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/*
 * Licensed to the Apache Software Foundation (ASF) under one
 * or more contributor license agreements. See the NOTICE file
 * distributed with this work for additional information
 * regarding copyright ownership. The ASF licenses this file
 * to you 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.axis2.description;

import com.ibm.wsdl.util.xml.DOM2Writer;
import org.apache.axiom.om.OMElement;
import org.apache.axiom.soap.SOAP11Constants;
import org.apache.axiom.soap.SOAP12Constants;
import org.apache.axis2.AxisFault;
import org.apache.axis2.addressing.AddressingConstants;
import org.apache.axis2.addressing.AddressingHelper;
import org.apache.axis2.addressing.EndpointReference;
import org.apache.axis2.addressing.EndpointReferenceHelper;
import org.apache.axis2.addressing.wsdl.WSDL11ActionHelper;
import org.apache.axis2.engine.AxisConfiguration;
import org.apache.axis2.transport.http.HTTPConstants;
import org.apache.axis2.util.LoggingControl;
import org.apache.axis2.util.PolicyUtil;
import org.apache.axis2.util.XMLUtils;
import org.apache.axis2.wsdl.SOAPHeaderMessage;
import org.apache.axis2.wsdl.WSDLConstants;
import org.apache.axis2.wsdl.WSDLUtil;
import org.apache.axis2.wsdl.util.WSDLDefinitionWrapper;
import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;
import org.apache.neethi.Constants;
import org.apache.neethi.Policy;
import org.apache.neethi.PolicyReference;
import org.apache.ws.commons.schema.utils.NamespaceMap;
import org.w3c.dom.Document;
import org.w3c.dom.Element;
import org.w3c.dom.NamedNodeMap;
import org.w3c.dom.Node;
import org.w3c.dom.NodeList;
import org.xml.sax.SAXException;

import javax.wsdl.Binding;
import javax.wsdl.BindingFault;
import javax.wsdl.BindingInput;
import javax.wsdl.BindingOperation;
import javax.wsdl.BindingOutput;
import javax.wsdl.Definition;
import javax.wsdl.Fault;
import javax.wsdl.Import;
import javax.wsdl.Input;
import javax.wsdl.Message;
import javax.wsdl.Operation;
import javax.wsdl.OperationType;
import javax.wsdl.Output;
import javax.wsdl.Part;
import javax.wsdl.Port;
import javax.wsdl.PortType;
import javax.wsdl.Service;
import javax.wsdl.Types;
import javax.wsdl.WSDLException;
import javax.wsdl.extensions.ExtensibilityElement;
import javax.wsdl.extensions.UnknownExtensibilityElement;
import javax.wsdl.extensions.http.HTTPAddress;
import javax.wsdl.extensions.http.HTTPBinding;
import javax.wsdl.extensions.http.HTTPOperation;
import javax.wsdl.extensions.mime.MIMEMultipartRelated;
import javax.wsdl.extensions.mime.MIMEPart;
import javax.wsdl.extensions.schema.Schema;
import javax.wsdl.extensions.soap.SOAPAddress;
import javax.wsdl.extensions.soap.SOAPBinding;
import javax.wsdl.extensions.soap.SOAPBody;
import javax.wsdl.extensions.soap.SOAPHeader;
import javax.wsdl.extensions.soap.SOAPOperation;
import javax.wsdl.extensions.soap12.SOAP12Address;
import javax.wsdl.extensions.soap12.SOAP12Binding;
import javax.wsdl.extensions.soap12.SOAP12Body;
import javax.wsdl.extensions.soap12.SOAP12Header;
import javax.wsdl.extensions.soap12.SOAP12Operation;
import javax.wsdl.factory.WSDLFactory;
import javax.wsdl.xml.WSDLLocator;
import javax.wsdl.xml.WSDLReader;
import javax.xml.namespace.QName;
import javax.xml.parsers.ParserConfigurationException;
import java.io.IOException;
import java.io.InputStream;
import java.net.URL;
import java.util.ArrayList;
import java.util.Collection;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.TreeMap;
import java.util.Vector;

public class WSDL11ToAxisServiceBuilder extends WSDLToAxisServiceBuilder {

    public static final int COMPONENT_PORT_TYPE = 1;
    public static final int COMPONENT_MESSAGE = 2;
    public static final int COMPONENT_BINDING = 3;

    protected static final Log log = LogFactory
            .getLog(WSDL11ToAxisServiceBuilder.class);
    private static final boolean isTraceEnabled = log.isTraceEnabled();

    protected String portName;

    private static final String BINDING = "Binding";

    private static final String SERVICE = "Service";

    private static final String PORT = "Port";

    private static final String PORT_TYPE = "PortType";

    private static final String PORT_TYPE_OPERATION = "PortType.Operation";

    private static final String PORT_TYPE_OPERATION_INPUT = "PortType.Operation.Input";

    private static final String PORT_TYPE_OPERATION_OUTPUT = "PortType.Operation.Output";

    private static final String PORT_TYPE_OPERATION_FAULT = "PortType.Operation.Fault";

    private static final String BINDING_OPERATION = "Binding.Operation";

    private static final String BINDING_OPERATION_INPUT = "Binding.Operation.Input";

    private static final String BINDING_OPERATION_OUTPUT = "Binding.Operation.Output";

    protected Definition wsdl4jDefinition = null;
    protected String     wsdlBaseDocumentURI = null;

    private WSDLLocator customWSDLResolver;

    public static final String RPC_STYLE = "rpc";

    public static final String DOCUMENT_STYLE = "document";

    public static final String ENCODED_USE = "encoded";

    /**
     * List of BindingOperationEntry objects.
     * Each object in the list may require a wrapped schema element for 
     * the input/output or both.
     */
    private List wrappableBOEs = new ArrayList();
    // used to keep the binding type of the selected binding
    private String bindingType;

    public static final String WRAPPED_OUTPUTNAME_SUFFIX = "Response";

    public static final String XML_NAMESPACE_URI = "http://www.w3.org/2000/xmlns/";

    public static final String NAMESPACE_DECLARATION_PREFIX = "xmlns:";

    private static int prefixCounter = 0;

    public static final String NAMESPACE_URI = "namespace";

    public static final String TRAGET_NAMESPACE = "targetNamespace";

    public static final String BINDING_TYPE_SOAP = "soap";
    public static final String BINDING_TYPE_HTTP = "http";

    /**
     * keep track of whether setup code related to the entire wsdl is complete.
     * Note that WSDL11ToAllAxisServices will call setup multiple times, so this
     * field is used to make subsequent calls no-ops.
     */
    private boolean setupComplete = false;

    private Map schemaMap = null;

    private static final String JAVAX_WSDL_VERBOSE_MODE_KEY = "javax.wsdl.verbose";

    // As bindings are processed add it to this array so that we dont process the same binding twice
    private Map processedBindings;

    private boolean isAllPorts;

    /**
     * constructor taking in the service name and the port name
     *
     * @param in - InputStream for the WSDL
     * @param serviceName - The service Name
     * @param portName - The port name
     */
    public WSDL11ToAxisServiceBuilder(InputStream in, QName serviceName,
                                      String portName) {
        super(in, serviceName);
        this.portName = portName;
    }

    /**
     * @param def - The WSDL4J Definition object
     * @param serviceName - The service Name
     * @param portName - The port name
     */
    public WSDL11ToAxisServiceBuilder(Definition def, QName serviceName,
                                      String portName) {
        super(null, serviceName);
        this.wsdl4jDefinition = def;
        this.portName = portName;
        this.isAllPorts = false;
    }

    /**
     * @param def - The WSDL4J Definition object
     * @param serviceName - The service Name
     * @param portName - The port name
     * @param isAllPorts - boolean representing whether to generate code for all ports or not
     */
    public WSDL11ToAxisServiceBuilder(Definition def,
                                      QName serviceName,
                                      String portName,
                                      boolean isAllPorts) {
        this(def, serviceName, portName);
        this.isAllPorts = isAllPorts;
    }


    /**
     * @param in
     * @param service
     */
    public WSDL11ToAxisServiceBuilder(InputStream in, AxisService service) {
        super(in, service);
    }

    /**
     * @param in
     */
    public WSDL11ToAxisServiceBuilder(InputStream in) {
        this(in, null, null);
    }

    /**
     * @deprecated
     * @see setCustomWSDLResolver
     */
    public void setCustomWSLD4JResolver(WSDLLocator customResolver) {
        setCustomWSDLResolver(customResolver);
    }


    /**
     * sets a custom WSDL locator
     *
     * @param customResolver
     */
    public void setCustomWSDLResolver(WSDLLocator customResolver) {
        this.customWSDLResolver = customResolver;
        setDocumentBaseUri(this.customWSDLResolver.getBaseURI());
    }


    /**
     * Sets the URI to the base document associated with the WSDL definition.
     * This identifies the origin of the Definition and allows the
     * Definition to be reloaded.  Note that this is the URI of the base
     * document, not the imports.
     *
     * @param baseUri
     */
    public void setDocumentBaseUri(String baseUri) {
        if (wsdl4jDefinition != null) {
            wsdl4jDefinition.setDocumentBaseURI(baseUri);
        }
        wsdlBaseDocumentURI = baseUri;
    }

    /**
     * Gets the URI to the base document associated with the WSDL definition.
     * This identifies the origin of the Definition and allows the
     * Definition to be reloaded.  Note that this is the URI of the base
     * document, not the imports.
     *
     */
    public String getDocumentBaseUri() {
        return wsdlBaseDocumentURI;
    }




    /**
     * Populates a given service.
     *
     * @throws AxisFault
     */
    public AxisService populateService() throws AxisFault {
        try {
            setup();

            // NOTE: set the axisService with the Parameter for the WSDL
            // Definition after the rest of the work

            if (wsdl4jDefinition == null) {
                return null;
            }

            // setting target name space
            axisService.setTargetNamespace(wsdl4jDefinition.getTargetNamespace());
            axisService.setNamespaceMap(new NamespaceMap(wsdl4jDefinition.getNamespaces()));
            
            Map importsMap = wsdl4jDefinition.getImports();
            
            if (importsMap != null) {
                List imports = new ArrayList(importsMap.keySet());
                axisService.setImportedNamespaces(imports);
            }
            
            //TODO : find the service also in imported wsdls
            Service wsdl4jService = findService(wsdl4jDefinition);

            Binding binding = findBinding(wsdl4jDefinition, wsdl4jService);
            Definition bindingWSDL = getParentDefinition(wsdl4jDefinition,
                    binding.getQName(), COMPONENT_BINDING, new HashSet());
            Definition portTypeWSDL = getParentDefinition(bindingWSDL,
                    binding.getPortType().getQName(), COMPONENT_PORT_TYPE, new HashSet());
            PortType portType = portTypeWSDL.getPortType(binding.getPortType().getQName());


            if (portType == null) {
                throw new AxisFault("There is no port type associated with the binding");
            }

            // create new Schema extensions element for wrapping
            // (if its present)
            Element[] schemaElements = generateWrapperSchema(schemaMap, binding, portType);

            processTypes(wsdl4jDefinition, axisService);

            // add the newly created schemas
            if (schemaElements != null && schemaElements.length > 0) {
                for (int i = 0; i < schemaElements.length; i++) {
                    Element schemaElement = schemaElements[i];
                    if (schemaElement != null) {
                        axisService.addSchema(getXMLSchema(schemaElement, null));
                    }
                }
            }
            // copy the documentation element content to the description
            Element documentationElement = wsdl4jDefinition.getDocumentationElement();
            addDocumentation(axisService, documentationElement);

            axisService.setName(wsdl4jService.getQName().getLocalPart());
            populateEndpoints(binding, bindingWSDL,wsdl4jService, portType, portTypeWSDL);
            processPoliciesInDefintion(wsdl4jDefinition);
            axisService.getPolicyInclude().setPolicyRegistry(registry);


            // Setting wsdl4jdefintion to the axisService parameter include list,
            // so if someone needs to use the definition directly,
            // he can do that by getting the parameter
            Parameter wsdlDefinitionParameter = new Parameter();
            wsdlDefinitionParameter.setName(WSDLConstants.WSDL_4_J_DEFINITION);

            if (!(wsdl4jDefinition instanceof WSDLDefinitionWrapper)) {
                AxisConfiguration ac = axisService.getAxisConfiguration();
                if (ac == null) {
                    ac = this.axisConfig;
                }
                WSDLDefinitionWrapper wrapper = new WSDLDefinitionWrapper(wsdl4jDefinition, ac);
                wsdlDefinitionParameter.setValue(wrapper);
            } else {
                wsdlDefinitionParameter.setValue(wsdl4jDefinition);
            }

            axisService.addParameter(wsdlDefinitionParameter);
            axisService.setWsdlFound(true);
            axisService.setCustomWsdl(true);


            return axisService;

