author | jcbeyler |
Wed, 14 Nov 2018 12:25:15 -0800 | |
changeset 52561 | 40098289d580 |
parent 49493 | 814bd31f8da0 |
child 59204 | 7b10581e9632 |
permissions | -rw-r--r-- |
/* * Copyright (c) 2009, 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.sctp; import java.net.InetAddress; import java.net.SocketAddress; import java.net.SocketException; import java.net.InetSocketAddress; import java.io.FileDescriptor; import java.io.IOException; import java.util.Collections; import java.util.Map.Entry; import java.util.Iterator; import java.util.Set; import java.util.HashSet; import java.util.HashMap; import java.nio.ByteBuffer; import java.nio.channels.SelectionKey; import java.nio.channels.ClosedChannelException; import java.nio.channels.NotYetBoundException; import java.nio.channels.spi.SelectorProvider; import com.sun.nio.sctp.AbstractNotificationHandler; import com.sun.nio.sctp.Association; import com.sun.nio.sctp.AssociationChangeNotification; import com.sun.nio.sctp.HandlerResult; import com.sun.nio.sctp.IllegalReceiveException; import com.sun.nio.sctp.InvalidStreamException; import com.sun.nio.sctp.IllegalUnbindException; import com.sun.nio.sctp.NotificationHandler; import com.sun.nio.sctp.MessageInfo; import com.sun.nio.sctp.SctpChannel; import com.sun.nio.sctp.SctpMultiChannel; import com.sun.nio.sctp.SctpSocketOption; import sun.nio.ch.DirectBuffer; import sun.nio.ch.NativeThread; import sun.nio.ch.IOStatus; import sun.nio.ch.IOUtil; import sun.nio.ch.Net; import sun.nio.ch.SelChImpl; import sun.nio.ch.SelectionKeyImpl; import sun.nio.ch.Util; import static com.sun.nio.sctp.SctpStandardSocketOptions.*; import static sun.nio.ch.sctp.ResultContainer.*; /** * An implementation of SctpMultiChannel */ public class SctpMultiChannelImpl extends SctpMultiChannel implements SelChImpl { private final FileDescriptor fd; private final int fdVal; /* IDs of native threads doing send and receives, for signalling */ private volatile long receiverThread = 0; private volatile long senderThread = 0; /* Lock held by current receiving thread */ private final Object receiveLock = new Object(); /* Lock held by current sending thread */ private final Object sendLock = 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(); private enum ChannelState { UNINITIALIZED, KILLPENDING, KILLED, } /* -- The following fields are protected by stateLock -- */ private ChannelState state = ChannelState.UNINITIALIZED; /* Binding: Once bound the port will remain constant. */ int port = -1; private HashSet<InetSocketAddress> localAddresses = new HashSet<InetSocketAddress>(); /* Has the channel been bound to the wildcard address */ private boolean wildcard; /* false */ /* Keeps a map of addresses to association, and visa versa */ private HashMap<SocketAddress, Association> addressMap = new HashMap<SocketAddress, Association>(); private HashMap<Association, Set<SocketAddress>> associationMap = new HashMap<Association, Set<SocketAddress>>(); /* -- End of fields protected by stateLock -- */ /* If an association has been shutdown mark it for removal after * the user handler has been invoked */ private final ThreadLocal<Association> associationToRemove = new ThreadLocal<Association>() { @Override protected Association initialValue() { return null; } }; /* A notification handler cannot invoke receive */ private final ThreadLocal<Boolean> receiveInvoked = new ThreadLocal<Boolean>() { @Override protected Boolean initialValue() { return Boolean.FALSE; } }; public SctpMultiChannelImpl(SelectorProvider provider) throws IOException { //TODO: update provider, remove public modifier super(provider); this.fd = SctpNet.socket(false /*one-to-many*/); this.fdVal = IOUtil.fdVal(fd); } @Override public SctpMultiChannel bind(SocketAddress local, int backlog) throws IOException { synchronized (receiveLock) { synchronized (sendLock) { synchronized (stateLock) { ensureOpen(); if (isBound()) SctpNet.throwAlreadyBoundException(); InetSocketAddress isa = (local == null) ? new InetSocketAddress(0) : Net.checkAddress(local); SecurityManager sm = System.getSecurityManager(); if (sm != null) sm.checkListen(isa.getPort()); Net.bind(fd, isa.getAddress(), isa.getPort()); InetSocketAddress boundIsa = Net.localAddress(fd); port = boundIsa.getPort(); localAddresses.add(isa); if (isa.getAddress().isAnyLocalAddress()) wildcard = true; SctpNet.listen(fdVal, backlog < 1 ? 