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JSR-181 and JSR-224 Annotations Processing
/*
* 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.jaxws.description.impl;
import org.apache.axis2.AxisFault;
import org.apache.axis2.addressing.wsdl.WSDL11ActionHelper;
import org.apache.axis2.description.AxisMessage;
import org.apache.axis2.description.AxisOperation;
import org.apache.axis2.description.AxisOperationFactory;
import org.apache.axis2.description.AxisService;
import org.apache.axis2.description.Parameter;
import org.apache.axis2.description.WSDL2Constants;
import org.apache.axis2.java.security.AccessController;
import org.apache.axis2.jaxws.ExceptionFactory;
import org.apache.axis2.jaxws.description.AttachmentDescription;
import org.apache.axis2.jaxws.description.EndpointDescriptionJava;
import org.apache.axis2.jaxws.description.EndpointInterfaceDescription;
import org.apache.axis2.jaxws.description.FaultDescription;
import org.apache.axis2.jaxws.description.OperationDescription;
import org.apache.axis2.jaxws.description.OperationDescriptionJava;
import org.apache.axis2.jaxws.description.OperationDescriptionWSDL;
import org.apache.axis2.jaxws.description.OperationRuntimeDescription;
import org.apache.axis2.jaxws.description.ParameterDescription;
import org.apache.axis2.jaxws.description.ParameterDescriptionJava;
import org.apache.axis2.jaxws.description.builder.DescriptionBuilderComposite;
import org.apache.axis2.jaxws.description.builder.FaultActionAnnot;
import org.apache.axis2.jaxws.description.builder.MethodDescriptionComposite;
import org.apache.axis2.jaxws.description.builder.OneWayAnnot;
import org.apache.axis2.jaxws.description.builder.ParameterDescriptionComposite;
import org.apache.axis2.jaxws.description.builder.converter.ConverterUtils;
import org.apache.axis2.jaxws.i18n.Messages;
import org.apache.axis2.jaxws.util.WSDL4JWrapper;
import org.apache.axis2.wsdl.WSDLConstants;
import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;
import javax.jws.Oneway;
import javax.jws.WebMethod;
import javax.jws.WebParam;
import javax.jws.WebParam.Mode;
import javax.jws.WebResult;
import javax.jws.soap.SOAPBinding;
import javax.wsdl.Binding;
import javax.wsdl.BindingInput;
import javax.wsdl.BindingOperation;
import javax.wsdl.BindingOutput;
import javax.wsdl.Definition;
import javax.wsdl.extensions.AttributeExtensible;
import javax.xml.namespace.QName;
import javax.xml.ws.Action;
import javax.xml.ws.AsyncHandler;
import javax.xml.ws.FaultAction;
import javax.xml.ws.RequestWrapper;
import javax.xml.ws.Response;
import javax.xml.ws.ResponseWrapper;
import javax.xml.ws.WebFault;
import java.io.File;
import java.lang.annotation.Annotation;
import java.lang.reflect.AnnotatedElement;
import java.lang.reflect.Method;
import java.lang.reflect.ParameterizedType;
import java.lang.reflect.Type;
import java.net.URL;
import java.security.PrivilegedAction;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.HashMap;
import java.util.Iterator;
import java.util.Map;
import java.util.concurrent.Future;
/** @see ../OperationDescription */
// TODO: Axis2 does not support overloaded operations, although EndpointInterfaceDescription.addOperation() does support overloading
// of methods represented by OperationDescription classes. However, the AxisOperation contained in an OperationDescription
// does NOT support overloaded methods.
//
// While overloading is not supported by WS-I, it IS supported by JAX-WS (p11).
// Note that this requires support in Axis2; currently WSDL11ToAxisServiceBuilder.populateOperations does not
// support overloaded methods in the WSDL; the operations are stored on AxisService as children in a HashMap with the wsdl
// operation name as the key.
class OperationDescriptionImpl
implements OperationDescription, OperationDescriptionJava, OperationDescriptionWSDL {
private final EndpointInterfaceDescription parentEndpointInterfaceDescription;
private final AxisOperation axisOperation;
private final QName operationQName;
private Method seiMethod;
private final MethodDescriptionComposite methodComposite;
private ParameterDescription[] parameterDescriptions;
private FaultDescription[] faultDescriptions;
private static final Log log = LogFactory.getLog(OperationDescriptionImpl.class);
// ===========================================
// ANNOTATION related information
// ===========================================
// ANNOTATION: @Oneway
private Oneway onewayAnnotation;
private Boolean onewayIsOneway;
// ANNOTATION: @XmlList
private boolean isListType = false;
// ANNOTATION: @RequestWrapper
private RequestWrapper requestWrapperAnnotation;
private String requestWrapperTargetNamespace;
private String requestWrapperLocalName;
private String requestWrapperClassName;
private String requestWrapperPartName;
// ANNOTATION: @ResponseWrapper
private ResponseWrapper responseWrapperAnnotation;
private String responseWrapperLocalName;
private String responseWrapperTargetNamespace;
private String responseWrapperClassName;
private String responseWrapperPartName;
// ANNOTATION: @Action
private Action actionAnnotation;
// ANNOTATION: @SOAPBinding
// Note this is the Method-level annotation. See EndpointInterfaceDescription for the Type-level annotation
// Also note this annotation is only allowed on methods if SOAPBinding.Style is DOCUMENT and if the method-level
// annotation is absent, the behavior defined on the Type is used.
// per JSR-181 MR Sec 4.7 "Annotation: javax.jws.soap.SOAPBinding" pg 28
private SOAPBinding soapBindingAnnotation;
private javax.jws.soap.SOAPBinding.Style soapBindingStyle;
public static final javax.jws.soap.SOAPBinding.Style SoapBinding_Style_VALID =
javax.jws.soap.SOAPBinding.Style.DOCUMENT;
private javax.jws.soap.SOAPBinding.Use soapBindingUse;
// Default value per JSR-181 MR Sec 4.7 "Annotation: javax.jws.soap.SOAPBinding" pg 28
public static final javax.jws.soap.SOAPBinding.Use SOAPBinding_Use_DEFAULT =
javax.jws.soap.SOAPBinding.Use.LITERAL;
private javax.jws.soap.SOAPBinding.ParameterStyle soapBindingParameterStyle;
// Default value per JSR-181 MR Sec 4.7 "Annotation: javax.jws.soap.SOAPBinding" pg 28
public static final javax.jws.soap.SOAPBinding.ParameterStyle SOAPBinding_ParameterStyle_DEFAULT =
javax.jws.soap.SOAPBinding.ParameterStyle.WRAPPED;
// ANNOTATION: @WebMethod
private WebMethod webMethodAnnotation;
private String webMethodOperationName;
// Default value per JSR-181 MR Sec 4.2, pg 17
public static final String WebMethod_Action_DEFAULT = "";
private String webMethodAction;
// Default value per JSR-181 MR sec 4.2, pg 17
public static final Boolean WebMethod_Exclude_DEFAULT = Boolean.FALSE;
private Boolean webMethodExclude;
// ANNOTATION: @WebParam
private String[] webParamNames;
private Mode[] webParamMode;
private String[] webParamTargetNamespace;
// ANNOTATION: @WebResult
private WebResult webResultAnnotation;
private String webResultName;
private String webResultPartName;
// Default value per JSR-181 MR Sec 4.5.1, pg 23
public static final String WebResult_TargetNamespace_DEFAULT = "";
private String webResultTargetNamespace;
// Default value per JSR-181 MR sec 4.5, pg 24
public static final Boolean WebResult_Header_DEFAULT = Boolean.FALSE;
private Boolean webResultHeader;
// Web Result Attachment Description information
private boolean _setAttachmentDesc = false;
private AttachmentDescription attachmentDesc = null;
private boolean hasRequestSwaRefAttachments = false;
private boolean hasResponseSwaRefAttachments = false;
private Map partAttachmentMap;
private Method serviceImplMethod;
private boolean serviceImplMethodFound = false;
// For JAX-WS client async methods, this is the corresponding Sync method; for everything else,
// this is "this".
private OperationDescription syncOperationDescription = null;
// RUNTIME INFORMATION
Map runtimeDescMap =
Collections.synchronizedMap(new HashMap());
// Cache the actual Class of the type being returned.
private Class resultActualTypeClazz;
OperationDescriptionImpl(Method method, EndpointInterfaceDescription parent) {
parentEndpointInterfaceDescription = parent;
methodComposite = null;
partAttachmentMap = new HashMap();
setSEIMethod(method);
// The operationQName is intentionally unqualified to be consistent with the remaining parts of the system.
// Using a qualified name will cause breakage.
// Don't do --> this.operationQName = new QName(parent.getTargetNamespace(), getOperationName());
this.operationQName = new QName("", getOperationName());
if (getEndpointInterfaceDescription().getEndpointDescription() != null) {
if (!getEndpointInterfaceDescription().getEndpointDescription().getServiceDescription().isServerSide()) {
axisOperation = createClientAxisOperation();
} else {
axisOperation = null;
}
} else {
axisOperation = null;
}
if(this.axisOperation != null) {
try {
this.axisOperation.addParameter(new Parameter(OperationDescription.AXIS_OPERATION_PARAMETER,
this));
}
catch(AxisFault af) {
throw ExceptionFactory.makeWebServiceException(Messages.getMessage("operationDescriptionErr1"));
}
}
buildAttachmentInformation();
}
OperationDescriptionImpl(AxisOperation operation, EndpointInterfaceDescription parent) {
parentEndpointInterfaceDescription = parent;
partAttachmentMap = new HashMap();
axisOperation = operation;
methodComposite = null;
if(this.axisOperation != null) {
this.operationQName = axisOperation.getName();
try {
this.axisOperation.addParameter(new Parameter(OperationDescription.AXIS_OPERATION_PARAMETER,
this));
}
catch(AxisFault af) {
throw ExceptionFactory.makeWebServiceException(Messages.getMessage("operationDescriptionErr1"));
}
} else {
operationQName = null;
}
buildAttachmentInformation();
}
OperationDescriptionImpl(MethodDescriptionComposite mdc,
EndpointInterfaceDescription parent,
AxisOperation axisOperation) {
parentEndpointInterfaceDescription = parent;
partAttachmentMap = new HashMap();
methodComposite = mdc;
// The operationQName is intentionally unqualified to be consistent with the remaining parts of the system.
