public void resetToNewerVersion(int version) { for (OutboundTcpConnection conn : new OutboundTcpConnection[] { smallMessages, largeMessages, gossipMessages }) { if (version > conn.getTargetVersion()) conn.softCloseSocket(); } }
public void resetToNewerVersion(int version) { for (OutboundTcpConnection conn : new OutboundTcpConnection[] { cmdCon, ackCon }) { if (version > conn.getTargetVersion()) conn.softCloseSocket(); } }
public void resetToNewerVersion(int version) { for (OutboundTcpConnection conn : new OutboundTcpConnection[] { smallMessages, largeMessages, gossipMessages }) { if (version > conn.getTargetVersion()) conn.softCloseSocket(); } }
public void resetToNewerVersion(int version) { for (OutboundTcpConnection conn : new OutboundTcpConnection[] { smallMessages, largeMessages, gossipMessages }) { if (version > conn.getTargetVersion()) conn.softCloseSocket(); } }
/** * returns the appropriate connection based on message type. * returns null if a connection could not be established. */ OutboundTcpConnection getConnection(MessageOut msg) { if (Stage.GOSSIP == msg.getStage()) return gossipMessages; return msg.payloadSize(smallMessages.getTargetVersion()) > LARGE_MESSAGE_THRESHOLD ? largeMessages : smallMessages; }
/** * returns the appropriate connection based on message type. * returns null if a connection could not be established. */ OutboundTcpConnection getConnection(MessageOut msg) { if (Stage.GOSSIP == msg.getStage()) return gossipMessages; return msg.payloadSize(smallMessages.getTargetVersion()) > LARGE_MESSAGE_THRESHOLD ? largeMessages : smallMessages; }
/** * returns the appropriate connection based on message type. * returns null if a connection could not be established. */ OutboundTcpConnection getConnection(MessageOut msg) { if (Stage.GOSSIP == msg.getStage()) return gossipMessages; return msg.payloadSize(smallMessages.getTargetVersion()) > LARGE_MESSAGE_THRESHOLD ? largeMessages : smallMessages; }