ccdatas[0]); cea608Parser2.addData(samples[i].pts, ccdatas[1]); } } }; _proto.onBufferFlushing = function onBufferFlushing(event, _ref2) { var startOffset = _ref2.startOffset, endOffset = _ref2.endOffset, endOffsetSubtitles = _ref2.endOffsetSubtitles, type = _ref2.type; var media = this.media; if (!media || media.currentTime < endOffset) { return; } // Clear 608 caption cues from the captions TextTracks when the video back buffer is flushed // Forward cues are never removed because we can loose streamed 608 content from recent fragments if (!type || type === 'video') { var captionsTracks = this.captionsTracks; Object.keys(captionsTracks).forEach(function (trackName) { return removeCuesInRange(captionsTracks[trackName], startOffset, endOffset); }); } if (this.config.renderTextTracksNatively) { // Clear VTT/IMSC1 subtitle cues from the subtitle TextTracks when the back buffer is flushed if (startOffset === 0 && endOffsetSubtitles !== undefined) { var textTracks = this.textTracks; Object.keys(textTracks).forEach(function (trackName) { return removeCuesInRange(textTracks[trackName], startOffset, endOffsetSubtitles); }); } } }; _proto.extractCea608Data = function extractCea608Data(byteArray) { var actualCCBytes = [[], []]; var count = byteArray[0] & 0x1f; var position = 2; for (var j = 0; j < count; j++) { var tmpByte = byteArray[position++]; var ccbyte1 = 0x7f & byteArray[position++]; var ccbyte2 = 0x7f & byteArray[position++]; if (ccbyte1 === 0 && ccbyte2 === 0) { continue; } var ccValid = (0x04 & tmpByte) !== 0; // Support all four channels if (ccValid) { var ccType = 0x03 & tmpByte; if (0x00 /* CEA608 field1*/ === ccType || 0x01 /* CEA608 field2*/ === ccType) { // Exclude CEA708 CC data. actualCCBytes[ccType].push(ccbyte1); actualCCBytes[ccType].push(ccbyte2); } } } return actualCCBytes; }; return TimelineController; }(); function canReuseVttTextTrack(inUseTrack, manifestTrack) { return !!inUseTrack && inUseTrack.label === manifestTrack.name && !(inUseTrack.textTrack1 || inUseTrack.textTrack2); } function intersection(x1, x2, y1, y2) { return Math.min(x2, y2) - Math.max(x1, y1); } function newVTTCCs() { return { ccOffset: 0, presentationOffset: 0, 0: { start: 0, prevCC: -1, new: true } }; } var CapLevelController = /*#__PURE__*/function () { function CapLevelController(hls) { this.hls = void 0; this.autoLevelCapping = void 0; this.firstLevel = void 0; this.media = void 0; this.restrictedLevels = void 0; this.timer = void 0; this.clientRect = void 0; this.streamController = void 0; this.hls = hls; this.autoLevelCapping = Number.POSITIVE_INFINITY; this.firstLevel = -1; this.media = null; this.restrictedLevels = []; this.timer = undefined; this.clientRect = null; this.registerListeners(); } var _proto = CapLevelController.prototype; _proto.setStreamController = function setStreamController(streamController) { this.streamController = streamController; }; _proto.destroy = function destroy() { this.unregisterListener(); if (this.hls.config.capLevelToPlayerSize) { this.stopCapping(); } this.media = null; this.clientRect = null; // @ts-ignore this.hls = this.streamController = null; }; _proto.registerListeners = function registerListeners() { var hls = this.hls; hls.on(Events.FPS_DROP_LEVEL_CAPPING, this.onFpsDropLevelCapping, this); hls.on(Events.MEDIA_ATTACHING, this.onMediaAttaching, this); hls.on(Events.MANIFEST_PARSED, this.onManifestParsed, this); hls.on(Events.BUFFER_CODECS, this.onBufferCodecs, this); hls.on(Events.MEDIA_DETACHING, this.onMediaDetaching, this); }; _proto.unregisterListener = function unregisterListener() { var hls = this.hls; hls.off(Events.FPS_DROP_LEVEL_CAPPING, this.onFpsDropLevelCapping, this); hls.off(Events.MEDIA_ATTACHING, this.onMediaAttaching, this); hls.off(Events.MANIFEST_PARSED, this.onManifestParsed, this); hls.off(Events.BUFFER_CODECS, this.onBufferCodecs, this); hls.off(Events.MEDIA_DETACHING, this.onMediaDetaching, this); }; _proto.onFpsDropLevelCapping = function onFpsDropLevelCapping(event, data) { // Don't add a restricted level more than once var level = this.hls.levels[data.droppedLevel]; if (this.isLevelAllowed(level)) { this.restrictedLevels.push({ bitrate: level.bitrate, height: level.height, width: level.width }); } }; _proto.onMediaAttaching = function onMediaAttaching(event, data) { this.media = data.media instanceof HTMLVideoElement ? data.media : null; this.clientRect = null; }; _proto.onManifestParsed = function onManifestParsed(event, data) { var hls = this.hls; this.restrictedLevels = []; this.firstLevel = data.firstLevel; if (hls.config.capLevelToPlayerSize && data.video) { // Start capping immediately if the manifest has signaled video codecs this.startCapping(); } } // Only activate capping when playing a video stream; otherwise, multi-bitrate audio-only streams will be restricted // to the first level ; _proto.onBufferCodecs = function onBufferCodecs(event, data) { var hls = this.hls; if (hls.config.capLevelToPlayerSize && data.video) { // If the manifest did not signal a video codec capping has been deferred until we're certain video is present this.startCapping(); } }; _proto.onMediaDetaching = function onMediaDetaching() { this.stopCapping(); }; _proto.detectPlayerSize = function detectPlayerSize() { if (this.media && this.mediaHeight > 0 && this.mediaWidth > 0) { var levels = this.hls.levels; if (levels.length) { var hls = this.hls; hls.autoLevelCapping = this.getMaxLevel(levels.length - 1); if (hls.autoLevelCapping > this.autoLevelCapping && this.streamController) { // if auto level capping has a higher value for the previous one, flush the buffer using nextLevelSwitch // usually happen when the user go to the fullscreen mode. this.streamController.nextLevelSwitch(); } this.autoLevelCapping = hls.autoLevelCapping; } } } /* * returns level should be the one with the dimensions equal or greater than the media (player) dimensions (so the video will be downscaled) */; _proto.getMaxLevel = function getMaxLevel(capLevelIndex) { var _this = this; var levels = this.hls.levels; if (!levels.length) { return -1; } var validLevels = levels.filter(function (level, index) { return _this.isLevelAllowed(level) && index <= capLevelIndex; }); this.clientRect = null; return CapLevelController.getMaxLevelByMediaSize(validLevels, this.mediaWidth, this.mediaHeight); }; _proto.startCapping = function startCapping() { if (this.timer) { // Don't reset capping if started twice; this can happen if the manifest signals a video codec return; } this.autoLevelCapping = Number.POSITIVE_INFINITY; this.hls.firstLevel = this.getMaxLevel(this.firstLevel); self.clearInterval(this.timer); this.timer = self.setInterval(this.detectPlayerSize.bind(this), 1000); this.detectPlayerSize(); }; _proto.stopCapping = function stopCapping() { this.restrictedLevels = []; this.firstLevel = -1; this.autoLevelCapping = Number.POSITIVE_INFINITY; if (this.timer) { self.clearInterval(this.timer); this.timer = undefined; } }; _proto.getDimensions = function getDimensions() { if (this.clientRect) { return this.clientRect; } var media = this.media; var boundsRect = { width: 0, height: 0 }; if (media) { var clientRect = media.getBoundingClientRect(); boundsRect.width = clientRect.width; boundsRect.height = clientRect.height; if (!boundsRect.width && !boundsRect.height) { // When the media element has no width or height (equivalent to not being in the DOM), // then use its width and height attributes (media.width, media.height) boundsRect.width = clientRect.right - clientRect.left || media.width || 0; boundsRect.height = clientRect.bottom - clientRect.top || media.height || 0; } } this.clientRect = boundsRect; return boundsRect; }; _proto.isLevelAllowed = function isLevelAllowed(level) { var restrictedLevels = this.restrictedLevels; return !restrictedLevels.some(function (restrictedLevel) { return level.bitrate === restrictedLevel.bitrate && level.width === restrictedLevel.width && level.height === restrictedLevel.height; }); }; CapLevelController.getMaxLevelByMediaSize = function getMaxLevelByMediaSize(levels, width, height) { if (!(levels != null && levels.length)) { return -1; } // Levels can have the same dimensions but differing bandwidths - since levels are ordered, we can look to the next // to determine whether we've chosen the greatest bandwidth for the media's dimensions var atGreatestBandwidth = function atGreatestBandwidth(curLevel, nextLevel) { if (!nextLevel) { return true; } return curLevel.width !== nextLevel.width || curLevel.height !== nextLevel.height; }; // If we run through the loop without breaking, the media's dimensions are greater than every level, so default to // the max level var maxLevelIndex = levels.length - 1; for (var i = 0; i < levels.length; i += 1) { var level = levels[i]; if ((level.width >= width || level.height >= height) && atGreatestBandwidth(level, levels[i + 1])) { maxLevelIndex = i; break; } } return maxLevelIndex; }; _createClass(CapLevelController, [{ key: "mediaWidth", get: function get() { return this.getDimensions().width * this.contentScaleFactor; } }, { key: "mediaHeight", get: function get() { return this.getDimensions().height * this.contentScaleFactor; } }, { key: "contentScaleFactor", get: function get() { var pixelRatio = 1; if (!this.hls.config.ignoreDevicePixelRatio) { try { pixelRatio = self.devicePixelRatio; } catch (e) { /* no-op */ } } return pixelRatio; } }]); return CapLevelController; }(); var FPSController = /*#__PURE__*/function () { // stream controller must be provided as a dependency! function FPSController(hls) { this.hls = void 0; this.isVideoPlaybackQualityAvailable = false; this.timer = void 0; this.media = null; this.lastTime = void 0; this.lastDroppedFrames = 0; this.lastDecodedFrames = 0; this.streamController = void 0; this.hls = hls; this.registerListeners(); } var _proto = FPSController.prototype; _proto.setStreamController = function setStreamController(streamController) { this.streamController = streamController; }; _proto.registerListeners = function registerListeners() { this.hls.on(Events.MEDIA_ATTACHING, this.onMediaAttaching, this); }; _proto.unregisterListeners = function unregisterListeners() { this.hls.off(Events.MEDIA_ATTACHING, this.onMediaAttaching, this); }; _proto.destroy = function destroy() { if (this.timer) { clearInterval(this.timer); } this.unregisterListeners(); this.isVideoPlaybackQualityAvailable = false; this.media = null; }; _proto.onMediaAttaching = function onMediaAttaching(event, data) { var config = this.hls.config; if (config.capLevelOnFPSDrop) { var media = data.media instanceof self.HTMLVideoElement ? data.media : null; this.media = media; if (media && typeof media.getVideoPlaybackQuality === 'function') { this.isVideoPlaybackQualityAvailable = true; } self.clearInterval(this.timer); this.timer = self.setInterval(this.checkFPSInterval.bind(this), config.fpsDroppedMonitoringPeriod); } }; _proto.checkFPS = function checkFPS(video, decodedFrames, droppedFrames) { var currentTime = performance.now(); if (decodedFrames) { if (this.lastTime) { var currentPeriod = currentTime - this.lastTime; var currentDropped = droppedFrames - this.lastDroppedFrames; var currentDecoded = decodedFrames - this.lastDecodedFrames; var droppedFPS = 1000 * currentDropped / currentPeriod; var hls = this.hls; hls.trigger(Events.FPS_DROP, { currentDropped: currentDropped, currentDecoded: currentDecoded, totalDroppedFrames: droppedFrames }); if (droppedFPS > 0) { // logger.log('checkFPS : droppedFPS/decodedFPS:' + droppedFPS/(1000 * currentDecoded / currentPeriod)); if (currentDropped > hls.config.fpsDroppedMonitoringThreshold * currentDecoded) { var currentLevel = hls.currentLevel; logger.warn('drop FPS ratio greater than max allowed value for currentLevel: ' + currentLevel); if (currentLevel > 0 && (hls.autoLevelCapping === -1 || hls.autoLevelCapping >= currentLevel)) { currentLevel = currentLevel - 1; hls.trigger(Events.FPS_DROP_LEVEL_CAPPING, { level: currentLevel, droppedLevel: hls.currentLevel }); hls.autoLevelCapping = currentLevel; this.streamController.nextLevelSwitch(); } } } } this.lastTime = currentTime; this.lastDroppedFrames = droppedFrames; this.lastDecodedFrames = decodedFrames; } }; _proto.checkFPSInterval = function checkFPSInterval() { var video = this.media; if (video) { if (this.isVideoPlaybackQualityAvailable) { var videoPlaybackQuality = video.getVideoPlaybackQuality(); this.checkFPS(video, videoPlaybackQuality.totalVideoFrames, videoPlaybackQuality.droppedVideoFrames); } else { // HTMLVideoElement doesn't include the webkit types this.checkFPS(video, video.webkitDecodedFrameCount, video.webkitDroppedFrameCount); } } }; return FPSController; }(); var LOGGER_PREFIX = '[eme]'; /** * Controller to deal with encrypted media extensions (EME) * @see https://developer.mozilla.org/en-US/docs/Web/API/Encrypted_Media_Extensions_API * * @class * @constructor */ var EMEController = /*#__PURE__*/function () { function EMEController(hls) { this.hls = void 0; this.config = void 0; this.media = null; this.keyFormatPromise = null; this.keySystemAccessPromises = {}; this._requestLicenseFailureCount = 0; this.mediaKeySessions = []; this.keyIdToKeySessionPromise = {}; this.setMediaKeysQueue = EMEController.CDMCleanupPromise ? [EMEController.CDMCleanupPromise] : []; this.onMediaEncrypted = this._onMediaEncrypted.bind(this); this.onWaitingForKey = this._onWaitingForKey.bind(this); this.debug = logger.debug.bind(logger, LOGGER_PREFIX); this.log = logger.log.bind(logger, LOGGER_PREFIX); this.warn = logger.warn.bind(logger, LOGGER_PREFIX); this.error = logger.error.bind(logger, LOGGER_PREFIX); this.hls = hls; this.config = hls.config; this.registerListeners(); } var _proto = EMEController.prototype; _proto.destroy = function destroy() { this.unregisterListeners(); this.onMediaDetached(); // Remove any references that could be held in config options or callbacks var config = this.config; config.requestMediaKeySystemAccessFunc = null; config.licenseXhrSetup = config.licenseResponseCallback = undefined; config.drmSystems = config.drmSystemOptions = {}; // @ts-ignore this.hls = this.onMediaEncrypted = this.onWaitingForKey = this.keyIdToKeySessionPromise = null; // @ts-ignore this.config = null; }; _proto.registerListeners = function registerListeners() { this.hls.on(Events.MEDIA_ATTACHED, this.onMediaAttached, this); this.hls.on(Events.MEDIA_DETACHED, this.onMediaDetached, this); this.hls.on(Events.MANIFEST_LOADING, this.onManifestLoading, this); this.hls.on(Events.MANIFEST_LOADED, this.onManifestLoaded, this); }; _proto.unregisterListeners = function