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- .. _tut-celery:
- .. _first-steps:
- =========================
- First Steps with Celery
- =========================
- Celery is a task queue with batteries included.
- It's easy to use so that you can get started without learning
- the full complexities of the problem it solves. It's designed
- around best practices so that your product can scale
- and integrate with other languages, and it comes with the
- tools and support you need to run such a system in production.
- In this tutorial you'll learn the absolute basics of using Celery.
- Learn about;
- - Choosing and installing a message transport (broker).
- - Installing Celery and creating your first task.
- - Starting the worker and calling tasks.
- - Keeping track of tasks as they transition through different states,
- and inspecting return values.
- Celery may seem daunting at first - but don't worry - this tutorial
- will get you started in no time. It's deliberately kept simple, so
- to not confuse you with advanced features.
- After you have finished this tutorial
- it's a good idea to browse the rest of the documentation,
- for example the :ref:`next-steps` tutorial will
- showcase Celery's capabilities.
- .. contents::
- :local:
- .. _celerytut-broker:
- Choosing a Broker
- =================
- Celery requires a solution to send and receive messages; usually this
- comes in the form of a separate service called a *message broker*.
- There are several choices available, including:
- RabbitMQ
- --------
- `RabbitMQ`_ is feature-complete, stable, durable and easy to install.
- It's an excellent choice for a production environment.
- Detailed information about using RabbitMQ with Celery:
- :ref:`broker-rabbitmq`
- .. _`RabbitMQ`: http://www.rabbitmq.com/
- If you're using Ubuntu or Debian install RabbitMQ by executing this
- command:
- .. code-block:: console
- $ sudo apt-get install rabbitmq-server
- When the command completes the broker is already running in the background,
- ready to move messages for you: ``Starting rabbitmq-server: SUCCESS``.
- And don't worry if you're not running Ubuntu or Debian, you can go to this
- website to find similarly simple installation instructions for other
- platforms, including Microsoft Windows:
- http://www.rabbitmq.com/download.html
- Redis
- -----
- `Redis`_ is also feature-complete, but is more susceptible to data loss in
- the event of abrupt termination or power failures. Detailed information about using Redis:
- :ref:`broker-redis`
- .. _`Redis`: https://redis.io/
- Other brokers
- -------------
- In addition to the above, there are other experimental transport implementations
- to choose from, including :ref:`Amazon SQS <broker-sqs>`.
- See :ref:`broker-overview` for a full list.
- .. _celerytut-installation:
- Installing Celery
- =================
- Celery is on the Python Package Index (PyPI), so it can be installed
- with standard Python tools like ``pip`` or ``easy_install``:
- .. code-block:: console
- $ pip install celery
- Application
- ===========
- The first thing you need is a Celery instance. We call this the *Celery
- application* or just *app* for short. As this instance is used as
- the entry-point for everything you want to do in Celery, like creating tasks and
- managing workers, it must be possible for other modules to import it.
- In this tutorial we keep everything contained in a single module,
- but for larger projects you want to create
- a :ref:`dedicated module <project-layout>`.
- Let's create the file :file:`tasks.py`:
- .. code-block:: python
- from celery import Celery
- app = Celery('tasks', broker='pyamqp://guest@localhost//')
- @app.task
- def add(x, y):
- return x + y
- The first argument to :class:`~celery.app.Celery` is the name of the current module.
- This is only needed to allow names to be generated automatically when the tasks are
- defined in the ``__main__`` module.
- The second argument is the broker keyword argument, specifying the URL of the
- message broker you want to use. Here using RabbitMQ (also the default option).
- See :ref:`celerytut-broker` above for more choices --
- for RabbitMQ you can use ``amqp://localhost``, or for Redis you can
- use ``redis://localhost``.
- You defined a single task, called ``add``, returning the sum of two numbers.
- .. _celerytut-running-the-worker:
- Running the Celery worker server
- ================================
- You now run the worker by executing our program with the ``worker``
- argument:
- .. code-block:: console
- $ celery -A tasks worker --loglevel=info
- .. note::
- See the :ref:`celerytut-troubleshooting` section if the worker
- doesn't start.
- In production you'll want to run the worker in the
- background as a daemon. To do this you need to use the tools provided
- by your platform, or something like `supervisord`_ (see :ref:`daemonizing`
- for more information).
