Tutorial

An Introduction to the Linux Terminal

An Introduction to the Linux Terminal

Introduction

This tutorial, which is the first in a series that teaches Linux fundamentals, covers getting started with the terminal, the Linux command line, and executing commands. If you are new to Linux, you will want to familiarize yourself with the terminal, as it is the standard way to interact with a Linux server.

If you would like to get the most out of this tutorial, you will need a Linux server to connect to and use. If you do not already have one, you can quickly spin one up by following this link: How To Create A DigitalOcean Droplet. This tutorial is written for an Ubuntu 22.04 server but the general principles apply to any other distribution of Linux.

Let’s get started by going over what a terminal emulator is.

Terminal Emulator

A terminal emulator is a program that allows the use of the terminal in a graphical environment. As most people use an OS with a graphical user interface (GUI) for their day-to-day computer needs, the use of a terminal emulator is a necessity for most Linux server users.

Here are some free, commonly-used terminal emulators by operating system:

  • Mac OS X: Terminal (default), iTerm 2
  • Windows: ConEmu, Windows Terminal, PuTTy
  • Linux: Gnome Terminal, Konsole, XTerm

Each terminal emulator has its own set of features. In general, you should expect a modern terminal emulator to support tabbed windows and text highlighting.

The Shell

In a Linux system, the shell is a command-line interface that interprets a user’s commands and script files, and tells the server’s operating system what to do with them. There are several shells that are widely used, such as the Bourne-Again shell (bash) and Z shell (zsh). Each shell has its own feature set and intricacies regarding how commands are interpreted, but they all feature input and output redirection, variables, and condition-testing, among other things.

This tutorial was written using the Bourne-Again shell, usually referred to as bash, which is the default shell for most Linux distributions, including Ubuntu, Fedora, and RHEL.

The Command Prompt

When you first login to a server, you will typically be greeted by the Message of the Day (MOTD), which is typically an informational message that includes miscellaneous information such as the version of the Linux distribution that the server is running. After the MOTD, you will be dropped into the command prompt, or shell prompt, which is where you can issue commands to the server.

The information that is presented at the command prompt can be customized by the user, but here is an example of the default Ubuntu 20.04 command prompt:

sammy@webapp:~$

Here is a breakdown of the composition of the command prompt:

  • sammy: The username of the current user
  • webapp: The hostname of the server
  • ~: The current directory. In bash, which is the default shell, the ~, or tilde, is a special character that expands to the path of the current user’s home directory; in this case, it represents /home/sammy
  • $: The prompt symbol. This denotes the end of the command prompt, after which the user’s keyboard input will appear

Here is an example of what the command prompt might look like, if logged in as root and in the /var/log directory:

root@webapp:/var/log#

Note that the symbol that ends the command prompt is a #, which is the standard prompt symbol for root. In Linux, the root user is the superuser account, which is a special user account that can perform system-wide administrative functions. It is an unrestricted user that has permission to perform any task on a server.

Running Commands

Commands can be issued at the command prompt by specifying the name of an executable file, which can be a binary program or a script. There are many standard Linux commands and utilities that are installed with the OS, that allow you to navigate the file system, install and software packages, and configure the system and applications.

An instance of a running command is known as a process. When a command is executed in the foreground, which is the default way that commands are executed, the user must wait for the process to finish before being returned to the command prompt, at which point they can continue issuing more commands.

It is important to note that almost everything in Linux is case-sensitive, including file and directory names, commands, arguments, and options. If something is not working as expected, double-check the spelling and case of your commands!

Here are a few examples that will cover the fundamentals of executing commands.

Note: If you’re not already connected to a Linux server, now is a good time to log in. If you have a Linux server but are having trouble connecting, follow this link: How to Connect to Your Droplet with SSH.

Without Arguments or Options

To run a command without any arguments or options, type in the name of the command and press Enter.

If you run a command like this, it will exhibit its default behavior, which varies from command to command. For example, if you run the cd command without any arguments, you will be returned to your current user’s home directory. The ls command will print a listing of the current directory’s files and directories. The ip command without any arguments will print a message that shows you how to use the ip command.

