Agent-n8n/n8n-n8n-1.109.2/packages/@n8n/task-runner/src/task-runner 2.ts

import { isSerializedBuffer, toBuffer } from 'n8n-core';
import { ApplicationError, ensureError, randomInt } from 'n8n-workflow';
import { nanoid } from 'nanoid';
import { EventEmitter } from 'node:events';
import { type MessageEvent, WebSocket } from 'ws';

import type { BaseRunnerConfig } from '@/config/base-runner-config';
import { TimeoutError } from '@/js-task-runner/errors/timeout-error';
import type { BrokerMessage, RunnerMessage } from '@/message-types';
import { TaskRunnerNodeTypes } from '@/node-types';
import type { TaskResultData } from '@/runner-types';
import { TaskState } from '@/task-state';

import { TaskCancelledError } from './js-task-runner/errors/task-cancelled-error';

export interface TaskOffer {
	offerId: string;
	validUntil: bigint;
}

interface DataRequest {
	taskId: string;
	requestId: string;
	resolve: (data: unknown) => void;
	reject: (error: unknown) => void;
}

interface NodeTypesRequest {
	taskId: string;
	requestId: string;
	resolve: (data: unknown) => void;
	reject: (error: unknown) => void;
}

interface RPCCall {
	callId: string;
	resolve: (data: unknown) => void;
	reject: (error: unknown) => void;
}

const OFFER_VALID_TIME_MS = 5000;
const OFFER_VALID_EXTRA_MS = 100;

/** Converts milliseconds to nanoseconds */
const msToNs = (ms: number) => BigInt(ms * 1_000_000);

export const noOp = () => {};

/** Params the task receives when it is executed */
export interface TaskParams<T = unknown> {
	taskId: string;
	settings: T;
}

export interface TaskRunnerOpts extends BaseRunnerConfig {
	taskType: string;
	name?: string;
}

export abstract class TaskRunner extends EventEmitter {
	id: string = nanoid();

	ws: WebSocket;

	canSendOffers = false;

	runningTasks: Map<TaskState['taskId'], TaskState> = new Map();

	offerInterval: NodeJS.Timeout | undefined;

	openOffers: Map<TaskOffer['offerId'], TaskOffer> = new Map();

	dataRequests: Map<DataRequest['requestId'], DataRequest> = new Map();

	nodeTypesRequests: Map<NodeTypesRequest['requestId'], NodeTypesRequest> = new Map();

	rpcCalls: Map<RPCCall['callId'], RPCCall> = new Map();

	nodeTypes: TaskRunnerNodeTypes = new TaskRunnerNodeTypes([]);

	taskType: string;

	maxConcurrency: number;

	name: string;

	private idleTimer: NodeJS.Timeout | undefined;

	/** How long (in seconds) a task is allowed to take for completion, else the task will be aborted. */
	protected readonly taskTimeout: number;

	/** How long (in seconds) a runner may be idle for before exit. */
	private readonly idleTimeout: number;

	constructor(opts: TaskRunnerOpts) {
		super();

		this.taskType = opts.taskType;
		this.name = opts.name ?? 'Node.js Task Runner SDK';
		this.maxConcurrency = opts.maxConcurrency;
		this.taskTimeout = opts.taskTimeout;
		this.idleTimeout = opts.idleTimeout;

		const { host: taskBrokerHost } = new URL(opts.taskBrokerUri);

		const wsUrl = `ws://${taskBrokerHost}/runners/_ws?id=${this.id}`;
		this.ws = new WebSocket(wsUrl, {
			headers: {
				authorization: `Bearer ${opts.grantToken}`,
			},
			maxPayload: opts.maxPayloadSize,
		});

		this.ws.addEventListener('error', (event) => {
			const error = ensureError(event.error);

			if (
				'code' in error &&
				typeof error.code === 'string' &&
				['ECONNREFUSED', 'ENOTFOUND'].some((code) => code === error.code)
			) {
				console.error(
					`Error: Failed to connect to n8n task broker. Please ensure n8n task broker is reachable at: ${taskBrokerHost}`,
				);
				process.exit(1);
			} else {
				console.error(`Error: Failed to connect to n8n task broker at ${taskBrokerHost}`);
				console.error('Details:', event.message || 'Unknown error');
			}
		});
		this.ws.addEventListener('message', this.receiveMessage);
		this.ws.addEventListener('close', this.stopTaskOffers);
		this.resetIdleTimer();
	}

	private resetIdleTimer() {
		if (this.idleTimeout === 0) return;

		this.clearIdleTimer();

		this.idleTimer = setTimeout(() => {
			if (this.runningTasks.size === 0) this.emit('runner:reached-idle-timeout');
		}, this.idleTimeout * 1000);
	}

