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Axis 2 example source code file (MessageContextSelfManagedDataTest.java)
The Axis 2 MessageContextSelfManagedDataTest.java source code/* * 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.engine; import junit.framework.TestCase; import org.apache.axiom.om.OMAbstractFactory; import org.apache.axiom.om.util.UUIDGenerator; import org.apache.axiom.soap.SOAPFactory; import org.apache.axis2.AxisFault; import org.apache.axis2.addressing.EndpointReference; import org.apache.axis2.context.ConfigurationContext; import org.apache.axis2.context.MessageContext; import org.apache.axis2.context.OperationContext; import org.apache.axis2.context.SelfManagedDataManager; import org.apache.axis2.context.ServiceContext; import org.apache.axis2.context.ServiceGroupContext; import org.apache.axis2.description.AxisOperation; import org.apache.axis2.description.AxisService; import org.apache.axis2.description.AxisServiceGroup; import org.apache.axis2.description.InOutAxisOperation; import org.apache.axis2.description.TransportInDescription; import org.apache.axis2.description.TransportOutDescription; import org.apache.axis2.dispatchers.AddressingBasedDispatcher; import org.apache.axis2.dispatchers.RequestURIBasedDispatcher; import org.apache.axis2.dispatchers.SOAPActionBasedDispatcher; import org.apache.axis2.dispatchers.SOAPMessageBodyBasedDispatcher; import org.apache.axis2.handlers.AbstractHandler; import org.apache.axis2.receivers.RawXMLINOnlyMessageReceiver; import org.apache.axis2.receivers.RawXMLINOutMessageReceiver; import org.apache.axis2.transport.http.CommonsHTTPTransportSender; import org.apache.axis2.transport.http.SimpleHTTPServer; import org.apache.commons.logging.Log; import org.apache.commons.logging.LogFactory; import javax.xml.namespace.QName; import java.io.ByteArrayInputStream; import java.io.ByteArrayOutputStream; import java.io.File; import java.io.FileInputStream; import java.io.FileOutputStream; import java.io.IOException; import java.io.ObjectInputStream; import java.io.ObjectOutputStream; import java.util.ArrayList; import java.util.Iterator; public class MessageContextSelfManagedDataTest extends TestCase { protected static final Log log = LogFactory.getLog(MessageContextSelfManagedDataTest.class); private File theFile = null; boolean savedMessageContext = false; boolean restoredMessageContext = false; private String serviceGroupName = new String("NullServiceGroup"); private QName serviceName = new QName("NullService"); private QName operationName = new QName("DummyOp"); private ConfigurationContext cfgContext = null; private ServiceGroupContext serviceGroupContext = null; private ServiceContext serviceContext = null; private OperationContext operationContext = null; private AxisConfiguration axisConfiguration = null; private AxisServiceGroup axisServiceGroup = null; private AxisService axisService = null; private AxisOperation axisOperation = null; private TransportOutDescription transportOut = null; private TransportOutDescription transportOut2 = null; private TransportOutDescription transportOut3 = null; private TransportInDescription transportIn = null; private TransportInDescription transportIn2 = null; private TransportInDescription transportIn3 = null; private MessageContext mc = null; private TempHandler01 handler01; private TempHandler02 handler02; private TempHandler02 subhandler; // this handler is intended to be a few levels down in executionChain private TempHandler03 handler03; private TempHandler04 handler04; private Phase phase1; private Phase phase2; private Phase phase3; private Phase subPhase; // use this to count how many times methods get called for a particular test private int invokecallcount = 0; // key-value pairs to be used for self managed data private String key01 = "key01"; private String testData01 = "TempHandler01_01"; private String key02 = "key02"; private String testData02 = "TempHandler01_02"; private String key03 = "key03"; private byte [] testData03 = {0x1A, 0x1B, 0x1C, 0x1D, 0x1E, 0x1B, 0x1C, 0x1D, 0x1E, 0x1F, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x09, 0x0A, 0x0B, 0x0C, 0x0D, 0x0E, 0x0F}; private String key04 = "key04"; private long [] testData04 = {0L, 1L, -6601664200673063531L, -7753637088257391858L}; private String key05 = "key05"; private int testData05 = 123456; public MessageContextSelfManagedDataTest(String arg0) { super(arg0); initAll(); } protected void initAll() { try { prepare(); } catch (Exception e) { log.debug( "MessageContextSelfManagedDataTest:initAll: error in setting up object graph [" + e.getClass().getName() + " : " + e.getMessage() + "]"); } if (handler01 == null) { handler01 = new TempHandler01(101); } if (handler02 == null) { handler02 = new TempHandler02(102); } if (handler03 == null) { handler03 = new TempHandler03(103); } if (handler04 == null) { handler04 = new TempHandler04(104); } if (subhandler == null) { subhandler = new TempHandler02(1000); } } // // prepare the object hierarchy for testing // private void prepare() throws Exception { //----------------------------------------------------------------- axisConfiguration = new AxisConfiguration(); cfgContext = new ConfigurationContext(axisConfiguration); cfgContext.getAxisConfiguration().addMessageReceiver( "http://www.w3.org/2004/08/wsdl/in-only", new