// Using a qualified name will cause breakage.
// Don't do --> this.operationQName = new QName(parent.getTargetNamespace(), getOperationName());
this.operationQName = new QName("", getOperationName());
webMethodAnnotation = methodComposite.getWebMethodAnnot();
parameterDescriptions = createParameterDescriptions();
faultDescriptions = createFaultDescriptions();
isListType = mdc.isListType();
buildAttachmentInformation();
//If an AxisOperation was already created for us by populateService then just use that one
//Otherwise, create it
if (axisOperation != null) {
this.axisOperation = axisOperation;
} else {
this.axisOperation = createAxisOperation();
}
if(this.axisOperation != null) {
try {
this.axisOperation.addParameter(new Parameter(OperationDescription.AXIS_OPERATION_PARAMETER,
this));
}
catch(AxisFault af) {
throw ExceptionFactory.makeWebServiceException(Messages.getMessage("operationDescriptionErr1"));
}
}
// Register understood headers on axisOperation
registerMustUnderstandHeaders();
}
/**
* Create an AxisOperation for this Operation. Note that the ParameterDescriptions must
* be created before calling this method since, for a DOC/LIT/BARE (aka UNWRAPPED) message, the
* ParamaterDescription is used to setup the AxisMessage correctly for use in SOAP Body-based
* dispatching on incoming DOC/LIT/BARE messages.
*/
private AxisOperation createClientAxisOperation() {
AxisOperation newAxisOperation = null;
try {
if (isOneWay()) {
newAxisOperation =
AxisOperationFactory.getOperationDescription(WSDL2Constants.MEP_URI_OUT_ONLY);
} else {
newAxisOperation =
AxisOperationFactory.getOperationDescription(WSDL2Constants.MEP_URI_OUT_IN);
}
//REVIEW: There are several other MEP's, such as: OUT_ONLY, IN_OPTIONAL_OUT, OUT_IN, OUT_OPTIONAL_IN, ROBUST_OUT_ONLY,
// ROBUST_IN_ONLY
// Determine how these MEP's should be handled, if at all
} catch (Exception e) {
throw ExceptionFactory.makeWebServiceException(Messages.getMessage("clientAxisOprErr"),e);
}
newAxisOperation.setName(determineOperationQName(seiMethod));
newAxisOperation.setSoapAction(this.getAction());
//*************************************************************************************
//NOTE: assumption here is that all info. need to generate the actions will have to come
// from annotations (or default values)
//*************************************************************************************
String messageExchangePattern = newAxisOperation.getMessageExchangePattern();
String operationName = newAxisOperation.getName().getLocalPart();
String targetNS = getEndpointInterfaceDescriptionImpl().getTargetNamespace();
String portTypeName = getEndpointInterfaceDescriptionImpl().getPortType().getLocalPart();
//We don't have a name at this point, shouldn't matter if we have the MEP.
//On the client the input and output actions are reversed.
String inputName = null;
String inputAction = getOutputAction();
//If we still don't have an action then fall back to the Default Action Pattern.
if (inputAction == null || inputAction.length() == 0) {
inputAction =
WSDL11ActionHelper.getInputActionFromStringInformation( messageExchangePattern,
targetNS,
portTypeName,
operationName,
inputName);
}
ArrayList inputActions = new ArrayList();
inputActions.add(inputAction);
newAxisOperation.setWsamappingList(inputActions);
//Map the action to the operation on the actual axisService
//TODO: Determine whether this should be done at a higher level in the
// description hierarchy
getEndpointInterfaceDescriptionImpl().getEndpointDescriptionImpl().
getAxisService().mapActionToOperation(inputAction, newAxisOperation);
//set the OUTPUT ACTION
//We don't have a name at this point, shouldn't matter if we have the MEP
//On the client the input and output actions are reversed.
String outputName = null;
String outputAction = getInputAction();
if (outputAction == null || outputAction.length() == 0) {
outputAction =
WSDL11ActionHelper.getOutputActionFromStringInformation( messageExchangePattern,
targetNS,
portTypeName,
operationName,
outputName);
}
newAxisOperation.setOutputAction(outputAction);
setFaultActions(newAxisOperation, operationName, targetNS, portTypeName);
getEndpointInterfaceDescriptionImpl().getEndpointDescriptionImpl().
getAxisService().addOperation(newAxisOperation);
return newAxisOperation;
}
/**
* Create an AxisOperation for this Operation. Note that the ParameterDescriptions must
* be created before calling this method since, for a DOC/LIT/BARE (aka UNWRAPPED) message, the
* ParamaterDescription is used to setup the AxisMessage correctly for use in SOAP Body-based
* dispatching on incoming DOC/LIT/BARE messages.
*/
private AxisOperation createAxisOperation() {
AxisOperation newAxisOperation = null;
try {
if (isOneWay()) {
newAxisOperation = AxisOperationFactory
.getOperationDescription(WSDL2Constants.MEP_URI_IN_ONLY);
} else {
newAxisOperation =
AxisOperationFactory.getOperationDescription(WSDL2Constants.MEP_URI_IN_OUT);
}
//TODO: There are several other MEP's, such as: OUT_ONLY, IN_OPTIONAL_OUT, OUT_IN, OUT_OPTIONAL_IN, ROBUST_OUT_ONLY,
// ROBUST_IN_ONLY
// Determine how these MEP's should be handled, if at all
} catch (Exception e) {
throw ExceptionFactory.makeWebServiceException(Messages.getMessage("clientAxisOprErr"), e);
}
newAxisOperation.setName(determineOperationQName(getEndpointInterfaceDescriptionImpl(),this.methodComposite));
newAxisOperation.setSoapAction(this.getAction());
//*************************************************************************************
//NOTE: assumption here is that all info. need to generate the actions will have to come
// from annotations (or default values)
//*************************************************************************************
String messageExchangePattern = newAxisOperation.getMessageExchangePattern();
String operationName = newAxisOperation.getName().getLocalPart();
String targetNS = getEndpointInterfaceDescriptionImpl().getTargetNamespace();
String portTypeName = getEndpointInterfaceDescriptionImpl().getPortType().getLocalPart();
//We don't have a name at this point, shouldn't matter if we have the MEP
String inputName = null;
String inputAction = getInputAction();
//If we don't have an action then fall back to the Default Action Pattern.
if (inputAction == null || inputAction.length() == 0) {
inputAction =
WSDL11ActionHelper.getInputActionFromStringInformation(messageExchangePattern,
targetNS,
portTypeName,
operationName,
inputName);
}
ArrayList inputActions = new ArrayList();
inputActions.add(inputAction);
newAxisOperation.setWsamappingList(inputActions);
//Map the action to the operation on the actual axisService
//TODO: Determine whether this should be done at a higher level in the
// description hierarchy
getEndpointInterfaceDescriptionImpl().getEndpointDescriptionImpl().
getAxisService().mapActionToOperation(inputAction, newAxisOperation);
//set the OUTPUT ACTION
//We don't have a name at this point, shouldn't matter if we have the MEP
String outputName = null;
String outputAction = getOutputAction();
//If we don't have an action then fall back to the Default Action Pattern.
if (outputAction == null || outputAction.length() == 0) {
outputAction =
WSDL11ActionHelper.getOutputActionFromStringInformation(messageExchangePattern,
targetNS,
portTypeName,
operationName,
outputName);
}
newAxisOperation.setOutputAction(outputAction);
//Set the FAULT ACTION
setFaultActions(newAxisOperation, operationName, targetNS, portTypeName);
// If this is a DOC/LIT/BARE operation, then set the QName of the input AxisMessage to the
// part for the first IN or IN/OUT non-header parameter. If there are no parameters, then don't set
// anything. The AxisMessage name is used to do SOAP-body based routing of DOC/LIT/BARE
// incoming messages.
if (getSoapBindingStyle() == javax.jws.soap.SOAPBinding.Style.DOCUMENT
&& getSoapBindingUse() == javax.jws.soap.SOAPBinding.Use.LITERAL
&& getSoapBindingParameterStyle() == javax.jws.soap.SOAPBinding.ParameterStyle.BARE)
{
ParameterDescription[] paramDescs = getParameterDescriptions();
if (paramDescs != null && paramDescs.length > 0) {
for (ParameterDescription paramDesc : paramDescs) {
WebParam.Mode paramMode = paramDesc.getMode();
if (!paramDesc.isHeader()
&& (paramMode == WebParam.Mode.IN || paramMode == WebParam.Mode.INOUT))
{
// We've found the first IN or INOUT non-header parameter, so set the AxisMessage
// QName based on this parameter then break out of the loop.
AxisMessage axisMessage =
newAxisOperation.getMessage(WSDLConstants.MESSAGE_LABEL_IN_VALUE);
String elementName = paramDesc.getParameterName();
String partNamespace = paramDesc.getTargetNamespace();
if (log.isDebugEnabled()) {
log.debug("Setting up annotation based Doc/Lit/Bare operation: " +
newAxisOperation.getName()
+ "; axisMessage: " + axisMessage + "; name: "
+ elementName + "; partTNS: " + partNamespace);
}
if (axisMessage == null) {
throw ExceptionFactory.makeWebServiceException(Messages.getMessage("createAxisOprErr1"));
} else if (DescriptionUtils.isEmpty(partNamespace)) {
throw ExceptionFactory.makeWebServiceException(Messages.getMessage("createAxisOprErr2"));
} else if (DescriptionUtils.isEmpty(elementName)) {
throw ExceptionFactory.makeWebServiceException(Messages.getMessage("createAxisOprErr3"));
} else {
QName partQName = new QName(partNamespace, elementName);
if(log.isDebugEnabled()) {
log.debug("Setting AxisMessage element QName for bare mapping: " +
partQName);
}
axisMessage.setElementQName(partQName);
getEndpointInterfaceDescriptionImpl().getEndpointDescriptionImpl()
.getAxisService()
.addMessageElementQNameToOperationMapping(partQName, newAxisOperation);
}
break;
}
}
} else {
// There are no parameters for this Doc/Lit/Bare operation. That means the inbound soap:Body will
// be empty, so when asking the Body for the first element QName for routing purposes, a null will
// be returned. By mapping a null key to this operation here, it will be the one found for the null
// element during routing.
getEndpointInterfaceDescriptionImpl().getEndpointDescriptionImpl().getAxisService()
.addMessageElementQNameToOperationMapping(null, newAxisOperation);
}
}
return newAxisOperation;
}
private void setFaultActions(AxisOperation newAxisOperation,
String operationName,
String targetNS,
String portTypeName) {
// Walk the fault information
FaultDescription[] faultDescs = getFaultDescriptions();
//Generate fault actions according to the Default Action Pattern.
if (faultDescs != null) {
for (FaultDescription faultDesc : faultDescs) {
AxisMessage faultMessage = new AxisMessage();
String faultName = faultDesc.getName();
if (faultName == null || faultName.equals("")) {
faultName = faultDesc.getExceptionClassName();
// Remove package name to get just class name
faultName = faultName.substring((faultName.lastIndexOf('.'))+1);
}
faultMessage.setName(faultName);
if (log.isDebugEnabled()) {
log.debug("Set faultName = "+faultName+" for faultMessage = "+faultMessage+" and faultDesc = "+faultDesc);
}
String faultAction =
WSDL11ActionHelper.getFaultActionFromStringInformation( targetNS,
portTypeName,
operationName,
faultMessage.getName());
if (log.isDebugEnabled()) {
log.debug("Default faultAction = "+faultAction);
}
newAxisOperation.addFaultAction(faultDesc.getExceptionClassName(), faultAction);
newAxisOperation.setFaultMessages(faultMessage);
}
}
//Override the fault actions based on any FaultAction annotations that are defined.
