connectors/jk/java/org/apache/jk/common/ChannelJni.java - tomcat55 - Git at Google

 /*
  *  Copyright 1999-2004 The Apache Software Foundation
  *
  *  Licensed under the Apache License, Version 2.0 (the "License");
  *  you may not use this file except in compliance with the License.
  *  You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  *  Unless required by applicable law or agreed to in writing, software
  *  distributed under the License is distributed on an "AS IS" BASIS,
  *  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  *  See the License for the specific language governing permissions and
  *  limitations under the License.
  */

 package org.apache.jk.common;

 import java.io.IOException;

 import org.apache.jk.core.JkHandler;
 import org.apache.jk.core.Msg;
 import org.apache.jk.core.MsgContext;
 import org.apache.jk.core.JkChannel;

 import org.apache.coyote.Request;
 /** Pass messages using jni
  *
  * @author Costin Manolache
  */
 public class ChannelJni extends JniHandler implements JkChannel {
     int receivedNote=1;

     public ChannelJni() {
         // we use static for now, it's easier on the C side.
         // Easy to change after we get everything working
     }

     public void init() throws IOException {
         super.initNative("channel.jni:jni");

         if( apr==null ) return;

         // We'll be called from C. This deals with that.
         apr.addJkHandler( "channelJni", this );
         log.info("JK2: listening on channel.jni:jni" );

         if( next==null ) {
             if( nextName!=null )
                 setNext( wEnv.getHandler( nextName ) );
             if( next==null )
                 next=wEnv.getHandler( "dispatch" );
             if( next==null )
                 next=wEnv.getHandler( "request" );
             if( log.isDebugEnabled() )
                 log.debug("Setting default next " + next.getClass().getName());
         }
     }

     /** Receives does nothing - send will put the response
      *  in the same buffer
      */
     public int receive( Msg msg, MsgContext ep )
         throws IOException
     {
         Msg sentResponse=(Msg)ep.getNote( receivedNote );
         ep.setNote( receivedNote, null );

         if( sentResponse == null ) {
             if( log.isDebugEnabled() )
                 log.debug("No send() prior to receive(), no data buffer");
             // No sent() was done prior to receive.
             msg.reset();
             return 0;
         }

         sentResponse.processHeader();

         if( log.isTraceEnabled() )
             sentResponse.dump("received response ");

         if( msg != sentResponse ) {
             log.error( "Error, in JNI mode the msg used for receive() must be identical with the one used for send()");
         }

         return 0;
     }

     /** Send the packet. XXX This will modify msg !!!
      *  We could use 2 packets, or sendAndReceive().
      *
      */
     public int send( Msg msg, MsgContext ep )
         throws IOException
     {
         ep.setNote( receivedNote, null );
         if( log.isDebugEnabled() ) log.debug("ChannelJni.send: "  +  msg );

         int rc=super.nativeDispatch( msg, ep, JK_HANDLE_JNI_DISPATCH, 0);

         // nativeDispatch will put the response in the same buffer.
         // Next receive() will just get it from there. Very tricky to do
         // things in one thread instead of 2.
         ep.setNote( receivedNote, msg );

         return rc;
     }

     public int flush(Msg msg, MsgContext ep) throws IOException {
         ep.setNote( receivedNote, null );
         return OK;
     }

     public boolean isSameAddress(MsgContext ep) {
         return true;
     }

     public void registerRequest(Request req, MsgContext ep, int count) {
         // Not supported.
     }

     public String getChannelName() {
         return getName();
     }
     /** Receive a packet from the C side. This is called from the C
      *  code using invocation, but only for the first packet - to avoid
      *  recursivity and thread problems.
      *
      *  This may look strange, but seems the best solution for the
      *  problem ( the problem is that we don't have 'continuation' ).
      *
      *  sendPacket will move the thread execution on the C side, and
      *  return when another packet is available. For packets that
      *  are one way it'll return after it is processed too ( having
      *  2 threads is far more expensive ).
      *
      *  Again, the goal is to be efficient and behave like all other
      *  Channels ( so the rest of the code can be shared ). Playing with
      *  java objects on C is extremely difficult to optimize and do
      *  right ( IMHO ), so we'll try to keep it simple - byte[] passing,
      *  the conversion done in java ( after we know the encoding and
      *  if anyone asks for it - same lazy behavior as in 3.3 ).
      */
     public  int invoke(Msg msg, MsgContext ep )  throws IOException {
         if( apr==null ) return -1;

         long xEnv=ep.getJniEnv();
         long cEndpointP=ep.getJniContext();

         int type=ep.getType();
         if( log.isDebugEnabled() ) log.debug("ChannelJni.invoke: "  + ep + " " + type);

         switch( type ) {
         case JkHandler.HANDLE_RECEIVE_PACKET:
             return receive( msg, ep );
         case JkHandler.HANDLE_SEND_PACKET:
             return send( msg, ep );
         case JkHandler.HANDLE_FLUSH:
             return flush(msg, ep);
         }

         // Reset receivedNote. It'll be visible only after a SEND and before a receive.
         ep.setNote( receivedNote, null );

         // Default is FORWARD - called from C
         try {
             // first, we need to get an endpoint. It should be
             // per/thread - and probably stored by the C side.
             if( log.isDebugEnabled() ) log.debug("Received request " + xEnv);

             // The endpoint will store the message pt.
             msg.processHeader();

             if( log.isTraceEnabled() ) msg.dump("Incoming msg ");

             int status= next.invoke(  msg, ep );

             if( log.isDebugEnabled() ) log.debug("after processCallbacks " + status);

             return status;
         } catch( Exception ex ) {
             ex.printStackTrace();
         }
         return 0;
     }

     private static org.apache.commons.logging.Log log=
         org.apache.commons.logging.LogFactory.getLog( ChannelJni.class );