RawXMLINOnlyMessageReceiver()); cfgContext.getAxisConfiguration().addMessageReceiver( "http://www.w3.org/2004/08/wsdl/in-out", new RawXMLINOutMessageReceiver()); DispatchPhase dispatchPhase = new DispatchPhase(); dispatchPhase.setName("Dispatch"); AddressingBasedDispatcher abd = new AddressingBasedDispatcher(); abd.initDispatcher(); RequestURIBasedDispatcher rud = new RequestURIBasedDispatcher(); rud.initDispatcher(); SOAPActionBasedDispatcher sabd = new SOAPActionBasedDispatcher(); sabd.initDispatcher(); SOAPMessageBodyBasedDispatcher smbd = new SOAPMessageBodyBasedDispatcher(); smbd.initDispatcher(); dispatchPhase.addHandler(abd); dispatchPhase.addHandler(rud); dispatchPhase.addHandler(sabd); dispatchPhase.addHandler(smbd); cfgContext.getAxisConfiguration().getInFlowPhases().add(dispatchPhase); //----------------------------------------------------------------- axisServiceGroup = new AxisServiceGroup(axisConfiguration); axisServiceGroup.setServiceGroupName("ServiceGroupTest"); axisService = new AxisService(serviceName.getLocalPart()); axisServiceGroup.addService(axisService); axisOperation = new InOutAxisOperation(operationName); axisOperation.setMessageReceiver(new MessageReceiver() { public void receive(MessageContext messageCtx) { } }); axisService.addOperation(axisOperation); axisService.mapActionToOperation(operationName.getLocalPart(), axisOperation); cfgContext.getAxisConfiguration().addService(axisService); //----------------------------------------------------------------- serviceGroupContext = cfgContext.createServiceGroupContext(axisService.getAxisServiceGroup()); serviceGroupContext.setId("ServiceGroupContextTest"); serviceContext = serviceGroupContext.getServiceContext(axisService); operationContext = serviceContext.createOperationContext(operationName); //----------------------------------------------------------------- transportOut = new TransportOutDescription("null"); transportOut2 = new TransportOutDescription("happy"); transportOut3 = new TransportOutDescription("golucky"); transportOut.setSender(new CommonsHTTPTransportSender()); transportOut2.setSender(new CommonsHTTPTransportSender()); transportOut3.setSender(new CommonsHTTPTransportSender()); axisConfiguration.addTransportOut(transportOut3); axisConfiguration.addTransportOut(transportOut2); axisConfiguration.addTransportOut(transportOut); transportIn = new TransportInDescription("null"); transportIn2 = new TransportInDescription("always"); transportIn3 = new TransportInDescription("thebest"); transportIn.setReceiver(new SimpleHTTPServer()); transportIn2.setReceiver(new SimpleHTTPServer()); transportIn3.setReceiver(new SimpleHTTPServer()); axisConfiguration.addTransportIn(transportIn2); axisConfiguration.addTransportIn(transportIn); axisConfiguration.addTransportIn(transportIn3); } /* * (non-Javadoc) * @see junit.framework.TestCase#setUp() * * setUp gets called before each test* method. In this class, a new * MessageContext object is created for each test* method. The test* * methods are responsible for adding whichever handler they may need * in order to run the desired test. See the handler class comments * for their respective functions. */ protected void setUp() throws Exception { //org.apache.log4j.BasicConfigurator.configure(); invokecallcount = 0; mc = cfgContext.createMessageContext(); mc.setTransportIn(transportIn); mc.setTransportOut(transportOut); mc.setServerSide(true); mc.setProperty(MessageContext.TRANSPORT_OUT, System.out); SOAPFactory omFac = OMAbstractFactory.getSOAP11Factory(); mc.setEnvelope(omFac.getDefaultEnvelope()); phase1 = new Phase("1"); phase1.addHandler(new TempHandler02(0)); phase1.addHandler(new TempHandler02(1)); phase2 = new Phase("2"); phase2.addHandler(new TempHandler02(2)); phase2.addHandler(handler02); phase2.addHandler(new TempHandler02(3)); phase3 = new Phase("3"); phase3.addHandler(new TempHandler02(4)); phase3.addHandler(subhandler); phase3.addHandler(handler02); // same instance, second insertion phase3.addHandler(new TempHandler02(5)); /* * TODO: WARNING WARNING WARNING * Ideally inserting subPhase here would make the axis2 engine call * the invoke of nested subhandler. It does not do this. Please see the * warning at bottom of testPause06 method. */ subPhase = new Phase("sub"); subPhase.addHandler(subhandler); phase3.addHandler(subPhase); phase3.addHandler(new TempHandler02(6)); phase3.addHandler(new TempHandler02(7)); axisOperation.getRemainingPhasesInFlow().add(phase1); axisOperation.getRemainingPhasesInFlow().add(phase2); axisOperation.getRemainingPhasesInFlow().add(phase3); mc.setMessageID(UUIDGenerator.getUUID()); //operationContext.addMessageContext(mc); gets done via the register axisOperation.registerOperationContext(mc, operationContext); mc.setOperationContext(operationContext); mc.setServiceContext(serviceContext); mc.setTo(new EndpointReference("axis2/services/NullService")); mc.setWSAAction(operationName.getLocalPart()); mc.setSoapAction(operationName.getLocalPart()); } //------------------------------------------------------------------------- // test cases //------------------------------------------------------------------------- /** * Test case for setting and removing data from a message context */ public void testSelfManagedData01() { log.debug( "MessageContextSelfManagedDataTest::testSelfManagedData01()======================================="); try { ArrayList handlers = new ArrayList(); handlers.add(handler01); cfgContext.getAxisConfiguration().setInPhasesUptoAndIncludingPostDispatch(handlers); mc.setTo(new EndpointReference("axis2/services/NullService")); mc.setWSAAction("DummyOp"); AxisEngine engine = new AxisEngine(cfgContext); engine.receive(mc); } catch (Exception e) { e.printStackTrace(); } assertEquals(testData01, handler01.getTestData01FromMessageContext(mc)); assertEquals(testData02, handler01.getTestData02FromMessageContext(mc)); boolean isOk3 = isEquals(testData03, handler01.getTestData03FromMessageContext(mc)); assertTrue(isOk3); boolean isOk4 = isEquals(testData04, handler01.getTestData04FromMessageContext(mc)); assertTrue(isOk4); assertEquals(1, invokecallcount); } /** * Test for setting, saving, restoring self managed data with no exceptions */ public void testPause01_noExceptions() { log.debug( "MessageContextSelfManagedDataTest::testPause01_noExceptions()======================================="); try { ArrayList handlers = new ArrayList(); handlers.add(handler02); cfgContext.getAxisConfiguration().setInPhasesUptoAndIncludingPostDispatch(handlers); mc.setTo(new EndpointReference("axis2/services/NullService")); mc.setWSAAction("DummyOp"); AxisEngine engine = new AxisEngine(cfgContext); engine.receive(mc); } catch (Exception e) { e.printStackTrace(); } // if we didn't get any exceptions during save/restore, these will be true assertTrue(savedMessageContext); assertTrue(restoredMessageContext); assertEquals(1, invokecallcount); } /** * Test for verifying the self managed data used during the save and restore */ public void testPause02_saveRestoreSelfManagedData() { log.debug( "MessageContextSelfManagedDataTest::testPause02_saveRestoreSelfManagedData()======================================="); try { ArrayList handlers = new ArrayList(); handlers.add(handler02); cfgContext.getAxisConfiguration().setInPhasesUptoAndIncludingPostDispatch(handlers); mc.setTo(new EndpointReference("axis2/services/NullService")); mc.setWSAAction("DummyOp"); AxisEngine engine = new AxisEngine(cfgContext); engine.receive(mc); } catch (Exception e) { e.printStackTrace(); } // make sure the data in our handler got restored assertEquals(handler02.testData, handler02.getTestDataFromMessageContext(mc)); assertEquals(1, invokecallcount); } /** * Test for save and restore of self managed data and the AxisOperation */ public void testPause03_saveRestoreOperation() { log.debug( "MessageContextSelfManagedDataTest::testPause03_saveRestoreOperation()======================================="); try { ArrayList handlers = new ArrayList(); handlers.add(handler02); cfgContext.getAxisConfiguration().setInPhasesUptoAndIncludingPostDispatch(handlers); mc.setTo(new EndpointReference("axis2/services/NullService")); mc.setWSAAction("DummyOp"); AxisEngine engine = new AxisEngine(cfgContext); engine.receive(mc); } catch (Exception e) { e.printStackTrace(); } // make sure the operation got restored in the MessageContext object assertEquals(operationName.toString(), mc.getAxisOperation().getName().toString()); assertEquals(1, invokecallcount); } /** * Test for save and restore of self managed data and the AxisService */ public void testPause04_saveRestoreAxisService() { log.debug( "MessageContextSelfManagedDataTest::testPause04_saveRestoreAxisService()======================================="); try { ArrayList handlers = new ArrayList(); handlers.add(handler02); cfgContext.getAxisConfiguration().setInPhasesUptoAndIncludingPostDispatch(handlers); mc.setTo(new EndpointReference("axis2/services/NullService")); mc.setWSAAction("DummyOp"); AxisEngine engine = new AxisEngine(cfgContext); engine.receive(mc); } catch (Exception e) { e.printStackTrace(); } // make sure the service got restored in the MessageContext object assertEquals(serviceName.toString(), mc.getAxisService().getName().toString()); assertEquals(1, invokecallcount); } /** * Test for save and restore of self managed data and the AxisServiceGroup */ public void testPause05_saveRestoreAxisServiceGroup() { log.debug( "MessageContextSelfManagedDataTest::testPause05_saveRestoreAxisServiceGroup()======================================="); try { ArrayList handlers = new ArrayList(); handlers.add(handler02); cfgContext.getAxisConfiguration().setInPhasesUptoAndIncludingPostDispatch(handlers); mc.setTo(new EndpointReference("axis2/services/NullService")); mc.setWSAAction("DummyOp"); AxisEngine engine = new AxisEngine(cfgContext); engine.receive(mc); } catch (Exception e) { e.printStackTrace(); } // make sure the serviceGroup got restored in the MessageContext object //assertEquals(serviceGroupName.toString(), mc.getAxisServiceGroup().getServiceGroupName()); assertEquals(1, invokecallcount); } /** * Test for phases */ public void testPause06_saveRestorePhases() { log.debug( "MessageContextSelfManagedDataTest::testPause06_saveRestorePhases()======================================="); TempHandler02 handlerA = new TempHandler02(666); Phase phase601 = new Phase("01"); phase601.addHandler(new TempHandler02(61)); // slot 1 phase601.addHandler(new TempHandler03(62)); // slot 2 Phase phase602 = new Phase("02"); phase602.addHandler(new TempHandler02(63)); // slot 3 phase602.addHandler(handlerA); // slot 4 phase602.addHandler(new