	private receiveMessage = (message: MessageEvent) => {
		// eslint-disable-next-line n8n-local-rules/no-uncaught-json-parse
		const data = JSON.parse(message.data as string) as BrokerMessage.ToRunner.All;
		void this.onMessage(data);
	};

	private stopTaskOffers = () => {
		this.canSendOffers = false;
		if (this.offerInterval) {
			clearInterval(this.offerInterval);
			this.offerInterval = undefined;
		}
	};

	private startTaskOffers() {
		this.canSendOffers = true;
		if (this.offerInterval) {
			clearInterval(this.offerInterval);
		}
		this.offerInterval = setInterval(() => this.sendOffers(), 250);
	}

	deleteStaleOffers() {
		this.openOffers.forEach((offer, key) => {
			if (offer.validUntil < process.hrtime.bigint()) {
				this.openOffers.delete(key);
			}
		});
	}

	sendOffers() {
		this.deleteStaleOffers();

		if (!this.canSendOffers) {
			return;
		}

		const offersToSend = this.maxConcurrency - (this.openOffers.size + this.runningTasks.size);

		for (let i = 0; i < offersToSend; i++) {
			// Add a bit of randomness so that not all offers expire at the same time
			const validForInMs = OFFER_VALID_TIME_MS + randomInt(500);
			// Add a little extra time to account for latency
			const validUntil = process.hrtime.bigint() + msToNs(validForInMs + OFFER_VALID_EXTRA_MS);
			const offer: TaskOffer = {
				offerId: nanoid(),
				validUntil,
			};
			this.openOffers.set(offer.offerId, offer);
			this.send({
				type: 'runner:taskoffer',
				taskType: this.taskType,
				offerId: offer.offerId,
				validFor: validForInMs,
			});
		}
	}

	send(message: RunnerMessage.ToBroker.All) {
		this.ws.send(JSON.stringify(message));
	}

	onMessage(message: BrokerMessage.ToRunner.All) {
		switch (message.type) {
			case 'broker:inforequest':
				this.send({
					type: 'runner:info',
					name: this.name,
					types: [this.taskType],
				});
				break;
			case 'broker:runnerregistered':
				this.startTaskOffers();
				break;
			case 'broker:taskofferaccept':
				this.offerAccepted(message.offerId, message.taskId);
				break;
			case 'broker:taskcancel':
				void this.taskCancelled(message.taskId, message.reason);
				break;
			case 'broker:tasksettings':
				void this.receivedSettings(message.taskId, message.settings);
				break;
			case 'broker:taskdataresponse':
				this.processDataResponse(message.requestId, message.data);
				break;
			case 'broker:rpcresponse':
				this.handleRpcResponse(message.callId, message.status, message.data);
				break;
			case 'broker:nodetypes':
				this.processNodeTypesResponse(message.requestId, message.nodeTypes);
				break;
		}
	}

	processDataResponse(requestId: string, data: unknown) {
		const request = this.dataRequests.get(requestId);
		if (!request) {
			return;
		}
		// Deleting of the request is handled in `requestData`, using a
		// `finally` wrapped around the return
		request.resolve(data);
	}

	processNodeTypesResponse(requestId: string, nodeTypes: unknown) {
		const request = this.nodeTypesRequests.get(requestId);

		if (!request) return;

		// Deleting of the request is handled in `requestNodeTypes`, using a
		// `finally` wrapped around the return
		request.resolve(nodeTypes);
	}

	/**
	 * Whether the task runner has capacity to accept more tasks.
	 */
	hasOpenTaskSlots() {
		return this.runningTasks.size < this.maxConcurrency;
	}

	offerAccepted(offerId: string, taskId: string) {
		if (!this.hasOpenTaskSlots()) {
			this.openOffers.delete(offerId);
			this.send({
				type: 'runner:taskrejected',
				taskId,
				reason: 'No open task slots - runner already at capacity',
			});
			return;
		}

		const offer = this.openOffers.get(offerId);
		if (!offer) {
			this.send({
				type: 'runner:taskrejected',
				taskId,
				reason: 'Offer expired - not accepted within validity window',
			});
			return;
		} else {
			this.openOffers.delete(offerId);
		}

		this.resetIdleTimer();
		const taskState = new TaskState({
			taskId,
			timeoutInS: this.taskTimeout,
			onTimeout: () => {
				void this.taskTimedOut(taskId);
			},
		});
		this.runningTasks.set(taskId, taskState);

		this.send({
			type: 'runner:taskaccepted',
			taskId,
		});
	}

	async taskCancelled(taskId: string, reason: string) {
		const taskState = this.runningTasks.get(taskId);
		if (!taskState) {
			return;
		}

		await taskState.caseOf({
			// If the cancelled task hasn't received settings yet, we can finish it
			waitingForSettings: () => this.finishTask(taskState),

