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虽然平时日常开发很少用到动态代理,但是动态代理在底层框架等有着非常重要的意义。比如Spring AOP使用cglib和JDK动态代理,Hibernate底层使用了javassit和cglib动态代理,Dubbo使用javassist字节码(具体可以看Dubbo SPI)。
本文主要介绍什么是动态代理及原理,下文将介绍Spring AOP
我们先思考一个问题:如何统计一个类各个方法的执行时间?可能你心里有好多答案都可以解决问题。
那么如果是这个项目的多个不同类呢?可能心里也有答案,但是代码改动量不少。那么有什么其他的方法么?
这时候动态代理就出来了,它可以灵活的在方法、代码点上切入我们想要实现的逻辑。如图示:
在Java的java.lang.reflect包下提供了Proxy类和InvocationHandler接口,通过使用这两个类可以生成JDK动态代理类或者JDK动态代理对象
JDK动态代理只能针对实现了接口的类进行拓展,我们还是就上面的问题来结局。所以这里我们先创建一个接口,叫Developer(开发),里面有个方法是develop方法。有RookieDeveloper(新生开发)、PrimaryDeveloper(初级开发)和AdvancedDeveloper(高级开发)实现其接口。类图如下:
我现在对AdvancedDeveloper进行动态代理,先来看一下AdvancedDeveloper的代码:
接下来请看如何使用Proxy和InvocationHandler生成动态代理的:
运行结果如下:
CGLIB代理的核心是net.sf.cglib.proxy.Enhancer类。我们可以将自定义的net.sf.cglib.proxy.MethodInterceptor实现类来得到强大的代理。代理的所有方法调用都会被分派给net.sf.cglib.proxy.MethodInterceptor的intercept方法。intercept方法然后调用底层对象。
我们看一下Cglib动态代理的例子,先看下PrimaryDeveloper类:
再看下CGLib动态代理测试类:
简而言之,proxy.invoke方法调用的对象不是代理后的子类,proxy.invokeSuper方法调用的对象是代理后的子类(已增强),所以会再走一遍 MyMethodInterceptor的 interceptor方法,如果是个拦截器链条,就会重新在走一次拦截器链;最后看一下执行结果:
我们首先看一下java.lang.reflect.Proxy#newProxyInstance这个方法:
这里还有一个关键点,在java.lang.reflect.Proxy.ProxyClassFactory#apply方法里,有一段代码生产对应的class字节码文件:
简单总结一下上面的代码:
最后我们看一下生成的类的代码,我使用的是Bytecode Viewer,github地址:https://github.com/Konloch/bytecode-viewer。我们用debug evaluate获取到代理类的class文件,然后用Bytecode Viewer瞅瞅是啥样子:
生产类的代码出来啦,继承Proxy类,实现Developer接口,调用所有方法都转换成了实际调用InvocationHandler接口的invoke方法:
我们从生成的动态代理类长啥样开始研究。上面的例子,添加System.setProperty(DebuggingClassWriter.DEBUG_LOCATION_PROPERTY, "/Users/miaojiaxing/Downloads");后运行会生成几个.class文件:
首先用反编译工具查看一下PrimaryDeveloper$$EnhancerByCGLIB$$bda772e0这个类的代码:
1 package com.mjx.java.proxy; 2 3 import java.lang.reflect.Method; 4 import net.sf.cglib.core.ReflectUtils; 5 import net.sf.cglib.core.Signature; 6 import net.sf.cglib.proxy.Callback; 7 import net.sf.cglib.proxy.Factory; 8 import net.sf.cglib.proxy.MethodInterceptor; 9 import net.sf.cglib.proxy.MethodProxy; 10 11 public class PrimaryDeveloper$$EnhancerByCGLIB$$bda772e0 extends PrimaryDeveloper implements Factory { 12 private boolean CGLIB$BOUND; 13 public static Object CGLIB$FACTORY_DATA; 14 private static final ThreadLocal CGLIB$THREAD_CALLBACKS; 15 private static final Callback[] CGLIB$STATIC_CALLBACKS; 16 private MethodInterceptor CGLIB$CALLBACK_0; 17 private static Object CGLIB$CALLBACK_FILTER; 18 19 // 代理类会获得所有在父类继承来的方法,并且会有MethodProxy与之对应 20 private static final Method CGLIB$laugh$0$Method; 21 private static final MethodProxy CGLIB$laugh$0$Proxy; 22 private static final Object[] CGLIB$emptyArgs; 23 24 // 代理类会获得所有在父类继承来的方法,并且会有MethodProxy与之对应 25 private static final Method CGLIB$develop$1$Method; 26 private static