Title :
Overcoming DNSSEC performance issues with DHT-based architectures
Author :
Migault, Daniel ; Francfort, Stanislas ; Senecal, Stephane ; Herbert, E. ; Laurent, Monique
Abstract :
DNSSEC deployment for large Internet Service Provider (ISP) is an important issue. With the current architecture, the migration of current DNS resolving platforms requires 5 times more nodes. This paper introduces alternative architectures where the DNS traffic is split between the nodes of the platform according to the queried Fully Qualified Domain Names (FQDN), rather than the IP addresses of the queries. We show that such type of architecture requires up to 30% less nodes. However, this load balancing techniques results in a non-uniform distribution of the resources among the nodes of the platform. Furthermore, operational teams are reluctant to modify the existing load balancing infrastructure. Thus, we investigate how pro-active caching over a Distributed Hash Table (DHT) protocol, can optimize the resources of an ISP operational DNSSEC resolving platform. We find out that it can reduce the number of nodes by 3.5.
Keywords :
Internet; cache storage; computer network security; cryptography; resource allocation; telecommunication traffic; DHT-based architectures; DNS resolving platforms; DNS traffic; DNSSEC performance issues; FQDN; ISP; ISP operational DNSSEC resolving platform; Internet service provider; distributed hash table protocol; domain name system security extension; fully qualified domain names; load balancing techniques; pro-active caching; resource nonuniform distribution; Computer architecture; IP networks; Internet; Load management; Peer-to-peer computing; Protocols; Servers;
Conference_Titel :
Integrated Network Management (IM 2013), 2013 IFIP/IEEE International Symposium on
Conference_Location :
Ghent
Print_ISBN :
978-1-4673-5229-1
