Author: Ben Collins Modified by: Sam Hartman , Steve Langasek Objective: To document a base set of policies regarding PAM (Pluggable Authentication Modules) usage in Debian packages. =========================================================================== In order to have a consistent and stable implementation across packages that use PAM, these guidelines will help to avoid some common mistakes and be usable as a cross reference for FAQ's. This document will not go into the details of how to add PAM usage to existing code; please read the documentation in the libpam-doc package for info on that. However, it does specify behavior needed to make sure PAM modules in Debian will work with your application. ================== PAM Applications ================== Each application that uses PAM also must contain a file in /etc/pam.d/. This file specifies which PAM modules will be used for the common PAM functions in that application. There are several notes concerning what modules to use in this file. Most commonly, this file should use the @include directive to include common-auth, common-account, and common-password, and one of either common-session or common-session-noninteractive. The selection of common-session or common-session-noninteractive is based on whether the service provides "shell-like" interactive capabilities to the user (e.g.: login, ssh, gdm) or is a non-interactive session or a session mediated by a structured protocol (e.g.: cron, cups, samba, ppp). This allows a service to avoid calling some modules, such as pam_ck_connector, that only make sense in an interactive context and should be avoided otherwise. It is expected that the modules used for noninteractive sessions will always be a subset of those used for interactive sessions. Under some circumstances (such as ftp auth, or auth based on tty) other service-specific modules will need to be listed in the service's /etc/pam.d file. Here is an example of a PAM configuration file that just includes the common module fragments: # # /etc/pam.d/other - specify the PAM fallback behaviour # # Note that this file is used for any unspecified service; for example #if /etc/pam.d/cron specifies no session modules but cron calls #pam_open_session, the session module out of /etc/pam.d/other is #used. If you really want nothing to happen then use pam_permit.so or #pam_deny.so as appropriate. # We fall back to the system default in /etc/pam.d/common-* # @include common-auth @include common-account @include common-password @include common-session The name of this file is determined by the call to pam_start() in the application source code. The first parameter will be a string containing the "service" name (eg. "login", "httpd", etc..). Please make sure that the filename coincides with the value of this parameter used in your application. The file should _not_ reference the full path of the modules. It only needs to reference the basename (eg. "pam_unix.so"). This will ensure that the program continues to work even if the module location changes, since libpam itself will resolve the location. Packages which configure their services by default to use modules other than those provided by /etc/pam.d/common-* must depend on the package providing those modules. E.g., /etc/pam.d/login includes the line: session required pam_limits.so therefore it must depend on libpam-modules, which provides /lib/security/pam_limits.so. Applications need to depend on libpam-runtime (>= 0.76-14) to guarantee that /etc/pam.d/common-* exist. Applications that use common-session-noninteractive must depend on libpam-runtime (>= 1.0.1-11) for this file. The pam_unix.so module allows programs to authenticate the uid of the calling process without being setuid or setgid. NOTE: this means the user executing the program; you cannot authenticate other users without suid root (root makes sure the NIS and NIS+ works too) or at least sgid shadow (won't work in the above cases). Most notably this affects programs like apache being able to use PAM since it runs as www-data which has no privileges and cannot use pam_unix.so to authenticate other users. On the other hand it does allow programs like vlock to authenticate. The application needs to follow the following rules to make sure PAM modules work: 1) Use the same PAM handle for all operations. This means it is not OK to call pam_start once for authentication and then later for session management. Modules need to be able to store pam_data between entry points. 2) The pam_open_session and pam_setcred calls must be made in a parent process of the eventual session. They need to be able to influence the environment of the session. 3) If you are started as root or have root privs for some other reason, pam_open_session and pam_setcred should be called while still root. 4) Implied by 1, make sure that pam_close_session and pam_end are called in the same process or a process descended from the execution context as pam_open_session and pam_setcred. The pam_close_session call may need state stored in the handle by the open session entry point to clean up properly. The pam_end call may need to free data (thus influencing system state in some cases) allocated in the earlier calls. ============= PAM Modules ============= Separately packaged PAM modules should adhere to a few basic setup rules: 1) Packages should use the naming scheme of `libpam-' (eg. libpam-ldap). 2) The modules should be located in the directory of the most recent libpam-modules (currently /lib/security). 3) The module should be named as pam_.so. The module should not contain a version suffix. 4) The module should be linked to libpam (-lpam) when compiled so that proper version dependencies will work. 5) Any config files should be located in /etc/security. The filename will be in the form of .conf.