/* * Copyright (c) 2000, 2019, 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.FileDescriptor; import java.io.IOException; import java.net.InetSocketAddress; import java.net.ServerSocket; import java.net.SocketAddress; import java.net.SocketOption; import java.net.SocketTimeoutException; import java.net.StandardSocketOptions; import java.nio.channels.AlreadyBoundException; import java.nio.channels.AsynchronousCloseException; import java.nio.channels.ClosedChannelException; import java.nio.channels.IllegalBlockingModeException; import java.nio.channels.NotYetBoundException; import java.nio.channels.SelectionKey; import java.nio.channels.ServerSocketChannel; import java.nio.channels.SocketChannel; import java.nio.channels.spi.SelectorProvider; import java.util.Collections; import java.util.HashSet; import java.util.Objects; import java.util.Set; import java.util.concurrent.locks.ReentrantLock; import sun.net.NetHooks; import sun.net.ext.ExtendedSocketOptions; /** * An implementation of ServerSocketChannels */ abstract class ServerSocketChannelImpl extends ServerSocketChannel implements SelChImpl { // Used to make native close and configure calls private static final NativeDispatcher nd = new SocketDispatcher(); // Our file descriptor private final FileDescriptor fd; private final int fdVal; // Lock held by thread currently blocked on this channel private final ReentrantLock acceptLock = new ReentrantLock(); // Lock held by any thread that modifies the state fields declared below // DO NOT invoke a blocking I/O operation while holding this lock! private final Object stateLock = new Object(); // -- The following fields are protected by stateLock // Channel state, increases monotonically private static final int ST_INUSE = 0; private static final int ST_CLOSING = 1; private static final int ST_CLOSED = 2; private int state; // ID of native thread currently blocked in this channel, for signalling private long thread; // Binding private SocketAddress localAddress; // null => unbound // Our socket adaptor, if any private ServerSocket socket; // -- End of fields protected by stateLock ServerSocketChannelImpl(SelectorProvider sp, FileDescriptor fd, boolean bound) throws IOException { super(sp); this.fd = fd; this.fdVal = IOUtil.fdVal(fd); if (bound) { synchronized (stateLock) { localAddress = implLocalAddress(fd); } } } // @throws ClosedChannelException if channel is closed private void ensureOpen() throws ClosedChannelException { if (!isOpen()) throw new ClosedChannelException(); } @Override public ServerSocket socket() { synchronized (stateLock) { if (socket == null) socket = ServerSocketAdaptor.create((InetServerSocketChannelImpl)this); return socket; } } @Override public SocketAddress getLocalAddress() throws IOException { synchronized (stateLock) { ensureOpen(); return (localAddress == null) ? null : getRevealedLocalAddress(localAddress); } } abstract SocketAddress implLocalAddress(FileDescriptor fd) throws IOException; abstract SocketAddress getRevealedLocalAddress(SocketAddress addr); abstract String getRevealedLocalAddressAsString(SocketAddress addr); abstract void implSetOption(SocketOption name, T value) throws IOException; abstract T implGetOption(SocketOption name) throws IOException; @Override public ServerSocketChannel setOption(SocketOption name, T value) throws IOException { Objects.requireNonNull(name); if (!supportedOptions().contains(name)) throw new UnsupportedOperationException("'" + name + "' not supported"); if (!name.type().isInstance(value)) throw new IllegalArgumentException("Invalid value '" + value + "'"); synchronized (stateLock) { ensureOpen(); implSetOption(name, value); return this; } } @Override @SuppressWarnings("unchecked") public T getOption(SocketOption name) throws IOException { Objects.requireNonNull(name); if (!supportedOptions().contains(name)) throw new UnsupportedOperationException("'" + name + "' not supported"); synchronized (stateLock) { ensureOpen(); return implGetOption(name); } } @Override public ServerSocketChannel bind(SocketAddress local, int backlog) throws IOException { synchronized (stateLock) { ensureOpen(); if (localAddress != null) throw new AlreadyBoundException(); localAddress = implBind(local, backlog); } return this; } abstract SocketAddress implBind(SocketAddress local, int backlog) throws IOException; /** * Marks the beginning of an I/O operation that might block. * * @throws ClosedChannelException if the channel is closed * @throws NotYetBoundException if the channel's socket has not been bound yet */ private void begin(boolean blocking) throws ClosedChannelException { if (blocking) begin(); // set blocker to close channel if interrupted synchronized (stateLock) { ensureOpen(); if (localAddress == null) throw new NotYetBoundException(); if (blocking) thread = NativeThread.current(); } } /** * Marks the end of an I/O operation that may have blocked. * * @throws AsynchronousCloseException if the channel was closed due to this * thread being interrupted on a blocking I/O operation. */ private void end(boolean blocking, boolean completed) throws AsynchronousCloseException { if (blocking) { synchronized (stateLock) { thread = 0; if (state == ST_CLOSING) { tryFinishClose(); } } end(completed); } } protected abstract int implAccept(FileDescriptor fd, FileDescriptor newfd, SocketAddress[] sa) throws IOException; @Override public SocketChannel accept() throws IOException { int n = 0; FileDescriptor newfd = new FileDescriptor(); SocketAddress[] isaa = new SocketAddress[1]; acceptLock.lock(); try { boolean blocking = isBlocking(); try { begin(blocking); n = implAccept(this.fd, newfd, isaa); if (blocking) { while (IOStatus.okayToRetry(n) && isOpen()) { park(Net.POLLIN); n = implAccept(this.fd, newfd, isaa); } } } finally { end(blocking, n > 0); assert IOStatus.check(n); } } finally { acceptLock.unlock(); } if (n > 0) { return finishAccept(newfd, isaa[0]); } else { return null; } } /** * Accepts a new connection with a given timeout. This method requires the * channel to be configured in blocking mode. * * @apiNote This method is for use by the socket adaptor. * * @param nanos the timeout, in nanoseconds * @throws IllegalBlockingModeException if the channel is configured non-blocking * @throws SocketTimeoutException if the timeout expires */ SocketChannel blockingAccept(long nanos) throws IOException { int n = 0; FileDescriptor newfd = new FileDescriptor(); SocketAddress[] isaa = new SocketAddress[1]; acceptLock.lock(); try { // check that channel is configured blocking if (!isBlocking()) throw new IllegalBlockingModeException(); try { begin(true); // change socket to non-blocking lockedConfigureBlocking(false); try { long startNanos = System.nanoTime(); n = implAccept(fd, newfd, isaa); while (n == IOStatus.UNAVAILABLE && isOpen()) { long remainingNanos = nanos - (System.nanoTime() - startNanos); if (remainingNanos <= 0) { throw new SocketTimeoutException("Accept timed out"); } park(Net.POLLIN, remainingNanos); n = implAccept(fd, newfd, isaa); } } finally { // restore socket to blocking mode (if channel is open) tryLockedConfigureBlocking(true); } } finally { end(true, n > 0); } } finally { acceptLock.unlock(); } assert n > 0; return finishAccept(newfd, isaa[0]); } abstract SocketChannel implFinishAccept(FileDescriptor newfd, SocketAddress isa) throws IOException; protected SocketChannel finishAccept(FileDescriptor newfd, SocketAddress sa) throws IOException { try { // newly accepted socket is initially in blocking mode IOUtil.configureBlocking(newfd, true); return implFinishAccept(newfd, sa); } catch (Exception e) { nd.close(newfd); throw e; } } @Override protected void implConfigureBlocking(boolean block) throws IOException { acceptLock.lock(); try { lockedConfigureBlocking(block); } finally { acceptLock.unlock(); } } /** * Adjust the blocking. acceptLock must already be held. */ private void lockedConfigureBlocking(boolean block) throws IOException { assert acceptLock.isHeldByCurrentThread(); synchronized (stateLock) { ensureOpen(); IOUtil.configureBlocking(fd, block); } } /** * Adjusts the blocking mode if the channel is open. acceptLock must already * be held. * * @return {@code true} if the blocking mode was adjusted, {@code false} if * the