/*! * Socket.IO v4.4.1 * (c) 2014-2022 Guillermo Rauch * Released under the MIT License. */ (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.io = factory()); })(this, (function () { 'use strict'; function _typeof(obj) { "@babel/helpers - typeof"; if (typeof Symbol === "function" && typeof Symbol.iterator === "symbol") { _typeof = function (obj) { return typeof obj; }; } else { _typeof = function (obj) { return obj && typeof Symbol === "function" && obj.constructor === Symbol && obj !== Symbol.prototype ? "symbol" : typeof obj; }; } return _typeof(obj); } function _classCallCheck(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } 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, descriptor.key, descriptor); } } function _createClass(Constructor, protoProps, staticProps) { if (protoProps) _defineProperties(Constructor.prototype, protoProps); if (staticProps) _defineProperties(Constructor, staticProps); return Constructor; } function _extends() { _extends = Object.assign || 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 _inherits(subClass, superClass) { if (typeof superClass !== "function" && superClass !== null) { throw new TypeError("Super expression must either be null or a function"); } subClass.prototype = Object.create(superClass && superClass.prototype, { constructor: { value: subClass, writable: true, configurable: true } }); if (superClass) _setPrototypeOf(subClass, superClass); } function _getPrototypeOf(o) { _getPrototypeOf = Object.setPrototypeOf ? Object.getPrototypeOf : function _getPrototypeOf(o) { return o.__proto__ || Object.getPrototypeOf(o); }; return _getPrototypeOf(o); } function _setPrototypeOf(o, p) { _setPrototypeOf = Object.setPrototypeOf || 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 _assertThisInitialized(self) { if (self === void 0) { throw new ReferenceError("this hasn't been initialised - super() hasn't been called"); } return self; } function _possibleConstructorReturn(self, call) { if (call && (typeof call === "object" || typeof call === "function")) { return call; } else if (call !== void 0) { throw new TypeError("Derived constructors may only return object or undefined"); } return _assertThisInitialized(self); } function _createSuper(Derived) { var hasNativeReflectConstruct = _isNativeReflectConstruct(); return function _createSuperInternal() { var Super = _getPrototypeOf(Derived), result; if (hasNativeReflectConstruct) { var NewTarget = _getPrototypeOf(this).constructor; result = Reflect.construct(Super, arguments, NewTarget); } else { result = Super.apply(this, arguments); } return _possibleConstructorReturn(this, result); }; } function _superPropBase(object, property) { while (!Object.prototype.hasOwnProperty.call(object, property)) { object = _getPrototypeOf(object); if (object === null) break; } return object; } function _get(target, property, receiver) { if (typeof Reflect !== "undefined" && Reflect.get) { _get = Reflect.get; } else { _get = function _get(target, property, receiver) { var base = _superPropBase(target, property); if (!base) return; var desc = Object.getOwnPropertyDescriptor(base, property); if (desc.get) { return desc.get.call(receiver); } return desc.value; }; } return _get(target, property, receiver || target); } 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$/.test(n)) return _arrayLikeToArray(o, minLen); } function _arrayLikeToArray(arr, len) { if (len == null || len > arr.length) len = arr.length; for (var i = 0, arr2 = new Array(len); i < len; i++) arr2[i] = arr[i]; return arr2; } function _createForOfIteratorHelper(o, allowArrayLike) { var it = typeof Symbol !== "undefined" && o[Symbol.iterator] || o["@@iterator"]; if (!it) { if (Array.isArray(o) || (it = _unsupportedIterableToArray(o)) || allowArrayLike && o && typeof o.length === "number") { if (it) o = it; var i = 0; var F = function () {}; return { s: F, n: function () { if (i >= o.length) return { done: true }; return { done: false, value: o[i++] }; }, e: function (e) { throw e; }, f: F }; } throw new TypeError("Invalid attempt to iterate non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method."); } var normalCompletion = true, didErr = false, err; return { s: function () { it = it.call(o); }, n: function () { var step = it.next(); normalCompletion = step.done; return step; }, e: function (e) { didErr = true; err = e; }, f: function () { try { if (!normalCompletion && it.return != null) it.return(); } finally { if (didErr) throw err; } } }; } /** * Parses an URI * * @author Steven Levithan (MIT license) * @api private */ var re = /^(?:(?![^:@]+:[^:@\/]*@)(http|https|ws|wss):\/\/)?((?:(([^:@]*)(?::([^:@]*))?)?@)?((?:[a-f0-9]{0,4}:){2,7}[a-f0-9]{0,4}|[^:\/?#]*)(?::(\d*))?)(((\/(?:[^?#](?![^?#\/]*\.[^?#\/.]+(?:[?#]|$)))*\/?)?([^?#\/]*))(?:\?([^#]*))?(?:#(.*))?)/; var parts = ['source', 'protocol', 'authority', 'userInfo', 'user', 'password', 'host', 'port', 'relative', 'path', 'directory', 'file', 'query', 'anchor']; var parseuri = function parseuri(str) { var src = str, b = str.indexOf('['), e = str.indexOf(']'); if (b != -1 && e != -1) { str = str.substring(0, b) + str.substring(b, e).replace(/:/g, ';') + str.substring(e, str.length); } var m = re.exec(str || ''), uri = {}, i = 14; while (i--) { uri[parts[i]] = m[i] || ''; } if (b != -1 && e != -1) { uri.source = src; uri.host = uri.host.substring(1, uri.host.length - 1).replace(/;/g, ':'); uri.authority = uri.authority.replace('[', '').replace(']', '').replace(/;/g, ':'); uri.ipv6uri = true; } uri.pathNames = pathNames(uri, uri['path']); uri.queryKey = queryKey(uri, uri['query']); return uri; }; function pathNames(obj, path) { var regx = /\/{2,9}/g, names = path.replace(regx, "/").split("/"); if (path.substr(0, 1) == '/' || path.length === 0) { names.splice(0, 1); } if (path.substr(path.length - 1, 1) == '/') { names.splice(names.length - 1, 1); } return names; } function queryKey(uri, query) { var data = {}; query.replace(/(?:^|&)([^&=]*)=?([^&]*)/g, function ($0, $1, $2) { if ($1) { data[$1] = $2; } }); return data; } /** * URL parser. * * @param uri - url * @param path - the request path of the connection * @param loc - An object meant to mimic window.location. * Defaults to window.location. * @public */ function url(uri) { var path = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : ""; var loc = arguments.length > 2 ? arguments[2] : undefined; var obj = uri; // default to window.location loc = loc || typeof location !== "undefined" && location; if (null == uri) uri = loc.protocol + "//" + loc.host; // relative path support if (typeof uri === "string") { if ("/" === uri.charAt(0)) { if ("/" === uri.charAt(1)) { uri = loc.protocol + uri; } else { uri = loc.host + uri; } } if (!/^(https?|wss?):\/\//.test(uri)) { if ("undefined" !== typeof loc) { uri = loc.protocol + "//" + uri; } else { uri = "https://" + uri; } } // parse obj = parseuri(uri); } // make sure we treat `localhost:80` and `localhost` equally if (!obj.port) { if (/^(http|ws)$/.test(obj.protocol)) { obj.port = "80"; } else if (/^(http|ws)s$/.test(obj.protocol)) { obj.port = "443"; } } obj.path = obj.path || "/"; var ipv6 = obj.host.indexOf(":") !== -1; var host = ipv6 ? "[" + obj.host + "]" : obj.host; // define unique id obj.id = obj.protocol + "://" + host + ":" + obj.port + path; // define href obj.href = obj.protocol + "://" + host + (loc && loc.port === obj.port ? "" : ":" + obj.port); return obj; } var hasCors = {exports: {}}; /** * Module exports. * * Logic borrowed from Modernizr: * * - https://github.com/Modernizr/Modernizr/blob/master/feature-detects/cors.js */ try { hasCors.exports = typeof XMLHttpRequest !== 'undefined' && 'withCredentials' in new XMLHttpRequest(); } catch (err) { // if XMLHttp support is disabled in IE then it will throw // when trying to create hasCors.exports = false; } var hasCORS = hasCors.exports; var globalThis = (function () { if (typeof self !== "undefined") { return self; } else if (typeof window !== "undefined") { return window; } else { return Function("return this")(); } })(); // browser shim for xmlhttprequest module function XMLHttpRequest$1 (opts) { var xdomain = opts.xdomain; // XMLHttpRequest can be disabled on IE try { if ("undefined" !== typeof XMLHttpRequest && (!xdomain || hasCORS)) { return new XMLHttpRequest(); } } catch (e) {} if (!xdomain) { try { return new globalThis[["Active"].concat("Object").join("X")]("Microsoft.XMLHTTP"); } catch (e) {} } } function pick(obj) { for (var _len = arguments.length, attr = new Array(_len > 1 ? _len - 1 : 0), _key = 1; _key < _len; _key++) { attr[_key - 1] = arguments[_key]; } return attr.reduce(function (acc, k) { if (obj.hasOwnProperty(k)) { acc[k] = obj[k]; } return acc; }, {}); } // Keep a reference to the real timeout functions so they can be used when overridden var NATIVE_SET_TIMEOUT = setTimeout; var NATIVE_CLEAR_TIMEOUT = clearTimeout; function installTimerFunctions(obj, opts) { if (opts.useNativeTimers) { obj.setTimeoutFn = NATIVE_SET_TIMEOUT.bind(globalThis); obj.clearTimeoutFn = NATIVE_CLEAR_TIMEOUT.bind(globalThis); } else { obj.setTimeoutFn = setTimeout.bind(globalThis); obj.clearTimeoutFn = clearTimeout.bind(globalThis); } } /** * Expose `Emitter`. */ var Emitter_1 = Emitter; /** * Initialize a new `Emitter`. * * @api public */ function Emitter(obj) { if (obj) return mixin(obj); } /** * Mixin the emitter properties. * * @param {Object} obj * @return {Object} * @api private */ function mixin(obj) { for (var key in Emitter.prototype) { obj[key] = Emitter.prototype[key]; } return obj; } /** * Listen on the given `event` with `fn`. * * @param {String} event * @param {Function} fn * @return {Emitter} * @api public */ Emitter.prototype.on = Emitter.prototype.addEventListener = function (event, fn) { this._callbacks = this._callbacks || {}; (this._callbacks['$' + event] = this._callbacks['$' + event] || []).push(fn); return this; }; /** * Adds an `event` listener that will be invoked a single * time then automatically removed. * * @param {String} event * @param {Function} fn * @return {Emitter} * @api public */ Emitter.prototype.once = function (event, fn) { function on() { this.off(event, on); fn.apply(this, arguments); } on.fn = fn; this.on(event, on); return this; }; /** * Remove the