lix-website/themes/lix/assets/bootstrap/node_modules/socket.io/dist/namespace.js

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2024-04-27 03:39:10 +00:00
"use strict";
var __importDefault = (this && this.__importDefault) || function (mod) {
return (mod && mod.__esModule) ? mod : { "default": mod };
};
Object.defineProperty(exports, "__esModule", { value: true });
exports.Namespace = exports.RESERVED_EVENTS = void 0;
const socket_1 = require("./socket");
const typed_events_1 = require("./typed-events");
const debug_1 = __importDefault(require("debug"));
const broadcast_operator_1 = require("./broadcast-operator");
const debug = (0, debug_1.default)("socket.io:namespace");
exports.RESERVED_EVENTS = new Set(["connect", "connection", "new_namespace"]);
/**
* A Namespace is a communication channel that allows you to split the logic of your application over a single shared
* connection.
*
* Each namespace has its own:
*
* - event handlers
*
* ```
* io.of("/orders").on("connection", (socket) => {
* socket.on("order:list", () => {});
* socket.on("order:create", () => {});
* });
*
* io.of("/users").on("connection", (socket) => {
* socket.on("user:list", () => {});
* });
* ```
*
* - rooms
*
* ```
* const orderNamespace = io.of("/orders");
*
* orderNamespace.on("connection", (socket) => {
* socket.join("room1");
* orderNamespace.to("room1").emit("hello");
* });
*
* const userNamespace = io.of("/users");
*
* userNamespace.on("connection", (socket) => {
* socket.join("room1"); // distinct from the room in the "orders" namespace
* userNamespace.to("room1").emit("holà");
* });
* ```
*
* - middlewares
*
* ```
* const orderNamespace = io.of("/orders");
*
* orderNamespace.use((socket, next) => {
* // ensure the socket has access to the "orders" namespace
* });
*
* const userNamespace = io.of("/users");
*
* userNamespace.use((socket, next) => {
* // ensure the socket has access to the "users" namespace
* });
* ```
*/
class Namespace extends typed_events_1.StrictEventEmitter {
/**
* Namespace constructor.
*
* @param server instance
* @param name
*/
constructor(server, name) {
super();
this.sockets = new Map();
/** @private */
this._fns = [];
/** @private */
this._ids = 0;
this.server = server;
this.name = name;
this._initAdapter();
}
/**
* Initializes the `Adapter` for this nsp.
* Run upon changing adapter by `Server#adapter`
* in addition to the constructor.
*
* @private
*/
_initAdapter() {
// @ts-ignore
this.adapter = new (this.server.adapter())(this);
}
/**
* Registers a middleware, which is a function that gets executed for every incoming {@link Socket}.
*
* @example
* const myNamespace = io.of("/my-namespace");
*
* myNamespace.use((socket, next) => {
* // ...
* next();
* });
*
* @param fn - the middleware function
*/
use(fn) {
this._fns.push(fn);
return this;
}
/**
* Executes the middleware for an incoming client.
*
* @param socket - the socket that will get added
* @param fn - last fn call in the middleware
* @private
*/
run(socket, fn) {
const fns = this._fns.slice(0);
if (!fns.length)
return fn(null);
function run(i) {
fns[i](socket, function (err) {
// upon error, short-circuit
if (err)
return fn(err);
// if no middleware left, summon callback
if (!fns[i + 1])
return fn(null);
// go on to next
run(i + 1);
});
}
run(0);
}
/**
* Targets a room when emitting.
*
* @example
* const myNamespace = io.of("/my-namespace");
*
* // the “foo” event will be broadcast to all connected clients in the “room-101” room
* myNamespace.to("room-101").emit("foo", "bar");
*
* // with an array of rooms (a client will be notified at most once)
* myNamespace.to(["room-101", "room-102"]).emit("foo", "bar");
*
* // with multiple chained calls
* myNamespace.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 new broadcast_operator_1.BroadcastOperator(this.adapter).to(room);
}
/**
* Targets a room when emitting. Similar to `to()`, but might feel clearer in some cases:
*
* @example
* const myNamespace = io.of("/my-namespace");
*
* // disconnect all clients in the "room-101" room
* myNamespace.in("room-101").disconnectSockets();
*
* @param room - a room, or an array of rooms
* @return a new {@link BroadcastOperator} instance for chaining
*/
in(room) {
return new broadcast_operator_1.BroadcastOperator(this.adapter).in(room);
}
/**
* Excludes a room when emitting.
