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Linux Device Driver Development

You're reading from   Linux Device Driver Development Everything you need to start with device driver development for Linux kernel and embedded Linux

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Product type Paperback
Published in Apr 2022
Publisher Packt
ISBN-13 9781803240060
Length 708 pages
Edition 2nd Edition
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Author (1):
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John Madieu John Madieu
Author Profile Icon John Madieu
John Madieu
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Table of Contents (23) Chapters Close

Preface 1. Section 1 -Linux Kernel Development Basics
2. Chapter 1: Introduction to Kernel Development FREE CHAPTER 3. Chapter 2: Understanding Linux Kernel Module Basic Concepts 4. Chapter 3: Dealing with Kernel Core Helpers 5. Chapter 4: Writing Character Device Drivers 6. Section 2 - Linux Kernel Platform Abstraction and Device Drivers
7. Chapter 5: Understanding and Leveraging the Device Tree 8. Chapter 6: Introduction to Devices, Drivers, and Platform Abstraction 9. Chapter 7: Understanding the Concept of Platform Devices and Drivers 10. Chapter 8: Writing I2C Device Drivers 11. Chapter 9: Writing SPI Device Drivers 12. Section 3 - Making the Most out of Your Hardware
13. Chapter 10: Understanding the Linux Kernel Memory Allocation 14. Chapter 11: Implementing Direct Memory Access (DMA) Support 15. Chapter 12: Abstracting Memory Access – Introduction to the Regmap API: a Register Map Abstraction 16. Chapter 13: Demystifying the Kernel IRQ Framework 17. Chapter 14: Introduction to the Linux Device Model 18. Section 4 - Misc Kernel Subsystems for the Embedded World
19. Chapter 15: Digging into the IIO Framework 20. Chapter 16: Getting the Most Out of the Pin Controller and GPIO Subsystems 21. Chapter 17: Leveraging the Linux Kernel Input Subsystem 22. Other Books You May Enjoy

Representing and addressing devices

In the device tree, a node is the representational unit of a device. In other words, a device is represented by at least one node. Following this, device nodes can either be populated with other nodes (therefore, creating a parent-child relationship) or with properties (which would describe the device corresponding to the node they populate).

While each device can operate standalone, there are situations where a device might want to be accessed by its parent or where a parent might want to access one of its children. For example, such situations occur when a bus controller (the parent node) wants to access one or more of the devices (declared as a sub-node) sitting on its bus. Typical examples include I2C controllers and I2C devices, SPI controllers and SPI devices, CPUs and memory-mapped devices, and more. Thus, the concept of device addressing has emerged. Device addressing has been introduced with a reg property, which is used in each addressable...

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