/* * 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. */ package nsk.jdwp.StackFrame.PopFrames; import java.io.*; import nsk.share.*; import nsk.share.jpda.*; import nsk.share.jdwp.*; /** * Test for JDWP command: StackFrame.PopFrames. * * See popframes001.README for description of test execution. * * This class represents debugger part of the test. * Test is executed by invoking method runIt(). * JDWP command is tested in the method testCommand(). * * @see #runIt() * @see #testCommand() */ public class popframes001 { // exit status constants static final int JCK_STATUS_BASE = 95; static final int PASSED = 0; static final int FAILED = 2; // VM capability constatnts static final int VM_CAPABILITY_NUMBER = JDWP.Capability.CAN_POP_FRAMES; static final String VM_CAPABILITY_NAME = "canPopFrames"; // package and classes names static final String PACKAGE_NAME = "nsk.jdwp.StackFrame.PopFrames"; static final String TEST_CLASS_NAME = PACKAGE_NAME + "." + "popframes001"; static final String DEBUGEE_CLASS_NAME = TEST_CLASS_NAME + "a"; // tested JDWP command static final String JDWP_COMMAND_NAME = "StackFrame.PopFrames"; static final int JDWP_COMMAND_ID = JDWP.Command.StackFrame.PopFrames; // tested class name and signature static final String TESTED_CLASS_NAME = DEBUGEE_CLASS_NAME + "$" + "TestedThreadClass"; static final String TESTED_CLASS_SIGNATURE = "L" + TESTED_CLASS_NAME.replace('.', '/') + ";"; // field and method names static final String TESTED_METHOD_NAME = "testedMethod"; static final int BREAKPOINT_LINE_NUMBER = popframes001a.BREAKPOINT_LINE_NUMBER; // usual scaffold objects ArgumentHandler argumentHandler = null; Log log = null; Binder binder = null; Debugee debugee = null; Transport transport = null; int waitTime = 0; // minutes long timeout = 0; // milliseconds boolean dead = false; boolean success = true; // data obtained from debuggee long testedClassID = 0; long testedThreadID = 0; long testedMethodID = 0; long testedFrameID = 0; int breakpointRequestID = 0; // ------------------------------------------------------------------- /** * Start test from command line. */ public static void main (String argv[]) { System.exit(run(argv,System.out) + JCK_STATUS_BASE); } /** * Start JCK-compilant test. */ public static int run(String argv[], PrintStream out) { return new popframes001().runIt(argv, out); } // ------------------------------------------------------------------- /** * Perform test execution. */ public int runIt(String argv[], PrintStream out) { // make log for debugger messages argumentHandler = new ArgumentHandler(argv); log = new Log(out, argumentHandler); waitTime = argumentHandler.getWaitTime(); // minutes timeout = waitTime * 60 * 1000; // milliseconds // execute test and display results try { log.display("\n>>> Starting debugee \n"); // launch debuggee binder = new Binder(argumentHandler, log); log.display("Launching debugee VM"); debugee = binder.bindToDebugee(DEBUGEE_CLASS_NAME); transport = debugee.getTransport(); log.display(" ... debuggee launched"); // set timeout for debuggee responces log.display("Setting timeout for debuggee responces: " + waitTime + " minute(s)"); transport.setReadTimeout(timeout); log.display(" ... timeout set"); // wait for VM_INIT event log.display("Waiting for VM_INIT event"); debugee.waitForVMInit(); log.display(" ... VM_INIT event received"); // query debugee for VM-dependent ID sizes log.display("Querying for IDSizes"); debugee.queryForIDSizes(); log.display(" ... size of VM-dependent types adjusted"); // check for VM capability log.display("\n>>> Checking VM capability \n"); log.display("Getting new VM capability: " + VM_CAPABILITY_NAME); boolean capable = debugee.getNewCapability(VM_CAPABILITY_NUMBER, VM_CAPABILITY_NAME); log.display(" ... got VM capability: " + capable); // exit as PASSED if this capability is not supported if (!capable) { out.println("TEST PASSED: unsupported VM capability: " + VM_CAPABILITY_NAME); return PASSED; } // prepare debuggee for testing and obtain required data log.display("\n>>> Getting prepared for testing \n"); prepareForTest(); // test JDWP command log.display("\n>> Testing JDWP command \n"); testCommand(); // check command results if (success) { log.display("\n>>> Checking result of tested command \n"); checkResult(); } // finish debuggee log.display("\n>> Finishing debuggee \n"); // clear BREAKPOIN event request log.display("Clearing BREAKPOINT event requestID: " + breakpointRequestID); debugee.clearEventRequest(JDWP.EventKind.BREAKPOINT, breakpointRequestID); log.display(" ... request cleared"); // resume debuggee after testing command log.display("Resuming debuggee"); debugee.resume(); log.display(" ... debuggee resumed"); // wait for VM_DEATH event log.display("Waiting for VM_DEATH event"); debugee.waitForVMDeath(); log.display(" ... VM_DEATH event received"); dead = true; } catch (Failure e) { log.complain("TEST FAILED: " + e.getMessage()); success = false; } catch (Exception e) { e.printStackTrace(out); log.complain("Caught unexpected exception while running the test:\n\t" + e); success = false; } finally { log.display("\n>>> Finishing test \n"); // disconnect debugee and wait for its exit if (debugee != null) { quitDebugee(); } } // check result if (!success) { log.complain("TEST FAILED"); return FAILED; } out.println("TEST PASSED"); return PASSED; } /** * Get debuggee prepared for testing and obtain required data. */ void prepareForTest() { // wait for tested class loaded on debuggee startup and obtain its classID log.display("Waiting for class loaded:\n\t" + TESTED_CLASS_NAME); testedClassID = debugee.waitForClassLoaded(TESTED_CLASS_NAME, JDWP.SuspendPolicy.ALL); log.display(" ... class loaded with classID: " + testedClassID); // query debuggee for tested methodID log.display("Getting tested methodID by name: " + TESTED_METHOD_NAME); testedMethodID = debugee.getMethodID(testedClassID, TESTED_METHOD_NAME, true); log.display(" ... got methodID: " + testedMethodID); log.display(""); // make BREAKPOINT event request log.display("Creating breakpoint requests at: " + TESTED_METHOD_NAME + ":" + BREAKPOINT_LINE_NUMBER); breakpointRequestID = debugee.requestBreakpointEvent(JDWP.TypeTag.CLASS, testedClassID, testedMethodID, BREAKPOINT_LINE_NUMBER, JDWP.SuspendPolicy.ALL); log.display(" ... got breakpoint requestID: " + breakpointRequestID); // resume debuggee after testing command log.display("Resuming debuggee"); debugee.resume(); log.display(" ... debuggee resumed"); log.display(""); // wait for BREAKPOINT event log.display("Waiting for BREAKPOINT event for requestID: " + breakpointRequestID); testedThreadID = waitForBreakpointEvent(breakpointRequestID, "first"); log.display(" ... breakpoint reached with threadID: " + testedThreadID); // query debuggee for top frameID log.display("Getting top frameID for threadID: " + testedThreadID); testedFrameID = queryTopFrameID(testedThreadID); log.display(" ... got frameID: " + testedFrameID); log.display(""); // tested thread is suspended by an event log.display("Tested thread is suspended by BREAKPOINT event before pop frameID: " + testedFrameID); } /** * Perform testing JDWP command. */ void testCommand() { // create command packet and fill requred out data log.display("Create command packet:"); log.display("Command: " + JDWP_COMMAND_NAME); CommandPacket command = new CommandPacket(JDWP_COMMAND_ID); log.display(" threadID: " + testedThreadID); command.addObjectID(testedThreadID); log.display(" frameID: " + testedFrameID); command.addFrameID(testedFrameID); command.setLength(); // send command packet to debugee try { log.display("Sending command packet:\n" + command); transport.write(command); } catch (IOException e) { log.complain("Unable to send command packet:\n\t" + e); success = false; return; } // receive reply packet from debugee ReplyPacket reply = new ReplyPacket(); try { log.display("Waiting for reply packet"); transport.read(reply); log.display(" ... reply packet received:\n" + reply); } catch (IOException e) { log.complain("Unable to read reply packet for tested command:\n\t" + e); success = false; return; } // check reply packet header try{ log.display("Checking header of reply packet"); reply.checkHeader(command.getPacketID()); log.display(" ... packet header is correct"); } catch (BoundException