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The AspectJ weaver applies aspects to Java classes. It can be used as a Java agent in order to apply load-time
weaving (LTW) during class-loading and also contains the AspectJ runtime classes.
/* *******************************************************************
* Copyright (c) 2005-2008 Contributors
* All rights reserved.
* This program and the accompanying materials are made available
* under the terms of the Eclipse Public License v 2.0
* which accompanies this distribution and is available at
* https://www.eclipse.org/org/documents/epl-2.0/EPL-2.0.txt
*
* Contributors:
* Andy Clement initial implementation
* ******************************************************************/
package org.aspectj.weaver.bcel;
import org.aspectj.apache.bcel.Constants;
import org.aspectj.apache.bcel.classfile.Field;
import org.aspectj.apache.bcel.generic.Instruction;
import org.aspectj.apache.bcel.generic.InstructionBranch;
import org.aspectj.apache.bcel.generic.InstructionConstants;
import org.aspectj.apache.bcel.generic.InstructionFactory;
import org.aspectj.apache.bcel.generic.InstructionHandle;
import org.aspectj.apache.bcel.generic.InstructionList;
import org.aspectj.apache.bcel.generic.ObjectType;
import org.aspectj.apache.bcel.generic.Type;
import org.aspectj.weaver.Member;
import org.aspectj.weaver.ResolvedType;
import org.aspectj.weaver.Shadow;
import org.aspectj.weaver.Shadow.Kind;
import org.aspectj.weaver.UnresolvedType;
import org.aspectj.weaver.ast.Var;
/**
* Represents access to an annotation on an element, relating to some kinded pointcut. Depending on the kind of pointcut the element
* might be a field or a method and the code generators in here can retrieve the annotation from the element.
*/
public class AnnotationAccessVar extends BcelVar {
private BcelShadow shadow;
private Kind kind; // What kind of shadow are we at?
private UnresolvedType containingType; // The type upon which we want to ask for 'member'
private Member member; // Holds the member that has the annotations (for method/field join points)
private boolean isWithin; // implies @within() or @withincode(). If false, that implies @annotation()
public AnnotationAccessVar(BcelShadow shadow, Kind kind, ResolvedType annotationType, UnresolvedType theTargetIsStoredHere,
Member sig, boolean isWithin) {
super(annotationType, 0);
this.shadow = shadow;
this.kind = kind;
this.containingType = theTargetIsStoredHere;
this.member = sig;
this.isWithin = isWithin;
}
public Kind getKind() {
return kind;
}
@Override
public String toString() {
return "AnnotationAccessVar(" + getType() + ")";
}
@Override
public Instruction createLoad(InstructionFactory fact) {
throw new IllegalStateException("unimplemented");
}
@Override
public Instruction createStore(InstructionFactory fact) {
throw new IllegalStateException("unimplemented");
}
@Override
public InstructionList createCopyFrom(InstructionFactory fact, int oldSlot) {
throw new IllegalStateException("unimplemented");
}
@Override
public void appendLoad(InstructionList il, InstructionFactory fact) {
il.append(createLoadInstructions(getType(), fact));
}
@Override
public void appendLoadAndConvert(InstructionList il, InstructionFactory fact, ResolvedType toType) {
il.append(createLoadInstructions(toType, fact));
}
@Override
public void insertLoad(InstructionList il, InstructionFactory fact) {
il.insert(createLoadInstructions(getType(), fact));
}
private InstructionList createLoadInstructions(ResolvedType toType, InstructionFactory fact) {
InstructionList il = new InstructionList();
Type jlClass = BcelWorld.makeBcelType(UnresolvedType.JL_CLASS);
Type jlString = BcelWorld.makeBcelType(UnresolvedType.JL_STRING);
Type jlClassArray = BcelWorld.makeBcelType(UnresolvedType.JAVA_LANG_CLASS_ARRAY);
Type jlaAnnotation = BcelWorld.makeBcelType(UnresolvedType.JAVA_LANG_ANNOTATION);
Instruction pushConstant = fact.createConstant(new ObjectType(toType.getName()));
if (kind == Shadow.MethodCall || kind == Shadow.MethodExecution || kind == Shadow.PreInitialization
