在基于openflow的网络中,预置本地保护,处理双故障

P. Thorat, Seil Jeon, S. M. Raza, Hyunseung Choo
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引用次数: 6

摘要

保证高可用性和高可靠性是运营运营商级网络(CGN)的基本要求。软件定义网络(SDN)有望在改善网络管理的同时解决这一需求。在提高sdn支持的中广核可靠性的过程中,面临的一个具有挑战性的问题是如何以最小的努力实现快速恢复。确定故障转移范围有两种众所周知的方法:端到端(全局)绕行和局部绕行。特别是,局部绕行方法提供了一种实现更快恢复的有效手段,因为它使用预先配置的替代路径在故障网络组件周围局部绕行中断流。但是,它需要配置每个交换机数千个流条目。为了解决技术挑战,我们提出了一种容错转发表设计(FFTD),它使用组条目对流进行分组,并使用标记机制对流进行聚合,以便从交换机或链路的双重故障中进行可扩展和快速恢复,而不会使控制器和流表的内存负担过重。广泛的仿真结果表明,所提出的FFTD满足CGN 50 ms的恢复要求。此外,它减少了替代路径流存储要求高达99%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Pre-provisioning of local protection for handling dual-failures in OpenFlow-based networks
An essential requirement in operating a carriergrade network (CGN) is ensuring the high availability and reliability. Software-defined networking (SDN) is expected to address such requirement while improving the network management. One challenging issue faced in the process of enhancing the reliability of SDN-enabled CGN is how to achieve rapid recovery with minimal effort. There are two well-known approaches to determine the failover scope: end-to-end (global) detouring and local detouring. Particularly, the local detouring approach provides an efficient means to achieve faster recovery, as it locally detours the disrupted flows around the failed network components using a preconfigured alternative path. However, it requires thousands of flow entries per switch to be configured. To address the technical challenges, we propose a fault-tolerant forwarding table design (FFTD), which groups the flows using group entries and aggregates the flows using a tagging mechanism for scalable and rapid recovery from the dual-failures of switches or links without overburdening the controller and the flow table's memory. Our extensive emulation results reveal that the proposed FFTD satisfies the CGN's 50 ms recovery requirement. Additionally, it reduces the alternate path flow storage requirement by up to 99%.
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