The Linux-PAM System Administrators' Guide Andrew G. Morgan Thorsten Kukuk Version 1.1.2, 31. August 2010 Abstract This manual documents what a system-administrator needs to know about the Linux-PAM library. It covers the correct syntax of the PAM configuration file and discusses strategies for maintaining a secure system. -------------------------------------------------------------------------- 1. Introduction 2. Some comments on the text 3. Overview 4. The Linux-PAM configuration file 4.1. Configuration file syntax 4.2. Directory based configuration 4.3. Example configuration file entries 5. Security issues 5.1. If something goes wrong 5.2. Avoid having a weak `other' configuration 6. A reference guide for available modules 6.1. pam_access - logdaemon style login access control 6.2. pam_cracklib - checks the password against dictionary words 6.3. pam_debug - debug the PAM stack 6.4. pam_deny - locking-out PAM module 6.5. pam_echo - print text messages 6.6. pam_env - set/unset environment variables 6.7. pam_exec - call an external command 6.8. pam_faildelay - change the delay on failure per-application 6.9. pam_filter - filter module 6.10. pam_ftp - module for anonymous access 6.11. pam_group - module to modify group access 6.12. pam_issue - add issue file to user prompt 6.13. pam_keyinit - display the keyinit file 6.14. pam_lastlog - display date of last login 6.15. pam_limits - limit resources 6.16. pam_listfile - deny or allow services based on an arbitrary file 6.17. pam_localuser - require users to be listed in /etc/passwd 6.18. pam_loginuid - record user's login uid to the process attribute 6.19. pam_mail - inform about available mail 6.20. pam_mkhomedir - create users home directory 6.21. pam_motd - display the motd file 6.22. pam_namespace - setup a private namespace 6.23. pam_nologin - prevent non-root users from login 6.24. pam_permit - the promiscuous module 6.25. pam_pwhistory - grant access using .pwhistory file 6.26. pam_rhosts - grant access using .rhosts file 6.27. pam_rootok - gain only root access 6.28. pam_securetty - limit root login to special devices 6.29. pam_selinux - set the default security context 6.30. pam_shells - check for valid login shell 6.31. pam_succeed_if - test account characteristics 6.32. pam_tally - login counter (tallying) module 6.33. pam_tally2 - login counter (tallying) module 6.34. pam_time - time controled access 6.35. pam_timestamp - authenticate using cached successful authentication attempts 6.36. pam_umask - set the file mode creation mask 6.37. pam_unix - traditional password authentication 6.38. pam_userdb - authenticate against a db database 6.39. pam_warn - logs all PAM items 6.40. pam_wheel - only permit root access to members of group wheel 6.41. pam_xauth - forward xauth keys between users 7. See also 8. Author/acknowledgments 9. Copyright information for this document Chapter 1. Introduction Linux-PAM (Pluggable Authentication Modules for Linux) is a suite of shared libraries that enable the local system administrator to choose how applications authenticate users. In other words, without (rewriting and) recompiling a PAM-aware application, it is possible to switch between the authentication mechanism(s) it uses. Indeed, one may entirely upgrade the local authentication system without touching the applications themselves. Historically an application that has required a given user to be authenticated, has had to be compiled to use a specific authentication mechanism. For example, in the case of traditional UN*X systems, the identity of the user is verified by the user entering a correct password. This password, after being prefixed by a two character ``salt'', is encrypted (with crypt(3)). The user is then authenticated if this encrypted password is identical to the second field of the user's entry in the system password database (the /etc/passwd file). On such systems, most if not all forms of privileges are granted based on this single authentication scheme. Privilege comes in the form of a personal user-identifier (UID) and membership of various groups. Services and applications are available based on the personal and group identity of the user. Traditionally, group membership has been assigned based on entries in the /etc/group file. It is the purpose of the Linux-PAM project to separate the development of privilege granting software from the development of secure and appropriate authentication schemes. This is accomplished by providing a library of functions that an application may use to request that a user be authenticated. This PAM library is configured locally with a system file, /etc/pam.conf (or a series of configuration files located in /etc/pam.d/) to authenticate a user request via the locally available authentication modules. The modules themselves will usually be located in the directory /lib/security or /lib64/security and take the form of dynamically loadable object files (see dlopen(3)). Chapter 2. Some comments on the text Before proceeding to read the rest of this document, it should be noted that the text assumes that certain files are placed in certain directories. Where they have been specified, the conventions we adopt here for locating these files are those of the relevant RFC (RFC-86.0, see bibliography"). If you are using a distribution of Linux (or some other operating system) that supports PAM but chooses to distribute these files in a different way you should be careful when copying examples directly from the text. As an example of the above, where it is explicit, the text assumes that PAM loadable object files (the modules) are to be located in the following directory: /lib/security/ or /lib64/security depending on the architecture. This is generally the location that seems to be compatible with the Filesystem Hierarchy Standard (FHS). On Solaris, which has its own licensed version of PAM, and some other implementations of UN*X, these files can be found in /usr/lib/security. Please be careful to perform the necessary transcription when using the examples from the text. Chapter 3. Overview For the uninitiated, we begin by considering an example. We take an application that grants some service to users; login is one such program. Login does two things, it first establishes that the requesting user is whom they claim to be and second provides them with the requested service: in the case of login the service is a command shell (bash, tcsh, zsh, etc.) running with the identity of the user. Traditionally, the former step is achieved by the login application prompting the user for a password and then verifying that it agrees with that located on the system; hence verifying that as far as the system is concerned the user is who they claim to be. This is the task that is delegated to Linux-PAM. From the perspective of the application programmer (in this case the person that wrote the login application), Linux-PAM takes care of this authentication task -- verifying the identity of the user. The flexibility of Linux-PAM is that you, the system administrator, have the freedom to stipulate which authentication scheme is to be used. You have the freedom to set the scheme for any/all PAM-aware applications on your Linux system. That is, you can authenticate from anything as naive as simple trust (pam_permit) to something as paranoid as a combination of a retinal scan, a voice print and a one-time password! To illustrate the flexibility you face, consider the following situation: a system administrator (parent) wishes to improve the mathematical ability of her users (children). She can configure their favorite ``Shoot 'em up game'' (PAM-aware of course) to authenticate them with a request for the product of a couple of random numbers less than 12. It is clear that if the game is any good they will soon learn their multiplication tables. As they mature, the authentication can be upgraded to include (long) division! Linux-PAM deals with four separate types of (management) task. These are: authentication management; account management; session management; and password management. The association of the preferred management scheme with the behavior of an application is made with entries in the relevant Linux-PAM configuration file. The management functions are performed by