Spring源碼學習之動態代理實現流程
註:這裡不闡述Spring和AOP的一些基本概念和用法,直接進入正題。
流程
Spring所管理的對象大體會經過確定實例化對象類型、推斷構造方法創建對象(實例化)、設置屬性、初始化等等步驟。在對象初始化階段,Spring為開發者提供瞭一個BeanPostProcessor接口,它會在對象初始化之前和初始化之後被調用(初始化,不是實例化,對應實例化的是InstantiationAwareBeanPostProcessor接口)。
public interface BeanPostProcessor {
//初始化之前
Object postProcessBeforeInitialization(Object bean, String beanName) throws BeansException;
//初始化之後
Object postProcessAfterInitialization(Object bean, String beanName) throws BeansException;
}
在對象初始化之後會調用postProcessAfterInitialization方法,該方法返回一個Object。如果成功返回瞭一個對象,那麼容器中相應beanName對應的實例就將會是這個對象。
本文主要分析動態代理,我們著重看AnnotationAwareAspectJAutoProxyCreator。先來看一下它的繼承關系:
AnnotationAwareAspectJAutoProxyCreator最終實現瞭BeanPostProcessor接口(也實現瞭InstantiationAwareBeanPostProcessor接口),可以看到繼承關系比較復雜。當前我們關註的postProcessAfterInitialization方法實現在它的父類AbstractAutoProxyCreator中(隻保留瞭部分代碼):
public Object postProcessAfterInitialization(Object bean, String beanName) throws BeansException {
if (bean != null) {
Object cacheKey = getCacheKey(bean.getClass(), beanName);
if (!this.earlyProxyReferences.contains(cacheKey)) {
return wrapIfNecessary(bean, beanName, cacheKey);
}
}
return bean;
}
這裡主要看看wrapIfNecessary方法(隻保留瞭部分代碼):
Object[] specificInterceptors = getAdvicesAndAdvisorsForBean(bean.getClass(), beanName, null);
......
Object[] specificInterceptors = getAdvicesAndAdvisorsForBean(bean.getClass(), beanName, null);
if (specificInterceptors != DO_NOT_PROXY) {
this.advisedBeans.put(cacheKey, Boolean.TRUE);
Object proxy = createProxy(bean.getClass(), beanName, specificInterceptors, new SingletonTargetSource(bean));
this.proxyTypes.put(cacheKey, proxy.getClass());
return proxy;
}
......
}
其中核心的是兩個方法調用,分別是getAdvicesAndAdvisorsForBean和createProxy。getAdvicesAndAdvisorsForBean會返回一個對象數組,包含aop相關的一些對象,如果是一個普通的不需要代理的對象會返回一個空Object數組,也就是DO_NOT_PROXY;createProxy方法則是創建代理類。
先看看getAdvicesAndAdvisorsForBean方法:
protected abstract Object[] getAdvicesAndAdvisorsForBean(Class<?> beanClass, String beanName, TargetSource customTargetSource) throws BeansException;
getAdvicesAndAdvisorsForBean方法在當前類(AbstractAutoProxyCreator)中是一個抽象方法,由子類AbstractAdvisorAutoProxyCreator實現:
public abstract class AbstractAdvisorAutoProxyCreator extends AbstractAutoProxyCreator {
@Override
protected Object[] getAdvicesAndAdvisorsForBean(Class<?> beanClass, String beanName, TargetSource targetSource) {
List<Advisor> advisors = findEligibleAdvisors(beanClass, beanName);
if (advisors.isEmpty()) {
return DO_NOT_PROXY;
}
return advisors.toArray();
}
}
代碼很清晰,我們進入findEligibleAdvisors方法,看方法名也知道它會完成尋找Advisor的工作:
protected List<Advisor> findEligibleAdvisors(Class<?> beanClass, String beanName) {
//尋找Advisor
List<Advisor> candidateAdvisors = findCandidateAdvisors();
//針對指定的bean,過濾可用的Advisor,比如根據註解匹配
List<Advisor> eligibleAdvisors = findAdvisorsThatCanApply(candidateAdvisors, beanClass, beanName);
extendAdvisors(eligibleAdvisors);
if (!eligibleAdvisors.isEmpty()) {
eligibleAdvisors = sortAdvisors(eligibleAdvisors);
}
return eligibleAdvisors;
}
首先進入findCandidateAdvisors方法:
protected List<Advisor> findCandidateAdvisors() {
// Add all the Spring advisors found according to superclass rules.
