All Downloads are FREE. Search and download functionalities are using the official Maven repository.

org.eclipse.jetty.io.ClientConnector Maven / Gradle / Ivy

There is a newer version: 12.1.0.alpha0
Show newest version
//
// ========================================================================
// Copyright (c) 1995 Mort Bay Consulting Pty Ltd and others.
//
// This program and the accompanying materials are made available under the
// terms of the Eclipse Public License v. 2.0 which is available at
// https://www.eclipse.org/legal/epl-2.0, or the Apache License, Version 2.0
// which is available at https://www.apache.org/licenses/LICENSE-2.0.
//
// SPDX-License-Identifier: EPL-2.0 OR Apache-2.0
// ========================================================================
//

package org.eclipse.jetty.io;

import java.io.IOException;
import java.net.InetSocketAddress;
import java.net.SocketAddress;
import java.net.SocketException;
import java.net.SocketOption;
import java.net.StandardProtocolFamily;
import java.net.StandardSocketOptions;
import java.net.UnixDomainSocketAddress;
import java.nio.channels.DatagramChannel;
import java.nio.channels.NetworkChannel;
import java.nio.channels.SelectableChannel;
import java.nio.channels.SelectionKey;
import java.nio.channels.SocketChannel;
import java.nio.file.Path;
import java.time.Duration;
import java.util.Map;
import java.util.Objects;
import java.util.concurrent.Executor;

import org.eclipse.jetty.util.IO;
import org.eclipse.jetty.util.Promise;
import org.eclipse.jetty.util.annotation.ManagedAttribute;
import org.eclipse.jetty.util.annotation.ManagedObject;
import org.eclipse.jetty.util.component.ContainerLifeCycle;
import org.eclipse.jetty.util.ssl.SslContextFactory;
import org.eclipse.jetty.util.thread.QueuedThreadPool;
import org.eclipse.jetty.util.thread.ScheduledExecutorScheduler;
import org.eclipse.jetty.util.thread.Scheduler;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;

/**
 * 

The client-side component that connects to server sockets.

*

ClientConnector delegates the handling of {@link SocketChannel}s * to a {@link SelectorManager}, and centralizes the configuration of * necessary components such as the executor, the scheduler, etc.

*

ClientConnector offers a low-level API that can be used to * connect {@link SocketChannel}s to listening servers via the * {@link #connect(SocketAddress, Map)} method.

*

However, a ClientConnector instance is typically just configured * and then passed to an HttpClient transport, so that applications * can use high-level APIs to make HTTP requests to servers:

*
 * // Create a ClientConnector instance.
 * ClientConnector connector = new ClientConnector();
 *
 * // Configure the ClientConnector.
 * connector.setSelectors(1);
 * connector.setSslContextFactory(new SslContextFactory.Client());
 *
 * // Pass it to the HttpClient transport.
 * HttpClientTransport transport = new HttpClientTransportDynamic(connector);
 * HttpClient httpClient = new HttpClient(transport);
 * httpClient.start();
 * 
*/ @ManagedObject public class ClientConnector extends ContainerLifeCycle { public static final String CLIENT_CONNECTOR_CONTEXT_KEY = "org.eclipse.jetty.client.connector"; public static final String REMOTE_SOCKET_ADDRESS_CONTEXT_KEY = CLIENT_CONNECTOR_CONTEXT_KEY + ".remoteSocketAddress"; public static final String CLIENT_CONNECTION_FACTORY_CONTEXT_KEY = CLIENT_CONNECTOR_CONTEXT_KEY + ".clientConnectionFactory"; public static final String CONNECTION_PROMISE_CONTEXT_KEY = CLIENT_CONNECTOR_CONTEXT_KEY + ".connectionPromise"; public static final String APPLICATION_PROTOCOLS_CONTEXT_KEY = CLIENT_CONNECTOR_CONTEXT_KEY + ".applicationProtocols"; private static final Logger LOG = LoggerFactory.getLogger(ClientConnector.class); /** *

Creates a ClientConnector configured to connect via Unix-Domain sockets to the given Unix-Domain path

