细节知多少 - spring boot aop过程解析之阶段二 判断beanName或beanClass是否生成Proxy代理类

此篇是细节知多少-spring boot aop过程解析系列的第二篇，即第二阶段

我们把spring boot的aop实现分为三个阶段

• AnnotationAwareAspectJAutoProxyCreator加载(初始化和实例化)阶段
• AnnotationAwareAspectJAutoProxyCreator使用post-process基于@Aspect验证beanName或beanClass是否可以生成Proxy代理类阶段
• CglibAopProxy或JdkDynamicAopProxy生成Proxy代理类阶段

上一篇中，笔者和大家一起学习了spring boot aop过程解析之阶段一: AnnotationAwareAspectJAutoProxyCreator加载。这篇我们说下阶段二：判断beanName或beanClass是否生成Proxy代理类。在spring boot中，每个类在生成代理类时，都会判断是否可以生成代理类

带着问题学习

带着问题学习往往起到更好的效果

问题：

1. spring aop是如果获取和解析@Aspect注解的
2. spring aop是如果获取和解析@Pointcut注解的
3. @Pointcut注解的execution(expression)存放在哪个对象，什么时候被使用

用例代码

实际工作中，我们都写过@Aspect的代码吧。我们这里定义一个，便于后面知识点阐述

@Aspect
@Component
public class TimeFeeAspect {

    @Pointcut("execution(* com.yy..rest..*(..))")
    public void cut(){}

    @Before("cut()")
    public void doTimeFeeIntercepter(JoinPoint joinPoint) throws Throwable {
        System.out.println("args:" + joinPoint.getArgs());
        System.out.println("target" + joinPoint.getTarget().toString());
    }

}

如上代码，定义一个Aspect类，目的是对com.yy..rest包下所有的类的访问都经过切面，也就是要走doTimeFeeIntercepter()方法。
下面我们通过debug追踪源码，了解实现原理。

验证和生成代理的入口

通过《spring boot aop过程解析之阶段一: AnnotationAwareAspectJAutoProxyCreator加载》我们知道一个bean要生成代理的入口在AnnotationAwareAspectJAutoProxyCreator的前后置方法中实现。为了方便我定义了一个@Component CustomInstantiationAwarePostProcessorAdapter。在CustomInstantiationAwarePostProcessorAdapter被创建成bean过程中，由于post-process机制当经过AnnotationAwareAspectJAutoProxyCreator的postProcessBeforeInstantiation()和postProcessAfterInitialization()方法时，都会进行代理类的创建逻辑，即判断是否能创建，如果通过则创建。现在说下这两个方法生成代理类逻辑的源码

postProcessBeforeInstantiation()

进入方法，验证逻辑就开始了，如下图代码

验证逻辑为beanClass是否为aop基础结构类型或者是否可以跳过。由于beanClass不是Pointcut、Advice、Advisor等aop基础结构的子类，所以isInfrastructureClass(beanClass)返回false，代码进入shouldSkip(beanClass, beanName)方法逻辑，这个很重要的方法，逻辑很复杂。进入方法内部

@Override
protected boolean shouldSkip(Class<?> beanClass, String beanName) {
    //advisor候选者
	List<Advisor> candidateAdvisors = findCandidateAdvisors();
	for (Advisor advisor : candidateAdvisors) {
		if (advisor instanceof AspectJPointcutAdvisor) {
			if (((AbstractAspectJAdvice) advisor.getAdvice()).getAspectName().equals(beanName)) {
				return true;
			}
		}
	}
	return super.shouldSkip(beanClass, beanName);
}

首先获取advisor候选者列表，然后遍历，如果有AspectName等于beanName，说明这个beanName是Aspect，不用生成代理，方法返回true，否则走父类逻辑(返回false)。查看获取advisor候选者方法findCandidateAdvisors()

@Override
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;
}

方法内部逻辑很简单，但是意义重大，从两个角度获取Advisor。角度一是从beanFactory容器中获取Advisor类；角度二是从beanFactory容器中获取Aspect类。先看其一

public List<Advisor> findAdvisorBeans() {
 	String[] advisorNames = BeanFactoryUtils.beanNamesForTypeIncludingAncestors(
					this.beanFactory, Advisor.class, true, false);
			......
			
