use of org.jboss.invocation.proxy.MethodIdentifier in project wildfly by wildfly.
the class AsynchronousMergingProcessor method handleDeploymentDescriptor.
@Override
protected void handleDeploymentDescriptor(final DeploymentUnit deploymentUnit, final DeploymentReflectionIndex deploymentReflectionIndex, final Class<?> componentClass, final SessionBeanComponentDescription description) throws DeploymentUnitProcessingException {
final SessionBeanMetaData data = description.getDescriptorData();
final boolean elytronSecurityDomain = description.getSecurityDomainServiceName() != null;
if (data instanceof SessionBean31MetaData) {
final SessionBean31MetaData sessionBeanData = (SessionBean31MetaData) data;
final AsyncMethodsMetaData async = sessionBeanData.getAsyncMethods();
if (async != null) {
for (AsyncMethodMetaData method : async) {
final Collection<Method> methods = MethodResolutionUtils.resolveMethods(method.getMethodName(), method.getMethodParams(), componentClass, deploymentReflectionIndex);
for (final Method m : methods) {
description.addAsynchronousMethod(MethodIdentifier.getIdentifierForMethod(m));
}
}
}
}
if (!description.getAsynchronousClasses().isEmpty() || !description.getAsynchronousMethods().isEmpty()) {
// setup a dependency on the executor service
description.getConfigurators().add(new ComponentConfigurator() {
@Override
public void configure(final DeploymentPhaseContext context, final ComponentDescription description, final ComponentConfiguration configuration) throws DeploymentUnitProcessingException {
configuration.getCreateDependencies().add(new DependencyConfigurator<SessionBeanComponentCreateService>() {
@Override
public void configureDependency(final ServiceBuilder<?> serviceBuilder, final SessionBeanComponentCreateService service) throws DeploymentUnitProcessingException {
serviceBuilder.addDependency(asynchronousThreadPoolService, ExecutorService.class, service.getAsyncExecutorService());
}
});
}
});
for (final ViewDescription view : description.getViews()) {
final EJBViewDescription ejbView = (EJBViewDescription) view;
ejbView.getConfigurators().add(new ViewConfigurator() {
@Override
public void configure(final DeploymentPhaseContext context, final ComponentConfiguration componentConfiguration, final ViewDescription description, final ViewConfiguration configuration) throws DeploymentUnitProcessingException {
final SessionBeanComponentDescription componentDescription = (SessionBeanComponentDescription) componentConfiguration.getComponentDescription();
for (final Method method : configuration.getProxyFactory().getCachedMethods()) {
// we need the component method to get the correct declaring class
final Method componentMethod = ClassReflectionIndexUtil.findMethod(deploymentReflectionIndex, componentClass, method);
if (componentMethod != null) {
if (componentDescription.getAsynchronousClasses().contains(componentMethod.getDeclaringClass().getName())) {
addAsyncInterceptor(configuration, method, elytronSecurityDomain);
configuration.addAsyncMethod(method);
} else {
MethodIdentifier id = MethodIdentifier.getIdentifierForMethod(method);
if (componentDescription.getAsynchronousMethods().contains(id)) {
addAsyncInterceptor(configuration, method, elytronSecurityDomain);
configuration.addAsyncMethod(method);
}
}
}
}
}
});
}
}
}
use of org.jboss.invocation.proxy.MethodIdentifier in project wildfly by wildfly.
the class EjbConcurrencyMergingProcessor method handleDeploymentDescriptor.
