Input Validation Cheat Sheet



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This article is focused on providing clear, simple, actionable guidance for providing Input Validation security functionality in your applications.

Goal of Input Validation
Input validation is performed to minimize malformed data from entering the system. Input Validation is NOT the primary method of preventing XSS, SQL Injection. These are covered in output encoding and related cheat sheets.

White List Input Validation
It is always recommended to prevent attacks as early as possible in the processing of the user’s (attacker's) request. Input validation can be used to detect unauthorized input before it is processed by the application. Developers frequently perform black list validation in order to try to detect attack characters and patterns like the ' character, the string 1=1, or the &lt;script&gt; tag, but this is a massively flawed approach as it is typically trivial for an attacker to avoid getting caught by such filters. Plus, such filters frequently prevent authorized input, like O'Brian, when the ' character is being filtered out. For more information of XSS filter evasion please see the [XSS Filter Evasion Cheat Sheet].

White list validation is appropriate for all input fields provided by the user. White list validation involves defining exactly what IS authorized, and by definition, everything else is not authorized. If it's well structured data, like dates, social security numbers, zip codes, e-mail addresses, etc. then the developer should be able to define a very strong validation pattern, usually based on regular expressions, for validating such input. If the input field comes from a fixed set of options, like a drop down list or radio buttons, then the input needs to match exactly one of the values offered to the user in the first place. The most difficult fields to validate are so called 'free text' fields, like blog entries. However, even those types of fields can be validated to some degree. For example, you can at least exclude all non-printable characters, and define a maximum size for the input field. However, this is not a robust defense and should not be depended on.

Developing regular expressions can be complicated, and is well beyond the scope of this cheat sheet. There are lots of resources on the internet about how to write regular expressions, including: http://www.regular-expressions.info/ and the OWASP Validation Regex Repository.

In summary, input validation should:
 * Be applied to all input data, at minimum
 * Define the types of characters that can be accepted
 * Defines a minimum and maximum length for the data (e.g. {1,25} )

White List Regular Expression Examples
Validating a Zip Code (5 digits plus optional -4) ^\d{5}(-\d{4})?$

Validating U.S. State Selection From a Drop-Down Menu ^(AA|AE|AP|AL|AK|AS|AZ|AR|CA|CO|CT|DE|DC|FM|FL|GA|GU| HI|ID|IL|IN|IA|KS|KY|LA|ME|MH|MD|MA|MI|MN|MS|MO|MT|NE| NV|NH|NJ|NM|NY|NC|ND|MP|OH|OK|OR|PW|PA|PR|RI|SC|SD|TN| TX|UT|VT|VI|VA|WA|WV|WI|WY)$

Java Regex Usage Example

Example validating the parameter “zip” using a regular expression. private static final Pattern zipPattern = Pattern.compile("^\d{5}(-\d{4})?$"); public void doPost( HttpServletRequest request, HttpServletResponse response) { try { String zipCode = request.getParameter( "zip" ); if ( !zipPattern.matcher( zipCode ).matches {  			throw new YourValidationException( "Improper zipcode format." ); 		}  		.. do what you want here, after its been validated ..  	} catch(YourValidationException e ) {  		response.sendError( response.SC_BAD_REQUEST, e.getMessage );  	}  }

Some white list validators have also been predefined in various open source packages that you can leverage. For example:
 * Apache Commons Validator

Client Side vs Server Side Validation
Be aware that any JavaScript input validation performed on the client can be bypassed by an attacker that disables JavaScript or uses a Web Proxy. Ensure that any input validation performed on the client is also performed on the server.

Validating Rich User Content
It is very difficult to validate rich content submitted by a user. For more information please see the cheatsheet on Sanitizing HTML Markup with a Library Designed for the Job].

Preventing XSS and Content Security Policy

 * All user data controlled must be encoded when returned in the html page to prevent the execution of malicious data (e.g. XSS). For example &lt;script&gt; would be returned as &amp;lt;script&amp;gt;
 * The type of encoding is specific to the context of the page where the user controlled data is inserted. For example, HTML entity encoding is appropriate for data placed into the HTML body. However, user data placed into a script would need JavaScript specific output encoding

Detailed information on XSS prevention here: OWASP XSS Prevention Cheat Sheet

= File Upload Validation =

Many websites allow users to upload files, such as a profile picture or more. This section helps provide that feature securely.

