/* * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package java.net; import java.io.IOException; import java.nio.channels.ServerSocketChannel; /** * This class represents a server-side socket that waits for incoming client * connections. A {@code ServerSocket} handles the requests and sends back an * appropriate reply. The actual tasks that a server socket must accomplish are * implemented by an internal {@code SocketImpl} instance. */ public class ServerSocket { /** * The RI specifies that where the caller doesn't give an explicit backlog, * the default is 50. The OS disagrees, so we need to explicitly call listen(2). */ private static final int DEFAULT_BACKLOG = 50; private final SocketImpl impl; /** * @hide internal use only */ public SocketImpl getImpl$() { return impl; } static SocketImplFactory factory; private boolean isBound; private boolean isClosed; /** * Constructs a new unbound {@code ServerSocket}. * * @throws IOException if an error occurs while creating the socket. */ public ServerSocket() throws IOException { this.impl = factory != null ? factory.createSocketImpl() : new PlainServerSocketImpl(); impl.create(true); } /** * Constructs a new {@code ServerSocket} instance bound to the given {@code port}. * The backlog is set to 50. If {@code port == 0}, a port will be assigned by the OS. * * @throws IOException if an error occurs while creating the socket. */ public ServerSocket(int port) throws IOException { this(port, DEFAULT_BACKLOG, Inet4Address.ANY); } /** * Constructs a new {@code ServerSocket} instance bound to the given {@code port}. * The backlog is set to {@code backlog}. * If {@code port == 0}, a port will be assigned by the OS. * * @throws IOException if an error occurs while creating the socket. */ public ServerSocket(int port, int backlog) throws IOException { this(port, backlog, Inet4Address.ANY); } /** * Constructs a new {@code ServerSocket} instance bound to the given {@code localAddress} * and {@code port}. The backlog is set to {@code backlog}. * If {@code localAddress == null}, the ANY address is used. * If {@code port == 0}, a port will be assigned by the OS. * * @throws IOException if an error occurs while creating the socket. */ public ServerSocket(int port, int backlog, InetAddress localAddress) throws IOException { checkListen(port); this.impl = factory != null ? factory.createSocketImpl() : new PlainServerSocketImpl(); InetAddress addr = (localAddress == null) ? Inet4Address.ANY : localAddress; synchronized (this) { impl.create(true); try { impl.bind(addr, port); isBound = true; impl.listen(backlog > 0 ? backlog : DEFAULT_BACKLOG); } catch (IOException e) { close(); throw e; } } } /** * Waits for an incoming request and blocks until the connection is opened. * This method returns a socket object representing the just opened * connection. * * @return the connection representing socket. * @throws IOException * if an error occurs while accepting a new connection. */ public Socket accept() throws IOException { checkOpen(); if (!isBound()) { throw new SocketException("Socket is not bound"); } Socket aSocket = new Socket(); try { implAccept(aSocket); } catch (IOException e) { aSocket.close(); throw e; } return aSocket; } private void checkListen(int aPort) { if (aPort < 0 || aPort > 65535) { throw new IllegalArgumentException("Port out of range: " + aPort); } } /** * Closes this server socket and its implementation. Any attempt to connect * to this socket thereafter will fail. * * @throws IOException * if an error occurs while closing this socket. */ public void close() throws IOException { isClosed = true; impl.close(); } /** * Gets the local IP address of this server socket or {@code null} if the * socket is unbound. This is useful for multihomed hosts. * * @return the local address of this server socket. */ public InetAddress getInetAddress() { if (!isBound()) { return null; } return impl.getInetAddress(); } /** * Gets the local port of this server socket or {@code -1} if the socket is * unbound. * * @return the local port this server is listening on. */ public int getLocalPort() { if (!isBound()) { return -1; } return impl.getLocalPort(); } /** * Gets the socket {@link SocketOptions#SO_TIMEOUT accept timeout}. * * @throws IOException * if the option cannot be retrieved. */ public synchronized int getSoTimeout() throws IOException { checkOpen(); return ((Integer) impl.getOption(SocketOptions.SO_TIMEOUT)).intValue(); } /** * Invokes the server socket implementation to accept a connection on the * given socket {@code aSocket}. * * @param aSocket * the concrete {@code SocketImpl} to accept the connection * request on. * @throws IOException * if the connection cannot be accepted. */ protected final void implAccept(Socket aSocket) throws IOException { synchronized (this) { impl.accept(aSocket.impl); aSocket.accepted(); } } /** * Sets the server socket implementation factory of this instance. This * method may only be invoked with sufficient security privilege and only * once during the application lifetime. * * @param aFactory * the streaming socket factory to be used for further socket * instantiations. * @throws IOException * if the factory could not be set or is already set. */ public static synchronized void setSocketFactory(SocketImplFactory aFactory) throws IOException { if (factory != null) { throw new SocketException("Factory already set"); } factory = aFactory; } /** * Sets the {@link SocketOptions#SO_TIMEOUT accept timeout} in milliseconds for this socket. * This accept timeout defines the period the socket will block waiting to * accept a connection before throwing an {@code InterruptedIOException}. The value * {@code 0} (default) is used to set an infinite timeout. To have effect * this option must be set before the blocking method was called. * * @param timeout the timeout in milliseconds or 0 for no timeout. * @throws SocketException * if an error occurs while setting the option. */ public