/*
* 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
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* questions.
*/
package nsk.jdi.VirtualMachine.allClasses;
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
* VirtualMachine.
*
* The test checks up that results of the method
* com.sun.jdi.VirtualMachine.allClasses()
* complies with its spec.
*
* The test check up that new class and interface types
* are in returned List only after corresponding objects
* have been created within the debuggee.
* The sequence of the cases for testing is as follows:
*
* Objects# == 0, Classes# == 0, Interfaces# == 0
* hence, the returned List must contain no mirrors of
* tested reference types;
* Objects# == 1, Classes# == 1, Interfaces# == 0
* the returned list must contain only one expected
* object mirroring a tested Class type;
* Objects# == 2, Classes# == 2, Interfaces# == 1
* the returned list must contain three expected objects
* mirroring two Class and one Interface types;
* Objects# == 3, Classes# == 2, Interfaces# == 1,
* the returned list must contain three expected objects
* mirroring two Class and one Interface types;
* repetirion of previous check after one more object
* has been created;
* Objects# == 4, Classes# == 3, Interfaces# == 1,
* the returned list must contain four expected objects
* mirroring three Class and one Interface types;
*
*/
public class allclasses001 {
//----------------------------------------------------- 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/VirtualMachine/allClasses/allclasses001",
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) {
int exitCode = new allclasses001().runThis(argv, out);
if (exitCode != PASSED) {
System.out.println("TEST FAILED");
}
return exitCode;
}
//-------------------------------------------------- log procedures
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.VirtualMachine.allClasses.allclasses001a";
private String namePrefix =
"nsk.jdi.VirtualMachine.allClasses.";
//====================================================== test program
//------------------------------------------------------ common section
static Debugee debuggee;
static ArgumentHandler argsHandler;
static int waitTime;
static VirtualMachine vm = null;
static EventRequestManager eventRManager = null;
static EventQueue eventQueue = null;
static EventSet eventSet = null;
static EventIterator eventIterator = null;
static ReferenceType debuggeeClass = null;
static int testExitCode = PASSED;
static final int returnCode0 = 0;
static final int returnCode1 = 1;
class JDITestRuntimeException extends RuntimeException {
JDITestRuntimeException(String str) {
super("JDITestRuntimeException : " + str);
}
}
//------------------------------------------------------ methods
private int runThis (String argv[], PrintStream out) {
argsHandler = new ArgumentHandler(argv);
logHandler = new Log(out, argsHandler);
Binder binder = new Binder(argsHandler, logHandler);
waitTime = argsHandler.getWaitTime() * 60000;
try {
log2("launching a debuggee :");
log2(" " + debuggeeName);
if (argsHandler.verbose()) {
debuggee = binder.bindToDebugee(debuggeeName + " -vbs");
} else {
debuggee = binder.bindToDebugee(debuggeeName);
}
if (debuggee == null) {
log3("ERROR: no debuggee launched");
return FAILED;
}
log2("debuggee launched");
} catch ( Exception e ) {
log3("ERROR: Exception : " + e);
log2(" test cancelled");
return FAILED;
}
debuggee.redirectOutput(logHandler);
vm = debuggee.VM();
eventQueue = vm.eventQueue();
if (eventQueue == null) {
log3("ERROR: eventQueue == null : TEST ABORTED");
vm.exit(PASS_BASE);
return FAILED;
}
log2("invocation of the method runTest()");
switch (runTest()) {
case 0 : log2("test phase has finished normally");
log2(" waiting for the debuggee to finish ...");
debuggee.waitFor();
log2("......getting the debuggee's exit status");
int status = debuggee.getStatus();
if (status != PASS_BASE) {
log3("ERROR: debuggee returned UNEXPECTED exit status: " +
status + " != PASS_BASE");
testExitCode = FAILED;
} else {
log2("......debuggee returned expected exit status: " +