			// If the task has already timed out or is already cancelled, we can
			// ignore the cancellation
			'aborting:timeout': noOp,
			'aborting:cancelled': noOp,

			running: () => {
				taskState.status = 'aborting:cancelled';
				taskState.abortController.abort('cancelled');
				this.cancelTaskRequests(taskId, reason);
			},
		});
	}

	async taskTimedOut(taskId: string) {
		const taskState = this.runningTasks.get(taskId);
		if (!taskState) {
			return;
		}

		await taskState.caseOf({
			// If we are still waiting for settings for the task, we can error the
			// task immediately
			waitingForSettings: () => {
				try {
					this.send({
						type: 'runner:taskerror',
						taskId,
						error: new TimeoutError(this.taskTimeout),
					});
				} finally {
					this.finishTask(taskState);
				}
			},

			// This should never happen, the timeout timer should only fire once
			'aborting:timeout': TaskState.throwUnexpectedTaskStatus,

			// If we are currently executing the task, abort the execution and
			// mark the task as timed out
			running: () => {
				taskState.status = 'aborting:timeout';
				taskState.abortController.abort('timeout');
				this.cancelTaskRequests(taskId, 'timeout');
			},

			// If the task is already cancelling, we can ignore the timeout
			'aborting:cancelled': noOp,
		});
	}

	async receivedSettings(taskId: string, settings: unknown) {
		const taskState = this.runningTasks.get(taskId);
		if (!taskState) {
			return;
		}

		await taskState.caseOf({
			// These states should never happen, as they are handled already in
			// the other lifecycle methods and the task should be removed from the
			// running tasks
			'aborting:cancelled': TaskState.throwUnexpectedTaskStatus,
			'aborting:timeout': TaskState.throwUnexpectedTaskStatus,
			running: TaskState.throwUnexpectedTaskStatus,

			waitingForSettings: async () => {
				taskState.status = 'running';

				await this.executeTask(
					{
						taskId,
						settings,
					},
					taskState.abortController.signal,
				)
					.then(async (data) => await this.taskExecutionSucceeded(taskState, data))
					.catch(async (error) => await this.taskExecutionFailed(taskState, error));
			},
		});
	}

	async executeTask(_taskParams: TaskParams, _signal: AbortSignal): Promise<TaskResultData> {
		throw new ApplicationError('Unimplemented');
	}

	async requestNodeTypes<T = unknown>(
		taskId: TaskState['taskId'],
		requestParams: RunnerMessage.ToBroker.NodeTypesRequest['requestParams'],
	) {
		const requestId = nanoid();

		const nodeTypesPromise = new Promise<T>((resolve, reject) => {
			this.nodeTypesRequests.set(requestId, {
				requestId,
				taskId,
				resolve: resolve as (data: unknown) => void,
				reject,
			});
		});

		this.send({
			type: 'runner:nodetypesrequest',
			taskId,
			requestId,
			requestParams,
		});

		try {
			return await nodeTypesPromise;
		} finally {
			this.nodeTypesRequests.delete(requestId);
		}
	}

	async requestData<T = unknown>(
		taskId: TaskState['taskId'],
		requestParams: RunnerMessage.ToBroker.TaskDataRequest['requestParams'],
	): Promise<T> {
		const requestId = nanoid();

		const dataRequestPromise = new Promise<T>((resolve, reject) => {
			this.dataRequests.set(requestId, {
				requestId,
				taskId,
				resolve: resolve as (data: unknown) => void,
				reject,
			});
		});

		this.send({
			type: 'runner:taskdatarequest',
			taskId,
			requestId,
			requestParams,
		});

		try {
			return await dataRequestPromise;
		} finally {
			this.dataRequests.delete(requestId);
		}
	}

	async makeRpcCall(taskId: string, name: RunnerMessage.ToBroker.RPC['name'], params: unknown[]) {
		const callId = nanoid();

		const dataPromise = new Promise((resolve, reject) => {
			this.rpcCalls.set(callId, {
				callId,
				resolve,
				reject,
			});
		});

		try {
			this.send({
				type: 'runner:rpc',
				callId,
				taskId,
				name,
				params,
			});

			const returnValue = await dataPromise;

			return isSerializedBuffer(returnValue) ? toBuffer(returnValue) : returnValue;
		} finally {
			this.rpcCalls.delete(callId);
		}
	}

	handleRpcResponse(
		callId: string,
		status: BrokerMessage.ToRunner.RPCResponse['status'],
		data: unknown,
	) {
		const call = this.rpcCalls.get(callId);
		if (!call) {
			return;
		}
		if (status === 'success') {
			call.resolve(data);
		} else {
			call.reject(typeof data === 'string' ? new Error(data) : data);
		}
	}

