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DNSGuard: In-Network Defense Against DNS Attacks

Guanglin Duan, Qing Li, Zhengxin Zhang, Dan Zhao, Guorui Xie, Yuan Yang, Zhenhui Yuan, Yong Jiang, Mingwei Xu

2024IEEE Transactions on Dependable and Secure Computing10 citationsDOI

Abstract

The Domain Name System (DNS) is a growing center of cyber attacks, including both volumetric and non-volumetric attacks. Programmable switches provide a new opportunity for more efficient defense against DNS attacks since they can offer better cost, performance, and flexibility trade-offs compared to traditional defense systems. However, programmable switches have strict limitations on the operations and storage space supported to ensure line-speed packet processing. In this paper, we propose DNSGuard, an intelligent in-network defense framework that can handle volumetric and non-volumetric DNS attacks on programmable switches. We propose a recursive incremental parsing algorithm that can effectively extract variable-length domain names. To achieve real-time and accurate detection against two types of DNS attacks, we design a switch-optimized and resource-efficient algorithm to extract both independent features of each packet and domain-based cumulative features. Then, we propose a multi-phase hybrid model architecture to perform dynamic packet analysis at different time phases of a domain. Further, we design efficient model representation mechanisms to deploy tree-based ensemble models in the data plane. Experimental results show that DNSGuard can defend against diverse DNS attacks at the line rate. In addition, DNSGuard introduces a minimal nanosecond latency to normal traffic in heavily loaded networks.

Topics & Concepts

Computer securityDomain Name SystemComputer scienceComputer networkWorld Wide WebThe InternetNetwork Security and Intrusion DetectionIPv6, Mobility, Handover, Networks, SecurityInternet Traffic Analysis and Secure E-voting
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