Ethan L. Miller, William E. Freeman, Darrell D. E. Long, and Benjamin C. Reed. Strong security for network-attached storage. In Proceedings of the FAST 2002. Home/Search Document Details and Download
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Secure Data Replication over Untrusted Hosts - Popescu, Crispo, Tanenbaum (Correct)
....and excludedJ om the system. 1 Introduction Secure data replication on untrusted hosts has received a considerable amount of attention in the past few years. There are two generic mechmfisms to hmdle this problem: state signing md state machine replication [16] Solutions based on state signing [7, 2, 6, 11, 13, 3] can only support semi static data content and restrictive, pre defined types of queries. Furthermore, all these systems, except for the one described in [1 1] require that state updates are executed on trusted servers. On the other hand, systems based on state machine replication [4, 15, 10] ....
....data from untrusted storage and verify its integrity using the content public key (assumed to be known a priori) In order to minimize the number of digital signatures, some form of hash tree authentication [ 12] is normally used in this context. Work that falls into this category includes [7, 11, 13, 3] which apply this technique to distributed file systems, 2] which applies it to free software distribution, 6] which applies it to signing XML documents, 14] which applies it to digital certificate revocation md [9] which applies it on building a trusted database on untrusted storage. The main ....
E. L. Miller, W. E. Freeman, D. D. E. Long, and B.C. Reed. Strong security for network-attached storage. In USENIX Con. ference on File and Storage Technologies (FAST), pages 1-14, Jan. 2002.
Intra-file Security for a Distributed File System - Banachowski, J. (2002) (1 citation) Self-citation (Miller) (Correct)
....to Network Attached Secure Disks (NASD) 3] An OBSDbased file system is designed for high performance computing workloads precisely the kinds of applications that benefit from intra file security. Because OBSDs require strong security in order to keep data safe in storage and transit [7], we expand the end to end encryption capabilities by incorporating IFS. OBSD based storage systems have the potential to improve both file system performance and functionality by building a high performance storage system from inexpensive storage components connected by high speed networks. The ....
....server (MS) is to control access to the file system. When users wish to open a file, the MS checks file permissions before granting access. As a first step, client software authenticates a user s identity, using standard authentication techniques such as Kerberos [9] or cryptographic hashes [7, 10]. The MS proceeds to check permission for a requested file operation using the file system s access control mechanism. However, OBSDs handle read and write requests directly; in order to enforce access rights, OBSDs must also check identities and permissions as well. The overhead of maintaining ....
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E. L. Miller, D. D. E. Long, W. E. Freeman, and B. C. Reed. Strong security for network-attached storage. In Proceedings of the FAST 2002.
Block-Level Security for Network-Attached Disks - Aguilera, Ji, Lillibridge.. (2003) (5 citations) (Correct)
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Ethan L. Miller, William E. Freeman, Darrell D. E. Long, and Benjamin C. Reed. Strong security for network-attached storage. In Proceedings of the FAST 2002.
Formal Security Analysis of Basic Network-Attached Storage - Chaudhuri, Abadi (2005) (Correct)
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E. L. Miller, D. D. E. Long, W. E. Freeman, and B. Reed. Strong security for network-attached storage. In FAST '02: Proceedings of the Conference on Fi l e and Storage Technologies, pages 1--13. USENIX Association, 2002.
Formal Security Analysis of Basic Network-Attached Storage - Chaudhuri, Abadi (Correct)
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E. L. Miller, D. D. E. Long, W. E. Freeman, and B. Reed. Strong security for network-attached storage. In FAST '02: Proceedings of the Conference on File and Storage Technologies, pages 1--13. USENIX Association, 2002.
Securing Data in Storage: A Review of Current Research - Stanton (2004) (Correct)
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Ethan L. Miller, Darrell D. E. Long, William E. Freeman, and Benjamin C. Reed. Strong security for network-attached storage. In Proceedings of the 2002 Conference on File and Storage Technologies (FAST), pages 1--13, Monterey, CA, January 2002.
Space-Efficient Block Storage Integrity - Oprea, Reiter, Yang (Correct)
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E. Miller, D. Long, W. Freeman, B. Reed. Strong Security for Network-Attached Storage. In Proceedings of the First USENIX Conference on File and Storage Technologies (FAST), 2002.
Security vs Performance: Tradeoffs using a Trust.. - Singh, Voruganti.. (2004) (Correct)
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E. Miller, W. Freeman, D. Long, and B. Reed. Strong security for network-attached storage. In FAST, 2002.
Block-Level Security for Network-Attached Disks - Aguilera, Ji, Lillibridge.. (2003) (5 citations) (Correct)
No context found.
Ethan L. Miller, William E. Freeman, Darrell D. E. Long, and Benjamin C. Reed. Strong security for network-attached storage. In Proceedings of the FAST 2002.
A Two Layered Approach for Securing an Object Store Network - Alain Azagury Ran (Correct)
No context found.
E. Miller, D. Long, W. Freeman and B. Reed, Strong Security for Network-Attached Storage. In Proceedings of the FAST 2002.
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