test/hotspot/jtreg/vmTestbase/nsk/jdi/VoidValue/equals/equals001/equals001.java - platform/libcore - Git at Google

 /*
  * Copyright (c) 2001, 2018, Oracle and/or its affiliates. All rights reserved.
  * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
  *
  * This code is free software; you can redistribute it and/or modify it
  * under the terms of the GNU General Public License version 2 only, as
  * published by the Free Software Foundation.
  *
  * This code is distributed in the hope that it will be useful, but WITHOUT
  * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
  * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
  * version 2 for more details (a copy is included in the LICENSE file that
  * accompanied this code).
  *
  * You should have received a copy of the GNU General Public License version
  * 2 along with this work; if not, write to the Free Software Foundation,
  * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
  *
  * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
  * or visit www.oracle.com if you need additional information or have any
  * questions.
  */


 /*
  * @test
  *
  * @summary converted from VM Testbase nsk/jdi/VoidValue/equals/equals001.
  * VM Testbase keywords: [quick, jpda, jdi]
  * VM Testbase readme:
  * DESCRIPTION:
  *     The test for the implementation of an object of the type
  *     VoidValue.
  *     The test checks up that a result of the method
  *     com.sun.jdi.VoidValue.equals()
  *     complies with its spec:
  *     public boolean equals(java.lang.Object obj)
  *     Compares the specified Object with this VoidValue for equality.
  *     Returns: true if the Object is a VoidValue; false otherwise.
  *     The test works as follows:
  *     A debugger program - nsk.jdi.VoidValue.equals.equals001;
  *     a debuggee program - nsk.jdi.VoidValue.equals.equals001a.
  *     Using nsk.jdi.share classes,
  *     the debugger gets the debuggee running on another JavaVM,
  *     creates the object debuggee.VM,
  *     establishes a pipe with the debuggee program, and then
  *     send to the programm commands, to which the debuggee replies
  *     via the pipe. Upon getting reply,
  *     the debugger calls corresponding debuggee.VM methods to get
  *     needed data and compares the data got to the data expected.
  *     In case of mismatch the test produces the return value 97 and
  *     a corresponding error message(s).
  *     Otherwise, the test is passed and produces
  *     the return value 95 and no message.
  * COMMENTS:
  *
  * @library /vmTestbase
  *          /test/lib
  * @run driver jdk.test.lib.FileInstaller . .
  * @build nsk.jdi.VoidValue.equals.equals001.equals001
  *        nsk.jdi.VoidValue.equals.equals001.equals001a
  * @run main/othervm PropertyResolvingWrapper
  *      nsk.jdi.VoidValue.equals.equals001.equals001
  *      -verbose
  *      -arch=${os.family}-${os.simpleArch}
  *      -waittime=5
  *      -debugee.vmkind=java
  *      -transport.address=dynamic
  *      "-debugee.vmkeys=${test.vm.opts} ${test.java.opts}"
  */

 package nsk.jdi.VoidValue.equals.equals001;

 import nsk.share.*;
 import nsk.share.jpda.*;
 import nsk.share.jdi.*;

 import com.sun.jdi.*;
 import com.sun.jdi.event.*;
 import com.sun.jdi.request.*;
 import java.util.*;
 import java.io.*;

 /**
  * The test for the implementation of an object of the type     <BR>
  * VoidValue.                                                   <BR>
  *                                                              <BR>
  * The test checks up that results of the method                <BR>
  * <code>com.sun.jdi.VoidValue.equals()</code>                  <BR>
  * complies with its spec.                                      <BR>
  * <BR>
  * The cases for testing are as follows :               <BR>
  *                                                      <BR>
  * when a gebuggee is suspended at a breakpoint set up  <BR>
  * by a debugger the debugger invokes two debuggee's methods:   <BR>
  *    void vdValue1(); and  void vdValue2();            <BR>
  * to form objects                                      <BR>
  *    Value returnvdValue1, Value returnvdValue2;       <BR>
  *                                                      <BR>
  * then performs the following casts:                   <BR>
  *    VoidValue vdValue1 = (VoidValue) returnvdValue1;  <BR>
  *    VoidValue vdValue2 = (VoidValue) returnvdValue2;  <BR>
  *                                                      <BR>
  * and checks up that the following is true:            <BR>
  *                                                      <BR>
  * a)    vdValue1.equals(vdValue2)                      <BR>
  *                                                      <BR>
  * b)    Object testObj = null;                         <BR>
  *      !vdValue1.equals(testObj)                       <BR>
  * <BR>
  */

 public class equals001 {

     //----------------------------------------------------- templete section
     static final int PASSED = 0;
     static final int FAILED = 2;
     static final int PASS_BASE = 95;

