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Petros Wallden, University of Edinburgh
Proactive secret-sharing (PSS) offers security for shared secrets in a setting of a mobile adversary which, over time, may corrupt the whole shareholder set. This remarkable property is achieved by having parties proactively and in a coordinated manner refresh their shares on a regular basis, while it assumes that the adversary never manages to corrupt more than a threshold number of parties between two consecutive share refresh operations. A common assumption for achieving PSS is the ability of parties to securely erase their private state once they have performed the refresh operation. Motivated by the difficulty in the real world to ensure secure erasure, we investigate whether it is possible to achieve PSS without erasures. As in the classic model of computation it can be easily shown that PSS without erasures is impossible, we hence ask whether it is possible to achieve PSS via quantum computation, while still requiring only classical communication. We answer the question in the affirmative by utilizing one-shot signatures and post-quantum classical extractable witness encryption. In the process of developing our result, we define and construct threshold one-shot decryption and make connections to quantum money with classical communication both of which may be of independent interest. Finally, we show how, by combining post-quantum secure functional witness encryption with our PSS, it is possible for the secret to be used without explicitly being reconstructed, something that paves the way towards proactively secure threshold cryptography without erasures.
BibTeX
@misc{cryptoeprint:2026/1072,
author = {Alexandru Cojocaru and Aggelos Kiayias and Yu Shen and Petros Wallden},
title = {Proactive Secret Sharing without Erasures},
howpublished = {Cryptology {ePrint} Archive, Paper 2026/1072},
year = {2026},
url = {https://eprint.iacr.org/2026/1072}
}
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