Verification of Mondex Electronic Purses with KIV: From a Security Protocol to Verified Code
FM '08 Proceedings of the 15th international symposium on Formal Methods
A Concept-Driven Construction of the Mondex Protocol Using Three Refinements
ABZ '08 Proceedings of the 1st international conference on Abstract State Machines, B and Z
Generating formal specifications for security-critical applications - A model-driven approach
IWSESS '09 Proceedings of the 2009 ICSE Workshop on Software Engineering for Secure Systems
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Developing security-critical applications is very difficult and the past has shown that many applications turned out to be erroneous after years of usage. For this reason it is desirable to have a sound methodology for developing security-critical E-Commerce applications. We present an approach to model these applications with the unified modeling language (UML) [1] extended by a UML profile to tailor our models to security applications. Our intent is to (semi-) automatically generate a formal specification suitable for verification as well as an implementation from the model. Therefore we offer a development method seamlessly integrating semi-formal and formal methods as well as the implementation. This is a significant advantage compared to other approaches not dealing with all aspects from abstract models down to code. Based on this approach we can prove security properties on the abstract protocol level as well as the correctness of the protocol implementation in Java with respect to the formal model using the refinement approach. In this paper we concentrate on the modeling with UML and some details regarding the transformation of this model into the formal specification. We illustrate our approach on an electronic payment system called Mondex [10]. Mondex has become famous for being the target of the first ITSEC evaluation of the highest level E6 which requires formal specification and verification.