     //----------------------------------------------------- templete parameters
     static final String
     sHeader1 = "\n==> nsk/jdi/VoidValue/equals/equals001",
     sHeader2 = "--> debugger: ",
     sHeader3 = "##> debugger: ";

     //----------------------------------------------------- main method

     public static void main (String argv[]) {
         int result = run(argv, System.out);
         System.exit(result + PASS_BASE);
     }

     public static int run (String argv[], PrintStream out) {
         return new equals001().runThis(argv, out);
     }

      //--------------------------------------------------   log procedures

     //private static boolean verbMode = false;

     private static Log  logHandler;

     private static void log1(String message) {
         logHandler.display(sHeader1 + message);
     }
     private static void log2(String message) {
         logHandler.display(sHeader2 + message);
     }
     private static void log3(String message) {
         logHandler.complain(sHeader3 + message);
     }

     //  ************************************************    test parameters

     private String debuggeeName =
         "nsk.jdi.VoidValue.equals.equals001.equals001a";

     private String testedClassName =
         "nsk.jdi.VoidValue.equals.equals001.Threadequals001a";

     //====================================================== test program
     //------------------------------------------------------ common section

     static ArgumentHandler      argsHandler;

     static int waitTime;

     static VirtualMachine      vm            = null;
     static EventRequestManager eventRManager = null;
     static EventQueue          eventQueue    = null;
     static EventSet            eventSet      = null;

     ReferenceType     testedclass  = null;
     ThreadReference   thread2      = null;
     ThreadReference   mainThread   = null;

     static int  testExitCode = PASSED;

     static final int returnCode0 = 0;
     static final int returnCode1 = 1;
     static final int returnCode2 = 2;
     static final int returnCode3 = 3;
     static final int returnCode4 = 4;

     //------------------------------------------------------ methods

     private int runThis (String argv[], PrintStream out) {

         Debugee debuggee;

         argsHandler     = new ArgumentHandler(argv);
         logHandler      = new Log(out, argsHandler);
         Binder binder   = new Binder(argsHandler, logHandler);

         if (argsHandler.verbose()) {
             debuggee = binder.bindToDebugee(debuggeeName + " -vbs");  // *** tp
         } else {
             debuggee = binder.bindToDebugee(debuggeeName);            // *** tp
         }

         waitTime = argsHandler.getWaitTime();


         IOPipe pipe     = new IOPipe(debuggee);

         debuggee.redirectStderr(out);
         log2("setvalue003a debuggee launched");
         debuggee.resume();

         String line = pipe.readln();
         if ((line == null) || !line.equals("ready")) {
             log3("signal received is not 'ready' but: " + line);
             return FAILED;
         } else {
             log2("'ready' recieved");
         }

         VirtualMachine vm = debuggee.VM();

     //------------------------------------------------------  testing section
         log1("      TESTING BEGINS");

         for (int i = 0; ; i++) {
             pipe.println("newcheck");
             line = pipe.readln();

             if (line.equals("checkend")) {
                 log2("     : returned string is 'checkend'");
                 break ;
             } else if (!line.equals("checkready")) {
                 log3("ERROR: returned string is not 'checkready'");
                 testExitCode = FAILED;
                 break ;
             }

             log1("new check: #" + i);

             //~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ variable part

             int expresult = returnCode0;

             eventRManager = vm.eventRequestManager();
             eventQueue    = vm.eventQueue();

             List            allThreads   = null;
             ListIterator    listIterator = null;
             List            classes      = null;

             String threadName = "Thread2";

             String breakpointMethod1 = "run";
             String bpLine1          = "breakpointLineNumber1";

             BreakpointRequest breakpRequest1 = null;


             label0: {

                 log2("getting ThreadReference object");
                 try {
                     allThreads  = vm.allThreads();
                     classes     = vm.classesByName(testedClassName);
                     testedclass = (ReferenceType) classes.get(0);
                 } catch ( Exception e) {
                     log3("ERROR: Exception at very beginning !? : " + e);
                     expresult = returnCode1;
                     break label0;
                 }

                 listIterator = allThreads.listIterator();
                 for (;;) {
                     try {
                         thread2 = (ThreadReference) listIterator.next();
                         if (thread2.name().equals(threadName))
                             break ;
                     } catch ( NoSuchElementException e ) {
                         log3("ERROR: NoSuchElementException for listIterator.next()");
                         log3("ERROR: NO THREAD2 ?????????!!!!!!!");
                         expresult = returnCode1;
                         break label0;
                     }
                 }

                 log2("setting up breakpoint");

                 breakpRequest1 = settingBreakpoint(breakpointMethod1, bpLine1, "one");
                 if (breakpRequest1 == null) {
                     expresult = returnCode1;
                     break label0;
                 }
             }

             label1: {

                 if (expresult != returnCode0)
                        break label1;

                 log2("     enabling breakpRequest1");
                 breakpRequest1.enable();

                 log2("       forcing the main thread to leave synchronized block");
                 pipe.println("continue");
                 line = pipe.readln();
                 if (!line.equals("docontinue")) {
                     log3("ERROR: returned string is not 'docontinue'");
                     expresult = returnCode4;
                     break label1;
                 }

                 log2("      getting a breakpoint event");
                 expresult = breakpoint();
                 if (expresult != returnCode0)
                     break label1;


