Example #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;
      }
    }
  }
Example #2
0
 private static void checkFacadeInjectionPoint(InjectionPoint injectionPoint, Class<?> type) {
   if (injectionPoint.getAnnotated().getBaseType().equals(type)) {
     if (injectionPoint.getType() instanceof ParameterizedType) {
       ParameterizedType parameterizedType = (ParameterizedType) injectionPoint.getType();
       if (parameterizedType.getActualTypeArguments()[0] instanceof TypeVariable<?>) {
         throw new DefinitionException(INJECTION_POINT_WITH_TYPE_VARIABLE, injectionPoint);
       }
       if (parameterizedType.getActualTypeArguments()[0] instanceof WildcardType) {
         throw new DefinitionException(INJECTION_POINT_HAS_WILDCARD, type, injectionPoint);
       }
     } else {
       throw new DefinitionException(
           INJECTION_POINT_MUST_HAVE_TYPE_PARAMETER, type, injectionPoint);
     }
   }
 }
Example #3
0
 protected static Type getFacadeType(InjectionPoint injectionPoint) {
   Type genericType = injectionPoint.getType();
   if (genericType instanceof ParameterizedType) {
     return ((ParameterizedType) genericType).getActualTypeArguments()[0];
   } else {
     throw new IllegalStateException(TYPE_PARAMETER_MUST_BE_CONCRETE, injectionPoint);
   }
 }
Example #4
0
 protected static Type getFacadeType(InjectionPoint injectionPoint) {
   Type genericType = injectionPoint.getType();
   if (genericType instanceof ParameterizedType) {
     return ((ParameterizedType) genericType).getActualTypeArguments()[0];
   } else {
     throw new IllegalStateException(BeanLogger.LOG.typeParameterMustBeConcrete(injectionPoint));
   }
 }
  private void validatePassivating(Bean<?> bean) {
    Type baseType = _annotatedType.getBaseType();

    Class<?> cl = getBeanManager().createTargetBaseType(baseType).getRawClass();
    boolean isStateful = _annotatedType.isAnnotationPresent(Stateful.class);

    if (!Serializable.class.isAssignableFrom(cl) && !isStateful) {
      throw new ConfigException(
          L.l(
              "'{0}' is an invalid @{1} bean because it's not serializable for {2}.",
              cl.getSimpleName(), bean.getScope().getSimpleName(), bean));
    }

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

      Type type = ip.getType();

      if (ip.getBean() instanceof CdiStatefulBean) continue;

      if (type instanceof Class<?>) {
        Class<?> ipClass = (Class<?>) type;

        if (!ipClass.isInterface()
            && !Serializable.class.isAssignableFrom(ipClass)
            && !getBeanManager().isNormalScope(ip.getBean().getScope())) {
          throw new ConfigException(
              L.l(
                  "'{0}' is an invalid @{1} bean because '{2}' value {3} is not serializable for {4}.",
                  cl.getSimpleName(),
                  bean.getScope().getSimpleName(),
                  ip.getType(),
                  ip.getMember().getName(),
                  bean));
        }
      }
    }
  }
Example #6
0
  /**
   * @param bean
   * @param probe
   * @return the set of dependents
   */
  static Set<Dependency> getDependents(Bean<?> bean, Probe probe) {
    Set<Dependency> dependents = new HashSet<Dependency>();
    for (Bean<?> candidate : probe.getBeans()) {
      if (candidate.equals(bean)) {
        continue;
      }
      BeanManager beanManager = probe.getBeanManager(candidate);
      if (beanManager == null) {
        // Don't process built-in beans
        continue;
      }
      Set<InjectionPoint> injectionPoints = candidate.getInjectionPoints();
      if (injectionPoints != null && !injectionPoints.isEmpty()) {
        for (InjectionPoint injectionPoint : injectionPoints) {

          // At this point unsatisfied or ambiguous dependency should not exits
          Bean<?> candidateDependency =
              beanManager.resolve(
                  beanManager.getBeans(
                      injectionPoint.getType(),
                      injectionPoint
                          .getQualifiers()
                          .toArray(new Annotation[injectionPoint.getQualifiers().size()])));
          boolean satisfies = false;

          if (isBuiltinBeanButNotExtension(candidateDependency)) {
            satisfies =
                bean.equals(
                    probe.getBean(
                        Components.getBuiltinBeanId((AbstractBuiltInBean<?>) candidateDependency)));
          } else {
            satisfies = bean.equals(candidateDependency);
          }
          if (satisfies) {
            dependents.add(new Dependency(candidate, injectionPoint));
          }
        }
      }
    }
    return dependents;
  }
Example #7
0
 /**
  * @param bean
  * @param beanManager
  * @param probe
  * @return the set of dependencies
  */
 static Set<Dependency> getDependencies(Bean<?> bean, BeanManager beanManager, Probe probe) {
   Set<Dependency> dependencies = new HashSet<Dependency>();
   Set<InjectionPoint> injectionPoints = bean.getInjectionPoints();
   if (injectionPoints != null && !injectionPoints.isEmpty()) {
     for (InjectionPoint injectionPoint : injectionPoints) {
       // At this point unsatisfied or ambiguous dependency should not exits
       Bean<?> dependency =
           beanManager.resolve(
               beanManager.getBeans(
                   injectionPoint.getType(),
                   injectionPoint
                       .getQualifiers()
                       .toArray(new Annotation[injectionPoint.getQualifiers().size()])));
       if (isBuiltinBeanButNotExtension(dependency)) {
         dependency =
             probe.getBean(Components.getBuiltinBeanId((AbstractBuiltInBean<?>) dependency));
       }
       dependencies.add(new Dependency(dependency, injectionPoint));
     }
   }
   return dependencies;
 }
  /**
   * Discovery the custom REST beans.
   *
   * @param abd the after bean discovery.
   * @param bm the bean manager.
   */
  void afterBeanDiscovery(@Observes AfterBeanDiscovery abd, BeanManager bm) {

    Set<String> restClients = new HashSet<>();
    // create the rest clients
    Set<Bean<?>> allBeans =
        bm.getBeans(
            Object.class,
            new AnnotationLiteral<Any>() {
              private static final long serialVersionUID = 3109256773218160485L;
            });

    for (Bean<?> bean : allBeans) {
      Set<InjectionPoint> bb = bean.getInjectionPoints();
      if (bb != null) {
        for (InjectionPoint ip : bb) {
          RestClient rest = ip.getAnnotated().getAnnotation(RestClient.class);
          if (rest != null) {

            // create ID for the bean = class name + configuration id
            Class<?> clazz = (Class<?>) ip.getType();
            String value = rest.value();
            String id = clazz.getName() + value;

            if (!restClients.contains(id)) {

              restClients.add(id);
              RestClientServiceBean sbean =
                  new RestClientServiceBean(
                      clazz, value, CdiInterceptorBindingExtension.CDI_AUTOBINDING);
              abd.addBean(sbean);
            }
          }
        }
      }
    }
  }
Example #9
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);
     }
   }
 }