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Spring框架系列(9) - Spring AOP实现原理详解之AOP切面的实现

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前文,我们分析了Spring IOC的初始化过程和Bean的生命周期等,而Spring AOP也是基于IOC的Bean加载来实现的。本文主要介绍Spring AOP原理解析的切面实现过程(将切面类的所有切面方法根据使

前文,我们分析了Spring IOC的初始化过程和Bean的生命周期等,而Spring AOP也是基于IOC的Bean加载来实现的。本文主要介绍Spring AOP原理解析的切面实现过程(将切面类的所有切面方法根据使用的注解生成对应Advice,并将Advice连同切入点匹配器和切面类等信息一并封装到Advisor,为后续交给代理增强实现做准备的过程)。@pdai

  • Spring框架系列(9) - Spring AOP实现原理详解之AOP切面的实现
    • 引入
    • aop配置标签的解析
      • config配置标签的解析
      • aspectj-autoproxy配置标签的解析
    • 注解切面代理创建类(AnnotationAwareAspectJAutoProxyCreator)
      • postProcessBeforeInstantiation
        • 判断是否是aop基础类
        • 是否应该跳过shouldSkip
        • 切面方法转成Advisor
        • 获取表达式的切点
        • 封装成Advisor
        • 小结
      • postProcessAfterInitialization
    • 总结
    • 更多文章
引入

我们应该从哪里开始着手看Spring AOP的源码呢?和我们上文分析的IOC源码实现有什么关系呢?

  1. 前文中我们写了AOP的Demo,根据其XML配置我们不难发现AOP是基于IOC的Bean加载来实现的;这便使我们的主要入口

所以理解Spring AOP的初始化必须要先理解Spring IOC的初始化。

  1. 然后我们就能找到如下初始化的流程和aop对应的handler

即parseCustomElement方法找到parse aop:aspectj-autoproxy的handler(org.springframework.aop.config.AopNamespaceHandler)

(PS:其实你会发现,最重要的是知识点的关联关系,而不是知识点本身,就后续代码而言不就是打个断点慢慢看的事了么。)

aop配置标签的解析

上文中,我们找到了AopNamespaceHandler,其实就是注册BeanDefinition的解析器BeanDefinitionParser,将aop:xxxxxx配置标签交给指定的parser来处理。

public class AopNamespaceHandler extends NamespaceHandlerSupport {

	/**
	 * Register the {@link BeanDefinitionParser BeanDefinitionParsers} for the
	 * '{@code config}', '{@code spring-configured}', '{@code aspectj-autoproxy}'
	 * and '{@code scoped-proxy}' tags.
	 */
	@Override
	public void init() {
		// In 2.0 XSD as well as in 2.5+ XSDs
        // 注册解析<aop:config> 配置
		registerBeanDefinitionParser("config", new ConfigBeanDefinitionParser());
        // 注册解析<aop:aspectj-autoproxy> 配置
		registerBeanDefinitionParser("aspectj-autoproxy", new AspectJAutoProxyBeanDefinitionParser());
		registerBeanDefinitionDecorator("scoped-proxy", new ScopedProxyBeanDefinitionDecorator());

		// Only in 2.0 XSD: moved to context namespace in 2.5+
		registerBeanDefinitionParser("spring-configured", new SpringConfiguredBeanDefinitionParser());
	}

}
config配置标签的解析

<aop:config/>由ConfigBeanDefinitionParser这个类处理,作为parser类最重要的就是parse方法

@Override
@Nullable
public BeanDefinition parse(Element element, ParserContext parserContext) {
    CompositeComponentDefinition compositeDef =
            new CompositeComponentDefinition(element.getTagName(), parserContext.extractSource(element));
    parserContext.pushContainingComponent(compositeDef);

    configureAutoProxyCreator(parserContext, element);

    List<Element> childElts = DomUtils.getChildElements(element);
    for (Element elt: childElts) {
        String localName = parserContext.getDelegate().getLocalName(elt);
        if (POINTCUT.equals(localName)) {
            parsePointcut(elt, parserContext);
        }
        else if (ADVISOR.equals(localName)) {
            parseAdvisor(elt, parserContext);
        }
        else if (ASPECT.equals(localName)) {
            parseAspect(elt, parserContext);
        }
    }

    parserContext.popAndRegisterContainingComponent();
    return null;
}

打个断点看下

parseAspect的方法如下, 处理方法不难,我这里就不展开了

private void parseAspect(Element aspectElement, ParserContext parserContext) {
    String aspectId = aspectElement.getAttribute(ID);
    String aspectName = aspectElement.getAttribute(REF);

    try {
        this.parseState.push(new AspectEntry(aspectId, aspectName));
        List<BeanDefinition> beanDefinitions = new ArrayList<>();
        List<BeanReference> beanReferences = new ArrayList<>();