                 Value returnvdValue1 = null;
                 Value returnvdValue2 = null;
                 List  invokeMethods  = null;
                 Method invokeMethod  = null;
                 List<Value> argumentList    = null;


                 invokeMethods  =  testedclass.methodsByName("vdValue1");
                 invokeMethod = (Method) invokeMethods.get(0);

                 argumentList = Collections.<Value>emptyList();

                 try {
                     log2("      invoking equals001a.vdValue1();  no Exception expected");
                     returnvdValue1 = thread2.invokeMethod(thread2,
                                       invokeMethod, argumentList, 0);
                 } catch ( Exception e ) {
                      log3("ERROR: Exception: " + e);
                      expresult = returnCode1;
                      break label1;
                 }

                 invokeMethods = testedclass.methodsByName("vdValue2");
                 invokeMethod = (Method) invokeMethods.get(0);

                 try {
                     log2("      invoking equals001a.vdValue2();  no Exception expected");
                     returnvdValue2 = thread2.invokeMethod(thread2,
                                      invokeMethod, argumentList, 0);
                 } catch ( Exception e ) {
                      log3("ERROR: Exception: " + e);
                      expresult = returnCode1;
                      break label1;
                 }


                 VoidValue vdValue1 = null;
                 VoidValue vdValue2 = null;

                 log2("      checking up cast: vdValue1 = (VoidValue) returnvdValue1;");
                 try {
                     vdValue1 = (VoidValue) returnvdValue1;
                 } catch ( ClassCastException e ) {
                     log3("ERROR : ClassCastException");
                     expresult = returnCode1;
                     break label1;
                 }

                 log2("      checking up cast: vdValue2 = (VoidValue) returnvdValue2;");
                 try {
                     vdValue2 = (VoidValue) returnvdValue2;
                 } catch ( ClassCastException e ) {
                     log3("ERROR : ClassCastException");
                     expresult = returnCode1;
                     break label1;
                 }

                 log2("      checking up equality: vdValue1.equals(vdValue2)");
                 if (!vdValue1.equals(vdValue2)) {
                     log3("ERROR: !vdValue1.equals(vdValue2)");
                     expresult = returnCode1;
                 }

                 Object testObj = null;
                 log2("      checking up equality: vdValue1.equals(null)");
                 if (vdValue1.equals(testObj)) {
                     log3("ERROR: vdValue1.equals(null)");
                     expresult = returnCode1;
                 }
             }
             log2("      resuming the vm");
             vm.resume();
             //~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
             log2("     the end of testing");
             if (expresult != returnCode0)
                 testExitCode = FAILED;
         }
         log1("      TESTING ENDS");

     //--------------------------------------------------   test summary section
     //-------------------------------------------------    standard end section

         pipe.println("quit");
         log2("waiting for the debuggee to finish ...");
         debuggee.waitFor();

         int status = debuggee.getStatus();
         if (status != PASSED + PASS_BASE) {
             log3("debuggee returned UNEXPECTED exit status: " +
                    status + " != PASS_BASE");
             testExitCode = FAILED;
         } else {
             log2("debuggee returned expected exit status: " +
                    status + " == PASS_BASE");
         }

         if (testExitCode != PASSED) {
             logHandler.complain("TEST FAILED");
         }
         return testExitCode;
     }


    /*
     * private BreakpointRequest settingBreakpoint(String, String, String)
     *
     * It sets up a breakpoint within a given method at given line number
     * for the thread2 only.
     * Third parameter is required for any case in future debugging, as if.
     *
     * Return codes:
     *  = BreakpointRequest object  in case of success
     *  = null   in case of an Exception thrown within the method
     */

     private BreakpointRequest settingBreakpoint ( String methodName,
                                                   String bpLine,
                                                   String property) {

         log2("setting up a breakpoint: method: '" + methodName + "' line: " + bpLine );

