Frazier, Edward Snead2014-03-142014-03-142010-04-21etd-04232010-000938http://hdl.handle.net/10919/31849Modern software applications are becoming increasingly complex, prompting a need for expandable software security assessment tools. Violable constraints/assumptions presented by Bazaz [1] are expandable and can be modified to fit the changing landscape of software systems. Partial and End-Game Verification, Validation, and Testing (VV&T) strategies utilize the violable constraints/assumptions and are established by this research as viable software security assessment tools. The application of Partial VV&T to the Horticulture Club Sales Assistant is documented in this work. Development artifacts relevant to Partial VV&T review are identified. Each artifact is reviewed for the presence of constraints/assumptions by translating the constraints/assumptions to target the specific artifact and software system. A constraint/assumption review table and accompanying status nomenclature are presented that support the application of Partial VV&T. Both the constraint/assumption review table and status nomenclature are generic, allowing them to be used in applying Partial VV&T to any software system. Partial VV&T, using the constraint/assumption review table and associated status nomenclature, is able to effectively identify software vulnerabilities. End-Game VV&T is also applied to the Horticulture Club Sales Assistant. Base test strategies presented by Bazaz [1] are refined to target system specific resources such as user input, database interaction, and network connections. Refined test strategies are used to detect violations of the constraints/assumptions within the Horticulture Club Sales Assistant. End-Game VV&T is able to identify violation of constraints/assumptions, indicating vulnerabilities within the Horticulture Club Sales Assistant. Addressing vulnerabilities identified by Partial and End-Game VV&T will enhance the overall security of a software system.In CopyrightAccess Driven VV&TAssumptionsConstraintsAssessmentVulnerabilitiesSoftware SecurityThesishttp://scholar.lib.vt.edu/theses/available/etd-04232010-000938/