Abstract

Owing to a growing number of attacks, the assessment of Industrial Control Systems (ICSs) has gained in importance. An integral part of an assessment is the creation of a detailed inventory of all connected devices, enabling vulnerability evaluations. For this purpose, scans of networks are crucial. Active scanning, which generates irregular traffic, is a method to get an overview of connected and active devices. Since such additional traffic may lead to an unexpected behavior of devices, active scanning methods should be avoided in critical infrastructure networks. In such cases, passive network monitoring offers an alternative, which is often used in conjunction with complex deep-packet inspection techniques. There are very few publications on lightweight passive scanning methodologies for industrial networks. In this paper, we propose a lightweight passive network monitoring technique using an efficient Media Access Control (MAC) address-based identification of industrial devices. Based on an incomplete set of known MAC address to device associations, the presented method can guess correct device and vendor information. Proving the feasibility of the method, an implementation is also introduced and evaluated regarding its efficiency. The feasibility of predicting a specific device/vendor combination is demonstrated by having similar devices in the database. In our ICS testbed, we reached a host discovery rate of 100% at an identification rate of more than 66%, outperforming the results of existing tools.

Highlights

  • Industrial Control System (ICS) is the common umbrella term for the various devices used in industrial infrastructures

  • We show the feasibility of our method and provide a publicly available implementation of a Proof of Concept (PoC)

  • To learn the Media Access Control (MAC) address of the communication peer, an Address Resolution Protocol (ARP) request is sent to the Ethernet broadcast address which is forwarded by all network switches

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Summary

INTRODUCTION

Industrial Control System (ICS) is the common umbrella term for the various devices used in industrial infrastructures. Considering the IT security protection goal availability, these additional efforts are compensated as passive scanning schemes can be integrated in fragile infrastructures without impairing regular communication. We introduce an efficient and passive scanning and device identification scheme suitable for industrial Ethernet-based networks. On its baseline, it uses a Media Access Control (MAC) address correlation method, enabling the discovery of ICS components by analysis of their Address Resolution Protocol (ARP) broadcast packets using minimal configuration and integration effort. Without impairing the protection goal availability, the presented method is suitable for an integration to security assessment schemes of fragile or critical infrastructure networks.

PASSIVE NETWORK SCANNING
MEDIA ACCESS CONTROL ADDRESSING
MAC Address Structure
Broadcast Messages
Interarrival Time of Packets
DEVICE IDENTIFICATION CHALLENGES
MAC Address Vendor Assignment
USING MAC ADDRESSES FOR DEVICE DISCOVERY AND IDENTIFICATION
Passive Scan Utilizing ARP Broadcast Messages
MAC Address Correlation
Mapping of Vulnerabilities
FRAMEWORK AND EVALUATION
Interarrival Time of ARP Packets
MAC Address Database
Proof of Concept Framework
Network Integration
Validation of the Proposed Scheme
Comparison with Other Tools
Findings
Discussion of Limitations
CONCLUSION
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