Logging (Scala)
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Logging (Scala)

Logging in Akka is not tied to a specific logging backend. By default log messages are printed to STDOUT, but you can plug-in a SLF4J logger or your own logger. Logging is performed asynchronously to ensure that logging has minimal performance impact. Logging generally means IO and locks, which can slow down the operations of your code if it was performed synchronously.

How to Log

Create a LoggingAdapter and use the error, warning, info, or debug methods, as illustrated in this example:

import akka.event.Logging

class MyActor extends Actor {
  val log = Logging(context.system, this)
  override def preStart() = {
    log.debug("Starting")
  }
  override def preRestart(reason: Throwable, message: Option[Any]) {
    log.error(reason, "Restarting due to [{}] when processing [{}]",
      reason.getMessage, message.getOrElse(""))
  }
  def receive = {
    case "test"  log.info("Received test")
    case x       log.warning("Received unknown message: {}", x)
  }
}

For convenience you can mixin the log member into actors, instead of defining it as above.

class MyActor extends Actor with akka.actor.ActorLogging {
  ...
}

The second parameter to the Logging is the source of this logging channel. The source object is translated to a String according to the following rules:

  • if it is an Actor or ActorRef, its path is used
  • in case of a String it is used as is
  • in case of a class an approximation of its simpleName
  • and in all other cases a compile error occurs unless and implicit LogSource[T] is in scope for the type in question.

The log message may contain argument placeholders {}, which will be substituted if the log level is enabled. Giving more arguments as there are placeholders results in a warning being appended to the log statement (i.e. on the same line with the same severity). You may pass a Java array as the only substitution argument to have its elements be treated individually:

val args = Array("The", "brown", "fox", "jumps", 42)
system.log.debug("five parameters: {}, {}, {}, {}, {}", args)

The Java Class of the log source is also included in the generated LogEvent. In case of a simple string this is replaced with a “marker” class akka.event.DummyClassForStringSources in order to allow special treatment of this case, e.g. in the SLF4J event listener which will then use the string instead of the class’ name for looking up the logger instance to use.

Auxiliary logging options

Akka has a couple of configuration options for very low level debugging, that makes most sense in for developers and not for operations.

You almost definitely need to have logging set to DEBUG to use any of the options below:

akka {
  loglevel = "DEBUG"
}

This config option is very good if you want to know what config settings are loaded by Akka:

akka {
  # Log the complete configuration at INFO level when the actor system is started.
  # This is useful when you are uncertain of what configuration is used.
  log-config-on-start = on
}

If you want very detailed logging of all user-level messages that are processed by Actors that use akka.event.LoggingReceive:

akka {
  actor {
    debug {
      # enable function of LoggingReceive, which is to log any received message at
      # DEBUG level
      receive = on
    }
  }
}

If you want very detailed logging of all automatically received messages that are processed by Actors:

akka {
  actor {
    debug {
      # enable DEBUG logging of all AutoReceiveMessages (Kill, PoisonPill et.c.)
      autoreceive = on
    }
  }
}

If you want very detailed logging of all lifecycle changes of Actors (restarts, deaths etc):

akka {
  actor {
    debug {
      # enable DEBUG logging of actor lifecycle changes
      lifecycle = on
    }
  }
}

If you want very detailed logging of all events, transitions and timers of FSM Actors that extend LoggingFSM:

akka {
  actor {
    debug {
      # enable DEBUG logging of all LoggingFSMs for events, transitions and timers
      fsm = on
    }
  }
}

If you want to monitor subscriptions (subscribe/unsubscribe) on the ActorSystem.eventStream:

akka {
  actor {
    debug {
      # enable DEBUG logging of subscription changes on the eventStream
      event-stream = on
    }
  }
}

Auxiliary remote logging options

If you want to see all messages that are sent through remoting at DEBUG log level: (This is logged as they are sent by the transport layer, not by the Actor)

akka {
  remote {
    # If this is "on", Akka will log all outbound messages at DEBUG level,
    # if off then they are not logged
    log-sent-messages = on
  }
}

If you want to see all messages that are received through remoting at DEBUG log level: (This is logged as they are received by the transport layer, not by any Actor)

akka {
  remote {
    # If this is "on", Akka will log all inbound messages at DEBUG level,
    # if off then they are not logged
    log-received-messages = on
  }
}

Also see the logging options for TestKit: Tracing Actor Invocations.

