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Some key terms used in security testing
Before we go further, it will be useful to be aware of a few
terms that are frequently used in web application security testing:
What is “Vulnerability”?
This is a weakness in the web application. The cause of such
a “weakness” can be bugs in the application, an injection (SQL/ script code) or
the presence of viruses.
What is “URL manipulation”?
Some web applications communicate additional information
between the client (browser) and the server in the URL. Changing some
information in the URL may sometimes lead to unintended behavior by the server.
What is “SQL injection”?
This is the process of inserting SQL statements through the
web application user interface into some query that is then executed by the
server.
What is “XSS (Cross Site Scripting)”?
When a user inserts HTML/ client-side script in the user
interface of a web application and this insertion is visible to other users, it
is called XSS.
What is “Spoofing”?
The creation of hoax look-alike websites or emails is called
spoofing.
Security testing approach:
In order to perform a useful security test of a web
application, the security tester should have good knowledge of the HTTP
protocol. It is important to have an understanding of how the client (browser)
and the server communicate using HTTP. Additionally, the tester should at least
know the basics of SQL injection and XSS. Hopefully, the number of security
defects present in the web application will not be high. However, being able to
accurately describe the security defects with all the required details to all
concerned will definitely help.
1. Password cracking:
The security testing on a web application can be kicked off
by “password cracking”. In order to log in to the private areas of the
application, one can either guess a username/ password or use some password
cracker tool for the same. Lists of common usernames and passwords are
available along with open source password crackers. If the web application does
not enforce a complex password (e.g. with alphabets, number and special
characters, with at least a required number of characters), it may not take
very long to crack the username and password.
If username or password is stored in cookies without
encrypting, attacker can use different methods to steal the cookies and then
information stored in the cookies like username and password.
For more details see article on “Website cookie testing”.
2. URL manipulation through HTTP GET methods:
The tester should check if the application passes important
information in the querystring. This happens when the application uses the HTTP
GET method to pass information between the client and the server. The
information is passed in parameters in the querystring. The tester can modify a
parameter value in the querystring to check if the server accepts it.
Via HTTP GET request user information is passed to server
for authentication or fetching data. Attacker can manipulate every input
variable passed from this GET request to server in order to get the required
information or to corrupt the data. In such conditions any unusual behavior by
application or web server is the doorway for the attacker to get into the
application.
3. SQL Injection:
The next thing that should be checked is SQL injection.
Entering a single quote (‘) in any textbox should be rejected by the
application. Instead, if the tester encounters a database error, it means that
the user input is inserted in some query which is then executed by the
application. In such a case, the application is vulnerable to SQL injection.
SQL injection attacks are very critical as attacker can get
vital information from server database. To check SQL injection entry points
into your web application, find out code from your code base where direct MySQL
queries are executed on database by accepting some user inputs.
If user input data is crafted in SQL queries to query the
database, attacker can inject SQL statements or part of SQL statements as user
inputs to extract vital information from database. Even if attacker is
successful to crash the application, from the SQL query error shown on browser,
attacker can get the information they are looking for. Special characters from
user inputs should be handled/escaped properly in such cases.
4. Cross Site Scripting (XSS):
The tester should additionally check the web application for
XSS (Cross site scripting). Any HTML e.g. <HTML> or any script e.g.
<SCRIPT> should not be accepted by the application. If it is, the
application can be prone to an attack by Cross Site Scripting.
Attacker can use this method to execute malicious script or
URL on victim’s browser. Using cross-site scripting, attacker can use scripts
like JavaScript to steal user cookies and information stored in the cookies.
Many web applications get some user information and pass
this information in some variables from different pages.
E.g.:
http://www.examplesite.com/index.php?userid=123&query=xyz
Attacker can easily pass some malicious input or
<script> as a ‘&query’ parameter which can explore important user/server
data on browser.
Important: During security testing, the tester should be
very careful not to modify any of the following:
* Configuration of the application or the
server
* Services running on the server
* Existing user or customer data hosted by the
application
Additionally, a security test should be avoided on a
production system.
The purpose of the security test is to discover the
vulnerabilities of the web application so that the developers can then remove
these vulnerabilities from the application and make the web application and
data safe from unauthorized actions.
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