Example 1 with MemoryAccessException
use of com.ibm.dtfj.image.MemoryAccessException in project openj9 by eclipse.
the class XXCommand method doCommand.
public void doCommand(String[] args) {
Long address;
String param = args[0];
address = Utils.longFromStringWithPrefix(param);
if (null == address) {
out.println("invalid hex address specify; address must be specified as " + "\"0x<hex_address>\"");
return;
}
out.print("\n");
boolean found = false;
for (int index = 0; index < argUnitNumber; index++) {
long currAddr = address.longValue() + (index * argUnitSize);
out.print("\t");
out.print(Utils.toHex(currAddr));
out.print(": ");
ImageAddressSpace ias = ctx.getAddressSpace();
ImagePointer ip = ias.getPointer(currAddr);
byte b = 0;
short s = 0;
int i = 0;
long l = 0;
try {
switch(argUnitSize) {
case 1:
b = ip.getByteAt(0);
break;
case 2:
s = ip.getShortAt(0);
break;
case 4:
i = ip.getIntAt(0);
break;
case 8:
l = ip.getLongAt(0);
break;
}
found = true;
} catch (CorruptDataException e) {
found = false;
} catch (MemoryAccessException e) {
found = false;
}
if (found) {
switch(argUnitSize) {
case 1:
out.print(Utils.toFixedWidthHex(b));
break;
case 2:
out.print(Utils.toFixedWidthHex(s));
break;
case 4:
out.print(Utils.toFixedWidthHex(i));
break;
case 8:
out.print(Utils.toFixedWidthHex(l));
break;
}
}
out.print("\n");
}
if (!found) {
out.print("<address not found in any address space>");
}
out.print("\n");
}
Also used :
ImageAddressSpace(com.ibm.dtfj.image.ImageAddressSpace)
ImagePointer(com.ibm.dtfj.image.ImagePointer)
CorruptDataException(com.ibm.dtfj.image.CorruptDataException)
MemoryAccessException(com.ibm.dtfj.image.MemoryAccessException)
Example 2 with MemoryAccessException
use of com.ibm.dtfj.image.MemoryAccessException in project openj9 by eclipse.
the class DTFJJavaObject method getAssociatedClass.
private JavaClass getAssociatedClass() {
// Retrieve the class loader for this class for using introspection to speed up
// lookup when lots of classes are loaded by lots of class loaders.
JavaObject targetClassLoaderObject = null;
try {
JavaClass javaLangClass = this.getJavaClass();
Iterator<?> fields = javaLangClass.getDeclaredFields();
while (fields.hasNext()) {
Object o = fields.next();
if (o instanceof JavaField) {
JavaField field = (JavaField) o;
if ("classLoader".equals(field.getName())) {
targetClassLoaderObject = (JavaObject) field.get(this);
break;
}
}
}
} catch (CorruptDataException e) {
// This is only an optimisation to save us walking all class loaders. Continue
} catch (MemoryAccessException e) {
// This is only an optimisation to save us walking all class loaders. Continue
}
return getAssociatedClass(targetClassLoaderObject);
}
Also used :
JavaField(com.ibm.dtfj.java.JavaField)
JavaObject(com.ibm.dtfj.java.JavaObject)
CorruptJavaObject(com.ibm.j9ddr.vm29.view.dtfj.java.corrupt.CorruptJavaObject)
JavaClass(com.ibm.dtfj.java.JavaClass)
JavaObject(com.ibm.dtfj.java.JavaObject)
J9Object(com.ibm.j9ddr.vm29.structure.J9Object)
CorruptJavaObject(com.ibm.j9ddr.vm29.view.dtfj.java.corrupt.CorruptJavaObject)
CorruptDataException(com.ibm.dtfj.image.CorruptDataException)
MemoryAccessException(com.ibm.dtfj.image.MemoryAccessException)
Example 3 with MemoryAccessException
use of com.ibm.dtfj.image.MemoryAccessException in project openj9 by eclipse.
the class PHDJavaRuntime method findLoaders.
/**
* Helper method to try to allocate classes to the correct class loader
* There isn't an explicit mention of the loader, but an outbound reference might be to the loader.
* First find all the objects which are class loaders.
* The look at each file, see if it has a reference to a loader object and if so allocate it to
* that loader.
