谈谈Spring的ConfigurationClassPostProcessor

ConfigurationClassPostProcessor

1、它是干什么作用的?

首先这个类处于的位置:org.springframework.context.annotation.ConfigurationClassPostProcessor

它是用来解析我们的配置类的,如果你类上面加入了@Configuration,@CompentScan等,它就会你的这些配置解析出来

2、它是如果实现功能的?

示例代码

public class Main1 {
	public static void test1(){
		AnnotationConfigApplicationContext applicationContext = new AnnotationConfigApplicationContext();// line1
		applicationContext.register(AppConfig.class);// line2
		applicationContext.refresh();// line3
	}
	public static void main(String[] args) {
		test1();
	}
}

@Configuration
@ComponentScan("com.dh")
public class AppConfig {
}

2.1、Spring什么时候即将ConfigurationClassPostProcessor加入的

示例代码中写了一个Main1和一个AppConfig,Main1主要用于我们测试,AppConfig作为配置类并注册到Spring当中。

注意:

​ 我们此处new AnnotationConfigApplicationContext(AppConfig.class)和new以后applicationContext.register(AppConfig.class);效果是一样的

断点进入line1

public AnnotationConfigApplicationContext() {
		/* 初始化AnnotatedBeanDefinitionReader,注意这里传入了一个Bean的registry(Bean注册器)。这个注册器其实就是本类,本类即是Context,也是Registry */
		this.reader = new AnnotatedBeanDefinitionReader(this);	// line1
		this.scanner = new ClassPathBeanDefinitionScanner(this); // line2
	}

这里初始化了一个Reader和一个Scanner,不过需要注意,构造方法需要的是BeanDefinitionRegistry,而我们的AnnotationConfigApplicationContext的父类GenericApplicationContext已经实现了BeanDefinitionRegistry接口的,其他的这两个是干啥的暂且不论

断点进去line1

再点进this的方法里面去:

public AnnotatedBeanDefinitionReader(BeanDefinitionRegistry registry, Environment environment) {
		Assert.notNull(registry, "BeanDefinitionRegistry must not be null");
		Assert.notNull(environment, "Environment must not be null");
		/* 赋值BeanRegistry到自己的属性上 */
		this.registry = registry;
		this.conditionEvaluator = new ConditionEvaluator(registry, environment, null);
		/* 注册一些BeanPostProcessor和配置的类,例如BeanPostProcessor的执行顺序比较器 */
		AnnotationConfigUtils.registerAnnotationConfigProcessors(this.registry);	// line1
	}

断点进去line1

再进入registerAnnotationConfigProcessors方法:

public static Set<BeanDefinitionHolder> registerAnnotationConfigProcessors(
			BeanDefinitionRegistry registry, @Nullable Object source) {
		/* 如果当前registry类型==DefaultListableBeanFactory,那么这个BeanFactory就是当前的registry,否则如果registry==GenericApplicationContext,则获取默认创建的beanfactory,再否则就是null了 */
		DefaultListableBeanFactory beanFactory = unwrapDefaultListableBeanFactory(registry);	// line0,拿到了BeanFactory
		if (beanFactory != null) {
			if (!(beanFactory.getDependencyComparator() instanceof AnnotationAwareOrderComparator)) {
				/* 主要是解析@Order和@Priority,用做于BeanPostProcessor执行时的顺序排序操作 */
				beanFactory.setDependencyComparator(AnnotationAwareOrderComparator.INSTANCE);
			}
			if (!(beanFactory.getAutowireCandidateResolver() instanceof ContextAnnotationAutowireCandidateResolver)) {
				/* ContextAnnotationAutowireCandidateResolver提供处理延迟加载的功能 */
				beanFactory.setAutowireCandidateResolver(new ContextAnnotationAutowireCandidateResolver());
			}
		}

		Set<BeanDefinitionHolder> beanDefs = new LinkedHashSet<>(8);
		/* 这里需要理解每个类的类型,将一些默认的BeanDefinition方寸 */
		if (!registry.containsBeanDefinition(CONFIGURATION_ANNOTATION_PROCESSOR_BEAN_NAME)) {
			RootBeanDefinition def = new RootBeanDefinition(ConfigurationClassPostProcessor.class);	// line1======重点重点重点重点重点重点重点重点
			def.setSource(source);
			beanDefs.add(registerPostProcessor(registry, def, CONFIGURATION_ANNOTATION_PROCESSOR_BEAN_NAME));
		}

		if (!registry.containsBeanDefinition(AUTOWIRED_ANNOTATION_PROCESSOR_BEAN_NAME)) {
			RootBeanDefinition def = new RootBeanDefinition(AutowiredAnnotationBeanPostProcessor.class);
			def.setSource(source);
			beanDefs.add(registerPostProcessor(registry, def, AUTOWIRED_ANNOTATION_PROCESSOR_BEAN_NAME));
		}

		if (!registry.containsBeanDefinition(REQUIRED_ANNOTATION_PROCESSOR_BEAN_NAME)) {
			RootBeanDefinition def = new RootBeanDefinition(RequiredAnnotationBeanPostProcessor.class);
			def.setSource(source);
			beanDefs.add(registerPostProcessor(registry, def, REQUIRED_ANNOTATION_PROCESSOR_BEAN_NAME));
		}

		// Check for JSR-250 support, and if present add the CommonAnnotationBeanPostProcessor.
		if (jsr250Present && !registry.containsBeanDefinition(COMMON_ANNOTATION_PROCESSOR_BEAN_NAME)) {
			RootBeanDefinition def = new RootBeanDefinition(CommonAnnotationBeanPostProcessor.class);
			def.setSource(source);
			beanDefs.add(registerPostProcessor(registry, def, COMMON_ANNOTATION_PROCESSOR_BEAN_NAME));
		}