         List              alllineLocations = null;
         Location          lineLocation     = null;
         BreakpointRequest breakpRequest    = null;

         try {
             Method  method  = (Method) testedclass.methodsByName(methodName).get(0);

             alllineLocations = method.allLineLocations();

             int n =
                 ( (IntegerValue) testedclass.getValue(testedclass.fieldByName(bpLine) ) ).value();
             if (n > alllineLocations.size()) {
                 log3("ERROR:  TEST_ERROR_IN_settingBreakpoint(): number is out of bound of method's lines");
             } else {
                 lineLocation = (Location) alllineLocations.get(n);
                 try {
                     breakpRequest = eventRManager.createBreakpointRequest(lineLocation);
                     breakpRequest.putProperty("number", property);
                     breakpRequest.addThreadFilter(thread2);
                     breakpRequest.setSuspendPolicy( EventRequest.SUSPEND_EVENT_THREAD);
                 } catch ( Exception e1 ) {
                     log3("ERROR: inner Exception within settingBreakpoint() : " + e1);
                     breakpRequest    = null;
                 }
             }
         } catch ( Exception e2 ) {
             log3("ERROR: ATTENTION:  outer Exception within settingBreakpoint() : " + e2);
             breakpRequest    = null;
         }

         if (breakpRequest == null)
             log2("      A BREAKPOINT HAS NOT BEEN SET UP");
         else
             log2("      a breakpoint has been set up");

         return breakpRequest;
     }


     /*
      * private int breakpoint ()
      *
      * It removes events from EventQueue until gets first BreakpointEvent.
      * To get next EventSet value, it uses the method
      *    EventQueue.remove(int timeout)
      * The timeout argument passed to the method, is "waitTime*60000".
      * Note: the value of waitTime is set up with
      *       the method ArgumentHandler.getWaitTime() at the beginning of the test.
      *
      * Return codes:
      *  = returnCode0 - success;
      *  = returnCode2 - Exception when "eventSet = eventQueue.remove()" is executed
      *  = returnCode3 - default case when loop of processing an event, that is,
      *                  an unspecified event was taken from the EventQueue
      */

     private int breakpoint () {

         int returnCode = returnCode0;

         log2("       waiting for BreakpointEvent");

         labelBP:
             for (;;) {

                 log2("       new:  eventSet = eventQueue.remove();");
                 try {
                     eventSet = eventQueue.remove(waitTime*60000);
                     if (eventSet == null) {
                         log3("ERROR:  timeout for waiting for a BreakpintEvent");
                         returnCode = returnCode3;
                         break labelBP;
                     }
                 } catch ( Exception e ) {
                     log3("ERROR: Exception for  eventSet = eventQueue.remove(); : " + e);
                     returnCode = 1;
                     break labelBP;
                 }

                 if (eventSet != null) {

                     log2("     :  eventSet != null;  size == " + eventSet.size());

                     EventIterator eIter = eventSet.eventIterator();
                     Event         ev    = null;

                     for (; eIter.hasNext(); ) {

                         if (returnCode != returnCode0)
                             break;

                         ev = eIter.nextEvent();

                     ll: for (int ifor =0;  ; ifor++) {

                         try {
                           switch (ifor) {

                           case 0:  AccessWatchpointEvent awe = (AccessWatchpointEvent) ev;
                                    log2("      AccessWatchpointEvent removed");
                                    break ll;
                           case 1:  BreakpointEvent be = (BreakpointEvent) ev;
                                    log2("      BreakpointEvent removed");
                                    break labelBP;
                           case 2:  ClassPrepareEvent cpe = (ClassPrepareEvent) ev;
                                    log2("      ClassPreparEvent removed");
                                    break ll;
                           case 3:  ClassUnloadEvent cue = (ClassUnloadEvent) ev;
                                    log2("      ClassUnloadEvent removed");
                                    break ll;
                           case 4:  ExceptionEvent ee = (ExceptionEvent) ev;
                                    log2("      ExceptionEvent removed");
                                    break ll;
                           case 5:  MethodEntryEvent mene = (MethodEntryEvent) ev;
                                    log2("      MethodEntryEvent removed");
                                    break ll;
                           case 6:  MethodExitEvent mexe = (MethodExitEvent) ev;
                                    log2("      MethodExiEvent removed");
                                    break ll;
                           case 7:  ModificationWatchpointEvent mwe = (ModificationWatchpointEvent) ev;
                                    log2("      ModificationWatchpointEvent removed");
                                    break ll;
                           case 8:  StepEvent se = (StepEvent) ev;
                                    log2("      StepEvent removed");
                                    break ll;
                           case 9:  ThreadDeathEvent tde = (ThreadDeathEvent) ev;
                                    log2("      ThreadDeathEvent removed");
                                    break ll;
                           case 10: ThreadStartEvent tse = (ThreadStartEvent) ev;
                                    log2("      ThreadStartEvent removed");
                                    break ll;
                           case 11: VMDeathEvent vmde = (VMDeathEvent) ev;
                                    log2("      VMDeathEvent removed");
                                    break ll;
                           case 12: VMStartEvent vmse = (VMStartEvent) ev;
                                    log2("      VMStartEvent removed");
                                    break ll;
                           case 13: WatchpointEvent we = (WatchpointEvent) ev;
                                    log2("      WatchpointEvent removed");
                                    break ll;

