Overview
Microsoft-signed UEFI bootloaders of the open-source shim project, primarily from version 0.9 and earlier, were identified as vulnerable to Secure Boot bypass. To mitigate this risk, the affected bootloaders will be added to the Microsoft UEFI Forbidden Signature Database (DBX). Once the DBX update is applied, these bootloaders will no longer be trusted for execution during the boot process.
An attacker could exploit these vulnerable shim bootloaders using a Bring Your Own Vulnerable Driver (BYOVD)-style technique to execute arbitrary code during the early boot phase, prior to operating system initialization, thereby bypassing Secure Boot protections.
Description
The Unified Extensible Firmware Interface (UEFI) standard defines the modern firmware architecture used to initialize hardware and transfer control to the operating system during system startup. On systems with Secure Boot enabled, UEFI applications and drivers must be cryptographically signed and verified before execution. Trust for these signatures is established through several firmware-managed databases, including the authorized signature database (DB), which commonly contains the “Microsoft Corporation UEFI CA 2011” certificate. This Microsoft certificate is widely used to sign third-party boot components intended to run under Secure Boot.
The open-source UEFI shim project is a small, signed bootloader that Microsoft signed using the “Microsoft Corporation UEFI CA 2011” certificate. Shim acts as a bridge between the motherboard’s UEFI firmware and the operating system (typically a Linux distribution). Its purpose is to allow Linux distributions to boot with Secure Boot enabled without requiring every individual distribution’s key to be built into the motherboard’s NVRAM settings. In doing so, shim allows Linux distributions and other third parties to establish their own trust model through the use of Machine Owner Keys (MOKs), enabling additional bootloaders, kernels, and related components to execute within the Secure Boot chain. The shim project also introduced Secure Boot Advanced Targeting (SBAT), which provides a version-based revocation mechanism for boot components and simplifies future security updates and revocations.
Over time, multiple security vulnerabilities were identified and corrected in the upstream shim project. However, a number of vendors had previously forked or customized older versions of shim for their own products and boot environments. In many cases, these vendor-specific bootloaders were not updated after vulnerabilities in the upstream project became publicly known. As a result, vulnerable bootloaders remained signed and trusted by Secure Boot systems because they had not been revoked through the Microsoft-signed DBX revocation list. This created a long-term supply chain exposure in which outdated and vulnerable boot components could still be executed on fully patched systems.
Researchers from ESET identified multiple vulnerable shim bootloaders affected by these issues. The affected bootloaders will be added to Microsoft’s official DBX revocation list as part of this coordinated disclosure.
| Impacted shim bootloaders [Vendor and Product Information Authenticode SHA hash SHA256 file hash CVE ID] |
|---|
Spyrus WTGCreator () from UEFI shim loader(0.7 (or lower)) AE75F0D82BA3DF824FBFC69340CC3B4D66C598373B1AB54CDB6C8BFD83A6B961 1D18DF4B15D3BC3DFFA1777A557075210DD0C53B CVE-2026-8863 |
RedHat RedHat Enterprise Linux (7.2) from UEFI shim loader(0.9) 7B2A3F5C96F95BD8086CE54B0825E300F9C8F11FE3401BB631B3215C8DE9EB10 3F24DD838C5C9E35B104FA2F3B74AC6A5BF92FD2 CVE pending from vendor |
RedHat CentOS (7.2) from UEFI shim loader(0.9) EB86FA1386FE6E4533B8B938DCC1250616D2F1C14C15E2FCF80834A161018A0A E133BE08E8AD17AC00E3C8ED215499C5F3C54E64 CVE pending from vendor |
baramundi baramundi Management Suite (up to 2024R1) from UEFI shim loader(0.8) FD23D6E57DE6F4E1F9D7118DA1C5F31A8AF6BE5E5D9E8170F9493447268D50C5 8637D7EFA23A8A5738F2E4AACB6C9919B405AA2C CVE-2026-8863 |
WhiteCanyon/Blancco WipeDrive (versions 8.0.0 through 8.1.3.) from UEFI shim loader(0.7) a0de9333442c1bf9349a460141ae5e80f911955c6506040fa3d021bf6c1ae3e4 8A402AFCD3C23D9253BBEA08576113C63E448AD0 CVE-2026-8863 |
Finland's Matriculation Examination Board Abitti 1 (1.0) from UEFI shim loader(0.8) 95B6D71FC0C0F8C5E1533A37AEF92CF6B0C961E2CC612A97117FA6759CE5FC06 8A83FA30DBF0073F33EAD298A7D5CD69A47C3A4B CVE-2026-8863 |
NTC IT ROSA, LLC ROSA Linux (R10, R9) from UEFI shim loader(0.9) 236A9CB0D71951C36398A32EB660CE2CD4A52CCFA7CF751CC6A35D9DE549E19B 8F9E8DB8E2C2157C2A591F2BE070FF96BFE318C7 CVE-2026-8863 |
Oracle America, Inc. OracleLinux (7.2) from UEFI shim loader(0.9) 5E594C448760A3135B1A3A83E07A4F2E6FBE49414EF2C7CAB1CBA77F284FA63B A16136899A12AD214FA4FBA60072BA72FBAB8BCA CVE not provided |
