Z-Wave协议的形式化分析与改进

電腦學刊 Pub Date : 2023-08-01 DOI:10.53106/199115992023083404003

Jin-Ze Du Jin-Ze Du, Jun-Wei Liu Jin-Ze Du, Tao Feng Jun-Wei Liu, Zhan-Ting Yuan Tao Feng

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引用次数: 0

摘要

为了验证Z-Wave通信协议的安全性，分析了协议中可能存在的攻击，以减少用户隐私安全漏洞。针对控制器与节点之间的通信过程和密钥交换过程，本文采用CPN工具对Z-Wave S2协议进行建模，并引入Dolev-Yao攻击模型对协议的安全行为进行验证。结果表明，采用S2认证进行设备包含时存在中间人攻击。针对这一漏洞，我们提出了一种基于HKDF函数和异或操作的轻量级静态认证方案，在Z-Wave控制器和从设备之间进行认证。其次，我们正式验证了改进方案的安全目标，并证明了优化方案在S2安全模式下可以有效防止中间人攻击。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Formal Analysis and Improvement of Z-Wave Protocol

In order to verify the security of the Z-Wave communication protocol, the possible attacks in the protocol are analyzed to reduce user privacy security vulnerabilities. For the communication process and key exchange process between the controller and the node, this paper uses CPN tools to model the Z-Wave S2 protocol, and introduces the Dolev-Yao attack model to verify the security behavior of the protocol. The results show that there is a man-in-the-middle attack when using S2 authentication for device inclusion. In response to this vulnerability, we propose a lightweight static authentication scheme based on HKDF function and XOR operation, which performs authentication between Z-Wave controller and slave device. Secondly, we formally verify the security objectives of the improved scheme, and prove that the optimization scheme can effectively prevent man-in-the-middle attacks in the S2 security mode.

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電腦學刊

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