src/org/sonews/daemon/ChannelLineBuffers.java
changeset 119 f5b57e221e38
parent 35 ed84c8bdd87b
     1.1 --- a/src/org/sonews/daemon/ChannelLineBuffers.java	Sun Aug 29 17:28:58 2010 +0200
     1.2 +++ b/src/org/sonews/daemon/ChannelLineBuffers.java	Thu Jul 05 13:19:19 2012 +0200
     1.3 @@ -30,254 +30,223 @@
     1.4   * @author Christian Lins
     1.5   * @since sonews/0.5.0
     1.6   */
     1.7 -public class ChannelLineBuffers 
     1.8 +public class ChannelLineBuffers
     1.9  {
    1.10 -  
    1.11 -  /**
    1.12 -   * Size of one small buffer; 
    1.13 -   * per default this is 512 bytes to fit one standard line.
    1.14 -   */
    1.15 -  public static final int BUFFER_SIZE = 512;
    1.16 -  
    1.17 -  private static int maxCachedBuffers = 2048; // Cached buffers maximum
    1.18 -  
    1.19 -  private static final List<ByteBuffer> freeSmallBuffers
    1.20 -    = new ArrayList<ByteBuffer>(maxCachedBuffers);
    1.21 -  
    1.22 -  /**
    1.23 -   * Allocates a predefined number of direct ByteBuffers (allocated via
    1.24 -   * ByteBuffer.allocateDirect()). This method is Thread-safe, but should only
    1.25 -   * called at startup.
    1.26 -   */
    1.27 -  public static void allocateDirect()
    1.28 -  {
    1.29 -    synchronized(freeSmallBuffers)
    1.30 -    {
    1.31 -      for(int n = 0; n < maxCachedBuffers; n++)
    1.32 -      {
    1.33 -        ByteBuffer buffer = ByteBuffer.allocateDirect(BUFFER_SIZE);
    1.34 -        freeSmallBuffers.add(buffer);
    1.35 -      }
    1.36 -    }
    1.37 -  }
    1.38 -  
    1.39 -  private ByteBuffer       inputBuffer   = newLineBuffer();
    1.40 -  private List<ByteBuffer> outputBuffers = new ArrayList<ByteBuffer>();
    1.41 -  
    1.42 -  /**
    1.43 -   * Add the given ByteBuffer to the list of buffers to be send to the client.
    1.44 -   * This method is Thread-safe.
    1.45 -   * @param buffer
    1.46 -   * @throws java.nio.channels.ClosedChannelException If the client channel was
    1.47 -   * already closed.
    1.48 -   */
    1.49 -  public void addOutputBuffer(ByteBuffer buffer)
    1.50 -    throws ClosedChannelException
    1.51 -  {
    1.52 -    if(outputBuffers == null)
    1.53 -    {
    1.54 -      throw new ClosedChannelException();
    1.55 -    }
    1.56 -    
    1.57 -    synchronized(outputBuffers)
    1.58 -    {
    1.59 -      outputBuffers.add(buffer);
    1.60 -    }
    1.61 -  }
    1.62 -  
    1.63 -  /**
    1.64 -   * Currently a channel has only one input buffer. This *may* be a bottleneck
    1.65 -   * and should investigated in the future.
    1.66 -   * @param channel
    1.67 -   * @return The input buffer associated with given channel.
    1.68 -   */
    1.69 -  public ByteBuffer getInputBuffer()
    1.70 -  {
    1.71 -    return inputBuffer;
    1.72 -  }
    1.73 -  
    1.74 -  /**
    1.75 -   * Returns the current output buffer for writing(!) to SocketChannel.
    1.76 -   * @param channel
    1.77 -   * @return The next input buffer that contains unprocessed data or null
    1.78 -   * if the connection was closed or there are no more unprocessed buffers.
