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view src/org/eclipse/jetty/io/nio/SelectChannelEndPoint.java @ 820:8e9db0bbf4f9
remove org.eclipse.jetty.util.log and upgrade slf4j
| author | Franklin Schmidt <fschmidt@gmail.com> |
|---|---|
| date | Tue, 13 Sep 2016 23:13:06 -0600 |
| parents | 3428c60d7cfc |
| children | 6b210bb66c63 |
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// // ======================================================================== // Copyright (c) 1995-2014 Mort Bay Consulting Pty. Ltd. // ------------------------------------------------------------------------ // All rights reserved. This program and the accompanying materials // are made available under the terms of the Eclipse Public License v1.0 // and Apache License v2.0 which accompanies this distribution. // // The Eclipse Public License is available at // http://www.eclipse.org/legal/epl-v10.html // // The Apache License v2.0 is available at // http://www.opensource.org/licenses/apache2.0.php // // You may elect to redistribute this code under either of these licenses. // ======================================================================== // package org.eclipse.jetty.io.nio; import java.io.IOException; import java.io.InterruptedIOException; import java.nio.channels.ClosedChannelException; import java.nio.channels.SelectableChannel; import java.nio.channels.SelectionKey; import java.nio.channels.SocketChannel; import java.util.Locale; import org.eclipse.jetty.io.AsyncEndPoint; import org.eclipse.jetty.io.Buffer; import org.eclipse.jetty.io.ConnectedEndPoint; import org.eclipse.jetty.io.Connection; import org.eclipse.jetty.io.EofException; import org.eclipse.jetty.io.nio.SelectorManager.SelectSet; import org.slf4j.Logger; import org.slf4j.LoggerFactory; import org.eclipse.jetty.util.thread.Timeout.Task; /* ------------------------------------------------------------ */ /** * An Endpoint that can be scheduled by {@link SelectorManager}. */ public class SelectChannelEndPoint extends ChannelEndPoint implements AsyncEndPoint, ConnectedEndPoint { public static final Logger LOG=LoggerFactory.getLogger("org.eclipse.jetty.io.nio"); private final boolean WORK_AROUND_JVM_BUG_6346658 = System.getProperty("os.name").toLowerCase(Locale.ENGLISH).contains("win"); private final SelectorManager.SelectSet _selectSet; private final SelectorManager _manager; private SelectionKey _key; private final Runnable _handler = new Runnable() { public void run() { handle(); } }; /** The desired value for {@link SelectionKey#interestOps()} */ private int _interestOps; /** * The connection instance is the handler for any IO activity on the endpoint. * There is a different type of connection for HTTP, AJP, WebSocket and * ProxyConnect. The connection may change for an SCEP as it is upgraded * from HTTP to proxy connect or websocket. */ private volatile AsyncConnection _connection; private static final int STATE_NEEDS_DISPATCH=-1; private static final int STATE_UNDISPATCHED=0; private static final int STATE_DISPATCHED=1; private static final int STATE_ASYNC=2; private int _state; private boolean _onIdle; /** true if the last write operation succeed and wrote all offered bytes */ private volatile boolean _writable = true; /** True if a thread has is blocked in {@link #blockReadable(long)} */ private boolean _readBlocked; /** True if a thread has is blocked in {@link #blockWritable(long)} */ private boolean _writeBlocked; /** true if {@link SelectSet#destroyEndPoint(SelectChannelEndPoint)} has not been called */ private boolean _open; private volatile long _idleTimestamp; private volatile boolean _checkIdle; private boolean _interruptable; private boolean _ishut; /* ------------------------------------------------------------ */ public SelectChannelEndPoint(SocketChannel channel, SelectSet selectSet, SelectionKey key, int maxIdleTime) throws IOException { super(channel, maxIdleTime); _manager = selectSet.getManager(); _selectSet = selectSet; _state=STATE_UNDISPATCHED; _onIdle=false; _open=true; _key = key; setCheckForIdle(true); } /* ------------------------------------------------------------ */ public SelectionKey getSelectionKey() { synchronized (this) { return _key; } } /* ------------------------------------------------------------ */ public SelectorManager getSelectManager() { return _manager; } /* ------------------------------------------------------------ */ public Connection getConnection() { return _connection; } /* ------------------------------------------------------------ */ public void setConnection(Connection connection) { Connection old=_connection; _connection=(AsyncConnection)connection; if (old!