Updating Linux and Packages
Just like on any operating system, one of the first things you should do after installing Ubuntu is to make sure all the software is updated. This minimizes the number of bugs we encounter, as well as helps to patch our computer against vulnerabilities. Make sure to update your Host OS as well, and that you install patches to your Virtualization Tool. Having all of these updated ensures a smooth and secure experience.
Sudo and Privilege
Before we get into updating things, first we need to talk about privilege. No, not that kind, though it's worth talking about. In this course we will be discussing Linux privileges.
By default, Linux only allows certain users the ability to access some files. You will learn more about why and how this is implemented, but for now, just know that the standard user, you, is not allowed to update files controlled by the OS or other users. This is generally so that you don't break anything by accident, but also as a security feature to prevent a malicious user or process from stealing information or breaking things.
The command 'sudo', which stands for "substitute user do", is used to escalate privileges up to the level of the username specified in the command. 'sudo' defaults to administrator access, which on Linux systems is referred to as "root", if no username is specified. (For a fun fact, 'sudo' used to stand for "superuser do", but it has over time shifted to substitute user.) A user or process with root access has the ability to read, write, and modify anything on the system. As a best practice, instead of always using root for our everyday activities we log in as a normal user, and only use root privileges when we need to, using 'sudo'. This is referred to as the Principle of Least Privilege, and if you are interested you can learn more about it in our Security course.
To run a command with root privileges, all we have to do is put the command 'sudo' in front of the command we want to run. When we do this we will be prompted for the root password, and if we enter it correctly the password will be checked against the correct files and the desired command will be executed with root privs.
That was a long winded response, and believe me, I skipped over some detail, but this is what you need to know for now. You'll learn more in the Permissions section.
Packages are what Linux OSs use to distribute and maintain software. They are custom file formats that usually contain an archive of compressed files that are used to install, as well as some metadata that describes how to install and what the dependencies are. Dependencies are a list of what other programs a piece of software need to be installed in order for it to run. Developers use packages to build programs that are easy to install and run across many different machines. As long as the package installs itself properly, the program will work!
For example, if you are installing an image editing program named Program 1, it might have a single dependency which is named Program 2 that is used to open image files. When Program 1 attempts to install itself from a package, it will check its dependencies and find Program 2, and if Program 2 is not available, it will stop the installation. After you install Program 2, and then rerun the command to install Program 1 and it will succeed.
On Ubuntu, the package management system is named DPKG, or Debian Package, as Ubuntu is based on the Debian OS. 'apt' and 'apt-get' are front ends for the DPKG system, and allow command line access to update and install new packages. Ubuntu also has the ability to download .deb files and install them using system tools, either from the command line or the GUI. While there are minor differences between 'apt' and 'apt-get', they do basically the same thing and I am more used to using 'apt-get' and you'll see many more examples of it on the internet so that is what I teach.
In addition to the default package management system, there are 3rd party managers for different pieces of software like Python, as well as different file formats that developers can choose to release their software with instead of DPKG.
Finally, you can compile programs from source using the correct compilation arguments. This is the old school way to do it, but it is much more difficult and is rarely recommended by the developers who release software.
We will use apt-get because it has slightly more features. When dealing with packages, 99% of the time we will only need three commands.
$ sudo apt-get update
As a first note, any time you are working with packages you will want to use sudo in order to ensure you have the permissions to install new packages.
This command will use apt-get to update the list of available locations and dependencies for all the repositories and Personal Package Archives (PPAs) that are saved on the computer. This does not update any software, rather it updates the saved locations and version numbers of all the software that is saved on our computer. There's a little more complexity than this, but don't worry about it for now.
Run the command now to update.
$ sudo apt-get upgrade
This command will check the list of packages that you just updated with
apt-get update and then download and upgrade any packages on your computer that need upgrading. If you don't run update first, you won't upgrade anything.
By running update and then upgrade you will ensure everything on your system is fully up to date, but be warned, it can take a while.
This is the format for installing a new program. "Foobar" is a programming joke that just means a placeholder word. If you see "foobar", "foo", or "bar" anywhere, it almost always means it's a placeholder for something else.
$ sudo apt-get install foobar
This command will install the most recently updated version of the program "foobar". Again, always ensure to run update first or you might get an old version.
In the next section we will actually use it for real.
Submit a screenshot showing that your updates have finished.