Book Image

The Web Application Hacker's Handbook

By : Dafydd Stuttard, Marcus Pinto
Book Image

The Web Application Hacker's Handbook

By: Dafydd Stuttard, Marcus Pinto

Overview of this book

Web applications are the front door to most organizations, exposing them to attacks that may disclose personal information, execute fraudulent transactions, or compromise ordinary users. This practical book has been completely updated and revised to discuss the latest step-by-step techniques for attacking and defending the range of ever-evolving web applications. Youíll explore the various new technologies employed in web applications that have appeared since the first edition and review the new attack techniques that have been developed, particularly in relation to the client side. The book starts with the current state of web application security and the trends that indicate how it is likely to evolve soon. Youíll examine the core security problem affecting web applications and the defence mechanisms that applications implement to address this problem, and youíll also explore the key technologies used in todayís web application. Next, youíll carry out tasks for breaking into web applications and for executing a comprehensive attack. As you progress, youíll learn to find vulnerabilities in an application's source code and review the tools that can help when you hack web applications. Youíll also study a detailed methodology for performing a comprehensive and deep attack against a specific target. By the end of this book, youíll be able to discover security flaws in web applications and how to deal with them.
Table of Contents (32 chapters)
Free Chapter
About the Authors
About the Technical Editor
MDSec: The Authors’ Company
End User License Agreement


Answers can be found at

  1. Unless any special defenses are in place, why are stack-based buffer overflows generally easier to exploit than heap-based overflows?
  2. In the C and C++ languages, how is a string's length determined?
  3. Why would a buffer overflow vulnerability in an off-the-shelf network device normally have a much higher likelihood of exploitation than an overflow in a proprietary web application running on the Internet?
  4. Why would the following fuzz string fail to identify many instances of format string vulnerabilities?
  5. You are probing for buffer overflow vulnerabilities in a web application that makes extensive use of native code components. You find a request that may contain a vulnerability in one of its parameters; however, the anomalous behavior you have observed is difficult to reproduce reliably. Sometimes submitting a long value causes an immediate crash. Sometimes you...