Embedded-Linux-Device-Driver/C3/Creating-a-New-Character-Device/English

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Visual cue: Narration:
Slide 1:

Welcome slide:

Welcome to the spoken tutorial on Creating a new character device.
Slide 2:

Learning objectives:

In this tutorial we will learn how to,
  • Create a class of a device in the sysfs.
  • Create a device file in sysfs and dev directory.
Slide 3:

System Requirements:

To record this tutorial, I am using,
  • VirtualBox version 5.2.
  • Ubuntu Linux 18.04 LTS operating system.
  • Linux kernel version 5.0.0-31 generic and
  • gedit text editor
Slide 4:

Prerequisites:

To follow this tutorial, you should be familiar with:
  • C programming language and
  • Basics of Linux kernel

If not, then go through the C/C++ and Linux spoken tutorials on this website.

Slide 5:

Class and its device :

* A class specifies the type of device that has a similar behavior.
  • For example, audio devices.
  • Classes provide a grouping of devices based on functionality.
  • Mostly you can associate a device with a specific class.
  • For example, block devices such as hard drives are associated with the block class.
Point to the folder and file in Desktop

Point to the files.

Go to the DeviceDriver folder on the Desktop.

Here I have created a new directory as CreateNewDevice.

In this directory, I have saved a simple_driver dot c driver file and Makefile.

I’ll use these files for demonstration.

Slide:5

Code files:

  • The files used in this tutorial are available in the Code Files link on this tutorial page.
  • Please download and extract them
  • Make a copy and then use them while practising
Open the terminal Open the terminal by pressing Alt+Ctrl+T keys simultaneously.
Type >> cd Desktop/DeviceDriver/CreateNewDevice Go to the directory where CreateNewDevice is saved on your system.


Press Enter key after every command.

Type >> gedit simple_driver.c

open simple_driver.c

Type gedit space simple_driver dot c to open the driver file.

I have used the same file simple_driver dot c which we used earlier.

In this file, I have added required kernels functions.

These kernel functions are used to create a new character device and its class.

Let me explain the code.

Highlight #include<device.h> We have to include this header file.

The kernel functions that are required to create a new device are declared in it.

Highlight static struct class *cl First we have to declare a class structure for a new device as shown here.

A class is defined in the kernel with the struct class structure.

Let us see how to create a class using the kernels function in the sysfs.
Highlight struct class *class_create()

Highlight owner

Highlight name

The class_create function is used to create a class in the sysfs filesystem.

This function returns the struct class pointer.

owner specifies the pointer to the module in which this struct class is defined.

name specifies the pointer to a string for the name of this class.

Highlight class_create() Here, class_create() function will create my_class in the sysfs.

The sysfs exports the system information from the kernel space to user space.

Highlight unregister_chrdev_region

Highlight printk

On failure, it will unregister the device and will exit with the failure message.

Otherwise, printk will print the message that the class is created successfully.

Let us see the kernel function used to create a new device file.
Highlight struct device *device_create() device_create() function is used to create the device file in the dev directory.

It will also create the device file in the sysfs.

It returns the struct device pointer.

Highlight class

Highlight parent

Highlight devt

Highlight drvdata

Highlight fmt

We will see the parameters that are passed to device_create() function.

class specifies the device class.

parent specifies the parent device of this device.

If it is not specified, it is referred to as NULL.

devt specifies the dev_t variable which holds the device number.

drvdata is a pointer to the driver data.

fmt is a string used for the device name.

Highlight device_create()

Highlight new_device

Highlight NULL

Here, I have given a new character device name as new_device.

cl specifies the pointer to the class structure of this new device.

As the device does not have a parent device, I have passed the NULL pointer.

device_num holds the major and minor numbers of the new_device.

Let us see the kernel function used to remove the class of device to free its memory.
Highlight void class_destroy(struct class *class)

Highlight cl

class_destroy function destroys a struct class structure.

class specifies the pointer to the struct class that has to be destroyed.

Highlight class_destroy(cl), unregister_chrdev_region()

Highlight class_destroy(cl)

These functions are executed when the device file creation fails.

Here, class_destroy() will remove the class of device from the sysfs.

