spring4.1.8初始化源码学习三部曲之三:AbstractApplicationContext.refresh方法

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程序员欣宸 发表于 2022/06/09 06:58:18 2022/06/09
【摘要】 《spring4.1.8初始化源码学习三部曲》系列的终篇,重点是学习AbstractApplicationContext类的refresh()方法

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  • 本章是《spring4.1.8初始化源码学习三部曲》系列的终篇,重点是学习AbstractApplicationContext类的refresh()方法;

  • 我们先回顾ClassPathXmlApplicationContext类的初始化过程如下代码:

public ClassPathXmlApplicationContext(String[] configLocations, boolean refresh, ApplicationContext parent)
			throws BeansException {
	super(parent);
	setConfigLocations(configLocations);
	if (refresh) {
		refresh();
	}
}
  • 三部曲的前两篇学习了super(parent)setConfigLocations(configLocations)
  1. 《spring4.1.8初始化源码学习三部曲之一:AbstractApplicationContext构造方法》;
  2. 《spring4.1.8初始化源码学习三部曲之二:setConfigLocations方法》;

refresh方法简介

  • 本章来学习refresh方法,具体的源码在AbstractApplicationContext类中,该方法的简介请看下面源码中的注释:
@Override
public void refresh() throws BeansException, IllegalStateException {
	//startupShutdownMonitor对象在spring环境刷新和销毁的时候都会用到,确保刷新和销毁不会同时执行
	synchronized (this.startupShutdownMonitor) {
		// 准备工作,例如记录事件,设置标志,检查环境变量等,并有留给子类扩展的位置,用来将属性加入到applicationContext中
		prepareRefresh();

		// 创建beanFactory,这个对象作为applicationContext的成员变量,可以被applicationContext拿来用,
		// 并且解析资源(例如xml文件),取得bean的定义,放在beanFactory中
		ConfigurableListableBeanFactory beanFactory = obtainFreshBeanFactory();

		// 对beanFactory做一些设置,例如类加载器、spel解析器、指定bean的某些类型的成员变量对应某些对象等
		prepareBeanFactory(beanFactory);

		try {
			// 子类扩展用,可以设置bean的后置处理器(bean在实例化之后这些后置处理器会执行)
			postProcessBeanFactory(beanFactory);

			// 执行beanFactory后置处理器(有别于bean后置处理器处理bean实例,beanFactory后置处理器处理bean定义)
			invokeBeanFactoryPostProcessors(beanFactory);

			// 将所有的bean的后置处理器排好序,但不会马上用,bean实例化之后会用到
			registerBeanPostProcessors(beanFactory);

			// 初始化国际化服务
			initMessageSource();

			// 创建事件广播器
			initApplicationEventMulticaster();

			// 空方法,留给子类自己实现的,在实例化bean之前做一些ApplicationContext相关的操作
			onRefresh();

			// 注册一部分特殊的事件监听器,剩下的只是准备好名字,留待bean实例化完成后再注册
			registerListeners();

			// 单例模式的bean的实例化、成员变量注入、初始化等工作都在此完成
			finishBeanFactoryInitialization(beanFactory);

			// applicationContext刷新完成后的处理,例如生命周期监听器的回调,广播通知等
			finishRefresh();
		}

		catch (BeansException ex) {
			logger.warn("Exception encountered during context initialization - cancelling refresh attempt", ex);

			// 刷新失败后的处理,主要是将一些保存环境信息的集合做清理
			destroyBeans();

			// applicationContext是否已经激活的标志,设置为false
			cancelRefresh(ex);

			// Propagate exception to caller.
			throw ex;
		}
	}
}
  • 接下来逐个分析吧:

prepareRefresh方法

  • prepareRefresh方法的源码如下:
protected void prepareRefresh() {
	//记录初始化开始时间
	this.startupDate = System.currentTimeMillis();
	//context是否关闭的标志,设置为false
	this.closed.set(false);
	//context是否激活的标志,设置为true
	this.active.set(true);

	if (logger.isInfoEnabled()) {
		logger.info("Refreshing " + this);
	}

	//留给子类实现的空方法
	initPropertySources();

	/**
	AbstractPropertyResolver类的requiredProperties是个集合,
	在下面的validateRequiredProperties方法中,都要拿requiredProperties中的元素作为key去检查是否存在对应的环境变量,
	如果不存在就抛出异常
	*/
	getEnvironment().validateRequiredProperties();
}
  • 上述代码中,注意以下两处:
  1. initPropertySources是个空方法,是留给子类实现的,以AnnotationConfigWebApplicationContext类为例,就overwrite了initPropertySources方法:
@Override
protected void initPropertySources() {
	ConfigurableEnvironment env = getEnvironment();
	if (env instanceof ConfigurableWebEnvironment) {
		((ConfigurableWebEnvironment) env).initPropertySources(this.servletContext, this.servletConfig);
	}
}
  • 跟踪上面的initPropertySources方法,最终找到了WebApplicationContextUtils.initServletPropertySources:
public static void initServletPropertySources(
			MutablePropertySources propertySources, ServletContext servletContext, ServletConfig servletConfig) {