unregisterListeners() { this.hls.off(Events.MEDIA_ATTACHED, this.onMediaAttached, this); this.hls.off(Events.MEDIA_DETACHED, this.onMediaDetached, this); this.hls.off(Events.MANIFEST_LOADING, this.onManifestLoading, this); this.hls.off(Events.MANIFEST_LOADED, this.onManifestLoaded, this); }; _proto.getLicenseServerUrl = function getLicenseServerUrl(keySystem) { var _this$config = this.config, drmSystems = _this$config.drmSystems, widevineLicenseUrl = _this$config.widevineLicenseUrl; var keySystemConfiguration = drmSystems[keySystem]; if (keySystemConfiguration) { return keySystemConfiguration.licenseUrl; } // For backward compatibility if (keySystem === KeySystems.WIDEVINE && widevineLicenseUrl) { return widevineLicenseUrl; } throw new Error("no license server URL configured for key-system \"" + keySystem + "\""); }; _proto.getServerCertificateUrl = function getServerCertificateUrl(keySystem) { var drmSystems = this.config.drmSystems; var keySystemConfiguration = drmSystems[keySystem]; if (keySystemConfiguration) { return keySystemConfiguration.serverCertificateUrl; } else { this.log("No Server Certificate in config.drmSystems[\"" + keySystem + "\"]"); } }; _proto.attemptKeySystemAccess = function attemptKeySystemAccess(keySystemsToAttempt) { var _this = this; var levels = this.hls.levels; var uniqueCodec = function uniqueCodec(value, i, a) { return !!value && a.indexOf(value) === i; }; var audioCodecs = levels.map(function (level) { return level.audioCodec; }).filter(uniqueCodec); var videoCodecs = levels.map(function (level) { return level.videoCodec; }).filter(uniqueCodec); if (audioCodecs.length + videoCodecs.length === 0) { videoCodecs.push('avc1.42e01e'); } return new Promise(function (resolve, reject) { var attempt = function attempt(keySystems) { var keySystem = keySystems.shift(); _this.getMediaKeysPromise(keySystem, audioCodecs, videoCodecs).then(function (mediaKeys) { return resolve({ keySystem: keySystem, mediaKeys: mediaKeys }); }).catch(function (error) { if (keySystems.length) { attempt(keySystems); } else if (error instanceof EMEKeyError) { reject(error); } else { reject(new EMEKeyError({ type: ErrorTypes.KEY_SYSTEM_ERROR, details: ErrorDetails.KEY_SYSTEM_NO_ACCESS, error: error, fatal: true }, error.message)); } }); }; attempt(keySystemsToAttempt); }); }; _proto.requestMediaKeySystemAccess = function requestMediaKeySystemAccess$1(keySystem, supportedConfigurations) { var requestMediaKeySystemAccessFunc = this.config.requestMediaKeySystemAccessFunc; if (!(typeof requestMediaKeySystemAccessFunc === 'function')) { var errMessage = "Configured requestMediaKeySystemAccess is not a function " + requestMediaKeySystemAccessFunc; if (requestMediaKeySystemAccess === null && self.location.protocol === 'http:') { errMessage = "navigator.requestMediaKeySystemAccess is not available over insecure protocol " + location.protocol; } return Promise.reject(new Error(errMessage)); } return requestMediaKeySystemAccessFunc(keySystem, supportedConfigurations); }; _proto.getMediaKeysPromise = function getMediaKeysPromise(keySystem, audioCodecs, videoCodecs) { var _this2 = this; // This can throw, but is caught in event handler callpath var mediaKeySystemConfigs = getSupportedMediaKeySystemConfigurations(keySystem, audioCodecs, videoCodecs, this.config.drmSystemOptions); var keySystemAccessPromises = this.keySystemAccessPromises[keySystem]; var keySystemAccess = keySystemAccessPromises == null ? void 0 : keySystemAccessPromises.keySystemAccess; if (!keySystemAccess) { this.log("Requesting encrypted media \"" + keySystem + "\" key-system access with config: " + JSON.stringify(mediaKeySystemConfigs)); keySystemAccess = this.requestMediaKeySystemAccess(keySystem, mediaKeySystemConfigs); var _keySystemAccessPromises = this.keySystemAccessPromises[keySystem] = { keySystemAccess: keySystemAccess }; keySystemAccess.catch(function (error) { _this2.log("Failed to obtain access to key-system \"" + keySystem + "\": " + error); }); return keySystemAccess.then(function (mediaKeySystemAccess) { _this2.log("Access for key-system \"" + mediaKeySystemAccess.keySystem + "\" obtained"); var certificateRequest = _this2.fetchServerCertificate(keySystem); _this2.log("Create media-keys for \"" + keySystem + "\""); _keySystemAccessPromises.mediaKeys = mediaKeySystemAccess.createMediaKeys().then(function (mediaKeys) { _this2.log("Media-keys created for \"" + keySystem + "\""); return certificateRequest.then(function (certificate) { if (certificate) { return _this2.setMediaKeysServerCertificate(mediaKeys, keySystem, certificate); } return mediaKeys; }); }); _keySystemAccessPromises.mediaKeys.catch(function (error) { _this2.error("Failed to create media-keys for \"" + keySystem + "\"}: " + error); }); return _keySystemAccessPromises.mediaKeys; }); } return keySystemAccess.then(function () { return keySystemAccessPromises.mediaKeys; }); }; _proto.createMediaKeySessionContext = function createMediaKeySessionContext(_ref) { var decryptdata = _ref.decryptdata, keySystem = _ref.keySystem, mediaKeys = _ref.mediaKeys; this.log("Creating key-system session \"" + keySystem + "\" keyId: " + Hex.hexDump(decryptdata.keyId || [])); var mediaKeysSession = mediaKeys.createSession(); var mediaKeySessionContext = { decryptdata: decryptdata, keySystem: keySystem, mediaKeys: mediaKeys, mediaKeysSession: mediaKeysSession, keyStatus: 'status-pending' }; this.mediaKeySessions.push(mediaKeySessionContext); return mediaKeySessionContext; }; _proto.renewKeySession = function renewKeySession(mediaKeySessionContext) { var decryptdata = mediaKeySessionContext.decryptdata; if (decryptdata.pssh) { var keySessionContext = this.createMediaKeySessionContext(mediaKeySessionContext); var _keyId = this.getKeyIdString(decryptdata); var scheme = 'cenc'; this.keyIdToKeySessionPromise[_keyId] = this.generateRequestWithPreferredKeySession(keySessionContext, scheme, decryptdata.pssh, 'expired'); } else { this.warn("Could not renew expired session. Missing pssh initData."); } this.removeSession(mediaKeySessionContext); }; _proto.getKeyIdString = function getKeyIdString(decryptdata) { if (!decryptdata) { throw new Error('Could not read keyId of undefined decryptdata'); } if (decryptdata.keyId === null) { throw new Error('keyId is null'); } return Hex.hexDump(decryptdata.keyId); }; _proto.updateKeySession = function updateKeySession(mediaKeySessionContext, data) { var _mediaKeySessionConte; var keySession = mediaKeySessionContext.mediaKeysSession; this.log("Updating key-session \"" + keySession.sessionId + "\" for keyID " + Hex.hexDump(((_mediaKeySessionConte = mediaKeySessionContext.decryptdata) == null ? void 0 : _mediaKeySessionConte.keyId) || []) + "\n } (data length: " + (data ? data.byteLength : data) + ")"); return keySession.update(data); }; _proto.selectKeySystemFormat = function selectKeySystemFormat(frag) { var keyFormats = Object.keys(frag.levelkeys || {}); if (!this.keyFormatPromise) { this.log("Selecting key-system from fragment (sn: " + frag.sn + " " + frag.type + ": " + frag.level + ") key formats " + keyFormats.join(', ')); this.keyFormatPromise = this.getKeyFormatPromise(keyFormats); } return this.keyFormatPromise; }; _proto.getKeyFormatPromise = function getKeyFormatPromise(keyFormats) { var _this3 = this; return new Promise(function (resolve, reject) { var keySystemsInConfig = getKeySystemsForConfig(_this3.config); var keySystemsToAttempt = keyFormats.map(keySystemFormatToKeySystemDomain).filter(function (value) { return !!value && keySystemsInConfig.indexOf(value) !== -1; }); return _this3.getKeySystemSelectionPromise(keySystemsToAttempt).then(function (_ref2) { var keySystem = _ref2.keySystem; var keySystemFormat = keySystemDomainToKeySystemFormat(keySystem); if (keySystemFormat) { resolve(keySystemFormat); } else { reject(new Error("Unable to find format for key-system \"" + keySystem + "\"")); } }).catch(reject); }); }; _proto.loadKey = function loadKey(data) { var _this4 = this; var decryptdata = data.keyInfo.decryptdata; var keyId = this.getKeyIdString(decryptdata); var keyDetails = "(keyId: " + keyId + " format: \"" + decryptdata.keyFormat + "\" method: " + decryptdata.method + " uri: " + decryptdata.uri + ")"; this.log("Starting session for key " + keyDetails); var keySessionContextPromise = this.keyIdToKeySessionPromise[keyId]; if (!keySessionContextPromise) { keySessionContextPromise = this.keyIdToKeySessionPromise[keyId] = this.getKeySystemForKeyPromise(decryptdata).then(function (_ref3) { var keySystem = _ref3.keySystem, mediaKeys = _ref3.mediaKeys; _this4.throwIfDestroyed(); _this4.log("Handle encrypted media sn: " + data.frag.sn + " " + data.frag.type + ": " + data.frag.level + " using key " + keyDetails); return _this4.attemptSetMediaKeys(keySystem, mediaKeys).then(function () { _this4.throwIfDestroyed(); var keySessionContext = _this4.createMediaKeySessionContext({ keySystem: keySystem, mediaKeys: mediaKeys, decryptdata: decryptdata }); var scheme = 'cenc'; return _this4.generateRequestWithPreferredKeySession(keySessionContext, scheme, decryptdata.pssh, 'playlist-key'); }); }); keySessionContextPromise.catch(function (error) { return _this4.handleError(error); }); } return keySessionContextPromise; }; _proto.throwIfDestroyed = function throwIfDestroyed(message) { if (!this.hls) { throw new Error('invalid state'); } }; _proto.handleError = function handleError(error) { if (!this.hls) { return; } this.error(error.message); if (error instanceof EMEKeyError) { this.hls.trigger(Events.ERROR, error.data); } else { this.hls.trigger(Events.ERROR, { type: ErrorTypes.KEY_SYSTEM_ERROR, details: ErrorDetails.KEY_SYSTEM_NO_KEYS, error: error, fatal: true }); } }; _proto.getKeySystemForKeyPromise = function getKeySystemForKeyPromise(decryptdata) { var keyId = this.getKeyIdString(decryptdata); var mediaKeySessionContext = this.keyIdToKeySessionPromise[keyId]; if (!mediaKeySessionContext) { var keySystem = keySystemFormatToKeySystemDomain(decryptdata.keyFormat); var keySystemsToAttempt = keySystem ? [keySystem] : getKeySystemsForConfig(this.config); return this.attemptKeySystemAccess(keySystemsToAttempt); } return mediaKeySessionContext; }; _proto.getKeySystemSelectionPromise = function getKeySystemSelectionPromise(keySystemsToAttempt) { if (!keySystemsToAttempt.length) { keySystemsToAttempt = getKeySystemsForConfig(this.config); } if (keySystemsToAttempt.length === 0) { throw new EMEKeyError({ type: ErrorTypes.KEY_SYSTEM_ERROR, details: ErrorDetails.KEY_SYSTEM_NO_CONFIGURED_LICENSE, fatal: true }, "Missing key-system license configuration options " + JSON.stringify({ drmSystems: this.config.drmSystems })); } return this.attemptKeySystemAccess(keySystemsToAttempt); }; _proto._onMediaEncrypted = function _onMediaEncrypted(event) { var _this5 = this; var initDataType = event.initDataType, initData = event.initData; this.debug("\"" + event.type + "\" event: init data type: \"" + initDataType + "\""); // Ignore event when initData is null if (initData === null) { return; } var keyId; var keySystemDomain; if (initDataType === 'sinf' && this.config.drmSystems[KeySystems.FAIRPLAY]) { // Match sinf keyId to playlist skd://keyId= var json = bin2str(new Uint8Array(initData)); try { var sinf = base64Decode(JSON.parse(json).sinf); var tenc = parseSinf(new Uint8Array(sinf)); if (!tenc) { return; } keyId = tenc.subarray(8, 24); keySystemDomain = KeySystems.FAIRPLAY; } catch (error) { this.warn('Failed to parse sinf "encrypted" event message initData'); return; } } else { // Support clear-lead key-session creation (otherwise depend on playlist keys) var psshInfo = parsePssh(initData); if (psshInfo === null) { return; } if (psshInfo.version === 0 && psshInfo.systemId === KeySystemIds.WIDEVINE && psshInfo.data) { keyId = psshInfo.data.subarray(8, 24); } keySystemDomain = keySystemIdToKeySystemDomain(psshInfo.systemId); } if (!keySystemDomain || !keyId) { return; } var keyIdHex = Hex.hexDump(keyId); var keyIdToKeySessionPromise = this.keyIdToKeySessionPromise, mediaKeySessions = this.mediaKeySessions; var keySessionContextPromise = keyIdToKeySessionPromise[keyIdHex]; var _loop = function _loop() { // Match playlist key var keyContext = mediaKeySessions[i]; var decryptdata = keyContext.decryptdata; if (decryptdata.pssh || !decryptdata.keyId) { return "continue"; } var oldKeyIdHex = Hex.hexDump(decryptdata.keyId); if (keyIdHex === oldKeyIdHex || decryptdata.uri.replace(/-/g, '').indexOf(keyIdHex) !== -1) { keySessionContextPromise = keyIdToKeySessionPromise[oldKeyIdHex]; delete keyIdToKeySessionPromise[oldKeyIdHex]; decryptdata.pssh = new Uint8Array(initData); decryptdata.keyId = keyId; keySessionContextPromise = keyIdToKeySessionPromise[keyIdHex] = keySessionContextPromise.then(function () { return _this5.generateRequestWithPreferredKeySession(keyContext, initDataType, initData, 'encrypted-event-key-match'); }); return "break"; } }; for (var i = 0; i < mediaKeySessions.length; i++) { var _ret = _loop(); if (_ret === "continue") continue; if (_ret === "break") break; } if (!keySessionContextPromise) { // Clear-lead key (not encountered in playlist) keySessionContextPromise = keyIdToKeySessionPromise[keyIdHex] = this.getKeySystemSelectionPromise([keySystemDomain]).then(function (_ref4) { var _keySystemToKeySystem; var keySystem = _ref4.keySystem, mediaKeys = _ref4.mediaKeys; _this5.throwIfDestroyed(); var decryptdata = new LevelKey('ISO-23001-7', keyIdHex, (_keySystemToKeySystem = keySystemDomainToKeySystemFormat(keySystem)) != null ? _keySystemToKeySystem : ''); decryptdata.pssh = new Uint8Array(initData); decryptdata.keyId = keyId; return _this5.attemptSetMediaKeys(keySystem, mediaKeys).then(function () { _this5.throwIfDestroyed(); var keySessionContext = _this5.createMediaKeySessionContext({ decryptdata: decryptdata, keySystem: keySystem, mediaKeys: mediaKeys }); return _this5.generateRequestWithPreferredKeySession(keySessionContext, initDataType, initData, 'encrypted-event-no-match'); }); }); } keySessionContextPromise.catch(function (error) { return _this5.handleError(error); }); }; _proto._onWaitingForKey = function _onWaitingForKey(event) { this.log("\"" + event.type + "\" event"); }; _proto.attemptSetMediaKeys = function attemptSetMediaKeys(keySystem, mediaKeys) { var _this6 = this; var queue = this.setMediaKeysQueue.slice(); this.log("Setting media-keys for \"" + keySystem + "\""); // Only one setMediaKeys() can run at one time, and multiple setMediaKeys() operations // can be queued for execution for multiple key sessions. var setMediaKeysPromise = Promise.all(queue).then(function () { if (!