FaultAction[] faultActions = getFaultActions();
if (faultActions != null) {
for (FaultAction faultAction : faultActions) {
String className = null;
if(faultAction instanceof FaultActionAnnot
&&
((FaultActionAnnot) faultAction).classNameString() != null) {
className = ((FaultActionAnnot) faultAction).classNameString();
}
else if(faultAction.className() != null) {
className = faultAction.className().getName();
}
if(className != null) {
if(log.isDebugEnabled()) {
log.debug("Looking for FaultDescription for class: " + className +
" from @FaultAction annotation");
}
FaultDescription faultDesc = resolveFaultByExceptionName(className);
if (faultDesc != null) {
String faultActionString = faultAction.value();
if (log.isDebugEnabled()) {
log.debug("faultAction value = "+faultActionString);
}
if (faultActionString != null && !faultActionString.equals("")) {
newAxisOperation.addFaultAction(className, faultActionString);
}
}
}
}
}
}
/**
* Adds the AxisOperation corresponding to this OperationDescription to the AxisService if it
* isn't already there. It also addes the AxisOperation to any other routing mechanisms for
* that AxisService: - For Doc/Lit/Bare operations it is added to the
* MessageElementQNameToOperationMapping
*
* @param axisService
*/
void addToAxisService(AxisService axisService) {
AxisOperation newAxisOperation = getAxisOperation();
QName axisOpQName = newAxisOperation.getName();
// See if this operation is already added to the AxisService. Note that we need to check the
// children of the service rather than using the getOperation(axisOpQName) method. The reason is
// that method checks the alias table in addition to the children, and it is possible at this point
// for an operation to have just been added to the alias table but not yet as a child. It is this method
// that will add that newly-created operation to the service.
AxisOperation existingAxisOperation = (AxisOperation) axisService.getChild(axisOpQName);
if (existingAxisOperation == null) {
axisService.addOperation(newAxisOperation);
// For a Doc/Lit/Bare operation, we also need to add the element mapping
}
if (getSoapBindingStyle() == javax.jws.soap.SOAPBinding.Style.DOCUMENT
&& getSoapBindingUse() == javax.jws.soap.SOAPBinding.Use.LITERAL
&& getSoapBindingParameterStyle() == javax.jws.soap.SOAPBinding.ParameterStyle
.BARE) {
AxisMessage axisMessage =
null;
if (existingAxisOperation!=null) {
axisMessage = existingAxisOperation.getMessage(WSDLConstants.MESSAGE_LABEL_IN_VALUE);
} else {
axisMessage = newAxisOperation.getMessage(WSDLConstants.MESSAGE_LABEL_IN_VALUE);
}
if (axisMessage != null) {
QName elementQName = axisMessage.getElementQName();
if (!DescriptionUtils.isEmpty(elementQName) &&
axisService.getOperationByMessageElementQName(elementQName) == null) {
axisService.addMessageElementQNameToOperationMapping(elementQName,
newAxisOperation);
}
}
}
}
void setSEIMethod(Method method) {
if (seiMethod != null) {
throw ExceptionFactory.makeWebServiceException(
new UnsupportedOperationException(Messages.getMessage("seiMethodErr")));
} else {
// Reset any cached state (see AXIS2-5115)
webMethodAnnotation = null;
webMethodOperationName = null;
webMethodAction = null;
webMethodExclude = null;
requestWrapperAnnotation = null;
requestWrapperLocalName = null;
requestWrapperTargetNamespace = null;
requestWrapperClassName = null;
requestWrapperPartName = null;
responseWrapperAnnotation = null;
responseWrapperLocalName = null;
responseWrapperTargetNamespace = null;
responseWrapperClassName = null;
responseWrapperPartName = null;
webParamNames = null;
webParamTargetNamespace = null;
webParamMode = null;
webResultAnnotation = null;
webResultName = null;
webResultPartName = null;
webResultTargetNamespace = null;
webResultHeader = null;
soapBindingAnnotation = null;
soapBindingStyle = null;
soapBindingUse = null;
soapBindingParameterStyle = null;
actionAnnotation = null;
onewayAnnotation = null;
onewayIsOneway = null;
resultActualTypeClazz = null;
seiMethod = method;
webMethodAnnotation = (WebMethod)
getAnnotation(seiMethod, WebMethod.class);
parameterDescriptions = createParameterDescriptions();
faultDescriptions = createFaultDescriptions();
isListType = ConverterUtils.hasXmlListAnnotation(seiMethod.getAnnotations());
}
// Register understood headers on axisOperation
registerMustUnderstandHeaders();
}
public EndpointInterfaceDescription getEndpointInterfaceDescription() {
return parentEndpointInterfaceDescription;
}
public EndpointInterfaceDescriptionImpl getEndpointInterfaceDescriptionImpl() {
return (EndpointInterfaceDescriptionImpl)parentEndpointInterfaceDescription;
}
public AxisOperation getAxisOperation() {
// Note that only the sync operations, and not the JAX-WS async client versions of an
// operation, will have an AxisOperation associated with it. For those async operations,
// get the AxisOperation associated with the sync method and return that.
if (axisOperation == null) {
OperationDescription opDesc = getSyncOperation();
if (opDesc != null && opDesc != this) {
return getSyncOperation().getAxisOperation();
}
}
return axisOperation;
}
public QName getName() {
return operationQName;
}
// Java-related getters
public String getJavaMethodName() {
String returnString = null;
if (!isDBC()) {
if (seiMethod != null) {
returnString = seiMethod.getName();
}
} else {
if (methodComposite != null) {
returnString = methodComposite.getMethodName();
}
}
return returnString;
}
public String getJavaDeclaringClassName() {
if (!isDBC() && seiMethod != null) {
Class clazz = seiMethod.getDeclaringClass();
return clazz.getCanonicalName();
} else if (methodComposite != null) {
return methodComposite.getDeclaringClass();
}
return null;
}
public String[] getJavaParameters() {
ArrayList returnParameters = new ArrayList();
if (!isDBC()) {
if (seiMethod != null) {
Class[] paramaters = seiMethod.getParameterTypes();
for (Class param : paramaters) {
returnParameters.add(param.getName());
}
}
} else {
if (methodComposite != null) {
Iterator iter =
methodComposite.getParameterDescriptionCompositeList().iterator();
while (iter.hasNext()) {
returnParameters.add(iter.next().getParameterType());
}
}
}
// TODO: This is different than the rest, which return null instead of an empty array
return returnParameters.toArray(new String[0]);
}
/**
* Note this will return NULL unless the operation was built via introspection on the SEI. In
* other words, it will return null if the operation was built with WSDL.
*
* @return
*/
public Method getSEIMethod() {
return seiMethod;
}
MethodDescriptionComposite getMethodDescriptionComposite() {
return methodComposite;
}
private boolean isWrappedParameters() {
return getSoapBindingParameterStyle() == javax.jws.soap.SOAPBinding.ParameterStyle.WRAPPED;
}
private ParameterDescription[] createParameterDescriptions() {
ArrayList buildParameterList = new ArrayList();
if (!isDBC()) {
Class[] parameters = seiMethod.getParameterTypes();
Type[] paramaterTypes = seiMethod.getGenericParameterTypes();
Annotation[][] annotations = seiMethod.getParameterAnnotations();
for (int i = 0; i < parameters.length; i++) {
ParameterDescription paramDesc = new ParameterDescriptionImpl(i, parameters[i],
paramaterTypes[i],
annotations[i], this);
buildParameterList.add(paramDesc);
}
} else {
for (int i = 0; i < methodComposite.getParameterDescriptionCompositeList().size(); i++)
{
ParameterDescription paramDesc =
new ParameterDescriptionImpl(i,
methodComposite.getParameterDescriptionComposite(
i),
this);
buildParameterList.add(paramDesc);
}
}
return buildParameterList.toArray(new ParameterDescription[buildParameterList.size()]);
}
private FaultDescription[] createFaultDescriptions() {
ArrayList buildFaultList = new ArrayList();
if (!isDBC()) {
// get exceptions this method "throws"
Class[] webFaultClasses = seiMethod.getExceptionTypes();
for (Class wfClass : webFaultClasses) {
// according to JAXWS 3.7, the @WebFault annotation is only used for customizations,
// so we'll add all declared exceptions
WebFault wfanno = null;
for (Annotation anno : wfClass.getAnnotations()) {
if (anno.annotationType() == WebFault.class) {
wfanno = (WebFault)anno;
}
}
buildFaultList.add(new FaultDescriptionImpl(wfClass, wfanno, this));
}
} else {
// TODO do I care about methodComposite like the paramDescription does?
