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- .. _guide-routing:
- ===============
- Routing Tasks
- ===============
- .. note::
- Alternate routing concepts like topic and fanout may not be
- available for all transports, please consult the
- :ref:`transport comparison table <kombu:transport-comparison>`.
- .. contents::
- :local:
- .. _routing-basics:
- Basics
- ======
- .. _routing-automatic:
- Automatic routing
- -----------------
- The simplest way to do routing is to use the
- :setting:`CELERY_CREATE_MISSING_QUEUES` setting (on by default).
- With this setting on, a named queue that is not already defined in
- :setting:`CELERY_QUEUES` will be created automatically. This makes it easy to
- perform simple routing tasks.
- Say you have two servers, `x`, and `y` that handles regular tasks,
- and one server `z`, that only handles feed related tasks. You can use this
- configuration::
- CELERY_ROUTES = {'feed.tasks.import_feed': {'queue': 'feeds'}}
- With this route enabled import feed tasks will be routed to the
- `"feeds"` queue, while all other tasks will be routed to the default queue
- (named `"celery"` for historical reasons).
- Now you can start server `z` to only process the feeds queue like this:
- .. code-block:: bash
- user@z:/$ celery worker -Q feeds
- You can specify as many queues as you want, so you can make this server
- process the default queue as well:
- .. code-block:: bash
- user@z:/$ celery worker -Q feeds,celery
- .. _routing-changing-default-queue:
- Changing the name of the default queue
- ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
- You can change the name of the default queue by using the following
- configuration:
- .. code-block:: python
- from kombu import Exchange, Queue
- CELERY_DEFAULT_QUEUE = 'default'
- CELERY_QUEUES = (
- Queue('default', Exchange('default'), routing_key='default'),
- )
- .. _routing-autoqueue-details:
- How the queues are defined
- ~~~~~~~~~~~~~~~~~~~~~~~~~~
- The point with this feature is to hide the complex AMQP protocol for users
- with only basic needs. However -- you may still be interested in how these queues
- are declared.
- A queue named `"video"` will be created with the following settings:
- .. code-block:: python
- {'exchange': 'video',
- 'exchange_type': 'direct',
- 'routing_key': 'video'}
- The non-AMQP backends like `ghettoq` does not support exchanges, so they
- require the exchange to have the same name as the queue. Using this design
- ensures it will work for them as well.
- .. _routing-manual:
- Manual routing
- --------------
- Say you have two servers, `x`, and `y` that handles regular tasks,
- and one server `z`, that only handles feed related tasks, you can use this
- configuration:
- .. code-block:: python
- from kombu import Queue
- CELERY_DEFAULT_QUEUE = 'default'
- CELERY_QUEUES = (
- Queue('default', routing_key='task.#'),
- Queue('feed_tasks', routing_key='feed.#'),
- )
- CELERY_DEFAULT_EXCHANGE = 'tasks'
- CELERY_DEFAULT_EXCHANGE_TYPE = 'topic'
- CELERY_DEFAULT_ROUTING_KEY = 'task.default'
- :setting:`CELERY_QUEUES` is a list of :class:`~kombu.entitity.Queue`
- instances.
- If you don't set the exchange or exchange type values for a key, these
- will be taken from the :setting:`CELERY_DEFAULT_EXCHANGE` and
- :setting:`CELERY_DEFAULT_EXCHANGE_TYPE` settings.
- To route a task to the `feed_tasks` queue, you can add an entry in the
- :setting:`CELERY_ROUTES` setting:
- .. code-block:: python
- CELERY_ROUTES = {
- 'feeds.tasks.import_feed': {
- 'queue': 'feed_tasks',
- 'routing_key': 'feed.import',
- },
- }
- You can also override this using the `routing_key` argument to
- :meth:`Task.apply_async`, or :func:`~celery.execute.send_task`:
- >>> from feeds.tasks import import_feed
- >>> import_feed.apply_async(args=['http://cnn.com/rss'],
- ... queue='feed_tasks',
- ... routing_key='feed.import')
- To make server `z` consume from the feed queue exclusively you can
- start it with the ``-Q`` option:
- .. code-block:: bash
- user@z:/$ celery worker -Q feed_tasks --hostname=z@%h
- Servers `x` and `y` must be configured to consume from the default queue:
- .. code-block:: bash
- user@x:/$ celery worker -Q default --hostname=x@%h
- user@y:/$ celery worker -Q default --hostname=y@%h
- If you want, you can even have your feed processing worker handle regular
- tasks as well, maybe in times when there's a lot of work to do:
- .. code-block:: python
- user@z:/$ celery worker -Q feed_tasks,default --hostname=z@%h
- If you have another queue but on another exchange you want to add,
- just specify a custom exchange and exchange type:
- .. code-block:: python
- from kombu import Exchange, Queue
- CELERY_QUEUES = (
- Queue('feed_tasks', routing_key='feed.#'),
- Queue('regular_tasks', routing_key='task.#'),
- Queue('image_tasks', exchange=Exchange('mediatasks', type='direct'),
- routing_key='image.compress'),
- )
- If you're confused about these terms, you should read up on AMQP.
