Bug 2484496 (CVE-2026-45614) - CVE-2026-45614 optee_os: OP-TEE: Private key reconstruction due to unverified public keys in ECDH
Summary: CVE-2026-45614 optee_os: OP-TEE: Private key reconstruction due to unverified...
Keywords:
Status: NEW
Alias: CVE-2026-45614
Product: Security Response
Classification: Other
Component: vulnerability
Version: unspecified
Hardware: All
OS: Linux
medium
medium
Target Milestone: ---
Assignee: Product Security
QA Contact:
URL:
Whiteboard:
Depends On: 2484504
Blocks:
TreeView+ depends on / blocked
 
Reported: 2026-06-03 19:01 UTC by OSIDB Bzimport
Modified: 2026-06-03 19:24 UTC (History)
0 users

Fixed In Version:
Clone Of:
Environment:
Last Closed:
Embargoed:

Attachments (Terms of Use)

Description OSIDB Bzimport 2026-06-03 19:01:47 UTC 
OP-TEE is a Trusted Execution Environment (TEE) designed as companion to a non-secure Linux kernel running on Arm; Cortex-A cores using the TrustZone technology. Prior to version 4.11.0, on many of the ECDH shared secret paths, the public key isn't verified to be a point on the correct curve. By passing approximately 30-40 crafted public keys to OP-TEE, the private key can be reconstructed by a normal world attacker. When calling TEE_DeriveKey the public key is provided with full X and Y values, but the (X, Y) point might not satisfy the `Y^2 == X^3 + aX + b mod P` math for the specific curve that is used. When those public keys aren't rejected, the attacker can select public keys such that each DeriveKey call will leak `d % r` where `d` is the private key and `r` comes from the relationship between the correct curve and the attacker selected curve. With enough leaked data the Chinese remainder theorem can be used to recover the full private key. Version 4.11.0 fixes the issue.
Note You need to log in before you can comment on or make changes to this bug.