Flag: A Framework for Lightweight Robust Secure Aggregation

Proceedings of the 2023 ACM Asia Conference on Computer and Communications Security Pub Date : 2023-07-10 DOI:10.1145/3579856.3595805

Laasya Bangalore, Mohammad Hossein Faghihi Sereshgi, Carmit Hazay, Muthuramakrishnan Venkitasubramaniam

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Abstract

In this work, we introduce a lightweight secure aggregation protocol that guarantees liveness (i.e., guaranteed output delivery), robust against faulty inputs and security against malicious clients. First, we improve upon prior works in the “star”-like topology network with a central coordinating (also output) party, Bonawitz et al. (ACM CCS 2017) and Bell et al. (ACM CCS 2020), which are not robust against faulty inputs. Recent works, RoFL (Burkhalter et al.) and (concurrent work) ACORN (Bell et al.) show how to rely on zero-knowledge proofs to address such attacks at expense of significantly high computation costs. We also compare our protocol against the PRIO system by Gibbs and Boneh (USENIX 2017) which achieves the same task in an incomparable security model. We benchmark our protocol with implementation and demonstrate its concrete efficiency. Our solution scales to 1000s of clients, requires only a constant number of rounds, outperforms prior work in computational cost, and has competitive communication cost.

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标志:一个轻量级鲁棒安全聚合框架

在这项工作中，我们引入了一个轻量级的安全聚合协议，它保证了活动性(即，保证了输出交付)，对错误输入的鲁棒性和对恶意客户端的安全性。首先，我们改进了具有中央协调(也是输出)方的“星形”拓扑网络中的先前工作，Bonawitz等人(ACM CCS 2017)和Bell等人(ACM CCS 2020)，这些工作对错误输入不具有鲁棒性。最近的工作，RoFL (Burkhalter等人)和(并行工作)ACORN (Bell等人)展示了如何依靠零知识证明来解决这种攻击，代价是计算成本非常高。我们还将我们的协议与Gibbs和Boneh (USENIX 2017)的PRIO系统进行了比较，后者在无与伦比的安全模型中实现了相同的任务。我们对协议的实现进行了基准测试，并证明了它的具体效率。我们的解决方案可扩展到1000个客户端，只需要固定数量的轮数，在计算成本上优于先前的工作，并且具有竞争性的通信成本。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the 2023 ACM Asia Conference on Computer and Communications Security

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