时间:2021-01-10 11:03:30 | 栏目:JAVA代码 | 点击:次
本文介绍了浅谈Spring IoC容器的依赖注入原理,分享给大家,具体如下:
IoC容器初始化的过程,主要完成的工作是在IoC容器中建立 BeanDefinition 数据映射,并没有看到IoC容器对Bean依赖关系进行注入,
假设当前IoC容器已经载入用户定义的Bean信息,依赖注入主要发生在两个阶段
正常情况下,由用户第一次向IoC容器索要Bean时触发
但我们可以在 BeanDefinition 信息中通过控制 lazy-init 属性来让容器完成对Bean的预实例化,即在初始化的过程中就完成某些Bean的依赖注入的过程
1.getBean触发的依赖注入
在基本的IoC容器接口 BeanFactory 中,有一个 getBean 的接口定义,这个接口的实现就是触发依赖注入发生的地方.为了进一步了解这个依赖注入的过程,我们从 DefaultListableBeanFactory 的基类 AbstractBeanFactory 入手去看看getBean的实现
// 这里是对 BeanFactory 接口的实现,比如getBean接口方法 //这些getBean接口方法最终是通过调用doGetBean来实现的 @Override public Object getBean(String name) throws BeansException { return doGetBean(name, null, null, false); } @Override public <T> T getBean(String name, Class<T> requiredType) throws BeansException { return doGetBean(name, requiredType, null, false); } @Override public Object getBean(String name, Object... args) throws BeansException { return doGetBean(name, null, args, false); } public <T> T getBean(String name, Class<T> requiredType, Object... args) throws BeansException { return doGetBean(name, requiredType, args, false); } //这里是实际取得Bean的地方,也就是触发依赖注入发生的地方 @SuppressWarnings("unchecked") protected <T> T doGetBean( final String name, final Class<T> requiredType, final Object[] args, boolean typeCheckOnly) throws BeansException { final String beanName = transformedBeanName(name); Object bean; // Eagerly check singleton cache for manually registered singletons. //急切地检查单例人士缓存手动注册的单例 //先从缓存中取得Bean,处理那些已经被创建过的单例Bean,这种Bean不要重复创建 Object sharedInstance = getSingleton(beanName); if (sharedInstance != null && args == null) { if (logger.isDebugEnabled()) { if (isSingletonCurrentlyInCreation(beanName)) { logger.debug("Returning eagerly cached instance of singleton bean '" + beanName + "' that is not fully initialized yet - a consequence of a circular reference"); } else { logger.debug("Returning cached instance of singleton bean '" + beanName + "'"); } } //这里的getObjectForBeanInstance完成的是FactoryBean的相关处理,以取得FactoryBean的相关处理,以取得FactoryBean的生产结果,BeanFactory和FactoryBean的区别已在前面讲过,这个过程在后面还会详细地分析 bean = getObjectForBeanInstance(sharedInstance, name, beanName, null); } else { // Fail if we're already creating this bean instance: // We're assumably within a circular reference. if (isPrototypeCurrentlyInCreation(beanName)) { throw new BeanCurrentlyInCreationException(beanName); } // // 检查IoC容器中的BeanDefinition是否存在,若在当前工厂不存在则去顺着双亲BeanFactory链一直向上找 BeanFactory parentBeanFactory = getParentBeanFactory(); if (parentBeanFactory != null && !containsBeanDefinition(beanName)) { // Not found -> check parent. String nameToLookup = originalBeanName(name); if (args != null) { // Delegation to parent with explicit args. return (T) parentBeanFactory.getBean(nameToLookup, args); } else { // No args -> delegate to standard getBean method. return parentBeanFactory.getBean(nameToLookup, requiredType); } } if (!typeCheckOnly) { markBeanAsCreated(beanName); } try { //根据Bean的名字取得BeanDefinition final RootBeanDefinition mbd = getMergedLocalBeanDefinition(beanName); checkMergedBeanDefinition(mbd, beanName, args); // Guarantee