|| kind == Shadow.Initialization || kind == Shadow.ConstructorCall || kind == Shadow.ConstructorExecution
|| kind == Shadow.AdviceExecution ||
// annotations for fieldset/fieldget when an ITD is involved are stored against a METHOD
((kind == Shadow.FieldGet || kind == Shadow.FieldSet) && member.getKind() == Member.METHOD)) {
Type jlrMethod = BcelWorld.makeBcelType(UnresolvedType.forSignature("Ljava/lang/reflect/Method;"));
Type jlAnnotation = BcelWorld.makeBcelType(UnresolvedType.forSignature("Ljava/lang/annotation/Annotation;"));
Type[] paramTypes = BcelWorld.makeBcelTypes(member.getParameterTypes());
// il.append(fact.createConstant(BcelWorld.makeBcelType(containingType)));
if (kind == Shadow.MethodCall
|| kind == Shadow.MethodExecution
|| kind == Shadow.AdviceExecution
||
// annotations for fieldset/fieldget when an ITD is involved are stored against a METHOD
((kind == Shadow.FieldGet || kind == Shadow.FieldSet) && member.getKind() == Member.METHOD)
|| ((kind == Shadow.ConstructorCall || kind == Shadow.ConstructorExecution) && member.getKind() == Member.METHOD)) {
// Need to look at the cached annotation before going to fetch it again
Field annotationCachingField = shadow.getEnclosingClass().getAnnotationCachingField(shadow, toType, isWithin);
// Basic idea here is to check if the cached field is null, if it is then initialize it, otherwise use it
il.append(fact.createGetStatic(shadow.getEnclosingClass().getName(), annotationCachingField.getName(), jlAnnotation));
il.append(InstructionConstants.DUP);
InstructionBranch ifNonNull = InstructionFactory.createBranchInstruction(Constants.IFNONNULL, null);
il.append(ifNonNull);
il.append(InstructionConstants.POP);
il.append(fact.createConstant(BcelWorld.makeBcelType(containingType)));
il.append(fact.createConstant(member.getName()));
buildArray(il, fact, jlClass, paramTypes, 1);
// OPTIMIZE cache result of getDeclaredMethod?
il.append(fact.createInvoke("java/lang/Class", "getDeclaredMethod", jlrMethod,
new Type[] { jlString, jlClassArray }, Constants.INVOKEVIRTUAL));
il.append(pushConstant);// fact.createConstant(new ObjectType(toType.getName())));
il.append(fact.createInvoke("java/lang/reflect/Method", "getAnnotation", jlaAnnotation, new Type[] { jlClass },
Constants.INVOKEVIRTUAL));
il.append(InstructionConstants.DUP);
il.append(fact.createPutStatic(shadow.getEnclosingClass().getName(), annotationCachingField.getName(), jlAnnotation));
InstructionHandle ifNullElse = il.append(InstructionConstants.NOP);
ifNonNull.setTarget(ifNullElse);
} else { // init/preinit/ctor-call/ctor-exec
il.append(fact.createConstant(BcelWorld.makeBcelType(containingType)));
buildArray(il, fact, jlClass, paramTypes, 1);
Type jlrCtor = BcelWorld.makeBcelType(UnresolvedType.JAVA_LANG_REFLECT_CONSTRUCTOR);
// OPTIMIZE cache result of getDeclaredConstructor and getAnnotation? Might be able to use it again if someone else
// needs the same annotations?
il.append(fact.createInvoke("java/lang/Class", "getDeclaredConstructor", jlrCtor, new Type[] { jlClassArray },
Constants.INVOKEVIRTUAL));
il.append(pushConstant);
il.append(fact.createInvoke("java/lang/reflect/Constructor", "getAnnotation", jlaAnnotation,
new Type[] { jlClass }, Constants.INVOKEVIRTUAL));
}
} else if (kind == Shadow.FieldSet || kind == Shadow.FieldGet) {
generateBytecodeToAccessAnnotationAtFieldGetSetShadow(toType, fact, il, pushConstant);
} else if (kind == Shadow.StaticInitialization || kind == Shadow.ExceptionHandler) {
il.append(fact.createConstant(BcelWorld.makeBcelType(containingType)));
il.append(pushConstant);
il.append(fact.createInvoke("java/lang/Class", "getAnnotation", jlaAnnotation, new Type[] { jlClass },
Constants.INVOKEVIRTUAL));
} else {
throw new RuntimeException("Don't understand this kind " + kind);
}
il.append(Utility.createConversion(fact, jlaAnnotation, BcelWorld.makeBcelType(toType)));
return il;
}
/**
* At a FieldGet or FieldSet shadow, generate the bytecode to access the annotation for that field. The annotation is cached so
* the code checks that cached value before proceeding.
