`
DarkMeteor
  • 浏览: 11762 次
  • 性别: Icon_minigender_1
  • 来自: 上海
社区版块
存档分类
最新评论

Proxy源码分析

阅读更多

1.验证InvocationHandler是否空

2.生成代理类的Class对象,这里戏份比较多,代码中详细注释。

(1).通过类加载器去加载得到Class实例,比较是否想通的Class

(2).判断是否是接口

(3).去重Class,并通过String[]保存接口名

(4).从缓存中创建根据类加载器取得Map,如果没有则创建一个,保存到WeakHashMap

(5). put key,value<一堆接口,正在创建代理的标志> into Map

(6).记录包可见的代理接口,for循环中是校验非公有接口是否在同一包下

(7).生成类名,并生成代理类

(8).把代理类放入代理类缓存

(9).获得有一个InvocationHandler对象参数的构造函数,并创建实例.

 

Java还是外层的东东

package com.alipay.home.proxy;

import java.lang.ref.Reference;
import java.lang.ref.WeakReference;
import java.lang.reflect.Constructor;
import java.lang.reflect.InvocationHandler;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Modifier;
import java.util.Arrays;
import java.util.Collections;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Map;
import java.util.Set;
import java.util.WeakHashMap;
import sun.misc.ProxyGenerator;

