FALCON signature vulnerability to special attacks and its protection

IF 0.2 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC Visnyk NTUU KPI Seriia-Radiotekhnika Radioaparatobuduvannia Pub Date : 2022-09-28 DOI:10.30837/rt.2022.3.210.03
Yaroslav Derevianko, I. Gorbenko
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Abstract

It is well known that quantum algorithms offer exponential speedup in solving the integer factorization and discrete logarithm problems that existing public-key systems rely on. Thus, post-quantum cryptography seeks alternative classical algorithms that can withstand quantum cryptanalysis. Growing concern about the quantum threat has prompted the National Institute of Standards and Technology (NIST) to invite and evaluate applications for a post-quantum cryptography standard, an ongoing process scheduled to be completed by 2023. Falcon is an electronic signature algorithm based on the mathematics of algebraic lattices. The disadvantage of this algorithm is the small number of studies of resistance against special attacks, as well as attacks through side channels. This material examines existing attacks on the implementation, and also analyzes the speed with applying countermeasures that would prevent such attacks. Although the Falcon scheme sampler, as well as certain mathematical transformations, are still vulnerable to attacks (which in turn allow the private key to be obtained), the efficiency of the components and mathematics of this signature algorithm make it competitive with other schemes, even with countermeasures against these attacks. The work will also consider the attack by side channels on the Falcon. Such an attack is a known-plaintext attack that uses the device's electromagnetic radiation to derive secret signature keys, which can then be used to forge signatures in arbitrary messages. The obtained results show that Falcon is quite vulnerable to side-channel attacks and does not yet have protection against such attacks in the proposed implementation. Because of this, standardization or implementation should consider the possibility of physical attacks, as well as options for countering such attacks.
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猎鹰签名对特殊攻击的脆弱性及其保护
众所周知,量子算法在解决现有公钥系统所依赖的整数分解和离散对数问题方面提供了指数级的加速。因此,后量子密码学寻求能够承受量子密码分析的替代经典算法。对量子威胁日益增长的担忧促使美国国家标准与技术研究院(NIST)邀请并评估后量子加密标准的应用,这一过程正在进行中,计划于2023年完成。Falcon是一种基于代数格数学的电子签名算法。该算法的缺点是对特殊攻击和侧信道攻击的抵抗研究较少。本材料检查了对实现的现有攻击,并分析了应用防止此类攻击的对策的速度。尽管Falcon方案采样器以及某些数学转换仍然容易受到攻击(这反过来又允许获得私钥),但该签名算法的组件和数学的效率使其与其他方案竞争,即使有针对这些攻击的对策。这项工作还将考虑从猎鹰的侧面通道发动攻击。这种攻击是一种已知明文攻击,它利用设备的电磁辐射获得秘密签名密钥,然后可以用来在任意消息中伪造签名。得到的结果表明,Falcon非常容易受到侧信道攻击,并且在提出的实现中尚未具有针对此类攻击的保护。因此,标准化或实现应该考虑物理攻击的可能性,以及对抗这种攻击的选项。
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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Visnyk NTUU KPI Seriia-Radiotekhnika Radioaparatobuduvannia
Visnyk NTUU KPI Seriia-Radiotekhnika Radioaparatobuduvannia ENGINEERING, ELECTRICAL & ELECTRONIC-
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