Type-Driven Verification of Non-functional Properties
Résumé
Energy, Time and Security (ETS) properties of programs are becoming increasingly prioritised by developers, especially where applications are running on ETS sensitive systems, such as embedded devices or the Internet of Things. Moreover, developers currently
lack tools and language properties to allow them to reason about ETS. In this paper, we introduce a new contract specification framework, called Drive, which allows a developer to reason about ETS or other non-functional properties of their programs as first-class
properties of the language. Furthermore, we introduce a contract specification language, allowing developers to reason about these
first-class ETS properties by expressing contracts that are proved correct by an underlying formal type system. Finally, we show
our contract framework over a number of representable examples, demonstrating provable worst-case ETS properties.
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