- .. seealso::
- In addition to the :ref:`amqp-primer` below, there's
- `Rabbits and Warrens`_, an excellent blog post describing queues and
- exchanges. There's also AMQP in 10 minutes*: `Flexible Routing Model`_,
- and `Standard Exchange Types`_. For users of RabbitMQ the `RabbitMQ FAQ`_
- could be useful as a source of information.
- .. _`Rabbits and Warrens`: http://blogs.digitar.com/jjww/2009/01/rabbits-and-warrens/
- .. _`Flexible Routing Model`: http://bit.ly/95XFO1
- .. _`Standard Exchange Types`: http://bit.ly/EEWca
- .. _`RabbitMQ FAQ`: http://www.rabbitmq.com/faq.html
- .. _amqp-primer:
- AMQP Primer
- ===========
- Messages
- --------
- A message consists of headers and a body. Celery uses headers to store
- the content type of the message and its content encoding. The
- content type is usually the serialization format used to serialize the
- message. The body contains the name of the task to execute, the
- task id (UUID), the arguments to apply it with and some additional
- metadata -- like the number of retries or an ETA.
- This is an example task message represented as a Python dictionary:
- .. code-block:: python
- {'task': 'myapp.tasks.add',
- 'id': '54086c5e-6193-4575-8308-dbab76798756',
- 'args': [4, 4],
- 'kwargs': {}}
- .. _amqp-producers-consumers-brokers:
- Producers, consumers and brokers
- --------------------------------
- The client sending messages is typically called a *publisher*, or
- a *producer*, while the entity receiving messages is called
- a *consumer*.
- The *broker* is the message server, routing messages from producers
- to consumers.
- You are likely to see these terms used a lot in AMQP related material.
- .. _amqp-exchanges-queues-keys:
- Exchanges, queues and routing keys.
- -----------------------------------
- 1. Messages are sent to exchanges.
- 2. An exchange routes messages to one or more queues. Several exchange types
- exists, providing different ways to do routing, or implementing
- different messaging scenarios.
- 3. The message waits in the queue until someone consumes it.
- 4. The message is deleted from the queue when it has been acknowledged.
- The steps required to send and receive messages are:
- 1. Create an exchange
- 2. Create a queue
- 3. Bind the queue to the exchange.
- Celery automatically creates the entities necessary for the queues in
- :setting:`CELERY_QUEUES` to work (except if the queue's `auto_declare`
- setting is set to :const:`False`).
- Here's an example queue configuration with three queues;
- One for video, one for images and one default queue for everything else:
- .. code-block:: python
- from kombu import Exchange, Queue
- CELERY_QUEUES = (
- Queue('default', Exchange('default'), routing_key='default'),
- Queue('videos', Exchange('media'), routing_key='media.video'),
- Queue('images', Exchange('media'), routing_key='media.image'),
- )
- CELERY_DEFAULT_QUEUE = 'default'
- CELERY_DEFAULT_EXCHANGE_TYPE = 'direct'
- CELERY_DEFAULT_ROUTING_KEY = 'default'
- .. _amqp-exchange-types:
- Exchange types
- --------------
- The exchange type defines how the messages are routed through the exchange.
- The exchange types defined in the standard are `direct`, `topic`,
- `fanout` and `headers`. Also non-standard exchange types are available
- as plug-ins to RabbitMQ, like the `last-value-cache plug-in`_ by Michael
- Bridgen.
- .. _`last-value-cache plug-in`:
- http://github.com/squaremo/rabbitmq-lvc-plugin
- .. _amqp-exchange-type-direct:
- Direct exchanges
- ~~~~~~~~~~~~~~~~
- Direct exchanges match by exact routing keys, so a queue bound by
- the routing key `video` only receives messages with that routing key.