*
* @example
* const myNamespace = io.of("/my-namespace");
*
* // the "foo" event will be broadcast to all connected clients, except the ones that are in the "room-101" room
* myNamespace.except("room-101").emit("foo", "bar");
*
* // with an array of rooms
* myNamespace.except(["room-101", "room-102"]).emit("foo", "bar");
*
* // with multiple chained calls
* myNamespace.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 new broadcast_operator_1.BroadcastOperator(this.adapter).except(room);
}
/**
* Adds a new client.
*
* @return {Socket}
* @private
*/
async _add(client, auth, fn) {
var _a;
debug("adding socket to nsp %s", this.name);
const socket = await this._createSocket(client, auth);
if (
// @ts-ignore
((_a = this.server.opts.connectionStateRecovery) === null || _a === void 0 ? void 0 : _a.skipMiddlewares) &&
socket.recovered &&
client.conn.readyState === "open") {
return this._doConnect(socket, fn);
}
this.run(socket, (err) => {
process.nextTick(() => {
if ("open" !== client.conn.readyState) {
debug("next called after client was closed - ignoring socket");
socket._cleanup();
return;
}
if (err) {
debug("middleware error, sending CONNECT_ERROR packet to the client");
socket._cleanup();
if (client.conn.protocol === 3) {
return socket._error(err.data || err.message);
}
else {
return socket._error({
message: err.message,
data: err.data,
});
}
}
this._doConnect(socket, fn);
});
});
}
async _createSocket(client, auth) {
const sessionId = auth.pid;
const offset = auth.offset;
if (
// @ts-ignore
this.server.opts.connectionStateRecovery &&
typeof sessionId === "string" &&
typeof offset === "string") {
let session;
try {
session = await this.adapter.restoreSession(sessionId, offset);
}
catch (e) {
debug("error while restoring session: %s", e);
}
if (session) {
debug("connection state recovered for sid %s", session.sid);
return new socket_1.Socket(this, client, auth, session);
}
}
return new socket_1.Socket(this, client, auth);
}
_doConnect(socket, fn) {
// track socket
this.sockets.set(socket.id, socket);
// it's paramount that the internal `onconnect` logic
// fires before user-set events to prevent state order
// violations (such as a disconnection before the connection
// logic is complete)
socket._onconnect();
if (fn)
fn(socket);
// fire user-set events
this.emitReserved("connect", socket);
this.emitReserved("connection", socket);
}
/**
* Removes a client. Called by each `Socket`.
*
* @private
*/
_remove(socket) {
if (this.sockets.has(socket.id)) {
this.sockets.delete(socket.id);
}
else {
debug("ignoring remove for %s", socket.id);
}
}
/**
* Emits to all connected clients.
*
* @example
* const myNamespace = io.of("/my-namespace");
*
* myNamespace.emit("hello", "world");
*
* // all serializable datastructures are supported (no need to call JSON.stringify)
* myNamespace.emit("hello", 1, "2", { 3: ["4"], 5: Uint8Array.from([6]) });
*
* // with an acknowledgement from the clients
* myNamespace.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
* }
* });
*
* @return Always true
*/
emit(ev, ...args) {
return new broadcast_operator_1.BroadcastOperator(this.adapter).emit(ev, ...args);
}
/**
* 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
* const myNamespace = io.of("/my-namespace");
*
* myNamespace.send("hello");
*
* // this is equivalent to
* myNamespace.emit("message", "hello");
*
* @return self
*/
send(...args) {
// This type-cast is needed because EmitEvents likely doesn't have `message` as a key.
// if you specify the EmitEvents, the type of args will be never.
this.emit("message", ...args);
return this;
}
/**
* Sends a `message` event to all clients. Sends a `message` event. Alias of {@link send}.
*
* @return self
*/
write(...args) {
// This type-cast is needed because EmitEvents likely doesn't have `message` as a key.
// if you specify the EmitEvents, the type of args will be never.
this.emit("message", ...args);
return this;
}
/**
* Sends a message to the other Socket.IO servers of the cluster.
*
* @example
* const myNamespace = io.of("/my-namespace");
*
* myNamespace.serverSideEmit("hello", "world");
*
* myNamespace.on("hello", (arg1) => {
* console.log(arg1); // prints "world"
* });
*
* // acknowledgements (without binary content) are supported too:
* myNamespace.serverSideEmit("ping", (err, responses) => {
* if (err) {
* // some servers did not acknowledge the event in the given delay
* } else {
* console.log(responses); // one response per server (except the current one)
* }
* });
*
* myNamespace.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) {
if (exports.RESERVED_EVENTS.has(ev)) {
throw new Error(`"${String(ev)}" is a reserved event name`);
}
args.unshift(ev);
this.adapter.serverSideEmit(args);
return true;
}
/**
* Sends a message and expect an acknowledgement from the other Socket.IO servers of the cluster.
