Model Based Testing Texas A&M University Department of Computer Science Sameh S. Sharkawi
Outline Introduction What is MBT Motivation behind MBT How MBT Works Benefits of MBT Problems of MBT Current State of MBT in Industry Software Tools for MBT Conclusion References
Introduction (What is MBT) Definition “Model-based testing refers to software testing where test cases are derived in whole or in part from a model that describes some (usually functional) aspects of the system under test (SUT). ” * * Wikipedia Definition of Model Based Testing.
Introduction (What is MBT Contd. ) MBT is an approach in which you define the behavior of a system in terms of actions that change the state of the system. Such a model of the system results in a well-defined Finite State Machine (FSM) which helps us to understand predict the system’s behavior
Introduction (Motivation behind MBT) Testing is expensive Poor testing is VERY expensive 30 -50% of development costs Down time Maintenance costs Rework Law suits Model Based Testing promises Increased effectiveness of testing Similar or decreased costs Reuse of design artifacts
Introduction (Motivation behind MBT Downtime Costs) Brokerage operations $6, 450, 000 Credit card authorization $2, 600, 000 Ebay (1 outage 22 hours) $225, 000 Amazon. com $180, 000 Package shipping services $150, 000 Home shopping channel $113, 000 Catalog sales center $90, 000 Airline reservation center $89, 000 Cellular service activation $41, 000 On-line network fees $25, 000 ATM service fees $14, 000
How MBT Works
How MBT Works? The model is usually an abstract, partial presentation of the system under test's desired behavior. The test cases derived from this model are functional tests on the same level of abstraction as the model. These test cases are collectively known as the abstract test suite
How MBT Works? Contd. The abstract test suite cannot be directly executed against the system under test because it is on the wrong level of abstraction. Therefore an executable test suite must be derived from the abstract test suite that can communicate with the system under test. This is done by mapping the abstract test cases to concrete test cases suitable for execution.
How MBT Works? Contd. Deriving Test Cases Algorithmically Test Case Generation by Theorem Proving Test Case Generation by Constraint Logic Programming Test Case Generation by Model Checking Test Case Generation by Symbolic Execution
How MBT Works? Contd. Model Provides expected results for Generates Test Cases Run Test Oracle Provides actual results for Implementation Spec Explorer (UW-MSR Summer Institute '04) Pass Fail
Benefits of MBT
Benefits of MBT Starting from specification Building the test interface Involves testers early in the development process Teams testers with developers Forces testability into product design Finds design and specification bugs - before code exists The model is the test plan - and is easily maintained Automated test suite generation Coverage is guaranteed - increases testing thoroughness Zero test suite maintenance costs Automated test suite execution Finds code and interface bugs Includes a framework for the testing of distributed applications Reduces test execution costs
Benefits of MBT Contd. These benefits can be summarized as: Machine Time
Benefits of MBT Contd. Machines A typical test engineer Earns € 41 500 ($50 000 USD) per year Works 40 to 50 hours per week A typical test machine Costs € 250 ($300 USD) per year to buy and operate Can work 100 hours per week
Benefits of MBT Contd. react. cs. uni-sb. de/mbt 2006/talks/mbt 4 masses. pdf
Problems of MBT
Problems of MBT
Problems of MBT Contd.
Problems of MBT Contd.
Problems of MBT Contd.
Problems of MBT Contd. Process shift Up front investment in test Personnel shift Higher education and sophistication Spec Explorer (UW-MSR Summer Institute '04)
Current State of MBT in Industry
Current State of MBT in Industry IBM Research Most projects were done by Ph. D Holders Very Little was successful (Just in the Lab, never actually went into market) Too Complicated to use and analyze Microsoft Research The Spec# programming system is a new attempt at a more cost effective way to develop and maintain high-quality software
Current State of MBT in Industry Spec# is a computer language which includes and extends C# Adds pre/post conditions, contracts Adds high-level data types with convenient notations Adds logical quantifiers like FORALL and EXISTS A Spec# model is just a program! You can run it like a C# program It can call framework code NEW You can explore it (run all of its possible behavior) which is how we do MBT with Spec# Spec Explorer (UW-MSR Summer Institute '04)
Current State of MBT in Industry (Spec Explorer) A model exploration and testing tool for. NET: Authoring of models in Word Model exploration (generating FSM) FSM visualization FSM traversal and test suite generation Automatic implementation binding Online test-suite execution and offline test-suite code generation Spec Explorer (UW-MSR Summer Institute '04)
Current State of MBT in Industry (Spec #) n Model: Calculator (viewpoint: only starting and stopping, and switching scientific mode) bool Running = false; bool Scientific = false; [Action] void Set. Running(bool new. Running) requires Running != new. Running; { Running = new. Running; } [Action] void Set. Scientific(bool new. Scientific) requires Running; requires Scientific != new. Scientific; { Scientific = new. Scientific; } Spec Explorer (UW-MSR Summer Institute '04) System State Spec#: Pre-Condition State Update describes when action is enabled Tells Spec Explorer this is an action. Action invocations do appear in tests.
Software Tools for MBT
Software Tools for MBT Conformiq Test Generator is a model-based testing tool using UML state charts that represent testing strategies Leirios Test Generator is a model-based testing tool that generates tests automatically from deterministic system specifications Reactis Tester is another model-based testing tool that focuses on control systems TGV is a tool for the generation of conformance test suites for protocols Tor. X is also a prototype testing tool for conformance testing of reactive software Lurette is an automated testing tool of reactive programs written in Lustre Asm. L Test Tool can generate tests directly from an Asm. L model Auto. Focus (in german) is a graphical tool for developing and modeling distributed systems with integrated testing facilities
Software Tools for MBT (Asm. L) Asm. L is the Abstract State Machine Language. It is an executable specification language based on theory of Abstract State Machines. The current version, Asm. L 2 (Asm. L for Microsoft. NET), is embedded into Microsoft Word and Microsoft Visual Studio. NET. It uses XML and Word for literate specifications. It is fully interoperable with other. NET languages. Asm. L generates. NET assemblies which can either be executed from the command line, linked with other. NET assemblies, or packaged as COM components.
Conclusion
Conclusion Modeling is not easy What details do you leave out? How do you check the model? There are no recipes for success What needs to happen Easier notation Incremental approach Pilots and examples
Questions How do we guarantee that the generated expected outputs and inputs are enough and cover all the cases? How to make for the errors and exceptions that may occur due to running the program on different environments and different OSs? How is automated generation of inputs and outputs work when an actual human interaction is required as part of the system testing? Does MBT cover stress testing? Does MBT cover how user friendly the system is or it only covers functionality?
References
References http: //en. wikipedia. org/wiki/Model-based_testing http: //blogs. msdn. com/nihitk/articles/144664. aspx http: //research. microsoft. com/specsharp/ http: //react. cs. uni-sb. de/mbt 2006/talks/mbt 4 masses. pdf http: //react. cs. unisb. de/mbt 2006/talks/Model. Based. Testing. Sober. Evaluation. pdf http: //aetgweb. argreenhouse. com/papers/1999 -icse. pdf Colin Campbell, Wolfgang Grieskamp, Lev Nachmanson, Wolfram Schulte, Nikolai Tillmann, Margus Veanes “Spec Explorer: An Integrated Environment for Model-Based Testing. ” Foundations of Software Engineering Microsoft Research, Redmond
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