        List<Element> declareParents = DomUtils.getChildElementsByTagName(aspectElement, DECLARE_PARENTS);
        for (int i = METHOD_INDEX; i < declareParents.size(); i++) {
            Element declareParentsElement = declareParents.get(i);
            beanDefinitions.add(parseDeclareParents(declareParentsElement, parserContext));
        }

        // We have to parse "advice" and all the advice kinds in one loop, to get the
        // ordering semantics right.
        NodeList nodeList = aspectElement.getChildNodes();
        boolean adviceFoundAlready = false;
        for (int i = 0; i < nodeList.getLength(); i++) {
            Node node = nodeList.item(i);
            if (isAdviceNode(node, parserContext)) {
                if (!adviceFoundAlready) {
                    adviceFoundAlready = true;
                    if (!StringUtils.hasText(aspectName)) {
                        parserContext.getReaderContext().error(
                                "<aspect> tag needs aspect bean reference via 'ref' attribute when declaring advices.",
                                aspectElement, this.parseState.snapshot());
                        return;
                    }
                    beanReferences.add(new RuntimeBeanReference(aspectName));
                }
                AbstractBeanDefinition advisorDefinition = parseAdvice(
                        aspectName, i, aspectElement, (Element) node, parserContext, beanDefinitions, beanReferences);
                beanDefinitions.add(advisorDefinition);
            }
        }

        AspectComponentDefinition aspectComponentDefinition = createAspectComponentDefinition(
                aspectElement, aspectId, beanDefinitions, beanReferences, parserContext);
        parserContext.pushContainingComponent(aspectComponentDefinition);

        List<Element> pointcuts = DomUtils.getChildElementsByTagName(aspectElement, POINTCUT);
        for (Element pointcutElement : pointcuts) {
            parsePointcut(pointcutElement, parserContext);
        }

        parserContext.popAndRegisterContainingComponent();
    }
    finally {
        this.parseState.pop();
    }
}
aspectj-autoproxy配置标签的解析

<aop:aspectj-autoproxy/>则由AspectJAutoProxyBeanDefinitionParser这个类处理的,我们看下parse 方法

@Override
@Nullable
public BeanDefinition parse(Element element, ParserContext parserContext) {
    // 注册AspectJAnnotationAutoProxyCreator
    AopNamespaceUtils.registerAspectJAnnotationAutoProxyCreatorIfNecessary(parserContext, element);
    // 拓展BeanDefinition
    extendBeanDefinition(element, parserContext);
    return null;
}

AopNamespaceUtils.registerAspectJAnnotationAutoProxyCreatorIfNecessary方法对应如下

public static void registerAspectJAnnotationAutoProxyCreatorIfNecessary(
        ParserContext parserContext, Element sourceElement) {

    BeanDefinition beanDefinition = AopConfigUtils.registerAspectJAnnotationAutoProxyCreatorIfNecessary(
            parserContext.getRegistry(), parserContext.extractSource(sourceElement));
    useClassProxyingIfNecessary(parserContext.getRegistry(), sourceElement);
    registerComponentIfNecessary(beanDefinition, parserContext);
}

AopConfigUtils.registerAspectJAnnotationAutoProxyCreatorIfNecessary对应如下

@Nullable
public static BeanDefinition registerAspectJAnnotationAutoProxyCreatorIfNecessary(
        BeanDefinitionRegistry registry, @Nullable Object source) {

    return registerOrEscalateApcAsRequired(AnnotationAwareAspectJAutoProxyCreator.class, registry, source);
}

到这里,我们发现AOP的创建工作是交给AnnotationAwareAspectJAutoProxyCreator来完成的。

注解切面代理创建类(AnnotationAwareAspectJAutoProxyCreator)

AnnotationAwareAspectJAutoProxyCreator是如何工作的呢?这时候我们就要看AnnotationAwareAspectJAutoProxyCreator类结构关系了。

如下是类结构关系

它实现了两类接口:

  • BeanFactoryAware属于Bean级生命周期接口方法
  • InstantiationAwareBeanPostProcessor 和 BeanPostProcessor 这两个接口实现,一般称它们的实现类为“后处理器”,是容器级生命周期接口方法

