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|
/*
* Copyright (C) 2014 The Android Open Source Project
* Copyright (c) 2000, 2013, 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.InetAddress;
import java.net.InetSocketAddress;
import java.net.ProtocolFamily;
import java.net.Socket;
import java.net.SocketAddress;
import java.net.SocketOption;
import java.net.StandardProtocolFamily;
import java.net.StandardSocketOptions;
import java.nio.ByteBuffer;
import java.nio.channels.AlreadyBoundException;
import java.nio.channels.AlreadyConnectedException;
import java.nio.channels.AsynchronousCloseException;
import java.nio.channels.ClosedChannelException;
import java.nio.channels.ConnectionPendingException;
import java.nio.channels.NoConnectionPendingException;
import java.nio.channels.NotYetConnectedException;
import java.nio.channels.SelectionKey;
import java.nio.channels.SocketChannel;
import java.nio.channels.spi.SelectorProvider;
import java.util.Collections;
import java.util.HashSet;
import java.util.Set;
import dalvik.annotation.optimization.ReachabilitySensitive;
import dalvik.system.BlockGuard;
import dalvik.system.CloseGuard;
import sun.net.ExtendedOptionsImpl;
import sun.net.NetHooks;
/**
* An implementation of SocketChannels
*/
class SocketChannelImpl
extends SocketChannel
implements SelChImpl
{
// Used to make native read and write calls
private static NativeDispatcher nd;
// Our file descriptor object
private final FileDescriptor fd;
// fd value needed for dev/poll. This value will remain valid
// even after the value in the file descriptor object has been set to -1
private final int fdVal;
// IDs of native threads doing reads and writes, for signalling
private volatile long readerThread = 0;
private volatile long writerThread = 0;
// Lock held by current reading or connecting thread
private final Object readLock = new Object();
// Lock held by current writing or connecting thread
private final Object writeLock = new Object();
// 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
// set true when exclusive binding is on and SO_REUSEADDR is emulated
private boolean isReuseAddress;
// State, increases monotonically
private static final int ST_UNINITIALIZED = -1;
private static final int ST_UNCONNECTED = 0;
private static final int ST_PENDING = 1;
private static final int ST_CONNECTED = 2;
private static final int ST_KILLPENDING = 3;
private static final int ST_KILLED = 4;
private int state = ST_UNINITIALIZED;
// Binding
private InetSocketAddress localAddress;
private InetSocketAddress remoteAddress;
// Input/Output open
private boolean isInputOpen = true;
private boolean isOutputOpen = true;
private boolean readyToConnect = false;
// Socket adaptor, created on demand
private Socket socket;
// -- End of fields protected by stateLock
// Android-added: CloseGuard support.
@ReachabilitySensitive
private final CloseGuard guard = CloseGuard.get();
// Constructor for normal connecting sockets
//
SocketChannelImpl(SelectorProvider sp) throws IOException {
super(sp);
this.fd = Net.socket(true);
this.fdVal = IOUtil.fdVal(fd);
this.state = ST_UNCONNECTED;
// Android-added: CloseGuard support.
// Net#socket will set |fd| if it succeeds.
if (fd != null && fd.valid()) {
guard.open("close");
}
}
SocketChannelImpl(SelectorProvider sp,
FileDescriptor fd,
boolean bound)
throws IOException
{
super(sp);
this.fd = fd;
this.fdVal = IOUtil.fdVal(fd);
this.state = ST_UNCONNECTED;
// Android-added: CloseGuard support.
if (fd != null && fd.valid()) {
guard.open("close");
}
if (bound)
this.localAddress = Net.localAddress(fd);
}
// Constructor for sockets obtained from server sockets
//
SocketChannelImpl(SelectorProvider sp,
FileDescriptor fd, InetSocketAddress remote)
throws IOException
{
super(sp);
this.fd = fd;
this.fdVal = IOUtil.fdVal(fd);
this.state = ST_CONNECTED;
this.localAddress = Net.localAddress(fd);
this.remoteAddress = remote;
// Android-added: CloseGuard support.
