"use strict"; var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; var desc = Object.getOwnPropertyDescriptor(m, k); if (!desc || ("get" in desc ? !m.__esModule : desc.writable || desc.configurable)) { desc = { enumerable: true, get: function() { return m[k]; } }; } Object.defineProperty(o, k2, desc); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.prototype.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; var __importDefault = (this && this.__importDefault) || function (mod) { return (mod && mod.__esModule) ? mod : { "default": mod }; }; Object.defineProperty(exports, "__esModule", { value: true }); exports.Namespace = exports.Socket = exports.Server = void 0; const http = require("http"); const fs_1 = require("fs"); const zlib_1 = require("zlib"); const accepts = require("accepts"); const stream_1 = require("stream"); const path = require("path"); const engine_io_1 = require("engine.io"); const client_1 = require("./client"); const events_1 = require("events"); const namespace_1 = require("./namespace"); Object.defineProperty(exports, "Namespace", { enumerable: true, get: function () { return namespace_1.Namespace; } }); const parent_namespace_1 = require("./parent-namespace"); const socket_io_adapter_1 = require("socket.io-adapter"); const parser = __importStar(require("socket.io-parser")); const debug_1 = __importDefault(require("debug")); const socket_1 = require("./socket"); Object.defineProperty(exports, "Socket", { enumerable: true, get: function () { return socket_1.Socket; } }); const typed_events_1 = require("./typed-events"); const uws_1 = require("./uws"); const debug = (0, debug_1.default)("socket.io:server"); const clientVersion = require("../package.json").version; const dotMapRegex = /\.map/; /** * Represents a Socket.IO server. * * @example * import { Server } from "socket.io"; * * const io = new Server(); * * io.on("connection", (socket) => { * console.log(`socket ${socket.id} connected`); * * // send an event to the client * socket.emit("foo", "bar"); * * socket.on("foobar", () => { * // an event was received from the client * }); * * // upon disconnection * socket.on("disconnect", (reason) => { * console.log(`socket ${socket.id} disconnected due to ${reason}`); * }); * }); * * io.listen(3000); */ class Server extends typed_events_1.StrictEventEmitter { constructor(srv, opts = {}) { super(); /** * @private */ this._nsps = new Map(); this.parentNsps = new Map(); if ("object" === typeof srv && srv instanceof Object && !srv.listen) { opts = srv; srv = undefined; } this.path(opts.path || "/socket.io"); this.connectTimeout(opts.connectTimeout || 45000); this.serveClient(false !== opts.serveClient); this._parser = opts.parser || parser; this.encoder = new this._parser.Encoder(); this.adapter(opts.adapter || socket_io_adapter_1.Adapter); this.sockets = this.of("/"); this.opts = opts; if (srv || typeof srv == "number") this.attach(srv); } serveClient(v) { if (!arguments.length) return this._serveClient; this._serveClient = v; return this; } /** * Executes the middleware for an incoming namespace not already created on the server. * * @param name - name of incoming namespace * @param auth - the auth parameters * @param fn - callback * * @private */ _checkNamespace(name, auth, fn) { if (this.parentNsps.size === 0) return fn(false); const keysIterator = this.parentNsps.keys(); const run = () => { const nextFn = keysIterator.next(); if (nextFn.done) { return fn(false); } nextFn.value(name, auth, (err, allow) => { if (err || !allow) { return run(); } if (this._nsps.has(name)) { // the namespace was created in the meantime debug("dynamic namespace %s already exists", name); return fn(this._nsps.get(name)); } const namespace = this.parentNsps.get(nextFn.value).createChild(name); debug("dynamic namespace %s was created", name); // @ts-ignore this.sockets.emitReserved("new_namespace", namespace); fn(namespace); }); }; run(); } path(v) { if (!arguments.length) return this._path; this._path = v.replace(/\/$/, ""); const escapedPath = this._path.replace(/[-\/\\^$*+?.()|[\]{}]/g, "\\$&"); this.clientPathRegex = new RegExp("^" + escapedPath + "/socket\\.io(\\.msgpack|\\.esm)?(\\.min)?\\.js(\\.map)?(?:\\?