		Assert.notNull(propertySources, "propertySources must not be null");
		if (servletContext != null && propertySources.contains(StandardServletEnvironment.SERVLET_CONTEXT_PROPERTY_SOURCE_NAME) &&
				propertySources.get(StandardServletEnvironment.SERVLET_CONTEXT_PROPERTY_SOURCE_NAME) instanceof StubPropertySource) {
			propertySources.replace(StandardServletEnvironment.SERVLET_CONTEXT_PROPERTY_SOURCE_NAME,
					new ServletContextPropertySource(StandardServletEnvironment.SERVLET_CONTEXT_PROPERTY_SOURCE_NAME, servletContext));
		}
		if (servletConfig != null && propertySources.contains(StandardServletEnvironment.SERVLET_CONFIG_PROPERTY_SOURCE_NAME) &&
				propertySources.get(StandardServletEnvironment.SERVLET_CONFIG_PROPERTY_SOURCE_NAME) instanceof StubPropertySource) {
			propertySources.replace(StandardServletEnvironment.SERVLET_CONFIG_PROPERTY_SOURCE_NAME,
					new ServletConfigPropertySource(StandardServletEnvironment.SERVLET_CONFIG_PROPERTY_SOURCE_NAME, servletConfig));
		}
	}
  • 上面的代码所做的事情,就是给context增加环境变量数据(数据来自servlet相关的配置信息),这样spring环境就能从context中随时key取得对应的变量了;
  1. getEnvironment().validateRequiredProperties()的作用是用来校验context中是否存在"某些"变量,何谓"某些"?来看validateRequiredProperties方法,追踪到多层调用,最终在AbstractPropertyResolver类的validateRequiredProperties方法中实现:
@Override
public void validateRequiredProperties() {
	MissingRequiredPropertiesException ex = new MissingRequiredPropertiesException();
	for (String key : this.requiredProperties) {
		if (this.getProperty(key) == null) {
			ex.addMissingRequiredProperty(key);
		}
	}
	if (!ex.getMissingRequiredProperties().isEmpty()) {
		throw ex;
	}
}
  • 上述代码显示,如果集合requiredProperties中的name在context中找不到对应的变量,就会抛出异常;

  • 那么问题来了,requiredProperties集合是何时设置的呢?spring-framework中并没有调用,但是官方的单元测试源码给我们了启发,如下图:
    image.png

  • 如上图红框,如果业务需要确保某些变量在spring环境中必须存在,就可以调用setRequiredProperties方法将变量的name传递进去,这样validateRequiredProperties方法就会做检查了,我们可以基于现有的各种ApplicationContext实现自己定制一个Context类,确保在validateRequiredProperties方法调用之前调用setRequiredProperties方法将变量的name传递进去(例如重写initPropertySources),就能让spring帮我们完成检查了;

obtainFreshBeanFactory()

  • 接下来看ConfigurableListableBeanFactory beanFactory = obtainFreshBeanFactory();得到临时变量beanFactory,先看看ConfigurableListableBeanFactory和BeanFactory的关系:

image.png

  • 再看看obtainFreshBeanFactory方法:
protected ConfigurableListableBeanFactory obtainFreshBeanFactory() {
	//由子类创建beanFactory
	refreshBeanFactory();
	//取得子类创建好的beanFactory,作为obtainFreshBeanFactory方法的返回值返回
	ConfigurableListableBeanFactory beanFactory = getBeanFactory();
	if (logger.isDebugEnabled()) {
		logger.debug("Bean factory for " + getDisplayName() + ": " + beanFactory);
	}
	return beanFactory;
}
  • 上述代码中有的refreshBeanFactory需要细看;

