/* * Copyright (c) 2000, 2011, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ package sun.nio.ch; import java.io.*; import java.lang.ref.*; import java.net.*; import java.nio.*; import java.nio.channels.*; import java.security.AccessController; import java.security.PrivilegedExceptionAction; import java.util.*; import sun.misc.IoTrace; // Make a socket channel look like a socket. // // The only aspects of java.net.Socket-hood that we don't attempt to emulate // here are the interrupted-I/O exceptions (which our Solaris implementations // attempt to support) and the sending of urgent data. Otherwise an adapted // socket should look enough like a real java.net.Socket to fool most of the // developers most of the time, right down to the exception message strings. // // The methods in this class are defined in exactly the same order as in // java.net.Socket so as to simplify tracking future changes to that class. // public class SocketAdaptor extends Socket { // The channel being adapted private final SocketChannelImpl sc; // Timeout "option" value for reads private volatile int timeout = 0; private SocketAdaptor(SocketChannelImpl sc) throws SocketException { super((SocketImpl) null); this.sc = sc; } public static Socket create(SocketChannelImpl sc) { try { return new SocketAdaptor(sc); } catch (SocketException e) { throw new InternalError("Should not reach here"); } } public SocketChannel getChannel() { return sc; } // Override this method just to protect against changes in the superclass // public void connect(SocketAddress remote) throws IOException { connect(remote, 0); } public void connect(SocketAddress remote, int timeout) throws IOException { if (remote == null) throw new IllegalArgumentException("connect: The address can't be null"); if (timeout < 0) throw new IllegalArgumentException("connect: timeout can't be negative"); synchronized (sc.blockingLock()) { if (!sc.isBlocking()) throw new IllegalBlockingModeException(); try { if (timeout == 0) { sc.connect(remote); return; } // Implement timeout with a selector SelectionKey sk = null; Selector sel = null; sc.configureBlocking(false); try { if (sc.connect(remote)) return; sel = Util.getTemporarySelector(sc); sk = sc.register(sel, SelectionKey.OP_CONNECT); long to = timeout; for (;;) { if (!sc.isOpen()) throw new ClosedChannelException(); long st = System.currentTimeMillis(); int ns = sel.select(to); if (ns > 0 && sk.isConnectable() && sc.finishConnect()) break; sel.selectedKeys().remove(sk); to -= System.currentTimeMillis() - st; if (to <= 0) { try { sc.close(); } catch (IOException x) { } throw new SocketTimeoutException(); } } } finally { if (sk != null) sk.cancel(); if (sc.isOpen()) sc.configureBlocking(true); if (sel != null) Util.releaseTemporarySelector(sel); } } catch (Exception x) { Net.translateException(x, true); } } } public void bind(SocketAddress local) throws IOException { try { sc.bind(local); } catch (Exception x) { Net.translateException(x); } } public InetAddress getInetAddress() { SocketAddress remote = sc.remoteAddress(); if (remote == null) { return null; } else { return ((InetSocketAddress)remote).getAddress(); } } public InetAddress getLocalAddress() { if (sc.isOpen()) { SocketAddress local = sc.localAddress(); if (local != null) return ((InetSocketAddress)local).getAddress(); } return new InetSocketAddress(0).getAddress(); } public int getPort() { SocketAddress remote = sc.remoteAddress(); if (remote == null) { return 0; } else { return ((InetSocketAddress)remote).getPort(); } } public int getLocalPort() { SocketAddress local = sc.localAddress(); if (local == null) { return -1; } else { return ((InetSocketAddress)local).getPort(); } } private class SocketInputStream extends ChannelInputStream { private SocketInputStream() { super(sc); } protected int read(ByteBuffer bb) throws IOException { synchronized (sc.blockingLock()) { if (!sc.isBlocking()) throw new IllegalBlockingModeException(); if (timeout == 0) return sc.read(bb); // Implement timeout with a selector SelectionKey sk = null; Selector sel = null; sc.configureBlocking(false); int n = 0; Object traceContext = IoTrace.socketReadBegin(getInetAddress(), getPort(), timeout); try { if ((n = sc.read(bb)) != 0) return n; sel = Util.getTemporarySelector(sc); sk = sc.register(sel, SelectionKey.OP_READ); long to = timeout; for (;;) { if (!sc.isOpen()) throw new ClosedChannelException(); long st = System.currentTimeMillis(); int ns = sel.select(to); if (ns > 0 && sk.isReadable()) { if ((n = sc.read(bb)) != 0) return n; } sel.selectedKeys().remove(sk); to -= System.currentTimeMillis() - st; if (to <= 0) throw new SocketTimeoutException(); } } finally { IoTrace.socketReadEnd(traceContext, n > 0 ? n : 0); if (sk != null) sk.cancel(); if (sc.isOpen()) sc.configureBlocking(true); if (sel != null) Util.releaseTemporarySelector(sel); } } } } private InputStream socketInputStream = null; public InputStream getInputStream() throws IOException { if (!sc.isOpen()) throw new SocketException("Socket is closed"); if (!sc.isConnected()) throw new SocketException("Socket is not connected"); if (!sc.isInputOpen()) throw new SocketException("Socket