/* * Copyright (c) 1997, 2015, 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. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * 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. */ /* * The Original Code is HAT. The Initial Developer of the * Original Code is Bill Foote, with contributions from others * at JavaSoft/Sun. */ package jdk.test.lib.hprof.model; import java.util.Vector; import java.util.Enumeration; import jdk.test.lib.hprof.util.CompositeEnumeration; import jdk.test.lib.hprof.parser.ReadBuffer; /** * * @author Bill Foote */ public class JavaClass extends JavaHeapObject { // my id private long id; // my name private String name; // These are JavaObjectRef before resolve private JavaThing superclass; private JavaThing loader; private JavaThing signers; private JavaThing protectionDomain; // non-static fields private JavaField[] fields; // static fields private JavaStatic[] statics; private static final JavaClass[] EMPTY_CLASS_ARRAY = new JavaClass[0]; // my subclasses private JavaClass[] subclasses = EMPTY_CLASS_ARRAY; // my instances private Vector instances = new Vector(); // Who I belong to. Set on resolve. private Snapshot mySnapshot; // Size of an instance, including VM overhead private int instanceSize; // Total number of fields including inherited ones private int totalNumFields; public JavaClass(long id, String name, long superclassId, long loaderId, long signersId, long protDomainId, JavaField[] fields, JavaStatic[] statics, int instanceSize) { this.id = id; this.name = name; this.superclass = new JavaObjectRef(superclassId); this.loader = new JavaObjectRef(loaderId); this.signers = new JavaObjectRef(signersId); this.protectionDomain = new JavaObjectRef(protDomainId); this.fields = fields; this.statics = statics; this.instanceSize = instanceSize; } public JavaClass(String name, long superclassId, long loaderId, long signersId, long protDomainId, JavaField[] fields, JavaStatic[] statics, int instanceSize) { this(-1L, name, superclassId, loaderId, signersId, protDomainId, fields, statics, instanceSize); } public final JavaClass getClazz() { return mySnapshot.getJavaLangClass(); } public final int getIdentifierSize() { return mySnapshot.getIdentifierSize(); } public final int getMinimumObjectSize() { return mySnapshot.getMinimumObjectSize(); } public void resolve(Snapshot snapshot) { if (mySnapshot != null) { return; } mySnapshot = snapshot; resolveSuperclass(snapshot); if (superclass != null) { ((JavaClass) superclass).addSubclass(this); } loader = loader.dereference(snapshot, null); signers = signers.dereference(snapshot, null); protectionDomain = protectionDomain.dereference(snapshot, null); for (int i = 0; i < statics.length; i++) { statics[i].resolve(this, snapshot); } snapshot.getJavaLangClass().addInstance(this); super.resolve(snapshot); return; } /** * Resolve our superclass. This might be called well before * all instances are available (like when reading deferred * instances in a 1.2 dump file :-) Calling this is sufficient * to be able to explore this class' fields. */ public void resolveSuperclass(Snapshot snapshot) { if (superclass == null) { // We must be java.lang.Object, so we have no superclass. } else { totalNumFields = fields.length; superclass = superclass.dereference(snapshot, null); if (superclass == snapshot.getNullThing()) { superclass = null; } else { try { JavaClass sc = (JavaClass) superclass; sc.resolveSuperclass(snapshot); totalNumFields += sc.totalNumFields; } catch (ClassCastException ex) { System.out.println("Warning! Superclass of " + name + " is " + superclass); superclass = null; } } } } public boolean isString() { return mySnapshot.getJavaLangString() == this; } public boolean isClassLoader() { return mySnapshot.getJavaLangClassLoader().isAssignableFrom(this); } /** * Get a numbered field from this class */ public JavaField getField(int i) { if (i < 0 || i >= fields.length) { throw new Error("No field " + i + " for " + name); } return fields[i]; } /** * Get the total number of fields that are part of an instance of * this class. That is, include superclasses. */ public int getNumFieldsForInstance() { return totalNumFields; } /** * Get a numbered field from all the fields that are part of instance * of this class. That is, include superclasses. */ public JavaField getFieldForInstance(int i) { if (superclass != null) { JavaClass sc = (JavaClass) superclass; if (i < sc.totalNumFields) { return sc.getFieldForInstance(i); } i -= sc.totalNumFields; } return getField(i); } /** * Get the class responsible for field i, where i is a field number that * could be passed into getFieldForInstance. * * @see JavaClass.getFieldForInstance() */ public JavaClass getClassForField(int i) { if (superclass != null) { JavaClass sc = (JavaClass) superclass; if (i < sc.totalNumFields) { return sc.getClassForField(i); } } return this; } public long getId() { return id; } public String getName() { return name; } public boolean isArray() { return name.indexOf('[') != -1; } public Enumeration getInstances(boolean includeSubclasses) { if (includeSubclasses) { Enumeration res = instances.elements(); for (int i = 0; i < subclasses.length; i++) { res = new CompositeEnumeration(res, subclasses[i].getInstances(true)); } return res; } else { return instances.elements(); } } /** * @return a count of the instances of this class */ public int getInstancesCount(boolean includeSubclasses) { int result = instances.size(); if (includeSubclasses) { for (int i = 0; i < subclasses.length; i++) { result += subclasses[i].getInstancesCount(includeSubclasses); } } return result; } public JavaClass[] getSubclasses() { return subclasses; } /** * This can only safely be called after resolve() */ public JavaClass getSuperclass() { return (JavaClass) superclass; } /** * This can only safely be called after resolve() */ public JavaThing getLoader() { return loader; } /** * This can only safely be called after resolve() */ public boolean isBootstrap() { return loader == mySnapshot.getNullThing(); } /** * This can only safely be called after resolve() */ public JavaThing getSigners() { return signers; } /** * This can only safely be called after resolve() */ public JavaThing getProtectionDomain() { return protectionDomain; } public JavaField[] getFields() { return fields; } /** * Includes superclass fields */ public JavaField[] getFieldsForInstance() { Vector v = new Vector(); addFields(v); JavaField[] result = new JavaField[v.size()]; for (int i = 0; i < v.size(); i++) { result[i] = v.elementAt(i); } return result; } public JavaStatic[] getStatics() { return statics; } // returns value of static field of given name public JavaThing getStaticField(String name) { for (int i = 0; i < statics.length; i++) { JavaStatic s = statics[i]; if (s.getField().getName().equals(name)) { return s.getValue(); } } return null; } public String toString() { return "class " + name; } public int compareTo(JavaThing other) { if (other instanceof JavaClass) { return name.compareTo(((JavaClass) other).name); } return super.compareTo(other); } /** * @return true iff a variable of type this is assignable from an instance * of other */ public boolean isAssignableFrom(JavaClass other) { if (this == other) { return true; } else if (other == null) { return false; } else { return isAssignableFrom((JavaClass) other.superclass); // Trivial tail recursion: I have faith in javac. } } /** * Describe the reference that this thing has to target. This will only * be called if target is in the array returned by getChildrenForRootset. */ public String describeReferenceTo(JavaThing target, Snapshot ss) { for (int i = 0; i < statics.length; i++) { JavaField f = statics[i].getField(); if (f.hasId()) { JavaThing other = statics[i].getValue(); if (other == target) { return "static field " + f.getName(); } } } return super.describeReferenceTo(target, ss); } /** * @return the size of an instance of this class. Gives 0 for an array * type. */ public int getInstanceSize() { return instanceSize + mySnapshot.getMinimumObjectSize(); } /** * @return The size of all instances of this class. Correctly handles * arrays. */ public long getTotalInstanceSize() { int count = instances.size(); if (count == 0 || !isArray()) { return count * instanceSize; } // array class and non-zero count, we have to // get the size of each instance and sum it long result = 0; for (int i = 0; i < count; i++) { JavaThing t = (JavaThing) instances.elementAt(i); result += t.getSize(); } return result; } /** * @return the size of this object */ public int getSize() { JavaClass cl = mySnapshot.getJavaLangClass(); if (cl == null) { return 0; } else { return cl.getInstanceSize(); } } public void visitReferencedObjects(JavaHeapObjectVisitor v) { super.visitReferencedObjects(v); JavaHeapObject sc = getSuperclass(); if (sc != null) v.visit(getSuperclass()); JavaThing other; other = getLoader(); if (other instanceof JavaHeapObject) { v.visit((JavaHeapObject)other); } other = getSigners(); if (other instanceof JavaHeapObject) { v.visit((JavaHeapObject)other); } other = getProtectionDomain(); if (other instanceof JavaHeapObject) { v.visit((JavaHeapObject)other); } for (int i = 0; i < statics.length; i++) { JavaField f = statics[i].getField(); if (!v.exclude(this, f) && f.hasId()) { other = statics[i].getValue(); if (other instanceof JavaHeapObject) { v.visit((JavaHeapObject) other); } } } } // package-privates below this point final ReadBuffer getReadBuffer() { return mySnapshot.getReadBuffer(); } final void setNew(JavaHeapObject obj, boolean flag) { mySnapshot.setNew(obj, flag); } final boolean isNew(JavaHeapObject obj) { return mySnapshot.isNew(obj); } final StackTrace getSiteTrace(JavaHeapObject obj) { return mySnapshot.getSiteTrace(obj); } final void addReferenceFromRoot(Root root, JavaHeapObject obj) { mySnapshot.addReferenceFromRoot(root, obj); } final Root getRoot(JavaHeapObject obj) { return mySnapshot.getRoot(obj); } final Snapshot getSnapshot() { return mySnapshot; } void addInstance(JavaHeapObject inst) { instances.addElement(inst); } // Internals only below this point private void addFields(Vector v) { if (superclass != null) { ((JavaClass) superclass).addFields(v); } for (int i = 0; i < fields.length; i++) { v.addElement(fields[i]); } } private void addSubclassInstances(Vector v) { for (int i = 0; i < subclasses.length; i++) { subclasses[i].addSubclassInstances(v); } for (int i = 0; i < instances.size(); i++) { v.addElement(instances.elementAt(i)); } } private void addSubclass(JavaClass sub) { JavaClass newValue[] = new JavaClass[subclasses.length + 1]; System.arraycopy(subclasses, 0, newValue, 0, subclasses.length); newValue[subclasses.length] = sub; subclasses = newValue; } }