探讨命名数据网络的安全监控平面及其在防范内容中毒攻击中的应用

H. Mai, Tan N. Nguyen, G. Doyen, R. Cogranne, Wissam Mallouli, Edgardo Montes de Oca, O. Festor
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引用次数: 14

摘要

命名数据网络(NDN)是信息中心网络范式中最成熟的提议,是未来互联网的一种全新方法。虽然NDN的设计初衷是解决IP网络固有的安全问题,但在过渡阶段新出现的安全攻击威胁着NDN的实际部署。因此,在任何提供商在操作环境中部署这种新型体系结构之前,NDN的安全监控平面是必不可少的。我们提出了一种利用贝叶斯网络技术监测和异常检测NDN节点的方法。一个被监控的指标列表被引入作为一个定量测量特征的NDN节点的行为。利用假设检验理论,开发了一种微型探测器,用于检测何时度量从其正常行为显著变化。基于NDN规范和NFD实现的专家知识,设计了一个关联微探测器报警的贝叶斯网络结构。通过从真实的NDN部署中收集的大量实验数据,通过考虑NDN中最关键的攻击之一内容中毒攻击(CPA),证明了我们的安全监控方法的相关性和性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Towards a security monitoring plane for named data networking and its application against content poisoning attack
Named Data Networking (NDN) is the most mature proposal of the Information Centric Networking paradigm, a clean-slate approach for the Future Internet. Although NDN was designed to tackle security issues inherent to IP networks natively, newly introduced security attacks in its transitional phase threaten NDN's practical deployment. Therefore, a security monitoring plane for NDN is indispensable before any potential deployment of this novel architecture in an operating context by any provider. We propose an approach for the monitoring and anomaly detection in NDN nodes leveraging Bayesian Network techniques. A list of monitored metrics is introduced as a quantitative measure to feature the behavior of an NDN node. By leveraging the hypothesis testing theory, a micro detector is developed to detect whenever the metric significantly changes from its normal behavior. A Bayesian network structure that correlates alarms from micro detectors is designed based on the expert knowledge of the NDN specification and the NFD implementation. The relevance and performance of our security monitoring approach are demonstrated by considering the Con­tent Poisoning Attack (CPA), one of the most critical attacks in NDN, through numerous experiment data collected from a real NDN deployment.
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