结合前文Spring Bean生命周期的流程

我们就可以定位到核心的初始化方法肯定在postProcessBeforeInstantiation和postProcessAfterInitialization中。

postProcessBeforeInstantiation

如下是上述类结构中postProcessBeforeInstantiation的方法,读者在自己看代码的时候建议打个断点看,可以方便理解

@Override
public Object postProcessBeforeInstantiation(Class<?> beanClass, String beanName) {
    Object cacheKey = getCacheKey(beanClass, beanName);

    if (!StringUtils.hasLength(beanName) || !this.targetSourcedBeans.contains(beanName)) {
        // 如果已经在缓存中,则忽略
        if (this.advisedBeans.containsKey(cacheKey)) {
            return null;
        }
        // 是否是aop基础类?是否跳过?
        if (isInfrastructureClass(beanClass) || shouldSkip(beanClass, beanName)) {
            this.advisedBeans.put(cacheKey, Boolean.FALSE);
            return null;
        }
    }

    // Create proxy here if we have a custom TargetSource.
    // Suppresses unnecessary default instantiation of the target bean:
    // The TargetSource will handle target instances in a custom fashion.
    TargetSource targetSource = getCustomTargetSource(beanClass, beanName);
    if (targetSource != null) {
        if (StringUtils.hasLength(beanName)) {
            this.targetSourcedBeans.add(beanName);
        }
        Object[] specificInterceptors = getAdvicesAndAdvisorsForBean(beanClass, beanName, targetSource);
        Object proxy = createProxy(beanClass, beanName, specificInterceptors, targetSource);
        this.proxyTypes.put(cacheKey, proxy.getClass());
        return proxy;
    }

    return null;
}
判断是否是aop基础类

是否是aop基础类的判断方法 isInfrastructureClass 如下

@Override
protected boolean isInfrastructureClass(Class<?> beanClass) {
    // Previously we setProxyTargetClass(true) in the constructor, but that has too
    // broad an impact. Instead we now override isInfrastructureClass to avoid proxying
    // aspects. I'm not entirely happy with that as there is no good reason not
    // to advise aspects, except that it causes advice invocation to go through a
    // proxy, and if the aspect implements e.g the Ordered interface it will be
    // proxied by that interface and fail at runtime as the advice method is not
    // defined on the interface. We could potentially relax the restriction about
    // not advising aspects in the future.
    // 父类判断它是aop基础类 or 使用@Aspect注解
    return (super.isInfrastructureClass(beanClass) ||
            (this.aspectJAdvisorFactory != null && this.aspectJAdvisorFactory.isAspect(beanClass)));
}

父类判断它是否是aop基础类的方法 super.isInfrastructureClass(beanClass), 本质上就是判断该类是否实现了Advice, Pointcut, Advisor或者AopInfrastructureBean接口。

protected boolean isInfrastructureClass(Class<?> beanClass) {
    // 该类是否实现了Advice, Pointcut, Advisor或者AopInfrastructureBean接口
    boolean retVal = Advice.class.isAssignableFrom(beanClass) ||
            Pointcut.class.isAssignableFrom(beanClass) ||
            Advisor.class.isAssignableFrom(beanClass) ||
            AopInfrastructureBean.class.isAssignableFrom(beanClass);
    if (retVal && logger.isTraceEnabled()) {
        logger.trace("Did not attempt to auto-proxy infrastructure class [" + beanClass.getName() + "]");
    }
    return retVal;
}
是否应该跳过shouldSkip

通过断点辅助,candidateAdvisors是就是xml配置的通知是对应的

@Override
protected boolean shouldSkip(Class<?> beanClass, String beanName) {
    // TODO: Consider optimization by caching the list of the aspect names
    List<Advisor> candidateAdvisors = findCandidateAdvisors();
    for (Advisor advisor : candidateAdvisors) {
        if (advisor instanceof AspectJPointcutAdvisor &&
                ((AspectJPointcutAdvisor) advisor).getAspectName().equals(beanName)) {
            return true;
        }
    }
    return super.shouldSkip(beanClass, beanName);
}
切面方法转成Advisor

findCandidateAdvisors方法如下:

@Override
protected List<Advisor> findCandidateAdvisors() {
    // 在父类中找到所有的advisor:基于xml配置的<aop:before/>生成的
    List<Advisor> advisors = super.findCandidateAdvisors();
    // 为bean Factory中AspectJ切面构建advistor:通过AspectJ注解的方式生成Advisor类
    if (this.aspectJAdvisorsBuilder != null) {
        advisors.addAll(this.aspectJAdvisorsBuilder.buildAspectJAdvisors());
    }
    return advisors;
}