synchronized void setSoTimeout(int timeout) throws SocketException { checkOpen(); if (timeout < 0) { throw new IllegalArgumentException("timeout < 0"); } impl.setOption(SocketOptions.SO_TIMEOUT, Integer.valueOf(timeout)); } /** * Returns a textual representation of this server socket including the * address, port and the state. The port field is set to {@code 0} if there * is no connection to the server socket. * * @return the textual socket representation. */ @Override public String toString() { StringBuilder result = new StringBuilder(64); result.append("ServerSocket["); if (!isBound()) { return result.append("unbound]").toString(); } return result.append("addr=") .append(getInetAddress().getHostName()).append("/") .append(getInetAddress().getHostAddress()).append( ",port=0,localport=") .append(getLocalPort()).append("]") .toString(); } /** * Binds this server socket to the given local socket address with a maximum * backlog of 50 unaccepted connections. If the {@code localAddr} is set to * {@code null} the socket will be bound to an available local address on * any free port of the system. * * @param localAddr * the local address and port to bind on. * @throws IllegalArgumentException * if the {@code SocketAddress} is not supported. * @throws IOException * if the socket is already bound or a problem occurs during * binding. */ public void bind(SocketAddress localAddr) throws IOException { bind(localAddr, DEFAULT_BACKLOG); } /** * Binds this server socket to the given local socket address. If the * {@code localAddr} is set to {@code null} the socket will be bound to an * available local address on any free port of the system. * * @param localAddr the local machine address and port to bind on. * @param backlog the maximum number of unaccepted connections. Passing 0 or * a negative value yields the default backlog of 50. * @throws IllegalArgumentException if the {@code SocketAddress} is not * supported. * @throws IOException if the socket is already bound or a problem occurs * during binding. */ public void bind(SocketAddress localAddr, int backlog) throws IOException { checkOpen(); if (isBound()) { throw new BindException("Socket is already bound"); } int port = 0; InetAddress addr = Inet4Address.ANY; if (localAddr != null) { if (!(localAddr instanceof InetSocketAddress)) { throw new IllegalArgumentException("Local address not an InetSocketAddress: " + localAddr.getClass()); } InetSocketAddress inetAddr = (InetSocketAddress) localAddr; if ((addr = inetAddr.getAddress()) == null) { throw new SocketException("Host is unresolved: " + inetAddr.getHostName()); } port = inetAddr.getPort(); } synchronized (this) { try { impl.bind(addr, port); isBound = true; impl.listen(backlog > 0 ? backlog : DEFAULT_BACKLOG); } catch (IOException e) { close(); throw e; } } } /** * Gets the local socket address of this server socket or {@code null} if * the socket is unbound. This is useful on multihomed hosts. * * @return the local socket address and port this socket is bound to. */ public SocketAddress getLocalSocketAddress() { if (!isBound()) { return null; } return new InetSocketAddress(getInetAddress(), getLocalPort()); } /** * Returns whether this server socket is bound to a local address and port * or not. * * @return {@code true} if this socket is bound, {@code false} otherwise. */ public boolean isBound() { return isBound; } /** * Returns whether this server socket is closed or not. * * @return {@code true} if this socket is closed, {@code false} otherwise. */ public boolean isClosed() { return isClosed; } private void checkOpen() throws SocketException { if (isClosed()) { throw new SocketException("Socket is closed"); } } /** * Sets the value for the socket option {@code SocketOptions.SO_REUSEADDR}. * * @param reuse * the socket option setting. * @throws SocketException * if an error occurs while setting the option value. */ public void setReuseAddress(boolean reuse) throws SocketException { checkOpen(); impl.setOption(SocketOptions.SO_REUSEADDR, Boolean.valueOf(reuse)); } /** * Gets the value of the socket option {@code SocketOptions.SO_REUSEADDR}. * * @return {@code true} if the option is enabled, {@code false} otherwise. * @throws SocketException * if an error occurs while reading the option value. */ public boolean getReuseAddress() throws SocketException { checkOpen(); return ((Boolean) impl.getOption(SocketOptions.SO_REUSEADDR)).booleanValue(); } /** * Sets this socket's {@link SocketOptions#SO_SNDBUF receive buffer size}. */ public void setReceiveBufferSize(int size) throws SocketException { checkOpen(); if (size < 1) { throw new IllegalArgumentException("size < 1"); } impl.setOption(SocketOptions.SO_RCVBUF, Integer.valueOf(size)); } /** * Returns this socket's {@link SocketOptions#SO_RCVBUF receive buffer size}. */ public int getReceiveBufferSize() throws SocketException { checkOpen(); return ((Integer) impl.getOption(SocketOptions.SO_RCVBUF)).intValue(); } /** * Returns this socket's {@code ServerSocketChannel}, if one exists. A channel is * available only if this socket wraps a channel. (That is, you can go from a * channel to a socket and back again, but you can't go from an arbitrary socket to a channel.) * In practice, this means that the socket must have been created by * {@link java.nio.channels.ServerSocketChannel#open}. */ public ServerSocketChannel getChannel() { return null; } /** * Sets performance preferences for connection time, latency and bandwidth. *
* This method does currently nothing. * * @param connectionTime * the value representing the importance of a short connecting * time. * @param latency * the value representing the importance of low latency. * @param bandwidth * the value representing the importance of high bandwidth. */ public void setPerformancePreferences(int connectionTime, int latency, int bandwidth) { // Our socket implementation only provide one protocol: TCP/IP, so // we do nothing for this method } }