    List<Advisor> advisors = new LinkedList<Advisor>();
	for (String name : advisorNames) {
		if (isEligibleBean(name)) {
	       advisors.add(this.beanFactory.getBean(name, Advisor.class));
		}
	}
	return advisors;
}

这里只列出了关键代码，可以看到，从beanFactory容器中获取Advisor的子类name集合，然后验证下name是否合格，合格后获取name对应的bean。但是实际debug代码时，这步却没有获取到Advisor的子类，所以返回的是空list。
回到findCandidateAdvisors()方法,看其二

BeanFactoryAspectJAdvisorsBuilder类
public List<Advisor> buildAspectJAdvisors() {
  List<String> aspectNames = new LinkedList<String>();
      // 从beanFactory中获取所有的beanName
      String[] beanNames = BeanFactoryUtils.beanNamesForTypeIncludingAncestors(
          this.beanFactory, Object.class, true, false);
      // 遍历beanName集合对beanName进行合格性验证
      for (String beanName : beanNames) {
        // 默认true,除非有aop:include使用
        if (!isEligibleBean(beanName)) { //(1)
          continue;
        }
    
        Class<?> beanType = this.beanFactory.getType(beanName);
        if (beanType == null) {
          continue;
        }
        if (this.advisorFactory.isAspect(beanType)) { //(2)
          aspectNames.add(beanName);
          AspectMetadata amd = new AspectMetadata(beanType, beanName);
          // 单例 bean
          if (amd.getAjType().getPerClause().getKind() == PerClauseKind.SINGLETON) {
            MetadataAwareAspectInstanceFactory factory =
                new BeanFactoryAspectInstanceFactory(this.beanFactory, beanName); //(3)
            List<Advisor> classAdvisors = this.advisorFactory.getAdvisors(factory); //(4)
            advisors.addAll(classAdvisors);
          }
          else { // 单例Prototype bean
            MetadataAwareAspectInstanceFactory factory =
                new PrototypeAspectInstanceFactory(this.beanFactory, beanName);
            advisors.addAll(this.advisorFactory.getAdvisors(factory));
          }
        }
      }
      return advisors;
       
}

代码(2)处，判断beanType是否为Aspect，实现逻辑为AnnotationUtils.findAnnotation(clazz, Aspect.class) != null，开头我定义了一个TimeFeeAspect切面类，所以这里只有TimeFeeAspect符合条件，进入if块里面
代码(3)处，构造一个带有Aspect metadata和beanFactory的BeanFactoryAspectInstanceFactory实例，传给关键代码(4)块，看代码(4)内部逻辑

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

	MetadataAwareAspectInstanceFactory lazySingletonAspectInstanceFactory =
			new LazySingletonAspectInstanceFactoryDecorator(aspectInstanceFactory);

	List<Advisor> advisors = new LinkedList<Advisor>();
	// 获取aspectClass的方法集合
	for (Method method : getAdvisorMethods(aspectClass)) {
		Advisor advisor = getAdvisor(method, lazySingletonAspectInstanceFactory, advisors.size(), aspectName); // 关键代码
		if (advisor != null) {
			advisors.add(advisor);
		}
	}
	return advisors;

}

这个方法的目的很明确：获取advisor。方法解析出入参aspectClass的methods，遍历methods从而获取advisor集合，advisor包含advice和pointcut。

获取methods的方法值得说下

private List<Method> getAdvisorMethods(Class<?> aspectClass) {
	final List<Method> methods = new LinkedList<Method>();
	ReflectionUtils.doWithMethods(aspectClass, new ReflectionUtils.MethodCallback() {
		@Override
		public void doWith(Method method) throws IllegalArgumentException {
			if (AnnotationUtils.getAnnotation(method, Pointcut.class) == null) {
				methods.add(method);
			}
		}
	});
	Collections.sort(methods, METHOD_COMPARATOR);
	return methods;
}

这段方法逻辑是通用的：获取一个类中带有(不带有)某注解的方法集合，这个逻辑可以轻易的为你实际所用。
根据method获取advisor的getAdvisor(..)方法就是核心逻辑了，看其内部

