Threats / Linux / CVE-2017-1000253

CVE-2017-1000253 · EUVD no mirror located · GCVE no mirror located Verified 2026-06-22

Linux Kernel vulnerability

Linux kernel stack buffer corruption in load_elf_binary() allows local privilege escalation via PIE bypass.

Verdict

Today item, not a backlog item.

A local attacker can exploit stack buffer corruption in the ELF binary loader to escalate privileges on affected Linux systems. Active exploitation and ransomware deployment have been observed in the wild.

CISA KEV Yes · 2024-09-09³Ransomware use Flagged³EPSS 0.10695 (verify live)⁴Exploit Public PoC⁵

Is it exploitable?

— the evidence, ranked above the score

Exploit available

Public proof-of-concept exploit code is cataloged for this vulnerability.We link the existence of the exploit; we do not host or redistribute payloads.

vulncheck.com ↗vulncheck.com ↗Confirmed

Reported exploitation

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

trendmicro.com ↗cybersecurityworks.com ↗cisa.gov ↗Confirmed

Exploited in the wild

Listed in the CISA Known Exploited Vulnerabilities catalog (added 2024-09-09), flagged for known ransomware use.

CISA KEV ↗Confirmed

Probability (EPSS)

EPSS 0.10695 — 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: Linux, Kernel. Confirm exact fixed builds in the vendor advisory.

NVD ↗Reported

Weakness (CWE)

Mapped to CWE-119 Memory Buffer Bounds Error — weakness family: Memory safety.CWE assignment from the public NVD record; the weakness class drives how the flaw is exploited.

NVD ↗Reported

WeaknessCWE-119 · Memory Buffer Bounds ErrorMemory 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

Gain local system access through initial compromise or valid credentials.

Business

Attacker establishes foothold on target infrastructure.

Keys to the kingdom — privilege/identity takeover narrative 2

Attacker

Craft malicious ELF binary that triggers stack buffer overflow in load_elf_binary().

Business

Attacker bypasses memory protections designed to prevent code execution.

Lateral reach — past segmentation narrative 3

Attacker

Execute crafted binary to corrupt stack and redirect control flow to arbitrary code.

Business

Attacker achieves code execution with elevated privileges.

Data at risk — exfiltration narrative 4

Attacker

Escalate to root or system-level privileges on the compromised host.

Business

Attacker gains complete system control and persistence capability.

Lights out — disruption & extortion narrative 5

Attacker

Deploy ransomware or lateral movement tools across the network.

Business

Organization faces data encryption, operational disruption, and potential financial extortion.

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)

Ransomware-use flag (CISA)

EPSS probability (FIRST)

Public PoC available (VulnCheck)

3 reported-exploitation source(s)

CWE weakness mapping (NVD)

Public exploit availability

Catalogued by mitre (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 mitreCNA

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