How to get the Bean package from ConfigurableApplicationContext - spring

Using a interface like ConfigurableApplicationContext, it is possible to retrieve the list of Beans running in the Spring DI container, but I would like to know what Beans come from the User Space and what Beans comes from the Spring Boot / Spring Boot Starters.
#TestConfiguration
static class BeanInventoryConfiguration {
#Autowired
private ConfigurableApplicationContext applicationContext;
record BeanInventory(List<String> beans) {}
#Bean
public BeanInventory getBeanInventory(ConfigurableApplicationContext applicationContext) {
String[] allBeanNames = applicationContext.getBeanDefinitionNames();
return new BeanInventory(Arrays.stream(allBeanNames).toList());
}
}
Does exist a way to return the package where the Bean is located?
If I know the package, I could filter in a easy way.
Reviewing the Javadoc from Spring, I didnt find a way:
https://docs.spring.io/spring-framework/docs/current/javadoc-api/org/springframework/context/ConfigurableApplicationContext.html
Many thanks in advance
POC: https://github.com/jabrena/spring-boot-http-client-poc/blob/main/src/test/java/ms/info/ms/BeanInventoryTests.java

I found a solution for it:
#TestConfiguration
public class BeanInventory {
#Autowired
private ConfigurableApplicationContext applicationContext;
public record BeanInfo(String name, String pkg) {}
private final List<BeanInfo> beans = new ArrayList<>();
#PostConstruct
private void after() {
final String[] beanNames = applicationContext.getBeanDefinitionNames();
for (String beanName : beanNames) {
final Object beanObject = applicationContext.getBean(beanName);
Class<?> targetClass = AopUtils.getTargetClass(beanObject);
if (AopUtils.isJdkDynamicProxy(beanObject)) {
Class<?>[] proxiedInterfaces = AopProxyUtils.proxiedUserInterfaces(beanObject);
Assert.isTrue(proxiedInterfaces.length == 1, "Only one proxied interface expected");
targetClass = proxiedInterfaces[0];
}
beans.add(new BeanInfo(beanName, targetClass.getPackageName()));
}
}
public List<BeanInfo> getBeans() {
return beans;
}
}
Further information here:
https://github.com/spring-projects/spring-framework/issues/29973#event-8527246281
Note: Many thanks to Simon Basle

Related

How can I create beans from properties at runtime with autowiring capability

I try to create beans at runtime from application.ymal like this
config:
properties:
service1:
propertyService1: valueService1
service2:
propertyService2: valueService2
The class in which the bean was created...
#Configuration
public class DynamicBeanConfiguration implements ApplicationContextAware {
private TestProperties testProperties;
public DynamicBeanConfiguration(TestProperties testProperties) {
this.testProperties = testProperties;
}
#Override
public void setApplicationContext(ApplicationContext applicationContext) throws BeansException {
ConfigurableApplicationContext configurableApplicationContext = (ConfigurableApplicationContext) applicationContext;
for (Map.Entry<String, Properties> entry: testProperties.getProperties().entrySet()) {
String beanName = entry.getKey();
ConfigurableListableBeanFactory beanFactory = configurableApplicationContext.getBeanFactory();
TestDynamicBean dynamicBean = (TestDynamicBean) beanFactory.createBean(TestDynamicBean.class, AutowireCapableBeanFactory.AUTOWIRE_BY_NAME, false);
for (Map.Entry<Object, Object> properties: entry.getValue().entrySet()) {
dynamicBean.setServiceName(beanName);
dynamicBean.setValue(properties.getValue().toString());
beanFactory.autowireBean(dynamicBean);
beanFactory.registerSingleton(beanName, dynamicBean);
}
}
}
}
The class in which autoconfiguration was created...
#Configuration
#EnableConfigurationProperties(TestProperties.class)
public class TestAutoConfiguration {
#Bean
public DynamicBeanConfiguration dynamicBeanConfiguration(TestProperties properties) {
return new DynamicBeanConfiguration(properties);
}
}
And in this way I successfully get the created beans...
TestDynamicBean service2 = applicationContext.getBean("service2", TestDynamicBean.class);
TestDynamicBean service1 = applicationContext.getBean("service1", TestDynamicBean.class);
But I can't understand how can I use these beans via #Autowired with #Qualifier?
If I create beans this way, no beandefinition is created...
if I created beans through BeanDefinitionRegistryPostProcessor, then it is not possible to read the properties in the map...
Of course I can still return the map this way...
#Bean
public Map<String, TestDynamicBean> dynamicBeanConfiguration(TestProperties properties) {
return new DynamicBeanConfiguration(properties);
But I would like to call services like this...
#Autowired(required = false)
#Qualifier("service1")
private TestDynamicBean service1;
Thanks for any ideas.
