A light-weight job scheduling library for Node.js
- Minimal overhead. Agenda aims to keep its code base small.
- SQL backed persistence layer.
- Promises based API.
- Scheduling with configurable priority, concurrency, and repeating.
- Scheduling via cron or human readable syntax.
- Event backed job queue that you can hook into.
- Agendash: optional standalone web-interface.
- Agenda-rest: optional standalone REST API.
- inversify-agenda - Some utilities for the development of agenda workers with Inversify
Since there are a few job queue solutions, here a table comparing them to help you use the one that better suits your needs.
Agenda is great if you need something that is simple and backed by MongoDB.
Feature | Bull | Bee | Agenda |
---|---|---|---|
Backend | redis | redis | sql |
Priorities | âś“ | âś“ | |
Concurrency | âś“ | âś“ | âś“ |
Delayed jobs | âś“ | âś“ | |
Global events | âś“ | ||
Rate Limiter | âś“ | ||
Pause/Resume | âś“ | ||
Sandboxed worker | âś“ | ||
Repeatable jobs | âś“ | âś“ | |
Atomic ops | âś“ | âś“ | |
Persistence | âś“ | âś“ | âś“ |
UI | âś“ | âś“ | |
REST API | âś“ | ||
Optimized for | Jobs / Messages | Messages | Jobs |
Kudos for making the comparison chart goes to Bull maintainers.
Install via NPM
npm install agenda
You will also need a working MySQL/PostgreSQL/SQLite/MSSQL database (v5) to point it to.
const sqlConnectionString = 'mysql://127.0.0.1/agenda';
const agenda = new Agenda({db: {address: sqlConnectionString}});
// Or override the default collection name:
// const agenda = new Agenda({db: {address: sqlConnectionString, collection: 'jobCollectionName'}});
// or pass additional connection options:
// const agenda = new Agenda({db: {address: sqlConnectionString, collection: 'jobCollectionName', options: {ssl: true}}});
agenda.define('delete old users', async job => {
await User.remove({lastLogIn: {$lt: twoDaysAgo}});
});
(async function() { // IIFE to give access to async/await
await agenda.start();
await agenda.every('3 minutes', 'delete old users');
// Alternatively, you could also do:
await agenda.every('*/3 * * * *', 'delete old users');
})();
agenda.define('send email report', {priority: 'high', concurrency: 10}, async job => {
const {to} = job.attrs.data;
await emailClient.send({
to,
from: '[email protected]',
subject: 'Email Report',
body: '...'
});
});
(async function() {
await agenda.start();
await agenda.schedule('in 20 minutes', 'send email report', {to: '[email protected]'});
})();
(async function() {
const weeklyReport = agenda.create('send email report', {to: '[email protected]'});
await agenda.start();
await weeklyReport.repeatEvery('1 week').save();
})();
Agenda's basic control structure is an instance of an agenda. Agenda's are mapped to a database collection and load the jobs from within.
- Configuring an agenda
- Agenda Events
- Defining job processors
- Creating jobs
- Managing jobs
- Starting the job processor
- Multiple job processors
- Manually working with jobs
- Job Queue Events
- Frequently asked questions
- Example Project structure
- Known Issues
- Debugging Issues
- Acknowledgements
All configuration methods are chainable, meaning you can do something like:
const agenda = new Agenda();
agenda
.database(...)
.processEvery('3 minutes')
...;
Agenda uses Human Interval for specifying the intervals. It supports the following units:
seconds
, minutes
, hours
, days
,weeks
, months
-- assumes 30 days, years
-- assumes 365 days
More sophisticated examples
agenda.processEvery('one minute');
agenda.processEvery('1.5 minutes');
agenda.processEvery('3 days and 4 hours');
agenda.processEvery('3 days, 4 hours and 36 seconds');
Specifies the database at the url
specified. If no collection name is given,
agendaJobs
is used.
agenda.database('localhost:27017/agenda-test', 'agendaJobs');
You can also specify it during instantiation.
const agenda = new Agenda({db: {address: 'localhost:27017/agenda-test', collection: 'agendaJobs'}});
Agenda will emit a ready
event (see Agenda Events) when properly connected to the database.
It is safe to call agenda.start()
without waiting for this event, as this is handled internally.
