/* * Copyright (c) 2001, 2025, 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. */ package nsk.jdi.Event.request; import nsk.share.*; 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
* Event.
*
* The test checks that results of the method
* com.sun.jdi.Event.request()
* complies with its spec.
*
* The test checks that for all Event objects,
* except for ClassUnloadEvent, the method returns
* either the EventRequest that requested this event
* or null if event does not have a corresponding request.
*
* The test has three phases and works as follows.
*
* In first phase,
* upon launching debuggee's VM which will be suspended,
* a debugger waits for the VMStartEvent within a predefined
* time interval. If no the VMStartEvent received, the test is FAILED.
* Upon getting the VMStartEvent, it saves its EventSet into
* a special array and makes the request for debuggee's
* ClassPrepareEvent with SUSPEND_EVENT_THREAD, resumes the VM,
* and waits for the event within the predefined time interval.
* If no the ClassPrepareEvent received, the test is FAILED.
* Upon getting the ClassPrepareEvent,
* the debugger saves its EVENTSet into the array and
* sets up the breakpoint with SUSPEND_EVENT_THREAD
* within debuggee's special methodForCommunication().
*
* In second phase the debugger and the debuggee perform the following.
* - The debugger creates ThreadStartRequest, ThreadDeathRequest, and
* an extra VMDeathRequest, resumes the debuggee, and
* waits for corresponding ThreadStartEvent and ThreadDeathEvent.
* - The debuggee creates new thread, named "thread2",
* whose running creates the above events.
* - Upon getting the events, the debugger saves their sets in the array,
* resumes the debuggee and waits for the BreakpointEvent.
* - The debuggee creates a number of threads, one for each
* following event: AccessWatchpoint, ModificationWatchpoint,
* MethodEntry, MethodExit, Step, Exception, and Breakpoint,
* and invokes the methodForCommunication to be suspended and
* to inform the debugger with the event.
* - Upon getting the BreakpointForCommunication, the debugger
* gets ThreadReferences mirroring all tested threads in the debuggee,
* sets up Requests within them to get EventSETS to check up on,
* resumes the debuggee, waits for events, and upon getting them,
* saves its EventSets into the array.
*
* In third phase,at the end
* the debuggee changes the value of the "instruction"
* to inform the debugger of checks finished, and ends.
* The debugger waits for VMDeathEvents and VMDisconnectEvents, and
* upon getting them, saves their EventSets into the array.
* Finally, the debugger, using the array of EventSets,
* compares Requests from Events to ones set up.
* If any mismatch, the test FAILED.
*
* Note. To inform each other of needed actions, the debugger and
* and the debuggee use debuggee's variable "instruction".
*
*/ public class request001 extends JDIBase { public static void main (String argv[]) { int result = run(argv, System.out); if (result != 0) { throw new RuntimeException("TEST FAILED with result " + result); } } public static int run (String argv[], PrintStream out) { int exitCode = new request001().runThis(argv, out); if (exitCode != PASSED) { System.out.println("TEST FAILED"); } return exitCode; } // ************************************************ test parameters private String debuggeeName = "nsk.jdi.Event.request.request001a"; private String testedClassName = "nsk.jdi.Event.request.TestClass"; //====================================================== test program // Event #: // 0-6 : AccessWatchpoint, ModificationWatchpoint, Breakpoint, Exception, // MethodEntry, MethodExit, Step // 7-8 : ClassPrepare, ClassUnload // 9-10 : ThreadDeath, ThreadStart // 11-13 : VMDeath, VMDisconnect, VMStart EventSet eventSets[] = new EventSet [14]; EventRequest eRequests[] = new EventRequest[14]; int eventFlags[] = { 0,0,0,0, 0,0,0,0, 3,0,0,0, 1,1 }; //------------------------------------------------------ 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.bindToDebugeeNoWait(debuggeeName + " -vbs"); } else { debuggee = binder.bindToDebugeeNoWait(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 { log2("waiting for VMStartEvent"); getEventSet(); // eventSets[13] = eventSet; if (eventIterator.nextEvent() instanceof VMStartEvent) { log2("VMStartEvent received; test begins"); testRun(); log2("waiting for VMDeathEvent"); getEventSet(); eventSets[11] = eventSet; if ( !