if (fd != null && fd.valid()) {
guard.open("close");
}
}
public Socket socket() {
synchronized (stateLock) {
if (socket == null)
socket = SocketAdaptor.create(this);
return socket;
}
}
@Override
public SocketAddress getLocalAddress() throws IOException {
synchronized (stateLock) {
if (!isOpen())
throw new ClosedChannelException();
return Net.getRevealedLocalAddress(localAddress);
}
}
@Override
public SocketAddress getRemoteAddress() throws IOException {
synchronized (stateLock) {
if (!isOpen())
throw new ClosedChannelException();
return remoteAddress;
}
}
@Override
public <T> SocketChannel setOption(SocketOption<T> name, T value)
throws IOException
{
if (name == null)
throw new NullPointerException();
if (!supportedOptions().contains(name))
throw new UnsupportedOperationException("'" + name + "' not supported");
synchronized (stateLock) {
if (!isOpen())
throw new ClosedChannelException();
if (name == StandardSocketOptions.IP_TOS) {
ProtocolFamily family = Net.isIPv6Available() ?
StandardProtocolFamily.INET6 : StandardProtocolFamily.INET;
Net.setSocketOption(fd, family, name, value);
return this;
}
if (name == StandardSocketOptions.SO_REUSEADDR && Net.useExclusiveBind()) {
// SO_REUSEADDR emulated when using exclusive bind
isReuseAddress = (Boolean)value;
return this;
}
// no options that require special handling
Net.setSocketOption(fd, Net.UNSPEC, name, value);
return this;
}
}
@Override
@SuppressWarnings("unchecked")
public <T> T getOption(SocketOption<T> name)
throws IOException
{
if (name == null)
throw new NullPointerException();
if (!supportedOptions().contains(name))
throw new UnsupportedOperationException("'" + name + "' not supported");
synchronized (stateLock) {
if (!isOpen())
throw new ClosedChannelException();
if (name == StandardSocketOptions.SO_REUSEADDR &&
Net.useExclusiveBind())
{
// SO_REUSEADDR emulated when using exclusive bind
return (T)Boolean.valueOf(isReuseAddress);
}
// special handling for IP_TOS: always return 0 when IPv6
if (name == StandardSocketOptions.IP_TOS) {
ProtocolFamily family = Net.isIPv6Available() ?
StandardProtocolFamily.INET6 : StandardProtocolFamily.INET;
return (T) Net.getSocketOption(fd, family, name);
}
// no options that require special handling
return (T) Net.getSocketOption(fd, Net.UNSPEC, name);
}
}
private static class DefaultOptionsHolder {
static final Set<SocketOption<?>> defaultOptions = defaultOptions();
private static Set<SocketOption<?>> defaultOptions() {
HashSet<SocketOption<?>> set = new HashSet<SocketOption<?>>(8);
set.add(StandardSocketOptions.SO_SNDBUF);
set.add(StandardSocketOptions.SO_RCVBUF);
set.add(StandardSocketOptions.SO_KEEPALIVE);
set.add(StandardSocketOptions.SO_REUSEADDR);
set.add(StandardSocketOptions.SO_LINGER);
set.add(StandardSocketOptions.TCP_NODELAY);
// additional options required by socket adaptor
set.add(StandardSocketOptions.IP_TOS);
set.add(ExtendedSocketOption.SO_OOBINLINE);
if (ExtendedOptionsImpl.flowSupported()) {
set.add(jdk.net.ExtendedSocketOptions.SO_FLOW_SLA);
}
return Collections.unmodifiableSet(set);
}
}
@Override
public final Set<SocketOption<?>> supportedOptions() {
return DefaultOptionsHolder.defaultOptions;
}
private boolean ensureReadOpen() throws ClosedChannelException {
synchronized (stateLock) {
if (!isOpen())
throw new ClosedChannelException();
if (!isConnected())
throw new NotYetConnectedException();
if (!isInputOpen)
return false;
else
return true;
}
}
private void ensureWriteOpen() throws ClosedChannelException {
synchronized (stateLock) {
if (!isOpen())
throw new ClosedChannelException();
if (!isOutputOpen)
throw new ClosedChannelException();
if (!isConnected())
throw new NotYetConnectedException();
}
}
private void readerCleanup() throws IOException {
synchronized (stateLock) {
readerThread = 0;
if (state == ST_KILLPENDING)
kill();
}
}
private void writerCleanup() throws IOException {
synchronized (stateLock) {
writerThread = 0;
if (state == ST_KILLPENDING)
kill();
}
}
public int read(ByteBuffer buf) throws IOException {
if (buf == null)
throw new NullPointerException();
synchronized (readLock) {
if (!ensureReadOpen())
return -1;
int n = 0;
try {
// Set up the interruption machinery; see
// AbstractInterruptibleChannel for details
//
begin();
synchronized (stateLock) {
if (!isOpen()) {
// Either the current thread is already interrupted, so
// begin() closed the channel, or another thread closed the
// channel since we checked it a few bytecodes ago. In
// either case the value returned here is irrelevant since
// the invocation of end() in the finally block will throw
// an appropriate exception.
