Ghost/ghost/job-manager/lib/JobManager.js
Fabien "egg" O'Carroll 104f84f252 Added eslint rule for file naming convention
As discussed with the product team we want to enforce kebab-case file names for
all files, with the exception of files which export a single class, in which
case they should be PascalCase and reflect the class which they export.

This will help find classes faster, and should push better naming for them too.

Some files and packages have been excluded from this linting, specifically when
a library or framework depends on the naming of a file for the functionality
e.g. Ember, knex-migrator, adapter-manager
2023-05-09 12:34:34 -04:00

414 lines
15 KiB
JavaScript

const path = require('path');
const util = require('util');
const setTimeoutPromise = util.promisify(setTimeout);
const fastq = require('fastq');
const later = require('@breejs/later');
const Bree = require('bree');
const pWaitFor = require('p-wait-for');
const {UnhandledJobError, IncorrectUsageError} = require('@tryghost/errors');
const logging = require('@tryghost/logging');
const isCronExpression = require('./is-cron-expression');
const assembleBreeJob = require('./assemble-bree-job');
const JobsRepository = require('./JobsRepository');
const worker = async (task, callback) => {
try {
let result = await task();
await callback(null, result);
} catch (error) {
await callback(error);
}
};
const ALL_STATUSES = {
started: 'started',
finished: 'finished',
failed: 'failed',
queued: 'queued'
};
class JobManager {
#domainEvents;
#completionPromises = new Map();
/**
* @param {Object} options
* @param {Function} [options.errorHandler] - custom job error handler
* @param {Function} [options.workerMessageHandler] - custom message handler coming from workers
* @param {Object} [options.JobModel] - a model which can persist job data in the storage
* @param {Object} [options.domainEvents] - domain events emitter
*/
constructor({errorHandler, workerMessageHandler, JobModel, domainEvents}) {
this.queue = fastq(this, worker, 3);
this._jobMessageHandler = this._jobMessageHandler.bind(this);
this._jobErrorHandler = this._jobErrorHandler.bind(this);
this.#domainEvents = domainEvents;
const combinedMessageHandler = workerMessageHandler
? ({name, message}) => {
workerMessageHandler({name, message});
this._jobMessageHandler({name, message});
}
: this._jobMessageHandler;
const combinedErrorHandler = errorHandler
? (error, workerMeta) => {
errorHandler(error, workerMeta);
this._jobErrorHandler(error, workerMeta);
}
: this._jobErrorHandler;
this.bree = new Bree({
root: false, // set this to `false` to prevent requiring a root directory of jobs
hasSeconds: true, // precision is needed to avoid task overlaps after immediate execution
outputWorkerMetadata: true,
logger: logging,
errorHandler: combinedErrorHandler,
workerMessageHandler: combinedMessageHandler
});
this.bree.on('worker created', (name) => {
this._jobMessageHandler({name, message: ALL_STATUSES.started});
});
if (JobModel) {
this._jobsRepository = new JobsRepository({JobModel});
}
}
inlineJobHandler(jobName) {
return async (error, result) => {
if (error) {
await this._jobErrorHandler(error, {
name: jobName
});
} else {
await this._jobMessageHandler({
name: jobName,
message: 'done'
});
}
// Can potentially standardize the result here
return result;
};
}
async _jobMessageHandler({name, message}) {
if (name) {
if (message === ALL_STATUSES.started) {
if (this._jobsRepository) {
const job = await this._jobsRepository.read(name);
if (job) {
await this._jobsRepository.update(job.id, {
status: ALL_STATUSES.started,
started_at: new Date()
});
}
}
} else if (message === 'done') {
if (this._jobsRepository) {
const job = await this._jobsRepository.read(name);
if (job) {
await this._jobsRepository.update(job.id, {
status: ALL_STATUSES.finished,
finished_at: new Date()
});
}
}
// Check completion listeners
if (this.#completionPromises.has(name)) {
for (const listeners of this.#completionPromises.get(name)) {
listeners.resolve();
}
// Clear the listeners
this.#completionPromises.delete(name);
}
if (this.queue.length() <= 1) {
if (this.#completionPromises.has('all')) {
for (const listeners of this.#completionPromises.get('all')) {
listeners.resolve();
}
// Clear the listeners
this.#completionPromises.delete('all');
}
}
} else {
if (typeof message === 'object' && this.#domainEvents) {
// Is this an event?
