Examples of org.apache.axis2.jaxws.core.MessageContext

• org.apache.axis2.jaxws.core.MessageContext
  The org.apache.axis2.jaxws.core.MessageContext is an interface that extends the JAX-WS 2.0 javax.xml.ws.handler.MessageContext defined in the spec. This encapsulates all of the functionality needed of the MessageContext for the other JAX-WS spec pieces (the handlers for example) and also provides the needed bits of contextual information for the rest of the JAX-WS implementation.

  Specifically, this is responsible for providing APIs so that the client and server implementation portions can get to the Message, defined by the Message Model format and also any metadata that is available.

            MarshalServiceRuntimeDescription marshalDesc =
                    MethodMarshallerUtils.getMarshalDesc(endpointDesc);
            TreeSet<String> packages = marshalDesc.getPackages();
            String packagesKey = marshalDesc.getPackagesKey();

            MessageContext mc = message.getMessageContext();
            if (MethodMarshallerUtils.getUnmarshalInfoParameter(mc) == null &&
                shouldRegiserUnmarshalInfo(operationDesc, marshalDesc, endpointDesc)) {
                MethodMarshallerUtils.registerUnmarshalInfo(message.getMessageContext(),
                                                        packages,
                                                        packagesKey);

                // the message context is now an outbound message context,
                // and should be marked as such so the SOAPHeadersAdapter will
                // "install" with the correct property key.

                // Get the MessageContext and switch its direction
                MessageContext jaxwsMC = mepCtx.getMessageContext();
                jaxwsMC.setOutbound(newDirection == Direction.OUT);
                SOAPHeadersAdapter.install(jaxwsMC);
                callGenericHandlers_avoidRecursion(newStart, newEnd, newDirection);

                // Now we need to place the Message (which is the one edited by the handler)
                // onto the Axis2 MC.  This is necessary because the Axis2 response MC
                // will be created from this MC and must have the correct message.
                this.placeMessageOnAxis2MessageContext(jaxwsMC);

                // Now close the handlers
                callCloseHandlers(newStart_inclusive, newEnd, newDirection);
                if (log.isDebugEnabled()) {
                    log.debug("Handler returned false...End running the handlers in reverse");
                }
            } else if (result == PROTOCOL_EXCEPTION) {
                try {
                    if (log.isDebugEnabled()) {
                        log.debug("Handler threw ProtocolException...Start running the handlers in reverse");
                    }
                    // the message context is now an outbound message context,
                    // and should be marked as such so the SOAPHeadersAdapter will
                    // "install" with the correct property key.

                    // Get the MessageContext and switch its direction
                    MessageContext jaxwsMC = mepCtx.getMessageContext();
                    jaxwsMC.setOutbound(newDirection == Direction.OUT);
                    SOAPHeadersAdapter.install(jaxwsMC);

                    // Call the handlerFault methods on the handlers and also close the handlers
                    callGenericHandleFault(newStart, newEnd, newDirection);

        this.serviceImplClass = serviceImplClass;
        this.deploymentInfo = deploymentInfo;
    }

    public void receive(org.apache.axis2.context.MessageContext axisMsgCtx) throws AxisFault {
        MessageContext requestMsgCtx = new MessageContext(axisMsgCtx);

        // init some bits
        requestMsgCtx.setOperationName(requestMsgCtx.getAxisMessageContext().getAxisOperation().getName());
        requestMsgCtx.setEndpointDescription(getEndpointDescription(requestMsgCtx));

        SoapMessageContext jaxwsContext =
            MessageContextFactory.createSoapMessageContext(requestMsgCtx);

        Method method = null;
        if (Provider.class.isAssignableFrom(this.serviceImplClass)) {
            method = getProviderMethod();
            ContextUtils.addWSDLProperties_provider(requestMsgCtx, jaxwsContext);
        } else {
            requestMsgCtx.setOperationDescription(getOperationDescription(requestMsgCtx));
            method = getServiceMethod(requestMsgCtx);
            ContextUtils.addWSDLProperties(requestMsgCtx, jaxwsContext);
        }

        if (LOG.isDebugEnabled()) {

        this.serviceImplClass = serviceImplClass;
        this.beanContext = beanContext;
    }

    public void receive(org.apache.axis2.context.MessageContext axisMsgCtx) throws AxisFault {
        MessageContext requestMsgCtx = new MessageContext(axisMsgCtx);