initialization of beans that the current bean depends on. //递归获得当前Bean依赖的所有Bean(如果有的话) String[] dependsOn = mbd.getDependsOn(); if (dependsOn != null) { for (String dep : dependsOn) { if (isDependent(beanName, dep)) { throw new BeanCreationException(mbd.getResourceDescription(), beanName, "Circular depends-on relationship between '" + beanName + "' and '" + dep + "'"); } registerDependentBean(dep, beanName); getBean(dep); } } //通过调用createBean方法创建Singleton bean实例 if (mbd.isSingleton()) { sharedInstance = getSingleton(beanName, new ObjectFactory<Object>() { @Override public Object getObject() throws BeansException { try { return createBean(beanName, mbd, args); } catch (BeansException ex) { // Explicitly remove instance from singleton cache: It might have been put there // eagerly by the creation process, to allow for circular reference resolution. // Also remove any beans that received a temporary reference to the bean. destroySingleton(beanName); throw ex; } } }); bean = getObjectForBeanInstance(sharedInstance, name, beanName, mbd); } //这里是创建prototype bean的地方 else if (mbd.isPrototype()) { // It's a prototype -> create a new instance. Object prototypeInstance = null; try { beforePrototypeCreation(beanName); prototypeInstance = createBean(beanName, mbd, args); } finally { afterPrototypeCreation(beanName); } bean = getObjectForBeanInstance(prototypeInstance, name, beanName, mbd); } else { String scopeName = mbd.getScope(); final Scope scope = this.scopes.get(scopeName); if (scope == null) { throw new IllegalStateException("No Scope registered for scope name '" + scopeName + "'"); } try { Object scopedInstance = scope.get(beanName, new ObjectFactory<Object>() { @Override public Object getObject() throws BeansException { beforePrototypeCreation(beanName); try { return createBean(beanName, mbd, args); } finally { afterPrototypeCreation(beanName); } } }); bean = getObjectForBeanInstance(scopedInstance, name, beanName, mbd); } catch (IllegalStateException ex) { throw new BeanCreationException(beanName, "Scope '" + scopeName + "' is not active for the current thread; consider " + "defining a scoped proxy for this bean if you intend to refer to it from a singleton", ex); } } } catch (BeansException ex) { cleanupAfterBeanCreationFailure(beanName); throw ex; } } // Check if required type matches the type of the actual bean instance. // 这里对创建的Bean进行类型检查,如果没有问题,就返回这个新创建的Bean,这个Bean已经是包含了依赖关系的Bean if (requiredType != null && bean != null && !requiredType.isAssignableFrom(bean.getClass())) { try { return getTypeConverter().convertIfNecessary(bean, requiredType); } catch (TypeMismatchException ex) { if (logger.isDebugEnabled()) { logger.debug("Failed to convert bean '" + name + "' to required type '" + ClassUtils.getQualifiedName(requiredType) + "'", ex); } throw new BeanNotOfRequiredTypeException(name, requiredType, bean.getClass()); } } return (T) bean; }
依赖注入就是在这里被触发的.而依赖注入的发生是在容器中的BeanDefinition数据已经建立好的前提下进行的.虽然我们可以用最简单的方式来描述IoC容器,那就是视其为一个HashMap,但只能说这个HashMap是容器的最基本的数据结构,而不是IoC容器的全部.
关于这个依赖注入过程会在下面详解,图1.1可以看到依赖注入的大致过程.
