Reducing Field Failures in System Configurable Software: Cost-Based Prioritization

Reducing Field Failures in System Configurable Software: Cost-Based Prioritization

System testing of configurable software is an expensive and resource constrained process. Insufficient testing often leads to escaped faults in the field where failures impact customers and are costly to repair. Prior work has shown that it is possible to efficiently sample configurations for testin...

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Bibliographic Details
Published in:2009 20th International Symposium on Software Reliability Engineering pp. 61 - 70
Main Authors: Srikanth, H., Cohen, M.B., Xiao Qu
Format: Conference Proceeding
Language:English
Published: IEEE 01-11-2009
Subjects:
Application software
combinatorial interaction testing
configuration prioritization
Costs
Environmental economics
Fault detection
Operating systems
Programming
regression testing
Software systems
Software testing
System testing
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Summary:System testing of configurable software is an expensive and resource constrained process. Insufficient testing often leads to escaped faults in the field where failures impact customers and are costly to repair. Prior work has shown that it is possible to efficiently sample configurations for testing using combinatorial interaction testing, and to prioritize these configurations to increase the rate of early fault detection. The underlying assumption to date has been that there is no added complexity to configuring a system level environment over a user configurable one; i.e. the time required to setup and test each individual configuration is nominal. In this paper we examine prioritization of system configurable software driven not only by fault detection but also by the cost of configuration and setup time that moving between different configurations incurs. We present a case study on two releases of an enterprise software system using failures reported in the field. We examine the most effective prioritization technique and conclude that (1) using failure history of configurations can improve the early fault detection rate, but that (2) we must consider fault detection rate over time, not by the number of configurations tested. It is better to test related configurations which incur minimal setup time than to test fewer, more diverse configurations.
ISBN:1424453755
9781424453757
ISSN:1071-9458
2332-6549
DOI:10.1109/ISSRE.2009.26