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This module contains the Metro runtime code.
/*
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS HEADER.
*
* Copyright (c) 1997-2010 Oracle and/or its affiliates. All rights reserved.
*
* The contents of this file are subject to the terms of either the GNU
* General Public License Version 2 only ("GPL") or the Common Development
* and Distribution License("CDDL") (collectively, the "License"). You
* may not use this file except in compliance with the License. You can
* obtain a copy of the License at
* https://glassfish.dev.java.net/public/CDDL+GPL_1_1.html
* or packager/legal/LICENSE.txt. See the License for the specific
* language governing permissions and limitations under the License.
*
* When distributing the software, include this License Header Notice in each
* file and include the License file at packager/legal/LICENSE.txt.
*
* GPL Classpath Exception:
* Oracle designates this particular file as subject to the "Classpath"
* exception as provided by Oracle in the GPL Version 2 section of the License
* file that accompanied this code.
*
* Modifications:
* If applicable, add the following below the License Header, with the fields
* enclosed by brackets [] replaced by your own identifying information:
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* recipient has the option to distribute your version of this file under
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*/
package com.sun.xml.ws.handler;
import com.sun.istack.Nullable;
import com.sun.xml.ws.api.WSBinding;
import com.sun.xml.ws.api.message.Packet;
import com.sun.xml.ws.api.model.wsdl.WSDLPort;
import com.sun.xml.ws.api.pipe.*;
import com.sun.xml.ws.api.pipe.helper.AbstractFilterTubeImpl;
import com.sun.xml.ws.binding.BindingImpl;
import com.sun.xml.ws.client.HandlerConfiguration;
import javax.xml.ws.handler.MessageContext;
import javax.xml.ws.handler.Handler;
import java.util.List;
/**
* @author WS Development team
*/
public abstract class HandlerTube extends AbstractFilterTubeImpl {
/**
* handle hold reference to other Tube for inter-tube communication
*/
HandlerTube cousinTube;
protected List handlers;
HandlerProcessor processor;
boolean remedyActionTaken = false;
protected final @Nullable WSDLPort port;
// flag used to decide whether to call close on cousinTube
boolean requestProcessingSucessful = false;
private WSBinding binding;
private HandlerConfiguration hc;
public HandlerTube(Tube next, WSDLPort port, WSBinding binding) {
super(next);
this.port = port;
this.binding = binding;
}
public HandlerTube(Tube next, HandlerTube cousinTube, WSBinding binding) {
super(next);
this.cousinTube = cousinTube;
this.binding = binding;
if(cousinTube != null) {
this.port = cousinTube.port;
} else {
this.port = null;
}
}
/**
* Copy constructor for {@link Tube#copy(TubeCloner)}.
*/
protected HandlerTube(HandlerTube that, TubeCloner cloner) {
super(that,cloner);
if(that.cousinTube != null) {
this.cousinTube = cloner.copy(that.cousinTube);
}
this.port = that.port;
this.binding = that.binding;
}
protected WSBinding getBinding() {
return binding;
}
@Override
public NextAction processRequest(Packet request) {
setupExchange();
// This check is done to cover handler returning false in Oneway request
if (isHandleFalse()) {
// Cousin HandlerTube returned false during Oneway Request processing.
// Don't call handlers and dispatch the message.
remedyActionTaken = true;
return doInvoke(super.next, request);
}
// This is done here instead of the constructor, since User can change
// the roles and handlerchain after a stub/proxy is created.
setUpProcessorInternal();
MessageUpdatableContext context = getContext(request);
boolean isOneWay = checkOneWay(request);
try {
if (!isHandlerChainEmpty()) {
// Call handlers on Request
boolean handlerResult = callHandlersOnRequest(context, isOneWay);
//Update Packet with user modifications
context.updatePacket();
// two-way case where no message is sent
if (!isOneWay && !handlerResult) {
return doReturnWith(request);
}
}
requestProcessingSucessful = true;
// Call next Tube
return doInvoke(super.next, request);
} catch (RuntimeException re) {
if(isOneWay) {
//Eat the exception, its already logged and close the transportBackChannel
if(request.transportBackChannel != null ) {
request.transportBackChannel.close();
}
request.setMessage(null);
return doReturnWith(request);
} else
throw re;
} finally {
if(!requestProcessingSucessful) {
initiateClosing(context.getMessageContext());
}
}
}
@Override
public NextAction processResponse(Packet response) {
setupExchange();
MessageUpdatableContext context = getContext(response);
try {
if (isHandleFalse() || (response.getMessage() == null)) {
// Cousin HandlerTube returned false during Response processing.
// or it is oneway request
// or handler chain is empty
// Don't call handlers.
return doReturnWith(response);
}
setUpProcessorInternal();
boolean isFault = isHandleFault(response);
if (!isHandlerChainEmpty()) {
// Call handlers on Response
callHandlersOnResponse(context, isFault);
}
} finally {
initiateClosing(context.getMessageContext());
}
//Update Packet with user modifications
context.updatePacket();
return doReturnWith(response);
}
@Override
public NextAction processException(Throwable t) {
try {
return doThrow(t);
} finally {
Packet packet = Fiber.current().getPacket();
MessageUpdatableContext context = getContext(packet);
initiateClosing(context.getMessageContext());
/* TODO revisit: commented this out as the modified packet is no longer used
In future if the message is propagated even when an exception
occurs, then uncomment context.updatePacket();
*/
//Update Packet with user modifications
//context.updatePacket();
}
}
/**
* Must be overridden by HandlerTube that drives other handler tubes for processing a message.
