/** * Creates non-connected UDP {@link Connection}. * * @return non-connected UDP {@link Connection}. */ public GrizzlyFuture<Connection> connect() { return connectAsync(null, null, null, true); }
/** * Creates non-connected UDP {@link Connection}. * * @return non-connected UDP {@link Connection}. */ public GrizzlyFuture<Connection> connect() { return connectAsync(null, null, null, true); }
/** * Creates non-connected UDP {@link Connection}. * * @return non-connected UDP {@link Connection}. */ public GrizzlyFuture<Connection> connect() { return connectAsync(null, null, null, true); }
@Override public Future<Connection> connect(SocketAddress remoteAddress, SocketAddress localAddress, CompletionHandler<Connection> completionHandler, boolean needFuture) { return connectAsync(null, null, null, needFuture); }
/** * Creates non-connected UDP {@link Connection}. * * @return non-connected UDP {@link Connection}. */ public GrizzlyFuture<Connection> connect() { return connectAsync(null, null, null, true); }
/** * Creates non-connected UDP {@link Connection}. * * @return non-connected UDP {@link Connection}. */ public GrizzlyFuture<Connection> connect() { return connectAsync(null, null, null, true); }
/** * Creates non-connected UDP {@link Connection}. * * @return non-connected UDP {@link Connection}. */ public GrizzlyFuture<Connection> connect() { return connectAsync(null, null, null, true); }
/** * Creates non-connected UDP {@link Connection}. * * @return non-connected UDP {@link Connection}. */ public GrizzlyFuture<Connection> connect() { return connectAsync(null, null, null, true); }
/** * Creates non-connected UDP {@link Connection}. * * @return non-connected UDP {@link Connection}. */ public GrizzlyFuture<Connection> connect() { return connectAsync(null, null, null, true); }
protected void connectSync(final SocketAddress remoteAddress, final SocketAddress localAddress, final CompletionHandler<Connection> completionHandler) { final FutureImpl<Connection> future = connectAsync(remoteAddress, localAddress, completionHandler, true); waitNIOFuture(future, completionHandler); }
protected void connectSync(final SocketAddress remoteAddress, final SocketAddress localAddress, final CompletionHandler<Connection> completionHandler) { final FutureImpl<Connection> future = connectAsync(remoteAddress, localAddress, completionHandler, true); waitNIOFuture(future, completionHandler); }
protected void connectSync(final SocketAddress remoteAddress, final SocketAddress localAddress, final CompletionHandler<Connection> completionHandler) { final FutureImpl<Connection> future = connectAsync(remoteAddress, localAddress, completionHandler, true); waitNIOFuture(future, completionHandler); }
protected void connectSync(final SocketAddress remoteAddress, final SocketAddress localAddress, final CompletionHandler<Connection> completionHandler) { final FutureImpl<Connection> future = connectAsync(remoteAddress, localAddress, completionHandler, true); waitNIOFuture(future, completionHandler); }
protected void connectSync(final SocketAddress remoteAddress, final SocketAddress localAddress, final CompletionHandler<Connection> completionHandler) { final FutureImpl<Connection> future = connectAsync(remoteAddress, localAddress, completionHandler, true); waitNIOFuture(future, completionHandler); }
@Override public void connect(final SocketAddress remoteAddress, final SocketAddress localAddress, final CompletionHandler<Connection> completionHandler) { if (!transport.isBlocking()) { connectAsync(remoteAddress, localAddress, completionHandler, false); } else { connectSync(remoteAddress, localAddress, completionHandler); } }
@Override public void connect(final SocketAddress remoteAddress, final SocketAddress localAddress, final CompletionHandler<Connection> completionHandler) { if (!transport.isBlocking()) { connectAsync(remoteAddress, localAddress, completionHandler, false); } else { connectSync(remoteAddress, localAddress, completionHandler); } }
@Override public void connect(final SocketAddress remoteAddress, final SocketAddress localAddress, final CompletionHandler<Connection> completionHandler) { if (!transport.isBlocking()) { connectAsync(remoteAddress, localAddress, completionHandler, false); } else { connectSync(remoteAddress, localAddress, completionHandler); } }
@Override public void connect(final SocketAddress remoteAddress, final SocketAddress localAddress, final CompletionHandler<Connection> completionHandler) { if (!transport.isBlocking()) { connectAsync(remoteAddress, localAddress, completionHandler, false); } else { connectSync(remoteAddress, localAddress, completionHandler); } }
@Override public void connect(final SocketAddress remoteAddress, final SocketAddress localAddress, final CompletionHandler<Connection> completionHandler) { if (!transport.isBlocking()) { connectAsync(remoteAddress, localAddress, completionHandler, false); } else { connectSync(remoteAddress, localAddress, completionHandler); } }
@Override public void connect(final SocketAddress remoteAddress, final SocketAddress localAddress, final CompletionHandler<Connection> completionHandler) { if (!transport.isBlocking()) { connectAsync(remoteAddress, localAddress, completionHandler, false); } else { connectSync(remoteAddress, localAddress, completionHandler); } }