- .. _amqp-exchange-type-topic:
- Topic exchanges
- ~~~~~~~~~~~~~~~
- Topic exchanges matches routing keys using dot-separated words, and the
- wildcard characters: ``*`` (matches a single word), and ``#`` (matches
- zero or more words).
- With routing keys like ``usa.news``, ``usa.weather``, ``norway.news`` and
- ``norway.weather``, bindings could be ``*.news`` (all news), ``usa.#`` (all
- items in the USA) or ``usa.weather`` (all USA weather items).
- .. _amqp-api:
- Related API commands
- --------------------
- .. method:: exchange.declare(exchange_name, type, passive,
- durable, auto_delete, internal)
- Declares an exchange by name.
- :keyword passive: Passive means the exchange won't be created, but you
- can use this to check if the exchange already exists.
- :keyword durable: Durable exchanges are persistent. That is - they survive
- a broker restart.
- :keyword auto_delete: This means the queue will be deleted by the broker
- when there are no more queues using it.
- .. method:: queue.declare(queue_name, passive, durable, exclusive, auto_delete)
- Declares a queue by name.
- Exclusive queues can only be consumed from by the current connection.
- Exclusive also implies `auto_delete`.
- .. method:: queue.bind(queue_name, exchange_name, routing_key)
- Binds a queue to an exchange with a routing key.
- Unbound queues will not receive messages, so this is necessary.
- .. method:: queue.delete(name, if_unused=False, if_empty=False)
- Deletes a queue and its binding.
- .. method:: exchange.delete(name, if_unused=False)
- Deletes an exchange.
- .. note::
- Declaring does not necessarily mean "create". When you declare you
- *assert* that the entity exists and that it's operable. There is no
- rule as to whom should initially create the exchange/queue/binding,
- whether consumer or producer. Usually the first one to need it will
- be the one to create it.
- .. _amqp-api-hands-on:
- Hands-on with the API
- ---------------------
- Celery comes with a tool called :program:`celery amqp`
- that is used for command line access to the AMQP API, enabling access to
- administration tasks like creating/deleting queues and exchanges, purging
- queues or sending messages. It can also be used for non-AMQP brokers,
- but different implementation may not implement all commands.
- You can write commands directly in the arguments to :program:`celery amqp`,
- or just start with no arguments to start it in shell-mode:
- .. code-block:: bash
- $ celery amqp
- -> connecting to amqp://guest@localhost:5672/.
- -> connected.
- 1>
- Here ``1>`` is the prompt. The number 1, is the number of commands you
- have executed so far. Type ``help`` for a list of commands available.
- It also supports auto-completion, so you can start typing a command and then
- hit the `tab` key to show a list of possible matches.
- Let's create a queue you can send messages to:
- .. code-block:: bash
- $ celery amqp
- 1> exchange.declare testexchange direct
- ok.
- 2> queue.declare testqueue
- ok. queue:testqueue messages:0 consumers:0.
- 3> queue.bind testqueue testexchange testkey
- ok.
- This created the direct exchange ``testexchange``, and a queue
- named ``testqueue``. The queue is bound to the exchange using
- the routing key ``testkey``.
- From now on all messages sent to the exchange ``testexchange`` with routing
- key ``testkey`` will be moved to this queue. You can send a message by
- using the ``basic.publish`` command::
- 4> basic.publish 'This is a message!' testexchange testkey
- ok.
- Now that the message is sent you can retrieve it again. You can use the
- ``basic.get``` command here, which polls for new messages on the queue
- (which is alright for maintainence tasks, for services you'd want to use
- ``basic.consume`` instead)
- Pop a message off the queue::
- 5> basic.get testqueue
- {'body': 'This is a message!',
- 'delivery_info': {'delivery_tag': 1,
- 'exchange': u'testexchange',
- 'message_count': 0,
- 'redelivered': False,
- 'routing_key': u'testkey'},
- 'properties': {}}
- AMQP uses acknowledgment to signify that a message has been received
- and processed successfully. If the message has not been acknowledged
- and consumer channel is closed, the message will be delivered to
- another consumer.
- Note the delivery tag listed in the structure above; Within a connection
- channel, every received message has a unique delivery tag,
- This tag is used to acknowledge the message. Also note that
- delivery tags are not unique across connections, so in another client
- the delivery tag `1` might point to a different message than in this channel.
