@Override public void connect(final ClientCallback<ClientConnection> listener, final URI uri, final XnioIoThread ioThread, final XnioSsl ssl, final ByteBufferPool bufferPool, final OptionMap options) { connect(listener, null, uri, ioThread, ssl, bufferPool, options); }
@Override public void connect(ClientCallback<ClientConnection> listener, InetSocketAddress bindAddress, URI uri, XnioIoThread ioThread, XnioSsl ssl, ByteBufferPool bufferPool, OptionMap options) { if (uri.getScheme().equals("https")) { if (ssl == null) { listener.failed(UndertowMessages.MESSAGES.sslWasNull()); return; } OptionMap tlsOptions = OptionMap.builder().addAll(options).set(Options.SSL_STARTTLS, true).getMap(); if (bindAddress == null) { ssl.openSslConnection(ioThread, new InetSocketAddress(uri.getHost(), uri.getPort() == -1 ? 443 : uri.getPort()), createOpenListener(listener, bufferPool, tlsOptions, uri), tlsOptions).addNotifier(createNotifier(listener), null); } else { ssl.openSslConnection(ioThread, bindAddress, new InetSocketAddress(uri.getHost(), uri.getPort() == -1 ? 443 : uri.getPort()), createOpenListener(listener, bufferPool, tlsOptions, uri), tlsOptions).addNotifier(createNotifier(listener), null); } } else { if (bindAddress == null) { ioThread.openStreamConnection(new InetSocketAddress(uri.getHost(), uri.getPort() == -1 ? 80 : uri.getPort()), createOpenListener(listener, bufferPool, options, uri), options).addNotifier(createNotifier(listener), null); } else { ioThread.openStreamConnection(bindAddress, new InetSocketAddress(uri.getHost(), uri.getPort() == -1 ? 80 : uri.getPort()), createOpenListener(listener, bufferPool, options, uri), null, options).addNotifier(createNotifier(listener), null); } } }
@Override public void connect(ClientCallback<ClientConnection> listener, InetSocketAddress bindAddress, URI uri, XnioWorker worker, XnioSsl ssl, ByteBufferPool bufferPool, OptionMap options) { if (uri.getScheme().equals("https")) { if (ssl == null) { listener.failed(UndertowMessages.MESSAGES.sslWasNull()); return; } OptionMap tlsOptions = OptionMap.builder().addAll(options).set(Options.SSL_STARTTLS, true).getMap(); if (bindAddress == null) { ssl.openSslConnection(worker, new InetSocketAddress(uri.getHost(), uri.getPort() == -1 ? 443 : uri.getPort()), createOpenListener(listener, bufferPool, tlsOptions, uri), tlsOptions).addNotifier(createNotifier(listener), null); } else { ssl.openSslConnection(worker, bindAddress, new InetSocketAddress(uri.getHost(), uri.getPort() == -1 ? 443 : uri.getPort()), createOpenListener(listener, bufferPool, tlsOptions, uri), tlsOptions).addNotifier(createNotifier(listener), null); } } else { if (bindAddress == null) { worker.openStreamConnection(new InetSocketAddress(uri.getHost(), uri.getPort() == -1 ? 80 : uri.getPort()), createOpenListener(listener, bufferPool, options, uri), options).addNotifier(createNotifier(listener), null); } else { worker.openStreamConnection(bindAddress, new InetSocketAddress(uri.getHost(), uri.getPort() == -1 ? 80 : uri.getPort()), createOpenListener(listener, bufferPool, options, uri), null, options).addNotifier(createNotifier(listener), null); } } }
@Override public void connect(final ClientCallback<ClientConnection> listener, final URI uri, final XnioWorker worker, final XnioSsl ssl, final ByteBufferPool bufferPool, final OptionMap options) { connect(listener, null, uri, worker, ssl, bufferPool, options); }
@Override public void connect(ClientCallback<ClientConnection> listener, InetSocketAddress bindAddress, URI uri, XnioWorker worker, XnioSsl ssl, ByteBufferPool bufferPool, OptionMap options) { if (uri.getScheme().equals("https")) { if (ssl == null) { listener.failed(UndertowMessages.MESSAGES.sslWasNull()); return; } OptionMap tlsOptions = OptionMap.builder().addAll(options).set(Options.SSL_STARTTLS, true).getMap(); if (bindAddress == null) { ssl.openSslConnection(worker, new InetSocketAddress(uri.getHost(), uri.getPort() == -1 ? 443 : uri.getPort()), createOpenListener(listener, bufferPool, tlsOptions, uri), tlsOptions).addNotifier(createNotifier(listener), null); } else { ssl.openSslConnection(worker, bindAddress, new InetSocketAddress(uri.getHost(), uri.getPort() == -1 ? 443 : uri.getPort()), createOpenListener(listener, bufferPool, tlsOptions, uri), tlsOptions).addNotifier(createNotifier(listener), null); } } else { if (bindAddress == null) { worker.openStreamConnection(new InetSocketAddress(uri.getHost(), uri.getPort() == -1 ? 80 : uri.getPort()), createOpenListener(listener, bufferPool, options, uri), options).addNotifier(createNotifier(listener), null); } else { worker.openStreamConnection(bindAddress, new InetSocketAddress(uri.getHost(), uri.getPort() == -1 ? 80 : uri.getPort()), createOpenListener(listener, bufferPool, options, uri), null, options).addNotifier(createNotifier(listener), null); } } }
@Override public void connect(final ClientCallback<ClientConnection> listener, final URI uri, final XnioWorker worker, final XnioSsl ssl, final ByteBufferPool bufferPool, final OptionMap options) { connect(listener, null, uri, worker, ssl, bufferPool, options); }
