Apache Pekko
1.0.3
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Apache Pekko/org.apache.pekko.stream/org.apache.pekko.stream.javadsl/RestartSink

RestartSink

org.apache.pekko.stream.javadsl.RestartSink
object RestartSink

A RestartSink wraps a Sink that gets restarted when it completes or fails.

They are useful for graphs that need to run for longer than the Sink can necessarily guarantee it will, for example, for Sink streams that depend on a remote server that may crash or become partitioned. The RestartSink ensures that the graph can continue running while the Sink restarts.

Attributes

Source
RestartSink.scala
Graph
Supertypes
class Object
trait Matchable
class Any
Self type

Members list

Value members

Concrete methods

def withBackoff[T](settings: RestartSettings, sinkFactory: Creator[Sink[T, _]]): Sink[T, NotUsed]

Wrap the given Sink with a Sink that will restart it when it fails or complete using an exponential backoff.

Wrap the given Sink with a Sink that will restart it when it fails or complete using an exponential backoff.

This Sink will not cancel as long as maxRestarts is not reached, since cancellation by the wrapped Sink is handled by restarting it. The wrapped Sink can however be completed by feeding a completion or error into this Sink. When that happens, the Sink, if currently running, will terminate and will not be restarted. This can be triggered simply by the upstream completing, or externally by introducing a KillSwitch right before this Sink in the graph.

The restart process is inherently lossy, since there is no coordination between cancelling and the sending of messages. When the wrapped Sink does cancel, this Sink will backpressure, however any elements already sent may have been lost.

This uses the same exponential backoff algorithm as pekko.pattern.BackoffOpts.

Value parameters

settings

RestartSettings defining restart configuration

sinkFactory

A factory for producing the Sink to wrap.

Attributes

Source
RestartSink.scala

Deprecated methods

def withBackoff[T](minBackoff: FiniteDuration, maxBackoff: FiniteDuration, randomFactor: Double, sinkFactory: Creator[Sink[T, _]]): Sink[T, NotUsed]

Wrap the given Sink with a Sink that will restart it when it fails or complete using an exponential backoff.

Wrap the given Sink with a Sink that will restart it when it fails or complete using an exponential backoff.

This Sink will never cancel, since cancellation by the wrapped Sink is always handled by restarting it. The wrapped Sink can however be completed by feeding a completion or error into this Sink. When that happens, the Sink, if currently running, will terminate and will not be restarted. This can be triggered simply by the upstream completing, or externally by introducing a KillSwitch right before this Sink in the graph.

The restart process is inherently lossy, since there is no coordination between cancelling and the sending of messages. When the wrapped Sink does cancel, this Sink will backpressure, however any elements already sent may have been lost.

This uses the same exponential backoff algorithm as pekko.pattern.BackoffOpts.

Value parameters

maxBackoff

the exponential back-off is capped to this duration

minBackoff

minimum (initial) duration until the child actor will started again, if it is terminated

randomFactor

after calculation of the exponential back-off an additional random delay based on this factor is added, e.g. 0.2 adds up to 20% delay. In order to skip this additional delay pass in 0.

sinkFactory

A factory for producing the Sink to wrap.

Attributes

Deprecated
[Since version Akka 2.5.12]
Source
RestartSink.scala
def withBackoff[T](minBackoff: Duration, maxBackoff: Duration, randomFactor: Double, sinkFactory: Creator[Sink[T, _]]): Sink[T, NotUsed]

Wrap the given Sink with a Sink that will restart it when it fails or complete using an exponential backoff.

Wrap the given Sink with a Sink that will restart it when it fails or complete using an exponential backoff.

This Sink will never cancel, since cancellation by the wrapped Sink is always handled by restarting it. The wrapped Sink can however be completed by feeding a completion or error into this Sink. When that happens, the Sink, if currently running, will terminate and will not be restarted. This can be triggered simply by the upstream completing, or externally by introducing a KillSwitch right before this Sink in the graph.

