A Rails engine for queuing and managing maintenance tasks.
By ”maintenance task”, this project means a data migration, i.e. code that
changes data in the database, often to support schema migrations. For example,
in order to introduce a new NOT NULL
column, it has to be added as nullable
first, backfilled with values, before finally being changed to NOT NULL
. This
engine helps with the second part of this process, backfilling.
Maintenance tasks are collection-based tasks, usually using Active Record, that update the data in your database. They can be paused or interrupted. Maintenance tasks can operate in batches and use throttling to control the load on your database.
Maintenance tasks aren't meant to happen on a regular basis. They're used as needed, or as one-offs. Normally maintenance tasks are ephemeral, so they are used briefly and then deleted.
The Rails engine has a web-based UI for listing maintenance tasks, seeing their status, and starting, pausing and restarting them.
Maintenance tasks have a limited, specific job UI. While the engine can be used to provide a user interface for other data changes, such as data changes for support requests, we recommend you use regular application code for those use cases instead. These inevitably require more flexibility than this engine will be able to provide.
If your task shouldn't run as an Active Job, it probably isn't a good match for this gem. If your task doesn't need to run in the background, consider a runner script instead. If your task doesn't need to be interruptible, consider a normal Active Job.
Maintenance tasks can be interrupted between iterations. If your task isn't collection-based (no CSV file or database table) or has very large batches, it will get limited benefit from throttling (pausing between iterations) or interrupting. This might be fine, or the added complexity of maintenance Tasks over normal Active Jobs may not be worthwhile.
If your task updates your database schema instead of data, use a migration instead of a maintenance task.
If your task happens regularly, consider Active Jobs with a scheduler or cron, job-iteration jobs and/or custom rails_admin UIs instead of the Maintenance Tasks gem. Maintenance tasks should be ephemeral, to suit their intentionally limited UI. They should not repeat.
To create seed data for a new application, use the provided Rails db/seeds.rb
file instead.
If your application can't handle a half-completed migration, maintenance tasks are probably the wrong tool. Remember that maintenance tasks are intentionally pausable and can be cancelled halfway.
To install the gem and run the install generator, execute:
bundle add maintenance_tasks
bin/rails generate maintenance_tasks:install
The generator creates and runs a migration to add the necessary table to your
database. It also mounts Maintenance Tasks in your config/routes.rb
. By
default the web UI can be accessed in the new /maintenance_tasks
path.
In case you use an exception reporting service (e.g. Bugsnag) you might want to define an error handler. See Customizing the error handler for more information.
The Maintenance Tasks framework relies on Active Job behind the scenes to run Tasks. The default queuing backend for Active Job is asynchronous. It is strongly recommended to change this to a persistent backend so that Task progress is not lost during code or infrastructure changes. For more information on configuring a queuing backend, take a look at the Active Job documentation.
The Maintenance Tasks framework does not support autoloading in :classic
mode.
Please ensure your application is using Zeitwerk to load your code. For more
information, please consult the Rails guides on autoloading and reloading
constants.
The typical Maintenance Tasks workflow is as follows:
- Generate a class describing the Task and the work to be done.
- Run the Task
- either by using the included web UI,
- or by using the command line,
- or by using Ruby.
- Monitor the Task
- either by using the included web UI,
- or by manually checking your task’s run’s status in your database.
- Optionally, delete the Task code if you no longer need it.
A generator is provided to create tasks. Generate a new task by running:
bin/rails generate maintenance_tasks:task update_posts
This creates the task file app/tasks/maintenance/update_posts_task.rb
.
The generated task is a subclass of MaintenanceTasks::Task
that implements:
collection
: return an Active Record Relation or an Array to be iterated over.process
: do the work of your maintenance task on a single record
Optionally, tasks can also implement a custom #count
method, defining the
number of elements that will be iterated over. Your task’s tick_total
will be
calculated automatically based on the collection size, but this value may be
overridden if desired using the #count
method (this might be done, for
example, to avoid the query that would be produced to determine the size of your
collection).
