Scalable and Effective Test Generation for Role-Based Access Control Systems
Conformance testing procedures for generating tests from the finite state model representation of Role-Based Access Control (RBAC) policies are proposed and evaluated. A test suite generated using one of these procedures has excellent fault detection ability but is astronomically large. Two approaches to reduce the size of the generated test suite were investigated. One is based on a set of six heuristics and the other directly generates a test suite from the finite state model using random selection of paths in the policy model. Empirical studies revealed that the second approach to test suite generation, combined with one or more heuristics, is most effective in the detection of both first-order mutation and malicious faults and generates a significantly smaller test suite than the one generated directly from the finite state models.
Role Based Access Control, finite state models, fault models, first order mutants, malicious faults
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