| name | ffuf-web-fuzzing |
| description | Expert guidance for ffuf web fuzzing during penetration testing, including authenticated fuzzing with raw requests, auto-calibration, and result analysis |
| contributor | Joseph Thacker (@rez0) |
FFUF (Fuzz Faster U Fool) Skill
Contributed by: Joseph Thacker (@rez0)
Overview
FFUF is a fast web fuzzer written in Go, designed for discovering hidden content, directories, files, subdomains, and testing for vulnerabilities during penetration testing. It's significantly faster than traditional tools like dirb or dirbuster.
Installation
go install github.com/ffuf/ffuf/v2@latest
brew install ffuf
Core Concepts
The FUZZ Keyword
The FUZZ keyword is used as a placeholder that gets replaced with entries from your wordlist. You can place it anywhere:
- URLs:
https://target.com/FUZZ
- Headers:
-H "Host: FUZZ"
- POST data:
-d "username=admin&password=FUZZ"
- Multiple locations with custom keywords:
-w wordlist.txt:CUSTOM then use CUSTOM instead of FUZZ
Multi-wordlist Modes
- clusterbomb: Tests all combinations (default) - cartesian product
- pitchfork: Iterates through wordlists in parallel (1-to-1 matching)
- sniper: Tests one position at a time (for multiple FUZZ positions)
Common Use Cases
1. Directory and File Discovery
ffuf -w /path/to/wordlist.txt -u https://target.com/FUZZ
ffuf -w /path/to/wordlist.txt -u https://target.com/FUZZ -e .php,.html,.txt,.pdf
ffuf -w /path/to/wordlist.txt -u https://target.com/FUZZ -c -v
ffuf -w /path/to/wordlist.txt -u https://target.com/FUZZ -recursion -recursion-depth 2
2. Subdomain Enumeration
ffuf -w /path/to/subdomains.txt -u https://target.com -H "Host: FUZZ.target.com" -fs 4242
3. Parameter Fuzzing
ffuf -w /path/to/params.txt -u https://target.com/script.php?FUZZ=test_value -fs 4242
ffuf -w /path/to/values.txt -u https://target.com/script.php?id=FUZZ -fc 401
ffuf -w params.txt:PARAM -w values.txt:VAL -u https://target.com/?PARAM=VAL -mode clusterbomb
4. POST Data Fuzzing
ffuf -w /path/to/passwords.txt -X POST -d "username=admin&password=FUZZ" -u https://target.com/login.php -fc 401
ffuf -w entries.txt -u https://target.com/api -X POST -H "Content-Type: application/json" -d '{"name": "FUZZ", "key": "value"}' -fr "error"
ffuf -w users.txt:USER -w passes.txt:PASS -X POST -d "username=USER&password=PASS" -u https://target.com/login -mode pitchfork
5. Header Fuzzing
ffuf -w /path/to/wordlist.txt -u https://target.com -H "X-Custom-Header: FUZZ"
ffuf -w /path/to/wordlist.txt -u https://target.com -H "User-Agent: FUZZ" -H "X-Forwarded-For: 127.0.0.1"
Filtering and Matching
Matchers (Include Results)
-mc: Match status codes (default: 200-299,301,302,307,401,403,405,500)
-ml: Match line count
-mr: Match regex
-ms: Match response size
-mt: Match response time (e.g., >100 or <100 milliseconds)
-mw: Match word count
Filters (Exclude Results)
-fc: Filter status codes (e.g., -fc 404,403,401)
-fl: Filter line count
-fr: Filter regex (e.g., -fr "error")
-fs: Filter response size (e.g., -fs 42,4242)
-ft: Filter response time
-fw: Filter word count
Auto-Calibration (USE BY DEFAULT!)