Example:
# app/tasks/maintenance/update_posts_task.rb
module Maintenance
class UpdatePostsTask < MaintenanceTasks::Task
def collection
Post.all
end
def process(post)
post.update!(content: "New content!")
end
end
end
When processing records from an Active Record Relation, records are fetched in
batches internally, and then each record is passed to the #process
method.
Maintenance Tasks will query the database to fetch records in batches of 100 by
default, but the batch size can be modified using the collection_batch_size
macro:
# app/tasks/maintenance/update_posts_task.rb
module Maintenance
class UpdatePostsTask < MaintenanceTasks::Task
# Fetch records in batches of 1000
collection_batch_size(1000)
def collection
Post.all
end
def process(post)
post.update!(content: "New content!")
end
end
end
You can also write a Task that iterates on a CSV file. Note that writing CSV Tasks requires Active Storage to be configured. Ensure that the dependency is specified in your application’s Gemfile, and that you’ve followed the setup instructions. See also Customizing which Active Storage service to use.
Generate a CSV Task by running:
bin/rails generate maintenance_tasks:task import_posts --csv
The generated task is a subclass of MaintenanceTasks::Task
that implements:
process
: do the work of your maintenance task on aCSV::Row
# app/tasks/maintenance/import_posts_task.rb
module Maintenance
class ImportPostsTask < MaintenanceTasks::Task
csv_collection
def process(row)
Post.create!(title: row["title"], content: row["content"])
end
end
end
posts.csv
:
title,content
My Title,Hello World!
The files uploaded to your Active Storage service provider will be renamed to include an ISO 8601 timestamp and the Task name in snake case format.
The implicit #count
method loads and parses the entire file to determine the
accurate number of rows. With files with millions of rows, it takes several
seconds to process. Consider skipping the count (defining a count
that returns
nil
) or use an approximation, eg: count the number of new lines:
def count(task)
task.csv_content.count("\n") - 1
end
Tasks can pass options for Ruby's CSV parser by adding
keyword arguments to csv_collection
:
# app/tasks/maintenance/import_posts_task.rb
module Maintenance
class ImportPosts
csv_collection(skip_lines: /^#/, converters: ->(field) { field.strip })
def process(row)
Post.create!(title: row["title"], content: row["content"])
end
end
end
These options instruct Ruby's CSV parser to skip lines that start with a #
,
and removes the leading and trailing spaces from any field, so that the
following file will be processed identically as the previous example:
posts.csv
:
# A comment
title,content
My Title ,Hello World!
Tasks can process CSVs in batches. Add the in_batches
option to your task’s
csv_collection
macro:
# app/tasks/maintenance/batch_import_posts_task.rb
module Maintenance
class BatchImportPostsTask < MaintenanceTasks::Task
csv_collection(in_batches: 50)
def process(batch_of_rows)
Post.insert_all(post_rows.map(&:to_h))
end
end
end
As with a regular CSV task, ensure you’ve implemented the following method:
process
: do the work of your Task on a batch (array ofCSV::Row
objects).
Note that #count
is calculated automatically based on the number of batches in
your collection, and your Task’s progress will be displayed in terms of batches
(not the total number of rows in your CSV).
Non-batched CSV tasks will have an effective batch size of 1, which can reduce the efficiency of your database operations.
The Maintenance Tasks gem supports processing Active Records in batches. This
can reduce the number of calls your Task makes to the database. Use
ActiveRecord::Batches#in_batches
on the relation returned by your collection
to specify that your Task should process batches instead of records. Active
Record defaults to 1000 records by batch, but a custom size can be specified.
