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Shravan Srinivasan, Lagrange Labs
Dimitrios Papadopoulos, Hong Kong University of Science and Technology
Recently, the notion of dynamic zk-SNARKs was introduced. A dynamic zk-SNARK augments a standard zk-SNARK with an efficient update algorithm. Given a valid source statement-witness pair $(x,w)$ together with a verifying proof $p$, and a valid target statement-witness pair $(x',w')$, the update algorithm outputs a verifying proof $p'$ for $(x',w')$. Crucially, $p'$ is not recomputed from scratch; instead, the update algorithm takes time roughly proportional to the Hamming distance between $(x,w)$ and $(x',w')$, analogous to how dynamic data structures update the result of a computation after a small change. In this paper, we initiate the study of designated-verifier dynamic zk-SNARKs: dynamic zk-SNARKs in which only a designated verifier, holding secret verification state, can be convinced by a proof. Following recent advances in designated-verifier zk-SNARKs---such as efficient post-quantum designated verifier SNARKs (CCS 2021) and designated verifier SNARKs with very small proofs (CRYPTO 2025)---we construct a designated-verifier dynamic zk-SNARK with $O(\log n)$ update time, constant proof size, and concrete efficiency. Our construction significantly outperforms Dynalog (both asymptotically and concretely), the only publicly verifiable dynamic zk-SNARK with polylogarithmic update time (Wang et al., 2024). The concrete efficiency of our construction enables, for the first time, an efficient implementation of a dynamic proof of index: Given a digest $d$ of an arbitrary set and a digest $d'$ of its sorted index (e.g., binary search tree), we produce a SNARK proof certifying the consistency of $d$ and $d'$. More importantly, this proof can be updated in sublinear time when the underlying set changes---for example, when an element is modified or inserted, potentially altering the sorted order. We demonstrate applications of designated-verifier dynamic proofs of index to verifiable dynamic database outsourcing, where a client outsources a database and later maintains verifiable indices for efficient query answering, even under arbitrary database updates.
BibTeX
@misc{cryptoeprint:2026/144,
author = {Weijie Wang and Charalampos Papamanthou and Shravan Srinivasan and Dimitrios Papadopoulos},
title = {Designated-Verifier Dynamic zk-{SNARKs} with Applications to Dynamic Proofs of Index},
howpublished = {Cryptology {ePrint} Archive, Paper 2026/144},
year = {2026},
url = {https://eprint.iacr.org/2026/144}
}
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