Interleaving Jamming in Wi-Fi Networks

Proceedings of the 9th ACM Conference on Security & Privacy in Wireless and Mobile Networks Pub Date : 2016-07-18 DOI:10.1145/2939918.2939935

T. D. Vo-Huu, T. Vo-Huu, G. Noubir

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引用次数: 22

Abstract

The increasing importance of Wi-Fi in today's wireless communication systems, both as a result of Wi-Fi offloading and its integration in IoT devices, makes it an ideal target for malicious attacks. In this paper, we investigate the structure of the combined interleaver/convolutional coding scheme of IEEE 802.11a/g/n. The analysis of the first and second-round permutations of the interleaver allows us to design deterministic jamming patterns across subcarriers that when de-interleaved results in an interference burst. We show that a short burst across carefully selected sub-carriers exceeds the error correction capability of Wi-Fi. We implemented this attack as a reactive interleaving jammer on the firmware of the low-cost HackRF SDR. Our experimental evaluation shows that this attack can completely block the Wi-Fi transmissions with jamming power less than 1% of the communication (measured at the receiver) and block 95% of the packets with less than 0.1% energy. Furthermore, it is at least 5dB and up to 15dB more power-efficient than jamming attacks that are unaware of the Wi-Fi interleaving structure.

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Wi-Fi网络中的交叉干扰

由于Wi-Fi卸载及其在物联网设备中的集成，Wi-Fi在当今无线通信系统中的重要性日益增加，使其成为恶意攻击的理想目标。本文研究了IEEE 802.11a/g/n的交织/卷积组合编码方案的结构。对交织器的第一轮和第二轮排列的分析使我们能够设计跨子载波的确定性干扰模式，当去交错时会产生干扰突发。我们表明，经过精心选择的子载波的短突发超过了Wi-Fi的纠错能力。我们在低成本的HackRF SDR固件上实现了这种攻击作为反应性交错干扰器。我们的实验评估表明，这种攻击可以完全阻断干扰功率小于通信功率1%(在接收端测量)的Wi-Fi传输，阻断能量小于0.1%的95%的数据包。此外，与不知道Wi-Fi交织结构的干扰攻击相比，它的功率效率至少为5dB，最高可达15dB。

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 9th ACM Conference on Security & Privacy in Wireless and Mobile Networks

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