English

(Unconditional) Secure Multiparty Computation with Man-in-the-middle Attacks

Cryptography and Security 2010-05-28 v1

Abstract

In secure multi-party computation nn parties jointly evaluate an nn-variate function ff in the presence of an adversary which can corrupt up till tt parties. Almost all the works that have appeared in the literature so far assume the presence of authenticated channels between the parties. This assumption is far from realistic. Two directions of research have been borne from relaxing this (strong) assumption: (a) The adversary is virtually omnipotent and can control all the communication channels in the network, (b) Only a partially connected topology of authenticated channels is guaranteed and adversary controls a subset of the communication channels in the network. This work introduces a new setting for (unconditional) secure multiparty computation problem which is an interesting intermediate model with respect to the above well studied models from the literature (by sharing a salient feature from both the above models). We consider the problem of (unconditional) secure multi-party computation when 'some' of the communication channels connecting the parties can be corrupted passively as well as actively. For this setting, some honest parties may be connected to several other honest parties via corrupted channels and may not be able to authentically communicate with them. Such parties may not be assured the canonical guarantees of correctness or privacy. We present refined definitions of security for this new intermediate model of unconditional multiparty computation. We show how to adapt protocols for (Unconditional) secure multiparty computation to realize the definitions and also argue the tightness of the results achieved by us.

Keywords

Cite

@article{arxiv.1005.5020,
  title  = {(Unconditional) Secure Multiparty Computation with Man-in-the-middle Attacks},
  author = {Shailesh Vaya},
  journal= {arXiv preprint arXiv:1005.5020},
  year   = {2010}
}

Comments

19 pages

R2 v1 2026-06-21T15:28:32.827Z