* * @param path the Unix-Domain path to connect to * @return a ClientConnector that connects to the given Unix-Domain path * @deprecated replaced by {@link Transport.TCPUnix} */ @Deprecated(since = "12.0.7", forRemoval = true) public static ClientConnector forUnixDomain(Path path) { return new ClientConnector(Configurator.forUnixDomain(path)); } private final Configurator configurator; private Executor executor; private Scheduler scheduler; private ByteBufferPool byteBufferPool; private SslContextFactory.Client sslContextFactory; private SelectorManager selectorManager; private int selectors = 1; private boolean connectBlocking; private Duration connectTimeout = Duration.ofSeconds(5); private Duration idleTimeout = Duration.ofSeconds(30); private SocketAddress bindAddress; private boolean tcpNoDelay = true; private boolean reuseAddress = true; private boolean reusePort; private int receiveBufferSize = -1; private int sendBufferSize = -1; public ClientConnector() { this(new Configurator()); } /** * @param configurator the {@link Configurator} * @deprecated replaced by {@link Transport} */ @Deprecated(since = "12.0.7", forRemoval = true) public ClientConnector(Configurator configurator) { this.configurator = Objects.requireNonNull(configurator); installBean(configurator); configurator.addBean(this, false); } /** * @param address the SocketAddress to connect to * @return whether the connection to the given SocketAddress is intrinsically secure * @see Configurator#isIntrinsicallySecure(ClientConnector, SocketAddress) * * @deprecated replaced by {@link Transport#isIntrinsicallySecure()} */ @Deprecated(since = "12.0.7", forRemoval = true) public boolean isIntrinsicallySecure(SocketAddress address) { return configurator.isIntrinsicallySecure(this, address); } public SelectorManager getSelectorManager() { return selectorManager; } public Executor getExecutor() { return executor; } /** *

Returns the default {@link Transport} for this connector.

*

This method only exists for backwards compatibility, when * {@link Configurator} was used, and should be removed when * {@link Configurator} is removed.

* * @return the default {@link Transport} for this connector * @deprecated use {@link Transport} instead */ @Deprecated(since = "12.0.7", forRemoval = true) public Transport newTransport() { return configurator.newTransport(); } public void setExecutor(Executor executor) { if (isStarted()) throw new IllegalStateException(); updateBean(this.executor, executor); this.executor = executor; } public Scheduler getScheduler() { return scheduler; } public void setScheduler(Scheduler scheduler) { if (isStarted()) throw new IllegalStateException(); updateBean(this.scheduler, scheduler); this.scheduler = scheduler; } public ByteBufferPool getByteBufferPool() { return byteBufferPool; } public void setByteBufferPool(ByteBufferPool byteBufferPool) { if (isStarted()) throw new IllegalStateException(); updateBean(this.byteBufferPool, byteBufferPool); this.byteBufferPool = byteBufferPool; } public SslContextFactory.Client getSslContextFactory() { return sslContextFactory; } public void setSslContextFactory(SslContextFactory.Client sslContextFactory) { if (isStarted()) throw new IllegalStateException(); updateBean(this.sslContextFactory, sslContextFactory); this.sslContextFactory = sslContextFactory; } /** * @return the number of NIO selectors */ @ManagedAttribute("The number of NIO selectors") public int getSelectors() { return selectors; } public void setSelectors(int selectors) { if (isStarted()) throw new IllegalStateException(); this.selectors = selectors; } /** * @return whether {@link #connect(SocketAddress, Map)} operations are performed in blocking mode */ @ManagedAttribute("Whether connect operations are performed in blocking mode") public boolean isConnectBlocking() { return connectBlocking; } public void setConnectBlocking(boolean connectBlocking) { this.connectBlocking = connectBlocking; } /** * @return the timeout of {@link #connect(SocketAddress, Map)} operations */ @ManagedAttribute("The timeout of connect operations") public Duration getConnectTimeout() { return connectTimeout; } public void setConnectTimeout(Duration connectTimeout) { this.connectTimeout = connectTimeout; if (selectorManager != null) selectorManager.setConnectTimeout(connectTimeout.toMillis()); } /** * @return the max duration for which a connection can be idle (that is, without traffic of bytes in either direction) */ @ManagedAttribute("The duration for which a connection can be idle") public Duration getIdleTimeout() { return idleTimeout; } public void setIdleTimeout(Duration idleTimeout) { this.idleTimeout = idleTimeout; } /** * @return the address to bind a socket to before the connect operation */ @ManagedAttribute("The socket address to bind sockets to before the connect operation") public SocketAddress getBindAddress() { return bindAddress; } /** *

Sets the bind address of sockets before the connect operation.

*

In multi-homed hosts, you may want to connect from a specific address:

*
     * clientConnector.setBindAddress(new InetSocketAddress("127.0.0.2", 0));
     * 
*

Note the use of the port {@code 0} to indicate that a different ephemeral port * should be used for each different connection.

