When discussing hooking techniques (In case Chapter 8, Code Injection and Hooking,in the Hooking Techniques section), we saw how some malware programs modify the call table (IAT Hooking) and some modify the API function (inline hooking) to control the execution path of the program and re-route it to the malicious code. The objective is to block calls to the API, monitor input parameters passed to the API, or to filter the output parameters returned from the API. The techniques covered in Chapter 8, Code Injection and Hooking, mainly focused on hooking techniques in the user space. Similar capabilities are possible in the kernel space if an attacker manages to install a kernel driver. Hooking in a kernel space is more powerful approach an than hooking in a user space, because kernel components play a very important role in the operation of the system as a whole. It allows an attacker to execute code with high privileges, giving them the capability to conceal...
Learning Malware Analysis
By :
Learning Malware Analysis
By:
Overview of this book
Malware analysis and memory forensics are powerful analysis and investigation techniques used in reverse engineering, digital forensics, and incident response. With adversaries becoming sophisticated and carrying out advanced malware attacks on critical infrastructures, data centers, and private and public organizations, detecting, responding to, and investigating such intrusions is critical to information security professionals. Malware analysis and memory forensics have become must-have skills to fight advanced malware, targeted attacks, and security breaches.
This book teaches you the concepts, techniques, and tools to understand the behavior and characteristics of malware through malware analysis. It also teaches you techniques to investigate and hunt malware using memory forensics.
This book introduces you to the basics of malware analysis, and then gradually progresses into the more advanced concepts of code analysis and memory forensics. It uses real-world malware samples, infected memory images, and visual diagrams to help you gain a better understanding of the subject and to equip you with the skills required to analyze, investigate, and respond to malware-related incidents.
Table of Contents (19 chapters)
Title Page
Copyright and Credits
Dedication
Packt Upsell
Contributors
Preface
Free Chapter
Introduction to Malware Analysis
Static Analysis
Dynamic Analysis
Assembly Language and Disassembly Primer
Disassembly Using IDA
Debugging Malicious Binaries
Malware Functionalities and Persistence
Code Injection and Hooking
Malware Obfuscation Techniques
Hunting Malware Using Memory Forensics
Detecting Advanced Malware Using Memory Forensics
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Index
Customer Reviews