CGLIB动态代理实现原理

一 CGLIB介绍

CGLIB(Code Generation Library)是一个开源项目！是一个强大的，高性能，高质量的Code生成类库，

它可以在运行期扩展Java类与实现Java接口。Hibernate用它来实现PO(Persistent Object 持久化对象)字节码的动态生成。

CGLIB是一个强大的高性能的代码生成包。它广泛的被许多AOP的框架使用，例如Spring AOP为他们提供

方法的interception（拦截）。CGLIB包的底层是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。

二 CGLIB动态代理实例

实现一个业务类，注意，这个业务类并没有实现任何接口：

package com.lanhuigu.spring.proxy.cglib;
 
public class HelloService {
 
    public HelloService() {
        System.out.println("HelloService构造");
    }
 
    /**
     * 该方法不能被子类覆盖,Cglib是无法代理final修饰的方法的
     */
    final public String sayOthers(String name) {
        System.out.println("HelloService:sayOthers>>"+name);
        return null;
    }
 
    public void sayHello() {
        System.out.println("HelloService:sayHello");
    }
}

 

自定义MethodInterceptor：

package com.proxy.cglib;

import java.lang.reflect.Method;

import net.sf.cglib.proxy.Enhancer;
import net.sf.cglib.proxy.MethodInterceptor;
import net.sf.cglib.proxy.MethodProxy;

/**
 * @author pypua
 * @date 2019年8月14日 上午10:57:56
 * 
 */
public class MyMethodInterceptor implements MethodInterceptor{

    
    //疑问？
        //好像并没有持有被代理对象的引用
        public Object getInstance(Class clazz) throws Exception{
            
            Enhancer enhancer = new Enhancer();
            //把父类设置为谁？
            //这一步就是告诉cglib，生成的子类需要继承哪个类
            enhancer.setSuperclass(clazz);
            //设置回调
            enhancer.setCallback(this);
            
            //第一步、生成源代码
            //第二步、编译成class文件
            //第三步、加载到JVM中，并返回被代理对象
            return enhancer.create();
        }
         /**
         * sub：cglib生成的代理对象
         * method：被代理对象方法
         * objects：方法入参
         * methodProxy: 代理方法
         */
        @Override
        public Object intercept(Object sub, Method method, Object[] objects, MethodProxy methodProxy) throws Throwable {
            System.out.println("======插入前置通知======");
            Object object = methodProxy.invokeSuper(sub, objects);
            System.out.println("======插入后者通知======");
            return object;
        }

}

生成CGLIB代理对象调用目标方法：

package com.lanhuigu.spring.proxy.cglib;

 

package com.proxy.cglib;


/**
 * @author pypua
 * @date 2019年8月14日 上午11:02:51
 * 
 */
public class Client {

    public static void main(String[] args) {
    //JDK的动态代理是通过接口来进行强制转换的
            //生成以后的代理对象，可以强制转换为接口
            
            //CGLib的动态代理是通过生成一个被代理对象的子类，然后重写父类的方法
            //生成以后的对象，可以强制转换为被代理对象（也就是用自己写的类）
            //子类引用赋值给父类
    try {
        HelloService obj = (HelloService)new MyMethodInterceptor().getInstance(HelloService.class);
        obj.sayHello();
        obj.sayOthers("sfsdfsd");
    } catch (Exception e) {
        e.printStackTrace();
    }
}
}

运行结果:

三 CGLIB动态代理源码分析

实现CGLIB动态代理必须实现MethodInterceptor(方法拦截器)接口，源码如下:

/*
 * Copyright 2002,2003 The Apache Software Foundation
 *
 *  Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *      http://www.apache.org/licenses/LICENSE-2.0
 *
 *  Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */
package net.sf.cglib.proxy;
 
/**
 * General-purpose {@link Enhancer} callback which provides for "around advice".
 * @author Juozas Baliuka <a href="mailto:baliuka@mwm.lt">baliuka@mwm.lt</a>
 * @version $Id: MethodInterceptor.java,v 1.8 2004/06/24 21:15:20 herbyderby Exp $
 */
public interface MethodInterceptor
extends Callback
{
    /**
     * All generated proxied methods call this method instead of the original method.
     * The original method may either be invoked by normal reflection using the Method object,
     * or by using the MethodProxy (faster).
     * @param obj "this", the enhanced object
     * @param method intercepted Method
     * @param args argument array; primitive types are wrapped
     * @param proxy used to invoke super (non-intercepted method); may be called
     * as many times as needed
     * @throws Throwable any exception may be thrown; if so, super method will not be invoked
     * @return any value compatible with the signature of the proxied method. Method returning void will ignore this value.
     * @see MethodProxy
     */    
    public Object intercept(Object obj, java.lang.reflect.Method method, Object[] args,
                               MethodProxy proxy) throws Throwable;
 
