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Zhenliang Lu, Nanyang Technological University
Qiang Tang, The University of Sydney
Zhuolun Xiang, Aptos Labs
Zongyang Zhang, Beihang University
Dynamic-committee Proactive Secret Sharing (DPSS) has gained increased attention for its ability to dynamically update the shareholder committees and refresh secret shares, even against adversaries that gradually corrupt all nodes. However, existing state-of-the-art asynchronous DPSS protocols suffer from significant $\mathcal{O}(n^3)$ message complexity and $\mathcal{O}(\lambda n^3)$ communication complexity, where $\lambda$ denotes the security parameter and $n$ is the committee size. In this paper, we distinguish optimistic-case and worst-case scenarios based on node behaviors and network conditions, thus reducing the redundant communication overhead of asynchronous DPSS. Under the trusted setup assumption, we achieved an $\mathcal{O}(n^2)$ message complexity in all scenarios. Additionally, our protocol has an $\mathcal{O}(\lambda n^2)$ communication complexity in the optimistic case, where all nodes are honest and the network is synchronous, and $\mathcal{O}(\lambda n^3)$ communication complexity in the worst case. We also propose two strategies to eliminate the strong trusted setup assumptions, and the asymptotic performance still surpasses the state-of-the-art protocols. For committee sizes of 4 to 400, the estimated concrete communication cost of our DPSS is 19--100x (resp., 8--14x) smaller in the optimistic case (resp., worst case) compared to LongLive (USENIX Security '23). Experiments in AWS show that our DPSS achieves a latency of 1.9--8 seconds for committee sizes from 4 to 64. Single-machine benchmarks reveal a (computational) runtime reduction of up to 44\%.
Note: This is the full version of the conference paper published in the proceedings of IEEE S&P 2026.
BibTeX
@misc{cryptoeprint:2025/880,
author = {Bin Hu and Jianwei Liu and Zhenliang Lu and Qiang Tang and Zhuolun Xiang and Zongyang Zhang},
title = {Optimistic Asynchronous Dynamic-committee Proactive Secret Sharing},
howpublished = {Cryptology {ePrint} Archive, Paper 2025/880},
year = {2025},
doi = {10.1109/SP63933.2026.00243},
url = {https://eprint.iacr.org/2025/880}
}
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