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Abstract

Software-as-a-service (SaaS) cloud systems make application service providers to deliver their applications via massive cloud computing infrastructures. However, due to their sharing nature, SaaS clouds are vulnerable to malicious attacks. In this paper, we present IntTest, a scalable and effective service integrity attestation framework for SaaS clouds. IntTest provides a novel integrated attestation graph analysis scheme that can provide stronger attacker pinpointing power than previous schemes. Moreover, IntTest can automatically enhance result quality by replacing bad results produced by malicious attackers with good results produced by benign service providers. Our experimental results show that IntTest can achieve higher attacker pinpointing accuracy than existing approaches. IntTest does not require any special hardware or secure kernel support and imposes little performance impact to the application, which makes it practical for large-scale cloud systems.

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Author Biographies

Praveen Kumar P S, Sridevi Institute of Engineering and Technology, Tumkur

PG Scholar,

Prasannakumar. M, Sridevi Institute of Engineering and Technology, Tumkur

Asst.Professor, 

How to Cite
P S, P. K., & M, P. (2015). An Attestation of Service Integrity for SaaS Clouds using IntTest method. International Journal of Emerging Trends in Science and Technology, 2(07). Retrieved from http://igmpublication.org/ijetst.in/index.php/ijetst/article/view/832

References

1. Juan Du, Daniel J. Dean, Yongmin Tan, XiaohuiGu, and Ting Yu “Scalable Distributed Service Integrity Attestation for Software-as-a-Service Clouds” IEEE Transactions On Parallel And Distributed Systems, Vol. 25, No. 3, March 2014
2. Du.J, Wei.W, Gu.X, and Yu.T, “Runtest: Assuring Integrity of Dataflow Processing in Cloud Computing Infrastructures,” Proc.ACMSymp. Information, Computer and Comm. Security (ASIACCS),2010.
3. Du.J, Shah.N, and Gu.X, “Adaptive Data-Driven Service Integrity Attestation for Multi-Tenant Cloud Systems,” Proc. Int’l Workshop Quality of Service (IWQoS), 2011. Virtual Computing Lab, http://vcl.ncsu.edu/, 2013.
4. Shi.E, Perrig.A, and Doorn.L.V, “Bind: A fine-grained attestation service for secure distributed systems,” in Proceedings of the IEEE Symposium on Security and Privacy, 2005.