final MethodProxy CGLIB$develop$1$Proxy; 27 28 private static final Method CGLIB$say$2$Method; 29 private static final MethodProxy CGLIB$say$2$Proxy; 30 private static final Method CGLIB$equals$3$Method; 31 private static final MethodProxy CGLIB$equals$3$Proxy; 32 private static final Method CGLIB$toString$4$Method; 33 private static final MethodProxy CGLIB$toString$4$Proxy; 34 private static final Method CGLIB$hashCode$5$Method; 35 private static final MethodProxy CGLIB$hashCode$5$Proxy; 36 private static final Method CGLIB$clone$6$Method; 37 private static final MethodProxy CGLIB$clone$6$Proxy; 38 39 static void CGLIB$STATICHOOK1() { 40 CGLIB$THREAD_CALLBACKS = new ThreadLocal(); 41 CGLIB$emptyArgs = new Object[0]; 42 Class var0 = Class.forName("com.mjx.java.proxy.PrimaryDeveloper$$EnhancerByCGLIB$$bda772e0"); 43 Class var1; 44 Method[] var10000 = ReflectUtils.findMethods(new String[]{"laugh", "()V", "develop", "()V", "say", "()V"}, (var1 = Class.forName("com.mjx.java.proxy.PrimaryDeveloper")).getDeclaredMethods()); 45 CGLIB$laugh$0$Method = var10000[0]; 46 CGLIB$laugh$0$Proxy = MethodProxy.create(var1, var0, "()V", "laugh", "CGLIB$laugh$0"); 47 CGLIB$develop$1$Method = var10000[1]; 48 CGLIB$develop$1$Proxy = MethodProxy.create(var1, var0, "()V", "develop", "CGLIB$develop$1"); 49 CGLIB$say$2$Method = var10000[2]; 50 CGLIB$say$2$Proxy = MethodProxy.create(var1, var0, "()V", "say", "CGLIB$say$2"); 51 var10000 = ReflectUtils.findMethods(new String[]{"equals", "(Ljava/lang/Object;)Z", "toString", "()Ljava/lang/String;", "hashCode", "()I", "clone", "()Ljava/lang/Object;"}, (var1 = Class.forName("java.lang.Object")).getDeclaredMethods()); 52 CGLIB$equals$3$Method = var10000[0]; 53 CGLIB$equals$3$Proxy = MethodProxy.create(var1, var0, "(Ljava/lang/Object;)Z", "equals", "CGLIB$equals$3"); 54 CGLIB$toString$4$Method = var10000[1]; 55 CGLIB$toString$4$Proxy = MethodProxy.create(var1, var0, "()Ljava/lang/String;", "toString", "CGLIB$toString$4"); 56 CGLIB$hashCode$5$Method = var10000[2]; 57 CGLIB$hashCode$5$Proxy = MethodProxy.create(var1, var0, "()I", "hashCode", "CGLIB$hashCode$5"); 58 CGLIB$clone$6$Method = var10000[3]; 59 CGLIB$clone$6$Proxy = MethodProxy.create(var1, var0, "()Ljava/lang/Object;", "clone", "CGLIB$clone$6"); 60 } 61 62 final void CGLIB$laugh$0() { 63 super.laugh(); 64 } 65 66 public final void laugh() { 67 MethodInterceptor var10000 = this.CGLIB$CALLBACK_0; 68 if (var10000 == null) { 69 CGLIB$BIND_CALLBACKS(this); 70 var10000 = this.CGLIB$CALLBACK_0; 71 } 72 73 if (var10000 != null) { 74 // 拦截器 75 var10000.intercept(this, CGLIB$laugh$0$Method, CGLIB$emptyArgs, CGLIB$laugh$0$Proxy); 76 } else { 77 super.laugh(); 78 } 79 } 80 81 // methodProxy.invokeSuper会调用 