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Mastering Malware Analysis

You're reading from   Mastering Malware Analysis The complete malware analyst's guide to combating malicious software, APT, cybercrime, and IoT attacks

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Product type Paperback
Published in Jun 2019
Publisher Packt
ISBN-13 9781789610789
Length 562 pages
Edition 1st Edition
Languages
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Authors (2):
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Alexey Kleymenov Alexey Kleymenov
Author Profile Icon Alexey Kleymenov
Alexey Kleymenov
Amr Thabet Amr Thabet
Author Profile Icon Amr Thabet
Amr Thabet
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Toc

Table of Contents (18) Chapters Close

Preface 1. Section 1: Fundamental Theory FREE CHAPTER
2. A Crash Course in CISC/RISC and Programming Basics 3. Section 2: Diving Deep into Windows Malware
4. Basic Static and Dynamic Analysis for x86/x64 5. Unpacking, Decryption, and Deobfuscation 6. Inspecting Process Injection and API Hooking 7. Bypassing Anti-Reverse Engineering Techniques 8. Understanding Kernel-Mode Rootkits 9. Section 3: Examining Cross-Platform Malware
10. Handling Exploits and Shellcode 11. Reversing Bytecode Languages: .NET, Java, and More 12. Scripts and Macros: Reversing, Deobfuscation, and Debugging 13. Section 4: Looking into IoT and Other Platforms
14. Dissecting Linux and IoT Malware 15. Introduction to macOS and iOS Threats 16. Analyzing Android Malware Samples 17. Other Books You May Enjoy

Threads

A process without a running thread is like a dead body. A thread is not only the entity that represents an execution path inside a process (and each process can have one or more threads running simultaneously), but also a structure in the kernel that saves the whole state of that execution, including the registers, stack information, and the last error.

Each thread in Windows has a small time frame to run before it gets stopped to have another thread resumed (as the number of processor cores is much smaller than the number of threads running in the entire system). When Windows changes the execution from one thread to another, it takes a snapshot of the whole execution state (registers, stack, instruction pointer, and so on) and saves it in the thread structure to be able to resume it again from where it stopped.

All threads running in one process share the same resources of that process, including the virtual memory, open files, open sockets, DLLs, mutexes, and others, and they...

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