CVE-2025-59152

HIGH7.5EPSS 0.06%

Litestar X-Forwarded-For Header Spoofing Vulnerability Enables Rate Limit Evasion

發布日:2025/10/6修改日:2025/10/13

描述

While testing Litestar's RateLimitMiddleware, I discovered that rate limits can be completely bypassed by manipulating the X-Forwarded-For header. This renders IP-based rate limiting ineffective against determined attackers. ## The Problem Litestar's RateLimitMiddleware uses `cache_key_from_request()` to generate cache keys for rate limiting. When an X-Forwarded-For header is present, the middleware trusts it unconditionally and uses its value as part of the client identifier. Since clients can set arbitrary X-Forwarded-For values, each different spoofed IP creates a separate rate limit bucket. An attacker can rotate through different header values to avoid hitting any single bucket's limit. Looking at the relevant code in `litestar/middleware/rate_limit.py` around [line 127](https://github.com/litestar-org/litestar/blob/26f20ac6c52de2b4bf81161f7560c8bb4af6f382/litestar/middleware/rate_limit.py#L127), there's no validation of proxy headers or configuration for trusted proxies. ## Reproduction Steps Here's a minimal test case ```python from litestar import Litestar, get from litestar.middleware.rate_limit import RateLimitConfig import uvicorn @get("/api/data") def get_data() -> dict: return {"message": "sensitive data"} rate_config = RateLimitConfig(rate_limit=("minute", 2)) app = Litestar( route_handlers=[get_data], middleware=[rate_config.middleware] ) if __name__ == "__main__": uvicorn.run(app, host="0.0.0.0", port=8000) ``` Testing the bypass ```bash # Normal requests get rate limited after 2 requests curl http://localhost:8000/api/data # 200 OK curl http://localhost:8000/api/data # 200 OK curl http://localhost:8000/api/data # 429 Too Many Requests # But spoofing X-Forwarded-For bypasses the limit entirely curl -H "X-Forwarded-For: 192.168.1.100" http://localhost:8000/api/data # 200 OK curl -H "X-Forwarded-For: 192.168.1.101" http://localhost:8000/api/data # 200 OK curl -H "X-Forwarded-For: 192.168.1.102" http://localhost:8000/api/data # 200 OK ``` ## Security Impact This vulnerability has several concerning implications: Brute Force Protection Bypass: Authentication endpoints protected by rate limiting become vulnerable to credential stuffing attacks. An attacker can attempt thousands of login combinations from a single source. API Abuse: Public APIs relying on rate limiting for abuse prevention can be scraped or hammered without restriction. Resource Exhaustion: While not a traditional DoS, the ability to bypass rate limits means attackers can consume more server resources than intended. The issue is particularly problematic because many developers deploy Litestar applications directly (not behind a proxy) during development or in containerized environments, making this attack vector accessible. ## Potential Solutions After reviewing how other frameworks handle this: - Default to socket IP only: Don't trust proxy headers unless explicitly configured - Trusted proxy configuration: Add settings to specify which proxy IPs are allowed to set forwarded headers - Header validation: Implement basic validation of forwarded IP formats Django handles this through `SECURE_PROXY_SSL_HEADER` and trusted proxy lists. Express.js has similar trusted proxy configurations. For immediate mitigation, applications can deploy behind a properly configured reverse proxy that strips/overwrites client-controllable headers before they reach Litestar. ## Environment Details - Litestar version: 2.17.0 - Python: 3.11 This affects any Litestar application using RateLimitMiddleware with default settings, which likely includes most applications that implement rate limiting.

受影響套件(1)

CVSS 分數

來源版本嚴重程度向量
osvCVSS 3.1HIGH7.5CVSS:3.1/AV:N/AC:L/PR:N/UI:N/S:U/C:N/I:N/A:H

參考連結(5)