		// Check for JPA support, and if present add the PersistenceAnnotationBeanPostProcessor.
		if (jpaPresent && !registry.containsBeanDefinition(PERSISTENCE_ANNOTATION_PROCESSOR_BEAN_NAME)) {
			RootBeanDefinition def = new RootBeanDefinition();
			try {
				def.setBeanClass(ClassUtils.forName(PERSISTENCE_ANNOTATION_PROCESSOR_CLASS_NAME,
						AnnotationConfigUtils.class.getClassLoader()));
			}
			catch (ClassNotFoundException ex) {
				throw new IllegalStateException(
						"Cannot load optional framework class: " + PERSISTENCE_ANNOTATION_PROCESSOR_CLASS_NAME, ex);
			}
			def.setSource(source);
			beanDefs.add(registerPostProcessor(registry, def, PERSISTENCE_ANNOTATION_PROCESSOR_BEAN_NAME));
		}

		if (!registry.containsBeanDefinition(EVENT_LISTENER_PROCESSOR_BEAN_NAME)) {
			RootBeanDefinition def = new RootBeanDefinition(EventListenerMethodProcessor.class);
			def.setSource(source);
			beanDefs.add(registerPostProcessor(registry, def, EVENT_LISTENER_PROCESSOR_BEAN_NAME));
		}

		if (!registry.containsBeanDefinition(EVENT_LISTENER_FACTORY_BEAN_NAME)) {
			RootBeanDefinition def = new RootBeanDefinition(DefaultEventListenerFactory.class);
			def.setSource(source);
			beanDefs.add(registerPostProcessor(registry, def, EVENT_LISTENER_FACTORY_BEAN_NAME));
		}

		return beanDefs;
	}

注意查看:line1的位置,

这里面new了一个RootBeanDefinition,关于BeanDefinition的概念请自行百度(其实BeanDefinition就是Spring用于对我们存在Spring容器内类的信息的描述),这里RootBeanDefinition是sprng内置的BeanDefinition,

beanDefs.add(registerPostProcessor(registry, def, CONFIGURATION_ANNOTATION_PROCESSOR_BEAN_NAME));

其中这一行代码中registerPostProcessor的作用是组装成BeanDefinitionHolder然后返回,返回后再add到beanDefs中去。

至此我们看到了spring是何时在何处将ConfigurationClassPostProcessor加入的。

注意:line0处获取到了我们的BeanFactory,class为:DefaultListableBeanFactory,而实际上创建BeanFactory的地方在AnnotationConfigApplicationContext的父类org.springframework.context.support.GenericApplicationContext#GenericApplicationContext()的这个构造方法当中。

2.2、如何将我们的配置类加入到Spring中的

定位debug到示例代码中的line2位置

谈谈Spring的ConfigurationClassPostProcessor

进入这行方法

public void register(Class<?>... annotatedClasses) {
   Assert.notEmpty(annotatedClasses, "At least one annotated class must be specified");
   this.reader.register(annotatedClasses);// line1
}

Assert.notEmpty就是一个判空的方法,不管它,下line1

进入line1

public void register(Class<?>... annotatedClasses) {
		/* 此处可能有多个类,循环的registerBean */
		for (Class<?> annotatedClass : annotatedClasses) {
			registerBean(annotatedClass); // line1
		}
	}

因为可以传入多个class,所以这里是循环的,但我们目前只传了一个AppConfig.class,所以只循环一次,进入line1

进入line1

再进入doRegisterBean方法,就看到如下代码:

void doRegisterBean(Class<T> annotatedClass, @Nullable Supplier<T> instanceSupplier, @Nullable String name,
			@Nullable Class<? extends Annotation>[] qualifiers, BeanDefinitionCustomizer... definitionCustomizers) {
		/* 将当前的这个类放入到BeanDefinition中,注意此处是Annotated的,所以注册进来的这个类必须带有注解,如果不带有注解则不会被后续解析的 */
		AnnotatedGenericBeanDefinition abd = new AnnotatedGenericBeanDefinition(annotatedClass);	
		/* 判断是否需要解析。该类上没有注解的时候则不处理,直接return掉 */
		if (this.conditionEvaluator.shouldSkip(abd.getMetadata())) {// line1
			return;
		}

		abd.setInstanceSupplier(instanceSupplier);
		/* 拿到Scope注解的内容  */
		ScopeMetadata scopeMetadata = this.scopeMetadataResolver.resolveScopeMetadata(abd);
		/* 给BeanDefinition设置scope,注意默认是singleton的 */
		abd.setScope(scopeMetadata.getScopeName());
		/* 获取BeanName,这个方法时可以执行Bean的名称的,如果没有指定,则生成一个 */
		String beanName = (name != null ? name : this.beanNameGenerator.generateBeanName(abd, this.registry));
		/* 解析一些通用的注解,如果存在则设置到BeanDefinition中去,例如@Primary、@Lazy等 */
		AnnotationConfigUtils.processCommonDefinitionAnnotations(abd);
		if (qualifiers != null) {
			for (Class<? extends Annotation> qualifier : qualifiers) {
				if (Primary.class == qualifier) {
					abd.setPrimary(true);
				}
				else if (Lazy.class == qualifier) {
					abd.setLazyInit(true);
				}
				else {
					abd.addQualifier(new AutowireCandidateQualifier(qualifier));
				}
			}
		}
		for (BeanDefinitionCustomizer customizer : definitionCustomizers) {
			customizer.customize(abd);
		}
		/* 将BeanName和BeanDefinition组装到BeanDefinitionHolder中去 */
		BeanDefinitionHolder definitionHolder = new BeanDefinitionHolder(abd, beanName);
		definitionHolder = AnnotationConfigUtils.applyScopedProxyMode(scopeMetadata, definitionHolder, this.registry);
		/* 将beandefinition和beanName放入到分别对应的集合中 */
		BeanDefinitionReaderUtils.registerBeanDefinition(definitionHolder, this.registry);	// line2
	}

