HashWires: Hyperefficient Credential-Based Range Proofs

K. Chalkias, Shir Cohen, Kevin Lewi, Fredric Moezinia, Yolan Romailler
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引用次数: 1

Abstract

Abstract This paper presents HashWires, a hash-based range proof protocol that is applicable in settings for which there is a trusted third party (typically a credential issuer) that can generate commitments. We refer to these as “credential-based” range proofs (CBRPs). HashWires improves upon hashchain solutions that are typically restricted to micro-payments for small interval ranges, achieving an exponential speedup in proof generation and verification time. Under reasonable assumptions and performance considerations, a Hash-Wires proof can be as small as 305 bytes for 64-bit integers. Although CBRPs are not zero-knowledge and are inherently less flexible than general zero-knowledge range proofs, we provide a number of applications in which a credential issuer can leverage HashWires to provide range proofs for private values, without having to rely on heavyweight cryptographic tools and assumptions.
HashWires:Hyperefficient Credential Based Range Proofs
摘要本文介绍了HashWires,这是一种基于哈希的范围验证协议,适用于有可信第三方(通常是证书颁发者)可以生成承诺的设置。我们称之为“基于凭证的”范围证明(CBRP)。HashWires改进了通常仅限于小间隔范围的小额支付的哈希链解决方案,实现了证据生成和验证时间的指数级加速。在合理的假设和性能考虑下,对于64位整数,Hash Wires的证明可以小到305字节。尽管CBRP不是零知识,本质上不如一般的零知识范围证明灵活,但我们提供了许多应用程序,在这些应用程序中,证书颁发者可以利用HashWires为私有值提供范围证明,而不必依赖重量级加密工具和假设。
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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