        // init some bits
        requestMsgCtx.setOperationName(requestMsgCtx.getAxisMessageContext().getAxisOperation().getName());
        requestMsgCtx.setEndpointDescription(getEndpointDescription(requestMsgCtx));

        SoapMessageContext jaxwsContext =
            MessageContextFactory.createSoapMessageContext(requestMsgCtx);

        Method method = null;
        if (Provider.class.isAssignableFrom(this.serviceImplClass)) {
            method = getProviderMethod();
            ContextUtils.addWSDLProperties_provider(requestMsgCtx, jaxwsContext);
        } else {
            requestMsgCtx.setOperationDescription(getOperationDescription(requestMsgCtx));
            method = getServiceMethod(requestMsgCtx);
            ContextUtils.addWSDLProperties(requestMsgCtx, jaxwsContext);
        }

        if (LOG.isDebugEnabled()) {

        EndpointInvocationContext ic = InvocationContextFactory.createEndpointInvocationContext(binding);
        ic.setRequestMessageContext(this.requestMsgCtx);

        controller.invoke(ic);

        MessageContext responseMsgCtx = ic.getResponseMessageContext();

        //If there is a fault it could be Robust In-Only
        if (!isMepInOnly(mep) || hasFault(responseMsgCtx)) {
            // If this is a two-way exchange, there should already be a
            // JAX-WS MessageContext for the response.  We need to pull
            // the Message data out of there and set it on the Axis2
            // MessageContext.
            org.apache.axis2.context.MessageContext axisResponseMsgCtx =
                    responseMsgCtx.getAxisMessageContext();

            MessageUtils.putMessageOnMessageContext(responseMsgCtx.getMessage(),
                                                    axisResponseMsgCtx);

            OperationContext opCtx = axisResponseMsgCtx.getOperationContext();
            opCtx.addMessageContext(axisResponseMsgCtx);

            // If this is a fault message, we want to throw it as an
            // exception so that the transport can do the appropriate things
            if (responseMsgCtx.getMessage().isFault()) {
                throw new AxisFault("An error was detected during JAXWS processing",
                                    axisResponseMsgCtx);
            } else {
                //Create the AxisEngine for the reponse and send it.
                AxisEngine.send(axisResponseMsgCtx);

        this.serviceImplClass = serviceImplClass;
        this.deploymentInfo = deploymentInfo;
    }

    public void receive(org.apache.axis2.context.MessageContext axisMsgCtx) throws AxisFault {
        MessageContext requestMsgCtx = new MessageContext(axisMsgCtx);

        // init some bits
        requestMsgCtx.setOperationName(requestMsgCtx.getAxisMessageContext().getAxisOperation().getName());
        requestMsgCtx.setEndpointDescription(getEndpointDescription(requestMsgCtx));

        Method method = null;
        if (Provider.class.isAssignableFrom(this.serviceImplClass)) {
            method = getProviderMethod();
        } else {
            requestMsgCtx.setOperationDescription(getOperationDescription(requestMsgCtx));
            method = getServiceMethod(requestMsgCtx);
        }

        if (LOG.isDebugEnabled()) {
            LOG.debug("Invoking '" + method.getName() + "' method.");

        OperationDescription operationDesc =
                endpointDesc.getEndpointInterfaceDescription().getOperation(method);

        // Create and configure the request MessageContext
        InvocationContext requestIC = InvocationContextFactory.createInvocationContext(null);
        MessageContext request = createRequest(method, args);
        request.getAxisMessageContext().setProperty(BINDING_PROVIDER, this);
        request.setEndpointDescription(getEndpointDescription());
        request.setOperationDescription(operationDesc);

        // Enable MTOM on the Message if the property was set on the SOAPBinding.
        Binding bnd = (Binding) getBinding();
        if (bnd != null && bnd instanceof SOAPBinding) {
            if (((SOAPBinding)bnd).isMTOMEnabled()) {
                Message requestMsg = request.getMessage();
                requestMsg.setMTOMEnabled(true);
                int threshold = ((org.apache.axis2.jaxws.binding.SOAPBinding)bnd).getMTOMThreshold();
                request.setProperty(org.apache.axis2.Constants.Configuration.MTOM_THRESHOLD,
                        new Integer(threshold));
            }
            if (((org.apache.axis2.jaxws.binding.SOAPBinding)bnd).isRespectBindingEnabled()) {
                //lets invoke Utility to configure RespectBinding.
                EndpointDescription endpointDescription = getEndpointDescription();
                endpointDescription.setRespectBinding(true);
                WSDLExtensionUtils.processExtensions(endpointDescription);
                //We have build up set of extensions from wsdl
                //let go ahead and validate these extensions now.
                EndpointDescriptionValidator endpointValidator = new EndpointDescriptionValidator(endpointDescription);

                boolean isEndpointValid = endpointValidator.validate(true);
                //throw Exception if extensions are not understood by Engine.
                if (!isEndpointValid) {
                    String msg = Messages.getMessage("endpointDescriptionValidationErrors",
                                                     endpointValidator.toString());
                    throw ExceptionFactory.makeWebServiceException(msg);
                }
            }
        }