//
return 0;
}
// Save this thread so that it can be signalled on those
// platforms that require it
//
readerThread = NativeThread.current();
}
// Between the previous test of isOpen() and the return of the
// IOUtil.read invocation below, this channel might be closed
// or this thread might be interrupted. We rely upon the
// implicit synchronization point in the kernel read() call to
// make sure that the right thing happens. In either case the
// implCloseSelectableChannel method is ultimately invoked in
// some other thread, so there are three possibilities:
//
// - implCloseSelectableChannel() invokes nd.preClose()
// before this thread invokes read(), in which case the
// read returns immediately with either EOF or an error,
// the latter of which will cause an IOException to be
// thrown.
//
// - implCloseSelectableChannel() invokes nd.preClose() after
// this thread is blocked in read(). On some operating
// systems (e.g., Solaris and Windows) this causes the read
// to return immediately with either EOF or an error
// indication.
//
// - implCloseSelectableChannel() invokes nd.preClose() after
// this thread is blocked in read() but the operating
// system (e.g., Linux) doesn't support preemptive close,
// so implCloseSelectableChannel() proceeds to signal this
// thread, thereby causing the read to return immediately
// with IOStatus.INTERRUPTED.
//
// In all three cases the invocation of end() in the finally
// clause will notice that the channel has been closed and
// throw an appropriate exception (AsynchronousCloseException
// or ClosedByInterruptException) if necessary.
//
// *There is A fourth possibility. implCloseSelectableChannel()
// invokes nd.preClose(), signals reader/writer thred and quickly
// moves on to nd.close() in kill(), which does a real close.
// Then a third thread accepts a new connection, opens file or
// whatever that causes the released "fd" to be recycled. All
// above happens just between our last isOpen() check and the
// next kernel read reached, with the recycled "fd". The solution
// is to postpone the real kill() if there is a reader or/and
// writer thread(s) over there "waiting", leave the cleanup/kill
// to the reader or writer thread. (the preClose() still happens
// so the connection gets cut off as usual).
//
// For socket channels there is the additional wrinkle that
// asynchronous shutdown works much like asynchronous close,
// except that the channel is shutdown rather than completely
// closed. This is analogous to the first two cases above,
// except that the shutdown operation plays the role of
// nd.preClose().
for (;;) {
n = IOUtil.read(fd, buf, -1, nd);
if ((n == IOStatus.INTERRUPTED) && isOpen()) {
// The system call was interrupted but the channel
// is still open, so retry
continue;
}
return IOStatus.normalize(n);
}
} finally {
readerCleanup(); // Clear reader thread
// The end method, which is defined in our superclass
// AbstractInterruptibleChannel, resets the interruption
// machinery. If its argument is true then it returns
// normally; otherwise it checks the interrupt and open state
// of this channel and throws an appropriate exception if
// necessary.
