Sometimes you need to boot or startup the system because of some malfunction or any other updates you want to add to your operating system. This requires script addition at the startup. There exists several methods that are used to execute the scripts and programs in Ubuntu. We have used the most common approach through systemd. First, we will check some requirements whether our system is ready for the boot or not. Once we get the green flag, then we move further.
First, we will check the CPU stability and whether the processor is in the state to boot or reboot the Ubuntu operating system. For this purpose, this simple command is utilized in the Linux terminal:
$cpufreq-info
This command depicts the frequency of CPU information. This information is quite beneficial as it shows the data regarding the errors that can occur before or during the boot process. Further, it describes the number of processors that are working at a time. This information also describes the drivers installed or active at that time.
If the above-cited command does not work for you, then it means you need to install first the CPU frequency utilities to your Linux operating system.
$ Sudo apt install cpufrequtils
After the successful installations, you will then use the above command in the terminal to get the CPU information.
Besides CPU processing, another big factor that is responsible for providing essential information before the boot is memory reading. Boot process requires space and a required area in the memory blocks. Because of this, we should check the memory criteria before proceeding with the boot process. This memory sheet is obtained through a sudo command used with ‘-h’.
$ Sudo free -h
As displayed above, the result of that command shows the total memory size, the part of the memory used in other processes taking place in the system. Also, the available free space is displayed and the amount of memory that is shared between more than two processes.
Now, we are assured of the memory space, which means there is enough space to carry out the startup script on the system.
Now, we are coming towards the process of running a script at the time of boot. The initial step is to build a system service unit. The Ubuntu operating system relies on the systemd, as it is easily applied and also a recommended approach to run a code or script on boot or the startup of the system. So, the simplest method is to create a system service file plus execute the script code like bash through this created service when the system boots.
In the below step, we have run an example of the script written in bash language that provides the data regarding the home directory. Then, saved it to the /root directory whenever the system will boot to create a system file. Finally, it will be stored at a location that is mentioned via a path in the command.
$ Sudo nano /etc/systemd/system/my-startup.service
This will first require the user credentials. Then, it will verify the user and you will see that the default interface of the terminal is changed into another interface. This is a blank page where you are suppose to create a service having three basic information.
The three basic parameters you will mention here include:
You can manually create a file in the file manager or create a new script file through the terminal and open it.
Go to the directory and generate a folder of scripts
$ mkdir scripts
After that, access the folder and then create a further bash file with the ‘.sh’ extension named ‘script. sh’ through the touch command.
$ cd scripts
$ touch script. sh
Use any text to enter in the file and through the chmod command, you can display the text.
$ Chmod –R 777 . $ ./script.sh
The text will be displayed. This was a sample text. But to create a script to be run at the time of boot, we will write the following code:
This was a snippet of the bash file. Now to incorporate this file, we will use the instruction in the terminal.
$ Sudo nano /usr/local/sbin/my-startup.sh
Apply the password first and then the script will be applied.
After the system unit service is created and the bash file is introduced, you need to set some permissions for both, so that there is no interruption while applying the boot process.
$ sudo chmod 744 /usr/local/bin/my-startup.sh $ sudo chmod 664 /etc/systemd/system/my-startup.service
Once permission is given, you can enable the service unit and check the status of the unit whether it is working properly or not.
$ sudo systemctl enable my-startup.service
You can see that a symlink is created at a multi-user installation with all the services.
After that, we can boot our system.
$ sudo ls /root/
Boot process on Ubuntu requires a lot of verification and maintenance of the system that mainly includes disk check, memory or CPU processor check, etc. In this article, we have explained these checks in detail before proceeding with the boot process. The process is explained in 4 major steps. We took the start from the system service unit and created a bash file, that will lead to the permissions given to the unit and then enable the systemd service unit to boot the system.
One of the most critical gaps in traditional Large Language Models (LLMs) is that they…
Canonical is continuously hiring new talent. Being a remote- first company, Canonical’s new joiners receive…
What is patching automation? With increasing numbers of vulnerabilities, there is a growing risk of…
Wouldn’t it be wonderful to wake up one day with a desire to explore AI…
Ubuntu and Ubuntu Pro supports Microsoft’s Azure Cobalt 100 Virtual Machines (VMs), powered by their…
Welcome to the Ubuntu Weekly Newsletter, Issue 870 for the week of December 8 –…