If you're using the db
options, or call database
, then you may still need to listen for ready
before saving jobs.
Use an existing mongodb-native MongoClient/Db instance. This can help consolidate connections to a
database. You can instead use .database
to have agenda handle connecting for you.
You can also specify it during instantiation:
const agenda = new Agenda({mongo: mongoClientInstance.db('agenda-test')});
Note that MongoClient.connect() returns a mongoClientInstance since node-mongodb-native 3.0.0, while it used to return a dbInstance that could then be directly passed to agenda.
Takes a string name
and sets lastModifiedBy
to it in the job database.
Useful for if you have multiple job processors (agendas) and want to see which
job queue last ran the job.
agenda.name(os.hostname + '-' + process.pid);
You can also specify it during instantiation
const agenda = new Agenda({name: 'test queue'});
Takes a string interval
which can be either a traditional javascript number,
or a string such as 3 minutes
Specifies the frequency at which agenda will query the database looking for jobs
that need to be processed. Agenda internally uses setTimeout
to guarantee that
jobs run at (close to ~3ms) the right time.
Decreasing the frequency will result in fewer database queries, but more jobs being stored in memory.
Also worth noting is that if the job queue is shutdown, any jobs stored in memory
that haven't run will still be locked, meaning that you may have to wait for the
lock to expire. By default it is '5 seconds'
.
agenda.processEvery('1 minute');
You can also specify it during instantiation
const agenda = new Agenda({processEvery: '30 seconds'});
Takes a number
which specifies the max number of jobs that can be running at
any given moment. By default it is 20
.
agenda.maxConcurrency(20);
You can also specify it during instantiation
const agenda = new Agenda({maxConcurrency: 20});
Takes a number
which specifies the default number of a specific job that can be running at
any given moment. By default it is 5
.
agenda.defaultConcurrency(5);
You can also specify it during instantiation
const agenda = new Agenda({defaultConcurrency: 5});
Takes a number
which specifies the max number jobs that can be locked at any given moment. By default it is 0
for no max.
agenda.lockLimit(0);
You can also specify it during instantiation
const agenda = new Agenda({lockLimit: 0});
Takes a number
which specifies the default number of a specific job that can be locked at any given moment. By default it is 0
for no max.
agenda.defaultLockLimit(0);
You can also specify it during instantiation
const agenda = new Agenda({defaultLockLimit: 0});
Takes a number
which specifies the default lock lifetime in milliseconds. By
default it is 10 minutes. This can be overridden by specifying the
lockLifetime
option to a defined job.
A job will unlock if it is finished (ie. the returned Promise resolves/rejects
or done
is specified in the params and done()
is called) before the
lockLifetime
. The lock is useful if the job crashes or times out.
agenda.defaultLockLifetime(10000);
You can also specify it during instantiation
const agenda = new Agenda({defaultLockLifetime: 10000});
Takes a query
which specifies the sort query to be used for finding and locking the next job.
By default it is { nextRunAt: 1, priority: -1 }
, which obeys a first in first out approach, with respect to priority.
An instance of an agenda will emit the following events:
ready
- called when Agenda mongo connection is successfully opened and indices created. If you're passing agenda an existing connection, you shouldn't need to listen for this, asagenda.start()
will not resolve until indices have been created. If you're using thedb
options, or calldatabase
, then you may still need to listen for theready
event before saving jobs.agenda.start()
will still wait for the connection to be opened.error
- called when Agenda mongo connection process has thrown an error
await agenda.start();
Before you can use a job, you must define its processing behavior.
Defines a job with the name of jobName
. When a job of jobName
gets run, it
will be passed to fn(job, done)
. To maintain asynchronous behavior, you may
either provide a Promise-returning function in fn
or provide done
as a
second parameter to fn
. If done
is specified in the function signature, you
must call done()
when you are processing the job. If your function is
synchronous or returns a Promise, you may omit done
from the signature.