(eventIterator.nextEvent() instanceof VMDeathEvent) ) { log3("ERROR: last event is not the VMDeathEvent"); return 1; } log2("waiting for VMDisconnectEvent"); getEventSet(); // eventSets[12] = eventSet; if ( !(eventIterator.nextEvent() instanceof VMDisconnectEvent) ) { log3("ERROR: last event is not the VMDisconnectEvent"); return 1; } check(); return 0; } else { log3("ERROR: first event is not the VMStartEvent"); 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); log2("......setting up ClassPrepareRequest"); eRequests[7] = cpRequest; cpRequest.enable(); vm.resume(); getEventSet(); eventSets[7] = eventSet; 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"); log2("......setting up ClassPrepareEvent"); setupBreakpointForCommunication(debuggeeClass); //------------------------------------------------------ testing section log1(" TESTING BEGINS"); { log2("...... setting up VMDeathRequest"); if (vm.canRequestVMDeathEvent()) { VMDeathRequest vmdr = eventRManager.createVMDeathRequest(); vmdr.putProperty("number", "VMDeathRequest"); vmdr.setSuspendPolicy(EventRequest.SUSPEND_NONE); vmdr.enable(); eRequests[11] = vmdr; } else { eventFlags[11] = 2; } log2("......setting up ThreadStartRequest"); ThreadStartRequest tsr = eventRManager.createThreadStartRequest(); tsr.setSuspendPolicy(EventRequest.SUSPEND_ALL); tsr.putProperty("number", "ThreadStartRequest"); tsr.enable(); eRequests[10] = tsr; log2("......setting up ThreadDeathRequest"); ThreadDeathRequest tdr = eventRManager.createThreadDeathRequest(); tdr.setSuspendPolicy(EventRequest.SUSPEND_ALL); tsr.putProperty("number", "ThreadDeathRequest"); tdr.enable(); eRequests[9] = tdr; log2("......vm.resume();"); vm.resume(); log2("......waiting for ThreadStartEvent"); getEventSetForThreadStartDeath("thread2"); eventSets[10] = eventSet; Event receivedEvent = eventIterator.nextEvent(); if ( !(receivedEvent instanceof ThreadStartEvent) ) { testExitCode = FAILED; log3("ERROR: new event is not ThreadStartEvent: " + receivedEvent); return; } tsr.disable(); log2("......vm.resume();"); vm.resume(); log2("......waiting for ThreadDeathEvent"); getEventSetForThreadStartDeath("thread2"); eventSets[9] = eventSet; receivedEvent = eventIterator.nextEvent(); if ( !(receivedEvent instanceof ThreadDeathEvent) ) { testExitCode = FAILED; log3("ERROR: new event is not ThreadDeathEvent: " + receivedEvent); return; } tdr.disable(); } for (int i = 0; ; i++) { vm.resume(); breakpointForCommunication(); int instruction = ((IntegerValue) (debuggeeClass.getValue(debuggeeClass.fieldByName("instruction")))).value(); if (instruction == 0) { vm.resume(); break; } log1(":::::: case: # " + i); //~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ variable part String bpLineName = "breakpointLine"; String bpMethodName = "method"; String awFieldName = "awFieldName"; String mwFieldName = "mwFieldName"; String namesArray = "threadNames"; String threadNames[] = { "awThread" , "mwThread" , "bpThread" , "excThread" , "menThread" , "mexThread" , "stThread" }; int flags = 0; ThreadReference eventThreads[] = new ThreadReference[threadNames.length]; List allThreads = vm.allThreads(); log2("......getting: ArrayReference namesRef = (ArrayReference) debuggeeClass.getValue(debuggeeClass.fieldByName(namesArray));"); ArrayReference namesRef = (ArrayReference) debuggeeClass.getValue(debuggeeClass.fieldByName(namesArray)); log2(" namesRef.length() == " + namesRef.length()); log2("......getting and checking up on debuggee threads' names"); for (int n1 = 0; n1 < namesRef.length(); n1++) { log2(" String name = ((StringReference) namesRef.getValue(n1)).value();"); String name = ((StringReference) namesRef.getValue(n1)).value(); label0: { for (int n2 = 0; n2 < threadNames.length; n2++) { if (name.equals(threadNames[n2])) { ListIterator li = allThreads.listIterator(); for (; li.hasNext(); ) { ThreadReference thread = (ThreadReference) li.next(); if (thread.name().equals(name)) { eventThreads[n1] = thread; break; } } break label0; } } testExitCode = FAILED; log3("ERROR: no thread found in the debuggee : " + name); } } if (testExitCode == FAILED) break; log2("......ReferenceType testClass = (ReferenceType) (vm.classesByName(testedClassName)).get(0);"); ReferenceType testClass = (ReferenceType) (vm.classesByName(testedClassName)).get(0); log2("......setting up Requests"); for ( int n3 = 0; n3 < namesRef.length(); n3++) { switch (n3) { case 0: if (vm.canWatchFieldAccess()) { String awName = ( (StringReference) testClass.getValue( testClass.fieldByName(awFieldName))).value(); eRequests[n3] = settingAccessWatchpoint(eventThreads[n3], testClass, awName, threadNames[n3]); eRequests[n3].enable(); flags |= 1; } break; case 1: if (vm.canWatchFieldModification() ) { String mwName = ( (StringReference) testClass.getValue( testClass.fieldByName(mwFieldName))).value(); eRequests[n3] = settingModificationWatchpoint(eventThreads[n3], testClass, mwName, threadNames[n3]); eRequests[n3].enable(); flags |= 1<<1; } break; case 2: eRequests[n3] = settingBreakpoint(eventThreads[n3], testClass, bpMethodName, bpLineName, threadNames[n3]); eRequests[n3].setSuspendPolicy( EventRequest.SUSPEND_NONE); eRequests[n3].enable(); flags |= 1<<2; break; case 3: eRequests[n3] = settingException(eventThreads[n3], debuggeeClass, threadNames[n3]); eRequests[n3].enable(); flags |= 1<<3; break; case 4: eRequests[n3] = settingMethodEntry(eventThreads[n3], testClass, threadNames[n3]); eRequests[n3].enable(); flags |= 1<<4; break; case 5: eRequests[n3] = settingMethodExit(eventThreads[n3], testClass, threadNames[n3]); eRequests[n3].enable(); flags |= 1<<5; break; case 6: eRequests[n3] = settingStep(eventThreads[n3], threadNames[n3]); eRequests[n3].enable(); flags |= 1<<6; break; default: throw new JDITestRuntimeException("** default case while prepareing requests**"); } } log2(":::::::::vm.resume();"); vm.resume(); int flagsCopy = flags; log2("......getting and checking up on Events"); for (int n4 = 0; n4 < namesRef.length(); n4++) { getEventSet(); Event event1 = eventIterator.nextEvent(); int index; if (event1 instanceof AccessWatchpointEvent) { index = 0; } else if (event1 instanceof ModificationWatchpointEvent ) { index = 1; } else if (event1 instanceof BreakpointEvent ) { index = 2; } else if (event1 instanceof ExceptionEvent ) { index = 3; } else if (event1 instanceof MethodEntryEvent ) { index = 4; } else if (event1 instanceof MethodExitEvent ) { index = 5; } else if (event1 instanceof StepEvent ) { index = 6; } else { log3("ERROR: else clause in detecting type of event1"); testExitCode = FAILED; throw new JDITestRuntimeException("** unexpected event ** " + event1); } log2("--------> got: " + event1 + " index: " + index); int flag = 1 << index; if ((flagsCopy & flag) == 0) { log3("ERROR: event duplication. event " + event1 + " flagsCopy = " + Integer.toBinaryString(flagsCopy) + " flag = " + Integer.toBinaryString(flag)); testExitCode = FAILED; } else { flagsCopy ^= flag; flags |= flag; } eventSets[index] = eventSet; } if (testExitCode == FAILED) break; breakpointForCommunication(); //~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ } log1(" TESTING ENDS"); return; } // ============================== test's additional methods private AccessWatchpointRequest settingAccessWatchpoint ( ThreadReference thread, ReferenceType testedClass, String fieldName, String property) throws JDITestRuntimeException { log2("......setting up AccessWatchpoint:"); log2(" thread: " + thread + "; class: " + testedClass + "; fieldName: " + fieldName); AccessWatchpointRequest awRequest = null; try { Field field = testedClass.fieldByName(fieldName); awRequest = eventRManager.createAccessWatchpointRequest(field); awRequest.putProperty("number", property); awRequest.addThreadFilter(thread); awRequest.setSuspendPolicy( EventRequest.SUSPEND_NONE); } catch ( Exception e ) { log3("ERROR: ATTENTION: Exception within settingAccessWatchpoint() : " + e); log3(" AN ACCESSWATCHPOINT HAS NOT BEEN SET UP"); throw new JDITestRuntimeException("** FAILURE to set up an AccessWatchpoint **"); } log2(" an AccessWatchpoint has been set up"); return awRequest; } private ModificationWatchpointRequest settingModificationWatchpoint ( ThreadReference thread, ReferenceType testedClass, String fieldName, String property) throws JDITestRuntimeException { log2("......setting up ModificationWatchpoint:"); log2(" thread: " + thread + "; class: " + testedClass + "; fieldName: " + fieldName); ModificationWatchpointRequest mwRequest = null; try { Field field = testedClass.fieldByName(fieldName); mwRequest = eventRManager.createModificationWatchpointRequest(field); mwRequest.putProperty("number", property); mwRequest.addThreadFilter(thread); mwRequest.setSuspendPolicy( EventRequest.SUSPEND_NONE); } catch ( Exception e ) { log3("ERROR: ATTENTION: Exception within settingModificationWatchpoint() : " + e); log3(" AN ModificationWATCHPOINT HAS NOT BEEN SET UP"); throw new JDITestRuntimeException("** FAILURE to set up an AccessWatchpoint **"); } log2(" a ModificationWatchpoint has been set up"); return mwRequest; } private MethodEntryRequest settingMethodEntry ( ThreadReference thread, ReferenceType