List<Advisor> advisors = super.findCandidateAdvisors();
// Build Advisors for all AspectJ aspects in the bean factory.
advisors.addAll(this.aspectJAdvisorsBuilder.buildAspectJAdvisors());
return advisors;
}
我們這裡主要看看aspectj的邏輯,所以看看aspectJAdvisorsBuilder.buildAspectJAdvisors方法(隻保留瞭主要代碼):
public List<Advisor> buildAspectJAdvisors() {
List<String> aspectNames = null;
......
synchronized (this) {
aspectNames = this.aspectBeanNames;
if (aspectNames == null) {
//獲取所有管理的beanName
String[] beanNames = BeanFactoryUtils.beanNamesForTypeIncludingAncestors(this.beanFactory, Object.class, true, false);
//遍歷每個beanName
for (String beanName : beanNames) {
//從beanFactory獲取Class
Class<?> beanType = this.beanFactory.getType(beanName);
//檢查對應的Class是否實現Aspect註解
if (this.advisorFactory.isAspect(beanType)) {
//說明這個beanName對應的類是一個切面
aspectNames.add(beanName);
AspectMetadata amd = new AspectMetadata(beanType, beanName);
if (amd.getAjType().getPerClause().getKind() == PerClauseKind.SINGLETON) {
MetadataAwareAspectInstanceFactory factory =
new BeanFactoryAspectInstanceFactory(this.beanFactory, beanName);
//獲取Advisor,主要是解析對象中關於AOP的註解,比如Pointcut
List<Advisor> classAdvisors = this.advisorFactory.getAdvisors(factory);
if (this.beanFactory.isSingleton(beanName)) {
//就放入緩存,後面就不用重新解析瞭
this.advisorsCache.put(beanName, classAdvisors);
}
advisors.addAll(classAdvisors);
}
}
}
this.aspectBeanNames = aspectNames;
return advisors;
}
}
......
}
會從beanFactory中尋找所有管理的beanName,返回一個String數組,然後遍歷數組,從beanFactory中根據beanName獲取對應的Class,然後再看對應的Class是否有Aspect註解,如果有對應的註解,那麼就表示這個對象是一個切面。接下來就需要進行解析,生成真正的Advisor對象,最後放入緩存。
可以看看isAspect方法是如何判斷的:
@Override
public boolean isAspect(Class<?> clazz) {
return (hasAspectAnnotation(clazz) && !compiledByAjc(clazz));
}
private boolean hasAspectAnnotation(Class<?> clazz) {
return (AnnotationUtils.findAnnotation(clazz, Aspect.class) != null);
}
邏輯很清晰,主要就是看有沒有Aspect註解。 但是這裡要註意,這個buildAspectJAdvisors方法通常不是在這裡調用的(”這裡“的意思是postProcessAfterInitialization的流程)。回到AnnotationAwareAspectJAutoProxyCreator繼承關系圖中,它也實現瞭InstantiationAwareBeanPostProcessor接口,同樣在其父類AbstractAutoProxyCreator中實現瞭postProcessBeforeInstantiation方法,這個方法會在對象實例化(不是初始化)之前調用,在該方法的邏輯裡通常會首先觸發buildAspectJAdvisors方法的執行,執行之後會把結果緩存起來。
好瞭,再回到findEligibleAdvisors方法,上面代碼已經貼瞭,這裡就不貼瞭。獲取到Advisor列表之後,要從中找到能用於指定類的Advisor列表,然後返回。接下來就要為指定的對象創建代理對象瞭,也就是AbstractAutoProxyCreator類的createProxy方法:
protected Object createProxy(
Class<?> beanClass, String beanName, Object[] specificInterceptors, TargetSource targetSource) {
ProxyFactory proxyFactory = new ProxyFactory();
proxyFactory.copyFrom(this);
if (!proxyFactory.isProxyTargetClass()) {
