基于身份加密的车载 CAN 总线安全通信协议

Yao Feng, Guihe Qin, Zizhan Zhang, Guofeng Wang, Kunpeng Wang
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引用次数: 0

摘要

CAN 网络总线是车辆中应用最广泛的总线之一,但由于缺乏足够的安全机制,犯罪分子可以对车辆进行恶意攻击,这是一个非常严重的安全隐患。本文采用基于身份的加密算法设计了车载 CAN 网络的安全通信协议。与基于数字证书的方法相比,它减少了验证、管理和存储数字证书的开销。非对称密钥和对称密钥的结合确保了足够的安全性,并降低了数据通信阶段的时间成本。此外,哈希信息验证码(HMAC)用于确保数据在传输阶段的完整性和真实性。实验结果表明,所提出的协议可以抵御伪造攻击、篡改攻击和重放攻击,满足汽车级微控制器的实时性要求。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
In-vehicle CAN bus security communication protocol based on identity encryption
The CAN network bus is one of the most widely used buses in the vehicle, but the lack of sufficient security mechanisms allows criminals to maliciously attack the vehicle, which is a very serious security risk. In this paper, an identity-based encryption algorithm is used to design a secure communication protocol for an in-vehicle CAN network. Compared with the method based on digital certificates, it reduces the overhead of verification, management, and storage of digital certificates. The combination of asymmetric key and symmetric key ensures sufficient security and a small-time cost for the data communication phase. In addition, the Hash Message Authentication Code (HMAC) is used to ensure the integrity and authenticity of the data during the transmission phase. Experimental results show that the proposed protocol can resist forgery attacks, tampering attacks, and replay attacks, and meet the real-time requirements of automotive-grade microcontrollers.
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