/**
 * <code>Proxy</code> provides static methods for creating dynamic proxy
 * classes and instances, and it is also the superclass of all
 * dynamic proxy classes created by those methods.
 *
 * <p>To create a proxy for some interface <code>Foo</code>:
 * <pre>
 *     InvocationHandler handler = new MyInvocationHandler(...);
 *     Class proxyClass = Proxy.getProxyClass(
 *         Foo.class.getClassLoader(), new Class[] { Foo.class });
 *     Foo f = (Foo) proxyClass.
 *         getConstructor(new Class[] { InvocationHandler.class }).
 *         newInstance(new Object[] { handler });
 * </pre>
 * or more simply:
 * <pre>
 *     Foo f = (Foo) Proxy.newProxyInstance(Foo.class.getClassLoader(),
 *                                          new Class[] { Foo.class },
 *                                          handler);
 * </pre>
 *
 * <p>A <i>dynamic proxy class</i> (simply referred to as a <i>proxy
 * class</i> below) is a class that implements a list of interfaces
 * specified at runtime when the class is created, with behavior as
 * described below.
 *
 * A <i>proxy interface</i> is such an interface that is implemented
 * by a proxy class.
 *
 * A <i>proxy instance</i> is an instance of a proxy class.
 *
 * Each proxy instance has an associated <i>invocation handler</i>
 * object, which implements the interface {@link InvocationHandler}.
 * A method invocation on a proxy instance through one of its proxy
 * interfaces will be dispatched to the {@link InvocationHandler#invoke
 * invoke} method of the instance's invocation handler, passing the proxy
 * instance, a <code>java.lang.reflect.Method</code> object identifying
 * the method that was invoked, and an array of type <code>Object</code>
 * containing the arguments.  The invocation handler processes the
 * encoded method invocation as appropriate and the result that it
 * returns will be returned as the result of the method invocation on
 * the proxy instance.
 *
 * <p>A proxy class has the following properties:
 *
 * <ul>
 * <li>Proxy classes are public, final, and not abstract.
 *
 * <li>The unqualified name of a proxy class is unspecified.  The space
 * of class names that begin with the string <code>"$Proxy"</code>
 * should be, however, reserved for proxy classes.
 *
 * <li>A proxy class extends <code>java.lang.reflect.Proxy</code>.
 *
 * <li>A proxy class implements exactly the interfaces specified at its
 * creation, in the same order.
 *
 * <li>If a proxy class implements a non-public interface, then it will
 * be defined in the same package as that interface.  Otherwise, the
 * package of a proxy class is also unspecified.  Note that package
 * sealing will not prevent a proxy class from being successfully defined
 * in a particular package at runtime, and neither will classes already
 * defined by the same class loader and the same package with particular
 * signers.
 *
 * <li>Since a proxy class implements all of the interfaces specified at
 * its creation, invoking <code>getInterfaces</code> on its
 * <code>Class</code> object will return an array containing the same
 * list of interfaces (in the order specified at its creation), invoking
 * <code>getMethods</code> on its <code>Class</code> object will return
 * an array of <code>Method</code> objects that include all of the
 * methods in those interfaces, and invoking <code>getMethod</code> will
 * find methods in the proxy interfaces as would be expected.
 *
 * <li>The {@link Proxy#isProxyClass Proxy.isProxyClass} method will
 * return true if it is passed a proxy class-- a class returned by
 * <code>Proxy.getProxyClass</code> or the class of an object returned by
 * <code>Proxy.newProxyInstance</code>-- and false otherwise.
 *
 * <li>The <code>java.security.ProtectionDomain</code> of a proxy class
 * is the same as that of system classes loaded by the bootstrap class
 * loader, such as <code>java.lang.Object</code>, because the code for a
 * proxy class is generated by trusted system code.  This protection
 * domain will typically be granted
 * <code>java.security.AllPermission</code>.
 *
 * <li>Each proxy class has one public constructor that takes one argument,
 * an implementation of the interface {@link InvocationHandler}, to set
 * the invocation handler for a proxy instance.  Rather than having to use
 * the reflection API to access the public constructor, a proxy instance
 * can be also be created by calling the {@link Proxy#newProxyInstance
 * Proxy.newInstance} method, which combines the actions of calling
 * {@link Proxy#getProxyClass Proxy.getProxyClass} with invoking the
 * constructor with an invocation handler.
 * </ul>
 *
 * <p>A proxy instance has the following properties:
 *
 * <ul>
 * <li>Given a proxy instance <code>proxy</code> and one of the
 * interfaces implemented by its proxy class <code>Foo</code>, the
 * following expression will return true:
 * <pre>
 *     <code>proxy instanceof Foo</code>
 * </pre>
 * and the following cast operation will succeed (rather than throwing
 * a <code>ClassCastException</code>):
 * <pre>
 *     <code>(Foo) proxy</code>
 * </pre>
 *
 * <li>Each proxy instance has an associated invocation handler, the one
 * that was passed to its constructor.  The static
 * {@link Proxy#getInvocationHandler Proxy.getInvocationHandler} method
 * will return the invocation handler associated with the proxy instance
 * passed as its argument.
 *
 * <li>An interface method invocation on a proxy instance will be
 * encoded and dispatched to the invocation handler's {@link
 * InvocationHandler#invoke invoke} method as described in the
 * documentation for that method.
 *
 * <li>An invocation of the <code>hashCode</code>,
 * <code>equals</code>, or <code>toString</code> methods declared in
 * <code>java.lang.Object</code> on a proxy instance will be encoded and
 * dispatched to the invocation handler's <code>invoke</code> method in
 * the same manner as interface method invocations are encoded and
 * dispatched, as described above.  The declaring class of the
 * <code>Method</code> object passed to <code>invoke</code> will be
 * <code>java.lang.Object</code>.  Other public methods of a proxy
 * instance inherited from <code>java.lang.Object</code> are not
 * overridden by a proxy class, so invocations of those methods behave
 * like they do for instances of <code>java.lang.Object</code>.
 * </ul>
 *
 * <h3>Methods Duplicated in Multiple Proxy Interfaces</h3>
 *
 * <p>When two or more interfaces of a proxy class contain a method with
 * the same name and parameter signature, the order of the proxy class's
 * interfaces becomes significant.  When such a <i>duplicate method</i>
 * is invoked on a proxy instance, the <code>Method</code> object passed
 * to the invocation handler will not necessarily be the one whose
 * declaring class is assignable from the reference type of the interface
 * that the proxy's method was invoked through.  This limitation exists
 * because the corresponding method implementation in the generated proxy
 * class cannot determine which interface it was invoked through.
 * Therefore, when a duplicate method is invoked on a proxy instance,
 * the <code>Method</code> object for the method in the foremost interface
 * that contains the method (either directly or inherited through a
 * superinterface) in the proxy class's list of interfaces is passed to
 * the invocation handler's <code>invoke</code> method, regardless of the
 * reference type through which the method invocation occurred.
 *
 * <p>If a proxy interface contains a method with the same name and
 * parameter signature as the <code>hashCode</code>, <code>equals</code>,
 * or <code>toString</code> methods of <code>java.lang.Object</code>,
 * when such a method is invoked on a proxy instance, the
 * <code>Method</code> object passed to the invocation handler will have
 * <code>java.lang.Object</code> as its declaring class.  In other words,
 * the public, non-final methods of <code>java.lang.Object</code>
 * logically precede all of the proxy interfaces for the determination of
 * which <code>Method</code> object to pass to the invocation handler.
 *
 * <p>Note also that when a duplicate method is dispatched to an
 * invocation handler, the <code>invoke</code> method may only throw
 * checked exception types that are assignable to one of the exception
 * types in the <code>throws</code> clause of the method in <i>all</i> of
 * the proxy interfaces that it can be invoked through.  If the
 * <code>invoke</code> method throws a checked exception that is not
 * assignable to any of the exception types declared by the method in one
 * of the proxy interfaces that it can be invoked through, then an
 * unchecked <code>UndeclaredThrowableException</code> will be thrown by
 * the invocation on the proxy instance.  This restriction means that not
 * all of the exception types returned by invoking
 * <code>getExceptionTypes</code> on the <code>Method</code> object
 * passed to the <code>invoke</code> method can necessarily be thrown
 * successfully by the <code>invoke</code> method.
 *
 * @author	Peter Jones
 * @version	1.22, 05/11/17
 * @see		InvocationHandler
 * @since	1.3
 */
public class Proxy implements java.io.Serializable {