options
is an optional argument which can overwrite the defaults. It can take
the following:
concurrency
:number
maximum number of that job that can be running at once (per instance of agenda)lockLimit
:number
maximum number of that job that can be locked at once (per instance of agenda)lockLifetime
:number
interval in ms of how long the job stays locked for (see multiple job processors for more info). A job will automatically unlock once a returned promise resolves/rejects (or ifdone
is specified in the signature anddone()
is called).priority
:(lowest|low|normal|high|highest|number)
specifies the priority of the job. Higher priority jobs will run first. See the priority mapping below
Priority mapping:
{
highest: 20,
high: 10,
normal: 0,
low: -10,
lowest: -20
}
Async Job:
agenda.define('some long running job', async job => {
const data = await doSomelengthyTask();
await formatThatData(data);
await sendThatData(data);
});
Async Job (using done
):
agenda.define('some long running job', (job, done) => {
doSomelengthyTask(data => {
formatThatData(data);
sendThatData(data);
done();
});
});
Sync Job:
agenda.define('say hello', job => {
console.log('Hello!');
});
define()
acts like an assignment: if define(jobName, ...)
is called multiple times (e.g. every time your script starts), the definition in the last call will overwrite the previous one. Thus, if you define
the jobName
only once in your code, it's safe for that call to execute multiple times.
Runs job name
at the given interval
. Optionally, data and options can be passed in.
Every creates a job of type single
, which means that it will only create one
job in the database, even if that line is run multiple times. This lets you put
it in a file that may get run multiple times, such as webserver.js
which may
reboot from time to time.
interval
can be a human-readable format String
, a cron format String
, or a Number
.
data
is an optional argument that will be passed to the processing function
under job.attrs.data
.
options
is an optional argument that will be passed to job.repeatEvery
.
In order to use this argument, data
must also be specified.
Returns the job
.
agenda.define('printAnalyticsReport', async job => {
const users = await User.doSomethingReallyIntensive();
processUserData(users);
console.log('I print a report!');
});
agenda.every('15 minutes', 'printAnalyticsReport');
Optionally, name
could be array of job names, which is convenient for scheduling
different jobs for same interval
.
agenda.every('15 minutes', ['printAnalyticsReport', 'sendNotifications', 'updateUserRecords']);
In this case, every
returns array of jobs
.
Schedules a job to run name
once at a given time. when
can be a Date
or a
String
such as tomorrow at 5pm
.
data
is an optional argument that will be passed to the processing function
under job.attrs.data
.
Returns the job
.
agenda.schedule('tomorrow at noon', 'printAnalyticsReport', {userCount: 100});
Optionally, name
could be array of job names, similar to the every
method.
agenda.schedule('tomorrow at noon', ['printAnalyticsReport', 'sendNotifications', 'updateUserRecords']);
In this case, schedule
returns array of jobs
.
Schedules a job to run name
once immediately.
data
is an optional argument that will be passed to the processing function
under job.attrs.data
.
Returns the job
.
agenda.now('do the hokey pokey');
Returns an instance of a jobName
with data
. This does NOT save the job in
the database. See below to learn how to manually work with jobs.
const job = agenda.create('printAnalyticsReport', {userCount: 100});
await job.save();
console.log('Job successfully saved');
Lets you query (then sort, limit and skip the result) all of the jobs in the agenda job's database. These are full mongodb-native find
, sort
, limit
and skip
commands. See mongodb-native's documentation for details.
const jobs = await agenda.jobs({name: 'printAnalyticsReport'}, {data:-1}, 3, 1);
// Work with jobs (see below)
Cancels any jobs matching the passed mongodb-native query, and removes them from the database. Returns a Promise resolving to the number of cancelled jobs, or rejecting on error.
const numRemoved = await agenda.cancel({name: 'printAnalyticsReport'});
This functionality can also be achieved by first retrieving all the jobs from the database using agenda.jobs()
, looping through the resulting array and calling job.remove()
on each. It is however preferable to use agenda.cancel()
for this use case, as this ensures the operation is atomic.
Removes all jobs in the database without defined behaviors. Useful if you change a definition name and want to remove old jobs. Returns a Promise resolving to the number of removed jobs, or rejecting on error.
IMPORTANT: Do not run this before you finish defining all of your jobs. If you do, you will nuke your database of jobs.
const numRemoved = await agenda.purge();
To get agenda to start processing jobs from the database you must start it. This
will schedule an interval (based on processEvery
) to check for new jobs and
run them. You can also stop the queue.
