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Automatic TraceContext Propagation

Besides the metrics recording side of our Akka integration, we also provide bytecode instrumentation that will automatically propagate the available TraceContext through certain specific events in order to keep the principle of having a single and predictable place to look for the “current” context.

In the examples bellow we will explore the conditions under which Kamon will automatically propagate the currently available context. Please note that even while in these examples we are explicitly wrapping the code sections with a new TraceContext, it is very unlikely that you will need to do so yourself if you are using other supported toolkits such as Spray and Play!. You will commonly need a context to be present only when the first event is generated and then Kamon will take care of propagating the TraceContext to all related events, under the conditions explained bellow.

Tell, ! and Forward

If a TraceContext is available when sending a message to an actor, Kamon will capture that TraceContext and make it available when processing that message in receiving actor, and only when processing that message. This remains true regardless of whether your are doing a regular tell, using the ! operator or forwarding a message to another actor.

  Tracer.withNewContext("sample-trace") {
    actor ! "Some Message"
    actor.tell("Some message", someSender)

In this particular case, the two messages will propagate the same TraceContext, since they were originated from the same block of code.

Ask, ?

When you send a message using the ask pattern the TraceContext is also propagated, but additionally the same TraceContext is also available when executing any callbacks registered in the returned Future.

  val responseFuture = Tracer.withNewContext("sample-trace") {
    (actor ? "Ask Message")
      .map { response =>
        // The same TraceContext available when asking
        // the actor is available when executing this callback.
        println("Context in MAP: " + Tracer.currentContext)

Pipe Pattern

When using the pipe pattern, the TraceContext available when the pipe call was made (not when completing the future) is also made available when processing the message in the target actor.

Log Events

When you are using the logging facilities provided by Akka, Kamon will attach the current TraceContext available when the log statement is executed and make the same TraceContext available when that log event is actually processed by your logger.

Supervision Messages

When one of your actor fails it is the responsibility of its parent to determine what action to take based on the provided supervision strategy. The failure notification as well as the delivery of the supervision directive to apply happens through system messages that are not directly visible to users and do not use to the same mailbox as the regular messages we send to actors, and Kamon hooks in these internals as well to propagate the TraceContext. It is really important to keep the same TraceContext when this happens, since all possible error messages being logged or any other action taken will be correctly related to the failing request.

Actor Creation

You might be thinking that actor creation happens in the same thread where the call to ActorRefFactory.actorOf(..) is being made, but that is not necessarily the case. In fact, a Create system message is sent to the newly created actor cell and it might be executed later depending on whether you are creating a top-level actor or not. Kamon also instruments this system message to make sure that if a TraceContext was available when requesting your ActorRefFactory to create an actor, the same TraceContext will be available when that actor is actually created.

Crossing the JVM Borders

If you are using Akka Remoting or the Akka Cluster, the same rules for TraceContext propagation apply but you will need to ensure that the kamon-akka-remote module is in your classpath as well. Also, please note that not all the information available locally for a TraceContext is propagated to remote actor systems, but rather a reduced subset that contains the trace name, token, start timestamp and a whether the TraceContext is still open or not. Although that seems like a very restrained set of information, by sending the trace token along you already have huge wins in terms of traceability of actions across your distributed setup.