* @param file
* @throws IOException
*/
private void findLoaders(HeapdumpReader newreader) throws IOException {
// Where all the classes orginally have been put
final PHDJavaClassLoader boot = loaders.get(null);
// Might fail to find a class with a very corrupt dump
final JavaClass jlc = findClass("java/lang/Class");
final long jlcAddress = jlc == null || jlc.getID() == null ? 0 : jlc.getID().getAddress();
// Find all the class loader classes
final JavaClass jcl = findClass("java/lang/ClassLoader");
final HashMap<Long, JavaClass> classLoaderClasses = new HashMap<Long, JavaClass>();
for (Iterator<JavaClass> it = boot.getDefinedClasses(); it.hasNext(); ) {
JavaClass cls = it.next();
if (cls instanceof CorruptData)
continue;
try {
// Avoid bug with superclass loops by remembering superclasses
// PHD Version 4 bug - bad superclass: J2RE 5.0 IBM J9 2.3 AIX ppc64-64 build 20080314_17962_BHdSMr
HashSet<JavaClass> supers = new HashSet<JavaClass>();
for (JavaClass j1 = cls; j1 != null && supers.add(j1); j1 = j1.getSuperclass()) {
/*
* See if either a superclass is java.lang.ClassLoader
* or if no superclass information is available (old Java 5)
* whether the name ends with "ClassLoader"
*/
if (j1.equals(jcl) || cls.getSuperclass() == null && !j1.isArray() && j1.getName().endsWith("ClassLoader")) {
ImagePointer ip = cls.getID();
if (ip != null) {
classLoaderClasses.put(ip.getAddress(), cls);
}
}
}
} catch (CorruptDataException e) {
// Ignore
}
}
// Number of class objects not found at class addresses
final int[] onHeapClasses = new int[1];
// Find all the objects which are class loaders
final PHDJavaHeap heap = heaps.get(0);
final HashMap<Long, JavaObject> classObjects = new HashMap<Long, JavaObject>();
// HeapdumpReader newreader = new HeapdumpReader(file, parentImage);
final int adjustLen = newreader.version() == 4 && newreader.isJ9() ? 1 : 0;
try {
newreader.parse(new PortableHeapDumpListener() {
public void classDump(long address, long superAddress, String name, int size, int flags, int hashCode, LongEnumeration refs) throws Exception {
}
public void objectArrayDump(long address, long classAddress, int flags, int hashCode, LongEnumeration refs, int length, long instanceSize) throws Exception {
if (extraObjectsCache.containsKey(address)) {
// Don't bother saving reference information - we can get it later
JavaObject jo = new PHDJavaObject.Builder(heap, address, arrayOf(classAddress, refs, adjustLen), flags, hashCode).length(length - adjustLen).instanceSize(instanceSize).build();
extraObjectsCache.put(address, jo);
}
}
public void objectDump(long address, long classAddress, int flags, int hashCode, LongEnumeration refs, long instanceSize) throws Exception {
JavaClass cls = classLoaderClasses.get(classAddress);
JavaObject jo;
if (cls != null) {
// Object of type java.lang.ClassLoader, so create the object and the class loader
jo = new PHDJavaObject.Builder(heap, address, cls, flags, hashCode).refs(refs, 0).length(PHDJavaObject.SIMPLE_OBJECT).instanceSize(instanceSize).build();
PHDJavaClassLoader load = new PHDJavaClassLoader(jo);
loaders.put(jo, load);
} else if (classAddress == jlcAddress) {
if (boot.findClass(address) == null) {
++onHeapClasses[0];
}
jo = new PHDJavaObject.Builder(heap, address, jlc, flags, hashCode).refs(refs, 0).length(PHDJavaObject.SIMPLE_OBJECT).instanceSize(instanceSize).build();
classObjects.put(address, jo);
} else {
jo = null;
}
if (extraObjectsCache.containsKey(address)) {
if (jo == null) {
jo = new PHDJavaObject.Builder(heap, address, findClass(classAddress), flags, hashCode).refs(refs, 0).length(PHDJavaObject.SIMPLE_OBJECT).build();
}
extraObjectsCache.put(address, jo);
}
}
public void primitiveArrayDump(long address, int type, int length, int flags, int hashCode, long instanceSize) throws Exception {
if (extraObjectsCache.containsKey(address)) {
// Create a full object as we have the data
JavaObject jo = new PHDJavaObject.Builder(heap, address, findArrayOfType(type), flags, hashCode).refsAsArray(NOREFS, 0).length(length).instanceSize(instanceSize).build();
extraObjectsCache.put(address, jo);
}
}
});
} catch (Exception e) {
// Ignore the exception - we will have seen it elsewhere
// e.printStackTrace();
} finally {
newreader.close();
newreader = null;
}
// Assign classes to the correct loaders
// Also try to set up on/off-heap class addresses
PHDJavaClassLoader boot2 = null;
int foundLoader = 0;
int notFoundLoader = 0;
// How many java/lang classes the possible boot loader has loaded
int loaderJavaLangCount = 0;
boolean useFirstObjectRefAsLoader = onHeapClasses[0] == 0;
for (Iterator<JavaClass> it = boot.getDefinedClasses(); it.hasNext(); ) {
JavaClass j1 = it.next();
PHDJavaClassLoader bestLoader = null;
for (Iterator<JavaReference> it2 = j1.getReferences(); it2.hasNext(); ) {
JavaReference jr = it2.next();
try {
// Is the first outbound object reference to a class loader?