CRITICAL: Always use -ac unless you have a specific reason not to. This is especially important when having Claude analyze results, as it dramatically reduces noise and false positives.
ffuf -w /path/to/wordlist.txt -u https://target.com/FUZZ -ac
ffuf -w /path/to/wordlist.txt -u https://target.com/FUZZ -ach
ffuf -w /path/to/wordlist.txt -u https://target.com/FUZZ -acc "404NotFound"
Why -ac is essential:
- Automatically detects and filters repetitive false positive responses
- Removes noise from dynamic websites with random content
- Makes results analysis much easier for both humans and Claude
- Prevents thousands of identical 404/403 responses from cluttering output
- Adapts to the target's specific behavior
When Claude analyzes your ffuf results, -ac is MANDATORY - without it, Claude will waste time sifting through thousands of false positives instead of finding the interesting anomalies.
Rate Limiting and Timing
Rate Control
ffuf -w /path/to/wordlist.txt -u https://target.com/FUZZ -rate 2
ffuf -w /path/to/wordlist.txt -u https://target.com/FUZZ -p 0.1-2.0
ffuf -w /path/to/wordlist.txt -u https://target.com/FUZZ -t 10
Time Limits
ffuf -w /path/to/wordlist.txt -u https://target.com/FUZZ -maxtime 60
ffuf -w /path/to/wordlist.txt -u https://target.com/FUZZ -maxtime-job 60 -recursion
Output Options
Output Formats
ffuf -w /path/to/wordlist.txt -u https://target.com/FUZZ -o results.json
ffuf -w /path/to/wordlist.txt -u https://target.com/FUZZ -of html -o results.html
ffuf -w /path/to/wordlist.txt -u https://target.com/FUZZ -of csv -o results.csv
ffuf -w /path/to/wordlist.txt -u https://target.com/FUZZ -of all -o results
ffuf -w /path/to/wordlist.txt -u https://target.com/FUZZ -s
ffuf -w /path/to/wordlist.txt -u https://target.com/FUZZ -s | tee results.txt
Advanced Techniques
Using Raw HTTP Requests (Critical for Authenticated Fuzzing)
This is one of the most powerful features of ffuf, especially for authenticated requests with complex headers, cookies, or tokens.
Workflow:
- Capture a full authenticated request (from Burp Suite, browser DevTools, etc.)
- Save it to a file (e.g.,
req.txt)
- Replace the value you want to fuzz with the
FUZZ keyword
- Use the
--request flag
ffuf --request req.txt -w /path/to/wordlist.txt -ac
Example req.txt file:
POST /api/v1/users/FUZZ HTTP/1.1
Host: target.com
User-Agent: Mozilla/5.0
Authorization: Bearer eyJhbGciOiJIUzI1NiIsInR5cCI6IkpXVCJ9...
Cookie: session=abc123xyz; csrftoken=def456
Content-Type: application/json
Content-Length: 27
{"action":"view","id":"1"}
Use Cases:
- Fuzzing authenticated endpoints with complex auth headers
- Testing API endpoints with JWT tokens
- Fuzzing with CSRF tokens, session cookies, and custom headers
- Testing endpoints that require specific User-Agents or Accept headers
- POST/PUT/DELETE requests with authentication
Pro Tips:
- You can place FUZZ in multiple locations: URL path, headers, body
- Use
-request-proto https if needed (default is https)
- Always use
-ac to filter out authenticated "not found" or error responses
- Great for IDOR testing: fuzz user IDs, document IDs, etc. in authenticated contexts
ffuf --request req.txt -w user_ids.txt -ac -mc 200 -o results.json
ffuf --request req.txt -w endpoints.txt:ENDPOINT -w ids.txt:ID -mode pitchfork -ac
Proxy Usage
ffuf -w /path/to/wordlist.txt -u https://target.com/FUZZ -x http://127.0.0.1:8080
ffuf -w /path/to/wordlist.txt -u https://target.com/FUZZ -x socks5://127.0.0.1:1080
ffuf -w /path/to/wordlist.txt -u https://target.com/FUZZ -replay-proxy http://127.0.0.1:8080
Cookie and Authentication
ffuf -w /path/to/wordlist.txt -u https://target.com/FUZZ -b "sessionid=abc123; token=xyz789"
ffuf -w /path/to/wordlist.txt -u https://target.com/FUZZ -cc client.crt -ck client.key
