/**************************************************************************************
* Copyright (c) Jonas Bon�r, Alexandre Vasseur. All rights reserved. *
* http://aspectwerkz.codehaus.org *
* ---------------------------------------------------------------------------------- *
* The software in this package is published under the terms of the LGPL license *
* a copy of which has been included with this distribution in the license.txt file. *
**************************************************************************************/
package org.codehaus.aspectwerkz.transform.delegation;
import org.codehaus.aspectwerkz.definition.SystemDefinition;
import org.codehaus.aspectwerkz.expression.ExpressionContext;
import org.codehaus.aspectwerkz.expression.PointcutType;
import org.codehaus.aspectwerkz.reflect.ClassInfo;
import org.codehaus.aspectwerkz.reflect.MemberInfo;
import org.codehaus.aspectwerkz.reflect.MethodInfo;
import org.codehaus.aspectwerkz.reflect.impl.javassist.JavassistClassInfo;
import org.codehaus.aspectwerkz.reflect.impl.javassist.JavassistClassInfoRepository;
import org.codehaus.aspectwerkz.reflect.impl.javassist.JavassistConstructorInfo;
import org.codehaus.aspectwerkz.reflect.impl.javassist.JavassistMethodInfo;
import org.codehaus.aspectwerkz.transform.Context;
import org.codehaus.aspectwerkz.transform.TransformationUtil;
import org.codehaus.aspectwerkz.transform.Transformer;
import java.util.Iterator;
import java.util.List;
import javassist.CannotCompileException;
import javassist.CtBehavior;
import javassist.CtClass;
import javassist.CtConstructor;
import javassist.CtField;
import javassist.CtMethod;
import javassist.Modifier;
import javassist.NotFoundException;
import javassist.expr.ExprEditor;
import javassist.expr.MethodCall;
/**
* Advises method CALL join points.
*
* @author <a href="mailto:alex@gnilux.com">Alexandre Vasseur </a>
* @author <a href="mailto:jboner@codehaus.org">Jonas Bon�r </a>
*/
public class MethodCallTransformer implements Transformer {
/**
* The join point index.
*/
//AXprivate int m_joinPointIndex;
/**
* Transforms the call side pointcuts.
*
* @param context the transformation context
* @param klass the class set.
*/
public void transform(final Context context, final Klass klass) throws NotFoundException, CannotCompileException {
List definitions = context.getDefinitions();
//AXm_joinPointIndex =
// TransformationUtil.getJoinPointIndex(klass.getCtClass()); //TODO
// thread safe reentrant
for (Iterator it = definitions.iterator(); it.hasNext();) {
final SystemDefinition definition = (SystemDefinition) it.next();
final CtClass ctClass = klass.getCtClass();
ClassInfo classInfo = JavassistClassInfo.getClassInfo(ctClass, context.getLoader());
if (classFilter(definition, new ExpressionContext(PointcutType.CALL, classInfo, classInfo), ctClass)) {
continue;
}
ctClass.instrument(new ExprEditor() {
public void edit(MethodCall methodCall) throws CannotCompileException {
try {
CtBehavior where;
try {
where = methodCall.where();
} catch (RuntimeException e) {
// <clinit> access leads to a bug in Javassist
where = ctClass.getClassInitializer();
}
// filter caller methods
if (methodFilterCaller(where)) {
return;
}
// get the callee method name, signature and class name
CtMethod calleeMethod = methodCall.getMethod();
String calleeClassName = methodCall.getClassName();
// filter callee classes
if (!definition.inIncludePackage(calleeClassName)) {
return;
}
// filter callee methods
if (methodFilterCallee(calleeMethod)) {
return;
}
JavassistClassInfoRepository classInfoRepository = JavassistClassInfoRepository
.getRepository(context.getLoader());
// TODO: callee side class info is NOT used, make use of
// it
ClassInfo calleeSideClassInfo = classInfoRepository.getClassInfo(calleeClassName);
if (calleeSideClassInfo == null) {
calleeSideClassInfo = JavassistClassInfo.getClassInfo(ctClass.getClassPool().get(
calleeClassName), context.getLoader());
}
// create the caller method info, used for 'within' and
// 'withincode'
MemberInfo withinMemberInfo = null;
if (where instanceof CtMethod) {
withinMemberInfo = JavassistMethodInfo.getMethodInfo((CtMethod) where, context.getLoader());
} else if (where instanceof CtConstructor) {
withinMemberInfo = JavassistConstructorInfo.getConstructorInfo(
(CtConstructor) where,
context.getLoader());
}
// create the callee method info
MethodInfo calleeSideMethodInfo = JavassistMethodInfo.getMethodInfo(
methodCall.getMethod(),
context.getLoader());
ExpressionContext ctx = new ExpressionContext(
PointcutType.CALL,
calleeSideMethodInfo,
withinMemberInfo);
if (definition.hasPointcut(ctx) || definition.hasCflowPointcut(ctx)) {
// check the callee class is not the same as target
// class, if that is the case
// then we have have class loaded and set in the
// ___AW_clazz already
String declaringClassMethodName = TransformationUtil.STATIC_CLASS_FIELD;
CtMethod method = methodCall.getMethod();
CtClass declaringClass = method.getDeclaringClass();
if (!declaringClass.getName().replace('/', '.').equals(
