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Java动态代理 Java动态代理分析及理解

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Java动态代理分析及理解

代理设计模式

定义:为其他对象提供一种代理以控制对这个对象的访问。

动态代理使用

java动态代理机制以巧妙的方式实现了代理模式的设计理念。

代理模式示例代码

public interface Subject  
{  
 public void doSomething();  
}  
public class RealSubject implements Subject  
{  
 public void doSomething()  
 {  
  System.out.println( "call doSomething()" );  
 }  
}  
public class ProxyHandler implements InvocationHandler  
{  
 private Object proxied;  
   
 public ProxyHandler( Object proxied )  
 {  
  this.proxied = proxied;  
 }  
   
 public Object invoke( Object proxy, Method method, Object[] args ) throws Throwable  
 {  
  //在转调具体目标对象之前,可以执行一些功能处理

  //转调具体目标对象的方法
  return method.invoke( proxied, args); 
  
  //在转调具体目标对象之后,可以执行一些功能处理
 }  
} 
import java.lang.reflect.InvocationHandler;  
import java.lang.reflect.Method;  
import java.lang.reflect.Proxy;  
import sun.misc.ProxyGenerator;  
import java.io.*;  
public class DynamicProxy  
{  
 public static void main( String args[] )  
 {  
  RealSubject real = new RealSubject();  
  Subject proxySubject = (Subject)Proxy.newProxyInstance(Subject.class.getClassLoader(), 
   new Class[]{Subject.class}, 
   new ProxyHandler(real));
     
  proxySubject.doSomething();
  
  //write proxySubject class binary data to file  
  createProxyClassFile();  
 }  
   
 public static void createProxyClassFile()  
 {  
  String name = "ProxySubject";  
  byte[] data = ProxyGenerator.generateProxyClass( name, new Class[] { Subject.class } );  
  try 
  {  
   FileOutputStream out = new FileOutputStream( name + ".class" );  
   out.write( data );  
   out.close();  
  }  
  catch( Exception e )  
  {  
   e.printStackTrace();  
  }  
 }  
} 

动态代理内部实现

首先来看看类Proxy的代码实现 Proxy的主要静态变量

// 映射表:用于维护类装载器对象到其对应的代理类缓存
private static Map loaderToCache = new WeakHashMap(); 

// 标记:用于标记一个动态代理类正在被创建中
private static Object pendingGenerationMarker = new Object(); 

// 同步表:记录已经被创建的动态代理类类型,主要被方法 isProxyClass 进行相关的判断
private static Map proxyClasses = Collections.synchronizedMap(new WeakHashMap()); 

// 关联的调用处理器引用
protected InvocationHandler h;

Proxy的构造方法

// 由于 Proxy 内部从不直接调用构造函数,所以 private 类型意味着禁止任何调用
private Proxy() {} 

// 由于 Proxy 内部从不直接调用构造函数,所以 protected 意味着只有子类可以调用
protected Proxy(InvocationHandler h) {this.h = h;} 

Proxy静态方法newProxyInstance

public static Object newProxyInstance(ClassLoader loader, Class<?>[]interfaces,InvocationHandler h) throws IllegalArgumentException { 
  // 检查 h 不为空,否则抛异常
  if (h == null) { 
    throw new NullPointerException(); 
  } 

  // 获得与指定类装载器和一组接口相关的代理类类型对象
  Class cl = getProxyClass(loader, interfaces); 

  // 通过反射获取构造函数对象并生成代理类实例
  try { 
    Constructor cons = cl.getConstructor(constructorParams); 
    return (Object) cons.newInstance(new Object[] { h }); 
  } catch (NoSuchMethodException e) { throw new InternalError(e.toString()); 
  } catch (IllegalAccessException e) { throw new InternalError(e.toString()); 
  } catch (InstantiationException e) { throw new InternalError(e.toString()); 
  } catch (InvocationTargetException e) { throw new InternalError(e.toString()); 
  } 
}

类Proxy的getProxyClass方法调用ProxyGenerator的 generateProxyClass方法产生ProxySubject.class的二进制数据:

public static byte[] generateProxyClass(final String name, Class[] interfaces)

