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Core Parts of Axis2. This includes Axis2 engine, Client API, Addressing support, etc.,

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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.context.externalize;

import org.apache.axis2.description.AxisMessage;
import org.apache.axis2.description.AxisOperation;
import org.apache.axis2.description.AxisService;
import org.apache.axis2.description.AxisServiceGroup;
import org.apache.axis2.description.TransportInDescription;
import org.apache.axis2.engine.AxisConfiguration;
import org.apache.axis2.engine.Handler;
import org.apache.axis2.transport.TransportListener;
import org.apache.axis2.util.MetaDataEntry;
import org.apache.axis2.wsdl.WSDLConstants;
import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;

import javax.xml.namespace.QName;
import java.util.ArrayList;
import java.util.Collection;
import java.util.HashMap;
import java.util.Iterator;
import java.util.LinkedList;
import java.util.Map;


/**
 * Some Externalize objects must be "activated" after they are read.
 * Activation normally involves associating the object with objects in the current
 * runtime.
 * 
 * ActivateUtils provides activation related utilities
 */
public class ActivateUtils {
    
    private static final Log log = LogFactory.getLog(ActivateUtils.class);
    
    /**
     * Private Constructor
     * All methods in ActivateUtils are static.
     */
    private ActivateUtils() {}

    /**
     * Find the AxisServiceGroup object that matches the criteria
     * 

* Note the saved service group meta information may not * match up with any of the serviceGroups that * are in the current AxisConfiguration object. * * @param axisConfig The AxisConfiguration object * @param serviceGrpClassName the class name string for the target object * (could be a derived class) * @param serviceGrpName the name associated with the service group * @return the AxisServiceGroup object that matches the criteria */ public static AxisServiceGroup findServiceGroup(AxisConfiguration axisConfig, String serviceGrpClassName, String serviceGrpName) { Iterator its = axisConfig.getServiceGroups(); while (its.hasNext()) { AxisServiceGroup serviceGroup = (AxisServiceGroup) its.next(); String tmpSGClassName = serviceGroup.getClass().getName(); String tmpSGName = serviceGroup.getServiceGroupName(); if (tmpSGClassName.equals(serviceGrpClassName)) { boolean found = false; // the serviceGroupName can be null, so either both the // service group names are null or they match if ((tmpSGName == null) && (serviceGrpName == null)) { found = true; } else if ((tmpSGName != null) && (tmpSGName.equals(serviceGrpName))) { found = true; } if (found) { // trace point if (log.isTraceEnabled()) { log.trace("ObjectStateUtils:findServiceGroup(): returning [" + serviceGrpClassName + "] [" + serviceGrpName + "]"); } return serviceGroup; } } } // trace point if (log.isTraceEnabled()) { log.trace("ObjectStateUtils:findServiceGroup(): [" + serviceGrpClassName + "] [" + serviceGrpName + "] returning [null]"); } return null; } /** * Find the AxisService object that matches the criteria * * @param axisConfig The AxisConfiguration object * @param serviceClassName the class name string for the target object * (could be a derived class) * @param serviceName the name associated with the service * @return the AxisService object that matches the criteria */ public static AxisService findService(AxisConfiguration axisConfig, String serviceClassName, String serviceName) { HashMap services = axisConfig.getServices(); Iterator its = services.values().iterator(); while (its.hasNext()) { AxisService service = (AxisService) its.next(); String tmpServClassName = service.getClass().getName(); String tmpServName = service.getName(); if ((tmpServClassName.equals(serviceClassName)) && (tmpServName.equals(serviceName))) { // trace point if (log.isTraceEnabled()) { log.trace("ObjectStateUtils:findService(): returning [" + serviceClassName + "] [" + serviceName + "]"); } return service; } } // trace point if (log.isTraceEnabled()) { log.trace("ObjectStateUtils:findService(): [" + serviceClassName + "] [" + serviceName + "] returning [null]"); } return null; } /** * Find the AxisOperation object that matches the criteria * * @param axisConfig The AxisConfiguration object * @param opClassName the class name string for the target object * (could be a derived class) * @param opQName the name associated with the operation * @return the AxisOperation object that matches the given criteria */ public static AxisOperation findOperation(AxisConfiguration axisConfig, String opClassName, QName opQName) { HashMap services = axisConfig.getServices(); Iterator its = services.values().iterator(); while (its.hasNext()) { AxisService service = (AxisService) its.next(); Iterator ito = service.getOperations(); while (ito.hasNext()) { AxisOperation operation = (AxisOperation) ito.next(); String tmpOpName = operation.getClass().getName(); QName tmpOpQName = operation.getName(); if ((tmpOpName.equals(opClassName)) && (tmpOpQName.equals(opQName))) { // trace point if (log.isTraceEnabled()) { log.trace("ObjectStateUtils:findOperation(axisCfg): returning [" + opClassName + "] [" + opQName.toString() + "]"); } return operation; } } } // trace point if (log.isTraceEnabled()) { log.trace("ObjectStateUtils:findOperation(axisCfg): [" + opClassName + "] [" + opQName.toString() + "] returning [null]"); } return null; } /** * Find the AxisOperation object that matches the criteria * * @param service The AxisService object * @param opClassName The class name string for the target object * (could be a derived class) * @param opQName the name associated with the operation * @return the AxisOperation object that matches the given criteria */ public static AxisOperation findOperation(AxisService service, String opClassName, QName opQName) { if (service == null) { return null; } Iterator ito = service.getOperations(); while (ito.hasNext()) { AxisOperation operation = (AxisOperation) ito.next(); String tmpOpName = operation.getClass().getName(); QName tmpOpQName = operation.getName(); if ((tmpOpName.equals(opClassName)) && (tmpOpQName.equals(opQName))) { // trace point if (log.isTraceEnabled()) { log.trace("ObjectStateUtils:findOperation(service): returning [" + opClassName + "] [" + opQName.toString() + "]"); } return operation; } } // trace point if (log.isTraceEnabled()) { log.trace("ObjectStateUtils:findOperation(service): [" + opClassName + "] [" + opQName.toString() + "] returning [null]"); } return null; } /** * Find the AxisMessage object that matches the criteria * * @param op The AxisOperation object * @param msgName The name associated with the message * @param msgElementName The name associated with the message element * @return the AxisMessage object that matches the given criteria */ public static AxisMessage findMessage(AxisOperation op, String msgName, String msgElementName) { // Several kinds of AxisMessages can be associated with a particular // AxisOperation. The kinds of AxisMessages that are typically // accessible are associated with "in" and "out". // There are also different kinds of AxisOperations, and each // type