//Call FaultDescriptionImpl for all non-generic exceptions...Need to check a
// a couple of things
// 1. If this is a generic exception, ignore it
// 2. If this is not a generic exception, then find it in the DBC Map
// If not found in map, then throw not found exception
//3. Pass the validated WebFault dbc and possibly the classImpl dbc to FaultDescription
//4. Possibly set AxisOperation.setFaultMessages array...or something like that
String[] webFaultClassNames = methodComposite.getExceptions();
HashMap dbcMap =
getEndpointInterfaceDescriptionImpl().getEndpointDescriptionImpl()
.getServiceDescriptionImpl().getDBCMap();
if (webFaultClassNames != null) {
for (String wfClassName : webFaultClassNames) {
// Try to find this exception class in the dbc list. If we can't find it
// then just assume that its a generic exception.
DescriptionBuilderComposite faultDBC = dbcMap.get(wfClassName);
if (faultDBC != null) {
// JAXWS 3.7 does not require @WebFault annotation
// We found a valid exception composite thats annotated
buildFaultList.add(new FaultDescriptionImpl(faultDBC, this));
}
}
}
}
return buildFaultList.toArray(new FaultDescription[0]);
}
// =====================================
// ANNOTATION: WebMethod
// =====================================
public WebMethod getAnnoWebMethod() {
if (webMethodAnnotation == null) {
if (isDBC() && methodComposite != null) {
webMethodAnnotation = methodComposite.getWebMethodAnnot();
} else if (!isDBC() && seiMethod != null) {
webMethodAnnotation = (WebMethod) getAnnotation(seiMethod, WebMethod.class);
} else {
if (log.isDebugEnabled()) {
log.debug("Unable to get WebMethod annotation");
}
}
}
return webMethodAnnotation;
}
static QName determineOperationQName(Method javaMethod) {
if (log.isDebugEnabled())
{
log.debug("Operation QName determined to be: "+new QName(determineOperationName(javaMethod)));
}
return new QName(determineOperationName(javaMethod));
}
//According to section 4.1.1 of JSR181, the Operation should inherit
//the target namespace from the @WebService annotation on the SEI or
//service implementation bean. However, changing the above method
//currently causes problems with the clients and leaving it as is
//does not seem to have produced any issues (as of yet.)
public static QName determineOperationQName(EndpointInterfaceDescription eid, MethodDescriptionComposite mdc) {
if (log.isDebugEnabled())
{
log.debug("Operation QName determined to be: "+((eid!= null)?new QName(eid.getTargetNamespace(), determineOperationName(mdc)):new QName(determineOperationName(mdc))));
}
return ((eid!= null)?new QName(eid.getTargetNamespace(), determineOperationName(mdc)):new QName(determineOperationName(mdc)));
}
private static String determineOperationName(Method javaMethod) {
String operationName = null;
if (javaMethod == null) {
return null;
}
WebMethod wmAnnotation = (WebMethod) getAnnotation(javaMethod,WebMethod.class);
// Per JSR-181 MR Sec 4.2 "Annotation: javax.jws.WebMethod" pg 17,
// if @WebMethod specifies and operation name, use that. Otherwise
// default is the Java method name
if (wmAnnotation != null && !DescriptionUtils.isEmpty(wmAnnotation.operationName())) {
operationName = wmAnnotation.operationName();
} else {
operationName = javaMethod.getName();
}
return operationName;
}
//TODO: For now, we are overriding the above method only because it is static, these should
//be combined at some point
private static String determineOperationName(MethodDescriptionComposite mdc) {
String operationName = null;
if (mdc == null) {
return null;
}
WebMethod wmAnnotation = mdc.getWebMethodAnnot();
if (wmAnnotation != null && !DescriptionUtils.isEmpty(wmAnnotation.operationName())) {
operationName = wmAnnotation.operationName();
} else {
operationName = mdc.getMethodName();
}
return operationName;
}
public String getOperationName() {
return getAnnoWebMethodOperationName();
}
public String getAnnoWebMethodOperationName() {
if (webMethodOperationName == null) {
if (!isDBC() && seiMethod != null) {
webMethodOperationName = determineOperationName(seiMethod);
} else if (methodComposite != null) {
webMethodOperationName = determineOperationName(methodComposite);
}
}
return webMethodOperationName;
}
/* (non-Javadoc)
* @see org.apache.axis2.jaxws.description.OperationDescription#getSyncOperation()
*/
public OperationDescription getSyncOperation() {
if (log.isDebugEnabled()) {
log.debug("Current OperationDescription Web Method annotation \"operation\" name: "
+ getOperationName());
log.debug("Current OperationDescription java method name: " + getJavaMethodName());
}
if (syncOperationDescription != null) {
// No need to do anything; the sync operation has already been set and will be
// returned below
} else if (!isJAXWSAsyncClientMethod()) {
// The current OpDesc is not an async operation. Cache it, then return it below.
syncOperationDescription = this;
} else {
// We haven't found a sync opdesc for this operation yet, so try again. See the
// comments in the interface declaration for this method on why this might occur.
OperationDescription opDesc = null;
String webMethodAnnoName = getOperationName();
String javaMethodName = getJavaMethodName();
if (webMethodAnnoName != null && webMethodAnnoName.length() > 0 &&
webMethodAnnoName != javaMethodName) {
EndpointInterfaceDescription eid = getEndpointInterfaceDescription();
if (eid != null) {
//searching for operationDescription of synchronous operation.
OperationDescription[] allOperations = eid.getOperations();
// Find a method that has a matching annotation but is not
// an asynchronous operation.
for (OperationDescription operation : allOperations) {
if (webMethodAnnoName.equals(operation.getOperationName()) &&
!operation.isJAXWSAsyncClientMethod()) {
opDesc = operation;
break;
}
}
}
}
// Note that opDesc might still be null
syncOperationDescription = opDesc;
}
if (log.isDebugEnabled()) {
if (syncOperationDescription != null) {
// Just log the operation name here, to avoid an infinite loop
log.debug("Synchronous operationDescription: " + syncOperationDescription.getOperationName());
} else {
log.debug("Synchronous operationDescription: null");
}
}
return syncOperationDescription;
}
public String getAction() {
return getAnnoWebMethodAction();
}
public String getAnnoWebMethodAction() {
if (webMethodAction == null) {
if (getAnnoWebMethod() != null &&
!DescriptionUtils.isEmpty(getAnnoWebMethod().action())) {
webMethodAction = getAnnoWebMethod().action();
} else {
webMethodAction = WebMethod_Action_DEFAULT;
}
}
return webMethodAction;
}
public boolean isExcluded() {
return getAnnoWebMethodExclude();
}
public boolean getAnnoWebMethodExclude() {
if (webMethodExclude == null) {
// TODO: Validation: if this attribute specified, no other elements allowed per JSR-181 MR Sec 4.2, pg 17
// TODO: Validation: This element is not allowed on endpoint interfaces
// Unlike the elements with a String value, if the annotation is present, exclude will always
// return a usable value since it will default to FALSE if the element is not present.
if (getAnnoWebMethod() != null) {
webMethodExclude = Boolean.valueOf(getAnnoWebMethod().exclude());
} else {
webMethodExclude = WebMethod_Exclude_DEFAULT;
}
}
return webMethodExclude.booleanValue();
}
// ==========================================
// ANNOTATION: RequestWrapper
// ==========================================
public RequestWrapper getAnnoRequestWrapper() {
if (requestWrapperAnnotation == null) {
if (!isDBC() && seiMethod != null) {
requestWrapperAnnotation = (RequestWrapper)
getAnnotation(seiMethod,RequestWrapper.class);
} else if (isDBC() && methodComposite != null) {
requestWrapperAnnotation = methodComposite.getRequestWrapperAnnot();
} else {
if (log.isDebugEnabled()) {
log.debug("Unable to get RequestWrapper annotation");
}
}
}
return requestWrapperAnnotation;
}
public String getRequestWrapperLocalName() {
return getAnnoRequestWrapperLocalName();
}
/**
* For wrapped parameter style (based on the annotation and the WSDL), returns the wrapper
* value. For non-wrapped (i.e. bare) parameter style, returns null.
*
* @return
*/
public String getAnnoRequestWrapperLocalName() {
if (!isWrappedParameters()) {
// A wrapper is only meaningful for wrapped parameters
return null;
}
if (requestWrapperLocalName == null) {
if (getAnnoRequestWrapper() != null
&& !DescriptionUtils.isEmpty(getAnnoRequestWrapper().localName())) {
requestWrapperLocalName = getAnnoRequestWrapper().localName();
} else {
// The default value of localName is the value of operationQName as
// defined in the WebMethod annotation. [JAX-WS Sec. 7.3, p. 80]
requestWrapperLocalName = getAnnoWebMethodOperationName();
}
}
return requestWrapperLocalName;
}
public String getRequestWrapperTargetNamespace() {
return getAnnoRequestWrapperTargetNamespace();
}
/**
* For wrapped parameter style (based on the annotation and the WSDL), returns the wrapper
* value. For non-wrapped (i.e. bare) parameter style, returns null.
*
* @return
*/
public String getAnnoRequestWrapperTargetNamespace() {
if (!isWrappedParameters()) {
// A wrapper is only meaningful for wrapped parameters
return null;
}
if (requestWrapperTargetNamespace == null) {
if (getAnnoRequestWrapper() != null &&
!DescriptionUtils.isEmpty(getAnnoRequestWrapper().targetNamespace())) {
requestWrapperTargetNamespace = getAnnoRequestWrapper().targetNamespace();
} else {
// The default value for targetNamespace is the target namespace of the SEI. [JAX-WS Sec 7.3, p. 80]
requestWrapperTargetNamespace =
getEndpointInterfaceDescription().getTargetNamespace();
}
}
return requestWrapperTargetNamespace;
}
public String getRequestWrapperClassName() {
return getAnnoRequestWrapperClassName();
}
/**
* For wrapped parameter style (based on the annotation and the WSDL), returns the wrapper
* value. For non-wrapped (i.e. bare) parameter style, returns null.
*
* @return
*/
public String getAnnoRequestWrapperClassName() {
if (!isWrappedParameters()) {
// A wrapper is only meaningful for wrapped parameters
return null;
}
if (requestWrapperClassName == null) {
if (getAnnoRequestWrapper() != null &&
!DescriptionUtils.isEmpty(getAnnoRequestWrapper().className())) {
requestWrapperClassName = getAnnoRequestWrapper().className();
} else {
// There is no default for the RequestWrapper class name.