|$)"); return this; } connectTimeout(v) { if (v === undefined) return this._connectTimeout; this._connectTimeout = v; return this; } adapter(v) { if (!arguments.length) return this._adapter; this._adapter = v; for (const nsp of this._nsps.values()) { nsp._initAdapter(); } return this; } /** * Attaches socket.io to a server or port. * * @param srv - server or port * @param opts - options passed to engine.io * @return self */ listen(srv, opts = {}) { return this.attach(srv, opts); } /** * Attaches socket.io to a server or port. * * @param srv - server or port * @param opts - options passed to engine.io * @return self */ attach(srv, opts = {}) { if ("function" == typeof srv) { const msg = "You are trying to attach socket.io to an express " + "request handler function. Please pass a http.Server instance."; throw new Error(msg); } // handle a port as a string if (Number(srv) == srv) { srv = Number(srv); } if ("number" == typeof srv) { debug("creating http server and binding to %d", srv); const port = srv; srv = http.createServer((req, res) => { res.writeHead(404); res.end(); }); srv.listen(port); } // merge the options passed to the Socket.IO server Object.assign(opts, this.opts); // set engine.io path to `/socket.io` opts.path = opts.path || this._path; this.initEngine(srv, opts); return this; } attachApp(app /*: TemplatedApp */, opts = {}) { // merge the options passed to the Socket.IO server Object.assign(opts, this.opts); // set engine.io path to `/socket.io` opts.path = opts.path || this._path; // initialize engine debug("creating uWebSockets.js-based engine with opts %j", opts); const engine = new engine_io_1.uServer(opts); engine.attach(app, opts); // bind to engine events this.bind(engine); if (this._serveClient) { // attach static file serving app.get(`${this._path}/*`, (res, req) => { if (!this.clientPathRegex.test(req.getUrl())) { req.setYield(true); return; } const filename = req .getUrl() .replace(this._path, "") .replace(/\?.*$/, "") .replace(/^\//, ""); const isMap = dotMapRegex.test(filename); const type = isMap ? "map" : "source"; // Per the standard, ETags must be quoted: // https://tools.ietf.org/html/rfc7232#section-2.3 const expectedEtag = '"' + clientVersion + '"'; const weakEtag = "W/" + expectedEtag; const etag = req.getHeader("if-none-match"); if (etag) { if (expectedEtag === etag || weakEtag === etag) { debug("serve client %s 304", type); res.writeStatus("304 Not Modified"); res.end(); return; } } debug("serve client %s", type); res.writeHeader("cache-control", "public, max-age=0"); res.writeHeader("content-type", "application/" + (isMap ? "json" : "javascript")); res.writeHeader("etag", expectedEtag); const filepath = path.join(__dirname, "../client-dist/", filename); (0, uws_1.serveFile)(res, filepath); }); } (0, uws_1.patchAdapter)(app); } /** * Initialize engine * * @param srv - the server to attach to * @param opts - options passed to engine.io * @private */ initEngine(srv, opts) { // initialize engine debug("creating engine.io instance with opts %j", opts); this.eio = (0, engine_io_1.attach)(srv, opts); // attach static file serving if (this._serveClient) this.attachServe(srv); // Export http server this.httpServer = srv; // bind to engine events this.bind(this.eio); } /** * Attaches the static file serving. * * @param srv http server * @private */ attachServe(srv) { debug("attaching client serving req handler"); const evs = srv.listeners("request").slice(0); srv.removeAllListeners("request"); srv.on("request", (req, res) => { if (this.clientPathRegex.test(req.url)) { this.serve(req, res); } else { for (let i = 0; i < evs.length; i++) { evs[i].call(srv, req, res); } } }); } /** * Handles a request serving of client source and map * * @param req * @param res * @private */ serve(req, res) { const filename = req.url.replace(this._path, "").replace(/\?.*$/, ""); const isMap = dotMapRegex.test(filename); const type = isMap ? "map" : "source"; // Per the standard, ETags must be quoted: // https://tools.ietf.org/html/rfc7232#section-2.3 const expectedEtag = '"' + clientVersion + '"'; const weakEtag = "W/" + expectedEtag; const etag = req.headers["if-none-match"]; if (etag) { if (expectedEtag === etag || weakEtag === etag) { debug("serve client %s 304", type); res.writeHead(304); res.end(); return; } } debug("serve client %s", type); res.setHeader("Cache-Control", "public, max-age=0"); res.setHeader("Content-Type", "application/" + (isMap ? "json" : "javascript")); res.setHeader("ETag", expectedEtag); Server.sendFile(filename, req, res); } /** * @param filename * @param req * @param res * @private */ static sendFile(filename, req, res) { const readStream = (0, fs_1.createReadStream)(path.join(__dirname, "../client-dist/", filename)); const encoding = accepts(req).encodings(["br", "gzip", "deflate"]); const onError = (err) => { if (err) { res.end(); } }; switch (encoding) { case "br": res.writeHead(200, { "content-encoding": "br" }); readStream.pipe((0, zlib_1.createBrotliCompress)()).pipe(res); (0, stream_1.pipeline)(readStream, (0, zlib_1.createBrotliCompress)(), res, onError); break; case "gzip": res.writeHead(200, { "content-encoding": "gzip" }); (0, stream_1.pipeline)(readStream, (0, zlib_1.createGzip)(), res, onError); break; case "deflate": res.writeHead(200, { "content-encoding": "deflate" }); (0, stream_1.pipeline)(readStream, (0, zlib_1.createDeflate)(), res, onError); break; default: res.writeHead(200); (0, stream_1.pipeline)(readStream, res, onError); } } /** * Binds socket.io to an engine.io