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Guides - Setting Up and Securing a Compute Instance
Linux virtual machines equipped with a tailored set of resources designed to run any cloud-based workload.
After you have successfully created a Compute Instance, there are a few initial configuration steps you should perform within your new Linux system. This includes updating your system, setting the timezone, configuring a custom hostname, adding a limited user, hardening SSH to prevent unauthorized access, and configuring a firewall. These steps ensure your instance is up to date, secure, and ready for use.
- View your Instance in Cloud Manager
- Connect to the Instance
- Perform System Updates
- Set the Timezone
- Configure a Custom Hostname
- Add a Limited User Account
- Harden SSH Access
- Configure a Firewall
- Common Lockout Recovery Steps
Before You Begin
If you haven’t done so already, review the following guides to learn more about using Linode and Compute Instances.
View your Instance in Cloud Manager
Log in to Cloud Manager, click the Linodes link in the left menu, and select your Compute Instance from the list. This opens the details page for that instance, which lets you view key information and further configure it to meet your needs.
Connect to the Instance
Once the Compute Instance has been created and has finished booting up, you can connect to it. Connecting to your instance is usually done through the SSH (Secure Shell) protocol, though you can use the Lish Console to bypass SSH and connect directly to your instance. The Lish Console can be accessed through a web browser (Weblish) or via SSH on the command line.
Weblish (via Cloud Manager): Click the Launch LISH Console link at the top right corner of the Compute Instance’s detail page. See Using the Lish Console > Through a Browser.
SSH: Copy the command from the SSH Access field under the Access section on the Compute Instance’s detail page (see screenshot above) and paste it into your local computer’s terminal. The command should look similar to the following, only with the IP address of your newly created instance.
ssh root@192.0.2.17
- Windows: Windows 10 and 11 users can connect to their Compute Instance using the Command Prompt (or PowerShell) application, provided their system is fully updated. For users of Windows 8 and earlier, Secure Shell on Chrome, PuTTY, or many other third party tools can be used instead. See Connecting to a Remote Server Over SSH on Windows.
- macOS: The Terminal application is pre-installed on macOS. See Connecting to a Remote Server Over SSH on a Mac.
- Linux: You can use a terminal window, regardless of desktop environment or window manager. See Connecting to a Remote Server Over SSH on Linux
Lish (via SSH): Copy the command from the LISH Console via SSH field under the Access section on the Compute Instance’s detail page (see screenshot above) and paste it into your local computer’s terminal. The command should look similar to the one below, only with your username, data center, and Compute Instance label. Review Using the Lish Console > Through SSH for more instructions.
ssh -t user@lish-newark.linode.com example-instance
Perform System Updates
Updating your system frequently is the single biggest security precaution you can take for any operating system. Software updates range from critical vulnerability patches to minor bug fixes and many software vulnerabilities are actually patched by the time they become public. Updating also provides you with the latest software versions available for your distribution.
apt update && apt upgrade
target="_blank"
>minimum installation</a
. You will likely want to install individual <a href=“https://www.kali.org/tools/"
target="_blank"
>tools</a
or <a href=“https://www.kali.org/tools/kali-meta/"
target="_blank"
>metapackages</a
, such as the <a href=“https://www.kali.org/tools/kali-meta/#kali-linux-headless"
target="_blank"
>kali-linux-headless</a
metapackage.
This includes CentOS Stream 8 (and above), CentOS 8, other RHEL derivatives (including AlmaLinux 8 and Rocky Linux 8), and Fedora.
dnf upgrade
yum update
zypper update
apk update && apk upgrade
pacman -Syu
emaint sync -a
After running a sync, it may end with a message that you should upgrade Portage using a --oneshot
emerge command. If so, run the Portage update. Then update the rest of the system:
emerge -uDU --keep-going --with-bdeps=y @world
slackpkg update
slackpkg upgrade-all
Set the Timezone
All new Compute Instances are set to UTC time by default. However, you may prefer to use the time zone which you live in so log file timestamps are relative to your local time.