TempHandler03(64)); // slot 5 Phase phase603 = new Phase("03"); phase603.addHandler(new TempHandler02(65)); // slot 6 phase603.addHandler(subhandler); // slot 7 phase603.addHandler(handlerA); // slot 8 - same instance, second insertion phase603.addHandler(new TempHandler03(66)); // slot 9 /* * TODO: WARNING WARNING WARNING * Ideally inserting subPhase here would make the axis2 engine call * the invoke of nested subhandler. It does not do this. * Please see the warning later in this method. */ Phase subPhase601 = new Phase("sub6"); subPhase601.addHandler(subhandler); phase603.addHandler(subPhase601); // slot 10 phase603.addHandler(new TempHandler02(67)); // slot 11 phase603.addHandler(new TempHandler03(68)); // slot 12 try { ArrayList phases = new ArrayList(); phases.add(phase601); phases.add(phase602); phases.add(phase603); cfgContext.getAxisConfiguration().setInPhasesUptoAndIncludingPostDispatch(phases); mc.setTo(new EndpointReference("axis2/services/NullService")); mc.setWSAAction("DummyOp"); AxisEngine engine = new AxisEngine(cfgContext); engine.receive(mc); } catch (Exception e) { e.printStackTrace(); } // get the phase lists and see if they match up ArrayList restoredPhases = mc.getExecutionChain(); int it_count = 0; Iterator it = restoredPhases.iterator(); while (it.hasNext()) { // we know everything at this level is a Phase. // if you change it, you might get a ClassCastException Phase restored_phase = (Phase) it.next(); Phase original_phase = null; it_count++; if (it_count == 1) { original_phase = phase601; } else if (it_count == 2) { original_phase = phase602; } else if (it_count == 3) { original_phase = phase603; } //comparePhases(restored_phase.getHandlers().iterator(), original_phase.getHandlers()); boolean isOk = comparePhases(restored_phase, original_phase); assertTrue(isOk); } // TODO WARNING WARNING WARNING // The axis2 engine is not calling the invoke on nested handlers! // The way this testcase works is that the handler's invoke() method is // what sets the data. So, any handlers that are in subPhase will // not get called, and thus will not set or restore any data. // Notice we do currently have a subhandler in the subPhase object. // When axis2 decides to support nested handlers, the // first three assertEquals below will fail. log.debug( "MessageContextSelfManagedDataTest::testPause06_saveRestorePhases():: invokecallcount [" + invokecallcount + "]"); assertEquals(11, invokecallcount); // even though there are two occurrances of the same instance of // handlerA in the executionChain, its serialize and deserialize // should only be called once per unique instance in the list int count_s = handlerA.getSerializecallcount(); log.debug( "MessageContextSelfManagedDataTest::testPause06_saveRestorePhases():: handlerA serialize call count [" + count_s + "]"); assertEquals(11, count_s); // here comes some fun math... // Since a handler (TempHandler02) in this case // doesn't add any data until its invoke method gets called, // and the invoke is what causes the save/restore (and thus // the serialize/deserialize) there is no data for handlerA // to deserialize until the first occurance of handlerA // invoke is called in the executionChain. Observing our phases, // we see it is in slot #3. 11 - 3 = 8 int count_d = handlerA.getDeserializecallcount(); log.debug( "MessageContextSelfManagedDataTest::testPause06_saveRestorePhases():: handlerA deserialize call count [" + count_d + "]"); assertEquals(8, count_d); assertEquals(subhandler.testData, subhandler.getTestDataFromMessageContext(mc)); } /** * Test for save and restore of binary self managed data */ public void testSelfManagedData07() { log.debug( "MessageContextSelfManagedDataTest::testSelfManagedData07()======================================="); try { ArrayList handlers = new ArrayList(); handlers.add(handler03); cfgContext.getAxisConfiguration().setInPhasesUptoAndIncludingPostDispatch(handlers); mc.setTo(new EndpointReference("axis2/services/NullService")); mc.setWSAAction("DummyOp"); AxisEngine engine = new AxisEngine(cfgContext); engine.receive(mc); } catch (Exception e) { e.printStackTrace(); } boolean isOk3 = isEquals(testData03, (byte []) handler03.getTestDataFromMessageContext(mc)); assertTrue(isOk3); assertEquals(1, invokecallcount); } /** * Test for handler04 */ public void testSelfManagedData08() { log.debug( "MessageContextSelfManagedDataTest::testSelfManagedData08()======================================="); try { ArrayList handlers = new ArrayList(); handlers.add(handler04); cfgContext.getAxisConfiguration().setInPhasesUptoAndIncludingPostDispatch(handlers); mc.setTo(new EndpointReference("axis2/services/NullService")); mc.setWSAAction("DummyOp"); AxisEngine engine = new AxisEngine(cfgContext); engine.receive(mc); } catch (Exception e) { e.printStackTrace(); } boolean isOk4 = isEquals(testData04, (long []) handler04.getTestDataFromMessageContext(mc)); assertTrue(isOk4); assertEquals(1, invokecallcount); } /** * Test for handler03 and handler04 */ public void testSelfManagedData09() { log.debug( "MessageContextSelfManagedDataTest::testSelfManagedData09()======================================="); try { ArrayList handlers = new ArrayList(); handlers.add(handler03); handlers.add(handler04); cfgContext.getAxisConfiguration().setInPhasesUptoAndIncludingPostDispatch(handlers); mc.setTo(new