modules specified in the configuration file. The syntax for this file is discussed in the section below. Here is a figure that describes the overall organization of Linux-PAM: +----------------+ | application: X | +----------------+ / +----------+ +================+ | authentication-[---->--\--] Linux- |--<--| PAM config file| | + [----<--/--] PAM | |================| |[conversation()][--+ \ | | | X auth .. a.so | +----------------+ | / +-n--n-----+ | X auth .. b.so | | | | __| | | _____/ | service user | A | | |____,-----' | | | V A +----------------+ +------|-----|---------+ -----+------+ +---u-----u----+ | | | | auth.... |--[ a ]--[ b ]--[ c ] +--------------+ | acct.... |--[ b ]--[ d ] +--------------+ | password |--[ b ]--[ c ] +--------------+ | session |--[ e ]--[ c ] +--------------+ By way of explanation, the left of the figure represents the application; application X. Such an application interfaces with the Linux-PAM library and knows none of the specifics of its configured authentication method. The Linux-PAM library (in the center) consults the contents of the PAM configuration file and loads the modules that are appropriate for application-X. These modules fall into one of four management groups (lower-center) and are stacked in the order they appear in the configuration file. These modules, when called by Linux-PAM, perform the various authentication tasks for the application. Textual information, required from/or offered to the user, can be exchanged through the use of the application-supplied conversation function. If a program is going to use PAM, then it has to have PAM functions explicitly coded into the program. If you have access to the source code you can add the appropriate PAM functions. If you do not have access to the source code, and the binary does not have the PAM functions included, then it is not possible to use PAM. Chapter 4. The Linux-PAM configuration file When a PAM aware privilege granting application is started, it activates its attachment to the PAM-API. This activation performs a number of tasks, the most important being the reading of the configuration file(s): /etc/pam.conf. Alternatively, this may be the contents of the /etc/pam.d/ directory. The presence of this directory will cause Linux-PAM to ignore /etc/pam.conf. These files list the PAMs that will do the authentication tasks required by this service, and the appropriate behavior of the PAM-API in the event that individual PAMs fail. 4.1. Configuration file syntax The syntax of the /etc/pam.conf configuration file is as follows. The file is made up of a list of rules, each rule is typically placed on a single line, but may be extended with an escaped end of line: `\'. Comments are preceded with `#' marks and extend to the next end of line. The format of each rule is a space separated collection of tokens, the first three being case-insensitive: service type control module-path module-arguments The syntax of files contained in the /etc/pam.d/ directory, are identical except for the absence of any service field. In this case, the service is the name of the file in the /etc/pam.d/ directory. This filename must be in lower case. An important feature of PAM, is that a number of rules may be stacked to combine the services of a number of PAMs for a given authentication task. The service is typically the familiar name of the corresponding application: login and su are good examples. The service-name, other, is reserved for giving default rules. Only lines that mention the current service (or in the absence of such, the other entries) will be associated with the given service-application. The type is the management group that the rule corresponds to. It is used to specify which of the management groups the subsequent module is to be associated with. Valid entries are: account this module type performs non-authentication based account management. It is typically used to restrict/permit access to a service based on the time of day, currently available system resources (maximum number of users) or perhaps the location of the applicant user -- 'root' login only on the console. auth this module type provides two aspects of authenticating the user. Firstly, it establishes that the user is who they claim to be, by instructing the application to prompt the user for a password or other means of identification. Secondly, the module can grant group membership or other privileges through its credential granting properties. password this module type is required for updating the authentication token associated with the user. Typically, there is one module for each 'challenge/response' based authentication (auth) type. session this module type is associated with doing things that need to be done for the user before/after they can be given service. Such things include the logging of information concerning the opening/closing of some data exchange with a user, mounting directories, etc. If the type value from the list above is prepended with a - character the PAM library will not log to the system log if it is not possible to load the module because it is missing in the system. This can be useful especially for modules which are not always installed on the system and are not required for correct authentication and authorization of the login session. The third field, control, indicates the behavior of the PAM-API should the module fail to succeed in its authentication task. There are two types of syntax for this control field: the simple one has a single simple keyword; the more complicated one involves a square-bracketed selection of value=action pairs. For the simple (historical) syntax valid control values are: required failure of such a PAM will ultimately lead to the PAM-API returning failure but only after the remaining stacked modules (for this service and type) have been invoked. requisite like required, however, in the case that such a module returns a failure, control is directly returned to the application or to the superior PAM stack. The return value is that associated with the first required or requisite module to fail. Note, this flag can be used to protect against the possibility of a user getting the opportunity to enter a password over an unsafe medium. It is conceivable that such behavior might inform an attacker of valid accounts on a system. This possibility should be weighed against the not insignificant concerns of exposing a sensitive password in a hostile environment. sufficient if such a module succeeds and no prior required module has failed the PAM framework returns success to the application or to the superior PAM stack immediately without calling any further modules in the stack. A failure of a sufficient module is ignored and processing of the PAM module stack continues unaffected. optional the success or failure of this module is only important if it is the only module in the stack associated with this service+type. include include all lines of given type from the configuration file specified as an argument to this control. substack include all lines of given type from the configuration file specified as an argument to this control. This differs from include in that evaluation of the done and die actions in a substack does not cause skipping the rest of the complete module stack, but only of the substack. Jumps in a substack also can not make evaluation jump out of it, and the whole substack is counted as one module when the jump is done in a parent stack. The reset action will reset the state of a module stack to the state it was in as of beginning of the substack evaluation. For the more complicated syntax valid control values have the following form: [value1=action1 value2=action2 ...] Where valueN corresponds to the return code from the function invoked in the module for which the line is defined. It is selected from one of these: success, open_err, symbol_err, service_err, system_err, buf_err, perm_denied, auth_err, cred_insufficient, authinfo_unavail, user_unknown, maxtries, new_authtok_reqd, acct_expired, session_err, cred_unavail, cred_expired, cred_err, no_module_data, conv_err, authtok_err, authtok_recover_err, authtok_lock_busy, authtok_disable_aging, try_again, ignore, abort, authtok_expired, module_unknown, bad_item, conv_again, incomplete, and