given callback for `event` or all * registered callbacks. * * @param {String} event * @param {Function} fn * @return {Emitter} * @api public */ Emitter.prototype.off = Emitter.prototype.removeListener = Emitter.prototype.removeAllListeners = Emitter.prototype.removeEventListener = function (event, fn) { this._callbacks = this._callbacks || {}; // all if (0 == arguments.length) { this._callbacks = {}; return this; } // specific event var callbacks = this._callbacks['$' + event]; if (!callbacks) return this; // remove all handlers if (1 == arguments.length) { delete this._callbacks['$' + event]; return this; } // remove specific handler var cb; for (var i = 0; i < callbacks.length; i++) { cb = callbacks[i]; if (cb === fn || cb.fn === fn) { callbacks.splice(i, 1); break; } } // Remove event specific arrays for event types that no // one is subscribed for to avoid memory leak. if (callbacks.length === 0) { delete this._callbacks['$' + event]; } return this; }; /** * Emit `event` with the given args. * * @param {String} event * @param {Mixed} ... * @return {Emitter} */ Emitter.prototype.emit = function (event) { this._callbacks = this._callbacks || {}; var args = new Array(arguments.length - 1), callbacks = this._callbacks['$' + event]; for (var i = 1; i < arguments.length; i++) { args[i - 1] = arguments[i]; } if (callbacks) { callbacks = callbacks.slice(0); for (var i = 0, len = callbacks.length; i < len; ++i) { callbacks[i].apply(this, args); } } return this; }; // alias used for reserved events (protected method) Emitter.prototype.emitReserved = Emitter.prototype.emit; /** * Return array of callbacks for `event`. * * @param {String} event * @return {Array} * @api public */ Emitter.prototype.listeners = function (event) { this._callbacks = this._callbacks || {}; return this._callbacks['$' + event] || []; }; /** * Check if this emitter has `event` handlers. * * @param {String} event * @return {Boolean} * @api public */ Emitter.prototype.hasListeners = function (event) { return !!this.listeners(event).length; }; var PACKET_TYPES = Object.create(null); // no Map = no polyfill PACKET_TYPES["open"] = "0"; PACKET_TYPES["close"] = "1"; PACKET_TYPES["ping"] = "2"; PACKET_TYPES["pong"] = "3"; PACKET_TYPES["message"] = "4"; PACKET_TYPES["upgrade"] = "5"; PACKET_TYPES["noop"] = "6"; var PACKET_TYPES_REVERSE = Object.create(null); Object.keys(PACKET_TYPES).forEach(function (key) { PACKET_TYPES_REVERSE[PACKET_TYPES[key]] = key; }); var ERROR_PACKET = { type: "error", data: "parser error" }; var withNativeBlob$1 = typeof Blob === "function" || typeof Blob !== "undefined" && Object.prototype.toString.call(Blob) === "[object BlobConstructor]"; var withNativeArrayBuffer$2 = typeof ArrayBuffer === "function"; // ArrayBuffer.isView method is not defined in IE10 var isView$1 = function isView(obj) { return typeof ArrayBuffer.isView === "function" ? ArrayBuffer.isView(obj) : obj && obj.buffer instanceof ArrayBuffer; }; var encodePacket = function encodePacket(_ref, supportsBinary, callback) { var type = _ref.type, data = _ref.data; if (withNativeBlob$1 && data instanceof Blob) { if (supportsBinary) { return callback(data); } else { return encodeBlobAsBase64(data, callback); } } else if (withNativeArrayBuffer$2 && (data instanceof ArrayBuffer || isView$1(data))) { if (supportsBinary) { return callback(data); } else { return encodeBlobAsBase64(new Blob([data]), callback); } } // plain string return callback(PACKET_TYPES[type] + (data || "")); }; var encodeBlobAsBase64 = function encodeBlobAsBase64(data, callback) { var fileReader = new FileReader(); fileReader.onload = function () { var content = fileReader.result.split(",")[1]; callback("b" + content); }; return fileReader.readAsDataURL(data); }; /* * base64-arraybuffer 1.0.1 * Copyright (c) 2021 Niklas von Hertzen * Released under MIT License */ var chars = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/'; // Use a lookup table to find the index. var lookup$1 = typeof Uint8Array === 'undefined' ? [] : new Uint8Array(256); for (var i$1 = 0; i$1 < chars.length; i$1++) { lookup$1[chars.charCodeAt(i$1)] = i$1; } var decode$1 = function decode(base64) { var bufferLength = base64.length * 0.75, len = base64.length, i, p = 0, encoded1, encoded2, encoded3, encoded4; if (base64[base64.length - 1] === '=') { bufferLength--; if (base64[base64.length - 2] === '=') { bufferLength--; } } var arraybuffer = new ArrayBuffer(bufferLength), bytes = new Uint8Array(arraybuffer); for (i = 0; i < len; i += 4) { encoded1 = lookup$1[base64.charCodeAt(i)]; encoded2 = lookup$1[base64.charCodeAt(i + 1)]; encoded3 = lookup$1[base64.charCodeAt(i + 2)]; encoded4 = lookup$1[base64.charCodeAt(i + 3)]; bytes[p++] = encoded1 << 2 | encoded2 >> 4; bytes[p++] = (encoded2 & 15) << 4 | encoded3 >> 2; bytes[p++] = (encoded3 & 3) << 6 | encoded4 & 63; } return arraybuffer; }; var withNativeArrayBuffer$1 = typeof ArrayBuffer === "function"; var decodePacket = function decodePacket(encodedPacket, binaryType) { if (typeof encodedPacket !== "string") { return { type: "message", data: mapBinary(encodedPacket, binaryType) }; } var type = encodedPacket.charAt(0); if (type === "b") { return { type: "message", data: decodeBase64Packet(encodedPacket.substring(1), binaryType) }; } var packetType = PACKET_TYPES_REVERSE[type]; if (!packetType) { return ERROR_PACKET; } return encodedPacket.length > 1 ? { type: PACKET_TYPES_REVERSE[type], data: encodedPacket.substring(1) } : { type: PACKET_TYPES_REVERSE[type] }; }; var decodeBase64Packet = function decodeBase64Packet(data, binaryType) { if (withNativeArrayBuffer$1) { var decoded = decode$1(data); return mapBinary(decoded, binaryType); } else { return { base64: true, data: data }; // fallback for old browsers } }; var mapBinary = function mapBinary(data, binaryType) { switch (binaryType) { case "blob": return data instanceof ArrayBuffer ? new Blob([data]) : data; case "arraybuffer": default: return data; // assuming the data is already an ArrayBuffer } }; var SEPARATOR = String.fromCharCode(30); // see https://en.wikipedia.org/wiki/Delimiter#ASCII_delimited_text var encodePayload = function encodePayload(packets, callback) { // some packets may be added to the array while encoding, so the initial length must be saved var length = packets.length; var encodedPackets = new Array(length); var count = 0; packets.forEach(function (packet, i) { // force base64 encoding for binary packets encodePacket(packet, false, function (encodedPacket) { encodedPackets[i] = encodedPacket; if (++count === length) { callback(encodedPackets.join(SEPARATOR)); } }); }); }; var decodePayload = function decodePayload(encodedPayload, binaryType) { var encodedPackets = encodedPayload.split(SEPARATOR); var packets = []; for (var i = 0; i < encodedPackets.length; i++) { var decodedPacket = decodePacket(encodedPackets[i], binaryType); packets.push(decodedPacket); if (decodedPacket.type === "error") { break; } } return packets; }; var protocol$1 = 4; var Transport = /*#__PURE__*/function (_Emitter) { _inherits(Transport, _Emitter); var _super = _createSuper(Transport); /** * Transport abstract constructor. * * @param {Object} options. * @api private */ function Transport(opts) { var _this; _classCallCheck(this, Transport); _this = _super.call(this); _this.writable = false; installTimerFunctions(_assertThisInitialized(_this), opts); _this.opts = opts; _this.query = opts.query; _this.readyState = ""; _this.socket = opts.socket; return _this; } /** * Emits an error. * * @param {String} str * @return {Transport} for chaining * @api protected */ _createClass(Transport, [{ key: "onError", value: function onError(msg, desc) { var err = new Error(msg); // @ts-ignore err.type = "TransportError"; // @ts-ignore err.description = desc; _get(_getPrototypeOf(Transport.prototype), "emit", this).call(this, "error", err); return this; } /** * Opens the transport. * * @api public */ }, { key: "open", value: function open() { if ("closed" === this.readyState || "" === this.readyState) { this.readyState = "opening"; this.doOpen(); } return this; } /** * Closes the transport. * * @api public */ }, { key: "close", value: function close() { if ("opening" === this.readyState || "open" === this.readyState) { this.doClose(); this.onClose(); } return this; } /** * Sends multiple packets. * * @param {Array} packets * @api public */ }, { key: "send", value: function send(packets) { if ("open" === this.readyState) { this.write(packets); } } /** * Called upon open * * @api protected */ }, { key: "onOpen", value: function onOpen() { this.readyState = "open"; this.writable = true; _get(_getPrototypeOf(Transport.prototype), "emit", this).call(this, "open"); } /** * Called with data. * * @param {String} data * @api protected */ }, { key: "onData", value: function onData(data) { var packet = decodePacket(data, this.socket.binaryType); this.onPacket(packet); } /** * Called with a decoded packet. * * @api protected */ }, { key: "onPacket", value: function onPacket(packet) { _get(_getPrototypeOf(Transport.prototype), "emit", this).call(this, "packet", packet); } /** * Called upon close. * * @api protected */ }, { key: "onClose", value: function onClose() { this.readyState = "closed"; _get(_getPrototypeOf(Transport.prototype), "emit", this).call(this, "close"); } }]); return Transport; }(Emitter_1); var alphabet = '0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz-_'.split(''), length = 64, map = {}, seed = 0, i = 0, prev; /** * Return a string representing the specified number. * * @param {Number} num The number to convert. * @returns {String} The string representation of the number. * @api public */ function encode(num) { var encoded = ''; do { encoded = alphabet[num % length] + encoded; num = Math.floor(num / length); } while (num > 0); return encoded; } /** * Return the integer value specified by the given string. * * @param {String} str The string to convert. * @returns {Number} The integer value represented by the string. * @api public */ function decode(str) { var decoded = 0; for (i = 0; i < str.length; i++) { decoded = decoded * length + map[str.charAt(i)]; } return decoded; } /** * Yeast: A tiny growing id generator. * * @returns {String} A unique id. * @api public */ function yeast() { var now = encode(+new Date()); if (now !