        } catch (WSDLException e) {
            log.error(e.getMessage(), e);
            throw AxisFault.makeFault(e);
        } catch (Exception e) {
            log.error(e.getMessage(), e);
            throw AxisFault.makeFault(e);
        }
    }

    private void processTypes(Definition wsdlDefinition, AxisService axisService)
            throws AxisFault {
        processTypes(wsdlDefinition, axisService, new HashSet());
    }

    private void processTypes(Definition wsdlDefinition,
                              AxisService axisService,
                              Set visitedWSDLs)
            throws AxisFault {
        visitedWSDLs.add(wsdlDefinition.getDocumentBaseURI());
        // process all the types in all the wsdls
        Types types = wsdlDefinition.getTypes();
        if (types != null) {
            copyExtensibleElements(types.getExtensibilityElements(),
                                   wsdlDefinition,
                                   axisService,
                                   TYPES);
        }

        // process the types in other wsdls
        Iterator iter = wsdlDefinition.getImports().values().iterator();
        Vector values = null;
        Import wsdlImport = null;
        for (; iter.hasNext();) {
            values = (Vector) iter.next();
            for (Iterator valuesIter = values.iterator(); valuesIter.hasNext();) {
                wsdlImport = (Import) valuesIter.next();
                // process the types recuresiveilt
                Definition innerDefinition = wsdlImport.getDefinition();
                if(!visitedWSDLs.contains(innerDefinition.getDocumentBaseURI())){
                    processTypes(innerDefinition, axisService, visitedWSDLs);
                }
            }
        }
    }

    private void addDocumentation(AxisDescription axisDescription, Element documentationElement) {
        if ((documentationElement != null) && (documentationElement.getFirstChild() != null)) {
            Node firstChild = documentationElement.getFirstChild();
            String documentation = DOM2Writer.nodeToString(firstChild);
            if (!"".equals(documentation)) {
                axisDescription.setDocumentation(documentation);
            }
        }
    }

    /**
     * @param binding
     * @param wsdl4jService must have atlease one port
     * @throws AxisFault
     */
    private void populateEndpoints(Binding binding,
                                   Definition bindingWSDL,
                                   Service wsdl4jService,
                                   PortType portType,
                                   Definition portTypeWSDL) throws AxisFault {

        Map wsdl4jPorts = wsdl4jService.getPorts();
        QName bindingName = binding.getQName();

        Port port;
        AxisEndpoint axisEndpoint = null;

        processedBindings = new HashMap();

        // process the port type for this binding
        // although we support multiports they must be belongs to same port type and should have the
        // same soap style
        populatePortType(portType, portTypeWSDL);

        Binding currentBinding;
        Definition currentBindingWSDL = null;

        for (Iterator iterator = wsdl4jPorts.values().iterator(); iterator.hasNext();) {
            port = (Port) iterator.next();
            // if the user has picked a port then we have to process only that port
            if ((this.portName == null) || (this.portName.equals(port.getName()))) {
                // we process the port only if it has the same port type as the selected binding
                currentBindingWSDL = getParentDefinition(wsdl4jDefinition,
                        port.getBinding().getQName(), COMPONENT_BINDING, new HashSet());
                currentBinding = currentBindingWSDL.getBinding(port.getBinding().getQName());

                if (currentBinding.getPortType().getQName().equals(binding.getPortType().getQName())) {
                    axisEndpoint = new AxisEndpoint();
                    axisEndpoint.setName(port.getName());

                    if (axisService.getEndpointName() == null &&
                            bindingName.equals(port.getBinding().getQName())) {
                        populateEndpoint(axisEndpoint, port, currentBinding,
                                bindingWSDL, portType, portTypeWSDL, true);
                        axisService.setEndpointName(axisEndpoint.getName());
                        axisService.setBindingName(axisEndpoint.getBinding().getName().getLocalPart());
                    } else {
                        populateEndpoint(axisEndpoint, port, currentBinding,
                                bindingWSDL, portType, portTypeWSDL, false);
                    }

                    axisEndpoint.setParent(axisService);
                    axisService.addEndpoint(port.getName(), axisEndpoint);
                }
            }
        }
    }

    /**
     * setting message qname is a binding dependent process for an example message element depends on the
     * soap style (rpc or document) and parts elememet of the soap body
     * On the otherhand we keep only one set of axis operations belongs to a selected port type in axis service
     * So setting qname refetences done only with the selected binding processing
     *
     * @param axisEndpoint
     * @param wsdl4jPort
     * @param isSetMessageQNames
     * @throws AxisFault
     */
    private void populateEndpoint(AxisEndpoint axisEndpoint,
                                  Port wsdl4jPort,
                                  Binding wsdl4jBinding,
                                  Definition bindingWSDL,
                                  PortType portType,
                                  Definition portTypeWSDL,
                                  boolean isSetMessageQNames)
            throws AxisFault {

        copyExtensibleElements(wsdl4jPort.getExtensibilityElements(), wsdl4jDefinition,
                               axisEndpoint, BINDING);
        processEmbeddedEPR(wsdl4jPort.getExtensibilityElements(), axisEndpoint);
        addDocumentation(axisEndpoint, wsdl4jPort.getDocumentationElement());
        if (processedBindings.containsKey(wsdl4jBinding.getQName())) {
            axisEndpoint.setBinding(
                    (AxisBinding) processedBindings.get(wsdl4jBinding.getQName()));
        } else {
            AxisBinding axisBinding = new AxisBinding();
            axisBinding.setName(wsdl4jBinding.getQName());
            axisBinding.setParent(axisEndpoint);
            axisEndpoint.setBinding(axisBinding);
            axisBinding.setParent(axisEndpoint);
            populateBinding(axisBinding,
                    wsdl4jBinding,
                    bindingWSDL,
                    portType,
                    portTypeWSDL,
                    isSetMessageQNames);
            processedBindings.put(wsdl4jBinding.getQName(), axisBinding);
        }
    }

    private void processEmbeddedEPR(List extensibilityElements, AxisEndpoint axisEndpoint) {
    	Iterator eelts = extensibilityElements.iterator();
    	while(eelts.hasNext()){
    		ExtensibilityElement ee = (ExtensibilityElement)eelts.next();
    		if(AddressingConstants.Final.WSA_ENDPOINT_REFERENCE.equals(ee.getElementType())){
    			try {
    				Element elt = ((UnknownExtensibilityElement)ee).getElement();
    				OMElement eprOMElement = XMLUtils.toOM(elt);
    				EndpointReference epr = EndpointReferenceHelper.fromOM(eprOMElement);
    				Map referenceParameters = epr.getAllReferenceParameters();
    				if(referenceParameters != null){
    					axisEndpoint.addParameter(AddressingConstants.REFERENCE_PARAMETER_PARAMETER, new ArrayList(referenceParameters.values()));
    				}
    			} catch (Exception e) {
    				if(log.isDebugEnabled()){
    					log.debug("Exception encountered processing embedded wsa:EndpointReference", e);
    				}
    			}
    		}
    	}
    }

	private void populatePortType(PortType wsdl4jPortType,
                                  Definition portTypeWSDL) throws AxisFault {
		copyExtensionAttributes(wsdl4jPortType.getExtensionAttributes(),
				axisService, PORT_TYPE);
        List wsdl4jOperations = wsdl4jPortType.getOperations();

        // Added to use in ?wsdl2 as the interface name
        axisService.addParameter(new Parameter(WSDL2Constants.INTERFACE_LOCAL_NAME,
                                               wsdl4jPortType.getQName().getLocalPart()));
        if (wsdl4jOperations.size() < 1) {
            throw new AxisFault("No operation found in the portType element");
        }

        AxisOperation axisOperation;
        List operationNames = new ArrayList();

        QName opName;
        Operation wsdl4jOperation;

        for (Iterator iterator = wsdl4jOperations.iterator(); iterator.hasNext();) {
            wsdl4jOperation = (Operation) iterator.next();

            axisOperation = populateOperations(wsdl4jOperation, wsdl4jPortType, portTypeWSDL);
            addDocumentation(axisOperation, wsdl4jOperation.getDocumentationElement());
            axisOperation.setParent(axisService);
            axisService.addChild(axisOperation);
            operationNames.add(axisOperation.getName());
        }

        // this is used only in codegen to preserve operation order
        if (isCodegen) {
            axisService.setOperationsNameList(operationNames);
        }

    }

    private void populateBinding(AxisBinding axisBinding,
                                 Binding wsdl4jBinding,
                                 Definition bindingWSDL,
                                 PortType portType,
                                 Definition portTypeWSDL,
                                 boolean isSetMessageQNames)
            throws AxisFault {

        copyExtensibleElements(wsdl4jBinding.getExtensibilityElements(), bindingWSDL,
                               axisBinding, BINDING);

        List wsdl4jBidingOperations = wsdl4jBinding.getBindingOperations();

        if (wsdl4jBidingOperations.size() < 1) {
            throw new AxisFault("No operation found for the binding");
        }

        addDocumentation(axisBinding, wsdl4jBinding.getDocumentationElement());

        AxisOperation axisOperation;
        Operation wsdl4jOperation;

        AxisBindingOperation axisBindingOperation;
        BindingOperation wsdl4jBindingOperation;

        Map httpLocationMap = new TreeMap();
        String httpLocation = null;

        for (Iterator iterator = wsdl4jBidingOperations.iterator(); iterator.hasNext();) {

            axisBindingOperation = new AxisBindingOperation();
            wsdl4jBindingOperation = (BindingOperation) iterator.next();
            wsdl4jOperation = findOperation(portType, wsdl4jBindingOperation);

            axisBindingOperation.setName(new QName(bindingWSDL.getTargetNamespace(), wsdl4jBindingOperation.getName()));
            addDocumentation(axisBindingOperation, wsdl4jBindingOperation.getDocumentationElement());

            axisOperation = axisService.getOperation(new QName(portTypeWSDL.getTargetNamespace(), wsdl4jOperation.getName()));
            axisBindingOperation.setAxisOperation(axisOperation);

            // process ExtensibilityElements of the wsdl4jBinding
            copyExtensibleElements(wsdl4jBindingOperation.getExtensibilityElements(),
                                   wsdl4jDefinition, axisBindingOperation, BINDING_OPERATION);

            httpLocation =
                    (String) axisBindingOperation.getProperty(WSDL2Constants.ATTR_WHTTP_LOCATION);
            String httpMethod =
                    (String) axisBindingOperation.getProperty(WSDL2Constants.ATTR_WHTTP_METHOD);
            if (httpMethod == null || "".equals(httpMethod)) {
                httpMethod = HTTPConstants.HEADER_POST;
            }
            if (httpLocation != null) {
                httpLocationMap.put(WSDLUtil.getConstantFromHTTPLocation(httpLocation, httpMethod),
                                    axisBindingOperation.getAxisOperation());
            }

            BindingInput wsdl4jBindingInput = wsdl4jBindingOperation.getBindingInput();

            if (wsdl4jBindingInput != null &&
                WSDLUtil.isInputPresentForMEP(axisOperation.getMessageExchangePattern())) {
                AxisBindingMessage axisBindingInMessage = new AxisBindingMessage();
                addDocumentation(axisBindingInMessage, wsdl4jBindingInput.getDocumentationElement());
                copyExtensibleElements(wsdl4jBindingInput.getExtensibilityElements(),
                                       wsdl4jDefinition,
                                       axisBindingInMessage, BINDING_OPERATION_INPUT);

                AxisMessage axisInMessage =
                        axisOperation.getMessage(WSDLConstants.MESSAGE_LABEL_IN_VALUE);
                //This is a hack to get AXIS2-2771 working , I had to copy soap headers
                //  from binding message to AxisMessage
                List soapHeaders = (List) axisBindingInMessage.getProperty(
                        WSDL2Constants.ATTR_WSOAP_HEADER);
                if (soapHeaders != null) {
                    for (int i = 0; i < soapHeaders.size(); i++) {
                        SOAPHeaderMessage headerMessage = (SOAPHeaderMessage) soapHeaders.get(i);
                        axisInMessage.addSoapHeader(headerMessage);
                    }
                }

                if (isSetMessageQNames) {
                    BindingOperationEntry boe = find(wrappableBOEs, wsdl4jBindingOperation);
                    boolean isWrapped = (boe == null) ? false : boe.isWrappedInput();
                    axisInMessage.setWrapped(isWrapped);
                    addQNameReference(axisInMessage, wsdl4jOperation,
                                      wsdl4jBindingInput,
                                      isWrapped);
                }

                axisBindingInMessage.setAxisMessage(axisInMessage);
                axisBindingInMessage.setName(axisInMessage.getName());
                axisBindingInMessage.setDirection(axisInMessage.getDirection());

                axisBindingInMessage.setParent(axisBindingOperation);
                axisBindingOperation
                        .addChild(WSDLConstants.MESSAGE_LABEL_IN_VALUE, axisBindingInMessage);
            }