_this6.media) { throw new Error('Attempted to set mediaKeys without media element attached'); } return _this6.media.setMediaKeys(mediaKeys); }); this.setMediaKeysQueue.push(setMediaKeysPromise); return setMediaKeysPromise.then(function () { _this6.log("Media-keys set for \"" + keySystem + "\""); queue.push(setMediaKeysPromise); _this6.setMediaKeysQueue = _this6.setMediaKeysQueue.filter(function (p) { return queue.indexOf(p) === -1; }); }); }; _proto.generateRequestWithPreferredKeySession = function generateRequestWithPreferredKeySession(context, initDataType, initData, reason) { var _this$config$drmSyste, _this$config$drmSyste2, _this7 = this; var generateRequestFilter = (_this$config$drmSyste = this.config.drmSystems) == null ? void 0 : (_this$config$drmSyste2 = _this$config$drmSyste[context.keySystem]) == null ? void 0 : _this$config$drmSyste2.generateRequest; if (generateRequestFilter) { try { var mappedInitData = generateRequestFilter.call(this.hls, initDataType, initData, context); if (!mappedInitData) { throw new Error('Invalid response from configured generateRequest filter'); } initDataType = mappedInitData.initDataType; initData = context.decryptdata.pssh = mappedInitData.initData ? new Uint8Array(mappedInitData.initData) : null; } catch (error) { var _this$hls; this.warn(error.message); if ((_this$hls = this.hls) != null && _this$hls.config.debug) { throw error; } } } if (initData === null) { this.log("Skipping key-session request for \"" + reason + "\" (no initData)"); return Promise.resolve(context); } var keyId = this.getKeyIdString(context.decryptdata); this.log("Generating key-session request for \"" + reason + "\": " + keyId + " (init data type: " + initDataType + " length: " + (initData ? initData.byteLength : null) + ")"); var licenseStatus = new EventEmitter(); context.mediaKeysSession.onmessage = function (event) { var keySession = context.mediaKeysSession; if (!keySession) { licenseStatus.emit('error', new Error('invalid state')); return; } var messageType = event.messageType, message = event.message; _this7.log("\"" + messageType + "\" message event for session \"" + keySession.sessionId + "\" message size: " + message.byteLength); if (messageType === 'license-request' || messageType === 'license-renewal') { _this7.renewLicense(context, message).catch(function (error) { _this7.handleError(error); licenseStatus.emit('error', error); }); } else if (messageType === 'license-release') { if (context.keySystem === KeySystems.FAIRPLAY) { _this7.updateKeySession(context, strToUtf8array('acknowledged')); _this7.removeSession(context); } } else { _this7.warn("unhandled media key message type \"" + messageType + "\""); } }; context.mediaKeysSession.onkeystatuseschange = function (event) { var keySession = context.mediaKeysSession; if (!keySession) { licenseStatus.emit('error', new Error('invalid state')); return; } _this7.onKeyStatusChange(context); var keyStatus = context.keyStatus; licenseStatus.emit('keyStatus', keyStatus); if (keyStatus === 'expired') { _this7.warn(context.keySystem + " expired for key " + keyId); _this7.renewKeySession(context); } }; var keyUsablePromise = new Promise(function (resolve, reject) { licenseStatus.on('error', reject); licenseStatus.on('keyStatus', function (keyStatus) { if (keyStatus.startsWith('usable')) { resolve(); } else if (keyStatus === 'output-restricted') { reject(new EMEKeyError({ type: ErrorTypes.KEY_SYSTEM_ERROR, details: ErrorDetails.KEY_SYSTEM_STATUS_OUTPUT_RESTRICTED, fatal: false }, 'HDCP level output restricted')); } else if (keyStatus === 'internal-error') { reject(new EMEKeyError({ type: ErrorTypes.KEY_SYSTEM_ERROR, details: ErrorDetails.KEY_SYSTEM_STATUS_INTERNAL_ERROR, fatal: true }, "key status changed to \"" + keyStatus + "\"")); } else if (keyStatus === 'expired') { reject(new Error('key expired while generating request')); } else { _this7.warn("unhandled key status change \"" + keyStatus + "\""); } }); }); return context.mediaKeysSession.generateRequest(initDataType, initData).then(function () { var _context$mediaKeysSes; _this7.log("Request generated for key-session \"" + ((_context$mediaKeysSes = context.mediaKeysSession) == null ? void 0 : _context$mediaKeysSes.sessionId) + "\" keyId: " + keyId); }).catch(function (error) { throw new EMEKeyError({ type: ErrorTypes.KEY_SYSTEM_ERROR, details: ErrorDetails.KEY_SYSTEM_NO_SESSION, error: error, fatal: false }, "Error generating key-session request: " + error); }).then(function () { return keyUsablePromise; }).catch(function (error) { licenseStatus.removeAllListeners(); _this7.removeSession(context); throw error; }).then(function () { licenseStatus.removeAllListeners(); return context; }); }; _proto.onKeyStatusChange = function onKeyStatusChange(mediaKeySessionContext) { var _this8 = this; mediaKeySessionContext.mediaKeysSession.keyStatuses.forEach(function (status, keyId) { _this8.log("key status change \"" + status + "\" for keyStatuses keyId: " + Hex.hexDump('buffer' in keyId ? new Uint8Array(keyId.buffer, keyId.byteOffset, keyId.byteLength) : new Uint8Array(keyId)) + " session keyId: " + Hex.hexDump(new Uint8Array(mediaKeySessionContext.decryptdata.keyId || [])) + " uri: " + mediaKeySessionContext.decryptdata.uri); mediaKeySessionContext.keyStatus = status; }); }; _proto.fetchServerCertificate = function fetchServerCertificate(keySystem) { var config = this.config; var Loader = config.loader; var certLoader = new Loader(config); var url = this.getServerCertificateUrl(keySystem); if (!url) { return Promise.resolve(); } this.log("Fetching serverCertificate for \"" + keySystem + "\""); return new Promise(function (resolve, reject) { var loaderContext = { responseType: 'arraybuffer', url: url }; var loadPolicy = config.certLoadPolicy.default; var loaderConfig = { loadPolicy: loadPolicy, timeout: loadPolicy.maxLoadTimeMs, maxRetry: 0, retryDelay: 0, maxRetryDelay: 0 }; var loaderCallbacks = { onSuccess: function onSuccess(response, stats, context, networkDetails) { resolve(response.data); }, onError: function onError(response, contex, networkDetails, stats) { reject(new EMEKeyError({ type: ErrorTypes.KEY_SYSTEM_ERROR, details: ErrorDetails.KEY_SYSTEM_SERVER_CERTIFICATE_REQUEST_FAILED, fatal: true, networkDetails: networkDetails, response: _objectSpread2({ url: loaderContext.url, data: undefined }, response) }, "\"" + keySystem + "\" certificate request failed (" + url + "). Status: " + response.code + " (" + response.text + ")")); }, onTimeout: function onTimeout(stats, context, networkDetails) { reject(new EMEKeyError({ type: ErrorTypes.KEY_SYSTEM_ERROR, details: ErrorDetails.KEY_SYSTEM_SERVER_CERTIFICATE_REQUEST_FAILED, fatal: true, networkDetails: networkDetails, response: { url: loaderContext.url, data: undefined } }, "\"" + keySystem + "\" certificate request timed out (" + url + ")")); }, onAbort: function onAbort(stats, context, networkDetails) { reject(new Error('aborted')); } }; certLoader.load(loaderContext, loaderConfig, loaderCallbacks); }); }; _proto.setMediaKeysServerCertificate = function setMediaKeysServerCertificate(mediaKeys, keySystem, cert) { var _this9 = this; return new Promise(function (resolve, reject) { mediaKeys.setServerCertificate(cert).then(function (success) { _this9.log("setServerCertificate " + (success ? 'success' : 'not supported by CDM') + " (" + (cert == null ? void 0 : cert.byteLength) + ") on \"" + keySystem + "\""); resolve(mediaKeys); }).catch(function (error) { reject(new EMEKeyError({ type: ErrorTypes.KEY_SYSTEM_ERROR, details: ErrorDetails.KEY_SYSTEM_SERVER_CERTIFICATE_UPDATE_FAILED, error: error, fatal: true }, error.message)); }); }); }; _proto.renewLicense = function renewLicense(context, keyMessage) { var _this10 = this; return this.requestLicense(context, new Uint8Array(keyMessage)).then(function (data) { return _this10.updateKeySession(context, new Uint8Array(data)).catch(function (error) { throw new EMEKeyError({ type: ErrorTypes.KEY_SYSTEM_ERROR, details: ErrorDetails.KEY_SYSTEM_SESSION_UPDATE_FAILED, error: error, fatal: true }, error.message); }); }); }; _proto.setupLicenseXHR = function setupLicenseXHR(xhr, url, keysListItem, licenseChallenge) { var _this11 = this; var licenseXhrSetup = this.config.licenseXhrSetup; if (!licenseXhrSetup) { xhr.open('POST', url, true); return Promise.resolve({ xhr: xhr, licenseChallenge: licenseChallenge }); } return Promise.resolve().then(function () { if (!keysListItem.decryptdata) { throw new Error('Key removed'); } return licenseXhrSetup.call(_this11.hls, xhr, url, keysListItem, licenseChallenge); }).catch(function (error) { if (!keysListItem.decryptdata) { // Key session removed. Cancel license request. throw error; } // let's try to open before running setup xhr.open('POST', url, true); return licenseXhrSetup.call(_this11.hls, xhr, url, keysListItem, licenseChallenge); }).then(function (licenseXhrSetupResult) { // if licenseXhrSetup did not yet call open, let's do it now if (!xhr.readyState) { xhr.open('POST', url, true); } var finalLicenseChallenge = licenseXhrSetupResult ? licenseXhrSetupResult : licenseChallenge; return { xhr: xhr, licenseChallenge: finalLicenseChallenge }; }); }; _proto.requestLicense = function requestLicense(keySessionContext, licenseChallenge) { var _this12 = this; var keyLoadPolicy = this.config.keyLoadPolicy.default; return new Promise(function (resolve, reject) { var url = _this12.getLicenseServerUrl(keySessionContext.keySystem); _this12.log("Sending license request to URL: " + url); var xhr = new XMLHttpRequest(); xhr.responseType = 'arraybuffer'; xhr.onreadystatechange = function () { if (!_this12.hls || !keySessionContext.mediaKeysSession) { return reject(new Error('invalid state')); } if (xhr.readyState === 4) { if (xhr.status === 200) { _this12._requestLicenseFailureCount = 0; var data = xhr.response; _this12.log("License received " + (data instanceof ArrayBuffer ? data.byteLength : data)); var licenseResponseCallback = _this12.config.licenseResponseCallback; if (licenseResponseCallback) { try { data = licenseResponseCallback.call(_this12.hls, xhr, url, keySessionContext); } catch (error) { _this12.error(error); } } resolve(data); } else { var retryConfig = keyLoadPolicy.errorRetry; var maxNumRetry = retryConfig ? retryConfig.maxNumRetry : 0; _this12._requestLicenseFailureCount++; if (_this12._requestLicenseFailureCount > maxNumRetry || xhr.status >= 400 && xhr.status < 500) { reject(new EMEKeyError({ type: ErrorTypes.KEY_SYSTEM_ERROR, details: ErrorDetails.KEY_SYSTEM_LICENSE_REQUEST_FAILED, fatal: true, networkDetails: xhr, response: { url: url, data: undefined, code: xhr.status, text: xhr.statusText } }, "License Request XHR failed (" + url + "). Status: " + xhr.status + " (" + xhr.statusText + ")")); } else { var attemptsLeft = maxNumRetry - _this12._requestLicenseFailureCount + 1; _this12.warn("Retrying license request, " + attemptsLeft + " attempts left"); _this12.requestLicense(keySessionContext, licenseChallenge).then(resolve, reject); } } } }; if (keySessionContext.licenseXhr && keySessionContext.licenseXhr.readyState !== XMLHttpRequest.DONE) { keySessionContext.licenseXhr.abort(); } keySessionContext.licenseXhr = xhr; _this12.setupLicenseXHR(xhr, url, keySessionContext, licenseChallenge).then(function (_ref5) { var xhr = _ref5.xhr, licenseChallenge = _ref5.licenseChallenge; xhr.send(licenseChallenge); }); }); }; _proto.onMediaAttached = function onMediaAttached(event, data) { if (!this.config.emeEnabled) { return; } var media = data.media; // keep reference of media this.media = media; media.addEventListener('encrypted', this.onMediaEncrypted); media.addEventListener('waitingforkey', this.onWaitingForKey); }; _proto.onMediaDetached = function onMediaDetached() { var _this13 = this; var media = this.media; var mediaKeysList = this.mediaKeySessions; if (media) { media.removeEventListener('encrypted', this.onMediaEncrypted); media.removeEventListener('waitingforkey', this.onWaitingForKey); this.media = null; } this._requestLicenseFailureCount = 0; this.setMediaKeysQueue = []; this.mediaKeySessions = []; this.keyIdToKeySessionPromise = {}; LevelKey.clearKeyUriToKeyIdMap(); // Close all sessions and remove media keys from the video element. var keySessionCount = mediaKeysList.length; EMEController.CDMCleanupPromise = Promise.all(mediaKeysList.map(function (mediaKeySessionContext) { return _this13.removeSession(mediaKeySessionContext); }).concat(media == null ? void 0 : media.setMediaKeys(null).catch(function (error) { _this13.log("Could not clear media keys: " + error + ". media.src: " + (media == null ? void 0 : media.src)); }))).then(function () { if (keySessionCount) { _this13.log('finished closing key sessions and clearing media keys'); mediaKeysList.length = 0; } }).catch(function (error) { _this13.log("Could not close sessions and clear media keys: " + error + ". media.src: " + (media == null ? void 0 : media.src)); }); }; _proto.onManifestLoading = function onManifestLoading() { this.keyFormatPromise = null; }; _proto.onManifestLoaded = function onManifestLoaded(event, _ref6) { var sessionKeys = _ref6.sessionKeys; if (!sessionKeys || !this.config.emeEnabled) { return; } if (!this.keyFormatPromise) { var keyFormats = sessionKeys.reduce(function (formats, sessionKey) { if (formats.indexOf(sessionKey.keyFormat) === -1) { formats.push(sessionKey.keyFormat); } return formats; }, []); this.log("Selecting key-system from session-keys " + keyFormats.join(', ')); this.keyFormatPromise = this.getKeyFormatPromise(keyFormats); } }; _proto.removeSession = function removeSession(mediaKeySessionContext) { var _this14 = this; var mediaKeysSession = mediaKeySessionContext.mediaKeysSession, licenseXhr = mediaKeySessionContext.licenseXhr; if (mediaKeysSession) { this.log("Remove licenses and keys and close session " + mediaKeysSession.sessionId); mediaKeysSession.onmessage = null; mediaKeysSession.onkeystatuseschange = null; if (licenseXhr && licenseXhr.readyState !