    private static final long serialVersionUID = -2222568056686623797L;

    /** prefix for all proxy class names */
    private final static String proxyClassNamePrefix = "$Proxy";

    /** parameter types of a proxy class constructor */
    private final static Class[] constructorParams =
	{ InvocationHandler.class };

    /** maps a class loader to the proxy class cache for that loader */
    private static Map loaderToCache = new WeakHashMap();//弱HashMap

    /** marks that a particular proxy class is currently being generated */
    private static Object pendingGenerationMarker = new Object();//代理正在被创建的标志!!

    /** next number to use for generation of unique proxy class names */
    private static long nextUniqueNumber = 0;
    private static Object nextUniqueNumberLock = new Object();

    /** set of all generated proxy classes, for isProxyClass implementation */
    private static Map proxyClasses =
	Collections.synchronizedMap(new WeakHashMap());//线程安全的弱HahsMap

    /**
     * the invocation handler for this proxy instance.
     * @serial
     */
    protected InvocationHandler h;

    /**
     * Prohibits instantiation.
     */
    private Proxy() {
    }

    /**
     * Constructs a new <code>Proxy</code> instance from a subclass
     * (typically, a dynamic proxy class) with the specified value
     * for its invocation handler.
     *
     * @param   h the invocation handler for this proxy instance
     */
    protected Proxy(InvocationHandler h) {
	this.h = h;
    }

