AOP动态代理解析5-cglib代理的实现
CGLIB是一个强大的高性能的代码生成包。它广泛地被许多AOP的框架使用,例如Spring AOP和dynaop,为他们提供方法的Interception(拦截)。EasyMock和jMock是通过使用模仿(moke)对象来测试Java代码的包。它们都通过使用CGLIB来为那些没有接口的类创建模仿(moke)对象。
CGLIB包的底层通过使用一个小而快的字节码处理框架ASM,来转换字节码并生成新的类。除了CGLIB包,脚本语言例如Groovy和BeanShell,也是使用ASM来生成Java的字节码。当然不鼓励直接使用ASM,因为它要求你必须对JVM内部结构包括class文件的格式和指令集都很熟悉。
CGLIB代理的类是委托给CglibAopProxy类去实现的。Cglib2AopProxy的入口是在getProxy,也就是说在CglibAopProxy类的getProxy方法中实现了Enhancer的创建及接口封装。
public Object getProxy() { return getProxy(null); } public Object getProxy(ClassLoader classLoader) { if (logger.isDebugEnabled()) { logger.debug("Creating CGLIB proxy: target source is " + this.advised.getTargetSource()); } try { Class<?> rootClass = this.advised.getTargetClass(); Assert.state(rootClass != null, "Target class must be available for creating a CGLIB proxy"); Class<?> proxySuperClass = rootClass; if (ClassUtils.isCglibProxyClass(rootClass)) { proxySuperClass = rootClass.getSuperclass(); Class<?>[] additionalInterfaces = rootClass.getInterfaces(); for (Class<?> additionalInterface : additionalInterfaces) { this.advised.addInterface(additionalInterface); } } //验证Class validateClassIfNecessary(proxySuperClass); //创建及配置Enhancer Enhancer enhancer = createEnhancer(); if (classLoader != null) { enhancer.setClassLoader(classLoader); if (classLoader instanceof SmartClassLoader && ((SmartClassLoader) classLoader).isClassReloadable(proxySuperClass)) { enhancer.setUseCache(false); } } enhancer.setSuperclass(proxySuperClass); enhancer.setInterfaces(AopProxyUtils.completeProxiedInterfaces(this.advised)); enhancer.setNamingPolicy(SpringNamingPolicy.INSTANCE); enhancer.setStrategy(new MemorySafeUndeclaredThrowableStrategy(UndeclaredThrowableException.class)); enhancer.setInterceptDuringConstruction(false); //设置拦截器 Callback[] callbacks = getCallbacks(rootClass); Class<?>[] types = new Class<?>[callbacks.length]; for (int x = 0; x < types.length; x++) { types[x] = callbacks[x].getClass(); } enhancer.setCallbackFilter(new ProxyCallbackFilter( this.advised.getConfigurationOnlyCopy(), this.fixedInterceptorMap, this.fixedInterceptorOffset)); enhancer.setCallbackTypes(types); enhancer.setCallbacks(callbacks); //生成代理类以及创建代理 Object proxy; if (this.constructorArgs != null) { proxy = enhancer.create(this.constructorArgTypes, this.constructorArgs); } else { proxy = enhancer.create(); } return proxy; } catch (CodeGenerationException ex) { throw new AopConfigException("Could not generate CGLIB subclass of class [" + this.advised.getTargetClass() + "]: " + "Common causes of this problem include using a final class or a non-visible class", ex); } catch (IllegalArgumentException ex) { throw new AopConfigException("Could not generate CGLIB subclass of class [" + this.advised.getTargetClass() + "]: " + "Common causes of this problem include using a final class or a non-visible class", ex); } catch (Exception ex) { throw new AopConfigException("Unexpected AOP exception", ex); } }
以上函数完整地阐述了一个创建Spring中的Enhancer的过程,参考Enhancer的文档查看每个步骤的含义,这里最重要的是通过getCallbacks方法设置拦截器链。
private Callback[] getCallbacks(Class<?> rootClass) throws Exception { //对于expose-proxy属性的处理 boolean exposeProxy = this.advised.isExposeProxy(); boolean isFrozen = this.advised.isFrozen(); boolean isStatic = this.advised.getTargetSource().isStatic(); //将拦截器封装在DynamicAdvisedInterceptor中 Callback aopInterceptor = new DynamicAdvisedInterceptor(this.advised); // Choose a "straight to target" interceptor. (used for calls that are // unadvised but can return this). May be required to expose the proxy. Callback targetInterceptor; if (exposeProxy) { targetInterceptor = isStatic ? new StaticUnadvisedExposedInterceptor(this.advised.getTargetSource().getTarget()) : new DynamicUnadvisedExposedInterceptor(this.advised.getTargetSource()); } else { targetInterceptor = isStatic ? new StaticUnadvisedInterceptor(this.advised.getTargetSource().getTarget()) : new