Randomness Recoverable Secret Sharing Schemes

IF 2.3 3区计算机科学 Q2 COMPUTER SCIENCE, THEORY & METHODS Journal of Cryptology Pub Date : 2024-08-20 DOI:10.1007/s00145-024-09515-4

Mohammad Hajiabadi, Shahram Khazaei, Behzad Vahdani

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Abstract

It is well-known that randomness is essential for secure cryptography. The randomness used in cryptographic primitives is not necessarily recoverable even by the party who can, e.g., decrypt or recover the underlying secret/message. Several cryptographic primitives that support randomness recovery have turned out useful in various applications. In this paper, we study randomness recoverable secret sharing schemes (RR-SSS), in both information-theoretic and computational settings and provide two results. First, we show that while every access structure admits a perfect RR-SSS, there are very simple access structures (e.g., in monotone \(\textsf{AC}^0\)) that do not admit efficient perfect (or even statistical) RR-SSS. Second, we show that the existence of efficient computational RR-SSS for certain access structures in monotone \(\textsf{AC}^0\) implies the existence of one-way functions. This stands in sharp contrast to (non-RR) SSS schemes for which no such results are known. RR-SSS plays a key role in making advanced attributed-based encryption schemes randomness recoverable, which in turn have applications in the context of designated-verifier non-interactive zero knowledge.

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随机性可恢复秘密共享方案

众所周知，随机性对安全加密至关重要。加密基元中使用的随机性不一定可以恢复，即使是能够解密或恢复底层秘密/信息的一方也不一定可以恢复。一些支持随机性恢复的密码基元已在各种应用中发挥了作用。在本文中，我们从信息论和计算的角度研究了随机性可恢复的秘密共享方案（RR-SSS），并提供了两个结果。首先，我们证明了虽然每个访问结构都允许完美的 RR-SSS，但有一些非常简单的访问结构（例如，在单调（\textsf{AC}^0\）中）不允许有效的完美（甚至统计）RR-SSS。其次，我们证明了单调（monotone）\(\textsf{AC}^0\)中某些访问结构的高效计算RR-SSS的存在意味着单向函数的存在。这与（非RR）SSS方案形成了鲜明对比，因为前者没有这样的结果。RR-SSS在使先进的基于归属的加密算法具有随机性可恢复性方面发挥了关键作用，这反过来又在指定验证者非交互式零知识的背景下得到了应用。

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

Journal of Cryptology 工程技术-工程：电子与电气

CiteScore

7.10

自引率

3.30%

发文量

审稿时长

18 months

期刊介绍： The Journal of Cryptology is a forum for original results in all areas of modern information security. Both cryptography and cryptanalysis are covered, including information theoretic and complexity theoretic perspectives as well as implementation, application, and standards issues. Coverage includes such topics as public key and conventional algorithms and their implementations, cryptanalytic attacks, pseudo-random sequences, computational number theory, cryptographic protocols, untraceability, privacy, authentication, key management and quantum cryptography. In addition to full-length technical, survey, and historical articles, the journal publishes short notes.

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