Codereview-Authentication

OWASP Code Review Guide Table of Contents

Introduction
“Who are you?” Authentication is the process where an entity proves the identity of another entity, typically through credentials, such as a username and password.

Depending on your requirements, there are several available authentication mechanisms to choose from. If they are not correctly chosen and implemented, the authentication mechanism can expose vulnerabilities that attackers can exploit to gain access to your system.

The storage of passwords and user credentials is also an issue from a defense in depth approach, but also from a compliance standpoint. The following section also discusses password storage and what to review for.

The following discusses aspects of source code relating to weak authentication functionality. This could be due to flawed implementation or broken business logic: Authentication is a key line of defence in protecting non-public data, sensitive functionality.

Weak Passwords and Password Functionality
Password strength should be enforced upon a user setting/selecting ones password. Passwords should be complex in composition. Such checks should be done on the backend/server side of the application upon an attempt to submit a new password.

Bad Example
Simply checking that a password is not NULL is not sufficient:

String password = request.getParameter("Password"); if (password == Null) {throw InvalidPasswordException }

Good Example
Passwords should be checked for the following composition or a variance of such


 * at least: 1 Upper character (A-Z)
 * at least: 1 Lower character (a-z)
 * at least: 1 digit (0-9)
 * at least one special character (!"£$%&...)
 * a defined minimum length (8 chars)
 * a defined maximum length (as with all external input)
 * no contiguous characters (123abcd)
 * not more than 2 identical characters in a row (1111)

Such rules should be looked for in code and used as soon as the http request is received. The rules can be complex RegEx expressions or logical code statements:

if password.RegEx([a-z]) and password.RegEx([A-Z]) and password.RegEx([0-9]) and password.RegEx({8-30}) and password.RexEX([!"£$%^&*])   return true; else return false;

(?=^.{8,30}$)(?=.*\d)(?=.*[a-z])(?=.*[A-Z])(?=.*[!@#$%^&*_+}{"":;'?/>.<,]).*$

.NET Authentication controls
In the .NET, there is Authentication tags in the configuration file.

The  element configures the authentication mode that your applications use.



The appropriate authentication mode depends on how your application or Web service has been designed. The default Machine.config setting applies a secure Windows authentication default as shown below.

 authentication Attributes:mode="[Windows|Forms|Passport|None]" 



 Forms Authentication Guidelines  To use Forms authentication, set mode=“Forms” on the element. Next, configure Forms authentication using the child element. The following fragment shows a secure authentication element configuration:

            Sliding session lifetime

Use the following recommendations to improve Forms authentication security:
 * Partition your Web site.
 * Set protection=“All”.
 * Use small cookie time-out values.
 * Consider using a fixed expiration period.
 * Use SSL with Forms authentication.
 * If you do not use SSL, set slidingExpiration = “false”.
 * Do not use the element on production servers.
 * Configure the  element.
 * Use unique cookie names and paths.

For classic ASP pages, authentication is usually performed manually by including the user information in session variables after validation against a DB, so you can look for something like: Session ("UserId") = UserName Session ("Roles") = UserRoles

Cookieless Forms authentication
Authentication tickets in forms are by default stored in cookies. (Authentication tickets are used to remember if the user has authenticated to the system) Such as a unique id in the cookie og the HTTP header. Other methods to preserve authentication in the stateless HTTP protocol. The directive cookieless can define thet type of authentication ticket to be used.

Types of cookieless values on the element:


 * UseCookies – specifies that cookie tickets will always be used.
 * UseUri – indicates that cookie tickets will never be used.
 * AutoDetect – cookie tickets are not used if device does not support such; if the device profile supports cookies, a probing function is used to determine if cookies are enabled.
 * UseDeviceProfile – the default setting if not defined; uses cookie-based authentication tickets only if the device profile supports cookies. A probing function is not used.

cookieless="UseUri" : What may be found in the element above

When we talk about probing we are refering to the user agent directive in the HTTP header. This can inform ASP.NET is cookies are supported.

Vulnerabilities related to authentication
There are many issues relating to authentication which utilise form fields. Inadequate field validation can give rise to the following issues:

SQL injection can be used to bypass authentication functionality and even add a malicious user to a system for future use. Data validation of all external input must be performed. This also goes for authentication fields. Cross site scripting can be used on the authentication page to perform identity theft, Phishing, and session hijacking attacks. Bad/weak error handling can be used to establish the internal workings of the authentication functionality such as giving insight into the database structure, insight into valid and invalid user ID's, etc.
 * Reviewing Code for SQL Injection
 * Reviewing Code for Data Validation
 * Reviewing code for XSS issues
 * Reviewing Code for Error Handling
 * Reviewing Code for Authentication