//
// So, if we actually managed to do any I/O in the above try
// block then we pass true to the end method. We also pass
// true if the channel was in non-blocking mode when the I/O
// operation was initiated but no data could be transferred;
// this prevents spurious exceptions from being thrown in the
// rare event that a channel is closed or a thread is
// interrupted at the exact moment that a non-blocking I/O
// request is made.
//
end(n > 0 || (n == IOStatus.UNAVAILABLE));
// Extra case for socket channels: Asynchronous shutdown
//
synchronized (stateLock) {
if ((n <= 0) && (!isInputOpen))
return IOStatus.EOF;
}
assert IOStatus.check(n);
}
}
}
public long read(ByteBuffer[] dsts, int offset, int length)
throws IOException
{
if ((offset < 0) || (length < 0) || (offset > dsts.length - length))
throw new IndexOutOfBoundsException();
synchronized (readLock) {
if (!ensureReadOpen())
return -1;
long n = 0;
try {
begin();
synchronized (stateLock) {
if (!isOpen())
return 0;
readerThread = NativeThread.current();
}
for (;;) {
n = IOUtil.read(fd, dsts, offset, length, nd);
if ((n == IOStatus.INTERRUPTED) && isOpen())
continue;
return IOStatus.normalize(n);
}
} finally {
readerCleanup();
end(n > 0 || (n == IOStatus.UNAVAILABLE));
synchronized (stateLock) {
if ((n <= 0) && (!isInputOpen))
return IOStatus.EOF;
}
assert IOStatus.check(n);
}
}
}
public int write(ByteBuffer buf) throws IOException {
if (buf == null)
throw new NullPointerException();
synchronized (writeLock) {
ensureWriteOpen();
int n = 0;
try {
begin();
synchronized (stateLock) {
if (!isOpen())
return 0;
writerThread = NativeThread.current();
}
for (;;) {
n = IOUtil.write(fd, buf, -1, nd);
if ((n == IOStatus.INTERRUPTED) && isOpen())
continue;
return IOStatus.normalize(n);
}
} finally {
writerCleanup();
end(n > 0 || (n == IOStatus.UNAVAILABLE));
synchronized (stateLock) {
if ((n <= 0) && (!isOutputOpen))
throw new AsynchronousCloseException();
}
assert IOStatus.check(n);
}
}
}
public long write(ByteBuffer[] srcs, int offset, int length)
throws IOException
{
if ((offset < 0) || (length < 0) || (offset > srcs.length - length))
throw new IndexOutOfBoundsException();
synchronized (writeLock) {
ensureWriteOpen();
long n = 0;
try {
begin();
synchronized (stateLock) {
if (!isOpen())
return 0;
writerThread = NativeThread.current();
}
for (;;) {
n = IOUtil.write(fd, srcs, offset, length, nd);
if ((n == IOStatus.INTERRUPTED) && isOpen())
continue;
return IOStatus.normalize(n);
}
} finally {
writerCleanup();
end((n > 0) || (n == IOStatus.UNAVAILABLE));
synchronized (stateLock) {
if ((n <= 0) && (!isOutputOpen))
throw new AsynchronousCloseException();
}
assert IOStatus.check(n);
}
}
}
// package-private
int sendOutOfBandData(byte b) throws IOException {
synchronized (writeLock) {
ensureWriteOpen();
int n = 0;
try {
begin();
synchronized (stateLock) {
if (!isOpen())
return 0;
writerThread = NativeThread.current();
}
for (;;) {
n = sendOutOfBandData(fd, b);
if ((n == IOStatus.INTERRUPTED) && isOpen())
continue;
return IOStatus.normalize(n);
}
} finally {
writerCleanup();
end((n > 0) || (n == IOStatus.UNAVAILABLE));
synchronized (stateLock) {
if ((n <= 0) && (!isOutputOpen))
throw new AsynchronousCloseException();
}
assert IOStatus.check(n);
}
}
}
protected void implConfigureBlocking(boolean block) throws IOException {
IOUtil.configureBlocking(fd, block);
}
public InetSocketAddress localAddress() {
synchronized (stateLock) {
return localAddress;
}
}
public SocketAddress remoteAddress() {
synchronized (stateLock) {
return remoteAddress;
}
}
@Override
public SocketChannel bind(SocketAddress local) throws IOException {
synchronized (readLock) {
synchronized (writeLock) {
synchronized (stateLock) {
if (!isOpen())
throw new ClosedChannelException();
if (state == ST_PENDING)
throw new ConnectionPendingException();
if (localAddress != null)
throw new AlreadyBoundException();
InetSocketAddress isa = (local == null) ?
