Char device drivers and kernel synchronization : create user-kernel interfaces, work with peripheral I/O, and handle hardware interrupts
Author(s)
Bibliographic Information
Char device drivers and kernel synchronization : create user-kernel interfaces, work with peripheral I/O, and handle hardware interrupts
(Linux kernel programming / Kaiwan N. Billimoria, pt. 2)
Packt Publishing, 2021
- : pbk.
- Other Title
-
Linux kernel programming part2 : char device drivers and kernel synchronization
Available at / 4 libraries
-
No Libraries matched.
- Remove all filters.
Note
Includes bibliographical references and index
Description and Table of Contents
Description
Discover how to write high-quality character driver code, interface with userspace, work with chip memory, and gain an in-depth understanding of working with hardware interrupts and kernel synchronization
Key Features
Delve into hardware interrupt handling, threaded IRQs, tasklets, softirqs, and understand which to use when
Explore powerful techniques to perform user-kernel interfacing, peripheral I/O and use kernel mechanisms
Work with key kernel synchronization primitives to solve kernel concurrency issues
Book DescriptionLinux Kernel Programming Part 2 - Char Device Drivers and Kernel Synchronization is an ideal companion guide to the Linux Kernel Programming book. This book provides a comprehensive introduction for those new to Linux device driver development and will have you up and running with writing misc class character device driver code (on the 5.4 LTS Linux kernel) in next to no time.
You'll begin by learning how to write a simple and complete misc class character driver before interfacing your driver with user-mode processes via procfs, sysfs, debugfs, netlink sockets, and ioctl. You'll then find out how to work with hardware I/O memory. The book covers working with hardware interrupts in depth and helps you understand interrupt request (IRQ) allocation, threaded IRQ handlers, tasklets, and softirqs. You'll also explore the practical usage of useful kernel mechanisms, setting up delays, timers, kernel threads, and workqueues. Finally, you'll discover how to deal with the complexity of kernel synchronization with locking technologies (mutexes, spinlocks, and atomic/refcount operators), including more advanced topics such as cache effects, a primer on lock-free techniques, deadlock avoidance (with lockdep), and kernel lock debugging techniques.
By the end of this Linux kernel book, you'll have learned the fundamentals of writing Linux character device driver code for real-world projects and products.
What you will learn
Get to grips with the basics of the modern Linux Device Model (LDM)
Write a simple yet complete misc class character device driver
Perform user-kernel interfacing using popular methods
Understand and handle hardware interrupts confidently
Perform I/O on peripheral hardware chip memory
Explore kernel APIs to work with delays, timers, kthreads, and workqueues
Understand kernel concurrency issues
Work with key kernel synchronization primitives and discover how to detect and avoid deadlock
Who this book is forAn understanding of the topics covered in the Linux Kernel Programming book is highly recommended to make the most of this book. This book is for Linux programmers beginning to find their way with device driver development. Linux device driver developers looking to overcome frequent and common kernel/driver development issues, as well as perform common driver tasks such as user-kernel interfaces, performing peripheral I/O, handling hardware interrupts, and dealing with concurrency will benefit from this book. A basic understanding of Linux kernel internals (and common APIs), kernel module development, and C programming is required.
Table of Contents
Table of Contents
Writing a simple Misc Character Device Driver
User-Kernel Communication Pathways
Working with hardware IO Memory
Handling Hardware Interrupts
Timers, Kernel Threads and More
Kernel Synchronization, Part 1
Kernel Synchronization, Part 2
by "Nielsen BookData"