Secure Erasure Codes With Partial Decodability
Abstract
The MDS property (aka the -out-of- property) requires that if a file is split into several symbols and subsequently encoded into coded symbols, each being stored in one storage node of a distributed storage system (DSS), then an user can recover the file by accessing any nodes. We study the so-called -decodable -secure erasure coding scheme , which satisfies the MDS property and the following additional properties: (P1) strongly secure up to a threshold: an adversary which eavesdrops at most storage nodes gains no information (in Shannon's sense) about the stored file, (P2) partially decodable: a legitimate user can recover a subset of file symbols by accessing some storage nodes. The scheme is perfectly -decodable -secure if it satisfies the following additional property: (P3) weakly secure up to a threshold: an adversary which eavesdrops more than but less than storage nodes cannot reconstruct any part of the file. Most of the related work in the literature only focused on the case . In other words, no partial decodability is provided: an user cannot retrieve any part of the file by accessing less than nodes. We provide an explicit construction of -decodable -secure coding schemes over small fields for all and . That construction also produces perfectly -decodable -secure schemes over small fields when (for every ), and when (for every ). We establish that perfect schemes exist over \emph{sufficiently large} fields for almost all and .
Keywords
Cite
@article{arxiv.1410.3214,
title = {Secure Erasure Codes With Partial Decodability},
author = {Son Hoang Dau and Wentu Song and Chau Yuen},
journal= {arXiv preprint arXiv:1410.3214},
year = {2014}
}
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11 pages