== prev) return seed = 0, prev = now; return now + '.' + encode(seed++); } // // Map each character to its index. // for (; i < length; i++) { map[alphabet[i]] = i; } // // Expose the `yeast`, `encode` and `decode` functions. // yeast.encode = encode; yeast.decode = decode; var yeast_1 = yeast; var parseqs = {}; /** * Compiles a querystring * Returns string representation of the object * * @param {Object} * @api private */ parseqs.encode = function (obj) { var str = ''; for (var i in obj) { if (obj.hasOwnProperty(i)) { if (str.length) str += '&'; str += encodeURIComponent(i) + '=' + encodeURIComponent(obj[i]); } } return str; }; /** * Parses a simple querystring into an object * * @param {String} qs * @api private */ parseqs.decode = function (qs) { var qry = {}; var pairs = qs.split('&'); for (var i = 0, l = pairs.length; i < l; i++) { var pair = pairs[i].split('='); qry[decodeURIComponent(pair[0])] = decodeURIComponent(pair[1]); } return qry; }; var Polling = /*#__PURE__*/function (_Transport) { _inherits(Polling, _Transport); var _super = _createSuper(Polling); function Polling() { var _this; _classCallCheck(this, Polling); _this = _super.apply(this, arguments); _this.polling = false; return _this; } /** * Transport name. */ _createClass(Polling, [{ key: "name", get: function get() { return "polling"; } /** * Opens the socket (triggers polling). We write a PING message to determine * when the transport is open. * * @api private */ }, { key: "doOpen", value: function doOpen() { this.poll(); } /** * Pauses polling. * * @param {Function} callback upon buffers are flushed and transport is paused * @api private */ }, { key: "pause", value: function pause(onPause) { var _this2 = this; this.readyState = "pausing"; var pause = function pause() { _this2.readyState = "paused"; onPause(); }; if (this.polling || !this.writable) { var total = 0; if (this.polling) { total++; this.once("pollComplete", function () { --total || pause(); }); } if (!this.writable) { total++; this.once("drain", function () { --total || pause(); }); } } else { pause(); } } /** * Starts polling cycle. * * @api public */ }, { key: "poll", value: function poll() { this.polling = true; this.doPoll(); this.emit("poll"); } /** * Overloads onData to detect payloads. * * @api private */ }, { key: "onData", value: function onData(data) { var _this3 = this; var callback = function callback(packet) { // if its the first message we consider the transport open if ("opening" === _this3.readyState && packet.type === "open") { _this3.onOpen(); } // if its a close packet, we close the ongoing requests if ("close" === packet.type) { _this3.onClose(); return false; } // otherwise bypass onData and handle the message _this3.onPacket(packet); }; // decode payload decodePayload(data, this.socket.binaryType).forEach(callback); // if an event did not trigger closing if ("closed" !== this.readyState) { // if we got data we're not polling this.polling = false; this.emit("pollComplete"); if ("open" === this.readyState) { this.poll(); } } } /** * For polling, send a close packet. * * @api private */ }, { key: "doClose", value: function doClose() { var _this4 = this; var close = function close() { _this4.write([{ type: "close" }]); }; if ("open" === this.readyState) { close(); } else { // in case we're trying to close while // handshaking is in progress (GH-164) this.once("open", close); } } /** * Writes a packets payload. * * @param {Array} data packets * @param {Function} drain callback * @api private */ }, { key: "write", value: function write(packets) { var _this5 = this; this.writable = false; encodePayload(packets, function (data) { _this5.doWrite(data, function () { _this5.writable = true; _this5.emit("drain"); }); }); } /** * Generates uri for connection. * * @api private */ }, { key: "uri", value: function uri() { var query = this.query || {}; var schema = this.opts.secure ? "https" : "http"; var port = ""; // cache busting is forced if (false !== this.opts.timestampRequests) { query[this.opts.timestampParam] = yeast_1(); } if (!this.supportsBinary && !query.sid) { query.b64 = 1; } // avoid port if default for schema if (this.opts.port && ("https" === schema && Number(this.opts.port) !== 443 || "http" === schema && Number(this.opts.port) !== 80)) { port = ":" + this.opts.port; } var encodedQuery = parseqs.encode(query); var ipv6 = this.opts.hostname.indexOf(":") !== -1; return schema + "://" + (ipv6 ? "[" + this.opts.hostname + "]" : this.opts.hostname) + port + this.opts.path + (encodedQuery.length ? "?" + encodedQuery : ""); } }]); return Polling; }(Transport); /** * Empty function */ function empty() {} var hasXHR2 = function () { var xhr = new XMLHttpRequest$1({ xdomain: false }); return null != xhr.responseType; }(); var XHR = /*#__PURE__*/function (_Polling) { _inherits(XHR, _Polling); var _super = _createSuper(XHR); /** * XHR Polling constructor. * * @param {Object} opts * @api public */ function XHR(opts) { var _this; _classCallCheck(this, XHR); _this = _super.call(this, opts); if (typeof location !== "undefined") { var isSSL = "https:" === location.protocol; var port = location.port; // some user agents have empty `location.port` if (!port) { port = isSSL ? "443" : "80"; } _this.xd = typeof location !== "undefined" && opts.hostname !== location.hostname || port !== opts.port; _this.xs = opts.secure !== isSSL; } /** * XHR supports binary */ var forceBase64 = opts && opts.forceBase64; _this.supportsBinary = hasXHR2 && !forceBase64; return _this; } /** * Creates a request. * * @param {String} method * @api private */ _createClass(XHR, [{ key: "request", value: function request() { var opts = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : {}; _extends(opts, { xd: this.xd, xs: this.xs }, this.opts); return new Request(this.uri(), opts); } /** * Sends data. * * @param {String} data to send. * @param {Function} called upon flush. * @api private */ }, { key: "doWrite", value: function doWrite(data, fn) { var _this2 = this; var req = this.request({ method: "POST", data: data }); req.on("success", fn); req.on("error", function (err) { _this2.onError("xhr post error", err); }); } /** * Starts a poll cycle. * * @api private */ }, { key: "doPoll", value: function doPoll() { var _this3 = this; var req = this.request(); req.on("data", this.onData.bind(this)); req.on("error", function (err) { _this3.onError("xhr poll error", err); }); this.pollXhr = req; } }]); return XHR; }(Polling); var Request = /*#__PURE__*/function (_Emitter) { _inherits(Request, _Emitter); var _super2 = _createSuper(Request); /** * Request constructor * * @param {Object} options * @api public */ function Request(uri, opts) { var _this4; _classCallCheck(this, Request); _this4 = _super2.call(this); installTimerFunctions(_assertThisInitialized(_this4), opts); _this4.opts = opts; _this4.method = opts.method || "GET"; _this4.uri = uri; _this4.async = false !== opts.async; _this4.data = undefined !== opts.data ? opts.data : null; _this4.create(); return _this4; } /** * Creates the XHR object and sends the request. * * @api private */ _createClass(Request, [{ key: "create", value: function create() { var _this5 = this; var opts = pick(this.opts, "agent", "pfx", "key", "passphrase", "cert", "ca", "ciphers", "rejectUnauthorized", "autoUnref"); opts.xdomain = !!this.opts.xd; opts.xscheme = !!this.opts.xs; var xhr = this.xhr = new XMLHttpRequest$1(opts); try { xhr.open(this.method, this.uri, this.async); try { if (this.opts.extraHeaders) { xhr.setDisableHeaderCheck && xhr.setDisableHeaderCheck(true); for (var i in this.opts.extraHeaders) { if (this.opts.extraHeaders.hasOwnProperty(i)) { xhr.setRequestHeader(i, this.opts.extraHeaders[i]); } } } } catch (e) {} if ("POST" === this.method) { try { xhr.setRequestHeader("Content-type", "text/plain;charset=UTF-8"); } catch (e) {} } try { xhr.setRequestHeader("Accept", "*/*"); } catch (e) {} // ie6 check if ("withCredentials" in xhr) { xhr.withCredentials = this.opts.withCredentials; } if (this.opts.requestTimeout) { xhr.timeout = this.opts.requestTimeout; } xhr.onreadystatechange = function () { if (4 !== xhr.readyState) return; if (200 === xhr.status || 1223 === xhr.status) { _this5.onLoad(); } else { // make sure the `error` event handler that's user-set // does not throw in the same tick and gets caught here _this5.setTimeoutFn(function () { _this5.onError(typeof xhr.status === "number" ? xhr.status : 0); }, 0); } }; xhr.send(this.data); } catch (e) { // Need to defer since .create() is called directly from the constructor // and thus the 'error' event can only be only bound *after* this exception // occurs. Therefore, also, we cannot throw here at all. this.setTimeoutFn(function () { _this5.onError(e); }, 0); return; } if (typeof document !== "undefined") { this.index = Request.requestsCount++; Request.requests[this.index] = this; } } /** * Called upon successful response. * * @api private */ }, { key: "onSuccess", value: function onSuccess() { this.emit("success"); this.cleanup(); } /** * Called if we have data. * * @api private */ }, { key: "onData", value: function onData(data) { this.emit("data", data); this.onSuccess(); } /** * Called upon error. * * @api private */ }, { key: "onError", value: function onError(err) { this.emit("error", err); this.cleanup(true); } /** * Cleans up house. * * @api private */ }, { key: "cleanup", value: function cleanup(fromError) { if ("undefined" === typeof this.xhr || null === this.xhr) { return; } this.xhr.onreadystatechange = empty; if (fromError) { try { this.xhr.abort(); } catch (e) {} } if (typeof document !== "undefined") { delete Request.requests[this.index]; } this.xhr = null; } /** * Called upon load. * * @api private */ }, { key: "onLoad", value: function onLoad() { var data = this.xhr.responseText; if (data !== null) { this.onData(data); } } /** * Aborts the request. * * @api public */ }, { key: "abort", value: function abort() { this.cleanup(); } }]); return Request; }(Emitter_1); Request.requestsCount = 0; Request.requests = {}; /** * Aborts pending requests when unloading the window. This is needed to prevent * memory leaks (e.g. when using IE) and to ensure that no spurious error is * emitted. */ if (typeof document !