在当前的bean Factory中通过AspectJ注解的方式生成Advisor类,buildAspectJAdvisors方法如下

/**
    * Look for AspectJ-annotated aspect beans in the current bean factory,
    * and return to a list of Spring AOP Advisors representing them.
    * <p>Creates a Spring Advisor for each AspectJ advice method.
    * @return the list of {@link org.springframework.aop.Advisor} beans
    * @see #isEligibleBean
    */
public List<Advisor> buildAspectJAdvisors() {
    List<String> aspectNames = this.aspectBeanNames;

    if (aspectNames == null) {
        synchronized (this) {
            aspectNames = this.aspectBeanNames;
            if (aspectNames == null) {
                List<Advisor> advisors = new ArrayList<>();
                aspectNames = new ArrayList<>();
                String[] beanNames = BeanFactoryUtils.beanNamesForTypeIncludingAncestors(
                        this.beanFactory, Object.class, true, false);
                for (String beanName : beanNames) {
                    if (!isEligibleBean(beanName)) {
                        continue;
                    }
                    // We must be careful not to instantiate beans eagerly as in this case they
                    // would be cached by the Spring container but would not have been weaved.
                    Class<?> beanType = this.beanFactory.getType(beanName, false);
                    if (beanType == null) {
                        continue;
                    }
                    if (this.advisorFactory.isAspect(beanType)) {
                        aspectNames.add(beanName);
                        AspectMetadata amd = new AspectMetadata(beanType, beanName);
                        if (amd.getAjType().getPerClause().getKind() == PerClauseKind.SINGLETON) {
                            MetadataAwareAspectInstanceFactory factory =
                                    new BeanFactoryAspectInstanceFactory(this.beanFactory, beanName);
                            List<Advisor> classAdvisors = this.advisorFactory.getAdvisors(factory);
                            // 单例加到advisorsCache, 非单例加到aspectFactoryCache
                            if (this.beanFactory.isSingleton(beanName)) {
                                this.advisorsCache.put(beanName, classAdvisors);
                            }
                            else {
                                this.aspectFactoryCache.put(beanName, factory);
                            }
                            advisors.addAll(classAdvisors);
                        }
                        else {
                            // Per target or per this.
                            if (this.beanFactory.isSingleton(beanName)) {
                                throw new IllegalArgumentException("Bean with name '" + beanName +
                                        "' is a singleton, but aspect instantiation model is not singleton");
                            }
                            MetadataAwareAspectInstanceFactory factory =
                                    new PrototypeAspectInstanceFactory(this.beanFactory, beanName);
                            this.aspectFactoryCache.put(beanName, factory);
                            // advisorFactory工厂获取advisors
                            advisors.addAll(this.advisorFactory.getAdvisors(factory));
                        }
                    }
                }
                this.aspectBeanNames = aspectNames;
                return advisors;
            }
        }
    }

    if (aspectNames.isEmpty()) {
        return Collections.emptyList();
    }
    List<Advisor> advisors = new ArrayList<>();
    for (String aspectName : aspectNames) {
        List<Advisor> cachedAdvisors = this.advisorsCache.get(aspectName);
        if (cachedAdvisors != null) {
            advisors.addAll(cachedAdvisors);
        }
        else {
            MetadataAwareAspectInstanceFactory factory = this.aspectFactoryCache.get(aspectName);
            advisors.addAll(this.advisorFactory.getAdvisors(factory));
        }
    }
    return advisors;
}

上述方法本质上的思路是:用DCL双重锁的单例实现方式,拿到切面类里的切面方法,将其转换成advisor(并放入缓存中)。

转换的成advisor的方法是:this.advisorFactory.getAdvisors

@Override
public List<Advisor> getAdvisors(MetadataAwareAspectInstanceFactory aspectInstanceFactory) {
    Class<?> aspectClass = aspectInstanceFactory.getAspectMetadata().getAspectClass();
    String aspectName = aspectInstanceFactory.getAspectMetadata().getAspectName();
    validate(aspectClass);

    // We need to wrap the MetadataAwareAspectInstanceFactory with a decorator
    // so that it will only instantiate once.
    MetadataAwareAspectInstanceFactory lazySingletonAspectInstanceFactory =
            new LazySingletonAspectInstanceFactoryDecorator(aspectInstanceFactory);

    List<Advisor> advisors = new ArrayList<>();
    for (Method method : getAdvisorMethods(aspectClass)) {
        // Prior to Spring Framework 5.2.7, advisors.size() was supplied as the declarationOrderInAspect
        // to getAdvisor(...) to represent the "current position" in the declared methods list.
        // However, since Java 7 the "current position" is not valid since the JDK no longer
        // returns declared methods in the order in which they are declared in the source code.
        // Thus, we now hard code the declarationOrderInAspect to 0 for all advice methods
        // discovered via reflection in order to support reliable advice ordering across JVM launches.
        // Specifically, a value of 0 aligns with the default value used in
        // AspectJPrecedenceComparator.getAspectDeclarationOrder(Advisor).
        Advisor advisor = getAdvisor(method, lazySingletonAspectInstanceFactory, 0, aspectName);
        if (advisor != null) {
            advisors.add(advisor);
        }
    }