DynamicUnadvisedInterceptor(this.advised.getTargetSource()); } // Choose a "direct to target" dispatcher (used for // unadvised calls to static targets that cannot return this). Callback targetDispatcher = isStatic ? new StaticDispatcher(this.advised.getTargetSource().getTarget()) : new SerializableNoOp(); //将拦截器链加入Callback中 Callback[] mainCallbacks = new Callback[]{ aopInterceptor, // for normal advice targetInterceptor, // invoke target without considering advice, if optimized new SerializableNoOp(), // no override for methods mapped to this targetDispatcher, this.advisedDispatcher, new EqualsInterceptor(this.advised), new HashCodeInterceptor(this.advised) }; Callback[] callbacks; // If the target is a static one and the advice chain is frozen, // then we can make some optimisations by sending the AOP calls // direct to the target using the fixed chain for that method. if (isStatic && isFrozen) { Method[] methods = rootClass.getMethods(); Callback[] fixedCallbacks = new Callback[methods.length]; this.fixedInterceptorMap = new HashMap<String, Integer>(methods.length); // TODO: small memory optimisation here (can skip creation for methods with no advice) for (int x = 0; x < methods.length; x++) { List<Object> chain = this.advised.getInterceptorsAndDynamicInterceptionAdvice(methods[x], rootClass); fixedCallbacks[x] = new FixedChainStaticTargetInterceptor( chain, this.advised.getTargetSource().getTarget(), this.advised.getTargetClass()); this.fixedInterceptorMap.put(methods[x].toString(), x); } // Now copy both the callbacks from mainCallbacks // and fixedCallbacks into the callbacks array. callbacks = new Callback[mainCallbacks.length + fixedCallbacks.length]; System.arraycopy(mainCallbacks, 0, callbacks, 0, mainCallbacks.length); System.arraycopy(fixedCallbacks, 0, callbacks, mainCallbacks.length, fixedCallbacks.length); this.fixedInterceptorOffset = mainCallbacks.length; } else { callbacks = mainCallbacks; } return callbacks; }
在getCallback中Spring考虑了很多情况,对于我们来说,只需要理解最常用的就可以了,比如将advised属性封装在DynamicAdvisedInterceptor并加入在callbacks中,这么做的目的是什么呢,如何调用呢?CGLIB中对于方法的拦截是通过将自定义的拦截器(实现MethodInterceptor接口)加入Callback中并在调用代理时直接激活拦截器中的intercept方法来实现的,那么在getCallback中正是实现了这样一个目的,DynamicAdvisedInterceptor继承自MethodInterceptor,加入Callback中后,在再次调用代理时会直接调用DynamicAdvisedInterceptor中的intercept方法,由此推断,对于CGLIB方式实现的代理,其核心逻辑必然在DynamicAdvisedInterceptor中的intercept中。
public Object intercept(Object proxy, Method method, Object[] args, MethodProxy methodProxy) throws Throwable { Object oldProxy = null; boolean setProxyContext = false; Class<?> targetClass = null; Object target = null; try { if (this.advised.exposeProxy) { // Make invocation available if necessary. oldProxy = AopContext.setCurrentProxy(proxy); setProxyContext = true; } // May be null. Get as late as possible to minimize the time we // "own" the target, in case it comes from a pool... target = getTarget(); if (target != null) { targetClass = target.getClass(); }
//获取拦截器链 List<Object> chain = this.advised.getInterceptorsAndDynamicInterceptionAdvice(method, targetClass); Object retVal; // Check whether we only have one InvokerInterceptor: that is, // no real advice, but just reflective invocation of the target. if (chain.isEmpty() && Modifier.isPublic(method.getModifiers())) { //如果拦截器链为空则直接激活原方法 retVal = methodProxy.invoke(target, args); } else { //进入链 retVal = new CglibMethodInvocation(proxy, target, method, args, targetClass, chain, methodProxy).proceed(); } retVal = processReturnType(proxy, target, method, retVal); return retVal; } finally { if (target != null) { releaseTarget(target); } if (setProxyContext) { // Restore old proxy. AopContext.setCurrentProxy(oldProxy); } } }
上述的实现与JDK方式实现代理中的invoke方法大同小异,都是首先构造链,然后封装此链进行串联调用,稍有些区别就是在JDK中直接构造ReflectiveMethodInvocation,而在cglib中使用CglibMethodInvocation。CglibMethodInvocation继承自ReflectiveMethodInvocation,但是proceed方法并没有重写。