*

In the rare cases where you want to use the same port for all connections, * you must also call {@link #setReusePort(boolean) setReusePort(true)}.

* * @param bindAddress the socket address to bind to before the connect operation */ public void setBindAddress(SocketAddress bindAddress) { this.bindAddress = bindAddress; } /** * @return whether small TCP packets are sent without delay */ @ManagedAttribute("Whether small TCP packets are sent without delay") public boolean isTCPNoDelay() { return tcpNoDelay; } public void setTCPNoDelay(boolean tcpNoDelay) { this.tcpNoDelay = tcpNoDelay; } /** * @return whether rebinding is allowed with sockets in tear-down states */ @ManagedAttribute("Whether rebinding is allowed with sockets in tear-down states") public boolean getReuseAddress() { return reuseAddress; } /** *

Sets whether it is allowed to bind a socket to a socket address * that may be in use by another socket in tear-down state, for example * in TIME_WAIT state.

*

This is useful when ClientConnector is restarted: an existing connection * may still be using a network address (same host and same port) that is also * chosen for a new connection.

* * @param reuseAddress whether rebinding is allowed with sockets in tear-down states * @see #setReusePort(boolean) */ public void setReuseAddress(boolean reuseAddress) { this.reuseAddress = reuseAddress; } /** * @return whether binding to same host and port is allowed */ @ManagedAttribute("Whether binding to same host and port is allowed") public boolean isReusePort() { return reusePort; } /** *

Sets whether it is allowed to bind multiple sockets to the same * socket address (same host and same port).