protected void handleDeploymentDescriptor(final DeploymentUnit deploymentUnit, final DeploymentReflectionIndex deploymentReflectionIndex, final Class<?> componentClass, final SessionBeanComponentDescription componentConfiguration) throws DeploymentUnitProcessingException {
if (componentConfiguration.getDescriptorData() == null) {
return;
}
SessionBeanMetaData sessionBeanMetaData = componentConfiguration.getDescriptorData();
if (sessionBeanMetaData instanceof SessionBean31MetaData) {
SessionBean31MetaData descriptor = (SessionBean31MetaData) sessionBeanMetaData;
// handle lock
if (descriptor.getLockType() != null) {
componentConfiguration.setBeanLevelLockType(componentConfiguration.getEJBClassName(), descriptor.getLockType());
}
// handle access timeout
if (descriptor.getAccessTimeout() != null) {
componentConfiguration.setBeanLevelAccessTimeout(componentConfiguration.getEJBClassName(), new AccessTimeoutDetails(descriptor.getAccessTimeout().getTimeout(), descriptor.getAccessTimeout().getUnit()));
}
final ConcurrentMethodsMetaData methods = descriptor.getConcurrentMethods();
if (methods != null) {
for (final ConcurrentMethodMetaData method : methods) {
final Method realMethod = resolveMethod(deploymentReflectionIndex, componentClass, componentClass, method.getMethod());
final MethodIdentifier methodIdentifier = MethodIdentifier.getIdentifierForMethod(realMethod);
if (method.getLockType() != null) {
componentConfiguration.setLockType(method.getLockType(), methodIdentifier);
}
if (method.getAccessTimeout() != null) {
componentConfiguration.setAccessTimeout(new AccessTimeoutDetails(method.getAccessTimeout().getTimeout(), method.getAccessTimeout().getUnit()), methodIdentifier);
}
}
}
}
}
use of org.jboss.invocation.proxy.MethodIdentifier in project wildfly by wildfly.
the class DeploymentDescriptorInterceptorBindingsProcessor method deploy.
@Override
public void deploy(final DeploymentPhaseContext phaseContext) throws DeploymentUnitProcessingException {
final DeploymentUnit deploymentUnit = phaseContext.getDeploymentUnit();
final EjbJarMetaData metaData = deploymentUnit.getAttachment(EjbDeploymentAttachmentKeys.EJB_JAR_METADATA);
final EEModuleDescription eeModuleDescription = deploymentUnit.getAttachment(Attachments.EE_MODULE_DESCRIPTION);
final Module module = deploymentUnit.getAttachment(org.jboss.as.server.deployment.Attachments.MODULE);
final DeploymentReflectionIndex index = deploymentUnit.getAttachment(org.jboss.as.server.deployment.Attachments.REFLECTION_INDEX);
if (metaData == null) {
return;
}
if (metaData.getAssemblyDescriptor() == null) {
return;
}
if (metaData.getAssemblyDescriptor().getInterceptorBindings() == null) {
return;
}
// default interceptors must be mentioned in the interceptors section
final Set<String> interceptorClasses = new HashSet<String>();
if (metaData.getInterceptors() != null) {
for (final InterceptorMetaData interceptor : metaData.getInterceptors()) {
interceptorClasses.add(interceptor.getInterceptorClass());
}
}
final Map<String, List<InterceptorBindingMetaData>> bindingsPerComponent = new HashMap<String, List<InterceptorBindingMetaData>>();
final List<InterceptorBindingMetaData> defaultInterceptorBindings = new ArrayList<InterceptorBindingMetaData>();
for (final InterceptorBindingMetaData binding : metaData.getAssemblyDescriptor().getInterceptorBindings()) {
if (binding.getEjbName().equals("*")) {
if (binding.getMethod() != null) {
throw EjbLogger.ROOT_LOGGER.defaultInterceptorsNotBindToMethod();
}
if (binding.getInterceptorOrder() != null) {
throw EjbLogger.ROOT_LOGGER.defaultInterceptorsNotSpecifyOrder();
}
defaultInterceptorBindings.add(binding);
} else if (ejbNameRegexService.isEjbNameRegexAllowed()) {
Pattern pattern = Pattern.compile(binding.getEjbName());
for (final ComponentDescription componentDescription : eeModuleDescription.getComponentDescriptions()) {
if (componentDescription instanceof EJBComponentDescription) {
String ejbName = ((EJBComponentDescription) componentDescription).getEJBName();
if (pattern.matcher(ejbName).matches()) {
List<InterceptorBindingMetaData> bindings = bindingsPerComponent.get(ejbName);
if (bindings == null) {
bindingsPerComponent.put(ejbName, bindings = new ArrayList<InterceptorBindingMetaData>());
}
bindings.add(binding);
}
}
}
} else {
List<InterceptorBindingMetaData> bindings = bindingsPerComponent.get(binding.getEjbName());