    /**
     * Returns the <code>java.lang.Class</code> object for a proxy class
     * given a class loader and an array of interfaces.  The proxy class
     * will be defined by the specified class loader and will implement
     * all of the supplied interfaces.  If a proxy class for the same
     * permutation of interfaces has already been defined by the class
     * loader, then the existing proxy class will be returned; otherwise,
     * a proxy class for those interfaces will be generated dynamically
     * and defined by the class loader.
     *
     * <p>There are several restrictions on the parameters that may be
     * passed to <code>Proxy.getProxyClass</code>:
     *
     * <ul>
     * <li>All of the <code>Class</code> objects in the
     * <code>interfaces</code> array must represent interfaces, not
     * classes or primitive types.
     *
     * <li>No two elements in the <code>interfaces</code> array may
     * refer to identical <code>Class</code> objects.
     *
     * <li>All of the interface types must be visible by name through the
     * specified class loader.  In other words, for class loader
     * <code>cl</code> and every interface <code>i</code>, the following
     * expression must be true:
     * <pre>
     *     Class.forName(i.getName(), false, cl) == i
     * </pre>
     *
     * <li>All non-public interfaces must be in the same package;
     * otherwise, it would not be possible for the proxy class to
     * implement all of the interfaces, regardless of what package it is
     * defined in.
     *
     * <li>For any set of member methods of the specified interfaces
     * that have the same signature:
     * <ul>
     * <li>If the return type of any of the methods is a primitive
     * type or void, then all of the methods must have that same
     * return type.
     * <li>Otherwise, one of the methods must have a return type that
     * is assignable to all of the return types of the rest of the
     * methods.
     * </ul>
     *
     * <li>The resulting proxy class must not exceed any limits imposed
     * on classes by the virtual machine.  For example, the VM may limit
     * the number of interfaces that a class may implement to 65535; in
     * that case, the size of the <code>interfaces</code> array must not
     * exceed 65535.
     * </ul>
     *
     * <p>If any of these restrictions are violated,
     * <code>Proxy.getProxyClass</code> will throw an
     * <code>IllegalArgumentException</code>.  If the <code>interfaces</code>
     * array argument or any of its elements are <code>null</code>, a
     * <code>NullPointerException</code> will be thrown.
     *
     * <p>Note that the order of the specified proxy interfaces is
     * significant: two requests for a proxy class with the same combination
     * of interfaces but in a different order will result in two distinct
     * proxy classes.
     *
     * @param	loader the class loader to define the proxy class
     * @param	interfaces the list of interfaces for the proxy class
     *		to implement
     * @return	a proxy class that is defined in the specified class loader
     *		and that implements the specified interfaces
     * @throws	IllegalArgumentException if any of the restrictions on the
     *		parameters that may be passed to <code>getProxyClass</code>
     *		are violated
     * @throws	NullPointerException if the <code>interfaces</code> array
     *		argument or any of its elements are <code>null</code>
     */
    public static Class<?> getProxyClass(ClassLoader loader, 
                                         Class<?>... interfaces)
	throws IllegalArgumentException
    {//大于65535个接口抛异常
	if (interfaces.length > 65535) {
	    throw new IllegalArgumentException("interface limit exceeded");
	}

	Class proxyClass = null;

	/* collect interface names to use as key for proxy class cache */
	String[] interfaceNames = new String[interfaces.length];//存放接口名

	Set interfaceSet = new HashSet();	// for detecting duplicates//去重复接口的集合

	for (int i = 0; i < interfaces.length; i++) {
	    /*
	     * Verify that the class loader resolves the name of this
	     * interface to the same Class object.
	     * 通过类加载器去加载,验证类实现是否实现接口
	     */
	    String interfaceName = interfaces[i].getName();
	    Class interfaceClass = null;
	    try {
	    //参数false表示类加载器加载时候不解释improt
		interfaceClass = Class.forName(interfaceName, false, loader);
	    } catch (ClassNotFoundException e) {
	    }
	    if (interfaceClass != interfaces[i]) {
		throw new IllegalArgumentException(
		    interfaces[i] + " is not visible from class loader");
	    }

	    /*
	     * Verify that the Class object actually represents an
	     * interface.
	     * 验证是不是接口
	     */
	    if (!interfaceClass.isInterface()) {
		throw new IllegalArgumentException(
		    interfaceClass.getName() + " is not an interface");
	    }

	    /*
	     * Verify that this interface is not a duplicate.
	     * 去重复
	     */
	    if (interfaceSet.contains(interfaceClass)) {
		throw new IllegalArgumentException(
		    "repeated interface: " + interfaceClass.getName());
	    }
	    interfaceSet.add(interfaceClass);