new InetSocketAddress(0) : Net.checkAddress(local);
SecurityManager sm = System.getSecurityManager();
if (sm != null) {
sm.checkListen(isa.getPort());
}
NetHooks.beforeTcpBind(fd, isa.getAddress(), isa.getPort());
Net.bind(fd, isa.getAddress(), isa.getPort());
localAddress = Net.localAddress(fd);
}
}
}
return this;
}
public boolean isConnected() {
synchronized (stateLock) {
return (state == ST_CONNECTED);
}
}
public boolean isConnectionPending() {
synchronized (stateLock) {
return (state == ST_PENDING);
}
}
void ensureOpenAndUnconnected() throws IOException { // package-private
synchronized (stateLock) {
if (!isOpen())
throw new ClosedChannelException();
if (state == ST_CONNECTED)
throw new AlreadyConnectedException();
if (state == ST_PENDING)
throw new ConnectionPendingException();
}
}
public boolean connect(SocketAddress sa) throws IOException {
int localPort = 0;
synchronized (readLock) {
synchronized (writeLock) {
ensureOpenAndUnconnected();
InetSocketAddress isa = Net.checkAddress(sa);
SecurityManager sm = System.getSecurityManager();
if (sm != null)
sm.checkConnect(isa.getAddress().getHostAddress(),
isa.getPort());
synchronized (blockingLock()) {
int n = 0;
try {
try {
begin();
synchronized (stateLock) {
if (!isOpen()) {
return false;
}
// notify hook only if unbound
if (localAddress == null) {
NetHooks.beforeTcpConnect(fd,
isa.getAddress(),
isa.getPort());
}
readerThread = NativeThread.current();
}
for (;;) {
InetAddress ia = isa.getAddress();
if (ia.isAnyLocalAddress())
ia = InetAddress.getLocalHost();
n = Net.connect(fd,
ia,
isa.getPort());
if ( (n == IOStatus.INTERRUPTED)
&& isOpen())
continue;
break;
}
} finally {
readerCleanup();
end((n > 0) || (n == IOStatus.UNAVAILABLE));
assert IOStatus.check(n);
}
} catch (IOException x) {
// If an exception was thrown, close the channel after
// invoking end() so as to avoid bogus
// AsynchronousCloseExceptions
close();
throw x;
}
synchronized (stateLock) {
remoteAddress = isa;
if (n > 0) {
// Connection succeeded; disallow further
// invocation
state = ST_CONNECTED;
if (isOpen())
localAddress = Net.localAddress(fd);
return true;
}
// If nonblocking and no exception then connection
// pending; disallow another invocation
if (!isBlocking()) {
state = ST_PENDING;
if (isOpen()) {
localAddress = Net.localAddress(fd);
}
}
}
}
return false;
}
}
}
public boolean finishConnect() throws IOException {
synchronized (readLock) {
synchronized (writeLock) {
synchronized (stateLock) {
if (!isOpen())
throw new ClosedChannelException();
if (state == ST_CONNECTED)
return true;
if (state != ST_PENDING)
throw new NoConnectionPendingException();
}
int n = 0;
try {
try {
begin();
synchronized (blockingLock()) {
synchronized (stateLock) {
if (!isOpen()) {
return false;
}
readerThread = NativeThread.current();
}
BlockGuard.getThreadPolicy().onNetwork();
if (!isBlocking()) {
for (;;) {
n = checkConnect(fd, false,
readyToConnect);
if ( (n == IOStatus.INTERRUPTED)
&& isOpen())
continue;
break;
}
} else {
for (;;) {
n = checkConnect(fd, true,
readyToConnect);
if (n == 0) {
// Loop in case of
// spurious notifications
continue;
}
if ( (n == IOStatus.INTERRUPTED)
&& isOpen())
continue;
break;
}
}
}
} finally {
synchronized (stateLock) {
readerThread = 0;
if (state == ST_KILLPENDING) {
kill();
// poll()/getsockopt() does not report
// error (throws exception, with n = 0)
// on Linux platform after dup2 and
// signal-wakeup. Force n to 0 so the
// end() can throw appropriate exception
n = 0;
}
}
end((n > 0) || (n == IOStatus.UNAVAILABLE));