status + " == PASS_BASE");
}
break;
default : log3("ERROR: runTest() returned unexpected value");
case 1 : log3("test phase has not finished normally: debuggee is still alive");
log2("......forcing: vm.exit();");
testExitCode = FAILED;
try {
vm.exit(PASS_BASE);
} catch ( Exception e ) {
log3("ERROR: Exception : e");
}
break;
case 2 : log3("test cancelled due to VMDisconnectedException");
log2("......trying: vm.process().destroy();");
testExitCode = FAILED;
try {
Process vmProcess = vm.process();
if (vmProcess != null) {
vmProcess.destroy();
}
} catch ( Exception e ) {
log3("ERROR: Exception : e");
}
break;
}
return testExitCode;
}
/*
* Return value: 0 - normal end of the test
* 1 - ubnormal end of the test
* 2 - VMDisconnectedException while test phase
*/
private int runTest() {
try {
testRun();
log2("waiting for VMDeathEvent");
getEventSet();
if (eventIterator.nextEvent() instanceof VMDeathEvent)
return 0;
log3("ERROR: last event is not the VMDeathEvent");
return 1;
} catch ( VMDisconnectedException e ) {
log3("ERROR: VMDisconnectedException : " + e);
return 2;
} catch ( Exception e ) {
log3("ERROR: Exception : " + e);
return 1;
}
}
private void testRun()
throws JDITestRuntimeException, Exception {
eventRManager = vm.eventRequestManager();
ClassPrepareRequest cpRequest = eventRManager.createClassPrepareRequest();
cpRequest.setSuspendPolicy( EventRequest.SUSPEND_EVENT_THREAD);
cpRequest.addClassFilter(debuggeeName);
cpRequest.enable();
vm.resume();
getEventSet();
cpRequest.disable();
ClassPrepareEvent event = (ClassPrepareEvent) eventIterator.next();
debuggeeClass = event.referenceType();
if (!debuggeeClass.name().equals(debuggeeName))
throw new JDITestRuntimeException("** Unexpected ClassName for ClassPrepareEvent **");
log2(" received: ClassPrepareEvent for debuggeeClass");
String bPointMethod = "methodForCommunication";
String lineForComm = "lineForComm";
BreakpointRequest bpRequest;
try {
bpRequest = settingBreakpoint(threadByName("main"),
debuggeeClass,
bPointMethod, lineForComm, "zero");
} catch ( Exception e ) {
throw e;
}
bpRequest.enable();
//------------------------------------------------------ testing section
log1(" TESTING BEGINS");
for (int i = 0; ; i++) {
vm.resume();
breakpointForCommunication();
int instruction = ((IntegerValue) (
debuggeeClass.getValue(
debuggeeClass.fieldByName("instruction")))).value();
if (instruction == 0) {
vm.resume();
break;
}
log1(" new check: # " + i);
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ variable part
int expresult = returnCode0;
String name[] = { "Class1ForCheck",
"Class2ForCheck",
"Class3ForCheck",
"InterfaceForCheck" };
switch (i) {
case 0:
log2("...... check case: Objects# ==0, Classes# ==0, Interfaces# ==0,");
if (refTypeYes(name[0]) != 0) {
log3("ERROR: Class in the List: " + name[0]);
expresult = returnCode1;
}
if (refTypeYes(name[1]) != 0) {
log3("ERROR: Class in the List: " + name[1]);
expresult = returnCode1;
}
if (refTypeYes(name[2]) != 0) {
log3("ERROR: Class in the List: " + name[2]);
expresult = returnCode1;
}
if (refTypeYes(name[3]) != 0) {
log3("ERROR: Interface in the List: " + name[3]);
expresult = returnCode1;
}
break;
case 1:
log2("...... check case: Objects# ==1, Classes# ==1, Interfaces# ==0,");
if (refTypeYes(name[0]) == 0) {
log3("ERROR: Class not in the List: " + name[0]);
expresult = returnCode1;
}
if (refTypeYes(name[1]) != 0) {
log3("ERROR: Class in the List: " + name[1]);
expresult = returnCode1;
}
if (refTypeYes(name[2]) != 0) {
log3("ERROR: Class in the List: " + name[2]);
expresult = returnCode1;
}
if (refTypeYes(name[3]) != 0) {
log3("ERROR: Interface in the List: " + name[3]);
expresult = returnCode1;
}
break;
case 2:
log2("...... check case: Objects# ==2, Classes# ==2, Interfaces# ==1,");
if (refTypeYes(name[0]) == 0) {
log3("ERROR: Class not in the List: " + name[0]);
expresult = returnCode1;
}
if (refTypeYes(name[1]) == 0) {
log3("ERROR: Class not in the List: " + name[1]);
expresult = returnCode1;
}
if (refTypeYes(name[2]) != 0) {
log3("ERROR: Class in the List: " + name[2]);