# app/tasks/maintenance/update_posts_in_batches_task.rb
module Maintenance
class UpdatePostsInBatchesTask < MaintenanceTasks::Task
def collection
Post.in_batches
end
def process(batch_of_posts)
batch_of_posts.update_all(content: "New content added on #{Time.now.utc}")
end
end
end
Ensure that you’ve implemented the following methods:
collection
: return anActiveRecord::Batches::BatchEnumerator
.process
: do the work of your Task on a batch (ActiveRecord::Relation
).
Note that #count
is calculated automatically based on the number of batches in
your collection, and your Task’s progress will be displayed in terms of batches
(not the number of records in the relation).
Important! Batches should only be used if #process
is performing a batch
operation such as #update_all
or #delete_all
. If you need to iterate over
individual records, you should define a collection that returns an
ActiveRecord::Relation
. This uses batching internally, but
loads the records with one SQL query. Conversely, batch collections load the
primary keys of the records of the batch first, and then perform an additional
query to load the records when calling each
(or any Enumerable
method)
inside #process
.
Sometimes, you might want to run a Task that performs a single operation, such as enqueuing another background job or querying an external API. The gem supports collection-less tasks.
Generate a collection-less Task by running:
bin/rails generate maintenance_tasks:task no_collection_task --no-collection
The generated task is a subclass of MaintenanceTasks::Task
that implements:
process
: do the work of your maintenance task
# app/tasks/maintenance/no_collection_task.rb
module Maintenance
class NoCollectionTask < MaintenanceTasks::Task
no_collection
def process
SomeAsyncJob.perform_later
end
end
end
If you have a special use case requiring iteration over an unsupported
collection type, such as external resources fetched from some API, you can
implement the enumerator_builder(cursor:)
method in your task.
This method should return an Enumerator
, yielding pairs of [item, cursor]
.
Maintenance Tasks takes care of persisting the current cursor position and will
provide it as the cursor
argument if your task is interrupted or resumed. The
cursor
is stored as a String
, so your custom enumerator should handle
serializing/deserializing the value if required.
# app/tasks/maintenance/custom_enumerator_task.rb
module Maintenance
class CustomEnumeratorTask < MaintenanceTasks::Task
def enumerator_builder(cursor:)
after_id = cursor&.to_i
PostAPI.index(after_id: after_id).map { |post| [post, post.id] }.to_enum
end
def process(post)
Post.create!(post)
end
end
end
Maintenance tasks often modify a lot of data and can be taxing on your database. The gem provides a throttling mechanism that can be used to throttle a Task when a given condition is met. If a Task is throttled (the throttle block returns true), it will be interrupted and retried after a backoff period has passed. The default backoff is 30 seconds.
Specify the throttle condition as a block:
# app/tasks/maintenance/update_posts_throttled_task.rb
module Maintenance
class UpdatePostsThrottledTask < MaintenanceTasks::Task
throttle_on(backoff: 1.minute) do
DatabaseStatus.unhealthy?
end
def collection
Post.all
end
def process(post)
post.update!(content: "New content added on #{Time.now.utc}")
end
end
end
Note that it’s up to you to define a throttling condition that makes sense for
your app. Shopify implements DatabaseStatus.healthy?
to check various MySQL
metrics such as replication lag, DB threads, whether DB writes are available,
etc.
Tasks can define multiple throttle conditions. Throttle conditions are inherited by descendants, and new conditions will be appended without impacting existing conditions.
The backoff can also be specified as a Proc that receives no arguments:
# app/tasks/maintenance/update_posts_throttled_task.rb
module Maintenance
class UpdatePostsThrottledTask < MaintenanceTasks::Task
throttle_on(backoff: -> { RandomBackoffGenerator.generate_duration } ) do
DatabaseStatus.unhealthy?
end
# ...
end
end
Tasks may need additional information, supplied via parameters, to run.
Parameters can be defined as Active Model Attributes in a Task, and then become
accessible to any of Task’s methods: #collection
, #count
, or #process
.