=null && old!=_connection) _manager.endPointUpgraded(this,old); } /* ------------------------------------------------------------ */ public long getIdleTimestamp() { return _idleTimestamp; } /* ------------------------------------------------------------ */ /** Called by selectSet to schedule handling * */ public void schedule() { synchronized (this) { // If there is no key, then do nothing if (_key == null || !_key.isValid()) { _readBlocked=false; _writeBlocked=false; this.notifyAll(); return; } // If there are threads dispatched reading and writing if (_readBlocked || _writeBlocked) { // assert _dispatched; if (_readBlocked && _key.isReadable()) _readBlocked=false; if (_writeBlocked && _key.isWritable()) _writeBlocked=false; // wake them up is as good as a dispatched. this.notifyAll(); // we are not interested in further selecting _key.interestOps(0); if (_state<STATE_DISPATCHED) updateKey(); return; } // Remove writeable op if ((_key.readyOps() & SelectionKey.OP_WRITE) == SelectionKey.OP_WRITE && (_key.interestOps() & SelectionKey.OP_WRITE) == SelectionKey.OP_WRITE) { // Remove writeable op _interestOps = _key.interestOps() & ~SelectionKey.OP_WRITE; _key.interestOps(_interestOps); _writable = true; // Once writable is in ops, only removed with dispatch. } // If dispatched, then deregister interest if (_state>=STATE_DISPATCHED) _key.interestOps(0); else { // other wise do the dispatch dispatch(); if (_state>=STATE_DISPATCHED && !_selectSet.getManager().isDeferringInterestedOps0()) { _key.interestOps(0); } } } } /* ------------------------------------------------------------ */ public void asyncDispatch() { synchronized(this) { switch(_state) { case STATE_NEEDS_DISPATCH: case STATE_UNDISPATCHED: dispatch(); break; case STATE_DISPATCHED: case STATE_ASYNC: _state=STATE_ASYNC; break; } } } /* ------------------------------------------------------------ */ public void dispatch() { synchronized(this) { if (_state<=STATE_UNDISPATCHED) { if (_onIdle) _state = STATE_NEEDS_DISPATCH; else { _state = STATE_DISPATCHED; boolean dispatched = _manager.dispatch(_handler); if(!dispatched) { _state = STATE_NEEDS_DISPATCH; LOG.warn("Dispatched Failed! "+this+" to "+_manager); updateKey(); } } } } } /* ------------------------------------------------------------ */ /** * Called when a dispatched thread is no longer handling the endpoint. * The selection key operations are updated. * @return If false is returned, the endpoint has been redispatched and * thread must keep handling the endpoint. */ protected boolean undispatch() { synchronized (this) { switch(_state) { case STATE_ASYNC: _state=STATE_DISPATCHED; return false; default: _state=STATE_UNDISPATCHED; updateKey(); return true; } } } /* ------------------------------------------------------------ */ public void cancelTimeout(Task task) { getSelectSet().cancelTimeout(task); } /* ------------------------------------------------------------ */ public void scheduleTimeout(Task task, long timeoutMs) { getSelectSet().scheduleTimeout(task,timeoutMs); } /* ------------------------------------------------------------ */ public void setCheckForIdle(boolean check) { if (check) { _idleTimestamp=System.currentTimeMillis(); _checkIdle=true; } else _checkIdle=false; } /* ------------------------------------------------------------ */ public boolean isCheckForIdle() { return _checkIdle; } /* ------------------------------------------------------------ */ protected void notIdle() { _idleTimestamp=System.currentTimeMillis(); } /* ------------------------------------------------------------ */ public void checkIdleTimestamp(long now) { if (isCheckForIdle() && _maxIdleTime>0) { final long idleForMs=now-_idleTimestamp; if (idleForMs>_maxIdleTime) { // Don't idle out again until onIdleExpired task completes. setCheckForIdle(false); _manager.dispatch(new Runnable() { public void run() { try { onIdleExpired(idleForMs); } finally { setCheckForIdle(true); } } }); } } } /* ------------------------------------------------------------ */ public void onIdleExpired(long idleForMs) { try { synchronized (this) { _onIdle=true; } _connection.onIdleExpired(idleForMs); } finally { synchronized (this) { _onIdle=false; if (_state==STATE_NEEDS_DISPATCH) dispatch(); } } } /* ------------------------------------------------------------ */ @Override public int fill(Buffer buffer) throws IOException { int fill=super.fill(buffer); if (fill>0) notIdle(); return fill; } /* ------------------------------------------------------------ */ @Override public int flush(Buffer header, Buffer buffer, Buffer trailer) throws IOException { int l = super.flush(header, buffer, trailer); // If there was something to write and it wasn't written, then we are not writable. if (l==0 && ( header!