of AxisOperation can have its own mix of AxisMessages // depending on the style of message exchange pattern (mep) if (op == null) { // trace point if (log.isTraceEnabled()) { log.trace("ObjectStateUtils:findMessage(): [" + msgName + "] [" + msgElementName + "] returning [null] - no AxisOperation"); } return null; } if (msgName == null) { // nothing to match with, expect to match against a name // trace point if (log.isTraceEnabled()) { log.trace("ObjectStateUtils:findMessage(): [" + msgName + "] [" + msgElementName + "] returning [null] - message name is not set"); } return null; } String tmpName = null; String tmpElementName = null; //------------------------------------- // first try the "out" message //------------------------------------- AxisMessage out = null; try { out = op.getMessage(WSDLConstants.MESSAGE_LABEL_OUT_VALUE); } catch (Exception ex) { // just absorb the exception } if (out != null) { tmpName = out.getName(); QName tmpQout = out.getElementQName(); if (tmpQout != null) { tmpElementName = tmpQout.toString(); } } // check the criteria for a match boolean matching = matchMessageNames(tmpName, tmpElementName, msgName, msgElementName); if (matching) { // trace point if (log.isTraceEnabled()) { log.trace("ObjectStateUtils:findMessage(): returning OUT message [" + msgName + "] [" + msgElementName + "] "); } return out; } //------------------------------------- // next, try the "in" message //------------------------------------- AxisMessage in = null; try { in = op.getMessage(WSDLConstants.MESSAGE_LABEL_IN_VALUE); } catch (Exception ex) { // just absorb the exception } if (in != null) { tmpName = in.getName(); QName tmpQin = in.getElementQName(); if (tmpQin != null) { tmpElementName = tmpQin.toString(); } } else { tmpName = null; tmpElementName = null; } // check the criteria for a match matching = matchMessageNames(tmpName, tmpElementName, msgName, msgElementName); if (matching) { // trace point if (log.isTraceEnabled()) { log.trace("ObjectStateUtils:findMessage(): returning IN message [" + msgName + "] [" + msgElementName + "] "); } return in; } // if we got here, then no match was found // trace point if (log.isTraceEnabled()) { log.trace("ObjectStateUtils:findMessage(): [" + msgName + "] [" + msgElementName + "] returning [null]"); } return null; } /** * Find the Handler object that matches the criteria * * @param existingHandlers The list of existing handlers and phases * @param handlerClassName the class name string for the target object * (could be a derived class) * @return the Handler object that matches the criteria */ public static Object findHandler(ArrayList existingHandlers, MetaDataEntry metaDataEntry) //String handlerClassName) { String title = "ObjectStateUtils:findHandler(): "; String handlerClassName = metaDataEntry.getClassName(); String qNameAsString = metaDataEntry.getQNameAsString(); for (int i = 0; i < existingHandlers.size(); i++) { if (existingHandlers.get(i) != null) { String tmpClassName = existingHandlers.get(i).getClass().getName(); String tmpName = ((Handler) existingHandlers.get(i)).getName().toString(); if ((tmpClassName.equals(handlerClassName)) && (tmpName.equals(qNameAsString))) { // trace point if (log.isTraceEnabled()) { log.trace(title + " [" + handlerClassName + "] name [" + qNameAsString + "] returned"); } return (Handler) (existingHandlers.get(i)); } } } // trace point if (log.isTraceEnabled()) { log.trace(title + " [" + handlerClassName + "] name [" + qNameAsString + "] was not found in the existingHandlers list"); } return null; } /** * Find the TransportListener object that matches the criteria *

