Litcius/Paper detail

TeSSLa – An Ecosystem for Runtime Verification

Hannes Kallwies, Martin Leucker, Malte Schmitz, Albert Schulz, Daniel Thoma, Alexander Weiß

2022Lecture notes in computer science24 citationsDOIOpen Access PDF

Abstract

Abstract Runtime verification deals with checking correctness properties on the runs of a system under scrutiny. To achieve this, it addresses a variety of sub-problems related to monitoring of systems: These range from the appropriate design of a specification language over efficient monitor generation as hardware and software monitors to solutions for instrumenting the monitored system, preferably in a non-intrusive way. Further aspects play a role for the usability of a runtime verification toolchain, e.g. availability, sufficient documentation and the existence of a developer community. In this paper we present the TeSSLa ecosystem, a runtime verification framework built around the stream runtime verification language TeSSLa: It provides a rich toolchain of mostly freely available compilers for monitor generation on different hardware and software backends, as well as instrumentation mechanisms for various runtime verification requirements. Additionally, we highlight how the online resources and supporting tools of the community-driven project enable the productive usage of stream runtime verification.

Topics & Concepts

ToolchainRuntime verificationComputer scienceSoftware verificationFunctional verificationCorrectnessCompilerIntelligent verificationVerificationFormal verificationProgramming languageSoftware engineeringModel checkingUsabilityEmbedded systemDocumentationSoftwareOperating systemSoftware systemSoftware constructionAdvanced Software Engineering MethodologiesFormal Methods in VerificationReal-Time Systems Scheduling