https://www.tecmint.com/automatically-restart-services-on-non-systemd-linux

How to Automatically Restart a Service After Failure on SysVinit and Upstart

On systemd-based Linux distributions, managing and restarting services automatically after a failure is relatively straightforward. However, many older or minimal Linux systems rely on alternative init systems such as SysVinit and Upstart, which require different approaches to manage and restart services.

In this guide, we’ll explore how to automatically restart a failed service on non-systemd systems using SysVinit and Upstart.

1. Restarting Services Automatically with SysVinit

SysVinit is one of the oldest init systems, commonly used in distributions like Debian and CentOS before the transition to systemd.

Step 1: Install and Configure monit

monit is a lightweight, open-source utility that monitors services and automatically restarts them when they fail.

# On Debian/Ubuntu
sudo apt update
sudo apt install monit

# On CentOS/RHEL
sudo yum install monit

Step 2: Configure Monit to Monitor a Service

Edit the Monit configuration file:

sudo nano /etc/monit/monitrc

Add a service definition:

# Example: Monitor Apache service
check process apache2 with pidfile /var/run/apache2/apache2.pid
    start program = "/etc/init.d/apache2 start"
    stop program = "/etc/init.d/apache2 stop"
    if failed port 80 protocol http then restart
    if 5 restarts within 5 cycles then timeout

Explanation of the above service definition:

• check process apache2 – Defines the service to monitor.
• start/stop program – Commands to start and stop the service.
• if failed port 80 – Restarts if the HTTP port becomes unreachable.

Next, enable, start, and verify the status of monit.

sudo systemctl enable monit
sudo systemctl start monit
sudo monit status

2. Restarting Services Automatically with Upstart

Upstart was the default init system on Ubuntu before systemd, and it uses configuration files located in /etc/init/ to define service management.

Step 1: Create an Upstart Configuration File

Create a custom Upstart configuration for the service.

sudo nano /etc/init/apache2.conf

Add the following content.

# Apache service monitoring
description "Apache2 Service"
start on runlevel [2345]
stop on runlevel [!2345]

respawn
respawn limit 10 5

exec /usr/sbin/apache2ctl -D FOREGROUND

Explanation of the above configuration:

• respawn – Automatically restart the service if it fails.
• respawn limit 10 5 – Limits restarts to 10 attempts within 5 seconds to prevent excessive restarts.

Next, enable, start, and manage the service.

sudo start apache2
sudo stop apache2
sudo status apache2

To automatically enable the service on startup.

sudo update-rc.d apache2 defaults

3. Using Cron to Restart Services Manually

If monit or Upstart is unavailable, a fallback approach is to use a cron job to periodically check and restart the service.

Create a shell script.

sudo nano /usr/local/bin/check_apache.sh

Add the following content.

#!/bin/bash
if ! pgrep -x "apache2" > /dev/null
then
    /etc/init.d/apache2 start
fi

Make the script executable.

sudo chmod +x /usr/local/bin/check_apache.sh

Add a cron job to run the script.

sudo crontab -e

Add the following line to check the service every 5 minutes.

*/5 * * * * /usr/local/bin/check_apache.sh

If you’re interested in setting up auto-restart for other init systems, check out these articles:

• How to Set Up Auto-Restart for Failed Services on OpenRC
• How to Find Running Services in Linux with Systemd Commands

Conclusion

Automatically restarting failed services on non-systemd systems requires a bit more manual setup, but tools like monit, Upstart, or cron scripts can efficiently handle service failures and keep your applications running smoothly.

If you’re still using a non-systemd system, it might be worth considering an upgrade to a systemd-based distribution for easier service management.

https://ostechnix.com/create-a-video-from-images-with-ffmpeg

How to Create a Video from Images with FFmpeg (and Add Audio)

FFmpeg is a powerful open-source multimedia framework that allows users to convert, edit, and process audio and video files. One of its most useful features is the ability to create a video from a sequence of images. This guide will walk you through the process of generating a high-quality video from images and adding background audio for a professional touch.

Table of Contents

• Why Use FFmpeg for Image to Video Conversion?
• Step 1: Prepare Your Images
• Step 2: Create a Video from Images with FFmpeg
• Step 3: Add Background Audio
• Step 4: Loop Audio if It’s Too Short
• Troubleshooting Tips
  • 1. Video Not Playing in Certain Players?
  • 2. Error: ‘Deprecated Pixel Format Used’
• Conclusion

Why Use FFmpeg for Image to Video Conversion?

FFmpeg is lightweight, efficient, and works on almost any operating system. It supports various image and video formats, making it ideal for:

• Creating time-lapse videos from sequential images.
• Converting slideshow presentations into video formats.
• Automating video creation for social media or presentations.

Step 1: Prepare Your Images

Before running FFmpeg, ensure your images are properly formatted:

• Number them sequentially (e.g., 1.jpg, 2.jpg, 3.jpg, … 100.jpg).
• Place them in the same directory.
• Ensure they have the same resolution to avoid scaling issues.

