Lucid: A Language for Control in the Data Plane
Abstract
Programmable switch hardware makes it possible to move fine-grained control logic inside the network data plane, improving performance for a wide range of applications. However, applications with integrated control are inherently hard to write in existing data-plane programming languages such as P4. This paper presents Lucid, a language that raises the level of abstraction for putting control functionality in the data plane. Lucid introduces abstractions that make it easy to write sophisticated data-plane applications with interleaved packet-handling and control logic, specialized type and syntax systems that prevent programmer bugs related to data-plane state, and an open-sourced compiler that translates Lucid programs into P4 optimized for the Intel Tofino. These features make Lucid general and easy to use, as we demonstrate by writing a suite of ten different data-plane applications in Lucid. Working prototypes take well under an hour to write, even for a programmer without prior Tofino experience, have around 10x fewer lines of code compared to P4, and compile efficiently to real hardware. In a stateful firewall written in Lucid, we find that moving control from a switch's CPU to its data-plane processor using Lucid reduces the latency of performance-sensitive operations by over 300X.
Cite
@article{arxiv.2107.02244,
title = {Lucid: A Language for Control in the Data Plane},
author = {John Sonchack and Devon Loehr and Jennifer Rexford and David Walker},
journal= {arXiv preprint arXiv:2107.02244},
year = {2021}
}
Comments
12 pages plus 5 pages references/appendix. 17 figures. To appear in SIGCOMM 2021