input is shutdown"); if (socketInputStream == null) { try { socketInputStream = AccessController.doPrivileged( new PrivilegedExceptionAction() { public InputStream run() throws IOException { return new SocketInputStream(); } }); } catch (java.security.PrivilegedActionException e) { throw (IOException)e.getException(); } } return socketInputStream; } public OutputStream getOutputStream() throws IOException { if (!sc.isOpen()) throw new SocketException("Socket is closed"); if (!sc.isConnected()) throw new SocketException("Socket is not connected"); if (!sc.isOutputOpen()) throw new SocketException("Socket output is shutdown"); OutputStream os = null; try { os = AccessController.doPrivileged( new PrivilegedExceptionAction() { public OutputStream run() throws IOException { return Channels.newOutputStream(sc); } }); } catch (java.security.PrivilegedActionException e) { throw (IOException)e.getException(); } return os; } private void setBooleanOption(SocketOption name, boolean value) throws SocketException { try { sc.setOption(name, value); } catch (IOException x) { Net.translateToSocketException(x); } } private void setIntOption(SocketOption name, int value) throws SocketException { try { sc.setOption(name, value); } catch (IOException x) { Net.translateToSocketException(x); } } private boolean getBooleanOption(SocketOption name) throws SocketException { try { return sc.getOption(name).booleanValue(); } catch (IOException x) { Net.translateToSocketException(x); return false; // keep compiler happy } } private int getIntOption(SocketOption name) throws SocketException { try { return sc.getOption(name).intValue(); } catch (IOException x) { Net.translateToSocketException(x); return -1; // keep compiler happy } } public void setTcpNoDelay(boolean on) throws SocketException { setBooleanOption(StandardSocketOptions.TCP_NODELAY, on); } public boolean getTcpNoDelay() throws SocketException { return getBooleanOption(StandardSocketOptions.TCP_NODELAY); } public void setSoLinger(boolean on, int linger) throws SocketException { if (!on) linger = -1; setIntOption(StandardSocketOptions.SO_LINGER, linger); } public int getSoLinger() throws SocketException { return getIntOption(StandardSocketOptions.SO_LINGER); } public void sendUrgentData(int data) throws IOException { synchronized (sc.blockingLock()) { if (!sc.isBlocking()) throw new IllegalBlockingModeException(); int n = sc.sendOutOfBandData((byte)data); assert n == 1; } } public void setOOBInline(boolean on) throws SocketException { setBooleanOption(ExtendedSocketOption.SO_OOBINLINE, on); } public boolean getOOBInline() throws SocketException { return getBooleanOption(ExtendedSocketOption.SO_OOBINLINE); } public void setSoTimeout(int timeout) throws SocketException { if (timeout < 0) throw new IllegalArgumentException("timeout can't be negative"); this.timeout = timeout; } public int getSoTimeout() throws SocketException { return timeout; } public void setSendBufferSize(int size) throws SocketException { // size 0 valid for SocketChannel, invalid for Socket if (size <= 0) throw new IllegalArgumentException("Invalid send size"); setIntOption(StandardSocketOptions.SO_SNDBUF, size); } public int getSendBufferSize() throws SocketException { return getIntOption(StandardSocketOptions.SO_SNDBUF); } public void setReceiveBufferSize(int size) throws SocketException { // size 0 valid for SocketChannel, invalid for Socket if (size <= 0) throw new IllegalArgumentException("Invalid receive size"); setIntOption(StandardSocketOptions.SO_RCVBUF, size); } public int getReceiveBufferSize() throws SocketException { return getIntOption(StandardSocketOptions.SO_RCVBUF); } public void setKeepAlive(boolean on) throws SocketException { setBooleanOption(StandardSocketOptions.SO_KEEPALIVE, on); } public boolean getKeepAlive() throws SocketException { return getBooleanOption(StandardSocketOptions.SO_KEEPALIVE); } public void setTrafficClass(int tc) throws SocketException { setIntOption(StandardSocketOptions.IP_TOS, tc); } public int getTrafficClass() throws SocketException { return getIntOption(StandardSocketOptions.IP_TOS); } public void setReuseAddress(boolean on) throws SocketException { setBooleanOption(StandardSocketOptions.SO_REUSEADDR, on); } public boolean getReuseAddress() throws SocketException { return getBooleanOption(StandardSocketOptions.SO_REUSEADDR); } public void close() throws IOException { sc.close(); } public void shutdownInput() throws IOException { try { sc.shutdownInput(); } catch (Exception x) { Net.translateException(x); } } public void shutdownOutput() throws IOException { try { sc.shutdownOutput(); } catch (Exception x) { Net.translateException(x); } } public String toString() { if (sc.isConnected()) return "Socket[addr=" + getInetAddress() + ",port=" + getPort() + ",localport=" + getLocalPort() + "]"; return "Socket[unconnected]"; } public boolean isConnected() { return sc.isConnected(); } public boolean isBound() { return sc.localAddress() != null; } public boolean isClosed() { return !sc.isOpen(); } public boolean isInputShutdown() { return !sc.isInputOpen(); } public boolean isOutputShutdown() { return !sc.isOutputOpen(); } }