ReflectiveAspectJAdvisorFactory类
public Advisor getAdvisor(Method candidateAdviceMethod, MetadataAwareAspectInstanceFactory aspectInstanceFactory,
		int declarationOrderInAspect, String aspectName) {

    // 验证aspectClass是否有@Aspect注解，其父类是否没有Aspect注解
    validate(aspectInstanceFactory.getAspectMetadata().getAspectClass());
    // 核心：生成PointCut
	AspectJExpressionPointcut expressionPointcut = getPointcut(
			candidateAdviceMethod, aspectInstanceFactory.getAspectMetadata().getAspectClass());
	
	return new InstantiationModelAwarePointcutAdvisorImpl(expressionPointcut, candidateAdviceMethod,
			this, aspectInstanceFactory, declarationOrderInAspect, aspectName);
}

方法首先验证后，根据adviceMethod和aspectClass生成PointCut，然后构造成InstantiationModelAwarePointcutAdvisorImpl实例。首先看生成PointCut的逻辑

ReflectiveAspectJAdvisorFactory类
private AspectJExpressionPointcut getPointcut(Method candidateAdviceMethod, Class<?> candidateAspectClass) {
    // 获取method的Advice,即Before.class, Around.class, After.class, AfterReturning.class, AfterThrowing.class
    // AspectJAnnotation包括具体类型的Advice和PointCut的expression
	AspectJAnnotation<?> aspectJAnnotation =
			AbstractAspectJAdvisorFactory.findAspectJAnnotationOnMethod(candidateAdviceMethod);
   // 构造PointCut
   AspectJExpressionPointcut ajexp =
			new AspectJExpressionPointcut(candidateAspectClass, new String[0], new Class<?>[0]);
	ajexp.setExpression(aspectJAnnotation.getPointcutExpression());
	ajexp.setBeanFactory(this.beanFactory);
	return ajexp;
}

AbstractAspectJAdvisorFactory类
protected static AspectJAnnotation<?> findAspectJAnnotationOnMethod(Method method) {
	Class<?>[] classesToLookFor = new Class<?>[] {
			Before.class, Around.class, After.class, AfterReturning.class, AfterThrowing.class, Pointcut.class};
	// 匹配方法的Advice类型：Before.class, Around.class, After.class, AfterReturning.class, AfterThrowing.class, Pointcut.class
	// 匹配即返回
	for (Class<?> c : classesToLookFor) {
		AspectJAnnotation<?> foundAnnotation = findAnnotation(method, (Class<Annotation>) c);
		if (foundAnnotation != null) {
			return foundAnnotation;
		}
	}
	return null;
}

生成PointCut后，代码回到ReflectiveAspectJAdvisorFactory.getAdvisor()方法的构造InstantiationModelAwarePointcutAdvisorImpl实例部分，查看其构造方法

可以看到，InstantiationModelAwarePointcutAdvisorImpl类包含AspectJExpressionPointcut类型的pointcut名属性，adviceName，aspectJAdviceMethod切面方法等属性。同时也会根据advice的type生成对应的xxxAdvice对象。看最后一行instantiatedAdvice的解析代码

private Advice instantiateAdvice(AspectJExpressionPointcut pcut) {
	return this.aspectJAdvisorFactory.getAdvice(this.aspectJAdviceMethod, pcut,
			this.aspectInstanceFactory, this.declarationOrder, this.aspectName);
}
	
public Advice getAdvice(Method candidateAdviceMethod, AspectJExpressionPointcut expressionPointcut,
    	MetadataAwareAspectInstanceFactory aspectInstanceFactory, int declarationOrder, String aspectName) {
    
    Class<?> candidateAspectClass = aspectInstanceFactory.getAspectMetadata().getAspectClass(); 
    AspectJAnnotation<?> aspectJAnnotation =
    		AbstractAspectJAdvisorFactory.findAspectJAnnotationOnMethod(candidateAdviceMethod);
    
    AbstractAspectJAdvice springAdvice;
    switch (aspectJAnnotation.getAnnotationType()) {
    	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;
    	case AtAround:
    		springAdvice = new AspectJAroundAdvice(
    				candidateAdviceMethod, expressionPointcut, aspectInstanceFactory);
    		break;
    	case AtPointcut:
    		if (logger.isDebugEnabled()) {
    			logger.debug("Processing pointcut '" + candidateAdviceMethod.getName() + "'");
    		}
    		return null;
    	default:
    		···
    }
    
