Contracts-based Control Integration into Software Systems

Abstract : Among the different techniques that are used to design self-adaptive software systems, control theory allows one to design an adaptation policy whose properties, such as stability and accuracy, can be formally guaranteed under certain assumptions. However, in the case of software systems, the integration of these controllers to build complete feedback control loops is manual. More importantly it requires an extensive handcrafting of non-trivial implementation code. This may lead to inconsistencies and instabilities as no systematic and automated assurance can be obtained on the fact that the initial assumptions for the designed controller still hold in the resulting system. In this chapter, we rely on the principles of design-by-contract to ensure the correction and robustness of a self-adaptive software system built using feedback control loops. Our solution raises the level of abstraction upon which the loops are specified by allowing one to define and automatically verify system-level properties organized in contracts. They cover behavioral, structural and temporal architectural constraints as well as explicit interaction. These contracts are complemented by a first-class support for systematic fault handling. As a result, assumptions about the system operation conditions become more explicit and verifiable in a systematic way.
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Submitted on : Friday, May 10, 2019 - 9:41:23 AM
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  • HAL Id : hal-01257205, version 2

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Filip Křikava, Philippe Collet, Romain Rouvoy, Lionel Seinturier. Contracts-based Control Integration into Software Systems. Rogerio de Lemos; David Garlan; Carlo Ghezzi; Holger Giese. Software Engineering for Self-Adaptive Systems 3: Assurances, 9640, Springer, 2017, LNCS, ⟨http://www.dagstuhl.de/en/program/calendar/semhp/?semnr=13511⟩. ⟨hal-01257205v2⟩

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