plugins/cvs/trilead-ssh2-build213/src/com/trilead/ssh2/StreamGobbler.java - platform/tools/idea - Git at Google


 package com.trilead.ssh2;

 import java.io.IOException;
 import java.io.InputStream;

 /**
  * A <code>StreamGobbler</code> is an InputStream that uses an internal worker
  * thread to constantly consume input from another InputStream. It uses a buffer
  * to store the consumed data. The buffer size is automatically adjusted, if needed.
  * <p>
  * This class is sometimes very convenient - if you wrap a session's STDOUT and STDERR
  * InputStreams with instances of this class, then you don't have to bother about
  * the shared window of STDOUT and STDERR in the low level SSH-2 protocol,
  * since all arriving data will be immediatelly consumed by the worker threads.
  * Also, as a side effect, the streams will be buffered (e.g., single byte
  * read() operations are faster).
  * <p>
  * Other SSH for Java libraries include this functionality by default in
  * their STDOUT and STDERR InputStream implementations, however, please be aware
  * that this approach has also a downside:
  * <p>
  * If you do not call the StreamGobbler's <code>read()</code> method often enough
  * and the peer is constantly sending huge amounts of data, then you will sooner or later
  * encounter a low memory situation due to the aggregated data (well, it also depends on the Java heap size).
  * Joe Average will like this class anyway - a paranoid programmer would never use such an approach.
  * <p>
  * The term "StreamGobbler" was taken from an article called "When Runtime.exec() won't",
  * see http://www.javaworld.com/javaworld/jw-12-2000/jw-1229-traps.html.
  *
  * @author Christian Plattner, plattner@trilead.com
  * @version $Id: StreamGobbler.java,v 1.1 2007/10/15 12:49:56 cplattne Exp $
  */

 public class StreamGobbler extends InputStream
 {
 	class GobblerThread extends Thread
 	{
 		public void run()
 		{
 			byte[] buff = new byte[8192];

 			while (true)
 			{
 				try
 				{
 					int avail = is.read(buff);

 					synchronized (synchronizer)
 					{
 						if (avail <= 0)
 						{
 							isEOF = true;
 							synchronizer.notifyAll();
 							break;
 						}

 						int space_available = buffer.length - write_pos;

 						if (space_available < avail)
 						{
 							/* compact/resize buffer */

 							int unread_size = write_pos - read_pos;
 							int need_space = unread_size + avail;

 							byte[] new_buffer = buffer;

 							if (need_space > buffer.length)
 							{
 								int inc = need_space / 3;
 								inc = (inc < 256) ? 256 : inc;
 								inc = (inc > 8192) ? 8192 : inc;
 								new_buffer = new byte[need_space + inc];
 							}

 							if (unread_size > 0)
 								System.arraycopy(buffer, read_pos, new_buffer, 0, unread_size);

 							buffer = new_buffer;

 							read_pos = 0;
 							write_pos = unread_size;
 						}

 						System.arraycopy(buff, 0, buffer, write_pos, avail);
 						write_pos += avail;

 						synchronizer.notifyAll();
 					}
 				}
 				catch (IOException e)
 				{
 					synchronized (synchronizer)
 					{
 						exception = e;
 						synchronizer.notifyAll();
 						break;
 					}
 				}
 			}
 		}
 	}

 	private InputStream is;
 	private GobblerThread t;

 	private Object synchronizer = new Object();

 	private boolean isEOF = false;
 	private boolean isClosed = false;
 	private IOException exception = null;

 	private byte[] buffer = new byte[2048];
 	private int read_pos = 0;
 	private int write_pos = 0;

 	public StreamGobbler(InputStream is)
 	{
 		this.is = is;
 		t = new GobblerThread();
 		t.setDaemon(true);
 		t.start();
 	}

 	public int read() throws IOException
 	{
 		synchronized (synchronizer)
 		{
 			if (isClosed)
 				throw new IOException("This StreamGobbler is closed.");

 			while (read_pos == write_pos)
 			{
 				if (exception != null)
 					throw exception;

 				if (isEOF)
 					return -1;

 				try
 				{
 					synchronizer.wait();
 				}
 				catch (InterruptedException e)
 				{
 				}
 			}

 			int b = buffer[read_pos++] & 0xff;

 			return b;
 		}
 	}

 	public int available() throws IOException
 	{
 		synchronized (synchronizer)
 		{
 			if (isClosed)
 				throw new IOException("This StreamGobbler is closed.");

 			return write_pos - read_pos;
 		}
 	}

 	public int read(byte[] b) throws IOException
 	{
 		return read(b, 0, b.length);
 	}

 	public void close() throws IOException
 	{
 		synchronized (synchronizer)
 		{
 			if (isClosed)
 				return;
 			isClosed = true;
 			isEOF = true;
 			synchronizer.notifyAll();
 			is.close();
 		}
 	}

 	public int read(byte[] b, int off, int len) throws IOException
 	{
 		if (b == null)
 			throw new NullPointerException();

 		if ((off < 0) || (len < 0) || ((off + len) > b.length) || ((off + len) < 0) || (off > b.length))
 			throw new IndexOutOfBoundsException();

 		if (len == 0)
 			return 0;

 		synchronized (synchronizer)
 		{
 			if (isClosed)
 				throw new IOException("This StreamGobbler is closed.");

 			while (read_pos == write_pos)
 			{
 				if (exception != null)
 					throw exception;

 				if (isEOF)
 					return -1;

 				try
 				{
 					synchronizer.wait();
 				}
 				catch (InterruptedException e)
 				{
 				}
 			}

 			int avail = write_pos - read_pos;

 			avail = (avail > len) ? len : avail;

