System security is a complicated topic that individuals study for many years. It would be impractical to impart even a fraction of that knowledge in a Wiki article. What this page will attempt to do is provide a primer in the most basic elements of Linux security and identify common pitfalls for beginners

User accounts are used to log into the system and provide one of the basic building blocks for permissions. You could loosely categorize users into a few categories:

• Regular user accounts like the one created for you during install.
• Accounts used to run specific processes. These users are often named after the service they run. For example the dbus users is user to run the master dbus process.
• The root account.

The root account is an administrator or superuser account. This account to everything in the system and be used with extreme care. In most cases, it shouldn't be used at all. Instead use sudo.

The command sudo lets you run a command as the root user without actually switching to the root user. In many cases this is safer than using the root user directly as only a single command is being run as root. For example, your normal user account would not be able the file /etc/fstab because it is owned by root. However, you can edit it with sudo like this:

sudo nano /etc/fstab

When you run this command, you will be asked for a password, this will be the password of your normal user account. For more information about editing configuration files owned as root see [[Viewing_and_editing_configuration_files|this article on configuration files]

sudo vs su

While sudo and su look similar and both involve root access they are very different. sudo runs a single command as another user and requests the password of your normal user account. su lets you *become* root and requests the password of the root user. In general, it is usually safer to use sudo than to use su.

Why am I Asked for a Password

Sometimes you will take an action in the terminal or through a GUI application and will get prompted for your password. This is because the action you are trying to take cannot be completed by you user and requires elevated rights. Whenever you get a password prompt like this it is important to pause and think if the action you are taking *should* be asking for elevated rights before entering your password.

To change the password of the user account you are logged in as you can use the command:

passwd

To change the password of a different user on the same system you can use sudo:

sudo passwd theusername

Users on a Linux system are commonly arranged in groups. A user group is a convenient way of assigning more users access to a common task like sound, media, printing and mounting of removable drives etc.

A list of the current groups can be seen on the system with the command:

getent group | awk -F : '{print $1}'

To see which groups a given user belongs to use the command

groups theusername

Primary Groups

A user can be a member of any number of groups but they have only one primary group. The primary group is the group used when files are created.

At the most basic level, files are designated as read, write or execute to the user(owner), the group and other. To understand how this works let's look at a real world example.

To get the permissions on the file we can use the command ls -l.

ls -l /etc/fstab
-rw-r--r-- 1 root root 539 Dec 26 23:07 /etc/fstab

That first group of letters and dashes indicate the permissions. It is 10 characters long and the dashes indicate a lack of permissions.

• The first character "-", represents the file type, "-" indicates that it is a normal files.
• The next three characters "rw-" indicate the permissions for the user or owner of the file. In this case reading and writing are allowed but not executing.
• The next three characters "rw-" indicate the permissions for members of the group who owns the file. In this case reading and writing are allowed but not executing.
• The next three characters "r--" indicate the permissions for other users. In this case reading is allowed but not writing or executing.

From more detailed information on how file permissions are broken down take a look at this Wikipedia article

Changing File Permissions

The command chmod can be used to change permissions on a file or directory. It is probably easier to demonstrate than explain.

Add read rights to the user(owner) of the file

chmod u+r filename

Remove execute rights to members of the group owner of filename

chmod g-x filename

Set the rights for the other group to read only

chmod o=r filename

Of course, in normal use you would combine everything like this:

chmod u+rw,g=r,o-rwx filename

This adds read and write to the owner, set the group as read only and remove read, write and execute from other users

The chmod command can do a lot more than that. For more information take a look at Wikipedia's chmod reference

The Firewalls article has a full description of the Firewall solutions available on Manjaro

Are used to validate the processed data / files. By checking the file checksum, you can detect changes to the file, but the method is not perfect.

• The larger the file, the greater the probability of receiving the same checksum. This phenomenon is called collision. This is a disadvantage for checking whether a file is identical and it is also a security defect.
• Algorithms ( MD5, SHA-0, SHA-1) are not recommended to use. Because collisions were found.
• On servers are stored checksums instead of passwords. Because it is almost impossible to recover your passwords. But it is possible to generate several passwords that will match the same checksum.
• Algorithms in which it is more important to detect changes in files than encryption are used to detect changes in the system. Sample programs for check file integrity Tripwire, AIDE.

List of hash functions https://en.wikipedia.org/wiki/List_of_hash_functions#Unkeyed_cryptographic_hash_functions

• They can be used to encrypt messages in asynchronous encryption. In theory, a thief can steal the key message and steal private and will not be able to decrypt the message. Therefore, this method is considered the most secure method.
• Keys are used to sign the files, but does not give it a high level of safety. Because you can copy, edit the key from file. But it is useful for checking from which the package repository comes from, if we use several repositories and if we are able to verify.

• You can change the priorities of processes.
• You can display the process tree. pstree command
• You can check what file the process comes from. You can also check to which package a file belongs.
• You can detect "zombie" processes and delete them.
• You can limit the maximum number of processes. This is protection against fork bomb attack, but it does not guarantee system stability, if the user's process will be important for the stability of the system.