    // If it's a per target aspect, emit the dummy instantiating aspect.
    if (!advisors.isEmpty() && lazySingletonAspectInstanceFactory.getAspectMetadata().isLazilyInstantiated()) {
        Advisor instantiationAdvisor = new SyntheticInstantiationAdvisor(lazySingletonAspectInstanceFactory);
        advisors.add(0, instantiationAdvisor);
    }

    // Find introduction fields.
    for (Field field : aspectClass.getDeclaredFields()) {
        Advisor advisor = getDeclareParentsAdvisor(field);
        if (advisor != null) {
            advisors.add(advisor);
        }
    }

    return advisors;
}

getAdvisor方法如下

@Override
@Nullable
public Advisor getAdvisor(Method candidateAdviceMethod, MetadataAwareAspectInstanceFactory aspectInstanceFactory,
        int declarationOrderInAspect, String aspectName) {

    validate(aspectInstanceFactory.getAspectMetadata().getAspectClass());

    AspectJExpressionPointcut expressionPointcut = getPointcut(
            candidateAdviceMethod, aspectInstanceFactory.getAspectMetadata().getAspectClass());
    if (expressionPointcut == null) {
        return null;
    }

    // 封装成advisor
    return new InstantiationModelAwarePointcutAdvisorImpl(expressionPointcut, candidateAdviceMethod,
            this, aspectInstanceFactory, declarationOrderInAspect, aspectName);
}
获取表达式的切点

获取表达式的切点的方法getPointcut如下:

@Nullable
private AspectJExpressionPointcut getPointcut(Method candidateAdviceMethod, Class<?> candidateAspectClass) {
    AspectJAnnotation<?> aspectJAnnotation =
            AbstractAspectJAdvisorFactory.findAspectJAnnotationOnMethod(candidateAdviceMethod);
    if (aspectJAnnotation == null) {
        return null;
    }

    AspectJExpressionPointcut ajexp =
            new AspectJExpressionPointcut(candidateAspectClass, new String[0], new Class<?>[0]);
    ajexp.setExpression(aspectJAnnotation.getPointcutExpression());
    if (this.beanFactory != null) {
        ajexp.setBeanFactory(this.beanFactory);
    }
    return ajexp;
}

AbstractAspectJAdvisorFactory.findAspectJAnnotationOnMethod的方法如下

private static final Class<?>[] ASPECTJ_ANNOTATION_CLASSES = new Class<?>[] {
        Pointcut.class, Around.class, Before.class, After.class, AfterReturning.class, AfterThrowing.class};

/**
    * Find and return the first AspectJ annotation on the given method
    * (there <i>should</i> only be one anyway...).
    */
@SuppressWarnings("unchecked")
@Nullable
protected static AspectJAnnotation<?> findAspectJAnnotationOnMethod(Method method) {
    for (Class<?> clazz : ASPECTJ_ANNOTATION_CLASSES) {
        AspectJAnnotation<?> foundAnnotation = findAnnotation(method, (Class<Annotation>) clazz);
        if (foundAnnotation != null) {
            return foundAnnotation;
        }
    }
    return null;
}

findAnnotation方法如下

@Nullable
private static <A extends Annotation> AspectJAnnotation<A> findAnnotation(Method method, Class<A> toLookFor) {
    A result = AnnotationUtils.findAnnotation(method, toLookFor);
    if (result != null) {
        return new AspectJAnnotation<>(result);
    }
    else {
        return null;
    }
}

AnnotationUtils.findAnnotation 获取注解方法如下

/**
    * Find a single {@link Annotation} of {@code annotationType} on the supplied
    * {@link Method}, traversing its super methods (i.e. from superclasses and
    * interfaces) if the annotation is not <em>directly present</em> on the given
    * method itself.
    * <p>Correctly handles bridge {@link Method Methods} generated by the compiler.
    * <p>Meta-annotations will be searched if the annotation is not
    * <em>directly present</em> on the method.
    * <p>Annotations on methods are not inherited by default, so we need to handle
    * this explicitly.
    * @param method the method to look for annotations on
    * @param annotationType the annotation type to look for
    * @return the first matching annotation, or {@code null} if not found
    * @see #getAnnotation(Method, Class)
    */
@Nullable
public static <A extends Annotation> A findAnnotation(Method method, @Nullable Class<A> annotationType) {
    if (annotationType == null) {
        return null;
    }

    // Shortcut: directly present on the element, with no merging needed?
    if (AnnotationFilter.PLAIN.matches(annotationType) ||
            AnnotationsScanner.hasPlainJavaAnnotationsOnly(method)) {
        return method.getDeclaredAnnotation(annotationType);
    }