== "undefined") { // @ts-ignore if (typeof attachEvent === "function") { // @ts-ignore attachEvent("onunload", unloadHandler); } else if (typeof addEventListener === "function") { var terminationEvent = "onpagehide" in globalThis ? "pagehide" : "unload"; addEventListener(terminationEvent, unloadHandler, false); } } function unloadHandler() { for (var i in Request.requests) { if (Request.requests.hasOwnProperty(i)) { Request.requests[i].abort(); } } } var nextTick = function () { var isPromiseAvailable = typeof Promise === "function" && typeof Promise.resolve === "function"; if (isPromiseAvailable) { return function (cb) { return Promise.resolve().then(cb); }; } else { return function (cb, setTimeoutFn) { return setTimeoutFn(cb, 0); }; } }(); var WebSocket = globalThis.WebSocket || globalThis.MozWebSocket; var usingBrowserWebSocket = true; var defaultBinaryType = "arraybuffer"; var isReactNative = typeof navigator !== "undefined" && typeof navigator.product === "string" && navigator.product.toLowerCase() === "reactnative"; var WS = /*#__PURE__*/function (_Transport) { _inherits(WS, _Transport); var _super = _createSuper(WS); /** * WebSocket transport constructor. * * @api {Object} connection options * @api public */ function WS(opts) { var _this; _classCallCheck(this, WS); _this = _super.call(this, opts); _this.supportsBinary = !opts.forceBase64; return _this; } /** * Transport name. * * @api public */ _createClass(WS, [{ key: "name", get: function get() { return "websocket"; } /** * Opens socket. * * @api private */ }, { key: "doOpen", value: function doOpen() { if (!this.check()) { // let probe timeout return; } var uri = this.uri(); var protocols = this.opts.protocols; // React Native only supports the 'headers' option, and will print a warning if anything else is passed var opts = isReactNative ? {} : pick(this.opts, "agent", "perMessageDeflate", "pfx", "key", "passphrase", "cert", "ca", "ciphers", "rejectUnauthorized", "localAddress", "protocolVersion", "origin", "maxPayload", "family", "checkServerIdentity"); if (this.opts.extraHeaders) { opts.headers = this.opts.extraHeaders; } try { this.ws = usingBrowserWebSocket && !isReactNative ? protocols ? new WebSocket(uri, protocols) : new WebSocket(uri) : new WebSocket(uri, protocols, opts); } catch (err) { return this.emit("error", err); } this.ws.binaryType = this.socket.binaryType || defaultBinaryType; this.addEventListeners(); } /** * Adds event listeners to the socket * * @api private */ }, { key: "addEventListeners", value: function addEventListeners() { var _this2 = this; this.ws.onopen = function () { if (_this2.opts.autoUnref) { _this2.ws._socket.unref(); } _this2.onOpen(); }; this.ws.onclose = this.onClose.bind(this); this.ws.onmessage = function (ev) { return _this2.onData(ev.data); }; this.ws.onerror = function (e) { return _this2.onError("websocket error", e); }; } /** * Writes data to socket. * * @param {Array} array of packets. * @api private */ }, { key: "write", value: function write(packets) { var _this3 = this; this.writable = false; // encodePacket efficient as it uses WS framing // no need for encodePayload var _loop = function _loop(i) { var packet = packets[i]; var lastPacket = i === packets.length - 1; encodePacket(packet, _this3.supportsBinary, function (data) { // always create a new object (GH-437) var opts = {}; // have a chance of informing us about it yet, in that case send will // throw an error try { if (usingBrowserWebSocket) { // TypeError is thrown when passing the second argument on Safari _this3.ws.send(data); } } catch (e) {} if (lastPacket) { // fake drain // defer to next tick to allow Socket to clear writeBuffer nextTick(function () { _this3.writable = true; _this3.emit("drain"); }, _this3.setTimeoutFn); } }); }; for (var i = 0; i < packets.length; i++) { _loop(i); } } /** * Closes socket. * * @api private */ }, { key: "doClose", value: function doClose() { if (typeof this.ws !== "undefined") { this.ws.close(); this.ws = null; } } /** * Generates uri for connection. * * @api private */ }, { key: "uri", value: function uri() { var query = this.query || {}; var schema = this.opts.secure ? "wss" : "ws"; var port = ""; // avoid port if default for schema if (this.opts.port && ("wss" === schema && Number(this.opts.port) !== 443 || "ws" === schema && Number(this.opts.port) !== 80)) { port = ":" + this.opts.port; } // append timestamp to URI if (this.opts.timestampRequests) { query[this.opts.timestampParam] = yeast_1(); } // communicate binary support capabilities if (!this.supportsBinary) { query.b64 = 1; } var encodedQuery = parseqs.encode(query); var ipv6 = this.opts.hostname.indexOf(":") !== -1; return schema + "://" + (ipv6 ? "[" + this.opts.hostname + "]" : this.opts.hostname) + port + this.opts.path + (encodedQuery.length ? "?" + encodedQuery : ""); } /** * Feature detection for WebSocket. * * @return {Boolean} whether this transport is available. * @api public */ }, { key: "check", value: function check() { return !!WebSocket && !("__initialize" in WebSocket && this.name === WS.prototype.name); } }]); return WS; }(Transport); var transports = { websocket: WS, polling: XHR }; var Socket$1 = /*#__PURE__*/function (_Emitter) { _inherits(Socket, _Emitter); var _super = _createSuper(Socket); /** * Socket constructor. * * @param {String|Object} uri or options * @param {Object} opts - options * @api public */ function Socket(uri) { var _this; var opts = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {}; _classCallCheck(this, Socket); _this = _super.call(this); if (uri && "object" === _typeof(uri)) { opts = uri; uri = null; } if (uri) { uri = parseuri(uri); opts.hostname = uri.host; opts.secure = uri.protocol === "https" || uri.protocol === "wss"; opts.port = uri.port; if (uri.query) opts.query = uri.query; } else if (opts.host) { opts.hostname = parseuri(opts.host).host; } installTimerFunctions(_assertThisInitialized(_this), opts); _this.secure = null != opts.secure ? opts.secure : typeof location !== "undefined" && "https:" === location.protocol; if (opts.hostname && !opts.port) { // if no port is specified manually, use the protocol default opts.port = _this.secure ? "443" : "80"; } _this.hostname = opts.hostname || (typeof location !== "undefined" ? location.hostname : "localhost"); _this.port = opts.port || (typeof location !== "undefined" && location.port ? location.port : _this.secure ? "443" : "80"); _this.transports = opts.transports || ["polling", "websocket"]; _this.readyState = ""; _this.writeBuffer = []; _this.prevBufferLen = 0; _this.opts = _extends({ path: "/engine.io", agent: false, withCredentials: false, upgrade: true, timestampParam: "t", rememberUpgrade: false, rejectUnauthorized: true, perMessageDeflate: { threshold: 1024 }, transportOptions: {}, closeOnBeforeunload: true }, opts); _this.opts.path = _this.opts.path.replace(/\/$/, "") + "/"; if (typeof _this.opts.query === "string") { _this.opts.query = parseqs.decode(_this.opts.query); } // set on handshake _this.id = null; _this.upgrades = null; _this.pingInterval = null; _this.pingTimeout = null; // set on heartbeat _this.pingTimeoutTimer = null; if (typeof addEventListener === "function") { if (_this.opts.closeOnBeforeunload) { // Firefox closes the connection when the "beforeunload" event is emitted but not Chrome. This event listener // ensures every browser behaves the same (no "disconnect" event at the Socket.IO level when the page is // closed/reloaded) addEventListener("beforeunload", function () { if (_this.transport) { // silently close the transport _this.transport.removeAllListeners(); _this.transport.close(); } }, false); } if (_this.hostname !== "localhost") { _this.offlineEventListener = function () { _this.onClose("transport close"); }; addEventListener("offline", _this.offlineEventListener, false); } } _this.open(); return _this; } /** * Creates transport of the given type. * * @param {String} transport name * @return {Transport} * @api private */ _createClass(Socket, [{ key: "createTransport", value: function createTransport(name) { var query = clone(this.opts.query); // append engine.io protocol identifier query.EIO = protocol$1; // transport name query.transport = name; // session id if we already have one if (this.id) query.sid = this.id; var opts = _extends({}, this.opts.transportOptions[name], this.opts, { query: query, socket: this, hostname: this.hostname, secure: this.secure, port: this.port }); return new transports[name](opts); } /** * Initializes transport to use and starts probe. * * @api private */ }, { key: "open", value: function open() { var _this2 = this; var transport; if (this.opts.rememberUpgrade && Socket.priorWebsocketSuccess && this.transports.indexOf("websocket") !== -1) { transport = "websocket"; } else if (0 === this.transports.length) { // Emit error on next tick so it can be listened to this.setTimeoutFn(function () { _this2.emitReserved("error", "No transports available"); }, 0); return; } else { transport = this.transports[0]; } this.readyState = "opening"; // Retry with the next transport if the transport is disabled (jsonp: false) try { transport = this.createTransport(transport); } catch (e) { this.transports.shift(); this.open(); return; } transport.open(); this.setTransport(transport); } /** * Sets the current transport. Disables the existing one (if any). * * @api private */ }, { key: "setTransport", value: function setTransport(transport) { var _this3 = this; if (this.transport) { this.transport.removeAllListeners(); } // set up transport this.transport = transport; // set up transport listeners transport.on("drain", this.onDrain.bind(this)).on("packet", this.onPacket.bind(this)).on("error", this.onError.bind(this)).on("close", function () { _this3.onClose("transport close"); }); } /** * Probes a transport. * * @param {String} transport name * @api private */ }, { key: "probe", value: function probe(name) { var _this4 = this; var transport = this.createTransport(name); var failed = false; Socket.priorWebsocketSuccess = false; var onTransportOpen = function onTransportOpen() { if (failed) return; transport.send([{ type: "ping", data: "probe" }]); transport.once("packet", function (msg) { if (failed) return; if ("pong" === msg.type && "probe" === msg.data) { _this4.upgrading = true; _this4.emitReserved("upgrading", transport); if (!transport) return; Socket.priorWebsocketSuccess = "websocket" === transport.name; _this4.transport.pause(function () { if (failed) return; if ("closed" === _this4.readyState) return; cleanup(); _this4.setTransport(transport); transport.send([{ type: "upgrade" }]); _this4.emitReserved("upgrade", transport); transport = null; _this4.upgrading = false; _this4.flush(); }); } else { var err = new Error("probe error"); // @ts-ignore err.transport = transport.name; _this4.emitReserved("upgradeError", err); } }); }; function freezeTransport() { if (failed) return; // Any callback called by transport should be ignored since now failed = true; cleanup(); transport.close(); transport = null; } // Handle any error that happens while probing var onerror = function onerror(err) { var error = new Error("probe error: " + err); // @ts-ignore error.transport = transport.name; freezeTransport(); _this4.emitReserved("upgradeError", error); }; function onTransportClose() { onerror("transport closed"); } // When the socket is closed while we're probing function onclose() { onerror("socket closed"); } // When the socket is upgraded while we're probing function onupgrade(to) { if (transport && to.name !