重点看line1和line2。

line1作用在于如果我们的AppConfig没有注解,那么就不进行后续的操作,直接return了。

line2作用在于如果将我们的BeanDefinition存入到Spring专门放置BeanDefinition的集合中。

注意,doRegisterBean方法当前是在AnnotatedBeanDefinitionReader中,也就是2.1当中第一部代码的line1的位置,注意当时new AnnotatedBeanDefinitionReader的时候传入的this就是我们本身AnnotationConfigApplicationContext

进入BeanDefinitionReaderUtils.registerBeanDefinition(definitionHolder, this.registry);

public static void registerBeanDefinition(
			BeanDefinitionHolder definitionHolder, BeanDefinitionRegistry registry)
			throws BeanDefinitionStoreException {

		// Register bean definition under primary name.
		String beanName = definitionHolder.getBeanName();
		/* 注册Bean,注意这里的registry也是context */
		registry.registerBeanDefinition(beanName, definitionHolder.getBeanDefinition());	// line1

		/* 别名 */
		// Register aliases for bean name, if any.
		String[] aliases = definitionHolder.getAliases();
		if (aliases != null) {
			for (String alias : aliases) {
				registry.registerAlias(beanName, alias);
			}
		}
	}

注意看line1的位置,这里使用registry(也就是我们的AnnotationConfigApplicationContext)的registerBeanDefinition方法进行注册BeanDefinition。

我们进入到AnnotationConfigApplicationContext的父类GenericApplicationContext的registerBeanDefinition方法中:org.springframework.context.support.GenericApplicationContext#registerBeanDefinition

@Override
public void registerBeanDefinition(String beanName, BeanDefinition beanDefinition)
    throws BeanDefinitionStoreException {
    this.beanFactory.registerBeanDefinition(beanName, beanDefinition);	// line1
}

line1处使用BeanFactory的registerBeanDefinition方法加入BeanDefinition,我们代码定位到org.springframework.beans.factory.support.DefaultListableBeanFactory#registerBeanDefinition,至于为什么是DefaultListableBeanFactory,请看上方2.1的结尾处有说明:

public void registerBeanDefinition(String beanName, BeanDefinition beanDefinition)
			throws BeanDefinitionStoreException {

		Assert.hasText(beanName, "Bean name must not be empty");
		Assert.notNull(beanDefinition, "BeanDefinition must not be null");

		...........很多代码

		BeanDefinition existingDefinition = this.beanDefinitionMap.get(beanName);
		if (existingDefinition != null) {
			...........很多代码
			this.beanDefinitionMap.put(beanName, beanDefinition);
		}
		else {
			if (hasBeanCreationStarted()) {
				// Cannot modify startup-time collection elements anymore (for stable iteration)
				synchronized (this.beanDefinitionMap) {
					this.beanDefinitionMap.put(beanName, beanDefinition);
					...........很多代码
				}
			}
			else {
				// Still in startup registration phase
				this.beanDefinitionMap.put(beanName, beanDefinition);
                this.beanDefinitionNames.add(beanName);
				...........很多代码
			}
			this.frozenBeanDefinitionNames = null;
		}

		if (existingDefinition != null || containsSingleton(beanName)) {
			resetBeanDefinition(beanName);
		}
		else if (isConfigurationFrozen()) {
			clearByTypeCache();
		}
	}

这里面有很多校验的代码,我们不进行深究,所以我给去掉了,注意看this.beanDefinitionMap.put(beanName, beanDefinition);这一行,这一行就是将我们的类的名称和BeanDefinition放入一个集合中,这个集合的样子如下:

/** Map of bean definition objects, keyed by bean name */
private final Map<String, BeanDefinition> beanDefinitionMap = new ConcurrentHashMap<>(256);

除此之外它还会将类的名称放入一个集合中,this.beanDefinitionNames.add(beanName);,这个装类名称的集合样子如下:

/** List of bean definition names, in registration order */
private volatile List<String> beanDefinitionNames = new ArrayList<>(256);

至此我们看到了它是如何将我们的自己的配置类的信息存入到了Spring。

2.3、它是如果拿到和解析我们的配置类

进入到示例代码的line3处:

applicationContext.refresh();

你可能疑惑为什么要调用这一行代码,这一行代码是刷新上下文,spring中很多功能都是在这个方法里面去实现的,如果我们示例代码中line1是这样写的:

AnnotationConfigApplicationContext applicationContext = new AnnotationConfigApplicationContext(AppConfig.class);

那么它的构造方法就会如下:

public AnnotationConfigApplicationContext(Class<?>... annotatedClasses) {
   this();
   register(annotatedClasses);
   refresh();
}

你应该能发现,我们示例代码中是把这个register和refresh拆分出来自己去调用了,而不是用这个构造器自己去调用。

断点进入refresh方法

@Override
	public void refresh() throws BeansException, IllegalStateException {
		synchronized (this.startupShutdownMonitor) {
			// Prepare this context for refreshing.,准备提前工作,例如设置一些标志位,开始时间等
			prepareRefresh();

			// Tell the subclass to refresh the internal bean factory.,获取BeanFactory
			ConfigurableListableBeanFactory beanFactory = obtainFreshBeanFactory();

			// Prepare the bean factory for use in this context.,做一些Bean的准备工作
			prepareBeanFactory(beanFactory);

			try {
				// Allows post-processing of the bean factory in context subclasses.
				// 空方法
				postProcessBeanFactory(beanFactory);

				// Invoke factory processors registered as beans in the context.
				// 到此处的时候,this.BeanFactory的beanDefinitionMap中已经存在的BeanDefinitionMap为预制的,如果我们提前register了,那么此处也会存在
				invokeBeanFactoryPostProcessors(beanFactory);

				// Register bean processors that intercept bean creation.注册BeanPostProcessor
				registerBeanPostProcessors(beanFactory);

				// Initialize message source for this context.
				initMessageSource();

				// Initialize event multicaster for this context.
				initApplicationEventMulticaster();

				// Initialize other special beans in specific context subclasses.
				onRefresh();

				// Check for listener beans and register them.
				registerListeners();

