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20
node_modules/socket.io-adapter/LICENSE generated vendored Normal file
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(The MIT License)
Copyright (c) 2014 Guillermo Rauch <guillermo@learnboost.com>
Permission is hereby granted, free of charge, to any person obtaining a copy of
this software and associated documentation files (the 'Software'), to deal in
the Software without restriction, including without limitation the rights to
use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
the Software, and to permit persons to whom the Software is furnished to do so,
subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED 'AS IS', WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.

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# socket.io-adapter
Default socket.io in-memory adapter class.
Compatibility table:
| Adapter version | Socket.IO server version |
|-----------------| ------------------------ |
| 1.x.x | 1.x.x / 2.x.x |
| 2.x.x | 3.x.x |
## How to use
This module is not intended for end-user usage, but can be used as an
interface to inherit from other adapters you might want to build.
As an example of an adapter that builds on top of this, please take a look
at [socket.io-redis](https://github.com/learnboost/socket.io-redis).
## License
MIT

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import { Adapter } from "./in-memory-adapter";
import type { BroadcastFlags, BroadcastOptions, Room } from "./in-memory-adapter";
type DistributiveOmit<T, K extends keyof any> = T extends any ? Omit<T, K> : never;
/**
* The unique ID of a server
*/
export type ServerId = string;
/**
* The unique ID of a message (for the connection state recovery feature)
*/
export type Offset = string;
export interface ClusterAdapterOptions {
/**
* The number of ms between two heartbeats.
* @default 5_000
*/
heartbeatInterval?: number;
/**
* The number of ms without heartbeat before we consider a node down.
* @default 10_000
*/
heartbeatTimeout?: number;
}
export declare enum MessageType {
INITIAL_HEARTBEAT = 1,
HEARTBEAT = 2,
BROADCAST = 3,
SOCKETS_JOIN = 4,
SOCKETS_LEAVE = 5,
DISCONNECT_SOCKETS = 6,
FETCH_SOCKETS = 7,
FETCH_SOCKETS_RESPONSE = 8,
SERVER_SIDE_EMIT = 9,
SERVER_SIDE_EMIT_RESPONSE = 10,
BROADCAST_CLIENT_COUNT = 11,
BROADCAST_ACK = 12,
ADAPTER_CLOSE = 13
}
export type ClusterMessage = {
uid: ServerId;
nsp: string;
} & ({
type: MessageType.INITIAL_HEARTBEAT | MessageType.HEARTBEAT | MessageType.ADAPTER_CLOSE;
} | {
type: MessageType.BROADCAST;
data: {
opts: {
rooms: string[];
except: string[];
flags: BroadcastFlags;
};
packet: unknown;
requestId?: string;
};
} | {
type: MessageType.SOCKETS_JOIN | MessageType.SOCKETS_LEAVE;
data: {
opts: {
rooms: string[];
except: string[];
flags: BroadcastFlags;
};
rooms: string[];
};
} | {
type: MessageType.DISCONNECT_SOCKETS;
data: {
opts: {
rooms: string[];
except: string[];
flags: BroadcastFlags;
};
close?: boolean;
};
} | {
type: MessageType.FETCH_SOCKETS;
data: {
opts: {
rooms: string[];
except: string[];
flags: BroadcastFlags;
};
requestId: string;
};
} | {
type: MessageType.SERVER_SIDE_EMIT;
data: {
requestId?: string;
packet: any[];
};
});
export type ClusterResponse = {
uid: ServerId;
nsp: string;
} & ({
type: MessageType.FETCH_SOCKETS_RESPONSE;
data: {
requestId: string;
sockets: unknown[];
};
} | {
type: MessageType.SERVER_SIDE_EMIT_RESPONSE;
data: {
requestId: string;
packet: unknown;
};
} | {
type: MessageType.BROADCAST_CLIENT_COUNT;
data: {
requestId: string;
clientCount: number;
};
} | {
type: MessageType.BROADCAST_ACK;
data: {
requestId: string;
packet: unknown;
};
});
/**
* A cluster-ready adapter. Any extending class must:
*
* - implement {@link ClusterAdapter#doPublish} and {@link ClusterAdapter#doPublishResponse}
* - call {@link ClusterAdapter#onMessage} and {@link ClusterAdapter#onResponse}
*/
export declare abstract class ClusterAdapter extends Adapter {
protected readonly uid: ServerId;
private requests;
private ackRequests;
protected constructor(nsp: any);
/**
* Called when receiving a message from another member of the cluster.
*
* @param message
* @param offset
* @protected
*/
protected onMessage(message: ClusterMessage, offset?: string): void;
/**
* Called when receiving a response from another member of the cluster.
*
* @param response
* @protected
*/
protected onResponse(response: ClusterResponse): void;
broadcast(packet: any, opts: BroadcastOptions): Promise<void>;
/**
* Adds an offset at the end of the data array in order to allow the client to receive any missed packets when it
* reconnects after a temporary disconnection.
*
* @param packet
* @param opts
* @param offset
* @private
*/
private addOffsetIfNecessary;
broadcastWithAck(packet: any, opts: BroadcastOptions, clientCountCallback: (clientCount: number) => void, ack: (...args: any[]) => void): void;
addSockets(opts: BroadcastOptions, rooms: Room[]): Promise<void>;
delSockets(opts: BroadcastOptions, rooms: Room[]): Promise<void>;
disconnectSockets(opts: BroadcastOptions, close: boolean): Promise<void>;
fetchSockets(opts: BroadcastOptions): Promise<any[]>;
serverSideEmit(packet: any[]): Promise<any>;
protected publish(message: DistributiveOmit<ClusterMessage, "nsp" | "uid">): void;
protected publishAndReturnOffset(message: DistributiveOmit<ClusterMessage, "nsp" | "uid">): Promise<string>;
/**
* Send a message to the other members of the cluster.
*
* @param message
* @protected
* @return an offset, if applicable
*/
protected abstract doPublish(message: ClusterMessage): Promise<Offset>;
protected publishResponse(requesterUid: ServerId, response: Omit<ClusterResponse, "nsp" | "uid">): void;
/**
* Send a response to the given member of the cluster.
*
* @param requesterUid
* @param response
* @protected
*/
protected abstract doPublishResponse(requesterUid: ServerId, response: ClusterResponse): Promise<void>;
}
export declare abstract class ClusterAdapterWithHeartbeat extends ClusterAdapter {
private readonly _opts;
private heartbeatTimer;
private nodesMap;
private readonly cleanupTimer;
private customRequests;
protected constructor(nsp: any, opts: ClusterAdapterOptions);
init(): void;
private scheduleHeartbeat;
close(): void;
onMessage(message: ClusterMessage, offset?: string): void;
serverCount(): Promise<number>;
publish(message: DistributiveOmit<ClusterMessage, "nsp" | "uid">): void;
serverSideEmit(packet: any[]): Promise<any>;
fetchSockets(opts: BroadcastOptions): Promise<any[]>;
onResponse(response: ClusterResponse): void;
private removeNode;
}
export {};

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"use strict";
var __rest = (this && this.__rest) || function (s, e) {
var t = {};
for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p) && e.indexOf(p) < 0)
t[p] = s[p];
if (s != null && typeof Object.getOwnPropertySymbols === "function")
for (var i = 0, p = Object.getOwnPropertySymbols(s); i < p.length; i++) {
if (e.indexOf(p[i]) < 0 && Object.prototype.propertyIsEnumerable.call(s, p[i]))
t[p[i]] = s[p[i]];
}
return t;
};
Object.defineProperty(exports, "__esModule", { value: true });
exports.ClusterAdapterWithHeartbeat = exports.ClusterAdapter = exports.MessageType = void 0;
const in_memory_adapter_1 = require("./in-memory-adapter");
const debug_1 = require("debug");
const crypto_1 = require("crypto");
const debug = (0, debug_1.debug)("socket.io-adapter");
const EMITTER_UID = "emitter";
const DEFAULT_TIMEOUT = 5000;
function randomId() {
return (0, crypto_1.randomBytes)(8).toString("hex");
}
var MessageType;
(function (MessageType) {
MessageType[MessageType["INITIAL_HEARTBEAT"] = 1] = "INITIAL_HEARTBEAT";
MessageType[MessageType["HEARTBEAT"] = 2] = "HEARTBEAT";
MessageType[MessageType["BROADCAST"] = 3] = "BROADCAST";
MessageType[MessageType["SOCKETS_JOIN"] = 4] = "SOCKETS_JOIN";
MessageType[MessageType["SOCKETS_LEAVE"] = 5] = "SOCKETS_LEAVE";
MessageType[MessageType["DISCONNECT_SOCKETS"] = 6] = "DISCONNECT_SOCKETS";
MessageType[MessageType["FETCH_SOCKETS"] = 7] = "FETCH_SOCKETS";
MessageType[MessageType["FETCH_SOCKETS_RESPONSE"] = 8] = "FETCH_SOCKETS_RESPONSE";
MessageType[MessageType["SERVER_SIDE_EMIT"] = 9] = "SERVER_SIDE_EMIT";
MessageType[MessageType["SERVER_SIDE_EMIT_RESPONSE"] = 10] = "SERVER_SIDE_EMIT_RESPONSE";
MessageType[MessageType["BROADCAST_CLIENT_COUNT"] = 11] = "BROADCAST_CLIENT_COUNT";
MessageType[MessageType["BROADCAST_ACK"] = 12] = "BROADCAST_ACK";
MessageType[MessageType["ADAPTER_CLOSE"] = 13] = "ADAPTER_CLOSE";
})(MessageType = exports.MessageType || (exports.MessageType = {}));
function encodeOptions(opts) {
return {
rooms: [...opts.rooms],
except: [...opts.except],
flags: opts.flags,
};
}
function decodeOptions(opts) {
return {
rooms: new Set(opts.rooms),
except: new Set(opts.except),
flags: opts.flags,
};
}
/**
* A cluster-ready adapter. Any extending class must:
*
* - implement {@link ClusterAdapter#doPublish} and {@link ClusterAdapter#doPublishResponse}
* - call {@link ClusterAdapter#onMessage} and {@link ClusterAdapter#onResponse}
*/
class ClusterAdapter extends in_memory_adapter_1.Adapter {
constructor(nsp) {
super(nsp);
this.requests = new Map();
this.ackRequests = new Map();
this.uid = randomId();
}
/**
* Called when receiving a message from another member of the cluster.
*
* @param message
* @param offset
* @protected
*/
onMessage(message, offset) {
if (message.uid === this.uid) {
return debug("[%s] ignore message from self", this.uid);
}
debug("[%s] new event of type %d from %s", this.uid, message.type, message.uid);
switch (message.type) {
case MessageType.BROADCAST: {
const withAck = message.data.requestId !== undefined;
if (withAck) {
super.broadcastWithAck(message.data.packet, decodeOptions(message.data.opts), (clientCount) => {
debug("[%s] waiting for %d client acknowledgements", this.uid, clientCount);
this.publishResponse(message.uid, {
type: MessageType.BROADCAST_CLIENT_COUNT,
data: {
requestId: message.data.requestId,
clientCount,
},
});
}, (arg) => {
debug("[%s] received acknowledgement with value %j", this.uid, arg);
this.publishResponse(message.uid, {
type: MessageType.BROADCAST_ACK,
data: {
requestId: message.data.requestId,
packet: arg,
},
});
});
}
else {
const packet = message.data.packet;
const opts = decodeOptions(message.data.opts);
this.addOffsetIfNecessary(packet, opts, offset);
super.broadcast(packet, opts);
}
break;
}
case MessageType.SOCKETS_JOIN:
super.addSockets(decodeOptions(message.data.opts), message.data.rooms);
break;
case MessageType.SOCKETS_LEAVE:
super.delSockets(decodeOptions(message.data.opts), message.data.rooms);
break;
case MessageType.DISCONNECT_SOCKETS:
super.disconnectSockets(decodeOptions(message.data.opts), message.data.close);
break;
case MessageType.FETCH_SOCKETS: {
debug("[%s] calling fetchSockets with opts %j", this.uid, message.data.opts);
super
.fetchSockets(decodeOptions(message.data.opts))
.then((localSockets) => {
this.publishResponse(message.uid, {
type: MessageType.FETCH_SOCKETS_RESPONSE,
data: {
requestId: message.data.requestId,
sockets: localSockets.map((socket) => {
// remove sessionStore from handshake, as it may contain circular references
const _a = socket.handshake, { sessionStore } = _a, handshake = __rest(_a, ["sessionStore"]);
return {
id: socket.id,
handshake,
rooms: [...socket.rooms],
data: socket.data,
};
}),
},
});
});
break;
}
case MessageType.SERVER_SIDE_EMIT: {
const packet = message.data.packet;
const withAck = message.data.requestId !== undefined;
if (!withAck) {
this.nsp._onServerSideEmit(packet);
return;
}
let called = false;
const callback = (arg) => {
// only one argument is expected
if (called) {
return;
}
called = true;
debug("[%s] calling acknowledgement with %j", this.uid, arg);
this.publishResponse(message.uid, {
type: MessageType.SERVER_SIDE_EMIT_RESPONSE,
data: {
requestId: message.data.requestId,
packet: arg,
},
});
};
this.nsp._onServerSideEmit([...packet, callback]);
break;
}
// @ts-ignore
case MessageType.BROADCAST_CLIENT_COUNT:
// @ts-ignore
case MessageType.BROADCAST_ACK:
// @ts-ignore
case MessageType.FETCH_SOCKETS_RESPONSE:
// @ts-ignore
case MessageType.SERVER_SIDE_EMIT_RESPONSE:
// extending classes may not make a distinction between a ClusterMessage and a ClusterResponse payload and may
// always call the onMessage() method
this.onResponse(message);
break;
default:
debug("[%s] unknown message type: %s", this.uid, message.type);
}
}
/**
* Called when receiving a response from another member of the cluster.
*
* @param response
* @protected
*/
onResponse(response) {
var _a, _b;
const requestId = response.data.requestId;
debug("[%s] received response %s to request %s", this.uid, response.type, requestId);
switch (response.type) {
case MessageType.BROADCAST_CLIENT_COUNT: {
(_a = this.ackRequests
.get(requestId)) === null || _a === void 0 ? void 0 : _a.clientCountCallback(response.data.clientCount);
break;
}
case MessageType.BROADCAST_ACK: {
(_b = this.ackRequests.get(requestId)) === null || _b === void 0 ? void 0 : _b.ack(response.data.packet);
break;
}
case MessageType.FETCH_SOCKETS_RESPONSE: {
const request = this.requests.get(requestId);
if (!request) {
return;
}
request.current++;
response.data.sockets.forEach((socket) => request.responses.push(socket));
if (request.current === request.expected) {
clearTimeout(request.timeout);
request.resolve(request.responses);
this.requests.delete(requestId);
}
break;
}
case MessageType.SERVER_SIDE_EMIT_RESPONSE: {
const request = this.requests.get(requestId);
if (!request) {
return;
}
request.current++;
request.responses.push(response.data.packet);
if (request.current === request.expected) {
clearTimeout(request.timeout);
request.resolve(null, request.responses);
this.requests.delete(requestId);
}
break;
}
default:
// @ts-ignore
debug("[%s] unknown response type: %s", this.uid, response.type);
}
}
async broadcast(packet, opts) {
var _a;
const onlyLocal = (_a = opts.flags) === null || _a === void 0 ? void 0 : _a.local;
if (!onlyLocal) {
try {
const offset = await this.publishAndReturnOffset({
type: MessageType.BROADCAST,
data: {
packet,
opts: encodeOptions(opts),
},
});
this.addOffsetIfNecessary(packet, opts, offset);
}
catch (e) {
return debug("[%s] error while broadcasting message: %s", this.uid, e.message);
}
}
super.broadcast(packet, opts);
}
/**
* Adds an offset at the end of the data array in order to allow the client to receive any missed packets when it
* reconnects after a temporary disconnection.
*
* @param packet
* @param opts
* @param offset
* @private
*/
addOffsetIfNecessary(packet, opts, offset) {
var _a;
if (!this.nsp.server.opts.connectionStateRecovery) {
return;
}
const isEventPacket = packet.type === 2;
// packets with acknowledgement are not stored because the acknowledgement function cannot be serialized and
// restored on another server upon reconnection
const withoutAcknowledgement = packet.id === undefined;
const notVolatile = ((_a = opts.flags) === null || _a === void 0 ? void 0 : _a.volatile) === undefined;
if (isEventPacket && withoutAcknowledgement && notVolatile) {
packet.data.push(offset);
}
}
broadcastWithAck(packet, opts, clientCountCallback, ack) {
var _a;
const onlyLocal = (_a = opts === null || opts === void 0 ? void 0 : opts.flags) === null || _a === void 0 ? void 0 : _a.local;
if (!onlyLocal) {
const requestId = randomId();
this.ackRequests.set(requestId, {
clientCountCallback,
ack,
});
this.publish({
type: MessageType.BROADCAST,
data: {
packet,
requestId,
opts: encodeOptions(opts),
},
});
// we have no way to know at this level whether the server has received an acknowledgement from each client, so we
// will simply clean up the ackRequests map after the given delay
setTimeout(() => {
this.ackRequests.delete(requestId);
}, opts.flags.timeout);
}
super.broadcastWithAck(packet, opts, clientCountCallback, ack);
}
async addSockets(opts, rooms) {
var _a;
const onlyLocal = (_a = opts.flags) === null || _a === void 0 ? void 0 : _a.local;
if (!onlyLocal) {
try {
await this.publishAndReturnOffset({
type: MessageType.SOCKETS_JOIN,
data: {
opts: encodeOptions(opts),
rooms,
},
});
}
catch (e) {
debug("[%s] error while publishing message: %s", this.uid, e.message);
}
}
super.addSockets(opts, rooms);
}
async delSockets(opts, rooms) {
var _a;
const onlyLocal = (_a = opts.flags) === null || _a === void 0 ? void 0 : _a.local;
if (!onlyLocal) {
try {
await this.publishAndReturnOffset({
type: MessageType.SOCKETS_LEAVE,
data: {
opts: encodeOptions(opts),
rooms,
},
});
}
catch (e) {
debug("[%s] error while publishing message: %s", this.uid, e.message);
}
}
super.delSockets(opts, rooms);
}
async disconnectSockets(opts, close) {
var _a;
const onlyLocal = (_a = opts.flags) === null || _a === void 0 ? void 0 : _a.local;
if (!onlyLocal) {
try {
await this.publishAndReturnOffset({
type: MessageType.DISCONNECT_SOCKETS,
data: {
opts: encodeOptions(opts),
close,
},
});
}
catch (e) {
debug("[%s] error while publishing message: %s", this.uid, e.message);
}
}
super.disconnectSockets(opts, close);
}
async fetchSockets(opts) {
var _a;
const [localSockets, serverCount] = await Promise.all([
super.fetchSockets(opts),
this.serverCount(),
]);
const expectedResponseCount = serverCount - 1;
if (((_a = opts.flags) === null || _a === void 0 ? void 0 : _a.local) || expectedResponseCount <= 0) {
return localSockets;
}
const requestId = randomId();
return new Promise((resolve, reject) => {
const timeout = setTimeout(() => {
const storedRequest = this.requests.get(requestId);
if (storedRequest) {
reject(new Error(`timeout reached: only ${storedRequest.current} responses received out of ${storedRequest.expected}`));
this.requests.delete(requestId);
}
}, opts.flags.timeout || DEFAULT_TIMEOUT);
const storedRequest = {
type: MessageType.FETCH_SOCKETS,
resolve,
timeout,
current: 0,
expected: expectedResponseCount,
responses: localSockets,
};
this.requests.set(requestId, storedRequest);
this.publish({
type: MessageType.FETCH_SOCKETS,
data: {
opts: encodeOptions(opts),
requestId,
},
});
});
}
async serverSideEmit(packet) {
const withAck = typeof packet[packet.length - 1] === "function";
if (!withAck) {
return this.publish({
type: MessageType.SERVER_SIDE_EMIT,
data: {
packet,
},
});
}
const ack = packet.pop();
const expectedResponseCount = (await this.serverCount()) - 1;
debug('[%s] waiting for %d responses to "serverSideEmit" request', this.uid, expectedResponseCount);
if (expectedResponseCount <= 0) {
return ack(null, []);
}
const requestId = randomId();
const timeout = setTimeout(() => {
const storedRequest = this.requests.get(requestId);
if (storedRequest) {
ack(new Error(`timeout reached: only ${storedRequest.current} responses received out of ${storedRequest.expected}`), storedRequest.responses);
this.requests.delete(requestId);
}
}, DEFAULT_TIMEOUT);
const storedRequest = {
type: MessageType.SERVER_SIDE_EMIT,
resolve: ack,
timeout,
current: 0,
expected: expectedResponseCount,
responses: [],
};
this.requests.set(requestId, storedRequest);
this.publish({
type: MessageType.SERVER_SIDE_EMIT,
data: {
requestId,
packet,
},
});
}
publish(message) {
this.publishAndReturnOffset(message).catch((err) => {
debug("[%s] error while publishing message: %s", this.uid, err);
});
}
publishAndReturnOffset(message) {
message.uid = this.uid;
message.nsp = this.nsp.name;
return this.doPublish(message);
}
publishResponse(requesterUid, response) {
response.uid = this.uid;
response.nsp = this.nsp.name;
this.doPublishResponse(requesterUid, response).catch((err) => {
debug("[%s] error while publishing response: %s", this.uid, err);
});
}
}
exports.ClusterAdapter = ClusterAdapter;
class ClusterAdapterWithHeartbeat extends ClusterAdapter {
constructor(nsp, opts) {
super(nsp);
this.nodesMap = new Map(); // uid => timestamp of last message
this.customRequests = new Map();
this._opts = Object.assign({
heartbeatInterval: 5000,
heartbeatTimeout: 10000,
}, opts);
this.cleanupTimer = setInterval(() => {
const now = Date.now();
this.nodesMap.forEach((lastSeen, uid) => {
const nodeSeemsDown = now - lastSeen > this._opts.heartbeatTimeout;
if (nodeSeemsDown) {
debug("[%s] node %s seems down", this.uid, uid);
this.removeNode(uid);
}
});
}, 1000);
}
init() {
this.publish({
type: MessageType.INITIAL_HEARTBEAT,
});
}
scheduleHeartbeat() {
if (this.heartbeatTimer) {
this.heartbeatTimer.refresh();
}
else {
this.heartbeatTimer = setTimeout(() => {
this.publish({
type: MessageType.HEARTBEAT,
});
}, this._opts.heartbeatInterval);
}
}
close() {
this.publish({
type: MessageType.ADAPTER_CLOSE,
});
clearTimeout(this.heartbeatTimer);
if (this.cleanupTimer) {
clearInterval(this.cleanupTimer);
}
}
onMessage(message, offset) {
if (message.uid === this.uid) {
return debug("[%s] ignore message from self", this.uid);
}
if (message.uid && message.uid !== EMITTER_UID) {
// we track the UID of each sender, in order to know how many servers there are in the cluster
this.nodesMap.set(message.uid, Date.now());
}
debug("[%s] new event of type %d from %s", this.uid, message.type, message.uid);
switch (message.type) {
case MessageType.INITIAL_HEARTBEAT:
this.publish({
type: MessageType.HEARTBEAT,
});
break;
case MessageType.HEARTBEAT:
// nothing to do
break;
case MessageType.ADAPTER_CLOSE:
this.removeNode(message.uid);
break;
default:
super.onMessage(message, offset);
}
}
serverCount() {
return Promise.resolve(1 + this.nodesMap.size);
}
publish(message) {
this.scheduleHeartbeat();
return super.publish(message);
}
async serverSideEmit(packet) {
const withAck = typeof packet[packet.length - 1] === "function";
if (!withAck) {
return this.publish({
type: MessageType.SERVER_SIDE_EMIT,
data: {
packet,
},
});
}
const ack = packet.pop();
const expectedResponseCount = this.nodesMap.size;
debug('[%s] waiting for %d responses to "serverSideEmit" request', this.uid, expectedResponseCount);
if (expectedResponseCount <= 0) {
return ack(null, []);
}
const requestId = randomId();
const timeout = setTimeout(() => {
const storedRequest = this.customRequests.get(requestId);
if (storedRequest) {
ack(new Error(`timeout reached: missing ${storedRequest.missingUids.size} responses`), storedRequest.responses);
this.customRequests.delete(requestId);
}
}, DEFAULT_TIMEOUT);
const storedRequest = {
type: MessageType.SERVER_SIDE_EMIT,
resolve: ack,
timeout,
missingUids: new Set([...this.nodesMap.keys()]),
responses: [],
};
this.customRequests.set(requestId, storedRequest);
this.publish({
type: MessageType.SERVER_SIDE_EMIT,
data: {
requestId,
packet,
},
});
}
async fetchSockets(opts) {
var _a;
const [localSockets, serverCount] = await Promise.all([
super.fetchSockets({
rooms: opts.rooms,
except: opts.except,
flags: {
local: true,
},
}),
this.serverCount(),
]);
const expectedResponseCount = serverCount - 1;
if (((_a = opts.flags) === null || _a === void 0 ? void 0 : _a.local) || expectedResponseCount <= 0) {
return localSockets;
}
const requestId = randomId();
return new Promise((resolve, reject) => {
const timeout = setTimeout(() => {
const storedRequest = this.customRequests.get(requestId);
if (storedRequest) {
reject(new Error(`timeout reached: missing ${storedRequest.missingUids.size} responses`));
this.customRequests.delete(requestId);
}
}, opts.flags.timeout || DEFAULT_TIMEOUT);
const storedRequest = {
type: MessageType.FETCH_SOCKETS,
resolve,
timeout,
missingUids: new Set([...this.nodesMap.keys()]),
responses: localSockets,
};
this.customRequests.set(requestId, storedRequest);
this.publish({
type: MessageType.FETCH_SOCKETS,
data: {
opts: encodeOptions(opts),
requestId,
},
});
});
}
onResponse(response) {
const requestId = response.data.requestId;
debug("[%s] received response %s to request %s", this.uid, response.type, requestId);
switch (response.type) {
case MessageType.FETCH_SOCKETS_RESPONSE: {
const request = this.customRequests.get(requestId);
if (!request) {
return;
}
response.data.sockets.forEach((socket) => request.responses.push(socket));
request.missingUids.delete(response.uid);
if (request.missingUids.size === 0) {
clearTimeout(request.timeout);
request.resolve(request.responses);
this.customRequests.delete(requestId);
}
break;
}
case MessageType.SERVER_SIDE_EMIT_RESPONSE: {
const request = this.customRequests.get(requestId);
if (!request) {
return;
}
request.responses.push(response.data.packet);
request.missingUids.delete(response.uid);
if (request.missingUids.size === 0) {
clearTimeout(request.timeout);
request.resolve(null, request.responses);
this.customRequests.delete(requestId);
}
break;
}
default:
super.onResponse(response);
}
}
removeNode(uid) {
this.customRequests.forEach((request, requestId) => {
request.missingUids.delete(uid);
if (request.missingUids.size === 0) {
clearTimeout(request.timeout);
if (request.type === MessageType.FETCH_SOCKETS) {
request.resolve(request.responses);
}
else if (request.type === MessageType.SERVER_SIDE_EMIT) {
request.resolve(null, request.responses);
}
this.customRequests.delete(requestId);
}
});
this.nodesMap.delete(uid);
}
}
exports.ClusterAdapterWithHeartbeat = ClusterAdapterWithHeartbeat;