*
* @example
* const myNamespace = io.of("/my-namespace");
*
* try {
* const responses = await myNamespace.serverSideEmitWithAck("ping");
* console.log(responses); // one response per server (except the current one)
* } catch (e) {
* // some servers did not acknowledge the event in the given delay
* }
*
* @param ev - the event name
* @param args - an array of arguments
*
* @return a Promise that will be fulfilled when all servers have acknowledged the event
*/
serverSideEmitWithAck(ev, ...args) {
return new Promise((resolve, reject) => {
args.push((err, responses) => {
if (err) {
err.responses = responses;
return reject(err);
}
else {
return resolve(responses);
}
});
this.serverSideEmit(ev, ...args);
});
}
/**
* Called when a packet is received from another Socket.IO server
*
* @param args - an array of arguments, which may include an acknowledgement callback at the end
*
* @private
*/
_onServerSideEmit(args) {
super.emitUntyped.apply(this, args);
}
/**
* Gets a list of clients.
*
* @deprecated this method will be removed in the next major release, please use {@link Namespace#serverSideEmit} or
* {@link Namespace#fetchSockets} instead.
*/
allSockets() {
return new broadcast_operator_1.BroadcastOperator(this.adapter).allSockets();
}
/**
* Sets the compress flag.
*
* @example
* const myNamespace = io.of("/my-namespace");
*
* myNamespace.compress(false).emit("hello");
*
* @param compress - if `true`, compresses the sending data
* @return self
*/
compress(compress) {
return new broadcast_operator_1.BroadcastOperator(this.adapter).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 theyre connected through long polling
* and is in the middle of a request-response cycle).
*
* @example
* const myNamespace = io.of("/my-namespace");
*
* myNamespace.volatile.emit("hello"); // the clients may or may not receive it
*
* @return self
*/
get volatile() {
return new broadcast_operator_1.BroadcastOperator(this.adapter).volatile;
}
/**
* Sets a modifier for a subsequent event emission that the event data will only be broadcast to the current node.
*
* @example
* const myNamespace = io.of("/my-namespace");
*
* // the “foo” event will be broadcast to all connected clients on this node
* myNamespace.local.emit("foo", "bar");
*
* @return a new {@link BroadcastOperator} instance for chaining
*/
get local() {
return new broadcast_operator_1.BroadcastOperator(this.adapter).local;
}
/**
* Adds a timeout in milliseconds for the next operation.
*
* @example
* const myNamespace = io.of("/my-namespace");
*
* myNamespace.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 new broadcast_operator_1.BroadcastOperator(this.adapter).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
* const myNamespace = io.of("/my-namespace");
*
* // return all Socket instances
* const sockets = await myNamespace.fetchSockets();
*
* // return all Socket instances in the "room1" room
* const sockets = await myNamespace.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 new broadcast_operator_1.BroadcastOperator(this.adapter).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
* const myNamespace = io.of("/my-namespace");
*
* // make all socket instances join the "room1" room
* myNamespace.socketsJoin("room1");
*
* // make all socket instances in the "room1" room join the "room2" and "room3" rooms
* myNamespace.in("room1").socketsJoin(["room2", "room3"]);
*
* @param room - a room, or an array of rooms
*/
socketsJoin(room) {
return new broadcast_operator_1.BroadcastOperator(this.adapter).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
* const myNamespace = io.of("/my-namespace");
*
* // make all socket instances leave the "room1" room
* myNamespace.socketsLeave("room1");
*
* // make all socket instances in the "room1" room leave the "room2" and "room3" rooms
* myNamespace.in("room1").socketsLeave(["room2", "room3"]);
*
* @param room - a room, or an array of rooms
*/
socketsLeave(room) {
return new broadcast_operator_1.BroadcastOperator(this.adapter).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
* const myNamespace = io.of("/my-namespace");
*
* // make all socket instances disconnect (the connections might be kept alive for other namespaces)
* myNamespace.disconnectSockets();
*
* // make all socket instances in the "room1" room disconnect and close the underlying connections
* myNamespace.in("room1").disconnectSockets(true);
*
* @param close - whether to close the underlying connection
*/
disconnectSockets(close = false) {
return new broadcast_operator_1.BroadcastOperator(this.adapter).disconnectSockets(close);
}
}
exports.Namespace = Namespace;