Time-Lock Puzzles (TLPs) are a powerful tool for concealing messages until a predetermined point in time. When solving multiple puzzles, in many cases, it becomes crucial to have the ability to batch-solve puzzles, i.e., simultaneously open multiple puzzles while working to solve a single one. Unfortunately, all previously known TLP constructions that support batch solving rely on super-polynomially secure indistinguishability obfuscation, making them impractical.
In light of this challenge, we present novel TLP constructions that offer batch-solving capabilities without using heavy cryptographic hammers. Our proposed schemes are simple and concretely efficient, and they can be constructed based on well-established cryptographic assumptions based on pairings or learning with errors (LWE). Along the way, we introduce new constructions of puncturable key-homomorphic PRFs both in the lattice and in the pairing setting, which may be of independent interest. Our analysis leverages an interesting connection to Hall’s marriage theorem and incorporates an optimized combinatorial approach, enhancing the practicality and feasibility of our TLP schemes.
Furthermore, we introduce the concept of “rogue-puzzle attacks”, where maliciously crafted puzzle instances may disrupt the batch-solving process of honest puzzles. We then propose constructions of concrete and efficient TLPs designed to prevent such attacks.
History
Editor
Joye M ; Leander G
Primary Research Area
Algorithmic Foundations and Cryptography
Name of Conference
International Conference on the Theory and Application of Cryptographic Techniques (EuroCrypt)
Journal
EUROCRYPT (2)
Volume
14652
Page Range
311-341
Publisher
Springer Nature
Open Access Type
Not Open Access
BibTeX
@inproceedings{Dujmovic:Garg:Malavolta:2024,
title = "Time-Lock Puzzles with Efficient Batch Solving",
author = "Dujmovic, Jesko" AND "Garg, Rachit" AND "Malavolta, Giulio",
editor = "Joye, Marc" AND "Leander, Gregor",
year = 2024,
month = 1,
journal = "EUROCRYPT (2)",
pages = "311--341",
publisher = "Springer Nature",
issn = "1611-3349",
doi = "10.1007/978-3-031-58723-8_11"
}