default. The last of these, default, implies 'all valueN's not mentioned explicitly. Note, the full list of PAM errors is available in /usr/include/security/_pam_types.h. The actionN can take one of the following forms: ignore when used with a stack of modules, the module's return status will not contribute to the return code the application obtains. bad this action indicates that the return code should be thought of as indicative of the module failing. If this module is the first in the stack to fail, its status value will be used for that of the whole stack. die equivalent to bad with the side effect of terminating the module stack and PAM immediately returning to the application. ok this tells PAM that the administrator thinks this return code should contribute directly to the return code of the full stack of modules. In other words, if the former state of the stack would lead to a return of PAM_SUCCESS, the module's return code will override this value. Note, if the former state of the stack holds some value that is indicative of a modules failure, this 'ok' value will not be used to override that value. done equivalent to ok with the side effect of terminating the module stack and PAM immediately returning to the application. N (an unsigned integer) equivalent to ok with the side effect of jumping over the next N modules in the stack. Note that N equal to 0 is not allowed (and it would be identical to ok in such case). reset clear all memory of the state of the module stack and start again with the next stacked module. Each of the four keywords: required; requisite; sufficient; and optional, have an equivalent expression in terms of the [...] syntax. They are as follows: required [success=ok new_authtok_reqd=ok ignore=ignore default=bad] requisite [success=ok new_authtok_reqd=ok ignore=ignore default=die] sufficient [success=done new_authtok_reqd=done default=ignore] optional [success=ok new_authtok_reqd=ok default=ignore] module-path is either the full filename of the PAM to be used by the application (it begins with a '/'), or a relative pathname from the default module location: /lib/security/ or /lib64/security/, depending on the architecture. module-arguments are a space separated list of tokens that can be used to modify the specific behavior of the given PAM. Such arguments will be documented for each individual module. Note, if you wish to include spaces in an argument, you should surround that argument with square brackets. squid auth required pam_mysql.so user=passwd_query passwd=mada \ db=eminence [query=select user_name from internet_service \ where user_name='%u' and password=PASSWORD('%p') and \ service='web_proxy'] When using this convention, you can include `[' characters inside the string, and if you wish to include a `]' character inside the string that will survive the argument parsing, you should use `\]'. In other words: [..[..\]..] --> ..[..].. Any line in (one of) the configuration file(s), that is not formatted correctly, will generally tend (erring on the side of caution) to make the authentication process fail. A corresponding error is written to the system log files with a call to syslog(3). 4.2. Directory based configuration More flexible than the single configuration file is it to configure libpam via the contents of the /etc/pam.d/ directory. In this case the directory is filled with files each of which has a filename equal to a service-name (in lower-case): it is the personal configuration file for the named service. The syntax of each file in /etc/pam.d/ is similar to that of the /etc/pam.conf file and is made up of lines of the following form: type control module-path module-arguments The only difference being that the service-name is not present. The service-name is of course the name of the given configuration file. For example, /etc/pam.d/login contains the configuration for the login service. 4.3. Example configuration file entries In this section, we give some examples of entries that can be present in the Linux-PAM configuration file. As a first attempt at configuring your system you could do worse than to implement these. If a system is to be considered secure, it had better have a reasonably secure 'other entry. The following is a paranoid setting (which is not a bad place to start!): # # default; deny access # other auth required pam_deny.so other account required pam_deny.so other password required pam_deny.so other session required pam_deny.so Whilst fundamentally a secure default, this is not very sympathetic to a misconfigured system. For example, such a system is vulnerable to locking everyone out should the rest of the file become badly written. The module pam_deny (documented in a later section) is not very sophisticated. For example, it logs no information when it is invoked so unless the users of a system contact the administrator when failing to execute a service application, the administrator may go for a long while in ignorance of the fact that his system is misconfigured. The addition of the following line before those in the above example would provide a suitable warning to the administrator. # # default; wake up! This application is not configured # other auth required pam_warn.so other password required pam_warn.so Having two 'other auth' lines is an example of stacking. On a system that uses the /etc/pam.d/ configuration, the corresponding default setup would be achieved with the following file: # # default configuration: /etc/pam.d/other # auth required pam_warn.so auth required pam_deny.so account required pam_deny.so password required pam_warn.so password required pam_deny.so session required pam_deny.so This is the only explicit example we give for an /etc/pam.d/ file. In general, it should be clear how to transpose the remaining examples to this configuration scheme. On a less sensitive computer, one on which the system administrator wishes to remain ignorant of much of the power of Linux-PAM, the following selection of lines (in /etc/pam.d/other) is likely to mimic the historically familiar Linux setup. # # default; standard UN*X access # auth required pam_unix.so account required pam_unix.so password required pam_unix.so session required pam_unix.so In general this will provide a starting place for most applications. Chapter 5. Security issues 5.1. If something goes wrong Linux-PAM has the potential to seriously change the security of your system. You can choose to have no security or absolute security (no access permitted). In general, Linux-PAM errs towards the latter. Any number of configuration errors can disable access to your system partially, or completely. The most dramatic problem that is likely to be encountered when configuring Linux-PAM is that of deleting the configuration file(s): /etc/pam.d/* and/or /etc/pam.conf. This will lock you out of your own system! To recover, your best bet is to restore the system from a backup or boot the system into a rescue system and correct things from there. 5.2. Avoid having a weak `other' configuration It is not a good thing to have a weak default (other) entry. This service is the default configuration for all PAM aware applications and if it is weak, your system is likely to be vulnerable to attack. Here is a sample "other" configuration file. The pam_deny module will deny access and the pam_warn module will send a syslog message to auth.notice: # # The PAM configuration file for the `other' service # auth required pam_deny.so auth required pam_warn.so account required pam_deny.so account required pam_warn.so password required pam_deny.so password required pam_warn.so session required pam_deny.so session required pam_warn.so Chapter 6. A reference guide for available modules Here, we collect together the descriptions of the various modules coming with Linux-PAM. 6.1. pam_access - logdaemon style login access control pam_access.so [ debug ] [ nodefgroup ] [ noaudit ] [ accessfile=file ] [ fieldsep=sep ] [ listsep=sep ] 6.1.1. DESCRIPTION The pam_access PAM module is mainly for access management. It provides logdaemon style login access control based on login names, host or domain names, internet addresses or network numbers, or on terminal line names, X $DISPLAY values, or PAM service names in case of non-networked logins. By default rules for access management are taken from config file /etc/security/access.conf if you don't specify another file. Then individual *.conf files from the /etc/security/access.d/ directory are read. The files are parsed one after another in the order of the system locale. The effect of the individual files is the same as if all the files were concatenated together in the order of parsing. This means that once a pattern is matched in some file no further files are parsed. If a config file is explicitly specified with the accessfile option the files in the above directory are not parsed. If Linux PAM is compiled with audit support the module will report when it denies access based on origin (host, tty, etc.). 