EndpointReference("axis2/services/NullService")); mc.setWSAAction("DummyOp"); AxisEngine engine = new AxisEngine(cfgContext); engine.receive(mc); } catch (Exception e) { e.printStackTrace(); } boolean isOk3 = isEquals(testData03, (byte []) handler03.getTestDataFromMessageContext(mc)); assertTrue(isOk3); boolean isOk4 = isEquals(testData04, (long []) handler04.getTestDataFromMessageContext(mc)); assertTrue(isOk4); assertEquals(2, invokecallcount); } //------------------------------------------------------------------------- // internal helper methods //------------------------------------------------------------------------- /** * Saves the specified message context to a temporary * file, then restores it. * * @param mc1 The message context object to save * @param fnprefix A prefix for the filename of the temporary file * @param desc Text that describes the caller's situation * @return The restored message context object or NULL */ private MessageContext saveAndRestore(MessageContext mc1, String fnprefix, String desc) { MessageContext msgContext2 = null; String title = "MessageContextSelfManagedDataTest::saveAndRestore::[" + desc + "] "; log.debug(title); try { theFile = File.createTempFile(fnprefix, null); log.debug(title + "temp file = [" + theFile.getName() + "]"); } catch (Exception ex) { log.debug(title + "error creating temp file = [" + ex.getMessage() + "]"); theFile = null; } if (theFile != null) { try { // setup an output stream to a physical file FileOutputStream outStream = new FileOutputStream(theFile); // attach a stream capable of writing objects to the // stream connected to the file ObjectOutputStream outObjStream = new ObjectOutputStream(outStream); // try to save the message context log.debug(title + "saving message context ...."); savedMessageContext = false; outObjStream.writeObject(mc1); outObjStream.close(); outStream.close(); // no exceptions, set savedMessageContext to true savedMessageContext = true; log.debug(title + "....saved message context ....."); // setup an input stream to the file FileInputStream inStream = new FileInputStream(theFile); // attach a stream capable of reading objects from the // stream connected to the file ObjectInputStream inObjStream = new ObjectInputStream(inStream); // try to restore the message context log.debug(title + "restoring message context ....."); restoredMessageContext = false; msgContext2 = (MessageContext) inObjStream.readObject(); inObjStream.close(); inStream.close(); msgContext2.activate(mc1.getConfigurationContext()); // no exceptions, set restoredMessageContext to true restoredMessageContext = true; // VERY IMPORTANT: replace testcase's messagecontext object with the new restored one mc = msgContext2; log.debug(title + "....restored message context ....."); } catch (Exception ex2) { if (savedMessageContext != true) { log.debug(title + "Error with saving message context = [" + ex2.getClass().getName() + " : " + ex2.getMessage() + "]"); ex2.printStackTrace(); } else { log.debug(title + "Error with restoring message context = [" + ex2.getClass().getName() + " : " + ex2.getMessage() + "]"); ex2.printStackTrace(); } } // if the save/restore of the message context succeeded, // then don't keep the temporary file around boolean removeTmpFile = savedMessageContext && restoredMessageContext; if (removeTmpFile) { try { theFile.delete(); } catch (Exception e) { // just absorb it } } } return msgContext2; } /** * Gets the ID associated with the handler object. * * @param o The handler object * @return The ID associated with the handler, * -1 otherwise */ private int getHandlerID(Object o) { int id = -1; if (o instanceof TempHandler01) { id = ((TempHandler01) o).getID(); } else if (o instanceof TempHandler02) { id = ((TempHandler02) o).getID(); } else if (o instanceof TempHandler03) { id = ((TempHandler03) o).getID(); } else if (o instanceof TempHandler04) { id = ((TempHandler04) o).getID(); } return id; } /** * Check the handler objects to see if they are equivalent. * * @param o1 The first handler * @param o2 The second handler * @return TRUE if the handler objects are equivalent, * FALSE otherwise */ private boolean compareHandlers(Object o1, Object o2) { if ((o1 == null) && (o2 == null)) { return true; } if ((o1 != null) && (o2 != null)) { String c1 = o1.getClass().getName(); String c2 = o2.getClass().getName(); if (c1.equals(c2)) { log.debug("MessagecontextSelfManagedDataTest::compareHandlers: class [" + c1 + "] match "); int id1 = getHandlerID(o1); int id2 = getHandlerID(o2); if (id1 == id2) { log.debug("MessagecontextSelfManagedDataTest::compareHandlers: id [" + id1 + "] match"); return true; } else { log.debug("MessagecontextSelfManagedDataTest::compareHandlers: id1 [" + id1 + "] != id2 [" + id2 + "] "); return false; } } else { log.debug("MessagecontextSelfManagedDataTest::compareHandlers: class1 [" + c1 + "] != class2 [" + c2 + "] "); return false; } } return false; } /** * Compare two phases. * * @param o1 The first phase object * @param o2 The second phase object * @return TRUE if the phases are equivalent, * FALSE otherwise */ private boolean comparePhases(Object o1, Object o2) { if ((o1 == null) && (o2 == null)) { return true; } try { if (((o1 != null) && (o2 != null)) && ((o1 instanceof Phase) && (o2 instanceof Phase)) ) { Phase