refreshBeanFactory方法

  • refreshBeanFactory方法,在AbstractApplicationContext类中是抽象方法,具体实现在子类中,以其子类AbstractRefreshableApplicationContext为例,我们来看看refreshBeanFactory方法的实现:
@Override
protected final void refreshBeanFactory() throws BeansException {
	//如果beanFactory已经存在,就销毁context管理的所有bean,并关闭beanFactory
	if (hasBeanFactory()) {
		//其实就是调用一些集合的clear方法,解除对一些实例的引用,参考DefaultSingletonBeanRegistry.destroySingletons方法
		destroyBeans();
		//关闭当前的beanFactory,其实就是将成员变量beanFactory设置为null
		closeBeanFactory();
	}
	try {
		DefaultListableBeanFactory beanFactory = createBeanFactory();
		beanFactory.setSerializationId(getId());
		customizeBeanFactory(beanFactory);
		loadBeanDefinitions(beanFactory);
		synchronized (this.beanFactoryMonitor) {
			this.beanFactory = beanFactory;
		}
	}
	catch (IOException ex) {
		throw new ApplicationContextException("I/O error parsing bean definition source for " + getDisplayName(), ex);
	}
}
  • createBeanFactory方法实际上返回的是一个DefaultListableBeanFactory实例:
protected DefaultListableBeanFactory createBeanFactory() {
	return new DefaultListableBeanFactory(getInternalParentBeanFactory());
}
  • 接下来的customizeBeanFactory方法是留给子类OverWrite的,该方法的说明和源码如下,说明中推荐通过OverWrite的方式对现有beanFactory做特别的设置:
protected void customizeBeanFactory(DefaultListableBeanFactory beanFactory) {
	if (this.allowBeanDefinitionOverriding != null) {
		//allowBeanDefinitionOverriding表示是否允许注册一个同名的类来覆盖原有类(注意是类,不是实例)
		beanFactory.setAllowBeanDefinitionOverriding(this.allowBeanDefinitionOverriding);
	}
	if (this.allowCircularReferences != null) {
		//allowCircularReferences表示是否运行多个类之间的循环引用
		beanFactory.setAllowCircularReferences(this.allowCircularReferences);
	}
}
  • loadBeanDefinitions在AbstractRefreshableApplicationContext类中是个抽象方法,留给子类实现,作用是把所有bean的定义后保存在context中,以AbstractXmlApplicationContext为例,看看loadBeanDefinitions方法做了什么:
@Override
protected void loadBeanDefinitions(DefaultListableBeanFactory beanFactory) throws BeansException, IOException {
	// Create a new XmlBeanDefinitionReader for the given BeanFactory.
	XmlBeanDefinitionReader beanDefinitionReader = new XmlBeanDefinitionReader(beanFactory);

	// Configure the bean definition reader with this context's
	// resource loading environment.
	beanDefinitionReader.setEnvironment(this.getEnvironment());
	beanDefinitionReader.setResourceLoader(this);
	beanDefinitionReader.setEntityResolver(new ResourceEntityResolver(this));

	// Allow a subclass to provide custom initialization of the reader,
	// then proceed with actually loading the bean definitions.
	initBeanDefinitionReader(beanDefinitionReader);
	loadBeanDefinitions(beanDefinitionReader);
}
  • 以上代码可见,加载bean的定义是通过XmlBeanDefinitionReader 来完成的,重点关注loadBeanDefinitions方法:
protected void loadBeanDefinitions(XmlBeanDefinitionReader reader) throws BeansException, IOException {
	Resource[] configResources = getConfigResources();
	if (configResources != null) {
		reader.loadBeanDefinitions(configResources);
	}
	String[] configLocations = getConfigLocations();
	if (configLocations != null) {
		reader.loadBeanDefinitions(configLocations);
	}
}
  • 上述代码中的getConfigResources()和getConfigLocations(),究竟哪个会返回值有效数据呢?这就要去看ClassPathXmlApplicationContext的构造方法了:
//这个方法设置的是configLocations
public ClassPathXmlApplicationContext(String[] configLocations, boolean refresh, ApplicationContext parent)
			throws BeansException {

	super(parent);
	setConfigLocations(configLocations);
	if (refresh) {
		refresh();
	}
}

//这个方法设置的是这个方法设置的是configResources
public ClassPathXmlApplicationContext(String[] paths, Class<?> clazz, ApplicationContext parent)
			throws BeansException {

	super(parent);
	Assert.notNull(paths, "Path array must not be null");
	Assert.notNull(clazz, "Class argument must not be null");
	this.configResources = new Resource[paths.length];
	for (int i = 0; i < paths.length; i++) {
		this.configResources[i] = new ClassPathResource(paths[i], clazz);
	}
	refresh();
}
  • 因此,到底是configLocations 还是configResources ,和我们使用哪个构造方法来实例化applicationContext对象有关;
  • 如果我们实例化applicationContext对象的方式是new ClassPathXmlApplicationContext(“applicationContext.xml”),那么setConfigLocations方法就会被调用,因此loadBeanDefinitions方法内部,实际执行的代码如下:
String[] configLocations = getConfigLocations();
	if (configLocations != null) {
		reader.loadBeanDefinitions(configLocations);
	}
  • 现在可以来看AbstractBeanDefinitionReader类的loadBeanDefinitions(String… locations)方法了:
public int loadBeanDefinitions(String... locations) throws BeanDefinitionStoreException {
		Assert.notNull(locations, "Location array must not be null");
		int counter = 0;
		for (String location : locations) {
			counter += loadBeanDefinitions(location);
		}
		return counter;
	}
  • 展开上面for循环中调用的方法:
public int loadBeanDefinitions(String location, Set<Resource> actualResources) throws BeanDefinitionStoreException {
		ResourceLoader resourceLoader = getResourceLoader();
		if (resourceLoader == null) {
			throw new BeanDefinitionStoreException(
					"Cannot import bean definitions from location [" + location + "]: no ResourceLoader available");
		}

