Threshold Schemes from Isogeny Assumptions

A Fiat; A Shamir; A Stolbunov; C Delfs; CP Schnorr; D Jao; D Jao; DJ Bernstein; DR Stinson; E Doulgerakis; E Kiltz; G Kuperberg; H Onuki; J-F Biasse; JC Benaloh; L Babai; L De Feo; L De Feo; L Harn; M Meyer; M Meyer; P-A Fouque; PW Shor; R Gennaro; R Gennaro; T Decru; T ElGamal; TP Pedersen; TP Pedersen; V Shoup; W Beullens; W Castryck; Y Desmedt; Y Desmedt

Threshold Schemes from Isogeny Assumptions

Authors: A Fiat
A Shamir
A Stolbunov
C Delfs
CP Schnorr
D Jao
D Jao
DJ Bernstein
DR Stinson
E Doulgerakis
E Kiltz
G Kuperberg
H Onuki
J-F Biasse
JC Benaloh
L Babai
L De Feo
L De Feo
L Harn
M Meyer
M Meyer
P-A Fouque
PW Shor
R Gennaro
R Gennaro
T Decru
T ElGamal
TP Pedersen
TP Pedersen
V Shoup
W Beullens
W Castryck
Y Desmedt
Y Desmedt
Publication date: 7 February 2020
Publisher: International Association for Cryptologic Research (IACR)
Doi

Abstract

We initiate the study of threshold schemes based on the Hard Homogeneous Spaces (HHS) framework of Couveignes. Quantum-resistant HHS based on supersingular isogeny graphs have recently become usable thanks to the record class group precomputation performed for the signature scheme CSI-FiSh. Using the HHS equivalent of the technique of Shamir\u27s secret sharing in the exponents, we adapt isogeny based schemes to the threshold setting. In particular we present threshold versions of the CSIDH public key encryption, and the CSI-FiSh signature schemes. The main highlight is a threshold version of CSI-FiSh which runs almost as fast as the original scheme, for message sizes as low as 1880 B, public key sizes as low as 128 B, and thresholds up to 56; other speed-size-threshold compromises are possible

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