图1.1 依赖注入的过程
getBean是依赖注入的起点,之后会调用AbstractAutowireCapableBeanFactory中的createBean来生产需要的Bean,还对Bean初始化进行了处理,比如实现了在BeanDefinition中的init-method属性定义,Bean后置处理器等.下面通过createBean代码了解这个过程
@Override protected Object createBean(String beanName, RootBeanDefinition mbd, Object[] args) throws BeanCreationException { if (logger.isDebugEnabled()) { logger.debug("Creating instance of bean '" + beanName + "'"); } RootBeanDefinition mbdToUse = mbd; // Make sure bean class is actually resolved at this point, and // clone the bean definition in case of a dynamically resolved Class // which cannot be stored in the shared merged bean definition. //这里判断需要创建的Bean是否可以被实例化,这个类是否可以通过类加载器来载入 Class<?> resolvedClass = resolveBeanClass(mbd, beanName); if (resolvedClass != null && !mbd.hasBeanClass() && mbd.getBeanClassName() != null) { mbdToUse = new RootBeanDefinition(mbd); mbdToUse.setBeanClass(resolvedClass); } // Prepare method overrides. try { mbdToUse.prepareMethodOverrides(); } catch (BeanDefinitionValidationException ex) { throw new BeanDefinitionStoreException(mbdToUse.getResourceDescription(), beanName, "Validation of method overrides failed", ex); } try { // Give BeanPostProcessors a chance to return a proxy instead of the target bean instance. //如果Bean配置了PostProcessor,那么这里返回的是一个Proxy Object bean = resolveBeforeInstantiation(beanName, mbdToUse); if (bean != null) { return bean; } } catch (Throwable ex) { throw new BeanCreationException(mbdToUse.getResourceDescription(), beanName, "BeanPostProcessor before instantiation of bean failed", ex); } try { Object beanInstance = doCreateBean(beanName, mbdToUse, args); if (logger.isDebugEnabled()) { logger.debug("Finished creating instance of bean '" + beanName + "'"); } return beanInstance; } catch (BeanCreationException ex) { // A previously detected exception with proper bean creation context already... throw ex; } catch (ImplicitlyAppearedSingletonException ex) { // An IllegalStateException to be communicated up to DefaultSingletonBeanRegistry... throw ex; } catch (Throwable ex) { throw new BeanCreationException( mbdToUse.getResourceDescription(), beanName, "Unexpected exception during bean creation", ex); } } //接着到doCreate中去看看Bean是怎样生成的 protected Object doCreateBean(final String beanName, final RootBeanDefinition mbd, final Object[] args) { // Instantiate the bean. //用来持有创建出来的Bean对象 BeanWrapper instanceWrapper = null; //如果是单例,则先把缓存中的同名Bean清除 if (mbd.isSingleton()) { instanceWrapper = this.factoryBeanInstanceCache.remove(beanName); } //这里是创建Bean的地方,由createBeanInstance来完成 if (instanceWrapper == null) { //根据指定bean使用对应的策略创建新的实例,如:工厂方法,构造函数自动注入,简单初始化 instanceWrapper = createBeanInstance(beanName, mbd, args); } final Object bean = (instanceWrapper != null ? instanceWrapper.getWrappedInstance() : null); Class<?