		if (resourceLoader instanceof ResourcePatternResolver) {
			// Resource pattern matching available.
			try {
				Resource[] resources = ((ResourcePatternResolver) resourceLoader).getResources(location);
				int loadCount = loadBeanDefinitions(resources);
				if (actualResources != null) {
					for (Resource resource : resources) {
						actualResources.add(resource);
					}
				}
				if (logger.isDebugEnabled()) {
					logger.debug("Loaded " + loadCount + " bean definitions from location pattern [" + location + "]");
				}
				return loadCount;
			}
			catch (IOException ex) {
				throw new BeanDefinitionStoreException(
						"Could not resolve bean definition resource pattern [" + location + "]", ex);
			}
		}
		else {
			// Can only load single resources by absolute URL.
			Resource resource = resourceLoader.getResource(location);
			int loadCount = loadBeanDefinitions(resource);
			if (actualResources != null) {
				actualResources.add(resource);
			}
			if (logger.isDebugEnabled()) {
				logger.debug("Loaded " + loadCount + " bean definitions from location [" + location + "]");
			}
			return loadCount;
		}
	}
  • 以上方法中,首先要记得resourceLoader是ClassPathXmlApplicationContext(beanDefinitionReader.setResourceLoader(this)这行代码),所有resourceLoader.getResource(location)这行代码最终会调用PathMatchingResourcePatternResolver类的getResources(String locationPattern)方法得到bean有关的Resource对象;
    得到Resource对象后,接着会调用loadBeanDefinitions(Resource… resources)方法来加载bean的定义了,最终是调用XmlBeanDefinitionReader.loadBeanDefinitions(EncodedResource encodedResource)方法:
public int loadBeanDefinitions(EncodedResource encodedResource) throws BeanDefinitionStoreException {
		Assert.notNull(encodedResource, "EncodedResource must not be null");
		if (logger.isInfoEnabled()) {
			logger.info("Loading XML bean definitions from " + encodedResource.getResource());
		}

		Set<EncodedResource> currentResources = this.resourcesCurrentlyBeingLoaded.get();
		if (currentResources == null) {
			currentResources = new HashSet<EncodedResource>(4);
			this.resourcesCurrentlyBeingLoaded.set(currentResources);
		}
		if (!currentResources.add(encodedResource)) {
			throw new BeanDefinitionStoreException(
					"Detected cyclic loading of " + encodedResource + " - check your import definitions!");
		}
		try {
			InputStream inputStream = encodedResource.getResource().getInputStream();
			try {
				InputSource inputSource = new InputSource(inputStream);
				if (encodedResource.getEncoding() != null) {
					inputSource.setEncoding(encodedResource.getEncoding());
				}
				return doLoadBeanDefinitions(inputSource, encodedResource.getResource());
			}
			finally {
				inputStream.close();
			}
		}
		catch (IOException ex) {
			throw new BeanDefinitionStoreException(
					"IOException parsing XML document from " + encodedResource.getResource(), ex);
		}
		finally {
			currentResources.remove(encodedResource);
			if (currentResources.isEmpty()) {
				this.resourcesCurrentlyBeingLoaded.remove();
			}
		}
	}
  • 上述代码可见,重要的是通过Resource对象得到InputStream,再调用doLoadBeanDefinitions方法:
protected int doLoadBeanDefinitions(InputSource inputSource, Resource resource)
			throws BeanDefinitionStoreException {
		try {
			Document doc = doLoadDocument(inputSource, resource);
			return registerBeanDefinitions(doc, resource);
		}
		...
  • 上面是加载bean定义的关键代码:先制作Document对象,再调用registerBeanDefinitions方法,最终会将每个bean的定义放入DefaultListableBeanFactory的beanDefinitionMap中,详细的堆栈如下图:
    image.png

  • 完成了bean定义的注册,可以回到AbstractRefreshableApplicationContext.refreshBeanFactory方法了,看看loadBeanDefinitions(beanFactory)之后的代码:

synchronized (this.beanFactoryMonitor) {
			this.beanFactory = beanFactory;
		}
  • 至此,refreshBeanFactory方法分析完毕,该方法所做的事情:把xml文件中的bean定义被解析后,存放在DefaultListableBeanFactory的beanDefinitionMap中;

