Custom Initialization

Often we want to run custom code when we start up or tear down a scheduler or worker. We might do this manually with functions like or Client.run_on_scheduler, but this is error prone and difficult to automate.

To resolve this, Dask includes a few mechanisms to run arbitrary code around the lifecycle of a Scheduler or Worker.

Preload Scripts

Both dask-scheduler and dask-worker support a --preload option that allows custom initialization of each scheduler/worker respectively. A module or Python file passed as a --preload value is guaranteed to be imported before establishing any connection. A dask_setup(service) function is called if found, with a Scheduler or Worker instance as the argument. As the service stops, dask_teardown(service) is called if present.

To support additional configuration, a single --preload module may register additional command-line arguments by exposing dask_setup as a Click command. This command will be used to parse additional arguments provided to dask-worker or dask-scheduler and will be called before service initialization.

As an example, consider the following file that creates a scheduler plugin and registers it with the scheduler

import click

from distributed.diagnostics.plugin import SchedulerPlugin

class MyPlugin(SchedulerPlugin):
    def __init__(self, print_count):
      self.print_count = print_count

    def add_worker(self, scheduler=None, worker=None, **kwargs):
        print("Added a new worker at:", worker)
        if self.print_count and scheduler is not None:
            print("Total workers:", len(scheduler.workers))

@click.option("--print-count/--no-print-count", default=False)
def dask_setup(scheduler, print_count):
    plugin = MyPlugin(print_count)

We can then run this preload script by referring to its filename (or module name if it is on the path) when we start the scheduler:

dask-scheduler --preload --print-count

Worker Lifecycle Plugins

You can also create a class with setup, teardown, and transition methods, and register that class with the scheduler to give to every worker using the Client.register_worker_plugin method.

Client.register_worker_plugin([plugin, name]) Registers a lifecycle worker plugin for all current and future workers.
Client.register_worker_plugin(plugin=None, name=None)

Registers a lifecycle worker plugin for all current and future workers.

This registers a new object to handle setup, task state transitions and teardown for workers in this cluster. The plugin will instantiate itself on all currently connected workers. It will also be run on any worker that connects in the future.

The plugin may include methods setup, teardown, and transition. See the dask.distributed.WorkerPlugin class or the examples below for the interface and docstrings. It must be serializable with the pickle or cloudpickle modules.

If the plugin has a name attribute, or if the name= keyword is used then that will control idempotency. A a plugin with that name has already registered then any future plugins will not run.

For alternatives to plugins, you may also wish to look into preload scripts.

plugin: WorkerPlugin

The plugin object to pass to the workers

name: str, optional

A name for the plugin. Registering a plugin with the same name will have no effect.

See also



>>> class MyPlugin(WorkerPlugin):
...     def __init__(self, *args, **kwargs):
...         pass  # the constructor is up to you
...     def setup(self, worker: dask.distributed.Worker):
...         pass
...     def teardown(self, worker: dask.distributed.Worker):
...         pass
...     def transition(self, key: str, start: str, finish: str, **kwargs):
...         pass
>>> plugin = MyPlugin(1, 2, 3)
>>> client.register_worker_plugin(plugin)

You can get access to the plugin with the get_worker function

>>> client.register_worker_plugin(other_plugin, name='my-plugin')
>>> def f():
...    worker = get_worker()
...    plugin = worker.plugins['my-plugin']
...    return plugin.my_state
>>> future =