    // Exhaustive retrieval of merged annotations...
    return MergedAnnotations.from(method, SearchStrategy.TYPE_HIERARCHY, RepeatableContainers.none())
            .get(annotationType).withNonMergedAttributes()
            .synthesize(MergedAnnotation::isPresent).orElse(null);
}
封装成Advisor

注:Advisor 是 advice的包装器,包含了advice及其它信息

由InstantiationModelAwarePointcutAdvisorImpl构造完成

public InstantiationModelAwarePointcutAdvisorImpl(AspectJExpressionPointcut declaredPointcut,
        Method aspectJAdviceMethod, AspectJAdvisorFactory aspectJAdvisorFactory,
        MetadataAwareAspectInstanceFactory aspectInstanceFactory, int declarationOrder, String aspectName) {

    this.declaredPointcut = declaredPointcut;
    this.declaringClass = aspectJAdviceMethod.getDeclaringClass();
    this.methodName = aspectJAdviceMethod.getName();
    this.parameterTypes = aspectJAdviceMethod.getParameterTypes();
    this.aspectJAdviceMethod = aspectJAdviceMethod;
    this.aspectJAdvisorFactory = aspectJAdvisorFactory;
    this.aspectInstanceFactory = aspectInstanceFactory;
    this.declarationOrder = declarationOrder;
    this.aspectName = aspectName;

    if (aspectInstanceFactory.getAspectMetadata().isLazilyInstantiated()) {
        // Static part of the pointcut is a lazy type.
        Pointcut preInstantiationPointcut = Pointcuts.union(
                aspectInstanceFactory.getAspectMetadata().getPerClausePointcut(), this.declaredPointcut);

        // Make it dynamic: must mutate from pre-instantiation to post-instantiation state.
        // If it's not a dynamic pointcut, it may be optimized out
        // by the Spring AOP infrastructure after the first evaluation.
        this.pointcut = new PerTargetInstantiationModelPointcut(
                this.declaredPointcut, preInstantiationPointcut, aspectInstanceFactory);
        this.lazy = true;
    }
    else {
        // A singleton aspect.
        this.pointcut = this.declaredPointcut;
        this.lazy = false;
        this.instantiatedAdvice = instantiateAdvice(this.declaredPointcut);
    }
}

通过pointcut获取advice

private Advice instantiateAdvice(AspectJExpressionPointcut pointcut) {
    Advice advice = this.aspectJAdvisorFactory.getAdvice(this.aspectJAdviceMethod, pointcut,
            this.aspectInstanceFactory, this.declarationOrder, this.aspectName);
    return (advice != null ? advice : EMPTY_ADVICE);
}

交给aspectJAdvisorFactory获取

@Override
@Nullable
public Advice getAdvice(Method candidateAdviceMethod, AspectJExpressionPointcut expressionPointcut,
        MetadataAwareAspectInstanceFactory aspectInstanceFactory, int declarationOrder, String aspectName) {

    // 获取切面类
    Class<?> candidateAspectClass = aspectInstanceFactory.getAspectMetadata().getAspectClass();
    validate(candidateAspectClass);

    // 获取切面注解
    AspectJAnnotation<?> aspectJAnnotation =
            AbstractAspectJAdvisorFactory.findAspectJAnnotationOnMethod(candidateAdviceMethod);
    if (aspectJAnnotation == null) {
        return null;
    }

    // If we get here, we know we have an AspectJ method.
    // Check that it's an AspectJ-annotated class
    if (!isAspect(candidateAspectClass)) {
        throw new AopConfigException("Advice must be declared inside an aspect type: " +
                "Offending method '" + candidateAdviceMethod + "' in class [" +
                candidateAspectClass.getName() + "]");
    }

    if (logger.isDebugEnabled()) {
        logger.debug("Found AspectJ method: " + candidateAdviceMethod);
    }

    // 切面注解转换成advice
    AbstractAspectJAdvice springAdvice;