Got almost what I wanted...
#Autowired
private DynamicBeanConfiguration dynamicBeanMap;
#Autowired(required = false)
#Qualifier("service1")
private TestDynamicBean service1;
#Autowired(required = false)
#Qualifier("service2")
private TestDynamicBean service2;

Injecting Spring Dependencies into ConstrantValidator

I'm using Bean Validation. I have a custom validator #MyValidator that needs to look up a value with an injected Spring managed DAO object. How can I get access to this? Spring isn't injecting the DAO into my "MyValidator" object.
#Component
public class CodeListValidator implements ConstraintValidator<CodeList, String> {
#Autowired
private ICodeListCommonService codeListCommonService;
private CodeListEnum codeListID;
#Override
public void initialize(CodeList constraintAnnotation) {
this.codeListID = constraintAnnotation.value();
}
#Override
public boolean isValid(String value, ConstraintValidatorContext context) {
return codeListCommonService.doesCodeEntityExistForCodeList(codeListID.getDbCodeListId(), value, ProviderConstants.CODE_LIST_STATUS_ACTIVE);
}
}
The "codeListCommonService" is null. This is because Spring isn't creating the class - but how can I get this to work with Spring AoP?
The use of this validator looks like this:
ValidatorFactory factory = Validation.buildDefaultValidatorFactory();
Validator validator = factory.getValidator();
MyObject validateMe = new MyObject();
Set<ConstraintViolation<MyObject>> constraintViolations = validator.validate(validateMe);
For MyObject:
public class MyObject {
#Size(max = 1)
#CodeList(CodeListEnum.CARTYPE)
public String carType;
}
So when the validator runs, it processes the annotations... I just need to get a service injected into the CodeListValidator I made to it can do a DB lookup to verify the value against the DB list of "valid car type values".
EDIT: The solution:
Played around with the idea of making a Spring aware factory- too much integration with existing code.
The solution that seems the best (and it works here) is to make a Spring service that stores the ApplicationContext in a static method so "non-Spring managed" beans can get to them.
So a new service:
#Service
public class SpringApplicationContextService implements ISpringApplicationContextService, ApplicationContextAware {
private static ApplicationContext applicationContext;
#Override
public void setApplicationContext(ApplicationContext applicationContext) throws BeansException {
this.applicationContext = applicationContext;
}
public static ApplicationContext getApplicationContext() {
return applicationContext;
}
}
And then any validator or non-Spring bean can get at the Spring beans via:
public class CodeListValidator implements ConstraintValidator<CodeList, String> {
#Autowired
private ICodeListCommonService codeListCommonService;
private CodeListEnum codeListID;
#Override
public void initialize(CodeList constraintAnnotation) {
this.codeListID = constraintAnnotation.value();
}
#Override
public boolean isValid(String value, ConstraintValidatorContext context) {
ICodeListCommonService codeListCommonService = SpringApplicationContextService.getApplicationContext().getBean(ICodeListCommonService.class);
return codeListCommonService.doesCodeEntityExistForCodeList(codeListID.getDbCodeListId(), value, ProviderConstants.CODE_LIST_STATUS_ACTIVE);
}
}
And, of course, the reason for all of this (which is used dozens of times in this app):
#CodeList(CodeListEnum.EMAIL_OPT_OUT_FLAG)
public String emailOptOutFlag;
#CodeList(CodeListEnum.CLEARING_HOUSE)
public String clearingHouse;
The minimum setup for #Autowired to work properly in ConstraintValidator implementation is to have this bean in a Spring #Configuration:
#Bean
public Validator defaultValidator() {
return new LocalValidatorFactoryBean();
}
This allows any beans, including ApplicationContext, to be injected directly into a ConstraintValidator:
#Constraint(validatedBy = DemoValidator.class)
public #interface DemoAnnotation {
// ...
Class<?> beanClass();
}
public class DemoValidator implements ConstraintValidator<DemoAnnotation, String> {
private final ApplicationContext applicationContext;
private Object bean;
#Autowired
public DemoValidator(ApplicationContext applicationContext) {
this.applicationContext = applicationContext;
}
#Override
public void initialize(DemoAnnotation constraint) {
Class<?> beanClass = constraint.beanClass();
bean = applicationContext.getBean(beanClass);
}
#Override
public boolean isValid(String obj, ConstraintValidatorContext context) {
return !obj.isEmpty();
}
}
Demo
For a really flexible validation solution I would recommend Jakub Jirutka's Bean Validator utilizing Spring Expression Language (SpEL) which allows things like:
public class Sample {
#SpELAssert("#myService.calculate(#this) > 42")
private int value;
}

Autowiring not working in springboot application

I am trying to create a Spring boot application with JFrame. I can see my beans in applicationContext but they are not getting autowired. I am unable to find the reason for this issue. Can someone help me with this?