# app/tasks/maintenance/update_posts_via_params_task.rb
module Maintenance
class UpdatePostsViaParamsTask < MaintenanceTasks::Task
attribute :updated_content, :string
validates :updated_content, presence: true
def collection
Post.all
end
def process(post)
post.update!(content: updated_content)
end
end
end
Tasks can leverage Active Model Validations when defining parameters. Arguments supplied to a Task accepting parameters will be validated before the Task starts to run. Since arguments are specified in the user interface via text area inputs, it’s important to check that they conform to the format your Task expects, and to sanitize any inputs if necessary.
Task attributes can be validated using Active Model Validations. Attributes are validated before a Task is enqueued.
If an attribute uses an inclusion validator with a supported in:
option, the
set of values will be used to populate a dropdown in the user interface. The
following types are supported:
- Arrays
- Procs and lambdas that optionally accept the Task instance, and return an Array.
- Callable objects that receive one argument, the Task instance, and return an Array.
- Methods that return an Array, called on the Task instance.
For enumerables that don't match the supported types, a text field will be rendered instead.
The job-iteration gem, on which this gem depends, adds an
order by
clause to the relation returned by the collection
method, in order
to iterate through records. It defaults to order on the id
column.
The job-iteration gem supports configuring which columns are
used to order the cursor, as documented in
build_active_record_enumerator_on_records
.
The maintenance-tasks
gem exposes the ability that job-iteration
provides to
control the cursor columns, through the cursor_columns
method in the
MaintenanceTasks::Task
class. If the cursor_columns
method returns nil
,
the query is ordered by the primary key. If cursor columns values change during
an iteration, records may be skipped or yielded multiple times.
module Maintenance
class UpdatePostsTask < MaintenanceTasks::Task
def cursor_columns
[:created_at, :id]
end
def collection
Post.where(created_at: 2.days.ago...1.hour.ago)
end
def process(post)
post.update!(content: "updated content")
end
end
end
If you are interested in actioning a specific task event, please refer to the Using Task Callbacks section below. However, if you want to subscribe to all events, irrespective of the task, you can use the following Active Support notifications:
enqueued.maintenance_tasks # This event is published when a task has been enqueued by the user.
succeeded.maintenance_tasks # This event is published when a task has finished without any errors.
cancelled.maintenance_tasks # This event is published when the user explicitly halts the execution of a task.
paused.maintenance_tasks # This event is published when a task is paused by the user in the middle of its run.
errored.maintenance_tasks # This event is published when the task's code produces an unhandled exception.
These notifications offer a way to monitor the lifecycle of maintenance tasks in your application.
Usage example:
ActiveSupport::Notifications.subscribe("succeeded.maintenance_tasks") do |*, payload|
task_name = payload[:task_name]
arguments = payload[:arguments]
metadata = payload[:metadata]
job_id = payload[:job_id]
run_id = payload[:run_id]
time_running = payload[:time_running]
started_at = payload[:started_at]
ended_at = payload[:ended_at]
rescue => e
Rails.logger.error(e)
end
ActiveSupport::Notifications.subscribe("errored.maintenance_tasks") do |*, payload|
task_name = payload[:task_name]
error = payload[:error]
error_message = error[:message]
error_class = error[:class]
error_backtrace = error[:backtrace]
rescue => e
Rails.logger.error(e)
end
# or
class MaintenanceTasksInstrumenter < ActiveSupport::Subscriber
attach_to :maintenance_tasks
def enqueued(event)
task_name = event.payload[:task_name]
arguments = event.payload[:arguments]
metadata = event.payload[:metadata]
SlackNotifier.broadcast(SLACK_CHANNEL,
"Job #{task_name} was started by #{metadata[:user_email]}} with arguments #{arguments.to_s.truncate(255)}")
rescue => e
Rails.logger.error(e)
end
end
The Task provides callbacks that hook into its life cycle.