The restart process is inherently lossy, since there is no coordination between cancelling and the sending of messages. When the wrapped Sink does cancel, this Sink will backpressure, however any elements already sent may have been lost.

This uses the same exponential backoff algorithm as pekko.pattern.BackoffOpts.

Value parameters

maxBackoff

the exponential back-off is capped to this duration

minBackoff

minimum (initial) duration until the child actor will started again, if it is terminated

randomFactor

after calculation of the exponential back-off an additional random delay based on this factor is added, e.g. 0.2 adds up to 20% delay. In order to skip this additional delay pass in 0.

sinkFactory

A factory for producing the Sink to wrap.

Attributes

Deprecated
[Since version Akka 2.6.10]
Source
RestartSink.scala
def withBackoff[T](minBackoff: FiniteDuration, maxBackoff: FiniteDuration, randomFactor: Double, maxRestarts: Int, sinkFactory: Creator[Sink[T, _]]): Sink[T, NotUsed]

Wrap the given Sink with a Sink that will restart it when it fails or complete using an exponential backoff.

Wrap the given Sink with a Sink that will restart it when it fails or complete using an exponential backoff.

This Sink will not cancel as long as maxRestarts is not reached, since cancellation by the wrapped Sink is handled by restarting it. The wrapped Sink can however be completed by feeding a completion or error into this Sink. When that happens, the Sink, if currently running, will terminate and will not be restarted. This can be triggered simply by the upstream completing, or externally by introducing a KillSwitch right before this Sink in the graph.

The restart process is inherently lossy, since there is no coordination between cancelling and the sending of messages. When the wrapped Sink does cancel, this Sink will backpressure, however any elements already sent may have been lost.

This uses the same exponential backoff algorithm as pekko.pattern.BackoffOpts.

Value parameters

maxBackoff

the exponential back-off is capped to this duration

maxRestarts

the amount of restarts is capped to this amount within a time frame of minBackoff. Passing 0 will cause no restarts and a negative number will not cap the amount of restarts.

minBackoff

minimum (initial) duration until the child actor will started again, if it is terminated

randomFactor

after calculation of the exponential back-off an additional random delay based on this factor is added, e.g. 0.2 adds up to 20% delay. In order to skip this additional delay pass in 0.

sinkFactory

A factory for producing the Sink to wrap.

Attributes

Deprecated
[Since version Akka 2.5.12]
Source
RestartSink.scala
def withBackoff[T](minBackoff: Duration, maxBackoff: Duration, randomFactor: Double, maxRestarts: Int, sinkFactory: Creator[Sink[T, _]]): Sink[T, NotUsed]

Wrap the given Sink with a Sink that will restart it when it fails or complete using an exponential backoff.

Wrap the given Sink with a Sink that will restart it when it fails or complete using an exponential backoff.

This Sink will not cancel as long as maxRestarts is not reached, since cancellation by the wrapped Sink is handled by restarting it. The wrapped Sink can however be completed by feeding a completion or error into this Sink. When that happens, the Sink, if currently running, will terminate and will not be restarted. This can be triggered simply by the upstream completing, or externally by introducing a KillSwitch right before this Sink in the graph.

The restart process is inherently lossy, since there is no coordination between cancelling and the sending of messages. When the wrapped Sink does cancel, this Sink will backpressure, however any elements already sent may have been lost.

This uses the same exponential backoff algorithm as pekko.pattern.BackoffOpts.

Value parameters

maxBackoff

the exponential back-off is capped to this duration

maxRestarts

the amount of restarts is capped to this amount within a time frame of minBackoff. Passing 0 will cause no restarts and a negative number will not cap the amount of restarts.

minBackoff

minimum (initial) duration until the child actor will started again, if it is terminated

randomFactor

after calculation of the exponential back-off an additional random delay based on this factor is added, e.g. 0.2 adds up to 20% delay. In order to skip this additional delay pass in 0.

sinkFactory

A factory for producing the Sink to wrap.

Attributes

Deprecated
[Since version Akka 2.6.10]
Source
RestartSink.scala
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