 }
	/*
	* Copyright 1999-2004 The Apache Software Foundation
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	package org.apache.jk.common;

	import java.io.IOException;

	import org.apache.jk.core.JkHandler;
	import org.apache.jk.core.Msg;
	import org.apache.jk.core.MsgContext;
	import org.apache.jk.core.JkChannel;

	import org.apache.coyote.Request;
	/** Pass messages using jni
	*
	* @author Costin Manolache
	*/
	public class ChannelJni extends JniHandler implements JkChannel {
	int receivedNote=1;

	public ChannelJni() {
	// we use static for now, it's easier on the C side.
	// Easy to change after we get everything working
	}

	public void init() throws IOException {
	super.initNative("channel.jni:jni");

	if( apr==null ) return;

	// We'll be called from C. This deals with that.
	apr.addJkHandler( "channelJni", this );
	log.info("JK2: listening on channel.jni:jni" );

	if( next==null ) {
	if( nextName!=null )
	setNext( wEnv.getHandler( nextName ) );
	if( next==null )
	next=wEnv.getHandler( "dispatch" );
	if( next==null )
	next=wEnv.getHandler( "request" );
	if( log.isDebugEnabled() )
	log.debug("Setting default next " + next.getClass().getName());
	}
	}

	/** Receives does nothing - send will put the response
	* in the same buffer
	*/
	public int receive( Msg msg, MsgContext ep )
	throws IOException
	{
	Msg sentResponse=(Msg)ep.getNote( receivedNote );
	ep.setNote( receivedNote, null );

	if( sentResponse == null ) {
	if( log.isDebugEnabled() )
	log.debug("No send() prior to receive(), no data buffer");
	// No sent() was done prior to receive.
	msg.reset();
	return 0;
	}

	sentResponse.processHeader();

	if( log.isTraceEnabled() )
	sentResponse.dump("received response ");

	if( msg != sentResponse ) {
	log.error( "Error, in JNI mode the msg used for receive() must be identical with the one used for send()");
	}

	return 0;
	}

	/** Send the packet. XXX This will modify msg !!!
	* We could use 2 packets, or sendAndReceive().
	*
	*/
	public int send( Msg msg, MsgContext ep )
	throws IOException
	{
	ep.setNote( receivedNote, null );
	if( log.isDebugEnabled() ) log.debug("ChannelJni.send: " + msg );

	int rc=super.nativeDispatch( msg, ep, JK_HANDLE_JNI_DISPATCH, 0);

	// nativeDispatch will put the response in the same buffer.
	// Next receive() will just get it from there. Very tricky to do
	// things in one thread instead of 2.
	ep.setNote( receivedNote, msg );

	return rc;
	}

	public int flush(Msg msg, MsgContext ep) throws IOException {
	ep.setNote( receivedNote, null );
	return OK;
	}

	public boolean isSameAddress(MsgContext ep) {
	return true;
	}

	public void registerRequest(Request req, MsgContext ep, int count) {
	// Not supported.
	}

	public String getChannelName() {
	return getName();
	}
	/** Receive a packet from the C side. This is called from the C
	* code using invocation, but only for the first packet - to avoid
	* recursivity and thread problems.
	*
	* This may look strange, but seems the best solution for the
	* problem ( the problem is that we don't have 'continuation' ).
	*
	* sendPacket will move the thread execution on the C side, and
	* return when another packet is available. For packets that
	* are one way it'll return after it is processed too ( having
	* 2 threads is far more expensive ).
	*
	* Again, the goal is to be efficient and behave like all other
	* Channels ( so the rest of the code can be shared ). Playing with
	* java objects on C is extremely difficult to optimize and do
	* right ( IMHO ), so we'll try to keep it simple - byte[] passing,
	* the conversion done in java ( after we know the encoding and
	* if anyone asks for it - same lazy behavior as in 3.3 ).
	*/
	public int invoke(Msg msg, MsgContext ep ) throws IOException {
	if( apr==null ) return -1;

	long xEnv=ep.getJniEnv();
	long cEndpointP=ep.getJniContext();

	int type=ep.getType();
	if( log.isDebugEnabled() ) log.debug("ChannelJni.invoke: " + ep + " " + type);

	switch( type ) {
	case JkHandler.HANDLE_RECEIVE_PACKET:
	return receive( msg, ep );
	case JkHandler.HANDLE_SEND_PACKET:
	return send( msg, ep );
	case JkHandler.HANDLE_FLUSH:
	return flush(msg, ep);
	}

	// Reset receivedNote. It'll be visible only after a SEND and before a receive.
	ep.setNote( receivedNote, null );

	// Default is FORWARD - called from C
	try {
	// first, we need to get an endpoint. It should be
	// per/thread - and probably stored by the C side.
	if( log.isDebugEnabled() ) log.debug("Received request " + xEnv);

	// The endpoint will store the message pt.
	msg.processHeader();

	if( log.isTraceEnabled() ) msg.dump("Incoming msg ");

	int status= next.invoke( msg, ep );

	if( log.isDebugEnabled() ) log.debug("after processCallbacks " + status);

	return status;
	} catch( Exception ex ) {
	ex.printStackTrace();
	}
	return 0;
	}

	private static org.apache.commons.logging.Log log=
	org.apache.commons.logging.LogFactory.getLog( ChannelJni.class );

	}