Translating Log Source to String and Class

The rules for translating the source object to the source string and class which are inserted into the LogEvent during runtime are implemented using implicit parameters and thus fully customizable: simply create your own instance of LogSource[T] and have it in scope when creating the logger.

import akka.event.LogSource
import akka.actor.ActorSystem

object MyType {
  implicit val logSource: LogSource[AnyRef] = new LogSource[AnyRef] {
    def genString(o: AnyRef): String = o.getClass.getName
    override def getClazz(o: AnyRef): Class[_] = o.getClass
  }
}

class MyType(system: ActorSystem) {
  import MyType._
  import akka.event.Logging

  val log = Logging(system, this)
}

This example creates a log source which mimics traditional usage of Java loggers, which are based upon the originating object’s class name as log category. The override of getClazz is only included for demonstration purposes as it contains exactly the default behavior.

Note

You may also create the string representation up front and pass that in as the log source, but be aware that then the Class[_] which will be put in the LogEvent is akka.event.DummyClassForStringSources.

The SLF4J event listener treats this case specially (using the actual string to look up the logger instance to use instead of the class’ name), and you might want to do this also in case you implement your own logging adapter.

Turn Off Logging

To turn off logging you can configure the log levels to be OFF like this.

akka {
  stdout-loglevel = "OFF"
  loglevel = "OFF"
}

The stdout-loglevel is only in effect during system startup and shutdown, and setting it to OFF as well, ensures that nothing gets logged during system startup or shutdown.

Event Handler

Logging is performed asynchronously through an event bus. Log events are processed by an event handler actor and it will receive the log events in the same order as they were emitted.

One gotcha is that currently the timestamp is attributed in the event handler, not when actually doing the logging.

You can configure which event handlers are created at system start-up and listen to logging events. That is done using the event-handlers element in the Configuration. Here you can also define the log level.

akka {
  # Event handlers to register at boot time (Logging$DefaultLogger logs to STDOUT)
  event-handlers = ["akka.event.Logging$DefaultLogger"]
  # Options: OFF, ERROR, WARNING, INFO, DEBUG
  loglevel = "DEBUG"
}

The default one logs to STDOUT and is registered by default. It is not intended to be used for production. There is also an SLF4J event handler available in the 'akka-slf4j' module.

Example of creating a listener:

import akka.event.Logging.InitializeLogger
import akka.event.Logging.LoggerInitialized
import akka.event.Logging.Error
import akka.event.Logging.Warning
import akka.event.Logging.Info
import akka.event.Logging.Debug

class MyEventListener extends Actor {
  def receive = {
    case InitializeLogger(_)                         sender ! LoggerInitialized
    case Error(cause, logSource, logClass, message)  // ...
    case Warning(logSource, logClass, message)       // ...
    case Info(logSource, logClass, message)          // ...
    case Debug(logSource, logClass, message)         // ...
  }
}

SLF4J

Akka provides an event handler for SL4FJ. This module is available in the 'akka-slf4j.jar'. It has one single dependency; the slf4j-api jar. In runtime you also need a SLF4J backend, we recommend Logback:

lazy val logback = "ch.qos.logback" % "logback-classic" % "1.0.7"

You need to enable the Slf4jEventHandler in the 'event-handlers' element in the Configuration. Here you can also define the log level of the event bus. More fine grained log levels can be defined in the configuration of the SLF4J backend (e.g. logback.xml).

akka {
  event-handlers = ["akka.event.slf4j.Slf4jEventHandler"]
  loglevel = "DEBUG"
}

The SLF4J logger selected for each log event is chosen based on the Class[_] of the log source specified when creating the LoggingAdapter, unless that was given directly as a string in which case that string is used (i.e. LoggerFactory.getLogger(c: Class[_]) is used in the first case and LoggerFactory.getLogger(s: String) in the second).

Note

Beware that the actor system’s name is appended to a String log source if the LoggingAdapter was created giving an ActorSystem to the factory. If this is not intended, give a LoggingBus instead as shown below:

val log = Logging(system.eventStream, "my.nice.string")

Logging Thread and Akka Source in MDC

Since the logging is done asynchronously the thread in which the logging was performed is captured in Mapped Diagnostic Context (MDC) with attribute name sourceThread. With Logback the thread name is available with %X{sourceThread} specifier within the pattern layout configuration:

<appender name="STDOUT" class="ch.qos.logback.core.ConsoleAppender">
  <encoder>
    <pattern>%date{ISO8601} %-5level %logger{36} %X{sourceThread} - %msg%n</pattern>
  </encoder>
</appender>

Note

It will probably be a good idea to use the sourceThread MDC value also in non-Akka parts of the application in order to have this property consistently available in the logs.

Another helpful facility is that Akka captures the actor’s address when instantiating a logger within it, meaning that the full instance identification is available for associating log messages e.g. with members of a router. This information is available in the MDC with attribute name akkaSource:

<appender name="STDOUT" class="ch.qos.logback.core.ConsoleAppender">
  <encoder>
    <pattern>%date{ISO8601} %-5level %logger{36} %X{akkaSource} - %msg%n</pattern>
  </encoder>
</appender>

For more details on what this attribute contains—also for non-actors—please see How to Log.

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