6.1.2. DESCRIPTION The /etc/security/access.conf file specifies (user/group, host), (user/group, network/netmask), (user/group, tty), (user/group, X-$DISPLAY-value), or (user/group, pam-service-name) combinations for which a login will be either accepted or refused. When someone logs in, the file access.conf is scanned for the first entry that matches the (user/group, host) or (user/group, network/netmask) combination, or, in case of non-networked logins, the first entry that matches the (user/group, tty) combination, or in the case of non-networked logins without a tty, the first entry that matches the (user/group, X-$DISPLAY-value) or (user/group, pam-service-name/) combination. The permissions field of that table entry determines whether the login will be accepted or refused. Each line of the login access control table has three fields separated by a ":" character (colon): permission:users/groups:origins The first field, the permission field, can be either a "+" character (plus) for access granted or a "-" character (minus) for access denied. The second field, the users/group field, should be a list of one or more login names, group names, or ALL (which always matches). To differentiate user entries from group entries, group entries should be written with brackets, e.g. (group). The third field, the origins field, should be a list of one or more tty names (for non-networked logins), X $DISPLAY values or PAM service names (for non-networked logins without a tty), host names, domain names (begin with "."), host addresses, internet network numbers (end with "."), internet network addresses with network mask (where network mask can be a decimal number or an internet address also), ALL (which always matches) or LOCAL. The LOCAL keyword matches if and only if pam_get_item(3), when called with an item_type of PAM_RHOST, returns NULL or an empty string (and therefore the origins field is compared against the return value of pam_get_item(3) called with an item_type of PAM_TTY or, absent that, PAM_SERVICE). If supported by the system you can use @netgroupname in host or user patterns. The @@netgroupname syntax is supported in the user pattern only and it makes the local system hostname to be passed to the netgroup match call in addition to the user name. This might not work correctly on some libc implementations causing the match to always fail. The EXCEPT operator makes it possible to write very compact rules. If the nodefgroup is not set, the group file is searched when a name does not match that of the logged-in user. Only groups are matched in which users are explicitly listed. However the PAM module does not look at the primary group id of a user. The "#" character at start of line (no space at front) can be used to mark this line as a comment line. 6.1.3. OPTIONS accessfile=/path/to/access.conf Indicate an alternative access.conf style configuration file to override the default. This can be useful when different services need different access lists. debug A lot of debug information is printed with syslog(3). noaudit Do not report logins from disallowed hosts and ttys to the audit subsystem. fieldsep=separators This option modifies the field separator character that pam_access will recognize when parsing the access configuration file. For example: fieldsep=| will cause the default `:' character to be treated as part of a field value and `|' becomes the field separator. Doing this may be useful in conjunction with a system that wants to use pam_access with X based applications, since the PAM_TTY item is likely to be of the form "hostname:0" which includes a `:' character in its value. But you should not need this. listsep=separators This option modifies the list separator character that pam_access will recognize when parsing the access configuration file. For example: listsep=, will cause the default ` ' (space) and `\t' (tab) characters to be treated as part of a list element value and `,' becomes the only list element separator. Doing this may be useful on a system with group information obtained from a Windows domain, where the default built-in groups "Domain Users", "Domain Admins" contain a space. nodefgroup User tokens which are not enclosed in parentheses will not be matched against the group database. The backwards compatible default is to try the group database match even for tokens not enclosed in parentheses. 6.1.4. MODULE TYPES PROVIDED All module types (auth, account, password and session) are provided. 6.1.5. RETURN VALUES PAM_SUCCESS Access was granted. PAM_PERM_DENIED Access was not granted. PAM_IGNORE pam_setcred was called which does nothing. PAM_ABORT Not all relevant data or options could be gotten. PAM_USER_UNKNOWN The user is not known to the system. 6.1.6. FILES /etc/security/access.conf Default configuration file 6.1.7. EXAMPLES These are some example lines which might be specified in /etc/security/access.conf. User root should be allowed to get access via cron, X11 terminal :0, tty1, ..., tty5, tty6. +:root:crond :0 tty1 tty2 tty3 tty4 tty5 tty6 User root should be allowed to get access from hosts which own the IPv4 addresses. This does not mean that the connection have to be a IPv4 one, a IPv6 connection from a host with one of this IPv4 addresses does work, too. +:root:192.168.200.1 192.168.200.4 192.168.200.9 +:root:127.0.0.1 User root should get access from network 192.168.201. where the term will be evaluated by string matching. But it might be better to use network/netmask instead. The same meaning of 192.168.201. is 192.168.201.0/24 or 192.168.201.0/255.255.255.0. +:root:192.168.201. User root should be able to have access from hosts foo1.bar.org and foo2.bar.org (uses string matching also). +:root:foo1.bar.org foo2.bar.org User root should be able to have access from domain foo.bar.org (uses string matching also). +:root:.foo.bar.org User root should be denied to get access from all other sources. -:root:ALL User foo and members of netgroup admins should be allowed to get access from all sources. This will only work if netgroup service is available. +:@admins foo:ALL User john and foo should get access from IPv6 host address. +:john foo:2001:db8:0:101::1 User john should get access from IPv6 net/mask. +:john:2001:db8:0:101::/64 Disallow console logins to all but the shutdown, sync and all other accounts, which are a member of the wheel group. -:ALL EXCEPT (wheel) shutdown sync:LOCAL All other users should be denied to get access from all sources. -:ALL:ALL 6.1.8. AUTHORS The logdaemon style login access control scheme was designed and implemented by Wietse Venema. The pam_access PAM module was developed by Alexei Nogin . The IPv6 support and the network(address) / netmask feature was developed and provided by Mike Becher . 