Configuration

You can start using Akka without defining any configuration, since sensible default values are provided. Later on you might need to amend the settings to change the default behavior or adapt for specific runtime environments. Typical examples of settings that you might amend:

Akka uses the Typesafe Config Library, which might also be a good choice for the configuration of your own application or library built with or without Akka. This library is implemented in Java with no external dependencies; This is only a summary of the most important parts for more details see the config library docs.

Where configuration is read from

All configuration for Akka is held within instances of ActorSystemActorSystem, or put differently, as viewed from the outside, ActorSystemActorSystem is the only consumer of configuration information. While constructing an actor system, you can either pass in a Config object or not, where the second case is equivalent to passing ConfigFactory.load() (with the right class loader). This means roughly that the default is to parse all application.conf, application.json and application.properties found at the root of the class path—please refer to the aforementioned documentation for details. The actor system then merges in all reference.conf resources found at the root of the class path to form the fallback configuration, i.e. it internally uses

appConfig.withFallback(ConfigFactory.defaultReference(classLoader))

The philosophy is that code never contains default values, but instead relies upon their presence in the reference.conf supplied with the library in question.

Highest precedence is given to overrides given as system properties, see the HOCON specification (near the bottom). Also noteworthy is that the application configuration—which defaults to application—may be overridden using the config.resource property (there are more, please refer to the Config docs).

Note

If you are writing an Akka application, keep your configuration in application.conf at the root of the class path. If you are writing an Akka-based library, keep its configuration in reference.conf at the root of the JAR file. It’s not supported to override a config property owned by one library in a reference.conf of another library.

License key

Akka requires a license key for use in production. Free keys can be obtained at https://akka.io/key. Add the key to the configuration property akka.license-key.

For local development, Akka can be used without a key, but be aware that the ActorSystem will terminate after a while when a key isn’t configured.

If the license key has expired when the ActorSystem is started the system will terminate after a while. The expiry date is exposed by ActorSystemActorSystem so that you can write a test to remind yourself that it is time for renewal before it has expired.

When using JarJar, OneJar, Assembly or any jar-bundler

Warning

Akka’s configuration approach relies heavily on the notion of every module/jar having its own reference.conf file. All of these will be discovered by the configuration and loaded. Unfortunately this also means that if you put/merge multiple jars into the same jar, you need to merge all the reference.conf files as well: otherwise all defaults will be lost.

See the deployment documentation for information on how to merge the reference.conf resources while bundling.

Custom application.conf

A custom application.conf might look like this:

# In this file you can override any option defined in the reference files.
# Copy in parts of the reference files and modify as you please.

akka {

  # Logger config for Akka internals and classic actors, the new API relies
  # directly on SLF4J and your config for the logger backend.

  # Loggers to register at boot time (akka.event.Logging$DefaultLogger logs
  # to STDOUT)
  loggers = ["akka.event.slf4j.Slf4jLogger"]

  # Log level used by the configured loggers (see "loggers") as soon
  # as they have been started; before that, see "stdout-loglevel"
  # Options: OFF, ERROR, WARNING, INFO, DEBUG
  loglevel = "DEBUG"

  # Log level for the very basic logger activated during ActorSystem startup.
  # This logger prints the log messages to stdout (System.out).
  # Options: OFF, ERROR, WARNING, INFO, DEBUG
  stdout-loglevel = "DEBUG"

  # Filter of log events that is used by the LoggingAdapter before
  # publishing log events to the eventStream.
  logging-filter = "akka.event.slf4j.Slf4jLoggingFilter"

  actor {
    provider = "cluster"

    default-dispatcher {
      # Throughput for default Dispatcher, set to 1 for as fair as possible
      throughput = 10
    }
  }

  remote.artery {
    # The port clients should connect to.
    canonical.port = 4711
  }
}

Including files

Sometimes it can be useful to include another configuration file, for example if you have one application.conf with all environment independent settings and then override some settings for specific environments.