PC-Doctor, Inc. PC Doctor Service Center (15, 16) from UEFI shim loader(0.9) 8A964D5F8373948D20A1D4296FB92E545DAD4617A0C810F3B934B53D98AE8963 BC01320D8FF8343B348EF8F3C947A66EB8FD9CE2 CVE-2026-8863 |
OpenSuse OpenSuse Shim (10.1) from UEFI Shim loader (0.9) 410260B1B6F5AF5FBEEB9EA3220658435E876CB3247126EE907A437F312DB373 3CF8BEB1E2885F51CA04002425C4F3C796D105BC CVE not provided |
OpenSuse OpenSuse Shim (2.1) from UEFI Shim loader (0.9) 96275DFD6282A522B011177EE049296952AC794832091F937FBBF92869028629 6DB5266E80C9D51CDD54421E736DF2E6E6879A56 CVE not provided |
Impact
An attacker with administrative privileges or the ability to modify the boot process could use one of the vulnerable shim bootloaders to bypass Secure Boot protections and execute arbitrary code before the operating system loads. Code executed during this early boot phase may achieve persistent compromise of the platform, including the ability to load unsigned or malicious kernel components that can survive system reboots and, in some cases, operating system reinstallation. Because this activity occurs before the operating system and many security products initialize, malicious code executed through this technique may evade detection by operating system security controls and Endpoint Detection and Response (EDR) solutions.
Solution
Apply a Patch
Apply the latest software updates along with latest bootloader updates as provided by your hardware or software vendor. See the Vendor Information section for details. Updated software should replace any vulnerable shim bootloaders with versions that incorporate the latest upstream security fixes and SBAT protections. Additionally, Microsoft DBX updates should be applied to all UEFI-based systems to ensure that vulnerable bootloaders can no longer be executed during the Secure Boot process.
Recommendations for Enterprises and Developers
Because modifications to the DBX (Forbidden Signature Database) can affect system boot behavior, vendors and administrators should thoroughly test these updates before broad deployment to ensure systems remain bootable. When deploying Secure Boot updates, it is recommended the latest authorized signature database (DB) is updated before applying DBX revocations. In practice, this means updating trusted boot applications and certificates first, followed by deployment of the revocation list. Failure to follow this order may cause systems to reject newly updated boot components. Enterprises, virtualization providers, and cloud operators managing large-scale deployments should prioritize validation and deployment of these updates to prevent the execution of vulnerable or unsigned binaries during physical or virtual machine startup. Microsoft also provides DBX update files and related tooling through the following repository: SecureBoot Objects
Audit tools such as Check-UEFISecureBootVariables for Windows systems using PowerShell, and uefi-dbx-audit for Linux systems, can be used to help verify that current DBX updates have been applied to UEFI-based laptops, desktops, servers, and virtual machines with Secure Boot enabled. These tools can also assist enterprise administrators in identifying revoked or vulnerable boot components present on a system. Audit and verification capabilities may vary depending on platform firmware implementation and support for revocation mechanisms such as SBAT and the newer Microsoft-specific Secure Version Numbering (SVN) enforcement.
Acknowledgements
Thanks to Martin Smolar of ESET for researching and reporting this vulnerability. This document was written by Vijay Sarvepalli.
Vendor Information
References
- https://msrc.microsoft.com/update-guide/vulnerability/CVE-2026-8863
- https://github.com/rhboot/shim/blob/main/SBAT.md
- https://uefi.org/specs/UEFI/2.11/32_Secure_Boot_and_Driver_Signing.html
- https://uefi.org/specs/UEFI/2.11/03_Boot_Manager.html
- https://uefi.org/specs/UEFI/2.11/07_Services_Boot_Services.html
- https://learn.microsoft.com/en-us/windows-hardware/design/device-experiences/oem-secure-boot
- https://www.welivesecurity.com/en/eset-research/under-cloak-uefi-secure-boot-introducing-cve-2024-7344/
- https://www.eset.com/us/about/newsroom/press-releases/eset-research-discovers-uefi-secure-boot-bypass-vulnerability/
- https://blogs.gnome.org/hughsie/2025/01/20/fwupd-2-0-4-and-dbxupdate-20241101/
- https://github.com/microsoft/secureboot_objects
- https://github.com/cjee21/Check-UEFISecureBootVariables
- https://www.welivesecurity.com/en/eset-research/introducing-hybridpetya-petya-notpetya-copycat-uefi-secure-boot-bypass/
- https://github.com/sei-vsarvepalli/uefi-dbx-audit/
- https://techcommunity.microsoft.com/blog/windows-itpro-blog/updated-secure-boot-status-report-in-windows-autopatch/4517920
Other Information
| CVE IDs: | |
| Date Public: | 2026-06-09 |
| Date First Published: | 2026-06-09 |
| Date Last Updated: | 2026-06-09 18:23 UTC |
| Document Revision: | 2 |
