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Abstract: The domain name system is the standard mechanism on the Internet to advertise and access important information about hosts. At its inception, DNS was not designed to be a secure protocol. The biggest security hole in DNS is the lack of support for data integrity authentication, source authentication, and authorization. To make DNS more robust, a security extension of the domain name system (DNSSEC) was proposed by the Internet Engineering task force (IETF) in late 1997. The basic idea... (Update)
Context of citations to this paper: More
...prove that this number is O(n 2 ) where n is the number of replicas in each OR. A scalable solution to this problem is proposed in [7]. It is based on having the primary of the client group perform the request on behalf of the other replicas in its group. After executing the...
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1.3: Using a Byzantine-Fault-Tolerant Algorithm to Provide a Secure DNS - Yang (1999) (Correct)
0.5: A New Approach to DNS Security (DNSSEC) - Ateniese (2001) (Correct)
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3: Network Working Group Request for Comments (context) - Mills - 1989
2: Practical Byzantine fault tolerance - Castro, Liskov - 1999
BibTeX entry: (Update)
S. Ahmed. A scalable byzantine fault tolerant secure domain name system. Master's thesis, Massachusetts Institute of Technology, 2001. http://citeseer.ist.psu.edu/ahmed01scalable.html More
@misc{ ahmed01scalable,
author = "S. Ahmed",
title = "A scalable byzantine fault tolerant secure domain name system",
text = "S. Ahmed. A scalable byzantine fault tolerant secure domain name system.
Master's thesis, Massachusetts Institute of Technology, 2001.",
year = "2001",
url = "citeseer.ist.psu.edu/ahmed01scalable.html" }
Citations (may not include all citations):1529 A Method for Obtaining Digital Signatures and Public-Key Cry.. - Rivest, Shamir et al. - 1978
423 End-To-End Arguments in System Design - Saltzer, Reed et al. - 1984
401 The MD5 Message-Digest Algorithm (context) - Rivest - 1992
366 A Hierarchical Internet Object Cache - Danzig, Chunkhunthod et al. - 1995
261 Wide-area Internet Traffic Patterns and Characteristics (context) - Thompson, Miller et al. - 1997
241 The Byzantine Generals Problem - Lamport, Shostak et al. - 1982
235 Practical Byzantine Fault Tolerance - Castro, Liskov - 1999
235 Practical Byzantine Fault Tolerance - Castro - 2000
183 Cooperative Caching: Using Remote Client Memory to Improve F.. - Dahlin, Wang et al. - 1994
123 Leases: An Efficient Fault-Tolerant Mechanism for Distribute.. (context) - Gray, Cheriton - 1989
108 Development of the Domain Name System - Mockapetris, Dunlap - 1988
108 Domain Name System Security Extensions (context) - Eastlake, Kaufman
108 Domain Name System Security Extensions (context) - Eastlake - 1999
97 An End-to-End Approach to Host Mobility - Snoeren, Balakrishnan - 2000
69 Proactive Recovery in a Byzantine Fault Tolerant System - Castro, Liskov
60 Department of Computer Science (context) - Bowman, Danzig et al.
56 UMAC: Fast and Secure Message Authentication - Black, Halevi et al.
49 Dynamic Updates in the Domain Name System (context) - Vixie, Thompson et al. - 1997
40 Synchronization and Caching Issues in the Andrew file System (context) - Kazar - 1998
32 Secure Domain Name System Dynamic Update (context) - Eastlake - 1997
29 OReilly and Associates (context) - Albitz, Liu et al. - 1998
24 Invalidation in Large Scale Network Object Caches - Worrell - 1994
19 Authenticated Byzantine Fault Tolerance Without Public-Key C.. - Castro, Liskov - 1999
6 Technical Report DARPA Internet RFC (context) - Mockapetris, -- et al. - 1987
6 Technical Report DARPA Internet RFC (context) - Mockapetris, -- et al. - 1987
5 Dynamic Hierarchical Caching for Large-scale Distributed Fil.. (context) - Alonso, Blaze - 1992
5 Massachusetts Institute of Technology (context) - Ahmed, Jung et al. - 2000
4 RSAMD Key and SIG Domain Name System (context) - MD, SIGs et al. - 1999
4 Available at http://www (context) - Inc - 1999
4 Available at http://www (context) - inc, Product - 1999
4 DSA Keys and SIGs in the Domain Name System (context) - Eastlake - 1999
2 An Introduction to Domain Name System Security (context) - Wellington - 1999
2 A Study of Caching in the Internet Domain Name System - Sit - 2000
1 Private Correspondence (context) - Rodrigues - 2000
1 Using a Byzantine Fault Tolerant Algorithm to Provide a Secu.. - Yang - 1999
1 Implementing Fault Tolerant Service using the State Machine .. (context) - Sneider - 1990
http://www.dns.net/dnsrd
http://www.isc.org/products/BIND/bind9.html
http://developer.netscape.com/docs/manuals/security/sslin/contents.htm
http://www.isc.org
Documents on the same site (http://www.pmg.lcs.mit.edu/bft/): More
Combining Abstraction with Byzantine Fault-Tolerance - Rodrigues (2001) (Correct)
Using Abstraction To Improve Fault Tolerance - Castro, Rodrigues, Liskov (2001) (Correct)
The Design of a Robust Peer-to-Peer System - Rodrigo Rodrigues Barbara (2002) (Correct)
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