Try running the ls command with no arguments to list the files and directories in your current directory (there may be none):

  1. ls

With Arguments

Many commands accept arguments, or parameters, which can affect the behavior of a command. For example, the most common way to use the cd command is to pass it a single argument that specifies which directory to change to. For example, to change to the /usr/bin directory, where many standard commands are installed, you would issue this command:

cd /usr/bin

The cd component is the command, and the first argument /usr/bin follows the command. Note how your command prompt’s current path has been updated.

Try running the ls command to see the files that are in your new current directory.

ls
Output
… grub-mkrescue sdiff zgrep grub-mkstandalone sed zipdetails grub-mount see zless grub-ntldr-img select-editor zmore grub-render-label semver znew grub-script-check sensible-browser

With Options

Most commands accept options, also known as flags or switches, that modify the behavior of the command. Options follow a command, and are indicated by a single - character followed by one or more options, which are represented by individual upper- or lower-case letters. Some multi-word options can start with --, followed by the flag text.

For an example of how options work, let’s look at the ls command. Here are a couple of common options that come in handy when using ls:

  • -l: print a “long listing”, which includes extra details such as permissions, ownership, file sizes, and timestamps
  • -a: list all of a directory’s files, including hidden ones (that start with .)

To use the -l flag with ls, use this command:

  1. ls -l

Note that the listing includes the same files as before, but with additional information about each file.

As mentioned earlier, options can often be grouped together. If you want to use the -l and -a option together, you could run ls -l -a, or just combine them like in this command:

  1. ls -la

Note that the listing includes the hidden . and .. directories in the listing, because of the -a option.

With Options and Arguments

Options and arguments can almost always be combined, when running commands.

For example, you could check the contents of /home, regardless of your current directory, by running this ls command:

ls -la /home

ls is the command, -la are the options, and /home is the argument that indicates which file or directory to list. This should print a detailed listing of the /home directory, which should contain the home directories of all of the normal users on the server.

Environment Variables

Environment variables are named values that are used to change how commands and processes are executed. When you first log in to a server, several environment variables will be set according to a few configuration files by default.

View All Environment Variables

To view all of the environment variables that are set for a particular terminal session, run the env command:

env

There will likely be a lot of output. Look for the PATH entry:

PATH=/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games

The PATH environment variable is a colon-delimited list of directories where the shell will look for executable programs or scripts when a command is issued. For example, the env command is located in /usr/bin, and you are able to run it without specifying its full path because its path is in the PATH environment variable.

View the Value of a Variable

The value of an environment variable can be retrieved by prefixing the variable name with a $. This will expand the referenced variable to its value.

For example, to print out the value of the PATH variable, you may use the echo command:

echo $PATH

Or you could use the HOME variable, which is set to your user’s home directory by default, to change to your home directory like this:

cd $HOME

If you try to access an environment variable that hasn’t been set, it will be expanded to nothing; an empty string.

Setting Environment Variables

Now that you know how to view your environment variables, you should learn how to set them.

To set an environment variable, all you need to do is start with a variable name, followed immediately by an = sign, followed immediately by its desired value:

VAR=value

Note that if you set an existing variable, the original value will be overwritten. If the variable did not exist in the first place, it will be created.

Bash includes a command called export which exports a variable so it will be inherited by child processes. This allows you to use scripts that reference an exported environment variable from your current session.

You can also reference existing variables when setting a variable. For example, if you installed an application to /opt/app/bin, you could add that directory to the end of your PATH environment variable with this command:

export PATH=$PATH:/opt/app/bin

Now verify that /opt/app/bin has been added to the end of your PATH variable with echo:

echo $PATH

Keep in mind that setting environment variables in this way only sets them for your current session. This means if you log out or otherwise change to another session, the changes you made to the environment will not be preserved. There is a way to permanently change environment variables, but this will be covered in a later tutorial.

Conclusion

Now that you have begun to learn about the Linux terminal (and a few commands), you should have a good foundation for expanding your knowledge of Linux commands. Read the next tutorial in this series to learn how to navigate, view, and edit files and their permissions.

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Tutorial Series: Getting Started with Linux

If you are new to Linux and its command line interface, it may seem like a daunting task to get started with it. This series will bring you up to speed with essential Linux basics, and provide a solid foundation for working with Linux servers. If you have little to no knowledge about using Linux, this is where you will want to start.

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