assert IOStatus.check(n);
}
} catch (IOException x) {
// If an exception was thrown, close the channel after
// invoking end() so as to avoid bogus
// AsynchronousCloseExceptions
close();
throw x;
}
if (n > 0) {
synchronized (stateLock) {
state = ST_CONNECTED;
if (isOpen())
localAddress = Net.localAddress(fd);
}
return true;
}
return false;
}
}
}
@Override
public SocketChannel shutdownInput() throws IOException {
synchronized (stateLock) {
if (!isOpen())
throw new ClosedChannelException();
if (!isConnected())
throw new NotYetConnectedException();
if (isInputOpen) {
Net.shutdown(fd, Net.SHUT_RD);
if (readerThread != 0)
NativeThread.signal(readerThread);
isInputOpen = false;
}
return this;
}
}
@Override
public SocketChannel shutdownOutput() throws IOException {
synchronized (stateLock) {
if (!isOpen())
throw new ClosedChannelException();
if (!isConnected())
throw new NotYetConnectedException();
if (isOutputOpen) {
Net.shutdown(fd, Net.SHUT_WR);
if (writerThread != 0)
NativeThread.signal(writerThread);
isOutputOpen = false;
}
return this;
}
}
public boolean isInputOpen() {
synchronized (stateLock) {
return isInputOpen;
}
}
public boolean isOutputOpen() {
synchronized (stateLock) {
return isOutputOpen;
}
}
// AbstractInterruptibleChannel synchronizes invocations of this method
// using AbstractInterruptibleChannel.closeLock, and also ensures that this
// method is only ever invoked once. Before we get to this method, isOpen
// (which is volatile) will have been set to false.
//
protected void implCloseSelectableChannel() throws IOException {
synchronized (stateLock) {
isInputOpen = false;
isOutputOpen = false;
// Close the underlying file descriptor and dup it to a known fd
// that's already closed. This prevents other operations on this
// channel from using the old fd, which might be recycled in the
// meantime and allocated to an entirely different channel.
//
if (state != ST_KILLED) {
// Android-added: CloseGuard support.
guard.close();
nd.preClose(fd);
}
// Signal native threads, if needed. If a target thread is not
// currently blocked in an I/O operation then no harm is done since
// the signal handler doesn't actually do anything.
//
if (readerThread != 0)
NativeThread.signal(readerThread);
if (writerThread != 0)
NativeThread.signal(writerThread);
// If this channel is not registered then it's safe to close the fd
// immediately since we know at this point that no thread is
// blocked in an I/O operation upon the channel and, since the
// channel is marked closed, no thread will start another such
// operation. If this channel is registered then we don't close
// the fd since it might be in use by a selector. In that case
// closing this channel caused its keys to be cancelled, so the
// last selector to deregister a key for this channel will invoke
// kill() to close the fd.
//
if (!isRegistered())
kill();
}
}
public void kill() throws IOException {
synchronized (stateLock) {
if (state == ST_KILLED)
return;
if (state == ST_UNINITIALIZED) {
state = ST_KILLED;
return;
}
assert !isOpen() && !isRegistered();
// Postpone the kill if there is a waiting reader
// or writer thread. See the comments in read() for
// more detailed explanation.
if (readerThread == 0 && writerThread == 0) {
nd.close(fd);
state = ST_KILLED;
} else {
state = ST_KILLPENDING;
}
}
}
protected void finalize() throws IOException {
if (guard != null) {
guard.warnIfOpen();
}
// BEGIN Android-changed: Integrate upstream code from DatagramChannelImpl.finalize().
