Detection and Mitigation of RPL Rank and Version Number Attacks in the Internet of Things: SRPL-RP.

Zahrah A Almusaylim,Nz Jhanjhi,Abdulaziz Alhumam

doi:10.3390/s20215997

Zahrah A Almusaylim, Nz Jhanjhi + Show 1 more

Open Access

https://doi.org/10.3390/s20215997

Copy DOI

Abstract

The rapid growth of the Internet of Things (IoT) and the massive propagation of wireless technologies has revealed recent opportunities for development in various domains of real life, such as smart cities and E-Health applications. A slight defense against different forms of attack is offered for the current secure and lightweight Routing Protocol for Low Power and Lossy Networks (RPL) of IoT resource-constrained devices. Data packets are highly likely to be exposed in transmission during data packet routing. The RPL rank and version number attacks, which are two forms of RPL attacks, can have critical consequences for RPL networks. The studies conducted on these attacks have several security defects and performance shortcomings. In this research, we propose a Secure RPL Routing Protocol (SRPL-RP) for rank and version number attacks. This mainly detects, mitigates, and isolates attacks in RPL networks. The detection is based on a comparison of the rank strategy. The mitigation uses threshold and attack status tables, and the isolation adds them to a blacklist table and alerts nodes to skip them. SRPL-RP supports diverse types of network topologies and is comprehensively analyzed with multiple studies, such as Standard RPL with Attacks, Sink-Based Intrusion Detection Systems (SBIDS), and RPL+Shield. The analysis results showed that the SRPL-RP achieved significant improvements with a Packet Delivery Ratio (PDR) of 98.48%, a control message value of 991 packets/s, and an average energy consumption of 1231.75 joules. SRPL-RP provided a better accuracy rate of 98.30% under the attacks.

Highlights

The Internet of Things (IoT) is the consequence of the seamless integration of devices between wireless communications and diverse technologies
We noticed that the results show that the Secure RPL Routing Protocol (SRPL-RP) had a higher Packet Delivery Ratio (PDR) in the grid-center topology than in other topologies compared with Standard RPL with Attacks
The results of the analysis and a comparison linked to the chart are presented in Tables 9–11, respectively. These results show that our proposed protocol SRPL-RP reduced the average energy consumption by up to 60% and was much lower in the random topology than in other topologies compared with Standard RPL with Attacks, Sink-Based Intrusion Detection Systems (SBIDS)

Summary

Introduction

The Internet of Things (IoT) is the consequence of the seamless integration of devices between wireless communications and diverse technologies. The smart city is one of the substantial domains of IoT. A smart city is composed of innumerable services and applications that aim to increase the quality of life and services to residents [2,3,4]. The devices must communicate via the network layer in the IoT architecture. This layer utilizes various standards, protocols, and techniques, such as Routing Protocol for Low Power and Lossy Networks (RPL), protocols to smoothen the secure transfer of data packets between devices. The RPL is intended to facilitate the functionalities of numerous link-layer protocols. These layers may be lossy or consumed with strongly constrained devices. The RPL can have alternative routes and adapt with the network conditions when there is no access to the default routes

Results

Discussion

Conclusion