                           default: log3("ERROR:  default case for casting event");
                                    returnCode = returnCode3;
                                    break ll;
                           } // switch
                         } catch ( ClassCastException e ) {
                         }   // try
                     }       // ll: for (int ifor =0;  ; ifor++)
                 }           // for (; ev.hasNext(); )
             }
         }
         if (returnCode == returnCode0)
             log2("     :  eventSet == null:  EventQueue is empty");

         return returnCode;
     }

 }
	/*
	* Copyright (c) 2001, 2018, Oracle and/or its affiliates. All rights reserved.
	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
	*
	* This code is free software; you can redistribute it and/or modify it
	* under the terms of the GNU General Public License version 2 only, as
	* published by the Free Software Foundation.
	*
	* This code is distributed in the hope that it will be useful, but WITHOUT
	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
	* version 2 for more details (a copy is included in the LICENSE file that
	* accompanied this code).
	*
	* You should have received a copy of the GNU General Public License version
	* 2 along with this work; if not, write to the Free Software Foundation,
	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
	*
	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
	* or visit www.oracle.com if you need additional information or have any
	* questions.
	*/


	/*
	* @test
	*
	* @summary converted from VM Testbase nsk/jdi/VoidValue/equals/equals001.
	* VM Testbase keywords: [quick, jpda, jdi]
	* VM Testbase readme:
	* DESCRIPTION:
	* The test for the implementation of an object of the type
	* VoidValue.
	* The test checks up that a result of the method
	* com.sun.jdi.VoidValue.equals()
	* complies with its spec:
	* public boolean equals(java.lang.Object obj)
	* Compares the specified Object with this VoidValue for equality.
	* Returns: true if the Object is a VoidValue; false otherwise.
	* The test works as follows:
	* A debugger program - nsk.jdi.VoidValue.equals.equals001;
	* a debuggee program - nsk.jdi.VoidValue.equals.equals001a.
	* Using nsk.jdi.share classes,
	* the debugger gets the debuggee running on another JavaVM,
	* creates the object debuggee.VM,
	* establishes a pipe with the debuggee program, and then
	* send to the programm commands, to which the debuggee replies
	* via the pipe. Upon getting reply,
	* the debugger calls corresponding debuggee.VM methods to get
	* needed data and compares the data got to the data expected.
	* In case of mismatch the test produces the return value 97 and
	* a corresponding error message(s).
	* Otherwise, the test is passed and produces
	* the return value 95 and no message.
	* COMMENTS:
	*
	* @library /vmTestbase
	* /test/lib
	* @run driver jdk.test.lib.FileInstaller . .
	* @build nsk.jdi.VoidValue.equals.equals001.equals001
	* nsk.jdi.VoidValue.equals.equals001.equals001a
	* @run main/othervm PropertyResolvingWrapper
	* nsk.jdi.VoidValue.equals.equals001.equals001
	* -verbose
	* -arch=${os.family}-${os.simpleArch}
	* -waittime=5
	* -debugee.vmkind=java
	* -transport.address=dynamic
	* "-debugee.vmkeys=${test.vm.opts} ${test.java.opts}"
	*/

	package nsk.jdi.VoidValue.equals.equals001;

	import nsk.share.*;
	import nsk.share.jpda.*;
	import nsk.share.jdi.*;

	import com.sun.jdi.*;
	import com.sun.jdi.event.*;
	import com.sun.jdi.request.*;
	import java.util.*;
	import java.io.*;

	/**
	* The test for the implementation of an object of the type <BR>
	* VoidValue. <BR>
	* <BR>
	* The test checks up that results of the method <BR>
	* <code>com.sun.jdi.VoidValue.equals()</code> <BR>
	* complies with its spec. <BR>
	* <BR>
	* The cases for testing are as follows : <BR>
	* <BR>
	* when a gebuggee is suspended at a breakpoint set up <BR>
	* by a debugger the debugger invokes two debuggee's methods: <BR>
	* void vdValue1(); and void vdValue2(); <BR>
	* to form objects <BR>
	* Value returnvdValue1, Value returnvdValue2; <BR>
	* <BR>
	* then performs the following casts: <BR>
	* VoidValue vdValue1 = (VoidValue) returnvdValue1; <BR>
	* VoidValue vdValue2 = (VoidValue) returnvdValue2; <BR>
	* <BR>
	* and checks up that the following is true: <BR>
	* <BR>
	* a) vdValue1.equals(vdValue2) <BR>
	* <BR>
	* b) Object testObj = null; <BR>
	* !vdValue1.equals(testObj) <BR>
	* <BR>
	*/

	public class equals001 {

	//----------------------------------------------------- templete section
	static final int PASSED = 0;
	static final int FAILED = 2;
	static final int PASS_BASE = 95;

