django-pg-queue
django-pg-queue is a task queue system for Django backed by postgres.
It was forked from the wonderful and simpler django-postgres-queue (https://github.com/gavinwahl/django-postgres-queue/) Written by Gavin Wahl.
Why postgres?
I thought you were never supposed to use an RDBMS as a queue? Well, postgres has some features that make it not as bad as you might think, it has some compelling advantages.
Transactional behavior and reliability.
Adding tasks is atomic with respect to other database work. There is no need to use
transaction.on_commit
hooks and there is no risk of a transaction being committed but the tasks it queued being lost.Processing tasks is atomic with respect to other database work. Database work done by a task will either be committed, or the task will not be marked as processed, no exceptions. If the task only does database work, you achieve true exactly-once message processing.
Operational simplicity
By reusing the durable, transactional storage that we're already using anyway, there's no need to configure, monitor, and backup another stateful service. For small teams and light workloads, this is the right trade-off.
Easy introspection
Since tasks are stored in a database table, it's easy to query and monitor the state of the queue.
Safety
By using postgres transactions, there is no possibility of jobs being left in a locked or ambiguous state if a worker dies. Tasks immediately become available for another worker to pick up. You can even
kill -9
a worker and be sure your database and queue will be left in a consistent state.Priority queues
Since ordering is specified explicitly when selecting the next task to work on, it's easy to ensure high-priority tasks are processed first.
Queues
Simply implemented by allowing filtering by a queue name in the query.
Disadvantages
- Lower throughput than a dedicated queue server.
- Harder to scale a relational database than a dedicated queue server.
- Thundering herd. Postgres will notify all workers who LISTEN for the same name.
- With at-least-once delivery, a postgres transaction has to be held open for the duration of the task. For long running tasks, this can cause table bloat and performance problems.
- When a task crashes or raises an exception under at-least-once delivery, it immediately becomes eligible to be retried. If you want to implement a retry delay, you must catch exceptions and requeue the task with a delay. If your task crashes without throwing an exception (eg SIGKILL), you could end up in an endless retry loop that prevents other tasks from being processed.
How it works
django-pg-queue is able to claim, process, and remove a task in a single (simplified) query.
DELETE FROM pgq_job
WHERE id = (
SELECT id
FROM pgq_job
WHERE execute_at <= now()
ORDER BY priority DESC, created_at
FOR UPDATE SKIP LOCKED
LIMIT 1
)
RETURNING *;
As soon as this query runs, the task is unable to be claimed by other workers. When the transaction commits, the task will be deleted. If the transaction rolls back or the worker crashes, the task will immediately become available for another worker.
To achieve at-least-once delivery, we begin a transaction, process the task, then commit the transaction. For at-most-once, we claim the task and immediately commit the transaction, then process the task. For tasks that don't have any external effects and only do database work, the at-least-once behavior is actually exactly-once (because both the claiming of the job and the database work will commit or rollback together).
Comparison to Celery
django-pg-queue fills the same role as Celery. You must use postgres as the backend and the library is small enough that you can read and understand all the code.
AtLeastOnceQueue
and Django's transaction.on_commit()
A note on the use of A failure in an on_commit()
callback will not cause that job to be retried
when using an AtLeastOnceQueue
(usually a job in an AtLeastOnceQueue
queue will remain in the queue if the job fails). This is because
on_commit()
callbacks are executed after the transaction has been committed
and, for django-pg-queue, the job is removed from the queue when the transaction
commits.
If you require more certainty that the code in an on_commit()
callback is
executed successfully, you may need to ensure it is idempotent and call it from
within the job rather than using on_commit()
.
Usage
Requirements
django-pg-queue requires Python 3, at least postgres 9.5 and at least Django 2.1.
Installation
Install with pip:
pip install django-pg-queue
Then add 'pgq'
to your INSTALLED_APPS
. Run manage.py migrate
to
create the jobs table.
Instantiate a queue object. This can go wherever you like and be named whatever
you like. For example, someapp/queue.py
:
from pgq.queue import AtLeastOnceQueue
queue = AtLeastOnceQueue(
tasks={
# ...
},
queue='my-queue',
notify_channel='my-queue',
)
You will need to import this queue instance to queue or process tasks. Use
AtLeastOnceQueue
for at-least-once delivery, or AtMostOnceQueue
for
at-most-once delivery.
django-pg-queue comes with a management command base class that you can
use to consume your tasks. It can be called whatever you like, for example in a
someapp/managment/commands/worker.py
:
from pgq.commands import Worker
from someapp.queue import queue
class Command(Worker):
queue = queue
Then you can run manage.py worker
to start your worker.