// In such cases the programming layer (JAXWS) may use a programming spec specific
// mechanism to find the class, build the class, or operate without the class.
requestWrapperClassName = null;
}
}
return requestWrapperClassName;
}
public String getRequestWrapperPartName(){
return getAnnoRequestWrapperPartName();
}
/**
* Return PartName for RequestWrapper annotation if one present.
* @return
*/
public String getAnnoRequestWrapperPartName(){
if(!isWrappedParameters()){
return null;
}
if (requestWrapperPartName == null) {
if (getAnnoRequestWrapper() != null &&
!DescriptionUtils.isEmpty(getAnnoRequestWrapper().partName())) {
requestWrapperPartName = getAnnoRequestWrapper().partName();
} else {
// There is no default for the RequestWrapper part name.
requestWrapperPartName = null;
}
}
if(log.isDebugEnabled()){
if(requestWrapperPartName!=null){
log.debug("RequestWrapperPartName ="+requestWrapperPartName);
}else{
log.debug("RequestWrapperPartName = NULL");
}
}
return requestWrapperPartName;
}
// ===========================================
// ANNOTATION: ResponseWrapper
// ===========================================
public ResponseWrapper getAnnoResponseWrapper() {
if (responseWrapperAnnotation == null) {
if (!isDBC() && seiMethod != null) {
responseWrapperAnnotation = (ResponseWrapper)
getAnnotation(seiMethod,ResponseWrapper.class);
} else if (isDBC() && methodComposite != null) {
responseWrapperAnnotation = methodComposite.getResponseWrapperAnnot();
} else {
if (log.isDebugEnabled()) {
log.debug("Unable to get ResponseWrapper annotation");
}
}
}
return responseWrapperAnnotation;
}
public String getResponseWrapperLocalName() {
return getAnnoResponseWrapperLocalName();
}
/**
* For wrapped parameter style (based on the annotation and the WSDL), returns the wrapper
* value. For non-wrapped (i.e. bare) parameter style, returns null.
*
* @return
*/
public String getAnnoResponseWrapperLocalName() {
if (!isWrappedParameters()) {
// A wrapper is only meaningful for wrapped parameters
return null;
}
if (responseWrapperLocalName == null) {
if (getAnnoResponseWrapper() != null &&
!DescriptionUtils.isEmpty(getAnnoResponseWrapper().localName())) {
responseWrapperLocalName = getAnnoResponseWrapper().localName();
} else {
// The default value of localName is the value of operationQName as
// defined in the WebMethod annotation appended with "Response". [JAX-WS Sec. 7.4, p. 81]
responseWrapperLocalName = getAnnoWebMethodOperationName() + "Response";
}
}
return responseWrapperLocalName;
}
public String getResponseWrapperTargetNamespace() {
return getAnnoResponseWrapperTargetNamespace();
}
/**
* For wrapped parameter style (based on the annotation and the WSDL), returns the wrapper
* value. For non-wrapped (i.e. bare) parameter style, returns null.
*
* @return
*/
public String getAnnoResponseWrapperTargetNamespace() {
if (!isWrappedParameters()) {
// A wrapper is only meaningful for wrapped parameters
return null;
}
if (responseWrapperTargetNamespace == null) {
if (getAnnoResponseWrapper() != null &&
!DescriptionUtils.isEmpty(getAnnoResponseWrapper().targetNamespace())) {
responseWrapperTargetNamespace = getAnnoResponseWrapper().targetNamespace();
} else {
// The default value for targetNamespace is the target namespace of the SEI. [JAX-WS Sec 7.3, p. 80]
responseWrapperTargetNamespace =
getEndpointInterfaceDescription().getTargetNamespace();
}
}
return responseWrapperTargetNamespace;
}
public String getResponseWrapperClassName() {
return getAnnoResponseWrapperClassName();
}
/**
* For wrapped parameter style (based on the annotation and the WSDL), returns the wrapper
* value. For non-wrapped (i.e. bare) parameter style, returns null.
*
* @return
*/
public String getAnnoResponseWrapperClassName() {
if (!isWrappedParameters()) {
// A wrapper is only meaningful for wrapped parameters
return null;
}
if (responseWrapperClassName == null) {
if (getAnnoResponseWrapper() != null &&
!DescriptionUtils.isEmpty(getAnnoResponseWrapper().className())) {
responseWrapperClassName = getAnnoResponseWrapper().className();
} else {
// There is no default for the ResponseWrapper class name.
// In such cases the programming layer (JAXWS) may use a programming spec specific
// mechanism to find the class, build the class, or operate without the class.
responseWrapperClassName = null;
}
}
return responseWrapperClassName;
}
public String getResponseWrapperPartName(){
return getAnnoResponseWrapperPartName();
}
/**
* return ResponseWrapper PartName if one present.
* @return
*/
public String getAnnoResponseWrapperPartName(){
if(!isWrappedParameters()){
return null;
}
if (responseWrapperPartName == null) {
if (getAnnoResponseWrapper() != null &&
!DescriptionUtils.isEmpty(getAnnoResponseWrapper().partName())) {
responseWrapperPartName = getAnnoResponseWrapper().partName();
} else {
// There is no default for the ResponseWrapper part name.
responseWrapperPartName = null;
}
}
if(log.isDebugEnabled()){
if(responseWrapperPartName!=null){
log.debug("ResponseWrapperPartName ="+responseWrapperPartName);
}else{
log.debug("ResponseWrapperPartName = NULL");
}
}
return responseWrapperPartName;
}
// ===========================================
// ANNOTATION: WebFault
// ===========================================
/*
* TODO some of the WebFault stuff should be moved to FaultDescription
*/
/*
* TODO: this will need revisited. The problem is that a WebFault is not mapped 1:1 to an
* OperationDescription. We should do a better job caching the information. For now, I'm
* following the getWebParam() pattern.
*
* This is gonna get complicated. One other thing to consider is that a method (opdesc) may declare
* several types of exceptions it throws
*
*/
public FaultDescription[] getFaultDescriptions() {
return faultDescriptions;
}
public FaultDescription resolveFaultByExceptionName(String exceptionClassName) {
if (faultDescriptions != null) {
for (FaultDescription fd : faultDescriptions) {
if (exceptionClassName.equals(fd.getExceptionClassName()))
return fd;
}
}
return null;
}
// ===========================================
// ANNOTATION: WebParam
// ===========================================
// Note that this annotation is handled by the ParameterDescripton.
// Methods are provided on OperationDescription as convenience methods.
public ParameterDescription[] getParameterDescriptions() {
return parameterDescriptions;
}
public ParameterDescription getParameterDescription(String parameterName) {
// TODO: Validation: For BARE paramaterUse, only a single IN our INOUT paramater and a single output (either return or OUT or INOUT) is allowed
// Per JSR-224, Sec 3.6.2.2, pg 37
ParameterDescription matchingParamDesc = null;
if (parameterName != null && !parameterName.equals("")) {
for (ParameterDescription paramDesc : parameterDescriptions) {
if (parameterName.equals(paramDesc.getParameterName())) {
matchingParamDesc = paramDesc;
break;
}
}
}
return matchingParamDesc;
}
public ParameterDescription getParameterDescription(int parameterNumber) {
return parameterDescriptions[parameterNumber];
}
public String[] getParamNames() {
return getAnnoWebParamNames();
}
public String[] getAnnoWebParamNames() {
if (webParamNames == null) {
ArrayList buildNames = new ArrayList();
ParameterDescription[] paramDescs = getParameterDescriptions();
for (ParameterDescription currentParamDesc : paramDescs) {
buildNames.add(currentParamDesc.getParameterName());
}
webParamNames = buildNames.toArray(new String[0]);
}
return webParamNames;
}
public String[] getAnnoWebParamTargetNamespaces() {
if (webParamTargetNamespace == null) {
ArrayList buildTargetNS = new ArrayList();
ParameterDescription[] paramDescs = getParameterDescriptions();
for (ParameterDescription currentParamDesc : paramDescs) {
buildTargetNS.add(currentParamDesc.getTargetNamespace());
}
webParamTargetNamespace = buildTargetNS.toArray(new String[0]);
}
return webParamTargetNamespace;
}
public String getAnnoWebParamTargetNamespace(String name) {
String returnTargetNS = null;
ParameterDescription paramDesc = getParameterDescription(name);
if (paramDesc != null) {
returnTargetNS = paramDesc.getTargetNamespace();
}
return returnTargetNS;
}
public Mode[] getAnnoWebParamModes() {
if (webParamMode == null) {
ArrayList buildModes = new ArrayList();
ParameterDescription[] paramDescs = getParameterDescriptions();
for (ParameterDescription currentParamDesc : paramDescs) {
buildModes.add(((ParameterDescriptionJava)currentParamDesc).getAnnoWebParamMode());
}
webParamMode = buildModes.toArray(new Mode[0]);
}
return webParamMode;
}
public boolean isAnnoWebParamHeader(String name) {
ParameterDescription paramDesc = getParameterDescription(name);
if (paramDesc != null) {
return paramDesc.isHeader();
}
return false;
}
// ===========================================
// ANNOTATION: WebResult
// ===========================================
public WebResult getAnnoWebResult() {
if (webResultAnnotation == null) {
if (!isDBC() && seiMethod != null) {
webResultAnnotation = (WebResult)
getAnnotation(seiMethod,WebResult.class);
} else if (methodComposite != null) {
webResultAnnotation = methodComposite.getWebResultAnnot();
} else {
if (log.isDebugEnabled()) {
log.debug("Unable to get WebResult annotation");
}
}
}
return webResultAnnotation;
}
public boolean isWebResultAnnotationSpecified() {
return getAnnoWebResult() != null;
}
public boolean isOperationReturningResult() {
boolean isResult = false;
if (!isAnnoOneWay()) {
if (!isDBC() && seiMethod != null) {
if (seiMethod.getReturnType() != Void.TYPE) {
isResult = true;
}
} else if (methodComposite != null) {
if (!DescriptionUtils.isEmpty(methodComposite.getReturnType()) &&
!methodComposite.getReturnType().equals("void"))
isResult = true;
} else {
if (log.isDebugEnabled()) {
log.debug("No class to determine if result is returned");
}
}
}
return isResult;
}
public String getResultName() {
return getAnnoWebResultName();
}
public String getAnnoWebResultName() {
if (!isOperationReturningResult()) {
return null;
}
if (webResultName == null) {
if (getAnnoWebResult() != null && !DescriptionUtils.isEmpty(getAnnoWebResult().name()))
{
webResultName = getAnnoWebResult().name();
} else if (getAnnoSoapBindingStyle() == SOAPBinding.Style.DOCUMENT
&& getAnnoSoapBindingParameterStyle() == SOAPBinding.ParameterStyle.BARE) {
// Default for operation style DOCUMENT and paramater style BARE per JSR 181 MR Sec 4.5.1, pg 23
webResultName = getAnnoWebMethodOperationName() + "Response";
} else {
// Defeault value is "return" per JSR-181 MR Sec. 4.5.1, p. 22
webResultName = "return";
}
}
return webResultName;
}
public String getResultPartName() {
return getAnnoWebResultPartName();
}
public String getAnnoWebResultPartName() {
if (!isOperationReturningResult()) {
return null;
}
if (webResultPartName == null) {
if (getAnnoWebResult() != null &&
!DescriptionUtils.isEmpty(getAnnoWebResult().partName())) {
webResultPartName = getAnnoWebResult().partName();
} else {
// Default is the WebResult.name per JSR-181 MR Sec 4.5.1, pg 23
webResultPartName = getAnnoWebResultName();
}
}
return webResultPartName;
}
public String getResultTargetNamespace() {
return getAnnoWebResultTargetNamespace();
}
public String getAnnoWebResultTargetNamespace() {
if (!isOperationReturningResult()) {
return null;
}
if (webResultTargetNamespace == null) {
if (getAnnoWebResult() != null &&
!DescriptionUtils.isEmpty(getAnnoWebResult().targetNamespace())) {
webResultTargetNamespace = getAnnoWebResult().targetNamespace();
} else if (getAnnoSoapBindingStyle() == SOAPBinding.Style.DOCUMENT
&& getAnnoSoapBindingParameterStyle() == SOAPBinding.ParameterStyle.WRAPPED
&& !getAnnoWebResultHeader()) {
// Default for operation style DOCUMENT and paramater style WRAPPED and the return value
// does not map to a header per JSR-181 MR Sec 4.5.1, pg 23-24
webResultTargetNamespace = WebResult_TargetNamespace_DEFAULT;
} else {
// Default is the namespace from the WebService per JSR-181 MR Sec 4.5.1, pg 23-24
webResultTargetNamespace =
((EndpointDescriptionJava)getEndpointInterfaceDescription()
.getEndpointDescription()).getAnnoWebServiceTargetNamespace();
}
}
return webResultTargetNamespace;
}
public boolean isResultHeader() {
return getAnnoWebResultHeader();
}
public boolean getAnnoWebResultHeader() {
if (!isOperationReturningResult()) {
return false;
}
if (webResultHeader == null) {
if (getAnnoWebResult() != null) {
// Unlike the elements with a String value, if the annotation is present, exclude will always
// return a usable value since it will default to FALSE if the element is not present.
