LC-Raft：一种基于历史日志计算值的一致性算法

计算机与现代化 ›› 2020, Vol. 0 ›› Issue (12): 1-8.

• 算法设计与分析 • 下一篇

LC-Raft：一种基于历史日志计算值的一致性算法

(1.中国科学院声学研究所国家网络新媒体工程技术研究中心,北京100190;2.中国科学院大学,北京100049)

出版日期:2021-01-07 发布日期:2021-01-07
作者简介:马博韬(1992—),男,福建厦门人,博士研究生,研究方向：容器虚拟化，分布式系统，智能调度优化，E-mail: mabt@dsp.ac.cn; 倪宏(1964—),男,研究员,研究方向：宽带多媒体通信，网络新媒体，嵌入式系统及中间件，E-mail: nih@dsp.ac.cn; 通信作者：朱小勇(1982—),男,研究员,博士,研究方向：嵌入式系统，多媒体，E-mail: zhuxy@dsp.ac.cn。
基金资助:
中国科学院战略性科技先导专项课题(XDC02070100)

LC-Raft: A Consensus Algorithm Based on Calculated Value of Historical Log

(1. National Network New Media Engineering Research Center, Institute of Acoustics, Chinese Academy of Sciences, Beijing 100190, China;
2. University of Chinese Academy of Sciences, Beijing 100049, China)

Online:2021-01-07 Published:2021-01-07

摘要/Abstract

摘要： Raft一致性算法由于其原理清晰、易于实现等优点，已得到了行业的广泛应用。然而，作为一种简化版的类Paxos方案，Raft算法牺牲了部分性能。在不同的具体应用场景中，可根据实际应用，对其做出相应改进。对于由稳定性不佳的设备构成的分布式系统，在工作周期内将经历多次选举管理节点过程。在每次选举过程中，继续使用Raft算法进行选举操作将存在小概率经历多次超时选举。为了减少极端情况下选举过程的耗时，本文基于历史日志计算值设计一种改进版一致性算法LC-Raft。通过对固定时段的历史日志故障次数统计，构建一套节点稳定性评价指标，并修改选举流程，实现在系统网络通畅情况下最多经历一次计时器时间完成管理节点选举。同时，基于Docker容器引擎，设计一系列模拟实验实现各种节点规模的选举过程，通过多次实验的统计值验证本算法在选举过程中的良好性能。

关键词: 一致性算法, Raft, 选举过程, 超时选举, 历史日志

Abstract: Raft consensus algorithm has been widely used in the industry because of its clear principle and easy implementation. However, as a simplified version of the Paxos-like solution, the Raft algorithm sacrifices part of its performance. In different specific application scenarios, some aspects can be improved according to the actual application. For a distributed system composed by devices with poor stability, it will go through multiple election processes in the working cycle. In each election process, there is a small probability that the election operation based on Raft algorithm will experience multiple timeout elections. In order to reduce the time-consuming of the election process in extreme cases, this paper designs an improved version of the consensus algorithm LC-Raft. By counting the number of failures in the history log, a set of node stability evaluation indicators are constructed, and the election process is modified. Based on these above steps, the algorithm is able to realize that the election process can be completed before timeout when the system network is unblocked. At the same time, based on the Docker container engine, a series of simulation experiments are designed to realize the election process of different node sizes. Multiple statistical data can verify the good performance of the algorithm in the election process.

Key words: consensus algorithm, Raft, election process, timeout election, history log

马博韬, 倪宏, 朱小勇. LC-Raft：一种基于历史日志计算值的一致性算法[J]. 计算机与现代化, 2020, 0(12): 1-8.

MA Bo-tao, NI Hong, ZHU Xiao-yong. LC-Raft: A Consensus Algorithm Based on Calculated Value of Historical Log[J]. Computer and Modernization, 2020, 0(12): 1-8.

