src/org/sonews/daemon/ChannelLineBuffers.java
author cli
Sun, 29 Aug 2010 17:28:58 +0200
changeset 35 ed84c8bdd87b
parent 25 org/sonews/daemon/ChannelLineBuffers.java@dd05c3f2fa24
child 37 74139325d305
permissions -rw-r--r--
Moving source files into src/-subdir.
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/*
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 *   SONEWS News Server
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 *   see AUTHORS for the list of contributors
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 *
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 *   This program is free software: you can redistribute it and/or modify
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 *   it under the terms of the GNU General Public License as published by
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 *   the Free Software Foundation, either version 3 of the License, or
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 *   (at your option) any later version.
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 *
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 *   This program is distributed in the hope that it will be useful,
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 *   but WITHOUT ANY WARRANTY; without even the implied warranty of
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 *   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
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 *   GNU General Public License for more details.
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 *
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 *   You should have received a copy of the GNU General Public License
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 *   along with this program.  If not, see <http://www.gnu.org/licenses/>.
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 */
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package org.sonews.daemon;
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import java.nio.ByteBuffer;
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import java.nio.channels.ClosedChannelException;
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import java.util.ArrayList;
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import java.util.List;
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/**
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 * Class holding ByteBuffers for SocketChannels/NNTPConnection.
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 * Due to the complex nature of AIO/NIO we must properly handle the line 
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 * buffers for the input and output of the SocketChannels.
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 * @author Christian Lins
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 * @since sonews/0.5.0
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 */
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public class ChannelLineBuffers 
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{
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  /**
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   * Size of one small buffer; 
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   * per default this is 512 bytes to fit one standard line.
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   */
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  public static final int BUFFER_SIZE = 512;
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  private static int maxCachedBuffers = 2048; // Cached buffers maximum
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  private static final List<ByteBuffer> freeSmallBuffers
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    = new ArrayList<ByteBuffer>(maxCachedBuffers);
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  /**
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   * Allocates a predefined number of direct ByteBuffers (allocated via
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   * ByteBuffer.allocateDirect()). This method is Thread-safe, but should only
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   * called at startup.
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   */
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  public static void allocateDirect()
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  {
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    synchronized(freeSmallBuffers)
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    {
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      for(int n = 0; n < maxCachedBuffers; n++)
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      {
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        ByteBuffer buffer = ByteBuffer.allocateDirect(BUFFER_SIZE);
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        freeSmallBuffers.add(buffer);
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      }
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    }
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  }
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  private ByteBuffer       inputBuffer   = newLineBuffer();
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  private List<ByteBuffer> outputBuffers = new ArrayList<ByteBuffer>();
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  /**
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   * Add the given ByteBuffer to the list of buffers to be send to the client.
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   * This method is Thread-safe.
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   * @param buffer
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   * @throws java.nio.channels.ClosedChannelException If the client channel was
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   * already closed.
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   */
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  public void addOutputBuffer(ByteBuffer buffer)
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    throws ClosedChannelException
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  {
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    if(outputBuffers == null)
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    {
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      throw new ClosedChannelException();
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    }
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    synchronized(outputBuffers)
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    {
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      outputBuffers.add(buffer);
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    }
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  }
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  /**
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   * Currently a channel has only one input buffer. This *may* be a bottleneck
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   * and should investigated in the future.
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   * @param channel
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   * @return The input buffer associated with given channel.
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   */
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  public ByteBuffer getInputBuffer()
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  {
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    return inputBuffer;
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  }
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  /**
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   * Returns the current output buffer for writing(!) to SocketChannel.
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   * @param channel
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   * @return The next input buffer that contains unprocessed data or null
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   * if the connection was closed or there are no more unprocessed buffers.
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   */
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  public ByteBuffer getOutputBuffer()
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  {
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    synchronized(outputBuffers)
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    {
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      if(outputBuffers == null || outputBuffers.isEmpty())
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      {
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        return null;
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      }
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      else
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      {
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        ByteBuffer buffer = outputBuffers.get(0);
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        if(buffer.remaining() == 0)
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        {
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          outputBuffers.remove(0);
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          // Add old buffers to the list of free buffers
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          recycleBuffer(buffer);
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          buffer = getOutputBuffer();
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        }
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        return buffer;
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      }
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    }
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  }
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  /**
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   * @return false if there are output buffers pending to be written to the
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   * client.