// http://b/115296581
// close();
// fd is null if constructor threw exception
if (fd != null) {
close();
}
// END Android-changed: Integrate upstream code from DatagramChannelImpl.finalize().
}
/**
* Translates native poll revent ops into a ready operation ops
*/
public boolean translateReadyOps(int ops, int initialOps,
SelectionKeyImpl sk) {
int intOps = sk.nioInterestOps(); // Do this just once, it synchronizes
int oldOps = sk.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;
sk.nioReadyOps(newOps);
// No need to poll again in checkConnect,
// the error will be detected there
readyToConnect = true;
return (newOps & ~oldOps) != 0;
}
if (((ops & Net.POLLIN) != 0) &&
((intOps & SelectionKey.OP_READ) != 0) &&
(state == ST_CONNECTED))
newOps |= SelectionKey.OP_READ;
if (((ops & Net.POLLCONN) != 0) &&
((intOps & SelectionKey.OP_CONNECT) != 0) &&
((state == ST_UNCONNECTED) || (state == ST_PENDING))) {
newOps |= SelectionKey.OP_CONNECT;
readyToConnect = true;
}
if (((ops & Net.POLLOUT) != 0) &&
((intOps & SelectionKey.OP_WRITE) != 0) &&
(state == ST_CONNECTED))
newOps |= SelectionKey.OP_WRITE;
sk.nioReadyOps(newOps);
return (newOps & ~oldOps) != 0;
}
public boolean translateAndUpdateReadyOps(int ops, SelectionKeyImpl sk) {
return translateReadyOps(ops, sk.nioReadyOps(), sk);
}
public boolean translateAndSetReadyOps(int ops, SelectionKeyImpl sk) {
return translateReadyOps(ops, 0, sk);
}
// package-private
int poll(int events, long timeout) throws IOException {
assert Thread.holdsLock(blockingLock()) && !isBlocking();
synchronized (readLock) {
int n = 0;
try {
begin();
synchronized (stateLock) {
if (!isOpen())
return 0;
readerThread = NativeThread.current();
}
n = Net.poll(fd, events, timeout);
} finally {
readerCleanup();
end(n > 0);
}
return n;
}
}
/**
* Translates an interest operation set into a native poll event set
*/
public void translateAndSetInterestOps(int ops, SelectionKeyImpl sk) {
int newOps = 0;
if ((ops & SelectionKey.OP_READ) != 0)
newOps |= Net.POLLIN;
if ((ops & SelectionKey.OP_WRITE) != 0)
newOps |= Net.POLLOUT;
if ((ops & SelectionKey.OP_CONNECT) != 0)
newOps |= Net.POLLCONN;
sk.selector.putEventOps(sk, newOps);
}
public FileDescriptor getFD() {
return fd;
}
public int getFDVal() {
return fdVal;
}
@Override
public String toString() {
StringBuffer sb = new StringBuffer();
sb.append(this.getClass().getSuperclass().getName());
sb.append('[');
if (!isOpen())
sb.append("closed");
else {
synchronized (stateLock) {
switch (state) {
case ST_UNCONNECTED:
sb.append("unconnected");
break;
case ST_PENDING:
sb.append("connection-pending");
break;
case ST_CONNECTED:
sb.append("connected");
if (!isInputOpen)
sb.append(" ishut");
if (!isOutputOpen)
sb.append(" oshut");
break;
}
InetSocketAddress addr = localAddress();
if (addr != null) {
sb.append(" local=");
sb.append(Net.getRevealedLocalAddressAsString(addr));
}
if (remoteAddress() != null) {
sb.append(" remote=");
sb.append(remoteAddress().toString());
}
}
}
sb.append(']');
return sb.toString();
}
// -- Native methods --
private static native int checkConnect(FileDescriptor fd,
boolean block, boolean ready)
throws IOException;
private static native int sendOutOfBandData(FileDescriptor fd, byte data)
throws IOException;
static {
nd = new SocketDispatcher();
}
}
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