    switch (aspectJAnnotation.getAnnotationType()) {
        case AtPointcut: // AtPointcut忽略
            if (logger.isDebugEnabled()) {
                logger.debug("Processing pointcut '" + candidateAdviceMethod.getName() + "'");
            }
            return null;
        case AtAround:
            springAdvice = new AspectJAroundAdvice(
                    candidateAdviceMethod, expressionPointcut, aspectInstanceFactory);
            break;
        case AtBefore:
            springAdvice = new AspectJMethodBeforeAdvice(
                    candidateAdviceMethod, expressionPointcut, aspectInstanceFactory);
            break;
        case AtAfter:
            springAdvice = new AspectJAfterAdvice(
                    candidateAdviceMethod, expressionPointcut, aspectInstanceFactory);
            break;
        case AtAfterReturning:
            springAdvice = new AspectJAfterReturningAdvice(
                    candidateAdviceMethod, expressionPointcut, aspectInstanceFactory);
            AfterReturning afterReturningAnnotation = (AfterReturning) aspectJAnnotation.getAnnotation();
            if (StringUtils.hasText(afterReturningAnnotation.returning())) {
                springAdvice.setReturningName(afterReturningAnnotation.returning());
            }
            break;
        case AtAfterThrowing:
            springAdvice = new AspectJAfterThrowingAdvice(
                    candidateAdviceMethod, expressionPointcut, aspectInstanceFactory);
            AfterThrowing afterThrowingAnnotation = (AfterThrowing) aspectJAnnotation.getAnnotation();
            if (StringUtils.hasText(afterThrowingAnnotation.throwing())) {
                springAdvice.setThrowingName(afterThrowingAnnotation.throwing());
            }
            break;
        default:
            throw new UnsupportedOperationException(
                    "Unsupported advice type on method: " + candidateAdviceMethod);
    }

    // 最后将其它切面信息配置到advice
    springAdvice.setAspectName(aspectName);
    springAdvice.setDeclarationOrder(declarationOrder);
    String[] argNames = this.parameterNameDiscoverer.getParameterNames(candidateAdviceMethod);
    if (argNames != null) {
        springAdvice.setArgumentNamesFromStringArray(argNames);
    }
    springAdvice.calculateArgumentBindings();

    return springAdvice;
}
小结

回头看,主要是处理使用了@Aspect注解的切面类,然后将切面类的所有切面方法根据使用的注解生成对应Advice,并将Advice连同切入点匹配器和切面类等信息一并封装到Advisor的过程。

postProcessAfterInitialization

有了Adisor, 注入到合适的位置并交给代理(cglib和jdk)实现了。

/**
* Create a proxy with the configured interceptors if the bean is
* identified as one to proxy by the subclass.
* @see #getAdvicesAndAdvisorsForBean
*/
@Override
public Object postProcessAfterInitialization(@Nullable Object bean, String beanName) {
    if (bean != null) {
        Object cacheKey = getCacheKey(bean.getClass(), beanName);
        if (this.earlyProxyReferences.remove(cacheKey) != bean) {
            return wrapIfNecessary(bean, beanName, cacheKey);
        }
    }
    return bean;
}

后文中将分别介绍代理的创建和实现:

  • Spring进阶 - Spring AOP实现原理详解之AOP代理的创建
  • Spring进阶 - Spring AOP实现原理详解之Cglib代理实现
  • Spring进阶 - Spring AOP实现原理详解之JDK代理实现
总结

通过上文的分析,我们做下小结:

  1. IOC Bean加载方法栈中找到parseCustomElement方法,找到parse aop:aspectj-autoproxy的handler(org.springframework.aop.config.AopNamespaceHandler)
  2. AopNamespaceHandler注册了<aop:aspectj-autoproxy/>的解析类是AspectJAutoProxyBeanDefinitionParser
  3. AspectJAutoProxyBeanDefinitionParser的parse 方法 通过AspectJAwareAdvisorAutoProxyCreator类去创建
  4. AspectJAwareAdvisorAutoProxyCreator实现了两类接口,BeanFactoryAware和BeanPostProcessor;根据Bean生命周期方法找到两个核心方法:postProcessBeforeInstantiation和postProcessAfterInitialization
    1. postProcessBeforeInstantiation:主要是处理使用了@Aspect注解的切面类,然后将切面类的所有切面方法根据使用的注解生成对应Advice,并将Advice连同切入点匹配器和切面类等信息一并封装到Advisor
    2. postProcessAfterInitialization:主要负责将Advisor注入到合适的位置,创建代理(cglib或jdk),为后面给代理进行增强实现做准备。
更多文章

首先, 从Spring框架的整体架构和组成对整体框架有个认知。

  • Spring基础 - Spring和Spring框架组成
    • Spring是什么?它是怎么诞生的?有哪些主要的组件和核心功能呢? 本文通过这几个问题帮助你构筑Spring和Spring Framework的整体认知。

