治安维持者:端到端的互联网蠕虫控制

Manuel Costa, J. Crowcroft, M. Castro, A. Rowstron, Lidong Zhou, Lintao Zhang, P. Barham
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引用次数: 536

摘要

蠕虫的控制必须是自动的,因为蠕虫的传播速度太快,人类无法做出反应。最近的工作提出了网络级技术来自动遏制蠕虫;这些技术具有局限性,因为没有关于蠕虫在网络级别利用的漏洞的信息。我们提出了Vigilante,一种新的端到端方法来自动控制蠕虫,解决了这些限制。Vigilante依赖于终端主机的协同蠕虫检测,但不需要主机之间的相互信任。主机运行检测软件检测蠕虫,并在检测到蠕虫时广播sca (self- certifiting alerts)。sca是漏洞的证明,任何易受攻击的主机都可以廉价地对其进行验证。当主机接收到SCA时,它们会生成过滤器,通过分析SCA引导的易受攻击软件的执行来阻止感染。我们展示了治安维持者可以自动控制利用未知漏洞的快速传播的蠕虫,而不会阻止无害的流量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Vigilante: end-to-end containment of internet worms
Worm containment must be automatic because worms can spread too fast for humans to respond. Recent work has proposed network-level techniques to automate worm containment; these techniques have limitations because there is no information about the vulnerabilities exploited by worms at the network level. We propose Vigilante, a new end-to-end approach to contain worms automatically that addresses these limitations. Vigilante relies on collaborative worm detection at end hosts, but does not require hosts to trust each other. Hosts run instrumented software to detect worms and broadcast self-certifying alerts (SCAs) upon worm detection. SCAs are proofs of vulnerability that can be inexpensively verified by any vulnerable host. When hosts receive an SCA, they generate filters that block infection by analysing the SCA-guided execution of the vulnerable software. We show that Vigilante can automatically contain fast-spreading worms that exploit unknown vulnerabilities without blocking innocuous traffic.
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