> beanType = (instanceWrapper != null ? instanceWrapper.getWrappedClass() : null); // Allow post-processors to modify the merged bean definition. synchronized (mbd.postProcessingLock) { if (!mbd.postProcessed) { applyMergedBeanDefinitionPostProcessors(mbd, beanType, beanName); mbd.postProcessed = true; } } // Eagerly cache singletons to be able to resolve circular references // even when triggered by lifecycle interfaces like BeanFactoryAware. //是否需要提前曝光:单例&允许循环依赖&当前bean正在创建中,检测循环依赖 boolean earlySingletonExposure = (mbd.isSingleton() && this.allowCircularReferences && isSingletonCurrentlyInCreation(beanName)); if (earlySingletonExposure) { if (logger.isDebugEnabled()) { logger.debug("Eagerly caching bean '" + beanName + "' to allow for resolving potential circular references"); } //为避免后期循环依赖,可以在bean初始化完成前将创建实例的ObjectFactory加入工厂 addSingletonFactory(beanName, new ObjectFactory<Object>() { @Override public Object getObject() throws BeansException { //对bean再次依赖引用,主要应用SMartInstantialiationAware BeanPostProcessor, //其中我们熟知的AOP就是在这里将advice动态织入bean中,若无则直接返回bean,不做任何处理 return getEarlyBeanReference(beanName, mbd, bean); } }); } // Initialize the bean instance. //这里是对Bean的初始化,依赖注入往往在这里发生,这个exposedObject在初始化处理完后悔返回作为依赖注入完成后的Bean Object exposedObject = bean; try { //对bean进行填充,将各个属性值注入,其中可能存在依赖于其他bean的属性,则会递归初始化依赖bean populateBean(beanName, mbd, instanceWrapper); if (exposedObject != null) { //调用初始化方法,比如init-method exposedObject = initializeBean(beanName, exposedObject, mbd); } } catch (Throwable ex) { if (ex instanceof BeanCreationException && beanName.equals(((BeanCreationException) ex).getBeanName())) { throw (BeanCreationException) ex; } else { throw new BeanCreationException(mbd.getResourceDescription(), beanName, "Initialization of bean failed", ex); } } if (earlySingletonExposure) { Object earlySingletonReference = getSingleton(beanName, false); // earlySingletonReference 只有在检测到有循环依赖的情况下才会非空 if (earlySingletonReference != null) { if (exposedObject == bean) { //如果exposedObject 没有在初始化方法中被改变,也就是没有被增强 exposedObject = earlySingletonReference; } else if (!this.allowRawInjectionDespiteWrapping && hasDependentBean(beanName)) { String[] dependentBeans = getDependentBeans(beanName); Set<String> actualDependentBeans = new LinkedHashSet<String>(dependentBeans.length); for (String dependentBean : dependentBeans) { //检测依赖 if (!removeSingletonIfCreatedForTypeCheckOnly(dependentBean)) { actualDependentBeans.add(dependentBean); } } //因为bean创建后其所依赖的bean一定是已经创建的,actualDependentBeans非空则表示当前bean创建后其依赖的bean却没有全部创建完,也就是说存在循环依赖 if (!actualDependentBeans.isEmpty()) { throw new BeanCurrentlyInCreationException(beanName, "Bean with name '" + beanName + "' has been injected into other beans [" + StringUtils.collectionToCommaDelimitedString(actualDependentBeans) + "] in its raw version as part of a circular reference, but has eventually been " + "wrapped. This means that said other beans do not use the final version of the " + "bean. This is often the result of over-eager type matching - consider using " + "'getBeanNamesOfType' with the 'allowEagerInit' flag turned off, for example."); } } } } // Register bean as disposable. try { //根据scope注册bean registerDisposableBeanIfNecessary(beanName, bean, mbd); } catch (BeanDefinitionValidationException ex) { throw new BeanCreationException(mbd.getResourceDescription(), beanName, "Invalid destruction signature", ex); } return exposedObject; }
依赖注入其实包括两个主要过程
我们从上可以看到与依赖注入关系特别密切的方法有
createBeanInstance
生成Bean包含的Java对象
populateBean.
