Information Security and Cryptography Research Group

Brief Announcement: Multi-Threshold Asynchronous Reliable Broadcast and Consensus

Martin Hirt, Ard Kastrati, and Chen-Da Liu Zhang

International Symposium on Distributed Computing — DISC 2020, Oct 2020.

Classical protocols for reliable broadcast and consensus provide security guarantees as long as the number of corrupted parties $f$ is bounded by a single given threshold $t$. If $f > t$, these protocols are completely deemed insecure. We consider the relaxed notion of \emph{multi-threshold} reliable broadcast and consensus where validity, consistency and termination are guaranteed as long as $f \le t_v$, $f \le t_c$ and $f \le t_t$ respectively. For consensus, we consider both variants of $(1-\epsilon)$-consensus and \emph{almost-surely terminating} consensus, where termination is guaranteed with probability $(1-\epsilon)$ and $1$, respectively. We give a very complete characterization for these primitives in the asynchronous setting and with no signatures:

-Multi-threshold reliable broadcast is possible if and only if $\max\{t_c,t_v\} + 2t_t < n$.

-Multi-threshold almost-surely consensus is possible if $\max\{t_c, t_v\} + 2t_t < n$, $2t_v + t_t < n$ and $t_t < n/3$. Assuming a global coin, it is possible if and only if $\max\{t_c, t_v\} + 2t_t < n$ and $2t_v + t_t < n$.

-Multi-threshold $(1-\epsilon)$-consensus is possible if and only if $\max\{t_c, t_v\} + 2t_t < n$ and $2t_v + t_t < n$.

BibTeX Citation

@inproceedings{HiKaLi20a,
    author       = {Martin Hirt and Ard Kastrati and Chen-Da Liu Zhang},
    title        = {Brief Announcement: Multi-Threshold Asynchronous Reliable Broadcast and Consensus},
    booktitle    = {International Symposium on Distributed Computing --- DISC 2020},
    year         = 2020,
    month        = 10,
}

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