if (jr.isObjectReference()) {
JavaObject jo = (JavaObject) jr.getTarget();
PHDJavaClassLoader newLoader = loaders.get(jo);
if (newLoader != null) {
if (bestLoader == null || !useFirstObjectRefAsLoader) {
bestLoader = newLoader;
}
} else if (onHeapClasses[0] > 0) {
long addr = jo.getID().getAddress();
JavaObject jo2 = classObjects.get(addr);
if (jo2 != null) {
// For Java 6 jdmpview PHD files the on-heap class object is the last ref
// retrieve the full JavaObject from walking the heap earlier
((PHDJavaClass) j1).setJavaObject(jo2);
}
}
// unless using off-heap classes when it is the last reference.
if (!j1.isArray() && useFirstObjectRefAsLoader && onHeapClasses[0] == 0)
break;
}
} catch (CorruptDataException e) {
// e.printStackTrace();
} catch (DataUnavailable e) {
// e.printStackTrace();
}
}
if (bestLoader != null) {
++foundLoader;
// Don't remove the classes from the original loader, nor change the loader
// as otherwise finding the array type fails
bestLoader.prepareToMove(boot, j1);
// Is the class by any chance the type of the class loader?
try {
if (boot2 == null && (j1.equals(jlc) || j1.equals(bestLoader.getObject().getJavaClass()))) {
// We have found the new bootstrap class loader
// Beware java 1.4.2 com/ibm/rmi/util/ClassInfo$NULL_CL_CLASS passes this test!
boot2 = bestLoader;
}
if (boot2 == bestLoader && j1.getName().startsWith("java/lang/"))
++loaderJavaLangCount;
} catch (CorruptDataException e) {
}
} else {
++notFoundLoader;
}
// Try retrieving the full JavaObject for the JavaClass
try {
JavaObject jo = j1.getObject();
if (jo != null) {
long addr = jo.getID().getAddress();
JavaObject jo2 = classObjects.get(addr);
if (jo2 != null) {
((PHDJavaClass) j1).setJavaObject(jo2);
}
}
} catch (CorruptDataException e) {
}
}
// Ignore a bootstrap loader which hasn't loaded 5 java/lang classes
if (loaderJavaLangCount < 5)
boot2 = null;
// Haven't found any loaders, but have a javacore file with loader information
if (metaJavaRuntime != null) {
for (Iterator i = metaJavaRuntime.getJavaClassLoaders(); i.hasNext(); ) {
Object next = i.next();
if (next instanceof CorruptData)
continue;
JavaClassLoader jcl2 = (JavaClassLoader) next;
try {
JavaObject lo = jcl2.getObject();
if (lo != null) {
ImagePointer addr = lo.getID();
if (addr != null) {
ImagePointer ip = space.getPointer(addr.getAddress());
JavaObject jo = getObjectAtAddress(ip);
PHDJavaClassLoader newLoader = loaders.get(jo);
JavaClass loaderClass;
if (newLoader == null) {
try {
// Should be safe to find the class of 'jo' without rereading the PHD file
// as at least a dummy object should be in the extra objects cache.
