Toward Consistent State Management of Adaptive Programmable Networks Based on P4

Proceedings of the ACM SIGCOMM 2019 Workshop on Networking for Emerging Applications and Technologies Pub Date : 2019-08-14 DOI:10.1145/3341558.3342202

Mu He, Andreas Blenk, W. Kellerer, S. Schmid

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引用次数: 11

Abstract

Emerging network applications (augmented reality, industrial Internet, etc.) introduce stringent new requirements on the performance, dependability, and adaptability of communication networks. Programmable data planes (e.g., based on P4) provide new opportunities to meet these requirements, by enabling adaptive network reconfigurations. However, ensuring consistency during such reconfigurations remains challenging. This paper makes a first step toward a more automated state management of adaptive data planes. In particular, we present an efficient P4 state management framework, P4State, which allows to quickly identify the network states from the source code that are critical for data plane reconfigurations (e.g., due to scaling, failure recovery). We report on first promising evaluation results of our prototype implementation in terms of correctness and efficiency, also considering two case studies using HULA (load balancing in data center) and HashPipe (line-rate measurement in data plane).

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基于P4的自适应可编程网络一致性状态管理研究

新兴的网络应用(增强现实、工业互联网等)对通信网络的性能、可靠性和适应性提出了严格的新要求。可编程数据平面(例如，基于P4)通过启用自适应网络重新配置，为满足这些需求提供了新的机会。然而，在这种重新配置过程中确保一致性仍然具有挑战性。本文为自适应数据平面更自动化的状态管理迈出了第一步。特别是，我们提出了一个高效的P4状态管理框架P4State，它允许从源代码中快速识别对数据平面重新配置(例如，由于缩放、故障恢复)至关重要的网络状态。我们报告了我们的原型实现在正确性和效率方面的第一个有希望的评估结果，还考虑了使用HULA(数据中心负载平衡)和HashPipe(数据平面线率测量)的两个案例研究。

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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Proceedings of the ACM SIGCOMM 2019 Workshop on Networking for Emerging Applications and Technologies

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