A task function takes two arguments -- the queue instance in use, and the Job instance for this task. The function can be defined anywhere and called whatever you like. Here's an example:
from pgq.decorators import task
from .queues import queue
@task(queue)
def debug_task(queue, job):
print(job.args)
Instead of using the task decorator, you can manually register it as a task. Add it to your queue instance when it is being created:
queue = AtLeastOnceQueue(tasks={
'debug_task': debug_task,
}, queue='my-queue')
The key is the task name, used to queue the task. It doesn't have to match the function name.
To queue the task, if you used the task decorator you may:
debug_task.enqueue({'some_args': 0})
To manually queue the task, use the enqueue
method on your queue instance:
queue.enqueue('debug_task', {'some_args': 0})
Assuming you have a worker running for this queue, the task will be run
immediately. The second argument must be a single json-serializeable value and
will be available to the task as job.args
.
Tasks registered using the @task
decorator will only be available on the
queue if the file in which the task is defined has been imported. If your
worker doesn't import the file containing the @task
decorators somewhere,
the tasks will not be available for dispatch. Importing files in the
apps.py
AppConfig.ready()
method will ensure that the tasks are always
available on the queue without having to import them in your worker just for
the import side effects.
# Contents of someapp/apps.py
from django.apps import AppConfig
class SomeAppAppConfig(AppConfig):
def ready(self):
# Tasks registered with @task are defined in this import
import someapp.tasks
Multiple Queues
You may run multiple queues and workers may each listen to a queue. You can have multiple workers listening to the same queue too. A queue is implemented as a CharField in the database. The queue would simply filter for jobs matching its queue name.
Bulk Enqueue
Many jobs can be efficiently created using bulk_enqueue()
which accepts one
task name for all the jobs being created and a list of dictionaries containing
args
for the task to execute with and, optionally, priority
and
execute_at
for that particular job.
queue.bulk_enqueue(
'debug_task',
[
{'args': {'some_args': 0}},
{
'args': {'some_args': 10}
'priority': 10,
'execute_at': timezone.now() + timedelta(days=1),
},
]
)
Monitoring
Tasks are just database rows stored in the pgq_job
table, so you can
monitor the system with SQL.
To get a count of current tasks:
SELECT queue, count(*) FROM pgq_job WHERE execute_at <= now() GROUP BY queue
This will include both tasks ready to process and tasks currently being processed. To see tasks currently being processed, we need visibility into postgres row locks. This can be provided by the pgrowlocks extension. Once installed, this query will count currently-running tasks:
SELECT queue, count(*)
FROM pgrowlocks('pgq_job')
WHERE 'For Update' = ANY(modes)
GROUP BY queue;
You could join the results of pgrowlocks
with pgq_job
to get the full
list of tasks in progress if you want.
Logging
django-pg-queue logs through Python's logging framework, so can be
configured with the LOGGING
dict in your Django settings. It will not log
anything under the default config, so be sure to configure some form of
logging. Everything is logged under the pgq
namespace. Here is an example
configuration that will log INFO level messages to stdout:
LOGGING = {
'version': 1,
'root': {
'level': 'DEBUG',
'handlers': ['console'],
},
'formatters': {
'verbose': {
'format': '%(levelname)s %(asctime)s %(module)s %(process)d %(thread)d %(message)s',
},
},
'handlers': {
'console': {
'level': 'INFO',
'class': 'logging.StreamHandler',
'formatter': 'verbose',
},
},
'loggers': {
'pgq': {
'handlers': ['console'],
'level': 'INFO',
'propagate': False,
},
}
}
It would also be sensible to log WARNING and higher messages to something like Sentry:
LOGGING = {
'version': 1,
'root': {
'level': 'INFO',
'handlers': ['sentry', 'console'],
},
'formatters': {
'verbose': {
'format': '%(levelname)s %(asctime)s %(module)s %(process)d %(thread)d %(message)s',
},
},
'handlers': {
'console': {
'level': 'INFO',
'class': 'logging.StreamHandler',
'formatter': 'verbose',
},
'sentry': {
'level': 'WARNING',
'class': 'raven.contrib.django.handlers.SentryHandler',
},
},
'loggers': {
'pgq': {
'level': 'INFO',
'handlers': ['console', 'sentry'],
'propagate': False,
},
},
}
You could also log to a file by using the built-in logging.FileHandler
.
Useful Recipes
These recipes aren't officially supported features of django-pg-queue. We provide them so that you can mimick some of the common features in other task queues.
CELERY_ALWAYS_EAGER
Celery uses the CELERY_ALWAYS_EAGER setting to run a task immediately, without queueing it for a worker. It could be used during tests, and while debugging in a development environment with any workers turned off.
class EagerAtLeastOnceQueue(AtLeastOnceQueue):
def enqueue(self, *args, **kwargs):
job = super().enqueue(*args, **kwargs)
if settings.QUEUE_ALWAYS_EAGER:
self.run_job(job)
return job