// It could be that the object is still a dummy one with no proper class.
loaderClass = jo.getJavaClass();
} catch (CorruptDataException e) {
loaderClass = null;
}
JavaClass javacoreLoaderClass;
try {
javacoreLoaderClass = lo.getJavaClass();
} catch (CorruptDataException e) {
javacoreLoaderClass = null;
}
// Mismatch occurs with J2RE 5.0 IBM J9 2.3 Linux amd64-64 build j9vmxa6423-20091104
if (loaderClass != null && javacoreLoaderClass != null && (loaderClass.isArray() || loaderClass.getID() != null && javacoreLoaderClass.getID() != null && loaderClass.getID().getAddress() != javacoreLoaderClass.getID().getAddress())) {
// System.out.println("Skipping loader "+newLoader+" "+jo+" "+jo.getJavaClass()+" "+lo+" "+lo.getJavaClass()+" "+Long.toHexString(addr.getAddress())+" "+ip);
} else {
// The object should have been listed in the extra objects, so may now be the proper object
newLoader = new PHDJavaClassLoader(jo);
loaders.put(jo, newLoader);
}
} else {
// Replace with the offical object
jo = newLoader.getObject();
loaderClass = jo.getJavaClass();
}
if (newLoader != null) {
for (Iterator i2 = jcl2.getDefinedClasses(); i2.hasNext(); ) {
Object next2 = i2.next();
if (next2 instanceof CorruptData)
continue;
JavaClass jc2 = (JavaClass) next2;
ImagePointer ip2 = jc2.getID();
JavaClass j1;
if (ip2 != null) {
long claddr = ip2.getAddress();
j1 = boot.findClass(claddr);
// Not found by address, so try by name.
if (j1 == null) {
// But only if it is the only class of that name
j1 = boot.findClassUnique(jc2.getName());
} else {
// Found by address
try {
j1.getName();
} catch (CorruptDataException e) {
// Our class doesn't have a name, so perhaps the javacore has the name
try {
String actualName = jc2.getName();
PHDJavaClass pj1 = (PHDJavaClass) j1;
// We will need to reindex the classloader as the name as changed
pj1.setName(actualName);
} catch (CorruptDataException e2) {
}
}
}
} else {
// But only if it is the only class of that name
j1 = boot.findClassUnique(jc2.getName());
}
if (j1 != null) {
newLoader.prepareToMove(boot, j1);
// listed in javacore causes problems as byte etc. aren't listed
if (j1.equals(loaderClass) || j1.equals(jlc)) {
// We have found the new bootstrap class loader
boot2 = newLoader;
}
for (Iterator i3 = jc2.getDeclaredMethods(); i3.hasNext(); ) {
Object next3 = i3.next();
if (next3 instanceof CorruptData)
continue;
JavaMethod jm = (JavaMethod) next3;
PHDJavaClass pj1 = (PHDJavaClass) j1;
pj1.addMethod(new PHDJavaMethod(space, pj1, jm));
}
}
}
}
}
}
} catch (CorruptDataException e) {
} catch (DataUnavailable e) {
} catch (MemoryAccessException e) {
}
}
}
// Move the classes to the correct class loaders
for (Iterator<JavaClass> it = boot.getDefinedClasses(); it.hasNext(); ) {
JavaClass j1 = it.next();
try {
JavaClassLoader jcl2 = j1.getClassLoader();
if (!boot.equals(jcl2) && jcl2 instanceof PHDJavaClassLoader) {
transferClass(boot, (PHDJavaClassLoader) jcl2, j1);
}
} catch (CorruptDataException e) {
}
}
// Reindex the loaders to account for the removed classes
for (PHDJavaClassLoader loader : loaders.values()) {
loader.initCache();
}
if (boot2 != null) {
// Move remaining classes to new boot loader
for (Iterator<JavaClass> it = boot.getDefinedClasses(); it.hasNext(); ) {
JavaClass j1 = it.next();
boot2.prepareToMove(boot, j1);
transferClass(boot, boot2, j1);
}
// index the new boot loader to account for the added files
boot2.initCache();
// Remove the original boot class loader as it has no classes
loaders.remove(null);
} else {
// There may be duplicate array classes in the boot loader
for (Iterator<JavaClass> it = boot.getDefinedClasses(); it.hasNext(); ) {
JavaClass j1 = it.next();
JavaClass j2 = boot.setArrayType(this, boot, j1);
}
// index the boot loader to account for the added files
boot.initCache();
}
}
Also used :
PortableHeapDumpListener(com.ibm.dtfj.phd.parser.PortableHeapDumpListener)
HashMap(java.util.HashMap)
LinkedHashMap(java.util.LinkedHashMap)
CorruptDataException(com.ibm.dtfj.image.CorruptDataException)
ImagePointer(com.ibm.dtfj.image.ImagePointer)
JavaReference(com.ibm.dtfj.java.JavaReference)
LongEnumeration(com.ibm.dtfj.phd.util.LongEnumeration)
Iterator(java.util.Iterator)
DataUnavailable(com.ibm.dtfj.image.DataUnavailable)
JavaMethod(com.ibm.dtfj.java.JavaMethod)
MemoryAccessException(com.ibm.dtfj.image.MemoryAccessException)
HashSet(java.util.HashSet)
MemoryAccessException(com.ibm.dtfj.image.MemoryAccessException)
IOException(java.io.IOException)
CorruptDataException(com.ibm.dtfj.image.CorruptDataException)
JavaClass(com.ibm.dtfj.java.JavaClass)
JavaObject(com.ibm.dtfj.java.JavaObject)
JavaClassLoader(com.ibm.dtfj.java.JavaClassLoader)
CorruptData(com.ibm.dtfj.image.CorruptData)
JavaObject(com.ibm.dtfj.java.JavaObject)
Example 4 with MemoryAccessException
use of com.ibm.dtfj.image.MemoryAccessException in project openj9 by eclipse.