e) { log.complain("Wrong header of reply packet for tested command:\n\t" + e.getMessage()); success = false; return; } // start parsing reply packet data log.display("Parsing reply packet data:"); reply.resetPosition(); // no reply data to parse log.display(" no reply data"); // check for extra data in reply packet if (!reply.isParsed()) { log.complain("Extra trailing bytes found in reply packet at: " + reply.offsetString()); success = false; } log.display(" ... packed data parsed"); } /** * Check result of the tested JDWP command. */ void checkResult() { // resume debuggee after sending command log.display("Resuming debuggee after command"); debugee.resume(); log.display(" ... debuggee resumed"); // wait for BREAKPOINT event log.display("Waiting for second BREAKPOINT event for requestID: " + breakpointRequestID); long threadID = waitForBreakpointEvent(breakpointRequestID, "second"); log.display(" ... breakpoint secondly reached with threadID: " + threadID); log.display("Tested method was invoked two times as expected"); } /** * Query debuggee for top frameID value for given threadID. */ long queryTopFrameID(long threadID) { String error = "Error occured while getting top frameID for threadID: " + threadID; CommandPacket command = new CommandPacket(JDWP.Command.ThreadReference.Frames); command.addObjectID(threadID); command.addInt(0); // top frame index command.addInt(1); // number of frames ReplyPacket reply = debugee.receiveReplyFor(command, "ThreadReference.Frames"); reply.resetPosition(); try { int frames = reply.getInt(); if (frames != 1) { log.complain("Wrong number of frames returned in reply packet: " + frames + " (expected: " + 1 + ")"); throw new Failure(error); } long frameID = reply.getFrameID(); return frameID; } catch (BoundException e) { log.complain("Unable to extract data from reply packet:\n\t" + e.getMessage()); throw new Failure(error); } } /** * Wait for BREAKPOINT event made by the given request and return threadID. * Debuggee will be left suspended by the BREAKPOINT event. */ public long waitForBreakpointEvent(int requestID, String kind) { String error = "Error occured while waiting for " + kind + " BREAKPOINT event"; for(;;) { EventPacket event = debugee.receiveEvent(); byte eventSuspendPolicy = 0; long eventThreadID = 0; try { eventSuspendPolicy = event.getByte(); int events = event.getInt(); for (int i = 0; i < events; i++) { // check event kind byte eventKind = event.getByte(); if (eventKind == JDWP.EventKind.VM_DEATH) { log.complain("Unexpected VM_DEATH event received: " + eventKind + " (expected: " + JDWP.EventKind.BREAKPOINT +")"); dead = true; throw new Failure(error); } else if (eventKind != JDWP.EventKind.BREAKPOINT) { log.complain("Unexpected event kind received: " + eventKind + " (expected: " + JDWP.EventKind.BREAKPOINT +")"); throw new Failure(error); } // extract specific BREAKPOINT event data int eventRequestID = event.getInt(); eventThreadID = event.getObjectID(); JDWP.Location eventLocation = event.getLocation(); if (eventRequestID == requestID) { return eventThreadID; } else { log.complain("Unexpected BREAKPOINT event received with requestID: " + eventRequestID + " (expected: " + requestID + ")"); } } } catch (BoundException e) { log.complain("Unable to extract data from event packet while waiting for BREAKPOINT event:\n\t" + e.getMessage() + "\n" + event); throw new Failure(error); } // resume debuggee after unhandled event set debugee.resumeEvent(eventSuspendPolicy, eventThreadID); } } /** * Disconnect debuggee and wait for it exited. */ void quitDebugee() { if (debugee == null) return; // disconnect debugee if (!dead) { try { log.display("Disconnecting debuggee"); debugee.dispose(); log.display(" ... debuggee disconnected"); } catch (Failure e) { log.display("Failed to finally disconnect debuggee:\n\t" + e.getMessage()); } } // wait for debugee exited log.display("Waiting for debuggee exit"); int code = debugee.waitFor(); log.display(" ... debuggee exited with exit code: " + code); // analize debugee exit status code if (code != JCK_STATUS_BASE + PASSED) { log.complain("Debuggee FAILED with exit code: " + code); success = false; } } }