Threats / DrayTek / CVE-2024-12987

CVE-2024-12987 · EUVD no mirror located · GCVE no mirror located Verified 2026-06-22

DrayTek Vigor Routers vulnerability

DrayTek Vigor routers contain an OS command injection vulnerability in the web management interface that allows unauthenticated remote code execution.

Verdict

Today item — known-exploited.

A command injection flaw in the /cgi-bin/mainfunction.cgi/apmcfgupload endpoint of DrayTek Vigor2960, Vigor300B, and Vigor3900 routers enables attackers to execute arbitrary OS commands with router privileges, leading to full device compromise.

CISA KEV Yes · 2025-05-15³EPSS 0.98125 (verify live)⁴

Is it exploitable?

— the evidence, ranked above the score

Reported exploitation

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

dashboard.shadowserver.o ↗dashboard.shadowserver.o ↗dashboard.shadowserver.o ↗fortinet.com ↗Confirmed

Exploited in the wild

Listed in the CISA Known Exploited Vulnerabilities catalog (added 2025-05-15).

CISA KEV ↗Confirmed

Probability (EPSS)

EPSS 0.98125 — 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: DrayTek, Vigor Routers. Confirm exact fixed builds in the vendor advisory.

NVD ↗Reported

Weakness (CWE)

Mapped to CWE-78 OS Command Injection — weakness family: Injection.CWE assignment from the public NVD record; the weakness class drives how the flaw is exploited.

NVD ↗Reported

WeaknessCWE-78 · OS Command InjectionInjection

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 HTTP request to the vulnerable apmcfgupload endpoint, injecting OS commands into an unsanitized parameter.

Business

The organization's network perimeter is breached through a trusted infrastructure device.

Keys to the kingdom — privilege/identity takeover narrative 2

Attacker

I execute commands with the router's privilege level to establish persistence and pivot deeper into the network.

Business

Attackers gain a foothold for lateral movement and data exfiltration across internal systems.

Lateral reach — past segmentation narrative 3

Attacker

I reconfigure routing rules, DNS settings, or intercept traffic to monitor or redirect network communications.

Business

Network integrity is compromised, enabling man-in-the-middle attacks and credential harvesting.

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)

59 reported-exploitation source(s)

CWE weakness mapping (NVD)

Catalogued by VulDB (CNA)

Named finder/reporter credit (CVE.org)

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.

Disclosure & credit²

Catalogued by VulDBCNA

Credited with finding itnetsecfish (VulDB User)reporter