On the Feasibility of Cryptography for a Wireless Insulin Pump System

Proceedings of the Sixth ACM Conference on Data and Application Security and Privacy Pub Date : 2016-03-09 DOI:10.1145/2857705.2857746

Eduard Marin, Dave Singelée, Bohan Yang, I. Verbauwhede, B. Preneel

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引用次数: 37

Abstract

This paper analyses the security and privacy properties of a widely used insulin pump and its peripherals. We eavesdrop the wireless channel using Commercial Off-The-Shelf (COTS) software-based radios to intercept the messages sent between these devices; fully reverse-engineer the wireless communication protocol using a black-box approach; and document the message format and the protocol state-machine in use. The upshot is that no standard cryptographic mechanisms are applied and hence the system is shown to be completely vulnerable to replay and message injection attacks. Furthermore, sensitive patient health-related information is sent unencrypted over the wireless channel. Motivated by the results of our attacks, we study the feasibility of applying cryptography to protect the data transmitted over the air and prevent unauthorized access to the insulin pump. We present a solution based on AES in combination with an updated message format optimized for energy consumption. We implement our solution on a 16-bit micro-controller and evaluate its security properties and energy requirements. Finally, we discuss potential strategies for further reducing the energy consumption.

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无线胰岛素泵系统的密码可行性研究

本文分析了一种广泛应用的胰岛素泵及其外围设备的安全性和隐私性。我们使用商用现货(COTS)软件无线电窃听无线信道，拦截这些设备之间发送的信息;使用黑盒方法对无线通信协议进行完全逆向工程;并记录正在使用的消息格式和协议状态机。结果是没有应用标准的加密机制，因此系统完全容易受到重放和消息注入攻击。此外，敏感的患者健康相关信息通过无线通道发送，不加密。受攻击结果的启发，我们研究了应用加密技术保护空中传输数据并防止未经授权访问胰岛素泵的可行性。我们提出了一种基于AES的解决方案，并结合了针对能耗进行优化的更新消息格式。我们在16位微控制器上实现了我们的解决方案，并评估了其安全性能和能源需求。最后，我们讨论了进一步降低能源消耗的潜在策略。

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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Proceedings of the Sixth ACM Conference on Data and Application Security and Privacy

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