webResultHeader = Boolean.valueOf(getAnnoWebResult().header());
} else {
webResultHeader = WebResult_Header_DEFAULT;
}
}
return webResultHeader.booleanValue();
}
// ===========================================
// ANNOTATION: SOAPBinding
// ===========================================
public SOAPBinding getAnnoSoapBinding() {
// TODO: VALIDATION: Only style of DOCUMENT allowed on Method annotation; remember to check the Type's style setting also
// JSR-181 Sec 4.7 p. 28
if (soapBindingAnnotation == null) {
if (!isDBC() && seiMethod != null) {
soapBindingAnnotation = (SOAPBinding)
getAnnotation(seiMethod,SOAPBinding.class);
} else if (isDBC() && methodComposite != null) {
soapBindingAnnotation = methodComposite.getSoapBindingAnnot();
} else {
if (log.isDebugEnabled()) {
log.debug("Unable to get SOAP Binding annotation");
}
}
}
return soapBindingAnnotation;
}
public javax.jws.soap.SOAPBinding.Style getSoapBindingStyle() {
return getAnnoSoapBindingStyle();
}
public javax.jws.soap.SOAPBinding.Style getAnnoSoapBindingStyle() {
if (soapBindingStyle == null) {
if (getAnnoSoapBinding() != null && getAnnoSoapBinding().style() != null) {
soapBindingStyle = getAnnoSoapBinding().style();
} else {
// Per JSR-181 MR Sec 4.7, pg 28: if not specified, use the Type value.
soapBindingStyle = getEndpointInterfaceDescription().getSoapBindingStyle();
}
}
return soapBindingStyle;
}
public javax.jws.soap.SOAPBinding.Use getSoapBindingUse() {
return getAnnoSoapBindingUse();
}
public javax.jws.soap.SOAPBinding.Use getAnnoSoapBindingUse() {
if (soapBindingUse == null) {
if (getAnnoSoapBinding() != null && getAnnoSoapBinding().use() != null) {
soapBindingUse = getAnnoSoapBinding().use();
} else {
// Per JSR-181 MR Sec 4.7, pg 28: if not specified, use the Type value.
soapBindingUse = getEndpointInterfaceDescription().getSoapBindingUse();
}
}
return soapBindingUse;
}
public javax.jws.soap.SOAPBinding.ParameterStyle getSoapBindingParameterStyle() {
return getAnnoSoapBindingParameterStyle();
}
public javax.jws.soap.SOAPBinding.ParameterStyle getAnnoSoapBindingParameterStyle() {
if (soapBindingParameterStyle == null) {
if (getAnnoSoapBinding() != null && getAnnoSoapBinding().parameterStyle() != null) {
soapBindingParameterStyle = getAnnoSoapBinding().parameterStyle();
} else {
// Per JSR-181 MR Sec 4.7, pg 28: if not specified, use the Type value.
soapBindingParameterStyle =
getEndpointInterfaceDescription().getSoapBindingParameterStyle();
}
}
return soapBindingParameterStyle;
}
// ===========================================
// ANNOTATION: Action
// ===========================================
public Action getAnnoAction() {
if (actionAnnotation == null) {
if (!isDBC() && seiMethod != null) {
actionAnnotation = (Action) getAnnotation(seiMethod, Action.class);
}
else if (methodComposite != null) {
actionAnnotation = methodComposite.getActionAnnot();
}
else {
if (log.isDebugEnabled()) {
log.debug("Unable to get Action annotation.");
}
}
}
if (log.isDebugEnabled()) {
log.debug("getAnnoAction: " + actionAnnotation);
}
return actionAnnotation;
}
private String getInputAction() {
String inputAction = null;
Action action = getAnnoAction();
if (action != null) {
inputAction = action.input();
}
if (log.isDebugEnabled()) {
log.debug("getInputAction: " + inputAction);
}
return inputAction;
}
private String getOutputAction() {
String outputAction = null;
Action action = getAnnoAction();
if (action != null) {
outputAction = action.output();
}
if (log.isDebugEnabled()) {
log.debug("getOutputAction: " + outputAction);
}
return outputAction;
}
private FaultAction[] getFaultActions() {
FaultAction[] faultActions = null;
Action action = getAnnoAction();
if (action != null) {
faultActions = action.fault();
}
if (log.isDebugEnabled()) {
log.debug("getFaultActions: " + Arrays.toString(faultActions));
}
return faultActions;
}
// ===========================================
// ANNOTATION: OneWay
// ===========================================
public Oneway getAnnoOneway() {
if (onewayAnnotation == null) {
// Get the onew-way annotation from either the method composite (server-side)
// or from the SEI method (client-side).
if (isDBC() && methodComposite != null) {
if (methodComposite.isOneWay()) {
onewayAnnotation = OneWayAnnot.createOneWayAnnotImpl();
}
} else if (!isDBC() && seiMethod != null) {
onewayAnnotation = (Oneway) getAnnotation(seiMethod,Oneway.class);
} else {
if (log.isDebugEnabled()) {
log.debug("Unable to get OneWay annotation");
}
}
}
return onewayAnnotation;
}
public boolean isOneWay() {
return isAnnoOneWay();
}
public boolean isAnnoOneWay() {
if (onewayIsOneway == null) {
if (getAnnoOneway() != null) {
// The presence of the annotation indicates the method is oneway
onewayIsOneway = Boolean.TRUE;
} else {
// If the annotation is not present, the default is this is NOT a One Way method
onewayIsOneway = Boolean.FALSE;
}
}
return onewayIsOneway.booleanValue();
}
private boolean isDBC() {
if (methodComposite != null)
return true;
else
return false;
}
/* (non-Javadoc)
* @see org.apache.axis2.jaxws.description.OperationDescription#getResultType()
*/
public Class getResultType() {
Class returnClass = null;
if (!isDBC() && getSEIMethod() != null) {
Method seiMethod = this.getSEIMethod();
returnClass = seiMethod.getReturnType();
} else if (methodComposite != null) {
returnClass = methodComposite.getReturnTypeClass();
} else {
if (log.isDebugEnabled()) {
log.debug("Unable to get result type from null class");
}
}
return returnClass;
}
/* (non-Javadoc)
* @see org.apache.axis2.jaxws.description.OperationDescription#getResultActualType()
*/
public Class getResultActualType() {
if(resultActualTypeClazz == null) {
resultActualTypeClazz = findResultActualType();
}
return resultActualTypeClazz;
}
public Class findResultActualType() {
// TODO: Fix this! it isn't doing the right thing for DBC as noted below with FIXME comments
// This is used to marshall the rsp on the service (dbc) and demarshall on the client (reflection)
// But we shouldn't get an async OpDesc on the service since getDispatchableOperation(QN) removes them.
Class returnType = getResultType();
if (returnType == null) {
return null;
}
if (isJAXWSAsyncClientMethod()) {
//pooling implementation
if (Response.class == returnType) {
if (!isDBC()) {
Type type = seiMethod.getGenericReturnType();
ParameterizedType pType = (ParameterizedType)type;
Type aType = pType.getActualTypeArguments()[0];
if (aType != null && ParameterizedType.class.isInstance(aType)) {
return (Class)((ParameterizedType)aType).getRawType();
}
return (Class)aType;
} else {
// FIXME: This doesn't work for DBC. That's OK for now because DBC isn't used on the client side
// yet; the client is all Java Reflection. On the Service side, the Async methods are not used.