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/**
* Return a string representing the specified number.
*
* @param {Number} num The number to convert.
* @returns {String} The string representation of the number.
* @api public
*/
export declare function encode(num: any): string;
/**
* 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
*/
export declare function decode(str: any): number;
/**
* Yeast: A tiny growing id generator.
*
* @returns {String} A unique id.
* @api public
*/
export declare function yeast(): string;

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// imported from https://github.com/unshiftio/yeast
"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.yeast = exports.decode = exports.encode = void 0;
const alphabet = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz-_".split(""), length = 64, map = {};
let 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) {
let encoded = "";
do {
encoded = alphabet[num % length] + encoded;
num = Math.floor(num / length);
} while (num > 0);
return encoded;
}
exports.encode = encode;
/**
* 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) {
let decoded = 0;
for (i = 0; i < str.length; i++) {
decoded = decoded * length + map[str.charAt(i)];
}
return decoded;
}
exports.decode = decode;
/**
* Yeast: A tiny growing id generator.
*
* @returns {String} A unique id.
* @api public
*/
function yeast() {
const now = encode(+new Date());
if (now !== prev)
return (seed = 0), (prev = now);
return now + "." + encode(seed++);
}
exports.yeast = yeast;
//
// Map each character to its index.
//
for (; i < length; i++)
map[alphabet[i]] = i;

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/// <reference types="node" />
import { EventEmitter } from "events";
/**
* A public ID, sent by the server at the beginning of the Socket.IO session and which can be used for private messaging
*/
export type SocketId = string;
/**
* A private ID, sent by the server at the beginning of the Socket.IO session and used for connection state recovery
* upon reconnection
*/
export type PrivateSessionId = string;
export type Room = string;
export interface BroadcastFlags {
volatile?: boolean;
compress?: boolean;
local?: boolean;
broadcast?: boolean;
binary?: boolean;
timeout?: number;
}
export interface BroadcastOptions {
rooms: Set<Room>;
except?: Set<Room>;
flags?: BroadcastFlags;
}
interface SessionToPersist {
sid: SocketId;
pid: PrivateSessionId;
rooms: Room[];
data: unknown;
}
export type Session = SessionToPersist & {
missedPackets: unknown[][];
};
export declare class Adapter extends EventEmitter {
readonly nsp: any;
rooms: Map<Room, Set<SocketId>>;
sids: Map<SocketId, Set<Room>>;
private readonly encoder;
/**
* In-memory adapter constructor.
*
* @param {Namespace} nsp
*/
constructor(nsp: any);
/**
* To be overridden
*/
init(): Promise<void> | void;
/**
* To be overridden
*/
close(): Promise<void> | void;
/**
* Returns the number of Socket.IO servers in the cluster
*
* @public
*/
serverCount(): Promise<number>;
/**
* Adds a socket to a list of room.
*
* @param {SocketId} id the socket id
* @param {Set<Room>} rooms a set of rooms
* @public
*/
addAll(id: SocketId, rooms: Set<Room>): Promise<void> | void;
/**
* Removes a socket from a room.
*
* @param {SocketId} id the socket id
* @param {Room} room the room name
*/
del(id: SocketId, room: Room): Promise<void> | void;
private _del;
/**
* Removes a socket from all rooms it's joined.
*
* @param {SocketId} id the socket id
*/
delAll(id: SocketId): void;
/**
* Broadcasts a packet.
*
* Options:
* - `flags` {Object} flags for this packet
* - `except` {Array} sids that should be excluded
* - `rooms` {Array} list of rooms to broadcast to
*
* @param {Object} packet the packet object
* @param {Object} opts the options
* @public
*/
broadcast(packet: any, opts: BroadcastOptions): void;
/**
* Broadcasts a packet and expects multiple acknowledgements.
*
* Options:
* - `flags` {Object} flags for this packet
* - `except` {Array} sids that should be excluded
* - `rooms` {Array} list of rooms to broadcast to
*
* @param {Object} packet the packet object
* @param {Object} opts the options
* @param clientCountCallback - the number of clients that received the packet
* @param ack - the callback that will be called for each client response
*
* @public
*/
broadcastWithAck(packet: any, opts: BroadcastOptions, clientCountCallback: (clientCount: number) => void, ack: (...args: any[]) => void): void;
private _encode;
/**
* Gets a list of sockets by sid.
*
* @param {Set<Room>} rooms the explicit set of rooms to check.
*/
sockets(rooms: Set<Room>): Promise<Set<SocketId>>;
/**
* Gets the list of rooms a given socket has joined.
*
* @param {SocketId} id the socket id
*/
socketRooms(id: SocketId): Set<Room> | undefined;
/**
* Returns the matching socket instances
*
* @param opts - the filters to apply
*/
fetchSockets(opts: BroadcastOptions): Promise<any[]>;
/**
* Makes the matching socket instances join the specified rooms
*
* @param opts - the filters to apply
* @param rooms - the rooms to join
*/
addSockets(opts: BroadcastOptions, rooms: Room[]): void;
/**
* Makes the matching socket instances leave the specified rooms
*
* @param opts - the filters to apply
* @param rooms - the rooms to leave
*/
delSockets(opts: BroadcastOptions, rooms: Room[]): void;
/**
* Makes the matching socket instances disconnect
*
* @param opts - the filters to apply
* @param close - whether to close the underlying connection
*/
disconnectSockets(opts: BroadcastOptions, close: boolean): void;
private apply;
private computeExceptSids;
/**
* Send a packet to the other Socket.IO servers in the cluster
* @param packet - an array of arguments, which may include an acknowledgement callback at the end
*/
serverSideEmit(packet: any[]): void;
/**
* Save the client session in order to restore it upon reconnection.
*/
persistSession(session: SessionToPersist): void;
/**
* Restore the session and find the packets that were missed by the client.
* @param pid
* @param offset
*/
restoreSession(pid: PrivateSessionId, offset: string): Promise<Session>;
}
export declare class SessionAwareAdapter extends Adapter {
readonly nsp: any;
private readonly maxDisconnectionDuration;
private sessions;
private packets;
constructor(nsp: any);
persistSession(session: SessionToPersist): void;
restoreSession(pid: PrivateSessionId, offset: string): Promise<Session>;
broadcast(packet: any, opts: BroadcastOptions): void;
}
export {};