				// Instantiate all remaining (non-lazy-init) singletons.
				finishBeanFactoryInitialization(beanFactory);

				// Last step: publish corresponding event.
				finishRefresh();
			}

			catch (BeansException ex) {
				if (logger.isWarnEnabled()) {
					logger.warn("Exception encountered during context initialization - " +
							"cancelling refresh attempt: " + ex);
				}

				// Destroy already created singletons to avoid dangling resources.
				destroyBeans();

				// Reset 'active' flag.
				cancelRefresh(ex);

				// Propagate exception to caller.
				throw ex;
			}

			finally {
				// Reset common introspection caches in Spring's core, since we
				// might not ever need metadata for singleton beans anymore...
				resetCommonCaches();
			}
		}
	}

这里面我们不会去详细解释每一个方法,我后面会出专门针对每一个方法的解释文章。

我们重点看invokeBeanFactoryPostProcessors方法,这是本次随笔的关键。

invokeBeanFactoryPostProcessors

protected void invokeBeanFactoryPostProcessors(ConfigurableListableBeanFactory beanFactory) {
		PostProcessorRegistrationDelegate.invokeBeanFactoryPostProcessors(beanFactory, getBeanFactoryPostProcessors());// line1

		// Detect a LoadTimeWeaver and prepare for weaving, if found in the meantime
		// (e.g. through an @Bean method registered by ConfigurationClassPostProcessor)
		if (beanFactory.getTempClassLoader() == null && beanFactory.containsBean(LOAD_TIME_WEAVER_BEAN_NAME)) {
			beanFactory.addBeanPostProcessor(new LoadTimeWeaverAwareProcessor(beanFactory));
			beanFactory.setTempClassLoader(new ContextTypeMatchClassLoader(beanFactory.getBeanClassLoader()));
		}
	}

getBeanFactoryPostProcessors()这行代码是获取我们自定义的BeanFactoryPostProcessor。

附:

​ 什么是BeanFactoryPostProcessor?

我们进入到这个接口中会发现,此中有postProcessBeanFactory方法,如果我们创建一个类实现于postProcessBeanFactory的话,那么在类的信息组装完成后来调用我们实现此接口的postProcessBeanFactory方法,我们可以在这里面进行其他的操作,举例ConfigurationClassPostProcessor就是实现了BeanFactoryPostProcessor接口,然后它在这个方法里面去看容器中是否有类是配置类,如果有,则解析配置信息,然后解析后对beanFactory进行其他操作,这里的其他操作例如解析到CompentScan,然后拿到扫描包下的类,然后自己组装后放入到beanFactory中,那这样岂不是就是实现了扫描包?

进入line1

line1

public static void invokeBeanFactoryPostProcessors(
			ConfigurableListableBeanFactory beanFactory, List<BeanFactoryPostProcessor> beanFactoryPostProcessors) {
		// ==============================第一部分==============================
		// Invoke BeanDefinitionRegistryPostProcessors first, if any.
		Set<String> processedBeans = new HashSet<>();

		if (beanFactory instanceof BeanDefinitionRegistry) {
			BeanDefinitionRegistry registry = (BeanDefinitionRegistry) beanFactory;
			List<BeanFactoryPostProcessor> regularPostProcessors = new ArrayList<>();
			List<BeanDefinitionRegistryPostProcessor> registryProcessors = new ArrayList<>();
			/* 此处判断我们自己自定义的BeanPostProcessor是否为BeanDefinitionRegistryPostProcessor类型的,如果是,那么则直接执行以下,否则就到后面去执行默认自带的BeanDefinitionRegistryPostProcessor */
			for (BeanFactoryPostProcessor postProcessor : beanFactoryPostProcessors) {
				/* 判断BeanPostProcessor的类型是否为BeanDefinitionRegistryPostProcessor,但注意它的类型一定为BeanFactoryPostProcessor */
				if (postProcessor instanceof BeanDefinitionRegistryPostProcessor) {
					BeanDefinitionRegistryPostProcessor registryProcessor =
							(BeanDefinitionRegistryPostProcessor) postProcessor;
					registryProcessor.postProcessBeanDefinitionRegistry(registry);
					registryProcessors.add(registryProcessor);
				}
				else {
					regularPostProcessors.add(postProcessor);
				}
			}
            // ==============================第一部分结束==============================

			// Do not initialize FactoryBeans here: We need to leave all regular beans
			// uninitialized to let the bean factory post-processors apply to them!
			// Separate between BeanDefinitionRegistryPostProcessors that implement
			// PriorityOrdered, Ordered, and the rest.这个就是一个临时的List用来存放找到的内置的BeanDefinitionRegistryPostProcessor
			List<BeanDefinitionRegistryPostProcessor> currentRegistryProcessors = new ArrayList<>();
			// BeanDefinitionRegistry
			// First, invoke the BeanDefinitionRegistryPostProcessors that implement PriorityOrdered.拿到所有实现BeanDefinitionRegistryPostProcessor接口的BeanFactoryPostProcessor,并放置到currentRegistryProcessors中
            // ==============================第二部分==============================
			String[] postProcessorNames =
					beanFactory.getBeanNamesForType(BeanDefinitionRegistryPostProcessor.class, true, false);
			for (String ppName : postProcessorNames) {
				if (beanFactory.isTypeMatch(ppName, PriorityOrdered.class)) {
					currentRegistryProcessors.add(beanFactory.getBean(ppName, BeanDefinitionRegistryPostProcessor.class));
					processedBeans.add(ppName);
				}
			}
             // ==============================第二部分结束==============================
			/** 对Processor进行排序,该排序规则对象的设置位置为:
			 * org.springframework.context.annotation.AnnotationConfigUtils.registerAnnotationConfigProcessors(org.springframework.beans.factory.support.BeanDefinitionRegistry, java.lang.Object)
			 * beanFactory.setDependencyComparator(AnnotationAwareOrderComparator.INSTANCE);
			 * 此时currentRegistryProcessors中存放的时spring内置的,registryProcessors本身放置的是我们自定义的,需要将两个给合并起来
			 */
			sortPostProcessors(currentRegistryProcessors, beanFactory);
			registryProcessors.addAll(currentRegistryProcessors);
			/* 去调用实现了BeanDefinitionRegistryPostProcessor接口的BeanFactoryPostProcessor,
			* 此中是为了做一些初始化以前bean工厂需要做的事情,使用回调的方法操作不仅可以增加扩展性,还可以便于维护
			* */
			invokeBeanDefinitionRegistryPostProcessors(currentRegistryProcessors, registry);
			currentRegistryProcessors.clear();/* 清除list */