== XMLHttpRequest.DONE) { licenseXhr.abort(); } mediaKeySessionContext.mediaKeysSession = mediaKeySessionContext.decryptdata = mediaKeySessionContext.licenseXhr = undefined; var index = this.mediaKeySessions.indexOf(mediaKeySessionContext); if (index > -1) { this.mediaKeySessions.splice(index, 1); } return mediaKeysSession.remove().catch(function (error) { _this14.log("Could not remove session: " + error); }).then(function () { return mediaKeysSession.close(); }).catch(function (error) { _this14.log("Could not close session: " + error); }); } }; return EMEController; }(); EMEController.CDMCleanupPromise = void 0; var EMEKeyError = /*#__PURE__*/function (_Error) { _inheritsLoose(EMEKeyError, _Error); function EMEKeyError(data, message) { var _this15; _this15 = _Error.call(this, message) || this; _this15.data = void 0; data.error || (data.error = new Error(message)); _this15.data = data; data.err = data.error; return _this15; } return EMEKeyError; }( /*#__PURE__*/_wrapNativeSuper(Error)); /** * CMCD spec version */ var CMCDVersion = 1; /** * CMCD Object Type */ var CMCDObjectType = { MANIFEST: "m", AUDIO: "a", VIDEO: "v", MUXED: "av", INIT: "i", CAPTION: "c", TIMED_TEXT: "tt", KEY: "k", OTHER: "o" }; /** * CMCD Streaming Format */ var CMCDStreamingFormatHLS = 'h'; /** * CMCD Streaming Type */ /** * CMCD Headers */ /** * CMCD */ /** * Controller to deal with Common Media Client Data (CMCD) * @see https://cdn.cta.tech/cta/media/media/resources/standards/pdfs/cta-5004-final.pdf */ var CMCDController = /*#__PURE__*/function () { // eslint-disable-line no-restricted-globals // eslint-disable-line no-restricted-globals function CMCDController(hls) { var _this = this; this.hls = void 0; this.config = void 0; this.media = void 0; this.sid = void 0; this.cid = void 0; this.useHeaders = false; this.initialized = false; this.starved = false; this.buffering = true; this.audioBuffer = void 0; this.videoBuffer = void 0; this.onWaiting = function () { if (_this.initialized) { _this.starved = true; } _this.buffering = true; }; this.onPlaying = function () { if (!_this.initialized) { _this.initialized = true; } _this.buffering = false; }; /** * Apply CMCD data to a manifest request. */ this.applyPlaylistData = function (context) { try { _this.apply(context, { ot: CMCDObjectType.MANIFEST, su: !_this.initialized }); } catch (error) { logger.warn('Could not generate manifest CMCD data.', error); } }; /** * Apply CMCD data to a segment request */ this.applyFragmentData = function (context) { try { var fragment = context.frag; var level = _this.hls.levels[fragment.level]; var ot = _this.getObjectType(fragment); var data = { d: fragment.duration * 1000, ot: ot }; if (ot === CMCDObjectType.VIDEO || ot === CMCDObjectType.AUDIO || ot == CMCDObjectType.MUXED) { data.br = level.bitrate / 1000; data.tb = _this.getTopBandwidth(ot) / 1000; data.bl = _this.getBufferLength(ot); } _this.apply(context, data); } catch (error) { logger.warn('Could not generate segment CMCD data.', error); } }; this.hls = hls; var config = this.config = hls.config; var cmcd = config.cmcd; if (cmcd != null) { config.pLoader = this.createPlaylistLoader(); config.fLoader = this.createFragmentLoader(); this.sid = cmcd.sessionId || CMCDController.uuid(); this.cid = cmcd.contentId; this.useHeaders = cmcd.useHeaders === true; this.registerListeners(); } } var _proto = CMCDController.prototype; _proto.registerListeners = function registerListeners() { var hls = this.hls; hls.on(Events.MEDIA_ATTACHED, this.onMediaAttached, this); hls.on(Events.MEDIA_DETACHED, this.onMediaDetached, this); hls.on(Events.BUFFER_CREATED, this.onBufferCreated, this); }; _proto.unregisterListeners = function unregisterListeners() { var hls = this.hls; hls.off(Events.MEDIA_ATTACHED, this.onMediaAttached, this); hls.off(Events.MEDIA_DETACHED, this.onMediaDetached, this); hls.off(Events.BUFFER_CREATED, this.onBufferCreated, this); }; _proto.destroy = function destroy() { this.unregisterListeners(); this.onMediaDetached(); // @ts-ignore this.hls = this.config = this.audioBuffer = this.videoBuffer = null; }; _proto.onMediaAttached = function onMediaAttached(event, data) { this.media = data.media; this.media.addEventListener('waiting', this.onWaiting); this.media.addEventListener('playing', this.onPlaying); }; _proto.onMediaDetached = function onMediaDetached() { if (!this.media) { return; } this.media.removeEventListener('waiting', this.onWaiting); this.media.removeEventListener('playing', this.onPlaying); // @ts-ignore this.media = null; }; _proto.onBufferCreated = function onBufferCreated(event, data) { var _data$tracks$audio, _data$tracks$video; this.audioBuffer = (_data$tracks$audio = data.tracks.audio) == null ? void 0 : _data$tracks$audio.buffer; this.videoBuffer = (_data$tracks$video = data.tracks.video) == null ? void 0 : _data$tracks$video.buffer; }; /** * Create baseline CMCD data */ _proto.createData = function createData() { var _this$media; return { v: CMCDVersion, sf: CMCDStreamingFormatHLS, sid: this.sid, cid: this.cid, pr: (_this$media = this.media) == null ? void 0 : _this$media.playbackRate, mtp: this.hls.bandwidthEstimate / 1000 }; } /** * Apply CMCD data to a request. */; _proto.apply = function apply(context, data) { if (data === void 0) { data = {}; } // apply baseline data _extends(data, this.createData()); var isVideo = data.ot === CMCDObjectType.INIT || data.ot === CMCDObjectType.VIDEO || data.ot === CMCDObjectType.MUXED; if (this.starved && isVideo) { data.bs = true; data.su = true; this.starved = false; } if (data.su == null) { data.su = this.buffering; } // TODO: Implement rtp, nrr, nor, dl if (this.useHeaders) { var headers = CMCDController.toHeaders(data); if (!Object.keys(headers).length) { return; } if (!context.headers) { context.headers = {}; } _extends(context.headers, headers); } else { var query = CMCDController.toQuery(data); if (!query) { return; } context.url = CMCDController.appendQueryToUri(context.url, query); } }; /** * The CMCD object type. */ _proto.getObjectType = function getObjectType(fragment) { var type = fragment.type; if (type === 'subtitle') { return CMCDObjectType.TIMED_TEXT; } if (fragment.sn === 'initSegment') { return CMCDObjectType.INIT; } if (type === 'audio') { return CMCDObjectType.AUDIO; } if (type === 'main') { if (!this.hls.audioTracks.length) { return CMCDObjectType.MUXED; } return CMCDObjectType.VIDEO; } return undefined; } /** * Get the highest bitrate. */; _proto.getTopBandwidth = function getTopBandwidth(type) { var bitrate = 0; var levels; var hls = this.hls; if (type === CMCDObjectType.AUDIO) { levels = hls.audioTracks; } else { var max = hls.maxAutoLevel; var len = max > -1 ? max + 1 : hls.levels.length; levels = hls.levels.slice(0, len); } for (var _iterator = _createForOfIteratorHelperLoose(levels), _step; !(_step = _iterator()).done;) { var level = _step.value; if (level.bitrate > bitrate) { bitrate = level.bitrate; } } return bitrate > 0 ? bitrate : NaN; } /** * Get the buffer length for a media type in milliseconds */; _proto.getBufferLength = function getBufferLength(type) { var media = this.hls.media; var buffer = type === CMCDObjectType.AUDIO ? this.audioBuffer : this.videoBuffer; if (!buffer || !media) { return NaN; } var info = BufferHelper.bufferInfo(buffer, media.currentTime, this.config.maxBufferHole); return info.len * 1000; } /** * Create a playlist loader */; _proto.createPlaylistLoader = function createPlaylistLoader() { var pLoader = this.config.pLoader; var apply = this.applyPlaylistData; var Ctor = pLoader || this.config.loader; return /*#__PURE__*/function () { function CmcdPlaylistLoader(config) { this.loader = void 0; this.loader = new Ctor(config); } var _proto2 = CmcdPlaylistLoader.prototype; _proto2.destroy = function destroy() { this.loader.destroy(); }; _proto2.abort = function abort() { this.loader.abort(); }; _proto2.load = function load(context, config, callbacks) { apply(context); this.loader.load(context, config, callbacks); }; _createClass(CmcdPlaylistLoader, [{ key: "stats", get: function get() { return this.loader.stats; } }, { key: "context", get: function get() { return this.loader.context; } }]); return CmcdPlaylistLoader; }(); } /** * Create a playlist loader */; _proto.createFragmentLoader = function createFragmentLoader() { var fLoader = this.config.fLoader; var apply = this.applyFragmentData; var Ctor = fLoader || this.config.loader; return /*#__PURE__*/function () { function CmcdFragmentLoader(config) { this.loader = void 0; this.loader = new Ctor(config); } var _proto3 = CmcdFragmentLoader.prototype; _proto3.destroy = function destroy() { this.loader.destroy(); }; _proto3.abort = function abort() { this.loader.abort(); }; _proto3.load = function load(context, config, callbacks) { apply(context); this.loader.load(context, config, callbacks); }; _createClass(CmcdFragmentLoader, [{ key: "stats", get: function get() { return this.loader.stats; } }, { key: "context", get: function get() { return this.loader.context; } }]); return CmcdFragmentLoader; }(); } /** * Generate a random v4 UUI * * @returns {string} */; CMCDController.uuid = function uuid() { var url = URL.createObjectURL(new Blob()); var uuid = url.toString(); URL.revokeObjectURL(url); return uuid.slice(uuid.lastIndexOf('/') + 1); } /** * Serialize a CMCD data object according to the rules defined in the * section 3.2 of * [CTA-5004](https://cdn.cta.tech/cta/media/media/resources/standards/pdfs/cta-5004-final.pdf). */; CMCDController.serialize = function serialize(data) { var results = []; var isValid = function isValid(value) { return !Number.isNaN(value) && value != null && value !== '' && value !== false; }; var toRounded = function toRounded(value) { return Math.round(value); }; var toHundred = function toHundred(value) { return toRounded(value / 100) * 100; }; var toUrlSafe = function toUrlSafe(value) { return encodeURIComponent(value); }; var formatters = { br: toRounded, d: toRounded, bl: toHundred, dl: toHundred, mtp: toHundred, nor: toUrlSafe, rtp: toHundred, tb: toRounded }; var keys = Object.keys(data || {}).sort(); for (var _iterator2 = _createForOfIteratorHelperLoose(keys), _step2; !(_step2 = _iterator2()).done;) { var key = _step2.value; var value = data[key]; // ignore invalid values if (!isValid(value)) { continue; } // Version should only be reported if not equal to 1. if (key === 'v' && value === 1) { continue; } // Playback rate should only be sent if not equal to 1. if (key == 'pr' && value === 1) { continue; } // Certain values require special formatting var formatter = formatters[key]; if (formatter) { value = formatter(value); } // Serialize the key/value pair var type = typeof value; var result = void 0; if (key === 'ot' || key === 'sf' || key === 'st') { result = key + "=" + value; } else if (type === 'boolean') { result = key; } else if (type === 'number') { result = key + "=" + value; } else { result = key + "=" + JSON.stringify(value); } results.push(result); } return results.join(','); } /** * Convert a CMCD data object to request headers according to the rules * defined in the section 2.1 and 3.2 of * [CTA-5004](https://cdn.cta.tech/cta/media/media/resources/standards/pdfs/cta-5004-final.pdf). */; CMCDController.toHeaders = function toHeaders(data) { var keys = Object.keys(data); var headers = {}; var headerNames = ['Object', 'Request', 'Session', 'Status']; var headerGroups = [{}, {}, {}, {}]; var headerMap = { br: 0, d: 0, ot: 0, tb: 0, bl: 1, dl: 1, mtp: 1, nor: 1, nrr: 1, su: 1, cid: 2, pr: 2, sf: 2, sid: 2, st: 2, v: 2, bs: 3, rtp: 3 }; for (var _i = 0, _keys = keys; _i < _keys.length; _i++) { var key = _keys[_i]; // Unmapped fields are mapped to the Request header var index = headerMap[key] != null ? headerMap[key] : 1; headerGroups[index][key] = data[key]; } for (var i = 0; i < headerGroups.length; i++) { var value = CMCDController.serialize(headerGroups[i]); if (value) { headers["CMCD-" + headerNames[i]] = value; } } return headers; } /** * Convert a CMCD data object to query args according to the rules * defined in the section 2.2 and 3.2 of * [CTA-5004](https://cdn.cta.tech/cta/media/media/resources/standards/pdfs/cta-5004-final.pdf). */; CMCDController.toQuery = function toQuery(data) { return "CMCD=" + encodeURIComponent(CMCDController.serialize(data)); } /** * Append query args to a uri. */; CMCDController.appendQueryToUri = function appendQueryToUri(uri, query) { if (!query) { return uri; } var separator = uri.includes('?') ? '&' : '?'; return "" + uri + separator + query; }; return CMCDController; }(); var PATHWAY_PENALTY_DURATION_MS = 300000; var ContentSteeringController = /*#__PURE__*/function () { function ContentSteeringController(hls) { this.hls = void 0; this.log = void 0; this.loader = null; this.uri = null; this.pathwayId = '.'; this.pathwayPriority = null; this.timeToLoad = 300; this.reloadTimer = -1; this.updated = 0; this.started = false; this.enabled = true; this.levels = null; this.audioTracks = null; this.subtitleTracks = null; this.penalizedPathways = {}; this.hls = hls; this.log = logger.log.bind(logger, "[content-steering]:"); this.registerListeners(); } var _proto = ContentSteeringController.prototype; _proto.registerListeners = function registerListeners() { var hls = this.hls; hls.on(Events.MANIFEST_LOADING, this.onManifestLoading, this); hls.on(Events.MANIFEST_LOADED, this.onManifestLoaded, this); hls.on(Events.MANIFEST_PARSED, this.onManifestParsed, this); hls.on(Events.ERROR, this.onError, this); }; _proto.unregisterListeners = function unregisterListeners() { var hls = this.hls; if (!hls) { return; } hls.off(Events.MANIFEST_LOADING, this.onManifestLoading, this); hls.off(Events.MANIFEST_LOADED, this.onManifestLoaded, this); hls.off(Events.MANIFEST_PARSED, this.onManifestParsed, this); hls.off(Events.ERROR, this.onError, this); }; _proto.startLoad = function startLoad() { this.started = true; self.clearTimeout(this.reloadTimer); if (this.enabled && this.uri) { if (this.updated) { var ttl = Math.max(this.timeToLoad * 1000 - (performance.now() - this.updated), 0); this.scheduleRefresh(this.uri, ttl); } else { this.loadSteeringManifest(this.uri); } } }; _proto.stopLoad = function stopLoad() { this.started = false; if (this.loader) { this.loader.destroy(); this.loader = null; } self.clearTimeout(this.reloadTimer); }; _proto.destroy = function destroy() { this.unregisterListeners(); this.stopLoad(); // @ts-ignore this.hls = null; this.levels = this.audioTracks = this.subtitleTracks = null; }; _proto.removeLevel = function removeLevel(levelToRemove) { var levels = this.levels; if (levels) { this.levels = levels.filter(function (level) { return level !