 			System.arraycopy(buffer, read_pos, b, off, avail);

 			read_pos += avail;

 			return avail;
 		}
 	}
 }

	package com.trilead.ssh2;

	import java.io.IOException;
	import java.io.InputStream;

	/**
	* A <code>StreamGobbler</code> is an InputStream that uses an internal worker
	* thread to constantly consume input from another InputStream. It uses a buffer
	* to store the consumed data. The buffer size is automatically adjusted, if needed.
	* <p>
	* This class is sometimes very convenient - if you wrap a session's STDOUT and STDERR
	* InputStreams with instances of this class, then you don't have to bother about
	* the shared window of STDOUT and STDERR in the low level SSH-2 protocol,
	* since all arriving data will be immediatelly consumed by the worker threads.
	* Also, as a side effect, the streams will be buffered (e.g., single byte
	* read() operations are faster).
	* <p>
	* Other SSH for Java libraries include this functionality by default in
	* their STDOUT and STDERR InputStream implementations, however, please be aware
	* that this approach has also a downside:
	* <p>
	* If you do not call the StreamGobbler's <code>read()</code> method often enough
	* and the peer is constantly sending huge amounts of data, then you will sooner or later
	* encounter a low memory situation due to the aggregated data (well, it also depends on the Java heap size).
	* Joe Average will like this class anyway - a paranoid programmer would never use such an approach.
	* <p>
	* The term "StreamGobbler" was taken from an article called "When Runtime.exec() won't",
	* see http://www.javaworld.com/javaworld/jw-12-2000/jw-1229-traps.html.
	*
	* @author Christian Plattner, plattner@trilead.com
	* @version $Id: StreamGobbler.java,v 1.1 2007/10/15 12:49:56 cplattne Exp $
	*/

	public class StreamGobbler extends InputStream
	{
	class GobblerThread extends Thread
	{
	public void run()
	{
	byte[] buff = new byte[8192];

	while (true)
	{
	try
	{
	int avail = is.read(buff);

	synchronized (synchronizer)
	{
	if (avail <= 0)
	{
	isEOF = true;
	synchronizer.notifyAll();
	break;
	}

	int space_available = buffer.length - write_pos;

	if (space_available < avail)
	{
	/* compact/resize buffer */

	int unread_size = write_pos - read_pos;
	int need_space = unread_size + avail;

	byte[] new_buffer = buffer;

	if (need_space > buffer.length)
	{
	int inc = need_space / 3;
	inc = (inc < 256) ? 256 : inc;
	inc = (inc > 8192) ? 8192 : inc;
	new_buffer = new byte[need_space + inc];
	}

	if (unread_size > 0)
	System.arraycopy(buffer, read_pos, new_buffer, 0, unread_size);

	buffer = new_buffer;

	read_pos = 0;
	write_pos = unread_size;
	}

	System.arraycopy(buff, 0, buffer, write_pos, avail);
	write_pos += avail;

	synchronizer.notifyAll();
	}
	}
	catch (IOException e)
	{
	synchronized (synchronizer)
	{
	exception = e;
	synchronizer.notifyAll();
	break;
	}
	}
	}
	}
	}

	private InputStream is;
	private GobblerThread t;

	private Object synchronizer = new Object();

	private boolean isEOF = false;
	private boolean isClosed = false;
	private IOException exception = null;

	private byte[] buffer = new byte[2048];
	private int read_pos = 0;
	private int write_pos = 0;

	public StreamGobbler(InputStream is)
	{
	this.is = is;
	t = new GobblerThread();
	t.setDaemon(true);
	t.start();
	}

	public int read() throws IOException
	{
	synchronized (synchronizer)
	{
	if (isClosed)
	throw new IOException("This StreamGobbler is closed.");

	while (read_pos == write_pos)
	{
	if (exception != null)
	throw exception;

	if (isEOF)
	return -1;

	try
	{
	synchronizer.wait();
	}
	catch (InterruptedException e)
	{
	}
	}

	int b = buffer[read_pos++] & 0xff;

	return b;
	}
	}

	public int available() throws IOException
	{
	synchronized (synchronizer)
	{
	if (isClosed)
	throw new IOException("This StreamGobbler is closed.");

	return write_pos - read_pos;
	}
	}

	public int read(byte[] b) throws IOException
	{
	return read(b, 0, b.length);
	}

	public void close() throws IOException
	{
	synchronized (synchronizer)
	{
	if (isClosed)
	return;
	isClosed = true;
	isEOF = true;
	synchronizer.notifyAll();
	is.close();
	}
	}

	public int read(byte[] b, int off, int len) throws IOException
	{
	if (b == null)
	throw new NullPointerException();

	if ((off < 0) \|\| (len < 0) \|\| ((off + len) > b.length) \|\| ((off + len) < 0) \|\| (off > b.length))
	throw new IndexOutOfBoundsException();

	if (len == 0)
	return 0;

	synchronized (synchronizer)
	{
	if (isClosed)
	throw new IOException("This StreamGobbler is closed.");

	while (read_pos == write_pos)
	{
	if (exception != null)
	throw exception;

	if (isEOF)
	return -1;

	try
	{
	synchronizer.wait();
	}
	catch (InterruptedException e)
	{
	}
	}

	int avail = write_pos - read_pos;

	avail = (avail > len) ? len : avail;

	System.arraycopy(buffer, read_pos, b, off, avail);

	read_pos += avail;

	return avail;
	}
	}
	}