Available callbacks are:
after_start
after_pause
after_interrupt
after_cancel
after_complete
after_error
module Maintenance
class UpdatePostsTask < MaintenanceTasks::Task
after_start :notify
def notify
NotifyJob.perform_later(self.class.name)
end
# ...
end
end
Note: The after_error
callback is guaranteed to complete, so any exceptions
raised in your callback code are ignored. If your after_error
callback code
can raise an exception, you’ll need to rescue it and handle it appropriately
within the callback.
module Maintenance
class UpdatePostsTask < MaintenanceTasks::Task
after_error :dangerous_notify
def dangerous_notify
# This error is rescued and ignored in favour of the original error causing the error flow.
raise NotDeliveredError
end
# ...
end
end
If any of the other callbacks cause an exception, it will be handled by the error handler, and will cause the task to stop running.
Maintenance Tasks relies on the queue adapter configured for your application to run the job which is processing your Task. The guidelines for writing Task may depend on the queue adapter but in general, you should follow these rules:
- Duration of
Task#process
: processing a single element of the collection should take less than 25 seconds, or the duration set as a timeout for Sidekiq or the queue adapter configured in your application. Short batches allow the Task to be safely interrupted and resumed. - Idempotency of
Task#process
: it should be safe to runprocess
multiple times for the same element of the collection. Read more in this Sidekiq best practice. It’s important if the Task errors and you run it again, because the same element that caused the Task to give an error may well be processed again. It especially matters in the situation described above, when the iteration duration exceeds the timeout: if the job is re-enqueued, multiple elements may be processed again.
When the Task runs or resumes, the Runner enqueues a job, which processes the
Task. That job will instantiate a Task object which will live for the duration
of the job. The first time the job runs, it will call count
. Every time a job
runs, it will call collection
on the Task object, and then process
for each
item in the collection, until the job stops. The job stops when either the
collection is finished processing or after the maximum job runtime has expired.
This means memoization can be misleading within process
, since the memoized
values will be available for subsequent calls to process
within the same job.
Still, memoization can be used for throttling or reporting, and you can use
Task callbacks to persist or log a report for example.
The task generator will also create a test file for your task in the folder
test/tasks/maintenance/
. At a minimum, it’s recommended that the #process
method in your task be tested. You may also want to test the #collection
and
#count
methods for your task if they are sufficiently complex.
Example:
# test/tasks/maintenance/update_posts_task_test.rb
require "test_helper"
module Maintenance
class UpdatePostsTaskTest < ActiveSupport::TestCase
test "#process performs a task iteration" do
post = Post.new
Maintenance::UpdatePostsTask.process(post)
assert_equal "New content!", post.content
end
end
end
You should write tests for your #process
method in a CSV Task as well. It
takes a CSV::Row
as an argument. You can pass a row, or a hash with string
keys to #process
from your test.
# test/tasks/maintenance/import_posts_task_test.rb
require "test_helper"
module Maintenance
class ImportPostsTaskTest < ActiveSupport::TestCase
test "#process performs a task iteration" do
assert_difference -> { Post.count } do
Maintenance::UpdatePostsTask.process({
"title" => "My Title",
"content" => "Hello World!",
})
end
post = Post.last
assert_equal "My Title", post.title
assert_equal "Hello World!", post.content
end
end
end
Tests for tasks with parameters need to instantiate the task class in order to
assign attributes. Once the task instance is setup, you may test #process
normally.
# test/tasks/maintenance/update_posts_via_params_task_test.rb
require "test_helper"
module Maintenance
class UpdatePostsViaParamsTaskTest < ActiveSupport::TestCase
setup do
@task = UpdatePostsViaParamsTask.new
@task.updated_content = "Testing"
end
test "#process performs a task iteration" do
assert_difference -> { Post.first.content } do
@task.process(Post.first)
end
end
end
end
Tests for tasks that use custom enumerators need to instantiate the task class
in order to call #enumerator_builder
. Once the task instance is set up,
validate that #enumerator_builder
returns an enumerator yielding pairs of
[item, cursor]
as expected.
