A Secure Anti-Collusion Data Sharing Scheme for Dynamic Groups in the Cloud
Main Article Content
Abstract
The Benefited from Cloud Computing, clients can achieve a flourishing and moderate methodology for information sharing among gathering individuals in the cloud with the characters of low upkeep and little administration cost. Then, security certifications to the sharing information records will be given since they are outsourced. Horribly, due to the never-ending change of the enrolment, sharing information while giving protection saving is still a testing issue, particularly for an untrusted cloud because of the agreement attack. In addition, for existing plans, the security of key dispersion depends on the safe communication channel, then again, to have such channel is a solid feeling and is difficult for practice. In this paper, we propose a safe information sharing plan for element individuals. Firstly, we propose a safe route for key dispersion with no safe correspondence channels, and the clients can safely acquire their private keys from gathering administrator. Besides, the plan can accomplish fine-grained access control, any client in the gathering can utilize the source in the cloud and refused clients can't get to the cloud again after they are rejected. Thirdly, we can protect the plan from trickery attack, which implies that rejected clients can't get the first information record regardless of the possibility that they scheme with the untrusted cloud. In this methodology, by utilizing polynomial capacity, we can achieve a protected client denial plan. At long last, our plan can bring about fine productivity, which implies past clients need not to overhaul their private keys for the circumstance either another client joins in the gathering or a client is give up from the gathering.
Article Details
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
IJCERT Policy:
The published work presented in this paper is licensed under the Creative Commons Attribution 4.0 International (CC BY 4.0) license. This means that the content of this paper can be shared, copied, and redistributed in any medium or format, as long as the original author is properly attributed. Additionally, any derivative works based on this paper must also be licensed under the same terms. This licensing agreement allows for broad dissemination and use of the work while maintaining the author's rights and recognition.
By submitting this paper to IJCERT, the author(s) agree to these licensing terms and confirm that the work is original and does not infringe on any third-party copyright or intellectual property rights.
References
M. Armbrust, A. Fox, R. Griffith, A. D. Joseph, R. Katz, A. Konwinski, G. Lee, D. Patterson, A. Rabkin, I. Stoica, and M. Zaharia. “A View of Cloud omputing,” Comm. ACM, vol. 53, no. 4, pp. 50-58, Apr.2010.
S. Kamara and K. Lauter, “Cryptographic Cloud Storage,” Proc. Int’l Conf.Financial Cryptography and Data Security (FC), pp.136- 149, Jan. 2010.
M. Kallahalla, E. Riedel, R. Swaminathan, Q. Wang, and K. Fu, “Plutus: ScalableSecure File Sharing on Untrusted Storage,” Proc. USENIX Conf. File and Storage Technologies, pp. 29-42, 2003.
E. Goh, H. Shacham, N. Modadugu, and D. Boneh, “Sirius: Securing Remote Untrusted Storage,” Proc. Network and Distributed Systems Security Symp. (NDSS), pp. 131-145, 2003.
G. Ateniese, K. Fu, M. Green, and S. Hohenberger, “Improved Proxy Re-Encryption Schemes with Applications to Secure Distributed Storage,” Proc.Network and Distributed Systems Security Symp. (NDSS), pp. 29-43, 2005.
Shucheng Yu, Cong Wang, Kui Ren, and Weijing Lou, “Achieving Secure, Scalable, and Fine-grained Data Access Control in Cloud Computing,” Proc. ACM Symp. Information, Computer and Comm. Security, pp. 282-292, 2010.
V. Goyal, O. Pandey, A. Sahai, and B. Waters, “Attribute-Based Encryption for Fine-Grained Access Control of Encrypted Data,” Proc. ACM Conf. Computer and Comm. Security (CCS), pp. 89- 98, 2006
R. Lu, X. Lin, X. Liang, and X. Shen, “Secure Provenance: The Essential of Bread and Butter of Data Forensics in Cloud Computing,” Proc. ACM Symp. Information, Computer and Comm. Security, pp. 282-292, 2010.
B. Waters, “Ciphertext-Policy Attribute-Based Encryption: An Expressive, Efficient, and Provably Secure Realization,” Proc. Int’l Conf.http://eprint.iacr.org/2008/290.pdf, 2008
Xuefeng Liu, Yuqing Zhang, Boyang Wang, and Jingbo Yang, “Mona: Secure Multi-Owner Data Sharing for Dynamic Groups in the Cloud,” IEEE Transactions on Parallel and Distributed Systems, vol. 24, no. 6, pp. 1182-1191, June 2013.
D. Boneh, X. Boyen, and E. Goh, “Hierarchical Identity Based Encryption with Constant Size Ciphertext,” Proc. Ann. Int’l Conf. Theory and Applications of Cryptographic Techniques (EUROCRYPT), pp. 440-456, 2005.
C. Delerablee, P. Paillier, and D. Pointcheval, “Fully Collusion Secure Dynamic Broadcast Encryption with Constant-Size Ci-phertexts or Decryption Keys,” Proc.First Int’l Conf. PairingBased Cryptography, pp. 39-59, 2007.
Zhongma Zhu, Zemin Jiang, Rui Jiang, “The Attack on Mona: Secure Multi-Owner Data Sharing for Dynamic Groups in the Cloud,” Proceedings of 2013 International Conference on Information Science and Cloud Computing (ISCC 2013 ), Guangzhou, Dec.7, 2013, pp. 185-189.
Lan Zhou, Vijay Varadharajan, and Michael Hitchens, “Achieving Secure Role-Based Access Control on Encrypted Data in Cloud Storage,” IEEE Transactions on Information Forensics and Security, vol. 8, no. 12, pp. 1947-1960, December 2013.
Xukai Zou, Yuan-shun Dai, and Elisa Bertino, “A practical and flexible key management mechanism for trusted collaborative computing,” INFOCOM 2008, pp. 1211-1219.
M. Nabeel, N. Shang, and E. Bertino, “Privacy preserving policy based content sharing in public clouds,” IEEE Trans. on Know. and Data Eng., vol. 25, no. 11, pp. 2602-2614, 2013.
Dolev, D., Yao A. C., "On the security of public key protocols", IEEE trans. on Information Theory, vol. IT-29, no. 2, pp. 198–208, 1983
Boneh Dan, Franklin Matt, “Identitybased encryption from the weil pairing,” Lecture Notes in Computer Science, vol. 2139 LNCS, pp. 213-229, 2001