== levelToRemove; }); } }; _proto.onManifestLoading = function onManifestLoading() { this.stopLoad(); this.enabled = true; this.timeToLoad = 300; this.updated = 0; this.uri = null; this.pathwayId = '.'; this.levels = this.audioTracks = this.subtitleTracks = null; }; _proto.onManifestLoaded = function onManifestLoaded(event, data) { var contentSteering = data.contentSteering; if (contentSteering === null) { return; } this.pathwayId = contentSteering.pathwayId; this.uri = contentSteering.uri; if (this.started) { this.startLoad(); } }; _proto.onManifestParsed = function onManifestParsed(event, data) { this.audioTracks = data.audioTracks; this.subtitleTracks = data.subtitleTracks; }; _proto.onError = function onError(event, data) { var errorAction = data.errorAction; if ((errorAction == null ? void 0 : errorAction.action) === NetworkErrorAction.SendAlternateToPenaltyBox && errorAction.flags === ErrorActionFlags.MoveAllAlternatesMatchingHost) { var pathwayPriority = this.pathwayPriority; var _pathwayId = this.pathwayId; if (!this.penalizedPathways[_pathwayId]) { this.penalizedPathways[_pathwayId] = performance.now(); } if (!pathwayPriority && this.levels) { // If PATHWAY-PRIORITY was not provided, list pathways for error handling pathwayPriority = this.levels.reduce(function (pathways, level) { if (pathways.indexOf(level.pathwayId) === -1) { pathways.push(level.pathwayId); } return pathways; }, []); } if (pathwayPriority && pathwayPriority.length > 1) { this.updatePathwayPriority(pathwayPriority); errorAction.resolved = this.pathwayId !== _pathwayId; } } }; _proto.filterParsedLevels = function filterParsedLevels(levels) { // Filter levels to only include those that are in the initial pathway this.levels = levels; var pathwayLevels = this.getLevelsForPathway(this.pathwayId); if (pathwayLevels.length === 0) { var _pathwayId2 = levels[0].pathwayId; this.log("No levels found in Pathway " + this.pathwayId + ". Setting initial Pathway to \"" + _pathwayId2 + "\""); pathwayLevels = this.getLevelsForPathway(_pathwayId2); this.pathwayId = _pathwayId2; } if (pathwayLevels.length !== levels.length) { this.log("Found " + pathwayLevels.length + "/" + levels.length + " levels in Pathway \"" + this.pathwayId + "\""); return pathwayLevels; } return levels; }; _proto.getLevelsForPathway = function getLevelsForPathway(pathwayId) { if (this.levels === null) { return []; } return this.levels.filter(function (level) { return pathwayId === level.pathwayId; }); }; _proto.updatePathwayPriority = function updatePathwayPriority(pathwayPriority) { this.pathwayPriority = pathwayPriority; var levels; // Evaluate if we should remove the pathway from the penalized list var penalizedPathways = this.penalizedPathways; var now = performance.now(); Object.keys(penalizedPathways).forEach(function (pathwayId) { if (now - penalizedPathways[pathwayId] > PATHWAY_PENALTY_DURATION_MS) { delete penalizedPathways[pathwayId]; } }); for (var i = 0; i < pathwayPriority.length; i++) { var _pathwayId3 = pathwayPriority[i]; if (penalizedPathways[_pathwayId3]) { continue; } if (_pathwayId3 === this.pathwayId) { return; } var selectedIndex = this.hls.nextLoadLevel; var selectedLevel = this.hls.levels[selectedIndex]; levels = this.getLevelsForPathway(_pathwayId3); if (levels.length > 0) { this.log("Setting Pathway to \"" + _pathwayId3 + "\""); this.pathwayId = _pathwayId3; this.hls.trigger(Events.LEVELS_UPDATED, { levels: levels }); // Set LevelController's level to trigger LEVEL_SWITCHING which loads playlist if needed var levelAfterChange = this.hls.levels[selectedIndex]; if (selectedLevel && levelAfterChange && this.levels) { if (levelAfterChange.attrs['STABLE-VARIANT-ID'] !== selectedLevel.attrs['STABLE-VARIANT-ID'] && levelAfterChange.bitrate !== selectedLevel.bitrate) { this.log("Unstable Pathways change from bitrate " + selectedLevel.bitrate + " to " + levelAfterChange.bitrate); } this.hls.nextLoadLevel = selectedIndex; } break; } } }; _proto.clonePathways = function clonePathways(pathwayClones) { var _this = this; var levels = this.levels; if (!levels) { return; } var audioGroupCloneMap = {}; var subtitleGroupCloneMap = {}; pathwayClones.forEach(function (pathwayClone) { var cloneId = pathwayClone.ID, baseId = pathwayClone['BASE-ID'], uriReplacement = pathwayClone['URI-REPLACEMENT']; if (levels.some(function (level) { return level.pathwayId === cloneId; })) { return; } var clonedVariants = _this.getLevelsForPathway(baseId).map(function (baseLevel) { var levelParsed = _extends({}, baseLevel); levelParsed.details = undefined; levelParsed.url = performUriReplacement(baseLevel.uri, baseLevel.attrs['STABLE-VARIANT-ID'], 'PER-VARIANT-URIS', uriReplacement); var attributes = new AttrList(baseLevel.attrs); attributes['PATHWAY-ID'] = cloneId; var clonedAudioGroupId = attributes.AUDIO && attributes.AUDIO + "_clone_" + cloneId; var clonedSubtitleGroupId = attributes.SUBTITLES && attributes.SUBTITLES + "_clone_" + cloneId; if (clonedAudioGroupId) { audioGroupCloneMap[attributes.AUDIO] = clonedAudioGroupId; attributes.AUDIO = clonedAudioGroupId; } if (clonedSubtitleGroupId) { subtitleGroupCloneMap[attributes.SUBTITLES] = clonedSubtitleGroupId; attributes.SUBTITLES = clonedSubtitleGroupId; } levelParsed.attrs = attributes; var clonedLevel = new Level(levelParsed); addGroupId(clonedLevel, 'audio', clonedAudioGroupId); addGroupId(clonedLevel, 'text', clonedSubtitleGroupId); return clonedLevel; }); levels.push.apply(levels, clonedVariants); cloneRenditionGroups(_this.audioTracks, audioGroupCloneMap, uriReplacement, cloneId); cloneRenditionGroups(_this.subtitleTracks, subtitleGroupCloneMap, uriReplacement, cloneId); }); }; _proto.loadSteeringManifest = function loadSteeringManifest(uri) { var _this2 = this; var config = this.hls.config; var Loader = config.loader; if (this.loader) { this.loader.destroy(); } this.loader = new Loader(config); var url; try { url = new self.URL(uri); } catch (error) { this.enabled = false; this.log("Failed to parse Steering Manifest URI: " + uri); return; } if (url.protocol !== 'data:') { var throughput = (this.hls.bandwidthEstimate || config.abrEwmaDefaultEstimate) | 0; url.searchParams.set('_HLS_pathway', this.pathwayId); url.searchParams.set('_HLS_throughput', '' + throughput); } var context = { responseType: 'json', url: url.href }; var loadPolicy = config.steeringManifestLoadPolicy.default; var legacyRetryCompatibility = loadPolicy.errorRetry || loadPolicy.timeoutRetry || {}; var loaderConfig = { loadPolicy: loadPolicy, timeout: loadPolicy.maxLoadTimeMs, maxRetry: legacyRetryCompatibility.maxNumRetry || 0, retryDelay: legacyRetryCompatibility.retryDelayMs || 0, maxRetryDelay: legacyRetryCompatibility.maxRetryDelayMs || 0 }; var callbacks = { onSuccess: function onSuccess(response, stats, context, networkDetails) { _this2.log("Loaded steering manifest: \"" + url + "\""); var steeringData = response.data; if (steeringData.VERSION !== 1) { _this2.log("Steering VERSION " + steeringData.VERSION + " not supported!"); return; } _this2.updated = performance.now(); _this2.timeToLoad = steeringData.TTL; var reloadUri = steeringData['RELOAD-URI'], pathwayClones = steeringData['PATHWAY-CLONES'], pathwayPriority = steeringData['PATHWAY-PRIORITY']; if (reloadUri) { try { _this2.uri = new self.URL(reloadUri, url).href; } catch (error) { _this2.enabled = false; _this2.log("Failed to parse Steering Manifest RELOAD-URI: " + reloadUri); return; } } _this2.scheduleRefresh(_this2.uri || context.url); if (pathwayClones) { _this2.clonePathways(pathwayClones); } if (pathwayPriority) { _this2.updatePathwayPriority(pathwayPriority); } }, onError: function onError(error, context, networkDetails, stats) { _this2.log("Error loading steering manifest: " + error.code + " " + error.text + " (" + context.url + ")"); _this2.stopLoad(); if (error.code === 410) { _this2.enabled = false; _this2.log("Steering manifest " + context.url + " no longer available"); return; } var ttl = _this2.timeToLoad * 1000; if (error.code === 429) { var loader = _this2.loader; if (typeof (loader == null ? void 0 : loader.getResponseHeader) === 'function') { var retryAfter = loader.getResponseHeader('Retry-After'); if (retryAfter) { ttl = parseFloat(retryAfter) * 1000; } } _this2.log("Steering manifest " + context.url + " rate limited"); return; } _this2.scheduleRefresh(_this2.uri || context.url, ttl); }, onTimeout: function onTimeout(stats, context, networkDetails) { _this2.log("Timeout loading steering manifest (" + context.url + ")"); _this2.scheduleRefresh(_this2.uri || context.url); } }; this.log("Requesting steering manifest: " + url); this.loader.load(context, loaderConfig, callbacks); }; _proto.scheduleRefresh = function scheduleRefresh(uri, ttlMs) { var _this3 = this; if (ttlMs === void 0) { ttlMs = this.timeToLoad * 1000; } self.clearTimeout(this.reloadTimer); this.reloadTimer = self.setTimeout(function () { _this3.loadSteeringManifest(uri); }, ttlMs); }; return ContentSteeringController; }(); function cloneRenditionGroups(tracks, groupCloneMap, uriReplacement, cloneId) { if (!tracks) { return; } Object.keys(groupCloneMap).forEach(function (audioGroupId) { var clonedTracks = tracks.filter(function (track) { return track.groupId === audioGroupId; }).map(function (track) { var clonedTrack = _extends({}, track); clonedTrack.details = undefined; clonedTrack.attrs = new AttrList(clonedTrack.attrs); clonedTrack.url = clonedTrack.attrs.URI = performUriReplacement(track.url, track.attrs['STABLE-RENDITION-ID'], 'PER-RENDITION-URIS', uriReplacement); clonedTrack.groupId = clonedTrack.attrs['GROUP-ID'] = groupCloneMap[audioGroupId]; clonedTrack.attrs['PATHWAY-ID'] = cloneId; return clonedTrack; }); tracks.push.apply(tracks, clonedTracks); }); } function performUriReplacement(uri, stableId, perOptionKey, uriReplacement) { var host = uriReplacement.HOST, params = uriReplacement.PARAMS, perOptionUris = uriReplacement[perOptionKey]; var perVariantUri; if (stableId) { perVariantUri = perOptionUris == null ? void 0 : perOptionUris[stableId]; if (perVariantUri) { uri = perVariantUri; } } var url = new self.URL(uri); if (host && !perVariantUri) { url.host = host; } if (params) { Object.keys(params).sort().forEach(function (key) { if (key) { url.searchParams.set(key, params[key]); } }); } return url.href; } var AGE_HEADER_LINE_REGEX = /^age:\s*[\d.]+\s*$/im; var XhrLoader = /*#__PURE__*/function () { function XhrLoader(config) { this.xhrSetup = void 0; this.requestTimeout = void 0; this.retryTimeout = void 0; this.retryDelay = void 0; this.config = null; this.callbacks = null; this.context = void 0; this.loader = null; this.stats = void 0; this.xhrSetup = config ? config.xhrSetup || null : null; this.stats = new LoadStats(); this.retryDelay = 0; } var _proto = XhrLoader.prototype; _proto.destroy = function destroy() { this.callbacks = null; this.abortInternal(); this.loader = null; this.config = null; }; _proto.abortInternal = function abortInternal() { var loader = this.loader; self.clearTimeout(this.requestTimeout); self.clearTimeout(this.retryTimeout); if (loader) { loader.onreadystatechange = null; loader.onprogress = null; if (loader.readyState !== 4) { this.stats.aborted = true; loader.abort(); } } }; _proto.abort = function abort() { var _this$callbacks; this.abortInternal(); if ((_this$callbacks = this.callbacks) != null && _this$callbacks.onAbort) { this.callbacks.onAbort(this.stats, this.context, this.loader); } }; _proto.load = function load(context, config, callbacks) { if (this.stats.loading.start) { throw new Error('Loader can only be used once.'); } this.stats.loading.start = self.performance.now(); this.context = context; this.config = config; this.callbacks = callbacks; this.loadInternal(); }; _proto.loadInternal = function loadInternal() { var _this = this; var config = this.config, context = this.context; if (!config) { return; } var xhr = this.loader = new self.XMLHttpRequest(); var stats = this.stats; stats.loading.first = 0; stats.loaded = 0; stats.aborted = false; var xhrSetup = this.xhrSetup; if (xhrSetup) { Promise.resolve().then(function () { if (_this.stats.aborted) return; return xhrSetup(xhr, context.url); }).catch(function (error) { xhr.open('GET', context.url, true); return xhrSetup(xhr, context.url); }).then(function () { if (_this.stats.aborted) return; _this.openAndSendXhr(xhr, context, config); }).catch(function (error) { // IE11 throws an exception on xhr.open if attempting to access an HTTP resource over HTTPS _this.callbacks.onError({ code: xhr.status, text: error.message }, context, xhr, stats); return; }); } else { this.openAndSendXhr(xhr, context, config); } }; _proto.openAndSendXhr = function openAndSendXhr(xhr, context, config) { if (!xhr.readyState) { xhr.open('GET', context.url, true); } var headers = this.context.headers; var _config$loadPolicy = config.loadPolicy, maxTimeToFirstByteMs = _config$loadPolicy.maxTimeToFirstByteMs, maxLoadTimeMs = _config$loadPolicy.maxLoadTimeMs; if (headers) { for (var header in headers) { xhr.setRequestHeader(header, headers[header]); } } if (context.rangeEnd) { xhr.setRequestHeader('Range', 'bytes=' + context.rangeStart + '-' + (context.rangeEnd - 1)); } xhr.onreadystatechange = this.readystatechange.bind(this); xhr.onprogress = this.loadprogress.bind(this); xhr.responseType = context.responseType; // setup timeout before we perform request self.clearTimeout(this.requestTimeout); config.timeout = maxTimeToFirstByteMs && isFiniteNumber(maxTimeToFirstByteMs) ? maxTimeToFirstByteMs : maxLoadTimeMs; this.requestTimeout = self.setTimeout(this.loadtimeout.bind(this), config.timeout); xhr.send(); }; _proto.readystatechange = function readystatechange() { var context = this.context, xhr = this.loader, stats = this.stats; if (!context || !xhr) { return; } var readyState = xhr.readyState; var config = this.config; // don't proceed if xhr has been aborted if (stats.aborted) { return; } // >= HEADERS_RECEIVED if (readyState >= 2) { if (stats.loading.first === 0) { stats.loading.first = Math.max(self.performance.now(), stats.loading.start); // readyState >= 2 AND readyState !==4 (readyState = HEADERS_RECEIVED || LOADING) rearm timeout as xhr not finished yet if (config.timeout !== config.loadPolicy.maxLoadTimeMs) { self.clearTimeout(this.requestTimeout); config.timeout = config.loadPolicy.maxLoadTimeMs; this.requestTimeout = self.setTimeout(this.loadtimeout.bind(this), config.loadPolicy.maxLoadTimeMs - (stats.loading.first - stats.loading.start)); } } if (readyState === 4) { self.clearTimeout(this.requestTimeout); xhr.onreadystatechange = null; xhr.onprogress = null; var _status = xhr.status; // http status between 200 to 299 are all successful var useResponse = xhr.responseType !== 'text'; if (_status >= 200 && _status < 300 && (useResponse && xhr.response || xhr.responseText !