== transport.name) { freezeTransport(); } } // Remove all listeners on the transport and on self var cleanup = function cleanup() { transport.removeListener("open", onTransportOpen); transport.removeListener("error", onerror); transport.removeListener("close", onTransportClose); _this4.off("close", onclose); _this4.off("upgrading", onupgrade); }; transport.once("open", onTransportOpen); transport.once("error", onerror); transport.once("close", onTransportClose); this.once("close", onclose); this.once("upgrading", onupgrade); transport.open(); } /** * Called when connection is deemed open. * * @api private */ }, { key: "onOpen", value: function onOpen() { this.readyState = "open"; Socket.priorWebsocketSuccess = "websocket" === this.transport.name; this.emitReserved("open"); this.flush(); // we check for `readyState` in case an `open` // listener already closed the socket if ("open" === this.readyState && this.opts.upgrade && this.transport.pause) { var i = 0; var l = this.upgrades.length; for (; i < l; i++) { this.probe(this.upgrades[i]); } } } /** * Handles a packet. * * @api private */ }, { key: "onPacket", value: function onPacket(packet) { if ("opening" === this.readyState || "open" === this.readyState || "closing" === this.readyState) { this.emitReserved("packet", packet); // Socket is live - any packet counts this.emitReserved("heartbeat"); switch (packet.type) { case "open": this.onHandshake(JSON.parse(packet.data)); break; case "ping": this.resetPingTimeout(); this.sendPacket("pong"); this.emitReserved("ping"); this.emitReserved("pong"); break; case "error": var err = new Error("server error"); // @ts-ignore err.code = packet.data; this.onError(err); break; case "message": this.emitReserved("data", packet.data); this.emitReserved("message", packet.data); break; } } } /** * Called upon handshake completion. * * @param {Object} data - handshake obj * @api private */ }, { key: "onHandshake", value: function onHandshake(data) { this.emitReserved("handshake", data); this.id = data.sid; this.transport.query.sid = data.sid; this.upgrades = this.filterUpgrades(data.upgrades); this.pingInterval = data.pingInterval; this.pingTimeout = data.pingTimeout; this.onOpen(); // In case open handler closes socket if ("closed" === this.readyState) return; this.resetPingTimeout(); } /** * Sets and resets ping timeout timer based on server pings. * * @api private */ }, { key: "resetPingTimeout", value: function resetPingTimeout() { var _this5 = this; this.clearTimeoutFn(this.pingTimeoutTimer); this.pingTimeoutTimer = this.setTimeoutFn(function () { _this5.onClose("ping timeout"); }, this.pingInterval + this.pingTimeout); if (this.opts.autoUnref) { this.pingTimeoutTimer.unref(); } } /** * Called on `drain` event * * @api private */ }, { key: "onDrain", value: function onDrain() { this.writeBuffer.splice(0, this.prevBufferLen); // setting prevBufferLen = 0 is very important // for example, when upgrading, upgrade packet is sent over, // and a nonzero prevBufferLen could cause problems on `drain` this.prevBufferLen = 0; if (0 === this.writeBuffer.length) { this.emitReserved("drain"); } else { this.flush(); } } /** * Flush write buffers. * * @api private */ }, { key: "flush", value: function flush() { if ("closed" !== this.readyState && this.transport.writable && !this.upgrading && this.writeBuffer.length) { this.transport.send(this.writeBuffer); // keep track of current length of writeBuffer // splice writeBuffer and callbackBuffer on `drain` this.prevBufferLen = this.writeBuffer.length; this.emitReserved("flush"); } } /** * Sends a message. * * @param {String} message. * @param {Function} callback function. * @param {Object} options. * @return {Socket} for chaining. * @api public */ }, { key: "write", value: function write(msg, options, fn) { this.sendPacket("message", msg, options, fn); return this; } }, { key: "send", value: function send(msg, options, fn) { this.sendPacket("message", msg, options, fn); return this; } /** * Sends a packet. * * @param {String} packet type. * @param {String} data. * @param {Object} options. * @param {Function} callback function. * @api private */ }, { key: "sendPacket", value: function sendPacket(type, data, options, fn) { if ("function" === typeof data) { fn = data; data = undefined; } if ("function" === typeof options) { fn = options; options = null; } if ("closing" === this.readyState || "closed" === this.readyState) { return; } options = options || {}; options.compress = false !== options.compress; var packet = { type: type, data: data, options: options }; this.emitReserved("packetCreate", packet); this.writeBuffer.push(packet); if (fn) this.once("flush", fn); this.flush(); } /** * Closes the connection. * * @api public */ }, { key: "close", value: function close() { var _this6 = this; var close = function close() { _this6.onClose("forced close"); _this6.transport.close(); }; var cleanupAndClose = function cleanupAndClose() { _this6.off("upgrade", cleanupAndClose); _this6.off("upgradeError", cleanupAndClose); close(); }; var waitForUpgrade = function waitForUpgrade() { // wait for upgrade to finish since we can't send packets while pausing a transport _this6.once("upgrade", cleanupAndClose); _this6.once("upgradeError", cleanupAndClose); }; if ("opening" === this.readyState || "open" === this.readyState) { this.readyState = "closing"; if (this.writeBuffer.length) { this.once("drain", function () { if (_this6.upgrading) { waitForUpgrade(); } else { close(); } }); } else if (this.upgrading) { waitForUpgrade(); } else { close(); } } return this; } /** * Called upon transport error * * @api private */ }, { key: "onError", value: function onError(err) { Socket.priorWebsocketSuccess = false; this.emitReserved("error", err); this.onClose("transport error", err); } /** * Called upon transport close. * * @api private */ }, { key: "onClose", value: function onClose(reason, desc) { if ("opening" === this.readyState || "open" === this.readyState || "closing" === this.readyState) { // clear timers this.clearTimeoutFn(this.pingTimeoutTimer); // stop event from firing again for transport this.transport.removeAllListeners("close"); // ensure transport won't stay open this.transport.close(); // ignore further transport communication this.transport.removeAllListeners(); if (typeof removeEventListener === "function") { removeEventListener("offline", this.offlineEventListener, false); } // set ready state this.readyState = "closed"; // clear session id this.id = null; // emit close event this.emitReserved("close", reason, desc); // clean buffers after, so users can still // grab the buffers on `close` event this.writeBuffer = []; this.prevBufferLen = 0; } } /** * Filters upgrades, returning only those matching client transports. * * @param {Array} server upgrades * @api private * */ }, { key: "filterUpgrades", value: function filterUpgrades(upgrades) { var filteredUpgrades = []; var i = 0; var j = upgrades.length; for (; i < j; i++) { if (~this.transports.indexOf(upgrades[i])) filteredUpgrades.push(upgrades[i]); } return filteredUpgrades; } }]); return Socket; }(Emitter_1); Socket$1.protocol = protocol$1; function clone(obj) { var o = {}; for (var i in obj) { if (obj.hasOwnProperty(i)) { o[i] = obj[i]; } } return o; } var withNativeArrayBuffer = typeof ArrayBuffer === "function"; var isView = function isView(obj) { return typeof ArrayBuffer.isView === "function" ? ArrayBuffer.isView(obj) : obj.buffer instanceof ArrayBuffer; }; var toString = Object.prototype.toString; var withNativeBlob = typeof Blob === "function" || typeof Blob !== "undefined" && toString.call(Blob) === "[object BlobConstructor]"; var withNativeFile = typeof File === "function" || typeof File !== "undefined" && toString.call(File) === "[object FileConstructor]"; /** * Returns true if obj is a Buffer, an ArrayBuffer, a Blob or a File. * * @private */ function isBinary(obj) { return withNativeArrayBuffer && (obj instanceof ArrayBuffer || isView(obj)) || withNativeBlob && obj instanceof Blob || withNativeFile && obj instanceof File; } function hasBinary(obj, toJSON) { if (!obj || _typeof(obj) !== "object") { return false; } if (Array.isArray(obj)) { for (var i = 0, l = obj.length; i < l; i++) { if (hasBinary(obj[i])) { return true; } } return false; } if (isBinary(obj)) { return true; } if (obj.toJSON && typeof obj.toJSON === "function" && arguments.length === 1) { return hasBinary(obj.toJSON(), true); } for (var key in obj) { if (Object.prototype.hasOwnProperty.call(obj, key) && hasBinary(obj[key])) { return true; } } return false; } /** * Replaces every Buffer | ArrayBuffer | Blob | File in packet with a numbered placeholder. * * @param {Object} packet - socket.io event packet * @return {Object} with deconstructed packet and list of buffers * @public */ function deconstructPacket(packet) { var buffers = []; var packetData = packet.data; var pack = packet; pack.data = _deconstructPacket(packetData, buffers); pack.attachments = buffers.length; // number of binary 'attachments' return { packet: pack, buffers: buffers }; } function _deconstructPacket(data, buffers) { if (!data) return data; if (isBinary(data)) { var placeholder = { _placeholder: true, num: buffers.length }; buffers.push(data); return placeholder; } else if (Array.isArray(data)) { var newData = new Array(data.length); for (var i = 0; i < data.length; i++) { newData[i] = _deconstructPacket(data[i], buffers); } return newData; } else if (_typeof(data) === "object" && !