Challenges in service discovery for microservices deployed in a Kubernetes cluster – a case stud

Pub Date : 2023-01-01 DOI:10.36244/icj.2023.5.11

Baasanjargal Erdenebat, Bayarjargal Bud, Tamás Kozsik

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引用次数: 1

Abstract

With Kubernetes emerging as one of the most popular infrastructures in the cloud-native era, the utilization of containerization and tools alongside Kubernetes is steadily gaining traction. The main goal of this paper is to evaluate the service discovery mechanisms and DNS management (CoreDNS) of Kubernetes, and to present a general study of an experiment on service discovery challenges. In large scale Kubernetes clusters, running pods, services, requests, and workloads can be substantial. The increased number of HTTP-requests often result in resource utilization concerns, e.g., spikes of errors [24], [25]. This paper investigates potential optimization strategies for enhancing the performance and scalability of CoreDNS in Kubernetes. We propose a solution to address the concerns related to CoreDNS and provide a detailed explanation of how our implementation enhances service discovery functionality. Experimental results in a real-world case show that our solution for the CoreDNS ensures consistency of the workload. Compared with the default CoreDNS configuration, our customized approach achieves better performance in terms of number of errors for requests, average latency of DNS requests, and resource usage rate.

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部署在Kubernetes集群中的微服务的服务发现挑战——案例研究

随着Kubernetes成为云原生时代最流行的基础设施之一，容器化和Kubernetes工具的使用正在稳步增长。本文的主要目标是评估Kubernetes的服务发现机制和DNS管理(CoreDNS)，并对服务发现挑战的实验进行一般性研究。在大规模Kubernetes集群中，运行的pod、服务、请求和工作负载可能非常庞大。http请求数量的增加通常会导致资源利用问题，例如，错误峰值[24]，[25]。本文研究了在Kubernetes中提高CoreDNS性能和可扩展性的潜在优化策略。我们提出了一个解决方案来解决与CoreDNS相关的问题，并详细解释了我们的实现如何增强服务发现功能。在实际案例中的实验结果表明，我们的CoreDNS解决方案确保了工作负载的一致性。与默认的CoreDNS配置相比，我们的定制方法在请求错误数、DNS请求平均延迟和资源利用率方面实现了更好的性能。

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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