if (bindings == null) {
bindingsPerComponent.put(binding.getEjbName(), bindings = new ArrayList<InterceptorBindingMetaData>());
}
bindings.add(binding);
}
}
final List<InterceptorDescription> defaultInterceptors = new ArrayList<InterceptorDescription>();
for (InterceptorBindingMetaData binding : defaultInterceptorBindings) {
if (binding.getInterceptorClasses() != null) {
for (final String clazz : binding.getInterceptorClasses()) {
// we only want default interceptors referenced in the interceptors section
if (interceptorClasses.contains(clazz)) {
defaultInterceptors.add(new InterceptorDescription(clazz));
} else {
ROOT_LOGGER.defaultInterceptorClassNotListed(clazz);
}
}
}
}
// we iterate over all components, as we need to process default interceptors
for (final ComponentDescription componentDescription : eeModuleDescription.getComponentDescriptions()) {
final Class<?> componentClass;
try {
componentClass = module.getClassLoader().loadClass(componentDescription.getComponentClassName());
} catch (ClassNotFoundException e) {
throw EjbLogger.ROOT_LOGGER.failToLoadComponentClass(e, componentDescription.getComponentClassName());
}
final List<InterceptorBindingMetaData> bindings = bindingsPerComponent.get(componentDescription.getComponentName());
final Map<Method, List<InterceptorBindingMetaData>> methodInterceptors = new HashMap<Method, List<InterceptorBindingMetaData>>();
final List<InterceptorBindingMetaData> classLevelBindings = new ArrayList<InterceptorBindingMetaData>();
// we only want to exclude default and class level interceptors if every binding
// has the exclude element.
boolean classLevelExcludeDefaultInterceptors = false;
Map<Method, Boolean> methodLevelExcludeDefaultInterceptors = new HashMap<Method, Boolean>();
Map<Method, Boolean> methodLevelExcludeClassInterceptors = new HashMap<Method, Boolean>();
// if an absolute order has been defined at any level
// absolute ordering takes precedence
boolean classLevelAbsoluteOrder = false;
final Map<Method, Boolean> methodLevelAbsoluteOrder = new HashMap<Method, Boolean>();
if (bindings != null) {
for (final InterceptorBindingMetaData binding : bindings) {
if (binding.getMethod() == null) {
classLevelBindings.add(binding);
// if even one binding does not say exclude default then we do not exclude
if (binding.isExcludeDefaultInterceptors()) {
classLevelExcludeDefaultInterceptors = true;
}
if (binding.isTotalOrdering()) {
if (classLevelAbsoluteOrder) {
throw EjbLogger.ROOT_LOGGER.twoEjbBindingsSpecifyAbsoluteOrder(componentClass.toString());
} else {
classLevelAbsoluteOrder = true;
}
}
} else {
// method level bindings
// first find the right method
final NamedMethodMetaData methodData = binding.getMethod();
final ClassReflectionIndex classIndex = index.getClassIndex(componentClass);
Method resolvedMethod = null;
if (methodData.getMethodParams() == null) {
final Collection<Method> methods = classIndex.getAllMethods(methodData.getMethodName());
if (methods.isEmpty()) {
throw EjbLogger.ROOT_LOGGER.failToFindMethodInEjbJarXml(componentClass.getName(), methodData.getMethodName());
} else if (methods.size() > 1) {
throw EjbLogger.ROOT_LOGGER.multipleMethodReferencedInEjbJarXml(methodData.getMethodName(), componentClass.getName());
}
resolvedMethod = methods.iterator().next();
} else {
final Collection<Method> methods = classIndex.getAllMethods(methodData.getMethodName(), methodData.getMethodParams().size());
for (final Method method : methods) {
boolean match = true;
for (int i = 0; i < method.getParameterCount(); ++i) {
if (!method.getParameterTypes()[i].getName().equals(methodData.getMethodParams().get(i))) {
match = false;
break;
}
}
if (match) {
resolvedMethod = method;
break;
}
}
if (resolvedMethod == null) {
throw EjbLogger.ROOT_LOGGER.failToFindMethodWithParameterTypes(componentClass.getName(), methodData.getMethodName(), methodData.getMethodParams());
}
}
List<InterceptorBindingMetaData> list = methodInterceptors.get(resolvedMethod);
if (list == null) {
methodInterceptors.put(resolvedMethod, list = new ArrayList<InterceptorBindingMetaData>());
}
list.add(binding);
if (binding.isExcludeDefaultInterceptors()) {
methodLevelExcludeDefaultInterceptors.put(resolvedMethod, true);
}
if (binding.isExcludeClassInterceptors()) {
methodLevelExcludeClassInterceptors.put(resolvedMethod, true);
