Monthly Downloads: 5,058
Programming language: Elixir
License: MIT License
Tags: Queue    
Latest version: v3.1.0

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A transactional job queue built with Ecto and GenStage.

It is compatible with Postgresql and Mysql with a major difference:

  • Postgresql: job queue updates are notified to ecto_job through Postgresql notification feature.
  • MySQL: job queue updates are notified through database polling.


  • Transactional job processing
  • Retries
  • Scheduled jobs
  • Multiple queues
  • Low latency concurrent processing
  • Avoid frequent database polling
  • Library of functions, not a full OTP application

Getting Started

Add :ecto_job to your dependencies

  {:ecto_job, "~> 3.1"}


Add a migration to install the notification function and create the a job queue table:

mix ecto.gen.migration create_job_queue
defmodule MyApp.Repo.Migrations.CreateJobQueue do
  use Ecto.Migration

  @ecto_job_version 3

  def up do
    EctoJob.Migrations.CreateJobTable.up("jobs", version: @ecto_job_version)

  def down do

By default, a job holds a map of arbitrary data (which corresponds to a jsonb field in the table). If you want to store an arbitrary Elixir/Erlang term in the job (bytea in the table), you can set up the params_type option:

  def up do
    EctoJob.Migrations.CreateJobTable.up("jobs", version: @ecto_job_version, params_type: :binary)


EctoJob leverages specific PostgreSQL features, like notification mechanism when inserting a new job into a queue.

However, a non-optimized version of EctoJob can be used on top of MySQL >= 8.0.1. Other version of MySQL / MariaDB may not be working because of the use of the following specific syntax:

  • Default value for datetime column

Upgrading to version 3.0

To upgrade your project to 3.0 version of ecto_job you must add a migration to update the pre-existent job queue tables:

mix ecto.gen.migration update_job_queue
defmodule MyApp.Repo.Migrations.UpdateJobQueue do
  use Ecto.Migration
  @ecto_job_version 3

  def up do
    EctoJob.Migrations.UpdateJobTable.up(@ecto_job_version, "jobs")
  def down do
    EctoJob.Migrations.UpdateJobTable.down(@ecto_job_version, "jobs")

Add a module for the queue, mix in EctoJob.JobQueue. This will declare an Ecto.Schema to use with the table created in the migration, and a start_link function allowing the worker supervision tree to be started conveniently.

defmodule MyApp.JobQueue do
  use EctoJob.JobQueue, table_name: "jobs"

For jobs being Elixir/Erlang terms, you should add the :params_type option:

defmodule MyApp.JobQueue do
  use EctoJob.JobQueue, table_name: "jobs", params_type: :binary

Add perform/2 function to the job queue module, this is where jobs from the queue will be dispatched.

defmodule MyApp.JobQueue do
  use EctoJob.JobQueue, table_name: "jobs"

  def perform(multi = %Ecto.Multi{}, job = %{}) do
    ... job logic here ...

Add your new JobQueue module to the application supervision tree to run the worker supervisor:

def start(_type, _args) do
  import Supervisor.Spec

  children = [
    {MyApp.JobQueue, repo: MyApp.Repo, max_demand: 100}

  opts = [strategy: :one_for_one, name: MyApp.Supervisor]
  Supervisor.start_link(children, opts)

If you want to run the workers on a separate node to the enqueuers, just leave your JobQueue module out of the supervision tree.


Enqueueing jobs

Jobs are Ecto schemas, with each queue backed by a different table. A job can be inserted into the Repo directly by constructing a job with the new/2 function:

%{"type" => "SendEmail", "address" => "[email protected]", "body" => "Welcome!"}
|> MyApp.JobQueue.new()
|> MyApp.Repo.insert()

For inserting any arbitrary Elixir/Erlang term:

{"SendEmail", "[email protected]", "Welcome!"}
|> MyApp.JobQueue.new()
|> MyApp.Repo.insert()


|> %MyStruct{}
|> MyApp.JobQueue.new()
|> MyApp.Repo.insert()

A job can be inserted with optional params:

  • :schedule : runs the job at the given %DateTime{}. The default value is DateTime.utc_now().
  • :max_attempts : the maximum attempts for this job. The default value is 5.
  • :priority (integer): lower numbers run first; default is 0
%{"type" => "SendEmail", "address" => "[email protected]", "body" => "Welcome!"}
|> MyApp.JobQueue.new(max_attempts: 10)
|> MyApp.Repo.insert()

%{"type" => "SendEmail", "address" => "[email protected]", "body" => "Welcome!"}
|> MyApp.JobQueue.new(priority: 1)
|> MyApp.Repo.insert()

%{"type" => "SendEmail", "address" => "[email protected]", "body" => "Welcome!"}
|> MyApp.JobQueue.new(priority: 2, max_attempts: 2)
|> MyApp.Repo.insert()

The primary benefit of EctoJob is the ability to enqueue and process jobs transactionally. To achieve this, a job can be added to an Ecto.Multi, along with other application updates, using the enqueue/3 function:

|> Ecto.Multi.insert(:add_user, User.insert_changeset(%{name: "Joe", email: "[email protected]"}))
|> MyApp.JobQueue.enqueue(:email_job, %{"type" => "SendEmail", "address" => "[email protected]", "body" => "Welcome!"})
|> MyApp.Repo.transaction()