  • 现在回到主线的AbstractApplicationContext.refresh()方法内,obtainFreshBeanFactory()我们已经分析完毕,所有bean定义都被存放在beanFactory这个临时变量对应的实例中;

prepareBeanFactory

  • 接下来是prepareBeanFactory(beanFactory),看一下此方法的源码:
protected void prepareBeanFactory(ConfigurableListableBeanFactory beanFactory) {
	//设置类加载器
	beanFactory.setBeanClassLoader(getClassLoader());
	//设置解析器,用于解析bean的定义中出现的Spel表达式表达式
	beanFactory.setBeanExpressionResolver(new StandardBeanExpressionResolver(beanFactory.getBeanClassLoader()));
	//设置一个注册接口,该接口只有一个方法registerCustomEditors,用来设置自定义的转换器
	beanFactory.addPropertyEditorRegistrar(new ResourceEditorRegistrar(this, getEnvironment()));

	// 部署一个bean的后置处理器ApplicationContextAwareProcessor,用于将spring的环境信息注入到实例化的bean之中
	beanFactory.addBeanPostProcessor(new ApplicationContextAwareProcessor(this));
	//bean在初始化的时候,如果有属性的类型为ResourceLoaderAware,则该属性不会被依赖注入
	beanFactory.ignoreDependencyInterface(ResourceLoaderAware.class);
	beanFactory.ignoreDependencyInterface(ApplicationEventPublisherAware.class);
	beanFactory.ignoreDependencyInterface(MessageSourceAware.class);
	beanFactory.ignoreDependencyInterface(ApplicationContextAware.class);
	beanFactory.ignoreDependencyInterface(EnvironmentAware.class);

	// BeanFactory interface not registered as resolvable type in a plain factory.
	// MessageSource registered (and found for autowiring) as a bean.
	//bean如果有个属性的类型为BeanFactory.class,那么该属性会被设置为beanFactory
	beanFactory.registerResolvableDependency(BeanFactory.class, beanFactory);
	beanFactory.registerResolvableDependency(ResourceLoader.class, this);
	beanFactory.registerResolvableDependency(ApplicationEventPublisher.class, this);
	beanFactory.registerResolvableDependency(ApplicationContext.class, this);

	// Detect a LoadTimeWeaver and prepare for weaving, if found.
	if (beanFactory.containsBean(LOAD_TIME_WEAVER_BEAN_NAME)) {
		// 部署一个bean的后置处理器ApplicationContextAwareProcessor,用于AOP静态代理相关的处理
		beanFactory.addBeanPostProcessor(new LoadTimeWeaverAwareProcessor(beanFactory));
		// Set a temporary ClassLoader for type matching.
		beanFactory.setTempClassLoader(new ContextTypeMatchClassLoader(beanFactory.getBeanClassLoader()));
	}

	// Register default environment beans.
	if (!beanFactory.containsLocalBean(ENVIRONMENT_BEAN_NAME)) {
		//注册一个bean
		beanFactory.registerSingleton(ENVIRONMENT_BEAN_NAME, getEnvironment());
	}
	if (!beanFactory.containsLocalBean(SYSTEM_PROPERTIES_BEAN_NAME)) {
		beanFactory.registerSingleton(SYSTEM_PROPERTIES_BEAN_NAME, getEnvironment().getSystemProperties());
	}
	if (!beanFactory.containsLocalBean(SYSTEM_ENVIRONMENT_BEAN_NAME)) {
		beanFactory.registerSingleton(SYSTEM_ENVIRONMENT_BEAN_NAME, getEnvironment().getSystemEnvironment());
	}
}
  • 上述代码中有以下几点需要注意:
  1. beanFactory.addPropertyEditorRegistrar(new ResourceEditorRegistrar(this, getEnvironment())),此方法要配合AbstractBeanFactory.registerCustomEditors方法一起看更好理解:addPropertyEditorRegistrar方法向propertyEditorRegistrars属性中放入了一个registrar,之后调用registerCustomEditors方法的时候,会用到propertyEditorRegistrars中的registrar,调用这些registrar的registerCustomEditors方法,完成自定义的转换器的设置;
  2. beanFactory.addBeanPostProcessor方法用来注入后置处理器,在bean实例被创建后,初始化方法被执行的前后,后置处理器的postProcessBeforeInitialization、postProcessAfterInitialization这两个方法会分别被调用;
  3. beanFactory.ignoreDependencyInterface设置了依赖注入时要忽略的接口,例如bean有个属性类型是ResourceLoaderAware,那么该属性不会被注入ResourceLoaderAware类型的实例;
  4. beanFactory.registerResolvableDependency(BeanFactory.class, beanFactory)是特殊设置,如果一个bean有个属性的类型是BeanFactory,那么该属性会被设置为beanFactory这个实例;
  • 总的来说prepareBeanFactory方法就是为beanFactory做一些设置工作,传入一些后面会用到的参数和工具类,再在spring容器中创建一些bean;

