Systems and Means of Informatics
2017, Volume 27, Issue 2, pp 29-40
ERRONEOUS STATES CLASSIFICATION IN DICTRIBUTED COMPUTING SYSTEMS AND SOURCES OF THEIR OCCURENCE
- A. A. Grusho
- M. I. Zabezhailo
- A. A. Zatsarinnyy
- A. V. Nikolaev
- V. O. Piskovski
- E. E. Tmonina
Abstract
The paper defines the classes of erroneous states in distributed computing systems and sources of their occurrence. Some classes of these states are illustrated experimentally by inducing RabbitMQ abnormal behavior in the OpenStack software platform. The simulated erroneous states were observed actually in conditions close to the exhaustion of resources of the OpenStack software platform operation. To get erroneous states in the OpenStack platform, the RabbitMQ configuration file was tuned in order to simulate shortage of resources. The paper also contains the analysis of the incident, which occurred in the traditional information network infrastructures and can be treated as the implementation of the classes of erroneous states as well.
[+] References (9)
- Grusho, A. A., M.I. Zabezhailo, A. A. Zatsarinnyy, and V. O. Piskovski. 2016. Bez- opasnaya avtomaticheskaya rekonfiguratsiya oblachnykh vychislitel'nykh sred [Secure automatic reconfiguration of cloudy computing]. Sistemy i Sredstva Informatiki - Systems and Means of Informatics 26(3):83-92.
- RabbitMQ documentation. Available at: http://www.rabbitmq.com/documentation. html (accessed March 5, 2017).
- AMQP and Nova documentation. Available at: https://docs.openstack.org/developer/ nova/rpc.html (accessed March 5, 2017).
- Grusho, A., N. Grusho, E. Timonina, and S. Shorgin. 2016. Arkhitekturnyeuyazvimosti raspredelennykh informatsionno-vychislitel'nykh sistem [Architectural vulnerabilities of the distributed information systems]. Sistemy i Sredstva Informatiki - Systems and Means of Informatics 26(3):74-82.
- Ju, X., L. Soares, K. G. Shin, K. D. Ryu, and D. Da Silva. 2013. On fault resilience of OpenStack. 4th Annual Symposium on Cloud Computing Proceedings. New York, NY: ACM. Article No. 2. Available at: https://kabru.eecs.umich.edu/papers/ publications/2013/socc2013_ju.pdf (accessed March 5, 2017).
- Guo, Zh., S. McDirmid, M. Yang, Li Zhuang, Pu Zhang, Y. Luo, T. Bergan, P. Bodik, M. Musuvathi, Zh. Zhang, and L. Zhou. 2013. Failure recovery: When the cure is worse than the disease. 14th USENIX Conference on Hot Topics in Operating Systems Proceedings. Berkeley, CA: USENIX Association. Article No. 8. Available at: https: //www.microsoft.com/en-us/research/wp-content/uploads/2016/02/ FailureRecoveryBeEvil.pdf (accessed March 5, 2017).
- Sharma, D., R. Poddar, K. Mahajan, M. Dhawan, and V. Mann. 2015. HANSEL: Diagnosing faults in Open Stack. 11th ACM Conference on Emerging Networking Experiments and Technologies Proceedings. New York, NY: ACM. Article No. 23. Available at: http://dl.acm.org/citation.cfm?doid=2716281.2836108 (accessed March 5, 2017).
- Finn, V. K. 2011-2012. Mill's inductive methods in artificial intelligence systems. Scientific and Technical Information Processing. Pt. I (2011): 38(6):385-402; Pt. II (2012): 39(5):241-261.
- Zabezhailo, M. I. 2014. O nekotorykh vozmozhnostyakh upravleniya pereborom v DSM-metode [About some opportunities of management of search in the DSM-method]. Iskusstvennyy intellekt i prinyatie resheniy [Artificial Intelligence and DecisionMaking]. Pt. I: 1:95-110; Pt. II: 3:3-21.
[+] About this article
Title
ERRONEOUS STATES CLASSIFICATION IN DICTRIBUTED COMPUTING SYSTEMS AND SOURCES OF THEIR OCCURENCE
Journal
Systems and Means of Informatics
Volume 27, Issue 2, pp 29-40
Cover Date
2017-05-30
DOI
10.14357/08696527170203
Print ISSN
0869-6527
Publisher
Institute of Informatics Problems, Russian Academy of Sciences
Additional Links
Key words
distributed computing system; cloudy computing environments; OpenStack; RabbitMQ; erroneous states; informational infrastructure
Authors
A. A. Grusho  ,
M. I. Zabezhailo ,
A. A. Zatsarinnyy  ,
A. V. Nikolaev  ,
V. O. Piskovski ,
and E. E. Tmonina
Author Affiliations
Institute of Informatics Problems, Federal Research Center "Computer Science and Control" of the Russian Academy of Sciences, 44-2 Vavilov Str., Moscow 119333, Russian Federation
Federal Research Center "Computer Science and Control" of the Russian Academy of Sciences, 44-2 Vavilov Str., Moscow 119333, Russian Federation
N. N. Semenov Institute of Chemical Physics of the Russian Academy of Sciences, 4 Kosygin Str., Moscow 119991, Russian Federation
|