	//----------------------------------------------------- templete parameters
	static final String
	sHeader1 = "\n==> nsk/jdi/VoidValue/equals/equals001",
	sHeader2 = "--> debugger: ",
	sHeader3 = "##> debugger: ";

	//----------------------------------------------------- main method

	public static void main (String argv[]) {
	int result = run(argv, System.out);
	System.exit(result + PASS_BASE);
	}

	public static int run (String argv[], PrintStream out) {
	return new equals001().runThis(argv, out);
	}

	//-------------------------------------------------- log procedures

	//private static boolean verbMode = false;

	private static Log logHandler;

	private static void log1(String message) {
	logHandler.display(sHeader1 + message);
	}
	private static void log2(String message) {
	logHandler.display(sHeader2 + message);
	}
	private static void log3(String message) {
	logHandler.complain(sHeader3 + message);
	}

	// ************************************************ test parameters

	private String debuggeeName =
	"nsk.jdi.VoidValue.equals.equals001.equals001a";

	private String testedClassName =
	"nsk.jdi.VoidValue.equals.equals001.Threadequals001a";

	//====================================================== test program
	//------------------------------------------------------ common section

	static ArgumentHandler argsHandler;

	static int waitTime;

	static VirtualMachine vm = null;
	static EventRequestManager eventRManager = null;
	static EventQueue eventQueue = null;
	static EventSet eventSet = null;

	ReferenceType testedclass = null;
	ThreadReference thread2 = null;
	ThreadReference mainThread = null;

	static int testExitCode = PASSED;

	static final int returnCode0 = 0;
	static final int returnCode1 = 1;
	static final int returnCode2 = 2;
	static final int returnCode3 = 3;
	static final int returnCode4 = 4;

	//------------------------------------------------------ methods

	private int runThis (String argv[], PrintStream out) {

	Debugee debuggee;

	argsHandler = new ArgumentHandler(argv);
	logHandler = new Log(out, argsHandler);
	Binder binder = new Binder(argsHandler, logHandler);

	if (argsHandler.verbose()) {
	debuggee = binder.bindToDebugee(debuggeeName + " -vbs"); // *** tp
	} else {
	debuggee = binder.bindToDebugee(debuggeeName); // *** tp
	}

	waitTime = argsHandler.getWaitTime();


	IOPipe pipe = new IOPipe(debuggee);

	debuggee.redirectStderr(out);
	log2("setvalue003a debuggee launched");
	debuggee.resume();

	String line = pipe.readln();
	if ((line == null) \|\| !line.equals("ready")) {
	log3("signal received is not 'ready' but: " + line);
	return FAILED;
	} else {
	log2("'ready' recieved");
	}

	VirtualMachine vm = debuggee.VM();

	//------------------------------------------------------ testing section
	log1(" TESTING BEGINS");

	for (int i = 0; ; i++) {
	pipe.println("newcheck");
	line = pipe.readln();

	if (line.equals("checkend")) {
	log2(" : returned string is 'checkend'");
	break ;
	} else if (!line.equals("checkready")) {
	log3("ERROR: returned string is not 'checkready'");
	testExitCode = FAILED;
	break ;
	}

	log1("new check: #" + i);

	//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ variable part

	int expresult = returnCode0;

	eventRManager = vm.eventRequestManager();
	eventQueue = vm.eventQueue();

	List allThreads = null;
	ListIterator listIterator = null;
	List classes = null;

	String threadName = "Thread2";

	String breakpointMethod1 = "run";
	String bpLine1 = "breakpointLineNumber1";

	BreakpointRequest breakpRequest1 = null;


	label0: {

	log2("getting ThreadReference object");
	try {
	allThreads = vm.allThreads();
	classes = vm.classesByName(testedClassName);
	testedclass = (ReferenceType) classes.get(0);
	} catch ( Exception e) {
	log3("ERROR: Exception at very beginning !? : " + e);
	expresult = returnCode1;
	break label0;
	}

	listIterator = allThreads.listIterator();
	for (;;) {
	try {
	thread2 = (ThreadReference) listIterator.next();
	if (thread2.name().equals(threadName))
	break ;
	} catch ( NoSuchElementException e ) {
	log3("ERROR: NoSuchElementException for listIterator.next()");
	log3("ERROR: NO THREAD2 ?????????!!!!!!!");
	expresult = returnCode1;
	break label0;
	}
	}

	log2("setting up breakpoint");

	breakpRequest1 = settingBreakpoint(breakpointMethod1, bpLine1, "one");
	if (breakpRequest1 == null) {
	expresult = returnCode1;
	break label0;
	}
	}

	label1: {

	if (expresult != returnCode0)
	break label1;

	log2(" enabling breakpRequest1");
	breakpRequest1.enable();

	log2(" forcing the main thread to leave synchronized block");
	pipe.println("continue");
	line = pipe.readln();
	if (!line.equals("docontinue")) {
	log3("ERROR: returned string is not 'docontinue'");
	expresult = returnCode4;
	break label1;
	}

	log2(" getting a breakpoint event");
	expresult = breakpoint();
	if (expresult != returnCode0)
	break label1;


