Solution Brief-- Web Application Firewall (WAF): Web Security ...

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2 Νοε 2013 (πριν από 4 χρόνια και 2 μήνες)

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Solution Brief
A10 Thunder™ & AX Series
Application Delivery Controllers (ADCs)

Web Application Level Security
Applications that provide services to end-users can be vulnerable
to many threats. Although many of these threats can be prevented
by application developers, this often is outside the web site owner’s
control. A Web Application Firewall (WAF) provides a layer of control
between end-users and applications.
A WAF ￿ lters all application access, inspecting both the tra￿ c towards
the web application and the response tra￿ c from the application. By
securing both the application infrastructure as well as the application
user, a WAF complements traditional network ￿ rewalls, which are not
designed to protect at this granular level.

Threat Vectors
Applications can be vulnerable to many threats that are not detected
by regular network ￿ rewalls. The impact of these attacks can be
quite severe. The Open Web Application Security Project (OWASP)
has compiled a list of the top 10 risks that still threaten many web
application deployments
1
. The top 10 of 2010 is virtually identical to
the new 2013 version; the most common attacks have not changed
dramatically over the years. Here are some examples:
 Injection: SQL Injection Attacks use a Web form or other
mechanism to send SQL commands or commands containing
SQL special characters. By sending these SQL commands, the
attacker can trigger the backend SQL database to execute the
injected commands and allow unauthorized users to obtain
sensitive information from the database.
 Cross-Site Scripting (XSS): XSS attacks exploit a Web server
that does not validate data coming from another site. XSS
can enable the attacker to obtain sensitive information, or to
compromise a Web server.
 Sensitive Data Exposure: If Web applications do not protect
sensitive data such as credit card numbers or Social Security
Numbers (SSN), attackers are able to conduct identity theft,
credit card fraud, or other crimes.
 Cross-Site Request Forgery (CSRF): CSRF attacks forge a
user to send an HTTP request, including the victim’s session
cookie, to a vulnerable web application. To the vulnerable web
application, this appears to be a legitimate request coming
from the victim.
Web Application Firewall (WAF)
Web Security Solution
WAF
Web Application
Good Request Attack
WAF
Deny
Servers
Log Server
Sanitized
Request
HTTP Request
• Method
• Version
• URI
• Query string
• Headers
• Cookies
• Content
1

https://www.owasp.org/index.php/Category:OWASP_Top_Ten_Project
Solution Brief
www.a10networks.com | © A10 Networks, Inc. All rights reserved.
FSB_WAF_052013.1

A10 WAF and Security
Available on its A10 Thunder or AX Series ADCs without license fees,
A10’s WAF module has many features to protect organizations from
the most common attacks, protecting applications from malicious
tra￿ c.
The WAF enables a full defense stack with other A10 security
mechanisms in order to protect web applications, ensure against
code vulnerabilities and prevent data leakage; this aids in regulatory
security compliance, such as Payment Card Industry (PCI) Data
Security Standard (DSS) requirements.
A10’s WAF feature is designed to recognize many of today’s threats,
with ￿ exibility to customize checks for emerging threats. The WAF
is tightly integrated with other A10 security features within the
Advanced Core Operating System (ACOS). Instead of integrating 3rd
party WAF code, as many other vendors do, A10 has developed the
WAF speci￿ cally for ACOS. This approach results in a highly scalable
and high performance security solution which is simple to con￿ gure.

Attack Mitigation Examples
The WAF module o￿ ers granular control of Web application data
￿ ows. The WAF has various ways of dealing with threat vectors that
can be launched at web applications.
Here are two use cases:
 The WAF can prevent bu￿ er over￿ ow attacks by setting
accepted maximum thresholds for aspects of HTTP requests,
and blocking requests that exceed the con￿ gured limits.
 The WAF can strip HTTP response headers to “cloak” server
information that can equip a hacker to target an attack on
your Web servers. For example, the WAF can cloak an HTTP
response header to hide the operating system that is running
on your servers. Exposed HTTP headers can enable a hacker to
more narrowly target your servers with attacks that are speci￿ c
to the servers’ operating systems.
The A10 WAF module o￿ ers many more features, including:
 Allowed HTTP keyword checks, such as GET, POST, and more
 SQL injection attack (SQLIA) check
 XSS check
 CSRF check
 Bad bot check
 Credit Card Number (CCN) masking
 Social Security Number (SSN) masking
 Perl Compatible Regular Expressions (PCRE) masking
 Cookie check
 Cookie encryption
 URI Black List/White List check
 HTTP protocol compliance check
 HTTP referer check
 Cloaking to hide server responses/error status codes
 Con￿ gurable deny action
 Passive/Learning/Active deployment
 More…

Conclusion
With A10, organizations can attain peace of mind knowing their
applications are protected from the most common attacks, especially
those whose consequences can far exceed “common” consequences.
A10 enables a full defense stack with WAF, DDoS protection,
Application Access Management (AAM), SSL Intercept and more on
its Thunder and AX Series appliances. All these features are designed
for ACOS from the ground up and are fully integrated. A10 provides
all these security features at no additional cost, as a single device
solution.
WAF
Scrubbed
Response
Servers
Log Server
HTTP Response
• Status
• Headers
• Cookies
• Content