Mission Control — Jobs
This gem provides a Rails-based frontend to Active Job adapters. It currently supports Resque and Solid Queue. Its features depend on those offered by the adapter itself. At a minimum, it allows you to inspect job queues and jobs currently waiting in those queues and inspect and retry or discard failed jobs.
Installation
Add this line to your application's Gemfile:
gem "mission_control-jobs"
And then execute:
$ bundle install
Basic configuration
Mount Mission Control Job's engine where you wish to have it accessible from your app, in your routes.rb
file:
Rails.application.routes.draw do
mount MissionControl::Jobs::Engine, at: "/jobs"
And that's it. With this alone, you should be able to access Mission Control Job's UI, where you can browse the existing queues, jobs pending in these queues, jobs in different statuses, and discard and retry failed jobs:
API-only apps or apps using vite_rails
and other asset pipelines outside Rails
If you want to use this gem with an API-only Rails app or an app that's using vite_ruby
/vite_rails
, or some other custom asset pipeline different from Sprockets and Propshaft, you need one more thing: configure an asset pipeline so you can serve the JavaScript and CSS included in this gem. We recommend to use Propshaft
. You simply need to add this line to your application's Gemfile:
gem "propshaft"
Then execute
$ bundle install
Then, make sure you add a step to your deployment pipeline to precompile assets:
RAILS_ENV=production rails assets:precompile
For example, if you're using the Dockerfile generated by Rails with an API-only app or having skipped the assets pipeline, re-add:
# Precompiling assets for production without requiring secret RAILS_MASTER_KEY
RUN SECRET_KEY_BASE_DUMMY=1 ./bin/rails assets:precompile
Note: Legacy CSS bundlers sass-rails
and sassc-rails
may fail to compile some of the CSS vendored into this library from Bulma, which was created in Dart SASS. You will therefore need to upgrade to dartsass-rails
or some library that relies on it, like cssbundling-rails
.
Authentication
Mission Control comes with HTTP basic authentication enabled and closed by default. Credentials are stored in Rails's credentials like this:
mission_control:
http_basic_auth_user: dev
http_basic_auth_password: secret
If no credentials are configured, Mission Control won't be accessible. To set these up, you can run the generator provided like this:
bin/rails mission_control:jobs:authentication:configure
To set them up for different environments you can use the RAILS_ENV
environment variable, like this:
RAILS_ENV=production bin/rails mission_control:jobs:authentication:configure
Custom authentication
You can provide your own authentication mechanism, for example, if you have a certain type of admin user in your app that can access Mission Control. To make this easier, you can specify a different controller as the base class for Mission Control's controllers. By default, Mission Control's controllers will extend the host app's ApplicationController
, but you can change this easily:
Rails.application.configure do
MissionControl::Jobs.base_controller_class = "AdminController"
end
Or, in your environment config or application.rb
:
config.mission_control.jobs.base_controller_class = "AdminController"
If you do this, you can disable the default HTTP Basic Authentication using the following option:
config.mission_control.jobs.http_basic_auth_enabled = false
Other configuration settings
Besides base_controller_class
, you can also set the following for MissionControl::Jobs
or config.mission_control.jobs
:
logger
: the logger you want Mission Control Jobs to use. Defaults to ActiveSupport::Logger.new(nil)
(no logging). Notice that this is different from Active Job's logger or Active Job's backend's configured logger.delay_between_bulk_operation_batches
: how long to wait between batches when performing bulk operations, such as discard all or retry all jobs—defaults to 0
adapters
: a list of adapters that you want Mission Control to use and extend. By default this will be the adapter you have set for active_job.queue_adapter
.internal_query_count_limit
: in count queries, the maximum number of records that will be counted if the adapter needs to limit these queries. True counts above this number will be returned as INFINITY
. This keeps count queries fast—defaults to 500,000
scheduled_job_delay_threshold
: the time duration before a scheduled job is considered delayed. Defaults to 1.minute
(a job is considered delayed if it hasn't transitioned from the scheduled
status 1 minute after the scheduled time).show_console_help
: whether to show the console help. If you don't want the console help message, set this to false
—defaults to true
.backtrace_cleaner
: a backtrace cleaner used for optionally filtering backtraces on the Failed Jobs detail page. Defaults to Rails::BacktraceCleaner.new
. See the Advanced configuration section for how to configure/override this setting on a per application/server basis.
This library extends Active Job with a querying interface and the following setting:
config.active_job.default_page_size
: the internal batch size that Active Job will use when sending queries to the underlying adapter and the batch size for the bulk operations defined above—defaults to 1000
.
Adapter Specifics
- Resque: Queue pausing is supported only if you have
resque-pause
installed in your project - Solid Queue: Requires version >= 1.0.1.
Advanced configuration
When we built Mission Control Jobs, we did it with the idea of managing multiple apps' job backends from a single, centralized app that we used for monitoring, alerts and other tools that related to all our apps. Some of our apps run in more than one datacenter, and we run different Resque instances with different Redis configurations in each. Because of this, we added support for multiple apps and multiple adapters per app. Even when running Mission Control Job within the app it manages, and a single DC, as we migrated from Resque to Solid Queue, we needed to manage both adapters from Mission Control.