* Note the saved meta information may not * match up with any of the objects that * are in the current AxisConfiguration object. * * @param axisConfig The AxisConfiguration object * @param listenerClassName the class name string for the target object * (could be a derived class) * @return the TransportListener object that matches the criteria */ public static TransportListener findTransportListener(AxisConfiguration axisConfig, String listenerClassName) { // TODO: investigate a better technique to match up with a TransportListener HashMap transportsIn = axisConfig.getTransportsIn(); // get a collection of the values in the map Collection values = transportsIn.values(); Iterator i = values.iterator(); while (i.hasNext()) { TransportInDescription ti = (TransportInDescription) i.next(); TransportListener tl = ti.getReceiver(); String tlClassName = tl.getClass().getName(); if (tlClassName.equals(listenerClassName)) { // trace point if (log.isTraceEnabled()) { log.trace("ObjectStateUtils:findTransportListener(): [" + listenerClassName + "] returned"); } return tl; } } // trace point if (log.isTraceEnabled()) { log.trace("ObjectStateUtils:findTransportListener(): returning [null]"); } return null; } /** * Compares the two collections to see if they are equivalent. * * @param a1 The first collection * @param a2 The second collection * @param strict Indicates whether strict checking is required. Strict * checking means that the two collections must have the * same elements in the same order. Non-strict checking * means that the two collections must have the same * elements, but the order is not significant. * @return TRUE if the two collections are equivalent * FALSE, otherwise */ public static boolean isEquivalent(ArrayList a1, ArrayList a2, boolean strict) { if ((a1 != null) && (a2 != null)) { // check number of elements in lists int size1 = a1.size(); int size2 = a2.size(); if (size1 != size2) { // trace point if (log.isTraceEnabled()) { log.trace("ObjectStateUtils:isEquivalent(ArrayList,ArrayList): FALSE - size mismatch [" + size1 + "] != [" + size2 + "]"); } return false; } if (strict) { // Strict checking // The lists must contain the same elements in the same order. return (a1.equals(a2)); } else { // Non-strict checking // The lists must contain the same elements but the order is not required. Iterator i1 = a1.iterator(); while (i1.hasNext()) { Object obj1 = i1.next(); if (!a2.contains(obj1)) { // trace point if (log.isTraceEnabled()) { log.trace("ObjectStateUtils:isEquivalent(ArrayList,ArrayList): FALSE - mismatch with element [" + obj1.getClass().getName() + "] "); } return false; } } return true; } } else if ((a1 == null) && (a2 == null)) { return true; } else if ((a1 != null) && (a2 == null)) { if (a1.size() == 0) { return true; } return false; } else if ((a1 == null) && (a2 != null)) { if (a2.size() == 0) { return true; } return false; } else { // mismatch // trace point if (log.isTraceEnabled()) { log.trace("ObjectStateUtils:isEquivalent(ArrayList,ArrayList): FALSE - mismatch in lists"); } return false; } } /** * Compares the two collections to see if they are equivalent. * * @param m1 The first collection * @param m2 The second collection * @param strict Indicates whether strict checking is required. Strict * checking means that the two collections must have the * same mappings. Non-strict checking means that the * two collections must have the same keys. In both * cases, the order is not significant. * @return TRUE if the two collections are equivalent * FALSE, otherwise */ public static boolean isEquivalent(Map m1, Map m2, boolean strict) { if ((m1 != null) && (m2 != null)) { if (strict) { // This is a strict test. // Returns true if the given object is also a map and the two Maps // represent the same mappings. return (m1.equals(m2)); } else { int size1 = m1.size(); int size2 = m2.size(); if (size1 != size2) { return false; } // check the keys, ordering is not important between the two maps Iterator it1 = m1.keySet().iterator(); while (it1.hasNext()) { Object key1 = it1.next(); if (m2.containsKey(key1) == false) { return false; } } return true; } } else if ((m1 == null) && (m2 == null)) { return true; } else { // mismatch return false; } } /** * Compares the two collections to see if they are equivalent. * * @param l1 The first collection * @param l2 The second collection * @return TRUE if the two collections are equivalent * FALSE, otherwise */ public static boolean isEquivalent(LinkedList l1, LinkedList l2) { if ((l1 != null) && (l2 != null)) { // This is a strict test. // Returns true if the specified object is also a list, // both lists have the same size, and all corresponding pairs // of elements in the two lists are equal where // they contain the same elements in the same order. return (l1.equals(l2)); } else if ((l1 == null) && (l2 == null)) { return true; } else { // mismatch return false; } } /** * Check the first set of names for a match against * the second set of names. These names are * associated with AxisMessage objects. Message names * are expected to be non-null. Element names could * be either null or non-null. * * @param name1 The name for the first message * @param elementName1 The element name for the first message * @param name2 The name for the second message * @param elementName2 The element name for the second message * @return TRUE if there's a match, * FALSE otherwise */ private static boolean matchMessageNames(String name1, String elementName1, String name2, String elementName2) { // the name for the message must exist if ((name1 != null) && (name2 != null) && (name1.equals(name2))) { // there's a match on the name associated with the message object // element names need to match, including being null if ((elementName1 == null) && (elementName2 == null)) { // there's a match for the nulls return true; } else if ((elementName1 != null) && (elementName2 != null) && (elementName1.equals(elementName2))) { // there's a match for the element names return true; } else { // there's some mismatch return false; } } else { // either a message name is null or the names don't match return false; } } }