A Performance Comparison of MD5
Authenticated Routing Traffic with
EIGRP, RIPv2, and OSPF
1Department of Computer Science and Engineering College of Engineering, Qatar University, Qatar
2Department of Computer Science, Faculty of Information Technology, Malaysia
Abstract: Routing is the process of forwarding data across an inter-network from a designated source to a final destination. Along the way from source to destination, at least one intermediate node is considered. Due to the major role that routing protocols play in computer network infrastructures, special cares have been given to routing protocols with built-in security constraints. In this paper, we conduct performance evaluation comparisons on message digest 5 authenticated routing traffic with respect to EIGRP, RIPv2 and OSPF protocols. A network model of four Cisco routers has been employed with an ON/OFF traffic model used to describe text files transmissions over the network. Eventually, analysis tool has been developed and used to measure the average delay time and average jitter. The collected results show that the average delay time and jitter in the secured message digest 5 case can become significantly larger when compared to the non-secured case even in steady state conditions. Among all, the secured OSPF protocol shows the highest performance even when the system is extremely overloaded.
Keywords: Performance, MD5, EIGRP, RIPv2, and OSPF.