org/sonews/daemon/ChannelWriter.java
changeset 1 6fceb66e1ad7
child 15 f2293e8566f5
     1.1 --- /dev/null	Thu Jan 01 00:00:00 1970 +0000
     1.2 +++ b/org/sonews/daemon/ChannelWriter.java	Fri Jun 26 16:48:50 2009 +0200
     1.3 @@ -0,0 +1,207 @@
     1.4 +/*
     1.5 + *   SONEWS News Server
     1.6 + *   see AUTHORS for the list of contributors
     1.7 + *
     1.8 + *   This program is free software: you can redistribute it and/or modify
     1.9 + *   it under the terms of the GNU General Public License as published by
    1.10 + *   the Free Software Foundation, either version 3 of the License, or
    1.11 + *   (at your option) any later version.
    1.12 + *
    1.13 + *   This program is distributed in the hope that it will be useful,
    1.14 + *   but WITHOUT ANY WARRANTY; without even the implied warranty of
    1.15 + *   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    1.16 + *   GNU General Public License for more details.
    1.17 + *
    1.18 + *   You should have received a copy of the GNU General Public License
    1.19 + *   along with this program.  If not, see <http://www.gnu.org/licenses/>.
    1.20 + */
    1.21 +
    1.22 +package org.sonews.daemon;
    1.23 +
    1.24 +import org.sonews.util.Log;
    1.25 +import java.io.IOException;
    1.26 +import java.nio.ByteBuffer;
    1.27 +import java.nio.channels.CancelledKeyException;
    1.28 +import java.nio.channels.SelectionKey;
    1.29 +import java.nio.channels.Selector;
    1.30 +import java.nio.channels.SocketChannel;
    1.31 +import java.util.Iterator;
    1.32 +
    1.33 +/**
    1.34 + * A Thread task that processes OP_WRITE events for SocketChannels.
    1.35 + * @author Christian Lins
    1.36 + * @since sonews/0.5.0
    1.37 + */
    1.38 +class ChannelWriter extends AbstractDaemon
    1.39 +{
    1.40 +
    1.41 +  private static ChannelWriter instance = new ChannelWriter();
    1.42 +
    1.43 +  /**
    1.44 +   * @return Returns the active ChannelWriter instance.
    1.45 +   */
    1.46 +  public static ChannelWriter getInstance()
    1.47 +  {
    1.48 +    return instance;
    1.49 +  }
    1.50 +  
    1.51 +  private Selector selector = null;
    1.52 +  
    1.53 +  protected ChannelWriter()
    1.54 +  {
    1.55 +  }
    1.56 +  
    1.57 +  /**
    1.58 +   * @return Selector associated with this instance.
    1.59 +   */
    1.60 +  public Selector getSelector()
    1.61 +  {
    1.62 +    return this.selector;
    1.63 +  }
    1.64 +  
    1.65 +  /**
    1.66 +   * Sets the selector that is used by this ChannelWriter.
    1.67 +   * @param selector
    1.68 +   */
    1.69 +  public void setSelector(final Selector selector)
    1.70 +  {
    1.71 +    this.selector = selector;
    1.72 +  }
    1.73 +  
    1.74 +  /**
    1.75 +   * Run loop.
    1.76 +   */
    1.77 +  @Override
    1.78 +  public void run()
    1.79 +  {
    1.80 +    assert selector != null;
    1.81 +
    1.82 +    while(isRunning())
    1.83 +    {
    1.84 +      try
    1.85 +      {
    1.86 +        SelectionKey   selKey        = null;
    1.87 +        SocketChannel  socketChannel = null;
    1.88 +        NNTPConnection connection    = null;
    1.89 +
    1.90 +        // select() blocks until some SelectableChannels are ready for
    1.91 +        // processing. There is no need to synchronize the selector as we
    1.92 +        // have only one thread per selector.
    1.93 +        selector.select(); // The return value of select can be ignored
    1.94 +
    1.95 +        // Get list of selection keys with pending OP_WRITE events.
    1.96 +        // The keySET is not thread-safe whereas the keys itself are.
    1.97 +        Iterator it = selector.selectedKeys().iterator();
    1.98 +
    1.99 +        while (it.hasNext())
   1.100 +        {
   1.101 +          // We remove the first event from the set and store it for
   1.102 +          // later processing.
