- Love This
- Yahoo Mail
- Facebook Messenger
- Copy Link
fail2ban, your Linux computer automatically blocks IP addresses that have too many connection failures. It’s self-regulating security! We’ll show you how to use it.
Security Security Security
Duchess of Windsor, Wallis Simpson, once famously said, “You can never be too rich or too thin.” We’ve updated this for our modern, interconnected world: You can never be too careful or too secure.
If your computer accepts incoming connection requests, such as Secure Shell (SSH) connections, or acts as a web or email server, you need to protect it from brute-force attacks and password-guessers.
To do so, you’ll need to monitor connection requests that fail to get into an account. If they repeatedly fail to authenticate within a short period, they should be banned from making further attempts.
The only way this can be achieved practically is to automate the entire process. With a little bit of simple configuration,
fail2ban will manage the monitoring, banning, and unbanning for you.
fail2ban integrates with the Linux firewall
iptables. It enforces the bans on the suspect IP addresses by adding rules to the firewall. To keep this explanation uncluttered, we’re using
iptables with an empty ruleset.
Of course, if you’re concerned about security, you probably have a firewall configured with a well-populated ruleset.
fail2ban only adds and removes its own rules—your regular firewall functions will remain untouched.
We can see our empty ruleset using this command:
sudo iptables -L
RELATED: The Beginner’s Guide to iptables, the Linux Firewall
fail2ban is simple on all the distributions we used to research this article. On Ubuntu 20.04, the command is as follows:
sudo apt-get install fail2ban
On Fedora 32, type:
sudo dnf install fail2ban
On Manjaro 20.0.1, we used
sudo pacman -Sy fail2ban
fail2ban installation contains a default configuration file called jail.conf. This file is overwritten when
fail2ban is upgraded, so we’ll lose our changes if we make customizations to this file.
Instead, we’ll copy the jail.conf file to one called jail.local. By putting our configuration changes in jail.local, they’ll persist across upgrades. Both files are automatically read by
This is how to copy the file:
sudo cp /etc/fail2ban/jail.conf /etc/fail2ban/jail.local
Now open the file in your favorite editor. We’re going to use
sudo gedit /etc/fail2ban/jail.local
We’ll look for two sections in the file: [DEFAULT] and [sshd]. Take care to find the actual sections, though. Those labels also appear near the top in a section that describes them, but that’s not what we want.
You’ll find the [DEFAULT] section somewhere around line 40. It’s a long section with a lot of comments and explanations.
Scroll down to around line 90, and you’ll find the following four settings you need to know about:
- ignoreip: A whitelist of IP addresses that will never be banned. They have a permanent Get Out of Jail Free card. The localhost IP address (
127.0.0.1) is in the list by default, along with its IPv6 equivalent (
::1). If there are other IP addresses you know should never be banned, add them to this list and leave a space between each one.
- bantime: The duration for which an IP address is banned (the “m” stands for minutes). If you type a value without an “m” or “h” (for hours) it will be treated as seconds. A value of -1 will permanently ban an IP address. Be very careful not to permanently lock yourself out.
- findtime: The amount of time within which too many failed connection attempts will result in an IP address being banned.
- maxretry: The value for “too many failed attempts.”
If a connection from the same IP address makes
maxretry failed connection attempts within the
findtime period, they’re banned for the duration of the
bantime. The only exceptions are the IP addresses in the
fail2ban puts the IP addresses in jail for a set period of time.
fail2ban supports many different jails, and each one represents holds the settings apply to a single connection type. This allows you to have different settings for various connection types. Or you can have
fail2ban monitor only a chosen set of connection types.
You might have guessed it from the [DEFAULT] section name, but the settings we’ve looked at are the defaults. Now, let’s look at the settings for the SSH jail.
RELATED: How to Edit Text Files Graphically on Linux With gedit
Configuring a Jail
Jails let you move connection types in and out of
fail2ban's monitoring. If the default settings don’t match those you want applied to the jail, you can set specific values for
Scroll down to about line 280, and you’ll see the [sshd] section.
This is where you can set values for the SSH connection jail. To include this jail in the monitoring and banning, we have to type the following line:
enabled = true
We also type this line:
maxretry = 3
The default setting was five, but we want to be more cautious with SSH connections. We dropped it to three, and then saved and closed the file.
We added this jail to
fail2ban's monitoring, and overrode one of the default settings. A jail can use a combination of default and jail-specific settings.
So far, we’ve installed
fail2ban and configured it. Now, we have to enable it to run as an auto-start service. Then, we need to test it to make sure it works as expected.
fail2ban as a service, we use the
sudo systemctl enable fail2ban
We also use it to start the service:
sudo systemctl start fail2ban
We can check the status of the service using
sudo systemctl status fail2ban.service
Everything looks good—we’ve got the green light, so all is well.
Let’s see if
sudo fail2ban-client status
This reflects what we set up. We’ve enabled a single jail, named [sshd]. If we include the name of the jail with our previous command, we can take a deeper look at it:
sudo fail2ban-client status sshd
This lists the number of failures and banned IP addresses. Of course, all the statistics are zero at the moment.
Testing Our Jail
On another computer, we’ll make an SSH connection request to our test machine and purposefully mistype the password. You get three attempts to get the password right on each connection attempt.
maxretry value will trigger after three failed connection attempts, not three failed password attempts. So, we have to type an incorrect password three times to fail connection attempt one.
We’ll then make another connection attempt and type the password incorrectly another three times. The first incorrect password attempt of the third connection request should trigger
After the first incorrect password on the third connection request, we don’t get a response from the remote machine. We don’t get any explanation; we just get the cold shoulder.
You must press Ctrl+C to return to the command prompt. If we try once more, we’ll get a different response:
Previously, the error message was “Permission denied.” This time, the connection is outright refused. We’re persona non grata. We’ve been banned.
Let’s look at the details of the [sshd] jail again:
sudo fail2ban-client status sshd
There were three failures, and one IP address (192.168.4.25) was banned.
As we mentioned previously,
fail2ban enforces bans by adding rules to the firewall ruleset. Let’s take another look at the ruleset (it was empty before):
sudo iptables -L
A rule has been added to the INPUT policy, sending SSH traffic to the
f2b-sshd chain. The rule in the
f2b-sshd chain rejects SSH connections from 192.168.4.25. We didn’t alter the default setting for
bantime, so, in 10 minutes, that IP address will be unbanned and can make fresh connection requests.
If you set a longer ban duration (like several hours), but want to allow an IP address to make another connection request sooner, you can parole it early.
We type the following to do this:
sudo fail2ban-client set sshd unbanip 192.168.5.25
On our remote computer, if we make another SSH connection request and type the correct password, we’ll be allowed to connect:
Simple and Effective
Simpler is usually better, and
fail2ban is an elegant solution to a tricky problem. It takes very little configuration and imposes hardly any operational overhead—to you or your computer.