50 : backlog); } } } return this; } @Override public SctpMultiChannel bindAddress(InetAddress address) throws IOException { return bindUnbindAddress(address, true); } @Override public SctpMultiChannel unbindAddress(InetAddress address) throws IOException { return bindUnbindAddress(address, false); } private SctpMultiChannel bindUnbindAddress(InetAddress address, boolean add) throws IOException { if (address == null) throw new IllegalArgumentException(); synchronized (receiveLock) { synchronized (sendLock) { synchronized (stateLock) { if (!isOpen()) throw new ClosedChannelException(); if (!isBound()) throw new NotYetBoundException(); if (wildcard) throw new IllegalStateException( "Cannot add or remove addresses from a channel that is bound to the wildcard address"); if (address.isAnyLocalAddress()) throw new IllegalArgumentException( "Cannot add or remove the wildcard address"); if (add) { for (InetSocketAddress addr : localAddresses) { if (addr.getAddress().equals(address)) { SctpNet.throwAlreadyBoundException(); } } } else { /*removing */ /* Verify that there is more than one address * and that address is already bound */ if (localAddresses.size() <= 1) throw new IllegalUnbindException("Cannot remove address from a channel with only one address bound"); boolean foundAddress = false; for (InetSocketAddress addr : localAddresses) { if (addr.getAddress().equals(address)) { foundAddress = true; break; } } if (!foundAddress ) throw new IllegalUnbindException("Cannot remove address from a channel that is not bound to that address"); } SctpNet.bindx(fdVal, new InetAddress[]{address}, port, add); /* Update our internal Set to reflect the addition/removal */ if (add) localAddresses.add(new InetSocketAddress(address, port)); else { for (InetSocketAddress addr : localAddresses) { if (addr.getAddress().equals(address)) { localAddresses.remove(addr); break; } } } } } } return this; } @Override public Set<Association> associations() throws ClosedChannelException, NotYetBoundException { synchronized (stateLock) { if (!isOpen()) throw new ClosedChannelException(); if (!isBound()) throw new NotYetBoundException(); return Collections.unmodifiableSet(associationMap.keySet()); } } private boolean isBound() { synchronized (stateLock) { return port == -1 ? false : true; } } private void ensureOpen() throws IOException { synchronized (stateLock) { if (!isOpen()) throw new ClosedChannelException(); } } private void receiverCleanup() throws IOException { synchronized (stateLock) { receiverThread = 0; if (state == ChannelState.KILLPENDING) kill(); } } private void senderCleanup() throws IOException { synchronized (stateLock) { senderThread = 0; if (state == ChannelState.KILLPENDING) kill(); } } @Override protected void implConfigureBlocking(boolean block) throws IOException { IOUtil.configureBlocking(fd, block); } @Override public void implCloseSelectableChannel() throws IOException { synchronized (stateLock) { SctpNet.preClose(fdVal); if (receiverThread != 0) NativeThread.signal(receiverThread); if (senderThread != 0) NativeThread.signal(senderThread); if (!isRegistered()) kill(); } } @Override public FileDescriptor getFD() { return fd; } @Override public int getFDVal() { return fdVal; } /** * Translates native poll revent ops into a ready operation ops */ private boolean translateReadyOps(int ops, int initialOps, SelectionKeyImpl sk) { int intOps = sk.nioInterestOps(); 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); return (newOps & ~oldOps) != 0; } if (((ops & Net.POLLIN) != 0) && ((intOps & SelectionKey.OP_READ) != 0)) newOps |= SelectionKey.OP_READ; if (((ops & Net.POLLOUT) != 0) && ((intOps & SelectionKey.OP_WRITE) != 0)) newOps |= SelectionKey.OP_WRITE; sk.nioReadyOps(newOps); return (newOps & ~oldOps) != 0; } @Override public