| Bibliography | Suwimonteerabuth, Dejvuth; Schwoon, Stefan; Esparza, Javier: Efficient Algorithms for Alternating Pushdown Systems: Application to Certificate Chain Discovery with Threshold Subjects.
University of Stuttgart, Faculty of Computer Science, Electrical Engineering, and Information Technology, Technical Report Computer Science No. 2006/09.
21 pages, english.
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| CR-Schema | D.4.6 (Operating Systems Security and Protection)
F.1.1 (Models of Computation)
F.1.2 (Modes of Computation)
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| Keywords | Authorization SPKI/SDSI Pushdown Systems Alternation |
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| Abstract | Motivated by recent applications of pushdown systems to computer security problems, we present an efficient algorithm for the reachability problem of alternating pushdown systems. Although the algorithm is exponential, a careful analysis reveals that the exponent is usually small in typical applications. We show that the algorithm can be used to compute winning regions in pushdown games. In a second contribution, we observe that the algorithm runs in polynomial time for a certain subproblem, and show that the computation of certificate chains with threshold certificates in the SPKI/SDSI authorization framework can be reduced to this subproblem. We present a detailed complexity analysis of the algorithm and its application, and report on experimental results obtained with a prototype implementation.
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Full text and
other links | PostScript (495430 Bytes)
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| Contact | suwimodh@fmi.uni-stuttgart.de |
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| Department(s) | University of Stuttgart, Institute of Formal Methods in Computer Science, Software Reliability and Security
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| Project(s) | DFG-Projekt Älgorithms for Software Model Checking" SFB 627 Nexus, Teilprojekt A6
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| Entry date | December 13, 2006 |
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