Many commercial computers are vulnerable to a set of vulnerabilities that exploit flaws in the processing of startup logos during boot.
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Security researchers at Binarly have disclosed security vulnerabilities in system firmware used by computer manufacturers during the boot process. The vulnerability impacts x86 and ARM-based devices.
The set of vulnerabilities is found in BIOS software created by different companies, including the three largest independent bios vendors AMI, Insyde and Phoenix. These are widely used in the industry, for instance in computers by Intel, Acer or Lenovo. Alex Matrosov, CEO at Binarly, says that about 95% of all computers use firmware from the three bios vendors.
Binarly says that it estimates that almost any device produced by these vendors is vulnerable “in one way or another”.
In simple terms, LogoFail exploits vulnerabilities in image parsers that affected devices use to display vendor logos during boot. Different image parsers are used to display different image types, and “they are rife with vulnerabilities” according to Matrosov.
A hacker needs to replace the vendor image with a specially prepared one to exploit the vulnerability and execute arbitrary code on the machine. Binarly explains that attackers may store malicious logo images on the EFI System Partition or inside unsigned sections of a firmware update. The images are then parsed during boot and this initiates the attack on the device.
The attack allows attackers to bypass security features such as Secure Boot. Binarly notes that this also affects hardware-based Verified Boot systems, including Intel Boot Guard, AMD Hardware-Validated Boot and ARM TrustZone-based Secure Boot.
Binarly believes that the attacker may be able to bypass “most endpoint security solutions” and integrate a persistent stealth firmware bootkit on the system. In other words, attackers may exploit LogoFail to compromise the security of many computer systems.
Attacks and protection
Attackers need to gain administrative access on target devices to exploit the vulnerability. This can be achieved through malicious payloads planted on the system, for instance by getting the user to run malicious software, or through exploits.
Once access is gained, the attacker would replace the vendors boot logo with a malicious logo, which the device would then load during boot.
An attacker would be able to disable UEFI security features, such as SecureBoot, modify the boot order and execute malicious software to infect operating systems.
Firmware updates are available or will be released for some of the affected devices. Administrators may want to check for firmware updates for devices that they manage that address the vulnerabilities. Not all devices will receive firmware updates, however. Especially devices that are no longer in support may not receive them.
A search for “device name firmware update” or “device name drivers” should return the driver download website of the manufacturer of the device.
Users on devices without firmware updates need to be extra cautious and use protections to avoid the initial attack on the device (which needs administrative access).
Additional information about the vulnerability is found on the Binarly website and on the CERT database.
Summary
Article Name
LogoFail vulnerability affects Windows and Linux device
Description
Many commercial computers are vulnerable to a set of vulnerabilities that exploit flaws in the processing of startup logos during boot.
Author
Martin Brinkmann
Publisher
Ghacks Technology News
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