线性同态保结构签名的可恢复性证明

Int. J. Inf. Comput. Secur. Pub Date : 2019-03-07 DOI:10.1504/IJICS.2019.098205

Xiao Zhang, Shengli Liu, Shuai Han

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引用次数: 4

摘要

可检索性证明(PoR)使客户能够将大量数据外包给云服务器，并提供了一种有效的审计协议，可用于检查所有数据是否得到正确维护，以及是否可以从服务器检索数据。本文给出了线性同态保持结构签名(LHSPS)的PoR的一般构造，使公开验证成为可能。LHSPS的不可伪造性保证了PoR方案的真实性和可检索性。我们进一步将结果扩展到动态PoR，它支持外包数据的动态更新。我们的构造没有像Merkle哈希树那样复杂的数据结构。通过最近由Kiltz和Wee (EuroCrypt15)提出的LHSPS方案的实例，我们推导了一个公开可验证的(动态)PoR方案。该安全性基于标准假设，并在标准模型中得到证明。

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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Proofs of retrievability from linearly homomorphic structure-preserving signatures

Proofs of retrievability (PoR) enables clients to outsource huge amount of data to cloud servers, and provides an efficient audit protocol, which can be employed to check that all the data is being maintained properly and can be retrieved from the server. In this paper, we present a generic construction of PoR from linearly homomorphic structure-preserving signature (LHSPS), which makes public verification possible. Authenticity and retrievability of our PoR scheme are guaranteed by the unforgeability of LHSPS. We further extend our result to dynamic PoR, which supports dynamic update of outsourced data. Our construction is free of complicated data structures like Merkle hash tree. With an instantiation of a recent LHSPS scheme proposed by Kiltz and Wee (EuroCrypt15), we derive a publicly verifiable (dynamic) PoR scheme. The security is based on standard assumptions and proved in the standard model.

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Int. J. Inf. Comput. Secur.

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