Operational acceptance testing
Operational acceptance testing (OAT) is used to conduct operational readiness (pre-release) of a product, service, or system as part of a quality management system. OAT is a common type of non-functional software testing, used mainly in software development and software maintenance projects. This type of testing focuses on the operational readiness of the system to be supported, and/or to become part of the production environment. Hence, it is also known as operational readiness testing (ORT) or operations readiness and assurance testing (OR&A). Functional testing within OAT is limited to those tests which are required to verify the non-functional aspects of the system.
OAT elaborates upon and compartmentalises operational aspects of acceptance testing.[1]
According to the International Software Testing Qualifications Board (ISTQB), OAT may include checking the backup/restore facilities, IT disaster recovery procedures, maintenance tasks and periodic check of security vulnerabilities.,[2] and whitepapers on ISO 29119 and Operational Acceptance by Anthony Woods,[3] and ISO 25000 and Operational Acceptance Testing by Dirk Dach et al., OAT generally includes:[4]
- Component Testing
- Failover (Within the same data centre)
- Component fail-over
- Network fail-over
- Functional Stability
- Accessibility
- Conversion
- Stability
- Usability
- IT Service Management (Supportability)
- Monitoring and Alerts (to ensure proper alerts are configured in the system if something goes wrong)
- Portability
- Compatibility
- Interoperability
- Installation and Backout
- Localization
- Recovery (across data centres)
- Application/system recovery
- Data recovery
- Reliability
- Backup and Restoration (Recovery)
- Disaster Recovery
- Maintainability
- Performance, Stress and Volume,
- Procedures (Operability) and Supporting Documentation (Supportability)
- Security and Penetration
During OAT changes may be made to environmental parameters which the application uses to run smoothly. For example, with Microsoft Windows applications with a mixed or hybrid architecture, this may include: Windows services, configuration files, web services, XML files, COM+ components, web services, IIS, stored procedures in databases, etc. Typically OAT should occur after each main phase of the development life cycle: design, build, and functional testing. In sequential projects it is often viewed as a final verification before a system is released; where in agile and iterative projects, a more frequent execution of OAT occurs providing stakeholders with assurance of continued stability of the system and its operating environment.
An approach used in OAT may follow these steps:
- Design the system,
- Assess the design,
- Build the system,
- Confirm if built to design,
- Evaluate the system addresses business functional requirements,
- Assess the system for compliance with non-functional requirements,
- Deploy the system,
- Assess operability and supportability of the system.
For running the OAT test cases, the tester normally has exclusive access to the system or environment. This means that a single tester would be executing the test cases at a single point of time. For OAT the exact Operational Readiness quality gates are defined: both entry and exit gates. The primary emphasis of OAT should be on the operational stability, portability and reliability of the system.
References
[edit]- ^ "atos-operational-acceptance-testing-whitepaper.pdf" (PDF).
- ^ ISTQB http://istqbexamcertification.com/what-is-acceptance-testing/
- ^ Anthony Woods (2015). "Operational Acceptance - an application of the ISO 29119 Software Testing standard" (Document). Capgemini and Sogeti. pp. 1–12.
- ^ White Paper: Operational Acceptance Testing, Business Continuity Assurance. December 2012 Dirk Dach, Dr Kai-Uwe Gawlik, Mark Mevert