// This needs to return T for Response, or List for Response>>
return returnType;
}
}
//Callback Implementation
else {
// FIXME: This doesn't work for DBC. That's OK for now because DBC isn't used on the client side
// yet; the client is all Java Reflection. On the Service side, the Async methods are not used.
// This needs to find and return T for AsyncHandler, or List for AsyncHandler>>
Type[] type = getGenericParameterTypes();
Class parameters[] = getParameterTypes();
int i = 0;
for (Class param : parameters) {
if (AsyncHandler.class.isAssignableFrom(param)) {
ParameterizedType pType = (ParameterizedType)type[i];
Type aType = pType.getActualTypeArguments()[0];
if (aType != null && ParameterizedType.class.isInstance(aType)) {
return (Class)((ParameterizedType)aType).getRawType();
}
return (Class)aType;
}
i++;
}
}
}
return returnType;
}
private Type[] getGenericParameterTypes() {
if (isDBC()) {
// FIXME: This doesn't work for DBC. That's OK for now because DBC isn't used on the client side
// yet; the client is all Java Reflection. On the Service side, the Async methods are not used.
// And this method is only used to parse out the JAX-WS Async parameter types to find
// AsyncHandler. The problem with the code that was removed is that a Type can not be
// instantiated, so we can't new up a Type inside the PDC.
throw ExceptionFactory.makeWebServiceException(new UnsupportedOperationException(Messages.getMessage("genParamTypesErr")));
// Type [] type = new Type[parameterDescriptions.length];
// for (int i=0; i < parameterDescriptions.length; i++){
// type[i] = ((ParameterDescriptionImpl) parameterDescriptions[i]).getParameterActualGenericType();
// }
// return type;
} else {
Type [] type = seiMethod.getGenericParameterTypes();
return type;
}
}
private Class[] getParameterTypes() {
if (isDBC()) {
Class [] parameters = new Class[parameterDescriptions.length];
for (int i = 0; i < parameterDescriptions.length; i++) {
parameters[i] = parameterDescriptions[i].getParameterType();
}
return parameters;
} else {
Class [] parameters = seiMethod.getParameterTypes();
return parameters;
}
}
/*
* (non-Javadoc)
* @see org.apache.axis2.jaxws.description.OperationDescription#isJAXWSAsyncClientMethod()
*/
public boolean isJAXWSAsyncClientMethod() {
boolean answer = false;
String methodName = null;
String returnTypeName = null;
if (isDBC()) {
methodName = getMethodDescriptionComposite().getMethodName();
returnTypeName = getMethodDescriptionComposite().getReturnType();
} else {
Method method = this.getSEIMethod();
if (method != null) {
methodName = method.getName();
returnTypeName = method.getReturnType().getName();
}
}
if (methodName != null && returnTypeName != null) {
answer = (returnTypeName.contains(Response.class.getName()) ||
returnTypeName.contains(Future.class.getName()));
}
if (log.isDebugEnabled()) {
log.debug("Method = " + methodName);
log.debug("Return Type = " + returnTypeName);
log.debug("Is client async = " + answer);
}
return answer;
}
/**
* Return the Service Implementation method for this operation IFF it has been set by a previous
* call to getMethodFromServiceImpl(Class serviceImplClass). Otherwise a null is returned.
*
* @return
*/
private Method getMethodFromServiceImpl() {
return serviceImplMethod;
}
public Method getMethodFromServiceImpl(Class serviceImpl) {
// TODO: This doesn't support overloaded methods in the service impl This is
// DIFFERENT than overloaded WSDL operations (which aren't supported). We
// MUST support overloaded service impl methods as long as they have different
// wsdl operation names. For example:
// ServiceImple Class SEI Class
// @WebMethod.name = Foo1
// void foo() void foo()
// @WebMethod.name = Foo2
// void foo(int) void foo(int)
// @WebMethod.name = Foo3
// void foo(String) void foo(String)
//
// There will be two OpDescs, Foo1 and Foo2; the incoming wsdl operation will correctly identify
// which OpDesc. However, to return the correct service impl method, we need to compare the
// signatures, not just the method names.
if (!serviceImplMethodFound) {
Method[] methods = serviceImpl.getMethods();
String opDescMethodName = getJavaMethodName();
ParameterDescription[] paramDesc = getParameterDescriptions();
// TODO: As noted above, a full signature is necessary, not just number of params
int numberOfParams = 0;
if (paramDesc != null) {
numberOfParams = paramDesc.length;
}
// Loop through all the methods on the service impl and find the method that maps
// to this OperationDescripton
for (Method checkMethod : methods) {
if (checkMethod.getName().equals(opDescMethodName)) {
Class[] methodParams = checkMethod.getParameterTypes();
// TODO: As noted above, a full signature is necessary, not just number of params
if (methodParams.length == numberOfParams) {
if (paramTypesMatch(paramDesc, methodParams)) {
serviceImplMethod = checkMethod;
break;
}
}
}
}
serviceImplMethodFound = true;
}
return serviceImplMethod;
}
/**
* This method will compare the types of the parameters in a ParameterDescription
* vs. the type of the arguments in the parameters of a Method
.
*
* @param paramDescs - ParameterDescription
[]
* @param methodParams - Class
[]
* @return - boolean
*/
private boolean paramTypesMatch(ParameterDescription[] paramDescs, Class[]
methodParams) {
for (int i = 0; i < paramDescs.length; i++) {
String mParamType = methodParams[i].getName();
String pdType = getPDType(paramDescs[i]);
if (mParamType == null || !mParamType.equals(pdType)) {
return false;
}
}
return true;
}
/**
* This will get a String
representing the parameter class of a
* ParameterDescription
.
*
* @param pd - ParameterDescrition
* @return - String
*/
private String getPDType(ParameterDescription pd) {
String type = null;
if (pd.getParameterType() != null) {
type = pd.getParameterType().getName();
} else if (pd.getParameterActualType() != null) {
type = pd.getParameterActualType().getName();
}
return type;
}
public OperationRuntimeDescription getOperationRuntimeDesc(String name) {
// TODO Add toString support
return runtimeDescMap.get(name);
}
public void setOperationRuntimeDesc(OperationRuntimeDescription ord) {
// TODO Add toString support
runtimeDescMap.put(ord.getKey(), ord);
}
public boolean isListType() {
return isListType;
}
/**
* This method will return the namespace for the BindingInput that this operation
* specifies. It will first look for a namespace on the WSDL Binding object and then
* default to the web service's target namespace.
*/
public String getBindingInputNamespace() {
String tns = null;
Binding binding =
this.getEndpointInterfaceDescriptionImpl()
.getEndpointDescriptionImpl()
.getWSDLBinding();
if (binding != null) {
if (log.isDebugEnabled()) {
log.debug("Found WSDL binding");
}
// this call does not support overloaded WSDL operations as it
// does not specify the name of the input and output messages
BindingOperation bindingOp =
binding.getBindingOperation(getOperationName(), null, null);
if (bindingOp != null && bindingOp.getBindingInput() != null) {
if (log.isDebugEnabled()) {
log.debug("Found WSDL binding operation and input");
}
tns = getBindingNamespace(bindingOp.getBindingInput());
if (tns != null && log.isDebugEnabled()) {
log.debug("For operation: " + bindingOp.getName()
+ " returning the following namespace for input message"
+ " from WSDL: " + tns);
}
}
}
if (tns == null) {
tns = getEndpointInterfaceDescription().getTargetNamespace();
if (log.isDebugEnabled()) {
log.debug("For binding input returning @WebService.targetNamespace: " + tns);
}
}
return tns;
}
/**
* This method will return the namespace for the BindingOutput that this operation
* specifies. It will first look for a namespace on the WSDL Binding object and then
* default to the web service's target namespace.
*/
public String getBindingOutputNamespace() {
String tns = null;
Binding binding =
this.getEndpointInterfaceDescriptionImpl()
.getEndpointDescriptionImpl()
.getWSDLBinding();
if (binding != null) {
if (log.isDebugEnabled()) {
log.debug("Found WSDL binding");
}
// this call does not support overloaded WSDL operations as it
// does not specify the name of the input and output messages
BindingOperation bindingOp =
binding.getBindingOperation(getOperationName(), null, null);
if (bindingOp != null && bindingOp.getBindingOutput() != null) {
if (log.isDebugEnabled()) {
log.debug("Found WSDL binding operation and output");
}
tns = getBindingNamespace(bindingOp.getBindingOutput());
if (tns != null && log.isDebugEnabled()) {
log.debug("For operation: " + bindingOp.getName()
+ " returning the following namespace for output message"
+ " from WSDL: " + tns);
}
}
}
if (tns == null) {
tns = getEndpointInterfaceDescription().getTargetNamespace();
if (log.isDebugEnabled()) {
log.debug("For binding output returning @WebService.targetNamespace: " + tns);
}
}
return tns;
}
/**
* This method will retrieve the namespace that is specified by the BindingInput or
* BindingOutput object.
*/
private String getBindingNamespace(AttributeExtensible opInfo) {
if (opInfo instanceof BindingInput) {
BindingInput input = (BindingInput) opInfo;
return DescriptionUtils.getNamespaceFromSOAPElement(input.getExtensibilityElements());
} else if (opInfo instanceof BindingOutput) {
BindingOutput output = (BindingOutput) opInfo;
return DescriptionUtils.getNamespaceFromSOAPElement(output.getExtensibilityElements());
}
return null;
}
public AttachmentDescription getResultAttachmentDescription() {
String partName = this.getResultPartName();
if (partName != null) {
if (log.isDebugEnabled()) {
log.debug("Returning result AttachmentDescription for partName: " + partName);
}
return partAttachmentMap.get(partName);
}
if (log.isDebugEnabled()) {
log.debug("Did not find result AttachmentDescription for partName");
}
return null;
}
/**
* This method will drive the building of AttachmentDescription objects for the
* operation input/output messages in the WSDL.
