The European Space Agency (ESA) challenged cybersecurity experts in the space industry ecosystem to disrupt the operation of the agency’s OPS-SAT demonstration nanosatellite. Participants used a variety of ethical hacking techniques to take control of the system used to manage the payload’s global positioning system, attitude control system1 and onboard camera.
Unauthorised access to these systems can cause serious damage to the satellite or lead to a loss of control over its mission. Thales’s offensive cybersecurity team worked with the Group’s Information Technology Security Evaluation Facility (ITSEF2) for this unique exercise, which demonstrates the need for a high level of cyber resilience in the very specific operating environment of space.
The Thales team of four cybersecurity researchers accessed the satellite’s onboard system, used standard access rights to gain control of its application environment, and then exploited several vulnerabilities to introduce malicious code into the satellite’s systems.
This made it possible to compromise the data sent back to Earth, in particular by modifying the images captured by the satellite’s camera, and to achieve other objectives such as masking selected geographic areas in the satellite imagery while concealing their activities to avoid detection by ESA. The demonstration was organised specifically for CYSAT to help assess the potential impact of a real cyberattack and the consequences for civilian systems.
Throughout the exercise, ESA had access to the satellite’s systems to retain control and ensure a return to normal operation.
“Thales is grateful to ESA and the CYSAT organisers for providing this unique opportunity to demonstrate the ability of our experts to identify vulnerabilities in a satellite system. With the growing number of military as well as civil applications that are reliant on satellite systems today, the space industry needs to take cybersecurity into account at every stage in the satellite’s life cycle, from initial design to systems development and maintenance.
This unprecedented exercise was a chance to raise awareness of potential flaws and vulnerabilities so that they can be remediated more effectively, and to adapt current and future solutions to improve the cyber resilience of satellites and space programmes in general, including both ground segments and orbital systems.” Pierre-Yves Jolivet, VP Cyber Solutions, Thales.
In a presentation on 27 April by Thales experts and members of the ESA team, CYSAT participants can find out more about the attack scenario used in this first demonstration of offensive cybersecurity techniques, tactics and procedures.
Thales’s cybersecurity capabilities for the space industry
Drawing on more than 40 years of experience in cybersecurity and space activities, Thales applies the principles of “cybersecurity by design” to the products it develops for satellite operators and space agencies. Its joint venture with Leonardo, Thales Alenia Space, designs and delivers innovative solutions for telecommunications, navigation, Earth observation, environmental monitoring, space exploration, scientific research and orbital infrastructures. With more than 3,500 cybersecurity specialists, Thales helps to ensure the security of satellite systems for national and European space programmes – in particular Europe’s Galileo satellite navigation programme – and at the international level. With its combined expertise in cutting-edge satellite systems and cybersecurity solutions relying on the latest military technologies, Thales offers governments, institutions and enterprise customers a comprehensive range of cybersecurity solutions to guarantee robust protection of all the elements of a space system. The offensive cybersecurity capabilities demonstrated by Thales at CYSAT enable customers to better anticipate and respond to current and future threats. The Group’s cybersecurity solutions for the space industry encompass everything from risk and threat evaluation to data protection and network security, incident detection and response, and security maintenance throughout the system life cycle.