GHSA-2p2x-hpg8-cqp2
HIGHLitestar's CORS origin allowlist has a bypass due to unescaped regex metacharacters in allowed origins
EPSS Exploitation Probability
EPSS (Exploit Prediction Scoring System) is a daily probability model maintained by FIRST.org. It estimates the likelihood a CVE will be exploited in production environments within the next 30 days, derived from real-world threat intelligence signals.
Blast Radius
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Description
Summary
CORS origin validation can be bypassed because the allowed-origins allowlist is compiled into a regex without escaping metacharacters (notably .). An allowed origin like https://good.example can match https://goodXexample, resulting in Access-Control-Allow-Origin being set for an untrusted origin
Details
CORSConfig.allowed_origins_regex is constructed using a regex built from configured allowlist values and used with fullmatch() for validation. Because metacharacters are not escaped, a malicious origin can match unexpectedly. The check relies on allowed_origins_regex.fullmatch(origin).
PoC
Server (poc_cors_server.py)
from litestar import Litestar, get
from litestar.config.cors import CORSConfig
@get("/c")
async def c() -> str:
return "ok"
cors = CORSConfig(
allow_origins=["https://good.example"],
allow_credentials=True,
)
app = Litestar([c], cors_config=cors)
uvicorn poc_cors_server:app --host 127.0.0.1 --port 8002
Client (poc_cors_client.py)
import http.client
def req(origin: str) -> tuple[int, str | None]:
c = http.client.HTTPConnection("127.0.0.1", 8002, timeout=3)
c.request("GET", "/c", headers={"Origin": origin, "Host": "example.com"})
r = c.getresponse()
r.read()
acao = r.getheader("Access-Control-Allow-Origin")
c.close()
return r.status, acao
print("evil:", req("https://evil.example"))
print("bypass:", req("https://goodXexample"))
Expected (vulnerable behavior):
Origin: https://evil.example → no ACAO Origin: https://goodXexample → ACAO: https://goodxexample/ (bypass)
Impact
Type: CORS policy bypass (cross-origin data exposure risk) Who is impacted: apps using CORS allowlists to restrict browser cross-origin reads. If allow_credentials=True and authenticated endpoints return sensitive data, an attacker-controlled site can potentially read responses in a victim’s browser session.
Affected Packages
| Ecosystem | Package | Vulnerable range | Fix |
|---|---|---|---|
| 🐍PyPI | litestar | ≥ 2.19.0&&< 2.20.0 | 2.20.0 |
Detection & mitigation playbook
Open-source dependencyDetect
Scan your dependency tree (package-lock.json, pnpm-lock.yaml, requirements.txt, go.sum, etc.) for litestar. O3's reachability analysis confirms whether the vulnerable code path is actually invoked in your application, so you act on real exposure instead of every transitive match.
Fix
Update litestar to 2.20.0 or later, then make sure no transitive (indirect) dependency still pins the vulnerable range — O3 confirms GHSA-2p2x-hpg8-cqp2 is resolved across your whole dependency graph.
Workarounds
If you can't upgrade right away: gate or disable the affected feature, validate untrusted input at the boundary, and avoid passing attacker-controlled data into the vulnerable path. O3's runtime protection blocks exploitation in production as an interim safeguard until the upgrade lands.
How O3 protects you
O3 pinpoints whether GHSA-2p2x-hpg8-cqp2 is reachable in your code and exactly where to fix it, then blocks exploitation in production at runtime until the patched version is deployed.
Tailored to GHSA-2p2x-hpg8-cqp2. Runtime protection reduces exposure until a permanent patch is applied and verified — it complements patching, it doesn't replace it.
Frequently Asked Questions
Is GHSA-2p2x-hpg8-cqp2 in your dependencies?
O3 detects GHSA-2p2x-hpg8-cqp2 across PyPI dependencies and uses function-level reachability to confirm whether the vulnerable code path is actually reachable — not just present. No false positives.