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"use strict";
var _a;
Object.defineProperty(exports, "__esModule", { value: true });
exports.SessionAwareAdapter = exports.Adapter = void 0;
const events_1 = require("events");
const yeast_1 = require("./contrib/yeast");
const WebSocket = require("ws");
const canPreComputeFrame = typeof ((_a = WebSocket === null || WebSocket === void 0 ? void 0 : WebSocket.Sender) === null || _a === void 0 ? void 0 : _a.frame) === "function";
class Adapter extends events_1.EventEmitter {
/**
* In-memory adapter constructor.
*
* @param {Namespace} nsp
*/
constructor(nsp) {
super();
this.nsp = nsp;
this.rooms = new Map();
this.sids = new Map();
this.encoder = nsp.server.encoder;
}
/**
* To be overridden
*/
init() { }
/**
* To be overridden
*/
close() { }
/**
* Returns the number of Socket.IO servers in the cluster
*
* @public
*/
serverCount() {
return Promise.resolve(1);
}
/**
* Adds a socket to a list of room.
*
* @param {SocketId} id the socket id
* @param {Set<Room>} rooms a set of rooms
* @public
*/
addAll(id, rooms) {
if (!this.sids.has(id)) {
this.sids.set(id, new Set());
}
for (const room of rooms) {
this.sids.get(id).add(room);
if (!this.rooms.has(room)) {
this.rooms.set(room, new Set());
this.emit("create-room", room);
}
if (!this.rooms.get(room).has(id)) {
this.rooms.get(room).add(id);
this.emit("join-room", room, id);
}
}
}
/**
* Removes a socket from a room.
*
* @param {SocketId} id the socket id
* @param {Room} room the room name
*/
del(id, room) {
if (this.sids.has(id)) {
this.sids.get(id).delete(room);
}
this._del(room, id);
}
_del(room, id) {
const _room = this.rooms.get(room);
if (_room != null) {
const deleted = _room.delete(id);
if (deleted) {
this.emit("leave-room", room, id);
}
if (_room.size === 0 && this.rooms.delete(room)) {
this.emit("delete-room", room);
}
}
}
/**
* Removes a socket from all rooms it's joined.
*
* @param {SocketId} id the socket id
*/
delAll(id) {
if (!this.sids.has(id)) {
return;
}
for (const room of this.sids.get(id)) {
this._del(room, id);
}
this.sids.delete(id);
}
/**
* Broadcasts a packet.
*
* Options:
* - `flags` {Object} flags for this packet
* - `except` {Array} sids that should be excluded
* - `rooms` {Array} list of rooms to broadcast to
*
* @param {Object} packet the packet object
* @param {Object} opts the options
* @public
*/
broadcast(packet, opts) {
const flags = opts.flags || {};
const packetOpts = {
preEncoded: true,
volatile: flags.volatile,
compress: flags.compress,
};
packet.nsp = this.nsp.name;
const encodedPackets = this._encode(packet, packetOpts);
this.apply(opts, (socket) => {
if (typeof socket.notifyOutgoingListeners === "function") {
socket.notifyOutgoingListeners(packet);
}
socket.client.writeToEngine(encodedPackets, packetOpts);
});
}
/**
* Broadcasts a packet and expects multiple acknowledgements.
*
* Options:
* - `flags` {Object} flags for this packet
* - `except` {Array} sids that should be excluded
* - `rooms` {Array} list of rooms to broadcast to
*
* @param {Object} packet the packet object
* @param {Object} opts the options
* @param clientCountCallback - the number of clients that received the packet
* @param ack - the callback that will be called for each client response
*
* @public
*/
broadcastWithAck(packet, opts, clientCountCallback, ack) {
const flags = opts.flags || {};
const packetOpts = {
preEncoded: true,
volatile: flags.volatile,
compress: flags.compress,
};
packet.nsp = this.nsp.name;
// we can use the same id for each packet, since the _ids counter is common (no duplicate)
packet.id = this.nsp._ids++;
const encodedPackets = this._encode(packet, packetOpts);
let clientCount = 0;
this.apply(opts, (socket) => {
// track the total number of acknowledgements that are expected
clientCount++;
// call the ack callback for each client response
socket.acks.set(packet.id, ack);
if (typeof socket.notifyOutgoingListeners === "function") {
socket.notifyOutgoingListeners(packet);
}
socket.client.writeToEngine(encodedPackets, packetOpts);
});
clientCountCallback(clientCount);
}
_encode(packet, packetOpts) {
const encodedPackets = this.encoder.encode(packet);
if (canPreComputeFrame &&
encodedPackets.length === 1 &&
typeof encodedPackets[0] === "string") {
// "4" being the "message" packet type in the Engine.IO protocol
const data = Buffer.from("4" + encodedPackets[0]);
// see https://github.com/websockets/ws/issues/617#issuecomment-283002469
packetOpts.wsPreEncodedFrame = WebSocket.Sender.frame(data, {
readOnly: false,
mask: false,
rsv1: false,
opcode: 1,
fin: true,
});
}
return encodedPackets;
}
/**
* Gets a list of sockets by sid.
*
* @param {Set<Room>} rooms the explicit set of rooms to check.
*/
sockets(rooms) {
const sids = new Set();
this.apply({ rooms }, (socket) => {
sids.add(socket.id);
});
return Promise.resolve(sids);
}
/**
* Gets the list of rooms a given socket has joined.
*
* @param {SocketId} id the socket id
*/
socketRooms(id) {
return this.sids.get(id);
}
/**
* Returns the matching socket instances
*
* @param opts - the filters to apply
*/
fetchSockets(opts) {
const sockets = [];
this.apply(opts, (socket) => {
sockets.push(socket);
});
return Promise.resolve(sockets);
}
/**
* Makes the matching socket instances join the specified rooms
*
* @param opts - the filters to apply
* @param rooms - the rooms to join
*/
addSockets(opts, rooms) {
this.apply(opts, (socket) => {
socket.join(rooms);
});
}
/**
* Makes the matching socket instances leave the specified rooms
*
* @param opts - the filters to apply
* @param rooms - the rooms to leave
*/
delSockets(opts, rooms) {
this.apply(opts, (socket) => {
rooms.forEach((room) => socket.leave(room));
});
}
/**
* Makes the matching socket instances disconnect
*
* @param opts - the filters to apply
* @param close - whether to close the underlying connection
*/
disconnectSockets(opts, close) {
this.apply(opts, (socket) => {
socket.disconnect(close);
});
}
apply(opts, callback) {
const rooms = opts.rooms;
const except = this.computeExceptSids(opts.except);
if (rooms.size) {
const ids = new Set();
for (const room of rooms) {
if (!this.rooms.has(room))
continue;
for (const id of this.rooms.get(room)) {
if (ids.has(id) || except.has(id))
continue;
const socket = this.nsp.sockets.get(id);
if (socket) {
callback(socket);
ids.add(id);
}
}
}
}
else {
for (const [id] of this.sids) {
if (except.has(id))
continue;
const socket = this.nsp.sockets.get(id);
if (socket)
callback(socket);
}
}
}
computeExceptSids(exceptRooms) {
const exceptSids = new Set();
if (exceptRooms && exceptRooms.size > 0) {
for (const room of exceptRooms) {
if (this.rooms.has(room)) {
this.rooms.get(room).forEach((sid) => exceptSids.add(sid));
}
}
}
return exceptSids;
}
/**
* Send a packet to the other Socket.IO servers in the cluster
* @param packet - an array of arguments, which may include an acknowledgement callback at the end
*/
serverSideEmit(packet) {
console.warn("this adapter does not support the serverSideEmit() functionality");
}
/**
* Save the client session in order to restore it upon reconnection.
*/
persistSession(session) { }
/**
* Restore the session and find the packets that were missed by the client.
* @param pid
* @param offset
*/
restoreSession(pid, offset) {
return null;
}
}
exports.Adapter = Adapter;
class SessionAwareAdapter extends Adapter {
constructor(nsp) {
super(nsp);
this.nsp = nsp;
this.sessions = new Map();
this.packets = [];
this.maxDisconnectionDuration =
nsp.server.opts.connectionStateRecovery.maxDisconnectionDuration;
const timer = setInterval(() => {
const threshold = Date.now() - this.maxDisconnectionDuration;
this.sessions.forEach((session, sessionId) => {
const hasExpired = session.disconnectedAt < threshold;
if (hasExpired) {
this.sessions.delete(sessionId);
}
});
for (let i = this.packets.length - 1; i >= 0; i--) {
const hasExpired = this.packets[i].emittedAt < threshold;
if (hasExpired) {
this.packets.splice(0, i + 1);
break;
}
}
}, 60 * 1000);
// prevents the timer from keeping the process alive
timer.unref();
}
persistSession(session) {
session.disconnectedAt = Date.now();
this.sessions.set(session.pid, session);
}
restoreSession(pid, offset) {
const session = this.sessions.get(pid);
if (!session) {
// the session may have expired
return null;
}
const hasExpired = session.disconnectedAt + this.maxDisconnectionDuration < Date.now();
if (hasExpired) {
// the session has expired
this.sessions.delete(pid);
return null;
}
const index = this.packets.findIndex((packet) => packet.id === offset);
if (index === -1) {
// the offset may be too old
return null;
}
const missedPackets = [];
for (let i = index + 1; i < this.packets.length; i++) {
const packet = this.packets[i];
if (shouldIncludePacket(session.rooms, packet.opts)) {
missedPackets.push(packet.data);
}
}
return Promise.resolve(Object.assign(Object.assign({}, session), { missedPackets }));
}
broadcast(packet, opts) {
var _a;
const isEventPacket = packet.type === 2;
// packets with acknowledgement are not stored because the acknowledgement function cannot be serialized and
// restored on another server upon reconnection
const withoutAcknowledgement = packet.id === undefined;
const notVolatile = ((_a = opts.flags) === null || _a === void 0 ? void 0 : _a.volatile) === undefined;
if (isEventPacket && withoutAcknowledgement && notVolatile) {
const id = (0, yeast_1.yeast)();
// the offset is stored at the end of the data array, so the client knows the ID of the last packet it has
// processed (and the format is backward-compatible)
packet.data.push(id);
this.packets.push({
id,
opts,
data: packet.data,
emittedAt: Date.now(),
});
}
super.broadcast(packet, opts);
}
}
exports.SessionAwareAdapter = SessionAwareAdapter;
function shouldIncludePacket(sessionRooms, opts) {
const included = opts.rooms.size === 0 || sessionRooms.some((room) => opts.rooms.has(room));
const notExcluded = sessionRooms.every((room) => !opts.except.has(room));
return included && notExcluded;
}

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node_modules/socket.io-adapter/dist/index.d.ts generated vendored Normal file
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export { SocketId, PrivateSessionId, Room, BroadcastFlags, BroadcastOptions, Session, Adapter, SessionAwareAdapter, } from "./in-memory-adapter";
export { ClusterAdapter, ClusterAdapterWithHeartbeat, ClusterAdapterOptions, ClusterMessage, ClusterResponse, MessageType, ServerId, Offset, } from "./cluster-adapter";

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node_modules/socket.io-adapter/dist/index.js generated vendored Normal file
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"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.MessageType = exports.ClusterAdapterWithHeartbeat = exports.ClusterAdapter = exports.SessionAwareAdapter = exports.Adapter = void 0;
var in_memory_adapter_1 = require("./in-memory-adapter");
Object.defineProperty(exports, "Adapter", { enumerable: true, get: function () { return in_memory_adapter_1.Adapter; } });
Object.defineProperty(exports, "SessionAwareAdapter", { enumerable: true, get: function () { return in_memory_adapter_1.SessionAwareAdapter; } });
var cluster_adapter_1 = require("./cluster-adapter");
Object.defineProperty(exports, "ClusterAdapter", { enumerable: true, get: function () { return cluster_adapter_1.ClusterAdapter; } });
Object.defineProperty(exports, "ClusterAdapterWithHeartbeat", { enumerable: true, get: function () { return cluster_adapter_1.ClusterAdapterWithHeartbeat; } });
Object.defineProperty(exports, "MessageType", { enumerable: true, get: function () { return cluster_adapter_1.MessageType; } });

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node_modules/socket.io-adapter/node_modules/ws/LICENSE generated vendored Normal file
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Copyright (c) 2011 Einar Otto Stangvik <einaros@gmail.com>
Copyright (c) 2013 Arnout Kazemier and contributors
Copyright (c) 2016 Luigi Pinca and contributors
Permission is hereby granted, free of charge, to any person obtaining a copy of
this software and associated documentation files (the "Software"), to deal in
the Software without restriction, including without limitation the rights to
use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
the Software, and to permit persons to whom the Software is furnished to do so,
subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.

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# ws: a Node.js WebSocket library
[![Version npm](https://img.shields.io/npm/v/ws.svg?logo=npm)](https://www.npmjs.com/package/ws)
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[![Coverage Status](https://img.shields.io/coveralls/websockets/ws/master.svg?logo=coveralls)](https://coveralls.io/github/websockets/ws)
ws is a simple to use, blazing fast, and thoroughly tested WebSocket client and
server implementation.
Passes the quite extensive Autobahn test suite: [server][server-report],
[client][client-report].
**Note**: This module does not work in the browser. The client in the docs is a
reference to a backend with the role of a client in the WebSocket communication.
Browser clients must use the native
[`WebSocket`](https://developer.mozilla.org/en-US/docs/Web/API/WebSocket)
object. To make the same code work seamlessly on Node.js and the browser, you
can use one of the many wrappers available on npm, like
[isomorphic-ws](https://github.com/heineiuo/isomorphic-ws).
## Table of Contents
- [Protocol support](#protocol-support)
- [Installing](#installing)
- [Opt-in for performance](#opt-in-for-performance)
- [Legacy opt-in for performance](#legacy-opt-in-for-performance)
- [API docs](#api-docs)
- [WebSocket compression](#websocket-compression)
- [Usage examples](#usage-examples)
- [Sending and receiving text data](#sending-and-receiving-text-data)
- [Sending binary data](#sending-binary-data)
- [Simple server](#simple-server)
- [External HTTP/S server](#external-https-server)
- [Multiple servers sharing a single HTTP/S server](#multiple-servers-sharing-a-single-https-server)
- [Client authentication](#client-authentication)
- [Server broadcast](#server-broadcast)
- [Round-trip time](#round-trip-time)
- [Use the Node.js streams API](#use-the-nodejs-streams-api)
- [Other examples](#other-examples)
- [FAQ](#faq)
- [How to get the IP address of the client?](#how-to-get-the-ip-address-of-the-client)
- [How to detect and close broken connections?](#how-to-detect-and-close-broken-connections)
- [How to connect via a proxy?](#how-to-connect-via-a-proxy)
- [Changelog](#changelog)
- [License](#license)
## Protocol support
- **HyBi drafts 07-12** (Use the option `protocolVersion: 8`)
- **HyBi drafts 13-17** (Current default, alternatively option
`protocolVersion: 13`)
## Installing
```
npm install ws
```
### Opt-in for performance
[bufferutil][] is an optional module that can be installed alongside the ws
module:
```
npm install --save-optional bufferutil
```
This is a binary addon that improves the performance of certain operations such
as masking and unmasking the data payload of the WebSocket frames. Prebuilt
binaries are available for the most popular platforms, so you don't necessarily
need to have a C++ compiler installed on your machine.
To force ws to not use bufferutil, use the
[`WS_NO_BUFFER_UTIL`](./doc/ws.md#ws_no_buffer_util) environment variable. This
can be useful to enhance security in systems where a user can put a package in
the package search path of an application of another user, due to how the
Node.js resolver algorithm works.
#### Legacy opt-in for performance
If you are running on an old version of Node.js (prior to v18.14.0), ws also
supports the [utf-8-validate][] module:
```
npm install --save-optional utf-8-validate
```
This contains a binary polyfill for [`buffer.isUtf8()`][].
To force ws not to use utf-8-validate, use the
[`WS_NO_UTF_8_VALIDATE`](./doc/ws.md#ws_no_utf_8_validate) environment variable.
## API docs
See [`/doc/ws.md`](./doc/ws.md) for Node.js-like documentation of ws classes and
utility functions.
## WebSocket compression
ws supports the [permessage-deflate extension][permessage-deflate] which enables
the client and server to negotiate a compression algorithm and its parameters,
and then selectively apply it to the data payloads of each WebSocket message.
The extension is disabled by default on the server and enabled by default on the
client. It adds a significant overhead in terms of performance and memory
consumption so we suggest to enable it only if it is really needed.
Note that Node.js has a variety of issues with high-performance compression,
where increased concurrency, especially on Linux, can lead to [catastrophic
memory fragmentation][node-zlib-bug] and slow performance. If you intend to use
permessage-deflate in production, it is worthwhile to set up a test
representative of your workload and ensure Node.js/zlib will handle it with
acceptable performance and memory usage.
Tuning of permessage-deflate can be done via the options defined below. You can
also use `zlibDeflateOptions` and `zlibInflateOptions`, which is passed directly
into the creation of [raw deflate/inflate streams][node-zlib-deflaterawdocs].
See [the docs][ws-server-options] for more options.
```js
import WebSocket, { WebSocketServer } from 'ws';
const wss = new WebSocketServer({
port: 8080,
perMessageDeflate: {
zlibDeflateOptions: {
// See zlib defaults.
chunkSize: 1024,
memLevel: 7,
level: 3
},
zlibInflateOptions: {
chunkSize: 10 * 1024
},
// Other options settable:
clientNoContextTakeover: true, // Defaults to negotiated value.
serverNoContextTakeover: true, // Defaults to negotiated value.
serverMaxWindowBits: 10, // Defaults to negotiated value.
// Below options specified as default values.
concurrencyLimit: 10, // Limits zlib concurrency for perf.
threshold: 1024 // Size (in bytes) below which messages
// should not be compressed if context takeover is disabled.
}
});
```
The client will only use the extension if it is supported and enabled on the
server. To always disable the extension on the client, set the
`perMessageDeflate` option to `false`.
```js
import WebSocket from 'ws';
const ws = new WebSocket('ws://www.host.com/path', {
perMessageDeflate: false
});
```
## Usage examples
### Sending and receiving text data
```js
import WebSocket from 'ws';
const ws = new WebSocket('ws://www.host.com/path');
ws.on('error', console.error);
ws.on('open', function open() {
ws.send('something');
});
ws.on('message', function message(data) {
console.log('received: %s', data);
});
```
### Sending binary data
```js
import WebSocket from 'ws';
const ws = new WebSocket('ws://www.host.com/path');
ws.on('error', console.error);
ws.on('open', function open() {
const array = new Float32Array(5);
for (var i = 0; i < array.length; ++i) {
array[i] = i / 2;
}
ws.send(array);
});
```
### Simple server
```js
import { WebSocketServer } from 'ws';
const wss = new WebSocketServer({ port: 8080 });
wss.on('connection', function connection(ws) {
ws.on('error', console.error);
ws.on('message', function message(data) {
console.log('received: %s', data);
});
ws.send('something');
});
```
### External HTTP/S server
```js
import { createServer } from 'https';
import { readFileSync } from 'fs';
import { WebSocketServer } from 'ws';
const server = createServer({
cert: readFileSync('/path/to/cert.pem'),
key: readFileSync('/path/to/key.pem')
});
const wss = new WebSocketServer({ server });
wss.on('connection', function connection(ws) {
ws.on('error', console.error);
ws.on('message', function message(data) {
console.log('received: %s', data);
});
ws.send('something');
});
server.listen(8080);
```
### Multiple servers sharing a single HTTP/S server
```js
import { createServer } from 'http';
import { WebSocketServer } from 'ws';
const server = createServer();
const wss1 = new WebSocketServer({ noServer: true });
const wss2 = new WebSocketServer({ noServer: true });
wss1.on('connection', function connection(ws) {
ws.on('error', console.error);
// ...
});
wss2.on('connection', function connection(ws) {
ws.on('error', console.error);
// ...
});
server.on('upgrade', function upgrade(request, socket, head) {
const { pathname } = new URL(request.url, 'wss://base.url');
if (pathname === '/foo') {
wss1.handleUpgrade(request, socket, head, function done(ws) {
wss1.emit('connection', ws, request);
});
} else if (pathname === '/bar') {
wss2.handleUpgrade(request, socket, head, function done(ws) {
wss2.emit('connection', ws, request);
});
} else {
socket.destroy();
}
});
server.listen(8080);
```
### Client authentication
```js
import { createServer } from 'http';
import { WebSocketServer } from 'ws';
function onSocketError(err) {
console.error(err);
}
const server = createServer();
const wss = new WebSocketServer({ noServer: true });
wss.on('connection', function connection(ws, request, client) {
ws.on('error', console.error);
ws.on('message', function message(data) {
console.log(`Received message ${data} from user ${client}`);
});
});
server.on('upgrade', function upgrade(request, socket, head) {
socket.on('error', onSocketError);
// This function is not defined on purpose. Implement it with your own logic.
authenticate(request, function next(err, client) {
if (err || !client) {
socket.write('HTTP/1.1 401 Unauthorized\r\n\r\n');
socket.destroy();
return;
}
socket.removeListener('error', onSocketError);
wss.handleUpgrade(request, socket, head, function done(ws) {
wss.emit('connection', ws, request, client);
});
});
});
server.listen(8080);
```
Also see the provided [example][session-parse-example] using `express-session`.
### Server broadcast
A client WebSocket broadcasting to all connected WebSocket clients, including
itself.
```js
import WebSocket, { WebSocketServer } from 'ws';
const wss = new WebSocketServer({ port: 8080 });
wss.on('connection', function connection(ws) {
ws.on('error', console.error);
ws.on('message', function message(data, isBinary) {
wss.clients.forEach(function each(client) {
if (client.readyState === WebSocket.OPEN) {
client.send(data, { binary: isBinary });
}
});
});
});
```
A client WebSocket broadcasting to every other connected WebSocket clients,
excluding itself.
```js
import WebSocket, { WebSocketServer } from 'ws';
const wss = new WebSocketServer({ port: 8080 });
wss.on('connection', function connection(ws) {
ws.on('error', console.error);
ws.on('message', function message(data, isBinary) {
wss.clients.forEach(function each(client) {
if (client !== ws && client.readyState === WebSocket.OPEN) {
client.send(data, { binary: isBinary });
}
});
});
});
```
### Round-trip time
```js
import WebSocket from 'ws';
const ws = new WebSocket('wss://websocket-echo.com/');
ws.on('error', console.error);
ws.on('open', function open() {
console.log('connected');
ws.send(Date.now());
});
ws.on('close', function close() {
console.log('disconnected');
});
ws.on('message', function message(data) {
console.log(`Round-trip time: ${Date.now() - data} ms`);
setTimeout(function timeout() {
ws.send(Date.now());
}, 500);
});
```
### Use the Node.js streams API
```js
import WebSocket, { createWebSocketStream } from 'ws';
const ws = new WebSocket('wss://websocket-echo.com/');
const duplex = createWebSocketStream(ws, { encoding: 'utf8' });
duplex.on('error', console.error);
duplex.pipe(process.stdout);
process.stdin.pipe(duplex);
```
### Other examples
For a full example with a browser client communicating with a ws server, see the
examples folder.
Otherwise, see the test cases.
## FAQ
### How to get the IP address of the client?
The remote IP address can be obtained from the raw socket.
```js
import { WebSocketServer } from 'ws';
const wss = new WebSocketServer({ port: 8080 });
wss.on('connection', function connection(ws, req) {
const ip = req.socket.remoteAddress;
ws.on('error', console.error);
});
```
When the server runs behind a proxy like NGINX, the de-facto standard is to use
the `X-Forwarded-For` header.
```js
wss.on('connection', function connection(ws, req) {
const ip = req.headers['x-forwarded-for'].split(',')[0].trim();
ws.on('error', console.error);
});
```
### How to detect and close broken connections?
Sometimes, the link between the server and the client can be interrupted in a
way that keeps both the server and the client unaware of the broken state of the
connection (e.g. when pulling the cord).
In these cases, ping messages can be used as a means to verify that the remote
endpoint is still responsive.
```js
import { WebSocketServer } from 'ws';
function heartbeat() {
this.isAlive = true;
}
const wss = new WebSocketServer({ port: 8080 });
wss.on('connection', function connection(ws) {
ws.isAlive = true;
ws.on('error', console.error);
ws.on('pong', heartbeat);
});
const interval = setInterval(function ping() {
wss.clients.forEach(function each(ws) {
if (ws.isAlive === false) return ws.terminate();
ws.isAlive = false;
ws.ping();
});
}, 30000);
wss.on('close', function close() {
clearInterval(interval);
});
```
Pong messages are automatically sent in response to ping messages as required by
the spec.
Just like the server example above, your clients might as well lose connection
without knowing it. You might want to add a ping listener on your clients to
prevent that. A simple implementation would be:
```js
import WebSocket from 'ws';
function heartbeat() {
clearTimeout(this.pingTimeout);
// Use `WebSocket#terminate()`, which immediately destroys the connection,
// instead of `WebSocket#close()`, which waits for the close timer.
// Delay should be equal to the interval at which your server
// sends out pings plus a conservative assumption of the latency.
this.pingTimeout = setTimeout(() => {
this.terminate();
}, 30000 + 1000);
}
const client = new WebSocket('wss://websocket-echo.com/');
client.on('error', console.error);
client.on('open', heartbeat);
client.on('ping', heartbeat);
client.on('close', function clear() {
clearTimeout(this.pingTimeout);
});
```
### How to connect via a proxy?
Use a custom `http.Agent` implementation like [https-proxy-agent][] or
[socks-proxy-agent][].
## Changelog
We're using the GitHub [releases][changelog] for changelog entries.
## License
[MIT](LICENSE)
[`buffer.isutf8()`]: https://nodejs.org/api/buffer.html#bufferisutf8input
[bufferutil]: https://github.com/websockets/bufferutil
[changelog]: https://github.com/websockets/ws/releases
[client-report]: http://websockets.github.io/ws/autobahn/clients/
[https-proxy-agent]: https://github.com/TooTallNate/node-https-proxy-agent
[node-zlib-bug]: https://github.com/nodejs/node/issues/8871
[node-zlib-deflaterawdocs]:
https://nodejs.org/api/zlib.html#zlib_zlib_createdeflateraw_options
[permessage-deflate]: https://tools.ietf.org/html/rfc7692
[server-report]: http://websockets.github.io/ws/autobahn/servers/
[session-parse-example]: ./examples/express-session-parse
[socks-proxy-agent]: https://github.com/TooTallNate/node-socks-proxy-agent
[utf-8-validate]: https://github.com/websockets/utf-8-validate
[ws-server-options]: ./doc/ws.md#new-websocketserveroptions-callback