}
if (binding.isTotalOrdering()) {
if (methodLevelAbsoluteOrder.containsKey(resolvedMethod)) {
throw EjbLogger.ROOT_LOGGER.twoEjbBindingsSpecifyAbsoluteOrder(resolvedMethod.toString());
} else {
methodLevelAbsoluteOrder.put(resolvedMethod, true);
}
}
}
}
}
// now we have all the bindings in a format we can use
// build the list of default interceptors
componentDescription.setDefaultInterceptors(defaultInterceptors);
if (classLevelExcludeDefaultInterceptors) {
componentDescription.setExcludeDefaultInterceptors(true);
}
final List<InterceptorDescription> classLevelInterceptors = new ArrayList<InterceptorDescription>();
if (classLevelAbsoluteOrder) {
// we have an absolute ordering for the class level interceptors
for (final InterceptorBindingMetaData binding : classLevelBindings) {
if (binding.isTotalOrdering()) {
for (final String interceptor : binding.getInterceptorOrder()) {
classLevelInterceptors.add(new InterceptorDescription(interceptor));
}
}
}
// we have merged the default interceptors into the class interceptors
componentDescription.setExcludeDefaultInterceptors(true);
} else {
// the order we want is default interceptors (this will be empty if they are excluded)
// the annotation interceptors
// then dd interceptors
classLevelInterceptors.addAll(componentDescription.getClassInterceptors());
for (InterceptorBindingMetaData binding : classLevelBindings) {
if (binding.getInterceptorClasses() != null) {
for (final String interceptor : binding.getInterceptorClasses()) {
classLevelInterceptors.add(new InterceptorDescription(interceptor));
}
}
}
}
componentDescription.setClassInterceptors(classLevelInterceptors);
for (Map.Entry<Method, List<InterceptorBindingMetaData>> entry : methodInterceptors.entrySet()) {
final Method method = entry.getKey();
final List<InterceptorBindingMetaData> methodBindings = entry.getValue();
boolean totalOrder = methodLevelAbsoluteOrder.containsKey(method);
final MethodIdentifier methodIdentifier = MethodIdentifier.getIdentifierForMethod(method);
Boolean excludeDefaultInterceptors = methodLevelExcludeDefaultInterceptors.get(method);
excludeDefaultInterceptors = excludeDefaultInterceptors == null ? Boolean.FALSE : excludeDefaultInterceptors;
if (!excludeDefaultInterceptors) {
excludeDefaultInterceptors = componentDescription.isExcludeDefaultInterceptors() || componentDescription.isExcludeDefaultInterceptors(methodIdentifier);
}
Boolean excludeClassInterceptors = methodLevelExcludeClassInterceptors.get(method);
excludeClassInterceptors = excludeClassInterceptors == null ? Boolean.FALSE : excludeClassInterceptors;
if (!excludeClassInterceptors) {
excludeClassInterceptors = componentDescription.isExcludeClassInterceptors(methodIdentifier);
}
final List<InterceptorDescription> methodLevelInterceptors = new ArrayList<InterceptorDescription>();
if (totalOrder) {
// if there is a total order we just use it
for (final InterceptorBindingMetaData binding : methodBindings) {
if (binding.isTotalOrdering()) {
for (final String interceptor : binding.getInterceptorOrder()) {
methodLevelInterceptors.add(new InterceptorDescription(interceptor));
}
}
}
} else {
// class level interceptors also includes default interceptors
if (!excludeDefaultInterceptors) {
methodLevelInterceptors.addAll(defaultInterceptors);
}
if (!excludeClassInterceptors) {
for (InterceptorDescription interceptor : classLevelInterceptors) {
methodLevelInterceptors.add(interceptor);
}
}
List<InterceptorDescription> annotationMethodLevel = componentDescription.getMethodInterceptors().get(methodIdentifier);
if (annotationMethodLevel != null) {
methodLevelInterceptors.addAll(annotationMethodLevel);
}
// now add all the interceptors from the bindings
for (InterceptorBindingMetaData binding : methodBindings) {
if (binding.getInterceptorClasses() != null) {
for (final String interceptor : binding.getInterceptorClasses()) {
methodLevelInterceptors.add(new InterceptorDescription(interceptor));
}
}
}
}
// we have already taken component and default interceptors into account
componentDescription.excludeClassInterceptors(methodIdentifier);
componentDescription.excludeDefaultInterceptors(methodIdentifier);
componentDescription.setMethodInterceptors(methodIdentifier, methodLevelInterceptors);
}
}
}
use of org.jboss.invocation.proxy.MethodIdentifier in project wildfly by wildfly.