This includes CentOS Stream 8 (and newer), CentOS 7 (and newer), other RHEL derivatives (including AlmaLinux 8 and Rocky Linux 8), Fedora, and Arch. These instructions also work for most Ubuntu, Debian, and openSUSE distributions, though other methods may be preferred in those cases.
Use
timedatectl
to output a list of available timezones.timedatectl list-timezones
Use the arrow keys,
Page Up
, andPage Down
to navigate through the list. Copy or make note of your desired time zone and press q to exit the list.Set the time zone using the command below, replacing America/New_York with your preferred time zone.
timedatectl set-timezone 'America/New_York'
The instructions under the Most Distributions section above (which outlines the timedatectl
command) are valid. That said, both Ubuntu and Debian come with a more friendly tool called tzdata
, outlined below.
Open the
tzdata
tool.dpkg-reconfigure tzdata
Select the continent of your choice using the arrow keys and press Enter.
Select your region using the arrow keys and press Enter.
Use the setup-timezone command to initiate the timezone selection process:
setup-timezone
Enter the timezone you are located within. If you aren’t sure of the timezone string to use, enter
?
to display a list of available timezonesIf you selected a region with sub-timezones, enter
?
again to see a list of available sub-timezones and then enter the sub-timezone you are located within.
View a list of available time zones.
ls /usr/share/zoneinfo
Write the selected time zone to
/etc/timezone
(for example, EST for Eastern Standard Time).echo "EST" > /etc/timezone
Configure the
sys-libs/timezone-data
package, which sets/etc/localtime
.emerge --config sys-libs/timezone-data
The instructions under the Most Distributions section above (which outlines the timedatectl
command) are valid. openSUSE also has a more friendly way to select a timezone, discussed below.
Open the YaST2 timezone selector tool.
yast2 timezone
Use the arrow keys to select your region within the Region pane.
Press tab to switch to the Time Zone pane and then use the arrow keys to select your time zone or sub-region.
Press F10 to save the changes. Alternatively, press tab until the
[OK]
text button is highlighted. Then press enter.
Run the
timeconfig
tool.timeconfig
Select
NO Hardware clock is set to local time
.Select a timezone.
Check the Time
Use the date
command to view the current date and time according to your server.
root@localhost:~# date
Thu Feb 16 12:17:52 EST 2018
Configure a Custom Hostname
A hostname is used to identify your Compute Instance using an easy-to-remember name. It can be descriptive and structured (detailing what the system is used for) or a generic word or phrase. Here are some examples of hostnames:
Descriptive and/or Structured:
web
,staging
,blog
, or something more structured like[purpose]-[number]-[environment]
(ex:web-01-prod
).Generic/Series: Such as the name of a fruit (
apple
,watermelon
), a planet (mercury
,venus
), or animal (leopard
,sloth
).
This hostname can be used as part of a FQDN (fully qualified domain name) for the system (ex: web-01-prod.example.com
).
This includes Ubuntu 16.04 (and newer), CentOS Stream 8 (and newer), CentOS 7 (and newer), other RHEL derivatives (including AlmaLinux 8 and Rocky Linux 8), Debian 8 (and newer), Fedora, openSUSE, Kali Linux, and Arch.
Replace example-hostname
with one of your choice.
hostnamectl set-hostname example-hostname
echo "HOSTNAME=\"example-hostname\"" > /etc/conf.d/hostname
/etc/init.d/hostname restart
echo "example-hostname" > /etc/HOSTNAME
hostname -F /etc/HOSTNAME
After you’ve made the changes above, you may need to log out and log back in again to see the terminal prompt change from localhost
to your new hostname. The command hostname
should also show it correctly. See our guide on using the
hosts file if you want to configure a fully qualified domain name.
Update Your System’s hosts
File
The hosts
file creates static associations between IP addresses and hostnames or domains which the system prioritizes before DNS for name resolution.