	    //保存接口名
	    interfaceNames[i] = interfaceName;
	}

	/*
	 * Using string representations of the proxy interfaces as
	 * keys in the proxy class cache (instead of their Class
	 * objects) is sufficient because we require the proxy
	 * interfaces to be resolvable by name through the supplied
	 * class loader, and it has the advantage that using a string
	 * representation of a class makes for an implicit weak
	 * reference to the class.
	 * 用代理接口的字符串形式表示key存在缓存里尔不是Class对象足够了,因为我们需要
	 * 代理接口去通过类加载器用名字渲染。并且这样带来的好处是使用字符串形式表述class能不明显的依赖class
	 */
	Object key = Arrays.asList(interfaceNames);

	/*
	 * Find or create the proxy class cache for the class loader.
	 * 从弱HahsMap中取得类加载器,如果不存在,放入弱HashMap
	 */
	Map cache;
	synchronized (loaderToCache) {
	    cache = (Map) loaderToCache.get(loader);
	    if (cache == null) {
		cache = new HashMap();
		loaderToCache.put(loader, cache);
	    }
	    /*
	     * This mapping will remain valid for the duration of this
	     * method, without further synchronization, because the mapping
	     * will only be removed if the class loader becomes unreachable.
	     */
	}

	/*
	 * Look up the list of interfaces in the proxy class cache using
	 * the key.  This lookup will result in one of three possible
	 * kinds of values:
	 *     null, if there is currently no proxy class for the list of
	 *         interfaces in the class loader,
	 *     the pendingGenerationMarker object, if a proxy class for the
	 *         list of interfaces is currently being generated,
	 *     or a weak reference to a Class object, if a proxy class for
	 *         the list of interfaces has already been generated.
	 */
	synchronized (cache) {
	    /*
	     * Note that we need not worry about reaping the cache for
	     * entries with cleared weak references because if a proxy class
	     * has been garbage collected, its class loader will have been
	     * garbage collected as well, so the entire cache will be reaped
	     * from the loaderToCache map.
	     * 注意我们不用担心从缓存中得到已经被清楚的弱引用对应的Class实例(这里弱引用是key,实体是value)
	     * 因为一个代理class会被垃圾回收,
	     * 它的类加载器也会被垃圾回收,所以实体缓存会从loaderToCache map中获得
	     * 
	     * 三种情况:
	     * 1如果当前缓存总没有此Proxy类则返回null
		 * 2如果Proxy类正在创建则返回pendingGenerationMarker对象
		 * 3如果此Proxy类已经被创建,则返回WeakReference对象
	     * 
	     */
	    do {
		Object value = cache.get(key);
		if (value instanceof Reference) {
		    proxyClass = (Class) ((Reference) value).get();
		}
		if (proxyClass != null) {
		    // proxy class already generated: return it
		    return proxyClass;
		} else if (value == pendingGenerationMarker) {
		    // proxy class being generated: wait for it
		    try {
			cache.wait();
		    } catch (InterruptedException e) {
			/*
			 * The class generation that we are waiting for should
			 * take a small, bounded time, so we can safely ignore
			 * thread interrupts here.
			 */
		    }
		    continue;
		} else {
		    /*
		     * No proxy class for this list of interfaces has been
		     * generated or is being generated, so we will go and
		     * generate it now.  Mark it as pending generation.
		     * 没有这堆接口的代理类生成或者正在被创建,我们创建it now!~标记为正在创建,跳出循环
		     */
		    cache.put(key, pendingGenerationMarker);
		    break;
		}
	    } while (true);
	}

	try {
	    String proxyPkg = null;	// package to define proxy class in

	    /*
	     * 记录包可见的代理接口,for循环中是校验非公有接口是否在同一包下的算法
	     * Record the package of a non-public proxy interface so that the
	     * proxy class will be defined in the same package.  Verify that
	     * all non-public proxy interfaces are in the same package.
	     */
	    for (int i = 0; i < interfaces.length; i++) {
		int flags = interfaces[i].getModifiers();
		if (!Modifier.isPublic(flags)) {
		    String name = interfaces[i].getName();
		    int n = name.lastIndexOf('.');
		    String pkg = ((n == -1) ? "" : name.substring(0, n + 1));
		    if (proxyPkg == null) {
			proxyPkg = pkg;
		    } else if (!pkg.equals(proxyPkg)) {
			throw new IllegalArgumentException(
			    "non-public interfaces from different packages");
		    }
		}
	    }

	    if (proxyPkg == null) {	// if no non-public proxy interfaces,
		proxyPkg = "";		// use the unnamed package
	    }