			// Next, invoke the BeanDefinitionRegistryPostProcessors that implement Ordered.
			postProcessorNames = beanFactory.getBeanNamesForType(BeanDefinitionRegistryPostProcessor.class, true, false);
			for (String ppName : postProcessorNames) {
				if (!processedBeans.contains(ppName) && beanFactory.isTypeMatch(ppName, Ordered.class)) {
					currentRegistryProcessors.add(beanFactory.getBean(ppName, BeanDefinitionRegistryPostProcessor.class));
					processedBeans.add(ppName);
				}
			}
			sortPostProcessors(currentRegistryProcessors, beanFactory);
			registryProcessors.addAll(currentRegistryProcessors);
			invokeBeanDefinitionRegistryPostProcessors(currentRegistryProcessors, registry);
			currentRegistryProcessors.clear();

			// Finally, invoke all other BeanDefinitionRegistryPostProcessors until no further ones appear.
			boolean reiterate = true;
			while (reiterate) {
				reiterate = false;
				postProcessorNames = beanFactory.getBeanNamesForType(BeanDefinitionRegistryPostProcessor.class, true, false);
				for (String ppName : postProcessorNames) {
					if (!processedBeans.contains(ppName)) {
						currentRegistryProcessors.add(beanFactory.getBean(ppName, BeanDefinitionRegistryPostProcessor.class));
						processedBeans.add(ppName);
						reiterate = true;
					}
				}
				sortPostProcessors(currentRegistryProcessors, beanFactory);
				registryProcessors.addAll(currentRegistryProcessors);
				invokeBeanDefinitionRegistryPostProcessors(currentRegistryProcessors, registry);
				currentRegistryProcessors.clear();
			}

			// Now, invoke the postProcessBeanFactory callback of all processors handled so far.
			invokeBeanFactoryPostProcessors(registryProcessors, beanFactory);
			invokeBeanFactoryPostProcessors(regularPostProcessors, beanFactory);
		}

		else {
			// Invoke factory processors registered with the context instance.
			invokeBeanFactoryPostProcessors(beanFactoryPostProcessors, beanFactory);
		}

		// Do not initialize FactoryBeans here: We need to leave all regular beans
		// uninitialized to let the bean factory post-processors apply to them!
		String[] postProcessorNames =
				beanFactory.getBeanNamesForType(BeanFactoryPostProcessor.class, true, false);

		// Separate between BeanFactoryPostProcessors that implement PriorityOrdered,
		// Ordered, and the rest.
		List<BeanFactoryPostProcessor> priorityOrderedPostProcessors = new ArrayList<>();
		List<String> orderedPostProcessorNames = new ArrayList<>();
		List<String> nonOrderedPostProcessorNames = new ArrayList<>();
		for (String ppName : postProcessorNames) {
			if (processedBeans.contains(ppName)) {
				// skip - already processed in first phase above
			}
			else if (beanFactory.isTypeMatch(ppName, PriorityOrdered.class)) {
				priorityOrderedPostProcessors.add(beanFactory.getBean(ppName, BeanFactoryPostProcessor.class));
			}
			else if (beanFactory.isTypeMatch(ppName, Ordered.class)) {
				orderedPostProcessorNames.add(ppName);
			}
			else {
				nonOrderedPostProcessorNames.add(ppName);
			}
		}

		// First, invoke the BeanFactoryPostProcessors that implement PriorityOrdered.
		sortPostProcessors(priorityOrderedPostProcessors, beanFactory);
		invokeBeanFactoryPostProcessors(priorityOrderedPostProcessors, beanFactory);

		// Next, invoke the BeanFactoryPostProcessors that implement Ordered.
		List<BeanFactoryPostProcessor> orderedPostProcessors = new ArrayList<>();
		for (String postProcessorName : orderedPostProcessorNames) {
			orderedPostProcessors.add(beanFactory.getBean(postProcessorName, BeanFactoryPostProcessor.class));
		}
		sortPostProcessors(orderedPostProcessors, beanFactory);
		invokeBeanFactoryPostProcessors(orderedPostProcessors, beanFactory);

		// Finally, invoke all other BeanFactoryPostProcessors.
		List<BeanFactoryPostProcessor> nonOrderedPostProcessors = new ArrayList<>();
		for (String postProcessorName : nonOrderedPostProcessorNames) {
			nonOrderedPostProcessors.add(beanFactory.getBean(postProcessorName, BeanFactoryPostProcessor.class));
		}
		invokeBeanFactoryPostProcessors(nonOrderedPostProcessors, beanFactory);

		// Clear cached merged bean definitions since the post-processors might have
		// modified the original metadata, e.g. replacing placeholders in values...
		beanFactory.clearMetadataCache();
	}

我们先看第一部分,第一部分中主要做的事情是将我们自定义的BeanFactoryPostProcessor执行一次。

第二部分中,通过类型从Factory中拿到实现了BeanDefinitionRegistryPostProcessor接口的bean的名称,然后循环的将BeanDefinition存入到currentRegistryProcessors集合中。我们的ConfigurationClassPostProcessor就存在于currentRegistryProcessors中

然后下一行代码中:sortPostProcessors(currentRegistryProcessors, beanFactory);这个是将我们的集合进行一个排序,如果多个BeanDefinitioRegistryPostProcessor的话则需要决定其执行先后顺序,

