Ghost Peak: Practical Distance Reduction Attacks Against HRP UWB Ranging
This attack questions the security of UWB HRP in critical applications like car entry and payments, posing a problem for users and manufacturers relying on these systems.
The authors demonstrated a practical distance reduction attack on IEEE 802.15.4z HRP UWB ranging systems, such as those using Apple U1 chips, reducing distances from 12m to 0m with up to 4% success probability using a low-cost device.
We present the first over-the-air attack on IEEE 802.15.4z High-Rate Pulse Repetition Frequency (HRP) Ultra-WideBand (UWB) distance measurement systems. Specifically, we demonstrate a practical distance reduction attack against pairs of Apple U1 chips (embedded in iPhones and AirTags), as well as against U1 chips inter-operating with NXP and Qorvo UWB chips. These chips have been deployed in a wide range of phones and cars to secure car entry and start and are projected for secure contactless payments, home locks, and contact tracing systems. Our attack operates without any knowledge of cryptographic material, results in distance reductions from 12m (actual distance) to 0m (spoofed distance) with attack success probabilities of up to 4%, and requires only an inexpensive (USD 65) off-the-shelf device. Access control can only tolerate sub-second latencies to not inconvenience the user, leaving little margin to perform time-consuming verifications. These distance reductions bring into question the use of UWB HRP in security-critical applications.