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Linux Kernel Programming

You're reading from   Linux Kernel Programming A comprehensive and practical guide to kernel internals, writing modules, and kernel synchronization

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Product type Paperback
Published in Feb 2024
Publisher Packt
ISBN-13 9781803232225
Length 826 pages
Edition 2nd Edition
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Author (1):
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Kaiwan N. Billimoria Kaiwan N. Billimoria
Author Profile Icon Kaiwan N. Billimoria
Kaiwan N. Billimoria
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Table of Contents (16) Chapters Close

Preface 1. Linux Kernel Programming – A Quick Introduction 2. Building the 6.x Linux Kernel from Source – Part 1 FREE CHAPTER 3. Building the 6.x Linux Kernel from Source – Part 2 4. Writing Your First Kernel Module – Part 1 5. Writing Your First Kernel Module – Part 2 6. Kernel Internals Essentials – Processes and Threads 7. Memory Management Internals – Essentials 8. Kernel Memory Allocation for Module Authors – Part 1 9. Kernel Memory Allocation for Module Authors – Part 2 10. The CPU Scheduler – Part 1 11. The CPU Scheduler – Part 2 12. Kernel Synchronization – Part 1 13. Kernel Synchronization – Part 2 14. Other Books You May Enjoy
15. Index

Understanding the kernel architecture – part 1

In this section, we begin to deepen our understanding of the Linux kernel. More specifically, here, we delve into what user and kernel spaces are, and the major subsystems and various components that make up the kernel. This information is dealt with at a higher level of abstraction for now and is deliberately kept brief. We shall delve a lot deeper into understanding the fabric of the kernel in Chapter 6, Kernel Internals Essentials – Processes and Threads.

User space and kernel space

Modern microprocessors support code execution at a minimum of two privilege levels. As a real-world example, the Intel/AMD x86[-64] family supports four privilege levels (they call them ring levels), the AArch32 (ARM-32) microprocessor family supports up to seven modes (ARM calls them execution modes; six are privileged and one is non-privileged), and the AArch64 (ARM-64/ARMv8) microprocessor family supports four exception levels ...

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