我们可以import sun.misc.ProxyGenerator,调用 generateProxyClass方法产生binary data,然后写入文件,最后通过反编译工具来查看内部实现原理。 反编译后的ProxySubject.java Proxy静态方法newProxyInstance

import java.lang.reflect.*;  
public final class ProxySubject extends Proxy  
  implements Subject  
{  
  private static Method m1;  
  private static Method m0;  
  private static Method m3;  
  private static Method m2;  
  public ProxySubject(InvocationHandler invocationhandler)  
  {  
    super(invocationhandler);  
  }  
  public final boolean equals(Object obj)  
  {  
    try 
    {  
      return ((Boolean)super.h.invoke(this, m1, new Object[] {  
        obj  
      })).booleanValue();  
    }  
    catch(Error _ex) { }  
    catch(Throwable throwable)  
    {  
      throw new UndeclaredThrowableException(throwable);  
    }  
  }  
  public final int hashCode()  
  {  
    try 
    {  
      return ((Integer)super.h.invoke(this, m0, null)).intValue();  
    }  
    catch(Error _ex) { }  
    catch(Throwable throwable)  
    {  
      throw new UndeclaredThrowableException(throwable);  
    }  
  }  
  public final void doSomething()  
  {  
    try 
    {  
      super.h.invoke(this, m3, null);  
      return;  
    }  
    catch(Error _ex) { }  
    catch(Throwable throwable)  
    {  
      throw new UndeclaredThrowableException(throwable);  
    }  
  }  
  public final String toString()  
  {  
    try 
    {  
      return (String)super.h.invoke(this, m2, null);  
    }  
    catch(Error _ex) { }  
    catch(Throwable throwable)  
    {  
      throw new UndeclaredThrowableException(throwable);  
    }  
  }  
  static  
  {  
    try 
    {  
      m1 = Class.forName("java.lang.Object").getMethod("equals", new Class[] {  
        Class.forName("java.lang.Object")  
      });  
      m0 = Class.forName("java.lang.Object").getMethod("hashCode", new Class[0]);  
      m3 = Class.forName("Subject").getMethod("doSomething", new Class[0]);  
      m2 = Class.forName("java.lang.Object").getMethod("toString", new Class[0]);  
    }  
    catch(NoSuchMethodException nosuchmethodexception)  
    {  
      throw new NoSuchMethodError(nosuchmethodexception.getMessage());  
    }  
    catch(ClassNotFoundException classnotfoundexception)  
    {  
      throw new NoClassDefFoundError(classnotfoundexception.getMessage());  
    }  
  }  
} 

