741 research outputs found
An algebraic basis for specifying and enforcing access control in security systems
Security services in a multi-user environment are often based on access control mechanisms. Static aspects of an access control policy can be formalised using abstract algebraic models. We integrate these static aspects into a dynamic framework considering requesting access to resources as a process aiming at the prevention of access control violations when a program is executed. We use another algebraic technique, monads, as a meta-language to integrate access control operations into a functional
programming language. The integration of monads and concepts from a denotational model for process algebras provides a framework for programming of access control in security systems
Modularity in Meta-Languages
A meta-language for semantics has a high degree of modularitywhen descriptions of individual language constructs can be formulated independently using it, and do not require reformulation when new constructs are added to the described language. The quest for modularity in semantic meta-languages has been going on for more than two decades. Here, most of the main meta-languages for operational, denotational, and hybrid styles of semantics are compared regarding their modularity. A simple bench-mark is used: describing the semantics of a pure functional language, then extending the described language with references, exceptions, and concurrency constructs. For each style of semantics, at least one of the considered meta-languages appears to provide a high degree of modularity
Theorem proving support in programming language semantics
We describe several views of the semantics of a simple programming language
as formal documents in the calculus of inductive constructions that can be
verified by the Coq proof system. Covered aspects are natural semantics,
denotational semantics, axiomatic semantics, and abstract interpretation.
Descriptions as recursive functions are also provided whenever suitable, thus
yielding a a verification condition generator and a static analyser that can be
run inside the theorem prover for use in reflective proofs. Extraction of an
interpreter from the denotational semantics is also described. All different
aspects are formally proved sound with respect to the natural semantics
specification.Comment: Propos\'e pour publication dans l'ouvrage \`a la m\'emoire de Gilles
Kah
Abstract State Machines 1988-1998: Commented ASM Bibliography
An annotated bibliography of papers which deal with or use Abstract State
Machines (ASMs), as of January 1998.Comment: Also maintained as a BibTeX file at http://www.eecs.umich.edu/gasm
Pluggable AOP: Designing Aspect Mechanisms for Third-party Composition
Studies of Aspect-Oriented Programming (AOP) usually focus on a language in
which a specific aspect extension is integrated with a base language. Languages
specified in this manner have a fixed, non-extensible AOP functionality. In
this paper we consider the more general case of integrating a base language
with a set of domain specific third-party aspect extensions for that language.
We present a general mixin-based method for implementing aspect extensions in
such a way that multiple, independently developed, dynamic aspect extensions
can be subject to third-party composition and work collaboratively
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