PAM

The Linux Pluggable Authentication Modules (PAM) provide a framework for system-wide user authentication. To quote the project:

PAM provides a way to develop programs that are independent of authentication scheme. These programs need "authentication modules" to be attached to them at run-time in order to work. Which authentication module is to be attached is dependent upon the local system setup and is at the discretion of the local system administrator.

This article explains the Arch Linux base set-up defaults for PAM to authenticate local and remote users. Applying changes to the defaults is subject of crosslinked specialized per topic articles.

Installation

The pam package is a dependency of the base meta package and, thereby, normally installed on an Arch system. The PAM modules are installed into /usr/lib/security exclusively.

The repositories contain a number of optional PAM packages, the #Configuration How-Tos show examples.

Configuration

A number of /etc paths are relevant for PAM; execute to see the default configuration files created. They relate to either #Security parameters for the modules, or the #PAM base-stack configuration.

Security parameters

The path contains system-specific configuration for variables the authentication methods offer. The base install populates it with default upstream configuration files.

Note Arch Linux does not provide distribution-specific configuration for these files. For example, the file can be used to define system-wide defaults for password quality. Yet, to enable it, the module has to be added to the #PAM base-stack of modules, which is not the case per default.

See #Security parameter configuration for some of the possibilities.

PAM base-stack

The /etc/pam.d/ path is exclusive for the PAM configuration to link the applications to the individual systems' authentication schemes. During installation of the system base, it is populated by:

  • the pambase package, which contains the base-stack of Arch Linux specific PAM configuration to be used by applications, and
  • other base packages. For example, adds configuration for the central login and other programs, the package adds the Arch Linux defaults to secure and modify the user database (see Users and groups).

The different configuration files of the base installation link together and are stacked during runtime. For example, on a local user logon, the login application sources the policy, which in turn sources others:

For a different application, a different path may apply. For example, installs its PAM policy:

Consequently, the choice of the configuration file in the stack matters. For the above example, a special authentication method could be required for only, or all remote logins by changing ; both changes would not affect local logins. Applying the change to system-login or instead would affect local and remote logins.

Like the example of , any pam-aware application is required to install its policy to in order to integrate and rely on the PAM stack appropriately. If an application fails to do it, the default policy to deny and log a warning is applied.

Tip: PAM is dynamically linked at runtime. For example:
$ ldd /usr/bin/login | grep pam
libpam.so.0 => /usr/lib/libpam.so.0 (0x000003d8c32d6000)
libpam_misc.so.0 => /usr/lib/libpam_misc.so.0 (0x000003d8c30d2000)
the login application is pam-aware and must, therefore, have a policy.

The PAM package manual pages and describe the standardized content of the configuration files. In particular, they explain the four PAM groups: account, authentication, password, and session management, as well as the control values that may be used to configure stacking and behavior of the modules.

Additionally, extensive documentation is installed to which, among various guides, contains browsable man pages for each of the standard modules.

Examples

Two short examples to illustrate the above warning.

First, we take the following two lines:

/etc/pam.d/system-auth
auth      required  pam_unix.so     try_first_pass nullok
auth      optional  pam_permit.so

From :

The authentication component performs the task of checking the users credentials (password). The default action of this module is to not permit the user access to a service if their official password is blank.

- the latter being what is used for. Simply swapping the control values and for both lines is enough to disable password authentication, i.e. any user may logon without providing a password.

Second, as the contrary example, per default configuration of pam_nologin.so at /etc/pam.d/login, creating the following file:

# touch /etc/nologin 

results in that no user other than root may login (if root logins are allowed, another default for Arch Linux). To allow logins again, remove the file. Possibly, from the console you created it with.

With that as background, see #PAM stack and module configuration for particular use-case configuration.

Configuration How-Tos

This section provides an overview of content detailing how to apply changes to the PAM configuration and how to integrate special new PAM modules into the PAM stack. Note the man pages for the modules can generally be reached dropping the extension.

Security parameter configuration

The following sections describe examples to change the default PAM parameter configuration:

shows how to enforce strong passwords with .
shows how to configure the limits on login attempts with .
limits user logons with .
detail how to configure system process limits with pam_limits.so.
shows examples to set environment variables via .

PAM stack and module configuration

The following articles detail how to change the #PAM base-stack for special use-cases.

pam_mount
detail examples for using to automount encrypted directory paths on user login.
ECryptfs#Auto-mounting
uses to automount an encrypted directory.
Dm-crypt/Mounting at login 
shows how to use to execute a custom script on a user login.
Active Directory integration#Configuring PAM
uses and to let users authenticate via Active Directory (LDAP, Kerberos) services.
LDAP authentication#NSS and PAM
is an article about integrating LDAP client or server-side authentication with .
YubiKey#Linux user authentication with PAM
describes how to use U2F (pam_u2f.so) and the proprietary Yubico OTP implementation () provided by the YubiKey with PAM
pam_oath 
shows an example to implement software based two-factor authentication with .
fprint
employs to setup fingerprint authentication.
pam_autologin 
saves username and password to log in automatically.
pam_usb 
shows how to configure pam_usb.so to use an usb-device for, optionally two-factor, authentication.
SSH keys#pam_ssh
uses to authenticate as a remote user.
pam_abl
explains how can be used to limit brute-forcing attacks via ssh.
EncFS 
may get automounted via .
Google Authenticator
shows how to set up two-factor authentication with .
Very Secure FTP Daemon#PAM with virtual users
explains how to configure a FTP chroot with to authenticate users without a local system account.

Further PAM packages

Other than those packages mentioned so far, the Arch User Repository contains a number of additional PAM modules and tools.

A general purpose utility relating to PAM is:

    Note the AUR features a keyword tag for PAM, but not all available packages are updated to include it. Hence, searching the package description may be necessary.

    gollark: No.
    gollark: I can't practically not use them?
    gollark: Because current OSes are fairly problematic?
    gollark: No.
    gollark: I'm sure someone is working on something something safe microkernels.

    See also

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