ProxyGenerator内部是如何生成class二进制数据,可以参考源代码。

private byte[] generateClassFile() {  
 /* 
  * Record that proxy methods are needed for the hashCode, equals, 
  * and toString methods of java.lang.Object. This is done before 
  * the methods from the proxy interfaces so that the methods from 
  * java.lang.Object take precedence over duplicate methods in the 
  * proxy interfaces. 
  */ 
 addProxyMethod(hashCodeMethod, Object.class);  
 addProxyMethod(equalsMethod, Object.class);  
 addProxyMethod(toStringMethod, Object.class);  
 /* 
  * Now record all of the methods from the proxy interfaces, giving 
  * earlier interfaces precedence over later ones with duplicate 
  * methods. 
  */ 
 for (int i = 0; i < interfaces.length; i++) {  
   Method[] methods = interfaces[i].getMethods();  
   for (int j = 0; j < methods.length; j++) {  
  addProxyMethod(methods[j], interfaces[i]);  
   }  
 }  
 /* 
  * For each set of proxy methods with the same signature, 
  * verify that the methods' return types are compatible. 
  */ 
 for (List<ProxyMethod> sigmethods : proxyMethods.values()) {  
   checkReturnTypes(sigmethods);  
 }  
 /* ============================================================ 
  * Step 2: Assemble FieldInfo and MethodInfo structs for all of 
  * fields and methods in the class we are generating. 
  */ 
 try {  
   methods.add(generateConstructor());  
   for (List<ProxyMethod> sigmethods : proxyMethods.values()) {  
  for (ProxyMethod pm : sigmethods) {  
    // add static field for method's Method object  
    fields.add(new FieldInfo(pm.methodFieldName,  
   "Ljava/lang/reflect/Method;",  
    ACC_PRIVATE | ACC_STATIC));  
    // generate code for proxy method and add it  
    methods.add(pm.generateMethod());  
  }  
   }  
   methods.add(generateStaticInitializer());  
 } catch (IOException e) {  
   throw new InternalError("unexpected I/O Exception");  
 }  
 /* ============================================================ 
  * Step 3: Write the final class file. 
  */ 
 /* 
  * Make sure that constant pool indexes are reserved for the 
  * following items before starting to write the final class file. 
  */ 
 cp.getClass(dotToSlash(className));  
 cp.getClass(superclassName);  
 for (int i = 0; i < interfaces.length; i++) {  
   cp.getClass(dotToSlash(interfaces[i].getName()));  
 }  
 /* 
  * Disallow new constant pool additions beyond this point, since 
  * we are about to write the final constant pool table. 
  */ 
 cp.setReadOnly();  
 ByteArrayOutputStream bout = new ByteArrayOutputStream();  
 DataOutputStream dout = new DataOutputStream(bout);  
 try {  
   /* 
    * Write all the items of the "ClassFile" structure. 
    * See JVMS section 4.1. 
    */ 
     // u4 magic;  
   dout.writeInt(0xCAFEBABE);  
     // u2 minor_version;  
   dout.writeShort(CLASSFILE_MINOR_VERSION);  
     // u2 major_version;  
   dout.writeShort(CLASSFILE_MAJOR_VERSION);  
   cp.write(dout);  // (write constant pool)  
     // u2 access_flags;  
   dout.writeShort(ACC_PUBLIC | ACC_FINAL | ACC_SUPER);  
     // u2 this_class;  
   dout.writeShort(cp.getClass(dotToSlash(className)));  
     // u2 super_class;  
   dout.writeShort(cp.getClass(superclassName));  
     // u2 interfaces_count;  
   dout.writeShort(interfaces.length);  
     // u2 interfaces[interfaces_count];  
   for (int i = 0; i < interfaces.length; i++) {  
  dout.writeShort(cp.getClass(  
    dotToSlash(interfaces[i].getName())));  
   }  
     // u2 fields_count;  
   dout.writeShort(fields.size());  
     // field_info fields[fields_count];  
   for (FieldInfo f : fields) {  
  f.write(dout);  
   }  
     // u2 methods_count;  
   dout.writeShort(methods.size());  
     // method_info methods[methods_count];  
   for (MethodInfo m : methods) {  
  m.write(dout);  
   }  
       // u2 attributes_count;  
   dout.writeShort(0); // (no ClassFile attributes for proxy classes)  
 } catch (IOException e) {  
   throw new InternalError("unexpected I/O Exception");  
 }  
 return bout.toByteArray(); 

总结

一个典型的动态代理创建对象过程可分为以下四个步骤:

1、通过实现InvocationHandler接口创建自己的调用处理器 IvocationHandler handler = new InvocationHandlerImpl(...);
2、通过为Proxy类指定ClassLoader对象和一组interface创建动态代理类
Class clazz = Proxy.getProxyClass(classLoader,new Class[]{...});
3、通过反射机制获取动态代理类的构造函数,其参数类型是调用处理器接口类型
Constructor constructor = clazz.getConstructor(new Class[]{InvocationHandler.class});
4、通过构造函数创建代理类实例,此时需将调用处理器对象作为参数被传入
Interface Proxy = (Interface)constructor.newInstance(new Object[] (handler));
为了简化对象创建过程,Proxy类中的newInstance方法封装了2~4,只需两步即可完成代理对象的创建。
生成的ProxySubject继承Proxy类实现Subject接口,实现的Subject的方法实际调用处理器的invoke方法,而invoke方法利用反射调用的是被代理对象的的方法(Object result=method.invoke(proxied,args))

美中不足

诚然,Proxy已经设计得非常优美,但是还是有一点点小小的遗憾之处,那就是它始终无法摆脱仅支持interface代理的桎梏,因为它的设计注定了这个遗憾。回想一下那些动态生成的代理类的继承关系图,它们已经注定有一个共同的父类叫Proxy。Java的继承机制注定了这些动态代理类们无法实现对class的动态代理,原因是多继承在Java中本质上就行不通。有很多条理由,人们可以否定对 class代理的必要性,但是同样有一些理由,相信支持class动态代理会更美好。接口和类的划分,本就不是很明显,只是到了Java中才变得如此的细化。如果只从方法的声明及是否被定义来考量,有一种两者的混合体,它的名字叫抽象类。实现对抽象类的动态代理,相信也有其内在的价值。此外,还有一些历史遗留的类,它们将因为没有实现任何接口而从此与动态代理永世无缘。如此种种,不得不说是一个小小的遗憾。但是,不完美并不等于不伟大,伟大是一种本质,Java动态代理就是佐例。

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