Ejemplo n.º 1
0
  public static void validatePassivating(Class<?> cl, Bean<?> bean, String typeName) {
    Class<?> beanClass = bean.getBeanClass();

    if (!Serializable.class.isAssignableFrom(beanClass) && false) {
      ConfigException exn =
          new ConfigException(
              L.l(
                  "{0}: {1} is an invalid {2} because it is not serializable.",
                  cl.getName(), bean, typeName));

      throw exn;
      // InjectManager.create().addDefinitionError(exn);
    }

    for (InjectionPoint ip : bean.getInjectionPoints()) {
      if (ip.isTransient() || ip.isDelegate()) continue;

      Class<?> type = getRawClass(ip.getType());

      if (type.isInterface()) continue;

      if (!Serializable.class.isAssignableFrom(type)) {
        ConfigException exn =
            new ConfigException(
                L.l(
                    "{0}: {1} is an invalid {4} because its injection point '{2}' of type {3} is not serializable.",
                    cl.getName(), bean, ip.getMember().getName(), ip.getType(), typeName));

        throw exn;
      }
    }
  }
Ejemplo n.º 2
0
 private void validateDecorators(BeanManagerImpl beanManager, AbstractClassBean<?> classBean) {
   if (classBean.getDecorators().size() > 0) {
     boolean passivationCapabilityCheckRequired =
         isPassivationCapabilityCheckRequired(beanManager, classBean);
     for (Decorator<?> decorator : classBean.getDecorators()) {
       if (passivationCapabilityCheckRequired) {
         boolean isSerializable =
             (decorator instanceof WeldDecorator<?>)
                 ? (((WeldDecorator<?>) decorator).getWeldAnnotated().isSerializable())
                 : (decorator instanceof PassivationCapable);
         if (!isSerializable) {
           throw new UnserializableDependencyException(
               PASSIVATING_BEAN_WITH_NONSERIALIZABLE_DECORATOR, classBean, decorator);
         }
       }
       for (InjectionPoint ij : decorator.getInjectionPoints()) {
         if (!ij.isDelegate()) {
           Bean<?> resolvedBean = beanManager.resolve(beanManager.getBeans(ij));
           validateInjectionPoint(ij, beanManager);
           if (passivationCapabilityCheckRequired) {
             validateInjectionPointPassivationCapable(ij, resolvedBean, beanManager);
           }
         }
       }
     }
   }
 }
Ejemplo n.º 3
0
 private void validateInjectionPoints(Set<InjectionPoint> injectionPoints) {
   assertEquals(2, injectionPoints.size());
   for (InjectionPoint ip : injectionPoints) {
     AnnotatedParameter<Factory> parameter =
         this.<AnnotatedParameter<Factory>>cast(ip.getAnnotated());
     if (parameter.getPosition() == 0) {
       // BeanManager
       assertEquals(BeanManager.class, parameter.getBaseType());
     } else if (parameter.getPosition() == 1) {
       // SpaceSuit<Toy>
       Type baseType = parameter.getBaseType();
       if (baseType instanceof ParameterizedType
           && ((ParameterizedType) baseType).getRawType() instanceof Class<?>) {
         assertEquals(((ParameterizedType) baseType).getRawType(), SpaceSuit.class);
       } else {
         fail();
       }
     } else {
       fail("Unexpected injection point " + ip);
     }
     assertFalse(ip.isDelegate());
     assertFalse(ip.isTransient());
     assertNull(ip.getBean());
   }
 }
Ejemplo n.º 4
0
  private static InjectionPoint getDelegate(Decorator<?> bean) {
    if (bean instanceof DecoratorBean) return ((DecoratorBean) bean).getDelegateInjectionPoint();

    for (InjectionPoint ip : bean.getInjectionPoints()) {
      if (ip.isDelegate()) return ip;
    }

    throw new IllegalStateException(String.valueOf(bean));
  }
Ejemplo n.º 5
0
 /**
  * Variation of the validateInjectionPoint method which allows the bean to be defined explicitly
  * (used for disposer method validation)
  */
 public void validateInjectionPoint(InjectionPoint ij, Bean<?> bean, BeanManagerImpl beanManager) {
   if (ij.getAnnotated().getAnnotation(New.class) != null && ij.getQualifiers().size() > 1) {
     throw new DefinitionException(NEW_WITH_QUALIFIERS, ij);
   }
   if (ij.getType().equals(InjectionPoint.class) && bean == null) {
     throw new DefinitionException(INJECTION_INTO_NON_BEAN, ij);
   }
   if (ij.getType().equals(InjectionPoint.class) && !Dependent.class.equals(bean.getScope())) {
     throw new DefinitionException(INJECTION_INTO_NON_DEPENDENT_BEAN, ij);
   }
   if (ij.getType() instanceof TypeVariable<?>) {
     throw new DefinitionException(INJECTION_POINT_WITH_TYPE_VARIABLE, ij);
   }
   if (!(ij.getMember() instanceof Field)
       && ij.getAnnotated().isAnnotationPresent(Named.class)
       && ij.getAnnotated().getAnnotation(Named.class).value().equals("")) {
     throw new DefinitionException(NON_FIELD_INJECTION_POINT_CANNOT_USE_NAMED, ij);
   }
   boolean newBean = (bean instanceof NewManagedBean<?>) || (bean instanceof NewSessionBean<?>);
   if (!newBean) {
     checkScopeAnnotations(ij, beanManager.getServices().get(MetaAnnotationStore.class));
   }
   checkFacadeInjectionPoint(ij, Instance.class);
   checkFacadeInjectionPoint(ij, Event.class);
   Annotation[] bindings = ij.getQualifiers().toArray(new Annotation[0]);
   Set<?> resolvedBeans = beanManager.getBeanResolver().resolve(beanManager.getBeans(ij));
   if (!isInjectionPointSatisfied(ij, resolvedBeans, beanManager)) {
     throw new DeploymentException(
         INJECTION_POINT_HAS_UNSATISFIED_DEPENDENCIES,
         ij,
         Formats.formatAnnotations(bindings),
         Formats.formatType(ij.getType()));
   }
   if (resolvedBeans.size() > 1 && !ij.isDelegate()) {
     throw new DeploymentException(
         INJECTION_POINT_HAS_AMBIGUOUS_DEPENDENCIES,
         ij,
         Formats.formatAnnotations(bindings),
         Formats.formatType(ij.getType()),
         resolvedBeans);
   }
   // Account for the case this is disabled decorator
   if (!resolvedBeans.isEmpty()) {
     Bean<?> resolvedBean = (Bean<?>) resolvedBeans.iterator().next();
     if (beanManager
         .getServices()
         .get(MetaAnnotationStore.class)
         .getScopeModel(resolvedBean.getScope())
         .isNormal()) {
       UnproxyableResolutionException ue = Proxies.getUnproxyableTypeException(ij.getType());
       if (ue != null) {
         UnproxyableResolutionException exception =
             new UnproxyableResolutionException(
                 INJECTION_POINT_HAS_NON_PROXYABLE_DEPENDENCIES, ij);
         exception.initCause(ue);
         throw exception;
       }
     }
     if (Reflections.isPrimitive(ij.getType()) && resolvedBean.isNullable()) {
       throw new NullableDependencyException(INJECTION_POINT_HAS_NULLABLE_DEPENDENCIES, ij);
     }
     if (bean != null
         && Beans.isPassivatingScope(bean, beanManager)
         && (!ij.isTransient())
         && !Beans.isPassivationCapableBean(resolvedBean)) {
       validateInjectionPointPassivationCapable(ij, resolvedBean, beanManager);
     }
   }
 }