            BindingOutput wsdl4jBindingOutput = wsdl4jBindingOperation.getBindingOutput();

            if (wsdl4jBindingOutput != null &&
                WSDLUtil.isOutputPresentForMEP(axisOperation.getMessageExchangePattern())) {
                AxisBindingMessage axisBindingOutMessage = new AxisBindingMessage();
                addDocumentation(axisBindingOutMessage, wsdl4jBindingOutput.getDocumentationElement());
                AxisMessage axisOutMessage =
                        axisOperation.getMessage(WSDLConstants.MESSAGE_LABEL_OUT_VALUE);

                copyExtensibleElements(wsdl4jBindingOutput.getExtensibilityElements(),
                                       wsdl4jDefinition,
                                       axisBindingOutMessage, BINDING_OPERATION_OUTPUT);

                //This is a hack to get AXIS2-2771 working , I had to copy soap headers
                //  from binding message to AxisMessage
                List soapHeaders =
                        (List) axisBindingOutMessage.getProperty(WSDL2Constants.ATTR_WSOAP_HEADER);
                if (soapHeaders != null) {
                    for (int i = 0; i < soapHeaders.size(); i++) {
                        SOAPHeaderMessage headerMessage = (SOAPHeaderMessage) soapHeaders.get(i);
                        axisOutMessage.addSoapHeader(headerMessage);
                    }
                }

                if (isSetMessageQNames) {
                    BindingOperationEntry boe = find(wrappableBOEs, wsdl4jBindingOperation);
                    boolean isWrapped = (boe == null) ? false : boe.isWrappedOutput();
                    axisOutMessage.setWrapped(isWrapped);
                    addQNameReference(axisOutMessage, wsdl4jOperation,
                                      wsdl4jBindingOutput,
                                      isWrapped);
                }


                axisBindingOutMessage.setAxisMessage(axisOutMessage);
                axisBindingOutMessage.setName(axisOutMessage.getName());
                axisBindingOutMessage.setDirection(axisOutMessage.getDirection());

                axisBindingOutMessage.setParent(axisBindingOperation);
                axisBindingOperation
                        .addChild(WSDLConstants.MESSAGE_LABEL_OUT_VALUE, axisBindingOutMessage);
            }

            Map bindingFaultsMap = wsdl4jBindingOperation.getBindingFaults();

            /* process the binding faults */
            for (Iterator bindingFaults = bindingFaultsMap.values().iterator();
                 bindingFaults.hasNext();) {

                BindingFault bindingFault = (BindingFault) bindingFaults.next();
                if (bindingFault.getName() == null) {
                    throw new AxisFault("Binding name is null for the binding fault in " +
                            " binding operation ==> " + wsdl4jBindingOperation.getName());
                } else {
                    Fault wsdl4jFault = wsdl4jOperation.getFault(bindingFault.getName());
                    if (wsdl4jFault == null){
                        throw new AxisFault("Can not find the corresponding fault element in " +
                                "wsdl operation " + wsdl4jOperation.getName() + " for the fault" +
                                " name " + bindingFault.getName());
                    } else {
                        Message wsdl4jFaultMessge = wsdl4jFault.getMessage();

                        AxisMessage faultMessage = findFaultMessage(
                                wsdl4jFaultMessge.getQName().getLocalPart(),
                                axisOperation.getFaultMessages());

                        AxisBindingMessage axisBindingFaultMessage = new AxisBindingMessage();
                        addDocumentation(axisBindingFaultMessage, wsdl4jFaultMessge.getDocumentationElement());
                        axisBindingFaultMessage.setFault(true);
                        axisBindingFaultMessage.setAxisMessage(faultMessage);
                        axisBindingFaultMessage.setName(faultMessage.getName());
                        axisBindingFaultMessage.setParent(axisBindingOperation);

                        axisBindingOperation.addFault(axisBindingFaultMessage);
                        if (isSetMessageQNames) {
                            addQNameReference(faultMessage, wsdl4jFault.getMessage());
                        }
                    }
                }
            }

            axisBindingOperation.setParent(axisBinding);
            axisBinding.addChild(axisBindingOperation.getName(), axisBindingOperation);
        }
        axisBinding.setProperty(WSDL2Constants.HTTP_LOCATION_TABLE, httpLocationMap);
    }

    /**
     * contains all code which gathers non-service specific information from the
     * wsdl. 

