Exact Fault-Tolerant Consensus with Voting Validity

Zhangchen Xu, Yuetai Li, Chengli Feng, Lei Zhang
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Abstract

This paper investigates the multi-valued fault-tolerant distributed consensus problem that pursues exact output. To this end, the voting validity, which requires the consensus output of non-faulty nodes to be the exact plurality of the input of non-faulty nodes, is investigated. Considering a specific distribution of non-faulty votes, we first give the impossibility results and a tight lower bound of system tolerance achieving agreement, termination and voting validity. A practical consensus algorithm that satisfies voting validity in the Byzantine fault model is proposed subsequently. To ensure the exactness of outputs in any non-faulty vote distribution, we further propose safety-critical tolerance and a corresponding protocol that prioritizes voting validity over termination property. To refine the proposed protocols, we propose an incremental threshold algorithm that accelerates protocol operation speed. We also optimize consensus algorithms with the local broadcast model to enhance the protocol’s fault tolerance ability.
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具有投票有效性的精确容错共识
研究了追求精确输出的多值容错分布式一致性问题。为此,研究了要求非故障节点的共识输出恰好等于非故障节点输入的整数倍的投票有效性。考虑到非错误投票的特定分布,我们首先给出了不可能结果和系统容忍度的严格下界,从而达到一致、终止和投票有效性。随后提出了一种满足拜占庭故障模型下投票有效性的实用共识算法。为了确保在任何无错误的投票分布中输出的准确性,我们进一步提出了安全关键容忍和相应的协议,该协议优先考虑投票有效性而不是终止属性。为了改进所提出的协议,我们提出了一种增量阈值算法来加快协议的运行速度。我们还利用本地广播模型对一致性算法进行了优化,提高了协议的容错能力。
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