postProcessBeanFactory

  • postProcessBeanFactory方法是留给子类扩展的,可以在bean实例初始化之前注册后置处理器(类似prepareBeanFactory方法中的beanFactory.addBeanPostProcessor),以子类AbstractRefreshableWebApplicationContext为例,其postProcessBeanFactory方法如下:
protected void postProcessBeanFactory(ConfigurableListableBeanFactory beanFactory) {
		beanFactory.addBeanPostProcessor(new ServletContextAwareProcessor(this.servletContext, this.servletConfig));
		beanFactory.ignoreDependencyInterface(ServletContextAware.class);
		beanFactory.ignoreDependencyInterface(ServletConfigAware.class);

		WebApplicationContextUtils.registerWebApplicationScopes(beanFactory, this.servletContext);
		WebApplicationContextUtils.registerEnvironmentBeans(beanFactory, this.servletContext, this.servletConfig);
	}
  • 可见除了WebApplicationContextUtils类的工作之外,其余的都是和prepareBeanFactory方法中类似的处理;

invokeBeanFactoryPostProcessors

  • invokeBeanFactoryPostProcessors方法用来执行BeanFactory实例的后置处理器BeanFactoryPostProcessor的postProcessBeanFactory方法,这个后置处理器除了原生的,我们也可以自己扩展,用来对Bean的定义做一些修改,由于此时bean还没有实例化,所以不要在自己扩展的BeanFactoryPostProcessor中调用那些会触发bean实例化的方法(例如BeanFactory的getBeanNamesForType方法),源码的文档中有相关说明,如下图红框所示,不要触发bean的实例化,如果要处理bean实例请在BeanPostProcessor中进行:

image.png

registerBeanPostProcessors

  • registerBeanPostProcessors方法的代码略多,就不在此贴出来了,简单的说,就是找出所有的bean的后置处理器(注意,是bean的后置处理器,不是beanFactory的后置处理器,bean后置处理器处理的是bean实例,beanfactory后置处理器处理的是bean的定义),然后将这些bean的后置处理器分为三类:
  1. 实现了顺序接口Ordered.class的,先放入orderedPostProcessors集合,排序后顺序加入beanFactory的bean后处理集合中;
  2. 既没有实现Ordered.class,也没有实现PriorityOrdered.class的后置处理器,也加入到beanFactory的bean后处理集合中;
  3. 最后是实现了优先级接口PriorityOrdered.class的,排序后顺序加入beanFactory的bean后处理集合中;
  • registerBeanPostProcessors方法执行完毕后,beanFactory中已经保存了有序的bean后置处理器,在bean实例化之后,会依次使用这些后置处理器对bean实例来做对应的处理;

initMessageSource

  • initMessageSource方法用来准备国际化资源相关的,将实现了MessageSource接口的bean存放在ApplicationContext的成员变量中,先看是否有配置,如果有就实例化,否则就创建一个DelegatingMessageSource实例的bean;

initApplicationEventMulticaster

  • spring中有事件、事件广播器、事件监听器等组成事件体系,在initApplicationEventMulticaster方法中对事件广播器做初始化,如果找不到此bean的配置,就创建一个SimpleApplicationEventMulticaster实例作为事件广播器的bean,并且保存- 为applicationContext的成员变量applicationEventMulticaster;

onRefresh

  • onRefresh是个空方法,留给子类自己实现的,在实例化bean之前做一些ApplicationContext相关的操作,以子类AbstractRefreshableWebApplicationContext为例,看看它的onRefresh方法:
@Override
protected void onRefresh() {
	this.themeSource = UiApplicationContextUtils.initThemeSource(this);
}
  • 可见是做了主题相关的初始化,并保存在ApplicationContext的成员变量中;

registerListeners

  • 方法名为registerListeners,看名字像是将监听器注册在事件广播器中,但实际情况并非如此,只有一些特殊的监听器被注册了,那些在bean配置文件中实现了ApplicationListener接口的类还没有实例化,所以此处只是将其name保存在广播器中,将这些监听器注册在广播器的操作是在bean的后置处理器中完成的,那时候bean已经实例化完成了,我们看代码:
protected void registerListeners() {
	// 注册的都是特殊的事件监听器,而并非配置中的bean
	for (ApplicationListener<?> listener : getApplicationListeners()) {
		getApplicationEventMulticaster().addApplicationListener(listener);
	}

