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Verifying Absence of ∞ Loops in Parameterized Protocols

<p>The complex behavior of computer systems offers many challenges for <i>formal verification</i>. The analysis quickly becomes difficult as the number of participating processes increases.</p><p>A <i>parameterized system</i> is a family of systems parameterized on a number <i>n</i>, typically representing the number of participating processes. The <i>uniform verification problem</i> — to check whether a property holds for each instance — is an infinite-state problem. The automated analysis of parameterized and infinite-state systems has been the subject of research over the last 15–20 years. Much of the work has focused on safety properties. Progress in verification of liveness properties has been slow, as it is more difficult in general.</p><p>In this thesis, we consider verification of parameterized and infinite-state systems, with an emphasis on liveness, in the verification framework called <i>regular model checking (RMC)</i>. In RMC, states are represented as words, sets of states as regular expressions, and the transition relation as a regular relation.</p><p>We extend the automata-theoretic approach to RMC. We define a <i>specification logic</i> sufficiently strong to specify systems representable using RMC, and linear temporal logic properties of such systems, and provide an automatic translation from a specification into an analyzable model.</p><p>We develop <i>acceleration techniques</i> for RMC which allow more uniform and automatic verification than before, with greater power. Using these techniques, we succeed to verify safety and liveness properties of parameterized protocols from the literature.</p><p>We present a novel <i>reachability based</i> verification method for verification of liveness, in a general setting. We implement the method for RMC, with promising results.</p><p>Finally, we develop a framework for the verification of dynamic networks based on graph transformation, which generalizes the systems representable in RMC. In this framework we verify the latest version of the DYMO routing protocol, currently being considered for standardization by the IETF.</p>

Identiferoai:union.ndltd.org:UPSALLA/oai:DiVA.org:uu-8605
Date January 2008
CreatorsSaksena, Mayank
PublisherUppsala University, Department of Information Technology, Uppsala : Acta Universitatis Upsaliensis
Source SetsDiVA Archive at Upsalla University
LanguageEnglish
Detected LanguageEnglish
TypeDoctoral thesis, comprehensive summary, text
RelationDigital Comprehensive Summaries of Uppsala Dissertations from the Faculty of Science and Technology, 1651-6214 ; 419

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