After all the setup completes successfully, the setupComplete * field is set so that any subsequent calls to setup() will result in a * no-op. Note that subclass WSDL11ToAllAxisServicesBuilder will call * populateService for each port in the WSDL. Separating the non-service * specific information here allows WSDL11ToAllAxisServicesBuilder to only * do this work 1 time per WSDL, instead of for each port on each service. * * @throws WSDLException if readInTheWSDLFile fails */ protected void setup() throws WSDLException { if (setupComplete) { // already setup, just do nothing and return return; } if (wsdl4jDefinition == null) { wsdl4jDefinition = readInTheWSDLFile(in); } if (wsdl4jDefinition == null) { return; // can't continue without wsdl } // setup the schemaMap this.schemaMap = new HashMap(); populateSchemaMap(wsdl4jDefinition, new HashSet()); setPolicyRegistryFromService(axisService); setupComplete = true; // if any part of setup fails, don't mark // setupComplete } /** * Populate a map of targetNamespace vs DOM schema element This is used to * grab the correct schema element when adding a new element * * @param definition */ private void populateSchemaMap(Definition definition, Set visitedWSDLs) { visitedWSDLs.add(definition.getDocumentBaseURI()); // first process the types in the given wsdl Types types = definition.getTypes(); Object extensibilityElement; if (types != null) { for (Iterator iterator = types.getExtensibilityElements().iterator(); iterator.hasNext();) { extensibilityElement = iterator.next(); if (extensibilityElement instanceof Schema) { Element schemaElement = ((Schema) extensibilityElement).getElement(); schemaMap.put(schemaElement.getAttribute(XSD_TARGETNAMESPACE), schemaElement); } } } // popualte the imports as well Iterator iter = definition.getImports().values().iterator(); Vector values = null; Import wsdlImport = null; for (; iter.hasNext();) { values = (Vector) iter.next(); for (Iterator valuesIter = values.iterator(); valuesIter.hasNext();) { wsdlImport = (Import) valuesIter.next(); Definition innerDefinition = wsdlImport.getDefinition(); if(!visitedWSDLs.contains(innerDefinition.getDocumentBaseURI())) { populateSchemaMap(innerDefinition, visitedWSDLs); } } } } /** * return the service to process * if user has specified we check whether it exists * else pick a random service and throws an exception if not found any thing * * @param definition * @return service to process * @throws AxisFault */ private Service findService(Definition definition) throws AxisFault { Map services = definition.getServices(); Service service = null; if (serviceName != null) { // i.e if a user has specified a pirticular port service = (Service) services.get(serviceName); if (service == null) { throw new AxisFault("Service " + serviceName + " was not found in the WSDL"); } } else { if (services.size() > 0) { for (Iterator iter = services.values().iterator(); iter.hasNext();) { service = (Service) iter.next(); if (service.getPorts().size() > 0) { //i.e we have found a service with ports break; } } if ((service == null) || (service.getPorts().size() == 0)) { throw new AxisFault("there is no service with ports to pick"); } } else { throw new AxisFault("No service was not found in the WSDL at " + definition.getDocumentBaseURI() + " with targetnamespace " + definition.getTargetNamespace()); } } return service; } /** * Look for the relevant binding! * if user has spcifed a port get it * otherwise find first soap port or pick random one if there is no soap port * * @param dif * @param service service can not be null * @throws AxisFault */ private Binding findBinding(Definition dif, Service service) throws AxisFault { Binding binding = null; Port port = null; copyExtensibleElements(service.getExtensibilityElements(), dif, axisService, SERVICE); if (portName != null) { // i.e if user has specified a service port = service.getPort(portName); if (port == null) { throw new AxisFault("No port found for the given name :" + portName); } } else { Map ports = service.getPorts(); if (ports != null && ports.size() > 0) { // pick the port with the SOAP address as the default port port = findPort(ports); if (port == null) { // a SOAP port was not found - log a warning // and use the first port in the list log.info("A SOAP port was not found - " + "picking a random port!"); port = (Port) ports.values().toArray()[0]; } if (port != null) { // i.e we have find a correct port // this is only use full in codegen time. if (this.isCodegen && !this.isAllPorts) { // if user has not set all option // we have to generate code only for that option. this.portName = port.getName(); } } } } axisService.setName(service.getQName().getLocalPart()); if (port != null) { copyExtensibleElements(port.getExtensibilityElements(), dif, axisService, PORT); Definition parentDefinition = getParentDefinition(dif, port.getBinding().getQName(), COMPONENT_BINDING, new HashSet()); binding = parentDefinition.getBinding(port.getBinding().getQName()); if (binding == null) { binding = port.getBinding(); } } return binding; } /** * Finds a SOAP port given the port map */ private Port findPort(Map ports) { Port port; Port returnPort = null; for (Iterator portsIterator = ports.values().iterator(); portsIterator.hasNext();) { port = (Port) portsIterator.next(); List extensibilityElements = port.getExtensibilityElements(); for (int i = 0; i < extensibilityElements.size(); i++) { Object extElement = extensibilityElements.get(i); if (extElement instanceof SOAP12Address) { // SOAP 1.2 address found - keep this and loop until http address is found returnPort = port; String location = ((SOAP12Address)extElement).getLocationURI().trim(); if ((location != null) && location.startsWith("http:")){ // i.e we have found an http port so return from here break; } } } } if (returnPort != null){ return returnPort; } for (Iterator portsIterator = ports.values().iterator(); portsIterator .hasNext();) { port = (Port) portsIterator.next(); List extensibilityElements = port.getExtensibilityElements(); for (int i = 0; i < extensibilityElements.size(); i++) { Object extElement = extensibilityElements.get(i); if (extElement instanceof SOAPAddress) { // SOAP 1.1 address found - keep this and loop until http address is found returnPort = port; String location = ((SOAPAddress)extElement).getLocationURI().trim(); if ((location != null) && location.startsWith("http:")){ // i.e we have found an http port so return from here break; } } } } if (returnPort != null){ return returnPort; } for (Iterator portsIterator = ports.values().iterator(); portsIterator .hasNext();) { port = (Port) portsIterator.next(); List extensibilityElements = port.getExtensibilityElements(); for (int i = 0; i < extensibilityElements.size(); i++) { Object extElement = extensibilityElements.get(i); if (extElement instanceof HTTPAddress) { // HTTP address found - keep this and loop until http address is found returnPort = port; String location = ((HTTPAddress)extElement).getLocationURI().trim(); if ((location != null) && location.startsWith("http:")){ // i.e we have found an http port so return from here break; } } } } return returnPort; } private Operation findOperation(PortType portType, BindingOperation wsdl4jBindingOperation) { Operation op = wsdl4jBindingOperation.getOperation(); String input = null; if (op != null && op.getInput() != null) { input = op.getInput().getName(); if (":none".equals(input)) { input = null; } } String output = null; if (op != null && op.getOutput() != null) { output = op.getOutput().getName(); if (":none".equals(output)) { output = null; } } Operation op2 = portType.getOperation(op.getName(), input, output); return ((op2 == null) ? op : op2); } /** * Find the fault message relevant to a given name from the fault message * list * * @param name * @param faultMessages */ private AxisMessage findFaultMessage(String name, ArrayList faultMessages) { AxisMessage tempMessage; for (int i = 0; i < faultMessages.size(); i++) { tempMessage = (AxisMessage) faultMessages.get(i); if (name.equals(tempMessage.getName())) { return tempMessage; } } return null; } /** * Add the QName for the binding input * * @param inMessage * @param wsdl4jOperation * @param bindingInput * @param isWrapped - basically whether the operation is soap/rpc or not */ private void addQNameReference(AxisMessage inMessage, Operation wsdl4jOperation, BindingInput bindingInput, boolean isWrapped) { List extensibilityElements = bindingInput.getExtensibilityElements(); Message wsdl4jMessage = wsdl4jOperation.getInput().getMessage(); addQNameReference(inMessage, wsdl4jOperation, isWrapped, extensibilityElements, wsdl4jMessage, wsdl4jOperation.getName()); } /** * Add the QName for the binding output * * @param outMessage * @param wsdl4jOperation * @param isWrapped */ private void addQNameReference(AxisMessage outMessage, Operation wsdl4jOperation, BindingOutput bindingOutput, boolean isWrapped) { if (bindingOutput != null) { List extensibilityElements = bindingOutput.getExtensibilityElements(); if (wsdl4jOperation.getOutput() == null) { return; } Message wsdl4jMessage = wsdl4jOperation.getOutput().getMessage(); addQNameReference(outMessage, wsdl4jOperation, isWrapped, extensibilityElements, wsdl4jMessage, wsdl4jOperation.getName() + WRAPPED_OUTPUTNAME_SUFFIX); } } private void addQNameReference(AxisMessage message, Operation wsdl4jOperation, boolean isWrapped, List extensibilityElements, Message wsdl4jMessage, String rpcOperationName) { if (isWrapped) { // we have already validated and process the qname references // so set it here // The schema for this should be already made ! Find the // QName from // the list and add it - the name for this is just the message.setElementQName((QName) resolvedRpcWrappedElementMap .get(rpcOperationName)); message.getAxisOperation().getAxisService().addMessageElementQNameToOperationMapping( (QName) resolvedRpcWrappedElementMap.get(rpcOperationName), message.getAxisOperation()); } else { // now we are sure this is an document literal type element List bindingPartsList = getPartsListFromSoapBody(extensibilityElements); if (bindingPartsList == null) { // i.e user has not given any part list so we go to message and pick the firest part if // available if ((wsdl4jMessage.getParts() != null) && (wsdl4jMessage.getParts().size() > 0)) { if (wsdl4jMessage.getParts().size() == 1) { Part part = (Part) wsdl4jMessage.getParts().values().iterator().next(); QName elementName = part.getElementName(); if (elementName != null) { message.setElementQName(elementName); message.setMessagePartName(part.getName()); AxisOperation operation = message.getAxisOperation(); AxisService service = operation.getAxisService(); service.addMessageElementQNameToOperationMapping(elementName, operation); } else { throw new WSDLProcessingException( "No element type is defined for message " + wsdl4jMessage.getQName().getLocalPart()); } } else { // user has specified more than one parts with out specifing a part in // soap body throw new WSDLProcessingException("More than one part for message " + wsdl4jMessage.getQName().getLocalPart()); } } else { // this is allowed in the spec in this case element qname is null and nothing is send // in the soap body message.setElementQName(null); } } else { if (bindingPartsList.size() == 0) { // we donot have to set the element qname message.setElementQName(null); } else if (bindingPartsList.size() == 1) { Part part = wsdl4jMessage.getPart((String) bindingPartsList.get(0)); if (part != null) { QName elementName = part.getElementName(); if (elementName != null) { message.setElementQName(elementName); message.setMessagePartName(part.getName()); AxisOperation operation = message.getAxisOperation(); AxisService service = operation.getAxisService(); service.addMessageElementQNameToOperationMapping(elementName, operation); } else { throw new WSDLProcessingException( "No element type is defined for message" + wsdl4jMessage.getQName().getLocalPart()); } } else { throw new WSDLProcessingException("Missing part named " + bindingPartsList.get(0) + " "); } } else { // i.e more than one part specified in this case we have // to send an exception throw new WSDLProcessingException( "More than one element part is not allwed in document literal " + " type binding operation " + wsdl4jOperation.getName()); } } } } /** * Add the QName for the binding output */ private void addQNameReference(AxisMessage faultMessage, Message wsdl4jMessage) throws AxisFault { // for a fault this is trivial - All faults are related directly to a // message by the name and are supposed to have a single part. So it is // a matter of copying the right QName from the message part // get the part Map parts = wsdl4jMessage.getParts(); if (parts == null || parts.size() == 0) { String message = "There are no parts" + " for fault message : " + wsdl4jMessage.getQName(); log.error(message); throw new WSDLProcessingException(message); } Part wsdl4jMessagePart = (Part) parts.values() .toArray()[0]; if (wsdl4jMessagePart == null) { throw new WSDLProcessingException(); } QName name = wsdl4jMessagePart.getElementName(); if (name == null) { String message = "Part '" + wsdl4jMessagePart.getName() + "' of fault message '" + wsdl4jMessage.getQName() + "' must be defined with 'element=QName' and not 'type=QName'"; log.error(message); throw new AxisFault(message); } faultMessage.setMessagePartName(wsdl4jMessagePart.getName()); faultMessage.setElementQName(name); } /** * A util method that returns the SOAP style included in the binding * operation * * @param bindingOp */ private String getSOAPStyle(BindingOperation bindingOp) { List extensibilityElements = bindingOp.getExtensibilityElements(); for (int i = 0; i < extensibilityElements.size(); i++) { Object extElement = extensibilityElements.get(i); if (extElement instanceof SOAPOperation) { return ((SOAPOperation) extElement).getStyle(); } else if (extElement instanceof SOAP12Operation) { return ((SOAP12Operation) extElement).getStyle(); } } return null; } /** * Copy the component from the operation * * @param wsdl4jOperation * @param dif * @throws AxisFault */ private AxisOperation populateOperations(Operation wsdl4jOperation, PortType wsdl4jPortType, Definition dif) throws AxisFault { QName opName = new QName(dif.getTargetNamespace(), wsdl4jOperation.getName()); // Copy Name Attribute AxisOperation axisOperation = axisService.getOperation(opName); if (axisOperation == null) { String MEP = getMEP(wsdl4jOperation); axisOperation = AxisOperationFactory.getOperationDescription(MEP); axisOperation.setName(opName); // setting the PolicyInclude property of the AxisOperation PolicyInclude policyInclude = new PolicyInclude(axisOperation); axisOperation.setPolicyInclude(policyInclude); } copyExtensionAttributes(wsdl4jOperation.getExtensionAttributes(), axisOperation, PORT_TYPE_OPERATION); Input wsdl4jInputMessage = wsdl4jOperation.getInput(); if (isServerSide) { if (null != wsdl4jInputMessage) { AxisMessage inMessage = axisOperation .getMessage(WSDLConstants.MESSAGE_LABEL_IN_VALUE); Message message = wsdl4jInputMessage.getMessage(); if (null != message) { inMessage.setName(message.getQName().getLocalPart()); copyExtensionAttributes(wsdl4jInputMessage.getExtensionAttributes(), inMessage, PORT_TYPE_OPERATION_INPUT); } // Check if the action is already set as we don't want to // override it // with the Default Action Pattern ArrayList inputActions = axisOperation.getWSAMappingList(); String action = null; if (inputActions == null || inputActions.size() == 0) { action = WSDL11ActionHelper .getActionFromInputElement(dif, wsdl4jPortType, wsdl4jOperation, wsdl4jInputMessage); } if (action != null) { if (inputActions == null) { inputActions = new ArrayList(); axisOperation.setWsamappingList(inputActions); } inputActions.add(action); axisService.mapActionToOperation(action, axisOperation); } } // Create an output message and add Output wsdl4jOutputMessage = wsdl4jOperation.getOutput(); if (null != wsdl4jOutputMessage) { AxisMessage outMessage = axisOperation .getMessage(WSDLConstants.MESSAGE_LABEL_OUT_VALUE); Message message = wsdl4jOutputMessage.getMessage(); if (null != message) { outMessage.setName(message.getQName().getLocalPart()); copyExtensionAttributes(wsdl4jInputMessage.getExtensionAttributes(), outMessage, PORT_TYPE_OPERATION_OUTPUT); // wsdl:portType -> wsdl:operation -> wsdl:output } // Check if the action is already set as we don't want to // override it // with the Default Action Pattern String action = axisOperation.getOutputAction(); if (action == null) { action = WSDL11ActionHelper.getActionFromOutputElement(dif, wsdl4jPortType, wsdl4jOperation, wsdl4jOutputMessage); } if (action != null) { axisOperation.setOutputAction(action); } } } else { // for the client side we have to do something that is a bit // weird. The in message is actually taken from the output // and the output is taken from the in if (null != wsdl4jInputMessage) { AxisMessage inMessage = axisOperation .getMessage(WSDLConstants.MESSAGE_LABEL_OUT_VALUE); Message message = wsdl4jInputMessage.getMessage(); if (null != message) { inMessage.setName(message.getQName().getLocalPart()); copyExtensionAttributes(wsdl4jInputMessage.getExtensionAttributes(), inMessage, PORT_TYPE_OPERATION_OUTPUT); } // Check if the action is already set as we don't want to // override it // with the Default Action Pattern String action = axisOperation.getOutputAction(); if (action == null) { action = WSDL11ActionHelper .getActionFromInputElement(dif, wsdl4jPortType, wsdl4jOperation, wsdl4jInputMessage); } if (action != null) { axisOperation.setOutputAction(action); } } // Create an output message and add Output wsdl4jOutputMessage = wsdl4jOperation.getOutput(); if (null != wsdl4jOutputMessage) { AxisMessage outMessage = axisOperation .getMessage(WSDLConstants.MESSAGE_LABEL_IN_VALUE); Message message = wsdl4jOutputMessage.getMessage(); if (null != message) { outMessage.setName(message.getQName().getLocalPart()); copyExtensionAttributes(wsdl4jInputMessage.getExtensionAttributes(), outMessage, PORT_TYPE_OPERATION_INPUT); // wsdl:portType -> wsdl:operation -> wsdl:output } // Check if the action is already set as we don't want to // override it // with the Default Action Pattern ArrayList inputActions = axisOperation.getWSAMappingList(); String action = null; if (inputActions == null || inputActions.size() == 0) { action = WSDL11ActionHelper.getActionFromOutputElement(dif, wsdl4jPortType, wsdl4jOperation, wsdl4jOutputMessage); } if (action != null) { if (inputActions == null) { inputActions = new ArrayList(); axisOperation.setWsamappingList(inputActions); } inputActions.add(action); } } } Map faults = wsdl4jOperation.getFaults(); Iterator faultKeyIterator = faults.keySet().iterator(); while (faultKeyIterator.hasNext()) { Fault fault = (Fault) faults.get(faultKeyIterator.next()); AxisMessage axisFaultMessage = new AxisMessage(); addDocumentation(axisFaultMessage,fault.getDocumentationElement()); Message faultMessage = fault.getMessage(); if (null != faultMessage) { axisFaultMessage .setName(faultMessage.getQName().getLocalPart()); copyExtensibleElements(faultMessage.getExtensibilityElements(), dif, axisFaultMessage, PORT_TYPE_OPERATION_FAULT); } // Check if the action is already set as we don't want to override // it // with the Default Action Pattern String action = axisOperation.getFaultAction(fault.getName()); if (action == null) { action = WSDL11ActionHelper.getActionFromFaultElement(dif, wsdl4jPortType, wsdl4jOperation, fault); } if (action != null) { axisOperation.addFaultAction(fault.getName(), action); } axisOperation.setFaultMessages(axisFaultMessage); } return axisOperation; } /** * Generates a list of wrapper schemas * * @param wsdl4jBinding */ private Element[] generateWrapperSchema(Map schemaMap, Binding wsdl4jBinding, PortType portType) { List schemaElementList = new ArrayList(); // target namespace for this should be the namespace URI for // the porttype String porttypeNamespaceURI = portType.getQName().getNamespaceURI(); // ////////////////////////////////////////////////////////////////////// // if there are any bindings present then we have to process them. we // have to generate a schema per wsdl4jBinding (that is the safest // option). // if not we just resolve to // the good old port type // list, in which case we'll generate a schema per porttype // ////////////////////////////////////////////////////////////////////// // findwrappable operations return either the rpc soap operations or // Http binding operations List wrappableBOEList = findWrappableBindingOperations(wsdl4jBinding); // this method returns all the new schemas created when processing the rpc messages Map newSchemaMap = createSchemaForPorttype(porttypeNamespaceURI, wrappableBOEList, schemaMap); schemaElementList.addAll(newSchemaMap.values()); return (Element[]) schemaElementList .toArray(new Element[schemaElementList.size()]); } /** * Create a schema by looking at the port type * * @param namespaceURI - namespace of the porttype uri. * we use this only if a user has not specified a namespace in soap:body * @param boeListToProcess - List of BindingOperationEntry objects which require wrappering * * @return null if there is no element */ private Map createSchemaForPorttype(String namespaceURI, List boeListToProcess, Map existingSchemaMap) { // this map is used to keep the newly added schemas Map newSchemaMap = new HashMap(); // first of all look at the operations list // we can return immediately if we get the operations list // as empty if (boeListToProcess.isEmpty()) { return newSchemaMap; } // loop through the messages. We'll populate thins map with the relevant // messages // from the operations Map messageQnameToMessageMap = new HashMap(); Map boeToInputMessageMap = new HashMap(); Map boeToOutputMessageMap = new HashMap(); // this contains the required namespace imports. the key in this // map would be the namaspace URI Map namespaceImportsMap = null; // list namespace prefix map. This map will include uri -> prefix Map namespacePrefixMap = null; // ////////////////////////////////////////////////////////////////////////////////////////////////// // First thing is to populate the message map with the messages to // process. // ////////////////////////////////////////////////////////////////////////////////////////////////// // we really need to do this for a single porttype! BindingOperationEntry boe; for (int k = 0; k < boeListToProcess.size(); k++) { boe = (BindingOperationEntry) boeListToProcess.get(k); Input input = boe.getBindingOperation().getOperation().getInput(); Message message; if (input != null) { message = input.getMessage(); messageQnameToMessageMap.put(message.getQName(), message); boeToInputMessageMap.put(boe, message); } Output output = boe.getBindingOperation().getOperation().getOutput(); if (output != null) { message = output.getMessage(); messageQnameToMessageMap.put(message.getQName(), message); boeToOutputMessageMap.put(boe, message); } // we do not want to process fault messages since they can only be used as document type // see basic profile 4.4.2 } // find the xsd prefix String xsdPrefix = findSchemaPrefix(); // DOM document that will be the ultimate creator Document document = getDOMDocumentBuilder().newDocument(); Element elementDeclaration; //loop through the input op map and generate the elements BindingOperationEntry boEntry; for (Iterator boeIter = boeToInputMessageMap.keySet().iterator(); boeIter.hasNext();) { boEntry = (BindingOperationEntry) boeIter.next(); elementDeclaration = document.createElementNS( XMLSCHEMA_NAMESPACE_URI, xsdPrefix + ":" + XML_SCHEMA_ELEMENT_LOCAL_NAME); elementDeclaration.setAttribute(XSD_NAME, boEntry.getBindingOperation().getName()); //when creating the inner complex type we have to find the parts list from the binding input BindingInput bindingInput = boEntry.getBindingOperation().getBindingInput(); Message message = (Message) boeToInputMessageMap.get(boEntry); if (bindingInput != null) { Collection partsCollection = null; if (BINDING_TYPE_SOAP.equals(this.bindingType)) { // first see the body parts list List bodyPartsList = getPartsListFromSoapBody(bindingInput.getExtensibilityElements()); partsCollection = message.getOrderedParts(bodyPartsList); } else { // i.e http binding partsCollection = message.getParts().values(); } List parameterOrder = boEntry.getBindingOperation().getOperation().getParameterOrdering(); namespaceImportsMap = new HashMap(); namespacePrefixMap = new HashMap(); Node newComplexType = getNewComplextType(document, xsdPrefix, partsCollection, parameterOrder, false, namespaceImportsMap, namespacePrefixMap, boEntry); elementDeclaration.appendChild(newComplexType); String namespaceToUse = namespaceURI; if (BINDING_TYPE_SOAP.equals(this.bindingType)) { String bodyNamespace = getNamespaceFromSoapBody(bindingInput.getExtensibilityElements()); namespaceToUse = bodyNamespace != null ? bodyNamespace : namespaceURI; } if (existingSchemaMap.containsKey(namespaceToUse)) { // i.e this namespace is already exists with the original wsdl schemas addElementToAnExistingSchema((Element) existingSchemaMap.get(namespaceToUse), elementDeclaration, namespacePrefixMap, namespaceImportsMap, namespaceToUse); } else if (newSchemaMap.containsKey(namespaceToUse)) { // i.e this namespace is with a newly created schema addElementToAnExistingSchema((Element) newSchemaMap.get(namespaceToUse), elementDeclaration, namespacePrefixMap, namespaceImportsMap, namespaceToUse); } else { // i.e this element namespace has not found yet so // we have to create new schema for it Element newSchema = createNewSchemaWithElement(elementDeclaration, namespacePrefixMap, namespaceImportsMap, namespaceToUse, document, xsdPrefix); newSchemaMap.put(namespaceToUse, newSchema); } resolvedRpcWrappedElementMap.put(boEntry.getBindingOperation().getName(), new QName( namespaceToUse, boEntry.getBindingOperation().getName(), AXIS2WRAPPED)); } else { throw new WSDLProcessingException( "No binding input is defiend for binding operation ==> " + boEntry.getBindingOperation().getName()); } } // loop through the output to map and generate the elements for (Iterator boeIterator = boeToOutputMessageMap.keySet().iterator(); boeIterator.hasNext();) { boEntry = (BindingOperationEntry) boeIterator.next(); String baseoutputOpName = boEntry.getBindingOperation().getName(); // see basic profile 4.7.19 String outputOpName = baseoutputOpName + WRAPPED_OUTPUTNAME_SUFFIX; elementDeclaration = document.createElementNS( XMLSCHEMA_NAMESPACE_URI, xsdPrefix + ":" + XML_SCHEMA_ELEMENT_LOCAL_NAME); elementDeclaration.setAttribute(XSD_NAME, outputOpName); BindingOutput bindingOutput = boEntry.getBindingOperation().getBindingOutput(); Message message = (Message) boeToOutputMessageMap.get(boEntry); if (bindingOutput != null) { Collection partsCollection = null; if (BINDING_TYPE_SOAP.equals(this.bindingType)) { // first see the body parts list List bodyPartsList = getPartsListFromSoapBody(bindingOutput.getExtensibilityElements()); partsCollection = message.getOrderedParts(bodyPartsList); } else { // i.e if http binding partsCollection = message.getParts().values(); } List parameterOrder = boEntry.getBindingOperation().getOperation().getParameterOrdering(); // we have to initialize the hash maps always since we add the elements onece we // generate it namespacePrefixMap = new HashMap(); namespaceImportsMap = new HashMap(); Node newComplexType = getNewComplextType(document, xsdPrefix, partsCollection, parameterOrder, true, namespaceImportsMap, namespacePrefixMap, boEntry); elementDeclaration.appendChild(newComplexType); String namespaceToUse = namespaceURI; if (BINDING_TYPE_SOAP.equals(this.bindingType)) { String bodyNamespace = getNamespaceFromSoapBody(bindingOutput.getExtensibilityElements()); namespaceToUse = bodyNamespace != null ? bodyNamespace : namespaceURI; } if (existingSchemaMap.containsKey(namespaceToUse)) { // i.e this namespace is already exists with the original wsdl schemas addElementToAnExistingSchema((Element) existingSchemaMap.get(namespaceToUse), elementDeclaration, namespacePrefixMap, namespaceImportsMap, namespaceToUse); } else if (newSchemaMap.containsKey(namespaceToUse)) { // i.e this namespace is with a newly created schema addElementToAnExistingSchema((Element) newSchemaMap.get(namespaceToUse), elementDeclaration, namespacePrefixMap, namespaceImportsMap, namespaceToUse); } else { // i.e this element namespace has not found yet so // we have to create new schema for it Element newSchema = createNewSchemaWithElement(elementDeclaration, namespacePrefixMap, namespaceImportsMap, namespaceToUse, document, xsdPrefix); newSchemaMap.put(namespaceToUse, newSchema); } resolvedRpcWrappedElementMap.put(outputOpName, new QName( namespaceToUse, outputOpName, AXIS2WRAPPED)); } else { throw new WSDLProcessingException( "No binding out put is defined for binding operation ==>" + boEntry.getBindingOperation().getName()); } } return newSchemaMap; } private void addElementToAnExistingSchema(Element schemaElement, Element newElement, Map namespacePrefixMap, Map namespaceImportsMap, String targetNamespace) { Document ownerDocument = schemaElement.getOwnerDocument(); // loop through the namespace declarations first and add them String[] nameSpaceDeclarationArray = (String[]) namespacePrefixMap .keySet().toArray(new String[namespacePrefixMap.size()]); for (int i = 0; i < nameSpaceDeclarationArray.length; i++) { String s = nameSpaceDeclarationArray[i]; checkAndAddNamespaceDeclarations(s, namespacePrefixMap, schemaElement); } // add imports - check whether it is the targetnamespace before // adding Element[] namespaceImports = (Element[]) namespaceImportsMap .values().toArray(new Element[namespaceImportsMap.size()]); for (int i = 0; i < namespaceImports.length; i++) { if (!targetNamespace.equals(namespaceImports[i] .getAttribute(NAMESPACE_URI))) { schemaElement.appendChild(ownerDocument.importNode( namespaceImports[i], true)); } } schemaElement.appendChild(ownerDocument.importNode(newElement, true)); } private Element createNewSchemaWithElement(Element newElement, Map namespacePrefixMap, Map namespaceImportsMap, String targetNamespace, Document document, String xsdPrefix) { Element schemaElement = document.createElementNS( XMLSCHEMA_NAMESPACE_URI, xsdPrefix + ":" + XML_SCHEMA_LOCAL_NAME); // loop through the namespace declarations first String[] nameSpaceDeclarationArray = (String[]) namespacePrefixMap .keySet().toArray(new String[namespacePrefixMap.size()]); for (int i = 0; i < nameSpaceDeclarationArray.length; i++) { String s = nameSpaceDeclarationArray[i]; schemaElement.setAttributeNS(XML_NAMESPACE_URI, NAMESPACE_DECLARATION_PREFIX + namespacePrefixMap.get(s).toString(), s); } if (schemaElement.getAttributeNS(XML_NAMESPACE_URI, xsdPrefix).length() == 0) { schemaElement.setAttributeNS(XML_NAMESPACE_URI, NAMESPACE_DECLARATION_PREFIX + xsdPrefix, XMLSCHEMA_NAMESPACE_URI); } // add the targetNamespace schemaElement.setAttributeNS(XML_NAMESPACE_URI, XMLNS_AXIS2WRAPPED, targetNamespace); schemaElement.setAttribute(XSD_TARGETNAMESPACE, targetNamespace); schemaElement.setAttribute(XSD_ELEMENT_FORM_DEFAULT, XSD_UNQUALIFIED); // add imports Element[] namespaceImports = (Element[]) namespaceImportsMap .values().toArray(new Element[namespaceImportsMap.size()]); for (int i = 0; i < namespaceImports.length; i++) { schemaElement.appendChild(namespaceImports[i]); } schemaElement.appendChild(newElement); return schemaElement; } private List getPartsListFromSoapBody(List extensibilityElements) { List partsList = null; ExtensibilityElement extElement; for (Iterator iter = extensibilityElements.iterator(); iter.hasNext();) { extElement = (ExtensibilityElement) iter.next(); if (log.isDebugEnabled()) { log.debug("Extensibility Element type is:" + extElement.getElementType()); log.debug("Extensibility Element class is:" + extElement.getClass().getName()); } // SOAP 1.1 body element found! if (extElement instanceof SOAPBody) { SOAPBody soapBody = (SOAPBody) extElement; partsList = soapBody.getParts(); } else if (extElement instanceof SOAP12Body) { SOAP12Body soapBody = (SOAP12Body) extElement; partsList = soapBody.getParts(); } else if (extElement instanceof MIMEMultipartRelated) { MIMEMultipartRelated minMimeMultipartRelated = (MIMEMultipartRelated) extElement; List mimePartsList = minMimeMultipartRelated.getMIMEParts(); MIMEPart mimePart = null; Object object; List mimePartElements; ExtensibilityElement mimePartExtensibilityElement; for (Iterator mimePartsIter = mimePartsList.iterator(); mimePartsIter.hasNext();) { object = mimePartsIter.next(); if (object instanceof MIMEPart) { mimePart = (MIMEPart) object; mimePartElements = mimePart.getExtensibilityElements(); for (Iterator mimePartElementsIter = mimePartElements.iterator(); mimePartElementsIter.hasNext();) { mimePartExtensibilityElement = (ExtensibilityElement) mimePartElementsIter.next(); if (mimePartExtensibilityElement instanceof SOAPBody) { SOAPBody soapBody = (SOAPBody) mimePartExtensibilityElement; partsList = soapBody.getParts(); } else if (mimePartExtensibilityElement instanceof SOAP12Body) { SOAP12Body soapBody = (SOAP12Body) mimePartExtensibilityElement; partsList = soapBody.getParts(); } } } } } } if (partsList == null) { log.debug("SOAP body parts have not been set. All the parts in the message were added to the message."); } return partsList; } private String getNamespaceFromSoapBody(List extensibilityElements) { ExtensibilityElement extElement; String namespace = null; for (Iterator iter = extensibilityElements.iterator(); iter.hasNext();) { extElement = (ExtensibilityElement) iter.next(); // SOAP 1.1 body element found! if (extElement instanceof SOAPBody) { SOAPBody soapBody = (SOAPBody) extElement; namespace = soapBody.getNamespaceURI(); } else if (extElement instanceof SOAP12Body) { SOAP12Body soapBody = (SOAP12Body) extElement; namespace = soapBody.getNamespaceURI(); } } return namespace; } /** * creates a new shema complex element according to the elements sequence difined * this parts list is always for a message refering from the * soap rpc type operation * * @param document * @param xsdPrefix * @param partsCollection - parts to be added * @param parameterOrder - param Order list if it is given * @param isOutMessage * @param namespaceImportsMap * @param namespacePrefixMap * @param boe BindingOperationEntry for this partCollection * @return new element */ private Element getNewComplextType(Document document, String xsdPrefix, Collection partsCollection, List parameterOrder, boolean isOutMessage, Map namespaceImportsMap, Map namespacePrefixMap, BindingOperationEntry boe) { // add the complex type Element newComplexType = document.createElementNS( XMLSCHEMA_NAMESPACE_URI, xsdPrefix + ":" + XML_SCHEMA_COMPLEX_TYPE_LOCAL_NAME); Element cmplxTypeSequence = document.createElementNS( XMLSCHEMA_NAMESPACE_URI, xsdPrefix + ":" + XML_SCHEMA_SEQUENCE_LOCAL_NAME); Part part; if ((parameterOrder == null) || (parameterOrder.size() == 0)) { // no parameter order then just add the elements in the parts collection for (Iterator partsIter = partsCollection.iterator(); partsIter.hasNext();) { part = (Part) partsIter.next(); // the part name addPartToElement(part, document, xsdPrefix, namespaceImportsMap, namespacePrefixMap, cmplxTypeSequence, isOutMessage, boe); } } else { // i.e an parts order is given // first populate all the parts to a map Map partsMap = new HashMap(); for (Iterator partsIter = partsCollection.iterator(); partsIter.hasNext();) { part = (Part) partsIter.next(); partsMap.put(part.getName(), part); } String partName; for (Iterator paramOrderIter = parameterOrder.iterator(); paramOrderIter.hasNext();) { partName = (String) paramOrderIter.next(); part = (Part) partsMap.get(partName); if (part != null) { addPartToElement(part, document, xsdPrefix, namespaceImportsMap, namespacePrefixMap, cmplxTypeSequence, isOutMessage, boe); partsMap.remove(partName); } } // if this is an output message then we have to set the // return type if exists if (isOutMessage) { if (partsMap.size() > 0) { if (partsMap.size() == 1) { part = (Part) partsMap.values().iterator().next(); // change the name of this part // this is the return type and its name should be result // part.setName("result"); addPartToElement(part, document, xsdPrefix, namespaceImportsMap, namespacePrefixMap, cmplxTypeSequence, isOutMessage, boe); } else { throw new WSDLProcessingException("the parameter order can left atmost" + " one part"); } } } } newComplexType.appendChild(cmplxTypeSequence); return newComplexType; } /** * @param part * @param document * @param xsdPrefix * @param namespaceImportsMap * @param namespacePrefixMap * @param cmplxTypeSequence * @param isOutMessage (true is part is referenced by the output clause) * @param boe BindingOperationEntry that caused the creation of this part. */ private void addPartToElement(Part part, Document document, String xsdPrefix, Map namespaceImportsMap, Map namespacePrefixMap, Element cmplxTypeSequence, boolean isOutMessage, BindingOperationEntry boe) { Element child; String elementName = part.getName(); // the type name QName schemaTypeName = part.getTypeName(); if (schemaTypeName != null) { child = document.createElementNS(XMLSCHEMA_NAMESPACE_URI, xsdPrefix + ":" + XML_SCHEMA_ELEMENT_LOCAL_NAME); // always child attribute should be in no namespace child.setAttribute("form", "unqualified"); String prefix; if (XMLSCHEMA_NAMESPACE_URI.equals(schemaTypeName.getNamespaceURI())) { prefix = xsdPrefix; } else { // this schema is a third party one. So we need to have // an import statement in our generated schema String uri = schemaTypeName.getNamespaceURI(); if (!namespaceImportsMap.containsKey(uri)) { // create Element for namespace import Element namespaceImport = document.createElementNS( XMLSCHEMA_NAMESPACE_URI, xsdPrefix + ":" + XML_SCHEMA_IMPORT_LOCAL_NAME); namespaceImport.setAttribute(NAMESPACE_URI, uri); // add this to the map namespaceImportsMap.put(uri, namespaceImport); // we also need to associate this uri with a prefix // and include that prefix // in the schema's namspace declarations. So add // theis particular namespace to the // prefix map as well prefix = getTemporaryNamespacePrefix(); namespacePrefixMap.put(uri, prefix); } else { // this URI should be already in the namspace prefix // map prefix = (String) namespacePrefixMap.get(uri); } } child.setAttribute(XSD_NAME, elementName); child.setAttribute(XSD_TYPE, prefix + ":" + schemaTypeName.getLocalPart()); cmplxTypeSequence.appendChild(child); } else { String bindingOperationName = boe.getBindingOperation().getName(); String partName = part.getName(); if (boe.isRPC()) { // see the basic profile 4.4.1 for rpc-literal. // messages parts can have only types throw new WSDLProcessingException( "The binding operation " + bindingOperationName + " is RPC/literal. " + "The message parts for this operation must use the type " + "attribute as specificed by " + "WS-I Basic Profile specification (4.4.1). Message part, " + partName + ", violates" + "this rule. Please remove the element attribute " + "and use the type attribute."); } else { // The presense of an element means that a wrapper xsd element is not needed. boe.setWrappedOutput(false); if (log.isDebugEnabled()) { log.debug("The binding operation " + bindingOperationName + " references message part " + partName + ". This part does not use the " + "type attribute, so a wrappering element is not added."); } } } } /** * @param prefixMap */ private void checkAndAddNamespaceDeclarations(String namespace, Map prefixMap, Element schemaElement) { // get the attribute for the current namespace String prefix = (String) prefixMap.get(namespace); // A prefix must be found at this point! String existingURL = schemaElement.getAttributeNS(XML_NAMESPACE_URI, NAMESPACE_DECLARATION_PREFIX + prefix); if (existingURL == null || existingURL.length() == 0) { // there is no existing URL by that prefix - declare a new namespace schemaElement.setAttributeNS(XML_NAMESPACE_URI, NAMESPACE_DECLARATION_PREFIX + prefix, namespace); } else if (existingURL.equals(namespace)) { // this namespace declaration is already there with the same prefix // ignore it } else { // there is a different namespace declared in the given prefix // change the prefix in the prefix map to a new one and declare it // create a prefix String generatedPrefix = "ns" + prefixCounter++; while (prefixMap.containsKey(generatedPrefix)) { generatedPrefix = "ns" + prefixCounter++; } schemaElement.setAttributeNS(XML_NAMESPACE_URI, NAMESPACE_DECLARATION_PREFIX + generatedPrefix, namespace); // add to the map prefixMap.put(namespace, generatedPrefix); } } /** * Read the WSDL file given the inputstream for the WSDL source * * @param in * @throws WSDLException */ private Definition readInTheWSDLFile(InputStream in) throws WSDLException { WSDLReader reader = WSDLFactory.newInstance().newWSDLReader(); // switch off the verbose mode for all usecases reader.setFeature(JAVAX_WSDL_VERBOSE_MODE_KEY, false); reader.setFeature("javax.wsdl.importDocuments", true); Definition def; // if the custem resolver is present then use it if (customWSDLResolver != null) { // make sure the wsdl definition has the URI for the base document set def = reader.readWSDL(customWSDLResolver); def.setDocumentBaseURI(customWSDLResolver.getBaseURI()); return def; } else { Document doc; try { doc = XMLUtils.newDocument(in); } catch (ParserConfigurationException e) { throw new WSDLException(WSDLException.PARSER_ERROR, "Parser Configuration Error", e); } catch (SAXException e) { throw new WSDLException(WSDLException.PARSER_ERROR, "Parser SAX Error", e); } catch (IOException e) { throw new WSDLException(WSDLException.INVALID_WSDL, "IO Error", e); } // Log when and from where the WSDL is loaded. if (log.isDebugEnabled()) { log.debug("Reading 1.1 WSDL with base uri = " + getBaseUri()); log.debug(" the document base uri = " + getDocumentBaseUri()); log.trace(" the stack at this point is: " + stackToString()); } def = reader.readWSDL(getBaseUri(), doc); def.setDocumentBaseURI(getDocumentBaseUri()); return def; } } /** * Get the Extensible elements form wsdl4jExtensibleElements * Vector if any and copy them to Component *

