使用基于模型的测试发现Wi-Fi握手中的逻辑漏洞

M. Vanhoef, Domien Schepers, F. Piessens
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引用次数: 21

摘要

我们使用基于模型的测试技术来检测Wi-Fi握手实现中的逻辑漏洞。这揭示了新的指纹识别技术、多种降级攻击和拒绝服务(DoS)漏洞。电台使用Wi-Fi握手来安全地与无线网络连接。在此握手中,确定相互支持的功能,并协商新的成对密钥。因此,正确实现Wi-Fi握手对于保护所有后续流量至关重要。为了检测错误行为的存在,我们提出了一种基于模型的技术,该技术生成一组代表性的测试用例。这些测试涵盖了Wi-Fi握手的所有状态,并探索了每种状态下的各种边缘情况。然后我们将测试下的实现视为黑盒,并执行所有生成的测试。确定失败的测试是否会引入安全漏洞是手动完成的。我们使用这种方法测试了12个实现,并在所有这些实现中发现了异常。我们的发现包括指纹识别机制、DoS攻击和降级攻击,攻击者可以强制使用不安全的WPA-TKIP密码。最后,我们解释我们的降级攻击之一是如何突出802.11标准中不正确的声明的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Discovering Logical Vulnerabilities in the Wi-Fi Handshake Using Model-Based Testing
We use model-based testing techniques to detect logical vulnerabilities in implementations of the Wi-Fi handshake. This reveals new fingerprinting techniques, multiple downgrade attacks, and Denial of Service (DoS) vulnerabilities. Stations use the Wi-Fi handshake to securely connect with wireless networks. In this handshake, mutually supported capabilities are determined, and fresh pairwise keys are negotiated. As a result, a proper implementation of the Wi-Fi handshake is essential in protecting all subsequent traffic. To detect the presence of erroneous behaviour, we propose a model-based technique that generates a set of representative test cases. These tests cover all states of the Wi-Fi handshake, and explore various edge cases in each state. We then treat the implementation under test as a black box, and execute all generated tests. Determining whether a failed test introduces a security weakness is done manually. We tested 12 implementations using this approach, and discovered irregularities in all of them. Our findings include fingerprinting mechanisms, DoS attacks, and downgrade attacks where an adversary can force usage of the insecure WPA-TKIP cipher. Finally, we explain how one of our downgrade attacks highlights incorrect claims made in the 802.11 standard.
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