	// Do not initialize FactoryBeans here: We need to leave all regular beans
	// uninitialized to let post-processors apply to them!
	// 根据接口类型找出所有监听器的名称
	String[] listenerBeanNames = getBeanNamesForType(ApplicationListener.class, true, false);
	for (String listenerBeanName : listenerBeanNames) {
		// 这里只是把监听器的名称保存在广播器中,并没有将这些监听器实例化!!!
		getApplicationEventMulticaster().addApplicationListenerBean(listenerBeanName);
	}
}

finishBeanFactoryInitialization

  • finishBeanFactoryInitialization方法做了两件事:

  • beanFactory对象的初始化;

  • 我们在bean配置文件中配置的那些单例的bean,都是在finishBeanFactoryInitialization方法中实例化的;

  • 看代码:

protected void finishBeanFactoryInitialization(ConfigurableListableBeanFactory beanFactory) {
	// Initialize conversion service for this context.
	// 实例化类型转换的bean,并保存在ApplicationContext中
	if (beanFactory.containsBean(CONVERSION_SERVICE_BEAN_NAME) &&
			beanFactory.isTypeMatch(CONVERSION_SERVICE_BEAN_NAME, ConversionService.class)) {
		beanFactory.setConversionService(
		beanFactory.getBean(CONVERSION_SERVICE_BEAN_NAME, ConversionService.class));
	}

	// Initialize LoadTimeWeaverAware beans early to allow for registering their transformers early.
	// 实例化LoadTimeWeaverAware接口的bean,用于ApsectJ的类加载期织入的处理
	String[] weaverAwareNames = beanFactory.getBeanNamesForType(LoadTimeWeaverAware.class, false, false);
	for (String weaverAwareName : weaverAwareNames) {
		getBean(weaverAwareName);
	}

	// Stop using the temporary ClassLoader for type matching.
	// 确保临时的classLoader为空,临时classLoader一般被用来做类型匹配的
	beanFactory.setTempClassLoader(null);

	// Allow for caching all bean definition metadata, not expecting further changes.
	// 将一个标志设置为true,表示applicationContext已经缓存了所有bean的定义,这些bean的name都被保存在applicationContext的frozenBeanDefinitionNames成员变量中,相当于一个快照,记录了当前那些bean的定义已经拿到了
	beanFactory.freezeConfiguration();

	// 实例化所有还未实例化的单例bean
	beanFactory.preInstantiateSingletons();
}
  • 上述代码中,beanFactory.preInstantiateSingletons()需要展开仔细看:
public void preInstantiateSingletons() throws BeansException {
		if (this.logger.isDebugEnabled()) {
			this.logger.debug("Pre-instantiating singletons in " + this);
		}

		// Iterate over a copy to allow for init methods which in turn register new bean definitions.
		// While this may not be part of the regular factory bootstrap, it does otherwise work fine.
		List<String> beanNames = new ArrayList<String>(this.beanDefinitionNames);

		// Trigger initialization of all non-lazy singleton beans...
		for (String beanName : beanNames) {
			// 获取bean的定义,该定义已经和父类定义做了合并
			RootBeanDefinition bd = getMergedLocalBeanDefinition(beanName);
			// 非抽象类、是单例、非懒加载
			if (!bd.isAbstract() && bd.isSingleton() && !bd.isLazyInit()) {
				//FactoryBean的处理
				if (isFactoryBean(beanName)) {
					final FactoryBean<?> factory = (FactoryBean<?>) getBean(FACTORY_BEAN_PREFIX + beanName);
					boolean isEagerInit;
					if (System.getSecurityManager() != null && factory instanceof SmartFactoryBean) {
						isEagerInit = AccessController.doPrivileged(new PrivilegedAction<Boolean>() {
							@Override
							public Boolean run() {
								return ((SmartFactoryBean<?>) factory).isEagerInit();
							}
						}, getAccessControlContext());
					}
					else {
						isEagerInit = (factory instanceof SmartFactoryBean &&
								((SmartFactoryBean<?>) factory).isEagerInit());
					}
					if (isEagerInit) {
						getBean(beanName);
					}
				}
				else {
					//非FactoryBean的实例化、初始化
					getBean(beanName);
				}
			}
		}