        /*
         * TODO: review: make sure the handlers are set on the InvocationContext
         * This implementation of the JAXWS runtime does not use Endpoint, which
         * would normally be the place to initialize and store the handler list.
         * In lieu of that, we will have to intialize and store them on the
         * InvocationContext.  also see the InvocationContextFactory.  On the client
         * side, the binding is not yet set when we call into that factory, so the
         * handler list doesn't get set on the InvocationContext object there.  Thus
         * we gotta do it here.
         */

        // be sure to use whatever handlerresolver is registered on the Service
        requestIC.setHandlers(bnd.getHandlerChain());

        requestIC.setRequestMessageContext(request);
        requestIC.setServiceClient(serviceDelegate.getServiceClient(endpointDesc.getPortQName()));

        /*
         * if SESSION_MAINTAIN_PROPERTY is true, and the client app has explicitly set a HEADER_COOKIE on the request context, assume the client
         * app is expecting the HEADER_COOKIE to be the session id.  If we were establishing a new session, no cookie would be sent, and the
         * server would reply with a "Set-Cookie" header, which is copied as a "Cookie"-keyed property to the service context during response.
         * In this case, if we succeed in using an existing server session, no "Set-Cookie" header will be returned, and therefore no
         * "Cookie"-keyed property would be set on the service context.  So, let's copy our request context HEADER_COOKIE key to the service
         * context now to prevent the "no cookie" exception in BindingProvider.setupSessionContext.  It is possible the server does not support
         * sessions, in which case no error occurs, but the client app would assume it is participating in a session.
         */
        if ((requestContext.containsKey(BindingProvider.SESSION_MAINTAIN_PROPERTY)) && ((Boolean)requestContext.get(BindingProvider.SESSION_MAINTAIN_PROPERTY))) {
            if ((requestContext.containsKey(HTTPConstants.HEADER_COOKIE)) && (requestContext.get(HTTPConstants.HEADER_COOKIE) != null)) {
                if (requestIC.getServiceClient().getServiceContext().getProperty(HTTPConstants.HEADER_COOKIE) == null) {
                    requestIC.getServiceClient().getServiceContext().setProperty(HTTPConstants.HEADER_COOKIE, requestContext.get(HTTPConstants.HEADER_COOKIE));
                    if (log.isDebugEnabled()) {
                        log.debug("Client-app defined Cookie property (assume to be session cookie) on request context copied to service context." +
                                "  Caution:  server may or may not support sessions, but client app will not be informed when not supported.");
                    }
                }
            }
        }

        // Migrate the properties from the client request context bag to
        // the request MessageContext.
        ApplicationContextMigratorUtil.performMigrationToMessageContext(
                Constants.APPLICATION_CONTEXT_MIGRATOR_LIST_ID,
                getRequestContext(), request);

        // Note that configuring the MessageContext for addressing based on the metadata and for any
        // WebService Features needs to be done after the application context migration since it will move properties
        // from the JAXWS RequestContext onto the Axis2 Message context, overwritting any that are already set.
        configureAddressing(request, this);
        // Perform the WebServiceFeature configuration requested by the user.
        bnd.configure(request, this);

        // We'll need an InvocationController instance to send the request.
        InvocationControllerFactory icf = (InvocationControllerFactory) FactoryRegistry.getFactory(InvocationControllerFactory.class);
        controller = icf.getInvocationController();

        if (controller == null) {
            throw new WebServiceException(Messages.getMessage("missingInvocationController"));
        }

        // Check if the call is OneWay, Async or Sync
        if (operationDesc.isOneWay()) {
            if (log.isDebugEnabled()) {
                log.debug("OneWay Call");
            }
            controller.invokeOneWay(requestIC);

            // Check to see if we need to maintain session state
            checkMaintainSessionState(request, requestIC);
        }

        if (method.getReturnType() == Future.class) {
            if (log.isDebugEnabled()) {
                log.debug("Async Callback");
            }