* On Client-side: ClientLogicalHandlerTube drives the Handler Processing.
* On Server-side: In case SOAP Binding, ServerMessageHandlerTube drives the Handler Processing.
* In case XML/HTTP Binding, ServerLogicalHandlerTube drives the Handler Processing.
*
*
* If its a top HandlerTube, should override by calling #close(MessaggeContext);
*
*/
protected void initiateClosing(MessageContext mc) {
// Do nothing
}
/**
* Calls close on previously invoked handlers.
* Also, Cleans up any state left over in the Tube instance from the current
* invocation, as Tube instances can be reused after the completion of MEP.
*
* On Client, SOAPHandlers are closed first and then LogicalHandlers
* On Server, LogicalHandlers are closed first and then SOAPHandlers
*/
final public void close(MessageContext msgContext) {
//assuming cousinTube is called if requestProcessingSucessful is true
if (requestProcessingSucessful) {
if (cousinTube != null) {
cousinTube.close(msgContext);
}
}
if (processor != null)
closeHandlers(msgContext);
// Clean up the exchange for next invocation.
exchange = null;
requestProcessingSucessful = false;
}
/**
* On Client, Override by calling #closeClientHandlers(MessageContext mc)
* On Server, Override by calling #closeServerHandlers(MessageContext mc)
* The difference is the order in which they are closed.
* @param mc
*/
abstract void closeHandlers(MessageContext mc);
/**
* Called by close(MessageContext mc) in a Client Handlertube
*/
protected void closeClientsideHandlers(MessageContext msgContext) {
if (processor == null)
return;
if (remedyActionTaken) {
//Close only invoked handlers in the chain
//CLIENT-SIDE
processor.closeHandlers(msgContext, processor.getIndex(), 0);
processor.setIndex(-1);
//reset remedyActionTaken
remedyActionTaken = false;
} else {
//Close all handlers in the chain
//CLIENT-SIDE
processor.closeHandlers(msgContext, handlers.size() - 1, 0);
}
}
/**
* Called by close(MessageContext mc) in a Server Handlertube
*/
protected void closeServersideHandlers(MessageContext msgContext) {
if (processor == null)
return;
if (remedyActionTaken) {
//Close only invoked handlers in the chain
//SERVER-SIDE
processor.closeHandlers(msgContext, processor.getIndex(), handlers.size() - 1);
processor.setIndex(-1);
//reset remedyActionTaken
remedyActionTaken = false;
} else {
//Close all handlers in the chain
//SERVER-SIDE
processor.closeHandlers(msgContext, 0, handlers.size() - 1);
}
}
abstract void callHandlersOnResponse(MessageUpdatableContext context, boolean handleFault);
abstract boolean callHandlersOnRequest(MessageUpdatableContext context, boolean oneWay);
private boolean checkOneWay(Packet packet) {
if (port != null) {
/* we can determine this value from WSDL */
return packet.getMessage().isOneWay(port);
} else {
/*
otherwise use this value as an approximation, since this carries
the appliation's intention --- whether it was invokeOneway vs invoke,etc.
*/
return !(packet.expectReply != null && packet.expectReply);
}
}
private void setUpProcessorInternal() {
HandlerConfiguration hc = ((BindingImpl) binding).getHandlerConfig();
if (hc != this.hc)
resetProcessor();
this.hc = hc;
setUpProcessor();
}
abstract void setUpProcessor();
protected void resetProcessor() {
handlers = null;
}
final public boolean isHandlerChainEmpty() {
return handlers.isEmpty();
}
abstract MessageUpdatableContext getContext(Packet p);
private boolean isHandleFault(Packet packet) {
if (cousinTube != null) {
return exchange.isHandleFault();
} else {
boolean isFault = packet.getMessage().isFault();
exchange.setHandleFault(isFault);
return isFault;
}
}
final void setHandleFault() {
exchange.setHandleFault(true);
}
private boolean isHandleFalse() {
return exchange.isHandleFalse();
}
final void setHandleFalse() {
exchange.setHandleFalse();
}
private void setupExchange() {
if(exchange == null) {
exchange = new HandlerTubeExchange();
if(cousinTube != null) {
cousinTube.exchange = exchange;
}
} else {
if(cousinTube != null) {
cousinTube.exchange = exchange;
}
}
}
private HandlerTubeExchange exchange;
/**
* This class is used primarily to exchange information or status between
* LogicalHandlerTube and SOAPHandlerTube
*/
static final class HandlerTubeExchange {
private boolean handleFalse;
private boolean handleFault;
boolean isHandleFault() {
return handleFault;
}
void setHandleFault(boolean isFault) {
this.handleFault = isFault;
}
public boolean isHandleFalse() {
return handleFalse;
}
void setHandleFalse() {
this.handleFalse = true;
}
}
}