Security Audit Codebase

Perform a systematic security review of a codebase to identify vulnerabilities and exposed secrets.

When to Use

• Before publishing or deploying a project
• Periodic security review of existing projects
• After adding authentication, API integration, or user input handling
• Before open-sourcing a private repository
• Preparing for a security compliance audit

Inputs

• Required: Codebase to audit
• Optional: Specific focus area (secrets, dependencies, injection, auth)
• Optional: Compliance framework (OWASP, ISO 27001, SOC 2)
• Optional: Previous audit findings for comparison

Procedure

Step 1: Scan for Exposed Secrets

Search for patterns that indicate hardcoded secrets:

# API keys and tokens
grep -rn "sk-\|ghp_\|gho_\|github_pat_\|hf_\|AKIA" --include="*.{md,js,ts,py,R,json,yml,yaml}" .

# Generic secret patterns
grep -rn "password\s*=\s*['\"]" --include="*.{js,ts,py,R,json}" .
grep -rn "api[_-]key\s*[=:]\s*['\"]" --include="*.{js,ts,py,R,json}" .
grep -rn "secret\s*[=:]\s*['\"]" --include="*.{js,ts,py,R,json}" .

# Connection strings
grep -rn "postgresql://\|mysql://\|mongodb://" .

# Private keys
grep -rn "BEGIN.*PRIVATE KEY" .

Got: No real secrets found — only placeholders like YOUR_TOKEN_HERE or [email protected].

If fail: If real secrets are found, remove them immediately, rotate the exposed credential, and clean git history with git filter-branch or git-filter-repo. Treat any exposed secret as compromised.

Step 2: Check .gitignore Coverage

Verify sensitive files are excluded:

# Check that these are git-ignored
git check-ignore .env .Renviron credentials.json node_modules/

# Look for tracked sensitive files
git ls-files | grep -i "\.env\|\.renviron\|credentials\|secret"

Got: All sensitive files (.env, .Renviron, credentials.json) are listed in .gitignore, and git ls-files returns no tracked sensitive files.

If fail: If sensitive files are tracked, run git rm --cached <file> to untrack them, add to .gitignore, and commit. The file remains on disk but is no longer version-controlled.

Step 3: Audit Dependencies

Node.js:

npm audit
npx audit-ci --moderate

Python:

pip-audit
safety check

R:

# Check for known vulnerabilities in packages
# No built-in tool, but verify package sources
renv::status()

Got: No high or critical vulnerabilities in dependencies. Moderate and low vulnerabilities documented for review.

If fail: If critical vulnerabilities are found, update the affected packages immediately with npm audit fix or pip install --upgrade. If updates introduce breaking changes, document the vulnerability and create a remediation plan.

Step 4: Check for Injection Vulnerabilities

SQL Injection:

# Look for string concatenation in queries
grep -rn "paste.*SELECT\|paste.*INSERT\|paste.*UPDATE\|paste.*DELETE" --include="*.R" .
grep -rn "query.*\+.*\|query.*\$\{" --include="*.{js,ts}" .

All database queries should use parameterized queries, not string concatenation.

Command Injection:

# Look for shell execution with user input
grep -rn "system\(.*paste\|exec(\|spawn(" --include="*.{R,js,ts,py}" .

XSS (Cross-Site Scripting):

# Look for unescaped user content in HTML
grep -rn "innerHTML\|dangerouslySetInnerHTML\|v-html" --include="*.{js,ts,jsx,tsx,vue}" .

Got: No SQL, command, or XSS injection vectors found. All database queries use parameterized statements, shell commands avoid user-controlled input, and HTML output is properly escaped.

If fail: If injection vulnerabilities are found, replace string concatenation in queries with parameterized queries, sanitize or escape user input before shell execution, and use framework-safe rendering methods instead of innerHTML or dangerouslySetInnerHTML.

Step 5: Review Authentication and Authorization

Checklist:

• Passwords hashed with bcrypt/argon2 (not MD5/SHA1)
• Session tokens are random and sufficiently long
• Authentication tokens have expiration
• API endpoints check authorization
• CORS configured restrictively
• CSRF protection enabled for state-changing operations

Got: All checklist items pass: passwords use strong hashing, tokens are random with expiration, endpoints enforce authorization, CORS is restrictive, and CSRF protection is active.

If fail: Prioritize fixes by severity: weak password hashing and missing authorization are critical, while CORS and CSRF issues are high. Document all findings with their severity level.

Step 6: Check Configuration Security

# Debug mode in production configs
grep -rn "debug\s*[=:]\s*[Tt]rue\|DEBUG\s*=\s*1" --include="*.{json,yml,yaml,toml,cfg}" .

# Permissive CORS
grep -rn "Access-Control-Allow-Origin.*\*\|cors.*origin.*\*" --include="*.{js,ts}" .

# HTTP instead of HTTPS
grep -rn "http://" --include="*.{js,ts,py,R}" . | grep -v "localhost\|127.0.0.1\|http://"

Got: Debug mode is disabled in production configurations, CORS does not use wildcard origins in production, and all external URLs use HTTPS.

If fail: If debug mode is enabled in production configs, disable it immediately. Replace wildcard CORS origins with explicit allowed domains. Update http:// URLs to https:// where the endpoint supports it.

Step 7: Document Findings

Create an audit report:

# Security Audit Report

**Date**: YYYY-MM-DD
**Auditor**: [Name]
**Scope**: [Repository/Project]
**Status**: [PASS/FAIL/CONDITIONAL]

## Findings Summary

| Category | Status | Details |
|----------|--------|---------|
| Exposed secrets | PASS | No secrets found |
| .gitignore | PASS | Sensitive files excluded |
| Dependencies | WARN | 2 moderate vulnerabilities |
| Injection | PASS | Parameterized queries used |
| Auth/AuthZ | N/A | No authentication in scope |
| Configuration | PASS | Debug mode disabled |

## Detailed Findings

### Finding 1: [Title]
- **Severity**: Low / Medium / High / Critical
- **Location**: `path/to/file:line`
- **Description**: What was found
- **Recommendation**: How to fix
- **Status**: Open / Resolved

## Recommendations
1. Update dependencies to fix moderate vulnerabilities
2. [Additional recommendations]

Got: A complete SECURITY_AUDIT_REPORT.md saved in the project root with findings categorized by severity, each with a specific location, description, and recommendation.

If fail: With too many findings to document individually, group by category and prioritize critical/high findings. Generate the report regardless of outcome to establish a baseline.

Validation

• No hardcoded secrets in source code
• .gitignore covers all sensitive files
• No high/critical dependency vulnerabilities
• No injection vulnerabilities
• Authentication is properly implemented (if applicable)
• Audit report is complete and findings addressed

Pitfalls

• Only checking current files: Secrets in git history are still exposed. Check with git log -p --all -S 'secret_pattern'.
• Ignoring dev dependencies: Development dependencies can still introduce supply chain risks.
• False sense of security from .gitignore: .gitignore only prevents future tracking. Already-committed files need git rm --cached.
• Overlooking configuration files: docker-compose.yml, CI configs, and deployment scripts often contain secrets.
• Not rotating compromised credentials: Finding and removing a secret is not enough. The credential must be revoked and regenerated.

Related Skills

• configure-git-repository - proper .gitignore setup
• write-claude-md - documenting security requirements
• setup-gxp-r-project - security in regulated environments