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/*
 * Copyright 2002-2023 the original author or authors.
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *      https://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

package org.springframework.context.event;

import java.util.ArrayList;
import java.util.Collection;
import java.util.LinkedHashSet;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.concurrent.ConcurrentHashMap;
import java.util.function.Predicate;

import org.springframework.aop.framework.AopProxyUtils;
import org.springframework.beans.factory.BeanClassLoaderAware;
import org.springframework.beans.factory.BeanFactory;
import org.springframework.beans.factory.BeanFactoryAware;
import org.springframework.beans.factory.NoSuchBeanDefinitionException;
import org.springframework.beans.factory.config.BeanDefinition;
import org.springframework.beans.factory.config.ConfigurableBeanFactory;
import org.springframework.context.ApplicationEvent;
import org.springframework.context.ApplicationListener;
import org.springframework.core.ResolvableType;
import org.springframework.core.annotation.AnnotationAwareOrderComparator;
import org.springframework.lang.Nullable;
import org.springframework.util.Assert;
import org.springframework.util.ClassUtils;
import org.springframework.util.ObjectUtils;

/**
 * Abstract implementation of the {@link ApplicationEventMulticaster} interface,
 * providing the basic listener registration facility.
 *
 * 

Doesn't permit multiple instances of the same listener by default, * as it keeps listeners in a linked Set. The collection class used to hold * ApplicationListener objects can be overridden through the "collectionClass" * bean property. * *

