Configuring administrator access with sudo
By now, we've already used sudo
quite a few times in this book. At this point, you should already be aware of the fact that sudo
allows you to execute commands as if you were logged in as another user, with root
being the default. However, we haven't had any formal discussion about it yet, nor have we discussed how to actually modify which of your user accounts are able to utilize sudo
.
On all Linux systems, you should protect your root
account with a strong password and limit it to be used by as few people as possible. On Ubuntu, the root
account is locked anyway, so unless you unlocked it by setting a password, it cannot be used to log in to the system. Using sudo
is an alternative to logging in as root
to execute commands directly, so you can give your administrators access to perform tasks that require root
privileges with sudo
without actually giving them your root
password or unlocking the root
account. In fact, sudo
allows you to be a bit more granular. Using root
directly is basically all or nothing—if someone knows the root
password and the root
account is enabled, that person is not limited and can do whatever they want. With sudo
, that can also be true, but you can actually restrict some users to use only particular commands and therefore limit the scope of what they are able to do on the system. For example, you could give an admin access to install software updates but not allow them to reboot the server.
By default, members of the sudo
group are able to use sudo
without any restrictions. Basically, members of this group can do anything root
can do (which is everything). During installation, the user account you created was made a member of sudo
. To give additional users access to sudo
, all you would need to do is add them to the sudo
 group:
sudo usermod -aG sudo <username>
Not all distributions utilize the sudo
group by default, or even automatically install sudo
. Other distributions require you to install sudo
manually and may use another group (such as wheel
) to govern access to sudo
.
But again, that gives those users access to everything, and that may or may not be what you want. To actually configure sudo
, we use the visudo
command. This command assists you with editing /etc/sudoers
, which is the configuration file that governs sudo
access. Although you can edit /etc/sudoers
yourself with a text editor, configuring sudo
in that way is strongly discouraged. The visudo
command checks to make sure your changes follow the correct syntax and helps prevent you from accidentally destroying the file. This is a very good approach, because if you did make any errors in the /etc/sudoers
file, you may wind up in a situation where no one is able to gain administrative control over the server. And while there are ways to recover from such a mistake, it's certainly not a very pleasant situation to find yourself in! So, the takeaway here is never to edit the /etc/sudoers
file directly; always use visudo
to do so.
Here's an example of the type of warning the visudo
command shows when you make a mistake:
Figure 2.13: The visudo command showing an error
If you do see this error, press e to return to edit the file, and then correct the mistake.
The way this works is when you run visudo
from your shell, you are brought into a text editor with the /etc/sudoers
file opened up. You can then make changes to the file and save it like you would any other text file. By default, Ubuntu opens up the nano
text editor when you use visudo
. With nano
, you can save changes using Ctrl + w, and you can exit the text editor with Ctrl + x.
So visudo
allows you to make changes to who is able to access sudo
. But how do you actually make these changes? Go ahead and scroll through the /etc/sudoers
file that visudo
opens and you should see a line similar to the following:
%sudo ALL=(ALL:ALL) ALL
This is the line of configuration that enables sudo
access to anyone who is a member of the sudo
group. You can change the group name to any that you'd like, for example, perhaps you'd like to create a group called admins
instead. If you do change this, make sure that you actually create that group and add yourself and your staff to be members of it before you edit the /etc/sudoers
file or log off; it would be rather embarrassing if you found yourself locked out of administrator access to the server.
Of course, you don't have to enable access by group. You can actually call out a username instead. With the /etc/sudoers
file, groups are preceded by %
, while users are not. As an example of this, we also have the following line in the file:
root ALL=(ALL:ALL) ALL
Here, we're calling out a username (in this case, root
), but the rest of the line is the same as the one I pointed out before. While you can certainly copy this line and paste it one or more times (substituting root
for a different username) to grant access to others, using the group approach is really the best way. It's easier to add and remove users from a group (such as the sudo
group) than it is to use visudo
each time.
So, at this point, you're probably wondering what the options on /etc/sudoers
configuration lines actually mean. So far, both examples used ALL=(ALL:ALL) All
. In order to fully understand sudo
, understanding the other fields is extremely important, so let's go through them (using the root
line again as an example).
The first ALL
means that root
is able to use sudo
from any terminal. The second ALL
means that root
can use sudo
to impersonate any other user. The third ALL
means that root
can impersonate any other group. Finally, the last ALL
refers to what commands this user is able to do; in this case, any command he or she wishes.
To help drive this home, I'll give some additional examples. Here's a hypothetical example:
charlie ALL=(ALL:ALL) /sbin/reboot,/sbin/shutdown
Here, we're allowing user charlie
to execute the reboot
and shutdown
commands. If user charlie
tries to do something else (such as install a package), they will receive an error message:
Sorry, user charlie is not allowed to execute '/usr/bin/apt install tmux' as root on ubuntu.
However, if charlie
wants to use the reboot
or shutdown
commands on the server, they will be able to do so because we explicitly called out those commands while setting up this user's sudo
access. We can limit this further by changing the first ALL
to a machine name, in this case, ubuntu
, to reference the host name of the server I'm using for my examples. I've also changed the command that charlie
is allowed to run:
charlie ubuntu=(ALL:ALL) /usr/bin/apt
It's always a good idea to use full paths to commands when editing sudo
permissions, rather than the shortened versions. For example, we used /usr/bin/apt
here, instead of just apt
. This is important, as the user could create a script named apt
to do mischievous things that we normally wouldn't allow them to do. By using the full path, we're limiting the user to the binary stored at that path.
Now, charlie
is only able to use apt
. They can use apt update
, apt dist-upgrade
, and any other sub-command of apt
. But if they try to reboot the server, remove protected files, add users, or anything else we haven't explicitly set, they will be prevented from doing so.
We have another problem, though. We're allowing charlie
to impersonate other users. This may not be completely terrible given the context of installing packages (impersonating another user would be useless unless that user also has access to install packages), but it's bad form to allow this unless we really need to. In this case, we could just remove the (ALL:ALL)
from the line altogether to prevent charlie
from using the -u
option of sudo
to run commands as other users:
charlie ubuntu= /usr/bin/apt
On the other hand, if we actually do want charlie
to be able to impersonate other users (but only specific users), we can call out the username and group that charlie
is allowed to act on behalf of by setting those values:
charlie ubuntu=(dscully:admins) ALL
In that example, charlie
is able to run commands on behalf of the user dscully
and the group admins
.
Of course, there is much more to sudo
than what I've mentioned in this section. Entire books could be written about sudo
(and have been), but 99% of what you will need for your daily management of this tool involves how to add access to users while being specific about what each user is able to do. As a best practice, use groups when you can (for example, you could have an apt
group, a reboot
group, and so on) and be as specific as you can regarding who is able to do what. This way, you're not only able to keep the root
account private (or even better, disabled), but you also have more accountability on your servers.
Now that we've explored granting access to sudo
, we will next take a look at permissions, which give us even more control over what our users are able to access.