akka.remote.transport
Interface Transport

All Known Implementing Classes:
AbstractTransportAdapter, ActorTransportAdapter, AkkaProtocolTransport, FailureInjectorTransportAdapter, NettyTransport, TestTransport, ThrottlerTransportAdapter

public interface Transport

An SPI layer for implementing asynchronous transport mechanisms. The Transport is responsible for initializing the underlying transmission mechanism and setting up logical links between transport entities.

Transport implementations that are loaded dynamically by the remoting must have a constructor that accepts a com.typesafe.config.Config and an ExtendedActorSystem as parameters.


Nested Class Summary
static class Transport.ActorAssociationEventListener
          Class to convert ordinary ActorRef instances to an AssociationEventListener.
static class Transport.ActorAssociationEventListener$
           
static interface Transport.AssociationEvent
           
static interface Transport.AssociationEventListener
          An interface that needs to be implemented by the user of a transport to listen to association events
static class Transport.InboundAssociation
          Message sent to a Transport.AssociationEventListener registered to a transport (via the Promise returned by akka.remote.transport.Transport.listen) when an inbound association request arrives.
static class Transport.InboundAssociation$
           
static class Transport.InvalidAssociationException
          Indicates that the association setup request is invalid, and it is impossible to recover (malformed IP address, hostname, etc.).
static class Transport.InvalidAssociationException$
           
 
Method Summary
 scala.concurrent.Future<AssociationHandle> associate(Address remoteAddress)
          Asynchronously opens a logical duplex link between two Transport Entities over a network.
 boolean isResponsibleFor(Address address)
          A function that decides whether the specific transport instance is responsible for delivering to a given address.
 scala.concurrent.Future<scala.Tuple2<Address,scala.concurrent.Promise<Transport.AssociationEventListener>>> listen()
          Asynchronously attempts to setup the transport layer to listen and accept incoming associations.
 scala.concurrent.Future<java.lang.Object> managementCommand(java.lang.Object cmd)
          This method allows upper layers to send management commands to the transport.
 int maximumPayloadBytes()
          Defines the maximum size of payload this transport is able to deliver.
 java.lang.String schemeIdentifier()
          Returns a string that will be used as the scheme part of the URLs corresponding to this transport
 scala.concurrent.Future<java.lang.Object> shutdown()
          Shuts down the transport layer and releases all the corresponding resources.
 

Method Detail

schemeIdentifier

java.lang.String schemeIdentifier()
Returns a string that will be used as the scheme part of the URLs corresponding to this transport

Returns:
the scheme string

isResponsibleFor

boolean isResponsibleFor(Address address)
A function that decides whether the specific transport instance is responsible for delivering to a given address. The function must be thread-safe and non-blocking.

The purpose of this function is to resolve cases when the scheme part of an URL is not enough to resolve the correct transport i.e. multiple instances of the same transport implementation are loaded. These cases arise when - the same transport, but with different configurations is used for different remote systems - a transport is able to serve one address only (hardware protocols, e.g. Serial port) and multiple instances are needed to be loaded for different endpoints.

Parameters:
address - (undocumented)
Returns:
whether the transport instance is responsible to serve communications to the given address.

maximumPayloadBytes

int maximumPayloadBytes()
Defines the maximum size of payload this transport is able to deliver. All transports MUST support at least 32kBytes (32000 octets) of payload, but some MAY support larger sizes.

Returns:

listen

scala.concurrent.Future<scala.Tuple2<Address,scala.concurrent.Promise<Transport.AssociationEventListener>>> listen()
Asynchronously attempts to setup the transport layer to listen and accept incoming associations. The result of the attempt is wrapped by a Future returned by this method. The pair contained in the future contains a Promise for an ActorRef. By completing this Promise with an Transport.AssociationEventListener, that listener becomes responsible for handling incoming associations. Until the Promise is not completed, no associations are processed.

Returns:
A Future containing a pair of the bound local address and a Promise of an AssociationListener that must be completed by the consumer of the future.

associate

scala.concurrent.Future<AssociationHandle> associate(Address remoteAddress)
Asynchronously opens a logical duplex link between two Transport Entities over a network. It could be backed by a real transport-layer connection (TCP), more lightweight connections provided over datagram protocols (UDP with additional services), substreams of multiplexed connections (SCTP) or physical links (serial port).

This call returns a future of an AssociationHandle. A failed future indicates that the association attempt was unsuccessful. If the exception is Transport.InvalidAssociationException then the association request was invalid, and it is impossible to recover.

Parameters:
remoteAddress - The address of the remote transport entity.
Returns:
A status instance representing failure or a success containing an AssociationHandle

shutdown

scala.concurrent.Future<java.lang.Object> shutdown()
Shuts down the transport layer and releases all the corresponding resources. Shutdown is asynchronous signalling the end of the shutdown by completing the returned future.

The transport SHOULD try flushing pending writes before becoming completely closed.

Returns:
Future signalling the completion of shutdown

managementCommand

scala.concurrent.Future<java.lang.Object> managementCommand(java.lang.Object cmd)
This method allows upper layers to send management commands to the transport. It is the responsibility of the sender to send appropriate commands to different transport implementations. Unknown commands will be ignored.

Parameters:
cmd - Command message to the transport
Returns:
Future that succeeds when the command was handled or dropped