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Docker Local Scheduler

New

Subcommands introduced in 0.12.12

scheduler-docker-local:report [<app>] [<flag>]              # Displays a scheduler-docker-local report for one or more apps
scheduler-docker-local:set <app> <key> (<value>)            # Set or clear a scheduler-docker-local property for an app

New

Introduced in 0.12.0

Dokku natively includes functionality to manage application lifecycles for a single server using the scheduler-docker-local plugin. It is the default scheduler, but as with all schedulers, it is set on a per-application basis. The scheduler can currently be overridden by running the following command:

dokku scheduler:set node-js-app selected docker-local

As it is the default, unsetting the selected scheduler property is also a valid way to reset the scheduler.

dokku scheduler:set node-js-app selected

Usage

Disabling chown of persistent storage

The scheduler-docker-local plugin will ensure your storage mounts are owned by either herokuishuser or the overridden value you have set in DOKKU_APP_USER. You may disable this by running the following scheduler-docker-local:set command for your application:

dokku scheduler-docker-local:set node-js-app disable-chown true

Once set, you may re-enable it by setting a blank value for disable-chown:

dokku scheduler-docker-local:set node-js-app disable-chown

Disabling the init process

The scheduler-docker-local injects an init process by default via the --init. For some apps - such as those where the built docker image uses S6 as the init - this may be undesirable and cause issues with process starts. You may disable this by running the following scheduler-docker-local:set command for your application:

dokku scheduler-docker-local:set node-js-app init-process false

Once set, you may re-enable it by setting a blank value for init-process:

dokku scheduler-docker-local:set node-js-app init-process

All image containers with the label org.opencontainers.image.vendor=linuxserver.io will have the automatic init process injection force-disabled without further intervention.

Deploying Process Types in Parallel

New

Introduced in 0.25.5

By default, Dokku deploys an app's processes one-by-one in order, with the web process being deployed first. Deployment parallelism may be achieved by setting the parallel-schedule-count property, which defaults to 1. Increasing this number increases the number of process types that may be deployed in parallel (with the web process being the exception).

# Increase parallelism from 1 process type at a time to 4 process types at a time.
dokku scheduler-docker-local:set node-js-app parallel-schedule-count 4

Once set, you may reset it by setting a blank value for parallel-schedule-count:

dokku scheduler-docker-local:set node-js-app parallel-schedule-count

If the value of parallel-schedule-count is increased and a given process type fails to schedule successfully, then any in-flight process types will continue to be processed, while all process types that have not been scheduled will be skipped before the deployment finally fails.

Container scheduling output is shown in the order it is received, and thus may be out of order in case of output to stderr.

Note that increasing the value of parallel-schedule-count may significantly impact CPU utilization on your host as your app containers - and their respective processes - start up. Setting a value higher than the number of available CPUs is discouraged. It is recommended that users carefully set this value so as not to overburden their server.

Increasing parallelism within a process deploy

New

Introduced in 0.26.0

By default, Dokku will deploy one instance of a given process type at a time. This can be increased by customizing the app.json formation key to include a max_parallel key for the given process type.

The formation key should be specified as follows in the app.json file:

{
  "formation": {
    "web": {
      "max_parallel": 1
    },
    "worker": {
      "max_parallel": 4
    }
  }
}

Omitting or removing the entry will result in parallelism for that process type to return to 1 entry at a time. This can be combined with the parallel-schedule-count property to speed up deployments.

Note that increasing the value of max_parallel may significantly impact CPU utilization on your host as your app containers - and their respective processes - start up. Setting a value higher than the number of available CPUs is discouraged. It is recommended that users carefully set this value so as not to overburden their server.

See the app.json location documentation for more information on where to place your app.json file.

Scheduler Interface

The following sections describe implemented scheduler functionality for the docker-local scheduler.

Implemented Commands and Triggers

This plugin implements various functionality through plugn triggers to integrate with Docker for running apps on a single server. The following functionality is supported by the scheduler-docker-local plugin.

  • apps:clone
  • apps:destroy
  • apps:rename
  • deploy
  • enter
  • logs
  • ps:inspect
  • ps:stop
  • run

Logging support

App logs for the logs command are fetched from running containers via the docker cli. To persist logs across deployments, consider using Dokku's vector integration to ship logs to another service or a third-party platform.

Supported Resource Management Properties

The docker-local scheduler supports a minimal list of resource limits and reservations. The following properties are supported:

Resource Limits

  • cpu: (docker option: --cpus), is specified in number of CPUs a process can access.
    • See the "CPU" section of the Docker Runtime Options documentation for more information.
  • memory: (docker option: --memory) should be specified with a suffix of b (bytes), k (kilobytes), m (megabytes), g (gigabytes). Default unit is m (megabytes).
    • See the "Memory" section of the Docker Runtime Options documentation for more information.
  • memory-swap: (docker option: --memory-swap) should be specified with a suffix of b (bytes), k (kilobytes), m (megabytes), g (gigabytes)
    • See the "Memory" section of the Docker Runtime Options documentation for more information.
  • nvidia-gpus: (docker option: --gpus), is specified in number of Nvidia GPUs a process can access.
    • See the "GPU" section of the Docker Runtime Options documentation for more information.

Resource Reservations

  • memory: (docker option: --memory-reservation) should be specified with a suffix of b (bytes), k (kilobytes), m (megabytes), g (gigabytes). Default unit is m (megabytes).
    • See the "Memory" section of the Docker Runtime Options documentation for more information.