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Linux Kernel Programming Part 2 - Char Device Drivers and Kernel Synchronization

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

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Product type Paperback
Published in Mar 2021
Publisher Packt
ISBN-13 9781801079518
Length 452 pages
Edition 1st 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 (11) Chapters Close

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

Determining which lock to use in practice

So, operating under the t_locked < 2 * t_ctxsw "rule" might be great in theory, but hang on: are you really expected to precisely measure the context switch time and the time spent in the critical section of each and every case where one (critical section) exists? No, of course not that's pretty unrealistic and pedantic.

Practically speaking, think about it this way: the mutex lock works by having the loser threads sleep upon the unlock; the spinlock does not (the losers "spin"). Let's recall one of our golden rules of the Linux kernel: a kernel cannot sleep (call schedule()) in any kind of atomic context. Thus, we can never use the mutex lock in an interrupt context, or indeed in any context where it isn't safe to sleep; using the spinlock, however, would be fine. (Remember, a blocking API is one that puts the calling context to sleep by calling schedule...

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