Here is the code:
JavauiApplication - it is showing both userManager and userNameRepository is beans
#SpringBootApplication
public class JavauiApplication implements CommandLineRunner {
#Autowired
private ApplicationContext appContext;
public static void main(String[] args) {
new SpringApplicationBuilder(JavauiApplication.class).headless(false).run(args);
java.awt.EventQueue.invokeLater(() -> new InputNameForm().setVisible(true));
}
#Override
public void run(String... args) throws Exception {
String[] beans = appContext.getBeanDefinitionNames();
Arrays.sort(beans);
for (String bean : beans) {
System.out.println(bean);
}
}
}
InputNameForm.java -> userManager coming null
#Component
public class InputNameForm extends javax.swing.JFrame {
/**
* Creates new form InputNameForm
*/
public InputNameForm() {
initComponents();
}
#Autowired
UserManager userManager;
private void submitButtonActionPerformed(java.awt.event.ActionEvent evt) {
userManager.setName(firstName.getText(), lastName.getText());
}
/**
* #param args the command line arguments
*/
public static void main(String args[]) {
try {
for (javax.swing.UIManager.LookAndFeelInfo info : javax.swing.UIManager.getInstalledLookAndFeels()) {
if ("Nimbus".equals(info.getName())) {
javax.swing.UIManager.setLookAndFeel(info.getClassName());
break;
}
}
} catch (ClassNotFoundException ex) {
java.util.logging.Logger.getLogger(InputNameForm.class.getName()).log(java.util.logging.Level.SEVERE, null, ex);
}
/* Create and display the form */
java.awt.EventQueue.invokeLater(new Runnable() {
public void run() {
new InputNameForm().setVisible(true);
}
});
}
// Variables declaration - do not modify//GEN-BEGIN:variables
private javax.swing.JTextField firstName;
private javax.swing.JLabel firstNameLabel;
private javax.swing.JTextField lastName;
private javax.swing.JLabel lastNameLabel;
private javax.swing.JButton submitButton;
// End of variables declaration//GEN-END:variables
}
UserManager.java -> userNameRepository is coming null
#Component
public class UserManager {
#Autowired
UserNameRepository userNameRepository;
public void setName(String firstName, String lastName) {
userNameRepository.save(new UserName(firstName, lastName));
System.out.println(userNameRepository.findAllByFirstName(firstName));
}
}
It's a very common problem and it occurs because newcomers don't understand how the IoC container works.
Firstly, BeanDefinitionReader reads metadata about your beans from XML, Annotations(#Component, #Service etc), JavaConfig or Groovy script.
There are several BeanPostProcessor's which is responsible for reading all of these Spring annotation you're writing(#Autowired etc).
BeanFactory creates all BeanPostProcessor's then it creates all of your beans.
What happen if you create your bean with #Autowired dependencies via new operator? Nothing, because it isn't actually a bean. The object you created isn't related to IoC container. You may have the bean already in your ApplicationContext if you marked it with #Component(for example) but the object which was created via new operator wont be processed by Spring(annotations won't work).
Hope this helps.
PS: The lifecycle is simplified.
I had the same problem few days ago. What I undertood was that GUI builders like the one that comes with netbeans will automatically create components using new keyword. This means that those components won't be manage by spring. The code usually loks like this:
private void initComponents() {
jPanel1 = new javax.swing.JPanel(); //This component will not be managed by spring.
//...
}
You could use the following class provided here, to make it work.
#Component
public class BeanProvider {
private static ApplicationContext applicationContext;
// Autowires the specified object in the spring context
public static void autowire(Object object) {
applicationContext.getAutowireCapableBeanFactory().autowireBean(object);
}
#Autowired
private void setApplicationContext(ApplicationContext applicationContext) {
BeanProvider.applicationContext = applicationContext;
}
}
The top level SwingApp class:
#SpringBootApplication
public class SwingApp implements CommandLineRunner {
public static void main(String[] args) {
new SpringApplicationBuilder(SwingApp.class)
.headless(false).bannerMode(Banner.Mode.OFF).run(args);
}
#Override
public void run(String... args) throws Exception {
SwingUtilities.invokeLater(() -> {
MainFrame frame = new MainFrame();
frame.setVisible(true);
});
}
}
The MainFrame class:
public class MainFrame extends javax.swing.JFrame {
public MainFrame() {
initComponents();
}
private void initComponents() {
//Gui Builder generated code. Bean not managed by spring.
//Thus, autowired inside CustomPanel won't work if you rely on ComponentScan.
jPanel1 = new CustomJPanel();
//...