	Value returnvdValue1 = null;
	Value returnvdValue2 = null;
	List invokeMethods = null;
	Method invokeMethod = null;
	List<Value> argumentList = null;


	invokeMethods = testedclass.methodsByName("vdValue1");
	invokeMethod = (Method) invokeMethods.get(0);

	argumentList = Collections.<Value>emptyList();

	try {
	log2(" invoking equals001a.vdValue1(); no Exception expected");
	returnvdValue1 = thread2.invokeMethod(thread2,
	invokeMethod, argumentList, 0);
	} catch ( Exception e ) {
	log3("ERROR: Exception: " + e);
	expresult = returnCode1;
	break label1;
	}

	invokeMethods = testedclass.methodsByName("vdValue2");
	invokeMethod = (Method) invokeMethods.get(0);

	try {
	log2(" invoking equals001a.vdValue2(); no Exception expected");
	returnvdValue2 = thread2.invokeMethod(thread2,
	invokeMethod, argumentList, 0);
	} catch ( Exception e ) {
	log3("ERROR: Exception: " + e);
	expresult = returnCode1;
	break label1;
	}


	VoidValue vdValue1 = null;
	VoidValue vdValue2 = null;

	log2(" checking up cast: vdValue1 = (VoidValue) returnvdValue1;");
	try {
	vdValue1 = (VoidValue) returnvdValue1;
	} catch ( ClassCastException e ) {
	log3("ERROR : ClassCastException");
	expresult = returnCode1;
	break label1;
	}

	log2(" checking up cast: vdValue2 = (VoidValue) returnvdValue2;");
	try {
	vdValue2 = (VoidValue) returnvdValue2;
	} catch ( ClassCastException e ) {
	log3("ERROR : ClassCastException");
	expresult = returnCode1;
	break label1;
	}

	log2(" checking up equality: vdValue1.equals(vdValue2)");
	if (!vdValue1.equals(vdValue2)) {
	log3("ERROR: !vdValue1.equals(vdValue2)");
	expresult = returnCode1;
	}

	Object testObj = null;
	log2(" checking up equality: vdValue1.equals(null)");
	if (vdValue1.equals(testObj)) {
	log3("ERROR: vdValue1.equals(null)");
	expresult = returnCode1;
	}
	}
	log2(" resuming the vm");
	vm.resume();
	//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
	log2(" the end of testing");
	if (expresult != returnCode0)
	testExitCode = FAILED;
	}
	log1(" TESTING ENDS");

	//-------------------------------------------------- test summary section
	//------------------------------------------------- standard end section

	pipe.println("quit");
	log2("waiting for the debuggee to finish ...");
	debuggee.waitFor();

	int status = debuggee.getStatus();
	if (status != PASSED + PASS_BASE) {
	log3("debuggee returned UNEXPECTED exit status: " +
	status + " != PASS_BASE");
	testExitCode = FAILED;
	} else {
	log2("debuggee returned expected exit status: " +
	status + " == PASS_BASE");
	}

	if (testExitCode != PASSED) {
	logHandler.complain("TEST FAILED");
	}
	return testExitCode;
	}



	/*
	* private BreakpointRequest settingBreakpoint(String, String, String)
	*
	* It sets up a breakpoint within a given method at given line number
	* for the thread2 only.
	* Third parameter is required for any case in future debugging, as if.
	*
	* Return codes:
	* = BreakpointRequest object in case of success
	* = null in case of an Exception thrown within the method
	*/

	private BreakpointRequest settingBreakpoint ( String methodName,
	String bpLine,
	String property) {

	log2("setting up a breakpoint: method: '" + methodName + "' line: " + bpLine );