Implementing ApplicationEventMulticaster's actual {@link #multicastEvent} method * is left to subclasses. {@link SimpleApplicationEventMulticaster} simply multicasts * all events to all registered listeners, invoking them in the calling thread by * default. Alternative implementations could be more sophisticated in those respects. * * @author Juergen Hoeller * @author Stephane Nicoll * @since 1.2.3 * @see #getApplicationListeners(ApplicationEvent, ResolvableType) * @see SimpleApplicationEventMulticaster */ public abstract class AbstractApplicationEventMulticaster implements ApplicationEventMulticaster, BeanClassLoaderAware, BeanFactoryAware { private final DefaultListenerRetriever defaultRetriever = new DefaultListenerRetriever(); final Map retrieverCache = new ConcurrentHashMap<>(64); @Nullable private ClassLoader beanClassLoader; @Nullable private ConfigurableBeanFactory beanFactory; @Override public void setBeanClassLoader(ClassLoader classLoader) { this.beanClassLoader = classLoader; } @Override public void setBeanFactory(BeanFactory beanFactory) { if (!(beanFactory instanceof ConfigurableBeanFactory cbf)) { throw new IllegalStateException("Not running in a ConfigurableBeanFactory: " + beanFactory); } this.beanFactory = cbf; if (this.beanClassLoader == null) { this.beanClassLoader = this.beanFactory.getBeanClassLoader(); } } private ConfigurableBeanFactory getBeanFactory() { if (this.beanFactory == null) { throw new IllegalStateException("ApplicationEventMulticaster cannot retrieve listener beans " + "because it is not associated with a BeanFactory"); } return this.beanFactory; } @Override public void addApplicationListener(ApplicationListener listener) { synchronized (this.defaultRetriever) { // Explicitly remove target for a proxy, if registered already, // in order to avoid double invocations of the same listener. Object singletonTarget = AopProxyUtils.getSingletonTarget(listener); if (singletonTarget instanceof ApplicationListener) { this.defaultRetriever.applicationListeners.remove(singletonTarget); } this.defaultRetriever.applicationListeners.add(listener); this.retrieverCache.clear(); } } @Override public void addApplicationListenerBean(String listenerBeanName) { synchronized (this.defaultRetriever) { this.defaultRetriever.applicationListenerBeans.add(listenerBeanName); this.retrieverCache.clear(); } } @Override public void removeApplicationListener(ApplicationListener listener) { synchronized (this.defaultRetriever) { this.defaultRetriever.applicationListeners.remove(listener); this.retrieverCache.clear(); } } @Override public void removeApplicationListenerBean(String listenerBeanName) { synchronized (this.defaultRetriever) { this.defaultRetriever.applicationListenerBeans.remove(listenerBeanName); this.retrieverCache.clear(); } } @Override public void removeApplicationListeners(Predicate> predicate) { synchronized (this.defaultRetriever) { this.defaultRetriever.applicationListeners.removeIf(predicate); this.retrieverCache.clear(); } } @Override public void removeApplicationListenerBeans(Predicate predicate) { synchronized (this.defaultRetriever) { this.defaultRetriever.applicationListenerBeans.removeIf(predicate); this.retrieverCache.clear(); } } @Override public void removeAllListeners() { synchronized (this.defaultRetriever) { this.defaultRetriever.applicationListeners.clear(); this.defaultRetriever.applicationListenerBeans.clear(); this.retrieverCache.clear(); } } /** * Return a Collection containing all ApplicationListeners. * @return a Collection of ApplicationListeners * @see org.springframework.context.ApplicationListener */ protected Collection> getApplicationListeners() { synchronized (this.defaultRetriever) { return this.defaultRetriever.getApplicationListeners(); } } /** * Return a Collection of ApplicationListeners matching the given * event type. Non-matching listeners get excluded early. * @param event the event to be propagated. Allows for excluding * non-matching listeners early, based on cached matching information. * @param eventType the event type * @return a Collection of ApplicationListeners * @see org.springframework.context.ApplicationListener */ protected Collection> getApplicationListeners( ApplicationEvent event, ResolvableType eventType) { Object source = event.getSource(); Class sourceType = (source != null ? source.getClass() : null); ListenerCacheKey cacheKey = new ListenerCacheKey(eventType, sourceType); // Potential new retriever to populate CachedListenerRetriever newRetriever = null; // Quick check for existing entry on ConcurrentHashMap CachedListenerRetriever existingRetriever = this.retrieverCache.get(cacheKey); if (existingRetriever == null) { // Caching a new ListenerRetriever if possible if (this.beanClassLoader == null || (ClassUtils.isCacheSafe(event.getClass(), this.beanClassLoader) && (sourceType == null || ClassUtils.isCacheSafe(sourceType, this.beanClassLoader)))) { newRetriever = new CachedListenerRetriever(); existingRetriever = this.retrieverCache.putIfAbsent(cacheKey, newRetriever); if (existingRetriever != null) { newRetriever = null; // no need to populate it in retrieveApplicationListeners } } } if (existingRetriever != null) { Collection> result = existingRetriever.getApplicationListeners(); if (result != null) { return result; } // If result is null, the existing retriever is not fully populated yet by another thread. // Proceed like caching wasn't possible for this current local attempt. } return retrieveApplicationListeners(eventType, sourceType, newRetriever); } /** * Actually retrieve the application listeners for the given event and source type. * @param eventType the event type * @param sourceType the event source type * @param retriever the ListenerRetriever, if supposed to populate one (for caching purposes) * @return the pre-filtered list of application listeners for the given event and source type */ private Collection> retrieveApplicationListeners( ResolvableType eventType, @Nullable Class sourceType, @Nullable CachedListenerRetriever retriever) { List> allListeners = new ArrayList<>(); Set> filteredListeners = (retriever != null ? new LinkedHashSet<>() : null); Set filteredListenerBeans = (retriever != null ? new LinkedHashSet<>() : null); Set> listeners; Set listenerBeans; synchronized (this.defaultRetriever) { listeners = new LinkedHashSet<>(this.defaultRetriever.applicationListeners); listenerBeans = new LinkedHashSet<>(this.defaultRetriever.applicationListenerBeans); } // Add programmatically registered listeners, including ones coming // from ApplicationListenerDetector (singleton beans and inner beans). for (ApplicationListener listener : listeners) { if (supportsEvent(listener, eventType, sourceType)) { if (retriever != null) { filteredListeners.add(listener); } allListeners.add(listener); } } // Add listeners by bean name, potentially overlapping with programmatically // registered listeners above - but here potentially with additional metadata. if (!listenerBeans.isEmpty()) { ConfigurableBeanFactory beanFactory = getBeanFactory(); for (String listenerBeanName : listenerBeans) { try { if (supportsEvent(beanFactory, listenerBeanName, eventType)) { ApplicationListener listener = beanFactory.getBean(listenerBeanName, ApplicationListener.class); if (!allListeners.contains(listener) && supportsEvent(listener, eventType, sourceType)) { if (retriever != null) { if (beanFactory.isSingleton(listenerBeanName)) { filteredListeners.add(listener); } else { filteredListenerBeans.add(listenerBeanName); } } allListeners.add(listener); } } else { // Remove non-matching listeners that originally came from // ApplicationListenerDetector, possibly ruled out by additional // BeanDefinition metadata (e.g. factory method generics) above. Object listener = beanFactory.getSingleton(listenerBeanName); if (retriever != null) { filteredListeners.remove(listener); } allListeners.remove(listener); } } catch (NoSuchBeanDefinitionException ex) { // Singleton listener instance (without backing bean definition) disappeared - // probably in the middle of the destruction phase } } } AnnotationAwareOrderComparator.sort(allListeners); if (retriever != null) { if (filteredListenerBeans.isEmpty()) { retriever.applicationListeners = new LinkedHashSet<>(allListeners); retriever.applicationListenerBeans = filteredListenerBeans; } else { retriever.applicationListeners = filteredListeners; retriever.applicationListenerBeans = filteredListenerBeans; } } return allListeners; } /** * Filter a bean-defined listener early through checking its generically declared * event type before trying to instantiate it. *