# test/tasks/maintenance/custom_enumerating_task.rb
require "test_helper"
module Maintenance
class CustomEnumeratingTaskTest < ActiveSupport::TestCase
setup do
@task = CustomEnumeratingTask.new
end
test "#enumerator_builder returns enumerator yielding pairs of [item, cursor]" do
enum = @task.enumerator_builder(cursor: 0)
expected_items = [:b, :c]
assert_equal 2, enum.size
enum.each_with_index do |item, cursor|
assert_equal expected_items[cursor], item
end
end
test "#process performs a task iteration" do
# ...
end
end
end
You can run your new Task by accessing the Web UI and clicking on "Run".
Alternatively, you can run your Task in the command line:
bundle exec maintenance_tasks perform Maintenance::UpdatePostsTask
To run a Task that processes CSVs from the command line, use the --csv
option:
bundle exec maintenance_tasks perform Maintenance::ImportPostsTask --csv "path/to/my_csv.csv"
The --csv
option also works with CSV content coming from the standard input:
curl "some/remote/csv" |
bundle exec maintenance_tasks perform Maintenance::ImportPostsTask --csv
To run a Task that takes arguments from the command line, use the --arguments
option, passing arguments as a set of <key>:<value> pairs:
bundle exec maintenance_tasks perform Maintenance::ParamsTask \
--arguments post_ids:1,2,3 content:"Hello, World!"
You can also run a Task in Ruby by sending run
with a Task name to Runner:
MaintenanceTasks::Runner.run(name: "Maintenance::UpdatePostsTask")
To run a Task that processes CSVs using the Runner, provide a Hash containing an
open IO object and a filename to run
:
MaintenanceTasks::Runner.run(
name: "Maintenance::ImportPostsTask",
csv_file: { io: File.open("path/to/my_csv.csv"), filename: "my_csv.csv" }
)
To run a Task that takes arguments using the Runner, provide a Hash containing
the set of arguments ({ parameter_name: argument_value }
) to run
:
MaintenanceTasks::Runner.run(
name: "Maintenance::ParamsTask",
arguments: { post_ids: "1,2,3" }
)
The web UI will provide updates on the status of your Task. Here are the states a Task can be in:
- new: A Task that has not yet been run.
- enqueued: A Task that is waiting to be performed after a user has instructed it to run.
- running: A Task that is currently being performed by a job worker.
- pausing: A Task that was paused by a user, but needs to finish work before stopping.
- paused: A Task that was paused by a user and is not performing. It can be resumed.
- interrupted: A Task that has been momentarily interrupted by the job infrastructure.
- cancelling: A Task that was cancelled by a user, but needs to finish work before stopping.
- cancelled: A Task that was cancelled by a user and is not performing. It cannot be resumed.
- succeeded: A Task that finished successfully.
- errored: A Task that encountered an unhandled exception while performing.
Maintenance tasks can be running for a long time, and the purpose of the gem is to make it easy to continue running tasks through deploys, Kubernetes Pod scheduling, Heroku dyno restarts or other infrastructure or code changes.
This means a Task can safely be interrupted, re-enqueued and resumed without any
intervention at the end of an iteration, after the process
method returns.
By default, a running Task will be interrupted after running for more 5 minutes.
This is configured in the job-iteration
gem and can be
tweaked in an initializer if necessary.
Running tasks will also be interrupted and re-enqueued when needed. For example when Sidekiq workers shut down for a deploy:
- When Sidekiq receives a TSTP or TERM signal, it will consider itself to be stopping.
- When Sidekiq is stopping, JobIteration stops iterating over the enumerator. The position in the iteration is saved, a new job is enqueued to resume work, and the Task is marked as interrupted.
