使用 GDB 更改 JVM 中的变量值

Currently I have a simple Java program:

public class Test {
  public static void main(String[] args) {
    boolean test = true;
    while (test) {
      System.out.println("Hello World");
      try { Thread.sleep(1000); } catch (Exception e) {}
    }
    System.out.println("Bye-bye");
  }
}

It prints "Hello World" every second. I would like to use gdb to attach to the process and make a memory patch to stop it with "Bye-bye" printed.

I know GDB can get created VMs (JNI_GetCreatedVMs) from its console, the env object is also available via the API of GetEnv. How can I find the test variable address in JVM and set it to false (this is optional) to make the program exit normally? Not sure if API like AttachCurrentThread, class like HotSpotVirtualMachine, tools like jmap or jstack can help?

And there is no debug option, assume the simple program running in production with java -cp . Test.

Thanks in advance for any guidance. :)

---

additional info (track state)

• jmap -dump:file=hex <pid> && jhat hex and browse at http://localhost:7000; cannot find any reference to test (it is not an object and just an instance of class Z)
• jstack <pid> can get the tid of main thread (0x7fa412002000) and jhat hex has the object of the java.lang.Thread of main (0x76ab05c40)
• java.lang.Thread has a native method start0 which invokes hotspot method of JVM_StartThread (hotspot/src/share/vm/prims/jvm.cpp), there is a class JavaThread may contain the memory structure for local variables in thread stack.
• if private static boolean test = true;; then JNI_GetCreatedJavaVMs ==> jvm, jvm->jvm_api->AttachCurrentThread ==> env, env->env_api->(FindClass, GetStaticFieldID, SetStaticBooleanField) ==> test[true ==> false]

解决方案

In some cases it is possible to get local variable addresses using HotSpot Serviceability Agent. I've made a sample agent that prints extended stack traces with local variable info:

import sun.jvm.hotspot.code.Location;
import sun.jvm.hotspot.code.LocationValue;
import sun.jvm.hotspot.code.NMethod;
import sun.jvm.hotspot.code.ScopeValue;
import sun.jvm.hotspot.code.VMRegImpl;
import sun.jvm.hotspot.debugger.Address;
import sun.jvm.hotspot.debugger.OopHandle;
import sun.jvm.hotspot.interpreter.OopMapCacheEntry;
import sun.jvm.hotspot.oops.Method;
import sun.jvm.hotspot.oops.Oop;
import sun.jvm.hotspot.runtime.CompiledVFrame;
import sun.jvm.hotspot.runtime.InterpretedVFrame;
import sun.jvm.hotspot.runtime.JavaThread;
import sun.jvm.hotspot.runtime.JavaVFrame;
import sun.jvm.hotspot.runtime.VM;
import sun.jvm.hotspot.runtime.VMReg;
import sun.jvm.hotspot.tools.Tool;

import java.util.List;

public class Frames extends Tool {

    @Override
    public void run() {
        for (JavaThread thread = VM.getVM().getThreads().first(); thread != null; thread = thread.next()) {
            System.out.println(thread.getThreadName() + ", id = " + thread.getOSThread().threadId());
            for (JavaVFrame vf = thread.getLastJavaVFrameDbg(); vf != null; vf = vf.javaSender()) {
                dumpFrame(vf);
            }
            System.out.println();
        }
    }

    private void dumpFrame(JavaVFrame vf) {
        Method method = vf.getMethod();
        String className = method.getMethodHolder().getName().asString().replace('/', '.');
        String methodName = method.getName().asString() + method.getSignature().asString();
        System.out.println("  # " + className + '.' + methodName + " @ " + vf.getBCI());

        if (vf.isCompiledFrame()) {
            dumpCompiledFrame(((CompiledVFrame) vf));
        } else {
            dumpInterpretedFrame(((InterpretedVFrame) vf));
        }
    }

    private void dumpCompiledFrame(CompiledVFrame vf) {
        if (vf.getScope() == null) {
            return;
        }

        NMethod nm = vf.getCode();
        System.out.println("    * code=[" + nm.codeBegin() + "-" + nm.codeEnd() + "], pc=" + vf.getFrame().getPC());

        List locals = vf.getScope().getLocals();
        for (int i = 0; i < locals.size(); i++) {
            ScopeValue sv = (ScopeValue) locals.get(i);
            if (!sv.isLocation()) continue;

            Location loc = ((LocationValue) sv).getLocation();
            Address addr = null;
            String regName = "";

            if (loc.isRegister()) {
                int reg = loc.getRegisterNumber();
                addr = vf.getRegisterMap().getLocation(new VMReg(reg));
                regName = ":" + VMRegImpl.getRegisterName(reg);
            } else if (loc.isStack() && !loc.isIllegal()) {
                addr = vf.getFrame().getUnextendedSP().addOffsetTo(loc.getStackOffset());
            }

            String value = getValue(addr, loc.getType());
            System.out.println("    [" + i + "] " + addr + regName + " = " + value);
        }
    }

    private void dumpInterpretedFrame(InterpretedVFrame vf) {
        Method method = vf.getMethod();
        int locals = (int) (method.isNative() ? method.getSizeOfParameters() : method.getMaxLocals());
        OopMapCacheEntry oopMask = method.getMaskFor(vf.getBCI());

        for (int i = 0; i < locals; i++) {
            Address addr = vf.getFrame().addressOfInterpreterFrameLocal(i);
            String value = getValue(addr, oopMask.isOop(i) ? Location.Type.OOP : Location.Type.NORMAL);
            System.out.println("    [" + i + "] " + addr + " = " + value);
        }
    }

    private String getValue(Address addr, Location.Type type) {
        if (type == Location.Type.INVALID || addr == null) {
            return "(invalid)";
        } else if (type == Location.Type.OOP) {
            return "(oop) " + getOopName(addr.getOopHandleAt(0));
        } else if (type == Location.Type.NARROWOOP) {
            return "(narrow_oop) " + getOopName(addr.getCompOopHandleAt(0));
        } else if (type == Location.Type.NORMAL) {
            return "(int) 0x" + Integer.toHexString(addr.getJIntAt(0));
        } else {
            return "(" + type + ") 0x" + Long.toHexString(addr.getJLongAt(0));
        }
    }

    private String getOopName(OopHandle hadle) {
        if (hadle == null) {
            return "null";
        }
        Oop oop = VM.getVM().getObjectHeap().newOop(hadle);
        return oop.getKlass().getName().asString();
    }

    public static void main(String[] args) throws Exception {
        new Frames().execute(args);
    }
}

To run it:

java -cp $JAVA_HOME/lib/sa-jdi.jar:. Frames PID

This will attach to Java process PID and print the stacktraces like

main, id = 30920
  # java.lang.Thread.sleep(J)V @ 0
  # Test.main([Ljava/lang/String;)V @ 15
    [0] 0x00007f075a857918 = (oop) [Ljava/lang/String;
    [1] 0x00007f075a857910 = (int) 0x1
    [2] 0x00007f075a857908 = (int) 0x0

Here main is Java thread name; 30920 is native thread ID; @ 15 is bytecode index.

The line [1] 0x00007f075a857910 = (int) 0x1 means that the local variable #1 is located at address 0x00007f075a857910 and has the value 1. This is exactly the variable you are interested in.

The local variable information is reliable for interpreted methods, but not always for compiled methods. However, compiled methods will have an extra line with an address of the code, so you can disassemble and inspect it in gdb.