English

On Bringer-Chabanne EPIR Protocol for Polynomial Evaluation

Cryptography and Security 2012-08-28 v1

Abstract

Extended private information retrieval (EPIR) was defined by \cite{BCPT07} at CANS'07 and generalized by \cite{BC09} at AFRICACRYPT'09. In the generalized setting, EPIR allows a user to evaluate a function on a database block such that the database can learn neither which function has been evaluated nor on which block the function has been evaluated and the user learns no more information on the database blocks except for the expected result. An EPIR protocol for evaluating polynomials over a finite field LL was proposed by Bringer and Chabanne in \cite{BC09}. We show that the protocol does not satisfy the correctness requirement as they have claimed. In particular, we show that it does not give the user the expected result with large probability if one of the coefficients of the polynomial to be evaluated is primitive in LL and the others belong to the prime subfield of LL.

Cite

@article{arxiv.1208.5190,
  title  = {On Bringer-Chabanne EPIR Protocol for Polynomial Evaluation},
  author = {Yeow Meng Chee and Huaxiong Wang and Liang Feng Zhang},
  journal= {arXiv preprint arXiv:1208.5190},
  year   = {2012}
}

Comments

23 pages

R2 v1 2026-06-21T21:55:20.797Z