	/** Close the connection gracefully and wait until has been closed */
	async stop() {
		this.clearIdleTimer();

		this.stopTaskOffers();

		await this.waitUntilAllTasksAreDone();

		await this.closeConnection();
	}

	clearIdleTimer() {
		if (this.idleTimer) clearTimeout(this.idleTimer);
		this.idleTimer = undefined;
	}

	private async closeConnection() {
		// 1000 is the standard close code
		// https://www.rfc-editor.org/rfc/rfc6455.html#section-7.1.5
		this.ws.close(1000, 'Shutting down');

		await new Promise((resolve) => {
			this.ws.once('close', resolve);
		});
	}

	private async waitUntilAllTasksAreDone(maxWaitTimeInMs = 30_000) {
		// TODO: Make maxWaitTimeInMs configurable
		const start = Date.now();

		while (this.runningTasks.size > 0) {
			if (Date.now() - start > maxWaitTimeInMs) {
				throw new ApplicationError('Timeout while waiting for tasks to finish');
			}

			await new Promise((resolve) => setTimeout(resolve, 100));
		}
	}

	private async taskExecutionSucceeded(taskState: TaskState, data: TaskResultData) {
		try {
			const sendData = () => {
				this.send({
					type: 'runner:taskdone',
					taskId: taskState.taskId,
					data,
				});
			};

			await taskState.caseOf({
				waitingForSettings: TaskState.throwUnexpectedTaskStatus,

				'aborting:cancelled': noOp,

				// If the task timed out but we ended up reaching this point, we
				// might as well send the data
				'aborting:timeout': sendData,
				running: sendData,
			});
		} finally {
			this.finishTask(taskState);
		}
	}

	private async taskExecutionFailed(taskState: TaskState, error: unknown) {
		try {
			const sendError = () => {
				this.send({
					type: 'runner:taskerror',
					taskId: taskState.taskId,
					error,
				});
			};

			await taskState.caseOf({
				waitingForSettings: TaskState.throwUnexpectedTaskStatus,

				'aborting:cancelled': noOp,

				'aborting:timeout': () => {
					console.warn(`Task ${taskState.taskId} timed out`);

					sendError();
				},

				running: sendError,
			});
		} finally {
			this.finishTask(taskState);
		}
	}

	/**
	 * Cancels all node type and data requests made by the given task
	 */
	private cancelTaskRequests(taskId: string, reason: string) {
		for (const [requestId, request] of this.dataRequests.entries()) {
			if (request.taskId === taskId) {
				request.reject(new TaskCancelledError(reason));
				this.dataRequests.delete(requestId);
			}
		}

		for (const [requestId, request] of this.nodeTypesRequests.entries()) {
			if (request.taskId === taskId) {
				request.reject(new TaskCancelledError(reason));
				this.nodeTypesRequests.delete(requestId);
			}
		}
	}

	/**
	 * Finishes task by removing it from the running tasks and sending new offers
	 */
	private finishTask(taskState: TaskState) {
		taskState.cleanup();
		this.runningTasks.delete(taskState.taskId);
		this.sendOffers();
		this.resetIdleTimer();
	}
}
fix: 修复TypeScript配置错误并更新项目文档详细说明: - 修复了@n8n/config包的TypeScript配置错误 - 移除了不存在的jest-expect-message类型引用 - 清理了所有TypeScript构建缓存 - 更新了可行性分析文档，添加了技术实施方案 - 更新了Agent prompt文档 - 添加了会展策划工作流文档 - 包含了n8n-chinese-translation子项目 - 添加了exhibition-demo展示系统框架 2025-09-08 10:49:45 +08:00			`import { isSerializedBuffer, toBuffer } from 'n8n-core';`
			`import { ApplicationError, ensureError, randomInt } from 'n8n-workflow';`
			`import { nanoid } from 'nanoid';`
			`import { EventEmitter } from 'node:events';`
			`import { type MessageEvent, WebSocket } from 'ws';`

			`import type { BaseRunnerConfig } from '@/config/base-runner-config';`
			`import { TimeoutError } from '@/js-task-runner/errors/timeout-error';`
			`import type { BrokerMessage, RunnerMessage } from '@/message-types';`
			`import { TaskRunnerNodeTypes } from '@/node-types';`
			`import type { TaskResultData } from '@/runner-types';`
			`import { TaskState } from '@/task-state';`

			`import { TaskCancelledError } from './js-task-runner/errors/task-cancelled-error';`

			`export interface TaskOffer {`
			`offerId: string;`
			`validUntil: bigint;`
			`}`

