Threats / Qualcomm / CVE-2026-21385

CVE-2026-21385 · EUVD no mirror located · GCVE no mirror located Verified 2026-06-22

Qualcomm Multiple Chipsets vulnerability

Multiple Qualcomm chipsets contain a memory corruption vulnerability in memory allocation alignment handling, enabling potential code execution or denial of service.

Verdict

Today item — known-exploited.

A memory corruption flaw in Qualcomm chipset memory allocation routines allows attackers to corrupt heap or stack memory through misaligned allocation requests, potentially achieving arbitrary code execution or system crash.

CISA KEV Yes · 2026-03-03³EPSS 0.01068 (verify live)⁴

Is it exploitable?

— the evidence, ranked above the score

Reported exploitation

5 independent public reports of in-the-wild exploitation are cataloged.Distinct reporting sources (vendor, incident response, government); open them for the underlying claims.

docs.google.com ↗source.android.com ↗cisa.gov ↗blog.talosintelligence.c ↗Confirmed

Exploited in the wild

Listed in the CISA Known Exploited Vulnerabilities catalog (added 2026-03-03).

CISA KEV ↗Confirmed

Probability (EPSS)

EPSS 0.01068 — modeled likelihood of exploitation activity.EPSS is a daily-changing model output — open the source for today's value.

FIRST EPSS ↗High

Severity / affected

Affected: Qualcomm, Multiple Chipsets. Confirm exact fixed builds in the vendor advisory.

NVD ↗Reported

Weakness (CWE)

Mapped to CWE-190 Integer Overflow — weakness family: Memory safety.CWE assignment from the public NVD record; the weakness class drives how the flaw is exploited.

NVD ↗Reported

WeaknessCWE-190 · Integer OverflowMemory safety

Who’s exploiting it?

— attribution turns risk into urgency

Attribution not established

No confirmed (advisory-backed) threat-actor attribution is established for this record. Absence of a named actor is not absence of compromise — see Coverage & confidence.

Why it matters

— the attack path, told twice: adversary, then board

Front door — unauthenticated access narrative 1

Attacker

I craft a malicious input or trigger a code path that requests memory allocation with specific alignment parameters to cause integer overflow or buffer overflow.

Business

Device firmware or operating system stability is compromised, creating vulnerability to remote exploitation.

Keys to the kingdom — privilege/identity takeover narrative 2

Attacker

I exploit the corrupted memory state to overwrite adjacent heap structures or function pointers to redirect execution flow.

Business

Attacker gains code execution within the chipset context, potentially accessing sensitive hardware resources or user data.

Lateral reach — past segmentation narrative 3

Attacker

I leverage chipset-level code execution to escalate privileges or persist across device reboots.

Business

Device security perimeter is breached; user trust and data confidentiality are compromised across all applications relying on the chipset.

What to do

— defensible action

Remediate per the vendor advisory — confirm the fixed build for your version and verify exposure.¹

Say it to the boardA vulnerability with this evidence profile is a defensible budget line, not a backlog ticket — fund the change against the proof above.

Coverage & confidence

— what we know, and what we don’t

Established (cited)

KEV listing (CISA)

EPSS probability (FIRST)

5 reported-exploitation source(s)

CWE weakness mapping (NVD)

Catalogued by qualcomm (CNA)

Coverage gaps — stated, not hidden

No EUVD / GCVE mirror in feed — single-authority dependency for the identifier.

EPSS & exposure are time-varying; verify live at the source.

Threat-actor attribution not established from feed data — absence of a name is not absence of compromise.

No finder/reporter credit recorded in the public CVE entry — the work behind this find is unattributed.

Disclosure & credit²

Catalogued by qualcommCNA

Credited with finding itNo finder named in the public CVE record — the work behind this find is unattributed.