处理对各种Bean对象的属性进行处理的过程(即依赖关系处理的过程)
先来看 createBeanInstance源码
/** * Create a new instance for the specified bean, using an appropriate instantiation strategy: * factory method, constructor autowiring, or simple instantiation. * @param beanName the name of the bean * @param mbd the bean definition for the bean * @param args explicit arguments to use for constructor or factory method invocation * @return a BeanWrapper for the new instance */ protected BeanWrapper createBeanInstance(String beanName, RootBeanDefinition mbd, Object[] args) { // Make sure bean class is actually resolved at this point. // 确认需要创建的Bean实例的类可以实例化 Class<?> beanClass = resolveBeanClass(mbd, beanName); if (beanClass != null && !Modifier.isPublic(beanClass.getModifiers()) && !mbd.isNonPublicAccessAllowed()) { throw new BeanCreationException(mbd.getResourceDescription(), beanName, "Bean class isn't public, and non-public access not allowed: " + beanClass.getName()); } Supplier<?> instanceSupplier = mbd.getInstanceSupplier(); if (instanceSupplier != null) { return obtainFromSupplier(instanceSupplier, beanName); } //若工厂方法非空,则使用工厂方法策略对Bean进行实例化 if (mbd.getFactoryMethodName() != null) { return instantiateUsingFactoryMethod(beanName, mbd, args); } // Shortcut when re-creating the same bean... boolean resolved = false; boolean autowireNecessary = false; if (args == null) { synchronized (mbd.constructorArgumentLock) { //一个类有多个构造函数,每个构造函数都有不同的参数,所以调用前需要先根据参数锁定构造函数或对应的工厂方法 if (mbd.resolvedConstructorOrFactoryMethod != null) { resolved = true; autowireNecessary = mbd.constructorArgumentsResolved; } } } //如果已经解析过则使用解析好的构造函数方法不需要再次锁定 if (resolved) { if (autowireNecessary) { //构造函数自动注入 return autowireConstructor(beanName, mbd, null, null); } else { //使用默认构造函数构造 return instantiateBean(beanName, mbd); } } // Need to determine the constructor... // 使用构造函数对Bean进行实例化 Constructor<?>[] ctors = determineConstructorsFromBeanPostProcessors(beanClass, beanName); if (ctors != null || mbd.getResolvedAutowireMode() == RootBeanDefinition.AUTOWIRE_CONSTRUCTOR || mbd.hasConstructorArgumentValues() || !ObjectUtils.isEmpty(args)) { return autowireConstructor(beanName, mbd, ctors, args); } // No special handling: simply use no-arg constructor. //使用默认的构造函数对Bean进行实例化 return instantiateBean(beanName, mbd); } /** * Instantiate the given bean using its default constructor. * @param beanName the name of the bean * @param mbd the bean definition for the bean * @return a BeanWrapper for the new instance */ //最常见的实例化过程instantiateBean protected BeanWrapper instantiateBean(final String beanName, final RootBeanDefinition mbd) { //使用默认的实例化策略对Bean进行实例化,默认的实例化策略是 //CglibSubclassingInstantiationStrategy,也就是使用CGLIB实例化Bean try { Object beanInstance; final BeanFactory parent = this; if (System.getSecurityManager() != null) { beanInstance = AccessController.doPrivileged(new PrivilegedAction<Object>() { @Override public Object run() { return getInstantiationStrategy().instantiate(mbd, beanName, parent); } }, getAccessControlContext()); } else { beanInstance = getInstantiationStrategy().instantiate(mbd, beanName, parent); } BeanWrapper bw = new BeanWrapperImpl(beanInstance); initBeanWrapper(bw); return bw; } catch (Throwable ex) { throw new BeanCreationException( mbd.getResourceDescription(), beanName, "Instantiation of bean failed", ex); } }
这里使用了CGLIB对Bean进行实例化.CGLIB是一个字节码生成器的类库,它提供了一系列的API来提供生成和转换Java的字节码的功能.