}

这个接口只有一个intercept()方法，这个方法有4个参数：

1）obj表示增强的对象，即实现这个接口类的一个对象；

2）method表示要被拦截的方法；

3）args表示要被拦截方法的参数；

4）proxy表示要触发父类的方法对象；

在上面的Client代码中，通过Enhancer.create()方法创建代理对象，create()方法的源码：

/**
     * Generate a new class if necessary and uses the specified
     * callbacks (if any) to create a new object instance.
     * Uses the no-arg constructor of the superclass.
     * @return a new instance
     */
    public Object create() {
        classOnly = false;
        argumentTypes = null;
        return createHelper();
    }

该方法含义就是如果有必要就创建一个新类，并且用指定的回调对象创建一个新的对象实例，

使用的父类的参数的构造方法来实例化父类的部分。核心内容在createHelper()中，源码如下:

private Object createHelper() {
        preValidate();
        Object key = KEY_FACTORY.newInstance((superclass != null) ? superclass.getName() : null,
                ReflectUtils.getNames(interfaces),
                filter == ALL_ZERO ? null : new WeakCacheKey<CallbackFilter>(filter),
                callbackTypes,
                useFactory,
                interceptDuringConstruction,
                serialVersionUID);
        this.currentKey = key;
        Object result = super.create(key);
        return result;
    }

preValidate()方法校验callbackTypes、filter是否为空，以及为空时的处理。

通过newInstance()方法创建EnhancerKey对象，作为Enhancer父类AbstractClassGenerator.create()方法

创建代理对象的参数。

protected Object create(Object key) {
        try {
            ClassLoader loader = getClassLoader();
            Map<ClassLoader, ClassLoaderData> cache = CACHE;
            ClassLoaderData data = cache.get(loader);
            if (data == null) {
                synchronized (AbstractClassGenerator.class) {
                    cache = CACHE;
                    data = cache.get(loader);
                    if (data == null) {
                        Map<ClassLoader, ClassLoaderData> newCache = new WeakHashMap<ClassLoader, ClassLoaderData>(cache);
                        data = new ClassLoaderData(loader);
                        newCache.put(loader, data);
                        CACHE = newCache;
                    }
                }
            }
            this.key = key;
            Object obj = data.get(this, getUseCache());
            if (obj instanceof Class) {
                return firstInstance((Class) obj);
            }
            return nextInstance(obj);
        } catch (RuntimeException e) {
            throw e;
        } catch (Error e) {
            throw e;
        } catch (Exception e) {
            throw new CodeGenerationException(e);
        }
    }

真正创建代理对象方法在nextInstance()方法中，该方法为抽象类AbstractClassGenerator的一个方法，签名如下：

abstract protected Object nextInstance(Object instance) throws Exception;

在子类Enhancer中实现，实现源码如下：

protected Object nextInstance(Object instance) {
        EnhancerFactoryData data = (EnhancerFactoryData) instance;
 
        if (classOnly) {
            return data.generatedClass;
        }
 
        Class[] argumentTypes = this.argumentTypes;
        Object[] arguments = this.arguments;
        if (argumentTypes == null) {
            argumentTypes = Constants.EMPTY_CLASS_ARRAY;
            arguments = null;
        }
        return data.newInstance(argumentTypes, arguments, callbacks);
    }

看看data.newInstance(argumentTypes, arguments, callbacks)方法，

第一个参数为代理对象的构成器类型，第二个为代理对象构造方法参数，第三个为对应回调对象。

最后根据这些参数，通过反射生成代理对象，源码如下：

/**
         * Creates proxy instance for given argument types, and assigns the callbacks.
         * Ideally, for each proxy class, just one set of argument types should be used,
         * otherwise it would have to spend time on constructor lookup.
         * Technically, it is a re-implementation of {@link Enhancer#createUsingReflection(Class)},
         * with "cache {@link #setThreadCallbacks} and {@link #primaryConstructor}"
         *
         * @see #createUsingReflection(Class)
         * @param argumentTypes constructor argument types
         * @param arguments constructor arguments
         * @param callbacks callbacks to set for the new instance
         * @return newly created proxy
         */
        public Object newInstance(Class[] argumentTypes, Object[] arguments, Callback[] callbacks) {
            setThreadCallbacks(callbacks);
            try {
                // Explicit reference equality is added here just in case Arrays.equals does not have one
                if (primaryConstructorArgTypes == argumentTypes ||
                        Arrays.equals(primaryConstructorArgTypes, argumentTypes)) {
                    // If we have relevant Constructor instance at hand, just call it
                    // This skips "get constructors" machinery
                    return ReflectUtils.newInstance(primaryConstructor, arguments);
                }
                // Take a slow path if observing unexpected argument types
                return ReflectUtils.newInstance(generatedClass, argumentTypes, arguments);
            } finally {
                // clear thread callbacks to allow them to be gc'd
                setThreadCallbacks(null);
            }
 