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'use strict';
module.exports = function () {
throw new Error(
'ws does not work in the browser. Browser clients must use the native ' +
'WebSocket object'
);
};

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'use strict';
const WebSocket = require('./lib/websocket');
WebSocket.createWebSocketStream = require('./lib/stream');
WebSocket.Server = require('./lib/websocket-server');
WebSocket.Receiver = require('./lib/receiver');
WebSocket.Sender = require('./lib/sender');
WebSocket.WebSocket = WebSocket;
WebSocket.WebSocketServer = WebSocket.Server;
module.exports = WebSocket;

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'use strict';
const { EMPTY_BUFFER } = require('./constants');
const FastBuffer = Buffer[Symbol.species];
/**
* Merges an array of buffers into a new buffer.
*
* @param {Buffer[]} list The array of buffers to concat
* @param {Number} totalLength The total length of buffers in the list
* @return {Buffer} The resulting buffer
* @public
*/
function concat(list, totalLength) {
if (list.length === 0) return EMPTY_BUFFER;
if (list.length === 1) return list[0];
const target = Buffer.allocUnsafe(totalLength);
let offset = 0;
for (let i = 0; i < list.length; i++) {
const buf = list[i];
target.set(buf, offset);
offset += buf.length;
}
if (offset < totalLength) {
return new FastBuffer(target.buffer, target.byteOffset, offset);
}
return target;
}
/**
* Masks a buffer using the given mask.
*
* @param {Buffer} source The buffer to mask
* @param {Buffer} mask The mask to use
* @param {Buffer} output The buffer where to store the result
* @param {Number} offset The offset at which to start writing
* @param {Number} length The number of bytes to mask.
* @public
*/
function _mask(source, mask, output, offset, length) {
for (let i = 0; i < length; i++) {
output[offset + i] = source[i] ^ mask[i & 3];
}
}
/**
* Unmasks a buffer using the given mask.
*
* @param {Buffer} buffer The buffer to unmask
* @param {Buffer} mask The mask to use
* @public
*/
function _unmask(buffer, mask) {
for (let i = 0; i < buffer.length; i++) {
buffer[i] ^= mask[i & 3];
}
}
/**
* Converts a buffer to an `ArrayBuffer`.
*
* @param {Buffer} buf The buffer to convert
* @return {ArrayBuffer} Converted buffer
* @public
*/
function toArrayBuffer(buf) {
if (buf.length === buf.buffer.byteLength) {
return buf.buffer;
}
return buf.buffer.slice(buf.byteOffset, buf.byteOffset + buf.length);
}
/**
* Converts `data` to a `Buffer`.
*
* @param {*} data The data to convert
* @return {Buffer} The buffer
* @throws {TypeError}
* @public
*/
function toBuffer(data) {
toBuffer.readOnly = true;
if (Buffer.isBuffer(data)) return data;
let buf;
if (data instanceof ArrayBuffer) {
buf = new FastBuffer(data);
} else if (ArrayBuffer.isView(data)) {
buf = new FastBuffer(data.buffer, data.byteOffset, data.byteLength);
} else {
buf = Buffer.from(data);
toBuffer.readOnly = false;
}
return buf;
}
module.exports = {
concat,
mask: _mask,
toArrayBuffer,
toBuffer,
unmask: _unmask
};
/* istanbul ignore else */
if (!process.env.WS_NO_BUFFER_UTIL) {
try {
const bufferUtil = require('bufferutil');
module.exports.mask = function (source, mask, output, offset, length) {
if (length < 48) _mask(source, mask, output, offset, length);
else bufferUtil.mask(source, mask, output, offset, length);
};
module.exports.unmask = function (buffer, mask) {
if (buffer.length < 32) _unmask(buffer, mask);
else bufferUtil.unmask(buffer, mask);
};
} catch (e) {
// Continue regardless of the error.
}
}

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'use strict';
module.exports = {
BINARY_TYPES: ['nodebuffer', 'arraybuffer', 'fragments'],
EMPTY_BUFFER: Buffer.alloc(0),
GUID: '258EAFA5-E914-47DA-95CA-C5AB0DC85B11',
kForOnEventAttribute: Symbol('kIsForOnEventAttribute'),
kListener: Symbol('kListener'),
kStatusCode: Symbol('status-code'),
kWebSocket: Symbol('websocket'),
NOOP: () => {}
};

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'use strict';
const { kForOnEventAttribute, kListener } = require('./constants');
const kCode = Symbol('kCode');
const kData = Symbol('kData');
const kError = Symbol('kError');
const kMessage = Symbol('kMessage');
const kReason = Symbol('kReason');
const kTarget = Symbol('kTarget');
const kType = Symbol('kType');
const kWasClean = Symbol('kWasClean');
/**
* Class representing an event.
*/
class Event {
/**
* Create a new `Event`.
*
* @param {String} type The name of the event
* @throws {TypeError} If the `type` argument is not specified
*/
constructor(type) {
this[kTarget] = null;
this[kType] = type;
}
/**
* @type {*}
*/
get target() {
return this[kTarget];
}
/**
* @type {String}
*/
get type() {
return this[kType];
}
}
Object.defineProperty(Event.prototype, 'target', { enumerable: true });
Object.defineProperty(Event.prototype, 'type', { enumerable: true });
/**
* Class representing a close event.
*
* @extends Event
*/
class CloseEvent extends Event {
/**
* Create a new `CloseEvent`.
*
* @param {String} type The name of the event
* @param {Object} [options] A dictionary object that allows for setting
* attributes via object members of the same name
* @param {Number} [options.code=0] The status code explaining why the
* connection was closed
* @param {String} [options.reason=''] A human-readable string explaining why
* the connection was closed
* @param {Boolean} [options.wasClean=false] Indicates whether or not the
* connection was cleanly closed
*/
constructor(type, options = {}) {
super(type);
this[kCode] = options.code === undefined ? 0 : options.code;
this[kReason] = options.reason === undefined ? '' : options.reason;
this[kWasClean] = options.wasClean === undefined ? false : options.wasClean;
}
/**
* @type {Number}
*/
get code() {
return this[kCode];
}
/**
* @type {String}
*/
get reason() {
return this[kReason];
}
/**
* @type {Boolean}
*/
get wasClean() {
return this[kWasClean];
}
}
Object.defineProperty(CloseEvent.prototype, 'code', { enumerable: true });
Object.defineProperty(CloseEvent.prototype, 'reason', { enumerable: true });
Object.defineProperty(CloseEvent.prototype, 'wasClean', { enumerable: true });
/**
* Class representing an error event.
*
* @extends Event
*/
class ErrorEvent extends Event {
/**
* Create a new `ErrorEvent`.
*
* @param {String} type The name of the event
* @param {Object} [options] A dictionary object that allows for setting
* attributes via object members of the same name
* @param {*} [options.error=null] The error that generated this event
* @param {String} [options.message=''] The error message
*/
constructor(type, options = {}) {
super(type);
this[kError] = options.error === undefined ? null : options.error;
this[kMessage] = options.message === undefined ? '' : options.message;
}
/**
* @type {*}
*/
get error() {
return this[kError];
}
/**
* @type {String}
*/
get message() {
return this[kMessage];
}
}
Object.defineProperty(ErrorEvent.prototype, 'error', { enumerable: true });
Object.defineProperty(ErrorEvent.prototype, 'message', { enumerable: true });
/**
* Class representing a message event.
*
* @extends Event
*/
class MessageEvent extends Event {
/**
* Create a new `MessageEvent`.
*
* @param {String} type The name of the event
* @param {Object} [options] A dictionary object that allows for setting
* attributes via object members of the same name
* @param {*} [options.data=null] The message content
*/
constructor(type, options = {}) {
super(type);
this[kData] = options.data === undefined ? null : options.data;
}
/**
* @type {*}
*/
get data() {
return this[kData];
}
}
Object.defineProperty(MessageEvent.prototype, 'data', { enumerable: true });
/**
* This provides methods for emulating the `EventTarget` interface. It's not
* meant to be used directly.
*
* @mixin
*/
const EventTarget = {
/**
* Register an event listener.
*
* @param {String} type A string representing the event type to listen for
* @param {(Function|Object)} handler The listener to add
* @param {Object} [options] An options object specifies characteristics about
* the event listener
* @param {Boolean} [options.once=false] A `Boolean` indicating that the
* listener should be invoked at most once after being added. If `true`,
* the listener would be automatically removed when invoked.
* @public
*/
addEventListener(type, handler, options = {}) {
for (const listener of this.listeners(type)) {
if (
!options[kForOnEventAttribute] &&
listener[kListener] === handler &&
!listener[kForOnEventAttribute]
) {
return;
}
}
let wrapper;
if (type === 'message') {
wrapper = function onMessage(data, isBinary) {
const event = new MessageEvent('message', {
data: isBinary ? data : data.toString()
});
event[kTarget] = this;
callListener(handler, this, event);
};
} else if (type === 'close') {
wrapper = function onClose(code, message) {
const event = new CloseEvent('close', {
code,
reason: message.toString(),
wasClean: this._closeFrameReceived && this._closeFrameSent
});
event[kTarget] = this;
callListener(handler, this, event);
};
} else if (type === 'error') {
wrapper = function onError(error) {
const event = new ErrorEvent('error', {
error,
message: error.message
});
event[kTarget] = this;
callListener(handler, this, event);
};
} else if (type === 'open') {
wrapper = function onOpen() {
const event = new Event('open');
event[kTarget] = this;
callListener(handler, this, event);
};
} else {
return;
}
wrapper[kForOnEventAttribute] = !!options[kForOnEventAttribute];
wrapper[kListener] = handler;
if (options.once) {
this.once(type, wrapper);
} else {
this.on(type, wrapper);
}
},
/**
* Remove an event listener.
*
* @param {String} type A string representing the event type to remove
* @param {(Function|Object)} handler The listener to remove
* @public
*/
removeEventListener(type, handler) {
for (const listener of this.listeners(type)) {
if (listener[kListener] === handler && !listener[kForOnEventAttribute]) {
this.removeListener(type, listener);
break;
}
}
}
};
module.exports = {
CloseEvent,
ErrorEvent,
Event,
EventTarget,
MessageEvent
};
/**
* Call an event listener
*
* @param {(Function|Object)} listener The listener to call
* @param {*} thisArg The value to use as `this`` when calling the listener
* @param {Event} event The event to pass to the listener
* @private
*/
function callListener(listener, thisArg, event) {
if (typeof listener === 'object' && listener.handleEvent) {
listener.handleEvent.call(listener, event);
} else {
listener.call(thisArg, event);
}
}

