"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); exports.Socket = void 0; const events_1 = require("events"); const debug_1 = require("debug"); const timers_1 = require("timers"); const debug = (0, debug_1.default)("engine:socket"); class Socket extends events_1.EventEmitter { /** * Client class (abstract). * * @api private */ constructor(id, server, transport, req, protocol) { super(); this.id = id; this.server = server; this.upgrading = false; this.upgraded = false; this.readyState = "opening"; this.writeBuffer = []; this.packetsFn = []; this.sentCallbackFn = []; this.cleanupFn = []; this.request = req; this.protocol = protocol; // Cache IP since it might not be in the req later if (req.websocket && req.websocket._socket) { this.remoteAddress = req.websocket._socket.remoteAddress; } else { this.remoteAddress = req.connection.remoteAddress; } this.checkIntervalTimer = null; this.upgradeTimeoutTimer = null; this.pingTimeoutTimer = null; this.pingIntervalTimer = null; this.setTransport(transport); this.onOpen(); } get readyState() { return this._readyState; } set readyState(state) { debug("readyState updated from %s to %s", this._readyState, state); this._readyState = state; } /** * Called upon transport considered open. * * @api private */ onOpen() { this.readyState = "open"; // sends an `open` packet this.transport.sid = this.id; this.sendPacket("open", JSON.stringify({ sid: this.id, upgrades: this.getAvailableUpgrades(), pingInterval: this.server.opts.pingInterval, pingTimeout: this.server.opts.pingTimeout, maxPayload: this.server.opts.maxHttpBufferSize })); if (this.server.opts.initialPacket) { this.sendPacket("message", this.server.opts.initialPacket); } this.emit("open"); if (this.protocol === 3) { // in protocol v3, the client sends a ping, and the server answers with a pong this.resetPingTimeout(this.server.opts.pingInterval + this.server.opts.pingTimeout); } else { // in protocol v4, the server sends a ping, and the client answers with a pong this.schedulePing(); } } /** * Called upon transport packet. * * @param {Object} packet * @api private */ onPacket(packet) { if ("open" !== this.readyState) { return debug("packet received with closed socket"); } // export packet event debug(`received packet ${packet.type}`); this.emit("packet", packet); // Reset ping timeout on any packet, incoming data is a good sign of // other side's liveness this.resetPingTimeout(this.server.opts.pingInterval + this.server.opts.pingTimeout); switch (packet.type) { case "ping": if (this.transport.protocol !== 3) { this.onError("invalid heartbeat direction"); return; } debug("got ping"); this.sendPacket("pong"); this.emit("heartbeat"); break; case "pong": if (this.transport.protocol === 3) { this.onError("invalid heartbeat direction"); return; } debug("got pong"); this.pingIntervalTimer.refresh(); this.emit("heartbeat"); break; case "error": this.onClose("parse error"); break; case "message": this.emit("data", packet.data); this.emit("message", packet.data); break; } } /** * Called upon transport error. * * @param {Error} error object * @api private */ onError(err) { debug("transport error"); this.onClose("transport error", err); } /** * Pings client every `this.pingInterval` and expects response * within `this.pingTimeout` or closes connection. * * @api private */ schedulePing() { this.pingIntervalTimer = (0, timers_1.setTimeout)(() => { debug("writing ping packet - expecting pong within %sms", this.server.opts.pingTimeout); this.sendPacket("ping"); this.resetPingTimeout(this.server.opts.pingTimeout); }, this.server.opts.pingInterval); } /** * Resets ping timeout. * * @api private */ resetPingTimeout(timeout) { (0, timers_1.clearTimeout)(this.pingTimeoutTimer); this.pingTimeoutTimer = (0, timers_1.setTimeout)(() => { if (this.readyState === "closed") return; this.onClose("ping timeout"); }, timeout); } /** * Attaches handlers for the given transport. * * @param {Transport} transport * @api private */ setTransport(transport) { const onError = this.onError.bind(this); const onPacket = this.onPacket.bind(this); const flush = this.flush.bind(this); const onClose = this.onClose.bind(this, "transport close"); this.transport = transport; this.transport.once("error", onError); this.transport.on("packet", onPacket); this.transport.on("drain", flush); this.transport.once("close", onClose); // this function will manage packet events (also message callbacks) this.setupSendCallback(); this.cleanupFn.push(function () { transport.removeListener("error", onError); transport.removeListener("packet", onPacket); transport.removeListener("drain", flush); transport.removeListener("close", onClose); }); } /** * Upgrades socket to the given transport * * @param {Transport} transport * @api private */ maybeUpgrade(transport) { debug('might upgrade socket transport from "%s" to "%s"', this.transport.name, transport.name); this.upgrading = true; // set transport upgrade timer this.upgradeTimeoutTimer = (0, timers_1.setTimeout)(() => { debug("client did not complete upgrade - closing transport"); cleanup(); if ("open" === transport.readyState) { transport.close(); } }, this.server.opts.upgradeTimeout); const onPacket = packet => { if ("ping" === packet.type && "probe" === packet.data) { debug("got probe ping packet, sending pong"); transport.send([{ type: "pong", data: "probe" }]); this.emit("upgrading", transport); clearInterval(this.checkIntervalTimer); this.checkIntervalTimer = setInterval(check, 100); } else if ("upgrade" === packet.type && this.readyState !