    // Now to configure the advice...
    springAdvice.setAspectName(aspectName);
    springAdvice.setDeclarationOrder(declarationOrder);
    String[] argNames = this.parameterNameDiscoverer.getParameterNames(candidateAdviceMethod);
    if (argNames != null) {
    	springAdvice.setArgumentNamesFromStringArray(argNames);
    }
    springAdvice.calculateArgumentBindings();
    return springAdvice;
}

整个方法就是为了获取Advice，根据切面方法(即TimeFeeAspect.doTimeFeeIntercepter)上的advice注解type返回对应的xxxxAdvice实例。这里doTimeFeeIntercepter方法上注解了@Before advice，所以我们得到是AspectJMethodBeforeAdvice对象。AspectJMethodBeforeAdvice包含advice method, pointcut, aspect class name。AspectJMethodBeforeAdvice相当于interceptor。当生成proxy代理类时，AspectJMethodBeforeAdvice就是proxy代理类的interceptor，proxy的切入的方法就是AspectJMethodBeforeAdvice的advice method，即TimeFeeAspect.doTimeFeeIntercepter方法。这样，就把目标类的被切入方法和aspect的想切入的方法关联起来了。所以每次程序走到目标类的被切入方法时，都会先走aspect的想切入的方法。

这样InstantiationModelAwarePointcutAdvisorImpl对象就new出来了。包含属性如下图

所以，对外暴露的advisor其实就是InstantiationModelAwarePointcutAdvisorImpl对象，当生成proxy代理类的时候传进去的advisor也就是InstantiationModelAwarePointcutAdvisorImpl对象了。当我们讲解spring boot aop过程解析之阶段三：生成Proxy代理类时接着说这里

到这,Advice class获取到了，Advice的PointCut也拿到了，但是PointCut自身的表达式(Expression)值还没有拿到。接着走代码

回到postProcessBeforeInstantiation()方法，由于我们找到了Advisor，所以shouldSkip(beanClass, beanName)返回false，逻辑往下走。又由于getCustomTargetSource(beanClass, beanName)返回null，所以这步没有生成入参beanName或beanClass的代理

这样，postProcessBeforeInstantiatioin()方法的逻辑就走完了。但是beanName或beanClass还有一次生成代理类的机会，就是postProcessAfterInitialization()方法提供的

postProcessAfterInitialization()

我们在方法开始处打个断点，F9 debug放开，断点进入postProcessAfterInitialization()方法

可以看到：wrapIfNecessary方法是核心，查看其内部代码

protected Object wrapIfNecessary(Object bean, String beanName, Object cacheKey) {
	if (beanName != null && this.targetSourcedBeans.contains(beanName)) {
		return bean;
	}
	if (Boolean.FALSE.equals(this.advisedBeans.get(cacheKey))) {
		return bean;
	}
	if (isInfrastructureClass(bean.getClass()) || shouldSkip(bean.getClass(), beanName)) {
		this.advisedBeans.put(cacheKey, Boolean.FALSE);
		return bean;
	}

	// Create proxy if we have advice.
	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;
	}

	this.advisedBeans.put(cacheKey, Boolean.FALSE);
	return bean;
}

可以看到，方法上半部分与postProcessBeforeInstantiation()方法相同，刚才的分析就是shouldSkip(bean.getClass(), beanName)方法，所以我们直接看getAdvicesAndAdvisorsForBean(bean.getClass(), beanName, null)。这个方法获取Advisor，看其内部逻辑

protected Object[] getAdvicesAndAdvisorsForBean(Class<?> beanClass, String beanName, TargetSource targetSource) {
	List<Advisor> advisors = findEligibleAdvisors(beanClass, beanName);
	return advisors.toArray();
}
	
protected List<Advisor> findEligibleAdvisors(Class<?> beanClass, String beanName) {
    // 获取Advisor候选者
	List<Advisor> candidateAdvisors = findCandidateAdvisors();
	List<Advisor> eligibleAdvisors = findAdvisorsThatCanApply(candidateAdvisors, beanClass, beanName);
	extendAdvisors(eligibleAdvisors);
	return eligibleAdvisors;
}

findEligibleAdvisors()方法首先获取Advisor候选者(findCandidateAdvisors()的逻辑在postProcessBeforeInstantiation()方法分析时已经说过)，然后通过findAdvisorsThatCanApply()方法检验这些Advisor候选者对beanClass来说是否是合格的Advisor。这里就很关键了，我们看其内部代码