再到下面的第二行代码中:invokeBeanDefinitionRegistryPostProcessors(currentRegistryProcessors, registry);这个方法就是去调用我们的currentRegistryProcessors集合中的BeanFactoryPostProcessor了,进入这个方法。

/**
	 * Invoke the given BeanDefinitionRegistryPostProcessor beans.
	 */
private static void invokeBeanDefinitionRegistryPostProcessors(
    Collection<? extends BeanDefinitionRegistryPostProcessor> postProcessors, BeanDefinitionRegistry registry) {

    for (BeanDefinitionRegistryPostProcessor postProcessor : postProcessors) {
        postProcessor.postProcessBeanDefinitionRegistry(registry);
    }
}

进入到postProcessor.postProcessBeanDefinitionRegistry(registry);方法中。

就会进入到ConfigurationClassPostProcessor实现的postProcessBeanDefinitionRegistry方法中去。

@Override
	public void postProcessBeanDefinitionRegistry(BeanDefinitionRegistry registry) {
		int registryId = System.identityHashCode(registry);
		if (this.registriesPostProcessed.contains(registryId)) {
			throw new IllegalStateException(
					"postProcessBeanDefinitionRegistry already called on this post-processor against " + registry);
		}
		if (this.factoriesPostProcessed.contains(registryId)) {
			throw new IllegalStateException(
					"postProcessBeanFactory already called on this post-processor against " + registry);
		}
		this.registriesPostProcessed.add(registryId);

		processConfigBeanDefinitions(registry); // line1
	}

进入到line1中

/**
	 * Build and validate a configuration model based on the registry of
	 * {@link Configuration} classes.
	 */
	public void processConfigBeanDefinitions(BeanDefinitionRegistry registry) {
		List<BeanDefinitionHolder> configCandidates = new ArrayList<>();
		String[] candidateNames = registry.getBeanDefinitionNames();/*获取所有BeanDefinition中的Bean的名称*/		// line1

		for (String beanName : candidateNames) {
			BeanDefinition beanDef = registry.getBeanDefinition(beanName);/* 循环拿到所有的BeanDefiniton */	// line2
			if (ConfigurationClassUtils.isFullConfigurationClass(beanDef) ||	/* 判断该类是否已经加载过,如果已经加载过,那么则打一个log */	// line3
					ConfigurationClassUtils.isLiteConfigurationClass(beanDef)) {
				/* 说明此类已经加载过,无需再加载 */
				if (logger.isDebugEnabled()) {
					logger.debug("Bean definition has already been processed as a configuration class: " + beanDef);
				}
			}
			/* 如果没加载过,那么判断此类是否是配置类,如果是则加入到configCandidates中后面会对这些配置类进行解析, */
			else if (ConfigurationClassUtils.checkConfigurationClassCandidate(beanDef, this.metadataReaderFactory)) {	// line4
				configCandidates.add(new BeanDefinitionHolder(beanDef, beanName));
			}
		}

		// 如果配置类一个都没有,那就没必要继续往下一步走了
		if (configCandidates.isEmpty()) {																				// line5
			return;
		}

		// Sort by previously determined @Order value, if applicable,对前面解析出来带有Configration相关的集合排序,此排序值取决于该这些类上面放置的@Order注解
		configCandidates.sort((bd1, bd2) -> {																			// line6
			int i1 = ConfigurationClassUtils.getOrder(bd1.getBeanDefinition());
			int i2 = ConfigurationClassUtils.getOrder(bd2.getBeanDefinition());
			return Integer.compare(i1, i2);
		});

		// Detect any custom bean name generation strategy supplied through the enclosing application context,如果我们设置了BeanName生成器,那么则使用我们的,否则就使用Spring内置的
		SingletonBeanRegistry sbr = null;
		if (registry instanceof SingletonBeanRegistry) {
			sbr = (SingletonBeanRegistry) registry;
			if (!this.localBeanNameGeneratorSet) {
				BeanNameGenerator generator = (BeanNameGenerator) sbr.getSingleton(CONFIGURATION_BEAN_NAME_GENERATOR);
				if (generator != null) {
					this.componentScanBeanNameGenerator = generator;
					this.importBeanNameGenerator = generator;
				}
			}
		}

		if (this.environment == null) {
			this.environment = new StandardEnvironment();
		}

		// Parse each @Configuration class
		ConfigurationClassParser parser = new ConfigurationClassParser(
				this.metadataReaderFactory, this.problemReporter, this.environment,
				this.resourceLoader, this.componentScanBeanNameGenerator, registry);

		Set<BeanDefinitionHolder> candidates = new LinkedHashSet<>(configCandidates);									// line7
		Set<ConfigurationClass> alreadyParsed = new HashSet<>(configCandidates.size());
		do {/* 解析这些类 */
			parser.parse(candidates);																					// line8
			parser.validate();

			Set<ConfigurationClass> configClasses = new LinkedHashSet<>(parser.getConfigurationClasses());
			configClasses.removeAll(alreadyParsed);

			// Read the model and create bean definitions based on its content
			if (this.reader == null) {
				this.reader = new ConfigurationClassBeanDefinitionReader(
						registry, this.sourceExtractor, this.resourceLoader, this.environment,
						this.importBeanNameGenerator, parser.getImportRegistry());
			}
			this.reader.loadBeanDefinitions(configClasses);
			alreadyParsed.addAll(configClasses);

			candidates.clear();
			if (registry.getBeanDefinitionCount() > candidateNames.length) {
				String[] newCandidateNames = registry.getBeanDefinitionNames();
				Set<String> oldCandidateNames = new HashSet<>(Arrays.asList(candidateNames));
				Set<String> alreadyParsedClasses = new HashSet<>();
				for (ConfigurationClass configurationClass : alreadyParsed) {
					alreadyParsedClasses.add(configurationClass.getMetadata().getClassName());
				}
				for (String candidateName : newCandidateNames) {
					if (!oldCandidateNames.contains(candidateName)) {
						BeanDefinition bd = registry.getBeanDefinition(candidateName);
						if (ConfigurationClassUtils.checkConfigurationClassCandidate(bd, this.metadataReaderFactory) &&
								!alreadyParsedClasses.contains(bd.getBeanClassName())) {
							candidates.add(new BeanDefinitionHolder(bd, candidateName));
						}
					}
				}
				candidateNames = newCandidateNames;
			}
		}
		while (!candidates.isEmpty());
        