testedClass, String property) throws JDITestRuntimeException { log2("......setting up MethodEntry:"); log2(" thread: " + thread + "; class: " + testedClass + "; property: " + property); MethodEntryRequest menRequest = null; try { menRequest = eventRManager.createMethodEntryRequest(); menRequest.putProperty("number", property); menRequest.addThreadFilter(thread); menRequest.addClassFilter(testedClass); menRequest.setSuspendPolicy( EventRequest.SUSPEND_NONE); } catch ( Exception e ) { log3("ERROR: ATTENTION: Exception within settingMethodEntry() : " + e); log3(" A MethodEntry HAS NOT BEEN SET UP"); throw new JDITestRuntimeException("** FAILURE to set up a MethodEntry **"); } log2(" a MethodEntry has been set up"); return menRequest; } private MethodExitRequest settingMethodExit ( ThreadReference thread, ReferenceType testedClass, String property) throws JDITestRuntimeException { log2("......setting up MethodExit:"); log2(" thread: " + thread + "; class: " + testedClass + "; property: " + property); MethodExitRequest mexRequest = null; try { mexRequest = eventRManager.createMethodExitRequest(); mexRequest.putProperty("number", property); mexRequest.addThreadFilter(thread); mexRequest.addClassFilter(testedClass); mexRequest.setSuspendPolicy( EventRequest.SUSPEND_NONE); } catch ( Exception e ) { log3("ERROR: ATTENTION: Exception within settingMethodExit() : " + e); log3(" A MethodExit HAS NOT BEEN SET UP"); throw new JDITestRuntimeException("** FAILURE to set up a MethodExit **"); } log2(" a MethodExit has been set up"); return mexRequest; } private StepRequest settingStep ( ThreadReference thread, String property) throws JDITestRuntimeException { log2("......setting up Step:"); log2(" thread: " + thread + "; property: " + property); StepRequest stRequest = null; try { stRequest = eventRManager.createStepRequest(thread, StepRequest.STEP_LINE, StepRequest.STEP_OVER); stRequest.putProperty("number", property); stRequest.addCountFilter(1); stRequest.setSuspendPolicy( EventRequest.SUSPEND_NONE); } catch ( Exception e ) { log3("ERROR: ATTENTION: Exception within settingStep() : " + e); log3(" A Step HAS NOT BEEN SET UP"); throw new JDITestRuntimeException("** FAILURE to set up a Step **"); } log2(" a Step has been set up"); return stRequest; } private ExceptionRequest settingException ( ThreadReference thread, ReferenceType testedClass, String property) throws JDITestRuntimeException { log2("......setting up Exception:"); log2(" thread: " + thread + "; class: " + testedClass + "; property: " + property); ExceptionRequest excRequest = null; try { excRequest = eventRManager.createExceptionRequest(null, true, true); excRequest.putProperty("number", property); excRequest.addThreadFilter(thread); excRequest.addClassFilter(testedClass); excRequest.setSuspendPolicy( EventRequest.SUSPEND_NONE); } catch ( Exception e ) { log3("ERROR: ATTENTION: Exception within settingException() : " + e); log3(" A Exception HAS NOT BEEN SET UP"); throw new JDITestRuntimeException("** FAILURE to set up a Exception **"); } log2(" a Exception has been set up"); return excRequest; } private void check() { EventSet evSet = null; EventIterator evI = null; EventRequest eR = null; log2("......performing the check;"); for (int k = 0; k < eventFlags.length; k++) { switch (eventFlags[k]) { case 0: evSet = eventSets[k]; evI = evSet.eventIterator(); if (eRequests[k].equals(evI.nextEvent().request())) break; testExitCode = FAILED; log3("ERROR: eventRequest is not equal to event.request() : k == " + k); break; case 1: evSet = eventSets[k]; evI = evSet.eventIterator(); if (evI.nextEvent().request() == null) break; testExitCode = FAILED; log3("ERROR: event.request() != null : k == " + k); break; case 2: evSet = eventSets[k]; evI = evSet.eventIterator(); try { eR = evI.nextEvent().request(); if (eR == null) { if ( !eRequests[k].equals(evI.nextEvent().request()) ) { testExitCode = FAILED; log3("ERROR: eventRequest is not equal to event.request() : k == " + k); } } else { if ( !eRequests[k].equals(eR) ) { testExitCode = FAILED; log3("ERROR: eventRequest is not equal to event.request() : k == " + k); } else if (evI.nextEvent().request() != null) { testExitCode = FAILED; log3("ERROR: eventRequest != null : k == " + k); } } } catch ( Exception e ) { log3("ERROR: Unexpected Exception : " + e + " :: k == " + k); testExitCode = FAILED; } break; case 3: break; default: log3("ERROR: unexpected default case"); testExitCode = FAILED; throw new JDITestRuntimeException("** FAILURE within check() **"); } } } }