if (shouldProxyTargetClass(beanClass, beanName)) {
proxyFactory.setProxyTargetClass(true);
}
else {
evaluateProxyInterfaces(beanClass, proxyFactory);
}
}
Advisor[] advisors = buildAdvisors(beanName, specificInterceptors);
for (Advisor advisor : advisors) {
proxyFactory.addAdvisor(advisor);
}
proxyFactory.setTargetSource(targetSource);
customizeProxyFactory(proxyFactory);
proxyFactory.setFrozen(this.freezeProxy);
if (advisorsPreFiltered()) {
proxyFactory.setPreFiltered(true);
}
return proxyFactory.getProxy(getProxyClassLoader());
}
代理對象是由ProxyFactory代理工廠創建的,我們先看看這個工廠是如何創建代理對象的,也就是proxyFactory.getProxy方法:
public Object getProxy(ClassLoader classLoader) {
return createAopProxy().getProxy(classLoader);
}
createAopProxy方法會返回一個AopProxy,該方法定義在ProxyFactory的父類ProxyCreatorSupport中:
public class ProxyCreatorSupport extends AdvisedSupport {
private AopProxyFactory aopProxyFactory;
public ProxyCreatorSupport() {
//設置默認的代理工廠DefaultAopProxyFactory
this.aopProxyFactory = new DefaultAopProxyFactory();
}
public AopProxyFactory getAopProxyFactory() {
//獲取代理工廠,默認就是DefaultAopProxyFactory
return this.aopProxyFactory;
}
protected final synchronized AopProxy createAopProxy() {
//先獲取代理工廠,然後調用工廠的createAopProxy方法創建AopProxy
return getAopProxyFactory().createAopProxy(this);
}
}
上面貼出瞭關鍵代碼,getAopProxyFactory默認返回的是一個DefaultAopProxyFactory工廠類,來看看DefaultAopProxyFactory的createAopProxy方法:
public AopProxy createAopProxy(AdvisedSupport config) throws AopConfigException {
if (config.isOptimize() || config.isProxyTargetClass() || hasNoUserSuppliedProxyInterfaces(config)) {
Class<?> targetClass = config.getTargetClass();
if (targetClass.isInterface()) {
return new JdkDynamicAopProxy(config);
}
return new ObjenesisCglibAopProxy(config);
}
else {
return new JdkDynamicAopProxy(config);
}
}
代碼中有一些代理配置的判斷,這裡不用關心。可以看到它提供瞭兩個AopProxy,分別是基於JDK的JdkDynamicAopProxy和基於cglib的ObjenesisCglibAopProxy。由於JDK提供的動態代理實現最終生成的代理類默認會繼承Proxy類,實現被代理類實現的接口,因為Java是單繼承,所以隻能通過接口實現,也就限制瞭要使用JDK提供的動態代理,必須要基於接口。而使用cglib基於字節碼的改造則沒有這個限制,所以Spring提供瞭這兩種方式,根據被代理類的實際情況來選擇。
關於每個AopProxy是如何創建代理類的,這裡就先不跟瞭~
總結
總的來說,動態代理是實現AOP的重要手段,Spring提供的動態代理主要依靠其提供的BeanPostProcessor,也稱之為後置處理器。除瞭BeanPostProcessor之外,還有InstantiationAwareBeanPostProcessor(也繼承瞭BeanPostProcessor),它們會在bean的生命周期的特定階段被調用,以開放給開發者處理和調整對象的入口或者手段。動態代理依托後置處理器,在後置處理器的邏輯中使用AopProxy創建瞭被代理對象的代理類,然後代替原有類存入Spring的bean工廠中,之後根據beanName獲取的實例對象就不再是原對象實例,而是代理類。而AopProxy是由AopProxyFactory接口生成,目前該接口隻有DefaultAopProxyFactory實現類,其提供瞭兩種AopProxy,分別基於原生JDK提供的動態代理和cgib,根據實際情況選擇。
到此這篇關於Spring源碼學習之動態代理實現流程的文章就介紹到這瞭,更多相關Spring動態代理實現內容請搜索WalkonNet以前的文章或繼續瀏覽下面的相關文章希望大傢以後多多支持WalkonNet!
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