This small library allows you use RabbitMQ client via Akka Actors. The main idea implemented in library is to survive losing connection with RabbitMQ server
It gives you two actors ConnectionActor
and ChannelActor
- handles connection failures and notifies children
- keep trying to reconnect if connection lost
- provides children with new channels when needed
- may store messages in memory if channel lost
- send stored messages as soon as new channel received
- retrieve new channel if current is broken
Please note that while this library transparently reconnects when a connection fails, it cannot guarantee that no messages will be lost. If you want to make sure every message is delivered, you have to use acknowledgements and confirms. This is documented in the RabbitMQ Reliability Guide. An example program using confirms can be found in this project under ConfirmsExample.scala.
Since version 3.0.0
libraryDependencies += "com.newmotion" %% "akka-rabbitmq" % "4.0.0"
To add as depency prior releases add resolver to New Motion public repo
resolvers += "New Motion Repository" at "http://nexus.thenewmotion.com/content/groups/public/"
libraryDependencies += "com.thenewmotion" %% "akka-rabbitmq" % "2.3"
Since version 4.0.0
<dependency>
<groupId>com.newmotion</groupId>
<artifactId>akka-rabbitmq_{2.11/2.12}</artifactId>
<version>4.0.0</version>
</dependency>
Since version 3.0.0
<dependency>
<groupId>com.thenewmotion</groupId>
<artifactId>akka-rabbitmq_{2.11/2.12}</artifactId>
<version>3.0.0</version>
</dependency>
For prior releases
<repository>
<id>thenewmotion</id>
<name>New Motion Repository</name>
<url>http://nexus.thenewmotion.com/content/groups/public/</url>
</repository>
...
<dependency>
<groupId>com.thenewmotion</groupId>
<artifactId>akka-rabbitmq_{2.11/2.12}</artifactId>
<version>2.3</version>
</dependency>
Before start, you need to add import statement
import com.newmotion.akka.rabbitmq._
Default approach:
val factory = new ConnectionFactory()
val connection: Connection = factory.newConnection()
Actor style:
val factory = new ConnectionFactory()
val connectionActor: ActorRef = system.actorOf(ConnectionActor.props(factory))
Let's name it:
system.actorOf(ConnectionActor.props(factory), "my-connection")
How often will it reconnect?
import concurrent.duration._
system.actorOf(ConnectionActor.props(factory, reconnectionDelay = 10.seconds), "my-connection")
That's plain option:
val channel: Channel = connection.createChannel()
But we can do better. Asynchronously:
connectionActor ! CreateChannel(ChannelActor.props())
Synchronously:
val channelActor: ActorRef = connectionActor.createChannel(ChannelActor.props())
Maybe give it a name:
connectionActor.createChannel(ChannelActor.props(), Some("my-channel"))
What's about custom actor:
connectionActor.createChannel(Props(new Actor {
def receive = {
case channel: Channel =>
}
}))
channel.queueDeclare("queue_name", false, false, false, null)
Actor style:
// this function will be called each time new channel received
def setupChannel(channel: Channel, self: ActorRef) {
channel.queueDeclare("queue_name", false, false, false, null)
}
val channelActor: ActorRef = connectionActor.createChannel(ChannelActor.props(setupChannel))
channel.basicPublish("", "queue_name", null, "Hello world".getBytes)
Using our channelActor
:
def publish(channel: Channel) {
channel.basicPublish("", "queue_name", null, "Hello world".getBytes)
}
channelActor ! ChannelMessage(publish)
But I don't want to lose messages when connection is lost:
channelActor ! ChannelMessage(publish, dropIfNoChannel = false)
channel.close()
VS
system stop channelActor
connection.close()
VS
system stop connectionActor // will close all channels associated with this connection
You can shutdown ActorSystem
, this will close all connections as well as channels:
system.shutdown()
Here is RabbitMQ Publish/Subscribe in actors style
object PublishSubscribe extends App {
implicit val system = ActorSystem()
val factory = new ConnectionFactory()
val connection = system.actorOf(ConnectionActor.props(factory), "rabbitmq")
val exchange = "amq.fanout"
def setupPublisher(channel: Channel, self: ActorRef) {
val queue = channel.queueDeclare().getQueue
channel.queueBind(queue, exchange, "")
}
connection ! CreateChannel(ChannelActor.props(setupPublisher), Some("publisher"))
def setupSubscriber(channel: Channel, self: ActorRef) {
val queue = channel.queueDeclare().getQueue
channel.queueBind(queue, exchange, "")
val consumer = new DefaultConsumer(channel) {
override def handleDelivery(consumerTag: String, envelope: Envelope, properties: BasicProperties, body: Array[Byte]) {
println("received: " + fromBytes(body))
}
}
channel.basicConsume(queue, true, consumer)
}
connection ! CreateChannel(ChannelActor.props(setupSubscriber), Some("subscriber"))
Future {
def loop(n: Long) {
val publisher = system.actorFor("/user/rabbitmq/publisher")
def publish(channel: Channel) {
channel.basicPublish(exchange, "", null, toBytes(n))
}
publisher ! ChannelMessage(publish, dropIfNoChannel = false)
Thread.sleep(1000)
loop(n + 1)
}
loop(0)
}
def fromBytes(x: Array[Byte]) = new String(x, "UTF-8")
def toBytes(x: Long) = x.toString.getBytes("UTF-8")
}
Akka-RabbitMQ is a low-level library, and leaves it to the coder to manually wire consumers, serialize messages, etc. If you'd like a higher-level abstraction library, look at Op-Rabbit (which uses this library).