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   */
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  boolean isOutputBufferEmpty()
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  {
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    synchronized(outputBuffers)
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    {
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      return outputBuffers.isEmpty();
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    }
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  }
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  /**
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   * Goes through the input buffer of the given channel and searches
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   * for next line terminator. If a '\n' is found, the bytes up to the
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   * line terminator are returned as array of bytes (the line terminator
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   * is omitted). If none is found the method returns null.
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   * @param channel
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   * @return A ByteBuffer wrapping the line.
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   */
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  ByteBuffer nextInputLine()
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  {
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    if(inputBuffer == null)
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    {
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      return null;
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    }
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    synchronized(inputBuffer)
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    {
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      ByteBuffer buffer = inputBuffer;
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      // Mark the current write position
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      int mark = buffer.position();
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      // Set position to 0 and limit to current position
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      buffer.flip();
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      ByteBuffer lineBuffer = newLineBuffer();
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      while (buffer.position() < buffer.limit())
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      {
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        byte b = buffer.get();
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        if (b == 10) // '\n'
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        {
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          // The bytes between the buffer's current position and its limit, 
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          // if any, are copied to the beginning of the buffer. That is, the 
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          // byte at index p = position() is copied to index zero, the byte at 
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          // index p + 1 is copied to index one, and so forth until the byte 
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          // at index limit() - 1 is copied to index n = limit() - 1 - p. 
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          // The buffer's position is then set to n+1 and its limit is set to 
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          // its capacity.
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          buffer.compact();
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          lineBuffer.flip(); // limit to position, position to 0
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          return lineBuffer;
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        }
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        else
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        {
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          lineBuffer.put(b);
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        }
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      }
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      buffer.limit(BUFFER_SIZE);
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      buffer.position(mark);
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      if(buffer.hasRemaining())
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      {
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        return null;
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      }
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      else
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      {
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        // In the first 512 was no newline found, so the input is not standard
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        // compliant. We return the current buffer as new line and add a space
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        // to the beginning of the next line which corrects some overlong header
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        // lines.
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        inputBuffer = newLineBuffer();
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        inputBuffer.put((byte)' ');
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        buffer.flip();
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        return buffer;
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      }
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    }
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  }
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  /**
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   * Returns a at least 512 bytes long ByteBuffer ready for usage.
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   * The method first try to reuse an already allocated (cached) buffer but
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   * if that fails returns a newly allocated direct buffer.
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   * Use recycleBuffer() method when you do not longer use the allocated buffer.
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   */
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  static ByteBuffer newLineBuffer()
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  {
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    ByteBuffer buf = null;
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    synchronized(freeSmallBuffers)
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    {
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      if(!freeSmallBuffers.isEmpty())
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      {
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        buf = freeSmallBuffers.remove(0);
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      }
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    }
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    if(buf == null)
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    {
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      // Allocate a non-direct buffer
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      buf = ByteBuffer.allocate(BUFFER_SIZE);
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    }
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    assert buf.position() == 0;
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    assert buf.limit() >= BUFFER_SIZE;
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    return buf;
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  }
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  /**
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   * Adds the given buffer to the list of free buffers if it is a valuable
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   * direct allocated buffer.
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   * @param buffer
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   */
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  public static void recycleBuffer(ByteBuffer buffer)
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  {
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    assert buffer != null;
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    if(buffer.isDirect())
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    {
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      assert buffer.capacity() >= BUFFER_SIZE;
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      // Add old buffers to the list of free buffers
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      synchronized(freeSmallBuffers)
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      {
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        buffer.clear(); // Set position to 0 and limit to capacity
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        freeSmallBuffers.add(buffer);
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      }
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    } // if(buffer.isDirect())
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  }
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  /**
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   * Recycles all buffers of this ChannelLineBuffers object.
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   */
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  public void recycleBuffers()
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  {
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    synchronized(inputBuffer)
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    {
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      recycleBuffer(inputBuffer);
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      this.inputBuffer = null;
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    }
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    synchronized(outputBuffers)
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    {
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      for(ByteBuffer buf : outputBuffers)
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      {
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        recycleBuffer(buf);
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      }
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      outputBuffers = null;
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    }
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  }
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}