(data instanceof Date)) { var _newData = {}; for (var key in data) { if (data.hasOwnProperty(key)) { _newData[key] = _deconstructPacket(data[key], buffers); } } return _newData; } return data; } /** * Reconstructs a binary packet from its placeholder packet and buffers * * @param {Object} packet - event packet with placeholders * @param {Array} buffers - binary buffers to put in placeholder positions * @return {Object} reconstructed packet * @public */ function reconstructPacket(packet, buffers) { packet.data = _reconstructPacket(packet.data, buffers); packet.attachments = undefined; // no longer useful return packet; } function _reconstructPacket(data, buffers) { if (!data) return data; if (data && data._placeholder) { return buffers[data.num]; // appropriate buffer (should be natural order anyway) } else if (Array.isArray(data)) { for (var i = 0; i < data.length; i++) { data[i] = _reconstructPacket(data[i], buffers); } } else if (_typeof(data) === "object") { for (var key in data) { if (data.hasOwnProperty(key)) { data[key] = _reconstructPacket(data[key], buffers); } } } return data; } /** * Protocol version. * * @public */ var protocol = 5; var PacketType; (function (PacketType) { PacketType[PacketType["CONNECT"] = 0] = "CONNECT"; PacketType[PacketType["DISCONNECT"] = 1] = "DISCONNECT"; PacketType[PacketType["EVENT"] = 2] = "EVENT"; PacketType[PacketType["ACK"] = 3] = "ACK"; PacketType[PacketType["CONNECT_ERROR"] = 4] = "CONNECT_ERROR"; PacketType[PacketType["BINARY_EVENT"] = 5] = "BINARY_EVENT"; PacketType[PacketType["BINARY_ACK"] = 6] = "BINARY_ACK"; })(PacketType || (PacketType = {})); /** * A socket.io Encoder instance */ var Encoder = /*#__PURE__*/function () { function Encoder() { _classCallCheck(this, Encoder); } _createClass(Encoder, [{ key: "encode", value: /** * Encode a packet as a single string if non-binary, or as a * buffer sequence, depending on packet type. * * @param {Object} obj - packet object */ function encode(obj) { if (obj.type === PacketType.EVENT || obj.type === PacketType.ACK) { if (hasBinary(obj)) { obj.type = obj.type === PacketType.EVENT ? PacketType.BINARY_EVENT : PacketType.BINARY_ACK; return this.encodeAsBinary(obj); } } return [this.encodeAsString(obj)]; } /** * Encode packet as string. */ }, { key: "encodeAsString", value: function encodeAsString(obj) { // first is type var str = "" + obj.type; // attachments if we have them if (obj.type === PacketType.BINARY_EVENT || obj.type === PacketType.BINARY_ACK) { str += obj.attachments + "-"; } // if we have a namespace other than `/` // we append it followed by a comma `,` if (obj.nsp && "/" !== obj.nsp) { str += obj.nsp + ","; } // immediately followed by the id if (null != obj.id) { str += obj.id; } // json data if (null != obj.data) { str += JSON.stringify(obj.data); } return str; } /** * Encode packet as 'buffer sequence' by removing blobs, and * deconstructing packet into object with placeholders and * a list of buffers. */ }, { key: "encodeAsBinary", value: function encodeAsBinary(obj) { var deconstruction = deconstructPacket(obj); var pack = this.encodeAsString(deconstruction.packet); var buffers = deconstruction.buffers; buffers.unshift(pack); // add packet info to beginning of data list return buffers; // write all the buffers } }]); return Encoder; }(); /** * A socket.io Decoder instance * * @return {Object} decoder */ var Decoder = /*#__PURE__*/function (_Emitter) { _inherits(Decoder, _Emitter); var _super = _createSuper(Decoder); function Decoder() { _classCallCheck(this, Decoder); return _super.call(this); } /** * Decodes an encoded packet string into packet JSON. * * @param {String} obj - encoded packet */ _createClass(Decoder, [{ key: "add", value: function add(obj) { var packet; if (typeof obj === "string") { packet = this.decodeString(obj); if (packet.type === PacketType.BINARY_EVENT || packet.type === PacketType.BINARY_ACK) { // binary packet's json this.reconstructor = new BinaryReconstructor(packet); // no attachments, labeled binary but no binary data to follow if (packet.attachments === 0) { _get(_getPrototypeOf(Decoder.prototype), "emitReserved", this).call(this, "decoded", packet); } } else { // non-binary full packet _get(_getPrototypeOf(Decoder.prototype), "emitReserved", this).call(this, "decoded", packet); } } else if (isBinary(obj) || obj.base64) { // raw binary data if (!this.reconstructor) { throw new Error("got binary data when not reconstructing a packet"); } else { packet = this.reconstructor.takeBinaryData(obj); if (packet) { // received final buffer this.reconstructor = null; _get(_getPrototypeOf(Decoder.prototype), "emitReserved", this).call(this, "decoded", packet); } } } else { throw new Error("Unknown type: " + obj); } } /** * Decode a packet String (JSON data) * * @param {String} str * @return {Object} packet */ }, { key: "decodeString", value: function decodeString(str) { var i = 0; // look up type var p = { type: Number(str.charAt(0)) }; if (PacketType[p.type] === undefined) { throw new Error("unknown packet type " + p.type); } // look up attachments if type binary if (p.type === PacketType.BINARY_EVENT || p.type === PacketType.BINARY_ACK) { var start = i + 1; while (str.charAt(++i) !== "-" && i != str.length) {} var buf = str.substring(start, i); if (buf != Number(buf) || str.charAt(i) !== "-") { throw new Error("Illegal attachments"); } p.attachments = Number(buf); } // look up namespace (if any) if ("/" === str.charAt(i + 1)) { var _start = i + 1; while (++i) { var c = str.charAt(i); if ("," === c) break; if (i === str.length) break; } p.nsp = str.substring(_start, i); } else { p.nsp = "/"; } // look up id var next = str.charAt(i + 1); if ("" !== next && Number(next) == next) { var _start2 = i + 1; while (++i) { var _c = str.charAt(i); if (null == _c || Number(_c) != _c) { --i; break; } if (i === str.length) break; } p.id = Number(str.substring(_start2, i + 1)); } // look up json data if (str.charAt(++i)) { var payload = tryParse(str.substr(i)); if (Decoder.isPayloadValid(p.type, payload)) { p.data = payload; } else { throw new Error("invalid payload"); } } return p; } }, { key: "destroy", value: /** * Deallocates a parser's resources */ function destroy() { if (this.reconstructor) { this.reconstructor.finishedReconstruction(); } } }], [{ key: "isPayloadValid", value: function isPayloadValid(type, payload) { switch (type) { case PacketType.CONNECT: return _typeof(payload) === "object"; case PacketType.DISCONNECT: return payload === undefined; case PacketType.CONNECT_ERROR: return typeof payload === "string" || _typeof(payload) === "object"; case PacketType.EVENT: case PacketType.BINARY_EVENT: return Array.isArray(payload) && payload.length > 0; case PacketType.ACK: case PacketType.BINARY_ACK: return Array.isArray(payload); } } }]); return Decoder; }(Emitter_1); function tryParse(str) { try { return JSON.parse(str); } catch (e) { return false; } } /** * A manager of a binary event's 'buffer sequence'. Should * be constructed whenever a packet of type BINARY_EVENT is * decoded. * * @param {Object} packet * @return {BinaryReconstructor} initialized reconstructor */ var BinaryReconstructor = /*#__PURE__*/function () { function BinaryReconstructor(packet) { _classCallCheck(this, BinaryReconstructor); this.packet = packet; this.buffers = []; this.reconPack = packet; } /** * Method to be called when binary data received from connection * after a BINARY_EVENT packet. * * @param {Buffer | ArrayBuffer} binData - the raw binary data received * @return {null | Object} returns null if more binary data is expected or * a reconstructed packet object if all buffers have been received. */ _createClass(BinaryReconstructor, [{ key: "takeBinaryData", value: function takeBinaryData(binData) { this.buffers.push(binData); if (this.buffers.length === this.reconPack.attachments) { // done with buffer list var packet = reconstructPacket(this.reconPack, this.buffers); this.finishedReconstruction(); return packet; } return null; } /** * Cleans up binary packet reconstruction variables. */ }, { key: "finishedReconstruction", value: function finishedReconstruction() { this.reconPack = null; this.buffers = []; } }]); return BinaryReconstructor; }(); var parser = /*#__PURE__*/Object.freeze({ __proto__: null, protocol: protocol, get PacketType () { return PacketType; }, Encoder: Encoder, Decoder: Decoder }); function on(obj, ev, fn) { obj.on(ev, fn); return function subDestroy() { obj.off(ev, fn); }; } /** * Internal events. * These events can't be emitted by the user. */ var RESERVED_EVENTS = Object.freeze({ connect: 1, connect_error: 1, disconnect: 1, disconnecting: 1, // EventEmitter reserved events: https://nodejs.org/api/events.html#events_event_newlistener newListener: 1, removeListener: 1 }); var Socket = /*#__PURE__*/function (_Emitter) { _inherits(Socket, _Emitter); var _super = _createSuper(Socket); /** * `Socket` constructor. * * @public */ function Socket(io, nsp, opts) { var _this; _classCallCheck(this, Socket); _this = _super.call(this); _this.connected = false; _this.disconnected = true; _this.receiveBuffer = []; _this.sendBuffer = []; _this.ids = 0; _this.acks = {}; _this.flags = {}; _this.io = io; _this.nsp = nsp; if (opts && opts.auth) { _this.auth = opts.auth; } if (_this.io._autoConnect) _this.open(); return _this; } /** * Subscribe to open, close and packet events * * @private */ _createClass(Socket, [{ key: "subEvents", value: function subEvents() { if (this.subs) return; var io = this.io; this.subs = [on(io, "open", this.onopen.bind(this)), on(io, "packet", this.onpacket.bind(this)), on(io, "error", this.onerror.bind(this)), on(io, "close", this.onclose.bind(this))]; } /** * Whether the Socket will try to reconnect when its Manager connects or reconnects */ }, { key: "active", get: function get() { return !!this.subs; } /** * "Opens" the socket. * * @public */ }, { key: "connect", value: function connect() { if (this.connected) return this; this.subEvents(); if (!this.io["_reconnecting"]) this.io.open(); // ensure open if ("open" === this.io._readyState) this.onopen(); return this; } /** * Alias for connect() */ }, { key: "open", value: function open() { return this.connect(); } /** * Sends a `message` event. * * @return self * @public */ }, { key: "send", value: function send() { for (var _len = arguments.length, args = new Array(_len), _key = 0; _key < _len; _key++) { args[_key] = arguments[_key]; } args.unshift("message"); this.emit.apply(this, args); return this; } /** * Override `emit`. * If the event is in `events`, it's emitted normally. * * @return self * @public */ }, { key: "emit", value: function emit(ev) { if (RESERVED_EVENTS.hasOwnProperty(ev)) { throw new Error('"' + ev + '" is a reserved event name'); } for (var _len2 = arguments.length, args = new Array(_len2 > 1 ? _len2 - 1 : 0), _key2 = 1; _key2 < _len2; _key2++) { args[_key2 - 1] = arguments[_key2]; } args.unshift(ev); var packet = { type: PacketType.EVENT, data: args }; packet.options = {}; packet.options.compress = this.flags.compress !