Managing your Operating System with Package Managers.
Developers are some or the other way using Package Managers. Let's find out "How?" in this article.
Table of contents
What is a Package?
Before actually learning about package managers, let us put some light on what is a package.
Almost every Linux and Unix-based software program is passed as packages, these are nothing but archives containing the pre-compiled binary software files, installation instructions, configuration information, and other software-related information.
If in today's world I ask you to download software, you would probably visit the website of the tools and click the download button to get it in your local system. But ever wondered what use to happen before this function was introduced?
Back then, software was installed from source code. Users have to jump to a file and check for the software requirements a particular tool needs to function completely, including stuff like binary locations, memory locations, and versions. To perform all these tasks, users used to create a configure script or makefile and then compile the software based on their needs by providing different conditions and handling all the dependencies on their own.
To overcome all this hard work and complex steps, Linux distributions started creating ready-to-use binary files for installing software together with certain information (version number, description, and dependencies).
Both Red Hat Linux and Debian invented the .deb
or DEB packaging format and the .rpm
or RPM packaging system, respectively. You require a package manager in order to interface with or use the packaging systems.
What are Package Managers?
Let's try to relate the term and understand it with a real-world example.
Consider Linux as a small boy, it is understood amongst us all that a small boy needs someone to help him learn various new traits such as walking, talking etc. That someone always ready to help are the parents of that small boy without him asking to do so.
In the same way, package managers act as parents of Linux to install, upgrade and remove software automatically.
Package Managers are those set of software tools that automates the installation, upgrade, configuration, and deletion of software packages within an operating system. The responsibility of a package manager is to provide an interface that helps the user manage the set of installed packages on their system.
Package Managers for different Operating Systems
For various operating systems, there are many types and styles of package managers, as we shall soon learn in this article.
Here are some of the common package managers for different operating systems:
- Linux:
Here are some of the Package Managers for various Linux Distributions:
- macOS:
There is no default package manager installed on macOS, but the user can install one of the most used package manager named Homebrew.
MacPorts and Fink are some alternatives.
- Windows:
Early windows used a third-party package manager named Chocolatey. But now Microsoft created its own package manager called Windows Package Manager(winget) which can be used virtually by anyone that uses Windows 10 or Windows 11.
Are Package Managers only specific to an Operating System?
Package Managers is not a generic concept, and itβs not exclusive to Linux. There are various software that has a package manager supporting their back to help them with various functions.
If you are someone who has been working on projects that involve coding languages such as Python or Java, you have probably used a package (dependency) manager by the name of pip or maven
List of various languages using package (dependency) manager:
Workings of a Package Manager
This is the overall visualization of how a package manager works:
Let's try to understand the process shown in the above picture
Let us assume that you are a developer using a package manager for doing various stuff. There are software repositories, which are essentially collections of software packages. Software packages of various types can be found in the repository. These repositories contain all the details related to a package such as - name, description, dependencies, version, etc.
Whenever you use a package manager in your local system, it first collects the data from the online repository. Before using the package manager to complete tasks, it is advised to run the command with the update
flag to update the package manager with the latest version. After you run the command (package manager name) followed by the update keyword, the package manager fetches all the latest data from the repository which is uploaded to a provider and is ready for further use.
Moving ahead, when a developer starts using the package manager to fulfill the tasks, the package manager refers to the data that is being fetched by running the update keyword with the command to complete the required task.
Examples of Package Managers
1. Linux (Ubuntu):
Since I am using a playground by killercoda for running Ubuntu, I will be using apt
as a package manager.
Before actually using apt to complete tasks, let us just update it:
apt update
We can easily see that apt
has fetched the metadata from the repositories that are located somewhere on the official Ubuntu website.
Now, let us try to install another package manager named aptitude using apt.
Before that, let's check if the package manager is already present in the system by running aptitude help in our CLI:
aptitude help
As we see that bash is throwing the error and cannot find any file or directory of such name. So let us run the command apt install aptitude:
apt install aptitude
We see that the package along with the dependencies has been installed in our local system and to verify let us run the aptitude help again:
Now we can see that the package manager has been installed successfully and is working. Now if you want to uninstall the package you simply run apt remove aptitude and after running this command when you try to call aptitude again it will throw an error of no such file found:
apt remove aptitude
2. macOS:
As discussed, macOS does not have any default package manager installed, so will be using Homebrew as a package manager to run an example. To install Homebrew in your local system, you can refer to this website β brew.sh.
Let us just follow the old tradition of updating the package manager before using it for the actual task and to do that just hit brew update in your CLI:
brew update
Let us install minikube using brew:
brew install minikube
To check if minikube is installed, we can run minikube verison:
minikube version
It is seen in the above image that the minikube is successfully installed and now to remove it from the system just hit brew uninstall minikube:
brew install minikube
In the above image, it is confirmed that minikube is uninstalled as when you try to run minikube version it throws an error(minikube not found).
3. Windows:
winget is the package manager provided by windows. To check if winget is installed in your system, just open the command prompt and run winget --help:
winget --help
Let us try to install Mozilla Firefox using winget in Windows system by using winget install command:
winget install Mozilla.Firefox
It will ask for some administrator permissions:
In the same way, you can use winget to uninstall packages by running winget unistall command:
winget uninstall Mozilla.Firefox
Resources
Conclusion
In this article, we learned about packages and various Package managers. There you are at the end of this blog post, I hope this blog helps you understand Package Managers. Don't forget to like and share this post if you liked this blog. Connect with me on Twitter. Follow me for more such blogs.
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