AopUtils 类
protected List<Advisor> findAdvisorsThatCanApply( List<Advisor> candidateAdvisors, Class<?> beanClass, String beanName) {
    return AopUtils.findAdvisorsThatCanApply(candidateAdvisors, beanClass);
}

public static List<Advisor> findAdvisorsThatCanApply(List<Advisor> candidateAdvisors, Class<?> clazz) {
	List<Advisor> eligibleAdvisors = new LinkedList<Advisor>();
	···
	boolean hasIntroductions = !eligibleAdvisors.isEmpty();
	for (Advisor candidate : candidateAdvisors) {
		if (canApply(candidate, clazz, hasIntroductions)) {
			eligibleAdvisors.add(candidate);
		}
	}
	return eligibleAdvisors;
}

方法重点是条件判断。这里只列出部分代码，其实方法将候选者Advisor分为两拨，一拨是IntroductionAdvisor，然后条件判断canApply(candidate, clazz)；另一拨是其他Advisor，然后条件判断canApply(candidate, clazz, hasIntroductions)，我们debug时走的后一个条件判断方法逻辑，看其内部代码逻辑

AopUtils 类
public static boolean canApply(Advisor advisor, Class<?> targetClass, boolean hasIntroductions) {
	if (advisor instanceof PointcutAdvisor) {
		PointcutAdvisor pca = (PointcutAdvisor) advisor;
		return canApply(pca.getPointcut(), targetClass, hasIntroductions);
	}
}

AopUtils 类
public static boolean canApply(Pointcut pc, Class<?> targetClass, boolean hasIntroductions) {
         // 使用Pointcut匹配targetClass,此时的Pointcut.pointcutExpression赋值就隐藏在pc.getClassFilter()中
	if (!pc.getClassFilter().matches(targetClass)) {
		return false;
	}

	MethodMatcher methodMatcher = pc.getMethodMatcher();
	if (methodMatcher == MethodMatcher.TRUE) {
		// No need to iterate the methods if we're matching any method anyway...
		return true;
	}

	IntroductionAwareMethodMatcher introductionAwareMethodMatcher = null;
	if (methodMatcher instanceof IntroductionAwareMethodMatcher) {
		introductionAwareMethodMatcher = (IntroductionAwareMethodMatcher) methodMatcher;
	}

        //(1)
	Set<Class<?>> classes = new LinkedHashSet<Class<?>>(ClassUtils.getAllInterfacesForClassAsSet(targetClass));
	classes.add(targetClass);
	for (Class<?> clazz : classes) {
		Method[] methods = ReflectionUtils.getAllDeclaredMethods(clazz);
		for (Method method : methods) {
			if ((introductionAwareMethodMatcher != null &&
					introductionAwareMethodMatcher.matches(method, targetClass, hasIntroductions)) ||
					methodMatcher.matches(method, targetClass)) {//(2)
				return true;
			}
		}
	}

	return false;
}

整个方法都在判断targerClass是否匹配这个pointcut，由于此时的pointcut.pointcutExpression还没有赋值呢，所以在判断匹配之前，需要pointcut.pointcutExpression赋值，所以整个AopUtis.canApply分为两部分：

1. 给pointcut.pointcutExpression赋值
2. targerClass匹配pointcut检验
   而第一部分的赋值在pc.getClassFilter()里，看方法代码

AspectJExpressionPointcut类
public ClassFilter getClassFilter() {
	checkReadyToMatch();
	return this;
}
	
private void checkReadyToMatch() 
	if (this.pointcutExpression == null) {
		this.pointcutClassLoader = determinePointcutClassLoader();
		this.pointcutExpression = buildPointcutExpression(this.pointcutClassLoader);
	}
}

private PointcutExpression buildPointcutExpression(ClassLoader classLoader) {
	PointcutParser parser = initializePointcutParser(classLoader);
	return parser.parsePointcutExpression(replaceBooleanOperators(getExpression()),
			this.pointcutDeclarationScope, pointcutParameters);
}

