Advanced Topics in Security

Description

This is a highly practical course in which lectures and lab work are integrated. It is designed to provide practical skills in building secure industry and Government systems as well as developing a range of penetration testing skills.
Students need to be familiar with configuring Windows and Linux systems and will work in pairs in a lab environment and both build secure systems as well as test them for cyber security vulnerabilities. All software and hardware used will be industry grade equipment. All experiments are to be written up as individuals (but with shared results) and submitted according to a prescribed format.


These six topics are fundamental to applied cybersecurity and students will be provided with background fundamentals and will then design and test Wireless/Mobile systems, VPNs, IoT, Smartcard Systems, Multi-factor authentication and reverse-shell engineering attacks in the cybersecurity lab.

• Wireless/Mobile LANs – Vulnerabilities in mobile and wireless network architecture. Wireless Enterprise Architecture – design, setup and testing, Android and Bluetooth vulnerabilities. This lab focuses on graduates who will work in the area of wireless and mobile enterprise security and will be responsible for design, implementation, testing and addressing key cybersecurity issues in this framework.

• VPNs (Virtual Private Networks) – design and setting up of VPNs for secure cloud access. We will build two types of VPNs in the lab – OpenVPN or a Linux Wireguard VPN and an industry-based IKEv2-VPN. We will test their operation with servers, firewalls and mobile client devices such as laptops and mobile phones.

• IoT (IN)Security. IoT devices are becoming widely used in home automation, offices and in SCADA systems. We will experiment with IoT devices such as switches, lights, thermostats, video cameras, door locks, and music players. In particular we will see how traffic between the mobile device and IoT device can be intercepted and modified and in certain circumstances one can take control of these systems.

• Smartcard technology is used in ticketing systems such as Oyster, Octopus, Snapper, Metro, Myki, Gallagher access and for contactless payment. libnfc is a software library run out of Kali Linux and used for smartcards. A set of python scripts will be used for carrying out basic security analysis functions on smartcards such as reading, writing and cracking. This work will then be interfaced with the Gallagher smartcard system as used within the UoC for physical security.

• Multi-Factor Authentication including RSA hard and soft tokens and Google Authenticators. Active Directory, RSA multifactor authentication using hardware, software and mobile phone devices. Google Authentication using a RADIUS Server and PAM (Pluggable Authentication Module) to handle the Google Authenticator component of 2FA in conjunction with mobile phone authenticators.

• Reverse Shell and Ransomware attacks: MSFvenom, EternalBlue, Mousejack and USB cable attacks. The Metasploit Framework is commonly used by pen testers and involves the setting up of listeners that create an environment (referred to as a Meterpreter) to manipulate compromised machines. In these labs we will see how this framework within Kali Linux can be used to attack (or indeed test the security) of a Windows 10 machines through to ransomware attacks which encrypt client databases.

All six of these topics (both lectures and labs) will run in the specialist cybersecurity lab – Room 339 Erskine Building.

The precise timetable for lecture-lab combinations will be released early February.