82 final void CGLIB$develop$1() throws Exception { 83 super.develop(); 84 } 85 86 public final void develop() throws Exception { 87 MethodInterceptor var10000 = this.CGLIB$CALLBACK_0; 88 if (var10000 == null) { 89 CGLIB$BIND_CALLBACKS(this); 90 var10000 = this.CGLIB$CALLBACK_0; 91 } 92 93 // 拦截 94 if (var10000 != null) { 95 var10000.intercept(this, CGLIB$develop$1$Method, CGLIB$emptyArgs, CGLIB$develop$1$Proxy); 96 } else { 97 super.develop(); 98 } 99 }
我们可以看到代理类会获得所有在父类继承来的方法,并且会有MethodProxy与之对应,这个非常关键,上面已经用红色标注。
3.2.1 MethodProxy
CGLIB$develop$1$Proxy = MethodProxy.create(var1, var0, "()V", "develop", "CGLIB$develop$1");
我们先看下创建MethodProxy:
1 public class MethodProxy { 2 private Signature sig1; 3 private Signature sig2; 4 private CreateInfo createInfo; 5 6 private final Object initLock = new Object(); 7 private volatile FastClassInfo fastClassInfo; 8 9 /** 10 * For internal use by {@link Enhancer} only; see the {@link net.sf.cglib.reflect.FastMethod} class 11 * for similar functionality. 12 */ 13 // c1:被代理对象Class 14 // c2:代理对象Class 15 // desc:入参类型 16 // name1:被代理方法名 17 // name2:代理方法名 18 public static MethodProxy create(Class c1, Class c2, String desc, String name1, String name2) { 19 MethodProxy proxy = new MethodProxy(); 20 proxy.sig1 = new Signature(name1, desc); 21 proxy.sig2 = new Signature(name2, desc); 22 proxy.createInfo = new CreateInfo(c1, c2); 23 return proxy; 24 } 25 26 private static class CreateInfo 27 { 28 Class c1; 29 Class c2; 30 NamingPolicy namingPolicy; 31 GeneratorStrategy strategy; 32 boolean attemptLoad; 33 34 public CreateInfo(Class c1, Class c2) 35 { 36 this.c1 = c1; 37 this.c2 = c2; 38 AbstractClassGenerator fromEnhancer = AbstractClassGenerator.getCurrent(); 39 if (fromEnhancer != null) { 40 namingPolicy = fromEnhancer.getNamingPolicy(); 41 strategy = fromEnhancer.getStrategy(); 42 attemptLoad = fromEnhancer.getAttemptLoad(); 43 } 44 } 45 } 46 }
创建代理之后,执行方法这里走到红色的代码:var10000.intercept(this, CGLIB$develop$1$Method, CGLIB$emptyArgs, CGLIB$develop$1$Proxy);走到了我们写的CglibInterceptor类的intercept方法,里面调用了proxy.invokeSuper(obj,args);
1 public Object invokeSuper(Object obj, Object[] args) throws Throwable { 2 try { 3 init(); 4 FastClassInfo fci = fastClassInfo; 5 // 这里的f2就是PrimaryDeveloper$$EnhancerByCGLIB$$bda772e0$$FastClassByCGLIB$$aeaf1210 6 return fci.f2.invoke(fci.i2, obj, args); 7 } catch (InvocationTargetException e) { 8 throw e.getTargetException(); 9 } 10 } 11 12 private static class FastClassInfo{ 13 FastClass f1;//被代理类FastClass,这里就是PrimaryDeveloper$$FastClassByCGLIB$$de1a7774 14 FastClass f2;//代理类FastClass,这里就是PrimaryDeveloper$$EnhancerByCGLIB$$bda772e0$$FastClassByCGLIB$$aeaf1210 15 int i1;//被代理方法index 16 int i2;//代理方法index 17 }
