Benaloh's Dense Probabilistic Encryption Revisited

Abstract

In 1994, Josh Benaloh proposed a probabilistic homomorphic encryption scheme, enhancing the poor expansion factor provided by Goldwasser and Micali's scheme. Since then, numerous papers have taken advantage of Benaloh's homomorphic encryption function, including voting schemes, computing multi-party trust privately, non-interactive verifiable secret sharing, online poker... In this paper we show that the original description of the scheme is incorrect, possibly resulting in ambiguous decryption of ciphertexts. We give a corrected description of the scheme and provide a complete proof of correctness. We also compute the probability of failure of the original scheme. Finally we analyze several applications using Benaloh's encryption scheme. We show in each case the impact of a bad choice in the key generation phase of Benaloh's scheme. For instance in the application of e-voting protocol, it can inverse the result of an election, which is a non negligible consequence.