*
*/
private void buildAttachmentInformation() {
if (log.isDebugEnabled()) {
log.debug("Start buildAttachmentInformation");
}
// Only building attachment info if we find a full WSDL
if (this.getEndpointInterfaceDescriptionImpl()
.getEndpointDescriptionImpl()
.isWSDLFullySpecified()) {
if (log.isDebugEnabled()) {
log.debug("A full WSDL is available. Query the WSDL binding for the " +
"AttachmentDescription information.");
}
DescriptionUtils.getAttachmentFromBinding(this,
this.getEndpointInterfaceDescriptionImpl()
.getEndpointDescriptionImpl()
.getWSDLBinding());
} else {
if (log.isDebugEnabled()) {
log.debug("The WSDL is not available. Looking for @WebService wsdlLocation.");
}
// Try getting a WSDL
String wsdlLocation = this.getEndpointInterfaceDescriptionImpl().
getEndpointDescriptionImpl().
getAnnoWebServiceWSDLLocation();
if (wsdlLocation == null || wsdlLocation.length() == 0) {
if (log.isDebugEnabled()) {
log.debug("@WebService wsdlLocation is not specified. " +
"Processing continues without AttachmentDescription information");
}
} else {
if (log.isDebugEnabled()) {
log.debug("@WebService wsdlLocation is " + wsdlLocation);
}
Definition def = null;
WSDL4JWrapper wsdl4j = null;
try {
File file = new File(wsdlLocation);
URL url = file.toURI().toURL();
wsdl4j = new WSDL4JWrapper(url, true, 2); // In this context, limit the wsdl memory
def = wsdl4j.getDefinition();
} catch (Throwable t) {
if (log.isDebugEnabled()) {
log.debug("Error occurred while loading WSDL. " +
"Procesing continues without AttachmentDescription " +
"information. " + t);
}
}
if (def != null) {
// Set the WSDL on the server
this.getEndpointInterfaceDescriptionImpl().getEndpointDescriptionImpl().
getServiceDescriptionImpl().setWsdlWrapper(wsdl4j);
if (log.isDebugEnabled()) {
log.debug("WSDL Definition is loaded. Get the WSDL Binding.");
}
Binding binding = this.getEndpointInterfaceDescriptionImpl().
getEndpointDescriptionImpl().getWSDLBinding();
if (binding == null) {
if (log.isDebugEnabled()) {
log.debug("WSDL Binding was not found for serviceName=" +
this.getEndpointInterfaceDescription().
getEndpointDescription().getServiceQName() +
" and portName=" +
this.getEndpointInterfaceDescription().
getEndpointDescription().getPortQName());
}
} else {
if (log.isDebugEnabled()) {
log.debug("Query Binding for AttachmentDescription Information");
}
DescriptionUtils.getAttachmentFromBinding(this, binding);
}
}
}
}
if (log.isDebugEnabled()) {
log.debug("End buildAttachmentInformation");
}
}
/**
* This will return an AttachmentDescription based on a part name.
*/
public AttachmentDescription getPartAttachmentDescription(String partName) {
return partAttachmentMap.get(partName);
}
public void addPartAttachmentDescription(String partName, AttachmentDescription attachmentDesc) {
partAttachmentMap.put(partName, attachmentDesc);
}
public boolean hasRequestSwaRefAttachments() {
return hasRequestSwaRefAttachments;
}
public void setHasRequestSwaRefAttachments(boolean b) {
hasRequestSwaRefAttachments = b;
}
public boolean hasResponseSwaRefAttachments() {
return hasResponseSwaRefAttachments;
}
public void setHasResponseSwaRefAttachments(boolean b) {
hasResponseSwaRefAttachments = b;
}
public String toString() {
final String newline = "\n";
final String sameline = "; ";
StringBuffer string = new StringBuffer();
try {
string.append(super.toString());
string.append(newline);
string.append("Name: " + getName());
string.append(sameline);
string.append("Operation Name: " + getOperationName());
string.append(sameline);
string.append("Action: " + getAction());
//
string.append(newline);
string.append("Operation excluded: " + (isExcluded() == true));
string.append(sameline);
string.append("Is oneway: " + (isOneWay() == true));
string.append(sameline);
string.append("Is returning result: " + (isOperationReturningResult() == true));
string.append(sameline);
string.append("Is result header: " + (isResultHeader() == true));
string.append(sameline);
string.append("Is JAXWS Client Async method: " + (isJAXWSAsyncClientMethod() == true));
//
string.append(newline);
string.append("SOAP Style: " + getSoapBindingStyle());
string.append(sameline);
string.append("SOAP Use: " + getSoapBindingUse());
string.append(sameline);
string.append("SOAP Parameter Style: " + getSoapBindingParameterStyle());
//
string.append(newline);
string.append("Result name: " + getResultName());
string.append(sameline);
string.append("Result part name: " + getResultPartName());
string.append(sameline);
string.append("Result type: " + getResultType());
string.append(sameline);
string.append("Result actual type: " + getResultActualType());
if (getResultAttachmentDescription() != null) {
string.append(newline);
string.append(getResultAttachmentDescription().toString());
}
//
string.append(newline);
string.append("Request Wrapper class: " + getRequestWrapperClassName());
string.append(sameline);
string.append("Response Wrapper class: " + getResponseWrapperClassName());
//
string.append(newline);
string.append("Java declaring class name: " + getJavaDeclaringClassName());
string.append(newline);
string.append("Java method name: " + getJavaMethodName());
string.append(newline);
string.append("Java parameters: " + Arrays.toString(getJavaParameters()));
string.append(newline);
string.append("Service Implementation method: " + getMethodFromServiceImpl());
string.append(newline);
string.append("Axis Operation: " + getAxisOperation());
string.append(newline);
ParameterDescription[] paramDescs = getParameterDescriptions();
if (paramDescs != null && paramDescs.length > 0) {
string.append("Number of Parameter Descriptions: " + paramDescs.length);
for (ParameterDescription paramDesc : paramDescs) {
string.append(newline);
string.append("Parameter Description: " + paramDesc.toString());
}
} else {
string.append("No Parameter Descriptions");
}
string.append(newline);
FaultDescription[] faultDescs = getFaultDescriptions();
if (faultDescs != null && faultDescs.length > 0) {
string.append("Number of Fault Descriptions: " + faultDescs.length);
for (FaultDescription faultDesc : faultDescs) {
string.append(newline);
string.append("Fault Description: " + faultDesc.toString());
}
} else {
string.append("No Fault Descriptions");
}
if(!partAttachmentMap.isEmpty()) {
string.append(newline);
string.append("Number of Attachment Descriptions: " + partAttachmentMap.size());
string.append(newline);
Iterator adIter = partAttachmentMap.values().iterator();
while(adIter.hasNext()) {
string.append(adIter.next().toString());
string.append(newline);
}
} else {
string.append(newline);
string.append("No Attachment Descriptions");
string.append(newline);
}
string.append("RuntimeDescriptions:" + this.runtimeDescMap.size());
string.append(newline);
for (OperationRuntimeDescription runtimeDesc : runtimeDescMap.values()) {
string.append(runtimeDesc.toString());
string.append(newline);
}
}
catch (Throwable t) {
string.append(newline);
string.append("Complete debug information not currently available for " +
"OperationDescription");
return string.toString();
}
return string.toString();
}
/**
* Adds a list of SOAP header QNames that are understood by JAXWS for this operation to the
* AxisOperation. This will be used by Axis2 to verify that all headers marked as
* mustUnderstand have been or will be processed.
*
* Server side headers considered understood [JAXWS 2.0 Sec 10.2.1 page 117]
* - SEI method params that are in headers
* - Headers processed by application handlers (TBD)
*
* Client side headers considered understood: None
*
*/
private void registerMustUnderstandHeaders() {
// REVIEW: If client side (return value, OUT or INOUT params) needs to be supported then
// this needs to process client and server differently.
AxisOperation theAxisOperation = getAxisOperation();
if (theAxisOperation == null) {
if (log.isDebugEnabled()) {
log.debug("The axis operation is null, so header QNames could not be registered. OpDesc = " + this);
}
return;
}
// If any IN or INOUT parameters are in the header, then add their QNames to the list
ParameterDescription paramDescs[] = getParameterDescriptions();
ArrayList understoodQNames = new ArrayList();
if (paramDescs != null && paramDescs.length > 0) {
for (ParameterDescription paramDesc : paramDescs) {
if (paramDesc.isHeader()
&& (paramDesc.getMode() == WebParam.Mode.IN
|| paramDesc.getMode() == WebParam.Mode.INOUT)) {
QName headerQN = new QName(paramDesc.getTargetNamespace(),
paramDesc.getParameterName());
understoodQNames.add(headerQN);
if (log.isDebugEnabled()) {
log.debug("OpDesc: understoodQName added to AxisOperation (if not null) as IN or INOUT param " + headerQN);
}
} else if (paramDesc.isHeader()
&& (paramDesc.getMode() == WebParam.Mode.OUT)) {
QName headerQN = new QName(paramDesc.getTargetNamespace(),
paramDesc.getParameterName());
understoodQNames.add(headerQN);
if (log.isDebugEnabled()) {
log.debug("OpDesc: understoodQName added to AxisOperation (if not null) as OUT param " + headerQN);
}
}
}
}
// Also check for result in header
if (isResultHeader() && (getResultName() != null)) {
QName headerQN = new QName(getResultTargetNamespace(), getResultName());
understoodQNames.add(headerQN);
if (log.isDebugEnabled()) {
log.debug("OpDesc: understoodQName added to AxisOperation (if not null) as result param " + headerQN);
}
}
if (!understoodQNames.isEmpty()) {
Parameter headerQNParameter = new Parameter(OperationDescription.HEADER_PARAMETER_QNAMES,
understoodQNames);
try {
theAxisOperation.addParameter(headerQNParameter);
} catch (AxisFault e) {
log.warn(Messages.getMessage("regMUHeadersErr", theAxisOperation.getClass().getName(), e.getMessage()));
if (log.isDebugEnabled()) {
log.debug("Unable to add Parameter for header QNames to AxisOperation: " + theAxisOperation.getClass().getName(), e);
}
}
}
}
/**
* Get an annotation. This is wrappered to avoid a Java2Security violation.
* @param cls Class that contains annotation
* @param annotation Class of requrested Annotation
* @return annotation or null
*/
private static Annotation getAnnotation(final AnnotatedElement element, final Class annotation) {
return (Annotation) AccessController.doPrivileged(new PrivilegedAction() {
public Object run() {
return element.getAnnotation(annotation);
}
});
}
}
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