Paper 2018/870

Unifying Kleptographic Attacks

George Teseleanu

Abstract

We present two simple backdoors that can be implemented into Maurer's unified zero-knowledge protocol. Thus, we show that a high level abstraction can replace individual backdoors embedded into protocols for proving knowledge of a discrete logarithm (e.g. the Schnorr and Girault protocols), protocols for proving knowledge of an $e^{th}$-root (e.g. the Fiat-Shamir and Guillou-Quisquater protocols), protocols for proving knowledge of a discrete logarithm representation (e.g. the Okamoto protocol) and protocols for proving knowledge of an $e^{th}$-root representation.