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Round-Preserving Parallel Composition of Probabilistic-Termination Cryptographic Protocols

Authors:
Ran Cohen
Sandro Coretti
Juan Garay
Vassilis Zikas
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DOI: 10.1007/s00145-021-09377-0
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Abstract: An important benchmark for multi-party computation protocols (MPC) is their round complexity . For several important MPC tasks, such as broadcast, (tight) lower bounds on the round complexity are known. However, some of these lower bounds can be circumvented when the termination round of every party is not a priori known, and simultaneous termination is not guaranteed. Protocols with this property are called probabilistic-termination ( PT ) protocols. Running PT protocols in parallel affects the round complexity of the resulting protocol in somewhat unexpected ways. For instance, an execution of m protocols with constant expected round complexity might take $$O(\log m)$$ O ( log m ) rounds to complete. In a seminal work, Ben-Or and El-Yaniv (Distributed Computing ‘03) developed a technique for a parallel execution of arbitrarily many broadcast protocols, while preserving expected round complexity. More recently, Cohen et al.  (CRYPTO ‘16) devised a framework for universal composition of PT protocols, and provided the first composable parallel-broadcast protocol with a simulation-based proof. These constructions crucially rely on the fact that broadcast is “privacy-free,” and do not generalize to arbitrary protocols in a straightforward way. This raises the question of whether it is possible to execute arbitrary PT protocols in parallel, without increasing the round complexity. In this paper we tackle this question and provide both feasibility and infeasibility results. We construct a round-preserving protocol compiler, tolerating any dishonest minority of actively corrupted parties, that compiles arbitrary protocols into a protocol realizing their parallel composition, while having a black-box access to the underlying protocols . Furthermore, we prove that the same cannot be achieved, using known techniques, given only black-box access to the functionalities realized by the protocols, unless merely security against semi-honest corruptions is required, for which case we provide a protocol. To prove our results, we utilize the language and results by Cohen et al. , which we extend to capture parallel composition and reactive functionalities, and to handle the case of an honest majority.
BibTeX
@article{jofc-2021-31780,
  title={Round-Preserving Parallel Composition of Probabilistic-Termination Cryptographic Protocols},
  journal={Journal of Cryptology},
  publisher={Springer},
  volume={34},
  doi={10.1007/s00145-021-09377-0},
  author={Ran Cohen and Sandro Coretti and Juan Garay and Vassilis Zikas},
  year=2021
}