When Sidekiq is stopping, it will give workers 25 seconds to finish before
forcefully terminating them (this is the default but can be configured with the
--timeout
option). Before the worker threads are terminated, Sidekiq will try
to re-enqueue the job so your Task will be resumed. However, the position in the
collection won’t be persisted so at least one iteration may run again.
Job queues other than Sidekiq may handle this in different ways.
If the queue adapter configured for your application doesn’t have this property,
or if Sidekiq crashes, is forcefully terminated, or is unable to re-enqueue the
jobs that were in progress, the Task may be in a seemingly stuck situation where
it appears to be running but is not. In that situation, pausing or cancelling it
will not result in the Task being paused or cancelled, as the Task will get
stuck in a state of pausing
or cancelling
. As a work-around, if a Task is
cancelling
for more than 5 minutes, you can cancel it again. It will then be
marked as fully cancelled, allowing you to run it again.
If you are stuck in pausing
and wish to preserve your tasks's position
(instead of cancelling and rerunning), you may click "Force pause".
There are a few configurable options for the gem. Custom configurations should
be placed in a maintenance_tasks.rb
initializer.
Exceptions raised while a Task is performing are rescued and information about the error is persisted and visible in the UI.
If you want to integrate with an exception monitoring service (e.g. Bugsnag), you can define an error handler:
# config/initializers/maintenance_tasks.rb
MaintenanceTasks.error_handler = ->(error, task_context, _errored_element) do
Bugsnag.notify(error) do |notification|
notification.add_metadata(:task, task_context)
end
end
The error handler should be a lambda that accepts three arguments:
-
error
: The exception that was raised. -
task_context
: A hash with additional information about the Task and the error:task_name
: The name of the Task that erroredstarted_at
: The time the Task startedended_at
: The time the Task errored
Note that
task_context
may be empty if the Task produced an error before any context could be gathered (for example, if deserializing the job to process your Task failed). -
errored_element
: The element, if any, that was being processed when the Task raised an exception. If you would like to pass this object to your exception monitoring service, make sure you sanitize the object to avoid leaking sensitive data and convert it to a format that is compatible with your bug tracker. For example, Bugsnag only sends the id and class name of Active Record objects in order to protect sensitive data. CSV rows, on the other hand, are converted to strings and passed raw to Bugsnag, so make sure to filter any personal data from these objects before adding them to a report.
MaintenanceTasks.tasks_module
can be configured to define the module in which
tasks will be placed.
# config/initializers/maintenance_tasks.rb
MaintenanceTasks.tasks_module = "TaskModule"
If no value is specified, it will default to Maintenance
.
Tasks may be nested arbitrarily deeply under app/tasks/maintenance
, for
example given a task file
app/tasks/maintenance/team_name/service_name/update_posts_task.rb
we can
define the task as:
module Maintenance
module TeamName
module ServiceName
class UpdatePostsTask < MaintenanceTasks::Task
def process(rows)
# ...
end
end
end
end
end
MaintenanceTasks.job
can be configured to define a Job class for your tasks to
use. This is a global configuration, so this Job class will be used across all
maintenance tasks in your application.
# config/initializers/maintenance_tasks.rb
MaintenanceTasks.job = "CustomTaskJob"
# app/jobs/custom_task_job.rb
class CustomTaskJob < MaintenanceTasks::TaskJob
queue_as :low_priority
end
The Job class must inherit from MaintenanceTasks::TaskJob
.
Note that retry_on
is not supported for custom Job classes, so failed jobs
cannot be retried.
MaintenanceTasks.ticker_delay
can be configured to customize how frequently
task progress gets persisted to the database. It can be a Numeric
value or an
ActiveSupport::Duration
value.
# config/initializers/maintenance_tasks.rb
MaintenanceTasks.ticker_delay = 2.seconds
If no value is specified, it will default to 1 second.
