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- .. _guide-monitoring:
- =================================
- Monitoring and Management Guide
- =================================
- .. contents::
- :local:
- Introduction
- ============
- There are several tools available to monitor and inspect Celery clusters.
- This document describes some of these, as as well as
- features related to monitoring, like events and broadcast commands.
- .. _monitoring-workers:
- Workers
- =======
- .. _monitoring-control:
- Management Command-line Utilities (``inspect``/``control``)
- -----------------------------------------------------------
- :program:`celery` can also be used to inspect
- and manage worker nodes (and to some degree tasks).
- To list all the commands available do:
- .. code-block:: console
- $ celery help
- or to get help for a specific command do:
- .. code-block:: console
- $ celery <command> --help
- Commands
- ~~~~~~~~
- * **shell**: Drop into a Python shell.
- The locals will include the ``celery`` variable, which is the current app.
- Also all known tasks will be automatically added to locals (unless the
- :option:`--without-tasks <celery shell --without-tasks>` flag is set).
- Uses :pypi:`Ipython`, :pypi:`bpython`, or regular python in that order if
- installed. You can force an implementation using
- :option:`--ipython <celery shell --ipython>`,
- :option:`--bpython <celery shell --bpython>`, or
- :option:`--python <celery shell --python>`.
- * **status**: List active nodes in this cluster
- .. code-block:: console
- $ celery -A proj status
- * **result**: Show the result of a task
- .. code-block:: console
- $ celery -A proj result -t tasks.add 4e196aa4-0141-4601-8138-7aa33db0f577
- Note that you can omit the name of the task as long as the
- task doesn't use a custom result backend.
- * **purge**: Purge messages from all configured task queues.
- This command will remove all messages from queues configured in
- the :setting:`CELERY_QUEUES` setting:
- .. warning::
- There is no undo for this operation, and messages will
- be permanently deleted!
- .. code-block:: console
- $ celery -A proj purge
- You can also specify the queues to purge using the `-Q` option:
- .. code-block:: console
- $ celery -A proj purge -Q celery,foo,bar
- and exclude queues from being purged using the `-X` option:
- .. code-block:: console
- $ celery -A proj purge -X celery
- * **inspect active**: List active tasks
- .. code-block:: console
- $ celery -A proj inspect active
- These are all the tasks that are currently being executed.
- * **inspect scheduled**: List scheduled ETA tasks
- .. code-block:: console
- $ celery -A proj inspect scheduled
- These are tasks reserved by the worker because they have the
- `eta` or `countdown` argument set.
- * **inspect reserved**: List reserved tasks
- .. code-block:: console
- $ celery -A proj inspect reserved
- This will list all tasks that have been prefetched by the worker,
- and is currently waiting to be executed (does not include tasks
- with an eta).
- * **inspect revoked**: List history of revoked tasks
- .. code-block:: console
- $ celery -A proj inspect revoked
- * **inspect registered**: List registered tasks
- .. code-block:: console
- $ celery -A proj inspect registered
- * **inspect stats**: Show worker statistics (see :ref:`worker-statistics`)
- .. code-block:: console
- $ celery -A proj inspect stats
- * **inspect query_task**: Show information about task(s) by id.
- Any worker having a task in this set of ids reserved/active will respond
- with status and information.
- .. code-block:: console
- $ celery -A proj inspect query_task e9f6c8f0-fec9-4ae8-a8c6-cf8c8451d4f8
- You can also query for information about multiple tasks:
- .. code-block:: console
- $ celery -A proj inspect query_task id1 id2 ... idN
- * **control enable_events**: Enable events
- .. code-block:: console
- $ celery -A proj control enable_events
- * **control disable_events**: Disable events
- .. code-block:: console
- $ celery -A proj control disable_events
- * **migrate**: Migrate tasks from one broker to another (**EXPERIMENTAL**).
