Optimal Security Proofs for Full Domain Hash, Revisited

RSA Full Domain Hash (RSA-FDH) is a digital signature scheme, secure against chosen message attacks in the random oracle model. The best known security reduction from the RSA assumption is non-tight, i.e., it loses a factor of q s , where q s is the number of signature queries made by the adversary. It was furthermore proven by Coron (Advances in cryptology—EUROCRYPT 2002, Lecture notes in computer science, vol 2332. Springer, Berlin, pp 272–287, 2002 ) that a security loss of q s is optimal and cannot possibly be improved. In this work, we uncover a subtle flaw in Coron’s impossibility result. Concretely, we show that it only holds if the underlying trapdoor permutation is certified . Since it is well known that the RSA trapdoor permutation is (for all practical parameters) not certified, this renders Coron’s impossibility result moot for RSA-FDH. Motivated by this, we revisit the question whether there is a tight security proof for RSA-FDH. Concretely, we give a new tight security reduction from a stronger assumption, the Phi-Hiding assumption introduced by Cachin et al. (Advances in Cryptology—EUROCRYPT’99. Lecture notes in computer science, vol 1592. Springer, Berlin, pp 402–414, 1999 ). This justifies the choice of smaller parameters in RSA-FDH, as it is commonly used in practice. All of our results (positive and negative) extend to the probabilistic signature scheme PSS (with message recovery).