Encoding
ffuf -w /path/to/wordlist.txt -u https://target.com/FUZZ -enc 'FUZZ:urlencode'
ffuf -w /path/to/wordlist.txt -u https://target.com/FUZZ -enc 'FUZZ:urlencode b64encode'
Testing for Vulnerabilities
ffuf -w sqli_payloads.txt -u https://target.com/page.php?id=FUZZ -fs 1234
ffuf -w xss_payloads.txt -u https://target.com/search?q=FUZZ -mr "<script>"
ffuf -w cmdi_payloads.txt -u https://target.com/execute?cmd=FUZZ -fr "error"
Batch Processing Multiple Targets
cat targets.txt | xargs -I@ sh -c 'ffuf -w wordlist.txt -u @/FUZZ -ac'
for url in $(cat targets.txt); do
ffuf -w wordlist.txt -u $url/FUZZ -ac -o "results_$(echo $url | md5sum | cut -d' ' -f1).json"
done
Best Practices
1. ALWAYS Use Auto-Calibration
Use -ac by default for every scan. This is non-negotiable for productive pentesting:
ffuf -w wordlist.txt -u https://target.com/FUZZ -ac
2. Use Raw Requests for Authentication
Don't struggle with command-line flags for complex auth. Capture the full request and use --request:
ffuf --request req.txt -w wordlist.txt -ac -o results.json
3. Use Appropriate Wordlists
- Directory discovery: SecLists Discovery/Web-Content (raft-large-directories.txt, directory-list-2.3-medium.txt)
- Subdomains: SecLists Discovery/DNS (subdomains-top1million-5000.txt)
- Parameters: SecLists Discovery/Web-Content (burp-parameter-names.txt)
- Usernames: SecLists Usernames
- Passwords: SecLists Passwords
- Source: https://github.com/danielmiessler/SecLists
3. Rate Limiting for Stealth
Use -rate to avoid triggering WAF/IDS or overwhelming the server:
ffuf -w wordlist.txt -u https://target.com/FUZZ -rate 2 -t 10
4. Filter Strategically
- Check the default response first to identify common response sizes, status codes, or patterns
- Use
-fs to filter by size or -fc to filter by status code
- Combine filters:
-fc 403,404 -fs 1234
5. Save Results Appropriately
Always save results to a file for later analysis:
ffuf -w wordlist.txt -u https://target.com/FUZZ -o results.json -of json
6. Use Interactive Mode
Press ENTER during execution to drop into interactive mode where you can:
- Adjust filters on the fly
- Save current results
- Restart the scan
- Manage the queue
7. Recursion Depth
Be careful with recursion depth to avoid getting stuck in infinite loops or overwhelming the server:
ffuf -w wordlist.txt -u https://target.com/FUZZ -recursion -recursion-depth 2 -maxtime-job 120
Common Patterns and One-Liners
Quick Directory Scan
ffuf -w ~/wordlists/common.txt -u https://target.com/FUZZ -mc 200,301,302,403 -ac -c -v
Comprehensive Scan with Extensions
ffuf -w ~/wordlists/raft-large-directories.txt -u https://target.com/FUZZ -e .php,.html,.txt,.bak,.old -ac -c -v -o results.json
Authenticated Fuzzing (Raw Request)
ffuf --request req.txt -w ~/wordlists/api-endpoints.txt -ac -o results.json -of json
API Endpoint Discovery
ffuf -w ~/wordlists/api-endpoints.txt -u https://api.target.com/v1/FUZZ -H "Authorization: Bearer TOKEN" -mc 200,201 -ac -c
Subdomain Discovery with Auto-Calibration
ffuf -w ~/wordlists/subdomains-top5000.txt -u https://FUZZ.target.com -ac -c -v
POST Login Brute Force
ffuf -w ~/wordlists/passwords.txt -X POST -d "username=admin&password=FUZZ" -u https://target.com/login -fc 401 -rate 5 -ac
IDOR Testing with Auth
ffuf --request req.txt -w numbers.txt -ac -mc 200 -fw 100-200
Configuration File
Create ~/.config/ffuf/ffufrc for default settings:
[http]
headers = ["User-Agent: Mozilla/5.0"]
timeout = 10
[general]
colors = true
threads = 40
[matcher]
status = "200-299,301,302,307,401,403,405,500"
Troubleshooting
Too Many False Positives
- Use
-ac for auto-calibration
- Check default response and filter by size with
-fs
- Use regex filtering with
-fr