- .. code-block:: console
- $ celery -A proj migrate amqp://A.example.com amqp://B.example.cmo
- This command will migrate all the tasks on one broker to another.
- As this command is new and experimental you should be sure to have
- a backup of the data before proceeding.
- .. note::
- All ``inspect`` and ``control`` commands supports a
- :option:`--timeout <celery inspect --timeout>` argument,
- This is the number of seconds to wait for responses.
- You may have to increase this timeout if you're not getting a response
- due to latency.
- .. _inspect-destination:
- Specifying destination nodes
- ~~~~~~~~~~~~~~~~~~~~~~~~~~~~
- By default the inspect and control commands operates on all workers.
- You can specify a single, or a list of workers by using the
- :option:`--destination <celery inspect --destination>` argument:
- .. code-block:: console
- $ celery -A proj inspect -d w1@e.com,w2@e.com reserved
- $ celery -A proj control -d w1@e.com,w2@e.com enable_events
- .. _monitoring-flower:
- Flower: Real-time Celery web-monitor
- ------------------------------------
- Flower is a real-time web based monitor and administration tool for Celery.
- It is under active development, but is already an essential tool.
- Being the recommended monitor for Celery, it obsoletes the Django-Admin
- monitor, ``celerymon`` and the ``ncurses`` based monitor.
- Flower is pronounced like "flow", but you can also use the botanical version
- if you prefer.
- Features
- ~~~~~~~~
- - Real-time monitoring using Celery Events
- - Task progress and history
- - Ability to show task details (arguments, start time, run-time, and more)
- - Graphs and statistics
- - Remote Control
- - View worker status and statistics
- - Shutdown and restart worker instances
- - Control worker pool size
- - View and modify the queues a worker instance consumes from
- - View currently running tasks
- - View scheduled tasks (ETA/countdown)
- - View reserved and revoked tasks
- - Apply time and rate limits
- - Configuration viewer
- - Revoke or terminate tasks
- - HTTP API
- - List workers
- - Shut down a worker
- - Restart worker’s pool
- - Grow worker’s pool
- - Shrink worker’s pool
- - Start consuming from a queue
- - Stop consuming from a queue
- - List tasks
- - List (seen) task types
- - Get a task info
- - Execute a task
- - Execute a task by name
- - Get a task result
- - Change soft and hard time limits for a task
- - Change rate limit for a task
- - Revoke a task
- - OpenID authentication
- **Screenshots**
- .. figure:: ../images/dashboard.png
- :width: 700px
- .. figure:: ../images/monitor.png
- :width: 700px
- More screenshots_:
- .. _screenshots: https://github.com/mher/flower/tree/master/docs/screenshots
- Usage
- ~~~~~
- You can use pip to install Flower:
- .. code-block:: console
- $ pip install flower
- Running the flower command will start a web-server that you can visit:
- .. code-block:: console
- $ celery -A proj flower
- The default port is http://localhost:5555, but you can change this using the
- :option:`--port <flower --port>` argument:
- .. code-block:: console
- $ celery -A proj flower --port=5555
- Broker URL can also be passed through the
- :option:`--broker <celery --broker>` argument :
- .. code-block:: console
- $ celery flower --broker=amqp://guest:guest@localhost:5672//
- Then, you can visit flower in your web browser :
- .. code-block:: console
- $ open http://localhost:5555
- Flower has many more features than are detailed here, including
- authorization options. Check out the `official documentation`_ for more
- information.
- .. _official documentation: https://flower.readthedocs.io/en/latest/
- .. _monitoring-celeryev:
- celery events: Curses Monitor
- -----------------------------
- .. versionadded:: 2.0
- `celery events` is a simple curses monitor displaying
- task and worker history. You can inspect the result and traceback of tasks,
- and it also supports some management commands like rate limiting and shutting
- down workers. This monitor was started as a proof of concept, and you
- probably want to use Flower instead.
