打击熟练攻击者的多维主机身份匿名化

J. H. Jafarian, Amirreza Niakanlahiji, E. Al-Shaer, Qi Duan
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引用次数: 28

摘要

虽然现有的基于主动的范式(如地址突变)在减缓幼稚攻击者的侦察方面是有效的,但它们对熟练的人类攻击者无效。在本文中,我们通过分析表明,打败熟练的人类攻击者的侦察目标只能通过五个防御维度的集成来实现:(1)改变主机地址,(2)改变主机指纹,(3)匿名化主机指纹,(4)部署具有上下文感知指纹的高保真蜜罐,以及(5)在这些蜜罐上部署上下文感知内容。使用一种新型的蜜罐,称为代理蜜罐(具有可定制指纹的高交互蜜罐),我们提出了一种称为(HIDE)的主动防御模型,该模型不断地改变网络主机和代理蜜罐的地址和指纹,以最大程度地匿名化网络主机的身份。目标是通过不让熟练的攻击者在之前的扫描中重用已发现的主机属性(包括其地址和指纹)来再次识别该主机,从而使主机随着时间的推移变得无法追踪。通过对问题的形式化定义和建模来生成突变。通过与一组白帽黑客进行红队评估,我们评估了我们的五维防御模型,并将其与替代方案和竞争方案进行了比较。这些实验以及我们的分析评估表明,随着时间的推移,通过匿名化主机/蜜罐的所有识别属性,HIDE能够显著地使侦察复杂化,即使是对高度熟练的人类攻击者也是如此。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Multi-dimensional Host Identity Anonymization for Defeating Skilled Attackers
While existing proactive-based paradigms such as address mutation are effective in slowing down reconnaissance by naive attackers, they are ineffective against skilled human attackers. In this paper, we analytically show that the goal of defeating reconnaissance by skilled human attackers is only achievable by an integration of five defensive dimensions: (1) mutating host addresses, (2) mutating host fingerprints, (3) anonymizing host fingerprints, (4) deploying high-fidelity honeypots with context-aware fingerprints, and (5) deploying context-aware content on those honeypots. Using a novel class of honeypots, referred to as proxy honeypots (high-interaction honeypots with customizable fingerprints), we propose a proactive defense model, called (HIDE), that constantly mutates addresses and fingerprints of network hosts and proxy honeypots in a manner that maximally anonymizes identity of network hosts. The objective is to make a host untraceable over time by not letting even skilled attackers reuse discovered attributes of a host in previous scanning, including its addresses and fingerprint, to identify that host again. The mutations are generated through formal definition and modeling the problem. Using a red teaming evaluation with a group of white-hat hackers, we evaluated our five-dimensional defense model and compared its effectiveness with alternative and competing scenarios. These experiments as well as our analytical evaluation show that by anonymizing all identifying attributes of a host/honeypot over time, HIDE is able to significantly complicate reconnaissance, even for highly skilled human attackers.
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