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---
stage: none
group: unassigned
info: To determine the technical writer assigned to the Stage/Group associated with this page, see https://about.gitlab.com/handbook/product/ux/technical-writing/#assignments
---
# Sidekiq guides
We use [Sidekiq](https://github.com/mperham/sidekiq) as our background
job processor. These guides are for writing jobs that works well on
GitLab.com and be consistent with our existing worker classes. For
information on administering GitLab, see [configuring Sidekiq](../../administration/sidekiq/index.md).
There are pages with additional detail on the following topics:
1. [Compatibility across updates](compatibility_across_updates.md)
1. [Job idempotence and job deduplication](idempotent_jobs.md)
1. [Limited capacity worker: continuously performing work with a specified concurrency](limited_capacity_worker.md)
1. [Logging](logging.md)
1. [Worker attributes](worker_attributes.md)
1. **Job urgency** specifies queuing and execution SLOs
1. **Resource boundaries** and **external dependencies** for describing the workload
1. **Feature categorization**
1. **Database load balancing**
## ApplicationWorker
All workers should include `ApplicationWorker` instead of `Sidekiq::Worker`,
which adds some convenience methods and automatically sets the queue based on
the [routing rules](../../administration/sidekiq/processing_specific_job_classes.md#routing-rules).
## Retries
Sidekiq defaults to using [25 retries](https://github.com/mperham/sidekiq/wiki/Error-Handling#automatic-job-retry),
with back-off between each retry. 25 retries means that the last retry
would happen around three weeks after the first attempt (assuming all 24
prior retries failed).
This means that a lot can happen in between the job being scheduled
and its execution. Therefore, we must guard workers so they don't
fail 25 times when the state changes after they are scheduled. For
example, a job should not fail when the project it was scheduled for
is deleted.
Instead of:
```ruby
def perform(project_id)
project = Project.find(project_id)
# ...
end
```
Do this:
```ruby
def perform(project_id)
project = Project.find_by_id(project_id)
return unless project
# ...
end
```
For most workers - especially [idempotent workers](idempotent_jobs.md) -
the default of 25 retries is more than sufficient. Many of our older
workers declare 3 retries, which used to be the default within the
GitLab application. 3 retries happen over the course of a couple of
minutes, so the jobs are prone to failing completely.
A lower retry count may be applicable if any of the below apply:
1. The worker contacts an external service and we do not provide
guarantees on delivery. For example, webhooks.
1. The worker is not idempotent and running it multiple times could
leave the system in an inconsistent state. For example, a worker that
posts a system note and then performs an action: if the second step
fails and the worker retries, the system note is posted again.
1. The worker is a cronjob that runs frequently. For example, if a cron
job runs every hour, then we don't need to retry beyond an hour
because we don't need two of the same job running at once.
Each retry for a worker is counted as a failure in our metrics. A worker
which always fails 9 times and succeeds on the 10th would have a 90%
error rate.
If you want to manually retry the worker without tracking the exception in Sentry,
use an exception class inherited from `Gitlab::SidekiqMiddleware::RetryError`.
```ruby
ServiceUnavailable = Class.new(::Gitlab::SidekiqMiddleware::RetryError)
def perform
...
raise ServiceUnavailable if external_service_unavailable?
end
```
## Failure handling
Failures are typically handled by Sidekiq itself, which takes advantage of the inbuilt retry mechanism mentioned above. You should allow exceptions to be raised so that Sidekiq can reschedule the job.
If you need to perform an action when a job fails after all of its retry attempts, add it to the `sidekiq_retries_exhausted` method.
```ruby
sidekiq_retries_exhausted do |msg, ex|
project = Project.find(msg['args'].first)
project.perform_a_rollback # handle the permanent failure
end
def perform(project_id)
project = Project.find(project_id)
project.some_action # throws an exception
end
```
## Sidekiq Queues
Previously, each worker had its own queue, which was automatically set based on the
worker class name. For a worker named `ProcessSomethingWorker`, the queue name
would be `process_something`. You can now route workers to a specific queue using
[queue routing rules](../../administration/sidekiq/processing_specific_job_classes.md#routing-rules).
In GDK, new workers are routed to a queue named `default`.
If you're not sure what queue a worker uses,
you can find it using `SomeWorker.queue`. There is almost never a reason to
manually override the queue name using `sidekiq_options queue: :some_queue`.
After adding a new worker, run `bin/rake
gitlab:sidekiq:all_queues_yml:generate` to regenerate
`app/workers/all_queues.yml` or `ee/app/workers/all_queues.yml` so that
it can be picked up by
[`sidekiq-cluster`](../../administration/sidekiq/extra_sidekiq_processes.md)
in installations that don't use routing rules. For more information about potential changes,
see [epic 596](https://gitlab.com/groups/gitlab-com/gl-infra/-/epics/596).