boolean translateAndUpdateReadyOps(int ops, SelectionKeyImpl sk) { return translateReadyOps(ops, sk.nioReadyOps(), sk); } @Override public boolean translateAndSetReadyOps(int ops, SelectionKeyImpl sk) { return translateReadyOps(ops, 0, sk); } @Override public int translateInterestOps(int ops) { int newOps = 0; if ((ops & SelectionKey.OP_READ) != 0) newOps |= Net.POLLIN; if ((ops & SelectionKey.OP_WRITE) != 0) newOps |= Net.POLLOUT; return newOps; } @Override public void kill() throws IOException { synchronized (stateLock) { if (state == ChannelState.KILLED) return; if (state == ChannelState.UNINITIALIZED) { state = ChannelState.KILLED; return; } assert !isOpen() && !isRegistered(); /* Postpone the kill if there is a thread sending or receiving. */ if (receiverThread == 0 && senderThread == 0) { SctpNet.close(fdVal); state = ChannelState.KILLED; } else { state = ChannelState.KILLPENDING; } } } @Override public <T> SctpMultiChannel setOption(SctpSocketOption<T> name, T value, Association association) throws IOException { if (name == null) throw new NullPointerException(); if (!(supportedOptions().contains(name))) throw new UnsupportedOperationException("'" + name + "' not supported"); synchronized (stateLock) { if (association != null && (name.equals(SCTP_PRIMARY_ADDR) || name.equals(SCTP_SET_PEER_PRIMARY_ADDR))) { checkAssociation(association); } if (!isOpen()) throw new ClosedChannelException(); int assocId = association == null ? 0 : association.associationID(); SctpNet.setSocketOption(fdVal, name, value, assocId); } return this; } @Override @SuppressWarnings("unchecked") public <T> T getOption(SctpSocketOption<T> name, Association association) throws IOException { if (name == null) throw new NullPointerException(); if (!supportedOptions().contains(name)) throw new UnsupportedOperationException("'" + name + "' not supported"); synchronized (stateLock) { if (association != null && (name.equals(SCTP_PRIMARY_ADDR) || name.equals(SCTP_SET_PEER_PRIMARY_ADDR))) { checkAssociation(association); } if (!isOpen()) throw new ClosedChannelException(); int assocId = association == null ? 0 : association.associationID(); return (T)SctpNet.getSocketOption(fdVal, name, assocId); } } private static class DefaultOptionsHolder { static final Set<SctpSocketOption<?>> defaultOptions = defaultOptions(); private static Set<SctpSocketOption<?>> defaultOptions() { HashSet<SctpSocketOption<?>> set = new HashSet<SctpSocketOption<?>>(10); set.add(SCTP_DISABLE_FRAGMENTS); set.add(SCTP_EXPLICIT_COMPLETE); set.add(SCTP_FRAGMENT_INTERLEAVE); set.add(SCTP_INIT_MAXSTREAMS); set.add(SCTP_NODELAY); set.add(SCTP_PRIMARY_ADDR); set.add(SCTP_SET_PEER_PRIMARY_ADDR); set.add(SO_SNDBUF); set.add(SO_RCVBUF); set.add(SO_LINGER); return Collections.unmodifiableSet(set); } } @Override public final Set<SctpSocketOption<?>> supportedOptions() { return DefaultOptionsHolder.defaultOptions; } @Override public <T> MessageInfo receive(ByteBuffer buffer, T attachment, NotificationHandler<T> handler) throws IOException { if (buffer == null) throw new IllegalArgumentException("buffer cannot be null"); if (buffer.isReadOnly()) throw new IllegalArgumentException("Read-only buffer"); if (receiveInvoked.get()) throw new IllegalReceiveException( "cannot invoke receive from handler"); receiveInvoked.set(Boolean.TRUE); try { ResultContainer resultContainer = new ResultContainer(); do { resultContainer.clear(); synchronized (receiveLock) { ensureOpen(); if (!isBound()) throw new NotYetBoundException(); int n = 0; try { begin(); synchronized (stateLock) { if(!isOpen()) return null; receiverThread = NativeThread.current(); } do { n = receive(fdVal, buffer, resultContainer); } while ((n == IOStatus.INTERRUPTED) && isOpen()); } finally { receiverCleanup(); end((n > 0) || (n == IOStatus.UNAVAILABLE)); assert IOStatus.check(n); } if (!resultContainer.isNotification()) { /* message or nothing */ if (resultContainer.hasSomething()) { /* Set the association before returning */ MessageInfoImpl info = resultContainer.getMessageInfo(); info.setAssociation(lookupAssociation(info. associationID())); SecurityManager