- For a complete listing of the command-line options available, do:
- .. code-block:: console
- $ celery worker --help
- There are also several other commands available, and help is also available:
- .. code-block:: console
- $ celery help
- .. _`supervisord`: http://supervisord.org
- .. _celerytut-calling:
- Calling the task
- ================
- To call our task you can use the :meth:`~@Task.delay` method.
- This is a handy shortcut to the :meth:`~@Task.apply_async`
- method that gives greater control of the task execution (see
- :ref:`guide-calling`)::
- >>> from tasks import add
- >>> add.delay(4, 4)
- The task has now been processed by the worker you started earlier,
- and you can verify that by looking at the workers console output.
- Calling a task returns an :class:`~@AsyncResult` instance:
- this can be used to check the state of the task, wait for the task to finish,
- or get its return value (or if the task failed, the exception and traceback).
- Results aren't enabled by default, so if you want to do RPC or keep track
- of task results in a database you have to configure Celery to use a result
- backend. This is described by the next section.
- .. _celerytut-keeping-results:
- Keeping Results
- ===============
- If you want to keep track of the tasks' states, Celery needs to store or send
- the states somewhere. There are several
- built-in result backends to choose from: `SQLAlchemy`_/`Django`_ ORM,
- `Memcached`_, `Redis`_, :ref:`RPC <conf-rpc-result-backend>` (`RabbitMQ`_/AMQP),
- and -- or you can define your own.
- .. _`Memcached`: http://memcached.org
- .. _`MongoDB`: http://www.mongodb.org
- .. _`SQLAlchemy`: http://www.sqlalchemy.org/
- .. _`Django`: http://djangoproject.com
- For this example we use the `rpc` result backend, that sends states
- back as transient messages. The backend is specified via the ``backend`` argument to
- :class:`@Celery`, (or via the :setting:`result_backend` setting if
- you choose to use a configuration module):
- .. code-block:: python
- app = Celery('tasks', backend='rpc://', broker='pyamqp://')
- Or if you want to use Redis as the result backend, but still use RabbitMQ as
- the message broker (a popular combination):
- .. code-block:: python
- app = Celery('tasks', backend='redis://localhost', broker='pyamqp://')
- To read more about result backends please see :ref:`task-result-backends`.
- Now with the result backend configured, let's call the task again.
- This time you'll hold on to the :class:`~@AsyncResult` instance returned
- when you call a task:
- .. code-block:: pycon
- >>> result = add.delay(4, 4)
- The :meth:`~@AsyncResult.ready` method returns whether the task
- has finished processing or not:
- .. code-block:: pycon
- >>> result.ready()
- False
- You can wait for the result to complete, but this is rarely used
- since it turns the asynchronous call into a synchronous one:
- .. code-block:: pycon
- >>> result.get(timeout=1)
- 8
- In case the task raised an exception, :meth:`~@AsyncResult.get` will
- re-raise the exception, but you can override this by specifying
- the ``propagate`` argument:
- .. code-block:: pycon
- >>> result.get(propagate=False)
- If the task raised an exception you can also gain access to the
- original traceback:
- .. code-block:: pycon
- >>> result.traceback
- …
- See :mod:`celery.result` for the complete result object reference.
- .. _celerytut-configuration:
- Configuration
- =============
- Celery, like a consumer appliance, doesn't need much to be operated.
- It has an input and an output, where you must connect the input to a broker and maybe
- the output to a result backend if so wanted. But if you look closely at the back
- there's a lid revealing loads of sliders, dials, and buttons: this is the configuration.
- The default configuration should be good enough for most uses, but there are
- many things to tweak so Celery works just the way you want it to.
- Reading about the options available is a good idea to get familiar with what
- can be configured. You can read about the options in the
- :ref:`configuration` reference.
- The configuration can be set on the app directly or by using a dedicated
- configuration module.
- As an example you can configure the default serializer used for serializing
- task payloads by changing the :setting:`task_serializer` setting:
- .. code-block:: python
- app.conf.task_serializer = 'json'
- If you're configuring many settings at once you can use ``update``:
- .. code-block:: python
- app.conf.update(
- task_serializer='json',
- accept_content=['json'], # Ignore other content
- result_serializer='json',
- timezone='Europe/Oslo',
- enable_utc=True,
- )
- For larger projects using a dedicated configuration module is useful,
- in fact you're discouraged from hard coding
- periodic task intervals and task routing options, as it's much
- better to keep this in a centralized location, and especially for libraries
- it makes it possible for users to control how they want your tasks to behave,
- you can also imagine your SysAdmin making simple changes to the configuration
- in the event of system trouble.
