New BIAS attack works against Bluetooth devices and firmware from Apple, Broadcom, Cypress, Intel, Samsung, and others.
Academics have disclosed today a new vulnerability in the Bluetooth wireless protocol, broadly used to interconnect modern devices, such as smartphones, tablets, laptops, and smart IoT devices.
The vulnerability, codenamed BIAS (Bluetooth Impersonation AttackS), impacts the classic version of the Bluetooth protocol, also known as Basic Rate / Enhanced Data Rate, Bluetooth BR/EDR, or just Bluetooth Classic.
The BIAS security flaw resides in how devices handle the link key, also known as a long-term key.
This key is generated when two Bluetooth devices pair (bond) for the first time. They agree on a long-term key, which they use to derive session keys for future connections without having to force device owners to go through the long-winded pairing process every time the Bluetooth devices need to communicate.
Researchers said they found a bug in this post-bonding authentication process. The flaw can allow an attacker to spoof the identity o a previously paired/bonded device and successfully authenticate and connect to another device without knowing the long-term pairing key that was previously established between the two.
Once a BIAS attack is successful, the attacker can then access or take control of another Bluetooth Classic device.
The research team said they tested the attack against a wide range of devices, including smartphones (iPhone, Samsung, Google, Nokia, LG, Motorola), tablets (iPad), laptops (MacBook, HP Lenovo), headphones (Philips, Sennheiser), and system-on-chip boards (Raspberry Pi, Cypress).
"At the time of writing, we were able to test [Bluetooth] chips from Cypress, Qualcomm, Apple, Intel, Samsung and CSR. All devices that we tested were vulnerable to the BIAS attack," researchers said.
"Because this attack affects basically all devices that 'speak Bluetooth,' we performed a responsible disclosure with the Bluetooth Special Interest Group (Bluetooth SIG) - the standards organisation that oversees the development of Bluetooth standards - in December 2019 to ensure that workarounds could be put in place," the team added.
The academic team behind the BIAS attack includes Daniele Antonioli from the Swiss Federal Institute of Technology in Lausanne (EPFL), Kasper Rasmussen from the CISPA Helmholtz Center for Information Security in Germany, and Nils Ole Tippenhauer from the University of Oxford, thh UK.
The research team said that if an attacker combines BIAS and KNOB, they can break the authentication even on Bluetooth Classic devices running in a secure authentication mode.
As such, Bluetooth-capable devices must receive patches against both the BIAS (CVE-2020-10135) and KNOB (CVE-2019-9506) attacks to be fully secure.
Additional details about the BIAS attack are available on the vulnerability's official website, in a research paper titled "BIAS: Bluetooth Impersonation AttackS" [PDF], or the video presentation below.