基于置换的EDM:一种逆自由BBB安全PRF

IF 1.7 Q3 COMPUTER SCIENCE, SOFTWARE ENGINEERING

IACR Transactions on Symmetric Cryptology Pub Date : 2021-06-11 DOI:10.46586/tosc.v2021.i2.31-70

Avijit Dutta, M. Nandi, Suprita Talnikar

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引用次数: 11

摘要

在CRYPTO 2019中，Chen等人发起了一个有趣的研究方向，即基于公共排列设计PRF。他们提出了两个超越生日界的安全n-bit到n-bit PRF结构，即SoEM22和SoKAC21，它们建立在公共排列上，其中n是排列的大小。然而，这两种结构都需要两个独立的公共排列实例。在FSE 2020中，Chakraborti等人提出了一种基于n-bit到n-bit的单一公共排列，超越生日界安全PRF，他们称之为PDMMAC。虽然结构的排列数量很少，但它需要在设计中反向调用其潜在的排列。在他们的论文中，提出一个基于单排列和两个前向调用的n-bit到n-bit超过生日界限的安全公共排列PRF是一个开放的问题。在这项工作中，我们提出了pEDM，一种基于n位到n位单排列的PRF，具有两次调用，不需要排列的可逆性。我们已经证明，我们的结构是安全的，不受所有自适应信息论区分符的影响，这些区分符可以产生大约高达22n/3的结构和原始查询。此外，我们还展示了具有类似查询复杂性的匹配攻击，该攻击建立了安全边界的严密性。

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Permutation Based EDM: An Inverse Free BBB Secure PRF

In CRYPTO 2019, Chen et al. have initiated an interesting research direction in designing PRF based on public permutations. They have proposed two beyond the birthday bound secure n-bit to n-bit PRF constructions, i.e., SoEM22 and SoKAC21, which are built on public permutations, where n is the size of the permutation. However, both of their constructions require two independent instances of public permutations. In FSE 2020, Chakraborti et al. have proposed a single public permutation based n-bit to n-bit beyond the birthday bound secure PRF, which they refer to as PDMMAC. Although the construction is minimal in the number of permutations, it requires the inverse call of its underlying permutation in their design. Coming up with a beyond the birthday bound secure public permutation based n-bit to n-bit PRF with a single permutation and two forward calls was left as an open problem in their paper. In this work, we propose pEDM, a single permutation based n-bit to n-bit PRF with two calls that do not require invertibility of the permutation. We have shown that our construction is secured against all adaptive information-theoretic distinguishers that make roughly up to 22n/3 construction and primitive queries. Moreover, we have also shown a matching attack with similar query complexity that establishes the tightness of our security bound.

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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