FChain: Toward Black-Box Online Fault Localization for Cloud Systems

• Published in: 2013 IEEE 33rd International Conference on Distributed Computing Systems pp. 21 - 30
• Main Authors: Hiep Nguyen, Zhiming Shen, Yongmin Tan, Xiaohui Gu
• Format: Conference Proceeding
• Language: English
• Published: IEEE 01.07.2013
• Subjects: Accuracy; Benchmark testing; Measurement; Runtime; Web servers
• ISSN: 1063-6927; 2575-8411
• DOI: 10.1109/ICDCS.2013.26

Distributed applications running inside cloud systems are prone to performance anomalies due to various reasons such as resource contentions, software bugs, and hardware failures. One big challenge for diagnosing an abnormal distributed application is to pinpoint the faulty components. In this paper, we present a black-box online fault localization system called FChain that can pinpoint faulty components immediately after a performance anomaly is detected. FChain first discovers the onset time of abnormal behaviors at different components by distinguishing the abnormal change point from many change points caused by normal workload fluctuations. Faulty components are then pinpointed based on the abnormal change propagation patterns and inter-component dependency relationships. FChain performs runtime validation to further filter out false alarms. We have implemented FChain on top of the Xen platform and tested it using several benchmark applications (RUBiS, Hadoop, and IBM System S). Our experimental results show that FChain can quickly pinpoint the faulty components with high accuracy within a few seconds. FChain can achieve up to 90% higher precision and 20% higher recall than existing schemes. FChain is non-intrusive and light-weight, which imposes less than 1% overhead to the cloud system.