Towards Runtime Verification of Programmable Switches

April 22, 2020 Β· Declared Dead Β· πŸ› arXiv.org

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Authors Apoorv Shukla, Kevin Hudemann, Zsolt VΓ‘gi, Lily HΓΌgerich, Georgios Smaragdakis, Stefan Schmid, Artur Hecker, Anja Feldmann arXiv ID 2004.10887 Category cs.SE: Software Engineering Cross-listed cs.LG, cs.NI Citations 3 Venue arXiv.org Last Checked 4 months ago
Abstract
Is it possible to patch software bugs in P4 programs without human involvement? We show that this is partially possible in many cases due to advances in software testing and the structure of P4 programs. Our insight is that runtime verification can detect bugs, even those that are not detected at compile-time, with machine learning-guided fuzzing. This enables a more automated and real-time localization of bugs in P4 programs using software testing techniques like Tarantula. Once the bug in a P4 program is localized, the faulty code can be patched due to the programmable nature of P4. In addition, platform-dependent bugs can be detected. From P4_14 to P4_16 (latest version), our observation is that as the programmable blocks increase, the patchability of P4 programs increases accordingly. To this end, we design, develop, and evaluate P6 that (a) detects, (b) localizes, and (c) patches bugs in P4 programs with minimal human interaction. P6 tests P4 switch non-intrusively, i.e., requires no modification to the P4 program for detecting and localizing bugs. We used a P6 prototype to detect and patch seven existing bugs in eight publicly available P4 application programs deployed on two different switch platforms: behavioral model (bmv2) and Tofino. Our evaluation shows that P6 significantly outperforms bug detection baselines while generating fewer packets and patches bugs in P4 programs such as switch.p4 without triggering any regressions.
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