A cryptographic file system for UNIX
CCS '93 Proceedings of the 1st ACM conference on Computer and communications security
IPSec
Strong Security for Network-Attached Storage
FAST '02 Proceedings of the Conference on File and Storage Technologies
A Highly Regular and Scalable AES Hardware Architecture
IEEE Transactions on Computers
Network Security and Storage Security: Symmetries and Symmetry-Breaking
SISW '02 Proceedings of the First International IEEE Security in Storage Workshop
IEEE Standard for Encrypted Storage
Computer
A Technical Comparison of IPSec and SSL
AINA '05 Proceedings of the 19th International Conference on Advanced Information Networking and Applications - Volume 2
Plutus: Scalable Secure File Sharing on Untrusted Storage
FAST '03 Proceedings of the 2nd USENIX Conference on File and Storage Technologies
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With the unprecedented growth of storage systems in all of today’s society, threats on stored sensitive information have become the critical issues that need to be addressed. Further, compared to the transient risks of data in-flight, the risks associated with data-at-rest are more enduring. While there have been many strategies and mechanisms to implement storage security on data-at-rest, these solutions implemented on application level or operating system level have several shortcomings, including weak security and heavy burden on sever load. In this paper, we propose two hardware security structures based on block level, namely, store-and-forward architecture and cut-through architecture. In our approach, we design and implement these architectures based on FPGA. Our experimental results show that our schemes achieve transparency and completeness in real time without decreasing performance of system.