203
node_modules/socket.io-adapter/node_modules/ws/lib/extension.js generated vendored Normal file
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'use strict';
const { tokenChars } = require('./validation');
/**
* Adds an offer to the map of extension offers or a parameter to the map of
* parameters.
*
* @param {Object} dest The map of extension offers or parameters
* @param {String} name The extension or parameter name
* @param {(Object|Boolean|String)} elem The extension parameters or the
* parameter value
* @private
*/
function push(dest, name, elem) {
if (dest[name] === undefined) dest[name] = [elem];
else dest[name].push(elem);
}
/**
* Parses the `Sec-WebSocket-Extensions` header into an object.
*
* @param {String} header The field value of the header
* @return {Object} The parsed object
* @public
*/
function parse(header) {
const offers = Object.create(null);
let params = Object.create(null);
let mustUnescape = false;
let isEscaping = false;
let inQuotes = false;
let extensionName;
let paramName;
let start = -1;
let code = -1;
let end = -1;
let i = 0;
for (; i < header.length; i++) {
code = header.charCodeAt(i);
if (extensionName === undefined) {
if (end === -1 && tokenChars[code] === 1) {
if (start === -1) start = i;
} else if (
i !== 0 &&
(code === 0x20 /* ' ' */ || code === 0x09) /* '\t' */
) {
if (end === -1 && start !== -1) end = i;
} else if (code === 0x3b /* ';' */ || code === 0x2c /* ',' */) {
if (start === -1) {
throw new SyntaxError(`Unexpected character at index ${i}`);
}
if (end === -1) end = i;
const name = header.slice(start, end);
if (code === 0x2c) {
push(offers, name, params);
params = Object.create(null);
} else {
extensionName = name;
}
start = end = -1;
} else {
throw new SyntaxError(`Unexpected character at index ${i}`);
}
} else if (paramName === undefined) {
if (end === -1 && tokenChars[code] === 1) {
if (start === -1) start = i;
} else if (code === 0x20 || code === 0x09) {
if (end === -1 && start !== -1) end = i;
} else if (code === 0x3b || code === 0x2c) {
if (start === -1) {
throw new SyntaxError(`Unexpected character at index ${i}`);
}
if (end === -1) end = i;
push(params, header.slice(start, end), true);
if (code === 0x2c) {
push(offers, extensionName, params);
params = Object.create(null);
extensionName = undefined;
}
start = end = -1;
} else if (code === 0x3d /* '=' */ && start !== -1 && end === -1) {
paramName = header.slice(start, i);
start = end = -1;
} else {
throw new SyntaxError(`Unexpected character at index ${i}`);
}
} else {
//
// The value of a quoted-string after unescaping must conform to the
// token ABNF, so only token characters are valid.
// Ref: https://tools.ietf.org/html/rfc6455#section-9.1
//
if (isEscaping) {
if (tokenChars[code] !== 1) {
throw new SyntaxError(`Unexpected character at index ${i}`);
}
if (start === -1) start = i;
else if (!mustUnescape) mustUnescape = true;
isEscaping = false;
} else if (inQuotes) {
if (tokenChars[code] === 1) {
if (start === -1) start = i;
} else if (code === 0x22 /* '"' */ && start !== -1) {
inQuotes = false;
end = i;
} else if (code === 0x5c /* '\' */) {
isEscaping = true;
} else {
throw new SyntaxError(`Unexpected character at index ${i}`);
}
} else if (code === 0x22 && header.charCodeAt(i - 1) === 0x3d) {
inQuotes = true;
} else if (end === -1 && tokenChars[code] === 1) {
if (start === -1) start = i;
} else if (start !== -1 && (code === 0x20 || code === 0x09)) {
if (end === -1) end = i;
} else if (code === 0x3b || code === 0x2c) {
if (start === -1) {
throw new SyntaxError(`Unexpected character at index ${i}`);
}
if (end === -1) end = i;
let value = header.slice(start, end);
if (mustUnescape) {
value = value.replace(/\\/g, '');
mustUnescape = false;
}
push(params, paramName, value);
if (code === 0x2c) {
push(offers, extensionName, params);
params = Object.create(null);
extensionName = undefined;
}
paramName = undefined;
start = end = -1;
} else {
throw new SyntaxError(`Unexpected character at index ${i}`);
}
}
}
if (start === -1 || inQuotes || code === 0x20 || code === 0x09) {
throw new SyntaxError('Unexpected end of input');
}
if (end === -1) end = i;
const token = header.slice(start, end);
if (extensionName === undefined) {
push(offers, token, params);
} else {
if (paramName === undefined) {
push(params, token, true);
} else if (mustUnescape) {
push(params, paramName, token.replace(/\\/g, ''));
} else {
push(params, paramName, token);
}
push(offers, extensionName, params);
}
return offers;
}
/**
* Builds the `Sec-WebSocket-Extensions` header field value.
*
* @param {Object} extensions The map of extensions and parameters to format
* @return {String} A string representing the given object
* @public
*/
function format(extensions) {
return Object.keys(extensions)
.map((extension) => {
let configurations = extensions[extension];
if (!Array.isArray(configurations)) configurations = [configurations];
return configurations
.map((params) => {
return [extension]
.concat(
Object.keys(params).map((k) => {
let values = params[k];
if (!Array.isArray(values)) values = [values];
return values
.map((v) => (v === true ? k : `${k}=${v}`))
.join('; ');
})
)
.join('; ');
})
.join(', ');
})
.join(', ');
}
module.exports = { format, parse };

55
node_modules/socket.io-adapter/node_modules/ws/lib/limiter.js generated vendored Normal file
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'use strict';
const kDone = Symbol('kDone');
const kRun = Symbol('kRun');
/**
* A very simple job queue with adjustable concurrency. Adapted from
* https://github.com/STRML/async-limiter
*/
class Limiter {
/**
* Creates a new `Limiter`.
*
* @param {Number} [concurrency=Infinity] The maximum number of jobs allowed
* to run concurrently
*/
constructor(concurrency) {
this[kDone] = () => {
this.pending--;
this[kRun]();
};
this.concurrency = concurrency || Infinity;
this.jobs = [];
this.pending = 0;
}
/**
* Adds a job to the queue.
*
* @param {Function} job The job to run
* @public
*/
add(job) {
this.jobs.push(job);
this[kRun]();
}
/**
* Removes a job from the queue and runs it if possible.
*
* @private
*/
[kRun]() {
if (this.pending === this.concurrency) return;
if (this.jobs.length) {
const job = this.jobs.shift();
this.pending++;
job(this[kDone]);
}
}
}
module.exports = Limiter;

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node_modules/socket.io-adapter/node_modules/ws/lib/permessage-deflate.js generated vendored Normal file
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'use strict';
const zlib = require('zlib');
const bufferUtil = require('./buffer-util');
const Limiter = require('./limiter');
const { kStatusCode } = require('./constants');
const FastBuffer = Buffer[Symbol.species];
const TRAILER = Buffer.from([0x00, 0x00, 0xff, 0xff]);
const kPerMessageDeflate = Symbol('permessage-deflate');
const kTotalLength = Symbol('total-length');
const kCallback = Symbol('callback');
const kBuffers = Symbol('buffers');
const kError = Symbol('error');
//
// We limit zlib concurrency, which prevents severe memory fragmentation
// as documented in https://github.com/nodejs/node/issues/8871#issuecomment-250915913
// and https://github.com/websockets/ws/issues/1202
//
// Intentionally global; it's the global thread pool that's an issue.
//
let zlibLimiter;
/**
* permessage-deflate implementation.
*/
class PerMessageDeflate {
/**
* Creates a PerMessageDeflate instance.
*
* @param {Object} [options] Configuration options
* @param {(Boolean|Number)} [options.clientMaxWindowBits] Advertise support
* for, or request, a custom client window size
* @param {Boolean} [options.clientNoContextTakeover=false] Advertise/
* acknowledge disabling of client context takeover
* @param {Number} [options.concurrencyLimit=10] The number of concurrent
* calls to zlib
* @param {(Boolean|Number)} [options.serverMaxWindowBits] Request/confirm the
* use of a custom server window size
* @param {Boolean} [options.serverNoContextTakeover=false] Request/accept
* disabling of server context takeover
* @param {Number} [options.threshold=1024] Size (in bytes) below which
* messages should not be compressed if context takeover is disabled
* @param {Object} [options.zlibDeflateOptions] Options to pass to zlib on
* deflate
* @param {Object} [options.zlibInflateOptions] Options to pass to zlib on
* inflate
* @param {Boolean} [isServer=false] Create the instance in either server or
* client mode
* @param {Number} [maxPayload=0] The maximum allowed message length
*/
constructor(options, isServer, maxPayload) {
this._maxPayload = maxPayload | 0;
this._options = options || {};
this._threshold =
this._options.threshold !== undefined ? this._options.threshold : 1024;
this._isServer = !!isServer;
this._deflate = null;
this._inflate = null;
this.params = null;
if (!zlibLimiter) {
const concurrency =
this._options.concurrencyLimit !== undefined
? this._options.concurrencyLimit
: 10;
zlibLimiter = new Limiter(concurrency);
}
}
/**
* @type {String}
*/
static get extensionName() {
return 'permessage-deflate';
}
/**
* Create an extension negotiation offer.
*
* @return {Object} Extension parameters
* @public
*/
offer() {
const params = {};
if (this._options.serverNoContextTakeover) {
params.server_no_context_takeover = true;
}
if (this._options.clientNoContextTakeover) {
params.client_no_context_takeover = true;
}
if (this._options.serverMaxWindowBits) {
params.server_max_window_bits = this._options.serverMaxWindowBits;
}
if (this._options.clientMaxWindowBits) {
params.client_max_window_bits = this._options.clientMaxWindowBits;
} else if (this._options.clientMaxWindowBits == null) {
params.client_max_window_bits = true;
}
return params;
}
/**
* Accept an extension negotiation offer/response.
*
* @param {Array} configurations The extension negotiation offers/reponse
* @return {Object} Accepted configuration
* @public
*/
accept(configurations) {
configurations = this.normalizeParams(configurations);
this.params = this._isServer
? this.acceptAsServer(configurations)
: this.acceptAsClient(configurations);
return this.params;
}
/**
* Releases all resources used by the extension.
*
* @public
*/
cleanup() {
if (this._inflate) {
this._inflate.close();
this._inflate = null;
}
if (this._deflate) {
const callback = this._deflate[kCallback];
this._deflate.close();
this._deflate = null;
if (callback) {
callback(
new Error(
'The deflate stream was closed while data was being processed'
)
);
}
}
}
/**
* Accept an extension negotiation offer.
*
* @param {Array} offers The extension negotiation offers
* @return {Object} Accepted configuration
* @private
*/
acceptAsServer(offers) {
const opts = this._options;
const accepted = offers.find((params) => {
if (
(opts.serverNoContextTakeover === false &&
params.server_no_context_takeover) ||
(params.server_max_window_bits &&
(opts.serverMaxWindowBits === false ||
(typeof opts.serverMaxWindowBits === 'number' &&
opts.serverMaxWindowBits > params.server_max_window_bits))) ||
(typeof opts.clientMaxWindowBits === 'number' &&
!params.client_max_window_bits)
) {
return false;
}
return true;
});
if (!accepted) {
throw new Error('None of the extension offers can be accepted');
}
if (opts.serverNoContextTakeover) {
accepted.server_no_context_takeover = true;
}
if (opts.clientNoContextTakeover) {
accepted.client_no_context_takeover = true;
}
if (typeof opts.serverMaxWindowBits === 'number') {
accepted.server_max_window_bits = opts.serverMaxWindowBits;
}
if (typeof opts.clientMaxWindowBits === 'number') {
accepted.client_max_window_bits = opts.clientMaxWindowBits;
} else if (
accepted.client_max_window_bits === true ||
opts.clientMaxWindowBits === false
) {
delete accepted.client_max_window_bits;
}
return accepted;
}
/**
* Accept the extension negotiation response.
*
* @param {Array} response The extension negotiation response
* @return {Object} Accepted configuration
* @private
*/
acceptAsClient(response) {
const params = response[0];
if (
this._options.clientNoContextTakeover === false &&
params.client_no_context_takeover
) {
throw new Error('Unexpected parameter "client_no_context_takeover"');
}
if (!params.client_max_window_bits) {
if (typeof this._options.clientMaxWindowBits === 'number') {
params.client_max_window_bits = this._options.clientMaxWindowBits;
}
} else if (
this._options.clientMaxWindowBits === false ||
(typeof this._options.clientMaxWindowBits === 'number' &&
params.client_max_window_bits > this._options.clientMaxWindowBits)
) {
throw new Error(
'Unexpected or invalid parameter "client_max_window_bits"'
);
}
return params;
}
/**
* Normalize parameters.
*
* @param {Array} configurations The extension negotiation offers/reponse
* @return {Array} The offers/response with normalized parameters
* @private
*/
normalizeParams(configurations) {
configurations.forEach((params) => {
Object.keys(params).forEach((key) => {
let value = params[key];
if (value.length > 1) {
throw new Error(`Parameter "${key}" must have only a single value`);
}
value = value[0];
if (key === 'client_max_window_bits') {
if (value !== true) {
const num = +value;
if (!Number.isInteger(num) || num < 8 || num > 15) {
throw new TypeError(
`Invalid value for parameter "${key}": ${value}`
);
}
value = num;
} else if (!this._isServer) {
throw new TypeError(
`Invalid value for parameter "${key}": ${value}`
);
}
} else if (key === 'server_max_window_bits') {
const num = +value;
if (!Number.isInteger(num) || num < 8 || num > 15) {
throw new TypeError(
`Invalid value for parameter "${key}": ${value}`
);
}
value = num;
} else if (
key === 'client_no_context_takeover' ||
key === 'server_no_context_takeover'
) {
if (value !== true) {
throw new TypeError(
`Invalid value for parameter "${key}": ${value}`
);
}
} else {
throw new Error(`Unknown parameter "${key}"`);
}
params[key] = value;
});
});
return configurations;
}
/**
* Decompress data. Concurrency limited.
*
* @param {Buffer} data Compressed data
* @param {Boolean} fin Specifies whether or not this is the last fragment
* @param {Function} callback Callback
* @public
*/
decompress(data, fin, callback) {
zlibLimiter.add((done) => {
this._decompress(data, fin, (err, result) => {
done();
callback(err, result);
});
});
}
/**
* Compress data. Concurrency limited.
*
* @param {(Buffer|String)} data Data to compress
* @param {Boolean} fin Specifies whether or not this is the last fragment
* @param {Function} callback Callback
* @public
*/
compress(data, fin, callback) {
zlibLimiter.add((done) => {
this._compress(data, fin, (err, result) => {
done();
callback(err, result);
});
});
}
/**
* Decompress data.
*
* @param {Buffer} data Compressed data
* @param {Boolean} fin Specifies whether or not this is the last fragment
* @param {Function} callback Callback
* @private
*/
_decompress(data, fin, callback) {
const endpoint = this._isServer ? 'client' : 'server';
if (!this._inflate) {
const key = `${endpoint}_max_window_bits`;
const windowBits =
typeof this.params[key] !== 'number'
? zlib.Z_DEFAULT_WINDOWBITS
: this.params[key];
this._inflate = zlib.createInflateRaw({
...this._options.zlibInflateOptions,
windowBits
});
this._inflate[kPerMessageDeflate] = this;
this._inflate[kTotalLength] = 0;
this._inflate[kBuffers] = [];
this._inflate.on('error', inflateOnError);
this._inflate.on('data', inflateOnData);
}
this._inflate[kCallback] = callback;
this._inflate.write(data);
if (fin) this._inflate.write(TRAILER);
this._inflate.flush(() => {
const err = this._inflate[kError];
if (err) {
this._inflate.close();
this._inflate = null;
callback(err);
return;
}
const data = bufferUtil.concat(
this._inflate[kBuffers],
this._inflate[kTotalLength]
);
if (this._inflate._readableState.endEmitted) {
this._inflate.close();
this._inflate = null;
} else {
this._inflate[kTotalLength] = 0;
this._inflate[kBuffers] = [];
if (fin && this.params[`${endpoint}_no_context_takeover`]) {
this._inflate.reset();
}
}
callback(null, data);
});
}
/**
* Compress data.
*
* @param {(Buffer|String)} data Data to compress
* @param {Boolean} fin Specifies whether or not this is the last fragment
* @param {Function} callback Callback
* @private
*/
_compress(data, fin, callback) {
const endpoint = this._isServer ? 'server' : 'client';
if (!this._deflate) {
const key = `${endpoint}_max_window_bits`;
const windowBits =
typeof this.params[key] !== 'number'
? zlib.Z_DEFAULT_WINDOWBITS
: this.params[key];
this._deflate = zlib.createDeflateRaw({
...this._options.zlibDeflateOptions,
windowBits
});
this._deflate[kTotalLength] = 0;
this._deflate[kBuffers] = [];
this._deflate.on('data', deflateOnData);
}
this._deflate[kCallback] = callback;
this._deflate.write(data);
this._deflate.flush(zlib.Z_SYNC_FLUSH, () => {
if (!this._deflate) {
//
// The deflate stream was closed while data was being processed.
//
return;
}
let data = bufferUtil.concat(
this._deflate[kBuffers],
this._deflate[kTotalLength]
);
if (fin) {
data = new FastBuffer(data.buffer, data.byteOffset, data.length - 4);
}
//
// Ensure that the callback will not be called again in
// `PerMessageDeflate#cleanup()`.
//
this._deflate[kCallback] = null;
this._deflate[kTotalLength] = 0;
this._deflate[kBuffers] = [];
if (fin && this.params[`${endpoint}_no_context_takeover`]) {
this._deflate.reset();
}
callback(null, data);
});
}
}
module.exports = PerMessageDeflate;
/**
* The listener of the `zlib.DeflateRaw` stream `'data'` event.
*
* @param {Buffer} chunk A chunk of data
* @private
*/
function deflateOnData(chunk) {
this[kBuffers].push(chunk);
this[kTotalLength] += chunk.length;
}
/**
* The listener of the `zlib.InflateRaw` stream `'data'` event.
*
* @param {Buffer} chunk A chunk of data
* @private
*/
function inflateOnData(chunk) {
this[kTotalLength] += chunk.length;
if (
this[kPerMessageDeflate]._maxPayload < 1 ||
this[kTotalLength] <= this[kPerMessageDeflate]._maxPayload
) {
this[kBuffers].push(chunk);
return;
}
this[kError] = new RangeError('Max payload size exceeded');
this[kError].code = 'WS_ERR_UNSUPPORTED_MESSAGE_LENGTH';
this[kError][kStatusCode] = 1009;
this.removeListener('data', inflateOnData);
this.reset();
}
/**
* The listener of the `zlib.InflateRaw` stream `'error'` event.
*
* @param {Error} err The emitted error
* @private
*/
function inflateOnError(err) {
//
// There is no need to call `Zlib#close()` as the handle is automatically
// closed when an error is emitted.
//
this[kPerMessageDeflate]._inflate = null;
err[kStatusCode] = 1007;
this[kCallback](err);
}