}
private CustomJPanel jPanel1;
}
The panel class where you want to autowire things:
//#Component //not needed since it wont work with gui generated code.
public class CustomJPanel extends javax.swing.JPanel{
#Autowired
private SomeRepository someRepository
public CustomJPanel(){
BeanProvider.autowire(this); //use someRepository somewhere after this line.
}
}
I have the same problem in a JavaFx project. Service and Component annotated classes were null in UI controllers even if it was shown in context that it was created. Below code worked for me
#Component
public class FxmlLoaderWithContext {
private final ApplicationContext context;
#Autowired
public FxmlLoaderWithContext(ApplicationContext context) {
this.context = context;
FXMLLoader fxmlloader = new FXMLLoader();
fxmlloader.setControllerFactory(context::getBean); //this row ensure services and components to be autowired
}
}
I think it returns null because you using command new to create object, such as new InputNameForm(). When creating object like that, the object isn't managed by Spring. That's why autowired not working.
The solution is registering your class as a bean.
You can use a class like in here.
#Component
public class BeanProvider {
private static ApplicationContext applicationContext;
public static void autowire(Object object) {
applicationContext.getAutowireCapableBeanFactory().autowireBean(object);
}
#Autowired
private void setApplicationContext(ApplicationContext applicationContext) {
BeanProvider.applicationContext = applicationContext;
}
}
And then, in your class InputNameForm constructor, call this:
class InputNameForm() {
BeanProvider.autowire(this);
...
}
And that's it. Spring will take care the rest.

Spring proxy beans from Interface

What is the correct way to create proxy beans by interfaces?
public class JdbiRepositoryAnnotationBeanPostProcessorTest {
private DBI dbi = mock(DBI.class);
#org.junit.Test
public void testIncompleteBeanDefinition() {
AnnotationConfigApplicationContext ctx = new AnnotationConfigApplicationContext();
ctx.register(JdbiRepositoryAnnotationBeanPostProcessor.class);
ctx.register(MyConfig.class);
ctx.refresh();
ITest bean = ctx.getBean(ITest.class);
assertNotNull(bean);
}
#JdbiRepository
public static interface ITest {
}
#Configuration
#ComponentScan(basePackageClasses = {ITest.class},
includeFilters = {#ComponentScan.Filter(type = FilterType.ANNOTATION, value = JdbiRepository.class)})
public static class MyConfig {
}
}
I have tried bean post processor but It did not help me.
Edit:
I wanted to use component scanning by including annotation filter but it did not help me too.
Edit:
I want to create instances by another library which is creating proxy beans as this:
TestInterface proxy = factory.onDemand(TestInterface.class);
Edit:
I have extended InstantiationAwareBeanPostProcessorAdapter for JdbiRepositoryAnnotationBeanPostProcessor.
I have been just logging currently. But I can not see my interfaces as a bean.
Please note that I have also changed my test code above.
public class JdbiRepositoryAnnotationBeanPostProcessor implements BeanPostProcessor, BeanFactoryAware {
private ConfigurableListableBeanFactory beanFactory;
public Object postProcessBeforeInitialization(Object bean, String beanName) throws BeansException {
return bean;
}
#Override
public Object postProcessAfterInitialization(Object bean, String beanName) throws BeansException {
return bean;
}
#Override
public void setBeanFactory(BeanFactory beanFactory) throws BeansException {
if(!(beanFactory instanceof ConfigurableListableBeanFactory)) {
throw new IllegalArgumentException("AutowiredAnnotationBeanPostProcessor requires a ConfigurableListableBeanFactory");
}
this.beanFactory = (ConfigurableListableBeanFactory) beanFactory;
// this.dbiMap = this.beanFactory.getBeansOfType(DBI.class);
}
}
The problem was related to ComponentScanning not PostBeanProcessor. ComponentScan is scanning only concrete classes that is why my processor did not work. I had to create a custom importer for interfaces.

Injecting a Spring dependency into a JPA EntityListener

I am trying to inject a Spring dependency into an JPA EntityListener. Here is my listener class:
#Configurable(autowire = Autowire.BY_TYPE, dependencyCheck = true)
public class PliListener {
#Autowired
private EvenementPliRepository evenementPliRepository;
#PostPersist
void onPostPersist(Pli pli) {
EvenementPli ev = new EvenementPli();
ev.setPli(pli);
ev.setDateCreation(new Date());
ev.setType(TypeEvenement.creation);
ev.setMessage("Création d'un pli");
System.out.println("evenementPliRepository: " + evenementPliRepository);
evenementPliRepository.save(ev);
}
}
Here is my Entity class:
#RooJavaBean
#RooToString
#RooJpaActiveRecord
#EntityListeners(PliListener.class)
public class Pli implements Serializable{
...
However, my dependency (i.e. evenementPliRepository) is always null.