== null)) { stats.loading.end = Math.max(self.performance.now(), stats.loading.first); var data = useResponse ? xhr.response : xhr.responseText; var len = xhr.responseType === 'arraybuffer' ? data.byteLength : data.length; stats.loaded = stats.total = len; stats.bwEstimate = stats.total * 8000 / (stats.loading.end - stats.loading.first); if (!this.callbacks) { return; } var onProgress = this.callbacks.onProgress; if (onProgress) { onProgress(stats, context, data, xhr); } if (!this.callbacks) { return; } var response = { url: xhr.responseURL, data: data, code: _status }; this.callbacks.onSuccess(response, stats, context, xhr); } else { var retryConfig = config.loadPolicy.errorRetry; var retryCount = stats.retry; // if max nb of retries reached or if http status between 400 and 499 (such error cannot be recovered, retrying is useless), return error if (shouldRetry(retryConfig, retryCount, false, _status)) { this.retry(retryConfig); } else { logger.error(_status + " while loading " + context.url); this.callbacks.onError({ code: _status, text: xhr.statusText }, context, xhr, stats); } } } } }; _proto.loadtimeout = function loadtimeout() { var _this$config; var retryConfig = (_this$config = this.config) == null ? void 0 : _this$config.loadPolicy.timeoutRetry; var retryCount = this.stats.retry; if (shouldRetry(retryConfig, retryCount, true)) { this.retry(retryConfig); } else { logger.warn("timeout while loading " + this.context.url); var callbacks = this.callbacks; if (callbacks) { this.abortInternal(); callbacks.onTimeout(this.stats, this.context, this.loader); } } }; _proto.retry = function retry(retryConfig) { var context = this.context, stats = this.stats; this.retryDelay = getRetryDelay(retryConfig, stats.retry); stats.retry++; logger.warn((status ? 'HTTP Status ' + status : 'Timeout') + " while loading " + context.url + ", retrying " + stats.retry + "/" + retryConfig.maxNumRetry + " in " + this.retryDelay + "ms"); // abort and reset internal state this.abortInternal(); this.loader = null; // schedule retry self.clearTimeout(this.retryTimeout); this.retryTimeout = self.setTimeout(this.loadInternal.bind(this), this.retryDelay); }; _proto.loadprogress = function loadprogress(event) { var stats = this.stats; stats.loaded = event.loaded; if (event.lengthComputable) { stats.total = event.total; } }; _proto.getCacheAge = function getCacheAge() { var result = null; if (this.loader && AGE_HEADER_LINE_REGEX.test(this.loader.getAllResponseHeaders())) { var ageHeader = this.loader.getResponseHeader('age'); result = ageHeader ? parseFloat(ageHeader) : null; } return result; }; _proto.getResponseHeader = function getResponseHeader(name) { if (this.loader && new RegExp("^" + name + ":\\s*[\\d.]+\\s*$", 'im').test(this.loader.getAllResponseHeaders())) { return this.loader.getResponseHeader(name); } return null; }; return XhrLoader; }(); function fetchSupported() { if ( // @ts-ignore self.fetch && self.AbortController && self.ReadableStream && self.Request) { try { new self.ReadableStream({}); // eslint-disable-line no-new return true; } catch (e) { /* noop */ } } return false; } var BYTERANGE = /(\d+)-(\d+)\/(\d+)/; var FetchLoader = /*#__PURE__*/function () { function FetchLoader(config /* HlsConfig */) { this.fetchSetup = void 0; this.requestTimeout = void 0; this.request = void 0; this.response = void 0; this.controller = void 0; this.context = void 0; this.config = null; this.callbacks = null; this.stats = void 0; this.loader = null; this.fetchSetup = config.fetchSetup || getRequest; this.controller = new self.AbortController(); this.stats = new LoadStats(); } var _proto = FetchLoader.prototype; _proto.destroy = function destroy() { this.loader = this.callbacks = null; this.abortInternal(); }; _proto.abortInternal = function abortInternal() { var response = this.response; if (!(response != null && response.ok)) { this.stats.aborted = true; this.controller.abort(); } }; _proto.abort = function abort() { var _this$callbacks; this.abortInternal(); if ((_this$callbacks = this.callbacks) != null && _this$callbacks.onAbort) { this.callbacks.onAbort(this.stats, this.context, this.response); } }; _proto.load = function load(context, config, callbacks) { var _this = this; var stats = this.stats; if (stats.loading.start) { throw new Error('Loader can only be used once.'); } stats.loading.start = self.performance.now(); var initParams = getRequestParameters(context, this.controller.signal); var onProgress = callbacks.onProgress; var isArrayBuffer = context.responseType === 'arraybuffer'; var LENGTH = isArrayBuffer ? 'byteLength' : 'length'; var _config$loadPolicy = config.loadPolicy, maxTimeToFirstByteMs = _config$loadPolicy.maxTimeToFirstByteMs, maxLoadTimeMs = _config$loadPolicy.maxLoadTimeMs; this.context = context; this.config = config; this.callbacks = callbacks; this.request = this.fetchSetup(context, initParams); self.clearTimeout(this.requestTimeout); config.timeout = maxTimeToFirstByteMs && isFiniteNumber(maxTimeToFirstByteMs) ? maxTimeToFirstByteMs : maxLoadTimeMs; this.requestTimeout = self.setTimeout(function () { _this.abortInternal(); callbacks.onTimeout(stats, context, _this.response); }, config.timeout); self.fetch(this.request).then(function (response) { _this.response = _this.loader = response; var first = Math.max(self.performance.now(), stats.loading.start); self.clearTimeout(_this.requestTimeout); config.timeout = maxLoadTimeMs; _this.requestTimeout = self.setTimeout(function () { _this.abortInternal(); callbacks.onTimeout(stats, context, _this.response); }, maxLoadTimeMs - (first - stats.loading.start)); if (!response.ok) { var status = response.status, statusText = response.statusText; throw new FetchError(statusText || 'fetch, bad network response', status, response); } stats.loading.first = first; stats.total = getContentLength(response.headers) || stats.total; if (onProgress && isFiniteNumber(config.highWaterMark)) { return _this.loadProgressively(response, stats, context, config.highWaterMark, onProgress); } if (isArrayBuffer) { return response.arrayBuffer(); } if (context.responseType === 'json') { return response.json(); } return response.text(); }).then(function (responseData) { var response = _this.response; self.clearTimeout(_this.requestTimeout); stats.loading.end = Math.max(self.performance.now(), stats.loading.first); var total = responseData[LENGTH]; if (total) { stats.loaded = stats.total = total; } var loaderResponse = { url: response.url, data: responseData, code: response.status }; if (onProgress && !isFiniteNumber(config.highWaterMark)) { onProgress(stats, context, responseData, response); } callbacks.onSuccess(loaderResponse, stats, context, response); }).catch(function (error) { self.clearTimeout(_this.requestTimeout); if (stats.aborted) { return; } // CORS errors result in an undefined code. Set it to 0 here to align with XHR's behavior // when destroying, 'error' itself can be undefined var code = !error ? 0 : error.code || 0; var text = !error ? null : error.message; callbacks.onError({ code: code, text: text }, context, error ? error.details : null, stats); }); }; _proto.getCacheAge = function getCacheAge() { var result = null; if (this.response) { var ageHeader = this.response.headers.get('age'); result = ageHeader ? parseFloat(ageHeader) : null; } return result; }; _proto.getResponseHeader = function getResponseHeader(name) { return this.response ? this.response.headers.get(name) : null; }; _proto.loadProgressively = function loadProgressively(response, stats, context, highWaterMark, onProgress) { if (highWaterMark === void 0) { highWaterMark = 0; } var chunkCache = new ChunkCache(); var reader = response.body.getReader(); var pump = function pump() { return reader.read().then(function (data) { if (data.done) { if (chunkCache.dataLength) { onProgress(stats, context, chunkCache.flush(), response); } return Promise.resolve(new ArrayBuffer(0)); } var chunk = data.value; var len = chunk.length; stats.loaded += len; if (len < highWaterMark || chunkCache.dataLength) { // The current chunk is too small to to be emitted or the cache already has data // Push it to the cache chunkCache.push(chunk); if (chunkCache.dataLength >= highWaterMark) { // flush in order to join the typed arrays onProgress(stats, context, chunkCache.flush(), response); } } else { // If there's nothing cached already, and the chache is large enough // just emit the progress event onProgress(stats, context, chunk, response); } return pump(); }).catch(function () { /* aborted */ return Promise.reject(); }); }; return pump(); }; return FetchLoader; }(); function getRequestParameters(context, signal) { var initParams = { method: 'GET', mode: 'cors', credentials: 'same-origin', signal: signal, headers: new self.Headers(_extends({}, context.headers)) }; if (context.rangeEnd) { initParams.headers.set('Range', 'bytes=' + context.rangeStart + '-' + String(context.rangeEnd - 1)); } return initParams; } function getByteRangeLength(byteRangeHeader) { var result = BYTERANGE.exec(byteRangeHeader); if (result) { return parseInt(result[2]) - parseInt(result[1]) + 1; } } function getContentLength(headers) { var contentRange = headers.get('Content-Range'); if (contentRange) { var byteRangeLength = getByteRangeLength(contentRange); if (isFiniteNumber(byteRangeLength)) { return byteRangeLength; } } var contentLength = headers.get('Content-Length'); if (contentLength) { return parseInt(contentLength); } } function getRequest(context, initParams) { return new self.Request(context.url, initParams); } var FetchError = /*#__PURE__*/function (_Error) { _inheritsLoose(FetchError, _Error); function FetchError(message, code, details) { var _this2; _this2 = _Error.call(this, message) || this; _this2.code = void 0; _this2.details = void 0; _this2.code = code; _this2.details = details; return _this2; } return FetchError; }( /*#__PURE__*/_wrapNativeSuper(Error)); var WHITESPACE_CHAR = /\s/; var Cues = { newCue: function newCue(track, startTime, endTime, captionScreen) { var result = []; var row; // the type data states this is VTTCue, but it can potentially be a TextTrackCue on old browsers var cue; var indenting; var indent; var text; var Cue = self.VTTCue || self.TextTrackCue; for (var r = 0; r < captionScreen.rows.length; r++) { row = captionScreen.rows[r]; indenting = true; indent = 0; text = ''; if (!row.isEmpty()) { var _track$cues; for (var c = 0; c < row.chars.length; c++) { if (WHITESPACE_CHAR.test(row.chars[c].uchar) && indenting) { indent++; } else { text += row.chars[c].uchar; indenting = false; } } // To be used for cleaning-up orphaned roll-up captions row.cueStartTime = startTime; // Give a slight bump to the endTime if it's equal to startTime to avoid a SyntaxError in IE if (startTime === endTime) { endTime += 0.0001; } if (indent >= 16) { indent--; } else { indent++; } var cueText = fixLineBreaks(text.trim()); var id = generateCueId(startTime, endTime, cueText); // If this cue already exists in the track do not push it if (!(track != null && (_track$cues = track.cues) != null && _track$cues.getCueById(id))) { cue = new Cue(startTime, endTime, cueText); cue.id = id; cue.line = r + 1; cue.align = 'left'; // Clamp the position between 10 and 80 percent (CEA-608 PAC indent code) // https://dvcs.w3.org/hg/text-tracks/raw-file/default/608toVTT/608toVTT.html#positioning-in-cea-608 // Firefox throws an exception and captions break with out of bounds 0-100 values cue.position = 10 + Math.min(80, Math.floor(indent * 8 / 32) * 10); result.push(cue); } } } if (track && result.length) { // Sort bottom cues in reverse order so that they render in line order when overlapping in Chrome result.sort(function (cueA, cueB) { if (cueA.line === 'auto' || cueB.line === 'auto') { return 0; } if (cueA.line > 8 && cueB.line > 8) { return cueB.line - cueA.line; } return cueA.line - cueB.line; }); result.forEach(function (cue) { return addCueToTrack(track, cue); }); } return result; } }; /** * @deprecated use fragLoadPolicy.default */ /** * @deprecated use manifestLoadPolicy.default and playlistLoadPolicy.default */ var defaultLoadPolicy = { maxTimeToFirstByteMs: 8000, maxLoadTimeMs: 20000, timeoutRetry: null, errorRetry: null }; /** * @ignore * If possible, keep hlsDefaultConfig shallow * It is cloned whenever a new Hls instance is created, by keeping the config * shallow the properties are cloned, and we don't end up manipulating the default */ var hlsDefaultConfig = _objectSpread2(_objectSpread2({ autoStartLoad: true, // used by stream-controller startPosition: -1, // used by stream-controller defaultAudioCodec: undefined, // used by stream-controller debug: false, // used by logger capLevelOnFPSDrop: false, // used by fps-controller capLevelToPlayerSize: false, // used by cap-level-controller ignoreDevicePixelRatio: false, // used by cap-level-controller initialLiveManifestSize: 1, // used by stream-controller maxBufferLength: 30, // used by stream-controller backBufferLength: Infinity, // used by buffer-controller maxBufferSize: 60 * 1000 * 1000, // used by stream-controller maxBufferHole: 0.1, // used by stream-controller highBufferWatchdogPeriod: 2, // used by stream-controller nudgeOffset: 0.1, // used by stream-controller nudgeMaxRetry: 3, // used by stream-controller maxFragLookUpTolerance: 0.25, // used by stream-controller liveSyncDurationCount: 3, // used by latency-controller liveMaxLatencyDurationCount: Infinity, // used by latency-controller liveSyncDuration: undefined, // used by latency-controller liveMaxLatencyDuration: undefined, // used by latency-controller maxLiveSyncPlaybackRate: 1, // used by latency-controller liveDurationInfinity: false, // used by buffer-controller /** * @deprecated use backBufferLength */ liveBackBufferLength: null, // used by buffer-controller maxMaxBufferLength: 600, // used by stream-controller enableWorker: true, // used by transmuxer workerPath: null, // used by transmuxer enableSoftwareAES: true, // used by decrypter startLevel: undefined, // used by level-controller startFragPrefetch: false, // used by stream-controller fpsDroppedMonitoringPeriod: 5000, // used by fps-controller fpsDroppedMonitoringThreshold: 0.2, // used by fps-controller appendErrorMaxRetry: 3, // used by buffer-controller loader: XhrLoader, // loader: FetchLoader, fLoader: undefined, // used by fragment-loader pLoader: undefined, // used by playlist-loader xhrSetup: undefined, // used by xhr-loader licenseXhrSetup: undefined, // used by eme-controller licenseResponseCallback: undefined, // used by eme-controller abrController: AbrController, bufferController: BufferController, capLevelController: CapLevelController, errorController: ErrorController, fpsController: FPSController, stretchShortVideoTrack: false, // used by mp4-remuxer maxAudioFramesDrift: 1, // used by mp4-remuxer forceKeyFrameOnDiscontinuity: true, // used by ts-demuxer abrEwmaFastLive: 3, // used by abr-controller abrEwmaSlowLive: 9, // used by abr-controller abrEwmaFastVoD: 3, // used by abr-controller abrEwmaSlowVoD: 9, // used by abr-controller abrEwmaDefaultEstimate: 5e5, // 500 kbps // used by abr-controller abrBandWidthFactor: 0.95, // used by abr-controller abrBandWidthUpFactor: 0.7, // used by abr-controller abrMaxWithRealBitrate: false, // used by abr-controller maxStarvationDelay: 4, // used by abr-controller maxLoadingDelay: 4, // used by abr-controller minAutoBitrate: 0, // used by hls emeEnabled: false, // used by eme-controller widevineLicenseUrl: undefined, // used by eme-controller drmSystems: {}, // used by eme-controller drmSystemOptions: {}, // used by eme-controller requestMediaKeySystemAccessFunc: requestMediaKeySystemAccess , // used by eme-controller testBandwidth: true, progressive: false, lowLatencyMode: true, cmcd: undefined, enableDateRangeMetadataCues: true, enableEmsgMetadataCues: true, enableID3MetadataCues: true, certLoadPolicy: { default: defaultLoadPolicy }, keyLoadPolicy: { default: { maxTimeToFirstByteMs: 8000, maxLoadTimeMs: 20000, timeoutRetry: { maxNumRetry: 1, retryDelayMs: 1000, maxRetryDelayMs: 20000, backoff: 'linear' }, errorRetry: { maxNumRetry: 8, retryDelayMs: 1000, maxRetryDelayMs: 20000, backoff: 'linear' } } }, manifestLoadPolicy: { default: { maxTimeToFirstByteMs: Infinity, maxLoadTimeMs: 20000, timeoutRetry: { maxNumRetry: 2, retryDelayMs: 0, maxRetryDelayMs: 0 }, errorRetry: { maxNumRetry: 1, retryDelayMs: 1000, maxRetryDelayMs: 8000 } } }, playlistLoadPolicy: { default: { maxTimeToFirstByteMs: 10000, maxLoadTimeMs: 20000, timeoutRetry: { maxNumRetry: 2, retryDelayMs: 0, maxRetryDelayMs: 0 }, errorRetry: { maxNumRetry: 2, retryDelayMs: 1000, maxRetryDelayMs: 8000 } } }, fragLoadPolicy: { default: { maxTimeToFirstByteMs: 10000, maxLoadTimeMs: 120000, timeoutRetry: { maxNumRetry: 4, retryDelayMs: 0, maxRetryDelayMs: 0 }, errorRetry: { maxNumRetry: 6, retryDelayMs: 1000, maxRetryDelayMs: 8000 } } }, steeringManifestLoadPolicy: { default: { maxTimeToFirstByteMs: 10000, maxLoadTimeMs: 20000, timeoutRetry: { maxNumRetry: 2, retryDelayMs: 0, maxRetryDelayMs: 0 }, errorRetry: { maxNumRetry: 1, retryDelayMs: 1000, maxRetryDelayMs: 8000 } } }, // These default settings are deprecated in favor of the above policies // and are maintained for backwards compatibility manifestLoadingTimeOut: 10000, manifestLoadingMaxRetry: 1, manifestLoadingRetryDelay: 1000, manifestLoadingMaxRetryTimeout: 64000, levelLoadingTimeOut: 10000, levelLoadingMaxRetry: 4, levelLoadingRetryDelay: 1000, levelLoadingMaxRetryTimeout: 64000, fragLoadingTimeOut: 20000, fragLoadingMaxRetry: 6, fragLoadingRetryDelay: 1000, fragLoadingMaxRetryTimeout: 64000 }, timelineConfig()), {}, { subtitleStreamController: SubtitleStreamController , subtitleTrackController: SubtitleTrackController , timelineController: TimelineController , audioStreamController: AudioStreamController , audioTrackController: AudioTrackController , emeController: EMEController , cmcdController: CMCDController , contentSteeringController: ContentSteeringController }); function timelineConfig() { return { cueHandler: Cues, // used by timeline-controller enableWebVTT: true, // used by timeline-controller enableIMSC1: true, // used by timeline-controller enableCEA708Captions: true, // used by timeline-controller captionsTextTrack1Label: 'English', // used by timeline-controller captionsTextTrack1LanguageCode: 'en', // used by timeline-controller captionsTextTrack2Label: 'Spanish', // used by timeline-controller captionsTextTrack2LanguageCode: 'es', // used by timeline-controller captionsTextTrack3Label: 'Unknown CC', // used by timeline-controller captionsTextTrack3LanguageCode: '', // used by timeline-controller captionsTextTrack4Label: 'Unknown CC', // used by timeline-controller captionsTextTrack4LanguageCode: '', // used by timeline-controller renderTextTracksNatively: true }; } /** * @ignore */ function mergeConfig(defaultConfig, userConfig) { if ((userConfig.liveSyncDurationCount || userConfig.liveMaxLatencyDurationCount) && (userConfig.liveSyncDuration || userConfig.liveMaxLatencyDuration)) { throw new Error("Illegal hls.js config: don't mix up liveSyncDurationCount/liveMaxLatencyDurationCount and liveSyncDuration/liveMaxLatencyDuration"); } if (userConfig.liveMaxLatencyDurationCount !== undefined && (userConfig.liveSyncDurationCount === undefined || userConfig.liveMaxLatencyDurationCount <= userConfig.liveSyncDurationCount)) { throw new Error('Illegal hls.js config: "liveMaxLatencyDurationCount" must be greater than "liveSyncDurationCount"'); } if (userConfig.liveMaxLatencyDuration !== undefined && (userConfig.liveSyncDuration === undefined || userConfig.liveMaxLatencyDuration <= userConfig.liveSyncDuration)) { throw new Error('Illegal hls.js config: "liveMaxLatencyDuration" must be greater than "liveSyncDuration"'); } var defaultsCopy = deepCpy(defaultConfig); // Backwards compatibility with deprecated config values var deprecatedSettingTypes = ['manifest', 'level', 'frag']; var deprecatedSettings = ['TimeOut', 'MaxRetry', 'RetryDelay', 'MaxRetryTimeout']; deprecatedSettingTypes.forEach(function (type) { var policyName = (type === 'level' ? 'playlist' : type) + "LoadPolicy"; var policyNotSet = userConfig[policyName] === undefined; var report = []; deprecatedSettings.forEach(function (setting) { var deprecatedSetting = type + "Loading" + setting; var value = userConfig[deprecatedSetting]; if (value !== undefined && policyNotSet) { report.push(deprecatedSetting); var settings = defaultsCopy[policyName].default; userConfig[policyName] = { default: settings }; switch (setting) { case 'TimeOut': settings.maxLoadTimeMs = value; settings.maxTimeToFirstByteMs = value; break; case 'MaxRetry': settings.errorRetry.maxNumRetry = value; settings.timeoutRetry.maxNumRetry = value; break; case 'RetryDelay': settings.errorRetry.retryDelayMs = value; settings.timeoutRetry.retryDelayMs = value; break; case 'MaxRetryTimeout': settings.errorRetry.maxRetryDelayMs = value; settings.timeoutRetry.maxRetryDelayMs = value; break; } } }); if (report.length) { logger.warn("hls.js config: \"" + report.join('", "') + "\" setting(s) are deprecated, use \"" + policyName + "\": " + JSON.stringify(userConfig[policyName])); } }); return _objectSpread2(_objectSpread2({}, defaultsCopy), userConfig); } function deepCpy(obj) { if (obj && typeof obj === 'object') { if (Array.isArray(obj)) { return obj.map(deepCpy); } return Object.keys(obj).reduce(function (result, key) { result[key] = deepCpy(obj[key]); return result; }, {}); } return obj; } /** * @ignore */ function enableStreamingMode(config) { var currentLoader = config.loader; if (currentLoader !== FetchLoader && currentLoader !== XhrLoader) { // If a developer has configured their own loader, respect that choice logger.log('[config]: Custom loader detected, cannot enable progressive streaming'); config.progressive = false; } else { var canStreamProgressively = fetchSupported(); if (canStreamProgressively) { config.loader = FetchLoader; config.progressive = true; config.enableSoftwareAES = true; logger.log('[config]: Progressive streaming enabled, using FetchLoader'); } } } /** * The `Hls` class is the core of the HLS.js library used to instantiate player instances. * @public */ var Hls = /*#__PURE__*/function () { /** * Check if the required MediaSource Extensions are available. */ Hls.isSupported = function isSupported$1() { return isSupported(); }; /** * Creates an instance of an HLS client that can attach to exactly one `HTMLMediaElement`. * @param userConfig - Configuration options applied over `Hls.DefaultConfig` */ function Hls(userConfig) { if (userConfig === void 0) { userConfig = {}; } /** * The runtime configuration used by the player. At instantiation this is combination of `hls.userConfig` merged over `Hls.DefaultConfig`. */ this.config = void 0; /** * The configuration object provided on player instantiation. */ this.userConfig = void 0; this.coreComponents = void 0; this.networkControllers = void 0; this._emitter = new EventEmitter(); this._autoLevelCapping = void 0; this._maxHdcpLevel = null; this.abrController = void 0; this.bufferController = void 0; this.capLevelController = void 0; this.latencyController = void 0; this.levelController = void 0; this.streamController = void 0; this.audioTrackController = void 0; this.subtitleTrackController = void 0; this.emeController = void 0; this.cmcdController = void 0; this._media = null; this.url = null; enableLogs(userConfig.debug || false, 'Hls instance'); var config = this.config = mergeConfig(Hls.DefaultConfig, userConfig); this.userConfig = userConfig; this._autoLevelCapping = -1; if (config.progressive) { enableStreamingMode(config); } // core controllers and network loaders var ConfigAbrController = config.abrController, ConfigBufferController = config.bufferController, ConfigCapLevelController = config.capLevelController, ConfigErrorController = config.errorController, ConfigFpsController = config.fpsController; var errorController = new ConfigErrorController(this); var abrController = this.abrController = new ConfigAbrController(this); var bufferController = this.bufferController = new ConfigBufferController(this); var capLevelController = this.capLevelController = new ConfigCapLevelController(this); var fpsController = new ConfigFpsController(this); var playListLoader = new PlaylistLoader(this); var id3TrackController = new ID3TrackController(this); var ConfigContentSteeringController = config.contentSteeringController; // ConentSteeringController is defined before LevelController to receive Multivariant Playlist events first var contentSteering = ConfigContentSteeringController ? new ConfigContentSteeringController(this) : null; var levelController = this.levelController = new LevelController(this, contentSteering); // FragmentTracker must be defined before StreamController because the order of event handling is important var fragmentTracker = new FragmentTracker(this); var keyLoader = new KeyLoader(this.config); var streamController = this.streamController = new StreamController(this, fragmentTracker, keyLoader); // Cap level controller uses streamController to flush the buffer capLevelController.setStreamController(streamController); // fpsController uses streamController to switch when frames are being dropped fpsController.setStreamController(streamController); var networkControllers = [playListLoader, levelController, streamController]; if (contentSteering) { networkControllers.splice(1, 0, contentSteering); } this.networkControllers = networkControllers; var coreComponents = [abrController, bufferController, capLevelController, fpsController, id3TrackController, fragmentTracker]; this.audioTrackController = this.createController(config.audioTrackController, networkControllers); var AudioStreamControllerClass = config.audioStreamController; if (AudioStreamControllerClass) { networkControllers.push(new AudioStreamControllerClass(this, fragmentTracker, keyLoader)); } // subtitleTrackController must be defined before subtitleStreamController because the order of event handling is important this.subtitleTrackController = this.createController(config.subtitleTrackController, networkControllers); var SubtitleStreamControllerClass = config.subtitleStreamController; if (SubtitleStreamControllerClass) { networkControllers.push(new SubtitleStreamControllerClass(this, fragmentTracker, keyLoader)); } this.createController(config.timelineController, coreComponents); keyLoader.emeController = this.emeController = this.createController(config.emeController, coreComponents); this.cmcdController = this.createController(config.cmcdController, coreComponents); this.latencyController = this.createController(LatencyController, coreComponents); this.coreComponents = coreComponents; // Error controller handles errors before and after all other controllers // This listener will be invoked after all other controllers error listeners networkControllers.push(errorController); var onErrorOut = errorController.onErrorOut; if (typeof onErrorOut === 'function') { this.on(Events.ERROR, onErrorOut, errorController); } } var _proto = Hls.prototype; _proto.createController = function createController(ControllerClass, components) { if (ControllerClass) { var controllerInstance = new ControllerClass(this); if (components) { components.push(controllerInstance); } return controllerInstance; } return null; } // Delegate the EventEmitter through the public API of Hls.js ; _proto.on = function on(event, listener, context) { if (context === void 0) { context = this; } this._emitter.on(event, listener, context); }; _proto.once = function once(event, listener, context) { if (context === void 0) { context = this; } this._emitter.once(event, listener, context); }; _proto.removeAllListeners = function removeAllListeners(event) { this._emitter.removeAllListeners(event); }; _proto.off = function off(event, listener, context, once) { if (context === void 0) { context = this; } this._emitter.off(event, listener, context, once); }; _proto.listeners = function listeners(event) { return this._emitter.listeners(event); }; _proto.emit = function emit(event, name, eventObject) { return this._emitter.emit(event, name, eventObject); }; _proto.trigger = function trigger(event, eventObject) { if (this.config.debug) { return this.emit(event, event, eventObject); } else { try { return this.emit(event, event, eventObject); } catch (e) { logger.error('An internal error happened while handling event ' + event + '. Error message: "' + e.message + '". Here is a stacktrace:', e); this.trigger(Events.ERROR, { type: ErrorTypes.OTHER_ERROR, details: ErrorDetails.INTERNAL_EXCEPTION, fatal: false, event: event, error: e }); } } return false; }; _proto.listenerCount = function listenerCount(event) { return this._emitter.listenerCount(event); } /** * Dispose of the instance */; _proto.destroy = function destroy() { logger.log('destroy'); this.trigger(Events.DESTROYING, undefined); this.detachMedia(); this.removeAllListeners(); this._autoLevelCapping = -1; this.url = null; this.networkControllers.forEach(function (component) { return component.destroy(); }); this.networkControllers.length = 0; this.coreComponents.forEach(function (component) { return component.destroy(); }); this.coreComponents.length = 0; // Remove any references that could be held in config options or callbacks var config = this.config; config.xhrSetup = config.fetchSetup = undefined; // @ts-ignore this.userConfig = null; } /** * Attaches Hls.js to a media element */; _proto.attachMedia = function attachMedia(media) { logger.log('attachMedia'); this._media = media; this.trigger(Events.MEDIA_ATTACHING, { media: media }); } /** * Detach Hls.js from the media */; _proto.detachMedia = function detachMedia() { logger.log('detachMedia'); this.trigger(Events.MEDIA_DETACHING, undefined); this._media = null; } /** * Set the source URL. Can be relative or absolute. */; _proto.loadSource = function loadSource(url) { this.stopLoad(); var media = this.media; var loadedSource = this.url; var loadingSource = this.url = urlToolkitExports.buildAbsoluteURL(self.location.href, url, { alwaysNormalize: true }); logger.log("loadSource:" + loadingSource); if (media && loadedSource && (loadedSource !