== false; // event ack callback if ("function" === typeof args[args.length - 1]) { var id = this.ids++; var ack = args.pop(); this._registerAckCallback(id, ack); packet.id = id; } var isTransportWritable = this.io.engine && this.io.engine.transport && this.io.engine.transport.writable; var discardPacket = this.flags["volatile"] && (!isTransportWritable || !this.connected); if (discardPacket) ; else if (this.connected) { this.packet(packet); } else { this.sendBuffer.push(packet); } this.flags = {}; return this; } /** * @private */ }, { key: "_registerAckCallback", value: function _registerAckCallback(id, ack) { var _this2 = this; var timeout = this.flags.timeout; if (timeout === undefined) { this.acks[id] = ack; return; } // @ts-ignore var timer = this.io.setTimeoutFn(function () { delete _this2.acks[id]; for (var i = 0; i < _this2.sendBuffer.length; i++) { if (_this2.sendBuffer[i].id === id) { _this2.sendBuffer.splice(i, 1); } } ack.call(_this2, new Error("operation has timed out")); }, timeout); this.acks[id] = function () { // @ts-ignore _this2.io.clearTimeoutFn(timer); for (var _len3 = arguments.length, args = new Array(_len3), _key3 = 0; _key3 < _len3; _key3++) { args[_key3] = arguments[_key3]; } ack.apply(_this2, [null].concat(args)); }; } /** * Sends a packet. * * @param packet * @private */ }, { key: "packet", value: function packet(_packet) { _packet.nsp = this.nsp; this.io._packet(_packet); } /** * Called upon engine `open`. * * @private */ }, { key: "onopen", value: function onopen() { var _this3 = this; if (typeof this.auth == "function") { this.auth(function (data) { _this3.packet({ type: PacketType.CONNECT, data: data }); }); } else { this.packet({ type: PacketType.CONNECT, data: this.auth }); } } /** * Called upon engine or manager `error`. * * @param err * @private */ }, { key: "onerror", value: function onerror(err) { if (!this.connected) { this.emitReserved("connect_error", err); } } /** * Called upon engine `close`. * * @param reason * @private */ }, { key: "onclose", value: function onclose(reason) { this.connected = false; this.disconnected = true; delete this.id; this.emitReserved("disconnect", reason); } /** * Called with socket packet. * * @param packet * @private */ }, { key: "onpacket", value: function onpacket(packet) { var sameNamespace = packet.nsp === this.nsp; if (!sameNamespace) return; switch (packet.type) { case PacketType.CONNECT: if (packet.data && packet.data.sid) { var id = packet.data.sid; this.onconnect(id); } else { this.emitReserved("connect_error", new Error("It seems you are trying to reach a Socket.IO server in v2.x with a v3.x client, but they are not compatible (more information here: https://socket.io/docs/v3/migrating-from-2-x-to-3-0/)")); } break; case PacketType.EVENT: this.onevent(packet); break; case PacketType.BINARY_EVENT: this.onevent(packet); break; case PacketType.ACK: this.onack(packet); break; case PacketType.BINARY_ACK: this.onack(packet); break; case PacketType.DISCONNECT: this.ondisconnect(); break; case PacketType.CONNECT_ERROR: this.destroy(); var err = new Error(packet.data.message); // @ts-ignore err.data = packet.data.data; this.emitReserved("connect_error", err); break; } } /** * Called upon a server event. * * @param packet * @private */ }, { key: "onevent", value: function onevent(packet) { var args = packet.data || []; if (null != packet.id) { args.push(this.ack(packet.id)); } if (this.connected) { this.emitEvent(args); } else { this.receiveBuffer.push(Object.freeze(args)); } } }, { key: "emitEvent", value: function emitEvent(args) { if (this._anyListeners && this._anyListeners.length) { var listeners = this._anyListeners.slice(); var _iterator = _createForOfIteratorHelper(listeners), _step; try { for (_iterator.s(); !(_step = _iterator.n()).done;) { var listener = _step.value; listener.apply(this, args); } } catch (err) { _iterator.e(err); } finally { _iterator.f(); } } _get(_getPrototypeOf(Socket.prototype), "emit", this).apply(this, args); } /** * Produces an ack callback to emit with an event. * * @private */ }, { key: "ack", value: function ack(id) { var self = this; var sent = false; return function () { // prevent double callbacks if (sent) return; sent = true; for (var _len4 = arguments.length, args = new Array(_len4), _key4 = 0; _key4 < _len4; _key4++) { args[_key4] = arguments[_key4]; } self.packet({ type: PacketType.ACK, id: id, data: args }); }; } /** * Called upon a server acknowlegement. * * @param packet * @private */ }, { key: "onack", value: function onack(packet) { var ack = this.acks[packet.id]; if ("function" === typeof ack) { ack.apply(this, packet.data); delete this.acks[packet.id]; } } /** * Called upon server connect. * * @private */ }, { key: "onconnect", value: function onconnect(id) { this.id = id; this.connected = true; this.disconnected = false; this.emitBuffered(); this.emitReserved("connect"); } /** * Emit buffered events (received and emitted). * * @private */ }, { key: "emitBuffered", value: function emitBuffered() { var _this4 = this; this.receiveBuffer.forEach(function (args) { return _this4.emitEvent(args); }); this.receiveBuffer = []; this.sendBuffer.forEach(function (packet) { return _this4.packet(packet); }); this.sendBuffer = []; } /** * Called upon server disconnect. * * @private */ }, { key: "ondisconnect", value: function ondisconnect() { this.destroy(); this.onclose("io server disconnect"); } /** * Called upon forced client/server side disconnections, * this method ensures the manager stops tracking us and * that reconnections don't get triggered for this. * * @private */ }, { key: "destroy", value: function destroy() { if (this.subs) { // clean subscriptions to avoid reconnections this.subs.forEach(function (subDestroy) { return subDestroy(); }); this.subs = undefined; } this.io["_destroy"](this); } /** * Disconnects the socket manually. * * @return self * @public */ }, { key: "disconnect", value: function disconnect() { if (this.connected) { this.packet({ type: PacketType.DISCONNECT }); } // remove socket from pool this.destroy(); if (this.connected) { // fire events this.onclose("io client disconnect"); } return this; } /** * Alias for disconnect() * * @return self * @public */ }, { key: "close", value: function close() { return this.disconnect(); } /** * Sets the compress flag. * * @param compress - if `true`, compresses the sending data * @return self * @public */ }, { key: "compress", value: function compress(_compress) { this.flags.compress = _compress; return this; } /** * Sets a modifier for a subsequent event emission that the event message will be dropped when this socket is not * ready to send messages. * * @returns self * @public */ }, { key: "volatile", get: function get() { this.flags["volatile"] = true; return this; } /** * Sets a modifier for a subsequent event emission that the callback will be called with an error when the * given number of milliseconds have elapsed without an acknowledgement from the server: * * ``` * socket.timeout(5000).emit("my-event", (err) => { * if (err) { * // the server did not acknowledge the event in the given delay * } * }); * ``` * * @returns self * @public */ }, { key: "timeout", value: function timeout(_timeout) { this.flags.timeout = _timeout; return this; } /** * Adds a listener that will be fired when any event is emitted. The event name is passed as the first argument to the * callback. * * @param listener * @public */ }, { key: "onAny", value: function onAny(listener) { this._anyListeners = this._anyListeners || []; this._anyListeners.push(listener); return this; } /** * Adds a listener that will be fired when any event is emitted. The event name is passed as the first argument to the * callback. The listener is added to the beginning of the listeners array. * * @param listener * @public */ }, { key: "prependAny", value: function prependAny(listener) { this._anyListeners = this._anyListeners || []; this._anyListeners.unshift(listener); return this; } /** * Removes the listener that will be fired when any event is emitted. * * @param listener * @public */ }, { key: "offAny", value: function offAny(listener) { if (!this._anyListeners) { return this; } if (listener) { var listeners = this._anyListeners; for (var i = 0; i < listeners.length; i++) { if (listener === listeners[i]) { listeners.splice(i, 1); return this; } } } else { this._anyListeners = []; } return this; } /** * Returns an array of listeners that are listening for any event that is specified. This array can be manipulated, * e.g. to remove listeners. * * @public */ }, { key: "listenersAny", value: function listenersAny() { return this._anyListeners || []; } }]); return Socket; }(Emitter_1); /** * Expose `Backoff`. */ var backo2 = Backoff; /** * Initialize backoff timer with `opts`. * * - `min` initial timeout in milliseconds [100] * - `max` max timeout [10000] * - `jitter` [0] * - `factor` [2] * * @param {Object} opts * @api public */ function Backoff(opts) { opts = opts || {}; this.ms = opts.min || 100; this.max = opts.max || 10000; this.factor = opts.factor || 2; this.jitter = opts.jitter > 0 && opts.jitter <= 1 ? opts.jitter : 0; this.attempts = 0; } /** * Return the backoff duration. * * @return {Number} * @api public */ Backoff.prototype.duration = function () { var ms = this.ms * Math.pow(this.factor, this.attempts++); if (this.jitter) { var rand = Math.random(); var deviation = Math.floor(rand * this.jitter * ms); ms = (Math.floor(rand * 10) & 1) == 0 ? ms - deviation : ms + deviation; } return Math.min(ms, this.max) | 0; }; /** * Reset the number of attempts. * * @api public */ Backoff.prototype.reset = function () { this.attempts = 0; }; /** * Set the minimum duration * * @api public */ Backoff.prototype.setMin = function (min) { this.ms = min; }; /** * Set the maximum duration * * @api public */ Backoff.prototype.setMax = function (max) { this.max = max; }; /** * Set the jitter * * @api public */ Backoff.prototype.setJitter = function (jitter) { this.jitter = jitter; }; var Manager = /*#__PURE__*/function (_Emitter) { _inherits(Manager, _Emitter); var _super = _createSuper(Manager); function Manager(uri, opts) { var _this; _classCallCheck(this, Manager); var _a; _this = _super.call(this); _this.nsps = {}; _this.subs = []; if (uri && "object" === _typeof(uri)) { opts = uri; uri = undefined; } opts = opts || {}; opts.path = opts.path || "/socket.io"; _this.opts = opts; installTimerFunctions(_assertThisInitialized(_this), opts); _this.reconnection(opts.reconnection !