=null && header.hasContent() || buffer!=null && buffer.hasContent() || trailer!=null && trailer.hasContent())) { synchronized (this) { _writable=false; if (_state<STATE_DISPATCHED) updateKey(); } } else if (l>0) { _writable=true; notIdle(); } return l; } /* ------------------------------------------------------------ */ /* */ @Override public int flush(Buffer buffer) throws IOException { int l = super.flush(buffer); // If there was something to write and it wasn't written, then we are not writable. if (l==0 && buffer!=null && buffer.hasContent()) { synchronized (this) { _writable=false; if (_state<STATE_DISPATCHED) updateKey(); } } else if (l>0) { _writable=true; notIdle(); } return l; } /* ------------------------------------------------------------ */ /* * Allows thread to block waiting for further events. */ @Override public boolean blockReadable(long timeoutMs) throws IOException { synchronized (this) { if (isInputShutdown()) throw new EofException(); long now=_selectSet.getNow(); long end=now+timeoutMs; boolean check=isCheckForIdle(); setCheckForIdle(true); try { _readBlocked=true; while (!isInputShutdown() && _readBlocked) { try { updateKey(); this.wait(timeoutMs>0?(end-now):10000); } catch (final InterruptedException e) { LOG.warn("",e); if (_interruptable) throw new InterruptedIOException(){{this.initCause(e);}}; } finally { now=_selectSet.getNow(); } if (_readBlocked && timeoutMs>0 && now>=end) return false; } } finally { _readBlocked=false; setCheckForIdle(check); } } return true; } /* ------------------------------------------------------------ */ /* * Allows thread to block waiting for further events. */ @Override public boolean blockWritable(long timeoutMs) throws IOException { synchronized (this) { if (isOutputShutdown()) throw new EofException(); long now=_selectSet.getNow(); long end=now+timeoutMs; boolean check=isCheckForIdle(); setCheckForIdle(true); try { _writeBlocked=true; while (_writeBlocked && !isOutputShutdown()) { try { updateKey(); this.wait(timeoutMs>0?(end-now):10000); } catch (final InterruptedException e) { LOG.warn("",e); if (_interruptable) throw new InterruptedIOException(){{this.initCause(e);}}; } finally { now=_selectSet.getNow(); } if (_writeBlocked && timeoutMs>0 && now>=end) return false; } } finally { _writeBlocked=false; setCheckForIdle(check); } } return true; } /* ------------------------------------------------------------ */ /** Set the interruptable mode of the endpoint. * If set to false (default), then interrupts are assumed to be spurious * and blocking operations continue unless the endpoint has been closed. * If true, then interrupts of blocking operations result in InterruptedIOExceptions * being thrown. * @param interupable */ public void setInterruptable(boolean interupable) { synchronized (this) { _interruptable=interupable; } } /* ------------------------------------------------------------ */ public boolean isInterruptable() { return _interruptable; } /* ------------------------------------------------------------ */ /** * @see org.eclipse.jetty.io.AsyncEndPoint#scheduleWrite() */ public void scheduleWrite() { if (_writable) LOG.debug("Required scheduleWrite {}",this); _writable=false; updateKey(); } /* ------------------------------------------------------------ */ public boolean isWritable() { return _writable; } /* ------------------------------------------------------------ */ public boolean hasProgressed() { return false; } /* ------------------------------------------------------------ */ /** * Updates selection key. Adds operations types to the selection key as needed. No operations * are removed as this is only done during dispatch. This method records the new key and * schedules a call to doUpdateKey to do the keyChange */ private void updateKey() { final boolean changed; synchronized (this) { int current_ops=-1; if (getChannel().isOpen()) { boolean read_interest = _readBlocked || (_state<STATE_DISPATCHED && !_connection.isSuspended()); boolean write_interest= _writeBlocked || (_state<STATE_DISPATCHED && !_writable); _interestOps = ((!