PointcutParser类
public PointcutExpression parsePointcutExpression(String expression, Class<?> inScope, PointcutParameter[] formalParameters)  { 
	Pointcut pc = resolvePointcutExpression(expression, inScope, formalParameters);
	PointcutExpressionImpl pcExpr = new PointcutExpressionImpl(pc, expression, formalParameters, getWorld());
	return pcExpr;
}

protected Pointcut resolvePointcutExpression(String expression, Class<?> inScope, PointcutParameter[] formalParameters) {
	PatternParser parser = new PatternParser(expression);
	parser.setPointcutDesignatorHandlers(pointcutDesignators, world);
	Pointcut pc = parser.parsePointcut();
	IScope resolutionScope = buildResolutionScope((inScope == null ? Object.class : inScope), formalParameters);
	pc = pc.resolve(resolutionScope);
	return pc;
}

以上代码的核心逻辑就是给AspectJExpressionPointcut.PointcutExpression赋值，这个就是开篇时的例子代码：@Pointcut(“execution( com.yy..rest..(..))”)。赋值操作是通过PointcutParser、PatternParser和Pointcut来完成的。具体的赋值过程入口为pc = pc.resolve(resolutionScope)。resolve方法调用栈：

Pointcut.resolve()
-this.resolveBindings()
--searchType.findPointcut(name)
searchType就是TimeFeeAspect，name就是cut方法名
       ... 经过getPointcuts().iterator循环 ...
---Java15ReflectionBasedReferenceTypeDelegate.getDeclaredPointcuts()
----AjType.getDeclaredPointcuts()
-----Method[] methods = clazz.getDeclaredMethods(）

clazz就是TimeFeeAspect,循环methods，判断method是否有@Pointcut注解：Pointcut pcAnn = method.getAnnotation(Pointcut.class);
拿到pcAnn.value()。构造成一个Pointcut，再构造成一个PointcutExpressionImpl，再构造成一个PointcutImpl。最后AspectJExpressionPointcut.PointcutExpression被赋值了。切入点的表达式已经有了，接下来要做的自然是使用表达式来验证目标了。这部分即是AopUtils.canApply()方法的第二部分的逻辑。

下面看AopUtils.canApply()方法的第二部分：targerClass匹配pointcut检验，首先看pc.getClassFilter().matches(targetClass)如果匹配，代码往下走；如果不匹配，直接返回false。接着走(2)处代码，即获取targerClass的所有接口和父类，遍历每个类的每个方法，使用Pointcut的expression去match每个方法，一旦有匹配上，返回true，退出遍历。所以匹配的逻辑就是重点了。这里列下关键的代码段

AspectJExpressionPointcut类
public boolean matches(Method method, Class<?> targetClass, boolean beanHasIntroductions) {
	Method targetMethod = AopUtils.getMostSpecificMethod(method, targetClass);
	ShadowMatch shadowMatch = getShadowMatch(targetMethod, method);  //关键代码
	if (shadowMatch.alwaysMatches()) {
	  return true;
	}
	else if (shadowMatch.neverMatches()) {
	  return false;
	}
}

// 可以看到这个方法中使用了双重检查机制(double check)，double check结合synchronized可以有效的
// 避免锁的竞争，这个组合我们可以在很多地方使用，想想在你的项目中使用它，很棒，面试也是高频知识点
private ShadowMatch getShadowMatch(Method targetMethod, Method originalMethod) {
  // Avoid lock contention for known Methods through concurrent access...
  ShadowMatch shadowMatch = this.shadowMatchCache.get(targetMethod);
  if (shadowMatch == null) {
    synchronized (this.shadowMatchCache) {
        shadowMatch = this.shadowMatchCache.get(targetMethod);
        if (shadowMatch == null) {
					// pointcutExpression对象包含KindedpPointcut类型的属性pointcut "execution(* com.yy..rest..*(..))"
					// KindedpPointcut包含SignaturePattern类型的属性signature "* com.yy..rest..*(..)"
          shadowMatch = this.pointcutExpression.matchesMethodExecution(methodToMatch);  //关键代码
        }
    }
  }
}