参考文献

［1］ ONGARO D, OUSTERHOUT J. In search of an understandable consensus algorithm［C］// Proceedings of the 2014 USENIX Annual Technical Conference. 2014:305-319.
［2］ LAMPORT L. Paxos made simple［J］. ACM SIGACT News, 2001,32(4):18-25.
［3］ LAMPORT L. The part-time parliament［M］// Concurrency: The Works of Leslie Lamport. ACM Books, 2019:277-317.
［4］盛益强. 移动边缘智慧使能组网的挑战与机遇［J］. 网络新媒体技术, 2018,7(4):1-4.
［5］王志科. 基于Raft共识算法的分布式系统一致性问题研究［D］. 西安:西安电子科技大学, 2019.
［6］ ONGARO D, OUSTERHOUT J. In search of an understandable consensus algorithm (extended version)［DB/OL］. (2014-05-20)［2020-02-20］. https://web.stanford.edu/~ouster/cgi-bin/papers/raft-extended.pdf.
［7］ HOWARD H. ARC: Analysis of Raft Consensus［R］. Computer Laboratory, University of Cambridge, 2014.
［8］ HOWARD H, SCHWARZKOPF M, MADHAVAPEDDY A, et al. Raft refloated: Do we have consensus?［J］. ACM SIGOPS Operating Systems Review, 2015,49(1):12-21.
［9］ DUM X, MA X F, ZHANG Z, et al. A review on consensus algorithm of blockchain［C］// Proceedings of the 2017 IEEE International Conference on Systems, Man, and Cybernetics. 2017:2567-2572.
［10］COPELAND C, ZHONG H X. Tangaroa: A Byzantine Fault Tolerant Raft［DB/OL］. ［2020-02-20］. http://www.scs.stanford.edu/14au-cs244b/labs/projects/copeland_zhong.pdf.
［11］崔聪祎. 分布式块文件系统元数据管理子系统的设计与实现［D］. 成都:电子科技大学, 2018.
［12］QUIANE-RUIZ J A, PINKEL C, SCHAD J, et al. RAFTing MapReduce: Fast recovery on the RAFT［C］// Proceedings of the 2011 IEEE 27th International Conference on Data Engineering. 2011:589-600.
［13］ZHANG Y, HAN B, ZHANG Z L, et al. Network-assisted Raft consensus algorithm［C］// Proceedings of the 2017 SIGCOMM Posters and Demos. 2017:94-96.
［14］HOWARD H, CROWCROFT J. Coracle: Evaluating consensus at the Internet edge［J］. ACM SIGCOMM Computer Communication Review, 2015,45(4):85-86.
［15］NAKAGAWA T, HAYASHIBARA N. Resource management for Raft consensus protocol［J］. International Journal of Space-Based and Situated Computing, 2018,8(2):80-87.
［16］ZHANG Y, RAMADAN E, MEKKY H, et al. When Raft meets SDN: How to elect a leader and reach consensus in an unruly network［C］// Proceedings of the 1st Asia-Pacific Workshop on Networking. 2017:1-7.
［17］ALUR R, HENZINGER T A, KUPFERMAN O. Alternating-time temporal logic［J］. Journal of the ACM, 2002,49(5):672-713.
［18］郭进伟. 高可用事务处理系统的并发控制技术［D］. 上海:华东师范大学, 2019.
［19］VMware. Resource management with VMware DRS［EB/OL］. (2006-08-20)［2020-02-20］. https://www.vmware.com/techpapers/2006/resource-management-with-vmware-drs-401.html.
［20］WALDSPURGER C A. Memory resource management in VMware ESX server［C］// Proceedings of the 5th Symposium on Operating Systems Design and Implementation. 2002:181-194.
［21］GULATI A, HOLLER A, JI M W, et al. VMware distributed resource management: Design, implementation, and lessons learned［J］. VMware Technical Journal, 2012,1(1):45-64.
［22］MERKEL D. Docker: Lightweight Linux containers for consistent development and deployment［J］. Linux Journal, 2014,2014(239):76-90.
［23］CITO J, SCHERMANN G, WITTERN J E, et al. An empirical analysis of the Docker container ecosystem on GitHub［C］// Proceedings of the 14th International Conference on Mining Software Repositories. 2017:323-333.

[1]	管金平, 杨晋吉, 杨成龙. 基于概率模型的Raft协议形式化验证[J]. 计算机与现代化, 2023, 0(09): 77-81.
[2]	张昊, 路红英. 面向边缘计算应用的拜占庭式容错分布式一致性算法[J]. 计算机与现代化, 2022, 0(12): 33-41.

LC-Raft：一种基于历史日志计算值的一致性算法

LC-Raft: A Consensus Algorithm Based on Calculated Value of Historical Log

PDF (PC)

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 2

编辑推荐

Metrics

本文评价