Exploring Integrity of AEADs with Faults: Definitions and Constructions

IF 1.7 Q3 COMPUTER SCIENCE, SOFTWARE ENGINEERING

IACR Transactions on Symmetric Cryptology Pub Date : 2022-12-07 DOI:10.46586/tosc.v2022.i4.291-324

Sayandeep Saha, Mustafa Khairallah, Thomas Peyrin

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引用次数: 0

Abstract

Implementation-based attacks are major concerns for modern cryptography. For symmetric-key cryptography, a significant amount of exploration has taken place in this regard for primitives such as block ciphers. Concerning symmetric-key operating modes, such as Authenticated Encryption with Associated Data (AEAD), the stateof-the-art mainly addresses the passive Side-Channel Attacks (SCA) in the form of leakage resilient cryptography. So far, only a handful of work address Fault Attacks (FA) in the context of AEADs concerning the fundamental properties – integrity and confidentiality. In this paper, we address this gap by exploring mode-level issues arising due to FAs. We emphasize that FAs can be fatal even in cases where the adversary does not aim to extract the long-term secret, but rather tries to violate the basic security requirements (integrity and confidentiality). Notably, we show novel integrity attack examples on state-of-the-art AEAD constructions and even on a prior fault-resilient AEAD construction called SIV$. On the constructive side, we first present new security notions of fault-resilience, for PRF (frPRF), MAC (frMAC) and AEAD (frAE), the latter can be seen as an improved version of the notion introduced by Fischlin and Gunther at CT-RSA’20. Then, we propose new constructions to turn a frPRF into a fault-resilient MAC frMAC (hash-then-frPRF) and into a fault-resilient AEAD frAE (MAC-then-Encrypt-then-MAC or MEM).

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探讨带有错误的自动辅助系统的完整性:定义和结构

基于实现的攻击是现代密码学的主要关注点。对于对称密钥密码学，在这方面已经进行了大量的探索，例如块密码。对于对称密钥操作模式，例如使用关联数据的身份验证加密(AEAD)，最新的技术主要以泄漏弹性加密的形式解决被动侧信道攻击(SCA)。到目前为止，只有少数工作涉及到aead环境中的故障攻击(FA)，涉及到基本属性-完整性和机密性。在本文中，我们通过探索由FAs引起的模式级问题来解决这一差距。我们强调，即使对手的目的不是提取长期秘密，而是试图违反基本的安全要求(完整性和保密性)，FAs也可能是致命的。值得注意的是，我们展示了最先进的AEAD结构，甚至是先前的故障弹性AEAD结构(称为SIV$)上的新颖完整性攻击示例。在建设性方面，我们首先提出了故障恢复的新安全概念，用于PRF (frPRF)， MAC (frMAC)和AEAD (frAE)，后者可以被视为Fischlin和Gunther在CT-RSA ' 20上引入的概念的改进版本。然后，我们提出了将frPRF转换为故障弹性MAC frMAC (hash-then-frPRF)和故障弹性AEAD fre (MAC- Then - encryption - Then -MAC或MEM)的新结构。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

IACR Transactions on Symmetric Cryptology Mathematics-Applied Mathematics

CiteScore

5.50

自引率

22.90%

发文量