Highlight printk messages Depending upon its success or failure, the corresponding messages will be printed.
Now let us see the kernel function used to remove the device from the kernel.
Highlight void device_destroy

Highlight class

Highlight devt

device_destroy function removes a device that was created with device_create().

This function is used in the exit function to free the kernel's memory.

Class is a pointer to the struct class that this device was registered with.

devt specifies the dev_t of the device that was previously registered.

Highlight exit_function()

Highlight printk

In the exit function, we have to return all the resources to the system.
Highlight class_destroy() and device_destroy()

Highlight printk messages.

Here, the class and device will be removed by their corresponding functions.

Printk message indicates the successful removal of the class and device.

Highlight unregister_chrdev_region() and printk Finally, we have to unregister the device from the kernel as shown here.
Save the file Save and close the file.
Type >> gedit Makefile

Save the Makefile

Let us create a Makefile to compile the driver.

Type gedit space Makefile.

Type the code as shown or you can make use of the downloaded Makefile.

Type >> make all Let us compile the driver.

Type make space all.

Clear the screen.

Type >> insmod simple_driver.ko

Type sudo su

Now let us load the driver into the kernel.

Type sudo space su and password to be a superuser.

For that, type insmod space simple_driver.ko

Type >> clear Clear the screen.
Type >> dmesg | grep simple_driver

Highlight respective printk messages

Let us see the loaded printk messages from the initialisation function.

Type dmesg space pipe space grep space simple_driver.

It shows that the class_create() function is executed successfully.

Similarly, it shows that the device_create() function is executed successfully.

These messages indicate that our device and its class is created successfully.

Type >> clear Clear the screen.
Type >> ls -l /sys/class/ | grep my_class

Highlight the output

Type >> ls -l /sys/class/my_class/

Highlight the output

Now let’s check whether the class is created in the sysfs or not.

Type the command as shown.

Here, you can see the new my_class is registered successfully.

Similarly check whether a device is created in the sysfs or not.

Type the command as shown.

This shows that the new_device is created in the sysfs.

Type ls -l /dev/new_device

Highlight the output

Let us check if the device file is created under the dev directory or not.

Type ls space hyphen l space slash dev slash new_device.

You can see the new_device file is created.

The user can access this file to transfer the data to the new_device using its driver.

Type >> clear Clear the screen.
Type rmmod simple_driver .ko

Type dmesg | grep simple_driver

Type >> clear

Now let us unload the driver.

Type rmmod space simple_driver dot ko

Clear the screen.

Highlight the output To see the unloaded printk messages type the dmesg command as shown.

The output shows that the device file and its class are removed from the kernel.

It indicates that the device is also unregistered here.

Type >> make clean

Type >> exit

Let us remove the object files created after the compilation.

Type make clean.

To be a regular user , type exit.

With this, we come to the end of this tutorial. Let us summarize.
Slide 6:

Summary:

In this tutorial, we learnt how to
  • Create a class of a device in the sysfs.
  • Create a device file in sysfs and dev directory.
Slide 7:

Assignment :

As an assignment:
  1. Open the simple_driver.c file.
  2. Create a device with a different name.
  3. Compile and load the simple_driver dot c.
  4. See the newly created device file under the sysfs.
Slide 8:

About Spoken Tutorial Project:

  • The video at the following link summarizes the Spoken Tutorial project.
  • Please download and watch it.
Slide 9:

Spoken Tutorial workshops:

The Spoken Tutorial Project Team conducts workshops and gives certificates.

For more details, please write to us.

Slide 10:

Forum questions:

Please post your timed queries in this forum.
Slide 11:

Forum for specific questions:

  • Do you have any general or technical questions on Embedded Linux Device Driver?
  • Please visit the FOSSEE forum and post your question.
Slide 12:

Acknowledgment:

The Spoken Tutorial Project is funded by MHRD, Government of India.
Slide 13:

Thank you slide:

This tutorial has been contributed by FOSSEE and Spoken Tutorial Project, IIT Bombay.

This is Usha signing off.

Thanks for watching.

Contributors and Content Editors

Nancyvarkey, Nirmala Venkat