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/* *******************************************************************
* Copyright (c) 2008, 2018 Contributors
* All rights reserved.
* This program and the accompanying materials are made available
* under the terms of the Eclipse Public License v1.0
* which accompanies this distribution and is available at
* http://www.eclipse.org/legal/epl-v10.html
*
* Contributors:
* Andy Clement
* ******************************************************************/
package org.aspectj.weaver.bcel.asm;
import org.aspectj.weaver.ResolvedType;
import org.aspectj.weaver.UnresolvedType;
import org.aspectj.weaver.World;
import aj.org.objectweb.asm.ClassReader;
import aj.org.objectweb.asm.ClassVisitor;
import aj.org.objectweb.asm.ClassWriter;
import aj.org.objectweb.asm.MethodVisitor;
import aj.org.objectweb.asm.Opcodes;
/**
* Uses asm to add the stack map attribute to methods in a class. The class is passed in as pure byte data and then a reader/writer
* process it. The writer is wired into the world so that types can be resolved and getCommonSuperClass() can be implemented without
* class loading using the context class loader.
*
* It is important that the constant pool is preserved here and asm does not try to remove unused entries. That is because some
* entries are refered to from classfile attributes. Asm cannot see into these attributes so does not realise the constant pool
* entries are in use. In order to ensure the copying of cp occurs, we use the variant super constructor call in AspectJConnectClassWriter
* that passes in the classreader. However, ordinarily that change causes a further optimization: that if a classreader sees
* a methodvisitor that has been created by a ClassWriter then it just copies the data across without changing it (and so it
* fails to attach the stackmapattribute). In order to avoid this further optimization we use our own minimal MethodVisitor.
*
* @author Andy Clement
*/
public class StackMapAdder {
public static byte[] addStackMaps(World world, byte[] data) {
try {
ClassReader cr = new ClassReader(data);
ClassWriter cw = new AspectJConnectClassWriter(cr, world);
ClassVisitor cv = new AspectJClassVisitor(cw);
cr.accept(cv, 0);
return cw.toByteArray();
} catch (Throwable t) {
System.err.println("AspectJ Internal Error: unable to add stackmap attributes. " + t.getMessage());
AsmDetector.isAsmAround = false;
return data;
}
}
private static class AspectJClassVisitor extends ClassVisitor {
public AspectJClassVisitor(ClassVisitor classwriter) {
super(Opcodes.ASM7, classwriter);
}
@Override
public MethodVisitor visitMethod(int access, String name, String desc, String signature, String[] exceptions) {
MethodVisitor mv = super.visitMethod(access, name, desc, signature, exceptions);
return new AJMethodVisitor(mv);
}
// Minimal pass through MethodVisitor just so that the ClassReader doesn't see one that has been directly
// created by a ClassWriter (see top level class comment)
static class AJMethodVisitor extends MethodVisitor {
public AJMethodVisitor(MethodVisitor mv) {
super(Opcodes.ASM7,mv);
}
}
}
private static class AspectJConnectClassWriter extends ClassWriter {
private final World world;
public AspectJConnectClassWriter(ClassReader cr, World w) {
super(cr, ClassWriter.COMPUTE_FRAMES); // passing in cr is necessary so cpool isnt modified (see 2.2.4 of asm doc)
this.world = w;
}
// Implementation of getCommonSuperClass() that avoids Class.forName()
@Override
protected String getCommonSuperClass(final String type1, final String type2) {
ResolvedType resolvedType1 = world.resolve(UnresolvedType.forName(type1.replace('/', '.')));
ResolvedType resolvedType2 = world.resolve(UnresolvedType.forName(type2.replace('/', '.')));
if (resolvedType1.isAssignableFrom(resolvedType2)) {
return type1;
}
if (resolvedType2.isAssignableFrom(resolvedType1)) {
return type2;
}
if (resolvedType1.isInterface() || resolvedType2.isInterface()) {
return "java/lang/Object";
} else {
do {
resolvedType1 = resolvedType1.getSuperclass();
if (resolvedType1 == null) {
// This happens if some types are missing, the getSuperclass() call on
// MissingResolvedTypeWithKnownSignature will return the Missing type which
// in turn returns a superclass of null. By returning Object here it
// should surface the cantFindType message raised in the first problematic
// getSuperclass call
return "java/lang/Object";
}
if (resolvedType1.isParameterizedOrGenericType()) {
resolvedType1 = resolvedType1.getRawType();
}
} while (!resolvedType1.isAssignableFrom(resolvedType2));
return resolvedType1.getRawName().replace('.', '/');
}
}
}
}
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