Step 2: Create a Video from Images with FFmpeg

Run the following FFmpeg command to generate a video from the images:

ffmpeg -framerate 5 -i %d.jpg -vf "scale=1920:-2" -c:v libx264 -pix_fmt yuv420p -movflags +faststart output.mp4

Let us breakdown the above command and see what each option does:

• -framerate 5 → Sets the frame rate to 5 FPS (adjust as needed).
• -i %d.jpg → Tells FFmpeg to use numbered images as input.
• -vf "scale=1920:-2" → Scales width to 1920px and keeps aspect ratio.
• -c:v libx264 → Uses the H.264 codec for high-quality compression.
• -pix_fmt yuv420p → Ensures broad media player compatibility.
• -movflags +faststart → Optimizes the video for web streaming.

Step 3: Add Background Audio

To include an audio file (e.g., audio.mp3) in the video, use:

ffmpeg -framerate 5 -i %d.jpg -i audio.mp3 -vf "scale=1920:-2" -c:v libx264 -pix_fmt yuv420p -c:a aac -b:a 192k -shortest -movflags +faststart output_with_audio.mp4

Here's the breakdown of the extra options:

• -i audio.mp3 → Adds an audio track. You need to place the audio file in the same directory. If it is in the other directory, mention its explicit path.
• -c:a aac -b:a 192k → Uses AAC audio codec at 192kbps bitrate.
• -shortest → Ensures the video ends when the shorter of the two (audio or video) finishes.

Step 4: Loop Audio if It’s Too Short

If the audio file is shorter than the video, you can make it loop using:

ffmpeg -framerate 5 -i %d.jpg -stream_loop -1 -i audio.mp3 -vf "scale=1920:-2" -c:v libx264 -pix_fmt yuv420p -c:a aac -b:a 192k -shortest -movflags +faststart output_with_looped_audio.mp4

I have been using this command to convert the images to video with audio. FFmpeg has a vast number of options. For more FFmpeg command examples. please visit the following link:

• 20+ FFmpeg Commands For Beginners

Troubleshooting Tips

1. Video Not Playing in Certain Players?

Some media players (like Parole) may not support the default encoding settings. Try using -profile:v baseline -level 3.0 for better compatibility:

ffmpeg -framerate 5 -i %d.jpg -i audio.mp3 -vf "scale=1920:-2" -c:v libx264 -profile:v baseline -level 3.0 -pix_fmt yuv420p -c:a aac -b:a 192k -shortest -movflags +faststart output.mp4

2. Error: ‘Deprecated Pixel Format Used’

If you see this warning, try specifying a color range manually:

ffmpeg -framerate 5 -i %d.jpg -vf "scale=1920:-2,format=yuv420p" -c:v libx264 -pix_fmt yuv420p -movflags +faststart output.mp4

Conclusion

FFmpeg is an incredibly versatile tool for creating videos from images. Whether you're making slideshows, animations, or time-lapse videos, these FFmpeg commands ensure a smooth workflow with high-quality results.

https://ubuntushell.com/listing-all-users-in-linux

Listing All Users in a Linux System

Linux administrators have to be aware of existing users in the Linux system for different reasons, like finding out their roles or privileges.

This all requires knowledge of the commands, which help us list all the current users on the Linux system.

Today, we will learn different ways to list users in Linux, with or without a home directory.

Method 1: Reading the Passwd File

The generic way to list users is by reading the content of the passwd file. For example, the cat command can be used along with a passwd file path, as shown below.

• cat /etc/passwd

Below is the behavior of the above command.

The cat command also lists all other information related to the users, which might be unnecessary to you.

For that, use the awk command to list the username from the passwd file, as shown below.

• awk -F ":" '{print $1}' /etc/passwd

Below is the behavior of the above command.

• How to Remove Home Folder Icon from Ubuntu Desktop

Method 2: Using the Compgen Command

Just like the awk command, which ignores all the other details except the username, you can use the compgen command to do the same job without writing a long line of code, as shown below.

• compgen -u

Below is the behavior of the above command.

Method 3: Using the Getent Command

Just like the cat command, getent includes all the other details. You can use this command to do the same job without specifying the passwd path, as shown below.

• getent passwd

Below is the behavior of the above command.

Method 4: Filtering Users Based on Home Directory

From the above-mentioned commands, you might be thinking that they were listing all users created manually by you or by services.

It is true that users are frequently unable to distinguish between users that they manually created and those that the services created.

To solve this problem, we can list users with the home directory located at the /home/ path using the awk command, as shown below.

• awk -F ":" '{if($6 = /home/) print $1}' /etc/passwd

Below is the behavior of the above command.

The above command only lists the users with a home directory created using the adduser command.

As you can see, I have created two users, "ubuntushell" and "test", manually with their home directory using the adduser command.

Final Thought

A GUI application is available on the market to do the same job, which I have not listed. After all, Linux without a terminal is insolent work, according to me.