	List alllineLocations = null;
	Location lineLocation = null;
	BreakpointRequest breakpRequest = null;

	try {
	Method method = (Method) testedclass.methodsByName(methodName).get(0);

	alllineLocations = method.allLineLocations();

	int n =
	( (IntegerValue) testedclass.getValue(testedclass.fieldByName(bpLine) ) ).value();
	if (n > alllineLocations.size()) {
	log3("ERROR: TEST_ERROR_IN_settingBreakpoint(): number is out of bound of method's lines");
	} else {
	lineLocation = (Location) alllineLocations.get(n);
	try {
	breakpRequest = eventRManager.createBreakpointRequest(lineLocation);
	breakpRequest.putProperty("number", property);
	breakpRequest.addThreadFilter(thread2);
	breakpRequest.setSuspendPolicy( EventRequest.SUSPEND_EVENT_THREAD);
	} catch ( Exception e1 ) {
	log3("ERROR: inner Exception within settingBreakpoint() : " + e1);
	breakpRequest = null;
	}
	}
	} catch ( Exception e2 ) {
	log3("ERROR: ATTENTION: outer Exception within settingBreakpoint() : " + e2);
	breakpRequest = null;
	}

	if (breakpRequest == null)
	log2(" A BREAKPOINT HAS NOT BEEN SET UP");
	else
	log2(" a breakpoint has been set up");

	return breakpRequest;
	}


	/*
	* private int breakpoint ()
	*
	* It removes events from EventQueue until gets first BreakpointEvent.
	* To get next EventSet value, it uses the method
	* EventQueue.remove(int timeout)
	* The timeout argument passed to the method, is "waitTime*60000".
	* Note: the value of waitTime is set up with
	* the method ArgumentHandler.getWaitTime() at the beginning of the test.
	*
	* Return codes:
	* = returnCode0 - success;
	* = returnCode2 - Exception when "eventSet = eventQueue.remove()" is executed
	* = returnCode3 - default case when loop of processing an event, that is,
	* an unspecified event was taken from the EventQueue
	*/

	private int breakpoint () {

	int returnCode = returnCode0;

	log2(" waiting for BreakpointEvent");

	labelBP:
	for (;;) {

	log2(" new: eventSet = eventQueue.remove();");
	try {
	eventSet = eventQueue.remove(waitTime*60000);
	if (eventSet == null) {
	log3("ERROR: timeout for waiting for a BreakpintEvent");
	returnCode = returnCode3;
	break labelBP;
	}
	} catch ( Exception e ) {
	log3("ERROR: Exception for eventSet = eventQueue.remove(); : " + e);
	returnCode = 1;
	break labelBP;
	}

	if (eventSet != null) {

	log2(" : eventSet != null; size == " + eventSet.size());

	EventIterator eIter = eventSet.eventIterator();
	Event ev = null;

	for (; eIter.hasNext(); ) {

	if (returnCode != returnCode0)
	break;

	ev = eIter.nextEvent();

	ll: for (int ifor =0; ; ifor++) {

	try {
	switch (ifor) {

	case 0: AccessWatchpointEvent awe = (AccessWatchpointEvent) ev;
	log2(" AccessWatchpointEvent removed");
	break ll;
	case 1: BreakpointEvent be = (BreakpointEvent) ev;
	log2(" BreakpointEvent removed");
	break labelBP;
	case 2: ClassPrepareEvent cpe = (ClassPrepareEvent) ev;
	log2(" ClassPreparEvent removed");
	break ll;
	case 3: ClassUnloadEvent cue = (ClassUnloadEvent) ev;
	log2(" ClassUnloadEvent removed");
	break ll;
	case 4: ExceptionEvent ee = (ExceptionEvent) ev;
	log2(" ExceptionEvent removed");
	break ll;
	case 5: MethodEntryEvent mene = (MethodEntryEvent) ev;
	log2(" MethodEntryEvent removed");
	break ll;
	case 6: MethodExitEvent mexe = (MethodExitEvent) ev;
	log2(" MethodExiEvent removed");
	break ll;
	case 7: ModificationWatchpointEvent mwe = (ModificationWatchpointEvent) ev;
	log2(" ModificationWatchpointEvent removed");
	break ll;
	case 8: StepEvent se = (StepEvent) ev;
	log2(" StepEvent removed");
	break ll;
	case 9: ThreadDeathEvent tde = (ThreadDeathEvent) ev;
	log2(" ThreadDeathEvent removed");
	break ll;
	case 10: ThreadStartEvent tse = (ThreadStartEvent) ev;
	log2(" ThreadStartEvent removed");
	break ll;
	case 11: VMDeathEvent vmde = (VMDeathEvent) ev;
	log2(" VMDeathEvent removed");
	break ll;
	case 12: VMStartEvent vmse = (VMStartEvent) ev;
	log2(" VMStartEvent removed");
	break ll;
	case 13: WatchpointEvent we = (WatchpointEvent) ev;
	log2(" WatchpointEvent removed");
	break ll;

	default: log3("ERROR: default case for casting event");
	returnCode = returnCode3;
	break ll;
	} // switch
	} catch ( ClassCastException e ) {
	} // try
	} // ll: for (int ifor =0; ; ifor++)
	} // for (; ev.hasNext(); )
	}
	}
	if (returnCode == returnCode0)
	log2(" : eventSet == null: EventQueue is empty");

	return returnCode;
	}

	}