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node_modules/socket.io-adapter/node_modules/ws/lib/receiver.js generated vendored Normal file
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'use strict';
const { Writable } = require('stream');
const PerMessageDeflate = require('./permessage-deflate');
const {
BINARY_TYPES,
EMPTY_BUFFER,
kStatusCode,
kWebSocket
} = require('./constants');
const { concat, toArrayBuffer, unmask } = require('./buffer-util');
const { isValidStatusCode, isValidUTF8 } = require('./validation');
const FastBuffer = Buffer[Symbol.species];
const GET_INFO = 0;
const GET_PAYLOAD_LENGTH_16 = 1;
const GET_PAYLOAD_LENGTH_64 = 2;
const GET_MASK = 3;
const GET_DATA = 4;
const INFLATING = 5;
const DEFER_EVENT = 6;
/**
* HyBi Receiver implementation.
*
* @extends Writable
*/
class Receiver extends Writable {
/**
* Creates a Receiver instance.
*
* @param {Object} [options] Options object
* @param {Boolean} [options.allowSynchronousEvents=true] Specifies whether
* any of the `'message'`, `'ping'`, and `'pong'` events can be emitted
* multiple times in the same tick
* @param {String} [options.binaryType=nodebuffer] The type for binary data
* @param {Object} [options.extensions] An object containing the negotiated
* extensions
* @param {Boolean} [options.isServer=false] Specifies whether to operate in
* client or server mode
* @param {Number} [options.maxPayload=0] The maximum allowed message length
* @param {Boolean} [options.skipUTF8Validation=false] Specifies whether or
* not to skip UTF-8 validation for text and close messages
*/
constructor(options = {}) {
super();
this._allowSynchronousEvents =
options.allowSynchronousEvents !== undefined
? options.allowSynchronousEvents
: true;
this._binaryType = options.binaryType || BINARY_TYPES[0];
this._extensions = options.extensions || {};
this._isServer = !!options.isServer;
this._maxPayload = options.maxPayload | 0;
this._skipUTF8Validation = !!options.skipUTF8Validation;
this[kWebSocket] = undefined;
this._bufferedBytes = 0;
this._buffers = [];
this._compressed = false;
this._payloadLength = 0;
this._mask = undefined;
this._fragmented = 0;
this._masked = false;
this._fin = false;
this._opcode = 0;
this._totalPayloadLength = 0;
this._messageLength = 0;
this._fragments = [];
this._errored = false;
this._loop = false;
this._state = GET_INFO;
}
/**
* Implements `Writable.prototype._write()`.
*
* @param {Buffer} chunk The chunk of data to write
* @param {String} encoding The character encoding of `chunk`
* @param {Function} cb Callback
* @private
*/
_write(chunk, encoding, cb) {
if (this._opcode === 0x08 && this._state == GET_INFO) return cb();
this._bufferedBytes += chunk.length;
this._buffers.push(chunk);
this.startLoop(cb);
}
/**
* Consumes `n` bytes from the buffered data.
*
* @param {Number} n The number of bytes to consume
* @return {Buffer} The consumed bytes
* @private
*/
consume(n) {
this._bufferedBytes -= n;
if (n === this._buffers[0].length) return this._buffers.shift();
if (n < this._buffers[0].length) {
const buf = this._buffers[0];
this._buffers[0] = new FastBuffer(
buf.buffer,
buf.byteOffset + n,
buf.length - n
);
return new FastBuffer(buf.buffer, buf.byteOffset, n);
}
const dst = Buffer.allocUnsafe(n);
do {
const buf = this._buffers[0];
const offset = dst.length - n;
if (n >= buf.length) {
dst.set(this._buffers.shift(), offset);
} else {
dst.set(new Uint8Array(buf.buffer, buf.byteOffset, n), offset);
this._buffers[0] = new FastBuffer(
buf.buffer,
buf.byteOffset + n,
buf.length - n
);
}
n -= buf.length;
} while (n > 0);
return dst;
}
/**
* Starts the parsing loop.
*
* @param {Function} cb Callback
* @private
*/
startLoop(cb) {
this._loop = true;
do {
switch (this._state) {
case GET_INFO:
this.getInfo(cb);
break;
case GET_PAYLOAD_LENGTH_16:
this.getPayloadLength16(cb);
break;
case GET_PAYLOAD_LENGTH_64:
this.getPayloadLength64(cb);
break;
case GET_MASK:
this.getMask();
break;
case GET_DATA:
this.getData(cb);
break;
case INFLATING:
case DEFER_EVENT:
this._loop = false;
return;
}
} while (this._loop);
if (!this._errored) cb();
}
/**
* Reads the first two bytes of a frame.
*
* @param {Function} cb Callback
* @private
*/
getInfo(cb) {
if (this._bufferedBytes < 2) {
this._loop = false;
return;
}
const buf = this.consume(2);
if ((buf[0] & 0x30) !== 0x00) {
const error = this.createError(
RangeError,
'RSV2 and RSV3 must be clear',
true,
1002,
'WS_ERR_UNEXPECTED_RSV_2_3'
);
cb(error);
return;
}
const compressed = (buf[0] & 0x40) === 0x40;
if (compressed && !this._extensions[PerMessageDeflate.extensionName]) {
const error = this.createError(
RangeError,
'RSV1 must be clear',
true,
1002,
'WS_ERR_UNEXPECTED_RSV_1'
);
cb(error);
return;
}
this._fin = (buf[0] & 0x80) === 0x80;
this._opcode = buf[0] & 0x0f;
this._payloadLength = buf[1] & 0x7f;
if (this._opcode === 0x00) {
if (compressed) {
const error = this.createError(
RangeError,
'RSV1 must be clear',
true,
1002,
'WS_ERR_UNEXPECTED_RSV_1'
);
cb(error);
return;
}
if (!this._fragmented) {
const error = this.createError(
RangeError,
'invalid opcode 0',
true,
1002,
'WS_ERR_INVALID_OPCODE'
);
cb(error);
return;
}
this._opcode = this._fragmented;
} else if (this._opcode === 0x01 || this._opcode === 0x02) {
if (this._fragmented) {
const error = this.createError(
RangeError,
`invalid opcode ${this._opcode}`,
true,
1002,
'WS_ERR_INVALID_OPCODE'
);
cb(error);
return;
}
this._compressed = compressed;
} else if (this._opcode > 0x07 && this._opcode < 0x0b) {
if (!this._fin) {
const error = this.createError(
RangeError,
'FIN must be set',
true,
1002,
'WS_ERR_EXPECTED_FIN'
);
cb(error);
return;
}
if (compressed) {
const error = this.createError(
RangeError,
'RSV1 must be clear',
true,
1002,
'WS_ERR_UNEXPECTED_RSV_1'
);
cb(error);
return;
}
if (
this._payloadLength > 0x7d ||
(this._opcode === 0x08 && this._payloadLength === 1)
) {
const error = this.createError(
RangeError,
`invalid payload length ${this._payloadLength}`,
true,
1002,
'WS_ERR_INVALID_CONTROL_PAYLOAD_LENGTH'
);
cb(error);
return;
}
} else {
const error = this.createError(
RangeError,
`invalid opcode ${this._opcode}`,
true,
1002,
'WS_ERR_INVALID_OPCODE'
);
cb(error);
return;
}
if (!this._fin && !this._fragmented) this._fragmented = this._opcode;
this._masked = (buf[1] & 0x80) === 0x80;
if (this._isServer) {
if (!this._masked) {
const error = this.createError(
RangeError,
'MASK must be set',
true,
1002,
'WS_ERR_EXPECTED_MASK'
);
cb(error);
return;
}
} else if (this._masked) {
const error = this.createError(
RangeError,
'MASK must be clear',
true,
1002,
'WS_ERR_UNEXPECTED_MASK'
);
cb(error);
return;
}
if (this._payloadLength === 126) this._state = GET_PAYLOAD_LENGTH_16;
else if (this._payloadLength === 127) this._state = GET_PAYLOAD_LENGTH_64;
else this.haveLength(cb);
}
/**
* Gets extended payload length (7+16).
*
* @param {Function} cb Callback
* @private
*/
getPayloadLength16(cb) {
if (this._bufferedBytes < 2) {
this._loop = false;
return;
}
this._payloadLength = this.consume(2).readUInt16BE(0);
this.haveLength(cb);
}
/**
* Gets extended payload length (7+64).
*
* @param {Function} cb Callback
* @private
*/
getPayloadLength64(cb) {
if (this._bufferedBytes < 8) {
this._loop = false;
return;
}
const buf = this.consume(8);
const num = buf.readUInt32BE(0);
//
// The maximum safe integer in JavaScript is 2^53 - 1. An error is returned
// if payload length is greater than this number.
//
if (num > Math.pow(2, 53 - 32) - 1) {
const error = this.createError(
RangeError,
'Unsupported WebSocket frame: payload length > 2^53 - 1',
false,
1009,
'WS_ERR_UNSUPPORTED_DATA_PAYLOAD_LENGTH'
);
cb(error);
return;
}
this._payloadLength = num * Math.pow(2, 32) + buf.readUInt32BE(4);
this.haveLength(cb);
}
/**
* Payload length has been read.
*
* @param {Function} cb Callback
* @private
*/
haveLength(cb) {
if (this._payloadLength && this._opcode < 0x08) {
this._totalPayloadLength += this._payloadLength;
if (this._totalPayloadLength > this._maxPayload && this._maxPayload > 0) {
const error = this.createError(
RangeError,
'Max payload size exceeded',
false,
1009,
'WS_ERR_UNSUPPORTED_MESSAGE_LENGTH'
);
cb(error);
return;
}
}
if (this._masked) this._state = GET_MASK;
else this._state = GET_DATA;
}
/**
* Reads mask bytes.
*
* @private
*/
getMask() {
if (this._bufferedBytes < 4) {
this._loop = false;
return;
}
this._mask = this.consume(4);
this._state = GET_DATA;
}
/**
* Reads data bytes.
*
* @param {Function} cb Callback
* @private
*/
getData(cb) {
let data = EMPTY_BUFFER;
if (this._payloadLength) {
if (this._bufferedBytes < this._payloadLength) {
this._loop = false;
return;
}
data = this.consume(this._payloadLength);
if (
this._masked &&
(this._mask[0] | this._mask[1] | this._mask[2] | this._mask[3]) !== 0
) {
unmask(data, this._mask);
}
}
if (this._opcode > 0x07) {
this.controlMessage(data, cb);
return;
}
if (this._compressed) {
this._state = INFLATING;
this.decompress(data, cb);
return;
}
if (data.length) {
//
// This message is not compressed so its length is the sum of the payload
// length of all fragments.
//
this._messageLength = this._totalPayloadLength;
this._fragments.push(data);
}
this.dataMessage(cb);
}
/**
* Decompresses data.
*
* @param {Buffer} data Compressed data
* @param {Function} cb Callback
* @private
*/
decompress(data, cb) {
const perMessageDeflate = this._extensions[PerMessageDeflate.extensionName];
perMessageDeflate.decompress(data, this._fin, (err, buf) => {
if (err) return cb(err);
if (buf.length) {
this._messageLength += buf.length;
if (this._messageLength > this._maxPayload && this._maxPayload > 0) {
const error = this.createError(
RangeError,
'Max payload size exceeded',
false,
1009,
'WS_ERR_UNSUPPORTED_MESSAGE_LENGTH'
);
cb(error);
return;
}
this._fragments.push(buf);
}
this.dataMessage(cb);
if (this._state === GET_INFO) this.startLoop(cb);
});
}
/**
* Handles a data message.
*
* @param {Function} cb Callback
* @private
*/
dataMessage(cb) {
if (!this._fin) {
this._state = GET_INFO;
return;
}
const messageLength = this._messageLength;
const fragments = this._fragments;
this._totalPayloadLength = 0;
this._messageLength = 0;
this._fragmented = 0;
this._fragments = [];
if (this._opcode === 2) {
let data;
if (this._binaryType === 'nodebuffer') {
data = concat(fragments, messageLength);
} else if (this._binaryType === 'arraybuffer') {
data = toArrayBuffer(concat(fragments, messageLength));
} else {
data = fragments;
}
if (this._allowSynchronousEvents) {
this.emit('message', data, true);
this._state = GET_INFO;
} else {
this._state = DEFER_EVENT;
setImmediate(() => {
this.emit('message', data, true);
this._state = GET_INFO;
this.startLoop(cb);
});
}
} else {
const buf = concat(fragments, messageLength);
if (!this._skipUTF8Validation && !isValidUTF8(buf)) {
const error = this.createError(
Error,
'invalid UTF-8 sequence',
true,
1007,
'WS_ERR_INVALID_UTF8'
);
cb(error);
return;
}
if (this._state === INFLATING || this._allowSynchronousEvents) {
this.emit('message', buf, false);
this._state = GET_INFO;
} else {
this._state = DEFER_EVENT;
setImmediate(() => {
this.emit('message', buf, false);
this._state = GET_INFO;
this.startLoop(cb);
});
}
}
}
/**
* Handles a control message.
*
* @param {Buffer} data Data to handle
* @return {(Error|RangeError|undefined)} A possible error
* @private
*/
controlMessage(data, cb) {
if (this._opcode === 0x08) {
if (data.length === 0) {
this._loop = false;
this.emit('conclude', 1005, EMPTY_BUFFER);
this.end();
} else {
const code = data.readUInt16BE(0);
if (!isValidStatusCode(code)) {
const error = this.createError(
RangeError,
`invalid status code ${code}`,
true,
1002,
'WS_ERR_INVALID_CLOSE_CODE'
);
cb(error);
return;
}
const buf = new FastBuffer(
data.buffer,
data.byteOffset + 2,
data.length - 2
);
if (!this._skipUTF8Validation && !isValidUTF8(buf)) {
const error = this.createError(
Error,
'invalid UTF-8 sequence',
true,
1007,
'WS_ERR_INVALID_UTF8'
);
cb(error);
return;
}
this._loop = false;
this.emit('conclude', code, buf);
this.end();
}
this._state = GET_INFO;
return;
}
if (this._allowSynchronousEvents) {
this.emit(this._opcode === 0x09 ? 'ping' : 'pong', data);
this._state = GET_INFO;
} else {
this._state = DEFER_EVENT;
setImmediate(() => {
this.emit(this._opcode === 0x09 ? 'ping' : 'pong', data);
this._state = GET_INFO;
this.startLoop(cb);
});
}
}
/**
* Builds an error object.
*
* @param {function(new:Error|RangeError)} ErrorCtor The error constructor
* @param {String} message The error message
* @param {Boolean} prefix Specifies whether or not to add a default prefix to
* `message`
* @param {Number} statusCode The status code
* @param {String} errorCode The exposed error code
* @return {(Error|RangeError)} The error
* @private
*/
createError(ErrorCtor, message, prefix, statusCode, errorCode) {
this._loop = false;
this._errored = true;
const err = new ErrorCtor(
prefix ? `Invalid WebSocket frame: ${message}` : message
);
Error.captureStackTrace(err, this.createError);
err.code = errorCode;
err[kStatusCode] = statusCode;
return err;
}
}
module.exports = Receiver;

