"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;
}