    1.79 -   */
    1.80 -  public ByteBuffer getOutputBuffer()
    1.81 -  {
    1.82 -    synchronized(outputBuffers)
    1.83 -    {
    1.84 -      if(outputBuffers == null || outputBuffers.isEmpty())
    1.85 -      {
    1.86 -        return null;
    1.87 -      }
    1.88 -      else
    1.89 -      {
    1.90 -        ByteBuffer buffer = outputBuffers.get(0);
    1.91 -        if(buffer.remaining() == 0)
    1.92 -        {
    1.93 -          outputBuffers.remove(0);
    1.94 -          // Add old buffers to the list of free buffers
    1.95 -          recycleBuffer(buffer);
    1.96 -          buffer = getOutputBuffer();
    1.97 -        }
    1.98 -        return buffer;
    1.99 -      }
   1.100 -    }
   1.101 -  }
   1.102  
   1.103 -  /**
   1.104 -   * @return false if there are output buffers pending to be written to the
   1.105 -   * client.
   1.106 -   */
   1.107 -  boolean isOutputBufferEmpty()
   1.108 -  {
   1.109 -    synchronized(outputBuffers)
   1.110 -    {
   1.111 -      return outputBuffers.isEmpty();
   1.112 -    }
   1.113 -  }
   1.114 -  
   1.115 -  /**
   1.116 -   * Goes through the input buffer of the given channel and searches
   1.117 -   * for next line terminator. If a '\n' is found, the bytes up to the
   1.118 -   * line terminator are returned as array of bytes (the line terminator
   1.119 -   * is omitted). If none is found the method returns null.
   1.120 -   * @param channel
   1.121 -   * @return A ByteBuffer wrapping the line.
   1.122 -   */
   1.123 -  ByteBuffer nextInputLine()
   1.124 -  {
   1.125 -    if(inputBuffer == null)
   1.126 -    {
   1.127 -      return null;
   1.128 -    }
   1.129 -    
   1.130 -    synchronized(inputBuffer)
   1.131 -    {
   1.132 -      ByteBuffer buffer = inputBuffer;
   1.133 +	/**
   1.134 +	 * Size of one small buffer;
   1.135 +	 * per default this is 512 bytes to fit one standard line.
   1.136 +	 */
   1.137 +	public static final int BUFFER_SIZE = 512;
   1.138 +	private static int maxCachedBuffers = 2048; // Cached buffers maximum
   1.139 +	private static final List<ByteBuffer> freeSmallBuffers = new ArrayList<ByteBuffer>(maxCachedBuffers);
   1.140  
   1.141 -      // Mark the current write position
   1.142 -      int mark = buffer.position();
   1.143 +	/**
   1.144 +	 * Allocates a predefined number of direct ByteBuffers (allocated via
   1.145 +	 * ByteBuffer.allocateDirect()). This method is Thread-safe, but should only
   1.146 +	 * called at startup.
   1.147 +	 */
   1.148 +	public static void allocateDirect()
   1.149 +	{
   1.150 +		synchronized (freeSmallBuffers) {
   1.151 +			for (int n = 0; n < maxCachedBuffers; n++) {
   1.152 +				ByteBuffer buffer = ByteBuffer.allocateDirect(BUFFER_SIZE);
   1.153 +				freeSmallBuffers.add(buffer);
   1.154 +			}
   1.155 +		}
   1.156 +	}
   1.157 +	private ByteBuffer inputBuffer = newLineBuffer();
   1.158 +	private List<ByteBuffer> outputBuffers = new ArrayList<ByteBuffer>();
   1.159  
   1.160 -      // Set position to 0 and limit to current position
   1.161 -      buffer.flip();
   1.162 +	/**
   1.163 +	 * Add the given ByteBuffer to the list of buffers to be send to the client.
   1.164 +	 * This method is Thread-safe.
   1.165 +	 * @param buffer
   1.166 +	 * @throws java.nio.channels.ClosedChannelException If the client channel was
   1.167 +	 * already closed.
