David E. Rydeheard scite author profile

Abstract. Runtime verification is the process of checking a property on a trace of events produced by the execution of a computational system. Runtime verification techniques have recently focused on parametric specifications where events take data values as parameters. These techniques exist on a spectrum inhabited by both efficient and expressive techniques. These characteristics are usually shown to be conflicting -in state-of-the-art solutions, efficiency is obtained at the cost of loss of expressiveness and vice-versa. To seek a solution to this conflict we explore a new point on the spectrum by defining an alternative runtime verification approach. We introduce a new formalism for concisely capturing expressive specifications with parameters. Our technique is more expressive than the currently most efficient techniques while at the same time allowing for optimizations.

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Rule Systems for Run-time Monitoring: from EAGLE to RULER

Barringer¹,

Rydeheard²,

Havelund³

2008

Journal of Logic and Computation

149

136

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In , Vol. 2937, EAGLE was introduced as a general purpose rule-based temporal logic for specifying run-time monitors. A novel interpretative trace-checking scheme via stepwise transformation of an EAGLE monitoring formula was defined and implemented. However, even though EAGLE presents an elegant formalism for the expression of complex trace properties, EAGLE's interpretation scheme is complex and appears difficult to implement efficiently. In this article, we introduce RULER, a primitive conditional rule-based system, which has a simple and easily implemented algorithm for effective run-time checking, and into which one can compile a wide range of temporal logics and other specification formalisms used for run-time verification. As a formal demonstration, we provide a translation scheme for linear-time propositional temporal logic with a proof of translation correctness. We then introduce a parameterized version of RULER, in which rule names may have rule-expression or data parameters, which then coincides with the same expressivity as EAGLE with data arguments. RULER with just rule-expression parameters extend the expressiveness of RULER strictly beyond the class of context-free languages. For the language classes expressible in propositional RULER , the addition of rule-expression and data parameters enables more compact translations. Finally, we outline a few simple syntactic extensions of 'core' RULER that can lead to further conciseness of specification but still enabling easy and efficient implementation.

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MarQ: Monitoring at Runtime with QEA

Reger

Cruz

Rydeheard

2015

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Abstract. Runtime monitoring is the process of checking whether an execution trace of a running system satisfies a given specification. For this to be effective, monitors which run trace-checking algorithms must be efficient so that they introduce minimal computational overhead. We present the MARQ tool for monitoring properties expressed as Quantified Event Automata. This formalism generalises previous automata-based specification methods. MARQ extends the established parametric trace slicing technique and incorporates existing techniques for indexing and garbage collection as well as a new technique for optimising runtime monitoring: structural specialisations where monitors are generated based on structural characteristics of the monitored property. MARQ recently came top in two tracks in the 1st international Runtime Verification competition, showing that MARQ is one of the most efficient existing monitoring tools for both offline monitoring of trace logs and online monitoring of running systems.

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Rule Systems for Run-Time Monitoring: From Eagle to RuleR

Barringer

Rydeheard

Havelund

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A bi-intuitionistic modal logic: Foundations and automation

Stell

Schmidt

Rydeheard

2016

Journal of Logical and Algebraic Methods in Programming

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