			`interface DataRequest {`
			`taskId: string;`
			`requestId: string;`
			`resolve: (data: unknown) => void;`
			`reject: (error: unknown) => void;`
			`}`

			`interface NodeTypesRequest {`
			`taskId: string;`
			`requestId: string;`
			`resolve: (data: unknown) => void;`
			`reject: (error: unknown) => void;`
			`}`

			`interface RPCCall {`
			`callId: string;`
			`resolve: (data: unknown) => void;`
			`reject: (error: unknown) => void;`
			`}`

			`const OFFER_VALID_TIME_MS = 5000;`
			`const OFFER_VALID_EXTRA_MS = 100;`

			`/** Converts milliseconds to nanoseconds */`
			`const msToNs = (ms: number) => BigInt(ms * 1_000_000);`

			`export const noOp = () => {};`

			`/** Params the task receives when it is executed */`
			`export interface TaskParams<T = unknown> {`
			`taskId: string;`
			`settings: T;`
			`}`

			`export interface TaskRunnerOpts extends BaseRunnerConfig {`
			`taskType: string;`
			`name?: string;`
			`}`

			`export abstract class TaskRunner extends EventEmitter {`
			`id: string = nanoid();`

			`ws: WebSocket;`

			`canSendOffers = false;`

			`runningTasks: Map<TaskState['taskId'], TaskState> = new Map();`

			`offerInterval: NodeJS.Timeout \| undefined;`

			`openOffers: Map<TaskOffer['offerId'], TaskOffer> = new Map();`

			`dataRequests: Map<DataRequest['requestId'], DataRequest> = new Map();`

			`nodeTypesRequests: Map<NodeTypesRequest['requestId'], NodeTypesRequest> = new Map();`

			`rpcCalls: Map<RPCCall['callId'], RPCCall> = new Map();`

			`nodeTypes: TaskRunnerNodeTypes = new TaskRunnerNodeTypes([]);`

			`taskType: string;`

			`maxConcurrency: number;`

			`name: string;`

			`private idleTimer: NodeJS.Timeout \| undefined;`

			`/** How long (in seconds) a task is allowed to take for completion, else the task will be aborted. */`
			`protected readonly taskTimeout: number;`

			`/** How long (in seconds) a runner may be idle for before exit. */`
			`private readonly idleTimeout: number;`

			`constructor(opts: TaskRunnerOpts) {`
			`super();`

			`this.taskType = opts.taskType;`
			`this.name = opts.name ?? 'Node.js Task Runner SDK';`
			`this.maxConcurrency = opts.maxConcurrency;`
			`this.taskTimeout = opts.taskTimeout;`
			`this.idleTimeout = opts.idleTimeout;`

			`const { host: taskBrokerHost } = new URL(opts.taskBrokerUri);`

			const wsUrl = `ws://${taskBrokerHost}/runners/_ws?id=${this.id}`;
			`this.ws = new WebSocket(wsUrl, {`
			`headers: {`
			authorization: `Bearer ${opts.grantToken}`,
			`},`
			`maxPayload: opts.maxPayloadSize,`
			`});`

			`this.ws.addEventListener('error', (event) => {`
			`const error = ensureError(event.error);`

			`if (`
			`'code' in error &&`
			`typeof error.code === 'string' &&`
			`['ECONNREFUSED', 'ENOTFOUND'].some((code) => code === error.code)`
			`) {`
			`console.error(`
			`Error: Failed to connect to n8n task broker. Please ensure n8n task broker is reachable at: ${taskBrokerHost}`,
			`);`
			`process.exit(1);`
			`} else {`
			console.error(`Error: Failed to connect to n8n task broker at ${taskBrokerHost}`);
			`console.error('Details:', event.message \|\| 'Unknown error');`
			`}`
			`});`
			`this.ws.addEventListener('message', this.receiveMessage);`
			`this.ws.addEventListener('close', this.stopTaskOffers);`
			`this.resetIdleTimer();`
			`}`

			`private resetIdleTimer() {`
			`if (this.idleTimeout === 0) return;`

			`this.clearIdleTimer();`

			`this.idleTimer = setTimeout(() => {`
			`if (this.runningTasks.size === 0) this.emit('runner:reached-idle-timeout');`
			`}, this.idleTimeout * 1000);`
			`}`

			`private receiveMessage = (message: MessageEvent) => {`
			`// eslint-disable-next-line n8n-local-rules/no-uncaught-json-parse`
			`const data = JSON.parse(message.data as string) as BrokerMessage.ToRunner.All;`
			`void this.onMessage(data);`
			`};`

			`private stopTaskOffers = () => {`
			`this.canSendOffers = false;`
			`if (this.offerInterval) {`
			`clearInterval(this.offerInterval);`
			`this.offerInterval = undefined;`
			`}`
			`};`

