'use strict'; const EventEmitter = require('node:events'); const { setImmediate } = require('node:timers'); const { setTimeout: sleep } = require('node:timers/promises'); const { Collection } = require('@discordjs/collection'); const { GatewayCloseCodes, GatewayDispatchEvents, Routes } = require('discord-api-types/v9'); const WebSocketShard = require('./WebSocketShard'); const PacketHandlers = require('./handlers'); const { Error } = require('../../errors'); const Events = require('../../util/Events'); const ShardEvents = require('../../util/ShardEvents'); const Status = require('../../util/Status'); const BeforeReadyWhitelist = [ GatewayDispatchEvents.Ready, GatewayDispatchEvents.Resumed, GatewayDispatchEvents.GuildCreate, GatewayDispatchEvents.GuildDelete, GatewayDispatchEvents.GuildMembersChunk, GatewayDispatchEvents.GuildMemberAdd, GatewayDispatchEvents.GuildMemberRemove, ]; const UNRECOVERABLE_CLOSE_CODES = [ GatewayCloseCodes.AuthenticationFailed, GatewayCloseCodes.InvalidShard, GatewayCloseCodes.ShardingRequired, GatewayCloseCodes.InvalidIntents, GatewayCloseCodes.DisallowedIntents, ]; const UNRESUMABLE_CLOSE_CODES = [1000, GatewayCloseCodes.AlreadyAuthenticated, GatewayCloseCodes.InvalidSeq]; /** * The WebSocket manager for this client. * This class forwards raw dispatch events, * read more about it here {@link https://discord.com/developers/docs/topics/gateway} * @extends EventEmitter */ class WebSocketManager extends EventEmitter { constructor(client) { super(); /** * The client that instantiated this WebSocketManager * @type {Client} * @readonly * @name WebSocketManager#client */ Object.defineProperty(this, 'client', { value: client }); /** * The gateway this manager uses * @type {?string} */ this.gateway = null; /** * The amount of shards this manager handles * @private * @type {number} */ this.totalShards = this.client.options.shards.length; /** * A collection of all shards this manager handles * @type {Collection} */ this.shards = new Collection(); /** * An array of shards to be connected or that need to reconnect * @type {Set} * @private * @name WebSocketManager#shardQueue */ Object.defineProperty(this, 'shardQueue', { value: new Set(), writable: true }); /** * An array of queued events before this WebSocketManager became ready * @type {Object[]} * @private * @name WebSocketManager#packetQueue */ Object.defineProperty(this, 'packetQueue', { value: [] }); /** * The current status of this WebSocketManager * @type {Status} */ this.status = Status.Idle; /** * If this manager was destroyed. It will prevent shards from reconnecting * @type {boolean} * @private */ this.destroyed = false; /** * If this manager is currently reconnecting one or multiple shards * @type {boolean} * @private */ this.reconnecting = false; } /** * The average ping of all WebSocketShards * @type {number} * @readonly */ get ping() { const sum = this.shards.reduce((a, b) => a + b.ping, 0); return sum / this.shards.size; } /** * Emits a debug message. * @param {string} message The debug message * @param {?WebSocketShard} [shard] The shard that emitted this message, if any * @private */ debug(message, shard) { this.client.emit(Events.Debug, `[WS => ${shard ? `Shard ${shard.id}` : 'Manager'}] ${message}`); } /** * Connects this manager to the gateway. * @private */ async connect() { const invalidToken = new Error(GatewayCloseCodes[GatewayCloseCodes.AuthenticationFailed]); const { url: gatewayURL, shards: recommendedShards, session_start_limit: sessionStartLimit, } = await this.client.api.gateway.bot.get().catch(error => { throw error.httpStatus === 401 ? invalidToken : error; }); const { total, remaining } = sessionStartLimit; this.debug(`Fetched Gateway Information URL: ${gatewayURL} Recommended Shards: ${recommendedShards}`); this.debug(`Session Limit Information Total: ${total} Remaining: ${remaining}`); this.gateway = `${gatewayURL}/`; let { shards } = this.client.options; if (shards === 'auto') { this.debug(`Using the recommended shard count provided by Discord: ${recommendedShards}`); this.totalShards = this.client.options.shardCount = recommendedShards; shards = this.client.options.shards = Array.from({ length: recommendedShards }, (_, i) => i); } this.totalShards = shards.length; this.debug(`Spawning shards: ${shards.join(', ')}`); this.shardQueue = new Set(shards.map(id => new WebSocketShard(this, id))); return this.createShards(); } /** * Handles the creation of a shard. * @returns {Promise} * @private */ async createShards() { // If we don't have any shards to handle, return if (!this.shardQueue.size) return false; const [shard] = this.shardQueue; this.shardQueue.delete(shard); if (!shard.eventsAttached) { shard.on(ShardEvents.AllReady, unavailableGuilds => { /** * Emitted when a shard turns ready. * @event Client#shardReady * @param {number} id The shard id that turned ready * @param {?Set} unavailableGuilds Set of unavailable guild ids, if any */ this.client.emit(Events.ShardReady, shard.id, unavailableGuilds); if (!this.shardQueue.size) this.reconnecting = false; this.checkShardsReady(); }); shard.on(ShardEvents.Close, event => { if (event.code === 1_000 ? this.destroyed : UNRECOVERABLE_CLOSE_CODES.includes(event.code)) { /** * Emitted when a shard's WebSocket disconnects and will no longer reconnect. * @event Client#shardDisconnect * @param {CloseEvent} event The WebSocket close event * @param {number} id The shard id that disconnected */ this.client.emit(Events.ShardDisconnect, event, shard.id); this.debug(GatewayCloseCodes[event.code], shard); return; } if (UNRESUMABLE_CLOSE_CODES.includes(event.code)) { // These event codes cannot be resumed shard.sessionId = null; } /** * Emitted when a shard is attempting to reconnect or re-identify. * @event Client#shardReconnecting * @param {number} id The shard id that is attempting to reconnect */ this.client.emit(Events.ShardReconnecting, shard.id); this.shardQueue.add(shard); if (shard.sessionId) { this.debug(`Session id is present, attempting an immediate reconnect...`, shard); this.reconnect(); } else { shard.destroy({ reset: true, emit: false, log: false }); this.reconnect(); } }); shard.on(ShardEvents.InvalidSession, () => { this.client.emit(Events.ShardReconnecting, shard.id); }); shard.on(ShardEvents.Destroyed, () => { this.debug('Shard was destroyed but no WebSocket connection was present! Reconnecting...', shard); this.client.emit(Events.ShardReconnecting, shard.id); this.shardQueue.add(shard); this.reconnect(); }); shard.eventsAttached = true; } this.shards.set(shard.id, shard); try { await shard.connect(); } catch (error) { if (error?.code && UNRECOVERABLE_CLOSE_CODES.includes(error.code)) { throw new Error(GatewayCloseCodes[error.code]); // Undefined if session is invalid, error event for regular closes } else if (!error || error.code) { this.debug('Failed to connect to the gateway, requeueing...', shard); this.shardQueue.add(shard); } else { throw error; } } // If we have more shards, add a 5s delay if (this.shardQueue.size) { this.debug(`Shard Queue Size: ${this.shardQueue.size}; continuing in 5 seconds...`); await sleep(5_000); return this.createShards(); } return true; } /** * Handles reconnects for this manager. * @private * @returns {Promise} */ async reconnect() { if (this.reconnecting || this.status !== Status.Ready) return false; this.reconnecting = true; try { await this.createShards(); } catch (error) { this.debug(`Couldn't reconnect or fetch information about the gateway. ${error}`); if (error.httpStatus !== 401) { this.debug(`Possible network error occurred. Retrying in 5s...`); await sleep(5_000); this.reconnecting = false; return this.reconnect(); } // If we get an error at this point, it means we cannot reconnect anymore if (this.client.listenerCount(Events.Invalidated)) { /** * Emitted when the client's session becomes invalidated. * You are expected to handle closing the process gracefully and preventing a boot loop * if you are listening to this event. * @event Client#invalidated */ this.client.emit(Events.Invalidated); // Destroy just the shards. This means you have to handle the cleanup yourself this.destroy(); } else { this.client.destroy(); } } finally { this.reconnecting = false; } return true; } /** * Broadcasts a packet to every shard this manager handles. * @param {Object} packet The packet to send * @private */ broadcast(packet) { for (const shard of this.shards.values()) shard.send(packet); } /** * Destroys this manager and all its shards. * @private */ destroy() { if (this.destroyed) return; this.debug(`Manager was destroyed. Called by:\n${new Error('MANAGER_DESTROYED').stack}`); this.destroyed = true; this.shardQueue.clear(); for (const shard of this.shards.values()) shard.destroy({ closeCode: 1_000, reset: true, emit: false, log: false }); } /** * Processes a packet and queues it if this WebSocketManager is not ready. * @param {Object} [packet] The packet to be handled * @param {WebSocketShard} [shard] The shard that will handle this packet * @returns {boolean} * @private */ handlePacket(packet, shard) { if (packet && this.status !== Status.Ready) { if (!BeforeReadyWhitelist.includes(packet.t)) { this.packetQueue.push({ packet, shard }); return false; } } if (this.packetQueue.length) { const item = this.packetQueue.shift(); setImmediate(() => { this.handlePacket(item.packet, item.shard); }).unref(); } if (packet && PacketHandlers[packet.t]) { PacketHandlers[packet.t](this.client, packet, shard); } return true; } /** * Checks whether the client is ready to be marked as ready. * @private */ checkShardsReady() { if (this.status === Status.Ready) return; if (this.shards.size !== this.totalShards || this.shards.some(s => s.status !== Status.Ready)) { return; } this.triggerClientReady(); } /** * Causes the client to be marked as ready and emits the ready event. * @private */ triggerClientReady() { this.status = Status.Ready; this.client.readyTimestamp = Date.now(); /** * Emitted when the client becomes ready to start working. * @event Client#ready * @param {Client} client The client */ this.client.emit(Events.ClientReady, this.client); this.handlePacket(); } } module.exports = WebSocketManager;