- Starting:
- .. code-block:: console
- $ celery -A proj events
- You should see a screen like:
- .. figure:: ../images/celeryevshotsm.jpg
- `celery events` is also used to start snapshot cameras (see
- :ref:`monitoring-snapshots`:
- .. code-block:: console
- $ celery -A proj events --camera=<camera-class> --frequency=1.0
- and it includes a tool to dump events to :file:`stdout`:
- .. code-block:: console
- $ celery -A proj events --dump
- For a complete list of options use :option:`--help <celery --help>`:
- .. code-block:: console
- $ celery events --help
- .. _`celerymon`: https://github.com/celery/celerymon/
- .. _monitoring-rabbitmq:
- RabbitMQ
- ========
- To manage a Celery cluster it is important to know how
- RabbitMQ can be monitored.
- RabbitMQ ships with the `rabbitmqctl(1)`_ command,
- with this you can list queues, exchanges, bindings,
- queue lengths, the memory usage of each queue, as well
- as manage users, virtual hosts and their permissions.
- .. note::
- The default virtual host (``"/"``) is used in these
- examples, if you use a custom virtual host you have to add
- the ``-p`` argument to the command, e.g:
- ``rabbitmqctl list_queues -p my_vhost …``
- .. _`rabbitmqctl(1)`: http://www.rabbitmq.com/man/rabbitmqctl.1.man.html
- .. _monitoring-rmq-queues:
- Inspecting queues
- -----------------
- Finding the number of tasks in a queue:
- .. code-block:: console
- $ rabbitmqctl list_queues name messages messages_ready \
- messages_unacknowledged
- Here `messages_ready` is the number of messages ready
- for delivery (sent but not received), `messages_unacknowledged`
- is the number of messages that has been received by a worker but
- not acknowledged yet (meaning it is in progress, or has been reserved).
- `messages` is the sum of ready and unacknowledged messages.
- Finding the number of workers currently consuming from a queue:
- .. code-block:: console
- $ rabbitmqctl list_queues name consumers
- Finding the amount of memory allocated to a queue:
- .. code-block:: console
- $ rabbitmqctl list_queues name memory
- :Tip: Adding the ``-q`` option to `rabbitmqctl(1)`_ makes the output
- easier to parse.
- .. _monitoring-munin:
- Munin
- =====
- This is a list of known Munin plug-ins that can be useful when
- maintaining a Celery cluster.
- * ``rabbitmq-munin``: Munin plug-ins for RabbitMQ.
- https://github.com/ask/rabbitmq-munin
- * ``celery_tasks``: Monitors the number of times each task type has
- been executed (requires `celerymon`).
- http://exchange.munin-monitoring.org/plugins/celery_tasks-2/details
- * ``celery_task_states``: Monitors the number of tasks in each state
- (requires `celerymon`).
- http://exchange.munin-monitoring.org/plugins/celery_tasks/details
- .. _monitoring-events:
- Events
- ======
- The worker has the ability to send a message whenever some event
- happens. These events are then captured by tools like Flower,
- and :program:`celery events` to monitor the cluster.
- .. _monitoring-snapshots:
- Snapshots
- ---------
- .. versionadded:: 2.1
- Even a single worker can produce a huge amount of events, so storing
- the history of all events on disk may be very expensive.
- A sequence of events describes the cluster state in that time period,
- by taking periodic snapshots of this state you can keep all history, but
- still only periodically write it to disk.
- To take snapshots you need a Camera class, with this you can define
- what should happen every time the state is captured; You can
- write it to a database, send it by email or something else entirely.
- :program:`celery events` is then used to take snapshots with the camera,
- for example if you want to capture state every 2 seconds using the
- camera ``myapp.Camera`` you run :program:`celery events` with the following
- arguments:
- .. code-block:: console
- $ celery -A proj events -c myapp.Camera --frequency=2.0
- .. _monitoring-camera:
- Custom Camera
- ~~~~~~~~~~~~~
- Cameras can be useful if you need to capture events and do something
- with those events at an interval. For real-time event processing
- you should use :class:`@events.Receiver` directly, like in
- :ref:`event-real-time-example`.
