Insecure Defaults OpenClaw Skill - ClawHub
Do you want your AI agent to automate Insecure Defaults workflows? This free skill from ClawHub helps with security & passwords tasks without building custom tools from scratch.
What this skill does
Detects fail-open insecure defaults (hardcoded secrets, weak auth, permissive security) that allow apps to run insecurely in production. Use when auditing security, reviewing config management, or analyzing environment variable handling.
Install
npx clawhub@latest install insecure-defaultsFull SKILL.md
Open original| name | description |
|---|---|
| insecure-defaults | Detects fail-open insecure defaults (hardcoded secrets, weak auth, permissive security) that allow apps to run insecurely in production. Use when auditing security, reviewing config management, or analyzing environment variable handling. |
Insecure Defaults Detection
Finds fail-open vulnerabilities where apps run insecurely with missing configuration. Distinguishes exploitable defaults from fail-secure patterns that crash safely.
- Fail-open (CRITICAL):
SECRET = env.get('KEY') or 'default'→ App runs with weak secret - Fail-secure (SAFE):
SECRET = env['KEY']→ App crashes if missing
When to Use
- Security audits of production applications (auth, crypto, API security)
- Configuration review of deployment files, IaC templates, Docker configs
- Code review of environment variable handling and secrets management
- Pre-deployment checks for hardcoded credentials or weak defaults
When NOT to Use
Do not use this skill for:
- Test fixtures explicitly scoped to test environments (files in
test/,spec/,__tests__/) - Example/template files (
.example,.template,.samplesuffixes) - Development-only tools (local Docker Compose for dev, debug scripts)
- Documentation examples in README.md or docs/ directories
- Build-time configuration that gets replaced during deployment
- Crash-on-missing behavior where app won't start without proper config (fail-secure)
When in doubt: trace the code path to determine if the app runs with the default or crashes.
Rationalizations to Reject
- "It's just a development default" → If it reaches production code, it's a finding
- "The production config overrides it" → Verify prod config exists; code-level vulnerability remains if not
- "This would never run without proper config" → Prove it with code trace; many apps fail silently
- "It's behind authentication" → Defense in depth; compromised session still exploits weak defaults
- "We'll fix it before release" → Document now; "later" rarely comes
Workflow
Follow this workflow for every potential finding:
1. SEARCH: Perform Project Discovery and Find Insecure Defaults
Determine language, framework, and project conventions. Use this information to further discover things like secret storage locations, secret usage patterns, credentialed third-party integrations, cryptography, and any other relevant configuration. Further use information to analyze insecure default configurations.
Example
Search for patterns in **/config/, **/auth/, **/database/, and env files:
- Fallback secrets:
getenv.*\) or ['"],process\.env\.[A-Z_]+ \|\| ['"],ENV\.fetch.*default: - Hardcoded credentials:
password.*=.*['"][^'"]{8,}['"],api[_-]?key.*=.*['"][^'"]+['"] - Weak defaults:
DEBUG.*=.*true,AUTH.*=.*false,CORS.*=.*\* - Crypto algorithms:
MD5|SHA1|DES|RC4|ECBin security contexts
Tailor search approach based on discovery results.
Focus on production-reachable code, not test fixtures or example files.
2. VERIFY: Actual Behavior
For each match, trace the code path to understand runtime behavior.
Questions to answer:
- When is this code executed? (Startup vs. runtime)
- What happens if a configuration variable is missing?
- Is there validation that enforces secure configuration?
3. CONFIRM: Production Impact
Determine if this issue reaches production:
If production config provides the variable → Lower severity (but still a code-level vulnerability) If production config missing or uses default → CRITICAL
4. REPORT: with Evidence
Example report:
Finding: Hardcoded JWT Secret Fallback
Location: src/auth/jwt.ts:15
Pattern: const secret = process.env.JWT_SECRET || 'default';
Verification: App starts without JWT_SECRET; secret used in jwt.sign() at line 42
Production Impact: Dockerfile missing JWT_SECRET
Exploitation: Attacker forges JWTs using 'default', gains unauthorized access
Quick Verification Checklist
Fallback Secrets: SECRET = env.get(X) or Y
→ Verify: App starts without env var? Secret used in crypto/auth?
→ Skip: Test fixtures, example files
Default Credentials: Hardcoded username/password pairs
→ Verify: Active in deployed config? No runtime override?
→ Skip: Disabled accounts, documentation examples
Fail-Open Security: AUTH_REQUIRED = env.get(X, 'false')
→ Verify: Default is insecure (false/disabled/permissive)?
→ Safe: App crashes or default is secure (true/enabled/restricted)
Weak Crypto: MD5/SHA1/DES/RC4/ECB in security contexts → Verify: Used for passwords, encryption, or tokens? → Skip: Checksums, non-security hashing
Permissive Access: CORS *, permissions 0777, public-by-default
→ Verify: Default allows unauthorized access?
→ Skip: Explicitly configured permissiveness with justification
Debug Features: Stack traces, introspection, verbose errors → Verify: Enabled by default? Exposed in responses? → Skip: Logging-only, not user-facing
For detailed examples and counter-examples, see examples.md.