instance. * * @param {engine.Server} engine engine.io (or compatible) server * @return self */ bind(engine) { this.engine = engine; this.engine.on("connection", this.onconnection.bind(this)); return this; } /** * Called with each incoming transport connection. * * @param {engine.Socket} conn * @return self * @private */ onconnection(conn) { debug("incoming connection with id %s", conn.id); const client = new client_1.Client(this, conn); if (conn.protocol === 3) { // @ts-ignore client.connect("/"); } return this; } /** * Looks up a namespace. * * @example * // with a simple string * const myNamespace = io.of("/my-namespace"); * * // with a regex * const dynamicNsp = io.of(/^\/dynamic-\d+$/).on("connection", (socket) => { * const namespace = socket.nsp; // newNamespace.name === "/dynamic-101" * * // broadcast to all clients in the given sub-namespace * namespace.emit("hello"); * }); * * @param name - nsp name * @param fn optional, nsp `connection` ev handler */ of(name, fn) { if (typeof name === "function" || name instanceof RegExp) { const parentNsp = new parent_namespace_1.ParentNamespace(this); debug("initializing parent namespace %s", parentNsp.name); if (typeof name === "function") { this.parentNsps.set(name, parentNsp); } else { this.parentNsps.set((nsp, conn, next) => next(null, name.test(nsp)), parentNsp); } if (fn) { // @ts-ignore parentNsp.on("connect", fn); } return parentNsp; } if (String(name)[0] !== "/") name = "/" + name; let nsp = this._nsps.get(name); if (!nsp) { debug("initializing namespace %s", name); nsp = new namespace_1.Namespace(this, name); this._nsps.set(name, nsp); if (name !== "/") { // @ts-ignore this.sockets.emitReserved("new_namespace", nsp); } } if (fn) nsp.on("connect", fn); return nsp; } /** * Closes server connection * * @param [fn] optional, called as `fn([err])` on error OR all conns closed */ close(fn) { for (const socket of this.sockets.sockets.values()) { socket._onclose("server shutting down"); } this.engine.close(); // restore the Adapter prototype (0, uws_1.restoreAdapter)(); if (this.httpServer) { this.httpServer.close(fn); } else { fn && fn(); } } /** * Registers a middleware, which is a function that gets executed for every incoming {@link Socket}. * * @example * io.use((socket, next) => { * // ... * next(); * }); * * @param fn - the middleware function */ use(fn) { this.sockets.use(fn); return this; } /** * Targets a room when emitting. * * @example * // the “foo” event will be broadcast to all connected clients in the “room-101” room * io.to("room-101").emit("foo", "bar"); * * // with an array of rooms (a client will be notified at most once) * io.to(["room-101", "room-102"]).emit("foo", "bar"); * * // with multiple chained calls * io.to("room-101").to("room-102").emit("foo", "bar"); * * @param room - a room, or an array of rooms * @return a new {@link BroadcastOperator} instance for chaining */ to(room) { return this.sockets.to(room); } /** * Targets a room when emitting. Similar to `to()`, but might feel clearer in some cases: * * @example * // disconnect all clients in the "room-101" room * io.in("room-101").disconnectSockets(); * * @param room - a room, or an array of rooms * @return a new {@link BroadcastOperator} instance for chaining */ in(room) { return this.sockets.in(room); } /** * Excludes a room when emitting. * * @example * // the "foo" event will be broadcast to all connected clients, except the ones that are in the "room-101" room * io.except("room-101").emit("foo", "bar"); * * // with an array of rooms * io.except(["room-101", "room-102"]).emit("foo", "bar"); * * // with multiple chained calls * io.except("room-101").except("room-102").emit("foo", "bar"); * * @param room - a room, or an array of rooms * @return a new {@link BroadcastOperator} instance for chaining */ except(room) { return this.sockets.except(room); } /** * Sends a `message` event to all clients. * * This method mimics the WebSocket.send() method. * * @see https://developer.mozilla.org/en-US/docs/Web/API/WebSocket/send * * @example * io.send("hello"); * * // this is equivalent to * io.emit("message", "hello"); * * @return self */ send(...args) { this.sockets.emit("message", ...args); return this; } /** * Sends a `message` event to all clients. Alias of {@link send}. * * @return self */ write(...args) { this.sockets.emit("message", ...args); return this; } /** * Sends a message to the other Socket.IO servers of the cluster. * * @example * io.serverSideEmit("hello", "world"); * * io.on("hello", (arg1) => { * console.log(arg1); // prints "world" * }); * * // acknowledgements (without binary content) are supported too: * io.serverSideEmit("ping", (err, responses) => { * if (err) { * // some clients did not acknowledge the event in the given delay * } else { * console.log(responses); // one response per client * } * }); * * io.on("ping", (cb) => { * cb("pong"); * }); * * @param