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GenRegistry provides a simple interface for managing a local registry of processes.

installation

Installation

Add GenRegistry to your dependencies.

def deps do
  [
    {:gen_registry, "~> 1.3.0"}
  ]
end

why-genregistry

Why GenRegistry?

GenRegistry makes it easy to manage one process per id, this allows the application code to work with a more natural id (user_id, session_id, phone_number, etc), but still easily retrieve and lazily spawn processes.

example-phone-number-denylist

Example: Phone Number Denylist

In our example we have some arbitrary spam deflection system where each phone number is allowed to define its own custom rules. To make sure our application stays simple we encapsulate the denylisting logic in a GenServer which handles caching, loading, and saving denylist rules.

With GenRegistry we don't need to worry about carefully keeping track of Denylist pids for each phone number. The phone number (normalized) makes a natural id for the GenRegistry. GenRegistry will also manage the lifecycle and supervision of these processes, allowing us to write simplified code like this.

def place_call(sender, recipient) do
  # Get the recipients Denylist GenServer
  {:ok, denylist} = GenRegistry.lookup_or_start(Denylist, recipient, [recipient])

  if Denylist.allow?(denylist, sender) do
    {:ok, :place_call}
  else
    {:error, :reject_call}
  end
end

Does the recipient have a GenServer already running? If so then the pid will be returned, if not then Denylist.start_link(recipient) will be called, the resulting pid will be registered with the GenRegistry under the recipient phone number and the pid returned.

supervising-the-genregistry

Supervising the GenRegistry

GenRegistry works best as part of a supervision tree. GenRegistry provides support for pre-1.5 Supervisor.Spec style child specs and the newer module based child specs.

module-based-child-spec

Module-Based Child Spec

Introduced in Elixir 1.5, module-based child specs are the preferred way of defining a Supervisor's children. GenRegistry.child_spec/1 is compatible with module-based child specs.

Here's how to add a supervised GenRegistry to your application's Supervisor that will manage an example module called ExampleWorker.

def children do
  [
    {GenRegistry, worker_module: ExampleWorker}
  ]
end

worker_module is required, any other arguments will be used as the options for GenServer.start_link/3 when starting the GenRegistry

supervisor-spec-child-spec

Supervisor.Spec Child Spec

This style was deprecated in Elixir 1.5, this functionality is provided for backwards compatibility.

If pre-1.5 style child specs are needed, the GenRegistry.Spec module provides a helper GenRegistry.Spec.child_spec/2 which will generate the appropriate spec to manage a GenRegistry process.

Here's how to add a supervised GenRegistry to your application's Supervisor that will manage an example module called ExampleWorker.

def children do
  [
    GenRegistry.Spec.child_spec(ExampleWorker)
  ]
end

The second argument is a Keyword of options that will be passed as the options for GenServer.start_link/3 when starting the GenRegistry

basic-usage

Basic Usage

GenRegistry uses some conventions to make it easy to work with. GenRegistry will use GenServer.start_link/3's :name facility to give the GenRegistry the same name as the worker_module. GenRegistry will also name the ETS table after the worker_module.

These two conventions together mean almost every function in the GenRegistry API can be called with the worker_module as the first argument and work as expected.

Building off of the above supervision section, let's assume that we've start a GenRegistry to manage the ExampleWorker module.

customizing-the-name

Customizing the Name

The conventions covered in the last section work for most cases but what happens if you want to use the same worker_module for multiple logical registries. This is where custom names come in.

Simply provide a name argument.

For pre-1.5 child specifications

def children do
  [
    GenRegistry.Spec.child_spec(ExampleWorker, name: ExampleWorker.Read)
    GenRegistry.Spec.child_spec(ExampleWorker, name: ExampleWorker.Write)
  ]
end

For Module-Based child specifications

def children do
  [
    {GenRegistry, worker_module: ExampleWorker, name: ExampleWorker.Read},
    {GenRegistry, worker_module: ExampleWorker, name: ExampleWorker.Write},
  ]
end

Now simply use the name in place of the worker_module when calling any of the functions outlined below.

starting-or-retrieving-a-process

Starting or retrieving a process

GenRegistry makes it easy to idempotently start worker processes using the GenRegistry.lookup_or_start/4 function.

{:ok, pid} = GenRegistry.lookup_or_start(ExampleWorker, :example_id)

If :example_id is already bound to a running process, then that process's pid is returned. Otherwise a new process is started. Workers are started by calling the worker_module's start_link function, GenRegistry.lookup_or_start/4 accepts an optional third argument, a list of arguments to pass to start_link, the default is to pass no arguments.

If there is an error spawning a new process, {:error, reason} is returned.

starting-a-new-process

Starting a new process

Sometimes a process will want to know about an associated pid but only if it is the starting process. The GenRegistry.start/4 function is similar to GenRegistry.lookup_or_start/4 but it will return an {:error, {:already_started, pid}} if the id is already associated with a running process.

This can be useful when the starting process acts like an owner and a single-owner rule is desired.

If there is not process associated with the provided id then one will be started by calling the worker_module's start_link function. Just like GenRegistry.lookup_or_start/4, GenRegistry.start/4 accepts an optional third arguments, a list of arguments to pass to start_link, the default is to pass no arguments.

If there is an error spawning a new process {:error, reason} is returned.

retrieving-the-pid-for-an-id

Retrieving the pid for an id

GenRegistry makes it easy to get the pid associated with an id using the GenRegistry.lookup/2 function.

This function reads from the ETS table in the current process's context avoiding a GenServer call.

case GenRegistry.lookup(ExampleWorker, :example_id) do
  {:ok, pid} ->
    # Do something interesting with pid

  {:error, :not_found} ->
    # :example_id isn't bound to any running process.
end

stopping-a-process-by-id

Stopping a process by id

GenRegistry also supports stopping a child process using the GenRegistry.stop/2 function.

case GenRegistry.stop(ExampleWorker, :example_id) do
  :ok ->
    # Process was successfully stopped

  {:error, :not_found} ->
    # :example_id isn't bound to any running process.
end

counting-processes

Counting processes

GenRegistry manages all the processes it has spawned, it is capable of reporting how many processes it is currently managing using the GenRegistry.count/1 function.

IO.puts("There are #{GenRegistry.count(ExampleWorker)} ExampleWorker processes")

bulk-operations

Bulk Operations

GenRegistry provides a facility for reducing a function over every process using the GenRegistry.reduce/3 function. This function accepts an accumulator and ultimately returns the accumulator.

{max_id, max_pid} =
    GenRegistry.reduce(ExampleWorker, {nil, -1}, fn
      {id, pid}, {_, current}=acc ->
        value = ExampleWorker.foobars(pid)
        if value > current do
          {id, pid}
        else
          acc
        end
    end)

more-details

More Details

All the methods of GenRegistry are documented and spec'd, the tests also provide example code for how to use GenRegistry.

configuration

Configuration

GenRegistry only has a single configuration setting, :gen_registry :gen_module. This is the module to use to when performing GenServer calls, it defaults to GenServer.

documentation

Documentation

Documentation is hosted on hexdocs.

running-the-tests

Running the Tests

GenRegistry ships with a full suite of tests, these are normal ExUnit tests.

$ mix tests