   1.103 +          selKey = (SelectionKey) it.next();
   1.104 +          socketChannel = (SocketChannel) selKey.channel();
   1.105 +          connection = Connections.getInstance().get(socketChannel);
   1.106 +
   1.107 +          it.remove();
   1.108 +          if (connection != null)
   1.109 +          {
   1.110 +            break;
   1.111 +          }
   1.112 +          else
   1.113 +          {
   1.114 +            selKey = null;
   1.115 +          }
   1.116 +        }
   1.117 +        
   1.118 +        if (selKey != null)
   1.119 +        {
   1.120 +          try
   1.121 +          {
   1.122 +            // Process the selected key.
   1.123 +            // As there is only one OP_WRITE key for a given channel, we need
   1.124 +            // not to synchronize this processing to retain the order.
   1.125 +            processSelectionKey(connection, socketChannel, selKey);
   1.126 +          }
   1.127 +          catch (IOException ex)
   1.128 +          {
   1.129 +            Log.msg("Error writing to channel: " + ex, false);
   1.130 +
   1.131 +            // Cancel write events for this channel
   1.132 +            selKey.cancel();
   1.133 +            connection.shutdownInput();
   1.134 +            connection.shutdownOutput();
   1.135 +          }
   1.136 +        }
   1.137 +        
   1.138 +        // Eventually wait for a register operation
   1.139 +        synchronized(NNTPDaemon.RegisterGate) { /* do nothing */ }
   1.140 +      }
   1.141 +      catch(CancelledKeyException ex)
   1.142 +      {
   1.143 +        Log.msg("ChannelWriter.run(): " + ex, true);
   1.144 +      }
   1.145 +      catch(Exception ex)
   1.146 +      {
   1.147 +        ex.printStackTrace();
   1.148 +      }
   1.149 +    } // while(isRunning())
   1.150 +  }
   1.151 +  
   1.152 +  private void processSelectionKey(final NNTPConnection connection,
   1.153 +    final SocketChannel socketChannel, final SelectionKey selKey)
   1.154 +    throws InterruptedException, IOException
   1.155 +  {
   1.156 +    assert connection != null;
   1.157 +    assert socketChannel != null;
   1.158 +    assert selKey != null;
   1.159 +    assert selKey.isWritable();
   1.160 +
   1.161 +    // SocketChannel is ready for writing
   1.162 +    if(selKey.isValid())
   1.163 +    {
   1.164 +      // Lock the socket channel
   1.165 +      synchronized(socketChannel)
   1.166 +      {
   1.167 +        // Get next output buffer
   1.168 +        ByteBuffer buf = connection.getOutputBuffer();
   1.169 +        if(buf == null)
   1.170 +        {
   1.171 +          // Currently we have nothing to write, so we stop the writeable
   1.172 +          // events until we have something to write to the socket channel
   1.173 +          //selKey.cancel();
   1.174 +          selKey.interestOps(0);
   1.175 +          return;
   1.176 +        }
   1.177 + 
   1.178 +        while(buf != null) // There is data to be send
   1.179 +        {
   1.180 +          // Write buffer to socket channel; this method does not block
   1.181 +          if(socketChannel.write(buf) <= 0)
   1.182 +          {
   1.183 +            // Perhaps there is data to be written, but the SocketChannel's
   1.184 +            // buffer is full, so we stop writing to until the next event.
   1.185 +            break;
   1.186 +          }
   1.187 +          else
   1.188 +          {
   1.189 +            // Retrieve next buffer if available; method may return the same
   1.190 +            // buffer instance if it still have some bytes remaining
   1.191 +            buf = connection.getOutputBuffer();
   1.192 +          }
   1.193 +        }
   1.194 +      }
   1.195 +    }
   1.196 +    else
   1.197 +    {
   1.198 +      Log.msg("Invalid OP_WRITE key: " + selKey, false);
   1.199 +
   1.200 +      if (socketChannel.socket().isClosed())
   1.201 +      {
   1.202 +        connection.shutdownInput();
   1.203 +        connection.shutdownOutput();
   1.204 +        socketChannel.close();
   1.205 +        Log.msg("Connection closed.", true);
   1.206 +      }
   1.207 +    }
   1.208 +  }
   1.209 +  
   1.210 +}