Abstract
Non-malleable commitments are a fundamental cryptographic tool for preventing (concurrent) man-in-the-middle attacks. Since their invention by Dolev, Dwork, and Naor in 1991, their round-complexity has been extensively studied, leading up to constant-round protocols based on one-way functions (OWFs), and three-round protocols based on sub-exponential OWFs, and standard polynomial-time hardness assumptions such as decisional Diffie-Hellman (DDH) and ZAPs (i.e., two-round witness-indistinguishable proofs). But constructions of two-round, or non-interactive, non-malleable commitments have so far remained elusive; the only known construction relied on a strong and non-falsifiable assumption with a non-malleability flavor. Additionally, a recent result by Pass shows the impossibility of basing two-round non-malleable commitments on falsifiable assumptions using a polynomial-time black-box security reduction. In this work, we show how to overcome this impossibility using super-polynomial-time hardness assumptions. Our main result demonstrates the existence of two-round concurrent non-malleable commitments based on the following four primitives (all with sub-exponential security): (1) non-interactive commitments, (2) ZAPs (i.e., 2-round witness indistinguishable proofs), (3) collision-resistant hash functions, and (4) a ``weak"" time-lock puzzle. Primitives (1), (2), and (3) can be based on, e.g., the discrete log and the RSA assumption. Time-lock puzzles-puzzles that can be solved by ``brute-force"" in time 2t, but cannot be solved significantly faster even using parallel computers-were proposed by Rivest, Shamir, and Wagner in 1996 and have been extensively studied since. We additionally obtain a non-interactive (i.e., one-message) version of our protocol satisfying concurrent non-malleability w.r.t. uniform attackers and show that our non-malleable commitments satisfy an even stronger notion of chosen commitment attack security.
Original language | English |
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Journal | SIAM Journal on Computing |
Volume | 49 |
Issue number | 4 |
DOIs | |
State | Published - 2020 |
Externally published | Yes |
Keywords
- Non-interactive
- Non-malleable commitment
- Time-lock puzzles
- Two-message
All Science Journal Classification (ASJC) codes
- General Computer Science
- General Mathematics