/* * Copyright (c) 2002, 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. */ package nsk.jdi.BScenarios.hotswap; import nsk.share.*; import nsk.share.jpda.*; import nsk.share.jdi.*; import com.sun.jdi.*; import com.sun.jdi.request.*; import com.sun.jdi.event.*; import java.util.*; import java.io.*; /** * This test is from the group of so-called Borland's scenarios and * implements the following test case:
* Suite 3 - Hot Swap
* Test case: TC7
* Description: After point of execution, different method - stepping
* Steps: 1.Set breakpoint at line 24 (call from a()
* to b())
* 2.Debug Main
* 3.Insert as first line in b():
* System.err.println("foo");
* 4.Smart Swap
* 5.F7 to step into
* X. Steps into b()
* 6.F7 to step into
* X. Prints "foo"
* 7.F7 to step into
* X. Steps on to line that prints "1"
*
* The description was drown up according to steps under JBuilder. * * Of course, the test has own line numbers and method/class names and * works as follow: * When the test is starting debugee, debugger sets breakpoint at the 38th * line (method method_A). After the breakpoint is reached, * debugger redefines debugee inserting first line into method_B, creates * StepRequest and resumes debugee. When the location of the * current StepEvent is in method_C, created * StepRequest is disabled. * The test checks up location of every step event and that new code * becomes actual. */ public class tc07x001 { public final static String UNEXPECTED_STRING = "***Unexpected exception "; private final static String prefix = "nsk.jdi.BScenarios.hotswap."; private final static String debuggerName = prefix + "tc07x001"; private final static String debugeeName = debuggerName + "a"; private final static String newClassFile = "newclass" + File.separator + debugeeName.replace('.',File.separatorChar) + ".class"; private static int exitStatus; private static Log log; private static Debugee debugee; private static long waitTime; private static String classDir; private static final String firstMethodName = "method_B"; private static final String lastMethodName = "method_C"; private int eventCount; private int expectedEventCount = 4; private ReferenceType debugeeClass; private static void display(String msg) { log.display(msg); } private static void complain(String msg) { log.complain("debugger FAILURE> " + msg + "\n"); } public static void main(String argv[]) { System.exit(Consts.JCK_STATUS_BASE + run(argv, System.out)); } public static int run(String argv[], PrintStream out) { exitStatus = Consts.TEST_PASSED; tc07x001 thisTest = new tc07x001(); ArgumentHandler argHandler = new ArgumentHandler(argv); log = new Log(out, argHandler); classDir = argv[0]; waitTime = argHandler.getWaitTime() * 60000; Binder binder = new Binder(argHandler, log); debugee = binder.bindToDebugee(debugeeName); try { thisTest.execTest(); } catch (Throwable e) { exitStatus = Consts.TEST_FAILED; e.printStackTrace(); } finally { debugee.endDebugee(); } display("Test finished. exitStatus = " + exitStatus); return exitStatus; } private void execTest() throws Failure { if (!debugee.VM().canRedefineClasses()) { display("\n>>>canRedefineClasses() is false<<< test canceled.\n"); return; } display("\nTEST BEGINS"); display("==========="); EventSet eventSet = null; EventIterator eventIterator = null; Event event; long totalTime = waitTime; long tmp, begin = System.currentTimeMillis(), delta = 0; boolean exit = false; eventCount = 0; EventRequestManager evm = debugee.getEventRequestManager(); ClassPrepareRequest req = evm.createClassPrepareRequest(); req.addClassFilter(debugeeName); req.enable(); debugee.resume(); while (totalTime > 0 && !exit) { if (eventIterator == null || !eventIterator.hasNext()) { try { eventSet = debugee.VM().eventQueue().remove(totalTime); } catch (InterruptedException e) { new Failure(e); } if (eventSet != null) { eventIterator = eventSet.eventIterator(); } else { eventIterator = null; } } if (eventIterator != null) { while (eventIterator.hasNext()) { event = eventIterator.nextEvent(); // display("\n event ===>>> " + event); if (event instanceof ClassPrepareEvent) { display("\n event ===>>> " + event); debugeeClass = ((ClassPrepareEvent )event).referenceType(); display("Tested