			`private startTaskOffers() {`
			`this.canSendOffers = true;`
			`if (this.offerInterval) {`
			`clearInterval(this.offerInterval);`
			`}`
			`this.offerInterval = setInterval(() => this.sendOffers(), 250);`
			`}`

			`deleteStaleOffers() {`
			`this.openOffers.forEach((offer, key) => {`
			`if (offer.validUntil < process.hrtime.bigint()) {`
			`this.openOffers.delete(key);`
			`}`
			`});`
			`}`

			`sendOffers() {`
			`this.deleteStaleOffers();`

			`if (!this.canSendOffers) {`
			`return;`
			`}`

			`const offersToSend = this.maxConcurrency - (this.openOffers.size + this.runningTasks.size);`

			`for (let i = 0; i < offersToSend; i++) {`
			`// Add a bit of randomness so that not all offers expire at the same time`
			`const validForInMs = OFFER_VALID_TIME_MS + randomInt(500);`
			`// Add a little extra time to account for latency`
			`const validUntil = process.hrtime.bigint() + msToNs(validForInMs + OFFER_VALID_EXTRA_MS);`
			`const offer: TaskOffer = {`
			`offerId: nanoid(),`
			`validUntil,`
			`};`
			`this.openOffers.set(offer.offerId, offer);`
			`this.send({`
			`type: 'runner:taskoffer',`
			`taskType: this.taskType,`
			`offerId: offer.offerId,`
			`validFor: validForInMs,`
			`});`
			`}`
			`}`

			`send(message: RunnerMessage.ToBroker.All) {`
			`this.ws.send(JSON.stringify(message));`
			`}`

			`onMessage(message: BrokerMessage.ToRunner.All) {`
			`switch (message.type) {`
			`case 'broker:inforequest':`
			`this.send({`
			`type: 'runner:info',`
			`name: this.name,`
			`types: [this.taskType],`
			`});`
			`break;`
			`case 'broker:runnerregistered':`
			`this.startTaskOffers();`
			`break;`
			`case 'broker:taskofferaccept':`
			`this.offerAccepted(message.offerId, message.taskId);`
			`break;`
			`case 'broker:taskcancel':`
			`void this.taskCancelled(message.taskId, message.reason);`
			`break;`
			`case 'broker:tasksettings':`
			`void this.receivedSettings(message.taskId, message.settings);`
			`break;`
			`case 'broker:taskdataresponse':`
			`this.processDataResponse(message.requestId, message.data);`
			`break;`
			`case 'broker:rpcresponse':`
			`this.handleRpcResponse(message.callId, message.status, message.data);`
			`break;`
			`case 'broker:nodetypes':`
			`this.processNodeTypesResponse(message.requestId, message.nodeTypes);`
			`break;`
			`}`
			`}`

			`processDataResponse(requestId: string, data: unknown) {`
			`const request = this.dataRequests.get(requestId);`
			`if (!request) {`
			`return;`
			`}`
			// Deleting of the request is handled in `requestData`, using a
			// `finally` wrapped around the return
			`request.resolve(data);`
			`}`

			`processNodeTypesResponse(requestId: string, nodeTypes: unknown) {`
			`const request = this.nodeTypesRequests.get(requestId);`

			`if (!request) return;`

			// Deleting of the request is handled in `requestNodeTypes`, using a
			// `finally` wrapped around the return
			`request.resolve(nodeTypes);`
			`}`

			`/**`
			`* Whether the task runner has capacity to accept more tasks.`
			`*/`
			`hasOpenTaskSlots() {`
			`return this.runningTasks.size < this.maxConcurrency;`
			`}`

			`offerAccepted(offerId: string, taskId: string) {`
			`if (!this.hasOpenTaskSlots()) {`
			`this.openOffers.delete(offerId);`
			`this.send({`
			`type: 'runner:taskrejected',`
			`taskId,`
			`reason: 'No open task slots - runner already at capacity',`
			`});`
			`return;`
			`}`

			`const offer = this.openOffers.get(offerId);`
			`if (!offer) {`
			`this.send({`
			`type: 'runner:taskrejected',`
			`taskId,`
			`reason: 'Offer expired - not accepted within validity window',`
			`});`
			`return;`
			`} else {`
			`this.openOffers.delete(offerId);`
			`}`

			`this.resetIdleTimer();`
			`const taskState = new TaskState({`
			`taskId,`
			`timeoutInS: this.taskTimeout,`
			`onTimeout: () => {`
			`void this.taskTimedOut(taskId);`
			`},`
			`});`
			`this.runningTasks.set(taskId, taskState);`