The Active Storage framework in Rails 6.1 and up supports multiple storage
services. To specify which service to use,
MaintenanceTasks.active_storage_service
can be configured with the service’s
key, as specified in your application’s config/storage.yml
:
# config/storage.yml
user_data:
service: GCS
credentials: <%= Rails.root.join("path/to/user/data/keyfile.json") %>
project: "my-project"
bucket: "user-data-bucket"
internal:
service: GCS
credentials: <%= Rails.root.join("path/to/internal/keyfile.json") %>
project: "my-project"
bucket: "internal-bucket"
# config/initializers/maintenance_tasks.rb
MaintenanceTasks.active_storage_service = :internal
There is no need to configure this option if your application uses only one
storage service. Rails.configuration.active_storage.service
is used by
default.
MaintenanceTasks.backtrace_cleaner
can be configured to specify a backtrace
cleaner to use when a Task errors and the backtrace is cleaned and persisted. An
ActiveSupport::BacktraceCleaner
should be used.
# config/initializers/maintenance_tasks.rb
cleaner = ActiveSupport::BacktraceCleaner.new
cleaner.add_silencer { |line| line =~ /ignore_this_dir/ }
MaintenanceTasks.backtrace_cleaner = cleaner
If none is specified, the default Rails.backtrace_cleaner
will be used to
clean backtraces.
MaintenanceTasks.parent_controller
can be configured to specify a controller
class for all of the web UI engine's controllers to inherit from.
This allows applications with common logic in their ApplicationController
(or
any other controller) to optionally configure the web UI to inherit that logic
with a simple assignment in the initializer.
# config/initializers/maintenance_tasks.rb
MaintenanceTasks.parent_controller = "Services::CustomController"
# app/controllers/services/custom_controller.rb
class Services::CustomController < ActionController::Base
include CustomSecurityThings
include CustomLoggingThings
# ...
end
The parent controller value must be a string corresponding to an existing
controller class which must inherit from ActionController::Base
.
If no value is specified, it will default to "ActionController::Base"
.
To specify a time duration after which a task is considered stuck if it has not
been updated, you can configure MaintenanceTasks.stuck_task_duration
. This
duration should account for job infrastructure events that may prevent the
maintenance tasks job from being executed and cancelling the task.
The value for MaintenanceTasks.stuck_task_duration
must be an
ActiveSupport::Duration
. If no value is specified, it will default to 5
minutes.
MaintenanceTasks.metadata
can be configured to specify a proc from which to
get extra information about the run. Since this proc will be ran in the context
of the MaintenanceTasks.parent_controller
, it can be used to keep the id or
email of the user who performed the maintenance task.
# config/initializers/maintenance_tasks.rb
MaintenanceTasks.metadata = ->() do
{ user_email: current_user.email }
end
Use bundler to check for and upgrade to newer versions. After installing a new version, re-run the install command:
bin/rails generate maintenance_tasks:install
This ensures that new migrations are installed and run as well.
The install command will attempt to reinstall these old migrations and migrating
the database will cause problems. Use bin/rails maintenance_tasks:install:migrations
to copy the gem’s migrations to your
db/migrate
folder. Check the release notes to see if any new migrations were
added since your last gem upgrade. Ensure that these are kept, but remove any
migrations that already ran.
Run the migrations using bin/rails db:migrate
.
Would you like to report an issue or contribute with code? We accept issues and pull requests. You can find the contribution guidelines on CONTRIBUTING.md.
Updates should be added to the latest draft release on GitHub as Pull Requests are merged.
Once a release is ready, follow these steps:
- Update
spec.version
inmaintenance_tasks.gemspec
. - Run
bundle install
to bump theGemfile.lock
version of the gem. - Open a PR and merge on approval.
- Deploy via Shipit and see the new version on https://rubygems.org/gems/maintenance_tasks.
- Ensure the release has documented all changes and publish it.
- Create a new draft release on GitHub with the title “Upcoming Release”. The tag version can be left blank. This will be the starting point for documenting changes related to the next release.