Handling Jobs

All jobs sent to a queue are eventually dispatched to the perform/2 function defined in the queue module. The first argument supplied is an Ecto.Multi which has been initialized with a delete operation, marking the job as complete. The Ecto.Multi struct must be passed to the Ecto.Repo.transaction function to complete the job, along with any other application updates.

defmodule MyApp.JobQueue do
  use EctoJob.JobQueue, table_name: "jobs"

  def perform(multi = %Ecto.Multi{}, job = %{"type" => "SendEmail", "recipient" => recipient, "body" => body}) do
    |> Ecto.Multi.run(:send, fn _repo, _changes -> EmailService.send(recipient, body) end)
    |> Ecto.Multi.insert(:stats, %EmailSendStats{recipient: recipient})
    |> MyApp.Repo.transaction()

When a queue handles multiple job types, it is useful to pattern match on the job and delegate to separate modules:

defmodule MyApp.JobQueue do
  use EctoJob.JobQueue, table_name: "jobs"

  def perform(multi = %Ecto.Multi{}, job = %{"type" => "SendEmail"}),      do: MyApp.SendEmail.perform(multi, job)
  def perform(multi = %Ecto.Multi{}, job = %{"type" => "CustomerReport"}), do: MyApp.CustomerReport.perform(multi, job)
  def perform(multi = %Ecto.Multi{}, job = %{"type" => "SyncWithCRM"}),    do: MyApp.CRMSync.perform(multi, job)


You can customize how often the table is polled for scheduled jobs. The default is 60_000 ms.

config :ecto_job, :poll_interval, 15_000

Control the time for which the job is reserved while waiting for a worker to pick it up, before the poller will make the job available again for dispatch by the producer. The default is 60_000 ms.

config :ecto_job, :reservation_timeout, 15_000

Control the delay between retries following a job execution failure. Keep in mind, for jobs that are expected to retry quickly, any configured retry_timeout will only retry a job as quickly as the poll_interval. The default is 30_000 ms (30 seconds).

config :ecto_job, :retry_timeout, 30_000

Control the timeout for job execution before an "IN_PROGRESS" job is assumed to have failed. Begins when job is picked up by worker. Similarly to retry_timeout, any configured execution_timeout will only retry a job as quickly as the poll_interval. The default is 300_000 ms (5 mins).

config :ecto_job, :execution_timeout, 300_000

You can control whether logs are on or off and the log level. The default is true and :info.

config :ecto_job, log: true,
                  log_level: :debug

See EctoJob.Config for configuration details.

How it works

Each job queue is represented as a PostgreSQL table and Ecto schema.

Jobs are added to the queue by inserting into the table, using Ecto.Repo.transaction to transactionally enqueue jobs with other application updates.

A GenStage producer responds to demand for jobs by efficiently pulling jobs from the queue in batches. When there is insufficient jobs in the queue, the demand for jobs is buffered.

As jobs are inserted into the queue, pg_notify notifies the producer that new work is available, allowing the producer to dispatch jobs immediately if there is pending demand.

A GenStage ConsumerSupervisor subscribes to the producer, and spawns a new Task for each job.

The callback for each job receives an Ecto.Multi structure, pre-populated with a delete command to remove the job from the queue.

Application code then add additional commands to the Ecto.Multi and submit it to the Repo with a call to transaction, ensuring that application updates are performed atomically with the job removal.

Scheduled jobs and Failed jobs are reactivated by polling the database once per minute.

Job Lifecycle

Jobs scheduled to run at a future time start in the "SCHEDULED" state. Scheduled jobs transition to "AVAILABLE" after the scheduled time has passed.

Jobs that are intended to run immediately start in an "AVAILABLE" state.

The producer will update a batch of jobs setting the state to "RESERVED", with an expiry of 5 minutes unless otherwise configured.

Once a consumer is given a job, it increments the attempt counter and updates the state to "IN_PROGRESS", with an initial timeout configurable as execution_timeout, defaulting to 5 minutes. If the job is being retried, the expiry will be initial timeout * the attempt counter.

If successful, the consumer can delete the job from the queue using the preloaded multi passed to the perform/2 job handler. If an exception is raised in the worker or a successful processing attempt fails to successfully commit the preloaded multi, the job is transitioned to the "RETRY" state, scheduled to run again after retry_timeout * attempt counter. If the processes is killed or is otherwise unable to transition to "RETRY", it will remain in "IN_PROGRESS" until the execution_timeout expires.

Jobs in the "RESERVED" or "IN_PROGRESS" state past the expiry time will be returned to the "AVAILABLE" state.

Expired jobs in the "IN_PROGRESS" state with attempts >= MAX_ATTEMPTS move to a "FAILED" state. Failed jobs are kept in the database so that application developers can handle the failure.

Job Timeouts and Transactional Safety

When performing long-running jobs or when configuring a short execution timeout, keep in mind that a job may be retried before it has finished and the retry has no proactive mechanism to cancel the running job.

In the case that the initial job attempts to finish and commit a result, and the commit includes the preloaded multi passed as the first parameter to perform/2, the optimistic lock will fail the transaction.

In the case where the job performs other side effects outside of the transaction such as calls to external APIs or additional database writes, these are suggested to implement other idempotency guarantees, as they will not be rolled back in a failed or duplicated job.

*Note that all licence references and agreements mentioned in the ecto_job README section above are relevant to that project's source code only.