Without adding any additional configuration to the one described before, Mission Control will be configured with one single app and a single server for your configured active_job.queue_adapter
.
If you want to support multiple adapters, you need to add them to Mission Control configuration via the adapters
setting mentioned above. For example:
config.mission_control.jobs.adapters = [ :resque, :solid_queue ]
Then, to configure the different apps and/or different servers, you can do so in an initializer like this (taken from our dummy app for testing purposes):
require "resque"
require "resque_pause_helper"
require "solid_queue"
Resque.redis = Redis::Namespace.new "#{Rails.env}", redis: Redis.new(host: "localhost", port: 6379)
SERVERS_BY_APP = {
BC4: %w[ resque_ashburn resque_chicago ],
HEY: %w[ resque solid_queue ]
}
def redis_connection_for(app, server)
redis_namespace = Redis::Namespace.new "#{app}:#{server}", redis: Resque.redis.instance_variable_get("@redis")
Resque::DataStore.new redis_namespace
end
SERVERS_BY_APP.each do |app, servers|
queue_adapters_by_name = servers.collect do |server|
queue_adapter = if server.start_with?("resque")
ActiveJob::QueueAdapters::ResqueAdapter.new(redis_connection_for(app, server))
else
ActiveJob::QueueAdapters::SolidQueueAdapter.new
end
[ server, queue_adapter ]
end.to_h
MissionControl::Jobs.applications.add(app, queue_adapters_by_name)
end
This is an example for two different apps, BC4 and HEY, each one with two servers. BC4 has two Resque servers with two different configurations, and HEY has one Resque server and one Solid Queue server.
Currently, only one Solid Queue configuration is supported, but support for several Solid Queue backends (with different databases) is planned.
This is how we set Resque and Solid Queue together when we migrated from one to the other:
queue_adapters_by_name = {
resque: ActiveJob::QueueAdapters.lookup(:resque).new,
solid_queue: ActiveJob::QueueAdapters.lookup(:solid_queue).new
}
MissionControl::Jobs.applications.add("hey", queue_adapters_by_name)
When you have multiple apps and servers configured, you can choose between them with select and toggle menus:
Basic UI usage
As mentioned, the features available in Mission Control depend on the adapter you're using, as each adapter supports different features. Besides inspecting the queues and the jobs in them, and discarding and retrying failed jobs, you can inspect jobs in different statuses supported by each adapter, filter them by queue name and job class name (with the idea of adding more filters in the future), pause and un-pause queues (if the adapter allows that), inspect workers, know which jobs are being run by what worker, checking a specific job or a specific worker...
Console helpers, scripting and dealing with big sets of jobs
Besides the UI, Mission Control provides a light console helper to switch between applications and adapters. Some potentially destructive actions aren't exposed via the UI (for example, discarding jobs that aren't failed, although this might change in the future), but you can always perform these from the console if you know very well what you're doing.
It's also possible that you need to deal with very big sets of jobs that are unmanageable via the UI or that you wish to write a script to deal with an incident, some cleanup or some data migration. The console helpers and the querying API with which we've extended Active Job come in handy here.
First, when connecting to the Rails console, you'll see this new message:
bin/rails c
Type 'jobs_help' to see how to connect to the available job servers to manage jobs
Typing jobs_help
, you'll get clear instructions about how to switch between applications and adapters:
>> jobs_help
You can connect to a job server with
connect_to "<app_id>:<server_id>"
Available job servers:
* bc4:resque_ashburn
* bc4:resque_chicago
* hey:resque
* hey:solid_queue
And then:
>> connect_to "hey:solid_queue"
Connected to hey:solid_queue
Now you're ready to query and operate over jobs for this adapter via the API. Some examples of queries:
ActiveJob.jobs
ActiveJob.jobs.failed
ActiveJob.jobs.pending.where(queue_name: "some_queue")
ActiveJob.jobs.failed.where(job_class_name: "SomeJob")
ActiveJob.jobs.pending.where(job_class_name: "SomeJob").limit(10).offset(5)
ActiveJob.jobs.scheduled.where(job_class_name: "SomeJob")
ActiveJob.jobs.in_progress.where(job_class_name: "SomeJob")
ActiveJob.jobs.finished.where(job_class_name: "SomeJob")
ActiveJob.jobs.in_progress.where(worker_id: 42)
Some examples of bulk operations:
ActiveJob.jobs.failed.retry_all
ActiveJob.jobs.failed.where(job_class_name: "SomeJob").retry_all
ActiveJob.jobs.failed.discard_all
ActiveJob.jobs.pending.where(job_class_name: "SomeJob").discard_all
ActiveJob.jobs.pending.where(queue_name: "some-queue").discard_all
When performing these bulk operations in the console, a delay of 2 seconds between batches processed will be introduced, set via delay_between_bulk_operation_batches
. You can modify it as
MissionControl::Jobs.delay_between_bulk_operation_batches = 5.seconds
Contributing
Thanks for your interest in contributing! To get the app running locally, just run:
bin/setup
This will load a bunch of jobs as seeds.
We have both unit and functional tests and system tests. If you want to run system tests, you'd need to install ChromeDriver. Then, you'll be able to run the tests as:
bin/rails test test/system
License
The gem is available as open source under the terms of the MIT License.