/*
* Created on 13-Dec-2004
* Created by Paul Gardner
* Copyright (C) 2004, 2005, 2006 Aelitis, All Rights Reserved.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*
* AELITIS, SAS au capital de 46,603.30 euros
* 8 Allee Lenotre, La Grille Royale, 78600 Le Mesnil le Roi, France.
*
*/
package com.aelitis.azureus.core.proxy.socks.impl;
import java.io.IOException;
import java.net.InetAddress;
import java.net.InetSocketAddress;
import java.nio.channels.SocketChannel;
import org.gudy.azureus2.core3.util.Debug;
import org.gudy.azureus2.core3.util.DirectByteBuffer;
import org.gudy.azureus2.core3.util.DirectByteBufferPool;
import com.aelitis.azureus.core.networkmanager.admin.NetworkAdmin;
import com.aelitis.azureus.core.proxy.AEProxyConnection;
import com.aelitis.azureus.core.proxy.socks.*;
/**
* @author parg
*
*/
public class
AESocksProxyPlugableConnectionDefault
implements AESocksProxyPlugableConnection
{
protected AESocksProxyConnection socks_connection;
protected AEProxyConnection connection;
protected SocketChannel source_channel;
protected SocketChannel target_channel;
protected proxyStateRelayData relay_data_state;
public
AESocksProxyPlugableConnectionDefault(
AESocksProxyConnection _socks_connection )
{
socks_connection = _socks_connection;
connection = socks_connection.getConnection();
source_channel = connection.getSourceChannel();
}
public String
getName()
{
if ( target_channel != null ){
return( target_channel.socket().getInetAddress() + ":" + target_channel.socket().getPort());
}
return( "" );
}
public InetAddress
getLocalAddress()
{
return( target_channel.socket().getInetAddress());
}
public int
getLocalPort()
{
return( target_channel.socket().getPort());
}
public void
connect(
AESocksProxyAddress _address )
throws IOException
{
if ( _address.getAddress() == null ){
throw( new IOException( "DNS lookup of '" + _address.getUnresolvedAddress() + "' fails" ));
}
new proxyStateRelayConnect( new InetSocketAddress(_address.getAddress(), _address.getPort()));
}
public void
relayData()
throws IOException
{
new proxyStateRelayData();
}
public void
close()
{
if ( target_channel != null ){
try{
connection.cancelReadSelect( target_channel );
connection.cancelWriteSelect( target_channel );
target_channel.close();
}catch( Throwable e ){
Debug.printStackTrace(e);
}
}
if ( relay_data_state != null ){
relay_data_state.destroy();
}
}
protected class
proxyStateRelayConnect
extends AESocksProxyState
{
protected InetSocketAddress address;
protected
proxyStateRelayConnect(
InetSocketAddress _address )
throws IOException
{
super( socks_connection );
address = _address;
// OK, we're almost ready to roll. Unregister the read select until we're
// connected
connection.cancelReadSelect( source_channel );
connection.setConnectState( this );
target_channel = SocketChannel.open();
InetAddress bindIP = NetworkAdmin.getSingleton().getMultiHomedOutgoingRoundRobinBindAddress();
if ( bindIP != null ){
target_channel.socket().bind( new InetSocketAddress( bindIP, 0 ) );
}
target_channel.configureBlocking( false );
target_channel.connect( address );
connection.requestConnectSelect( target_channel );
}
protected boolean
connectSupport(
SocketChannel sc )
throws IOException
{
if( !sc.finishConnect()){
throw( new IOException( "finishConnect returned false" ));
}
// if we've got a proxy chain, now's the time to negotiate the connection
AESocksProxy proxy = socks_connection.getProxy();
if ( proxy.getNextSOCKSProxyHost() != null ){
}
socks_connection.connected();
return( true );
}
}
protected class
proxyStateRelayData
extends AESocksProxyState
{
protected DirectByteBuffer source_buffer;
protected DirectByteBuffer target_buffer;
protected long outward_bytes = 0;
protected long inward_bytes = 0;
protected
proxyStateRelayData()
throws IOException
{
super( socks_connection );
source_buffer = DirectByteBufferPool.getBuffer( DirectByteBuffer.AL_PROXY_RELAY, 1024 );
target_buffer = DirectByteBufferPool.getBuffer( DirectByteBuffer.AL_PROXY_RELAY, 1024 );
relay_data_state = this;
if ( connection.isClosed()){
destroy();
throw( new IOException( "connection closed" ));
}
connection.setReadState( this );
connection.setWriteState( this );
connection.requestReadSelect( source_channel );
connection.requestReadSelect( target_channel );
connection.setConnected();
}
protected void
destroy()
{
if ( source_buffer != null ){
source_buffer.returnToPool();
source_buffer = null;
}
if ( target_buffer != null ){
target_buffer.returnToPool();
target_buffer = null;
}
}
protected boolean
readSupport(
SocketChannel sc )
throws IOException
{
connection.setTimeStamp();
SocketChannel chan1 = sc;
SocketChannel chan2 = sc==source_channel?target_channel:source_channel;
DirectByteBuffer read_buffer = sc==source_channel?source_buffer:target_buffer;
int len = read_buffer.read( DirectByteBuffer.SS_PROXY, chan1 );
if ( len == -1 ){
//means that the channel has been shutdown
connection.close();
}else{
if ( read_buffer.position( DirectByteBuffer.SS_PROXY ) > 0 ){
read_buffer.flip(DirectByteBuffer.SS_PROXY);
int written = read_buffer.write( DirectByteBuffer.SS_PROXY, chan2 );
if ( chan1 == source_channel ){
outward_bytes += written;
}else{
inward_bytes += written;
}
if ( read_buffer.hasRemaining(DirectByteBuffer.SS_PROXY)){
connection.cancelReadSelect( chan1 );
connection.requestWriteSelect( chan2 );
}else{
read_buffer.position(DirectByteBuffer.SS_PROXY, 0);
read_buffer.limit( DirectByteBuffer.SS_PROXY, read_buffer.capacity(DirectByteBuffer.SS_PROXY));
}
}
}
return( len > 0 );
}
protected boolean
writeSupport(
SocketChannel sc )
throws IOException
{
// socket SX -> SY via BX
// so if SX = source_channel then BX is target buffer
SocketChannel chan1 = sc;
SocketChannel chan2 = sc==source_channel?target_channel:source_channel;
DirectByteBuffer read_buffer = sc==source_channel?target_buffer:source_buffer;
int written = read_buffer.write( DirectByteBuffer.SS_PROXY, chan1 );
if ( chan1 == target_channel ){
outward_bytes += written;
}else{
inward_bytes += written;
}
if ( read_buffer.hasRemaining(DirectByteBuffer.SS_PROXY)){
connection.requestWriteSelect( chan1 );
}else{
read_buffer.position(DirectByteBuffer.SS_PROXY,0);
read_buffer.limit( DirectByteBuffer.SS_PROXY, read_buffer.capacity(DirectByteBuffer.SS_PROXY));
connection.requestReadSelect( chan2 );
}
return( written > 0 );
}
public String
getStateName()
{
String state = this.getClass().getName();
int pos = state.indexOf( "$");
state = state.substring(pos+1);
return( state +" [out=" + outward_bytes +",in=" + inward_bytes +"] " + source_buffer + " / " + target_buffer );
}
}
}