the class InfoThreadCommand method printThreadBlocker.
private void printThreadBlocker(JavaThread jt) {
try {
if ((jt.getState() & JavaThread.STATE_PARKED) != 0) {
out.print(" parked on: ");
// java.util.concurrent locks
if (jt.getBlockingObject() == null) {
out.print("<unknown>");
} else {
JavaObject jo = jt.getBlockingObject();
String lockID = Long.toHexString(jo.getID().getAddress());
out.print(jo.getJavaClass().getName() + "@0x" + lockID);
String ownerThreadName = "<unknown>";
String ownerThreadID = "<null>";
out.print(" owner name: ");
JavaThread lockOwnerThread = Utils.getParkBlockerOwner(jo, ctx.getRuntime());
if (lockOwnerThread != null) {
ownerThreadName = lockOwnerThread.getName();
if (lockOwnerThread.getImageThread() != null) {
ownerThreadID = lockOwnerThread.getImageThread().getID();
}
} else {
// If the owning thread has ended we won't find the JavaThread
// We can still get the owning thread name from the java.lang.Thread object itself.
// We won't get a thread id.
JavaObject lockOwnerObj = Utils.getParkBlockerOwnerObject(jo, ctx.getRuntime());
if (lockOwnerObj != null) {
ownerThreadName = Utils.getThreadNameFromObject(lockOwnerObj, ctx.getRuntime(), out);
}
}
out.print("\"" + ownerThreadName + "\"");
out.print(" owner id: " + ownerThreadID);
}
out.print("\n");
} else if ((jt.getState() & JavaThread.STATE_IN_OBJECT_WAIT) != 0) {
out.print(" waiting to be notified on: ");
} else if ((jt.getState() & JavaThread.STATE_BLOCKED_ON_MONITOR_ENTER) != 0) {
out.print(" waiting to enter: ");
}
if ((jt.getState() & JavaThread.STATE_IN_OBJECT_WAIT) != 0 || (jt.getState() & JavaThread.STATE_BLOCKED_ON_MONITOR_ENTER) != 0) {
// java monitors
MonitorState ms = (MonitorState) monitors.get(jt);
if (ms == null) {
out.println("<monitor information not available>");
} else {
JavaObject jo = ms.getMonitor().getObject();
if (null == jo) {
// working with a raw monitor
String name = ms.getMonitor().getName();
if (name.equals("")) {
name = "<unnamed>";
}
out.print("\"" + name + "\"");
out.print(" with ID ");
out.print(Utils.toHex(ms.getMonitor().getID().getAddress()));
} else {
// working with a Java monitor
String lockID = Long.toHexString(jo.getID().getAddress());
out.print(jo.getJavaClass().getName() + "@0x" + lockID);
}
out.print(" owner name: ");
if (ms.getMonitor().getOwner() != null) {
out.print("\"" + ms.getMonitor().getOwner().getName() + "\"");
if (ms.getMonitor().getOwner().getImageThread() != null) {
out.print(" owner id: " + ms.getMonitor().getOwner().getImageThread().getID());
}
} else {
out.print("<unowned>");
}
out.print("\n");
}
}
} catch (CorruptDataException cde) {
out.print(Exceptions.getCorruptDataExceptionString());
logger.log(Level.FINEST, Exceptions.getCorruptDataExceptionString(), cde);
} catch (DataUnavailable e) {
out.print(Exceptions.getDataUnavailableString());
logger.log(Level.FINEST, Exceptions.getDataUnavailableString(), e);
} catch (MemoryAccessException e) {
out.print(Exceptions.getMemoryAccessExceptionString());
logger.log(Level.FINEST, Exceptions.getMemoryAccessExceptionString(), e);
}
}
Also used :
MonitorState(com.ibm.jvm.dtfjview.commands.helpers.MonitorState)
JavaObject(com.ibm.dtfj.java.JavaObject)
JavaThread(com.ibm.dtfj.java.JavaThread)
DataUnavailable(com.ibm.dtfj.image.DataUnavailable)
StateToString(com.ibm.jvm.dtfjview.commands.helpers.StateToString)
CorruptDataException(com.ibm.dtfj.image.CorruptDataException)
MemoryAccessException(com.ibm.dtfj.image.MemoryAccessException)
Example 5 with MemoryAccessException
use of com.ibm.dtfj.image.MemoryAccessException in project openj9 by eclipse.