Upload Verification

 * Use input validation to ensure the uploaded filename uses an expected extension type
 * Ensure the uploaded file is not larger than a defined maximum file size

Upload Storage

 * Use a new filename to store the file on the OS. Do not use any user controlled text for this filename or for the temporary filename.
 * Uploaded files should be analyzed for malicious content (anti-malware, static analysis, etc)

Public Serving of Uploaded Content

 * Ensure uploaded images are served with the correct content-type (e.g. image/jpeg, application/x-xpinstall)

Beware of "special" files

 * The upload feature should be using a whitelist approach to only allow specific file types and extensions. However, it is important to be aware of the following file types that, if allowed, could result in security vulnerabilities.
 * "crossdomain.xml" allows cross-domain data loading in Flash, Java and Silverlight. If permitted on sites with authentication this can permit cross-domain data theft and CSRF attacks.  Note this can get pretty complicated depending on the specific plugin version in question, so its best to just prohibit files named "crossdomain.xml" or "clientaccesspolicy.xml".
 * ".htaccess" and ".htpasswd" provides server configuration options on a per-directory basis, and should not be permitted. See http://en.wikipedia.org/wiki/Htaccess

Upload Verification

 * Use image rewriting libraries to verify the image is valid and to strip away extraneous content.
 * Set the extension of the stored image to be a valid image extension based on the detected content type of the image from image processing (e.g. do not just trust the header from the upload).
 * Ensure the detected content type of the image is within a list of defined image types (jpg, png, etc)

= Email Address Validation =

Email Validation Basics
Many web applications do not treat email addresses correctly due to common misconceptions about what constitutes a valid address. Specifically, it is completely valid to have an mailbox address which:
 * Is case sensitive in the local portion of the address (left of the rightmost @ character)
 * Has non-alphanumeric characters in the local-part (including + and @)
 * Has zero or more labels

At the time of writing, RFC 5321 is the current standard defining SMTP and what constitutes a valid mailbox address. Please note, email addresses should be considered to be public data.

Many web applications contain computationally expensive and inaccurate regular expressions that attempt to validate email addresses. Recent changes to the landscape mean that the number of false-negatives will increase, particularly due to:
 * Increased popularity of sub-addressing by providers such as Gmail (commonly using + as a token in the local-part to affect delivery)
 * New gTLDs with long names (many regular expressions check the number and length of each label in the domain)

Following RFC 5321, best practice for validating an email address would be to:
 * Check for presence of at least one @ symbol in the address
 * Ensure the local-part is no longer than 64 octets
 * Ensure the domain is no longer than 255 octets
 * Ensure the address is deliverable

To ensure an address is deliverable, the only way to check this is to send the user an email and have the user take action to confirm receipt. Beyond confirming that the email address is valid and deliverable, this also provides a positive acknowledgement that the user has access to the mailbox and is likely to be authorized to use it. This does not mean that other users cannot access this mailbox, for example when the user makes use of a service that generates a throw away email address.
 * Email verification links should only satisfy the requirement of verify email address ownership and should not provide the user with an authenticated session (e.g. the user must still authenticate as normal to access the application).
 * Email verification codes must expire after the first use or expire after 8 hours if not used.

Address Normalization
As the local-part of email addresses are, in fact - case sensitive, it is important to store and compare email addresses correctly. To normalise an email address input, you would convert the domain part ONLY to lowercase.

Unfortunately this does and will make input harder to normalise and correctly match to a users intent. It is reasonable to only accept one unique capitalisation of an otherwise identical address, however in this case it is critical to:
 * Store the user-part as provided and verified by user verification
 * Perform comparisons by lowercase(provided)==lowercase(persisted)

= Authors and Primary Editors =

Dave Wichers - dave.wichers [at] aspectsecurity.com

Other Cheatsheets

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