* * @param reusePort whether binding to same host and port is allowed */ public void setReusePort(boolean reusePort) { this.reusePort = reusePort; } /** * @return the receive buffer size in bytes, or -1 for the default value */ @ManagedAttribute("The receive buffer size in bytes") public int getReceiveBufferSize() { return receiveBufferSize; } public void setReceiveBufferSize(int receiveBufferSize) { this.receiveBufferSize = receiveBufferSize; } /** * @return the send buffer size in bytes, or -1 for the default value */ @ManagedAttribute("The send buffer size in bytes") public int getSendBufferSize() { return sendBufferSize; } public void setSendBufferSize(int sendBufferSize) { this.sendBufferSize = sendBufferSize; } @Override protected void doStart() throws Exception { if (executor == null) { QueuedThreadPool clientThreads = new QueuedThreadPool(); clientThreads.setName(String.format("client-pool@%x", hashCode())); setExecutor(clientThreads); } if (scheduler == null) setScheduler(new ScheduledExecutorScheduler(String.format("client-scheduler@%x", hashCode()), false)); if (byteBufferPool == null) setByteBufferPool(new ArrayByteBufferPool()); if (sslContextFactory == null) setSslContextFactory(newSslContextFactory()); selectorManager = newSelectorManager(); selectorManager.setConnectTimeout(getConnectTimeout().toMillis()); addBean(selectorManager); super.doStart(); } @Override protected void doStop() throws Exception { super.doStop(); removeBean(selectorManager); } protected SslContextFactory.Client newSslContextFactory() { SslContextFactory.Client sslContextFactory = new SslContextFactory.Client(false); sslContextFactory.setEndpointIdentificationAlgorithm("HTTPS"); return sslContextFactory; } protected SelectorManager newSelectorManager() { return new ClientSelectorManager(getExecutor(), getScheduler(), getSelectors()); } public void connect(SocketAddress address, Map context) { SelectableChannel channel = null; try { context.put(ClientConnector.CLIENT_CONNECTOR_CONTEXT_KEY, this); Transport transport = (Transport)context.get(Transport.class.getName()); if (address == null) address = transport.getSocketAddress(); context.putIfAbsent(REMOTE_SOCKET_ADDRESS_CONTEXT_KEY, address); channel = transport.newSelectableChannel(); configure(channel); if (channel instanceof NetworkChannel networkChannel) { SocketAddress bindAddress = getBindAddress(); if (bindAddress != null) bind(networkChannel, bindAddress); else if (networkChannel instanceof DatagramChannel) bind(networkChannel, null); } boolean connected = true; if (channel instanceof SocketChannel socketChannel) { boolean blocking = isConnectBlocking() && address instanceof InetSocketAddress; if (LOG.isDebugEnabled()) LOG.debug("Connecting {} to {}", blocking ? "blocking" : "non-blocking", address); if (blocking) { socketChannel.socket().connect(address, (int)getConnectTimeout().toMillis()); socketChannel.configureBlocking(false); } else { socketChannel.configureBlocking(false); connected = socketChannel.connect(address); } } else { channel.configureBlocking(false); } if (connected) selectorManager.accept(channel, context); else selectorManager.connect(channel, context); } // Must catch all exceptions, since some like // UnresolvedAddressException are not IOExceptions. catch (Throwable x) { // If IPv6 is not deployed, a generic SocketException "Network is unreachable" // exception is being thrown, so we attempt to provide a better error message. if (x.getClass() == SocketException.class) x = new SocketException("Could not connect to " + address).initCause(x); IO.close(channel); connectFailed(x, context); } } public void accept(SelectableChannel selectable, Map context) { try { SocketChannel channel = (SocketChannel)selectable; if (!channel.isConnected()) throw new IllegalStateException("SocketChannel must be connected"); context.put(ClientConnector.CLIENT_CONNECTOR_CONTEXT_KEY, this); configure(channel); channel.configureBlocking(false); selectorManager.accept(channel, context); } catch (Throwable failure) { if (LOG.isDebugEnabled()) LOG.debug("Could not accept {}", selectable); IO.close(selectable); acceptFailed(failure, selectable, context); } } private void bind(NetworkChannel channel, SocketAddress bindAddress) throws IOException { if (LOG.isDebugEnabled()) LOG.debug("Binding {} to {}", channel, bindAddress); channel.bind(bindAddress); } protected void configure(SelectableChannel selectable) throws IOException { if (selectable instanceof NetworkChannel channel) { setSocketOption(channel, StandardSocketOptions.TCP_NODELAY, isTCPNoDelay()); setSocketOption(channel, StandardSocketOptions.SO_REUSEADDR, getReuseAddress()); setSocketOption(channel, StandardSocketOptions.SO_REUSEPORT, isReusePort()); int receiveBufferSize = getReceiveBufferSize(); if (receiveBufferSize >= 0) setSocketOption(channel, StandardSocketOptions.SO_RCVBUF, receiveBufferSize); int sendBufferSize = getSendBufferSize(); if (sendBufferSize >= 0) setSocketOption(channel, StandardSocketOptions.SO_SNDBUF, sendBufferSize); } } private void setSocketOption(NetworkChannel channel, SocketOption option, T value) { try { channel.setOption(option, value); } catch (Throwable x) { if (LOG.isTraceEnabled()) LOG.trace("Could not configure {} to {} on {}", option, value, channel, x); } } protected EndPoint newEndPoint(SelectableChannel selectable, ManagedSelector selector, SelectionKey selectionKey) { @SuppressWarnings("unchecked") Map context = (Map)selectionKey.attachment(); Transport transport = (Transport)context.get(Transport.class.getName()); return transport.newEndPoint(getScheduler(), selector, selectable, selectionKey); } protected Connection newConnection(EndPoint endPoint, Map context) throws IOException { Transport transport = (Transport)context.get(Transport.class.getName()); return transport.newConnection(endPoint, context); } protected void acceptFailed(Throwable failure, SelectableChannel channel, Map context) { if (LOG.isDebugEnabled()) LOG.debug("Could not accept {}", channel); Promise promise = (Promise)context.get(CONNECTION_PROMISE_CONTEXT_KEY); if (promise != null) promise.failed(failure); } protected void connectFailed(Throwable failure, Map context) { if (LOG.isDebugEnabled()) LOG.debug("Could not connect to {}", context.get(REMOTE_SOCKET_ADDRESS_CONTEXT_KEY)); Promise promise = (Promise)context.get(CONNECTION_PROMISE_CONTEXT_KEY); if (promise != null) promise.failed(failure); } protected class ClientSelectorManager extends SelectorManager { public ClientSelectorManager(Executor executor, Scheduler scheduler, int selectors) { super(executor, scheduler, selectors); } @Override protected EndPoint newEndPoint(SelectableChannel channel, ManagedSelector selector, SelectionKey selectionKey) { EndPoint endPoint = ClientConnector.this.newEndPoint(channel, selector, selectionKey); endPoint.setIdleTimeout(getIdleTimeout().toMillis()); return endPoint; } @Override public Connection newConnection(SelectableChannel channel, EndPoint endPoint, Object attachment) throws IOException { @SuppressWarnings("unchecked") Map context = (Map)attachment; return ClientConnector.this.newConnection(endPoint, context); } @Override public void connectionOpened(Connection connection, Object context) { @SuppressWarnings("unchecked") Map contextMap = (Map)context; @SuppressWarnings("unchecked") Promise promise = (Promise)contextMap.get(CONNECTION_PROMISE_CONTEXT_KEY); try { super.connectionOpened(connection, context); // TODO: the block below should be moved to Connection.onOpen() in each implementation, // so that each implementation can decide when to notify the promise, possibly not in onOpen(). promise.succeeded(connection); } catch (Throwable x) { promise.failed(x); } } @Override protected void connectionFailed(SelectableChannel channel, Throwable failure, Object attachment) { @SuppressWarnings("unchecked") Map context = (Map)attachment; connectFailed(failure, context); } } /** *

Configures a {@link ClientConnector}.

