Component-Based Formal Analysis of 5G-AKA: Channel Assumptions and Session Confusion

C. Cremers, Martin Dehnel-Wild
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引用次数: 86

Abstract

The 5G mobile telephony standards are nearing completion; upon adoption these will be used by billions across the globe. Ensuring the security of 5G communication is of the utmost importance, building trust in a critical component of everyday life and national infrastructure. We perform fine-grained formal analysis of 5G’s main authentication and key agreement protocol (AKA), and provide the first models to explicitly consider all parties defined by the protocol specification. Our analysis reveals that the security of 5G-AKA critically relies on unstated assumptions on the inner workings of the underlying channels. In practice this means that following the 5G-AKA specification, a provider can easily and ‘correctly’ implement the standard insecurely, leaving the protocol vulnerable to a security-critical race condition. We provide the first models and analysis considering component and channel compromise in 5G, whose results further demonstrate the fragility and subtle trust assumptions of the 5G-AKA protocol. We propose formally verified fixes to the encountered issues, and have worked with 3GPP to ensure these fixes are adopted.
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基于组件的5g形式化分析:信道假设和会话混淆
5G移动通信标准即将完成;一旦被采用,这些将被全球数十亿人使用。确保5G通信的安全至关重要,在日常生活和国家基础设施的关键组成部分建立信任。我们对5G的主要认证和密钥协议(AKA)进行了细粒度的形式化分析,并提供了第一个明确考虑协议规范定义的各方的模型。我们的分析表明,5G-AKA的安全性严重依赖于对底层通道内部工作的未声明假设。在实践中,这意味着遵循5G-AKA规范,提供商可以轻松且“正确”地实现不安全的标准,使协议容易受到安全关键竞争条件的影响。我们提供了第一个考虑5G中组件和信道妥协的模型和分析,其结果进一步证明了5G- aka协议的脆弱性和微妙的信任假设。我们对遇到的问题提出了经过正式验证的修复方案,并与3GPP合作确保这些修复方案被采用。
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