		// Trigger post-initialization callback for all applicable beans...
		// 单例实例化完成后,如果实现了SmartInitializingSingleton接口,afterSingletonsInstantiated就会被调用,此处用到了特权控制逻辑AccessController.doPrivileged
		for (String beanName : beanNames) {
			Object singletonInstance = getSingleton(beanName);
			if (singletonInstance instanceof SmartInitializingSingleton) {
				final SmartInitializingSingleton smartSingleton = (SmartInitializingSingleton) singletonInstance;
				if (System.getSecurityManager() != null) {
					AccessController.doPrivileged(new PrivilegedAction<Object>() {
						@Override
						public Object run() {
							smartSingleton.afterSingletonsInstantiated();
							return null;
						}
					}, getAccessControlContext());
				}
				else {
					smartSingleton.afterSingletonsInstantiated();
			}
		}
	}
}
  • 上述代码中,要重点关注getBean(beanName),这里面会实例化bean,由于内容太多不适合在本章细说,这里先将实例化bean的调用路径整理出来:
AbstractBeanFactory.getBean(String name)

->

AbstractBeanFactory.doGetBean(String name, Class<T> requiredType, final Object[] args, boolean typeCheckOnly)

->

DefaultSingletonBeanRegistry.getSingleton(String beanName, ObjectFactory<?> singletonFactory)

->

AbstractBeanFactory.doGetBean中的匿名类的getObject方法

->

AbstractAutowireCapableBeanFactory.createBean(String beanName, RootBeanDefinition mbd, Object[] args)

->
AbstractAutowireCapableBeanFactory.doCreateBean(final String beanName, final RootBeanDefinition mbd, Object[] args)

->

AbstractAutowireCapableBeanFactory.createBeanInstance(String beanName, RootBeanDefinition mbd, Object[] args)

->

instantiateBean(final String beanName, final RootBeanDefinition mbd)

->

SimpleInstantiationStrategy.instantiate(RootBeanDefinition bd, String beanName, BeanFactory owner)

->

BeanUtils.instantiateClass(Constructor<T> ctor, Object... args)

->

Constructor.newInstance(Object ... initargs)

->

bean的构造方法
  • 以上调用路径可以看出,bean对象的创建是BeanUtils.instantiateClass方法通过反射来创建的;

  • 再来看看bean的成员变量是什么时候被注入值的,如下图,AbstractAutowireCapableBeanFactory.doCreateBean方法中,先调用createBeanInstance创建bean的对象(绿框所示),再调用populateBean方法给成员变量注入内容(红框所示):

image.png

  • 将注入值的调用堆栈整理如下,可见是也是通过反射完成注入的:
AbstractAutowireCapableBeanFactory.populateBean(String beanName, RootBeanDefinition mbd, BeanWrapper bw)

->

AbstractAutowireCapableBeanFactory.applyPropertyValues(String beanName, BeanDefinition mbd, BeanWrapper bw, PropertyValues pvs)

->

AbstractPropertyAccessor.setPropertyValues(PropertyValues pvs)

->

BeanWrapperImpl.setPropertyValue(PropertyValue pv)

->

Method.invoke(Object obj, Object... args)
  • 看过了成员变量注入的逻辑后,还有个重要的逻辑也请关注,就是bean的初始化(bean的配置文件中的init-method属性),AbstractAutowireCapableBeanFactory.doCreateBean方法中,在调用populateBean方法给成员变量注入值之后,马上调用initializeBean方法进行初始化操作,调用堆栈整理如下:
AbstractAutowireCapableBeanFactory.initializeBean(final String beanName, final Object bean, RootBeanDefinition mbd)

->

AbstractAutowireCapableBeanFactory.invokeInitMethods(String beanName, final Object bean, RootBeanDefinition mbd)

->

AbstractAutowireCapableBeanFactory.invokeCustomInitMethod(String beanName, final Object bean, RootBeanDefinition mbd)

->

Method.invoke(Object obj, Object... args)
  • 可见依旧是通过反射来执行初始化方法;

finishRefresh

  • 最后一个方法是finishRefresh,这是在bean的实例化、初始化等完成后的一些操作,例如生命周期变更的回调,发送applicationContext刷新完成的广播等,展开看看:
protected void finishRefresh() {
	// 检查是否已经配置了生命周期处理器,如果没有就new一个DefaultLifecycleProcessor
	initLifecycleProcessor();

	// 找到所有实现了Lifecycle接口的bean,按照每个bean设置的生命周期阶段进行分组,再依次调用每个分组中每个bean的start方法,完成生命周期监听的通知
	getLifecycleProcessor().onRefresh();

	// 创建一条代表applicationContext刷新完成的事件,交给广播器去广播
	publishEvent(new ContextRefreshedEvent(this));

	// 如果配置了MBeanServer,就完成在MBeanServer上的注册
	LiveBeansView.registerApplicationContext(this);
}
  • 至此,整个初始化流程咱们已经过了一遍了,但是篇幅有限,很多细节都没有展开,另外很多子类也有自己独特的扩展,这些都需要花时间去细看,希望本文能帮您整理思路,从总体上了解初始化的各个关键步骤,以免过早陷入细节;

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