Starts the job queue processing, checking processEvery
time to see if there
are new jobs. Must be called after processEvery
, and before any job scheduling (e.g. every
).
Stops the job queue processing. Unlocks currently running jobs.
This can be very useful for graceful shutdowns so that currently running/grabbed jobs are abandoned so that other job queues can grab them / they are unlocked should the job queue start again. Here is an example of how to do a graceful shutdown.
async function graceful() {
await agenda.stop();
process.exit(0);
}
process.on('SIGTERM', graceful);
process.on('SIGINT' , graceful);
Sometimes you may want to have multiple node instances / machines process from the same queue. Agenda supports a locking mechanism to ensure that multiple queues don't process the same job.
You can configure the locking mechanism by specifying lockLifetime
as an
interval when defining the job.
agenda.define('someJob', {lockLifetime: 10000}, (job, cb) => {
// Do something in 10 seconds or less...
});
This will ensure that no other job processor (this one included) attempts to run the job again for the next 10 seconds. If you have a particularly long running job, you will want to specify a longer lockLifetime.
By default it is 10 minutes. Typically you shouldn't have a job that runs for 10 minutes, so this is really insurance should the job queue crash before the job is unlocked.
When a job is finished (i.e. the returned promise resolves/rejects or done
is
specified in the signature and done()
is called), it will automatically unlock.
A job instance has many instance methods. All mutating methods must be followed
with a call to await job.save()
in order to persist the changes to the database.
Specifies an interval
on which the job should repeat. The job runs at the time of defining as well in configured intervals, that is "run now and in intervals".
interval
can be a human-readable format String
, a cron format String
, or a Number
.
options
is an optional argument containing:
options.timezone
: should be a string as accepted by moment-timezone and is considered when using an interval in the cron string format.
options.skipImmediate
: true
| false
(default) Setting this true
will skip the immediate run. The first run will occur only in configured interval.
job.repeatEvery('10 minutes');
await job.save();
job.repeatEvery('3 minutes', {
skipImmediate: true
});
await job.save();
job.repeatEvery('0 6 * * *', {
timezone: 'America/New_York'
});
await job.save();
Specifies a time
when the job should repeat. Possible values
job.repeatAt('3:30pm');
await job.save();
Specifies the next time
at which the job should run.
job.schedule('tomorrow at 6pm');
await job.save();
Specifies the priority
weighting of the job. Can be a number or a string from
the above priority table.
job.priority('low');
await job.save();
Ensure that only one instance of this job exists with the specified properties
options
is an optional argument which can overwrite the defaults. It can take
the following:
insertOnly
:boolean
will prevent any properties from persisting if the job already exists. Defaults to false.
job.unique({'data.type': 'active', 'data.userId': '123', nextRunAt: date});
await job.save();
IMPORTANT: To avoid high CPU usage by MongoDB, make sure to create an index on the used fields, like data.type
and data.userId
for the example above.
Sets job.attrs.failedAt
to now
, and sets job.attrs.failReason
to reason
.
Optionally, reason
can be an error, in which case job.attrs.failReason
will
be set to error.message
job.fail('insufficient disk space');
// or
job.fail(new Error('insufficient disk space'));
await job.save();
Runs the given job
and calls callback(err, job)
upon completion. Normally
you never need to call this manually.
job.run((err, job) => {
console.log('I don\'t know why you would need to do this...');
});
Saves the job.attrs
into the database. Returns a Promise resolving to a Job instance, or rejecting on error.
try {
await job.save();
cosole.log('Successfully saved job to collection');
} catch (e) {
console.error('Error saving job to collection');
}
Removes the job
from the database. Returns a Promise resolving to the number of jobs removed, or rejecting on error.
try {
await job.remove();
console.log('Successfully removed job from collection');
} catch (e) {
console.error('Error removing job from collection');
}
Disables the job
. Upcoming runs won't execute.
Enables the job
if it got disabled before. Upcoming runs will execute.