where.getDeclaringClass().getName().replace('/', '.'))) {
declaringClassMethodName = addCalleeMethodDeclaringClassField(ctClass, method);
}
// call the wrapper method instead of the callee
// method
StringBuffer body = new StringBuffer();
StringBuffer callBody = new StringBuffer();
callBody.append(TransformationUtil.JOIN_POINT_MANAGER_FIELD);
callBody.append('.');
callBody.append(TransformationUtil.PROCEED_WITH_CALL_JOIN_POINT_METHOD);
callBody.append('(');
callBody.append(JavassistHelper.calculateHash(method));
callBody.append(',');
callBody.append(klass.getJoinPointIndex());
callBody.append(", args, ");
callBody.append(TransformationUtil.STATIC_CLASS_FIELD);
if (Modifier.isStatic(where.getModifiers())) {
callBody.append(", nullObject, ");
} else {
callBody.append(", this, ");
}
callBody.append("declaringClass, $0, \"");
callBody.append(where.getName());
callBody.append("\",\"");
callBody.append(where.getSignature());
callBody.append("\",");
callBody.append(TransformationUtil.JOIN_POINT_TYPE_METHOD_CALL);
callBody.append(");");
body.append('{');
if (method.getParameterTypes().length > 0) {
body.append("Object[] args = $args; ");
} else {
body.append("Object[] args = null; ");
}
body.append("Class declaringClass = ");
body.append(declaringClassMethodName);
body.append("; ");
if (Modifier.isStatic(where.getModifiers())) {
body.append("Object nullObject = null;");
}
if (methodCall.getMethod().getReturnType() == CtClass.voidType) {
body.append("$_ = ").append(callBody.toString()).append("}");
} else if (!methodCall.getMethod().getReturnType().isPrimitive()) {
body.append("$_ = ($r)");
body.append(callBody.toString());
body.append("}");
} else {
String localResult = TransformationUtil.ASPECTWERKZ_PREFIX + "res";
body.append("Object ").append(localResult).append(" = ");
body.append(callBody.toString());
body.append("if (").append(localResult).append(" != null)");
body.append("$_ = ($r) ").append(localResult).append("; else ");
body.append("$_ = ");
body.append(JavassistHelper.getDefaultPrimitiveValue(methodCall.getMethod()
.getReturnType()));
body.append("; }");
}
methodCall.replace(body.toString());
context.markAsAdvised();
klass.incrementJoinPointIndex();
}
} catch (NotFoundException nfe) {
nfe.printStackTrace();
// TODO: should we swallow this exception?
}
}
});
}
//AxTransformationUtil.setJoinPointIndex(klass.getCtClass(),
// m_joinPointIndex);
klass.flushJoinPointIndex();
}
/**
* Creates a new static class field, for the declaring class of the callee method.
*
* @param ctClass the class
* @param ctMethod the method
* @return the name of the field
*/
private String addCalleeMethodDeclaringClassField(final CtClass ctClass, final CtMethod ctMethod) throws NotFoundException,
CannotCompileException {
String fieldName = TransformationUtil.STATIC_CLASS_FIELD
+ TransformationUtil.DELIMITER
+ "method"
+ TransformationUtil.DELIMITER
+ ctMethod.getDeclaringClass().getName().replace('.', '_');
boolean hasField = false;
CtField[] fields = ctClass.getDeclaredFields();
for (int i = 0; i < fields.length; i++) {
CtField field = fields[i];
if (field.getName().equals(fieldName)) {
hasField = true;
break;
}
}
if (!hasField) {
CtField field = new CtField(ctClass.getClassPool().get("java.lang.Class"), fieldName, ctClass);
field.setModifiers(Modifier.STATIC | Modifier.PRIVATE | Modifier.FINAL);
ctClass.addField(field, "java.lang.Class#forName(\""
+ ctMethod.getDeclaringClass().getName().replace('/', '.')
+ "\")");
}
return fieldName;
}
/**
* Filters the classes to be transformed.
*
* @param definition the definition
* @param ctx the context
* @param cg the class to filter
* @return boolean true if the method should be filtered away
*/
public static boolean classFilter(final SystemDefinition definition, final ExpressionContext ctx, final CtClass cg) {
if (cg.isInterface()) {
return true;
}
String className = cg.getName().replace('/', '.');
if (definition.inExcludePackage(className)) {
return true;
}
if (!definition.inIncludePackage(className)) {
return true;
}
if (definition.isAdvised(ctx)) {
return false;
}
return true;
}
/**
* Filters the caller methods.
*
* @param method the method to filter
* @return boolean true if the method should be filtered away
*/
public static boolean methodFilterCaller(final CtBehavior method) {
if (Modifier.isNative(method.getModifiers())
|| Modifier.isInterface(method.getModifiers())
|| method.getName().equals(TransformationUtil.CLASS_LOOKUP_METHOD)) {
return true;
} else {
return false;
}
}
/**
* Filters the callee methods.
*
* @param method the name of method to filter
* @return boolean true if the method should be filtered away
* @TODO: create metadata instance and check with the system
*/
public static boolean methodFilterCallee(final CtMethod method) {
if (method.getName().equals("<init>")
|| method.getName().equals("<clinit>")
|| method.getName().startsWith(TransformationUtil.ORIGINAL_METHOD_PREFIX)
|| method.getName().equals(TransformationUtil.CLASS_LOOKUP_METHOD)) {
return true;
} else {
return false;
}
}
}