expresult = returnCode1;
}
if (refTypeYes(name[3]) == 0) {
log3("ERROR: Interface not in the List: " + name[3]);
expresult = returnCode1;
}
break;
case 3:
log2("...... check case: Objects# ==3, Classes# ==2, Interfaces# ==1,");
if (refTypeYes(name[0]) == 0) {
log3("ERROR: Class not in the List: " + name[0]);
expresult = returnCode1;
}
if (refTypeYes(name[1]) == 0) {
log3("ERROR: Class not in the List: " + name[1]);
expresult = returnCode1;
}
if (refTypeYes(name[2]) != 0) {
log3("ERROR: Class in the List: " + name[2]);
expresult = returnCode1;
}
if (refTypeYes(name[3]) == 0) {
log3("ERROR: Interface not in the List: " + name[3]);
expresult = returnCode1;
}
break;
case 4:
log2("...... check case: Objects# ==4, Classes# ==3, Interfaces# ==1,");
if (refTypeYes(name[0]) == 0) {
log3("ERROR: Class not in the List: " + name[0]);
expresult = returnCode1;
}
if (refTypeYes(name[1]) == 0) {
log3("ERROR: Class not in the List: " + name[1]);
expresult = returnCode1;
}
if (refTypeYes(name[2]) == 0) {
log3("ERROR: Class not in the List: " + name[2]);
expresult = returnCode1;
}
if (refTypeYes(name[3]) == 0) {
log3("ERROR: Interface not in the List: " + name[3]);
expresult = returnCode1;
}
break;
default:
break ;
}
if (expresult != returnCode0)
testExitCode = FAILED;
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
}
log1(" TESTING ENDS");
return;
}
private ThreadReference threadByName(String name)
throws JDITestRuntimeException {
List all = vm.allThreads();
ListIterator li = all.listIterator();
for (; li.hasNext(); ) {
ThreadReference thread = (ThreadReference) li.next();
if (thread.name().equals(name))
return thread;
}
throw new JDITestRuntimeException("** Thread IS NOT found ** : " + name);
}
/*
* private BreakpointRequest settingBreakpoint(ThreadReference, ReferenceType,
* String, String, String)
*
* It sets up a breakpoint at given line number within a given method in a given class
* for a given thread.
*
* Return value: BreakpointRequest object in case of success
*
* JDITestRuntimeException in case of an Exception thrown within the method
*/
private BreakpointRequest settingBreakpoint ( ThreadReference thread,
ReferenceType testedClass,
String methodName,
String bpLine,
String property)
throws JDITestRuntimeException, Exception {
log2("......setting up a breakpoint:");
log2(" thread: " + thread + "; class: " + testedClass +
"; 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(thread);
breakpRequest.setSuspendPolicy( EventRequest.SUSPEND_EVENT_THREAD);
} catch ( Exception e1 ) {
log3("ERROR: inner Exception within settingBreakpoint() : " + e1);
// breakpRequest = null;
throw e1;
}
}
} catch ( Exception e2 ) {
log3("ERROR: ATTENTION: outer Exception within settingBreakpoint() : " + e2);
// breakpRequest = null;
throw e2;
}
if (breakpRequest == null) {
log2(" A BREAKPOINT HAS NOT BEEN SET UP");
throw new JDITestRuntimeException("**FAILURE to set up a breakpoint**");
}
log2(" a breakpoint has been set up");
return breakpRequest;
}
private void getEventSet()
throws JDITestRuntimeException {
try {
// log2(" eventSet = eventQueue.remove(waitTime);");
eventSet = eventQueue.remove(waitTime);
if (eventSet == null) {
throw new JDITestRuntimeException("** TIMEOUT while waiting for event **");
}
// log2(" eventIterator = eventSet.eventIterator;");
eventIterator = eventSet.eventIterator();
} catch ( Exception e ) {
throw new JDITestRuntimeException("** EXCEPTION while waiting for event ** : " + e);
}
}
private void breakpointForCommunication()
throws JDITestRuntimeException {
log2("breakpointForCommunication");
getEventSet();
if (eventIterator.nextEvent() instanceof BreakpointEvent)
return;
throw new JDITestRuntimeException("** event IS NOT a breakpoint **");
}
// ============================== test's additional methods
private int refTypeYes ( String name ) {
List vmClasses = vm.allClasses();
ListIterator li = vmClasses.listIterator();
for ( int i = 0; li.hasNext(); i++) {
ReferenceType obj = (ReferenceType) li.next();
if ( obj.name().equals(namePrefix + name) )
return 1;
}
return 0;
}
}