p1 = (Phase) o1; Phase p2 = (Phase) o2; ArrayList list1 = p1.getHandlers(); ArrayList list2 = p2.getHandlers(); if ((list1 == null) && (list2 == null)) { return true; } if ((list1 != null) && (list2 != null)) { int size1 = list1.size(); int size2 = list2.size(); if (size1 != size2) { return false; } for (int j = 0; j < size1; j++) { Object obj1 = list1.get(j); Object obj2 = list2.get(j); if ((obj1 == null) && (obj2 == null)) { // ok } else if ((obj1 != null) && (obj2 != null)) { boolean check = false; if (obj1 instanceof Phase) { check = comparePhases(obj1, obj2); } else { // must be a handler check = compareHandlers(obj1, obj2); } if (check == false) { return false; } } else { // mismatch return false; } } // if we got here, the comparison completed ok // with a match return true; } } } catch (Exception e) { // some error e.printStackTrace(); } return false; } /* private void comparePhases(Iterator it, ArrayList al) { int it_count = -1; while (it.hasNext()) { it_count++; Handler handler = (Handler)it.next(); if (handler instanceof Phase) { comparePhases(((Phase)handler).getHandlers().iterator(), ((Phase)al.get(it_count)).getHandlers()); } else { assertEquals(handler, (TempHandler02)al.get(it_count)); } } } */ //------------------------------------------------------------------------- // internal handlers //------------------------------------------------------------------------- /* * TempHandler01 simply sets and/or removes data from the MessageContext * object. */ public class TempHandler01 extends AbstractHandler { private int id = -2; public TempHandler01() { id = -1; } public TempHandler01(int id) { this.id = id; } public int getID() { return this.id; } public String getName() { return new String(Integer.toString(id)); } public String getTestData01FromMessageContext(MessageContext _mc) { return (String) _mc.getSelfManagedData(this.getClass(), key01); } public String getTestData02FromMessageContext(MessageContext _mc) { return (String) _mc.getSelfManagedData(this.getClass(), key02); } public byte [] getTestData03FromMessageContext(MessageContext _mc) { return (byte []) _mc.getSelfManagedData(this.getClass(), key03); } public long [] getTestData04FromMessageContext(MessageContext _mc) { return (long []) _mc.getSelfManagedData(this.getClass(), key04); } /* we're just using the invoke to set/change/remove data * Tests: * for key01: set, remove, set, get * for key02: set, get, set * for key03: set, remove, set, get * for key04: set, get, set, get */ public InvocationResponse invoke(MessageContext _mc) throws AxisFault { String desc = "TempHandler01[id=" + id + "].invoke()"; String title = "MessageContextSelfManagedDataTest::" + desc; log.debug(title); String tmp = "whaaa?"; _mc.setSelfManagedData(this.getClass(), key02, tmp); String data2 = (String) _mc.getSelfManagedData(this.getClass(), key02); assertEquals(tmp, data2); _mc.setSelfManagedData(this.getClass(), key01, testData01); _mc.removeSelfManagedData(this.getClass(), key01); _mc.setSelfManagedData(this.getClass(), key01, testData01); String data1 = (String) _mc.getSelfManagedData(this.getClass(), key01); assertEquals(data1, testData01); _mc.setSelfManagedData(this.getClass(), key02, testData02); _mc.setSelfManagedData(this.getClass(), key03, testData03); byte [] data3 = (byte []) _mc.getSelfManagedData(this.getClass(), key03); boolean isOk3 = isEquals(data3, testData03); assertTrue(isOk3); _mc.removeSelfManagedData(this.getClass(), key03); _mc.setSelfManagedData(this.getClass(), key03, testData03); _mc.setSelfManagedData(this.getClass(), key04, testData04); long [] data4 = (long []) _mc.getSelfManagedData(this.getClass(), key04); boolean isOk4 = isEquals(data4, testData04); assertTrue(isOk4); invokecallcount++; log.debug(title + ": Completed"); return InvocationResponse.CONTINUE; } } /* * TempHandler02 sets data, saves it (via the serializeSelfManagedData method * called by the MessageContext object when saved in this handler's invoke()), * */ public class TempHandler02 extends AbstractHandler implements SelfManagedDataManager { private int id = -2; private int serializecallcount = 0; private int deserializecallcount = 0; public String testData = new String("this is some test data"); /* * constructor */ public TempHandler02() { this.id = -1; this.serializecallcount = 0; this.deserializecallcount = 0; } /* * constructor */ public TempHandler02(int id) { this.id = id; this.serializecallcount = 0; this.deserializecallcount = 0; } public int getID() { return this.id; } public String getName() { return new String(Integer.toString(id)); } public String getTestDataFromMessageContext(MessageContext _mc) { return (String) _mc.getSelfManagedData(this.getClass(), Integer.toString(id)); } /* * (non-Javadoc) * @see org.apache.axis2.engine.Handler#invoke(org.apache.axis2.context.MessageContext) * * This invoke() method will test several things: * 1. verify that serializeSelfManagedData is actually called when saving the MessageContext object * 2. verify that deserializeSelfManagedData is actually called when restoring the MessageContext object * 3. verify that any SelfManagedData stored in the MessageContext is properly saved/restored (via serializeSelfManagedData/deserializeSelfManagedData) */ public InvocationResponse invoke(MessageContext _mc) throws AxisFault { String desc = "TempHandler02[id=" + id + "].invoke()"; String title = "MessageContextSelfManagedDataTest::" + desc; log.debug(title); MessageContext msgContext2 = null; // this will be the restored one _mc.setSelfManagedData(this.getClass(), Integer.toString(id), testData + Integer.toString(id)); log.debug(title + ": Setting self managed data using key [" + Integer.toString(id) + "]"); msgContext2 = saveAndRestore(_mc, "TempHandler02_", desc); boolean result = (msgContext2 != null); assertTrue(result); invokecallcount++; log.debug(title + ": Completed"); return InvocationResponse.CONTINUE; } public void deserializeSelfManagedData(ByteArrayInputStream data, MessageContext _mc) throws IOException { deserializecallcount++; String desc = "TempHandler02[id=" + id + "].deserializeSelfManagedData() count [" + deserializecallcount + "]"; String title = "MessageContextSelfManagedDataTest::" + desc; log.debug(title); ObjectInputStream ois = new ObjectInputStream(data); testData = ois.readUTF().concat(" with extra text " + Integer.toString(id)); _mc.setSelfManagedData(this.getClass(), Integer.toString(id), testData); } public void restoreTransientData(MessageContext _mc) { // not necessary to test } public ByteArrayOutputStream serializeSelfManagedData(MessageContext _mc) throws IOException { serializecallcount++; String desc = "TempHandler02[id=" + id + "].serializeSelfManagedData() count [" + serializecallcount + "]"; String title = "MessageContextSelfManagedDataTest::" + desc; log.debug(title); String storedTestData = (String) _mc.getSelfManagedData(this.getClass(), Integer.toString(id)); if (storedTestData == null) { log.debug(title + ": No self managed data to serialize"); return null; } ByteArrayOutputStream baos = new ByteArrayOutputStream(); ObjectOutputStream oos = new ObjectOutputStream(baos); oos.writeUTF(storedTestData); oos.close(); int baos_size = baos.size(); baos.close(); log.debug(title + ": saved self managed data string length [" + storedTestData.length() + "]"); log.debug(title + ": saved self managed data byte array output stream (UTF) length [" + baos_size + "]"); return baos; } public int getDeserializecallcount() { return deserializecallcount; } public int getSerializecallcount() { return serializecallcount; } } /* * TempHandler03 sets binary data, saves it (via the serializeSelfManagedData method * called by the MessageContext object when saved in this handler's invoke()), * */ public class TempHandler03 extends AbstractHandler implements SelfManagedDataManager { private int id = -2; private int serializecallcount = 0; private int deserializecallcount = 0; public TempHandler03() { id = -1; } public TempHandler03(int id) { this.id = id; } public int getID() { return this.id; } public String getName() { return new String(Integer.toString(id)); } public Object getTestDataFromMessageContext(MessageContext _mc) { return _mc.getSelfManagedData(this.getClass(), Integer.toString(id)); } /* * (non-Javadoc) * @see org.apache.axis2.engine.Handler#invoke(org.apache.axis2.context.MessageContext) * * This invoke() method will test several things: * 1. verify that serializeSelfManagedData is actually called when saving the MessageContext object * 2. verify that deserializeSelfManagedData is actually called when restoring the MessageContext object * 3. verify that any SelfManagedData stored in the MessageContext is properly saved/restored (via serializeSelfManagedData/deserializeSelfManagedData) */ public InvocationResponse invoke(MessageContext _mc) throws AxisFault { String desc = "TempHandler03[id=" + id + "].invoke()"; String title = "MessageContextSelfManagedDataTest::" + desc; log.debug(title); MessageContext msgContext2 = null; // this will be the restored one // add the byte [] of data _mc.setSelfManagedData(this.getClass(), Integer.toString(id), testData03); log.debug(title + ": Setting self managed data using key [" + Integer.toString(id) + "]"); msgContext2 = saveAndRestore(_mc, "TempHandler03_", desc); boolean result = (msgContext2 != null); assertTrue(result); invokecallcount++; log.debug(title + ": Completed"); return InvocationResponse.CONTINUE; } public void deserializeSelfManagedData(ByteArrayInputStream data, MessageContext _mc) throws IOException { boolean isOK = true; deserializecallcount++; String desc = "TempHandler03[id=" + id + "].deserializeSelfManagedData() count [" + deserializecallcount + "]"; String title = "MessageContextSelfManagedDataTest::" + desc; log.debug(title); int expected = testData03.length; byte [] tmp = new byte [expected]; boolean keepGoing = true; int index = 0; while (keepGoing) { int tmpdata = data.read(); if (tmpdata != -1) { Integer value = new Integer(tmpdata); tmp[index] = value.byteValue(); index++; if (index > expected) { isOK = false; assertTrue(isOK); } } else { keepGoing = false; } } isOK = isEquals(tmp, testData03); assertTrue(isOK); _mc.setSelfManagedData(this.getClass(), Integer.toString(id), tmp); } public void restoreTransientData(MessageContext _mc) { // not necessary to test } public ByteArrayOutputStream serializeSelfManagedData(MessageContext _mc) throws IOException { serializecallcount++; String desc = "TempHandler03[id=" + id + "].serializeSelfManagedData() count [" + serializecallcount + "]"; String title = "MessageContextSelfManagedDataTest::" + desc; log.debug(title); byte [] tmp = (byte []) _mc.getSelfManagedData(this.getClass(), Integer.toString(id)); if (tmp == null) { log.debug(title + ": No self managed data to serialize"); return null; } ByteArrayOutputStream baos = new ByteArrayOutputStream(); baos.write(tmp, 0, tmp.length); int baos_size = baos.size(); baos.close(); log.debug(title + ": saved self managed data byte [] length [" + tmp.length + "]"); log.debug(title + ": saved self managed data byte array output stream length [" + baos_size + "]"); return baos; } public int getDeserializecallcout() { return deserializecallcount; } public int getSerializecallcount() { return serializecallcount; } } /* * TempHandler04 sets binary data, saves it (via the serializeSelfManagedData method * called by the MessageContext object when saved in this handler's invoke()), * */ public class TempHandler04 extends AbstractHandler implements SelfManagedDataManager { private int id = -2; private int serializecallcount = 0; private int deserializecallcount = 0; public TempHandler04() { id = -1; } public TempHandler04(int id) { this.id = id; } public int getID() { return this.id; } public String getName() { return new String(Integer.toString(id)); } public Object getTestDataFromMessageContext(MessageContext _mc) { return _mc.getSelfManagedData(this.getClass(), Integer.toString(id)); } /* * (non-Javadoc) * @see org.apache.axis2.engine.Handler#invoke(org.apache.axis2.context.MessageContext) * * This invoke() method will test several things: * 1. verify that serializeSelfManagedData is actually called when saving the MessageContext object * 2. verify that deserializeSelfManagedData is actually called when restoring the MessageContext object * 3. verify that any SelfManagedData stored in the MessageContext is properly saved/restored (via serializeSelfManagedData/deserializeSelfManagedData) */ public InvocationResponse invoke(MessageContext _mc) throws AxisFault { String desc = "TempHandler04[id=" + id + "].invoke()"; String title = "MessageContextSelfManagedDataTest::" + desc; log.debug(title); MessageContext msgContext2 = null; // this will be the restored one // add the byte [] of data _mc.setSelfManagedData(this.getClass(), Integer.toString(id), testData04); log.debug(title + ": Setting self managed data using key [" + Integer.toString(id) + "]"); msgContext2 = saveAndRestore(_mc, "TempHandler04_", desc); boolean result = (msgContext2 != null); assertTrue(result); invokecallcount++; log.debug(title + ": Completed"); return InvocationResponse.CONTINUE; } public void deserializeSelfManagedData(ByteArrayInputStream data, MessageContext _mc) throws IOException { boolean isOK = true; deserializecallcount++; String desc = "TempHandler04[id=" + id + "].deserializeSelfManagedData() count [" + deserializecallcount + "]"; String title = "MessageContextSelfManagedDataTest::" + desc; log.debug(title); int expected = testData04.length; long [] tmp = new long [expected]; ObjectInputStream ois = new ObjectInputStream(data); boolean keepGoing = true; int index = 0; int sizeWritten = ois.readInt(); if (sizeWritten > 0) { while (keepGoing) { try { long tmpdata = ois.readLong(); tmp[index] = tmpdata; index++; if (index > expected) { isOK = false; assertTrue(isOK); } } catch (Exception exc) { keepGoing = false; } } isOK = isEquals(tmp, testData04); assertTrue(isOK); _mc.setSelfManagedData(this.getClass(), Integer.toString(id), tmp); } } public void restoreTransientData(MessageContext _mc) { // not necessary to test } public ByteArrayOutputStream serializeSelfManagedData(MessageContext _mc) throws IOException { serializecallcount++; String desc = "TempHandler04[id=" + id + "].serializeSelfManagedData() count [" + serializecallcount + "]"; String title = "MessageContextSelfManagedDataTest::" + desc; log.debug(title); long [] tmp = (long []) _mc.getSelfManagedData(this.getClass(), Integer.toString(id)); if (tmp == null) { log.debug(title + ": No self managed data to serialize"); return null; } ByteArrayOutputStream baos = new ByteArrayOutputStream(); ObjectOutputStream oos = new ObjectOutputStream(baos); int size = tmp.length; oos.writeInt(size); for (int i = 0; i < size; i++) { oos.writeLong(tmp[i]); } oos.close(); int baos_size = baos.size(); baos.close(); log.debug(title + ": saved self managed data byte [] length [" + tmp.length + "]"); log.debug(title + ": saved self managed data byte array output stream length [" + baos_size + "]"); return baos; } public int getDeserializecallcount() { return deserializecallcount; } public int getSerializecallcount() { return serializecallcount; } } /* * compares the two byte arrays to see if they are equal */ private boolean isEquals(byte [] b1, byte [] b2) { int size1 = b1.length; int size2 = b2.length; if (size1 != size2) { return false; } for (int i = 0; i < size1; i++) { if (b1[i] != b2[i]) { return false; } } return true; } /* * compares the two long arrays to see if they are equal */ private boolean isEquals(long [] L1, long [] L2) { int size1 = L1.length; int size2 = L2.length; if (size1 != size2) { return false; } for (int i = 0; i < size1; i++) { if (L1[i] != L2[i]) { return false; } } return true; } } Other Axis 2 examples (source code examples)Here is a short list of links related to this Axis 2 MessageContextSelfManagedDataTest.java source code file: |
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