Additionally, run
`bin/rake gitlab:sidekiq:sidekiq_queues_yml:generate` to regenerate
`config/sidekiq_queues.yml`.
## Queue Namespaces
While different workers cannot share a queue, they can share a queue namespace.
Defining a queue namespace for a worker makes it possible to start a Sidekiq
process that automatically handles jobs for all workers in that namespace,
without needing to explicitly list all their queue names. If, for example, all
workers that are managed by `sidekiq-cron` use the `cronjob` queue namespace, we
can spin up a Sidekiq process specifically for these kinds of scheduled jobs.
If a new worker using the `cronjob` namespace is added later on, the Sidekiq
process also picks up jobs for that worker (after having been restarted),
without the need to change any configuration.
A queue namespace can be set using the `queue_namespace` DSL class method:
```ruby
class SomeScheduledTaskWorker
include ApplicationWorker
queue_namespace :cronjob
# ...
end
```
Behind the scenes, this sets `SomeScheduledTaskWorker.queue` to
`cronjob:some_scheduled_task`. Commonly used namespaces have their own
concern module that can easily be included into the worker class, and that may
set other Sidekiq options besides the queue namespace. `CronjobQueue`, for
example, sets the namespace, but also disables retries.
`bundle exec sidekiq` is namespace-aware, and listens on all
queues in a namespace (technically: all queues prefixed with the namespace name)
when a namespace is provided instead of a simple queue name in the `--queue`
(`-q`) option, or in the `:queues:` section in `config/sidekiq_queues.yml`.
Adding a worker to an existing namespace should be done with care, as
the extra jobs take resources away from jobs from workers that were already
there, if the resources available to the Sidekiq process handling the namespace
are not adjusted appropriately.
## Versioning
Version can be specified on each Sidekiq worker class.
This is then sent along when the job is created.
```ruby
class FooWorker
include ApplicationWorker
version 2
def perform(*args)
if job_version == 2
foo = args.first['foo']
else
foo = args.first
end
end
end
```
Under this schema, any worker is expected to be able to handle any job that was
enqueued by an older version of that worker. This means that when changing the
arguments a worker takes, you must increment the `version` (or set `version 1`
if this is the first time a worker's arguments are changing), but also make sure
that the worker is still able to handle jobs that were queued with any earlier
version of the arguments. From the worker's `perform` method, you can read
`self.job_version` if you want to specifically branch on job version, or you
can read the number or type of provided arguments.
## Job size
GitLab stores Sidekiq jobs and their arguments in Redis. To avoid
excessive memory usage, we compress the arguments of Sidekiq jobs
if their original size is bigger than 100 KB.
After compression, if their size still exceeds 5 MB, it raises an
[`ExceedLimitError`](https://gitlab.com/gitlab-org/gitlab/-/blob/f3dd89e5e510ea04b43ffdcb58587d8f78a8d77c/lib/gitlab/sidekiq_middleware/size_limiter/exceed_limit_error.rb#L8)
error when scheduling the job.
If this happens, rely on other means of making the data
available in Sidekiq. There are possible workarounds such as:
- Rebuild the data in Sidekiq with data loaded from the database or
elsewhere.
- Store the data in [object storage](../file_storage.md#object-storage)
before scheduling the job, and retrieve it inside the job.
## Job weights
Some jobs have a weight declared. This is only used when running Sidekiq
in the default execution mode - using
[`sidekiq-cluster`](../../administration/sidekiq/extra_sidekiq_processes.md)
does not account for weights.
As we are [moving towards using `sidekiq-cluster` in Free](https://gitlab.com/gitlab-org/gitlab/-/issues/34396), newly-added
workers do not need to have weights specified. They can use the
default weight, which is 1.
## Tests
Each Sidekiq worker must be tested using RSpec, just like any other class. These
tests should be placed in `spec/workers`.
## Interacting with Sidekiq Redis and APIs
The application should minimise interaction with of any `Sidekiq.redis` and Sidekiq [APIs](https://github.com/mperham/sidekiq/blob/main/lib/sidekiq/api.rb). Such interactions in generic application logic should be abstracted to a [Sidekiq middleware](https://gitlab.com/gitlab-org/gitlab/-/tree/master/lib/gitlab/sidekiq_middleware) for re-use across teams. By decoupling application logic from Sidekiq datastore, it allows for greater freedom when horizontally scaling the GitLab background processing setup.
Some exceptions to this rule would be migration-related logic or administration operations.
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