Can anyone please help?
A hack to inject dependencies on stateless beans, is to define the dependency as "static", create a setter method so that Spring can inject the dependency (assigning it to the static dependency).
Declare the dependency as static.
static private EvenementPliRepository evenementPliRepository;
Create a method so that Spring can inject it.
#Autowired
public void init(EvenementPliRepository evenementPliRepository)
{
MyListenerClass.evenementPliRepository = evenementPliRepository;
logger.info("Initializing with dependency ["+ evenementPliRepository +"]");
}
More details at: http://blog-en.lineofsightnet.com/2012/08/dependency-injection-on-stateless-beans.html
This is actually an old question but I found an alternative solution :
public class MyEntityListener {
#Autowired
private ApplicationEventPublisher publisher;
#PostPersist
public void postPersist(MyEntity target) {
SpringBeanAutowiringSupport.processInjectionBasedOnCurrentContext(this);
publisher.publishEvent(new OnCreatedEvent<>(this, target));
}
#PostUpdate
public void postUpdate(MyEntity target) {
SpringBeanAutowiringSupport.processInjectionBasedOnCurrentContext(this);
publisher.publishEvent(new OnUpdatedEvent<>(this, target));
}
#PostRemove
public void postDelete(MyEntity target) {
SpringBeanAutowiringSupport.processInjectionBasedOnCurrentContext(this);
publisher.publishEvent(new OnDeletedEvent<>(this, target));
}
}
Probably not the best one but better than static variables w/o AOP + weaving.
I annotated the listener with #Component annotation, then created a non static setter to assign the injected Spring bean, it works well
My code looks like :
#Component
public class EntityListener {
private static MyService service;
#Autowired
public void setMyService (MyService service) {
this.service=service;
}
#PreUpdate
public void onPreUpdate() {
service.doThings()
}
#PrePersist
public void onPersist() {
...
}
}
Since Spring V5.1 (and Hibernate V5.3) it should work out of the box as Spring registers as the provider of those classes.
see documentation of SpringBeanContainer
And what about this solution?
#MappedSuperclass
#EntityListeners(AbstractEntityListener.class)
public abstract class AbstractEntity {
#Id
#GeneratedValue(strategy = GenerationType.AUTO)
#Column(name = "id")
private Long id;
#Column(name = "creation_date")
private Date creationDate;
#Column(name = "modification_date")
private Date modificationDate;
}
Then the Listener...
#Component
public class AbstractEntityListener {
#Autowired
private DateTimeService dateTimeService;
#PreUpdate
public void preUpdate(AbstractEntity abstractEntity) {
AutowireHelper.autowire(this, this.dateTimeService);
abstractEntity.setModificationDate(this.dateTimeService.getCurrentDate());
}
#PrePersist
public void prePersist(AbstractEntity abstractEntity) {
AutowireHelper.autowire(this, this.dateTimeService);
Date currentDate = this.dateTimeService.getCurrentDate();
abstractEntity.setCreationDate(currentDate);
abstractEntity.setModificationDate(currentDate);
}
}
And the helper...
/**
* Helper class which is able to autowire a specified class. It holds a static reference to the {#link org
* .springframework.context.ApplicationContext}.
*/
public final class AutowireHelper implements ApplicationContextAware {
private static final AutowireHelper INSTANCE = new AutowireHelper();
private static ApplicationContext applicationContext;
private AutowireHelper() {
}
/**
* Tries to autowire the specified instance of the class if one of the specified beans which need to be autowired
* are null.
*
* #param classToAutowire the instance of the class which holds #Autowire annotations
* #param beansToAutowireInClass the beans which have the #Autowire annotation in the specified {#classToAutowire}
*/
public static void autowire(Object classToAutowire, Object... beansToAutowireInClass) {
for (Object bean : beansToAutowireInClass) {
if (bean == null) {
applicationContext.getAutowireCapableBeanFactory().autowireBean(classToAutowire);
}
}
}
#Override
public void setApplicationContext(final ApplicationContext applicationContext) {
AutowireHelper.applicationContext = applicationContext;
}
/**
* #return the singleton instance.
*/
public static AutowireHelper getInstance() {
return INSTANCE;
}
}
Works for me.
Source:
http://guylabs.ch/2014/02/22/autowiring-pring-beans-in-hibernate-jpa-entity-listeners/
I started to go down the path of using AOP to inject a spring bean into an Entity listener. After a day and a half of research and trying different things I came across this link which stated:
It is not possible to inject spring managed beans into a JPA EntityListener class. This is because the JPA listener mechanism should be based on a stateless class, so the methods are effectively static, and non-context aware. ... No amount of AOP will save you, nothing gets injected to the ‘object’ representing the listener, because the implementations don’t actually create instances, but uses the class method.