497
node_modules/socket.io-adapter/node_modules/ws/lib/sender.js generated vendored Normal file
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@ -0,0 +1,497 @@
/* eslint no-unused-vars: ["error", { "varsIgnorePattern": "^Duplex" }] */
'use strict';
const { Duplex } = require('stream');
const { randomFillSync } = require('crypto');
const PerMessageDeflate = require('./permessage-deflate');
const { EMPTY_BUFFER } = require('./constants');
const { isValidStatusCode } = require('./validation');
const { mask: applyMask, toBuffer } = require('./buffer-util');
const kByteLength = Symbol('kByteLength');
const maskBuffer = Buffer.alloc(4);
const RANDOM_POOL_SIZE = 8 * 1024;
let randomPool;
let randomPoolPointer = RANDOM_POOL_SIZE;
/**
* HyBi Sender implementation.
*/
class Sender {
/**
* Creates a Sender instance.
*
* @param {Duplex} socket The connection socket
* @param {Object} [extensions] An object containing the negotiated extensions
* @param {Function} [generateMask] The function used to generate the masking
* key
*/
constructor(socket, extensions, generateMask) {
this._extensions = extensions || {};
if (generateMask) {
this._generateMask = generateMask;
this._maskBuffer = Buffer.alloc(4);
}
this._socket = socket;
this._firstFragment = true;
this._compress = false;
this._bufferedBytes = 0;
this._deflating = false;
this._queue = [];
}
/**
* Frames a piece of data according to the HyBi WebSocket protocol.
*
* @param {(Buffer|String)} data The data to frame
* @param {Object} options Options object
* @param {Boolean} [options.fin=false] Specifies whether or not to set the
* FIN bit
* @param {Function} [options.generateMask] The function used to generate the
* masking key
* @param {Boolean} [options.mask=false] Specifies whether or not to mask
* `data`
* @param {Buffer} [options.maskBuffer] The buffer used to store the masking
* key
* @param {Number} options.opcode The opcode
* @param {Boolean} [options.readOnly=false] Specifies whether `data` can be
* modified
* @param {Boolean} [options.rsv1=false] Specifies whether or not to set the
* RSV1 bit
* @return {(Buffer|String)[]} The framed data
* @public
*/
static frame(data, options) {
let mask;
let merge = false;
let offset = 2;
let skipMasking = false;
if (options.mask) {
mask = options.maskBuffer || maskBuffer;
if (options.generateMask) {
options.generateMask(mask);
} else {
if (randomPoolPointer === RANDOM_POOL_SIZE) {
/* istanbul ignore else */
if (randomPool === undefined) {
//
// This is lazily initialized because server-sent frames must not
// be masked so it may never be used.
//
randomPool = Buffer.alloc(RANDOM_POOL_SIZE);
}
randomFillSync(randomPool, 0, RANDOM_POOL_SIZE);
randomPoolPointer = 0;
}
mask[0] = randomPool[randomPoolPointer++];
mask[1] = randomPool[randomPoolPointer++];
mask[2] = randomPool[randomPoolPointer++];
mask[3] = randomPool[randomPoolPointer++];
}
skipMasking = (mask[0] | mask[1] | mask[2] | mask[3]) === 0;
offset = 6;
}
let dataLength;
if (typeof data === 'string') {
if (
(!options.mask || skipMasking) &&
options[kByteLength] !== undefined
) {
dataLength = options[kByteLength];
} else {
data = Buffer.from(data);
dataLength = data.length;
}
} else {
dataLength = data.length;
merge = options.mask && options.readOnly && !skipMasking;
}
let payloadLength = dataLength;
if (dataLength >= 65536) {
offset += 8;
payloadLength = 127;
} else if (dataLength > 125) {
offset += 2;
payloadLength = 126;
}
const target = Buffer.allocUnsafe(merge ? dataLength + offset : offset);
target[0] = options.fin ? options.opcode | 0x80 : options.opcode;
if (options.rsv1) target[0] |= 0x40;
target[1] = payloadLength;
if (payloadLength === 126) {
target.writeUInt16BE(dataLength, 2);
} else if (payloadLength === 127) {
target[2] = target[3] = 0;
target.writeUIntBE(dataLength, 4, 6);
}
if (!options.mask) return [target, data];
target[1] |= 0x80;
target[offset - 4] = mask[0];
target[offset - 3] = mask[1];
target[offset - 2] = mask[2];
target[offset - 1] = mask[3];
if (skipMasking) return [target, data];
if (merge) {
applyMask(data, mask, target, offset, dataLength);
return [target];
}
applyMask(data, mask, data, 0, dataLength);
return [target, data];
}
/**
* Sends a close message to the other peer.
*
* @param {Number} [code] The status code component of the body
* @param {(String|Buffer)} [data] The message component of the body
* @param {Boolean} [mask=false] Specifies whether or not to mask the message
* @param {Function} [cb] Callback
* @public
*/
close(code, data, mask, cb) {
let buf;
if (code === undefined) {
buf = EMPTY_BUFFER;
} else if (typeof code !== 'number' || !isValidStatusCode(code)) {
throw new TypeError('First argument must be a valid error code number');
} else if (data === undefined || !data.length) {
buf = Buffer.allocUnsafe(2);
buf.writeUInt16BE(code, 0);
} else {
const length = Buffer.byteLength(data);
if (length > 123) {
throw new RangeError('The message must not be greater than 123 bytes');
}
buf = Buffer.allocUnsafe(2 + length);
buf.writeUInt16BE(code, 0);
if (typeof data === 'string') {
buf.write(data, 2);
} else {
buf.set(data, 2);
}
}
const options = {
[kByteLength]: buf.length,
fin: true,
generateMask: this._generateMask,
mask,
maskBuffer: this._maskBuffer,
opcode: 0x08,
readOnly: false,
rsv1: false
};
if (this._deflating) {
this.enqueue([this.dispatch, buf, false, options, cb]);
} else {
this.sendFrame(Sender.frame(buf, options), cb);
}
}
/**
* Sends a ping message to the other peer.
*
* @param {*} data The message to send
* @param {Boolean} [mask=false] Specifies whether or not to mask `data`
* @param {Function} [cb] Callback
* @public
*/
ping(data, mask, cb) {
let byteLength;
let readOnly;
if (typeof data === 'string') {
byteLength = Buffer.byteLength(data);
readOnly = false;
} else {
data = toBuffer(data);
byteLength = data.length;
readOnly = toBuffer.readOnly;
}
if (byteLength > 125) {
throw new RangeError('The data size must not be greater than 125 bytes');
}
const options = {
[kByteLength]: byteLength,
fin: true,
generateMask: this._generateMask,
mask,
maskBuffer: this._maskBuffer,
opcode: 0x09,
readOnly,
rsv1: false
};
if (this._deflating) {
this.enqueue([this.dispatch, data, false, options, cb]);
} else {
this.sendFrame(Sender.frame(data, options), cb);
}
}
/**
* Sends a pong message to the other peer.
*
* @param {*} data The message to send
* @param {Boolean} [mask=false] Specifies whether or not to mask `data`
* @param {Function} [cb] Callback
* @public
*/
pong(data, mask, cb) {
let byteLength;
let readOnly;
if (typeof data === 'string') {
byteLength = Buffer.byteLength(data);
readOnly = false;
} else {
data = toBuffer(data);
byteLength = data.length;
readOnly = toBuffer.readOnly;
}
if (byteLength > 125) {
throw new RangeError('The data size must not be greater than 125 bytes');
}
const options = {
[kByteLength]: byteLength,
fin: true,
generateMask: this._generateMask,
mask,
maskBuffer: this._maskBuffer,
opcode: 0x0a,
readOnly,
rsv1: false
};
if (this._deflating) {
this.enqueue([this.dispatch, data, false, options, cb]);
} else {
this.sendFrame(Sender.frame(data, options), cb);
}
}
/**
* Sends a data message to the other peer.
*
* @param {*} data The message to send
* @param {Object} options Options object
* @param {Boolean} [options.binary=false] Specifies whether `data` is binary
* or text
* @param {Boolean} [options.compress=false] Specifies whether or not to
* compress `data`
* @param {Boolean} [options.fin=false] Specifies whether the fragment is the
* last one
* @param {Boolean} [options.mask=false] Specifies whether or not to mask
* `data`
* @param {Function} [cb] Callback
* @public
*/
send(data, options, cb) {
const perMessageDeflate = this._extensions[PerMessageDeflate.extensionName];
let opcode = options.binary ? 2 : 1;
let rsv1 = options.compress;
let byteLength;
let readOnly;
if (typeof data === 'string') {
byteLength = Buffer.byteLength(data);
readOnly = false;
} else {
data = toBuffer(data);
byteLength = data.length;
readOnly = toBuffer.readOnly;
}
if (this._firstFragment) {
this._firstFragment = false;
if (
rsv1 &&
perMessageDeflate &&
perMessageDeflate.params[
perMessageDeflate._isServer
? 'server_no_context_takeover'
: 'client_no_context_takeover'
]
) {
rsv1 = byteLength >= perMessageDeflate._threshold;
}
this._compress = rsv1;
} else {
rsv1 = false;
opcode = 0;
}
if (options.fin) this._firstFragment = true;
if (perMessageDeflate) {
const opts = {
[kByteLength]: byteLength,
fin: options.fin,
generateMask: this._generateMask,
mask: options.mask,
maskBuffer: this._maskBuffer,
opcode,
readOnly,
rsv1
};
if (this._deflating) {
this.enqueue([this.dispatch, data, this._compress, opts, cb]);
} else {
this.dispatch(data, this._compress, opts, cb);
}
} else {
this.sendFrame(
Sender.frame(data, {
[kByteLength]: byteLength,
fin: options.fin,
generateMask: this._generateMask,
mask: options.mask,
maskBuffer: this._maskBuffer,
opcode,
readOnly,
rsv1: false
}),
cb
);
}
}
/**
* Dispatches a message.
*
* @param {(Buffer|String)} data The message to send
* @param {Boolean} [compress=false] Specifies whether or not to compress
* `data`
* @param {Object} options Options object
* @param {Boolean} [options.fin=false] Specifies whether or not to set the
* FIN bit
* @param {Function} [options.generateMask] The function used to generate the
* masking key
* @param {Boolean} [options.mask=false] Specifies whether or not to mask
* `data`
* @param {Buffer} [options.maskBuffer] The buffer used to store the masking
* key
* @param {Number} options.opcode The opcode
* @param {Boolean} [options.readOnly=false] Specifies whether `data` can be
* modified
* @param {Boolean} [options.rsv1=false] Specifies whether or not to set the
* RSV1 bit
* @param {Function} [cb] Callback
* @private
*/
dispatch(data, compress, options, cb) {
if (!compress) {
this.sendFrame(Sender.frame(data, options), cb);
return;
}
const perMessageDeflate = this._extensions[PerMessageDeflate.extensionName];
this._bufferedBytes += options[kByteLength];
this._deflating = true;
perMessageDeflate.compress(data, options.fin, (_, buf) => {
if (this._socket.destroyed) {
const err = new Error(
'The socket was closed while data was being compressed'
);
if (typeof cb === 'function') cb(err);
for (let i = 0; i < this._queue.length; i++) {
const params = this._queue[i];
const callback = params[params.length - 1];
if (typeof callback === 'function') callback(err);
}
return;
}
this._bufferedBytes -= options[kByteLength];
this._deflating = false;
options.readOnly = false;
this.sendFrame(Sender.frame(buf, options), cb);
this.dequeue();
});
}
/**
* Executes queued send operations.
*
* @private
*/
dequeue() {
while (!this._deflating && this._queue.length) {
const params = this._queue.shift();
this._bufferedBytes -= params[3][kByteLength];
Reflect.apply(params[0], this, params.slice(1));
}
}
/**
* Enqueues a send operation.
*
* @param {Array} params Send operation parameters.
* @private
*/
enqueue(params) {
this._bufferedBytes += params[3][kByteLength];
this._queue.push(params);
}
/**
* Sends a frame.
*
* @param {Buffer[]} list The frame to send
* @param {Function} [cb] Callback
* @private
*/
sendFrame(list, cb) {
if (list.length === 2) {
this._socket.cork();
this._socket.write(list[0]);
this._socket.write(list[1], cb);
this._socket.uncork();
} else {
this._socket.write(list[0], cb);
}
}
}
module.exports = Sender;

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node_modules/socket.io-adapter/node_modules/ws/lib/stream.js generated vendored Normal file
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'use strict';
const { Duplex } = require('stream');
/**
* Emits the `'close'` event on a stream.
*
* @param {Duplex} stream The stream.
* @private
*/
function emitClose(stream) {
stream.emit('close');
}
/**
* The listener of the `'end'` event.
*
* @private
*/
function duplexOnEnd() {
if (!this.destroyed && this._writableState.finished) {
this.destroy();
}
}
/**
* The listener of the `'error'` event.
*
* @param {Error} err The error
* @private
*/
function duplexOnError(err) {
this.removeListener('error', duplexOnError);
this.destroy();
if (this.listenerCount('error') === 0) {
// Do not suppress the throwing behavior.
this.emit('error', err);
}
}
/**
* Wraps a `WebSocket` in a duplex stream.
*
* @param {WebSocket} ws The `WebSocket` to wrap
* @param {Object} [options] The options for the `Duplex` constructor
* @return {Duplex} The duplex stream
* @public
*/
function createWebSocketStream(ws, options) {
let terminateOnDestroy = true;
const duplex = new Duplex({
...options,
autoDestroy: false,
emitClose: false,
objectMode: false,
writableObjectMode: false
});
ws.on('message', function message(msg, isBinary) {
const data =
!isBinary && duplex._readableState.objectMode ? msg.toString() : msg;
if (!duplex.push(data)) ws.pause();
});
ws.once('error', function error(err) {
if (duplex.destroyed) return;
// Prevent `ws.terminate()` from being called by `duplex._destroy()`.
//
// - If the `'error'` event is emitted before the `'open'` event, then
// `ws.terminate()` is a noop as no socket is assigned.
// - Otherwise, the error is re-emitted by the listener of the `'error'`
// event of the `Receiver` object. The listener already closes the
// connection by calling `ws.close()`. This allows a close frame to be
// sent to the other peer. If `ws.terminate()` is called right after this,
// then the close frame might not be sent.
terminateOnDestroy = false;
duplex.destroy(err);
});
ws.once('close', function close() {
if (duplex.destroyed) return;
duplex.push(null);
});
duplex._destroy = function (err, callback) {
if (ws.readyState === ws.CLOSED) {
callback(err);
process.nextTick(emitClose, duplex);
return;
}
let called = false;
ws.once('error', function error(err) {
called = true;
callback(err);
});
ws.once('close', function close() {
if (!called) callback(err);
process.nextTick(emitClose, duplex);
});
if (terminateOnDestroy) ws.terminate();
};
duplex._final = function (callback) {
if (ws.readyState === ws.CONNECTING) {
ws.once('open', function open() {
duplex._final(callback);
});
return;
}
// If the value of the `_socket` property is `null` it means that `ws` is a
// client websocket and the handshake failed. In fact, when this happens, a
// socket is never assigned to the websocket. Wait for the `'error'` event
// that will be emitted by the websocket.
if (ws._socket === null) return;
if (ws._socket._writableState.finished) {
callback();
if (duplex._readableState.endEmitted) duplex.destroy();
} else {
ws._socket.once('finish', function finish() {
// `duplex` is not destroyed here because the `'end'` event will be
// emitted on `duplex` after this `'finish'` event. The EOF signaling
// `null` chunk is, in fact, pushed when the websocket emits `'close'`.
callback();
});
ws.close();
}
};
duplex._read = function () {
if (ws.isPaused) ws.resume();
};
duplex._write = function (chunk, encoding, callback) {
if (ws.readyState === ws.CONNECTING) {
ws.once('open', function open() {
duplex._write(chunk, encoding, callback);
});
return;
}
ws.send(chunk, callback);
};
duplex.on('end', duplexOnEnd);
duplex.on('error', duplexOnError);
return duplex;
}
module.exports = createWebSocketStream;

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node_modules/socket.io-adapter/node_modules/ws/lib/subprotocol.js generated vendored Normal file
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'use strict';
const { tokenChars } = require('./validation');
/**
* Parses the `Sec-WebSocket-Protocol` header into a set of subprotocol names.
*
* @param {String} header The field value of the header
* @return {Set} The subprotocol names
* @public
*/
function parse(header) {
const protocols = new Set();
let start = -1;
let end = -1;
let i = 0;
for (i; i < header.length; i++) {
const code = header.charCodeAt(i);
if (end === -1 && tokenChars[code] === 1) {
if (start === -1) start = i;
} else if (
i !== 0 &&
(code === 0x20 /* ' ' */ || code === 0x09) /* '\t' */
) {
if (end === -1 && start !== -1) end = i;
} else if (code === 0x2c /* ',' */) {
if (start === -1) {
throw new SyntaxError(`Unexpected character at index ${i}`);
}
if (end === -1) end = i;
const protocol = header.slice(start, end);
if (protocols.has(protocol)) {
throw new SyntaxError(`The "${protocol}" subprotocol is duplicated`);
}
protocols.add(protocol);
start = end = -1;
} else {
throw new SyntaxError(`Unexpected character at index ${i}`);
}
}
if (start === -1 || end !== -1) {
throw new SyntaxError('Unexpected end of input');
}
const protocol = header.slice(start, i);
if (protocols.has(protocol)) {
throw new SyntaxError(`The "${protocol}" subprotocol is duplicated`);
}
protocols.add(protocol);
return protocols;
}
module.exports = { parse };

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node_modules/socket.io-adapter/node_modules/ws/lib/validation.js generated vendored Normal file
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'use strict';
const { isUtf8 } = require('buffer');
//
// Allowed token characters:
//
// '!', '#', '$', '%', '&', ''', '*', '+', '-',
// '.', 0-9, A-Z, '^', '_', '`', a-z, '|', '~'
//
// tokenChars[32] === 0 // ' '
// tokenChars[33] === 1 // '!'
// tokenChars[34] === 0 // '"'
// ...
//
// prettier-ignore
const tokenChars = [
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 0 - 15
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 16 - 31
0, 1, 0, 1, 1, 1, 1, 1, 0, 0, 1, 1, 0, 1, 1, 0, // 32 - 47
1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, // 48 - 63
0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, // 64 - 79
1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 1, 1, // 80 - 95
1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, // 96 - 111
1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 1, 0, 1, 0 // 112 - 127
];
/**
* Checks if a status code is allowed in a close frame.
*
* @param {Number} code The status code
* @return {Boolean} `true` if the status code is valid, else `false`
* @public
*/
function isValidStatusCode(code) {
return (
(code >= 1000 &&
code <= 1014 &&
code !== 1004 &&
code !== 1005 &&
code !== 1006) ||
(code >= 3000 && code <= 4999)
);
}
/**
* Checks if a given buffer contains only correct UTF-8.
* Ported from https://www.cl.cam.ac.uk/%7Emgk25/ucs/utf8_check.c by
* Markus Kuhn.
*
* @param {Buffer} buf The buffer to check
* @return {Boolean} `true` if `buf` contains only correct UTF-8, else `false`
* @public
*/
function _isValidUTF8(buf) {
const len = buf.length;
let i = 0;
while (i < len) {
if ((buf[i] & 0x80) === 0) {
// 0xxxxxxx
i++;
} else if ((buf[i] & 0xe0) === 0xc0) {
// 110xxxxx 10xxxxxx
if (
i + 1 === len ||
(buf[i + 1] & 0xc0) !== 0x80 ||
(buf[i] & 0xfe) === 0xc0 // Overlong
) {
return false;
}
i += 2;
} else if ((buf[i] & 0xf0) === 0xe0) {
// 1110xxxx 10xxxxxx 10xxxxxx
if (
i + 2 >= len ||
(buf[i + 1] & 0xc0) !== 0x80 ||
(buf[i + 2] & 0xc0) !== 0x80 ||
(buf[i] === 0xe0 && (buf[i + 1] & 0xe0) === 0x80) || // Overlong
(buf[i] === 0xed && (buf[i + 1] & 0xe0) === 0xa0) // Surrogate (U+D800 - U+DFFF)
) {
return false;
}
i += 3;
} else if ((buf[i] & 0xf8) === 0xf0) {
// 11110xxx 10xxxxxx 10xxxxxx 10xxxxxx
if (
i + 3 >= len ||
(buf[i + 1] & 0xc0) !== 0x80 ||
(buf[i + 2] & 0xc0) !== 0x80 ||
(buf[i + 3] & 0xc0) !== 0x80 ||
(buf[i] === 0xf0 && (buf[i + 1] & 0xf0) === 0x80) || // Overlong
(buf[i] === 0xf4 && buf[i + 1] > 0x8f) ||
buf[i] > 0xf4 // > U+10FFFF
) {
return false;
}
i += 4;
} else {
return false;
}
}
return true;
}
module.exports = {
isValidStatusCode,
isValidUTF8: _isValidUTF8,
tokenChars
};
if (isUtf8) {
module.exports.isValidUTF8 = function (buf) {
return buf.length < 24 ? _isValidUTF8(buf) : isUtf8(buf);
};
} /* istanbul ignore else */ else if (!process.env.WS_NO_UTF_8_VALIDATE) {
try {
const isValidUTF8 = require('utf-8-validate');
module.exports.isValidUTF8 = function (buf) {
return buf.length < 32 ? _isValidUTF8(buf) : isValidUTF8(buf);
};
} catch (e) {
// Continue regardless of the error.
}
}

