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    政大機構典藏 > 資訊學院 > 資訊科學系 > 學位論文 >  Item 140.119/136487
    Please use this identifier to cite or link to this item: https://nccur.lib.nccu.edu.tw/handle/140.119/136487


    Title: Event Sourcing與CQRS架構下的服務穩定機制
    Improving Service Stability for Event Sourcing and CQRS Architecture
    Authors: 鄭宇軒
    CHENG, YU-HSUAN
    Contributors: 廖峻鋒
    Liao,Chun-Feng
    鄭宇軒
    CHENG,YU-HSUAN
    Keywords: 錯誤回復
    錯誤偵測
    命令查詢職責分離模式
    事件溯源
    Failure Recovery
    Failure Detection
    CQRS
    Event Sourcing
    Date: 2021
    Issue Date: 2021-08-04 15:40:38 (UTC+8)
    Abstract: 隨著雲端運算的興起,分散式系統的重要性逐漸受到重視,大量複雜的系統與服務逐漸成為企業的常態。而容器技術的普及,又為新一波軟體部署與管理方式帶來了前所未有的革命,其中以Docker和Kubernetes 等平台的出現,讓微服務的設計概念得以落實。微服務的設計思維不僅能夠降低系統中服務與服務之間的耦合性,也能夠達成跨程式語言的開發模式。傳統資料存取模式(增刪修改),在面對大量使用者同時寫入的情況下,經常造成單一失效及效能問題。使用命令與查詢責任分離模式 (CQRS, Command Query Responsibility Segregation) 與事件溯源 (ES, Event Sourcing)架構,由軟體層面增加了系統的可擴張性,然而這些機制在基礎設施層面上目前仍欠缺完整的錯誤偵測與回復功能,且面對複數使用者同時對資料庫進行改寫時,亦會遇到一致性的問題。本論文採用CQRS/Event Sourcing架構的系統,設計一個完整且自主的錯誤偵測與回復機制,亦可處理並行讀寫的問題,並透過實作與數據分析驗證此設計機制的可行性。
    As the Cloud computing raise rapidly, distributed system gradually attach great importance to a lot of software engineers around the world. Having a great range of complex business’s logic system and services become enterprise’s new normal condition. With the universal of container technology, the new wave of unprecedented revolution has spread into all kinds of software deployments and software managements. The appearance of Kubernetes and Docker platforms makes Microservice pattern have the chance to implement in enterprise’s business system. The design concept of Microservice pattern not only can reduce the coupling between service and service but also can allow user to develop system in multi-platform environment. In the traditional method for data access(CRUD), when a lot of users’ update data simultaneously, this will often cause single failure and low performance. Using Command Query Responsibility Segregation(CQRS) and Event Sourcing can enhance the scalability of system in software level. However, these mechanisms in infrastructure aspect still lack of complete failure detection and failure recovery. Additionally, when facing a huge amount of users update the database at the same time, will also encounter consistency problem. This essay will adopt the pattern of CQRS/Event Sourcing Architecture to design a complete failure detection and automatic failure recovery, this also can solve the problem of data access in parallel. We verify the availability of this system through implementation and data analysis.
    Reference: [1] C. Richardson, Microservices Patterns
    With examples in Java. Published 2017 by Manning Publications, October 2018.
    [2] M. T. Nygard, Release It!: Design and Deploy Production-Ready Software. Pragmatic Bookshelf, 2018.
    [3] Z. Long, "Improvement and implementation of a high performance CQRS architecture," in 2017 International Conference on Robots & Intelligent System (ICRIS), 2017: IEEE, pp. 170-173.
    [4] B. Meyer, Object-oriented software construction. 1997.
    [5] R. Martin, Agile Software Development, Principles, Patterns, and Practices. Prentice Hall, 2002.
    [6] G. Young, CQRS Documents. 2010.
    [7] M. Fowler. "Event Sourcing." https://martinfowler.com/eaaDev/EventSourcing.html (accessed.
    [8] M. T. Nygard, Release It!: Design and Deploy Production-Ready Software. 2007.
    [9] M. J. Fischer, N. A. Lynch, and M. S. Paterson, "Impossibility of distributed consensus with one faulty process," Journal of the ACM (JACM), vol. 32, no. 2, pp. 374-382, 1985.
    [10] S. Gilbert and N. Lynch, "Perspectives on the CAP Theorem," Computer, vol. 45, no. 2, pp. 30-36, 2012.
    [11] D. Ongaro and J. Ousterhout, "In search of an understandable consensus algorithm (extended version)," ed: Tech Report. May, 2014. http://ramcloud. stanford. edu/Raft. pdf, 2013.
    [12] M. Overeem, M. Spoor, and S. Jansen, "The dark side of event sourcing: Managing data conversion," in 2017 IEEE 24th International Conference on Software Analysis, Evolution and Reengineering (SANER), 2017: IEEE, pp. 193-204.
    [13] D. Meißner, B. Erb, and F. Kargl, "Performance Engineering in Distributed Event-sourced Systems," presented at the Proceedings of the 12th ACM International Conference on Distributed and Event-based Systems, Hamilton, New Zealand, 2018. [Online]. Available: https://doi.org/10.1145/3210284.3219770.
    [14] J. Rybicki, "Application of Event Sourcing in Research Data Management," 2018 : The Fourth International Conference on Big Data, Small Data, Linked Data and Open Data, pp. 22-26, 2018.
    [15] S. Han and J.-i. Choi, "V2X-Based Event Acquisition and Reproduction Architecture with Event-Sourcing," in Proceedings of 2020 the 6th International Conference on Computing and Data Engineering, 2020, pp. 164-167.
    [16] Y. Zhong, W. Li, and J. Wang, "Using Event Sourcing and CQRS to Build a High Performance Point Trading System," in Proceedings of the 2019 5th International Conference on E-Business and Applications, 2019, pp. 16-19.
    [17] A. Bellemare, Building Event-Driven Microservices: Leveraging Organizational Data at Scale. O`Reilly, 2020-07.
    [18] M. Barnkob and J. Krukow, "Event Sourcing and Command Query Responsibility Segregation Reliability Properties," Computer Science University of Aarhus.—2018.—C, pp. 21-39, 2018.
    Description: 碩士
    國立政治大學
    資訊科學系
    108753121
    Source URI: http://thesis.lib.nccu.edu.tw/record/#G0108753121
    Data Type: thesis
    DOI: 10.6814/NCCU202101070
    Appears in Collections:[資訊科學系] 學位論文

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