_socket.isInputShutdown() && read_interest ) ? SelectionKey.OP_READ : 0) | ((!_socket.isOutputShutdown()&& write_interest) ? SelectionKey.OP_WRITE : 0); try { current_ops = ((_key!=null && _key.isValid())?_key.interestOps():-1); } catch(Exception e) { _key=null; LOG.trace("",e); } } changed=_interestOps!=current_ops; } if(changed) { _selectSet.addChange(this); _selectSet.wakeup(); } } /* ------------------------------------------------------------ */ /** * Synchronize the interestOps with the actual key. Call is scheduled by a call to updateKey */ void doUpdateKey() { synchronized (this) { if (getChannel().isOpen()) { if (_interestOps>0) { if (_key==null || !_key.isValid()) { SelectableChannel sc = (SelectableChannel)getChannel(); if (sc.isRegistered()) { updateKey(); } else { try { _key=((SelectableChannel)getChannel()).register(_selectSet.getSelector(),_interestOps,this); } catch (Exception e) { LOG.trace("",e); if (_key!=null && _key.isValid()) { _key.cancel(); } if (_open) { _selectSet.destroyEndPoint(this); } _open=false; _key = null; } } } else { _key.interestOps(_interestOps); } } else { if (_key!=null && _key.isValid()) _key.interestOps(0); else _key=null; } } else { if (_key!=null && _key.isValid()) _key.cancel(); if (_open) { _open=false; _selectSet.destroyEndPoint(this); } _key = null; } } } /* ------------------------------------------------------------ */ /* */ protected void handle() { boolean dispatched=true; try { while(dispatched) { try { while(true) { final AsyncConnection next = (AsyncConnection)_connection.handle(); if (next!=_connection) { LOG.debug("{} replaced {}",next,_connection); Connection old=_connection; _connection=next; _manager.endPointUpgraded(this,old); continue; } break; } } catch (ClosedChannelException e) { LOG.trace("",e); } catch (EofException e) { LOG.debug("EOF", e); try{close();} catch(IOException e2){LOG.trace("",e2);} } catch (IOException e) { LOG.warn(e.toString()); try{close();} catch(IOException e2){LOG.trace("",e2);} } catch (Throwable e) { LOG.warn("handle failed", e); try{close();} catch(IOException e2){LOG.trace("",e2);} } finally { if (!_ishut && isInputShutdown() && isOpen()) { _ishut=true; try { _connection.onInputShutdown(); } catch(Throwable x) { LOG.warn("onInputShutdown failed", x); try{close();} catch(IOException e2){LOG.trace("",e2);} } finally { updateKey(); } } dispatched=!undispatch(); } } } finally { if (dispatched) { dispatched=!undispatch(); while (dispatched) { LOG.warn("SCEP.run() finally DISPATCHED"); dispatched=!undispatch(); } } } } /* ------------------------------------------------------------ */ /* * @see org.eclipse.io.nio.ChannelEndPoint#close() */ @Override public void close() throws IOException { // On unix systems there is a JVM issue that if you cancel before closing, it can // cause the selector to block waiting for a channel to close and that channel can // block waiting for the remote end. But on windows, if you don't cancel before a // close, then the selector can block anyway! // https://bugs.eclipse.org/bugs/show_bug.cgi?id=357318 if (WORK_AROUND_JVM_BUG_6346658) { try { SelectionKey key = _key; if (key!=null) key.cancel(); } catch (Throwable e) { LOG.trace("",e); } } try { super.close(); } catch (IOException e) { LOG.trace("",e); } finally { updateKey(); } } /* ------------------------------------------------------------ */ @Override public String toString() { // Do NOT use synchronized (this) // because it's very easy to deadlock when debugging is enabled. // We do a best effort to print the right toString() and that's it. SelectionKey key = _key; String keyString = ""; if (key != null) { if (key.isValid()) { if (key.isReadable()) keyString += "r"; if (key.isWritable()) keyString += "w"; } else { keyString += "!"; } } else { keyString += "-"; } return String.format("SCEP@%x{l(%s)<->r(%s),s=%d,open=%b,ishut=%b,oshut=%b,rb=%b,wb=%b,w=%b,i=%d%s}-{%s}", hashCode(), _socket.getRemoteSocketAddress(), _socket.getLocalSocketAddress(), _state, isOpen(), isInputShutdown(), isOutputShutdown(), _readBlocked, _writeBlocked, _writable, _interestOps, keyString, _connection); } /* ------------------------------------------------------------ */ public SelectSet getSelectSet() { return _selectSet; } /* ------------------------------------------------------------ */ /** * Don't set the SoTimeout * @see org.eclipse.jetty.io.nio.ChannelEndPoint#setMaxIdleTime(int) */ @Override public void setMaxIdleTime(int timeMs) throws IOException { _maxIdleTime=timeMs; } }