A Model-Based Approach to Testing Software for Critical Behavior and Properties
Résumé
To integrate the theoretical concepts of composition
and refinement with the engineering notions of software models and
components, the Naval Research Laboratory has formulated a set of
practical composition-based methods, with associated modeling and proof
techniques, for developing critical software systems. The general
approach is to develop a set of software components and to use various
forms of composition to combine the components in a manner that
guarantees properties of the composite system. An assumption underlying
this research is that much of the software code can be generated
automatically from models using automatic code generators. A problem is
that the code generated by such tools still requires testing to ensure
that the software delivers its critical services correctly and that the
software behavior satisfies critical properties, such as safety
properties. The need for testing arises in part because only some of the
required code is generated automatically: Stubs are provided for code
that cannot be generated automatically (for example, certain
algorithms), and such code must be constructed manually. This talk
describes model-based methods for developing software, and how the
models and properties developed using these methods can be used as the
basis for automatically constructing tests for evaluating the
correctness of software code. These tests are designed to satisfy
various coverage criteria, such as branch coverage. An example is
presented showing how our model-based method can be used to construct a
suite of tests for evaluating the software code controlling the behavior
of an autonomous system.
Domaines
Bibliothèque électronique [cs.DL]Origine | Fichiers produits par l'(les) auteur(s) |
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