If this method returns {@code true} for a given listener as a first pass, * the listener instance will get retrieved and fully evaluated through a * {@link #supportsEvent(ApplicationListener, ResolvableType, Class)} call afterwards. * @param beanFactory the BeanFactory that contains the listener beans * @param listenerBeanName the name of the bean in the BeanFactory * @param eventType the event type to check * @return whether the given listener should be included in the candidates * for the given event type * @see #supportsEvent(Class, ResolvableType) * @see #supportsEvent(ApplicationListener, ResolvableType, Class) */ private boolean supportsEvent( ConfigurableBeanFactory beanFactory, String listenerBeanName, ResolvableType eventType) { Class listenerType = beanFactory.getType(listenerBeanName); if (listenerType == null || GenericApplicationListener.class.isAssignableFrom(listenerType) || SmartApplicationListener.class.isAssignableFrom(listenerType)) { return true; } if (!supportsEvent(listenerType, eventType)) { return false; } try { BeanDefinition bd = beanFactory.getMergedBeanDefinition(listenerBeanName); ResolvableType genericEventType = bd.getResolvableType().as(ApplicationListener.class).getGeneric(); return (genericEventType == ResolvableType.NONE || genericEventType.isAssignableFrom(eventType)); } catch (NoSuchBeanDefinitionException ex) { // Ignore - no need to check resolvable type for manually registered singleton return true; } } /** * Filter a listener early through checking its generically declared event * type before trying to instantiate it. *

If this method returns {@code true} for a given listener as a first pass, * the listener instance will get retrieved and fully evaluated through a * {@link #supportsEvent(ApplicationListener, ResolvableType, Class)} call afterwards. * @param listenerType the listener's type as determined by the BeanFactory * @param eventType the event type to check * @return whether the given listener should be included in the candidates * for the given event type */ protected boolean supportsEvent(Class listenerType, ResolvableType eventType) { ResolvableType declaredEventType = GenericApplicationListenerAdapter.resolveDeclaredEventType(listenerType); return (declaredEventType == null || declaredEventType.isAssignableFrom(eventType)); } /** * Determine whether the given listener supports the given event. *