Note - SOAP body extensible element will be processed differently * * @param wsdl4jExtensibleElements * @param description where is the ext element (port , portype , biding) * @param wsdl4jDefinition * @param originOfExtensibilityElements - * this will indicate the place this extensibility element came * from. */ private void copyExtensibleElements(List wsdl4jExtensibleElements, Definition wsdl4jDefinition, AxisDescription description, String originOfExtensibilityElements) throws AxisFault { ExtensibilityElement wsdl4jExtensibilityElement; for (Iterator iterator = wsdl4jExtensibleElements.iterator(); iterator.hasNext();) { wsdl4jExtensibilityElement = (ExtensibilityElement) iterator.next(); if (wsdl4jExtensibilityElement instanceof UnknownExtensibilityElement) { UnknownExtensibilityElement unknown = (UnknownExtensibilityElement) (wsdl4jExtensibilityElement); QName type = unknown.getElementType(); // if (WSDLConstants.WSDL11Constants.POLICY.equals(type)) { if (isTraceEnabled) { log.trace("copyExtensibleElements:: PolicyElement found " + unknown); } Policy policy = (Policy) PolicyUtil.getPolicyComponent(unknown.getElement()); description.getPolicySubject().attachPolicy(policy); // int attachmentScope = // getPolicyAttachmentPoint(description, originOfExtensibilityElements); // if (attachmentScope > -1) { // description.getPolicyInclude().addPolicyElement( // attachmentScope, policy); // } // } else if (WSDLConstants.WSDL11Constants.POLICY_REFERENCE .equals(type)) { if (isTraceEnabled) { log.trace("copyExtensibleElements:: PolicyReference found " + unknown); } PolicyReference policyReference = (PolicyReference) PolicyUtil .getPolicyComponent(unknown.getElement()); description.getPolicySubject().attachPolicyReference(policyReference); // int attachmentScope = // getPolicyAttachmentPoint(description, originOfExtensibilityElements); // if (attachmentScope > -1) { // description.getPolicyInclude().addPolicyRefElement( // attachmentScope, policyReference); // } } else if (AddressingConstants.Final.WSAW_USING_ADDRESSING .equals(type) || AddressingConstants.Submission.WSAW_USING_ADDRESSING .equals(unknown.getElementType())) { if (isTraceEnabled) { log.trace("copyExtensibleElements:: wsaw:UsingAddressing found " + unknown); } // FIXME We need to set this the appropriate Axis Description AxisEndpoint or // AxisBinding . if (originOfExtensibilityElements.equals(PORT) || originOfExtensibilityElements.equals(BINDING)) { if (Boolean.TRUE.equals(unknown.getRequired())) { AddressingHelper.setAddressingRequirementParemeterValue(axisService, AddressingConstants.ADDRESSING_REQUIRED); } else { AddressingHelper.setAddressingRequirementParemeterValue(axisService, AddressingConstants.ADDRESSING_OPTIONAL); } } } else if (wsdl4jExtensibilityElement.getElementType() != null && wsdl4jExtensibilityElement.getElementType().getNamespaceURI().equals( org.apache.axis2.namespace.Constants.FORMAT_BINDING)) { Element typeMapping = unknown.getElement(); NodeList typeMaps = typeMapping.getElementsByTagNameNS( org.apache.axis2.namespace.Constants.FORMAT_BINDING, "typeMap"); int count = typeMaps.getLength(); HashMap typeMapper = new HashMap(); for (int index = 0; index < count; index++) { Node node = typeMaps.item(index); NamedNodeMap attributes = node.getAttributes(); Node typeName = attributes.getNamedItem("typeName"); if (typeName != null) { String prefix = getPrefix(typeName.getNodeValue()); if (prefix != null) { String ns = (String) wsdl4jDefinition.getNamespaces().get(prefix); if (ns != null) { Node formatType = attributes.getNamedItem("formatType"); typeMapper.put(new QName(ns, getTypeName( typeName.getNodeValue())), formatType.getNodeValue()); } } } } } else if (wsdl4jExtensibilityElement.getElementType() != null && wsdl4jExtensibilityElement.getElementType().getNamespaceURI().equals( org.apache.axis2.namespace.Constants.JAVA_NS)) { Element unknowJavaElement = unknown.getElement(); if (unknowJavaElement.getLocalName().equals("address") ) { NamedNodeMap nameAttributes = unknowJavaElement.getAttributes(); Node node = nameAttributes.getNamedItem("className"); Parameter serviceClass = new Parameter(); serviceClass.setName("className"); serviceClass.setValue(node.getNodeValue()); axisService.addParameter(serviceClass); Parameter transportName = new Parameter(); transportName.setName("TRANSPORT_NAME"); transportName.setValue("java"); axisService.addParameter(transportName); } } else { // Ignore this element - it is a totally unknown element if (isTraceEnabled) { log.trace("copyExtensibleElements:: Unknown Extensibility Element found " + unknown); } } } else if (wsdl4jExtensibilityElement instanceof SOAP12Address) { SOAP12Address soapAddress = (SOAP12Address) wsdl4jExtensibilityElement; if (description instanceof AxisEndpoint) { setEndpointURL((AxisEndpoint) description, soapAddress.getLocationURI()); } } else if (wsdl4jExtensibilityElement instanceof SOAPAddress) { SOAPAddress soapAddress = (SOAPAddress) wsdl4jExtensibilityElement; if (description instanceof AxisEndpoint) { setEndpointURL((AxisEndpoint) description, soapAddress.getLocationURI()); } } else if (wsdl4jExtensibilityElement instanceof HTTPAddress) { HTTPAddress httpAddress = (HTTPAddress) wsdl4jExtensibilityElement; if (description instanceof AxisEndpoint) { setEndpointURL((AxisEndpoint) description, httpAddress.getLocationURI()); } } else if (wsdl4jExtensibilityElement instanceof Schema) { Schema schema = (Schema) wsdl4jExtensibilityElement; // just add this schema - no need to worry about the imported // ones axisService.addSchema(getXMLSchema(schema.getElement(), schema .getDocumentBaseURI())); } else if (wsdl4jExtensibilityElement instanceof SOAP12Operation) { SOAP12Operation soapOperation = (SOAP12Operation) wsdl4jExtensibilityElement; AxisBindingOperation axisBindingOperation = (AxisBindingOperation) description; String style = soapOperation.getStyle(); if (style != null) { axisBindingOperation.setProperty(WSDLConstants.WSDL_1_1_STYLE, style); } String soapActionURI = soapOperation.getSoapActionURI(); if (this.isCodegen && ((soapActionURI == null) || (soapActionURI.equals("")))) { soapActionURI = axisBindingOperation.getAxisOperation().getInputAction(); } if (LoggingControl.debugLoggingAllowed && log.isDebugEnabled()) log.debug("WSDL Binding Operation: " + axisBindingOperation.getName() + ", SOAPAction: " + soapActionURI); if (soapActionURI != null && !soapActionURI.equals("")) { axisBindingOperation .setProperty(WSDL2Constants.ATTR_WSOAP_ACTION, soapActionURI); axisBindingOperation.getAxisOperation().setSoapAction(soapActionURI); if (!isServerSide) { axisBindingOperation.getAxisOperation().setOutputAction(soapActionURI); } axisService.mapActionToOperation(soapActionURI, axisBindingOperation.getAxisOperation()); } } else if (wsdl4jExtensibilityElement instanceof SOAPOperation) { SOAPOperation soapOperation = (SOAPOperation) wsdl4jExtensibilityElement; AxisBindingOperation axisBindingOperation = (AxisBindingOperation) description; String style = soapOperation.getStyle(); if (style != null) { axisBindingOperation.setProperty(WSDLConstants.WSDL_1_1_STYLE, style); } String soapAction = soapOperation.getSoapActionURI(); if (this.isCodegen && ((soapAction == null) || (soapAction.equals("")))) { soapAction = axisBindingOperation.getAxisOperation().getInputAction(); } if (LoggingControl.debugLoggingAllowed && log.isDebugEnabled()) log.debug("WSDL Binding Operation: " + axisBindingOperation.getName() + ", SOAPAction: " + soapAction); if (soapAction != null && !soapAction.equals("")) { axisBindingOperation.setProperty(WSDL2Constants.ATTR_WSOAP_ACTION, soapAction); axisBindingOperation.getAxisOperation().setSoapAction(soapAction); if (!isServerSide) { axisBindingOperation.getAxisOperation().setOutputAction(soapAction); } axisService.mapActionToOperation(soapAction, axisBindingOperation.getAxisOperation()); } } else if (wsdl4jExtensibilityElement instanceof HTTPOperation) { HTTPOperation httpOperation = (HTTPOperation) wsdl4jExtensibilityElement; AxisBindingOperation axisBindingOperation = (AxisBindingOperation) description; String httpLocation = httpOperation.getLocationURI(); if (httpLocation != null) { // change the template to make it same as WSDL 2 template httpLocation = httpLocation.replaceAll("\\(", "{"); httpLocation = httpLocation.replaceAll("\\)", "}"); axisBindingOperation .setProperty(WSDL2Constants.ATTR_WHTTP_LOCATION, httpLocation); } axisBindingOperation.setProperty(WSDL2Constants.ATTR_WHTTP_INPUT_SERIALIZATION, HTTPConstants.MEDIA_TYPE_X_WWW_FORM); } else if (wsdl4jExtensibilityElement instanceof SOAP12Header) { SOAP12Header soapHeader = (SOAP12Header) wsdl4jExtensibilityElement; SOAPHeaderMessage headerMessage = new SOAPHeaderMessage(); headerMessage.setNamespaceURI(soapHeader.getNamespaceURI()); headerMessage.setUse(soapHeader.getUse()); Boolean required = soapHeader.getRequired(); if (required != null) { headerMessage.setRequired(required.booleanValue()); } if (wsdl4jDefinition != null) { // find the relevant schema part from the messages Message msg = wsdl4jDefinition.getMessage(soapHeader .getMessage()); if (msg == null) { // TODO i18n this throw new AxisFault("message " + soapHeader.getMessage() + " not found in the WSDL "); } Part msgPart = msg.getPart(soapHeader.getPart()); if (msgPart == null) { // TODO i18n this throw new AxisFault("message part " + soapHeader.getPart() + " not found in the WSDL "); } // see basic profile 4.4.2 Bindings and Faults header, fault and headerfaults // can only have elements headerMessage.setElement(msgPart.getElementName()); } headerMessage.setMessage(soapHeader.getMessage()); headerMessage.setPart(soapHeader.getPart()); if (description instanceof AxisBindingMessage) { AxisBindingMessage bindingMessage = (AxisBindingMessage) description; List soapHeaders = (List) bindingMessage.getProperty(WSDL2Constants.ATTR_WSOAP_HEADER); if (soapHeaders == null) { soapHeaders = new ArrayList(); bindingMessage.setProperty(WSDL2Constants.ATTR_WSOAP_HEADER, soapHeaders); } soapHeaders.add(headerMessage); } } else if (wsdl4jExtensibilityElement instanceof SOAPHeader) { SOAPHeader soapHeader = (SOAPHeader) wsdl4jExtensibilityElement; SOAPHeaderMessage headerMessage = new SOAPHeaderMessage(); headerMessage.setNamespaceURI(soapHeader.getNamespaceURI()); headerMessage.setUse(soapHeader.getUse()); Boolean required = soapHeader.getRequired(); if (null != required) { headerMessage.setRequired(required.booleanValue()); } if (null != wsdl4jDefinition) { // find the relevant schema part from the messages Message msg = wsdl4jDefinition.getMessage(soapHeader .getMessage()); if (msg == null) { // todo i18n this throw new AxisFault("message " + soapHeader.getMessage() + " not found in the WSDL "); } Part msgPart = msg.getPart(soapHeader.getPart()); if (msgPart == null) { // todo i18n this throw new AxisFault("message part " + soapHeader.getPart() + " not found in the WSDL "); } headerMessage.setElement(msgPart.getElementName()); } headerMessage.setMessage(soapHeader.getMessage()); headerMessage.setPart(soapHeader.getPart()); if (description instanceof AxisBindingMessage) { AxisBindingMessage bindingMessage = (AxisBindingMessage) description; List soapHeaders = (List) bindingMessage.getProperty(WSDL2Constants.ATTR_WSOAP_HEADER); if (soapHeaders == null) { soapHeaders = new ArrayList(); bindingMessage.setProperty(WSDL2Constants.ATTR_WSOAP_HEADER, soapHeaders); } soapHeaders.add(headerMessage); } } else if (wsdl4jExtensibilityElement instanceof SOAPBinding) { SOAPBinding soapBinding = (SOAPBinding) wsdl4jExtensibilityElement; AxisBinding axisBinding = (AxisBinding) description; axisBinding.setType(soapBinding.getTransportURI()); axisBinding.setProperty(WSDL2Constants.ATTR_WSOAP_VERSION, SOAP11Constants.SOAP_ENVELOPE_NAMESPACE_URI); String style = soapBinding.getStyle(); if (style != null) { axisBinding.setProperty(WSDLConstants.WSDL_1_1_STYLE, style); } } else if (wsdl4jExtensibilityElement instanceof SOAP12Binding) { SOAP12Binding soapBinding = (SOAP12Binding) wsdl4jExtensibilityElement; AxisBinding axisBinding = (AxisBinding) description; axisBinding.setProperty(WSDL2Constants.ATTR_WSOAP_VERSION, SOAP12Constants.SOAP_ENVELOPE_NAMESPACE_URI); String style = soapBinding.getStyle(); if (style != null) { axisBinding.setProperty(WSDLConstants.WSDL_1_1_STYLE, style); } String transportURI = soapBinding.getTransportURI(); axisBinding.setType(transportURI); } else if (wsdl4jExtensibilityElement instanceof HTTPBinding) { HTTPBinding httpBinding = (HTTPBinding) wsdl4jExtensibilityElement; AxisBinding axisBinding = (AxisBinding) description; // set the binding style same as the wsd2 to process smoothly axisBinding.setType(WSDL2Constants.URI_WSDL2_HTTP); axisBinding.setProperty(WSDL2Constants.ATTR_WHTTP_METHOD, httpBinding.getVerb()); } } } private int getPolicyAttachmentPoint(AxisDescription description, String originOfExtensibilityElements) { int result = -1; // Attachment Point Not Identified if (SERVICE.equals(originOfExtensibilityElements)) { result = PolicyInclude.SERVICE_POLICY; } else if (PORT.equals(originOfExtensibilityElements)) { result = PolicyInclude.PORT_POLICY; } else if (BINDING.equals(originOfExtensibilityElements)) { result = PolicyInclude.BINDING_POLICY; } else if (BINDING_OPERATION.equals(originOfExtensibilityElements)) { result = PolicyInclude.BINDING_OPERATION_POLICY; } else if (BINDING_OPERATION_INPUT.equals(originOfExtensibilityElements)) { result = PolicyInclude.BINDING_INPUT_POLICY; } else if (BINDING_OPERATION_OUTPUT.equals(originOfExtensibilityElements)) { result = PolicyInclude.BINDING_OUTPUT_POLICY; } else if (PORT_TYPE.equals(originOfExtensibilityElements)) { result = PolicyInclude.PORT_TYPE_POLICY; } else if (PORT_TYPE_OPERATION.equals(originOfExtensibilityElements)) { result = PolicyInclude.OPERATION_POLICY; } else if (PORT_TYPE_OPERATION_INPUT.equals(originOfExtensibilityElements)) { result = PolicyInclude.INPUT_POLICY; } else if (PORT_TYPE_OPERATION_OUTPUT.equals(originOfExtensibilityElements)) { result = PolicyInclude.OUTPUT_POLICY; } if (isTraceEnabled) { log.trace("getPolicyAttachmentPoint:: axisDescription=" + description + " extensibilityPoint=" + originOfExtensibilityElements + " result=" + result); } return result; } /** * Look for the wrappable operations depending on the style * * @param binding * @return List of BindingOperationEntry objects */ private List findWrappableBindingOperations(Binding binding) { // first find the global style declaration. // for a SOAP binding this can be only rpc or document // as per the WSDL spec (section 3.4) the default style is document // now we have to handle the http bindings case as well // boolean isRPC = false; boolean isSOAPBinding = false; boolean isHttpBinding = false; List extElements = binding.getExtensibilityElements(); for (int i = 0; i < extElements.size(); i++) { if (extElements.get(i) instanceof SOAPBinding) { // we have a global SOAP binding! isSOAPBinding = true; SOAPBinding soapBinding = (SOAPBinding) extElements.get(i); if (RPC_STYLE.equals(soapBinding.getStyle())) { // set the global style to rpc isRPC = true; } this.bindingType = BINDING_TYPE_SOAP; break; } else if (extElements.get(i) instanceof SOAP12Binding) { // we have a global SOAP binding! isSOAPBinding = true; SOAP12Binding soapBinding = (SOAP12Binding) extElements.get(i); if (RPC_STYLE.equals(soapBinding.getStyle())) { // set the global style to rpc isRPC = true; } this.bindingType = BINDING_TYPE_SOAP; break; } else if (extElements.get(i) instanceof HTTPBinding) { isHttpBinding = true; this.bindingType = BINDING_TYPE_HTTP; } } if (log.isDebugEnabled()) { log.debug("Binding Name =" + binding.getQName()); log.debug(" isSOAPBinding =" + isSOAPBinding ); log.debug(" isHttpBinding =" + isHttpBinding ); log.debug(" isRPC =" + isRPC ); } // go through every operation and get their styles. // each one can have a style override from the global // styles. Depending on the style add the relevant operations // to the return list List returnList = new ArrayList(); if (isHttpBinding || isSOAPBinding) { BindingOperation bindingOp; for (Iterator bindingOperationsIterator = binding.getBindingOperations().iterator(); bindingOperationsIterator.hasNext();) { bindingOp = (BindingOperation) bindingOperationsIterator.next(); if (log.isDebugEnabled()) { log.debug(" Binding Operation =" + bindingOp.getName()); } if (isSOAPBinding) { String style = getSOAPStyle(bindingOp); if (log.isDebugEnabled()) { log.debug(" SOAPStyle =" + style); } if (style == null) { // no style specified // use the global style to determine whether to put this one or // not if (isRPC) { if (log.isDebugEnabled()) { log.debug(" schema wrappering required"); } BindingOperationEntry boe = new BindingOperationEntry(bindingOp, true, false, style, true); returnList.add(boe); } } else if (RPC_STYLE.equals(style)) { // add to the list if (log.isDebugEnabled()) { log.debug(" schema wrappering required"); } BindingOperationEntry boe = new BindingOperationEntry(bindingOp, true, false, style, true); returnList.add(boe); } // if not RPC we just leave it - default is doc } else { // i.e an http binding then we have to add the operation any way if (log.isDebugEnabled()) { log.debug(" schema wrappering required"); } BindingOperationEntry boe = new BindingOperationEntry(bindingOp, false, true, null, false); returnList.add(boe); } } } // if the binding is not either soap or http binding then we return and empty list // set this to the global list wrappableBOEs = returnList; return returnList; } /** * Guess the MEP based on the order of messages * * @param operation * @throws AxisFault */ private String getMEP(Operation operation) throws AxisFault { OperationType operationType = operation.getStyle(); if (isServerSide) { if (operationType != null) { if (operationType.equals(OperationType.REQUEST_RESPONSE)) { return WSDL2Constants.MEP_URI_IN_OUT; } if (operationType.equals(OperationType.ONE_WAY)) { if (operation.getFaults().size() > 0) { return WSDL2Constants.MEP_URI_ROBUST_IN_ONLY; } return WSDL2Constants.MEP_URI_IN_ONLY; } if (operationType.equals(OperationType.NOTIFICATION)) { return WSDL2Constants.MEP_URI_OUT_ONLY; } if (operationType.equals(OperationType.SOLICIT_RESPONSE)) { return WSDL2Constants.MEP_URI_OUT_IN; } throw new AxisFault("Cannot Determine the MEP"); } } else { if (operationType != null) { if (operationType.equals(OperationType.REQUEST_RESPONSE)) { return WSDL2Constants.MEP_URI_OUT_IN; } if (operationType.equals(OperationType.ONE_WAY)) { return WSDL2Constants.MEP_URI_OUT_ONLY; } if (operationType.equals(OperationType.NOTIFICATION)) { return WSDL2Constants.MEP_URI_IN_ONLY; } if (operationType.equals(OperationType.SOLICIT_RESPONSE)) { return WSDL2Constants.MEP_URI_IN_OUT; } throw new AxisFault("Cannot Determine the MEP"); } } throw new AxisFault("Cannot Determine the MEP"); } /** * Copies the extension attributes * * @param extAttributes * @param description * @param origin */ private void copyExtensionAttributes(Map extAttributes, AxisDescription description, String origin) { QName key; QName value; for (Iterator iterator = extAttributes.keySet().iterator(); iterator .hasNext();) { key = (QName) iterator.next(); if (Constants.URI_POLICY_NS.equals(key.getNamespaceURI()) && "PolicyURIs".equals(key.getLocalPart())) { value = (QName) extAttributes.get(key); String policyURIs = value.getLocalPart(); if (policyURIs.length() != 0) { String[] uris = policyURIs.split(" "); PolicyReference ref; for (int i = 0; i < uris.length; i++) { ref = new PolicyReference(); ref.setURI(uris[i]); if (PORT_TYPE.equals(origin) || PORT_TYPE_OPERATION.equals(origin) || PORT_TYPE_OPERATION_INPUT.equals(origin) || PORT_TYPE_OPERATION_OUTPUT.equals(origin)) { if (description != null) { PolicySubject subject = description.getPolicySubject(); if (subject != null) { subject.attachPolicyReference(ref); } } } } } } } } /** * Process the policy definitions * * @param definition */ private void processPoliciesInDefintion(Definition definition) { processPoliciesInDefintion(definition, new HashSet()); } /** * Process the policy definitions * * @param definition */ private void processPoliciesInDefintion(Definition definition, Set visitedWSDLs) { visitedWSDLs.add(definition.getDocumentBaseURI()); List extElements = definition.getExtensibilityElements(); ExtensibilityElement extElement; UnknownExtensibilityElement unknown = null; Policy policy = null; for (Iterator iterator = extElements.iterator(); iterator.hasNext();) { extElement = (ExtensibilityElement) iterator.next(); if (extElement instanceof UnknownExtensibilityElement) { unknown = (UnknownExtensibilityElement) extElement; if (WSDLConstants.WSDL11Constants.POLICY.equals(unknown.getElementType())) { policy = (Policy) PolicyUtil.getPolicyComponent(unknown.getElement()); String key; if ((key = policy.getName()) != null || (key = policy.getId()) != null) { axisService.registerPolicy(key, policy); // registry.register(key, policy); // registry.register("#" + key, policy); } } } } // include policices in other imported wsdls Iterator iter = definition.getImports().values().iterator(); Vector values = null; Import wsdlImport = null; for (; iter.hasNext();) { values = (Vector) iter.next(); for (Iterator valuesIter = values.iterator(); valuesIter.hasNext();) { wsdlImport = (Import) valuesIter.next(); Definition innerDefinition = wsdlImport.getDefinition(); // find the binding recursively if(!visitedWSDLs.contains(innerDefinition.getDocumentBaseURI())) { processPoliciesInDefintion(innerDefinition, visitedWSDLs); } } } } private void setEndpointURL(AxisEndpoint axisEndpoint, String endpointURL) throws AxisFault { axisEndpoint.setEndpointURL(endpointURL); try { URL url = new URL(endpointURL); axisEndpoint.setTransportInDescription(url.getProtocol()); } catch (Exception e) { log.debug(e.getMessage(),e); } } /** * Inner class declaration for the processing exceptions */ public static class WSDLProcessingException extends RuntimeException { public WSDLProcessingException() { } public WSDLProcessingException(String message) { super(message); } public WSDLProcessingException(Throwable cause) { super(cause); } public WSDLProcessingException(String message, Throwable cause) { super(message, cause); } } public boolean isAllPorts() { return isAllPorts; } public void setAllPorts(boolean allPorts) { isAllPorts = allPorts; } // private void processPoliciesInDefinition() { // // Object obj; // for (Iterator iterator = wsdl4jDefinition.getExtensibilityElements().iterator(); iterator.hasNext();) { // obj = iterator.next(); // // if (obj instanceof UnknownExtensibilityElement) { // Element e = ((UnknownExtensibilityElement) obj).getElement(); // if (WSDLConstants.WSDL11Constants.POLICY.getNamespaceURI().equals(e.getNamespaceURI()) && // WSDLConstants.WSDL11Constants.POLICY.getLocalPart().equals(e.getLocalName())) { // Policy p = (Policy) PolicyUtil.getPolicyComponent(e); // reg.register(p.getId(), p); // } // } // } // } /** * This method is to split attribute like abc:cde and get the prefix part of it * so the method will retuen abc if the ":" is present in the the string else it * will return null * * @param attributeValue : String * @return String */ public static String getPrefix(String attributeValue) { if (attributeValue != null) { int splitIdex = attributeValue.indexOf(':'); if (splitIdex > 0) { return attributeValue.substring(0, splitIdex); } } return null; } public static String getTypeName(String attributeValue) { if (attributeValue != null) { int splitIdex = attributeValue.indexOf(':'); if (splitIdex > 0) { return attributeValue.substring(splitIdex + 1); } else { return attributeValue; } } return null; } /** * returns the wsld defintion for the given component. * @param definition * @param qname * @param componentType * @param visitedWSDLs * @return definition containing the component. */ private Definition getParentDefinition(Definition definition, QName qname, int componentType, Set visitedWSDLs){ visitedWSDLs.add(definition.getDocumentBaseURI()); Definition newParentDefinition = null; // first find through imports Iterator iter = definition.getImports().values().iterator(); Vector values = null; Import wsdlImport = null; for (; iter.hasNext();) { values = (Vector) iter.next(); for (Iterator valuesIter = values.iterator(); valuesIter.hasNext();) { wsdlImport = (Import) valuesIter.next(); Definition innerDefinition = wsdlImport.getDefinition(); if (!visitedWSDLs.contains(innerDefinition.getDocumentBaseURI())){ newParentDefinition = getParentDefinition(innerDefinition,qname,componentType,visitedWSDLs); if (newParentDefinition != null){ break; } } } if (newParentDefinition != null) { break; } } // if it not available in imports we check for the current definition. if (newParentDefinition == null) { // this can be in a imported wsdl if (isComponetAvailable(definition, qname, componentType)) { newParentDefinition = definition; } } return newParentDefinition; } private boolean isComponetAvailable(Definition definition, QName qname, int componentType){ boolean isAvailable = false; switch (componentType){ case COMPONENT_BINDING : { isAvailable = (definition.getBinding(qname) != null) && (definition.getBinding(qname).getPortType() != null); break; } case COMPONENT_PORT_TYPE : { isAvailable = (definition.getPortType(qname) != null); break; } case COMPONENT_MESSAGE : { isAvailable = (definition.getMessage(qname) != null); break; } } return isAvailable; } /** * Find BindingOperationEntry * @param boes List of BindingOperationEntry * @param bo BindingOperation * @return BindingOperation or null */ private BindingOperationEntry find(List boes, BindingOperation bo) { for (int i=0; i < boes.size(); i++) { BindingOperationEntry boe = (BindingOperationEntry) boes.get(i); if (boe.getBindingOperation() == bo) { return boe; } } return null; } /** * BindingOperation plus state information */ class BindingOperationEntry { private BindingOperation bindingOperation; private boolean isSOAPBinding; private boolean isHTTPBinding; private String soapStyle; private boolean isRPC; private boolean wrappedInput = true; private boolean wrappedOutput = true; public BindingOperationEntry(BindingOperation bindingOperation, boolean isSOAPBinding, boolean isHTTPBinding, String soapStyle, boolean isRPC) { super(); this.bindingOperation = bindingOperation; this.isSOAPBinding = isSOAPBinding; this.isHTTPBinding = isHTTPBinding; this.soapStyle = soapStyle; this.isRPC = isRPC; } public boolean isHTTPBinding() { return isHTTPBinding; } public boolean isSOAPBinding() { return isSOAPBinding; } public String getSoapStyle() { return soapStyle; } public boolean isRPC() { return isRPC; } public BindingOperation getBindingOperation() { return bindingOperation; } /** * @return true if wrapper xsd is used */ public boolean isWrappedInput() { return wrappedInput; } /** * @param wrappedInput indicate if wrapper xsd is needed */ public void setWrappedInput(boolean wrappedInput) { this.wrappedInput = wrappedInput; } /** * @return true if wrapper xsd is needed for the output message */ public boolean isWrappedOutput() { return wrappedOutput; } /** * @param wrappedOutput indicate if wrapper xsd is needed on the output message */ public void setWrappedOutput(boolean wrappedOutput) { this.wrappedOutput = wrappedOutput; } } }





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