   1.168 +	 */
   1.169 +	public void addOutputBuffer(ByteBuffer buffer)
   1.170 +		throws ClosedChannelException
   1.171 +	{
   1.172 +		if (outputBuffers == null) {
   1.173 +			throw new ClosedChannelException();
   1.174 +		}
   1.175  
   1.176 -      ByteBuffer lineBuffer = newLineBuffer();
   1.177 +		synchronized (outputBuffers) {
   1.178 +			outputBuffers.add(buffer);
   1.179 +		}
   1.180 +	}
   1.181  
   1.182 -      while (buffer.position() < buffer.limit())
   1.183 -      {
   1.184 -        byte b = buffer.get();
   1.185 -        if (b == 10) // '\n'
   1.186 -        {
   1.187 -          // The bytes between the buffer's current position and its limit, 
   1.188 -          // if any, are copied to the beginning of the buffer. That is, the 
   1.189 -          // byte at index p = position() is copied to index zero, the byte at 
   1.190 -          // index p + 1 is copied to index one, and so forth until the byte 
   1.191 -          // at index limit() - 1 is copied to index n = limit() - 1 - p. 
   1.192 -          // The buffer's position is then set to n+1 and its limit is set to 
   1.193 -          // its capacity.
   1.194 -          buffer.compact();
   1.195 +	/**
   1.196 +	 * Currently a channel has only one input buffer. This *may* be a bottleneck
   1.197 +	 * and should investigated in the future.
   1.198 +	 * @param channel
   1.199 +	 * @return The input buffer associated with given channel.
   1.200 +	 */
   1.201 +	public ByteBuffer getInputBuffer()
   1.202 +	{
   1.203 +		return inputBuffer;
   1.204 +	}
   1.205  
   1.206 -          lineBuffer.flip(); // limit to position, position to 0
   1.207 -          return lineBuffer;
   1.208 -        }
   1.209 -        else
   1.210 -        {
   1.211 -          lineBuffer.put(b);
   1.212 -        }
   1.213 -      }
   1.214 +	/**
   1.215 +	 * Returns the current output buffer for writing(!) to SocketChannel.
   1.216 +	 * @param channel
   1.217 +	 * @return The next input buffer that contains unprocessed data or null
   1.218 +	 * if the connection was closed or there are no more unprocessed buffers.
   1.219 +	 */
   1.220 +	public ByteBuffer getOutputBuffer()
   1.221 +	{
   1.222 +		synchronized (outputBuffers) {
   1.223 +			if (outputBuffers == null || outputBuffers.isEmpty()) {
   1.224 +				return null;
   1.225 +			} else {
   1.226 +				ByteBuffer buffer = outputBuffers.get(0);
   1.227 +				if (buffer.remaining() == 0) {
   1.228 +					outputBuffers.remove(0);
   1.229 +					// Add old buffers to the list of free buffers
   1.230 +					recycleBuffer(buffer);
   1.231 +					buffer = getOutputBuffer();
   1.232 +				}
   1.233 +				return buffer;
   1.234 +			}
   1.235 +		}
   1.236 +	}
   1.237  
   1.238 -      buffer.limit(BUFFER_SIZE);
   1.239 -      buffer.position(mark);
   1.240 +	/**
   1.241 +	 * @return false if there are output buffers pending to be written to the
   1.242 +	 * client.
   1.243 +	 */
   1.244 +	boolean isOutputBufferEmpty()
   1.245 +	{
   1.246 +		synchronized (outputBuffers) {
   1.247 +			return outputBuffers.isEmpty();
   1.248 +		}
   1.249 +	}
   1.250  
   1.251 -      if(buffer.hasRemaining())
   1.252 -      {
   1.253 -        return null;
   1.254 -      }
   1.255 -      else
   1.256 -      {
   1.257 -        // In the first 512 was no newline found, so the input is not standard
   1.258 -        // compliant. We return the current buffer as new line and add a space
   1.259 -        // to the beginning of the next line which corrects some overlong header
   1.260 -        // lines.
   1.261 -        inputBuffer = newLineBuffer();
   1.262 -        inputBuffer.put((byte)' ');
   1.263 -        buffer.flip();
   1.264 -        return buffer;
   1.265 -      }
   1.266 -    }
   1.267 -  }
   1.268 -  
   1.269 -  /**
   1.270 -   * Returns a at least 512 bytes long ByteBuffer ready for usage.
   1.271 -   * The method first try to reuse an already allocated (cached) buffer but
   1.272 -   * if that fails returns a newly allocated direct buffer.