		......省略了一些代码
	}

line1中:从beanFactory中获取到所有BeanDefinition的bean名称

line2中:根据当前循环的beanName的BeanDefinition

line3中:如果这个类已经被加载过,则就打个log,没加载过则进入else中

line4中:判断这个类是不是配置类,如果是则存入configCandidates集合中去,我们进入到ConfigurationClassUtils.checkConfigurationClassCandidate(beanDef, this.metadataReaderFactory)这个方法中去。为了防止排版太混乱,我就直接在代码里面进行注释形式的解释

public static boolean checkConfigurationClassCandidate(BeanDefinition beanDef, MetadataReaderFactory metadataReaderFactory) {
    	// 拿到当前类的全包名。例如现在的这个是com.dh.config.AppConfig
		String className = beanDef.getBeanClassName();
    	// 基础判个空
		if (className == null || beanDef.getFactoryMethodName() != null) {
			return false;
		}
    	// 创建AnnotationMetadata变量用来存储下面获取到的元信息,元信息就是我们类的一些信息,例如类名、有哪些注解,有哪些方法,有哪些字段等等
		AnnotationMetadata metadata;/* 此处需要拿到该BeanDefinition的metadata信息,但由于注解BeanDefinition、XML的BeanDefinition获取metadata的方式不一样,所以需要分别判断其类型后再获取*/
		/**
		* 下面为什么要判断BeanDefinition的类型呢?
		* 	因为需要有些不同的BeanDefinition实现类获取元信息metadata的方法不一样,所以得这样干
		*/
    	if (beanDef instanceof AnnotatedBeanDefinition &&
				className.equals(((AnnotatedBeanDefinition) beanDef).getMetadata().getClassName())) {
			// Can reuse the pre-parsed metadata from the given BeanDefinition...
			metadata = ((AnnotatedBeanDefinition) beanDef).getMetadata();
		}
		else if (beanDef instanceof AbstractBeanDefinition && ((AbstractBeanDefinition) beanDef).hasBeanClass()) {
			// Check already loaded Class if present...
			// since we possibly can't even load the class file for this Class.
			Class<?> beanClass = ((AbstractBeanDefinition) beanDef).getBeanClass();
			metadata = new StandardAnnotationMetadata(beanClass, true);
		}
		else {
			try {
				MetadataReader metadataReader = metadataReaderFactory.getMetadataReader(className);
				metadata = metadataReader.getAnnotationMetadata();
			}
			catch (IOException ex) {
				if (logger.isDebugEnabled()) {
					logger.debug("Could not find class file for introspecting configuration annotations: " + className, ex);
				}
				return false;
			}
		}
		/* 判断是否加了@Configuration注解 */
		if (isFullConfigurationCandidate(metadata)) {
			beanDef.setAttribute(CONFIGURATION_CLASS_ATTRIBUTE, CONFIGURATION_CLASS_FULL);/*设置标志位*/
		}/* 如果该类为一个接口,那么false,否则判断其是否包含如下注解:@Import、@Component、@ImportResource、@ComponentScan、方法上是否包含@Bean */
		else if (isLiteConfigurationCandidate(metadata)) {
			beanDef.setAttribute(CONFIGURATION_CLASS_ATTRIBUTE, CONFIGURATION_CLASS_LITE);/*设置标志位*/
		}
		else {
			return false;
		}
		// 如果排序了,则设置排序标志,@Order
		// It's a full or lite configuration candidate... Let's determine the order value, if any.
		Integer order = getOrder(metadata);
		if (order != null) {
			beanDef.setAttribute(ORDER_ATTRIBUTE, order);
		}

		return true;
	}

line5中:如果configCandidates集合中没有元素,那么就不操作了,因为当前这个ConfigurationClassPostProcessor最主要的作用就是解析配置类,既然容器中一个配置类都没有,那还跑个der

line6中:对configCandidates中的配置类进行排序,排序的依据是配置类上的@Order,这个可以在line4方法的解释中最底下可以看到。

line7中:创建一个Set集合,然后下面此集合就会被传入进行解析。

line8中:解析这些配置类,我们进入到这个方法里面去

	public void parse(Set<BeanDefinitionHolder> configCandidates) {
		this.deferredImportSelectors = new LinkedList<>();

		for (BeanDefinitionHolder holder : configCandidates) {
			BeanDefinition bd = holder.getBeanDefinition();
			try {
                // line1
				if (bd instanceof AnnotatedBeanDefinition) {
					parse(((AnnotatedBeanDefinition) bd).getMetadata(), holder.getBeanName());
				}
				else if (bd instanceof AbstractBeanDefinition && ((AbstractBeanDefinition) bd).hasBeanClass()) {
					parse(((AbstractBeanDefinition) bd).getBeanClass(), holder.getBeanName());
				}
				else {
					parse(bd.getBeanClassName(), holder.getBeanName());
				}
			}
			catch (BeanDefinitionStoreException ex) {
				throw ex;
			}
			catch (Throwable ex) {
				throw new BeanDefinitionStoreException(
						"Failed to parse configuration class [" + bd.getBeanClassName() + "]", ex);
			}
		}

		processDeferredImportSelectors();
	}

line1中:

​ 根据不同的BeanDefinition类型,去调用不同重载的parse方法,我们以第一个AnnotatedBeanDefinition的if成立后的调用parse方法为例,进入此方法

protected final void parse(AnnotationMetadata metadata, String beanName) throws IOException {
		processConfigurationClass(new ConfigurationClass(metadata, beanName));
}