6.2. pam_cracklib - checks the password against dictionary words pam_cracklib.so [ ... ] 6.2.1. DESCRIPTION This module can be plugged into the password stack of a given application to provide some plug-in strength-checking for passwords. The action of this module is to prompt the user for a password and check its strength against a system dictionary and a set of rules for identifying poor choices. The first action is to prompt for a single password, check its strength and then, if it is considered strong, prompt for the password a second time (to verify that it was typed correctly on the first occasion). All being well, the password is passed on to subsequent modules to be installed as the new authentication token. The strength checks works in the following manner: at first the Cracklib routine is called to check if the password is part of a dictionary; if this is not the case an additional set of strength checks is done. These checks are: Palindrome Is the new password a palindrome? Case Change Only Is the new password the the old one with only a change of case? Similar Is the new password too much like the old one? This is primarily controlled by one argument, difok which is a number of character changes (inserts, removals, or replacements) between the old and new password that are enough to accept the new password. This defaults to 5 changes. Simple Is the new password too small? This is controlled by 6 arguments minlen, maxclassrepeat, dcredit, ucredit, lcredit, and ocredit. See the section on the arguments for the details of how these work and there defaults. Rotated Is the new password a rotated version of the old password? Same consecutive characters Optional check for same consecutive characters. Too long monotonic character sequence Optional check for too long monotonic character sequence. Contains user name Optional check whether the password contains the user's name in some form. This module with no arguments will work well for standard unix password encryption. With md5 encryption, passwords can be longer than 8 characters and the default settings for this module can make it hard for the user to choose a satisfactory new password. Notably, the requirement that the new password contain no more than 1/2 of the characters in the old password becomes a non-trivial constraint. For example, an old password of the form "the quick brown fox jumped over the lazy dogs" would be difficult to change... In addition, the default action is to allow passwords as small as 5 characters in length. For a md5 systems it can be a good idea to increase the required minimum size of a password. One can then allow more credit for different kinds of characters but accept that the new password may share most of these characters with the old password. 6.2.2. OPTIONS debug This option makes the module write information to syslog(3) indicating the behavior of the module (this option does not write password information to the log file). authtok_type=XXX The default action is for the module to use the following prompts when requesting passwords: "New UNIX password: " and "Retype UNIX password: ". The example word UNIX can be replaced with this option, by default it is empty. retry=N Prompt user at most N times before returning with error. The default is 1. difok=N This argument will change the default of 5 for the number of character changes in the new password that differentiate it from the old password. minlen=N The minimum acceptable size for the new password (plus one if credits are not disabled which is the default). In addition to the number of characters in the new password, credit (of +1 in length) is given for each different kind of character (other, upper, lower and digit). The default for this parameter is 9 which is good for a old style UNIX password all of the same type of character but may be too low to exploit the added security of a md5 system. Note that there is a pair of length limits in Cracklib itself, a "way too short" limit of 4 which is hard coded in and a defined limit (6) that will be checked without reference to minlen. If you want to allow passwords as short as 5 characters you should not use this module. dcredit=N (N >= 0) This is the maximum credit for having digits in the new password. If you have less than or N digits, each digit will count +1 towards meeting the current minlen value. The default for dcredit is 1 which is the recommended value for minlen less than 10. (N < 0) This is the minimum number of digits that must be met for a new password. ucredit=N (N >= 0) This is the maximum credit for having upper case letters in the new password. If you have less than or N upper case letters each letter will count +1 towards meeting the current minlen value. The default for ucredit is 1 which is the recommended value for minlen less than 10. (N < 0) This is the minimum number of upper case letters that must be met for a new password. lcredit=N (N >= 0) This is the maximum credit for having lower case letters in the new password. If you have less than or N lower case letters, each letter will count +1 towards meeting the current minlen value. The default for lcredit is 1 which is the recommended value for minlen less than 10. (N < 0) This is the minimum number of lower case letters that must be met for a new password. ocredit=N (N >= 0) This is the maximum credit for having other characters in the new password. If you have less than or N other characters, each character will count +1 towards meeting the current minlen value. The default for ocredit is 1 which is the recommended value for minlen less than 10. (N < 0) This is the minimum number of other characters that must be met for a new password. minclass=N The minimum number of required classes of characters for the new password. The default number is zero. The four classes are digits, upper and lower letters and other characters. The difference to the credit check is that a specific class if of characters is not required. Instead N out of four of the classes are required. maxrepeat=N Reject passwords which contain more than N same consecutive characters. The default is 0 which means that this check is disabled. maxsequence=N Reject passwords which contain monotonic character sequences longer than N. The default is 0 which means that this check is disabled. Examples of such sequence are '12345' or 'fedcb'. Note that most such passwords will not pass the simplicity check unless the sequence is only a minor part of the password. maxclassrepeat=N Reject passwords which contain more than N consecutive characters of the same class. The default is 0 which means that this check is disabled. reject_username Check whether the name of the user in straight or reversed form is contained in the new password. If it is found the new password is rejected. gecoscheck Check whether the words from the GECOS field (usualy full name of the user) longer than 3 characters in straight or reversed form are contained in the new password. If any such word is found the new password is rejected. enforce_for_root The module will return error on failed check also if the user changing the password is root. This option is off by default which means that just the message about the failed check is printed but root can change the password anyway. Note that root is not asked for an old password so the checks that compare the old and new password are not performed. use_authtok This argument is used to force the module to not prompt the user for a new password but use the one provided by the previously stacked password module. dictpath=/path/to/dict Path to the cracklib dictionaries. 6.2.3. MODULE TYPES PROVIDED Only the password module type is provided. 6.2.4. RETURN VALUES PAM_SUCCESS The new password passes all checks. PAM_AUTHTOK_ERR No new password was entered, the username could not be determined or the new password fails the strength checks. PAM_AUTHTOK_RECOVERY_ERR The old password was not supplied by a previous stacked module or got not requested from the user. The first error can happen if use_authtok is specified. PAM_SERVICE_ERR A internal error occurred. 6.2.5. EXAMPLES For an example of the use of this module, we show how it may be stacked with the password component of pam_unix(8) # # These lines stack two password type modules. In this example the # user is given 3 opportunities to enter a strong password. The # "use_authtok" argument ensures that the pam_unix module does not # prompt for a password, but instead uses the one provided by # pam_cracklib. # passwd password required pam_cracklib.so retry=3 passwd password required pam_unix.so use_authtok Another example (in the /etc/pam.d/passwd format) is for the case that you want to use md5 password encryption: #%PAM-1.0 # # These lines allow a md5 systems to support passwords of at least 14 # bytes with extra credit of 2 for digits and 2 for others the new # password must have at least three bytes that are not present in the # old password # password required pam_cracklib.so \ difok=3 minlen=15 dcredit= 2 ocredit=2 password required pam_unix.so use_authtok nullok md5 And here is another example in case you don't want to use credits: #%PAM-1.0 # # These lines require the user to select a password with a minimum # length of 8 and with at least 1 digit number, 1 upper case letter, # and 1 other character # password required pam_cracklib.so \ dcredit=-1 ucredit=-1 ocredit=-1 lcredit=0 minlen=8 password required pam_unix.so use_authtok nullok md5 6.2.6. AUTHOR pam_cracklib was written by Cristian Gafton 6.3. pam_debug - debug the PAM stack pam_debug.so [ auth=value ] [ cred=value ] [ acct=value ] [ prechauthtok=value ] [ chauthtok=value ] [ auth=value ] [ open_session=value ] [ close_session=value ] 6.3.1. DESCRIPTION The pam_debug PAM module is intended as a debugging aide for determining how the PAM stack is operating. This module returns what its module arguments tell it to return. 