- You can acknowledge the message you received using ``basic.ack``::
- 6> basic.ack 1
- ok.
- To clean up after our test session you should delete the entities you created::
- 7> queue.delete testqueue
- ok. 0 messages deleted.
- 8> exchange.delete testexchange
- ok.
- .. _routing-tasks:
- Routing Tasks
- =============
- .. _routing-defining-queues:
- Defining queues
- ---------------
- In Celery available queues are defined by the :setting:`CELERY_QUEUES` setting.
- Here's an example queue configuration with three queues;
- One for video, one for images and one default queue for everything else:
- .. code-block:: python
- default_exchange = Exchange('default', type='direct')
- media_exchange = Exchange('media', type='direct')
- CELERY_QUEUES = (
- Queue('default', default_exchange, routing_key='default'),
- Queue('videos', media_exchange, routing_key='media.video'),
- Queue('images', media_exchange, routing_key='media.image')
- )
- CELERY_DEFAULT_QUEUE = 'default'
- CELERY_DEFAULT_EXCHANGE = 'default'
- CELERY_DEFAULT_ROUTING_KEY = 'default'
- Here, the :setting:`CELERY_DEFAULT_QUEUE` will be used to route tasks that
- doesn't have an explicit route.
- The default exchange, exchange type and routing key will be used as the
- default routing values for tasks, and as the default values for entries
- in :setting:`CELERY_QUEUES`.
- .. _routing-task-destination:
- Specifying task destination
- ---------------------------
- The destination for a task is decided by the following (in order):
- 1. The :ref:`routers` defined in :setting:`CELERY_ROUTES`.
- 2. The routing arguments to :func:`Task.apply_async`.
- 3. Routing related attributes defined on the :class:`~celery.task.base.Task`
- itself.
- It is considered best practice to not hard-code these settings, but rather
- leave that as configuration options by using :ref:`routers`;
- This is the most flexible approach, but sensible defaults can still be set
- as task attributes.
- .. _routers:
- Routers
- -------
- A router is a class that decides the routing options for a task.
- All you need to define a new router is to create a class with a
- ``route_for_task`` method:
- .. code-block:: python
- class MyRouter(object):
- def route_for_task(self, task, args=None, kwargs=None):
- if task == 'myapp.tasks.compress_video':
- return {'exchange': 'video',
- 'exchange_type': 'topic',
- 'routing_key': 'video.compress'}
- return None
- If you return the ``queue`` key, it will expand with the defined settings of
- that queue in :setting:`CELERY_QUEUES`:
- .. code-block:: javascript
- {'queue': 'video', 'routing_key': 'video.compress'}
- becomes -->
- .. code-block:: javascript
- {'queue': 'video',
- 'exchange': 'video',
- 'exchange_type': 'topic',
- 'routing_key': 'video.compress'}
- You install router classes by adding them to the :setting:`CELERY_ROUTES`
- setting::
- CELERY_ROUTES = (MyRouter(), )
- Router classes can also be added by name::
- CELERY_ROUTES = ('myapp.routers.MyRouter', )
- For simple task name -> route mappings like the router example above,
- you can simply drop a dict into :setting:`CELERY_ROUTES` to get the
- same behavior:
- .. code-block:: python
- CELERY_ROUTES = ({'myapp.tasks.compress_video': {
- 'queue': 'video',
- 'routing_key': 'video.compress'
- }}, )
- The routers will then be traversed in order, it will stop at the first router
- returning a true value, and use that as the final route for the task.
- Broadcast
- ---------
- Celery can also support broadcast routing.
- Here is an example exchange ``broadcast_tasks`` that delivers
- copies of tasks to all workers connected to it:
- .. code-block:: python
- from kombu.common import Broadcast
- CELERY_QUEUES = (Broadcast('broadcast_tasks'), )
- CELERY_ROUTES = {'tasks.reload_cache': {'queue': 'broadcast_tasks'}}
- Now the ``tasks.reload_tasks`` task will be sent to every
- worker consuming from this queue.
- .. admonition:: Broadcast & Results
- Note that Celery result does not define what happens if two
- tasks have the same task_id. If the same task is distributed to more
- than one worker, then the state history may not be preserved.
- It is a good idea to set the ``task.ignore_result`` attribute in
- this case.
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