        }

最后生成代理对象：

 

将其反编译后代码如下：

package com.lanhuigu.spring.proxy.cglib;
 
import java.lang.reflect.Method;
import net.sf.cglib.core.ReflectUtils;
import net.sf.cglib.core.Signature;
import net.sf.cglib.proxy.*;
 
public class HelloService$$EnhancerByCGLIB$$4da4ebaf extends HelloService
    implements Factory
{
 
    private boolean CGLIB$BOUND;
    public static Object CGLIB$FACTORY_DATA;
    private static final ThreadLocal CGLIB$THREAD_CALLBACKS;
    private static final Callback CGLIB$STATIC_CALLBACKS[];
    private MethodInterceptor CGLIB$CALLBACK_0; // 拦截器
    private static Object CGLIB$CALLBACK_FILTER;
    private static final Method CGLIB$sayHello$0$Method; // 被代理方法
    private static final MethodProxy CGLIB$sayHello$0$Proxy; // 代理方法
    private static final Object CGLIB$emptyArgs[];
    private static final Method CGLIB$equals$1$Method;
    private static final MethodProxy CGLIB$equals$1$Proxy;
    private static final Method CGLIB$toString$2$Method;
    private static final MethodProxy CGLIB$toString$2$Proxy;
    private static final Method CGLIB$hashCode$3$Method;
    private static final MethodProxy CGLIB$hashCode$3$Proxy;
    private static final Method CGLIB$clone$4$Method;
    private static final MethodProxy CGLIB$clone$4$Proxy;
 
    static void CGLIB$STATICHOOK1()
    {
        Method amethod[];
        Method amethod1[];
        CGLIB$THREAD_CALLBACKS = new ThreadLocal();
        CGLIB$emptyArgs = new Object[0];
        // 代理类
        Class class1 = Class.forName("com.lanhuigu.spring.proxy.cglib.HelloService$$EnhancerByCGLIB$$4da4ebaf");
        // 被代理类
        Class class2;
        amethod = ReflectUtils.findMethods(new String[] {
            "equals", "(Ljava/lang/Object;)Z", "toString", "()Ljava/lang/String;", "hashCode", "()I", "clone", "()Ljava/lang/Object;"
        }, (class2 = Class.forName("java.lang.Object")).getDeclaredMethods());
        Method[]  = amethod;
        CGLIB$equals$1$Method = amethod[0];
        CGLIB$equals$1$Proxy = MethodProxy.create(class2, class1, "(Ljava/lang/Object;)Z", "equals", "CGLIB$equals$1");
        CGLIB$toString$2$Method = amethod[1];
        CGLIB$toString$2$Proxy = MethodProxy.create(class2, class1, "()Ljava/lang/String;", "toString", "CGLIB$toString$2");
        CGLIB$hashCode$3$Method = amethod[2];
        CGLIB$hashCode$3$Proxy = MethodProxy.create(class2, class1, "()I", "hashCode", "CGLIB$hashCode$3");
        CGLIB$clone$4$Method = amethod[3];
        CGLIB$clone$4$Proxy = MethodProxy.create(class2, class1, "()Ljava/lang/Object;", "clone", "CGLIB$clone$4");
        amethod1 = ReflectUtils.findMethods(new String[] {
            "sayHello", "()V"
        }, (class2 = Class.forName("com.lanhuigu.spring.proxy.cglib.HelloService")).getDeclaredMethods());
        Method[] 1 = amethod1;
        CGLIB$sayHello$0$Method = amethod1[0];
        CGLIB$sayHello$0$Proxy = MethodProxy.create(class2, class1, "()V", "sayHello", "CGLIB$sayHello$0");
    }
 
    final void CGLIB$sayHello$0()
    {
        super.sayHello();
    }
 
    public final void sayHello()
    {
      MethodInterceptor var10000 = this.CGLIB$CALLBACK_0;
      if(this.CGLIB$CALLBACK_0 == null) {
         CGLIB$BIND_CALLBACKS(this);
         var10000 = this.CGLIB$CALLBACK_0;
      }
 
      if(var10000 != null) {
         // 调用拦截器
         var10000.intercept(this, CGLIB$setPerson$0$Method, CGLIB$emptyArgs, CGLIB$setPerson$0$Proxy);
      } else {
         super.sayHello();
      }
    }
    ......
    ......
}

从代理对象反编译源码可以知道，代理对象继承于HelloService，拦截器调用intercept()方法，

intercept()方法由自定义MyMethodInterceptor实现，所以，最后调用MyMethodInterceptor中

的intercept()方法，从而完成了由代理对象访问到目标对象的动态代理实现。

原文链接：https://blog.csdn.net/yhl_jxy/article/details/80633194