空壳方法,进入processConfigurationClass(new ConfigurationClass(metadata, beanName));方法中,注意此处将元数据metadata和beanName组装到ConfigurationClass去了。

protected void processConfigurationClass(ConfigurationClass configClass) throws IOException {
		if (this.conditionEvaluator.shouldSkip(configClass.getMetadata(), ConfigurationPhase.PARSE_CONFIGURATION)) {
			return;
		}

		ConfigurationClass existingClass = this.configurationClasses.get(configClass);
		if (existingClass != null) {
			if (configClass.isImported()) {
				if (existingClass.isImported()) {
					existingClass.mergeImportedBy(configClass);
				}
				// Otherwise ignore new imported config class; existing non-imported class overrides it.
				return;
			}
			else {
				// Explicit bean definition found, probably replacing an import.
				// Let's remove the old one and go with the new one.
				this.configurationClasses.remove(configClass);
				this.knownSuperclasses.values().removeIf(configClass::equals);
			}
		}

		// Recursively process the configuration class and its superclass hierarchy.
		SourceClass sourceClass = asSourceClass(configClass);
		do {
            // line1
			sourceClass = doProcessConfigurationClass(configClass, sourceClass);
		}
		while (sourceClass != null);

		this.configurationClasses.put(configClass, configClass);
	}

进入到line1,这才是关键代码其他地方都是校验等。

@Nullable
	protected final SourceClass doProcessConfigurationClass(ConfigurationClass configClass, SourceClass sourceClass)
			throws IOException {

		// Recursively process any member (nested) classes first
		processMemberClasses(configClass, sourceClass);

		// Process any @PropertySource annotations
        // ==============================第一部分==============================
		for (AnnotationAttributes propertySource : AnnotationConfigUtils.attributesForRepeatable(
				sourceClass.getMetadata(), PropertySources.class,
				org.springframework.context.annotation.PropertySource.class)) {
			if (this.environment instanceof ConfigurableEnvironment) {
				processPropertySource(propertySource);
			}
			else {
				logger.warn("Ignoring @PropertySource annotation on [" + sourceClass.getMetadata().getClassName() +
						"]. Reason: Environment must implement ConfigurableEnvironment");
			}
		}
        // ==============================第一部分结束==============================

		// Process any @ComponentScan annotations
        // ==============================第二部分==============================
		Set<AnnotationAttributes> componentScans = AnnotationConfigUtils.attributesForRepeatable(
				sourceClass.getMetadata(), ComponentScans.class, ComponentScan.class);
		if (!componentScans.isEmpty() &&
				!this.conditionEvaluator.shouldSkip(sourceClass.getMetadata(), ConfigurationPhase.REGISTER_BEAN)) {
			for (AnnotationAttributes componentScan : componentScans) {
				// The config class is annotated with @ComponentScan -> perform the scan immediately
				Set<BeanDefinitionHolder> scannedBeanDefinitions =
						this.componentScanParser.parse(componentScan, sourceClass.getMetadata().getClassName());	// line1
				// Check the set of scanned definitions for any further config classes and parse recursively if needed
				for (BeanDefinitionHolder holder : scannedBeanDefinitions) {
					BeanDefinition bdCand = holder.getBeanDefinition().getOriginatingBeanDefinition();
					if (bdCand == null) {
						bdCand = holder.getBeanDefinition();
					}// line2
					if (ConfigurationClassUtils.checkConfigurationClassCandidate(bdCand, this.metadataReaderFactory)) {
						parse(bdCand.getBeanClassName(), holder.getBeanName());
					}
				}
			}
		}
        // ==============================第二部分结束==============================

		// Process any @Import annotations
		processImports(configClass, sourceClass, getImports(sourceClass), true);

		// Process any @ImportResource annotations
		AnnotationAttributes importResource =
				AnnotationConfigUtils.attributesFor(sourceClass.getMetadata(), ImportResource.class);
		if (importResource != null) {
			String[] resources = importResource.getStringArray("locations");
			Class<? extends BeanDefinitionReader> readerClass = importResource.getClass("reader");
			for (String resource : resources) {
				String resolvedResource = this.environment.resolveRequiredPlaceholders(resource);
				configClass.addImportedResource(resolvedResource, readerClass);
			}
		}

		// Process individual @Bean methods
		Set<MethodMetadata> beanMethods = retrieveBeanMethodMetadata(sourceClass);
		for (MethodMetadata methodMetadata : beanMethods) {
			configClass.addBeanMethod(new BeanMethod(methodMetadata, configClass));
		}

		// Process default methods on interfaces
		processInterfaces(configClass, sourceClass);

		// Process superclass, if any
		if (sourceClass.getMetadata().hasSuperClass()) {
			String superclass = sourceClass.getMetadata().getSuperClassName();
			if (superclass != null && !superclass.startsWith("java") &&
					!this.knownSuperclasses.containsKey(superclass)) {
				this.knownSuperclasses.put(superclass, configClass);
				// Superclass found, return its annotation metadata and recurse
				return sourceClass.getSuperClass();
			}
		}

		// No superclass -> processing is complete
		return null;
	}

第一部分:拿到PropertySource注解的内容进行解析

第二部分的line1:使用componentScanParser解析器去解析ComponentScans的包名并拿到配置包名下的所有BeanDefinition

第二部分的line2:遍历解析到的BeanDefinition,如果此BeanDefiniton是配置类,那么就递归调用parse方法再去解析此配置类的信息

后面的 就是解析Import、ImportResource,有兴趣的自己看看。

有兴趣的可以看看第二部分的line1源码,那里面对@CompentScan的每个字段都进行了获取解析,并使用this.componentScanParser的doScan方法进行实现扫描指定包的功能。

注:

​ 本文提供大概思路,并不是对每一行代码详细解析,有错误的地方欢迎指出。

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