The default implementation detects the {@link SmartApplicationListener} * and {@link GenericApplicationListener} interfaces. In case of a standard * {@link ApplicationListener}, a {@link GenericApplicationListenerAdapter} * will be used to introspect the generically declared type of the target listener. * @param listener the target listener to check * @param eventType the event type to check against * @param sourceType the source type to check against * @return whether the given listener should be included in the candidates * for the given event type */ protected boolean supportsEvent( ApplicationListener listener, ResolvableType eventType, @Nullable Class sourceType) { GenericApplicationListener smartListener = (listener instanceof GenericApplicationListener gal ? gal : new GenericApplicationListenerAdapter(listener)); return (smartListener.supportsEventType(eventType) && smartListener.supportsSourceType(sourceType)); } /** * Cache key for ListenerRetrievers, based on event type and source type. */ private static final class ListenerCacheKey implements Comparable { private final ResolvableType eventType; @Nullable private final Class sourceType; public ListenerCacheKey(ResolvableType eventType, @Nullable Class sourceType) { Assert.notNull(eventType, "Event type must not be null"); this.eventType = eventType; this.sourceType = sourceType; } @Override public boolean equals(@Nullable Object other) { return (this == other || (other instanceof ListenerCacheKey that && this.eventType.equals(that.eventType) && ObjectUtils.nullSafeEquals(this.sourceType, that.sourceType))); } @Override public int hashCode() { return this.eventType.hashCode() * 29 + ObjectUtils.nullSafeHashCode(this.sourceType); } @Override public String toString() { return "ListenerCacheKey [eventType = " + this.eventType + ", sourceType = " + this.sourceType + "]"; } @Override public int compareTo(ListenerCacheKey other) { int result = this.eventType.toString().compareTo(other.eventType.toString()); if (result == 0) { if (this.sourceType == null) { return (other.sourceType == null ? 0 : -1); } if (other.sourceType == null) { return 1; } result = this.sourceType.getName().compareTo(other.sourceType.getName()); } return result; } } /** * Helper class that encapsulates a specific set of target listeners, * allowing for efficient retrieval of pre-filtered listeners. *

An instance of this helper gets cached per event type and source type. */ private class CachedListenerRetriever { @Nullable public volatile Set> applicationListeners; @Nullable public volatile Set applicationListenerBeans; @Nullable public Collection> getApplicationListeners() { Set> applicationListeners = this.applicationListeners; Set applicationListenerBeans = this.applicationListenerBeans; if (applicationListeners == null || applicationListenerBeans == null) { // Not fully populated yet return null; } List> allListeners = new ArrayList<>( applicationListeners.size() + applicationListenerBeans.size()); allListeners.addAll(applicationListeners); if (!applicationListenerBeans.isEmpty()) { BeanFactory beanFactory = getBeanFactory(); for (String listenerBeanName : applicationListenerBeans) { try { allListeners.add(beanFactory.getBean(listenerBeanName, ApplicationListener.class)); } catch (NoSuchBeanDefinitionException ex) { // Singleton listener instance (without backing bean definition) disappeared - // probably in the middle of the destruction phase } } } if (!applicationListenerBeans.isEmpty()) { AnnotationAwareOrderComparator.sort(allListeners); } return allListeners; } } /** * Helper class that encapsulates a general set of target listeners. */ private class DefaultListenerRetriever { public final Set> applicationListeners = new LinkedHashSet<>(); public final Set applicationListenerBeans = new LinkedHashSet<>(); public Collection> getApplicationListeners() { List> allListeners = new ArrayList<>( this.applicationListeners.size() + this.applicationListenerBeans.size()); allListeners.addAll(this.applicationListeners); if (!this.applicationListenerBeans.isEmpty()) { BeanFactory beanFactory = getBeanFactory(); for (String listenerBeanName : this.applicationListenerBeans) { try { ApplicationListener listener = beanFactory.getBean(listenerBeanName, ApplicationListener.class); if (!allListeners.contains(listener)) { allListeners.add(listener); } } catch (NoSuchBeanDefinitionException ex) { // Singleton listener instance (without backing bean definition) disappeared - // probably in the middle of the destruction phase } } } AnnotationAwareOrderComparator.sort(allListeners); return allListeners; } } }





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