Easy steps to Linux Server hardening for Linux newbies
Linux could be a fantastic choice for your next cloud server. Imagine you can benefit from an up-to-date and fully-loaded operating system on a 90s hardware configuration of 512 MB and 1-core CPU. Apart from technical benefits, it is the cheapest option to have; so you may have decided to run your services on it. Although connecting to a server just using a single line command, keeping it secure could be a bit tricky. I will go through what you need to take some essential considerations for tackling common security risks with server hardening.
Choosing a Distro to Start
Unlike Windows and macOS, Linux is a family of open-source operating systems and many different distros are published up to now. Some of the most popular Linux distros are Red Hat, CentOS, Fedora, Debian, Ubuntu, Kali, Mint, etc. However, from a high-level point of view, there are two major family distros: Red Hat-based and Debian-based.
For many Linux beginners, it is a matter of high significance to choose a distro as a starting point. Although you can take your time to thoroughly investigate different options, the best course would be just starting with one of them and be sure you will enjoy the taste of Linux with all of them. By the way, if you have no idea and just want to start, my recommendation is to choose Ubuntu thanks to its community and its myriad of available documents.
Ubuntu is a Debian-based Linux distribution introduced by Canonical in 2004. There are three editions of Ubuntu: Desktop, Server, and Core. The second edition as its name shows is considered to be used for servers. Against the Desktop edition, Ubuntu Server doesn’t comprise any graphical user interface and you may use a command-line tool named bash to manage the server.
Connecting to Server
No matter which provider you choose to buy a server from, after ordering a VPS you need to acquire its connection info. Generally, it should be dropped in your inbox as soon as you check out your order. All you need to connect and set up your machine are two things: the server’s address and its root password.
To connect to the server, you may need an application that supports SSH which is a protocol for communication between two computers. Does not matter if you are using Windows or macOS, you can connect to your server using the ssh command in a command-line tool like this:
ssh [USER]@[SERVER_IP_Address]
Possibly, providers do not mention the username but you should know the username is root*. *By executing the ssh command, you will be prompted to insert the password and by providing that, you will log in to your fantastic server.
Once you logged in, you can see a couple of information about the Ubuntu version and allocated hard disk capacity and can start loading your services, however, you may need to do further steps to secure your server as there are others intended to use your resources illegally without taking its responsibility. Therefore, it is crucial for you to apply at least some essential security measures on your newly bought machine.
Knowing The Threats
Suppose an evil wants to use your machine without your allowance, what do they need? Yeah, the server IP address and the password.
Although finding a combination of an unknown IP address and a random password might seem to be impossible, believe me, it is viable via a brute force tool as I have been a victim a couple of times. Just to have a clue check the server’s IP address using *ping *and you will see how a valid IP can be identified among many other invalid IP addresses.
ping [SERVER_IP_ADDRESS]
As soon as unauthorized access is attained, it is not predictable in which way they will use your resources with your responsibility. Let’s dive into some simple steps you can do to minimize the risks.
Adding some security
**Step 1 — Strong Password: **This is the first way that comes to mind. Based on password strength checker tools like this, if you use a random password it should be at least 10 characters in length so that it takes 1 day to be found by bots. As well, it may be much easier if you use a pattern to create your password, so, go for a longer password in length.
**Step 2 — Remove root access: **You can simply add another complexity to the SSH login by removing root access. This way, plus the IP address and password, the username must be provided to log in, as the default username which is root **is blocked. To this end, before blocking root access, you need to add a new sudoer user to the server.
# Add a user
sudo useradd -m {username}
# Set a password for new user
sudo passwd {username}
# Add the new user to sudoers' list
usermod -aG sudo {username}
Next, you should disable root login from ssh_config (you may need to install nano using apt install nano):
# Open SSH config file
nano /etc/ssh/sshd_config
Find PermitRootLogin, uncomment the line by removing # and set to no. The final state of this parameter should be as shown.
Then, after saving the file you need to restart ssh service.
systemctl restart sshd
Note: For many operations on the server you need an sudo access; so after login using the new user, you can switch back to root using su command.
su root
Step 3 — Change *ssh *port number: SSH uses a default port 22 which can be modified in the sshd_config config file. This change adds another complexity for connecting to the server because the port number has to be provided in the login. To this end, you must open the file again and change the value of Port to another number like 12345. Likewise, you need to restart ssh service again. Not to forget to mention that after changing the default port number you should provide that in the login.
ssh -p [NEW_PORT_NUMBER] [USER]@[SERVER_IP_Address]
# example: ssh -p 12345 admin@8.8.8.8
Conclusion
It is worth understanding how to tackle security risks. I mean, although it is difficult to guarantee that the server will be totally safe, adding complexity is a reasonable and effective approach for server hardening meaning that crawlers and bots must do much more effort to do their evil mean.
Top comments (2)
Linux is an open-source operating system
No it's not. Linux is a kernel. Linux in itself is not an operating system
You are absolutely right. As I have wrote this article for beginner's and Windows/Mac users, I wasn't that much sensitive to the definition. Nonetheless, you can find the same words here: What is Linux?. By the way, I will update that to
Linux is a family of open-source operating systems
.