Open the
hosts
file in a text editor, such as Nano.nano /etc/hosts
Add a line for your Compute Instance’s public IP address. You can associate this address with your instance’s Fully Qualified Domain Name (FQDN) if you have one, and with the local hostname you set in the steps above. In the example below,
203.0.113.10
is the public IP address,example-hostname
is the local hostname, andexample-hostname.example.com
is the FQDN.- File: /etc/hosts
1 2
127.0.0.1 localhost.localdomain localhost 203.0.113.10 example-hostname.example.com example-hostname
Add a line for your Compute Instance’s IPv6 address. Applications requiring IPv6 will not work without this entry:
- File: /etc/hosts
1 2 3
127.0.0.1 localhost.localdomain localhost 203.0.113.10 example-hostname.example.com example-hostname 2600:3c01::a123:b456:c789:d012 example-hostname.example.com example-hostname
The value you assign as your system’s FQDN should have an “A” record in DNS pointing to your Compute Instance’s IPv4 address. For IPv6, you should also set up a DNS “AAAA” record pointing to your instance’s IPv6 address.
See our guide to
Adding DNS Records for more information on configuring DNS. For more information about the hosts
file, see
Using your System’s hosts File
Add a Limited User Account
Up to this point, you have accessed your Compute Instance as the root
user, which has unlimited privileges and can execute any command–even one that could accidentally disrupt your server. We recommend creating a limited user account and using that at all times. Administrative tasks will be done using sudo
to temporarily elevate your limited user’s privileges so you can administer your server. Later, when you want to restrict sudo access for users, see
Linux Users and Groups.
sudo
on the system by default, but all the images provided by Linode have sudo in their package repositories. If you get the output sudo: command not found
, install sudo before continuing.Create the user, replacing
example_user
with your desired username. You’ll then be asked to assign the user a password:adduser example_user
Add the user to the
sudo
group so you’ll have administrative privileges:adduser example_user sudo
Create the user, replacing
example_user
with your desired username, and assign a password:useradd example_user && passwd example_user
Add the user to the
wheel
group for sudo privileges:usermod -aG wheel example_user
Log in as the New User
After creating your limited user, disconnect from your Compute Instance:
exit
Log back in as your new user. Replace
example_user
with your username, and the example IP address with your instance’s IP address:ssh example_user@192.0.2.17
Now you can administer your Compute Instance from your new user account instead of root
. Nearly all superuser commands can be executed with sudo
(example: sudo iptables -L -nv
) and those commands will be logged to /var/log/auth.log
.
Harden SSH Access
By default, password authentication is used to connect to your Compute Instance via SSH. A cryptographic key-pair is more secure because a private key takes the place of a password, which is generally much more difficult to decrypt by brute-force. In this section we’ll create a key-pair and configure your system to not accept passwords for SSH logins.
Create and Upload Your SSH Key
To protect your user account with public key authentication, you first need to create an SSH key pair and upload the public key to your server.
Locate your existing SSH public key or, if you don’t yet have one, create a new SSH key pair.
If you have an existing SSH key, find the public key on your local machine. SSH keys are typically stored in a hidden
.ssh
directory within the user’s home directory:- Linux:
/home/username/.ssh/
- macOS:
/Users/username/.ssh/
- Windows:
C:\Users\Username\.ssh\
Since SSH keys are generated as a private and public key pair, there should be two files for each SSH key. They have similar filenames, with the public key using a
.pub
extension and the private key using no extension. While SSH keys can have custom filenames, many people generate them using their default names. These default filenames start withid_
followed by the type of key, such asid_rsa
,id_ed25519
, andid_ecdsa
. See example private and public key filenames below:- Private key:
id_ed25519
- Public key:
id_ed25519.pub
- Linux:
If you do not yet have an SSH key pair, generate one now. We recommend using the Ed25519 algorithm with a secure passphrase. The command below works for Linux, macOS, and most fully updated Windows 10 and 11 machines. Replace
user@domain.tld
with your own email address or whatever custom comment string you wish to use. This helps with differentiate SSH keys and identify the owner.ssh-keygen -t ed25519 -C "user@domain.tld"
When prompted for the filename, you can press Enter to use the defaults. When prompted for the optional passphrase, we recommend using a string similar to a strong password (with a mix of letters, numbers, and symbols).
