Hierarchical One-out-of-Many Proofs With Applications to Blockchain Privacy and Ring Signatures

2020 15th Asia Joint Conference on Information Security (AsiaJCIS) Pub Date : 2020-08-01 DOI:10.1109/AsiaJCIS50894.2020.00023

Aram Jivanyan, Tigran Mamikonyan

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引用次数: 7

Abstract

The one-out-of-many proof is a cryptographic zero-knowledge construction enabling the prover to demonstrate knowledge of a secret element among the given public list of cryptographic commitments opening to zero. This method is relying on standard Decisional Diffie-Hellman security assumptions and can result in efficient accountable ring signature schemes [4] and proofs of set memberships [5] with a signature size smaller than all existing alternative schemes relying on standard assumptions. This construction also serves as a fundamental building block for numerous recent blockchain privacy protocols including Anonymous Zether [1], [2], Zerocoin [3], Lelantus [11], Lelantus-MW [9], Triptych [14] and Triptych-2 [15]. In this work, we introduce a new method of instantiating one-out-of-many proofs which reduces the proof generation time by an order of magnitude. Our approach still results in shorter proofs comprised of only a logarithmic number of commitments and does not compromise the highly efficient batch verification properties endemic to the original construction.

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区块链隐私和环签名应用的分层证明

一对证明是一种密码学零知识构造，使证明者能够证明对开放为零的给定加密承诺公开列表中的秘密元素的知识。该方法依赖于标准的Decisional Diffie-Hellman安全假设，可以产生有效的可问责环签名方案[4]和集合成员资格证明[5]，其签名大小小于所有依赖标准假设的现有替代方案。这种结构也作为许多最近的区块链隐私协议的基本构建块，包括匿名以太币[1]，[2]，零币[3]，Lelantus [11]， Lelantus- mw [9]， Triptych[14]和Triptych-2[15]。在这项工作中，我们引入了一种实例化一对多证明的新方法，该方法将证明生成时间减少了一个数量级。我们的方法仍然会产生更短的证明，仅由对数数量的承诺组成，并且不会损害原始构造特有的高效批验证特性。

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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2020 15th Asia Joint Conference on Information Security (AsiaJCIS)

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