Resets the lock on the job. Useful to indicate that the job hasn't timed out when you have very long running jobs. The call returns a promise that resolves when the job's lock has been renewed.
agenda.define('super long job', async job => {
await doSomeLongTask();
await job.touch();
await doAnotherLongTask();
await job.touch();
await finishOurLongTasks();
});
An instance of an agenda will emit the following events:
start
- called just before a job startsstart:job name
- called just before the specified job starts
agenda.on('start', job => {
console.log('Job %s starting', job.attrs.name);
});
complete
- called when a job finishes, regardless of if it succeeds or failscomplete:job name
- called when a job finishes, regardless of if it succeeds or fails
agenda.on('complete', job => {
console.log(`Job ${job.attrs.name} finished`);
});
success
- called when a job finishes successfullysuccess:job name
- called when a job finishes successfully
agenda.on('success:send email', job => {
console.log(`Sent Email Successfully to ${job.attrs.data.to}`);
});
fail
- called when a job throws an errorfail:job name
- called when a job throws an error
agenda.on('fail:send email', (err, job) => {
console.log(`Job failed with error: ${err.message}`);
});
Jobs are run with priority in a first in first out order (so they will be run in the order they were scheduled AND with respect to highest priority).
For example, if we have two jobs named "send-email" queued (both with the same priority), and the first job is queued at 3:00 PM and second job is queued at 3:05 PM with the same priority
value, then the first job will run first if we start to send "send-email" jobs at 3:10 PM. However if the first job has a priority of 5
and the second job has a priority of 10
, then the second will run first (priority takes precedence) at 3:10 PM.
The default MongoDB sort object is { nextRunAt: 1, priority: -1 }
and can be changed through the option sort
when configuring Agenda.
Agenda will lock jobs 1 by one, setting the lockedAt
property in mongoDB, and creating an instance of the Job
class which it caches into the _lockedJobs
array. This defaults to having no limit, but can be managed using lockLimit. If all jobs will need to be run before agenda's next interval (set via agenda.processEvery
), then agenda will attempt to lock all jobs.
Agenda will also pull jobs from _lockedJobs
and into _runningJobs
. These jobs are actively being worked on by user code, and this is limited by maxConcurrency
(defaults to 20).
If you have multiple instances of agenda processing the same job definition with a fast repeat time you may find they get unevenly loaded. This is because they will compete to lock as many jobs as possible, even if they don't have enough concurrency to process them. This can be resolved by tweaking the maxConcurrency
and lockLimit
properties.
Agenda doesn't have a preferred project structure and leaves it to the user to choose how they would like to use it. That being said, you can check out the example project structure below.
Thanks! I'm flattered, but it's really not necessary. If you really want to, you can find my gittip here.
Agenda itself does not have a web interface built in but we do offer stand-alone web interface Agendash:
The decision to use Mongo instead of Redis is intentional. Redis is often used for non-essential data (such as sessions) and without configuration doesn't guarantee the same level of persistence as Mongo (should the server need to be restarted/crash).
Agenda decides to focus on persistence without requiring special configuration of Redis (thereby degrading the performance of the Redis server on non-critical data, such as sessions).
Ultimately if enough people want a Redis driver instead of Mongo, I will write one. (Please open an issue requesting it). For now, Agenda decided to focus on guaranteed persistence.
Ultimately Agenda can work from a single job queue across multiple machines, node processes, or forks. If you are interested in having more than one worker, Bars3s has written up a fantastic example of how one might do it:
const cluster = require('cluster');
const os = require('os');
const httpServer = require('./app/http-server');
const jobWorker = require('./app/job-worker');
const jobWorkers = [];
const webWorkers = [];
if (cluster.isMaster) {
const cpuCount = os.cpus().length;
// Create a worker for each CPU
for (let i = 0; i < cpuCount; i += 1) {
addJobWorker();
addWebWorker();
}
cluster.on('exit', (worker, code, signal) => {
if (jobWorkers.indexOf(worker.id) !== -1) {
console.log(`job worker ${worker.process.pid} exited (signal: ${signal}). Trying to respawn...`);
removeJobWorker(worker.id);
addJobWorker();
}
if (webWorkers.indexOf(worker.id) !== -1) {
console.log(`http worker ${worker.process.pid} exited (signal: ${signal}). Trying to respawn...`);
removeWebWorker(worker.id);
addWebWorker();
}
});
} else {
if (process.env.web) {
console.log(`start http server: ${cluster.worker.id}`);
// Initialize the http server here
httpServer.start();
}
if (process.env.job) {
console.log(`start job server: ${cluster.worker.id}`);
// Initialize the Agenda here
jobWorker.start();
}
}
function addWebWorker() {
webWorkers.push(cluster.fork({web: 1}).id);
}
function addJobWorker() {
jobWorkers.push(cluster.fork({job: 1}).id);
}
function removeWebWorker(id) {
webWorkers.splice(webWorkers.indexOf(id), 1);
}
function removeJobWorker(id) {
jobWorkers.splice(jobWorkers.indexOf(id), 1);
}
Agenda is configured by default to automatically reconnect indefinitely, emitting an error event when no connection is available on each process tick, allowing you to restore the Mongo instance without having to restart the application.