- Here is an example camera, dumping the snapshot to screen:
- .. code-block:: python
- from pprint import pformat
- from celery.events.snapshot import Polaroid
- class DumpCam(Polaroid):
- clear_after = True # clear after flush (incl, state.event_count).
- def on_shutter(self, state):
- if not state.event_count:
- # No new events since last snapshot.
- return
- print('Workers: {0}'.format(pformat(state.workers, indent=4)))
- print('Tasks: {0}'.format(pformat(state.tasks, indent=4)))
- print('Total: {0.event_count} events, {0.task_count} tasks'.format(
- state))
- See the API reference for :mod:`celery.events.state` to read more
- about state objects.
- Now you can use this cam with :program:`celery events` by specifying
- it with the :option:`-c <celery events -c>` option:
- .. code-block:: console
- $ celery -A proj events -c myapp.DumpCam --frequency=2.0
- Or you can use it programmatically like this:
- .. code-block:: python
- from celery import Celery
- from myapp import DumpCam
- def main(app, freq=1.0):
- state = app.events.State()
- with app.connection() as connection:
- recv = app.events.Receiver(connection, handlers={'*': state.event})
- with DumpCam(state, freq=freq):
- recv.capture(limit=None, timeout=None)
- if __name__ == '__main__':
- app = Celery(broker='amqp://guest@localhost//')
- main(app)
- .. _event-real-time-example:
- Real-time processing
- --------------------
- To process events in real-time you need the following
- - An event consumer (this is the ``Receiver``)
- - A set of handlers called when events come in.
- You can have different handlers for each event type,
- or a catch-all handler can be used ('*')
- - State (optional)
- :class:`@events.State` is a convenient in-memory representation
- of tasks and workers in the cluster that is updated as events come in.
- It encapsulates solutions for many common things, like checking if a
- worker is still alive (by verifying heartbeats), merging event fields
- together as events come in, making sure time-stamps are in sync, and so on.
- Combining these you can easily process events in real-time:
- .. code-block:: python
- from celery import Celery
- def my_monitor(app):
- state = app.events.State()
- def announce_failed_tasks(event):
- state.event(event)
- # task name is sent only with -received event, and state
- # will keep track of this for us.
- task = state.tasks.get(event['uuid'])
- print('TASK FAILED: %s[%s] %s' % (
- task.name, task.uuid, task.info(),))
- with app.connection() as connection:
- recv = app.events.Receiver(connection, handlers={
- 'task-failed': announce_failed_tasks,
- '*': state.event,
- })
- recv.capture(limit=None, timeout=None, wakeup=True)
- if __name__ == '__main__':
- app = Celery(broker='amqp://guest@localhost//')
- my_monitor(app)
- .. note::
- The ``wakeup`` argument to ``capture`` sends a signal to all workers
- to force them to send a heartbeat. This way you can immediately see
- workers when the monitor starts.
- You can listen to specific events by specifying the handlers:
- .. code-block:: python
- from celery import Celery
- def my_monitor(app):
- state = app.events.State()
- def announce_failed_tasks(event):
- state.event(event)
- # task name is sent only with -received event, and state
- # will keep track of this for us.
- task = state.tasks.get(event['uuid'])
- print('TASK FAILED: %s[%s] %s' % (
- task.name, task.uuid, task.info(),))
- with app.connection() as connection:
- recv = app.events.Receiver(connection, handlers={
- 'task-failed': announce_failed_tasks,
- })
- recv.capture(limit=None, timeout=None, wakeup=True)
- if __name__ == '__main__':
- app = Celery(broker='amqp://guest@localhost//')
- my_monitor(app)
- .. _event-reference:
- Event Reference
- ===============
- This list contains the events sent by the worker, and their arguments.