sm = System.getSecurityManager(); if (sm != null) { InetSocketAddress isa = (InetSocketAddress)info.address(); if (!addressMap.containsKey(isa)) { /* must be a new association */ try { sm.checkAccept(isa.getAddress().getHostAddress(), isa.getPort()); } catch (SecurityException se) { buffer.clear(); throw se; } } } assert info.association() != null; return info; } else { /* Non-blocking may return null if nothing available*/ return null; } } else { /* notification */ synchronized (stateLock) { handleNotificationInternal( resultContainer); } } } /* receiveLock */ } while (handler == null ? true : (invokeNotificationHandler(resultContainer, handler, attachment) == HandlerResult.CONTINUE)); } finally { receiveInvoked.set(Boolean.FALSE); } return null; } private int receive(int fd, ByteBuffer dst, ResultContainer resultContainer) throws IOException { int pos = dst.position(); int lim = dst.limit(); assert (pos <= lim); int rem = (pos <= lim ? lim - pos : 0); if (dst instanceof DirectBuffer && rem > 0) return receiveIntoNativeBuffer(fd, resultContainer, dst, rem, pos); /* Substitute a native buffer. */ int newSize = Math.max(rem, 1); ByteBuffer bb = Util.getTemporaryDirectBuffer(newSize); try { int n = receiveIntoNativeBuffer(fd, resultContainer, bb, newSize, 0); bb.flip(); if (n > 0 && rem > 0) dst.put(bb); return n; } finally { Util.releaseTemporaryDirectBuffer(bb); } } private int receiveIntoNativeBuffer(int fd, ResultContainer resultContainer, ByteBuffer bb, int rem, int pos) throws IOException { int n = receive0(fd, resultContainer, ((DirectBuffer)bb).address() + pos, rem); if (n > 0) bb.position(pos + n); return n; } private InternalNotificationHandler internalNotificationHandler = new InternalNotificationHandler(); private void handleNotificationInternal(ResultContainer resultContainer) { invokeNotificationHandler(resultContainer, internalNotificationHandler, null); } private class InternalNotificationHandler extends AbstractNotificationHandler<Object> { @Override public HandlerResult handleNotification( AssociationChangeNotification not, Object unused) { AssociationChange sac = (AssociationChange) not; /* Update map to reflect change in association */ switch (not.event()) { case COMM_UP : Association newAssociation = new AssociationImpl (sac.assocId(), sac.maxInStreams(), sac.maxOutStreams()); addAssociation(newAssociation); break; case SHUTDOWN : case COMM_LOST : //case RESTART: ??? /* mark association for removal after user handler invoked*/ associationToRemove.set(lookupAssociation(sac.assocId())); } return HandlerResult.CONTINUE; } } private <T> HandlerResult invokeNotificationHandler( ResultContainer resultContainer, NotificationHandler<T> handler, T attachment) { HandlerResult result; SctpNotification notification = resultContainer.notification(); notification.setAssociation(lookupAssociation(notification.assocId())); if (!(handler instanceof AbstractNotificationHandler)) { result = handler.handleNotification(notification, attachment); } else { /* AbstractNotificationHandler */ AbstractNotificationHandler<T> absHandler = (AbstractNotificationHandler<T>)handler; switch(resultContainer.type()) { case ASSOCIATION_CHANGED : result = absHandler.handleNotification( resultContainer.getAssociationChanged(), attachment); break; case PEER_ADDRESS_CHANGED : result = absHandler.handleNotification( resultContainer.getPeerAddressChanged(), attachment); break; case SEND_FAILED : result = absHandler.handleNotification( resultContainer.getSendFailed(), attachment); break; case SHUTDOWN : result = absHandler.handleNotification( resultContainer.getShutdown(), attachment); break; default : /* implementation specific handlers */ result = absHandler.handleNotification( resultContainer.notification(), attachment); } } if (!