International Association
for Cryptologic Research

Password-Hardened Encryption (PHE) protects against offline brute-force attacks by involving an external ratelimiter that enforces rate-limited decryption without learning passwords or keys. Threshold Password-Hardened Encryption (TPHE), introduced by Brost et al. (CCS’20), distributes this trust among multiple ratelimiters. Despite its promise, the security foundations of TPHE remain unclear. We make three contributions: (1) We uncover a flaw in the proof of Brost et al.’s TPHE scheme, which invalidates its claimed security and leaves the guarantees of existing constructions uncertain; (2) We provide the first universal composability (UC) formalization of PHE and TPHE, unifying previous fragmented models and supporting key rotation, an essential feature for long-term security and related primitives such as updatable encryption; (3) We present the first provably secure TPHE scheme, which is both round-optimal and UC-secure, thus composable in real-world settings; and we implement and evaluate our protocol, demonstrating practical efficiency that outperforms prior work in realistic WAN scenarios.