You're reading from Linux Device Driver Development - Second Edition

Product type Book

Published in Apr 2022

Publisher Packt

ISBN-13 9781803240060

Pages 708 pages

Edition 2nd Edition

Languages

Concepts

Embedded Systems

Author (1):

John Madieu

Table of Contents (23) Chapters

Preface

1. Section 1 -Linux Kernel Development Basics

2. Chapter 1: Introduction to Kernel Development

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

The I2C driver abstraction and architecture

The struct i2c_driver structure, as we saw in the previous section, contains the driving methods that are needed to handle the I2C devices it is responsible for. Once added to the bus, the device will need to be probed, which makes the i2c_driver.probe_new method the entry point of the driver.

Probing the I2C device

The probe() callback in the struct i2c_driver structure is invoked any time an I2C device is instantiated on the bus and claims this driver. It is responsible for the following tasks:

Checking whether the I2C bus controller (the I2C adapter) supports the functionalities needed by the device using the i2c_check_functionality() function
Checking whether the device is the one we expected
Initializing the device
Setting up device-specific data if necessary
Registering with the appropriate kernel frameworks

Formerly, the probing callback was assigned to the probe element of struct i2c_driver and...