6.3.2. OPTIONS auth=value The pam_sm_authenticate(3) function will return value. cred=value The pam_sm_setcred(3) function will return value. acct=value The pam_sm_acct_mgmt(3) function will return value. prechauthtok=value The pam_sm_chauthtok(3) function will return value if the PAM_PRELIM_CHECK flag is set. chauthtok=value The pam_sm_chauthtok(3) function will return value if the PAM_PRELIM_CHECK flag is not set. open_session=value The pam_sm_open_session(3) function will return value. close_session=value The pam_sm_close_session(3) function will return value. Where value can be one of: success, open_err, symbol_err, service_err, system_err, buf_err, perm_denied, auth_err, cred_insufficient, authinfo_unavail, user_unknown, maxtries, new_authtok_reqd, acct_expired, session_err, cred_unavail, cred_expired, cred_err, no_module_data, conv_err, authtok_err, authtok_recover_err, authtok_lock_busy, authtok_disable_aging, try_again, ignore, abort, authtok_expired, module_unknown, bad_item, conv_again, incomplete. 6.3.3. MODULE TYPES PROVIDED All module types (auth, account, password and session) are provided. 6.3.4. RETURN VALUES PAM_SUCCESS Default return code if no other value was specified, else specified return value. 6.3.5. EXAMPLES auth requisite pam_permit.so auth [success=2 default=ok] pam_debug.so auth=perm_denied cred=success auth [default=reset] pam_debug.so auth=success cred=perm_denied auth [success=done default=die] pam_debug.so auth optional pam_debug.so auth=perm_denied cred=perm_denied auth sufficient pam_debug.so auth=success cred=success 6.3.6. AUTHOR pam_debug was written by Andrew G. Morgan . 6.4. pam_deny - locking-out PAM module pam_deny.so 6.4.1. DESCRIPTION This module can be used to deny access. It always indicates a failure to the application through the PAM framework. It might be suitable for using for default (the OTHER) entries. 6.4.2. OPTIONS This module does not recognise any options. 6.4.3. MODULE TYPES PROVIDED All module types (account, auth, password and session) are provided. 6.4.4. RETURN VALUES PAM_AUTH_ERR This is returned by the account and auth services. PAM_CRED_ERR This is returned by the setcred function. PAM_AUTHTOK_ERR This is returned by the password service. PAM_SESSION_ERR This is returned by the session service. 6.4.5. EXAMPLES #%PAM-1.0 # # If we don't have config entries for a service, the # OTHER entries are used. To be secure, warn and deny # access to everything. other auth required pam_warn.so other auth required pam_deny.so other account required pam_warn.so other account required pam_deny.so other password required pam_warn.so other password required pam_deny.so other session required pam_warn.so other session required pam_deny.so 6.4.6. AUTHOR pam_deny was written by Andrew G. Morgan 6.5. pam_echo - print text messages pam_echo.so [ file=/path/message ] 6.5.1. DESCRIPTION The pam_echo PAM module is for printing text messages to inform user about special things. Sequences starting with the % character are interpreted in the following way: %H The name of the remote host (PAM_RHOST). %h The name of the local host. %s The service name (PAM_SERVICE). %t The name of the controlling terminal (PAM_TTY). %U The remote user name (PAM_RUSER). %u The local user name (PAM_USER). All other sequences beginning with % expands to the characters following the % character. 6.5.2. OPTIONS file=/path/message The content of the file /path/message will be printed with the PAM conversion function as PAM_TEXT_INFO. 6.5.3. MODULE TYPES PROVIDED All module types (auth, account, password and session) are provided. 6.5.4. RETURN VALUES PAM_BUF_ERR Memory buffer error. PAM_SUCCESS Message was successful printed. PAM_IGNORE PAM_SILENT flag was given or message file does not exist, no message printed. 6.5.5. EXAMPLES For an example of the use of this module, we show how it may be used to print information about good passwords: password optional pam_echo.so file=/usr/share/doc/good-password.txt password required pam_unix.so 6.5.6. AUTHOR Thorsten Kukuk 6.6. pam_env - set/unset environment variables pam_env.so [ debug ] [ conffile=conf-file ] [ envfile=env-file ] [ readenv=0|1 ] [ user_envfile=env-file ] [ user_readenv=0|1 ] 6.6.1. DESCRIPTION The pam_env PAM module allows the (un)setting of environment variables. Supported is the use of previously set environment variables as well as PAM_ITEMs such as PAM_RHOST. By default rules for (un)setting of variables is taken from the config file /etc/security/pam_env.conf if no other file is specified. This module can also parse a file with simple KEY=VAL pairs on separate lines (/etc/environment by default). You can change the default file to parse, with the envfile flag and turn it on or off by setting the readenv flag to 1 or 0 respectively. Since setting of PAM environment variables can have side effects to other modules, this module should be the last one on the stack. 6.6.2. DESCRIPTION The /etc/security/pam_env.conf file specifies the environment variables to be set, unset or modified by pam_env(8). When someone logs in, this file is read and the environment variables are set according. Each line starts with the variable name, there are then two possible options for each variable DEFAULT and OVERRIDE. DEFAULT allows and administrator to set the value of the variable to some default value, if none is supplied then the empty string is assumed. The OVERRIDE option tells pam_env that it should enter in its value (overriding the default value) if there is one to use. OVERRIDE is not used, "" is assumed and no override will be done. VARIABLE [DEFAULT=[value]] [OVERRIDE=[value]] (Possibly non-existent) environment variables may be used in values using the ${string} syntax and (possibly non-existent) PAM_ITEMs may be used in values using the @{string} syntax. Both the $ and @ characters can be backslash escaped to be used as literal values values can be delimited with "", escaped " not supported. Note that many environment variables that you would like to use may not be set by the time the module is called. For example, HOME is used below several times, but many PAM applications don't make it available by the time you need it. The "#" character at start of line (no space at front) can be used to mark this line as a comment line. The /etc/environment file specifies the environment variables to be set. The file must consist of simple NAME=VALUE pairs on separate lines. The pam_env(8) module will read the file after the pam_env.conf file. 6.6.3. OPTIONS conffile=/path/to/pam_env.conf Indicate an alternative pam_env.conf style configuration file to override the default. This can be useful when different services need different environments. debug A lot of debug information is printed with syslog(3). envfile=/path/to/environment Indicate an alternative environment file to override the default. This can be useful when different services need different environments. readenv=0|1 Turns on or off the reading of the file specified by envfile (0 is off, 1 is on). By default this option is on. user_envfile=filename Indicate an alternative .pam_environment file to override the default. This can be useful when different services need different environments. The filename is relative to the user home directory. user_readenv=0|1 Turns on or off the reading of the user specific environment file. 0 is off, 1 is on. By default this option is off as user supplied environment variables in the PAM environment could affect behavior of subsequent modules in the stack without the consent of the system administrator. 