@Override public void connect(ClientCallback<ClientConnection> listener, InetSocketAddress bindAddress, URI uri, XnioIoThread ioThread, XnioSsl ssl, ByteBufferPool bufferPool, OptionMap options) { if (uri.getScheme().equals("https")) { if (ssl == null) { listener.failed(UndertowMessages.MESSAGES.sslWasNull()); return; } OptionMap tlsOptions = OptionMap.builder().addAll(options).set(Options.SSL_STARTTLS, true).getMap(); if (bindAddress == null) { ssl.openSslConnection(ioThread, new InetSocketAddress(uri.getHost(), uri.getPort() == -1 ? 443 : uri.getPort()), createOpenListener(listener, bufferPool, tlsOptions, uri), tlsOptions).addNotifier(createNotifier(listener), null); } else { ssl.openSslConnection(ioThread, bindAddress, new InetSocketAddress(uri.getHost(), uri.getPort() == -1 ? 443 : uri.getPort()), createOpenListener(listener, bufferPool, tlsOptions, uri), tlsOptions).addNotifier(createNotifier(listener), null); } } else { if (bindAddress == null) { ioThread.openStreamConnection(new InetSocketAddress(uri.getHost(), uri.getPort() == -1 ? 80 : uri.getPort()), createOpenListener(listener, bufferPool, options, uri), options).addNotifier(createNotifier(listener), null); } else { ioThread.openStreamConnection(bindAddress, new InetSocketAddress(uri.getHost(), uri.getPort() == -1 ? 80 : uri.getPort()), createOpenListener(listener, bufferPool, options, uri), null, options).addNotifier(createNotifier(listener), null); } } }
@Override public void connect(final ClientCallback<ClientConnection> listener, final URI uri, final XnioIoThread ioThread, final XnioSsl ssl, final ByteBufferPool bufferPool, final OptionMap options) { connect(listener, null, uri, ioThread, ssl, bufferPool, options); }
@Override public void connect(ClientCallback<ClientConnection> listener, InetSocketAddress bindAddress, URI uri, XnioIoThread ioThread, XnioSsl ssl, ByteBufferPool bufferPool, OptionMap options) { if (uri.getScheme().equals("https")) { if (ssl == null) { listener.failed(UndertowMessages.MESSAGES.sslWasNull()); return; } OptionMap tlsOptions = OptionMap.builder().addAll(options).set(Options.SSL_STARTTLS, true).getMap(); if (bindAddress == null) { ssl.openSslConnection(ioThread, new InetSocketAddress(uri.getHost(), uri.getPort() == -1 ? 443 : uri.getPort()), createOpenListener(listener, bufferPool, tlsOptions, uri), tlsOptions).addNotifier(createNotifier(listener), null); } else { ssl.openSslConnection(ioThread, bindAddress, new InetSocketAddress(uri.getHost(), uri.getPort() == -1 ? 443 : uri.getPort()), createOpenListener(listener, bufferPool, tlsOptions, uri), tlsOptions).addNotifier(createNotifier(listener), null); } } else { if (bindAddress == null) { ioThread.openStreamConnection(new InetSocketAddress(uri.getHost(), uri.getPort() == -1 ? 80 : uri.getPort()), createOpenListener(listener, bufferPool, options, uri), options).addNotifier(createNotifier(listener), null); } else { ioThread.openStreamConnection(bindAddress, new InetSocketAddress(uri.getHost(), uri.getPort() == -1 ? 80 : uri.getPort()), createOpenListener(listener, bufferPool, options, uri), null, options).addNotifier(createNotifier(listener), null); } } }
@Override public void connect(final ClientCallback<ClientConnection> listener, final URI uri, final XnioWorker worker, final XnioSsl ssl, final ByteBufferPool bufferPool, final OptionMap options) { connect(listener, null, uri, worker, ssl, bufferPool, options); }
@Override public void connect(ClientCallback<ClientConnection> listener, InetSocketAddress bindAddress, URI uri, XnioWorker worker, XnioSsl ssl, ByteBufferPool bufferPool, OptionMap options) { if (uri.getScheme().equals("https")) { if (ssl == null) { listener.failed(UndertowMessages.MESSAGES.sslWasNull()); return; } OptionMap tlsOptions = OptionMap.builder().addAll(options).set(Options.SSL_STARTTLS, true).getMap(); if (bindAddress == null) { ssl.openSslConnection(worker, new InetSocketAddress(uri.getHost(), uri.getPort() == -1 ? 443 : uri.getPort()), createOpenListener(listener, bufferPool, tlsOptions, uri), tlsOptions).addNotifier(createNotifier(listener), null); } else { ssl.openSslConnection(worker, bindAddress, new InetSocketAddress(uri.getHost(), uri.getPort() == -1 ? 443 : uri.getPort()), createOpenListener(listener, bufferPool, tlsOptions, uri), tlsOptions).addNotifier(createNotifier(listener), null); } } else { if (bindAddress == null) { worker.openStreamConnection(new InetSocketAddress(uri.getHost(), uri.getPort() == -1 ? 80 : uri.getPort()), createOpenListener(listener, bufferPool, options, uri), options).addNotifier(createNotifier(listener), null); } else { worker.openStreamConnection(bindAddress, new InetSocketAddress(uri.getHost(), uri.getPort() == -1 ? 80 : uri.getPort()), createOpenListener(listener, bufferPool, options, uri), null, options).addNotifier(createNotifier(listener), null); } } }
@Override public void connect(final ClientCallback<ClientConnection> listener, final URI uri, final XnioIoThread ioThread, final XnioSsl ssl, final ByteBufferPool bufferPool, final OptionMap options) { connect(listener, null, uri, ioThread, ssl, bufferPool, options); }