blocking mode was not adjusted because the channel is closed */ private boolean tryLockedConfigureBlocking(boolean block) throws IOException { assert acceptLock.isHeldByCurrentThread(); synchronized (stateLock) { if (isOpen()) { IOUtil.configureBlocking(fd, block); return true; } else { return false; } } } /** * Closes the socket if there are no accept in progress and the channel is * not registered with a Selector. */ private boolean tryClose() throws IOException { assert Thread.holdsLock(stateLock) && state == ST_CLOSING; if ((thread == 0) && !isRegistered()) { state = ST_CLOSED; nd.close(fd); return true; } else { return false; } } /** * Invokes tryClose to attempt to close the socket. * * This method is used for deferred closing by I/O and Selector operations. */ private void tryFinishClose() { try { tryClose(); } catch (IOException ignore) { } } /** * Closes this channel when configured in blocking mode. * * If there is an accept in progress then the socket is pre-closed and the * accept thread is signalled, in which case the final close is deferred * until the accept aborts. */ private void implCloseBlockingMode() throws IOException { synchronized (stateLock) { assert state < ST_CLOSING; state = ST_CLOSING; if (!tryClose()) { long th = thread; if (th != 0) { nd.preClose(fd); NativeThread.signal(th); } } } } /** * Closes this channel when configured in non-blocking mode. * * If the channel is registered with a Selector then the close is deferred * until the channel is flushed from all Selectors. */ private void implCloseNonBlockingMode() throws IOException { synchronized (stateLock) { assert state < ST_CLOSING; state = ST_CLOSING; } // wait for any accept to complete before trying to close acceptLock.lock(); acceptLock.unlock(); synchronized (stateLock) { if (state == ST_CLOSING) { tryClose(); } } } /** * Invoked by implCloseChannel to close the channel. */ @Override protected void implCloseSelectableChannel() throws IOException { assert !isOpen(); if (isBlocking()) { implCloseBlockingMode(); } else { implCloseNonBlockingMode(); } } @Override public void kill() { synchronized (stateLock) { if (state == ST_CLOSING) { tryFinishClose(); } } } /** * Returns true if channel's socket is bound */ boolean isBound() { synchronized (stateLock) { return localAddress != null; } } /** * Returns the local address, or null if not bound */ SocketAddress localAddress() { synchronized (stateLock) { return localAddress; } } /** * Translates native poll revent set into a ready operation set */ public boolean translateReadyOps(int ops, int initialOps, SelectionKeyImpl ski) { int intOps = ski.nioInterestOps(); int oldOps = ski.nioReadyOps(); int newOps = initialOps; if ((ops & Net.POLLNVAL) != 0) { // This should only happen if this channel is pre-closed while a // selection operation is in progress // ## Throw an error if this channel has not been pre-closed return false; } if ((ops & (Net.POLLERR | Net.POLLHUP)) != 0) { newOps = intOps; ski.nioReadyOps(newOps); return (newOps & ~oldOps) != 0; } if (((ops & Net.POLLIN) != 0) && ((intOps & SelectionKey.OP_ACCEPT) != 0)) newOps |= SelectionKey.OP_ACCEPT; ski.nioReadyOps(newOps); return (newOps & ~oldOps) != 0; } public boolean translateAndUpdateReadyOps(int ops, SelectionKeyImpl ski) { return translateReadyOps(ops, ski.nioReadyOps(), ski); } public boolean translateAndSetReadyOps(int ops, SelectionKeyImpl ski) { return translateReadyOps(ops, 0, ski); } /** * Translates an interest operation set into a native poll event set */ public int translateInterestOps(int ops) { int newOps = 0; if ((ops & SelectionKey.OP_ACCEPT) != 0) newOps |= Net.POLLIN; return newOps; } public FileDescriptor getFD() { return fd; } public int getFDVal() { return fdVal; } public String toString() { StringBuilder sb = new StringBuilder(); sb.append(this.getClass().getName()); sb.append('['); if (!isOpen()) { sb.append("closed"); } else { synchronized (stateLock) { SocketAddress addr = localAddress; if (addr == null) { sb.append("unbound"); } else { sb.append(getRevealedLocalAddressAsString(addr)); } } } sb.append(']'); return sb.toString(); } }