- You can tell your Celery instance to use a configuration module,
- by calling the :meth:`@config_from_object` method:
- .. code-block:: python
- app.config_from_object('celeryconfig')
- This module is often called "``celeryconfig``", but you can use any
- module name.
- A module named ``celeryconfig.py`` must then be available to load from the
- current directory or on the Python path, it could look like this:
- :file:`celeryconfig.py`:
- .. code-block:: python
- broker_url = 'pyamqp://'
- result_backend = 'rpc://'
- task_serializer = 'json'
- result_serializer = 'json'
- accept_content = ['json']
- timezone = 'Europe/Oslo'
- enable_utc = True
- To verify that your configuration file works properly, and doesn't
- contain any syntax errors, you can try to import it:
- .. code-block:: console
- $ python -m celeryconfig
- For a complete reference of configuration options, see :ref:`configuration`.
- To demonstrate the power of configuration files, this is how you'd
- route a misbehaving task to a dedicated queue:
- :file:`celeryconfig.py`:
- .. code-block:: python
- task_routes = {
- 'tasks.add': 'low-priority',
- }
- Or instead of routing it you could rate limit the task
- instead, so that only 10 tasks of this type can be processed in a minute
- (10/m):
- :file:`celeryconfig.py`:
- .. code-block:: python
- task_annotations = {
- 'tasks.add': {'rate_limit': '10/m'}
- }
- If you're using RabbitMQ or Redis as the
- broker then you can also direct the workers to set a new rate limit
- for the task at runtime:
- .. code-block:: console
- $ celery -A tasks control rate_limit tasks.add 10/m
- worker@example.com: OK
- new rate limit set successfully
- See :ref:`guide-routing` to read more about task routing,
- and the :setting:`task_annotations` setting for more about annotations,
- or :ref:`guide-monitoring` for more about remote control commands,
- and how to monitor what your workers are doing.
- Where to go from here
- =====================
- If you want to learn more you should continue to the
- :ref:`Next Steps <next-steps>` tutorial, and after that you
- can study the :ref:`User Guide <guide>`.
- .. _celerytut-troubleshooting:
- Troubleshooting
- ===============
- There's also a troubleshooting section in the :ref:`faq`.
- Worker doesn't start: Permission Error
- --------------------------------------
- - If you're using Debian, Ubuntu or other Debian-based distributions:
- Debian recently renamed the :file:`/dev/shm` special file
- to :file:`/run/shm`.
- A simple workaround is to create a symbolic link:
- .. code-block:: console
- # ln -s /run/shm /dev/shm
- - Others:
- If you provide any of the :option:`--pidfile <celery worker --pidfile>`,
- :option:`--logfile <celery worker --logfile>` or
- :option:`--statedb <celery worker --statedb>` arguments, then you must
- make sure that they point to a file/directory that's writable and
- readable by the user starting the worker.
- Result backend doesn't work or tasks are always in ``PENDING`` state
- --------------------------------------------------------------------
- All tasks are :state:`PENDING` by default, so the state would've been
- better named "unknown". Celery doesn't update any state when a task
- is sent, and any task with no history is assumed to be pending (you know
- the task id after all).
- 1) Make sure that the task doesn't have ``ignore_result`` enabled.
- Enabling this option will force the worker to skip updating
- states.
- 2) Make sure the :setting:`task_ignore_result` setting isn't enabled.
- 3) Make sure that you don't have any old workers still running.
- It's easy to start multiple workers by accident, so make sure
- that the previous worker is properly shutdown before you start a new one.
- An old worker that aren't configured with the expected result backend
- may be running and is hijacking the tasks.
- The :option:`--pidfile <celery worker --pidfile>` argument can be set to
- an absolute path to make sure this doesn't happen.
- 4) Make sure the client is configured with the right backend.
- If for some reason the client is configured to use a different backend
- than the worker, you won't be able to receive the result,
- so make sure the backend is correct by inspecting it:
- .. code-block:: pycon
- >>> result = task.delay()
- >>> print(result.backend)
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