ntroduction
When you first create a new server, there are a few configuration steps that you should take early on as part of the basic setup. This will increase the security and usability of your server and will give you a solid foundation for subsequent actions.
Step One — Root Login
To log into your server, you will need to know your server’s public IP address and the password for the “root” user’s account. If you have not already logged into your server, you may want to follow the first tutorial in this series, How to Connect to Your Droplet with SSH, which covers this process in detail.
If you are not already connected to your server, go ahead and log in as the root user using the following command (substitute the highlighted word with your server’s public IP address):
ssh root@SERVER_IP_ADDRESS
Complete the login process by accepting the warning about host authenticity, if it appears, then providing your root authentication (password or private key). If it is your first time logging into the server, with a password, you will also be prompted to change the root password.
About Root
The root user is the administrative user in a Linux environment that has very broad privileges. Because of the heightened privileges of the root account, you are actually discouraged from using it on a regular basis. This is because part of the power inherent with the root account is the ability to make very destructive changes, even by accident.
The next step is to set up an alternative user account with a reduced scope of influence for day-to-day work. We’ll teach you how to gain increased privileges during the times when you need them.
Step Two — Create a New User
Once you are logged in as root, we’re prepared to add the new user account that we will use to log in from now on.
This example creates a new user called “demo”, but you should replace it with a user name that you like:
adduser demo
You will be asked a few questions, starting with the account password.
Enter a strong password and, optionally, fill in any of the additional information if you would like. This is not required and you can just hit “ENTER” in any field you wish to skip.
Step Three — Root Privileges
Now, we have a new user account with regular account privileges. However, we may sometimes need to do administrative tasks.
To avoid having to log out of our normal user and log back in as the root account, we can set up what is known as “super user” or root privileges for our normal account. This will allow our normal user to run commands with administrative privileges by putting the word sudo before each command.
To add these privileges to our new user, we need to add the new user to the “sudo” group. By default, on Ubuntu 14.04, users who belong to the “sudo” group are allowed to use the sudo command.
As root, run this command to add your new user to the sudo group (substitute the highlighted word with your new user):
gpasswd -a demo sudo
Now your user can run commands with super user privileges!
Step Four — Add Public Key Authentication (Recommended)
The next step in securing your server is to set up public key authentication for your new user. Setting this up will increase the security of your server by requiring a private SSH key to log in.
Generate a Key Pair
If you do not already have an SSH key pair, which consists of a public and private key, you need to generate one. If you already have a key that you want to use, skip to the Copy the Public Key step.
To generate a new key pair, enter the following command at the terminal of your local machine (ie. your computer):
ssh-keygen
Assuming your local user is called “localuser”, you will see output that looks like the following:
Generating public/private rsa key pair.
Enter file in which to save the key (/Users/localuser/.ssh/id_rsa):
Hit return to accept this file name and path (or enter a new name).
Next, you will be prompted for a passphrase to secure the key with. You may either enter a passphrase or leave the passphrase blank.
Note: If you leave the passphrase blank, you will be able to use the private key for authentication without entering a passphrase. If you enter a passphrase, you will need both the private key and the passphrase to log in. Securing your keys with passphrases is more secure, but both methods have their uses and are more secure than basic password authentication.
This generates a private key, id_rsa, and a public key, id_rsa.pub, in the .ssh directory of thelocaluser‘s home directory. Remember that the private key should not be shared with anyone who should not have access to your servers!
Copy the Public Key
After generating an SSH key pair, you will want to copy your public key to your new server.
Assuming you generated an SSH key pair using the previous step, use the following command at the terminal of your local machine to print your public key (id_rsa.pub):
cat ~/.ssh/id_rsa.pub
This should print your public SSH key, which should look something like the following:
ssh-rsa AAAAB3NzaC1yc2EAAAADAQABAAABAQDBGTO0tsVejssuaYR5R3Y/i73SppJAhme1dH7W2c47d4gOqB4izP0+fRLfvbz/tnXFz4iOP/H6eCV05hqUhF+KYRxt9Y8tVMrpDZR2l75o6+xSbUOMu6xN+uVF0T9XzKcxmzTmnV7Na5up3QM3DoSRYX/EP3utr2+zAqpJIfKPLdA74w7g56oYWI9blpnpzxkEd3edVJOivUkpZ4JoenWManvIaSdMTJXMy3MtlQhva+j9CgguyVbUkdzK9KKEuah+pFZvaugtebsU+bllPTB0nlXGIJk98Ie9ZtxuY3nCKneB+KjKiXrAvXUPCI9mWkYS/1rggpFmu3HbXBnWSUdf localuser@machine.local
Select the public key, and copy it to your clipboard.