At this point I regrouped and stumbled across the EclipseLink DescriptorEventAdapter. Using this information I created a listener class that extended the Descriptor Adapter.
public class EntityListener extends DescriptorEventAdapter {
private String injectedValue;
public void setInjectedValue(String value){
this.injectedValue = value;
}
#Override
public void aboutToInsert(DescriptorEvent event) {
// Do what you need here
}
}
In order to use the class I could have used the #EntityListeners annotation on my entity class. Unfortunately, this method would not allow Spring to control the creation of my listener and as a result would not allow for dependency injection. Instead I added the following 'init' function to my class:
public void init() {
JpaEntityManager entityManager = null;
try {
// Create an entity manager for use in this function
entityManager = (JpaEntityManager) entityManagerFactory.createEntityManager();
// Use the entity manager to get a ClassDescriptor for the Entity class
ClassDescriptor desc =
entityManager.getSession().getClassDescriptor(<EntityClass>.class);
// Add this class as a listener to the class descriptor
desc.getEventManager().addListener(this);
} finally {
if (entityManager != null) {
// Cleanup the entity manager
entityManager.close();
}
}
}
Add a little Spring XML configuration
<!-- Define listener object -->
<bean id="entityListener" class="EntityListener " init-method="init">
<property name="injectedValue" value="Hello World"/>
<property name="entityManagerFactory" ref="emf"/>
</bean>
Now we have a situation where Spring creates a entity listener, injects it with whatever dependencies are needed, and the listener object registers itself with the entity class to which it intends to listen.
I hope this helps.
try use ObjectFactory like this
#Configurable
public class YourEntityListener {
#Autowired
private ObjectFactory<YourBean> yourBeanProvider;
#PrePersist
public void beforePersist(Object target) {
YourBean yourBean = yourBeanProvider.getObject();
// do somthing with yourBean here
}
}
I found this solution in org.springframework.data.jpa.domain.support.AuditingEntityListener from spring-data-jpa.
demo: https://github.com/eclipseAce/inject-into-entity-listener
I tested out the approach suggested in https://guylabs.ch/2014/02/22/autowiring-pring-beans-in-hibernate-jpa-entity-listeners/ and worked. Not very clean but does the job. Slightly modified AutowireHelper class for me looked like this:
import org.springframework.context.ApplicationContext;
import org.springframework.context.ApplicationContextAware;
import org.springframework.stereotype.Component;
#Component
public class AutowireHelper implements ApplicationContextAware {
private static ApplicationContext applicationContext;
private AutowireHelper() {
}
public static void autowire(Object classToAutowire) {
AutowireHelper.applicationContext.getAutowireCapableBeanFactory().autowireBean(classToAutowire);
}
#Override
public void setApplicationContext(final ApplicationContext applicationContext) {
AutowireHelper.applicationContext = applicationContext;
}
}
Then called this from entity listener like this:
public class MyEntityAccessListener {
#Autowired
private MyService myService;
#PostLoad
public void postLoad(Object target) {
AutowireHelper.autowire(this);
myService.doThings();
...
}
public void setMyService(MyService myService) {
this.myService = myService;
}
}
The problem with JPA Listeners is that:
they are not managed by Spring (so no injections)
they are (or might be) created before Spring's Application Context is ready (so we can't inject beans on a constructor call)
My workaround to deal with the issue:
1) Create Listener class with public static LISTENERS field:
public abstract class Listener {
// for encapsulation purposes we have private modifiable and public non-modifiable lists
private static final List<Listener> PRIVATE_LISTENERS = new ArrayList<>();
public static final List<Listener> LISTENERS = Collections.unmodifiableList(PRIVATE_LISTENERS);
protected Listener() {
PRIVATE_LISTENERS.add(this);
}
}
2) All JPA listeners that we want to be added to Listener.LISTENERS has to extend this class:
public class MyListener extends Listener {
#PrePersist
public void onPersist() {
...
}
...
}
3) Now we can get all listeners and inject beans just after Spring's Application Context is ready
#Component
public class ListenerInjector {
#Autowired
private ApplicationContext context;
#EventListener(ContextRefreshedEvent.class)
public void contextRefreshed() {
Listener.LISTENERS.forEach(listener -> context.getAutowireCapableBeanFactory().autowireBean(listener));
}
}
I believe it is because this listener bean is not under control of Spring. Spring is not instantiating it, how can Spring know how to find that bean and do the injection?
I haven't tried on that, but seems that you can make use of AspectJ Weaver with Spring's Configurable annotation to have Spring control non-Spring-instantiated beans.
http://static.springsource.org/spring/docs/3.1.2.RELEASE/spring-framework-reference/html/aop.html#aop-using-aspectj
Since version 5.3 of Hibernate and version 5.1 of Spring (that's version 2.1 of Spring Boot), there's an easy solution.
