Serialization
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Serialization

Akka has a built-in Extension for serialization, and it is both possible to use the built-in serializers and to write your own.

The serialization mechanism is both used by Akka internally to serialize messages, and available for ad-hoc serialization of whatever you might need it for.

Usage

Configuration

For Akka to know which Serializer to use for what, you need edit your Configuration, in the "akka.actor.serializers"-section you bind names to implementations of the akka.serialization.Serializer you wish to use, like this:

  val config = ConfigFactory.parseString("""
  akka {
    actor {
      serializers {
        java = "akka.serialization.JavaSerializer"
        proto = "akka.remote.serialization.ProtobufSerializer"
        myown = "docs.serialization.MyOwnSerializer"
      }
    }
  }
""")

After you've bound names to different implementations of Serializer you need to wire which classes should be serialized using which Serializer, this is done in the "akka.actor.serialization-bindings"-section:

  val config = ConfigFactory.parseString("""
  akka {
    actor {
      serializers {
        java = "akka.serialization.JavaSerializer"
        proto = "akka.remote.serialization.ProtobufSerializer"
        myown = "docs.serialization.MyOwnSerializer"
      }

      serialization-bindings {
        "java.lang.String" = java
        "docs.serialization.Customer" = java
        "com.google.protobuf.Message" = proto
        "docs.serialization.MyOwnSerializable" = myown
        "java.lang.Boolean" = myown
      }
    }
  }
""")

You only need to specify the name of an interface or abstract base class of the messages. In case of ambiguity, i.e. the message implements several of the configured classes, the most specific configured class will be used, i.e. the one of which all other candidates are superclasses. If this condition cannot be met, because e.g. java.io.Serializable and MyOwnSerializable both apply and neither is a subtype of the other, a warning will be issued

Akka provides serializers for java.io.Serializable and protobuf com.google.protobuf.GeneratedMessage by default (the latter only if depending on the akka-remote module), so normally you don't need to add configuration for that; since com.google.protobuf.GeneratedMessage implements java.io.Serializable, protobuf messages will always by serialized using the protobuf protocol unless specifically overridden. In order to disable a default serializer, map its marker type to “none”:

akka.actor.serialization-bindings {
  "java.io.Serializable" = none
}

Verification

If you want to verify that your messages are serializable you can enable the following config option:

  val config = ConfigFactory.parseString("""
  akka {
    actor {
      serialize-messages = on
    }
  }
""")

Warning

We only recommend using the config option turned on when you're running tests. It is completely pointless to have it turned on in other scenarios.

If you want to verify that your Props are serializable you can enable the following config option:

  val config = ConfigFactory.parseString("""
  akka {
    actor {
      serialize-creators = on
    }
  }
""")

Warning

We only recommend using the config option turned on when you're running tests. It is completely pointless to have it turned on in other scenarios.

Programmatic

If you want to programmatically serialize/deserialize using Akka Serialization, here's some examples:

import akka.actor.{ ActorRef, ActorSystem }
import akka.serialization._
import com.typesafe.config.ConfigFactory

    val system = ActorSystem("example")

    // Get the Serialization Extension
    val serialization = SerializationExtension(system)

    // Have something to serialize
    val original = "woohoo"

    // Find the Serializer for it
    val serializer = serialization.findSerializerFor(original)

    // Turn it into bytes
    val bytes = serializer.toBinary(original)

    // Turn it back into an object
    val back = serializer.fromBinary(bytes, manifest = None)

    // Voilá!
    back must equal(original)

For more information, have a look at the ScalaDoc for akka.serialization._

Customization

So, lets say that you want to create your own Serializer, you saw the docs.serialization.MyOwnSerializer in the config example above?

Creating new Serializers

First you need to create a class definition of your Serializer like so:

import akka.actor.{ ActorRef, ActorSystem }
import akka.serialization._
import com.typesafe.config.ConfigFactory

class MyOwnSerializer extends Serializer {

  // This is whether "fromBinary" requires a "clazz" or not
  def includeManifest: Boolean = false

  // Pick a unique identifier for your Serializer,
  // you've got a couple of billions to choose from,
  // 0 - 16 is reserved by Akka itself
  def identifier = 1234567

  // "toBinary" serializes the given object to an Array of Bytes
  def toBinary(obj: AnyRef): Array[Byte] = {
    // Put the code that serializes the object here
    // ... ...
  }

  // "fromBinary" deserializes the given array,
  // using the type hint (if any, see "includeManifest" above)
  // into the optionally provided classLoader.
  def fromBinary(bytes: Array[Byte],
                 clazz: Option[Class[_]]): AnyRef = {
    // Put your code that deserializes here
    // ... ...
  }
}

Then you only need to fill in the blanks, bind it to a name in your Configuration and then list which classes that should be serialized using it.

