ABSE：基于领导的BFT系统的自适应基线得分选举

IF 5.6 2区计算机科学 Q1 COMPUTER SCIENCE, THEORY & METHODS

IEEE Transactions on Parallel and Distributed Systems Pub Date : 2025-03-22 DOI:10.1109/TPDS.2025.3572553

Xuyang Liu;Zijian Zhang;Zhen Li;Hao Yin;Meng Li;Jiamou Liu;Mauro Conti;Liehuang Zhu

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引用次数: 0

摘要

基于领导者的BFT系统面临着来自恶意领导者的潜在破坏和性能下降，目前的解决方案往往缺乏可扩展性或大大增加复杂性。在本文中，我们介绍了ABSE，一种基于自适应基线分数的选举方法，以减轻恶意领导者对基于领导者的BFT系统的负面影响。ABSE是完全本地化的，并建议根据进程对共识推进的贡献来累积分数，目的是在选举领导人时绕过不太可靠的参与者。我们提出了ABSE的正式处理方法，解决了主要的设计和实现挑战，定义了其通用组件和遵守规则，以确保全局一致性。我们还将ABSE应用于两个不同的BFT协议，证明了它的可扩展性和对协议复杂性的影响可以忽略不计。最后，通过构建系统原型并对其进行实验，我们证明了abse增强协议可以有效地最大限度地减少恶意领导造成的中断，同时产生最小的额外资源开销并保持基本性能。

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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ABSE: Adaptive Baseline Score-Based Election for Leader-Based BFT Systems

Leader-based BFT systems face potential disruption and performance degradation from malicious leaders, with current solutions often lacking scalability or greatly increasing complexity. In this paper, we introduce ABSE, an Adaptive Baseline Score-based Election approach to mitigate the negative impact of malicious leaders on leader-based BFT systems. ABSE is fully localized and proposes to accumulate scores for processes based on their contribution to consensus advancement, aiming to bypass less reliable participants when electing leaders. We present a formal treatment of ABSE, addressing the primary design and implementation challenges, defining its generic components and rules for adherence to ensure global consistency. We also apply ABSE to two different BFT protocols, demonstrating its scalability and negligible impact on protocol complexity. Finally, by building a system prototype and conducting experiments on it, we demonstrate that ABSE-enhanced protocols can effectively minimize the disruptions caused by malicious leaders, whilst incurring minimal additional resource overhead and maintaining base performance.

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来源期刊

IEEE Transactions on Parallel and Distributed Systems 工程技术-工程：电子与电气

CiteScore

11.00

自引率

9.40%

发文量

281

审稿时长

5.6 months

期刊介绍： IEEE Transactions on Parallel and Distributed Systems (TPDS) is published monthly. It publishes a range of papers, comments on previously published papers, and survey articles that deal with the parallel and distributed systems research areas of current importance to our readers. Particular areas of interest include, but are not limited to: a) Parallel and distributed algorithms, focusing on topics such as: models of computation; numerical, combinatorial, and data-intensive parallel algorithms, scalability of algorithms and data structures for parallel and distributed systems, communication and synchronization protocols, network algorithms, scheduling, and load balancing. b) Applications of parallel and distributed computing, including computational and data-enabled science and engineering, big data applications, parallel crowd sourcing, large-scale social network analysis, management of big data, cloud and grid computing, scientific and biomedical applications, mobile computing, and cyber-physical systems. c) Parallel and distributed architectures, including architectures for instruction-level and thread-level parallelism; design, analysis, implementation, fault resilience and performance measurements of multiple-processor systems; multicore processors, heterogeneous many-core systems; petascale and exascale systems designs; novel big data architectures; special purpose architectures, including graphics processors, signal processors, network processors, media accelerators, and other special purpose processors and accelerators; impact of technology on architecture; network and interconnect architectures; parallel I/O and storage systems; architecture of the memory hierarchy; power-efficient and green computing architectures; dependable architectures; and performance modeling and evaluation. d) Parallel and distributed software, including parallel and multicore programming languages and compilers, runtime systems, operating systems, Internet computing and web services, resource management including green computing, middleware for grids, clouds, and data centers, libraries, performance modeling and evaluation, parallel programming paradigms, and programming environments and tools.