English

Secret Sharing for Secure and Private Information Retrieval: A Construction Using Algebraic Geometry Codes

Information Theory 2024-08-02 v1 math.IT

Abstract

Private information retrieval (PIR) considers the problem of retrieving a data item from a database or distributed storage system without disclosing any information about which data item was retrieved. Secure PIR complements this problem by further requiring the contents of the data to be kept secure. Privacy and security can be achieved by adding suitable noise to the queries and data using methods from secret sharing. In this paper, a new framework for homomorphic secret sharing in secure and private information retrieval from colluding servers is proposed, generalizing the original cross-subspace alignment (CSA) codes proposed by Jia, Sun, and Jafar. We utilize this framework to give a secure PIR construction using algebraic geometry codes over hyperelliptic curves of arbitrary genus. It is shown that the proposed scheme offers interesting tradeoffs between the field size, file size, number of colluding servers, and the total number of servers. When the field size is fixed, this translates in some cases to higher retrieval rates than those of the original scheme. In addition, the new schemes exist also for some parameters where the original ones do not.

Keywords

Cite

@article{arxiv.2408.00542,
  title  = {Secret Sharing for Secure and Private Information Retrieval: A Construction Using Algebraic Geometry Codes},
  author = {Okko Makkonen and David Karpuk and Camilla Hollanti},
  journal= {arXiv preprint arXiv:2408.00542},
  year   = {2024}
}

Comments

19 pages, 1 figure. Extended version of arXiv:2405.18052

R2 v1 2026-06-28T18:00:30.576Z