(handler instanceof InternalNotificationHandler)) { /* Only remove associations after user handler * has finished with them */ Association assoc = associationToRemove.get(); if (assoc != null) { removeAssociation(assoc); associationToRemove.set(null); } } return result; } private Association lookupAssociation(int assocId) { /* Lookup the association in our internal map */ synchronized (stateLock) { Set<Association> assocs = associationMap.keySet(); for (Association a : assocs) { if (a.associationID() == assocId) { return a; } } } return null; } private void addAssociation(Association association) { synchronized (stateLock) { int assocId = association.associationID(); Set<SocketAddress> addresses = null; try { addresses = SctpNet.getRemoteAddresses(fdVal, assocId); } catch (IOException unused) { /* OK, determining connected addresses may not be possible * shutdown, connection lost, etc */ } associationMap.put(association, addresses); if (addresses != null) { for (SocketAddress addr : addresses) addressMap.put(addr, association); } } } private void removeAssociation(Association association) { synchronized (stateLock) { int assocId = association.associationID(); Set<SocketAddress> addresses = null; try { addresses = SctpNet.getRemoteAddresses(fdVal, assocId); } catch (IOException unused) { /* OK, determining connected addresses may not be possible * shutdown, connection lost, etc */ } Set<Association> assocs = associationMap.keySet(); for (Association a : assocs) { if (a.associationID() == assocId) { associationMap.remove(a); break; } } if (addresses != null) { for (SocketAddress addr : addresses) addressMap.remove(addr); } else { /* We cannot determine the connected addresses */ Set<java.util.Map.Entry<SocketAddress, Association>> addrAssocs = addressMap.entrySet(); Iterator<Entry<SocketAddress, Association>> iterator = addrAssocs.iterator(); while (iterator.hasNext()) { Entry<SocketAddress, Association> entry = iterator.next(); if (entry.getValue().equals(association)) { iterator.remove(); } } } } } /** * @throws IllegalArgumentException * If the given association is not controlled by this channel * * @return {@code true} if, and only if, the given association is one * of the current associations controlled by this channel */ private boolean checkAssociation(Association messageAssoc) { synchronized (stateLock) { for (Association association : associationMap.keySet()) { if (messageAssoc.equals(association)) { return true; } } } throw new IllegalArgumentException( "Given Association is not controlled by this channel"); } private void checkStreamNumber(Association assoc, int streamNumber) { synchronized (stateLock) { if (streamNumber < 0 || streamNumber >= assoc.maxOutboundStreams()) throw new InvalidStreamException(); } } /* TODO: Add support for ttl and isComplete to both 121 12M * SCTP_EOR not yet supported on reference platforms * TTL support limited... */ @Override public int send(ByteBuffer buffer, MessageInfo messageInfo) throws IOException { if (buffer == null) throw new IllegalArgumentException("buffer cannot be null"); if (messageInfo == null) throw new IllegalArgumentException("messageInfo cannot be null"); synchronized (sendLock) { ensureOpen(); if (!isBound()) bind(null, 0); int n = 0; try { int assocId = -1; SocketAddress address = null; begin(); synchronized (stateLock) { if(!isOpen()) return 0; senderThread = NativeThread.current(); /* Determine what address or association to send to */ Association assoc = messageInfo.association(); InetSocketAddress addr = (InetSocketAddress)messageInfo.address(); if (assoc != null) { checkAssociation(assoc); checkStreamNumber(assoc, messageInfo.streamNumber()); assocId = assoc.associationID(); /* have we also got a preferred address */ if (addr != null) { if (!assoc.equals(addressMap.get(addr))) throw new IllegalArgumentException("given preferred address is not part of this association"); address = addr; } } else if (addr != null) { address = addr; Association association = addressMap.get(addr); if (association != null) { checkStreamNumber(association, messageInfo.streamNumber()); assocId = association.associationID(); } else { /* must be new association */ SecurityManager sm = System.getSecurityManager(); if (sm != null) sm.checkConnect(addr.getAddress().getHostAddress(), addr.getPort()); } } else { throw new AssertionError( "Both