	    {
		/*
		 * Choose a name for the proxy class to generate.
		 */
		long num;
		synchronized (nextUniqueNumberLock) {
			 //这里使用静态属性作为锁,保护了同步区域内的数据
			   //因为num是long型的,无法对原始对象加锁(只能对类加锁)
			   //而如果对整个当前对象加锁会浪费性能
			   //使用一个锁对象,还可达到同时保护多个数据(对象,原始类型)的效果
		    num = nextUniqueNumber++;
		}
		String proxyName = proxyPkg + proxyClassNamePrefix + num;//$Proxy+num
		/*
		 * Verify that the class loader hasn't already
		 * defined a class with the chosen name.
		 */

		/*
		 * Generate the specified proxy class.
		 * //生成Class类的字节码
		 */
		byte[] proxyClassFile =	ProxyGenerator.generateProxyClass(
		    proxyName, interfaces);
		try {
			//加载代理类
		    proxyClass = defineClass0(loader, proxyName,
			proxyClassFile, 0, proxyClassFile.length);
		} catch (ClassFormatError e) {
		    /*
		     * A ClassFormatError here means that (barring bugs in the
		     * proxy class generation code) there was some other
		     * invalid aspect of the arguments supplied to the proxy
		     * class creation (such as virtual machine limitations
		     * exceeded).
		     */
		    throw new IllegalArgumentException(e.toString());
		}
	    }
	    // add to set of all generated proxy classes, for isProxyClass
	    proxyClasses.put(proxyClass, null);

	} finally {
	    /*
	     * We must clean up the "pending generation" state of the proxy
	     * class cache entry somehow.  If a proxy class was successfully
	     * generated, store it in the cache (with a weak reference);
	     * otherwise, remove the reserved entry.  In all cases, notify
	     * all waiters on reserved entries in this cache.
	     */
	    synchronized (cache) {
		if (proxyClass != null) {
		    cache.put(key, new WeakReference(proxyClass));//key是一堆接口的集合,并除去标记正在生成代理的pending generation对象
		} else {
		    cache.remove(key);
		}
		cache.notifyAll();
	    }
	}
	return proxyClass;
    }

    /**
     * Returns an instance of a proxy class for the specified interfaces
     * that dispatches method invocations to the specified invocation
     * handler.  This method is equivalent to:
     * <pre>
     *     Proxy.getProxyClass(loader, interfaces).
     *         getConstructor(new Class[] { InvocationHandler.class }).
     *         newInstance(new Object[] { handler });
     * </pre>
     *
     * <p><code>Proxy.newProxyInstance</code> throws
     * <code>IllegalArgumentException</code> for the same reasons that
     * <code>Proxy.getProxyClass</code> does.
     *
     * @param	loader the class loader to define the proxy class
     * @param	interfaces the list of interfaces for the proxy class
     *		to implement
     * @param   h the invocation handler to dispatch method invocations to
     * @return	a proxy instance with the specified invocation handler of a
     *		proxy class that is defined by the specified class loader
     *		and that implements the specified interfaces
     * @throws	IllegalArgumentException if any of the restrictions on the
     *		parameters that may be passed to <code>getProxyClass</code>
     *		are violated
     * @throws	NullPointerException if the <code>interfaces</code> array
     *		argument or any of its elements are <code>null</code>, or
     *		if the invocation handler, <code>h</code>, is
     *		<code>null</code>
     */
    //类加载器,接口的Class数组,类加载器,通常是APPClassLoader
    public static Object newProxyInstance(ClassLoader loader,
					  Class<?>[] interfaces,
					  InvocationHandler h)
	throws IllegalArgumentException
    {
	if (h == null) {
	    throw new NullPointerException();
	}

