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Micro Distribution of the Payara Project for IBM JDK
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package com.sun.enterprise.deployment.annotation.handlers;
import com.sun.enterprise.deployment.*;
import com.sun.enterprise.deployment.annotation.context.ResourceContainerContext;
import com.sun.enterprise.deployment.annotation.context.ManagedBeanContext;
import com.sun.enterprise.deployment.util.TypeUtil;
import org.glassfish.apf.*;
import org.glassfish.internal.api.Globals;
import org.jvnet.hk2.annotations.Service;
import javax.annotation.ManagedBean;
import java.lang.annotation.Annotation;
import java.lang.annotation.ElementType;
import java.lang.reflect.AccessibleObject;
import java.lang.reflect.Constructor;
import java.lang.reflect.Field;
import java.lang.reflect.Modifier;
import java.lang.reflect.Method;
import java.util.List;
import java.util.LinkedList;
import java.util.Map;
import java.util.HashMap;
@Service
@AnnotationHandlerFor(ManagedBean.class)
public class ManagedBeanHandler extends AbstractHandler {
public ManagedBeanHandler() {
}
public HandlerProcessingResult processAnnotation(AnnotationInfo element)
throws AnnotationProcessorException {
AnnotatedElementHandler aeHandler = element.getProcessingContext().getHandler();
if( aeHandler instanceof ManagedBeanContext ) {
// Ignore @ManagedBean processing during ManagedBean class processing itself
return getDefaultProcessedResult();
}
ManagedBeanDescriptor managedBeanDesc = new ManagedBeanDescriptor();
ManagedBean resourceAn = (ManagedBean) element.getAnnotation();
// name() is optional
String logicalName = resourceAn.value();
if( !logicalName.equals("")) {
managedBeanDesc.setName(logicalName);
}
Class managedBeanClass = (Class) element.getAnnotatedElement();
managedBeanDesc.setBeanClassName(managedBeanClass.getName());
Class[] classInterceptors = null;
Map methodLevelInterceptors = new HashMap();
Map interceptorDescs = new HashMap();
// For now, just process the javax.interceptor related annotations directly instead
// of relying on the annotation framework. All the existing javax.interceptor
// handlers are very tightly coupled to ejb so it would be more work to abstract those
// than to just process the annotations directly. Also, do javax.interceptor
// annotation processing reflectively to avoid dependency on javax.interceptor from
// DOL module.
// TODO refactor javax.interceptor annotation handlers to support both ejb and non-ejb
// related interceptors
Annotation interceptorsAnn = getClassAnnotation(managedBeanClass, "javax.interceptor.Interceptors");
if( interceptorsAnn != null ) {
try {
Method m = interceptorsAnn.annotationType().getDeclaredMethod("value");
classInterceptors = (Class[]) m.invoke(interceptorsAnn);
} catch(Exception e) {
AnnotationProcessorException ape = new AnnotationProcessorException(e.getMessage(), element);
ape.initCause(e);
throw ape;
}
}
Class nextIntClass = managedBeanClass;
while(nextIntClass != Object.class) {
Method managedBeanAroundInvoke =
getMethodForMethodAnnotation(nextIntClass, "javax.interceptor.AroundInvoke");
if( (managedBeanAroundInvoke != null) && !(methodOverridden(managedBeanAroundInvoke,
nextIntClass, managedBeanClass)) ) {
LifecycleCallbackDescriptor desc = new LifecycleCallbackDescriptor();
desc.setLifecycleCallbackClass(nextIntClass.getName());
desc.setLifecycleCallbackMethod(managedBeanAroundInvoke.getName());
managedBeanDesc.addAroundInvokeDescriptor(desc);
}
nextIntClass = nextIntClass.getSuperclass();
}
for(Method m : managedBeanClass.getMethods()) {
processForAnnotations(element, m, methodLevelInterceptors, managedBeanDesc, managedBeanClass);
}
for(Constructor c : managedBeanClass.getDeclaredConstructors()) {
processForAnnotations(element, c, methodLevelInterceptors, managedBeanDesc, managedBeanClass);
}
if( aeHandler instanceof ResourceContainerContext ) {
((ResourceContainerContext) aeHandler).addManagedBean(managedBeanDesc);
// process managed bean class annotations
ManagedBeanContext managedBeanContext =
new ManagedBeanContext(managedBeanDesc);
ProcessingContext procContext = element.getProcessingContext();
procContext.pushHandler(managedBeanContext);
procContext.getProcessor().process(
procContext, new Class[] { managedBeanClass });
List classInterceptorChain = new LinkedList();
if( classInterceptors != null ) {
for(Class i : classInterceptors) {
InterceptorDescriptor nextInterceptor = processInterceptor(i, managedBeanContext,
procContext);
// Add interceptor to class-level chain
classInterceptorChain.add(nextInterceptor);
interceptorDescs.put(i.getName(), nextInterceptor);
}
managedBeanDesc.setClassInterceptorChain(classInterceptorChain);
}
for(Map.Entry next : methodLevelInterceptors.entrySet()) {
AccessibleObject o = next.getKey();
Class[] interceptors = next.getValue();
boolean excludeClassInterceptors =
( getMethodAnnotation(o, "javax.interceptor.ExcludeClassInterceptors")
!= null );
List methodInterceptorChain = excludeClassInterceptors ?