No hack, no need to use AOP, no helper classes, no explicit autowiring, no init block to force injection.
You just need to:
Make the listener a #Component and declare the autowired bean, as usual.
Configure JPA in your Spring application to use Spring as the bean provider.
Here's how (in Kotlin)...
1) Entity listener
#Component
class EntityXyzListener(val mySpringBean: MySpringBean) {
#PostLoad
fun afterLoad(entityXyz: EntityXyz) {
// Injected bean is available here. (In my case the bean is a
// domain service that I make available to the entity.)
entityXyz.mySpringBean= mySpringBean
}
}
2) JPA datasource config
Get access to LocalContainerEntityManagerFactoryBean in your application. Then add to jpaPropertyMap the following key-value pair: AvailableSettings.BEAN_CONTAINER => the application context's bean factory.
In my Spring Boot application I already had the code below to configure a datasource (boilerplate code found here for example). I only had to add the line of code that puts the BEAN_CONTAINER property in the jpaPropertyMap.
#Resource
lateinit var context: AbstractApplicationContext
#Primary
#Bean
#Qualifier("appDatasource")
#ConfigurationProperties(prefix = "spring.datasource")
fun myAppDatasource(): DataSource {
return DataSourceBuilder.create().build()
}
#Primary
#Bean(name = ["myAppEntityManagerFactory"])
fun entityManagerFactoryBean(builder: EntityManagerFactoryBuilder): LocalContainerEntityManagerFactoryBean {
val localContainerEntityManagerFactoryBean =
builder
.dataSource(myAppDatasource())
.packages("com.mydomain.myapp")
.persistenceUnit("myAppPersistenceUnit")
.build()
// the line below does the trick
localContainerEntityManagerFactoryBean.jpaPropertyMap.put(
AvailableSettings.BEAN_CONTAINER, SpringBeanContainer(context.beanFactory))
return localContainerEntityManagerFactoryBean
}
Another option:
Create a service to make AplicationContext accessible:
import org.springframework.beans.factory.annotation.Autowired;
import org.springframework.context.ApplicationContext;
import org.springframework.stereotype.Service;
import lombok.Setter;
#Service
class ContextWrapper {
#Setter
private static ApplicationContext context;
#Autowired
public ContextWrapper(ApplicationContext ac) {
setContext(ac);
}
}
Use it:
...
public class AuditListener {
private static final String AUDIT_REPOSITORY = "AuditRepository";
#PrePersist
public void beforePersist(Object object){
//TODO:
}
#PreUpdate
public void beforeUpdate(Object object){
//TODO:
}
#PreRemove
public void beforeDelete(Object object) {
getRepo().save(getAuditElement("DEL",object));
}
private Audit getAuditElement(String Operation,Object object){
Audit audit = new Audit();
audit.setActor("test");
Timestamp timestamp = new Timestamp(System.currentTimeMillis());
audit.setDate(timestamp);
return audit;
}
private AuditRepository getRepo(){
return ContextWrapper.getContext().getBean(AUDIT_REPOSITORY, AuditRepository.class);
}
}
This class is created as a listener from jpa:
...
#Entity
#EntityListeners(AuditListener.class)
#NamedQuery(name="Customer.findAll", query="SELECT c FROM Customer c")
public class Customer implements Serializable {
private static final long serialVersionUID = 1L;
...
Since the listener is not under Spring's control, it can not access the context bean. I have tried multiple options (#Configurable (...)) and none has worked except to create a class that static access to the context. Already in that dilemma I think that this is an elegant option.
Building on the answer of Paulo Merson, here is a variation of how to set the SpringBeanContainer by utilizing JpaBaseConfiguration. Here are both steps:
Step 1: Define the listener as a Spring component. Note that autowiring works through constructor injection.
#Component
public class PliListener {
private EvenementPliRepository evenementPliRepository;
public PliListener(EvenementPliRepository repo) {
this.evenementPliRepository = repo;
}
#PrePersist
public void touchForCreate(Object target) {
// ...
}
#PostPersist
void onPostPersist(Object target) {
// ...
}
}
Step 2: Set the SpringBeanContainer, which enables autowiring in the listener. SpringBeanContainer JavaDoc might be worth a look.