Serializing ActorRefs

All ActorRefs are serializable using JavaSerializer, but in case you are writing your own serializer, you might want to know how to serialize and deserialize them properly. In the general case, the local address to be used depends on the type of remote address which shall be the recipient of the serialized information. Use Serialization.serializedActorPath(actorRef) like this:

import akka.actor.{ ActorRef, ActorSystem }
import akka.serialization._
import com.typesafe.config.ConfigFactory

    // Serialize
    // (beneath toBinary)
    val identifier: String = Serialization.serializedActorPath(theActorRef)

    // Then just serialize the identifier however you like

    // Deserialize
    // (beneath fromBinary)
    val deserializedActorRef = extendedSystem.provider.resolveActorRef(identifier)
    // Then just use the ActorRef

This assumes that serialization happens in the context of sending a message through the remote transport. There are other uses of serialization, though, e.g. storing actor references outside of an actor application (database, durable mailbox, etc.). In this case, it is important to keep in mind that the address part of an actor’s path determines how that actor is communicated with. Storing a local actor path might be the right choice if the retrieval happens in the same logical context, but it is not enough when deserializing it on a different network host: for that it would need to include the system’s remote transport address. An actor system is not limited to having just one remote transport per se, which makes this question a bit more interesting. To find out the appropriate address to use when sending to remoteAddr you can use ActorRefProvider.getExternalAddressFor(remoteAddr) like this:

object ExternalAddress extends ExtensionKey[ExternalAddressExt]

class ExternalAddressExt(system: ExtendedActorSystem) extends Extension {
  def addressFor(remoteAddr: Address): Address =
    system.provider.getExternalAddressFor(remoteAddr) getOrElse
      (throw new UnsupportedOperationException("cannot send to " + remoteAddr))
}

def serializeTo(ref: ActorRef, remote: Address): String =
  ref.path.toSerializationFormatWithAddress(ExternalAddress(extendedSystem).
    addressFor(remote))

Note

ActorPath.toSerializationFormatWithAddress differs from toString if the address does not already have host and port components, i.e. it only inserts address information for local addresses.

toSerializationFormatWithAddress also adds the unique id of the actor, which will change when the actor is stopped and then created again with the same name. Sending messages to a reference pointing the old actor will not be delivered to the new actor. If you don't want this behavior, e.g. in case of long term storage of the reference, you can use toStringWithAddress, which doesn't include the unique id.

This requires that you know at least which type of address will be supported by the system which will deserialize the resulting actor reference; if you have no concrete address handy you can create a dummy one for the right protocol using Address(protocol, "", "", 0) (assuming that the actual transport used is as lenient as Akka’s RemoteActorRefProvider).

There is also a default remote address which is the one used by cluster support (and typical systems have just this one); you can get it like this:

object ExternalAddress extends ExtensionKey[ExternalAddressExt]

class ExternalAddressExt(system: ExtendedActorSystem) extends Extension {
  def addressForAkka: Address = system.provider.getDefaultAddress
}

def serializeAkkaDefault(ref: ActorRef): String =
  ref.path.toSerializationFormatWithAddress(ExternalAddress(theActorSystem).
    addressForAkka)

Deep serialization of Actors

The current recommended approach to do deep serialization of internal actor state is to use Event Sourcing, for more reading on the topic, see these examples:

Martin Krasser on EventSourcing Part1

Martin Krasser on EventSourcing Part2

Note

Built-in API support for persisting Actors will come in a later release, see the roadmap for more info:

Akka 2.0 roadmap

A Word About Java Serialization

When using Java serialization without employing the JavaSerializer for the task, you must make sure to supply a valid ExtendedActorSystem in the dynamic variable JavaSerializer.currentSystem. This is used when reading in the representation of an ActorRef for turning the string representation into a real reference. DynamicVariable is a thread-local variable, so be sure to have it set while deserializing anything which might contain actor references.

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