TupleChain:具有多方面可扩展性的 OpenFlow 表快速查找功能

Yanbiao Li, Neng Ren, Xin Wang, Yuxuan Chen, Xinyi Zhang, Lingbo Guo, Gaogang Xie
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引用次数: 0

摘要

OpenFlow 交换机是软件定义网络的基本组件,其关键操作是查找流量表,以确定进入的数据包属于哪个流量。这需要解决与传统数据包分类相同的多字段规则匹配问题,但面临更严峻的可扩展性挑战。快速在线更新的需求使大多数现有解决方案无法满足,而其他解决方案仍然缺乏可扩展性,无法满足大型数据集或大量字段的规则匹配要求。在这项工作中,我们提出了具有多方面可扩展性的快速 OpenFlow 表查找 TupleChain。我们根据规则的掩码对规则进行分组,每个规则都使用哈希表进行维护,并探索规则组之间的联系,从而跳过不必要的哈希探针,实现快速搜索。我们通过理论分析和广泛的实验表明,所提出的方案不仅具有有竞争力的计算复杂性,而且具有可扩展性,在搜索和更新方面都能实现高性能。它可以每秒处理数百万个数据包,同时每秒处理数百万次在线更新,而且无论处理的是包含 1 千万条规则的大型流表,还是每个条目都有多达 100 个匹配字段的流表,其查找速度都保持在同一水平。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
TupleChain: Fast Lookup of OpenFlow Table with Multifaceted Scalability
OpenFlow switches are fundamental components of software defined networking, where the key operation is to look up flow tables to determine which flow an incoming packet belongs to. This needs to address the same multi-field rule-matching problem as legacy packet classification, but faces more serious scalability challenges. The demand of fast on-line updates makes most existing solutions unfit, while the rest still lacks the scalability to either large data sets or large number of fields to match for a rule. In this work, we propose TupleChain for fast OpenFlow table lookup with multifaceted scalability. We group rules based on their masks, each being maintained with a hash table, and explore the connections among rule groups to skip unnecessary hash probes for fast search. We show via theoretical analysis and extensive experiments that the proposed scheme not only has competitive computing complexity, but is also scalable and can achieve high performance in both search and update. It can process multiple millions of packets per second, while dealing with millions of on-line updates per second at the same time, and its lookup speed maintains at the same level no mater it handles a large flow table with 10 million rules or a flow table with every entry having as many as 100 match fields.
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