ev - the event name * @param args - an array of arguments, which may include an acknowledgement callback at the end */ serverSideEmit(ev, ...args) { return this.sockets.serverSideEmit(ev, ...args); } /** * Gets a list of socket ids. * * @deprecated this method will be removed in the next major release, please use {@link Server#serverSideEmit} or * {@link Server#fetchSockets} instead. */ allSockets() { return this.sockets.allSockets(); } /** * Sets the compress flag. * * @example * io.compress(false).emit("hello"); * * @param compress - if `true`, compresses the sending data * @return a new {@link BroadcastOperator} instance for chaining */ compress(compress) { return this.sockets.compress(compress); } /** * Sets a modifier for a subsequent event emission that the event data may be lost if the client is not ready to * receive messages (because of network slowness or other issues, or because they’re connected through long polling * and is in the middle of a request-response cycle). * * @example * io.volatile.emit("hello"); // the clients may or may not receive it * * @return a new {@link BroadcastOperator} instance for chaining */ get volatile() { return this.sockets.volatile; } /** * Sets a modifier for a subsequent event emission that the event data will only be broadcast to the current node. * * @example * // the “foo” event will be broadcast to all connected clients on this node * io.local.emit("foo", "bar"); * * @return a new {@link BroadcastOperator} instance for chaining */ get local() { return this.sockets.local; } /** * Adds a timeout in milliseconds for the next operation. * * @example * io.timeout(1000).emit("some-event", (err, responses) => { * if (err) { * // some clients did not acknowledge the event in the given delay * } else { * console.log(responses); // one response per client * } * }); * * @param timeout */ timeout(timeout) { return this.sockets.timeout(timeout); } /** * Returns the matching socket instances. * * Note: this method also works within a cluster of multiple Socket.IO servers, with a compatible {@link Adapter}. * * @example * // return all Socket instances * const sockets = await io.fetchSockets(); * * // return all Socket instances in the "room1" room * const sockets = await io.in("room1").fetchSockets(); * * for (const socket of sockets) { * console.log(socket.id); * console.log(socket.handshake); * console.log(socket.rooms); * console.log(socket.data); * * socket.emit("hello"); * socket.join("room1"); * socket.leave("room2"); * socket.disconnect(); * } */ fetchSockets() { return this.sockets.fetchSockets(); } /** * Makes the matching socket instances join the specified rooms. * * Note: this method also works within a cluster of multiple Socket.IO servers, with a compatible {@link Adapter}. * * @example * * // make all socket instances join the "room1" room * io.socketsJoin("room1"); * * // make all socket instances in the "room1" room join the "room2" and "room3" rooms * io.in("room1").socketsJoin(["room2", "room3"]); * * @param room - a room, or an array of rooms */ socketsJoin(room) { return this.sockets.socketsJoin(room); } /** * Makes the matching socket instances leave the specified rooms. * * Note: this method also works within a cluster of multiple Socket.IO servers, with a compatible {@link Adapter}. * * @example * // make all socket instances leave the "room1" room * io.socketsLeave("room1"); * * // make all socket instances in the "room1" room leave the "room2" and "room3" rooms * io.in("room1").socketsLeave(["room2", "room3"]); * * @param room - a room, or an array of rooms */ socketsLeave(room) { return this.sockets.socketsLeave(room); } /** * Makes the matching socket instances disconnect. * * Note: this method also works within a cluster of multiple Socket.IO servers, with a compatible {@link Adapter}. * * @example * // make all socket instances disconnect (the connections might be kept alive for other namespaces) * io.disconnectSockets(); * * // make all socket instances in the "room1" room disconnect and close the underlying connections * io.in("room1").disconnectSockets(true); * * @param close - whether to close the underlying connection */ disconnectSockets(close = false) { return this.sockets.disconnectSockets(close); } } exports.Server = Server; /** * Expose main namespace (/). */ const emitterMethods = Object.keys(events_1.EventEmitter.prototype).filter(function (key) { return typeof events_1.EventEmitter.prototype[key] === "function"; }); emitterMethods.forEach(function (fn) { Server.prototype[fn] = function () { return this.sockets[fn].apply(this.sockets, arguments); }; }); module.exports = (srv, opts) => new Server(srv, opts); module.exports.Server = Server; module.exports.Namespace = namespace_1.Namespace; module.exports.Socket = socket_1.Socket; var socket_2 = require("./socket");