/* * Copyright (c) 2001, 2020, 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/hashCode/hashcode001. * 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.hashCode() * complies with its spec: * public int hashCode() * Returns the hash code value for this VoidValue. * Returns: the hash code * Overrides: hashCode in class java.lang.Object * The test works as follows: * A debugger program - nsk.jdi.VoidValue.hashCode.hashcode001; * a debuggee program - nsk.jdi.VoidValue.hashCode.hashcode001a. * 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 * @build nsk.jdi.VoidValue.hashCode.hashcode001.hashcode001 * nsk.jdi.VoidValue.hashCode.hashcode001.hashcode001a * @run main/othervm * nsk.jdi.VoidValue.hashCode.hashcode001.hashcode001 * -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.hashCode.hashcode001; 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
* VoidValue.
*
* The test checks up that results of the method
* com.sun.jdi.VoidValue.hashCode()
* complies with its spec.
*
* The cases for testing are as follows :
*
* when a gebuggee is suspended at a breakpoint
* set by a debugger,
* the debugger invokes debuggee's methods:
* void vdValue1(); void vdValue1(); void vdValue2();
* to form the follwing objects: Value returnvdValue1,
* Value returnvdValue2, and Value returnvdValue3;
*
* performs following casts:
* VoidValue vdValue1 = (VoidValue) returnvdValue1;
* VoidValue vdValue2 = (VoidValue) returnvdValue2;
* VoidValue vdValue3 = (VoidValue) returnvdValue3;
*
* and checks up that each of the following is true:
*
* vdValue1.hashCode() == vdValue2.hashCode()
* vdValue1.hashCode() == vdValue3.hashCode()
*
*/ public class hashcode001 { //----------------------------------------------------- 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/hashCode/hashcode001", 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 hashcode001().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.hashCode.hashcode001.hashcode001a"; private String testedClassName = "nsk.jdi.VoidValue.hashCode.hashcode001.Threadhashcode001a"; //====================================================== 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(debuggeeName + " 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; Value returnvdValue3 = null; List invokeMethods = null; Method invokeMethod = null; List argumentList = null; invokeMethods = testedclass.methodsByName("vdValue1"); invokeMethod = (Method) invokeMethods.get(0); argumentList = Collections.emptyList(); try { log2(" 1st invoking hashcode001a.vdValue1(); no Exception expected"); returnvdValue1 = thread2.invokeMethod(thread2, invokeMethod, argumentList, 0); log2(" 2nd invoking hashcode001a.vdValue1(); no Exception expected"); returnvdValue2 = thread2.invokeMethod(thread2, invokeMethod, argumentList, 0); } catch ( Exception e ) { log3("ERROR: Exception: " + e); expresult = returnCode1; break label1; } // invoking hashcode001a.vdValue2() invokeMethods = testedclass.methodsByName("vdValue2"); invokeMethod = (Method) invokeMethods.get(0); try { log2(" invoking hashcode001a.vdValue2(); no Exception expected"); returnvdValue3 = thread2.invokeMethod(thread2, invokeMethod, argumentList, 0); } catch ( Exception e ) { log3("ERROR: Exception: " + e); expresult = returnCode1; break label1; } VoidValue vdValue1 = null; VoidValue vdValue2 = null; VoidValue vdValue3 = null; try { log2(" checking up cast: vdValue1 = (VoidValue) returnvdValue1; no Exception expected"); vdValue1 = (VoidValue) returnvdValue1; } catch ( ClassCastException e ) { log3("ERROR : ClassCastException"); expresult = returnCode1; break label1; } try { log2(" checking up cast: vdValue2 = (VoidValue) returnvdValue2; no Exception expected"); vdValue2 = (VoidValue) returnvdValue2; } catch ( ClassCastException e ) { log3("ERROR : ClassCastException"); expresult = returnCode1; break label1; } try { log2(" checking up cast: vdValue3 = (VoidValue) returnvdValue3; no Exception expected"); vdValue3 = (VoidValue) returnvdValue3; } catch ( ClassCastException e ) { log3("ERROR : ClassCastException"); expresult = returnCode1; break label1; } log2(" checking up: dValue1.hashCode() == vdValue2.hashCode()"); if (vdValue1.hashCode() != vdValue2.hashCode() ) { log3("ERROR: vdValue1.hashCode() != vdValue2.hashCode()"); expresult = returnCode1; } log2(" checking up: dValue1.hashCode() == vdValue3.hashCode()"); if (vdValue1.hashCode() != vdValue3.hashCode() ) { log3("ERROR: vdValue1.hashCode() != vdValue3.hashCode()"); 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) { System.out.println("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; } }