            //Get AsyncHandler from Objects and sent that to InvokeAsync
            AsyncHandler asyncHandler = null;
            for (Object obj : args) {
                if (obj != null && AsyncHandler.class.isAssignableFrom(obj.getClass())) {
                    asyncHandler = (AsyncHandler)obj;
                    break;
                }
            }

            // Don't allow the invocation to continue if the invocation requires a callback
            // object, but none was supplied.
            if (asyncHandler == null) {
                throw ExceptionFactory
                        .makeWebServiceException(Messages.getMessage("proxyNullCallback"));
            }
            AsyncResponse listener = createProxyListener(args, operationDesc);
            requestIC.setAsyncResponseListener(listener);

            if ((serviceDelegate.getExecutor() != null) &&
                    (serviceDelegate.getExecutor() instanceof ExecutorService)) {
                ExecutorService es = (ExecutorService)serviceDelegate.getExecutor();
                if (es.isShutdown()) {
                    // the executor service is shutdown and won't accept new tasks
                    // so return an error back to the client
                    throw ExceptionFactory
                            .makeWebServiceException(Messages.getMessage("ExecutorShutdown"));
                }
            }

            requestIC.setExecutor(serviceDelegate.getExecutor());

            Future<?> future = controller.invokeAsync(requestIC, asyncHandler);

            //Check to see if we need to maintain session state
            checkMaintainSessionState(request, requestIC);

            if (log.isDebugEnabled()) {
                log.debug("Exiting the method invokeSEIMethod() - Async Callback ");
            }

            return future;
        }

        if (method.getReturnType() == Response.class) {
            if (log.isDebugEnabled()) {
                log.debug("Async Polling");
            }
            AsyncResponse listener = createProxyListener(args, operationDesc);
            requestIC.setAsyncResponseListener(listener);
            requestIC.setExecutor(serviceDelegate.getExecutor());

            Response response = controller.invokeAsync(requestIC);

            //Check to see if we need to maintain session state
            checkMaintainSessionState(request, requestIC);

            if (log.isDebugEnabled()) {
                log.debug("Exiting the method invokeSEIMethod() - Async Polling ");
            }

            return response;
        }

        if (!operationDesc.isOneWay()) {
            InvocationContext responseIC = controller.invoke(requestIC);

            //Check to see if we need to maintain session state
            checkMaintainSessionState(request, requestIC);

            MessageContext responseContext = responseIC.getResponseMessageContext();

            // Migrate the properties from the response MessageContext back
            // to the client response context bag.
            ApplicationContextMigratorUtil.performMigrationFromMessageContext(
                    Constants.APPLICATION_CONTEXT_MIGRATOR_LIST_ID,

        }

        OperationDescription operationDesc =
                endpointDesc.getEndpointInterfaceDescription().getOperation(method);

        MessageContext request = new MessageContext();

        // Select a Classloader to use for marshaling
        ClassLoader cl = chooseClassLoader(seiClazz, serviceDesc);

        // Make sure the same classloader is used on the response
        request.setProperty(Constants.CACHE_CLASSLOADER, cl);

        Message message = MethodMarshallerFactory.getMarshaller(operationDesc, true, null)
                .marshalRequest(args, operationDesc, this.getRequestContext());

        if (log.isDebugEnabled()) {
            log.debug("Request Message created successfully.");
        }

        request.setMessage(message);

        if (log.isDebugEnabled()) {
            log.debug("Request MessageContext created successfully.");
        }

            // Get the classloader that was used for the request processing
            ClassLoader cl = (ClassLoader) responseContext.getProperty(Constants.CACHE_CLASSLOADER);
            if (cl == null) {
                InvocationContext ic = responseContext.getInvocationContext();
                if (ic != null) {
                    MessageContext requestMC = ic.getRequestMessageContext();
                    if (requestMC != null) {
                        cl = (ClassLoader) responseContext.getProperty(Constants.CACHE_CLASSLOADER);
                        if (cl != null) {
                            if (log.isDebugEnabled()) {
                                log.debug("Obtained ClassLoader for the request context: " + cl);

        proxy.sendAttachment("12345");

        TestClientInvocationController testController = getInvocationController();
        InvocationContext ic = testController.getInvocationContext();
        MessageContext request = ic.getRequestMessageContext();

        assertTrue("Request should not be null.", request != null);
        assertTrue("MTOM should not be abled on the Message by default.", !request.getMessage().isMTOMEnabled());
    }