Breaking and (Partially) Fixing Provably Secure Onion Routing

C. Kuhn, Martin Beck, T. Strufe
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引用次数: 17

Abstract

After several years of research on onion routing, Camenisch and Lysyanskaya, in an attempt at rigorous analysis, defined an ideal functionality in the universal composability model, together with properties that protocols have to meet to achieve provable security. A whole family of systems based their security proofs on this work. However, analyzing HORNET and Sphinx, two instances from this family, we show that this proof strategy is broken. We discover a previously unknown vulnerability that breaks anonymity completely, and explain a known one. Both should not exist if privacy is proven correctly.In this work, we analyze and fix the proof strategy used for this family of systems. After proving the efficacy of the ideal functionality, we show how the original properties are flawed and suggest improved, effective properties in their place. Finally, we discover another common mistake in the proofs. We demonstrate how to avoid it by showing our improved properties for one protocol, thus partially fixing the family of provably secure onion routing protocols.
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破坏和(部分)修复可证明安全的洋葱路由
经过几年对洋葱路由的研究,Camenisch和Lysyanskaya试图进行严格的分析,在通用可组合性模型中定义了一个理想的功能,以及协议必须满足的属性,以实现可证明的安全性。整个系统的安全性证明都是基于这项工作。然而,通过分析HORNET和Sphinx这两个来自这个家族的实例,我们发现这种证明策略是无效的。我们发现了一个以前未知的漏洞,它完全破坏了匿名性,并解释了一个已知的漏洞。如果隐私被证明是正确的,那么两者都不应该存在。在这项工作中,我们分析和修正了用于该系列系统的证明策略。在证明了理想功能的功效之后,我们展示了原始属性是如何有缺陷的,并提出了改进的、有效的属性。最后,我们发现了证明中另一个常见的错误。我们通过展示一个协议的改进属性来演示如何避免它,从而部分地修复了可证明安全的洋葱路由协议家族。
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