			`this.send({`
			`type: 'runner:taskaccepted',`
			`taskId,`
			`});`
			`}`

			`async taskCancelled(taskId: string, reason: string) {`
			`const taskState = this.runningTasks.get(taskId);`
			`if (!taskState) {`
			`return;`
			`}`

			`await taskState.caseOf({`
			`// If the cancelled task hasn't received settings yet, we can finish it`
			`waitingForSettings: () => this.finishTask(taskState),`

			`// If the task has already timed out or is already cancelled, we can`
			`// ignore the cancellation`
			`'aborting:timeout': noOp,`
			`'aborting:cancelled': noOp,`

			`running: () => {`
			`taskState.status = 'aborting:cancelled';`
			`taskState.abortController.abort('cancelled');`
			`this.cancelTaskRequests(taskId, reason);`
			`},`
			`});`
			`}`

			`async taskTimedOut(taskId: string) {`
			`const taskState = this.runningTasks.get(taskId);`
			`if (!taskState) {`
			`return;`
			`}`

			`await taskState.caseOf({`
			`// If we are still waiting for settings for the task, we can error the`
			`// task immediately`
			`waitingForSettings: () => {`
			`try {`
			`this.send({`
			`type: 'runner:taskerror',`
			`taskId,`
			`error: new TimeoutError(this.taskTimeout),`
			`});`
			`} finally {`
			`this.finishTask(taskState);`
			`}`
			`},`

			`// This should never happen, the timeout timer should only fire once`
			`'aborting:timeout': TaskState.throwUnexpectedTaskStatus,`

			`// If we are currently executing the task, abort the execution and`
			`// mark the task as timed out`
			`running: () => {`
			`taskState.status = 'aborting:timeout';`
			`taskState.abortController.abort('timeout');`
			`this.cancelTaskRequests(taskId, 'timeout');`
			`},`

			`// If the task is already cancelling, we can ignore the timeout`
			`'aborting:cancelled': noOp,`
			`});`
			`}`

			`async receivedSettings(taskId: string, settings: unknown) {`
			`const taskState = this.runningTasks.get(taskId);`
			`if (!taskState) {`
			`return;`
			`}`

			`await taskState.caseOf({`
			`// These states should never happen, as they are handled already in`
			`// the other lifecycle methods and the task should be removed from the`
			`// running tasks`
			`'aborting:cancelled': TaskState.throwUnexpectedTaskStatus,`
			`'aborting:timeout': TaskState.throwUnexpectedTaskStatus,`
			`running: TaskState.throwUnexpectedTaskStatus,`

			`waitingForSettings: async () => {`
			`taskState.status = 'running';`

			`await this.executeTask(`
			`{`
			`taskId,`
			`settings,`
			`},`
			`taskState.abortController.signal,`
			`)`
			`.then(async (data) => await this.taskExecutionSucceeded(taskState, data))`
			`.catch(async (error) => await this.taskExecutionFailed(taskState, error));`
			`},`
			`});`
			`}`

			`async executeTask(_taskParams: TaskParams, _signal: AbortSignal): Promise<TaskResultData> {`
			`throw new ApplicationError('Unimplemented');`
			`}`

			`async requestNodeTypes<T = unknown>(`
			`taskId: TaskState['taskId'],`
			`requestParams: RunnerMessage.ToBroker.NodeTypesRequest['requestParams'],`
			`) {`
			`const requestId = nanoid();`

			`const nodeTypesPromise = new Promise<T>((resolve, reject) => {`
			`this.nodeTypesRequests.set(requestId, {`
			`requestId,`
			`taskId,`
			`resolve: resolve as (data: unknown) => void,`
			`reject,`
			`});`
			`});`

			`this.send({`
			`type: 'runner:nodetypesrequest',`
			`taskId,`
			`requestId,`
			`requestParams,`
			`});`

			`try {`
			`return await nodeTypesPromise;`
			`} finally {`
			`this.nodeTypesRequests.delete(requestId);`
			`}`
			`}`

			`async requestData<T = unknown>(`
			`taskId: TaskState['taskId'],`
			`requestParams: RunnerMessage.ToBroker.TaskDataRequest['requestParams'],`
			`): Promise<T> {`
			`const requestId = nanoid();`

			`const dataRequestPromise = new Promise<T>((resolve, reject) => {`
			`this.dataRequests.set(requestId, {`
			`requestId,`
			`taskId,`
			`resolve: resolve as (data: unknown) => void,`
			`reject,`
			`});`
			`});`

			`this.send({`
			`type: 'runner:taskdatarequest',`
			`taskId,`
			`requestId,`
			`requestParams,`
			`});`

			`try {`
			`return await dataRequestPromise;`
			`} finally {`
			`this.dataRequests.delete(requestId);`
			`}`
			`}`