For more detailed instructions, on creating an SSH key, review the Generate an SSH Key Pair guide. Users of Windows 7 and earlier should review the PuTTY section.
Upload the public key to your Compute Instance. Replace
example_user
with the name of the user you plan to administer the server as and192.0.2.17
with your instance’s IP address.From your local computer:
ssh-copy-id example_user@192.0.2.17
On your Compute Instance (while signed in as your limited user):
mkdir -p ~/.ssh && sudo chmod -R 700 ~/.ssh/
From your local computer:
scp ~/.ssh/id_rsa.pub example_user@203.0.113.10:~/.ssh/authorized_keys
Note ssh-copy-id
is available in target="_blank"Homebrew</a if you prefer it over SCP. Install with
brew install ssh-copy-id
.On your Compute Instance (while signed in as your limited user):
mkdir -p ~/.ssh && sudo chmod -R 700 ~/.ssh/
From your local computer:
scp C:\Users\MyUserName\.ssh/id_rsa.pub example_user@192.0.2.17:~/.ssh/authorized_keys
Option 1: This can be done using WinSCP. In the login window, enter your Compute Instance’s public IP address as the hostname, and your non-root username and password. Click Login to connect.
Once WinSCP has connected, you’ll see two main sections. The section on the left shows files on your local computer and the section on the right shows files on your instance. Using the file explorer on the left, navigate to the file where you’ve saved your public key, select the public key file, and click Upload in the toolbar above.
You’ll be prompted to enter a path where you’d like to place the file on your Compute Instance. Upload the file to
/home/example_user/.ssh/authorized_keys
, replacingexample_user
with your username.Option 2: Copy the public key directly from the PuTTY key generator into the terminal emulator connected to your Compute Instance (as a non-root user):
mkdir ~/.ssh; nano ~/.ssh/authorized_keys
The above command will open a blank file called
authorized_keys
in a text editor. Copy the public key into the text file, making sure it is copied as a single line exactly as it was generated by PuTTY. Press CTRL+X, then Y, then Enter to save the file.
Finally, you’ll want to set permissions for the public key directory and the key file itself. On your Compute Instance, run the following command:
sudo chmod -R 700 ~/.ssh && chmod 600 ~/.ssh/authorized_keys
This provides an extra layer of security by preventing other users from accessing the public key directory as well as the file itself. For more information on how this works, see our guide on how to modify file permissions.
Now exit and log back in to your Compute Instance. In most cases, the first authentication method attempted will be public key authentication. If you’ve successfully uploaded a public key for your user, you should be logged in without entering your user’s password (though you will need to enter the passphrase for the SSH key).
This should trigger If you specified a passphrase for your private key, you’ll need to enter it.
SSH Daemon Options
Lastly, edit the SSH configuration file to disallow root login and disable password authentication over SSH.
Open the SSH configuration file on your Compute Instance using a Linux text editor, such as nano or vim:
sudo nano /etc/ssh/sshd_config
Disallow root logins over SSH. This requires all SSH connections be by non-root users. Once a limited user account is connected, administrative privileges are accessible either by using
sudo
or changing to a root shell usingsu -
.- File: /etc/ssh/sshd_config
1 2 3
# Authentication: ... PermitRootLogin no
Disable SSH password authentication. This requires all users connecting via SSH to use key authentication. Depending on the Linux distribution, the line
PasswordAuthentication
may need to be added, or uncommented by removing the leading#
.- File: /etc/ssh/sshd_config
1 2
# Change to no to disable tunnelled clear text passwords PasswordAuthentication no
Note You may want to leave password authentication enabled if you connect to your Compute Instance from many different computers. This will allow you to authenticate with a password instead of generating and uploading a key-pair for every device.Listen on only one internet protocol. The SSH daemon listens for incoming connections over both IPv4 and IPv6 by default. Unless you need to SSH into your Compute Instance using both protocols, disable whichever you do not need. This does not disable the protocol system-wide, it is only for the SSH daemon. Depending on the Linux distribution, the line
AddressFamily
may need to be added, or uncommented by removing the leading#
Use the option:
AddressFamily inet
to listen only on IPv4.AddressFamily inet6
to listen only on IPv6.