PointcutExpressionImpl类
private ShadowMatchImpl getShadowMatch(Shadow forShadow) {
	org.aspectj.util.FuzzyBoolean match = pointcut.match(forShadow); //关键代码
	Test residueTest = Literal.TRUE;
	ExposedState state = getExposedState();
	if (match.maybeTrue()) {
		residueTest = pointcut.findResidue(forShadow, state);
	}
	ShadowMatchImpl sm = new ShadowMatchImpl(match, residueTest, state, parameters);
	sm.setMatchingContext(this.matchContext);
	return sm;
}

WildTypePattern类，真正的验证逻辑就在这个类。
protected boolean matchesExactly(ResolvedType type, ResolvedType annotatedType) {
	String targetTypeName = type.getName();

	// System.err.println("match: " + targetTypeName + ", " + knownMatches); //Arrays.asList(importedPrefixes));
	// Ensure the annotation pattern is resolved
	annotationPattern.resolve(type.getWorld());

        // 四个方法的&&结果
	return matchesExactlyByName(targetTypeName, type.isAnonymous(), type.isNested()) && matchesParameters(type, STATIC)
			&& matchesBounds(type, STATIC)
			&& annotationPattern.matches(annotatedType, type.temporaryAnnotationTypes).alwaysTrue();
}

• matchesExactlyByName(..)比较全限定类名是否匹配。会把pointcut的expression和目标类的全限定名变为.分隔的数组，对应下标值依次比较。像这样：pattern[pi].matches(target[ti])。
• matchesParameters(..)比较方法的参数是否匹配
• matchesBounds(..)比较方法或参数带?时是否匹配
• annotationPattern(..)比较方法或参数的注解是否匹配
  当然，根据&&短路原则，前面的方法返回false时，后面的方法不用走了，直接返回结果。本例debug时，pointcut为”execution( com.yy..rest..(..))，目标target类为com.yy.custom_spring.custom5.CustomInstantiationAwarePostProcessorAdapter，两者比较，包名不一样，所以不匹配，返回false

另外，targerClass是否匹配pointcut的过程我们也可以通过debug的调用栈来观察调用关系，如下图。这样，你自己debug走代码的时候体会的更直接

到这里，spring boot aop过程解析之阶段二判断beanName或beanClass是否生成Proxy代理类就走完了。没有面面俱到，但关键地方都有提到。如有任何疑问和问题，欢迎一起交流进步，可以留言或邮箱 skyler_11@163.com yaoyihao1@gmail.com

问题回答

• 针对文章开头的问题我们可以回答下了：

问题：

1. spring aop是如果获取和解析Aspect(advisor)切面类的
2. spring aop是如果获取和解析@Pointcut注解的
3. @Pointcut注解的execution(expression)存放在哪个对象，什么时候被使用
4. @Before注解spring aop是如果获取和解析的，spring aop如何找到@Before对应的Pointcut？
5. 什么时候什么位置在真实对象方法前后加上代理逻辑的

答案：

1. spring是从两个方面获取Aspect(advisor)切面类的
一方面：String[] advisorNames = BeanFactoryUtils.beanNamesForTypeIncludingAncestors(this.beanFactory, Advisor.class, true, false);
另一方面：String[] beanNames = BeanFactoryUtils.beanNamesForTypeIncludingAncestors(this.beanFactory, Object.class, true, false);然后遍历beanNames，找到对应的bean，看看这个bean是否有@Aspect注解，有就是Aspect(advisor)


2. spring是找到并解析Aspect类中Advice方法的参数，如@Before("cut()") public void doTimeFeeIntercepter方法。具体的解析位置是AspectJExpressionPointcut=ReflectiveAspectJAdvisorFactory.getPointcut()方法，这时的AspectJExpressionPointcut只有值cut(),表达式还没有赋值呢。然后再根据cut()重新解析Aspect类，找到Expression并赋值给AspectJExpressionPointcut，这步是在Pointcut.resolve()中完成的

3. execution(expression)存放在KindedPointcut对象中，在验证targerClass是否匹配时被使用

如有任何疑问和问题，欢迎一起交流进步，可以留言或邮箱 skyler_11@163.com yaoyihao1@gmail.com