   1.273 -   * Use recycleBuffer() method when you do not longer use the allocated buffer.
   1.274 -   */
   1.275 -  static ByteBuffer newLineBuffer()
   1.276 -  {
   1.277 -    ByteBuffer buf = null;
   1.278 -    synchronized(freeSmallBuffers)
   1.279 -    {
   1.280 -      if(!freeSmallBuffers.isEmpty())
   1.281 -      {
   1.282 -        buf = freeSmallBuffers.remove(0);
   1.283 -      }
   1.284 -    }
   1.285 -      
   1.286 -    if(buf == null)
   1.287 -    {
   1.288 -      // Allocate a non-direct buffer
   1.289 -      buf = ByteBuffer.allocate(BUFFER_SIZE);
   1.290 -    }
   1.291 -    
   1.292 -    assert buf.position() == 0;
   1.293 -    assert buf.limit() >= BUFFER_SIZE;
   1.294 -    
   1.295 -    return buf;
   1.296 -  }
   1.297 -  
   1.298 -  /**
   1.299 -   * Adds the given buffer to the list of free buffers if it is a valuable
   1.300 -   * direct allocated buffer.
   1.301 -   * @param buffer
   1.302 -   */
   1.303 -  public static void recycleBuffer(ByteBuffer buffer)
   1.304 -  {
   1.305 -    assert buffer != null;
   1.306 +	/**
   1.307 +	 * Goes through the input buffer of the given channel and searches
   1.308 +	 * for next line terminator. If a '\n' is found, the bytes up to the
   1.309 +	 * line terminator are returned as array of bytes (the line terminator
   1.310 +	 * is omitted). If none is found the method returns null.
   1.311 +	 * @param channel
   1.312 +	 * @return A ByteBuffer wrapping the line.
   1.313 +	 */
   1.314 +	ByteBuffer nextInputLine()
   1.315 +	{
   1.316 +		if (inputBuffer == null) {
   1.317 +			return null;
   1.318 +		}
   1.319  
   1.320 -    if(buffer.isDirect())
   1.321 -    {
   1.322 -      assert buffer.capacity() >= BUFFER_SIZE;
   1.323 -      
   1.324 -      // Add old buffers to the list of free buffers
   1.325 -      synchronized(freeSmallBuffers)
   1.326 -      {
   1.327 -        buffer.clear(); // Set position to 0 and limit to capacity
   1.328 -        freeSmallBuffers.add(buffer);
   1.329 -      }
   1.330 -    } // if(buffer.isDirect())
   1.331 -  }
   1.332 -  
   1.333 -  /**
   1.334 -   * Recycles all buffers of this ChannelLineBuffers object.
   1.335 -   */
   1.336 -  public void recycleBuffers()
   1.337 -  {
   1.338 -    synchronized(inputBuffer)
   1.339 -    {
   1.340 -      recycleBuffer(inputBuffer);
   1.341 -      this.inputBuffer = null;
   1.342 -    }
   1.343 -    
   1.344 -    synchronized(outputBuffers)
   1.345 -    {
   1.346 -      for(ByteBuffer buf : outputBuffers)
   1.347 -      {
   1.348 -        recycleBuffer(buf);
   1.349 -      }
   1.350 -      outputBuffers = null;
   1.351 -    }
   1.352 -  }
   1.353 -  
   1.354 +		synchronized (inputBuffer) {
   1.355 +			ByteBuffer buffer = inputBuffer;
   1.356 +
   1.357 +			// Mark the current write position
   1.358 +			int mark = buffer.position();
   1.359 +
   1.360 +			// Set position to 0 and limit to current position
   1.361 +			buffer.flip();
   1.362 +
   1.363 +			ByteBuffer lineBuffer = newLineBuffer();
   1.364 +
   1.365 +			while (buffer.position() < buffer.limit()) {
   1.366 +				byte b = buffer.get();
   1.367 +				if (b == 10) // '\n'
   1.368 +				{
   1.369 +					// The bytes between the buffer's current position and its limit,
   1.370 +					// if any, are copied to the beginning of the buffer. That is, the
   1.371 +					// byte at index p = position() is copied to index zero, the byte at
   1.372 +					// index p + 1 is copied to index one, and so forth until the byte
   1.373 +					// at index limit() - 1 is copied to index n = limit() - 1 - p.