== "closed") { debug("got upgrade packet - upgrading"); cleanup(); this.transport.discard(); this.upgraded = true; this.clearTransport(); this.setTransport(transport); this.emit("upgrade", transport); this.flush(); if (this.readyState === "closing") { transport.close(() => { this.onClose("forced close"); }); } } else { cleanup(); transport.close(); } }; // we force a polling cycle to ensure a fast upgrade const check = () => { if ("polling" === this.transport.name && this.transport.writable) { debug("writing a noop packet to polling for fast upgrade"); this.transport.send([{ type: "noop" }]); } }; const cleanup = () => { this.upgrading = false; clearInterval(this.checkIntervalTimer); this.checkIntervalTimer = null; (0, timers_1.clearTimeout)(this.upgradeTimeoutTimer); this.upgradeTimeoutTimer = null; transport.removeListener("packet", onPacket); transport.removeListener("close", onTransportClose); transport.removeListener("error", onError); this.removeListener("close", onClose); }; const onError = err => { debug("client did not complete upgrade - %s", err); cleanup(); transport.close(); transport = null; }; const onTransportClose = () => { onError("transport closed"); }; const onClose = () => { onError("socket closed"); }; transport.on("packet", onPacket); transport.once("close", onTransportClose); transport.once("error", onError); this.once("close", onClose); } /** * Clears listeners and timers associated with current transport. * * @api private */ clearTransport() { let cleanup; const toCleanUp = this.cleanupFn.length; for (let i = 0; i < toCleanUp; i++) { cleanup = this.cleanupFn.shift(); cleanup(); } // silence further transport errors and prevent uncaught exceptions this.transport.on("error", function () { debug("error triggered by discarded transport"); }); // ensure transport won't stay open this.transport.close(); (0, timers_1.clearTimeout)(this.pingTimeoutTimer); } /** * Called upon transport considered closed. * Possible reasons: `ping timeout`, `client error`, `parse error`, * `transport error`, `server close`, `transport close` */ onClose(reason, description) { if ("closed" !== this.readyState) { this.readyState = "closed"; // clear timers (0, timers_1.clearTimeout)(this.pingIntervalTimer); (0, timers_1.clearTimeout)(this.pingTimeoutTimer); clearInterval(this.checkIntervalTimer); this.checkIntervalTimer = null; (0, timers_1.clearTimeout)(this.upgradeTimeoutTimer); // clean writeBuffer in next tick, so developers can still // grab the writeBuffer on 'close' event process.nextTick(() => { this.writeBuffer = []; }); this.packetsFn = []; this.sentCallbackFn = []; this.clearTransport(); this.emit("close", reason, description); } } /** * Setup and manage send callback * * @api private */ setupSendCallback() { // the message was sent successfully, execute the callback const onDrain = () => { if (this.sentCallbackFn.length > 0) { const seqFn = this.sentCallbackFn.splice(0, 1)[0]; if ("function" === typeof seqFn) { debug("executing send callback"); seqFn(this.transport); } else if (Array.isArray(seqFn)) { debug("executing batch send callback"); const l = seqFn.length; let i = 0; for (; i < l; i++) { if ("function" === typeof seqFn[i]) { seqFn[i](this.transport); } } } } }; this.transport.on("drain", onDrain); this.cleanupFn.push(() => { this.transport.removeListener("drain", onDrain); }); } /** * Sends a message packet. * * @param {Object} data * @param {Object} options * @param {Function} callback * @return {Socket} for chaining * @api public */ send(data, options, callback) { this.sendPacket("message", data, options, callback); return this; } write(data, options, callback) { this.sendPacket("message", data, options, callback); return this; } /** * Sends a packet. * * @param {String} type - packet type * @param {String} data * @param {Object} options * @param {Function} callback * * @api private */ sendPacket(type, data, options, callback) { if ("function" === typeof options) { callback = options; options = null; } options = options || {}; options.compress = false !== options.compress; if ("closing" !== this.readyState && "closed" !== this.readyState) { debug('sending packet "%s" (%s)', type, data); const packet = { type, options }; if (data) packet.data = data; // exports packetCreate event this.emit("packetCreate", packet); this.writeBuffer.push(packet); // add send callback to object, if defined if (callback) this.packetsFn.push(callback); this.flush(); } } /** * Attempts to flush the packets buffer. * * @api private */ flush() { if ("closed" !== this.readyState && this.transport.writable && this.writeBuffer.length) { debug("flushing buffer to transport"); this.emit("flush", this.writeBuffer); this.server.emit("flush", this, this.writeBuffer); const wbuf = this.writeBuffer; this.writeBuffer = []; if (!this.transport.supportsFraming) { this.sentCallbackFn.push(this.packetsFn); } else { this.sentCallbackFn.push.apply(this.sentCallbackFn, this.packetsFn); } this.packetsFn = []; this.transport.send(wbuf); this.emit("drain"); this.server.emit("drain", this); } } /** * Get available upgrades for this socket. * * @api private */ getAvailableUpgrades() { const availableUpgrades = []; const allUpgrades = this.server.upgrades(this.transport.name); let i = 0; const l = allUpgrades.length; for (; i < l; ++i) { const upg = allUpgrades[i]; if (this.server.opts.transports.indexOf(upg) !== -1) { availableUpgrades.push(upg); } } return availableUpgrades; } /** * Closes the socket and underlying transport. * * @param {Boolean} discard - optional, discard the transport * @return {Socket} for chaining * @api public */ close(discard) { if ("open" !== this.readyState) return; this.readyState = "closing"; if (this.writeBuffer.length) { this.once("drain", this.closeTransport.bind(this, discard)); return; } this.closeTransport(discard); } /** * Closes the underlying transport. * * @param {Boolean} discard * @api private */ closeTransport(discard) { if (discard) this.transport.discard(); this.transport.close(this.onClose.bind(this, "forced close")); } } exports.Socket = Socket;