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node_modules/socket.io-adapter/node_modules/ws/lib/websocket-server.js generated vendored Normal file
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/* eslint no-unused-vars: ["error", { "varsIgnorePattern": "^Duplex$", "caughtErrors": "none" }] */
'use strict';
const EventEmitter = require('events');
const http = require('http');
const { Duplex } = require('stream');
const { createHash } = require('crypto');
const extension = require('./extension');
const PerMessageDeflate = require('./permessage-deflate');
const subprotocol = require('./subprotocol');
const WebSocket = require('./websocket');
const { GUID, kWebSocket } = require('./constants');
const keyRegex = /^[+/0-9A-Za-z]{22}==$/;
const RUNNING = 0;
const CLOSING = 1;
const CLOSED = 2;
/**
* Class representing a WebSocket server.
*
* @extends EventEmitter
*/
class WebSocketServer extends EventEmitter {
/**
* Create a `WebSocketServer` instance.
*
* @param {Object} options Configuration options
* @param {Boolean} [options.allowSynchronousEvents=true] Specifies whether
* any of the `'message'`, `'ping'`, and `'pong'` events can be emitted
* multiple times in the same tick
* @param {Boolean} [options.autoPong=true] Specifies whether or not to
* automatically send a pong in response to a ping
* @param {Number} [options.backlog=511] The maximum length of the queue of
* pending connections
* @param {Boolean} [options.clientTracking=true] Specifies whether or not to
* track clients
* @param {Function} [options.handleProtocols] A hook to handle protocols
* @param {String} [options.host] The hostname where to bind the server
* @param {Number} [options.maxPayload=104857600] The maximum allowed message
* size
* @param {Boolean} [options.noServer=false] Enable no server mode
* @param {String} [options.path] Accept only connections matching this path
* @param {(Boolean|Object)} [options.perMessageDeflate=false] Enable/disable
* permessage-deflate
* @param {Number} [options.port] The port where to bind the server
* @param {(http.Server|https.Server)} [options.server] A pre-created HTTP/S
* server to use
* @param {Boolean} [options.skipUTF8Validation=false] Specifies whether or
* not to skip UTF-8 validation for text and close messages
* @param {Function} [options.verifyClient] A hook to reject connections
* @param {Function} [options.WebSocket=WebSocket] Specifies the `WebSocket`
* class to use. It must be the `WebSocket` class or class that extends it
* @param {Function} [callback] A listener for the `listening` event
*/
constructor(options, callback) {
super();
options = {
allowSynchronousEvents: true,
autoPong: true,
maxPayload: 100 * 1024 * 1024,
skipUTF8Validation: false,
perMessageDeflate: false,
handleProtocols: null,
clientTracking: true,
verifyClient: null,
noServer: false,
backlog: null, // use default (511 as implemented in net.js)
server: null,
host: null,
path: null,
port: null,
WebSocket,
...options
};
if (
(options.port == null && !options.server && !options.noServer) ||
(options.port != null && (options.server || options.noServer)) ||
(options.server && options.noServer)
) {
throw new TypeError(
'One and only one of the "port", "server", or "noServer" options ' +
'must be specified'
);
}
if (options.port != null) {
this._server = http.createServer((req, res) => {
const body = http.STATUS_CODES[426];
res.writeHead(426, {
'Content-Length': body.length,
'Content-Type': 'text/plain'
});
res.end(body);
});
this._server.listen(
options.port,
options.host,
options.backlog,
callback
);
} else if (options.server) {
this._server = options.server;
}
if (this._server) {
const emitConnection = this.emit.bind(this, 'connection');
this._removeListeners = addListeners(this._server, {
listening: this.emit.bind(this, 'listening'),
error: this.emit.bind(this, 'error'),
upgrade: (req, socket, head) => {
this.handleUpgrade(req, socket, head, emitConnection);
}
});
}
if (options.perMessageDeflate === true) options.perMessageDeflate = {};
if (options.clientTracking) {
this.clients = new Set();
this._shouldEmitClose = false;
}
this.options = options;
this._state = RUNNING;
}
/**
* Returns the bound address, the address family name, and port of the server
* as reported by the operating system if listening on an IP socket.
* If the server is listening on a pipe or UNIX domain socket, the name is
* returned as a string.
*
* @return {(Object|String|null)} The address of the server
* @public
*/
address() {
if (this.options.noServer) {
throw new Error('The server is operating in "noServer" mode');
}
if (!this._server) return null;
return this._server.address();
}
/**
* Stop the server from accepting new connections and emit the `'close'` event
* when all existing connections are closed.
*
* @param {Function} [cb] A one-time listener for the `'close'` event
* @public
*/
close(cb) {
if (this._state === CLOSED) {
if (cb) {
this.once('close', () => {
cb(new Error('The server is not running'));
});
}
process.nextTick(emitClose, this);
return;
}
if (cb) this.once('close', cb);
if (this._state === CLOSING) return;
this._state = CLOSING;
if (this.options.noServer || this.options.server) {
if (this._server) {
this._removeListeners();
this._removeListeners = this._server = null;
}
if (this.clients) {
if (!this.clients.size) {
process.nextTick(emitClose, this);
} else {
this._shouldEmitClose = true;
}
} else {
process.nextTick(emitClose, this);
}
} else {
const server = this._server;
this._removeListeners();
this._removeListeners = this._server = null;
//
// The HTTP/S server was created internally. Close it, and rely on its
// `'close'` event.
//
server.close(() => {
emitClose(this);
});
}
}
/**
* See if a given request should be handled by this server instance.
*
* @param {http.IncomingMessage} req Request object to inspect
* @return {Boolean} `true` if the request is valid, else `false`
* @public
*/
shouldHandle(req) {
if (this.options.path) {
const index = req.url.indexOf('?');
const pathname = index !== -1 ? req.url.slice(0, index) : req.url;
if (pathname !== this.options.path) return false;
}
return true;
}
/**
* Handle a HTTP Upgrade request.
*
* @param {http.IncomingMessage} req The request object
* @param {Duplex} socket The network socket between the server and client
* @param {Buffer} head The first packet of the upgraded stream
* @param {Function} cb Callback
* @public
*/
handleUpgrade(req, socket, head, cb) {
socket.on('error', socketOnError);
const key = req.headers['sec-websocket-key'];
const upgrade = req.headers.upgrade;
const version = +req.headers['sec-websocket-version'];
if (req.method !== 'GET') {
const message = 'Invalid HTTP method';
abortHandshakeOrEmitwsClientError(this, req, socket, 405, message);
return;
}
if (upgrade === undefined || upgrade.toLowerCase() !== 'websocket') {
const message = 'Invalid Upgrade header';
abortHandshakeOrEmitwsClientError(this, req, socket, 400, message);
return;
}
if (key === undefined || !keyRegex.test(key)) {
const message = 'Missing or invalid Sec-WebSocket-Key header';
abortHandshakeOrEmitwsClientError(this, req, socket, 400, message);
return;
}
if (version !== 8 && version !== 13) {
const message = 'Missing or invalid Sec-WebSocket-Version header';
abortHandshakeOrEmitwsClientError(this, req, socket, 400, message);
return;
}
if (!this.shouldHandle(req)) {
abortHandshake(socket, 400);
return;
}
const secWebSocketProtocol = req.headers['sec-websocket-protocol'];
let protocols = new Set();
if (secWebSocketProtocol !== undefined) {
try {
protocols = subprotocol.parse(secWebSocketProtocol);
} catch (err) {
const message = 'Invalid Sec-WebSocket-Protocol header';
abortHandshakeOrEmitwsClientError(this, req, socket, 400, message);
return;
}
}
const secWebSocketExtensions = req.headers['sec-websocket-extensions'];
const extensions = {};
if (
this.options.perMessageDeflate &&
secWebSocketExtensions !== undefined
) {
const perMessageDeflate = new PerMessageDeflate(
this.options.perMessageDeflate,
true,
this.options.maxPayload
);
try {
const offers = extension.parse(secWebSocketExtensions);
if (offers[PerMessageDeflate.extensionName]) {
perMessageDeflate.accept(offers[PerMessageDeflate.extensionName]);
extensions[PerMessageDeflate.extensionName] = perMessageDeflate;
}
} catch (err) {
const message =
'Invalid or unacceptable Sec-WebSocket-Extensions header';
abortHandshakeOrEmitwsClientError(this, req, socket, 400, message);
return;
}
}
//
// Optionally call external client verification handler.
//
if (this.options.verifyClient) {
const info = {
origin:
req.headers[`${version === 8 ? 'sec-websocket-origin' : 'origin'}`],
secure: !!(req.socket.authorized || req.socket.encrypted),
req
};
if (this.options.verifyClient.length === 2) {
this.options.verifyClient(info, (verified, code, message, headers) => {
if (!verified) {
return abortHandshake(socket, code || 401, message, headers);
}
this.completeUpgrade(
extensions,
key,
protocols,
req,
socket,
head,
cb
);
});
return;
}
if (!this.options.verifyClient(info)) return abortHandshake(socket, 401);
}
this.completeUpgrade(extensions, key, protocols, req, socket, head, cb);
}
/**
* Upgrade the connection to WebSocket.
*
* @param {Object} extensions The accepted extensions
* @param {String} key The value of the `Sec-WebSocket-Key` header
* @param {Set} protocols The subprotocols
* @param {http.IncomingMessage} req The request object
* @param {Duplex} socket The network socket between the server and client
* @param {Buffer} head The first packet of the upgraded stream
* @param {Function} cb Callback
* @throws {Error} If called more than once with the same socket
* @private
*/
completeUpgrade(extensions, key, protocols, req, socket, head, cb) {
//
// Destroy the socket if the client has already sent a FIN packet.
//
if (!socket.readable || !socket.writable) return socket.destroy();
if (socket[kWebSocket]) {
throw new Error(
'server.handleUpgrade() was called more than once with the same ' +
'socket, possibly due to a misconfiguration'
);
}
if (this._state > RUNNING) return abortHandshake(socket, 503);
const digest = createHash('sha1')
.update(key + GUID)
.digest('base64');
const headers = [
'HTTP/1.1 101 Switching Protocols',
'Upgrade: websocket',
'Connection: Upgrade',
`Sec-WebSocket-Accept: ${digest}`
];
const ws = new this.options.WebSocket(null, undefined, this.options);
if (protocols.size) {
//
// Optionally call external protocol selection handler.
//
const protocol = this.options.handleProtocols
? this.options.handleProtocols(protocols, req)
: protocols.values().next().value;
if (protocol) {
headers.push(`Sec-WebSocket-Protocol: ${protocol}`);
ws._protocol = protocol;
}
}
if (extensions[PerMessageDeflate.extensionName]) {
const params = extensions[PerMessageDeflate.extensionName].params;
const value = extension.format({
[PerMessageDeflate.extensionName]: [params]
});
headers.push(`Sec-WebSocket-Extensions: ${value}`);
ws._extensions = extensions;
}
//
// Allow external modification/inspection of handshake headers.
//
this.emit('headers', headers, req);
socket.write(headers.concat('\r\n').join('\r\n'));
socket.removeListener('error', socketOnError);
ws.setSocket(socket, head, {
allowSynchronousEvents: this.options.allowSynchronousEvents,
maxPayload: this.options.maxPayload,
skipUTF8Validation: this.options.skipUTF8Validation
});
if (this.clients) {
this.clients.add(ws);
ws.on('close', () => {
this.clients.delete(ws);
if (this._shouldEmitClose && !this.clients.size) {
process.nextTick(emitClose, this);
}
});
}
cb(ws, req);
}
}
module.exports = WebSocketServer;
/**
* Add event listeners on an `EventEmitter` using a map of <event, listener>
* pairs.
*
* @param {EventEmitter} server The event emitter
* @param {Object.<String, Function>} map The listeners to add
* @return {Function} A function that will remove the added listeners when
* called
* @private
*/
function addListeners(server, map) {
for (const event of Object.keys(map)) server.on(event, map[event]);
return function removeListeners() {
for (const event of Object.keys(map)) {
server.removeListener(event, map[event]);
}
};
}
/**
* Emit a `'close'` event on an `EventEmitter`.
*
* @param {EventEmitter} server The event emitter
* @private
*/
function emitClose(server) {
server._state = CLOSED;
server.emit('close');
}
/**
* Handle socket errors.
*
* @private
*/
function socketOnError() {
this.destroy();
}
/**
* Close the connection when preconditions are not fulfilled.
*
* @param {Duplex} socket The socket of the upgrade request
* @param {Number} code The HTTP response status code
* @param {String} [message] The HTTP response body
* @param {Object} [headers] Additional HTTP response headers
* @private
*/
function abortHandshake(socket, code, message, headers) {
//
// The socket is writable unless the user destroyed or ended it before calling
// `server.handleUpgrade()` or in the `verifyClient` function, which is a user
// error. Handling this does not make much sense as the worst that can happen
// is that some of the data written by the user might be discarded due to the
// call to `socket.end()` below, which triggers an `'error'` event that in
// turn causes the socket to be destroyed.
//
message = message || http.STATUS_CODES[code];
headers = {
Connection: 'close',
'Content-Type': 'text/html',
'Content-Length': Buffer.byteLength(message),
...headers
};
socket.once('finish', socket.destroy);
socket.end(
`HTTP/1.1 ${code} ${http.STATUS_CODES[code]}\r\n` +
Object.keys(headers)
.map((h) => `${h}: ${headers[h]}`)
.join('\r\n') +
'\r\n\r\n' +
message
);
}
/**
* Emit a `'wsClientError'` event on a `WebSocketServer` if there is at least
* one listener for it, otherwise call `abortHandshake()`.
*
* @param {WebSocketServer} server The WebSocket server
* @param {http.IncomingMessage} req The request object
* @param {Duplex} socket The socket of the upgrade request
* @param {Number} code The HTTP response status code
* @param {String} message The HTTP response body
* @private
*/
function abortHandshakeOrEmitwsClientError(server, req, socket, code, message) {
if (server.listenerCount('wsClientError')) {
const err = new Error(message);
Error.captureStackTrace(err, abortHandshakeOrEmitwsClientError);
server.emit('wsClientError', err, socket, req);
} else {
abortHandshake(socket, code, message);
}
}

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69
node_modules/socket.io-adapter/node_modules/ws/package.json generated vendored Normal file
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{
"name": "ws",
"version": "8.17.1",
"description": "Simple to use, blazing fast and thoroughly tested websocket client and server for Node.js",
"keywords": [
"HyBi",
"Push",
"RFC-6455",
"WebSocket",
"WebSockets",
"real-time"
],
"homepage": "https://github.com/websockets/ws",
"bugs": "https://github.com/websockets/ws/issues",
"repository": {
"type": "git",
"url": "git+https://github.com/websockets/ws.git"
},
"author": "Einar Otto Stangvik <einaros@gmail.com> (http://2x.io)",
"license": "MIT",
"main": "index.js",
"exports": {
".": {
"browser": "./browser.js",
"import": "./wrapper.mjs",
"require": "./index.js"
},
"./package.json": "./package.json"
},
"browser": "browser.js",
"engines": {
"node": ">=10.0.0"
},
"files": [
"browser.js",
"index.js",
"lib/*.js",
"wrapper.mjs"
],
"scripts": {
"test": "nyc --reporter=lcov --reporter=text mocha --throw-deprecation test/*.test.js",
"integration": "mocha --throw-deprecation test/*.integration.js",
"lint": "eslint . && prettier --check --ignore-path .gitignore \"**/*.{json,md,yaml,yml}\""
},
"peerDependencies": {
"bufferutil": "^4.0.1",
"utf-8-validate": ">=5.0.2"
},
"peerDependenciesMeta": {
"bufferutil": {
"optional": true
},
"utf-8-validate": {
"optional": true
}
},
"devDependencies": {
"benchmark": "^2.1.4",
"bufferutil": "^4.0.1",
"eslint": "^9.0.0",
"eslint-config-prettier": "^9.0.0",
"eslint-plugin-prettier": "^5.0.0",
"globals": "^15.0.0",
"mocha": "^8.4.0",
"nyc": "^15.0.0",
"prettier": "^3.0.0",
"utf-8-validate": "^6.0.0"
}
}

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node_modules/socket.io-adapter/node_modules/ws/wrapper.mjs generated vendored Normal file
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import createWebSocketStream from './lib/stream.js';
import Receiver from './lib/receiver.js';
import Sender from './lib/sender.js';
import WebSocket from './lib/websocket.js';
import WebSocketServer from './lib/websocket-server.js';
export { createWebSocketStream, Receiver, Sender, WebSocket, WebSocketServer };
export default WebSocket;

39
node_modules/socket.io-adapter/package.json generated vendored Normal file
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{
"name": "socket.io-adapter",
"version": "2.5.5",
"license": "MIT",
"repository": {
"type": "git",
"url": "git://github.com/socketio/socket.io-adapter.git"
},
"files": [
"dist/"
],
"main": "./dist/index.js",
"types": "./dist/index.d.ts",
"description": "default socket.io in-memory adapter",
"dependencies": {
"debug": "~4.3.4",
"ws": "~8.17.1"
},
"devDependencies": {
"@types/debug": "^4.1.12",
"@types/expect.js": "^0.3.32",
"@types/mocha": "^10.0.1",
"@types/node": "^14.11.2",
"expect.js": "^0.3.1",
"mocha": "^10.2.0",
"nyc": "^15.1.0",
"prettier": "^2.8.1",
"socket.io": "^4.7.4",
"socket.io-client": "^4.7.4",
"ts-node": "^10.9.1",
"typescript": "^4.9.4"
},
"scripts": {
"test": "npm run format:check && tsc && nyc mocha --require ts-node/register test/*.ts",
"format:check": "prettier --parser typescript --check 'lib/**/*.ts' 'test/**/*.ts'",
"format:fix": "prettier --parser typescript --write 'lib/**/*.ts' 'test/**/*.ts'",
"prepack": "tsc"
}
}