其次,通过案例引出Spring的核心(IoC和AOP),同时对IoC和AOP进行案例使用分析。

  • Spring基础 - Spring简单例子引入Spring的核心
    • 上文中我们简单介绍了Spring和Spring Framework的组件,那么这些Spring Framework组件是如何配合工作的呢?本文主要承接上文,向你展示Spring Framework组件的典型应用场景和基于这个场景设计出的简单案例,并以此引出Spring的核心要点,比如IOC和AOP等;在此基础上还引入了不同的配置方式, 如XML,Java配置和注解方式的差异。
  • Spring基础 - Spring核心之控制反转(IOC)
    • 在Spring基础 - Spring简单例子引入Spring的核心中向你展示了IoC的基础含义,同时以此发散了一些IoC相关知识点; 本节将在此基础上进一步解读IOC的含义以及IOC的使用方式
  • Spring基础 - Spring核心之面向切面编程(AOP)
    • 在Spring基础 - Spring简单例子引入Spring的核心中向你展示了AOP的基础含义,同时以此发散了一些AOP相关知识点; 本节将在此基础上进一步解读AOP的含义以及AOP的使用方式。

基于Spring框架和IOC,AOP的基础,为构建上层web应用,需要进一步学习SpringMVC。

  • Spring基础 - SpringMVC请求流程和案例
    • 前文我们介绍了Spring框架和Spring框架中最为重要的两个技术点(IOC和AOP),那我们如何更好的构建上层的应用呢(比如web 应用),这便是SpringMVC;Spring MVC是Spring在Spring Container Core和AOP等技术基础上,遵循上述Web MVC的规范推出的web开发框架,目的是为了简化Java栈的web开发。 本文主要介绍SpringMVC的请求流程和基础案例的编写和运行。

Spring进阶 - IoC,AOP以及SpringMVC的源码分析

  • Spring进阶 - Spring IOC实现原理详解之IOC体系结构设计
    • 在对IoC有了初步的认知后,我们开始对IOC的实现原理进行深入理解。本文将帮助你站在设计者的角度去看IOC最顶层的结构设计
  • Spring进阶 - Spring IOC实现原理详解之IOC初始化流程
    • 上文,我们看了IOC设计要点和设计结构;紧接着这篇,我们可以看下源码的实现了:Spring如何实现将资源配置(以xml配置为例)通过加载,解析,生成BeanDefination并注册到IoC容器中的
  • Spring进阶 - Spring IOC实现原理详解之Bean实例化(生命周期,循环依赖等)
    • 上文,我们看了IOC设计要点和设计结构;以及Spring如何实现将资源配置(以xml配置为例)通过加载,解析,生成BeanDefination并注册到IoC容器中的;容器中存放的是Bean的定义即BeanDefinition放到beanDefinitionMap中,本质上是一个ConcurrentHashMap<String, Object>;并且BeanDefinition接口中包含了这个类的Class信息以及是否是单例等。那么如何从BeanDefinition中实例化Bean对象呢,这是本文主要研究的内容?
  • Spring进阶 - Spring AOP实现原理详解之切面实现
    • 前文,我们分析了Spring IOC的初始化过程和Bean的生命周期等,而Spring AOP也是基于IOC的Bean加载来实现的。本文主要介绍Spring AOP原理解析的切面实现过程(将切面类的所有切面方法根据使用的注解生成对应Advice,并将Advice连同切入点匹配器和切面类等信息一并封装到Advisor,为后续交给代理增强实现做准备的过程)。
  • Spring进阶 - Spring AOP实现原理详解之AOP代理
    • 上文我们介绍了Spring AOP原理解析的切面实现过程(将切面类的所有切面方法根据使用的注解生成对应Advice,并将Advice连同切入点匹配器和切面类等信息一并封装到Advisor)。本文在此基础上继续介绍,代理(cglib代理和JDK代理)的实现过程。
  • Spring进阶 - Spring AOP实现原理详解之Cglib代理实现
    • 我们在前文中已经介绍了SpringAOP的切面实现和创建动态代理的过程,那么动态代理是如何工作的呢?本文主要介绍Cglib动态代理的案例和SpringAOP实现的原理。
  • Spring进阶 - Spring AOP实现原理详解之JDK代理实现
    • 上文我们学习了SpringAOP Cglib动态代理的实现,本文主要是SpringAOP JDK动态代理的案例和实现部分。
  • Spring进阶 - SpringMVC实现原理之DispatcherServlet初始化的过程
    • 前文我们有了IOC的源码基础以及SpringMVC的基础,我们便可以进一步深入理解SpringMVC主要实现原理,包含DispatcherServlet的初始化过程和DispatcherServlet处理请求的过程的源码解析。本文是第一篇:DispatcherServlet的初始化过程的源码解析。
  • Spring进阶 - SpringMVC实现原理之DispatcherServlet处理请求的过程
    • 前文我们有了IOC的源码基础以及SpringMVC的基础,我们便可以进一步深入理解SpringMVC主要实现原理,包含DispatcherServlet的初始化过程和DispatcherServlet处理请求的过程的源码解析。本文是第二篇:DispatcherServlet处理请求的过程的源码解析。
更多文章请参考 [Java 全栈知识体系](https://pdai.tech)
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