new LinkedList() :
new LinkedList(classInterceptorChain);
for(Class nextInterceptor : interceptors) {
InterceptorDescriptor interceptorDesc = interceptorDescs.get(nextInterceptor.getName());
if( interceptorDesc == null ) {
interceptorDesc = processInterceptor(nextInterceptor, managedBeanContext,
procContext);
interceptorDescs.put(nextInterceptor.getName(), interceptorDesc);
}
methodInterceptorChain.add(interceptorDesc);
}
MethodDescriptor mDesc = getMethodDescriptor(o, managedBeanClass);
if (mDesc != null) {
managedBeanDesc.setMethodLevelInterceptorChain(mDesc, methodInterceptorChain);
}
}
}
return getDefaultProcessedResult();
}
private void processForAnnotations(AnnotationInfo element, AccessibleObject o,
Map methodLevelInterceptors,
ManagedBeanDescriptor managedBeanDesc, Class managedBeanClass)
throws AnnotationProcessorException {
Annotation ann = getMethodAnnotation(o, "javax.interceptor.Interceptors");
if(ann != null) {
try {
Method valueM = ann.annotationType().getDeclaredMethod("value");
methodLevelInterceptors.put(o, (Class[]) valueM.invoke(ann));
} catch(Exception e) {
AnnotationProcessorException ape = new AnnotationProcessorException(e.getMessage(), element);
ape.initCause(e);
throw ape;
}
} else {
// If the method or constructor excludes
// class-level interceptors, explicitly set method-level to an empty list.
boolean excludeClassInterceptors =
( getMethodAnnotation(o, "javax.interceptor.ExcludeClassInterceptors") != null );
if( excludeClassInterceptors ) {
MethodDescriptor mDesc = getMethodDescriptor(o, managedBeanClass);
if (mDesc != null) {
managedBeanDesc.setMethodLevelInterceptorChain(mDesc,
new LinkedList());
}
}
}
}
private MethodDescriptor getMethodDescriptor(AccessibleObject o, Class managedBeanClass) {
MethodDescriptor mDesc = null;
if (o instanceof Method) {
mDesc = new MethodDescriptor((Method)o);
} else if (o instanceof Constructor) {
Class[] ctorParamTypes = ((Constructor)o).getParameterTypes();
String[] parameterClassNames = (new MethodDescriptor()).getParameterClassNamesFor(null, ctorParamTypes);
// MethodDescriptor.EJB_BEAN is just a tag, not to add a new one
mDesc = new MethodDescriptor(managedBeanClass.getSimpleName(), null,
parameterClassNames, MethodDescriptor.EJB_BEAN);
}
return mDesc;
}
private InterceptorDescriptor processInterceptor(Class interceptorClass, ManagedBeanContext managedBeanCtx,
ProcessingContext procCtx)
throws AnnotationProcessorException {
InterceptorDescriptor interceptorDesc = new InterceptorDescriptor();
interceptorDesc.setInterceptorClassName(interceptorClass.getName());
// Redirect PostConstruct / PreDestroy methods to InterceptorDescriptor
// during annotation processing
managedBeanCtx.setInterceptorMode(interceptorDesc);
// Process annotations on interceptor
procCtx.pushHandler(managedBeanCtx);
procCtx.getProcessor().process(procCtx, new Class[] {interceptorClass});
managedBeanCtx.unsetInterceptorMode();
Class nextIntClass = interceptorClass;
while(nextIntClass != Object.class) {
Method interceptorAroundInvoke =
getMethodForMethodAnnotation(nextIntClass, "javax.interceptor.AroundInvoke");
if( (interceptorAroundInvoke != null) && !(methodOverridden(interceptorAroundInvoke,
nextIntClass, interceptorClass)) ) {
LifecycleCallbackDescriptor desc = new LifecycleCallbackDescriptor();
desc.setLifecycleCallbackClass(nextIntClass.getName());
desc.setLifecycleCallbackMethod(interceptorAroundInvoke.getName());
interceptorDesc.addAroundInvokeDescriptor(desc);
}
Method interceptorAroundConstruct =
getMethodForMethodAnnotation(nextIntClass, "javax.interceptor.AroundConstruct");
if( (interceptorAroundConstruct != null) && !(methodOverridden(interceptorAroundConstruct,
nextIntClass, interceptorClass)) ) {
LifecycleCallbackDescriptor desc = new LifecycleCallbackDescriptor();
desc.setLifecycleCallbackClass(nextIntClass.getName());
desc.setLifecycleCallbackMethod(interceptorAroundConstruct.getName());
interceptorDesc.addAroundConstructDescriptor(desc);
}
nextIntClass = nextIntClass.getSuperclass();
}
return interceptorDesc;
}
private Annotation getClassAnnotation(Class c, String annotationClassName) {
for(Annotation next : c.getDeclaredAnnotations()) {
if( next.annotationType().getName().equals(annotationClassName)) {
return next;
}
}
return null;
}
private Method getMethodForMethodAnnotation(Class c, String annotationClassName) {
for(Method m : c.getDeclaredMethods()) {
for(Annotation next : m.getDeclaredAnnotations()) {
if( next.annotationType().getName().equals(annotationClassName)) {
return m;
}
}
}
return null;
}
private Annotation getMethodAnnotation(AccessibleObject o, String annotationClassName) {
for(Annotation next : o.getDeclaredAnnotations()) {
if( next.annotationType().getName().equals(annotationClassName)) {
return next;
}
}
return null;
}
private boolean methodOverridden(Method m, Class declaringSuperClass, Class leafClass) {
Class nextClass = leafClass;
boolean overridden = false;
if( Modifier.isPrivate(m.getModifiers())) {
return false;
}
while((nextClass != declaringSuperClass) && (nextClass != Object.class)) {
for(Method nextMethod : nextClass.getDeclaredMethods()) {
if( !Modifier.isPrivate(nextMethod.getModifiers()) &&
TypeUtil.sameMethodSignature(m, nextMethod) ) {
overridden = true;
break;
}
}
if( overridden ) {
break;
}
nextClass = nextClass.getSuperclass();
}
return overridden;
}
}
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