   1.374 +					// The buffer's position is then set to n+1 and its limit is set to
   1.375 +					// its capacity.
   1.376 +					buffer.compact();
   1.377 +
   1.378 +					lineBuffer.flip(); // limit to position, position to 0
   1.379 +					return lineBuffer;
   1.380 +				} else {
   1.381 +					lineBuffer.put(b);
   1.382 +				}
   1.383 +			}
   1.384 +
   1.385 +			buffer.limit(BUFFER_SIZE);
   1.386 +			buffer.position(mark);
   1.387 +
   1.388 +			if (buffer.hasRemaining()) {
   1.389 +				return null;
   1.390 +			} else {
   1.391 +				// In the first 512 was no newline found, so the input is not standard
   1.392 +				// compliant. We return the current buffer as new line and add a space
   1.393 +				// to the beginning of the next line which corrects some overlong header
   1.394 +				// lines.
   1.395 +				inputBuffer = newLineBuffer();
   1.396 +				inputBuffer.put((byte) ' ');
   1.397 +				buffer.flip();
   1.398 +				return buffer;
   1.399 +			}
   1.400 +		}
   1.401 +	}
   1.402 +
   1.403 +	/**
   1.404 +	 * Returns a at least 512 bytes long ByteBuffer ready for usage.
   1.405 +	 * The method first try to reuse an already allocated (cached) buffer but
   1.406 +	 * if that fails returns a newly allocated direct buffer.
   1.407 +	 * Use recycleBuffer() method when you do not longer use the allocated buffer.
   1.408 +	 */
   1.409 +	static ByteBuffer newLineBuffer()
   1.410 +	{
   1.411 +		ByteBuffer buf = null;
   1.412 +		synchronized (freeSmallBuffers) {
   1.413 +			if (!freeSmallBuffers.isEmpty()) {
   1.414 +				buf = freeSmallBuffers.remove(0);
   1.415 +			}
   1.416 +		}
   1.417 +
   1.418 +		if (buf == null) {
   1.419 +			// Allocate a non-direct buffer
   1.420 +			buf = ByteBuffer.allocate(BUFFER_SIZE);
   1.421 +		}
   1.422 +
   1.423 +		assert buf.position() == 0;
   1.424 +		assert buf.limit() >= BUFFER_SIZE;
   1.425 +
   1.426 +		return buf;
   1.427 +	}
   1.428 +
   1.429 +	/**
   1.430 +	 * Adds the given buffer to the list of free buffers if it is a valuable
   1.431 +	 * direct allocated buffer.
   1.432 +	 * @param buffer
   1.433 +	 */
   1.434 +	public static void recycleBuffer(ByteBuffer buffer)
   1.435 +	{
   1.436 +		assert buffer != null;
   1.437 +
   1.438 +		if (buffer.isDirect()) {
   1.439 +			assert buffer.capacity() >= BUFFER_SIZE;
   1.440 +
   1.441 +			// Add old buffers to the list of free buffers
   1.442 +			synchronized (freeSmallBuffers) {
   1.443 +				buffer.clear(); // Set position to 0 and limit to capacity
   1.444 +				freeSmallBuffers.add(buffer);
   1.445 +			}
   1.446 +		} // if(buffer.isDirect())
   1.447 +	}
   1.448 +
   1.449 +	/**
   1.450 +	 * Recycles all buffers of this ChannelLineBuffers object.
   1.451 +	 */
   1.452 +	public void recycleBuffers()
   1.453 +	{
   1.454 +		synchronized (inputBuffer) {
   1.455 +			recycleBuffer(inputBuffer);
   1.456 +			this.inputBuffer = null;
   1.457 +		}
   1.458 +
   1.459 +		synchronized (outputBuffers) {
   1.460 +			for (ByteBuffer buf : outputBuffers) {
   1.461 +				recycleBuffer(buf);
   1.462 +			}
   1.463 +			outputBuffers = null;
   1.464 +		}
   1.465 +	}
   1.466  }