Too Slow
- Increase threads:
-t 100
- Reduce wordlist size
- Use
-ignore-body if you don't need response content
Getting Blocked
- Reduce rate:
-rate 2
- Add delays:
-p 0.5-1.5
- Reduce threads:
-t 10
- Randomize User-Agent
- Use proxy rotation
Missing Results
- Check if you're filtering too aggressively
- Use
-mc all to see all responses
- Disable auto-calibration temporarily
- Use verbose mode
-v to see what's happening
Resources
Quick Reference Card
| Task | Command Template |
|---|
| Directory Discovery | ffuf -w wordlist.txt -u https://target.com/FUZZ -ac |
| Subdomain Discovery | ffuf -w subdomains.txt -u https://FUZZ.target.com -ac |
| Parameter Fuzzing | ffuf -w params.txt -u https://target.com/page?FUZZ=value -ac |
| POST Data Fuzzing | ffuf -w wordlist.txt -X POST -d "param=FUZZ" -u https://target.com/endpoint |
| With Extensions | Add -e .php,.html,.txt |
| Filter Status | Add -fc 404,403 |
| Filter Size | Add -fs 1234 |
| Rate Limit | Add -rate 2 |
| Save Output | Add -o results.json |
| Verbose | Add -c -v |
| Recursion | Add -recursion -recursion-depth 2 |
| Through Proxy | Add -x http://127.0.0.1:8080 |
Additional Resources
This skill includes supplementary materials in the resources/ directory:
Resource Files
- WORDLISTS.md: Comprehensive guide to SecLists wordlists, recommended lists for different scenarios, file extensions, and quick reference patterns
- REQUEST_TEMPLATES.md: Pre-built req.txt templates for common authentication scenarios (JWT, OAuth, session cookies, API keys, etc.) with usage examples
Helper Script
- ffuf_helper.py: Python script to assist with:
- Analyzing ffuf JSON results for anomalies and interesting findings
- Creating req.txt template files from command-line arguments
- Generating number-based wordlists for IDOR testing
Helper Script Usage:
python3 ffuf_helper.py analyze results.json
python3 ffuf_helper.py create-req -o req.txt -m POST -u "https://api.target.com/users" \
-H "Authorization: Bearer TOKEN" -d '{"action":"FUZZ"}'
python3 ffuf_helper.py wordlist -o ids.txt -t numbers -s 1 -e 10000
When to use resources:
- Users need wordlist recommendations → Reference WORDLISTS.md
- Users need help with authenticated requests → Reference REQUEST_TEMPLATES.md
- Users want to analyze results → Use ffuf_helper.py analyze
- Users need to generate req.txt → Use ffuf_helper.py create-req
- Users need number ranges for IDOR → Use ffuf_helper.py wordlist
Notes for Claude
When helping users with ffuf:
- ALWAYS include
-ac in every command - This is mandatory for productive pentesting and result analysis
- When users mention authenticated fuzzing or provide auth tokens/cookies:
- Suggest creating a
req.txt file with the full HTTP request
- Show them how to insert FUZZ where they want to fuzz
- Use
ffuf --request req.txt -w wordlist.txt -ac
- Always recommend starting with
-ac for auto-calibration
- Suggest appropriate wordlists from SecLists based on the task
- Remind users to use rate limiting (
-rate) for production targets
- Encourage saving output to files for documentation:
-o results.json
- Suggest filtering strategies based on initial reconnaissance
- Always use the FUZZ keyword (case-sensitive)
- Consider stealth: lower threads, rate limiting, and delays for sensitive targets
- For pentesting reports, use
-of html or -of csv for client-friendly formats
- When analyzing ffuf results for users:
- Assume they used
-ac (if not, results will be too noisy)
- Focus on anomalies: different status codes, response sizes, timing
- Look for interesting endpoints: admin, api, backup, config, .git, etc.
- Flag potential vulnerabilities: error messages, stack traces, version info
- Suggest follow-up fuzzing on interesting findings