#Configuration
public class JpaConfig extends JpaBaseConfiguration {
#Autowired
private ConfigurableListableBeanFactory beanFactory;
protected JpaConfig(DataSource dataSource, JpaProperties properties,
ObjectProvider<JtaTransactionManager> jtaTransactionManager) {
super(dataSource, properties, jtaTransactionManager);
}
#Override
protected AbstractJpaVendorAdapter createJpaVendorAdapter() {
return new HibernateJpaVendorAdapter();
}
#Override
protected Map<String, Object> getVendorProperties() {
Map<String, Object> props = new HashMap<>();
// configure use of SpringBeanContainer
props.put(org.hibernate.cfg.AvailableSettings.BEAN_CONTAINER,
new SpringBeanContainer(beanFactory));
return props;
}
}
The most natural way is, in my opinion, to intervene into the process of instantiating of EntityListener.
This way significantly differs in Hibernate pre-5.3 versions and post-5.3 ones.
1) In Hibernate versions earlier than 5.3 org.hibernate.jpa.event.spi.jpa.ListenerFactory is responsible for EntityListener instantiation. The instantiation of this factory can be intercepted if you provide your own CDI-based javax.enterprise.inject.spi.BeanManager. The CDI interfaces are (unnecessary for Spring DI world) verbose, but it's not difficult to implement Spring BeanFactory-backed CDI Bean manager.
#Component
public class SpringCdiBeanManager implements BeanManager {
#Autowired
private BeanFactory beanFactory;
#Override
public <T> AnnotatedType<T> createAnnotatedType(Class<T> type) {
return new SpringBeanType<T>(beanFactory, type);
}
#Override
public <T> InjectionTarget<T> createInjectionTarget(AnnotatedType<T> type) {
return (InjectionTarget<T>) type;
}
...
// have empty implementation for other methods
}
and the implementation of type-dependent SpringBeanType<T> will look like this:
public class SpringBeanType <T> implements AnnotatedType<T>, InjectionTarget<T>{
private BeanFactory beanFactory;
private Class<T> clazz;
public SpringBeanType(BeanFactory beanFactory, Class<T> clazz) {
this.beanFactory = beanFactory;
this.clazz = clazz;
}
#Override
public T produce(CreationalContext<T> ctx) {
return beanFactory.getBean(clazz);
}
...
// have empty implementation for other methods
}
Now, the only thing left is to inject into Hibernate Configuration Settings our implementation of BeanManager under a property name javax.persistence.bean.manager. There are, probably, many ways to do so, let me bring just one of them:
#Configuration
public class HibernateConfig {
#Autowired
private SpringCdiBeanManager beanManager;
#Bean
public JpaVendorAdapter jpaVendorAdapter() {
HibernateJpaVendorAdapter jpaVendorAdapter = new HibernateJpaVendorAdapter(){
#Override
public Map<String, Object> getJpaPropertyMap(){
Map<String, Object> jpaPropertyMap = super.getJpaPropertyMap();
jpaPropertyMap.put("javax.persistence.bean.manager", beanManager);
return jpaPropertyMap;
}
};
// ...
return jpaVendorAdapter;
}
}
Just remember that two things have to be Spring beans:
a) SpringCdiBeanManager, so that BeanFactory could be injected/autowired to it;
b) your EntityListener class, so that line return beanFactory.getBean(clazz); will be successful.
2) In Hibernate versions 5.3 and later things are much easier for Spring beans, as #AdrianShum very correctly pointed out. Since 5.3 Hibernate uses org.hibernate.resource.beans.container.spi.BeanContainer concept and there is its ready-to-use implementation for Spring Beans, org.springframework.orm.hibernate5.SpringBeanContainer. In this case, just follow its javadoc.
As others have pointed out, it appears SpringBeanContainer is the way to wire up Spring to Hibernate's ManagedBeanRegistryImpl, which is responsible for creating instances of EntityListeners when Hibernate is creating it's callback objects. Calls to create beans are delegated to SpringBeanContainer which can create Spring beans with both constructor injection and autowiring. For example a EntityListener would look like
public class MyEntityListener {
#Autowired
private AnotherBean anotherBean;
private MyBean myBean;
public InquiryEntityListener(MyBean myBean) {
this.myBean = myBean;
}
public MyEntityListener() {
}
}
Note that the EntityListener does NOT require #Component annotation as this only creates an extra instance which is not used by Hibernate.
However when using SpringBeanContainer there are some important limitations and caveats that must be kept in mind. In our use case, instances of our EntityListener were created during the creation of Hibernate EntityManager. As this happened fairly early during the Spring lifecycle, many beans did not exist at this time. This led to the following discovery:
The SpringBeanContainer will only autowire/constructor bean dependencies that exist at the time when the EntityListener is created. Constructor dependencies that don't exist will cause the default constructor to be called. Essentially there is a race condition when using SpringBeanContainer.
The work around for this is to inject a DefaultListableBeanFactory instance into the EntityListener. Later when the EntityListeners lifecycle methods are called (i.e. #PostLoad, #PostPersist, etc.) instances of the desired bean can be pulled out of the BeanFactory as the beans would've been created by Spring at this point.

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