However, if you are using an existing Mongo client
you'll need to configure the reconnectTries
and reconnectInterval
connection settings
manually, otherwise you'll find that Agenda will throw an error with the message "MongoDB connection is not recoverable,
application restart required" if the connection cannot be recovered within 30 seconds.
Agenda will only process jobs that it has definitions for. This allows you to selectively choose which jobs a given agenda will process.
Consider the following project structure, which allows us to share models with the rest of our code base, and specify which jobs a worker processes, if any at all.
- server.js
- worker.js
lib/
- agenda.js
controllers/
- user-controller.js
jobs/
- email.js
- video-processing.js
- image-processing.js
models/
- user-model.js
- blog-post.model.js
Sample job processor (eg. jobs/email.js
)
let email = require('some-email-lib'),
User = require('../models/user-model.js');
module.exports = function(agenda) {
agenda.define('registration email', async job => {
const user = await User.get(job.attrs.data.userId);
await email(user.email(), 'Thanks for registering', 'Thanks for registering ' + user.name());
});
agenda.define('reset password', async job => {
// Etc
});
// More email related jobs
};
lib/agenda.js
const Agenda = require('agenda');
const connectionOpts = {db: {address: 'localhost:27017/agenda-test', collection: 'agendaJobs'}};
const agenda = new Agenda(connectionOpts);
const jobTypes = process.env.JOB_TYPES ? process.env.JOB_TYPES.split(',') : [];
jobTypes.forEach(type => {
require('./jobs/' + type)(agenda);
});
if (jobTypes.length) {
agenda.start(); // Returns a promise, which should be handled appropriately
}
module.exports = agenda;
lib/controllers/user-controller.js
let app = express(),
User = require('../models/user-model'),
agenda = require('../worker.js');
app.post('/users', (req, res, next) => {
const user = new User(req.body);
user.save(err => {
if (err) {
return next(err);
}
agenda.now('registration email', {userId: user.primary()});
res.send(201, user.toJson());
});
});
worker.js
require('./lib/agenda.js');
Now you can do the following in your project:
node server.js
Fire up an instance with no JOB_TYPES
, giving you the ability to process jobs,
but not wasting resources processing jobs.
JOB_TYPES=email node server.js
Allow your http server to process email jobs.
JOB_TYPES=email node worker.js
Fire up an instance that processes email jobs.
JOB_TYPES=video-processing,image-processing node worker.js
Fire up an instance that processes video-processing/image-processing jobs. Good for a heavy hitting server.
If you think you have encountered a bug, please feel free to report it here:
Please provide us with as much details as possible such as:
- Agenda version
- Environment (OSX, Linux, Windows, etc)
- Small description of what happened
- Any relevant stack track
- Agenda logs (see below)
- OSX:
DEBUG="agenda:*" node index.js
- Linux:
DEBUG="agenda:*" node index.js
- Windows CMD:
set DEBUG=agenda:*
- Windows PowerShell:
$env:DEBUG = "agenda:*"
While not necessary, attaching a text file with this debug information would be extremely useful in debugging certain issues and is encouraged.
When running Agenda on Azure cosmosDB, you might run into this issue caused by Agenda's sort query used for finding and locking the next job. To fix this, you can pass custom sort option: sort: { nextRunAt: 1 }
- Agenda was originally created by @rschmukler.
- Agendash was originally created by @joeframbach.
- These days Agenda has a great community of contributors around it. Join us!