== false); _this.reconnectionAttempts(opts.reconnectionAttempts || Infinity); _this.reconnectionDelay(opts.reconnectionDelay || 1000); _this.reconnectionDelayMax(opts.reconnectionDelayMax || 5000); _this.randomizationFactor((_a = opts.randomizationFactor) !== null && _a !== void 0 ? _a : 0.5); _this.backoff = new backo2({ min: _this.reconnectionDelay(), max: _this.reconnectionDelayMax(), jitter: _this.randomizationFactor() }); _this.timeout(null == opts.timeout ? 20000 : opts.timeout); _this._readyState = "closed"; _this.uri = uri; var _parser = opts.parser || parser; _this.encoder = new _parser.Encoder(); _this.decoder = new _parser.Decoder(); _this._autoConnect = opts.autoConnect !== false; if (_this._autoConnect) _this.open(); return _this; } _createClass(Manager, [{ key: "reconnection", value: function reconnection(v) { if (!arguments.length) return this._reconnection; this._reconnection = !!v; return this; } }, { key: "reconnectionAttempts", value: function reconnectionAttempts(v) { if (v === undefined) return this._reconnectionAttempts; this._reconnectionAttempts = v; return this; } }, { key: "reconnectionDelay", value: function reconnectionDelay(v) { var _a; if (v === undefined) return this._reconnectionDelay; this._reconnectionDelay = v; (_a = this.backoff) === null || _a === void 0 ? void 0 : _a.setMin(v); return this; } }, { key: "randomizationFactor", value: function randomizationFactor(v) { var _a; if (v === undefined) return this._randomizationFactor; this._randomizationFactor = v; (_a = this.backoff) === null || _a === void 0 ? void 0 : _a.setJitter(v); return this; } }, { key: "reconnectionDelayMax", value: function reconnectionDelayMax(v) { var _a; if (v === undefined) return this._reconnectionDelayMax; this._reconnectionDelayMax = v; (_a = this.backoff) === null || _a === void 0 ? void 0 : _a.setMax(v); return this; } }, { key: "timeout", value: function timeout(v) { if (!arguments.length) return this._timeout; this._timeout = v; return this; } /** * Starts trying to reconnect if reconnection is enabled and we have not * started reconnecting yet * * @private */ }, { key: "maybeReconnectOnOpen", value: function maybeReconnectOnOpen() { // Only try to reconnect if it's the first time we're connecting if (!this._reconnecting && this._reconnection && this.backoff.attempts === 0) { // keeps reconnection from firing twice for the same reconnection loop this.reconnect(); } } /** * Sets the current transport `socket`. * * @param {Function} fn - optional, callback * @return self * @public */ }, { key: "open", value: function open(fn) { var _this2 = this; if (~this._readyState.indexOf("open")) return this; this.engine = new Socket$1(this.uri, this.opts); var socket = this.engine; var self = this; this._readyState = "opening"; this.skipReconnect = false; // emit `open` var openSubDestroy = on(socket, "open", function () { self.onopen(); fn && fn(); }); // emit `error` var errorSub = on(socket, "error", function (err) { self.cleanup(); self._readyState = "closed"; _this2.emitReserved("error", err); if (fn) { fn(err); } else { // Only do this if there is no fn to handle the error self.maybeReconnectOnOpen(); } }); if (false !== this._timeout) { var timeout = this._timeout; if (timeout === 0) { openSubDestroy(); // prevents a race condition with the 'open' event } // set timer var timer = this.setTimeoutFn(function () { openSubDestroy(); socket.close(); // @ts-ignore socket.emit("error", new Error("timeout")); }, timeout); if (this.opts.autoUnref) { timer.unref(); } this.subs.push(function subDestroy() { clearTimeout(timer); }); } this.subs.push(openSubDestroy); this.subs.push(errorSub); return this; } /** * Alias for open() * * @return self * @public */ }, { key: "connect", value: function connect(fn) { return this.open(fn); } /** * Called upon transport open. * * @private */ }, { key: "onopen", value: function onopen() { // clear old subs this.cleanup(); // mark as open this._readyState = "open"; this.emitReserved("open"); // add new subs var socket = this.engine; this.subs.push(on(socket, "ping", this.onping.bind(this)), on(socket, "data", this.ondata.bind(this)), on(socket, "error", this.onerror.bind(this)), on(socket, "close", this.onclose.bind(this)), on(this.decoder, "decoded", this.ondecoded.bind(this))); } /** * Called upon a ping. * * @private */ }, { key: "onping", value: function onping() { this.emitReserved("ping"); } /** * Called with data. * * @private */ }, { key: "ondata", value: function ondata(data) { this.decoder.add(data); } /** * Called when parser fully decodes a packet. * * @private */ }, { key: "ondecoded", value: function ondecoded(packet) { this.emitReserved("packet", packet); } /** * Called upon socket error. * * @private */ }, { key: "onerror", value: function onerror(err) { this.emitReserved("error", err); } /** * Creates a new socket for the given `nsp`. * * @return {Socket} * @public */ }, { key: "socket", value: function socket(nsp, opts) { var socket = this.nsps[nsp]; if (!socket) { socket = new Socket(this, nsp, opts); this.nsps[nsp] = socket; } return socket; } /** * Called upon a socket close. * * @param socket * @private */ }, { key: "_destroy", value: function _destroy(socket) { var nsps = Object.keys(this.nsps); for (var _i = 0, _nsps = nsps; _i < _nsps.length; _i++) { var nsp = _nsps[_i]; var _socket = this.nsps[nsp]; if (_socket.active) { return; } } this._close(); } /** * Writes a packet. * * @param packet * @private */ }, { key: "_packet", value: function _packet(packet) { var encodedPackets = this.encoder.encode(packet); for (var i = 0; i < encodedPackets.length; i++) { this.engine.write(encodedPackets[i], packet.options); } } /** * Clean up transport subscriptions and packet buffer. * * @private */ }, { key: "cleanup", value: function cleanup() { this.subs.forEach(function (subDestroy) { return subDestroy(); }); this.subs.length = 0; this.decoder.destroy(); } /** * Close the current socket. * * @private */ }, { key: "_close", value: function _close() { this.skipReconnect = true; this._reconnecting = false; this.onclose("forced close"); if (this.engine) this.engine.close(); } /** * Alias for close() * * @private */ }, { key: "disconnect", value: function disconnect() { return this._close(); } /** * Called upon engine close. * * @private */ }, { key: "onclose", value: function onclose(reason) { this.cleanup(); this.backoff.reset(); this._readyState = "closed"; this.emitReserved("close", reason); if (this._reconnection && !this.skipReconnect) { this.reconnect(); } } /** * Attempt a reconnection. * * @private */ }, { key: "reconnect", value: function reconnect() { var _this3 = this; if (this._reconnecting || this.skipReconnect) return this; var self = this; if (this.backoff.attempts >= this._reconnectionAttempts) { this.backoff.reset(); this.emitReserved("reconnect_failed"); this._reconnecting = false; } else { var delay = this.backoff.duration(); this._reconnecting = true; var timer = this.setTimeoutFn(function () { if (self.skipReconnect) return; _this3.emitReserved("reconnect_attempt", self.backoff.attempts); // check again for the case socket closed in above events if (self.skipReconnect) return; self.open(function (err) { if (err) { self._reconnecting = false; self.reconnect(); _this3.emitReserved("reconnect_error", err); } else { self.onreconnect(); } }); }, delay); if (this.opts.autoUnref) { timer.unref(); } this.subs.push(function subDestroy() { clearTimeout(timer); }); } } /** * Called upon successful reconnect. * * @private */ }, { key: "onreconnect", value: function onreconnect() { var attempt = this.backoff.attempts; this._reconnecting = false; this.backoff.reset(); this.emitReserved("reconnect", attempt); } }]); return Manager; }(Emitter_1); /** * Managers cache. */ var cache = {}; function lookup(uri, opts) { if (_typeof(uri) === "object") { opts = uri; uri = undefined; } opts = opts || {}; var parsed = url(uri, opts.path || "/socket.io"); var source = parsed.source; var id = parsed.id; var path = parsed.path; var sameNamespace = cache[id] && path in cache[id]["nsps"]; var newConnection = opts.forceNew || opts["force new connection"] || false === opts.multiplex || sameNamespace; var io; if (newConnection) { io = new Manager(source, opts); } else { if (!cache[id]) { cache[id] = new Manager(source, opts); } io = cache[id]; } if (parsed.query && !opts.query) { opts.query = parsed.queryKey; } return io.socket(parsed.path, opts); } // so that "lookup" can be used both as a function (e.g. `io(...)`) and as a // namespace (e.g. `io.connect(...)`), for backward compatibility _extends(lookup, { Manager: Manager, Socket: Socket, io: lookup, connect: lookup }); return lookup; })); //# sourceMappingURL=socket.io.js.map