Specifying system property with -Dconfig.resource=/dev.conf will load the dev.conf file, which includes the application.conf

dev.conf

include "application"

akka {
  loglevel = "DEBUG"
}

More advanced include and substitution mechanisms are explained in the HOCON specification.

Logging of Configuration

If the system or config property akka.log-config-on-start is set to on, then the complete configuration is logged at INFO level when the actor system is started. This is useful when you are uncertain of what configuration is used.

If in doubt, you can inspect your configuration objects before or after using them to construct an actor system:

Welcome to Scala 2.12 (Java HotSpot(TM) 64-Bit Server VM, Java 1.8.0).
Type in expressions to have them evaluated.
Type :help for more information.

scala> import com.typesafe.config._
import com.typesafe.config._

scala> ConfigFactory.parseString("a.b=12")
res0: com.typesafe.config.Config = Config(SimpleConfigObject({"a" : {"b" : 12}}))

scala> res0.root.render
res1: java.lang.String =
{
    # String: 1
    "a" : {
        # String: 1
        "b" : 12
    }
}

The comments preceding every item give detailed information about the origin of the setting (file & line number) plus possible comments which were present, e.g. in the reference configuration. The settings as merged with the reference and parsed by the actor system can be displayed like this:

Scala
sourceval system = ActorSystem(rootBehavior, "MySystem")
system.logConfiguration()
Java
sourceActorSystem<Void> system = ActorSystem.create(rootBehavior, "MySystem");
system.logConfiguration();

A Word About ClassLoaders

In several places of the configuration file it is possible to specify the fully-qualified class name of something to be instantiated by Akka. This is done using Java reflection, which in turn uses a ClassLoader. Getting the right one in challenging environments like application containers or OSGi bundles is not always trivial, the current approach of Akka is that each ActorSystemActorSystem implementation stores the current thread’s context class loader (if available, otherwise just its own loader as in this.getClass.getClassLoader) and uses that for all reflective accesses. This implies that putting Akka on the boot class path will yield NullPointerException from strange places: this is not supported.

Application specific settings

The configuration can also be used for application specific settings. A good practice is to place those settings in an Extension.

Configuring multiple ActorSystem

If you have more than one ActorSystemActorSystem (or you’re writing a library and have an ActorSystemActorSystem that may be separate from the application’s) you may want to separate the configuration for each system.

Given that ConfigFactory.load() merges all resources with matching name from the whole class path, it is easiest to utilize that functionality and differentiate actor systems within the hierarchy of the configuration:

myapp1 {
  akka.loglevel = "WARNING"
  my.own.setting = 43
}
myapp2 {
  akka.loglevel = "ERROR"
  app2.setting = "appname"
}
my.own.setting = 42
my.other.setting = "hello"
Scala
sourceval config = ConfigFactory.load()
val app1 = ActorSystem(rootBehavior, "MyApp1", config.getConfig("myapp1").withFallback(config))
val app2 = ActorSystem(rootBehavior, "MyApp2", config.getConfig("myapp2").withOnlyPath("akka").withFallback(config))
Java
sourceConfig config = ConfigFactory.load();
ActorSystem<Void> app1 =
    ActorSystem.create(rootBehavior, "MyApp1", config.getConfig("myapp1").withFallback(config));
ActorSystem<Void> app2 =
    ActorSystem.create(
        rootBehavior,
        "MyApp2",
        config.getConfig("myapp2").withOnlyPath("akka").withFallback(config));

These two samples demonstrate different variations of the “lift-a-subtree” trick: in the first case, the configuration accessible from within the actor system is this

akka.loglevel = "WARNING"
my.own.setting = 43
my.other.setting = "hello"
// plus myapp1 and myapp2 subtrees

while in the second one, only the “akka” subtree is lifted, with the following result

akka.loglevel = "ERROR"
my.own.setting = 42
my.other.setting = "hello"
// plus myapp1 and myapp2 subtrees
Note

The configuration library is really powerful, explaining all features exceeds the scope affordable here. In particular not covered are how to include other configuration files within other files (see a small example at Including files) and copying parts of the configuration tree by way of path substitutions.