	/*
	 * Look up or generate the designated proxy class.
	 */
	//生成代理类的Class对象
	Class cl = getProxyClass(loader, interfaces);

	/*
	 * Invoke its constructor with the designated invocation handler.
	 */
	try {
		//获得有一个InvocationHandler对象参数的构造函数
	    Constructor cons = cl.getConstructor(constructorParams);
	    //创建并返回实例
	    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());
	}
    }

    /**
     * Returns true if and only if the specified class was dynamically
     * generated to be a proxy class using the <code>getProxyClass</code>
     * method or the <code>newProxyInstance</code> method.
     *
     * <p>The reliability of this method is important for the ability
     * to use it to make security decisions, so its implementation should
     * not just test if the class in question extends <code>Proxy</code>.
     *
     * @param	cl the class to test
     * @return  <code>true</code> if the class is a proxy class and
     *		<code>false</code> otherwise
     * @throws	NullPointerException if <code>cl</code> is <code>null</code>
     */
    public static boolean isProxyClass(Class<?> cl) {
	if (cl == null) {
	    throw new NullPointerException();
	}

	return proxyClasses.containsKey(cl);
    }

    /**
     * Returns the invocation handler for the specified proxy instance.
     *
     * @param	proxy the proxy instance to return the invocation handler for
     * @return	the invocation handler for the proxy instance
     * @throws	IllegalArgumentException if the argument is not a
     *		proxy instance
     */
    public static InvocationHandler getInvocationHandler(Object proxy)
	throws IllegalArgumentException
    {
	/*
	 * Verify that the object is actually a proxy instance.
	 */
	if (!isProxyClass(proxy.getClass())) {
	    throw new IllegalArgumentException("not a proxy instance");
	}

	Proxy p = (Proxy) proxy;
	return p.h;
    }

    private static native Class defineClass0(ClassLoader loader, String name,
					     byte[] b, int off, int len);
}

 

分享到:
评论

相关推荐

    java代理方法假设和验证的Proxy源码分析.docx

    本文将深入探讨Java代理方法的假设、验证以及Proxy类的源码分析。 首先,让我们理解Java代理的基本概念。在Java中,代理主要通过两种方式实现:接口代理(基于Java动态代理JDK Proxy)和类代理(基于CGLIB等库)。...

    Proxy源代码分析

    Proxy源代码分析可以帮助我们深入了解网络通信的原理以及如何在Linux环境下实现客户端-服务器模型。以下是对Proxy源代码及其涉及的关键知识点的详细说明: 1. **套接字(socket)**:在Linux网络编程中,套接字是进程...

    Proxy源代码分析--谈谈如何学习linux网络编程

    ### Proxy源代码分析——深入探讨Linux网络编程的学习方法 #### 一、背景介绍与学习动机 在当前IT技术快速发展的背景下,Linux系统以其强大的稳定性和灵活性,在服务器领域占据了举足轻重的地位。对于想要深入了解...

    Proxy源代码分析(包括源码分析和可在Linux下运行的源码)

    这段代码虽然只是描述了最简单的proxy操作,但它的确是经典,它不仅清晰地描述了客户机/服务器系统的概念,而且几乎包括了Linux网络编程的方方面面,非常适合Linux网络编程的初学者学习。  这段Proxy程序的用法是...

    httpproxy源码vc++

    分析这些源码,可以更深入地理解以上提到的各个技术点,包括如何在VC++环境下组织代码,如何处理网络通信的细节,以及如何实现代理服务的逻辑。通过学习和研究这些源码,开发者能够提升在网络编程和代理服务方面的...

    proxy源代码分析

    proxy源代码分析 Proxy 源代码分析是 Linux 网络编程的经典示例代码,本文将从这段代码出发,谈谈如何学习 Linux 网络编程。 Proxy 源代码分析可以帮助初学者快速掌握 Linux 网络编程的基础知识。 Linux 网络编程...

