You're reading from Linux Kernel Programming Part 2 - Char Device Drivers and Kernel Synchronization Create user-kernel interfaces, work with peripheral I/O, and handle hardware interrupts

Product type Paperback

Published in Mar 2021

Publisher Packt

ISBN-13 9781801079518

Length 452 pages

Edition 1st Edition

Tools

Linux

Concepts

System Administration

Author (1):

Kaiwan N. Billimoria

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Table of Contents (11) Chapters

Preface

1. Section 1: Character Device Driver Basics

2. Writing a Simple misc Character Device Driver FREE CHAPTER

3. User-Kernel Communication Pathways

4. Working with Hardware I/O Memory

5. Handling Hardware Interrupts

6. Working with Kernel Timers, Threads, and Workqueues

7. Section 2: Delving Deeper

8. Kernel Synchronization - Part 1

9. Kernel Synchronization - Part 2

10. Other Books You May Enjoy

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Determining which lock to use – in theory

How the spinlock is implemented is really not our concern here; the fact that the spinlock has a lower overhead than the mutex lock is of interest to us. How so? It's simple, really: for the mutex lock to work, the loser thread has to go to sleep. To do so, internally, the schedule() function gets called, which means the loser sees the mutex lock API as a blocking call! A call to the scheduler will ultimately result in the processer being context-switched off. Conversely, when the owner thread unlocks the lock, the loser thread(s) must be woken up; again, it will be context-switched back onto the processor. Thus, the minimal "cost" of the mutex lock/unlock operation is the time it takes to perform two context switches on the given machine. (See the Information Box in the next section.) By relooking at the preceding screenshot once more, we can determine a few things, including...

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Authors (1)

Kaiwan N. Billimoria

Kaiwan N. Billimoria taught himself BASIC programming on his dad's IBM PC back in 1983. He was programming in C and Assembly on DOS until he discovered the joys of Unix, and by around 1997, Linux! Kaiwan has worked on many aspects of the Linux system programming stack, including Bash scripting, system programming in C, kernel internals, device drivers, and embedded Linux work. He has actively worked on several commercial/FOSS projects. His contributions include drivers to the mainline Linux OS and many smaller projects hosted on GitHub. His Linux passion feeds well into his passion for teaching these topics to engineers, which he has done for well over two decades now. He's also the author of Hands-On System Programming with Linux, Linux Kernel Programming (and its Part 2 book) and Linux Kernel Debugging. It doesn't hurt that he is a recreational ultrarunner too.

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