Correctness of Broadcast via Multicast: Graphically and Formally

W. Jeltsch, Javier D'iaz
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引用次数: 1

Abstract

Maintaining data consistency among multiple parties requires nodes to repeatedly send data to all other nodes. For example, the nodes of a blockchain network have to disseminate the blocks they create across the whole network. The scientific literature typically takes the ideal perspective that such data distribution is performed by broadcasting to all nodes directly, while in practice data is distributed by repeated multicast. Since correctness and security of consistency maintenance protocols usually have been established for the ideal setting only, it is vital to show that these properties carry over to real-world implementations. Therefore, it is desirable to prove that the ideal and the real behavior are equivalent. In the work described in this paper, we take an important step towards such a proof by proving a simpler variant of this equivalence statement. The simplification is that we consider only a concrete pair of network topologies, which nevertheless illustrates important phenomena encountered with arbitrary topologies. For describing systems that distribute data, we use a domain-specific language of processes that corresponds to a class of Petri nets and is embedded in a general-purpose process calculus. This way, we can outline our proof using an intuitive graphical notation and leverage the rich theory of process calculi in the actual proof, which is machine-checked using the Isabelle proof assistant.
通过多播广播的正确性:图形化和形式化
维护多方之间的数据一致性需要节点反复向所有其他节点发送数据。例如,区块链网络的节点必须在整个网络中传播它们创建的区块。科学文献通常采用理想的观点,认为这种数据分布是通过直接广播到所有节点来实现的,而在实践中,数据是通过重复组播进行分布的。由于一致性维护协议的正确性和安全性通常只针对理想设置而建立,因此必须显示这些属性可以延续到实际实现中。因此,需要证明理想行为与实际行为是等价的。在本文所描述的工作中,我们通过证明这个等价陈述的一个更简单的变体,向这样的证明迈出了重要的一步。简化是我们只考虑一个具体的网络拓扑对,然而它说明了任意拓扑遇到的重要现象。为了描述分布数据的系统,我们使用特定于领域的过程语言,该语言对应于一类Petri网,并嵌入到通用过程演算中。这样,我们就可以使用直观的图形符号来概述我们的证明,并在实际证明中利用丰富的过程演算理论,使用Isabelle证明助手进行机器检查。
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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