			`async makeRpcCall(taskId: string, name: RunnerMessage.ToBroker.RPC['name'], params: unknown[]) {`
			`const callId = nanoid();`

			`const dataPromise = new Promise((resolve, reject) => {`
			`this.rpcCalls.set(callId, {`
			`callId,`
			`resolve,`
			`reject,`
			`});`
			`});`

			`try {`
			`this.send({`
			`type: 'runner:rpc',`
			`callId,`
			`taskId,`
			`name,`
			`params,`
			`});`

			`const returnValue = await dataPromise;`

			`return isSerializedBuffer(returnValue) ? toBuffer(returnValue) : returnValue;`
			`} finally {`
			`this.rpcCalls.delete(callId);`
			`}`
			`}`

			`handleRpcResponse(`
			`callId: string,`
			`status: BrokerMessage.ToRunner.RPCResponse['status'],`
			`data: unknown,`
			`) {`
			`const call = this.rpcCalls.get(callId);`
			`if (!call) {`
			`return;`
			`}`
			`if (status === 'success') {`
			`call.resolve(data);`
			`} else {`
			`call.reject(typeof data === 'string' ? new Error(data) : data);`
			`}`
			`}`

			`/** Close the connection gracefully and wait until has been closed */`
			`async stop() {`
			`this.clearIdleTimer();`

			`this.stopTaskOffers();`

			`await this.waitUntilAllTasksAreDone();`

			`await this.closeConnection();`
			`}`

			`clearIdleTimer() {`
			`if (this.idleTimer) clearTimeout(this.idleTimer);`
			`this.idleTimer = undefined;`
			`}`

			`private async closeConnection() {`
			`// 1000 is the standard close code`
			`// https://www.rfc-editor.org/rfc/rfc6455.html#section-7.1.5`
			`this.ws.close(1000, 'Shutting down');`

			`await new Promise((resolve) => {`
			`this.ws.once('close', resolve);`
			`});`
			`}`

			`private async waitUntilAllTasksAreDone(maxWaitTimeInMs = 30_000) {`
			`// TODO: Make maxWaitTimeInMs configurable`
			`const start = Date.now();`

			`while (this.runningTasks.size > 0) {`
			`if (Date.now() - start > maxWaitTimeInMs) {`
			`throw new ApplicationError('Timeout while waiting for tasks to finish');`
			`}`

			`await new Promise((resolve) => setTimeout(resolve, 100));`
			`}`
			`}`

			`private async taskExecutionSucceeded(taskState: TaskState, data: TaskResultData) {`
			`try {`
			`const sendData = () => {`
			`this.send({`
			`type: 'runner:taskdone',`
			`taskId: taskState.taskId,`
			`data,`
			`});`
			`};`

			`await taskState.caseOf({`
			`waitingForSettings: TaskState.throwUnexpectedTaskStatus,`

			`'aborting:cancelled': noOp,`

			`// If the task timed out but we ended up reaching this point, we`
			`// might as well send the data`
			`'aborting:timeout': sendData,`
			`running: sendData,`
			`});`
			`} finally {`
			`this.finishTask(taskState);`
			`}`
			`}`

			`private async taskExecutionFailed(taskState: TaskState, error: unknown) {`
			`try {`
			`const sendError = () => {`
			`this.send({`
			`type: 'runner:taskerror',`
			`taskId: taskState.taskId,`
			`error,`
			`});`
			`};`

			`await taskState.caseOf({`
			`waitingForSettings: TaskState.throwUnexpectedTaskStatus,`

			`'aborting:cancelled': noOp,`

			`'aborting:timeout': () => {`
			console.warn(`Task ${taskState.taskId} timed out`);

			`sendError();`
			`},`

			`running: sendError,`
			`});`
			`} finally {`
			`this.finishTask(taskState);`
			`}`
			`}`

			`/**`
			`* Cancels all node type and data requests made by the given task`
			`*/`
			`private cancelTaskRequests(taskId: string, reason: string) {`
			`for (const [requestId, request] of this.dataRequests.entries()) {`
			`if (request.taskId === taskId) {`
			`request.reject(new TaskCancelledError(reason));`
			`this.dataRequests.delete(requestId);`
			`}`
			`}`

			`for (const [requestId, request] of this.nodeTypesRequests.entries()) {`
			`if (request.taskId === taskId) {`
			`request.reject(new TaskCancelledError(reason));`
			`this.nodeTypesRequests.delete(requestId);`
			`}`
			`}`
			`}`

			`/**`
			`* Finishes task by removing it from the running tasks and sending new offers`
			`*/`
			`private finishTask(taskState: TaskState) {`
			`taskState.cleanup();`
			`this.runningTasks.delete(taskState.taskId);`
			`this.sendOffers();`
			`this.resetIdleTimer();`
			`}`
			`}`