在Spring AOP中也使用CGLIB对Java的字节码进行增强.在IoC容器中,要了解怎样使用CGLIB来生成Bean对象,需要看一下SimpleInstantiationStrategy类.它是Spring用来生成Bean对象的默认类,它提供了两种实例化Bean对象的方法
public class SimpleInstantiationStrategy implements InstantiationStrategy { @Override public Object instantiate(RootBeanDefinition bd, String beanName, BeanFactory owner) { // Don't override the class with CGLIB if no overrides. if (bd.getMethodOverrides().isEmpty()) { //这里取得指定的构造器或者生成对象的工厂方法来对Bean进行实例化 Constructor<?> constructorToUse; synchronized (bd.constructorArgumentLock) { constructorToUse = (Constructor<?>) bd.resolvedConstructorOrFactoryMethod; if (constructorToUse == null) { final Class<?> clazz = bd.getBeanClass(); if (clazz.isInterface()) { throw new BeanInstantiationException(clazz, "Specified class is an interface"); } try { if (System.getSecurityManager() != null) { constructorToUse = AccessController.doPrivileged(new PrivilegedExceptionAction<Constructor<?>>() { @Override public Constructor<?> run() throws Exception { return clazz.getDeclaredConstructor((Class[]) null); } }); } else { constructorToUse = clazz.getDeclaredConstructor((Class[]) null); } bd.resolvedConstructorOrFactoryMethod = constructorToUse; } catch (Throwable ex) { throw new BeanInstantiationException(clazz, "No default constructor found", ex); } } } //通过BeanUtils进行实例化,这个BeanUtils的实例化通过Constructor来实例化Bean,在BeanUtils中可以看到具体的调用ctor.newInstance(args) return BeanUtils.instantiateClass(constructorToUse); } else { // 使用CGLIB来实例化对象 return instantiateWithMethodInjection(bd, beanName, owner); } } }
Bean之间依赖关系的处理
依赖关系处理的入口是前面提到的populateBean方法.由于其中涉及的面太多,在这里就不贴代码了.简要介绍一下依赖关系处理的流程:在populateBean方法中,
首先取得在BeanDefinition中设置的property值,然后开始依赖注入的过程。
首先处理autowire的注入,可以byName或者是byType,之后对属性进行注入。
接着需要对Bean Reference进行解析,在对ManageList、ManageSet、ManageMap等进行解析完之后,就已经为依赖注入准备好了条件,这是真正把Bean对象设置到它所依赖的另一个Bean属性中去的地方,其中处理的属性是各种各样的。
依赖注入发生在BeanWrapper的setPropertyValues中,具体的完成却是在BeanWrapper的子类BeanWrapperImpl中实现的,它会完成Bean的属性值的注入,其中包括对Array的注入、对List等集合类以及对非集合类的域进行注入。
进过一系列的注入,这样就完成了对各种Bean属性的依赖注入过程。
在Bean的创建和对象依赖注入的过程中,需要依据BeanDefinition中的信息来递归地完成依赖注入。
从前面的几个递归过程中可以看到,这些递归都是以getBean为入口的。
一个递归是在上下文体系中查找需要的Bean和创建Bean的递归调用;
另一个递归是在依赖注入时,通过递归调用容器的getBean方法,得到当前Bean的依赖Bean,同时也触发对依赖Bean的创建和注入。
在对Bean的属性进行依赖注入时,解析的过程也是一个递归的过程。这样,根据依赖关系,一层层地完成Bean的创建和注入,直到最后完成当前Bean的创建。有了这个顶层Bean的创建和对它属性依赖注入的完成,意味着和当前Bean相关的整个依赖链的注入液完成了。
在Bean创建和依赖注入完成以后,在IoC容器中建立起一系列依靠依赖关系联系起来的Bean,这个Bean已经不再是简单的Java对象了。该Bean系列以及Bean之间的依赖关系建立完成之后,通过IoC的相关接口方法,就可以非常方便地供上层应用使用了。
2. lazy-init属性和预实例化
在前面的refresh方法中,我们可以看到调用了finishBeanFactoryInitialization来对配置了lazy-init的Bean进行处理。
其实在这个方法中,封装了对lazy-init属性的处理,实际的处理是在DefaultListableBeanFactory这个基本容器的preInstantiateSingleton方法中完成的。该方法对单例Bean完成预实例化,这个预实例化的完成巧妙地委托给容器来实现。如果需要预实例化,那么就直接在这里采用getBean去触发依赖注入,与正常依赖注入的触发相比,只有触发的时间和场合不同。在这里,依赖注入发生在容器执行refresh的过程中,即IoC容器初始化的过程中,而不像一般的依赖注入一样发生在IoC容器初始化完成以后,第一次通过getBean想容器索要Bean的时候。