class\t:" + debugeeClass.name()); debugee.setBreakpoint(debugeeClass, tc07x001a.brkpMethodName, tc07x001a.brkpLineNumber); debugee.resume(); } else if (event instanceof BreakpointEvent) { display("\n event ===>>> " + event); hitBreakpoint((BreakpointEvent )event); display("redefining..."); redefineDebugee(); createStepRequest(((LocatableEvent )event).thread()); debugee.resume(); } else if (event instanceof StepEvent) { display("\n event ===>>> " + event); hitStep((StepEvent )event); debugee.resume(); } else if (event instanceof VMDeathEvent) { exit = true; break; } else if (event instanceof VMDisconnectEvent) { exit = true; break; } // if } // while } // if tmp = System.currentTimeMillis(); delta = tmp - begin; totalTime -= delta; begin = tmp; } if (eventCount != expectedEventCount) { if (totalTime <= 0) { complain("out of wait time..."); } complain("expecting " + expectedEventCount + " events, but " + eventCount + " events arrived."); exitStatus = Consts.TEST_FAILED; } display("============="); display("TEST FINISHES\n"); } private void redefineDebugee() { Map mapBytes; boolean alreadyComplained = false; mapBytes = mapClassToBytes(newClassFile); try { debugee.VM().redefineClasses(mapBytes); } catch (Exception e) { throw new Failure(UNEXPECTED_STRING + e); } } private Map mapClassToBytes(String fileName) { display("class-file\t:" + fileName); File fileToBeRedefined = new File(classDir + File.separator + fileName); int fileToRedefineLength = (int )fileToBeRedefined.length(); byte[] arrayToRedefine = new byte[fileToRedefineLength]; FileInputStream inputFile; try { inputFile = new FileInputStream(fileToBeRedefined); } catch (FileNotFoundException e) { throw new Failure(UNEXPECTED_STRING + e); } try { inputFile.read(arrayToRedefine); inputFile.close(); } catch (IOException e) { throw new Failure(UNEXPECTED_STRING + e); } HashMap mapForClass = new HashMap(); mapForClass.put(debugeeClass, arrayToRedefine); return mapForClass; } private StepRequest createStepRequest(ThreadReference thread) { EventRequestManager evm = debugee.getEventRequestManager(); StepRequest request = evm.createStepRequest(thread, StepRequest.STEP_LINE, StepRequest.STEP_INTO); request.enable(); return request; } private void hitBreakpoint(BreakpointEvent event) { locationInfo(event); if (event.location().lineNumber() != tc07x001a.checkLastLine) { complain("BreakpointEvent steps to line " + event.location().lineNumber() + ", expected line number is " + tc07x001a.checkLastLine); exitStatus = Consts.TEST_FAILED; } else { display("!!!BreakpointEvent steps to the expected line " + event.location().lineNumber() + "!!!"); } display(""); } private void hitStep(StepEvent event) { locationInfo(event); String methodName = event.location().method().name(); StepRequest request = (StepRequest )event.request(); if (methodName.compareTo(lastMethodName) == 0) { request.disable(); } switch (eventCount) { case 2: checkLocMethod(methodName, firstMethodName); break; case 3: checkLocMethod(methodName, firstMethodName); Field fld = debugeeClass.fieldByName(tc07x001a.fieldToCheckName); Value val = debugeeClass.getValue(fld); if (((IntegerValue )val).value() != tc07x001a.CHANGED_VALUE) { complain("Unexpected: new code is not actual"); complain("Unexpected value of checked field: " + val); exitStatus = Consts.TEST_FAILED; } else { display("!!!Expected: Inserted line has worked"); } break; case 4: checkLocMethod(methodName, lastMethodName); break; default: complain("Unexpected event" + event); exitStatus = Consts.TEST_FAILED; } display(""); } private void checkLocMethod(String currentMethodName, String expectedMethodName) { if (currentMethodName.compareTo(expectedMethodName) != 0) { complain("Unexpected event location at \"" + currentMethodName + "\""); exitStatus = Consts.TEST_FAILED; } else { display("!!!Expected event location at \"" + currentMethodName + "\""); } } private void locationInfo(LocatableEvent event) { eventCount++; display("event info: #" + eventCount); display("\tthread\t- " + event.thread().name()); try { display("\tsource\t- " + event.location().sourceName()); display("\tmethod\t- " + event.location().method().name()); display("\tline\t- " + event.location().lineNumber()); } catch (AbsentInformationException e) { } } }