== loadingSource || this.bufferController.hasSourceTypes())) { this.detachMedia(); this.attachMedia(media); } // when attaching to a source URL, trigger a playlist load this.trigger(Events.MANIFEST_LOADING, { url: url }); } /** * Start loading data from the stream source. * Depending on default config, client starts loading automatically when a source is set. * * @param startPosition - Set the start position to stream from. * Defaults to -1 (None: starts from earliest point) */; _proto.startLoad = function startLoad(startPosition) { if (startPosition === void 0) { startPosition = -1; } logger.log("startLoad(" + startPosition + ")"); this.networkControllers.forEach(function (controller) { controller.startLoad(startPosition); }); } /** * Stop loading of any stream data. */; _proto.stopLoad = function stopLoad() { logger.log('stopLoad'); this.networkControllers.forEach(function (controller) { controller.stopLoad(); }); } /** * Swap through possible audio codecs in the stream (for example to switch from stereo to 5.1) */; _proto.swapAudioCodec = function swapAudioCodec() { logger.log('swapAudioCodec'); this.streamController.swapAudioCodec(); } /** * When the media-element fails, this allows to detach and then re-attach it * as one call (convenience method). * * Automatic recovery of media-errors by this process is configurable. */; _proto.recoverMediaError = function recoverMediaError() { logger.log('recoverMediaError'); var media = this._media; this.detachMedia(); if (media) { this.attachMedia(media); } }; _proto.removeLevel = function removeLevel(levelIndex, urlId) { if (urlId === void 0) { urlId = 0; } this.levelController.removeLevel(levelIndex, urlId); } /** * @returns an array of levels (variants) sorted by HDCP-LEVEL, BANDWIDTH, SCORE, and RESOLUTION (height) */; _createClass(Hls, [{ key: "levels", get: function get() { var levels = this.levelController.levels; return levels ? levels : []; } /** * Index of quality level (variant) currently played */ }, { key: "currentLevel", get: function get() { return this.streamController.currentLevel; } /** * Set quality level index immediately. This will flush the current buffer to replace the quality asap. That means playback will interrupt at least shortly to re-buffer and re-sync eventually. Set to -1 for automatic level selection. */, set: function set(newLevel) { logger.log("set currentLevel:" + newLevel); this.loadLevel = newLevel; this.abrController.clearTimer(); this.streamController.immediateLevelSwitch(); } /** * Index of next quality level loaded as scheduled by stream controller. */ }, { key: "nextLevel", get: function get() { return this.streamController.nextLevel; } /** * Set quality level index for next loaded data. * This will switch the video quality asap, without interrupting playback. * May abort current loading of data, and flush parts of buffer (outside currently played fragment region). * @param newLevel - Pass -1 for automatic level selection */, set: function set(newLevel) { logger.log("set nextLevel:" + newLevel); this.levelController.manualLevel = newLevel; this.streamController.nextLevelSwitch(); } /** * Return the quality level of the currently or last (of none is loaded currently) segment */ }, { key: "loadLevel", get: function get() { return this.levelController.level; } /** * Set quality level index for next loaded data in a conservative way. * This will switch the quality without flushing, but interrupt current loading. * Thus the moment when the quality switch will appear in effect will only be after the already existing buffer. * @param newLevel - Pass -1 for automatic level selection */, set: function set(newLevel) { logger.log("set loadLevel:" + newLevel); this.levelController.manualLevel = newLevel; } /** * get next quality level loaded */ }, { key: "nextLoadLevel", get: function get() { return this.levelController.nextLoadLevel; } /** * Set quality level of next loaded segment in a fully "non-destructive" way. * Same as `loadLevel` but will wait for next switch (until current loading is done). */, set: function set(level) { this.levelController.nextLoadLevel = level; } /** * Return "first level": like a default level, if not set, * falls back to index of first level referenced in manifest */ }, { key: "firstLevel", get: function get() { return Math.max(this.levelController.firstLevel, this.minAutoLevel); } /** * Sets "first-level", see getter. */, set: function set(newLevel) { logger.log("set firstLevel:" + newLevel); this.levelController.firstLevel = newLevel; } /** * Return start level (level of first fragment that will be played back) * if not overrided by user, first level appearing in manifest will be used as start level * if -1 : automatic start level selection, playback will start from level matching download bandwidth * (determined from download of first segment) */ }, { key: "startLevel", get: function get() { return this.levelController.startLevel; } /** * set start level (level of first fragment that will be played back) * if not overrided by user, first level appearing in manifest will be used as start level * if -1 : automatic start level selection, playback will start from level matching download bandwidth * (determined from download of first segment) */, set: function set(newLevel) { logger.log("set startLevel:" + newLevel); // if not in automatic start level detection, ensure startLevel is greater than minAutoLevel if (newLevel !== -1) { newLevel = Math.max(newLevel, this.minAutoLevel); } this.levelController.startLevel = newLevel; } /** * Whether level capping is enabled. * Default value is set via `config.capLevelToPlayerSize`. */ }, { key: "capLevelToPlayerSize", get: function get() { return this.config.capLevelToPlayerSize; } /** * Enables or disables level capping. If disabled after previously enabled, `nextLevelSwitch` will be immediately called. */, set: function set(shouldStartCapping) { var newCapLevelToPlayerSize = !!shouldStartCapping; if (newCapLevelToPlayerSize !== this.config.capLevelToPlayerSize) { if (newCapLevelToPlayerSize) { this.capLevelController.startCapping(); // If capping occurs, nextLevelSwitch will happen based on size. } else { this.capLevelController.stopCapping(); this.autoLevelCapping = -1; this.streamController.nextLevelSwitch(); // Now we're uncapped, get the next level asap. } this.config.capLevelToPlayerSize = newCapLevelToPlayerSize; } } /** * Capping/max level value that should be used by automatic level selection algorithm (`ABRController`) */ }, { key: "autoLevelCapping", get: function get() { return this._autoLevelCapping; } /** * Returns the current bandwidth estimate in bits per second, when available. Otherwise, `NaN` is returned. */, set: /** * Capping/max level value that should be used by automatic level selection algorithm (`ABRController`) */ function set(newLevel) { if (this._autoLevelCapping !== newLevel) { logger.log("set autoLevelCapping:" + newLevel); this._autoLevelCapping = newLevel; } } }, { key: "bandwidthEstimate", get: function get() { var bwEstimator = this.abrController.bwEstimator; if (!bwEstimator) { return NaN; } return bwEstimator.getEstimate(); } /** * get time to first byte estimate * @type {number} */ }, { key: "ttfbEstimate", get: function get() { var bwEstimator = this.abrController.bwEstimator; if (!bwEstimator) { return NaN; } return bwEstimator.getEstimateTTFB(); } }, { key: "maxHdcpLevel", get: function get() { return this._maxHdcpLevel; }, set: function set(value) { if (HdcpLevels.indexOf(value) > -1) { this._maxHdcpLevel = value; } } /** * True when automatic level selection enabled */ }, { key: "autoLevelEnabled", get: function get() { return this.levelController.manualLevel === -1; } /** * Level set manually (if any) */ }, { key: "manualLevel", get: function get() { return this.levelController.manualLevel; } /** * min level selectable in auto mode according to config.minAutoBitrate */ }, { key: "minAutoLevel", get: function get() { var levels = this.levels, minAutoBitrate = this.config.minAutoBitrate; if (!levels) return 0; var len = levels.length; for (var i = 0; i < len; i++) { if (levels[i].maxBitrate >= minAutoBitrate) { return i; } } return 0; } /** * max level selectable in auto mode according to autoLevelCapping */ }, { key: "maxAutoLevel", get: function get() { var levels = this.levels, autoLevelCapping = this.autoLevelCapping, maxHdcpLevel = this.maxHdcpLevel; var maxAutoLevel; if (autoLevelCapping === -1 && levels && levels.length) { maxAutoLevel = levels.length - 1; } else { maxAutoLevel = autoLevelCapping; } if (maxHdcpLevel) { for (var i = maxAutoLevel; i--;) { var hdcpLevel = levels[i].attrs['HDCP-LEVEL']; if (hdcpLevel && hdcpLevel <= maxHdcpLevel) { return i; } } } return maxAutoLevel; } /** * next automatically selected quality level */ }, { key: "nextAutoLevel", get: function get() { // ensure next auto level is between min and max auto level return Math.min(Math.max(this.abrController.nextAutoLevel, this.minAutoLevel), this.maxAutoLevel); } /** * this setter is used to force next auto level. * this is useful to force a switch down in auto mode: * in case of load error on level N, hls.js can set nextAutoLevel to N-1 for example) * forced value is valid for one fragment. upon successful frag loading at forced level, * this value will be resetted to -1 by ABR controller. */, set: function set(nextLevel) { this.abrController.nextAutoLevel = Math.max(this.minAutoLevel, nextLevel); } /** * get the datetime value relative to media.currentTime for the active level Program Date Time if present */ }, { key: "playingDate", get: function get() { return this.streamController.currentProgramDateTime; } }, { key: "mainForwardBufferInfo", get: function get() { return this.streamController.getMainFwdBufferInfo(); } /** * Get the list of selectable audio tracks */ }, { key: "audioTracks", get: function get() { var audioTrackController = this.audioTrackController; return audioTrackController ? audioTrackController.audioTracks : []; } /** * index of the selected audio track (index in audio track lists) */ }, { key: "audioTrack", get: function get() { var audioTrackController = this.audioTrackController; return audioTrackController ? audioTrackController.audioTrack : -1; } /** * selects an audio track, based on its index in audio track lists */, set: function set(audioTrackId) { var audioTrackController = this.audioTrackController; if (audioTrackController) { audioTrackController.audioTrack = audioTrackId; } } /** * get alternate subtitle tracks list from playlist */ }, { key: "subtitleTracks", get: function get() { var subtitleTrackController = this.subtitleTrackController; return subtitleTrackController ? subtitleTrackController.subtitleTracks : []; } /** * index of the selected subtitle track (index in subtitle track lists) */ }, { key: "subtitleTrack", get: function get() { var subtitleTrackController = this.subtitleTrackController; return subtitleTrackController ? subtitleTrackController.subtitleTrack : -1; }, set: /** * select an subtitle track, based on its index in subtitle track lists */ function set(subtitleTrackId) { var subtitleTrackController = this.subtitleTrackController; if (subtitleTrackController) { subtitleTrackController.subtitleTrack = subtitleTrackId; } } /** * Whether subtitle display is enabled or not */ }, { key: "media", get: function get() { return this._media; } }, { key: "subtitleDisplay", get: function get() { var subtitleTrackController = this.subtitleTrackController; return subtitleTrackController ? subtitleTrackController.subtitleDisplay : false; } /** * Enable/disable subtitle display rendering */, set: function set(value) { var subtitleTrackController = this.subtitleTrackController; if (subtitleTrackController) { subtitleTrackController.subtitleDisplay = value; } } /** * get mode for Low-Latency HLS loading */ }, { key: "lowLatencyMode", get: function get() { return this.config.lowLatencyMode; } /** * Enable/disable Low-Latency HLS part playlist and segment loading, and start live streams at playlist PART-HOLD-BACK rather than HOLD-BACK. */, set: function set(mode) { this.config.lowLatencyMode = mode; } /** * Position (in seconds) of live sync point (ie edge of live position minus safety delay defined by ```hls.config.liveSyncDuration```) * @returns null prior to loading live Playlist */ }, { key: "liveSyncPosition", get: function get() { return this.latencyController.liveSyncPosition; } /** * Estimated position (in seconds) of live edge (ie edge of live playlist plus time sync playlist advanced) * @returns 0 before first playlist is loaded */ }, { key: "latency", get: function get() { return this.latencyController.latency; } /** * maximum distance from the edge before the player seeks forward to ```hls.liveSyncPosition``` * configured using ```liveMaxLatencyDurationCount``` (multiple of target duration) or ```liveMaxLatencyDuration``` * @returns 0 before first playlist is loaded */ }, { key: "maxLatency", get: function get() { return this.latencyController.maxLatency; } /** * target distance from the edge as calculated by the latency controller */ }, { key: "targetLatency", get: function get() { return this.latencyController.targetLatency; } /** * the rate at which the edge of the current live playlist is advancing or 1 if there is none */ }, { key: "drift", get: function get() { return this.latencyController.drift; } /** * set to true when startLoad is called before MANIFEST_PARSED event */ }, { key: "forceStartLoad", get: function get() { return this.streamController.forceStartLoad; } }], [{ key: "version", get: /** * Get the video-dev/hls.js package version. */ function get() { return "1.4.10"; } }, { key: "Events", get: function get() { return Events; } }, { key: "ErrorTypes", get: function get() { return ErrorTypes; } }, { key: "ErrorDetails", get: function get() { return ErrorDetails; } /** * Get the default configuration applied to new instances. */ }, { key: "DefaultConfig", get: function get() { if (!Hls.defaultConfig) { return hlsDefaultConfig; } return Hls.defaultConfig; } /** * Replace the default configuration applied to new instances. */, set: function set(defaultConfig) { Hls.defaultConfig = defaultConfig; } }]); return Hls; }(); Hls.defaultConfig = void 0; return Hls; })); })(false); //# sourceMappingURL=hls.js.map