    Java 动态代理Proxy应用和底层源码分析.pdf

    ### Java 动态代理Proxy应用和底层源码分析 #### 一、Java动态代理简介 Java动态代理是一种在运行时动态生成代理类的技术,通过该技术可以为一个或多个接口生成一个实现类,该实现类可以拦截接口方法的调用,并...

    js代码-Proxy理解

    JavaScript中的Proxy对象是ES6引入的一个新特性,它允许我们创建一个代理(Proxy),这个代理可以拦截并修改对原对象的访问。通过Proxy,我们可以实现更细粒度的对象操作控制,比如数据验证、缓存、日志记录等功能,...

    IGMP proxy源代码

    《深入理解Linux IGMP Proxy源代码》 IGMP(Internet Group Management Protocol)是互联网组管理协议,主要用于在IP网络中管理多播成员资格。当一台主机加入或离开一个多播组时,它会通过发送IGMP报文来通知其直接...

    spring源码分析(1-10)

    Spring AOP通过动态代理(JDK Proxy或CGLIB)创建目标对象的代理,实现切面的织入。Pointcut定义切入点,Advice定义增强处理,Advisor结合两者,Aspect则封装了多个Advisor。 6. **Spring 声明式事务处理**:基于...

    Go-codis-3.2.2源码分析

    Go-codis-3.2.2源码分析 Codis是开源的、基于代理的高性能Redis集群解决方案,由淘宝内部开发并维护,主要用于解决单个Redis实例内存不足或者为了提高服务的可用性和扩展性而引入的分布式解决方案。 Codis采用Go...

    dubbo源码分析pdf.zip

    《Dubbo源码分析》是一套深入探讨Apache Dubbo这一著名Java开源框架的书籍,旨在帮助开发者更好地理解和应用Dubbo。Dubbo是一个高性能、轻量级的服务治理框架,广泛应用于微服务架构中,以实现服务的发布、发现、...

    spring-aop-ProxyFactoryBean 源码分析

    5. **源码分析**: 在`ProxyFactoryBean`的`getObject()`方法中,会调用`createAopProxy()`生成`AopProxy`,然后`AopProxy`的`getProxy()`方法返回实际的代理对象。`createAopProxy()`会根据配置判断使用JDK还是...

    23种设计模式源码分析

    这个资源"23种设计模式源码分析"显然是一个深入探讨设计模式的材料,涵盖了软件设计中的核心概念。在本文中,我们将详细解析这23种设计模式,并通过源码分析来加深理解。 1. **创建型模式**(Creational Patterns)...

    nginx源码分析

    nginx 源码分析主要涉及以下几个核心知识点: 1. **事件驱动模型**:nginx 使用的是事件驱动的架构,这使得它能够在处理大量并发连接时保持高效。它支持多种事件模型,如 Linux 的 epoll、FreeBSD 的 kqueue 等,...

    java 实现HTTP PROXY

    本文将深入探讨如何使用Java编程语言来创建一个HTTP代理服务器,并且会涉及相关的源码分析。 首先,我们需要理解HTTP协议的基本概念。HTTP(超文本传输协议)是一种用于分布式、协作式和超媒体信息系统的应用层协议...

    高性能web代理程序 hyk-proxy源码

    【高性能Web代理程序 hyk-proxy源码解析】 `hyk-proxy`是一款基于Java开发的高性能Web代理程序,它主要用于提供网络代理服务,帮助用户通过设置的代理服务器进行网络访问。这款代理程序以其高效的处理能力、稳定的...

    java Proxy 动态代理

    Java的动态代理是一种强大的设计模式,它允许在运行时创建具有特定行为的代理对象,这些对象可以代替原对象执行某些任务。...通过源码分析和工具的使用,我们可以更深入地理解其工作原理和应用价值。

Global site tag (gtag.js) - Google Analytics