* * @deprecated replaced by {@link Transport} */ @Deprecated(since = "12.0.7", forRemoval = true) public static class Configurator extends ContainerLifeCycle { /** * @return the default {@link Transport} for this configurator */ public Transport newTransport() { return null; } /** *

Returns whether the connection to a given {@link SocketAddress} is intrinsically secure.

*

A protocol such as HTTP/1.1 can be transported by TCP; however, TCP is not secure because * it does not offer any encryption.

*

Encryption is provided by using TLS to wrap the HTTP/1.1 bytes, and then transporting the * TLS bytes over TCP.

*

On the other hand, protocols such as QUIC are intrinsically secure, and therefore it is * not necessary to wrap the HTTP/1.1 bytes with TLS: the HTTP/1.1 bytes are transported over * QUIC in an intrinsically secure way.

* * @param clientConnector the ClientConnector * @param address the SocketAddress to connect to * @return whether the connection to the given SocketAddress is intrinsically secure */ public boolean isIntrinsicallySecure(ClientConnector clientConnector, SocketAddress address) { return false; } /** *

Creates a new {@link SocketChannel} to connect to a {@link SocketAddress} * derived from the input socket address.

*

The input socket address represents the destination socket address to * connect to, as it is typically specified by a URI authority, for example * {@code localhost:8080} if the URI is {@code http://localhost:8080/path}.

*

However, the returned socket address may be different as the implementation * may use a Unix-Domain socket address to physically connect to the virtual * destination socket address given as input.

*

The return type is a pair/record holding the socket channel and the * socket address, with the socket channel not yet connected. * The implementation of this methods must not call * {@link SocketChannel#connect(SocketAddress)}, as this is done later, * after configuring the socket, by the {@link ClientConnector} implementation.

* * @param clientConnector the client connector requesting channel with associated address * @param address the destination socket address, typically specified in a URI * @param context the context to create the new socket channel * @return a new {@link SocketChannel} with an associated {@link SocketAddress} to connect to * @throws IOException if the socket channel or the socket address cannot be created */ public ChannelWithAddress newChannelWithAddress(ClientConnector clientConnector, SocketAddress address, Map context) throws IOException { return new ChannelWithAddress(SocketChannel.open(), address); } public EndPoint newEndPoint(ClientConnector clientConnector, SocketAddress address, SelectableChannel selectable, ManagedSelector selector, SelectionKey selectionKey) { return new SocketChannelEndPoint((SocketChannel)selectable, selector, selectionKey, clientConnector.getScheduler()); } public Connection newConnection(ClientConnector clientConnector, SocketAddress address, EndPoint endPoint, Map context) throws IOException { ClientConnectionFactory factory = (ClientConnectionFactory)context.get(CLIENT_CONNECTION_FACTORY_CONTEXT_KEY); return factory.newConnection(endPoint, context); } /** *

A pair/record holding a {@link SelectableChannel} and a {@link SocketAddress} to connect to.

* * @deprecated replaced by {@link Transport} */ @Deprecated(since = "12.0.7", forRemoval = true) public static class ChannelWithAddress { private final SelectableChannel channel; private final SocketAddress address; public ChannelWithAddress(SelectableChannel channel, SocketAddress address) { this.channel = channel; this.address = address; } public SelectableChannel getSelectableChannel() { return channel; } public SocketAddress getSocketAddress() { return address; } } private static Configurator forUnixDomain(Path path) { return new Configurator() { @Override public Transport newTransport() { return new Transport.TCPUnix(path); } @Override public ChannelWithAddress newChannelWithAddress(ClientConnector clientConnector, SocketAddress address, Map context) throws IOException { SocketChannel socketChannel = SocketChannel.open(StandardProtocolFamily.UNIX); UnixDomainSocketAddress socketAddress = UnixDomainSocketAddress.of(path); return new ChannelWithAddress(socketChannel, socketAddress); } }; } } }




© 2015 - 2024 Weber Informatics LLC | Privacy Policy