- .. _event-reference-task:
- Task Events
- -----------
- .. event:: task-sent
- task-sent
- ~~~~~~~~~
- :signature: ``task-sent(uuid, name, args, kwargs, retries, eta, expires,
- queue, exchange, routing_key, root_id, parent_id)``
- Sent when a task message is published and
- the :setting:`task_send_sent_event` setting is enabled.
- .. event:: task-received
- task-received
- ~~~~~~~~~~~~~
- :signature: ``task-received(uuid, name, args, kwargs, retries, eta, hostname,
- timestamp, root_id, parent_id)``
- Sent when the worker receives a task.
- .. event:: task-started
- task-started
- ~~~~~~~~~~~~
- :signature: ``task-started(uuid, hostname, timestamp, pid)``
- Sent just before the worker executes the task.
- .. event:: task-succeeded
- task-succeeded
- ~~~~~~~~~~~~~~
- :signature: ``task-succeeded(uuid, result, runtime, hostname, timestamp)``
- Sent if the task executed successfully.
- Run-time is the time it took to execute the task using the pool.
- (Starting from the task is sent to the worker pool, and ending when the
- pool result handler callback is called).
- .. event:: task-failed
- task-failed
- ~~~~~~~~~~~
- :signature: ``task-failed(uuid, exception, traceback, hostname, timestamp)``
- Sent if the execution of the task failed.
- .. event:: task-rejected
- task-rejected
- ~~~~~~~~~~~~~
- :signature: ``task-rejected(uuid, requeued)``
- The task was rejected by the worker, possibly to be re-queued or moved to a
- dead letter queue.
- .. event:: task-revoked
- task-revoked
- ~~~~~~~~~~~~
- :signature: ``task-revoked(uuid, terminated, signum, expired)``
- Sent if the task has been revoked (Note that this is likely
- to be sent by more than one worker).
- - ``terminated`` is set to true if the task process was terminated,
- and the ``signum`` field set to the signal used.
- - ``expired`` is set to true if the task expired.
- .. event:: task-retried
- task-retried
- ~~~~~~~~~~~~
- :signature: ``task-retried(uuid, exception, traceback, hostname, timestamp)``
- Sent if the task failed, but will be retried in the future.
- .. _event-reference-worker:
- Worker Events
- -------------
- .. event:: worker-online
- worker-online
- ~~~~~~~~~~~~~
- :signature: ``worker-online(hostname, timestamp, freq, sw_ident, sw_ver, sw_sys)``
- The worker has connected to the broker and is online.
- - `hostname`: Nodename of the worker.
- - `timestamp`: Event time-stamp.
- - `freq`: Heartbeat frequency in seconds (float).
- - `sw_ident`: Name of worker software (e.g. ``py-celery``).
- - `sw_ver`: Software version (e.g. 2.2.0).
- - `sw_sys`: Operating System (e.g. Linux/Darwin).
- .. event:: worker-heartbeat
- worker-heartbeat
- ~~~~~~~~~~~~~~~~
- :signature: ``worker-heartbeat(hostname, timestamp, freq, sw_ident, sw_ver, sw_sys,
- active, processed)``
- Sent every minute, if the worker has not sent a heartbeat in 2 minutes,
- it is considered to be offline.
- - `hostname`: Nodename of the worker.
- - `timestamp`: Event time-stamp.
- - `freq`: Heartbeat frequency in seconds (float).
- - `sw_ident`: Name of worker software (e.g. ``py-celery``).
- - `sw_ver`: Software version (e.g. 2.2.0).
- - `sw_sys`: Operating System (e.g. Linux/Darwin).
- - `active`: Number of currently executing tasks.
- - `processed`: Total number of tasks processed by this worker.
- .. event:: worker-offline
- worker-offline
- ~~~~~~~~~~~~~~
- :signature: ``worker-offline(hostname, timestamp, freq, sw_ident, sw_ver, sw_sys)``
- The worker has disconnected from the broker.
|