*/
private void generateBytecodeToAccessAnnotationAtFieldGetSetShadow(ResolvedType toType, InstructionFactory fact,
InstructionList il, Instruction pushConstantAnnotationType) {
Type jlClass = BcelWorld.makeBcelType(UnresolvedType.JL_CLASS);
Type jlString = BcelWorld.makeBcelType(UnresolvedType.JL_STRING);
Type jlaAnnotation = BcelWorld.makeBcelType(UnresolvedType.JAVA_LANG_ANNOTATION);
Type jlrField = BcelWorld.makeBcelType(UnresolvedType.JAVA_LANG_REFLECT_FIELD);
LazyClassGen shadowEnclosingClass = shadow.getEnclosingClass();
// The annotation for the field of interest is cached, check cached value before fetching it
Field annotationCachingField = shadowEnclosingClass.getAnnotationCachingField(shadow, toType, isWithin);
String annotationCachingFieldName = annotationCachingField.getName();
// Basic idea here is to check if the cached field is null, if it is then initialize it, otherwise use it
il.append(fact.createGetStatic(shadowEnclosingClass.getName(), annotationCachingFieldName, jlaAnnotation));
il.appendDUP();
InstructionBranch ifNonNull = new InstructionBranch(Constants.IFNONNULL, null);
il.append(ifNonNull);
il.appendPOP();
// get the field of interest
il.append(fact.createConstant(BcelWorld.makeBcelType(containingType)));
il.append(fact.createConstant(member.getName()));
il.append(fact.createInvoke("java/lang/Class", "getDeclaredField", jlrField, new Type[] { jlString },
Constants.INVOKEVIRTUAL));
il.append(pushConstantAnnotationType);
il.append(fact.createInvoke("java/lang/reflect/Field", "getAnnotation", jlaAnnotation, new Type[] { jlClass },
Constants.INVOKEVIRTUAL));
il.appendDUP();
il.append(fact.createPutStatic(shadowEnclosingClass.getName(), annotationCachingFieldName, jlaAnnotation));
InstructionHandle ifNullElse = il.appendNOP();
ifNonNull.setTarget(ifNullElse);
}
private void buildArray(InstructionList il, InstructionFactory fact, Type arrayElementType, Type[] arrayEntries, int dim) {
il.append(fact.createConstant(arrayEntries == null ? 0 : arrayEntries.length));
il.append(fact.createNewArray(arrayElementType, (short) dim));
if (arrayEntries == null) {
return;
}
for (int i = 0; i < arrayEntries.length; i++) {
il.append(InstructionFactory.createDup(1));
il.append(fact.createConstant(i));
switch (arrayEntries[i].getType()) {
case Constants.T_ARRAY:
il.append(fact.createConstant(new ObjectType(arrayEntries[i].getSignature()))); // FIXME should be getName() and not
// getSignature()?
break;
case Constants.T_BOOLEAN:
il.append(fact.createGetStatic("java/lang/Boolean", "TYPE", arrayElementType));
break;
case Constants.T_BYTE:
il.append(fact.createGetStatic("java/lang/Byte", "TYPE", arrayElementType));
break;
case Constants.T_CHAR:
il.append(fact.createGetStatic("java/lang/Character", "TYPE", arrayElementType));
break;
case Constants.T_INT:
il.append(fact.createGetStatic("java/lang/Integer", "TYPE", arrayElementType));
break;
case Constants.T_LONG:
il.append(fact.createGetStatic("java/lang/Long", "TYPE", arrayElementType));
break;
case Constants.T_DOUBLE:
il.append(fact.createGetStatic("java/lang/Double", "TYPE", arrayElementType));
break;
case Constants.T_FLOAT:
il.append(fact.createGetStatic("java/lang/Float", "TYPE", arrayElementType));
break;
case Constants.T_SHORT:
il.append(fact.createGetStatic("java/lang/Short", "TYPE", arrayElementType));
break;
default:
il.append(fact.createConstant(arrayEntries[i]));
}
il.append(InstructionConstants.AASTORE);
}
}
public Member getMember() {
return member;
}
/**
* Return an object that can access a particular value of this annotation.
*
* @param valueType The type from the annotation that is of interest
* @param formalName the formal name expressed in the pointcut, can be used to disambiguate
* @return a variable that represents access to that annotation value
*/
@Override
public Var getAccessorForValue(ResolvedType valueType, String formalName) {
return new AnnotationAccessFieldVar(this, valueType, formalName);
}
}
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