n8n/packages/nodes-base/nodes/RabbitMQ/GenericFunctions.ts
Tomi Turtiainen 9a1cc56806
fix: Set '@typescript-eslint/return-await' rule to 'always' for node code (no-changelog) (#8363)
Co-authored-by: कारतोफ्फेलस्क्रिप्ट™ <aditya@netroy.in>
2024-01-17 17:08:50 +02:00

165 lines
4.5 KiB
TypeScript

import type { IDataObject, IExecuteFunctions, ITriggerFunctions } from 'n8n-workflow';
import { sleep } from 'n8n-workflow';
import * as amqplib from 'amqplib';
import { formatPrivateKey } from '@utils/utilities';
export async function rabbitmqConnect(
this: IExecuteFunctions | ITriggerFunctions,
options: IDataObject,
): Promise<amqplib.Channel> {
const credentials = await this.getCredentials('rabbitmq');
const credentialKeys = ['hostname', 'port', 'username', 'password', 'vhost'];
const credentialData: IDataObject = {};
credentialKeys.forEach((key) => {
credentialData[key] = credentials[key] === '' ? undefined : credentials[key];
});
const optsData: IDataObject = {};
if (credentials.ssl === true) {
credentialData.protocol = 'amqps';
optsData.ca =
credentials.ca === '' ? undefined : [Buffer.from(formatPrivateKey(credentials.ca as string))];
if (credentials.passwordless === true) {
optsData.cert =
credentials.cert === ''
? undefined
: Buffer.from(formatPrivateKey(credentials.cert as string));
optsData.key =
credentials.key === ''
? undefined
: Buffer.from(formatPrivateKey(credentials.key as string));
optsData.passphrase = credentials.passphrase === '' ? undefined : credentials.passphrase;
optsData.credentials = amqplib.credentials.external();
}
}
return await new Promise(async (resolve, reject) => {
try {
const connection = await amqplib.connect(credentialData, optsData);
connection.on('error', (error: Error) => {
reject(error);
});
const channel = (await connection.createChannel().catch(console.warn)) as amqplib.Channel;
if (
options.arguments &&
((options.arguments as IDataObject).argument! as IDataObject[]).length
) {
const additionalArguments: IDataObject = {};
((options.arguments as IDataObject).argument as IDataObject[]).forEach(
(argument: IDataObject) => {
additionalArguments[argument.key as string] = argument.value;
},
);
options.arguments = additionalArguments;
}
resolve(channel);
} catch (error) {
reject(error);
}
});
}
export async function rabbitmqConnectQueue(
this: IExecuteFunctions | ITriggerFunctions,
queue: string,
options: IDataObject,
): Promise<amqplib.Channel> {
const channel = await rabbitmqConnect.call(this, options);
return await new Promise(async (resolve, reject) => {
try {
await channel.assertQueue(queue, options);
if (options.binding && ((options.binding as IDataObject).bindings! as IDataObject[]).length) {
((options.binding as IDataObject).bindings as IDataObject[]).forEach(
async (binding: IDataObject) => {
await channel.bindQueue(
queue,
binding.exchange as string,
binding.routingKey as string,
);
},
);
}
resolve(channel);
} catch (error) {
reject(error);
}
});
}
export async function rabbitmqConnectExchange(
this: IExecuteFunctions | ITriggerFunctions,
exchange: string,
type: string,
options: IDataObject,
): Promise<amqplib.Channel> {
const channel = await rabbitmqConnect.call(this, options);
return await new Promise(async (resolve, reject) => {
try {
await channel.assertExchange(exchange, type, options);
resolve(channel);
} catch (error) {
reject(error);
}
});
}
export class MessageTracker {
messages: number[] = [];
isClosing = false;
received(message: amqplib.ConsumeMessage) {
this.messages.push(message.fields.deliveryTag);
}
answered(message: amqplib.ConsumeMessage) {
if (this.messages.length === 0) {
return;
}
const index = this.messages.findIndex((value) => value !== message.fields.deliveryTag);
this.messages.splice(index);
}
unansweredMessages() {
return this.messages.length;
}
async closeChannel(channel: amqplib.Channel, consumerTag: string) {
if (this.isClosing) {
return;
}
this.isClosing = true;
// Do not accept any new messages
await channel.cancel(consumerTag);
let count = 0;
let unansweredMessages = this.unansweredMessages();
// Give currently executing messages max. 5 minutes to finish before
// the channel gets closed. If we would not do that, it would not be possible
// to acknowledge messages anymore for which the executions were already running
// when for example a new version of the workflow got saved. That would lead to
// them getting delivered and processed again.
while (unansweredMessages !== 0 && count++ <= 300) {
await sleep(1000);
unansweredMessages = this.unansweredMessages();
}
await channel.close();
await channel.connection.close();
}
}