# U-PoT: A Honeypot Framework for UPnP-Based IoT Devices

**Authors:** Muhammad A. Hakim, Hidayet Aksu, A. Selcuk Uluagac, Kemal Akkaya

arXiv: 1812.05558 · 2018-12-14

## TL;DR

This paper introduces U-PoT, a novel open-source honeypot framework designed to emulate UPnP-based IoT devices, enabling security researchers to study attack vectors and improve defenses against IoT threats.

## Contribution

The work presents the first flexible, configurable honeypot framework for UPnP IoT devices, automatically generated from device descriptions and extendable to various device types and vendors.

## Key findings

- Emulated devices successfully mimic real IoT device behavior.
- Framework can deceive device management applications and search engines.
- Minimal performance overhead observed in experiments.

## Abstract

The ubiquitous nature of the IoT devices has brought serious security implications to its users. A lot of consumer IoT devices have little to no security implementation at all, thus risking user's privacy and making them target of mass cyber-attacks. Indeed, recent outbreak of Mirai botnet and its variants have already proved the lack of security on the IoT world. Hence, it is important to understand the security issues and attack vectors in the IoT domain. Though significant research has been done to secure traditional computing systems, little focus was given to the IoT realm. In this work, we reduce this gap by developing a honeypot framework for IoT devices. Specifically, we introduce U-PoT: a novel honeypot framework for capturing attacks on IoT devices that use Universal Plug and Play (UPnP) protocol. A myriad of smart home devices including smart switches, smart bulbs, surveillance cameras, smart hubs, etc. uses the UPnP protocol. Indeed, a simple search on Shodan IoT search engine lists 1,676,591 UPnP devices that are exposed to public network. The popularity and ubiquitous nature of UPnP-based IoT device necessitates a full-fledged IoT honeypot system for UPnP devices. Our novel framework automatically creates a honeypot from UPnP device description documents and is extendable to any device types or vendors that use UPnP for communication. To the best of our knowledge, this is the first work towards a flexible and configurable honeypot framework for UPnP-based IoT devices. We released U-PoT under an open source license for further research and created a database of UPnP device descriptions. We also evaluated our framework on two emulated deices. Our experiments show that the emulated devices are able to mimic the behavior of a real IoT device and trick vendor-provided device management applications or popular IoT search engines while having minimal performance ovherhead.

## Full text

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## Figures

15 figures with captions in the complete paper: https://tomesphere.com/paper/1812.05558/full.md

## References

24 references — full list in the complete paper: https://tomesphere.com/paper/1812.05558/full.md

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Source: https://tomesphere.com/paper/1812.05558