Uses of Class
net.i2p.client.streaming.Connection

Packages that use Connection
net.i2p.client.streaming Implements a TCP-like (reliable, authenticated, in order) set of sockets for communicating over the IP-like (unreliable, unauthenticated, unordered) I2P messages. 
 

Uses of Connection in net.i2p.client.streaming
 

Methods in net.i2p.client.streaming that return Connection
 Connection ConnectionHandler.accept(long timeoutMs)
          Receive an incoming connection (built from a received SYN)
 Connection ConnectionManager.connect(Destination peer, ConnectionOptions opts)
          Build a new connection to the given peer.
 Connection PacketLocal.getConnection()
           
(package private)  Connection I2PSocketFull.getConnection()
           
(package private)  Connection ConnectionManager.getConnectionByInboundId(long id)
           
(package private)  Connection ConnectionManager.getConnectionByOutboundId(long id)
          not guaranteed to be unique, but in case we receive more than one packet on an inbound connection that we havent ack'ed yet...
 Connection ConnectionManager.receiveConnection(Packet synPacket)
          Create a new connection based on the SYN packet we received.
 

Methods in net.i2p.client.streaming with parameters of type Connection
 boolean TaskScheduler.accept(Connection con)
          Determine whether this scheduler is fit to operate against the given connection
 boolean SchedulerReceived.accept(Connection con)
           
 boolean SchedulerPreconnect.accept(Connection con)
           
 boolean SchedulerHardDisconnected.accept(Connection con)
           
 boolean SchedulerDead.accept(Connection con)
           
 boolean SchedulerConnecting.accept(Connection con)
           
 boolean SchedulerConnectedBulk.accept(Connection con)
           
 boolean SchedulerClosing.accept(Connection con)
           
 boolean SchedulerClosed.accept(Connection con)
           
 void TaskScheduler.eventOccurred(Connection con)
          An event has occurred (timeout, message sent, or message received), so schedule what to do next based on our current state.
 void SchedulerReceived.eventOccurred(Connection con)
           
 void SchedulerPreconnect.eventOccurred(Connection con)
           
 void SchedulerHardDisconnected.eventOccurred(Connection con)
           
 void SchedulerDead.eventOccurred(Connection con)
           
 void SchedulerConnecting.eventOccurred(Connection con)
           
 void SchedulerConnectedBulk.eventOccurred(Connection con)
           
 void SchedulerClosing.eventOccurred(Connection con)
           
 void SchedulerClosed.eventOccurred(Connection con)
           
 TaskScheduler SchedulerChooser.getScheduler(Connection con)
           
(package private)  void ConnectionPacketHandler.receivePacket(Packet packet, Connection con)
          distribute a packet to the connection specified
 void ConnectionManager.removeConnection(Connection con)
          Drop the (already closed) connection on the floor.
protected  void SchedulerImpl.reschedule(long msToWait, Connection con)
           
 

Constructors in net.i2p.client.streaming with parameters of type Connection
ConnectionDataReceiver(I2PAppContext ctx, Connection con)
           
I2PSocketFull(Connection con)
           
PacketLocal(I2PAppContext ctx, Destination to, Connection con)