Title :
Sybil-proof ID-to-locator mapping in one hop
Author :
Hengkui Wu ; Meixia Duan ; Yaping Hu ; Siyun Bao
Author_Institution :
41st Res. Inst., Sci. & Technol. on Electron. Test & Meas. Lab., CETC, Qingdao, China
fDate :
Oct. 30 2012-Nov. 1 2012
Abstract :
In this paper, we propose SS-MAP, a scalable and Sybil-proof locator/ID mapping scheme for the future Internet. SS-MAP uses a near-optimal distributed hash table (DHT) to map identifiers onto locators in one hop with reasonable maintenance overhead, which are O(log n) hops in regular DHT-based mechanisms (n is the number of mapping servers). This is the first work to discuss sybil attacks in identifier (ID)-to-locator mapping, where a malicious mapping server creates numerous fake identities, called sybil identifiers, to influence the system. We present a decentralized admission control system via client puzzles to protect the mapping system from sybil attacks. We show the scalability and security of SS-MAP both analytically and experimentally.
Keywords :
Internet; computational complexity; cryptography; network servers; telecommunication congestion control; DHT-based mechanisms; Internet; SS-MAP scalability; SS-MAP security; Sybil-Proof ID-to-locator mapping scheme; client puzzles; decentralized admission control system; fake identities; malicious mapping server; near-optimal distributed hash table; reasonable maintenance overhead; scalable mapping scheme; sybil attacks; sybil identifiers; Admission control; Internet; Maintenance engineering; Routing; Scalability; Security; Servers; ID-to-locator mapping; Locator/ID separation; Scalability; Sybil attack;
Conference_Titel :
Cloud Computing and Intelligent Systems (CCIS), 2012 IEEE 2nd International Conference on
Conference_Location :
Hangzhou
Print_ISBN :
978-1-4673-1855-6
DOI :
10.1109/CCIS.2012.6664238