the class Utils method getStringVal.
private static String getStringVal(JavaObject jo) {
JavaClass jc;
try {
jc = jo.getJavaClass();
} catch (CorruptDataException e) {
return "<cannot get String class from String object (" + Exceptions.getCorruptDataExceptionString() + ")>";
}
Iterator itJavaField = jc.getDeclaredFields();
JavaField jf = null;
while (itJavaField.hasNext()) {
jf = (JavaField) itJavaField.next();
try {
if (jf.getSignature().equals("[C") && !Modifier.isStatic(jf.getModifiers()))
break;
} catch (CorruptDataException e) {
// if we have an exception, do nothing and go onto the next field
}
}
if (jf == null) {
// empty field iterator (occurs e.g. when reading PHD heapdumps), can't get the char array
return "<cannot get char array out of String>";
}
JavaObject charArray = null;
try {
charArray = (JavaObject) jf.get(jo);
} catch (CorruptDataException e) {
return "<cannot get char array out of String (" + Exceptions.getCorruptDataExceptionString() + ")>";
} catch (MemoryAccessException e) {
return "<cannot get char array out of String (" + Exceptions.getMemoryAccessExceptionString() + ")>";
}
int arraySize;
try {
arraySize = charArray.getArraySize();
} catch (CorruptDataException e) {
return "<cannot determine the size of the array (" + Exceptions.getCorruptDataExceptionString() + ")>";
}
char[] dst = new char[arraySize];
try {
charArray.arraycopy(0, dst, 0, arraySize);
} catch (CorruptDataException e) {
return "<cannot copy data from the array (" + Exceptions.getCorruptDataExceptionString() + ")>";
} catch (MemoryAccessException e) {
return "<cannot copy data from the array (" + Exceptions.getMemoryAccessExceptionString() + ")>";
}
return "\"" + Utils.getPrintable(new String(dst)) + "\"";
}
Also used :
JavaField(com.ibm.dtfj.java.JavaField)
JavaClass(com.ibm.dtfj.java.JavaClass)
JavaObject(com.ibm.dtfj.java.JavaObject)
Iterator(java.util.Iterator)
CorruptDataException(com.ibm.dtfj.image.CorruptDataException)
MemoryAccessException(com.ibm.dtfj.image.MemoryAccessException)
Aggregations
MemoryAccessException (com.ibm.dtfj.image.MemoryAccessException)25
CorruptDataException (com.ibm.dtfj.image.CorruptDataException)24
JavaObject (com.ibm.dtfj.java.JavaObject)13
ImagePointer (com.ibm.dtfj.image.ImagePointer)11
CorruptData (com.ibm.dtfj.image.j9.CorruptData)9
JavaClass (com.ibm.dtfj.java.JavaClass)9
DataUnavailable (com.ibm.dtfj.image.DataUnavailable)8
Iterator (java.util.Iterator)8
ImageAddressSpace (com.ibm.dtfj.image.ImageAddressSpace)4
JavaThread (com.ibm.dtfj.java.JavaThread)4
JavaField (com.ibm.dtfj.java.JavaField)3
ArrayList (java.util.ArrayList)3
List (java.util.List)3
Vector (java.util.Vector)3
CorruptData (com.ibm.dtfj.image.CorruptData)2
ImageThread (com.ibm.dtfj.image.ImageThread)2
JavaRuntime (com.ibm.dtfj.java.JavaRuntime)2
HashMap (java.util.HashMap)2
JavaClassLoader (com.ibm.dtfj.java.JavaClassLoader)1
JavaMethod (com.ibm.dtfj.java.JavaMethod)1