if (message.event) {
this.#domainEvents.dispatchRaw(message.event.type, message.event.data);
}
}
}
}
}
async _jobErrorHandler(error, jobMeta) {
if (this._jobsRepository && jobMeta.name) {
const job = await this._jobsRepository.read(jobMeta.name);
if (job) {
await this._jobsRepository.update(job.id, {
status: ALL_STATUSES.failed
});
}
}
// Check completion listeners and call them with error
if (this.#completionPromises.has(jobMeta.name)) {
for (const listeners of this.#completionPromises.get(jobMeta.name)) {
listeners.reject(error);
}
// Clear the listeners
this.#completionPromises.delete(jobMeta.name);
}
if (this.queue.length() <= 1) {
if (this.#completionPromises.has('all')) {
for (const listeners of this.#completionPromises.get('all')) {
listeners.reject(error);
}
// Clear the listeners
this.#completionPromises.delete('all');
}
}
}
/**
* By default schedules an "offloaded" job. If `offloaded: true` parameter is set,
* puts an "inline" immediate job into the queue.
*
* @param {Object} GhostJob - job options
* @prop {Function | String} GhostJob.job - function or path to a module defining a job
* @prop {String} [GhostJob.name] - unique job name, if not provided takes function name or job script filename
* @prop {String | Date} [GhostJob.at] - Date, cron or human readable schedule format. Manage will do immediate execution if not specified. Not supported for "inline" jobs
* @prop {Object} [GhostJob.data] - data to be passed into the job
* @prop {Boolean} [GhostJob.offloaded] - creates an "offloaded" job running in a worker thread by default. If set to "false" runs an "inline" job on the same event loop
*/
addJob({name, at, job, data, offloaded = true}) {
if (offloaded) {
logging.info('Adding offloaded job to the queue');
let schedule;
if (!name) {
if (typeof job === 'string') {
name = path.parse(job).name;
} else {
throw new IncorrectUsageError({
message: 'Name parameter should be present if job is a function'
});
}
}
if (at && !(at instanceof Date)) {
if (isCronExpression(at)) {
schedule = later.parse.cron(at, true);
} else {
schedule = later.parse.text(at);
}
if ((schedule.error && schedule.error !== -1) || schedule.schedules.length === 0) {
throw new IncorrectUsageError({
message: 'Invalid schedule format'
});
}
logging.info(`Scheduling job ${name} at ${at}. Next run on: ${later.schedule(schedule).next()}`);
} else if (at !== undefined) {
logging.info(`Scheduling job ${name} at ${at}`);
} else {
logging.info(`Scheduling job ${name} to run immediately`);
}
const breeJob = assembleBreeJob(at, job, data, name);
this.bree.add(breeJob);
return this.bree.start(name);
} else {
logging.info(`Adding one-off job to queue with current length = ${this.queue.length()} called '${name || 'anonymous'}'`);
this.queue.push(async () => {
try {
// NOTE: setting the status here otherwise it is impossible to
// distinguish between states when the job fails immediately
await this._jobMessageHandler({
name: name,
message: ALL_STATUSES.started
});
if (typeof job === 'function') {
await job(data);
} else {
await require(job)(data);
}
} catch (err) {
// NOTE: each job should be written in a safe way and handle all errors internally
// if the error is caught here jobs implementation should be changed
logging.error(new UnhandledJobError({
context: (typeof job === 'function') ? 'function' : job,
err
}));
throw err;
}
}, this.inlineJobHandler(name));
}
}
/**
* Adds a job that could ever be executed once. In case the job fails
* can be "added" again, effectively restarting the failed job.