the class RemoveMethodMergingProcessor method handleDeploymentDescriptor.
protected void handleDeploymentDescriptor(final DeploymentUnit deploymentUnit, final DeploymentReflectionIndex deploymentReflectionIndex, final Class<?> componentClass, final StatefulComponentDescription componentConfiguration) throws DeploymentUnitProcessingException {
SessionBeanMetaData beanMetaData = componentConfiguration.getDescriptorData();
if (beanMetaData == null) {
return;
}
if (beanMetaData.getRemoveMethods() == null || beanMetaData.getRemoveMethods().isEmpty()) {
return;
}
final DeploymentReflectionIndex reflectionIndex = deploymentUnit.getAttachment(org.jboss.as.server.deployment.Attachments.REFLECTION_INDEX);
final Set<MethodIdentifier> annotationRemoveMethods = new HashSet<MethodIdentifier>();
for (final StatefulComponentDescription.StatefulRemoveMethod method : componentConfiguration.getRemoveMethods()) {
annotationRemoveMethods.add(method.getMethodIdentifier());
}
// while the method that specifies the actual parameters override this
for (final RemoveMethodMetaData removeMethod : beanMetaData.getRemoveMethods()) {
if (removeMethod.getBeanMethod().getMethodParams() == null) {
final NamedMethodMetaData methodData = removeMethod.getBeanMethod();
final Collection<Method> methods = MethodResolutionUtils.resolveMethods(methodData, componentClass, reflectionIndex);
for (final Method method : methods) {
final Boolean retainIfException = removeMethod.getRetainIfException();
final MethodIdentifier methodIdentifier = MethodIdentifier.getIdentifierForMethod(method);
if (retainIfException == null) {
// if this is null we have to allow annotation values of retainIfException to take precidence
if (!annotationRemoveMethods.contains(methodIdentifier)) {
componentConfiguration.addRemoveMethod(methodIdentifier, false);
}
} else {
componentConfiguration.addRemoveMethod(methodIdentifier, retainIfException);
}
}
}
}
for (final RemoveMethodMetaData removeMethod : beanMetaData.getRemoveMethods()) {
if (removeMethod.getBeanMethod().getMethodParams() != null) {
final NamedMethodMetaData methodData = removeMethod.getBeanMethod();
final Collection<Method> methods = MethodResolutionUtils.resolveMethods(methodData, componentClass, reflectionIndex);
for (final Method method : methods) {
final Boolean retainIfException = removeMethod.getRetainIfException();
final MethodIdentifier methodIdentifier = MethodIdentifier.getIdentifierForMethod(method);
if (retainIfException == null) {
// if this is null we have to allow annotation values of retainIfException to take precidence
if (!annotationRemoveMethods.contains(methodIdentifier)) {
componentConfiguration.addRemoveMethod(methodIdentifier, false);
}
} else {
componentConfiguration.addRemoveMethod(methodIdentifier, retainIfException);
}
}
}
}
}
use of org.jboss.invocation.proxy.MethodIdentifier in project wildfly by wildfly.
the class RemoveMethodMergingProcessor method handleAnnotations.
protected void handleAnnotations(final DeploymentUnit deploymentUnit, final EEApplicationClasses applicationClasses, final DeploymentReflectionIndex deploymentReflectionIndex, final Class<?> componentClass, final StatefulComponentDescription componentConfiguration) throws DeploymentUnitProcessingException {
final RuntimeAnnotationInformation<Boolean> removeMethods = MethodAnnotationAggregator.runtimeAnnotationInformation(componentClass, applicationClasses, deploymentReflectionIndex, Remove.class);
for (Map.Entry<Method, List<Boolean>> entry : removeMethods.getMethodAnnotations().entrySet()) {
if (!entry.getValue().isEmpty()) {
final Boolean retainIfException = entry.getValue().get(0);
final MethodIdentifier removeMethodIdentifier = MethodIdentifier.getIdentifierForMethod(entry.getKey());
componentConfiguration.addRemoveMethod(removeMethodIdentifier, retainIfException);
}
}
}
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