6.6.4. MODULE TYPES PROVIDED The auth and session module types are provided. 6.6.5. RETURN VALUES PAM_ABORT Not all relevant data or options could be gotten. PAM_BUF_ERR Memory buffer error. PAM_IGNORE No pam_env.conf and environment file was found. PAM_SUCCESS Environment variables were set. 6.6.6. FILES /etc/security/pam_env.conf Default configuration file /etc/environment Default environment file $HOME/.pam_environment User specific environment file 6.6.7. EXAMPLES These are some example lines which might be specified in /etc/security/pam_env.conf. Set the REMOTEHOST variable for any hosts that are remote, default to "localhost" rather than not being set at all REMOTEHOST DEFAULT=localhost OVERRIDE=@{PAM_RHOST} Set the DISPLAY variable if it seems reasonable DISPLAY DEFAULT=${REMOTEHOST}:0.0 OVERRIDE=${DISPLAY} Now some simple variables PAGER DEFAULT=less MANPAGER DEFAULT=less LESS DEFAULT="M q e h15 z23 b80" NNTPSERVER DEFAULT=localhost PATH DEFAULT=${HOME}/bin:/usr/local/bin:/bin\ :/usr/bin:/usr/local/bin/X11:/usr/bin/X11 Silly examples of escaped variables, just to show how they work. DOLLAR DEFAULT=\$ DOLLARDOLLAR DEFAULT= OVERRIDE=\$${DOLLAR} DOLLARPLUS DEFAULT=\${REMOTEHOST}${REMOTEHOST} ATSIGN DEFAULT="" OVERRIDE=\@ 6.6.8. AUTHOR pam_env was written by Dave Kinchlea . 6.7. pam_exec - call an external command pam_exec.so [ debug ] [ expose_authtok ] [ seteuid ] [ quiet ] [ stdout ] [ log=file ] [ type=type ] command [ ... ] 6.7.1. DESCRIPTION pam_exec is a PAM module that can be used to run an external command. The child's environment is set to the current PAM environment list, as returned by pam_getenvlist(3) In addition, the following PAM items are exported as environment variables: PAM_RHOST, PAM_RUSER, PAM_SERVICE, PAM_TTY, PAM_USER and PAM_TYPE, which contains one of the module types: account, auth, password, open_session and close_session. Commands called by pam_exec need to be aware of that the user can have controll over the environment. 6.7.2. OPTIONS debug Print debug information. expose_authtok During authentication the calling command can read the password from stdin(3). Only first PAM_MAX_RESP_SIZE bytes of a password are provided to the command. log=file The output of the command is appended to file type=type Only run the command if the module type matches the given type. stdout Per default the output of the executed command is written to /dev/null. With this option, the stdout output of the executed command is redirected to the calling application. It's in the responsibility of this application what happens with the output. The log option is ignored. quiet Per default pam_exec.so will echo the exit status of the external command if it fails. Specifying this option will suppress the message. seteuid Per default pam_exec.so will execute the external command with the real user ID of the calling process. Specifying this option means the command is run with the effective user ID. 6.7.3. MODULE TYPES PROVIDED All module types (auth, account, password and session) are provided. 6.7.4. RETURN VALUES PAM_SUCCESS The external command was run successfully. PAM_SERVICE_ERR No argument or a wrong number of arguments were given. PAM_SYSTEM_ERR A system error occurred or the command to execute failed. PAM_IGNORE pam_setcred was called, which does not execute the command. Or, the value given for the type= parameter did not match the module type. 6.7.5. EXAMPLES Add the following line to /etc/pam.d/passwd to rebuild the NIS database after each local password change: password optional pam_exec.so seteuid /usr/bin/make -C /var/yp This will execute the command make -C /var/yp with effective user ID. 6.7.6. AUTHOR pam_exec was written by Thorsten Kukuk and Josh Triplett . 6.8. pam_faildelay - change the delay on failure per-application pam_faildelay.so [ debug ] [ delay=microseconds ] 6.8.1. DESCRIPTION pam_faildelay is a PAM module that can be used to set the delay on failure per-application. If no delay is given, pam_faildelay will use the value of FAIL_DELAY from /etc/login.defs. 6.8.2. OPTIONS debug Turns on debugging messages sent to syslog. delay=N Set the delay on failure to N microseconds. 6.8.3. MODULE TYPES PROVIDED Only the auth module type is provided. 6.8.4. RETURN VALUES PAM_IGNORE Delay was successful adjusted. PAM_SYSTEM_ERR The specified delay was not valid. 6.8.5. EXAMPLES The following example will set the delay on failure to 10 seconds: auth optional pam_faildelay.so delay=10000000 6.8.6. AUTHOR pam_faildelay was written by Darren Tucker . 6.9. pam_filter - filter module pam_filter.so [ debug ] [ new_term ] [ non_term ] run1|run2 filter [ ... ] 6.9.1. DESCRIPTION This module is intended to be a platform for providing access to all of the input/output that passes between the user and the application. It is only suitable for tty-based and (stdin/stdout) applications. To function this module requires filters to be installed on the system. The single filter provided with the module simply transposes upper and lower case letters in the input and output streams. (This can be very annoying and is not kind to termcap based editors). Each component of the module has the potential to invoke the desired filter. The filter is always execv(2) with the privilege of the calling application and not that of the user. For this reason it cannot usually be killed by the user without closing their session. 6.9.2. OPTIONS debug Print debug information. new_term The default action of the filter is to set the PAM_TTY item to indicate the terminal that the user is using to connect to the application. This argument indicates that the filter should set PAM_TTY to the filtered pseudo-terminal. non_term don't try to set the PAM_TTY item. runX In order that the module can invoke a filter it should know when to invoke it. This argument is required to tell the filter when to do this. Permitted values for X are 1 and 2. These indicate the precise time that the filter is to be run. To understand this concept it will be useful to have read the pam(3) manual page. Basically, for each management group there are up to two ways of calling the module's functions. In the case of the authentication and session components there are actually two separate functions. For the case of authentication, these functions are pam_authenticate(3) and pam_setcred(3), here run1 means run the filter from the pam_authenticate function and run2 means run the filter from pam_setcred. In the case of the session modules, run1 implies that the filter is invoked at the pam_open_session(3) stage, and run2 for pam_close_session(3). For the case of the account component. Either run1 or run2 may be used. For the case of the password component, run1 is used to indicate that the filter is run on the first occasion of pam_chauthtok(3) (the PAM_PRELIM_CHECK phase) and run2 is used to indicate that the filter is run on the second occasion (the PAM_UPDATE_AUTHTOK phase). filter The full pathname of the filter to be run and any command line arguments that the filter might expect. 6.9.3. MODULE TYPES PROVIDED All module types (auth, account, password and session) are provided. 6.9.4. RETURN VALUES PAM_SUCCESS The new filter was set successfully. PAM_ABORT Critical error, immediate abort. 6.9.5. EXAMPLES Add the following line to /etc/pam.d/login to see how to configure login to transpose upper and lower case letters once the user has logged in: session required pam_filter.so run1 /lib/security/pam_filter/upperLOWER 6.9.6. AUTHOR pam_filter was written by Andrew G. Morgan . 6.10. pam_ftp - module for anonymous access pam_ftp.so [ debug ] [ ignore ] [ users=XXX,YYY, ...] 6.10.1. DESCRIPTION pam_ftp is a PAM module which provides a pluggable anonymous ftp mode of access. This module intercepts the user's name and password. If the name is ftp or anonymous, the user's password is broken up at the @ delimiter into a PAM_RUSER and a PAM_RHOST part; these pam-items being set accordingly. The username (PAM_USER) is set to ftp. In this case the module succeeds. Alternatively, the module sets the PAM_AUTHTOK item with the entered password and fails. This module is not safe and easily spoofable. 