*
* @param {Object} GhostJob - job options
* @prop {Function | String} GhostJob.job - function or path to a module defining a job
* @prop {String} GhostJob.name - unique job name, if not provided takes function name or job script filename
* @prop {String | Date} [GhostJob.at] - Date, cron or human readable schedule format. Manage will do immediate execution if not specified. Not supported for "inline" jobs
* @prop {Object} [GhostJob.data] - data to be passed into the job
* @prop {Boolean} [GhostJob.offloaded] - creates an "offloaded" job running in a worker thread by default. If set to "false" runs an "inline" job on the same event loop
*/
async addOneOffJob({name, job, data, offloaded = true}) {
if (!name) {
throw new IncorrectUsageError({
message: `The name parameter is required for a one off job.`
});
}
const persistedJob = await this._jobsRepository.read(name);
if (persistedJob && (persistedJob.get('status') !== ALL_STATUSES.failed)) {
throw new IncorrectUsageError({
message: `A "${name}" one off job has already been executed.`
});
}
if (persistedJob && (persistedJob.get('status') === ALL_STATUSES.failed)) {
await this._jobsRepository.update(persistedJob.id, {
status: ALL_STATUSES.queued
});
} else {
await this._jobsRepository.add({
name,
status: ALL_STATUSES.queued
});
}
// NOTE: there's a assumption the job with the same name failed while
// running under different instance of job manager (bree).
// For example, it failed and the process was restarted.
// If we want to be able to restart within the same instance,
// we'd need to handle job restart/removal in Bree first
this.addJob({name, job, data, offloaded});
}
/**
* Checks if the one-off job has ever been executed successfully.
* @param {String} name one-off job name
*/
async hasExecutedSuccessfully(name) {
if (this._jobsRepository) {
const persistedJob = await this._jobsRepository.read(name);
if (!persistedJob) {
return false;
} else {
return (persistedJob.get('status') !== ALL_STATUSES.failed);
}
} else {
return false;
}
}
/**
* Awaits completion of the offloaded one-off job.
* CAUTION: it might take a long time to resolve!
* @param {String} name one-off job name
* @returns resolves with a Job model at current state
*/
async awaitOneOffCompletion(name) {
const persistedJob = await this._jobsRepository.read({
name
});
if (!persistedJob || ![ALL_STATUSES.finished, ALL_STATUSES.failed].includes(persistedJob.get('status'))) {
// NOTE: can implement exponential backoff here if that's ever needed
await setTimeoutPromise(500);
return this.awaitOneOffCompletion(name);
}
return persistedJob;
}
/***
* Create this promise before you add the job you want to listen for. Then await the returned promise.
* Resolves if the job has been executed successfully.
* Throws an error if the job has failed execution.
*/
async awaitCompletion(name) {
const promise = new Promise((resolve, reject) => {
this.#completionPromises.set(name, [
...(this.#completionPromises.get(name) ?? []),
{resolve, reject}
]);
});
return promise;
}
/**
* Wait for all inline jobs to be completed.
*/
async allSettled() {
const name = 'all';
return new Promise((resolve, reject) => {
if (this.queue.idle()) {
resolve();
return;
}
this.#completionPromises.set(name, [
...(this.#completionPromises.get(name) ?? []),
{resolve, reject}
]);
});
}
/**
* Removes an "offloaded" job from scheduled jobs queue.
* It's NOT yet possible to remove "inline" jobs (will be possible when scheduling is added https://github.com/breejs/bree/issues/68).
* The method will throw an Error if job with provided name does not exist.
*
* NOTE: current implementation does not guarante running job termination
* for details see https://github.com/breejs/bree/pull/64
*
* @param {String} name - job name
*/
async removeJob(name) {
await this.bree.remove(name);
}
/**
* @param {import('p-wait-for').Options} [options]
*/
async shutdown(options) {
await this.bree.stop();
if (this.queue.idle()) {
return;
}
logging.warn('Waiting for busy job queue');
await pWaitFor(() => this.queue.idle() === true, options);
logging.warn('Job queue finished');
}
}
module.exports = JobManager;