Modern operating systems are no longer single-user terminal windows with a shell. Now they are multitasking multi-user operating systems with a graphical interface and the ability to process data in parallel. In this connection there is a need to organise work between users: their authorization and authentication. In this article we will consider the algorithm of authentication in Linux and how you can manage one of them.
What is PAM and what do Linux passwords have to do with it?
PAM or Pluggable Authentication Module is a single service that integrates authentication providers, allowing you to choose any scenario and the order in which they are used. They are considered system methods via /etc/passwd, /etc/shadow, where it compares the user and his entered password in the form of a hash. It can be LDAP, Kerberos, NTLM, SSH and others.
The way it works is that the user requests the execution of a file as a system call to the OS kernel. After the PAM module intercepts and processes the request according to the script prescribed for working with the service, determining access for the user. New providers for authentication can be connected by installing appropriate packages and libraries.
Classically, system password checking is used in the /etc/shadow directory using the pam_unix.so module. The user enters authentication data, it is hashed and compared to the hash in the directory. An example of an entry is as follows:
It's immediately clear that user represents the user login and the value $6$JdjJd8...$ is the password hash, but what comes after that? This is the metadata, where 18355 is the date the password was last changed. The next fields are responsible for minimum/maximum authentication data expiration, warnings before expiration, and lockouts. The module accesses the file and reads all these values and then gives PAM a true or false response.
Let's take a look at the tools that will allow you to specify password settings in the /etc/shadow file.
Linux password tools
The most popular password utility is passwd. Simple functionality that includes changing, locking and unlocking, password validity and deletion. Let's create a new user and test all the features of the utility on him!
In the useradd utility, the -p option allows you to set the password in one command at a time and use it for authentication.
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Let's go back to the terminal and assume that we have forgotten the password. Then it is necessary to reset it via users in the sudo or root group:
Great, now we won't forget him for sure! But, what if the employee quits, the device is not connected to a domain controller and a separate account has been issued for the employee. One of the options is to block logging into the account, let's do it with the command:
Let's change the user to the same pre-created koldek2 and try to authenticate:
An error occurs, without any details about it. The su command accessed the virtual terminal, after which the pam module generated a request for authentication under the new user koldek2. Where the record was checked and it was indicated in /etc/shadow that authentication under this record is not possible. Pam went through the whole script and returned an error.
Let's imagine that we need to log in as this user. Let's change the password and unlock the account:
Next, let's check if the authentication works, log in to koldek via koldek2 and write the command:
Great, the last entry indicates that we have successfully authenticated to koldek on the device. You can prevent the user from being authenticated by simply removing their password via the command:
Let's consider another case when your user has been using the same password for a long time and you need to change it. For this purpose, let's specify a forced change during authentication:
Or manually specify the expiry date for the user's password:
And the command with the -S option allows you to view the status of the user's password and see if the settings have been applied. In general, these are all the options and features of local authentication on the device via the pam_unix.so module. More complex solutions such as TOTP or LDAP authentication will be covered in the next articles!