You may also specify and parse the configuration programmatically in other ways when instantiating the ActorSystemActorSystem.

Scala
sourceimport akka.actor.typed.ActorSystem
import com.typesafe.config.ConfigFactory
val customConf = ConfigFactory.parseString("""
  akka.log-config-on-start = on
""")
// ConfigFactory.load sandwiches customConfig between default reference
// config and default overrides, and then resolves it.
val system = ActorSystem(rootBehavior, "MySystem", ConfigFactory.load(customConf))
Java
sourceimport akka.actor.typed.ActorSystem;
import akka.actor.typed.Behavior;
import akka.actor.typed.javadsl.Behaviors;
import com.typesafe.config.Config;
import com.typesafe.config.ConfigFactory;

Config customConf = ConfigFactory.parseString("akka.log-config-on-start = on");
// ConfigFactory.load sandwiches customConfig between default reference
// config and default overrides, and then resolves it.
ActorSystem<Void> system =
    ActorSystem.create(rootBehavior, "MySystem", ConfigFactory.load(customConf));

Reading configuration from a custom location

You can replace or supplement application.conf either in code or using system properties.

If you’re using ConfigFactory.load() (which Akka does by default) you can replace application.conf by defining -Dconfig.resource=whatever, -Dconfig.file=whatever, or -Dconfig.url=whatever.

From inside your replacement file specified with -Dconfig.resource and friends, you can include "application" if you still want to use application.{conf,json,properties} as well. Settings specified before include "application" would be overridden by the included file, while those after would override the included file.

In code, there are many customization options.

There are several overloads of ConfigFactory.load(); these allow you to specify something to be sandwiched between system properties (which override) and the defaults (from reference.conf), replacing the usual application.{conf,json,properties} and replacing -Dconfig.file and friends.

The simplest variant of ConfigFactory.load() takes a resource basename (instead of application); myname.conf, myname.json, and myname.properties would then be used instead of application.{conf,json,properties}.

The most flexible variant takes a Config object, which you can load using any method in ConfigFactory. For example you could put a config string in code using ConfigFactory.parseString() or you could make a map and ConfigFactory.parseMap(), or you could load a file.

You can also combine your custom config with the usual config, that might look like:

Scala
source// make a Config with just your special setting
val myConfig = ConfigFactory.parseString("something=somethingElse");
// load the normal config stack (system props,
// then application.conf, then reference.conf)
val regularConfig = ConfigFactory.load();
// override regular stack with myConfig
val combined = myConfig.withFallback(regularConfig);
// put the result in between the overrides
// (system props) and defaults again
val complete = ConfigFactory.load(combined);
// create ActorSystem
val system = ActorSystem(rootBehavior, "myname", complete);
Java
source// make a Config with just your special setting
Config myConfig = ConfigFactory.parseString("something=somethingElse");
// load the normal config stack (system props,
// then application.conf, then reference.conf)
Config regularConfig = ConfigFactory.load();
// override regular stack with myConfig
Config combined = myConfig.withFallback(regularConfig);
// put the result in between the overrides
// (system props) and defaults again
Config complete = ConfigFactory.load(combined);
// create ActorSystem
ActorSystem system = ActorSystem.create(rootBehavior, "myname", complete);

When working with Config objects, keep in mind that there are three “layers” in the cake:

The normal goal is to customize the middle layer while leaving the other two alone.

To stack two layers, use override.withFallback(fallback); try to keep system props (defaultOverrides()) on top and reference.conf (defaultReference()) on the bottom.

Do keep in mind, you can often just add another include statement in application.conf rather than writing code. Includes at the top of application.conf will be overridden by the rest of application.conf, while those at the bottom will override the earlier stuff.

Listing of the Reference Configuration

Each Akka module has a reference configuration file with the default values. Those reference.conf files are listed in Default configuration

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