association and address cannot be null"); } } do { n = send(fdVal, buffer, assocId, address, messageInfo); } while ((n == IOStatus.INTERRUPTED) && isOpen()); return IOStatus.normalize(n); } finally { senderCleanup(); end((n > 0) || (n == IOStatus.UNAVAILABLE)); assert IOStatus.check(n); } } } private int send(int fd, ByteBuffer src, int assocId, SocketAddress target, MessageInfo messageInfo) throws IOException { int streamNumber = messageInfo.streamNumber(); boolean unordered = messageInfo.isUnordered(); int ppid = messageInfo.payloadProtocolID(); if (src instanceof DirectBuffer) return sendFromNativeBuffer(fd, src, target, assocId, streamNumber, unordered, ppid); /* Substitute a native buffer */ int pos = src.position(); int lim = src.limit(); assert (pos <= lim && streamNumber >= 0); int rem = (pos <= lim ? lim - pos : 0); ByteBuffer bb = Util.getTemporaryDirectBuffer(rem); try { bb.put(src); bb.flip(); /* Do not update src until we see how many bytes were written */ src.position(pos); int n = sendFromNativeBuffer(fd, bb, target, assocId, streamNumber, unordered, ppid); if (n > 0) { /* now update src */ src.position(pos + n); } return n; } finally { Util.releaseTemporaryDirectBuffer(bb); } } private int sendFromNativeBuffer(int fd, ByteBuffer bb, SocketAddress target, int assocId, int streamNumber, boolean unordered, int ppid) throws IOException { InetAddress addr = null; // no preferred address int port = 0; if (target != null) { InetSocketAddress isa = Net.checkAddress(target); addr = isa.getAddress(); port = isa.getPort(); } int pos = bb.position(); int lim = bb.limit(); assert (pos <= lim); int rem = (pos <= lim ? lim - pos : 0); int written = send0(fd, ((DirectBuffer)bb).address() + pos, rem, addr, port, assocId, streamNumber, unordered, ppid); if (written > 0) bb.position(pos + written); return written; } @Override public SctpMultiChannel shutdown(Association association) throws IOException { synchronized (stateLock) { checkAssociation(association); if (!isOpen()) throw new ClosedChannelException(); SctpNet.shutdown(fdVal, association.associationID()); } return this; } @Override public Set<SocketAddress> getAllLocalAddresses() throws IOException { synchronized (stateLock) { if (!isOpen()) throw new ClosedChannelException(); if (!isBound()) return Collections.emptySet(); return SctpNet.getLocalAddresses(fdVal); } } @Override public Set<SocketAddress> getRemoteAddresses(Association association) throws IOException { synchronized (stateLock) { checkAssociation(association); if (!isOpen()) throw new ClosedChannelException(); try { return SctpNet.getRemoteAddresses(fdVal, association.associationID()); } catch (SocketException se) { /* a valid association should always have remote addresses */ Set<SocketAddress> addrs = associationMap.get(association); return addrs != null ? addrs : Collections.<SocketAddress>emptySet(); } } } @Override public SctpChannel branch(Association association) throws IOException { synchronized (stateLock) { checkAssociation(association); if (!isOpen()) throw new ClosedChannelException(); FileDescriptor bFd = SctpNet.branch(fdVal, association.associationID()); /* successfully branched, we can now remove it from assoc list */ removeAssociation(association); return new SctpChannelImpl(provider(), bFd, association); } } /* Use common native implementation shared between * one-to-one and one-to-many */ private static int receive0(int fd, ResultContainer resultContainer, long address, int length) throws IOException{ return SctpChannelImpl.receive0(fd, resultContainer, address, length, false /*peek */); } private static int send0(int fd, long address, int length, InetAddress addr, int port, int assocId, int streamNumber, boolean unordered, int ppid) throws IOException { return SctpChannelImpl.send0(fd, address, length, addr, port, assocId, streamNumber, unordered, ppid); } static { IOUtil.load(); /* loads nio & net native libraries */ java.security.AccessController.doPrivileged( new java.security.PrivilegedAction<Void>() { public Void run() { System.loadLibrary("sctp"); return null; } }); } }