- File: /etc/ssh/sshd_config
1 2
# Port 22 AddressFamily inet
Restart the SSH service to load the new configuration.
Distributions with systemd: If you’re using a Linux distribution which uses systemd (CentOS 7, Debian 8, Fedora, Ubuntu 15.10+), restart the service using systemctl:
sudo systemctl restart sshd
Ubuntu 22.10+: If you are using Ubuntu 22.10 or later,
sshd
uses socket-based activation. Run this command instead of restarting the service.systemctl enable --now ssh.service
Distributions without systemd: If your init system is SystemV or Upstart (CentOS 6, Debian 7, Ubuntu 14.04), run the command below to restart the service:
sudo service sshd restart
Use Fail2Ban for SSH Login Protection
Fail2Ban is an application that bans IP addresses from logging in to your server after too many failed login attempts. Since legitimate logins usually take no more than three tries to succeed (and with SSH keys, no more than one), a server being spammed with unsuccessful logins indicates attempted malicious access.
Fail2Ban can monitor a variety of protocols including SSH, HTTP, and SMTP. By default, Fail2Ban monitors SSH only, and is a helpful security deterrent for any server since the SSH daemon is usually configured to run constantly and listen for connections from any remote IP address.
For complete instructions on installing and configuring Fail2Ban, see our guide: A Tutorial for Using Fail2ban to Secure Your Server.
Configure a Firewall
Using a firewall to block unwanted inbound traffic to your Compute Instance provides a highly effective security layer. By being very specific about the traffic you allow in, you can prevent intrusions and network mapping. A best practice is to allow only the traffic you need, and deny everything else. See our documentation on some of the most common firewall applications:
nftables or its predecessor, iptables, is the controller for netfilter, the Linux kernel’s packet filtering framework. One of these utilities is included in most Linux distributions by default.
firewalld is a firewall management tool that serves as a front end to nftables or iptables. It is preinstalled on the RHEL family of distributions (and others), including CentOS, AlmaLinux, Rocky Linux, Fedora, and openSUSE Leap.
UFW is another firewall management tool that operates as a front end to nftables or iptables. It is used by default on Ubuntu and is also available on other Debian-based distributions.
Common Lockout Recovery Steps
If for whatever reason you find yourself locked out of your Compute Instance after putting your security controls into place, there are still a number of ways that you can regain access to your instance.
Access your Compute Instance through our out-of-band Lish console to regain access to the internals of your system without relying on SSH.
If you need to re-enable password authentication and/or root login over ssh to your instance, you can do this by reversing the following sections of this file to reflect these changes
- File: /etc/ssh/sshd_config
1 2 3 4 5
# Authentication: ... PermitRootLogin yes ... PasswordAuthentication yes
From there, you just need to restart SSH.
If you’re using a Linux distribution which uses systemd (CentOS 7, Debian 8, Fedora, Ubuntu 15.10+)
sudo systemctl restart sshd
If your init system is SystemV or Upstart (CentOS 6, Debian 7, Ubuntu 14.04):
sudo service sshd restart
If you need to remove your public key from your Compute Instance, you can enter the following command:
rm ~/.ssh/authorized_keys
You can then replace your key by re-following the Create an Authentication Key-pair section of this guide.
Next Steps
These are the most basic steps to harden any Linux server, but further security layers will depend on its intended use. Additional techniques can include application configurations, using intrusion detection, installing a form of access control, fine tuning sudo access, removing exposed services, and more.
Now you can begin setting up your Compute Instance for any purpose you choose. We have a library of documentation to assist you with a variety of topics ranging from migration from shared hosting to enabling two-factor authentication to hosting a website.
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