Add Public Key to New Remote User
To enable the use of SSH key to authenticate as the new remote user, you must add the public key to a special file in the user’s home directory.
On the server, as the root user, enter the following command to switch to the new user (substitute your own user name):
su - demo
Now you will be in your new user’s home directory.
Create a new directory called .ssh and restrict its permissions with the following commands:
mkdir .ssh
chmod 700 .ssh
Now open a file in .ssh called authorized_keys with a text editor. We will use nano to edit the file:
nano .ssh/authorized_keys
Now insert your public key (which should be in your clipboard) by pasting it into the editor.
Hit CTRL-X to exit the file, then Y to save the changes that you made, then ENTER to confirm the file name.
Now restrict the permissions of the authorized_keys file with this command:
chmod 600 .ssh/authorized_keys
Type this command once to return to the root user:
exit
Now you may SSH login as your new user, using the private key as authentication.
To read more about how key authentication works, read this tutorial: How To Configure SSH Key-Based Authentication on a Linux Server.
Step Five — Configure SSH
Now that we have our new account, we can secure our server a little bit by modifying its SSH configuration (the program that allows us to log in remotely).
Begin by opening the configuration file with your text editor as root:
nano /etc/ssh/sshd_config
Change SSH Port (Optional)
The first option that you may want to change is the port that SSH runs on. Find the line that looks like this:
Port 22
If we change this number to something in between 1025 and 65536, the SSH service on our server will look for connections on a different port. This is sometimes helpful because unauthorized users sometimes try to break into servers by attacking SSH. If you change the location, they will need to complete the extra step of sniffing it out.
If you change this value, you will need to keep in mind that your server is running on the new port. For this guide, I’ll change this to 4444 as a demonstration. This means that when I connect, I’ll have to tell my SSH client to use this new, non-default port. We’ll get to that later. For now, modify that value to your selection:
Port 4444
Restrict Root Login
Next, we need to find the line that looks like this:
PermitRootLogin yes
Here, we have the option to disable root login through SSH. This is generally a more secure setting since we can now access our server through our normal user account and escalate privileges when necessary.
You can modify this line to “no” like this if you want to disable root login:
PermitRootLogin no
Disabling remote root login is highly recommended on every server!
When you are finished making your changes, save and close the file using the method we went over earlier (CTRL-X, then Y, then ENTER).
Step Six — Reload SSH
Now that we have made our changes, we need to restart the SSH service so that it will use our new configuration.
Type this to restart SSH:
service ssh restart
Now, before we log out of the server, we should test our new configuration. We do not want to disconnect until we can confirm that new connections can be established successfully.
Open a new terminal window. In the new window, we need to begin a new connection to our server. This time, instead of using the root account, we want to use the new account that we created.
If you changed the port number that SSH is running on, you’ll need to tell your client about the new port as well. You can do this by using the -p 4444 syntax, where “4444” is the port you configured.
For the server that I showed you how to configure above, I would connect using this command. Substitute your own information where it is appropriate:
ssh -p 4444 demo@SERVER_IP_ADDRESS
Note: If you are using PuTTY to connect to your servers, be sure to update the session’s port number to match your server’s current configuration.
You will be prompted for the new user’s password that you configured. After that, you will be logged in as your new user.
Remember, if you need to run a command with root privileges, type “sudo” before it like this:
sudo command_to_run
If all is well, you can exit your sessions by typing:
exit
Where To Go From Here?
At this point, you have a solid foundation for your server. You can install any of the software you need on your server now.
If you are not sure what you want to do with your server, check out the next tutorial in this series forAdditional Recommended Steps for New Ubuntu 14.04 Servers. It covers things like enabling fail2banto reduce the effectiveness of brute force attacks, basic firewall settings, NTP, and swap files. It also provides links to tutorials that show you how to set up common web applications.
If you just want to explore, take a look at the rest of our community to find more tutorials. Some popular ideas are configuring a LAMP stack or a LEMP stack, which will
allow you to host websites.