6.10.2. OPTIONS debug Print debug information. ignore Pay no attention to the email address of the user (if supplied). ftp=XXX,YYY,... Instead of ftp or anonymous, provide anonymous login to the comma separated list of users: XXX,YYY,.... Should the applicant enter one of these usernames the returned username is set to the first in the list: XXX. 6.10.3. MODULE TYPES PROVIDED Only the auth module type is provided. 6.10.4. RETURN VALUES PAM_SUCCESS The authentication was successful. PAM_USER_UNKNOWN User not known. 6.10.5. EXAMPLES Add the following line to /etc/pam.d/ftpd to handle ftp style anonymous login: # # ftpd; add ftp-specifics. These lines enable anonymous ftp over # standard UN*X access (the listfile entry blocks access to # users listed in /etc/ftpusers) # auth sufficient pam_ftp.so auth required pam_unix.so use_first_pass auth required pam_listfile.so \ onerr=succeed item=user sense=deny file=/etc/ftpusers 6.10.6. AUTHOR pam_ftp was written by Andrew G. Morgan . 6.11. pam_group - module to modify group access pam_group.so 6.11.1. DESCRIPTION The pam_group PAM module does not authenticate the user, but instead it grants group memberships (in the credential setting phase of the authentication module) to the user. Such memberships are based on the service they are applying for. By default rules for group memberships are taken from config file /etc/security/group.conf. This module's usefulness relies on the file-systems accessible to the user. The point being that once granted the membership of a group, the user may attempt to create a setgid binary with a restricted group ownership. Later, when the user is not given membership to this group, they can recover group membership with the precompiled binary. The reason that the file-systems that the user has access to are so significant, is the fact that when a system is mounted nosuid the user is unable to create or execute such a binary file. For this module to provide any level of security, all file-systems that the user has write access to should be mounted nosuid. The pam_group module functions in parallel with the /etc/group file. If the user is granted any groups based on the behavior of this module, they are granted in addition to those entries /etc/group (or equivalent). 6.11.2. DESCRIPTION The pam_group PAM module does not authenticate the user, but instead it grants group memberships (in the credential setting phase of the authentication module) to the user. Such memberships are based on the service they are applying for. For this module to function correctly there must be a correctly formatted /etc/security/group.conf file present. White spaces are ignored and lines maybe extended with '\' (escaped newlines). Text following a '#' is ignored to the end of the line. The syntax of the lines is as follows: services;ttys;users;times;groups The first field, the services field, is a logic list of PAM service names that the rule applies to. The second field, the tty field, is a logic list of terminal names that this rule applies to. The third field, the users field, is a logic list of users, or a UNIX group, or a netgroup of users to whom this rule applies. Group names are preceded by a '%' symbol, while netgroup names are preceded by a '@' symbol. For these items the simple wildcard '*' may be used only once. With UNIX groups or netgroups no wildcards or logic operators are allowed. The times field is used to indicate "when" these groups are to be given to the user. The format here is a logic list of day/time-range entries. The days are specified by a sequence of two character entries, MoTuSa for example is Monday Tuesday and Saturday. Note that repeated days are unset MoMo = no day, and MoWk = all weekdays bar Monday. The two character combinations accepted are Mo Tu We Th Fr Sa Su Wk Wd Al, the last two being week-end days and all 7 days of the week respectively. As a final example, AlFr means all days except Friday. Each day/time-range can be prefixed with a '!' to indicate "anything but". The time-range part is two 24-hour times HHMM, separated by a hyphen, indicating the start and finish time (if the finish time is smaller than the start time it is deemed to apply on the following day). The groups field is a comma or space separated list of groups that the user inherits membership of. These groups are added if the previous fields are satisfied by the user's request. For a rule to be active, ALL of service+ttys+users must be satisfied by the applying process. 6.11.3. OPTIONS This module does not recognise any options. 6.11.4. MODULE TYPES PROVIDED Only the auth module type is provided. 6.11.5. RETURN VALUES PAM_SUCCESS group membership was granted. PAM_ABORT Not all relevant data could be gotten. PAM_BUF_ERR Memory buffer error. PAM_CRED_ERR Group membership was not granted. PAM_IGNORE pam_sm_authenticate was called which does nothing. PAM_USER_UNKNOWN The user is not known to the system. 6.11.6. FILES /etc/security/group.conf Default configuration file 6.11.7. EXAMPLES These are some example lines which might be specified in /etc/security/group.conf. Running 'xsh' on tty* (any ttyXXX device), the user 'us' is given access to the floppy (through membership of the floppy group) xsh;tty*&!ttyp*;us;Al0000-2400;floppy Running 'xsh' on tty* (any ttyXXX device), the user 'sword' is given access to games (through membership of the floppy group) after work hours. xsh; tty* ;sword;!Wk0900-1800;games, sound xsh; tty* ;*;Al0900-1800;floppy Any member of the group 'admin' running 'xsh' on tty*, is granted access (at any time) to the group 'plugdev' xsh; tty* ;%admin;Al0000-2400;plugdev 6.11.8. AUTHORS pam_group was written by Andrew G. Morgan . 6.12. pam_issue - add issue file to user prompt pam_issue.so [ noesc ] [ issue=issue-file-name ] 6.12.1. DESCRIPTION pam_issue is a PAM module to prepend an issue file to the username prompt. It also by default parses escape codes in the issue file similar to some common getty's (using \x format). Recognized escapes: \d current day \l name of this tty \m machine architecture (uname -m) \n machine's network node hostname (uname -n) \o domain name of this system \r release number of operating system (uname -r) \t current time \s operating system name (uname -s) \u number of users currently logged in \U same as \u except it is suffixed with "user" or "users" (eg. "1 user" or "10 users") \v operating system version and build date (uname -v) 6.12.2. OPTIONS noesc Turns off escape code parsing. issue=issue-file-name The file to output if not using the default. 6.12.3. MODULE TYPES PROVIDED Only the auth module type is provided. 6.12.4. RETURN VALUES PAM_BUF_ERR Memory buffer error. PAM_IGNORE The prompt was already changed. PAM_SERVICE_ERR A service module error occurred. PAM_SUCCESS The new prompt was set successfully. 6.12.5. EXAMPLES Add the following line to /etc/pam.d/login to set the user specific issue at login: auth optional pam_issue.so issue=/etc/issue 6.12.6. AUTHOR pam_issue was written by Ben Collins . 6.13. pam_keyinit - display the keyinit file pam_keyinit.so [ debug ] [ force ] [ revoke ] 6.13.1. DESCRIPTION The pam_keyinit PAM module ensures that the invoking process has a session keyring other than the user default session keyring. The session component of the module checks to see if the process's session keyring is the user default, and, if it is, creates a new anonymous session keyring with which to replace it. If a new session keyring is created, it will install a link to the user common keyring in the session keyring so that keys common to the user will be automatically accessible through it. The session keyring of the invoking process will thenceforth be inherited by all its children unless they override it. This module is intended primarily for use by login processes. Be aware that after the session keyring has been replaced, the old session keyring and the keys it contains will no longer be accessible. This module should not, generally, be invoked by programs like su, since it is usually desirable for the key set to percolate through to the alternate context. The keys have their own permissions system to manage this. This module should be included as early as possible in a PAM configuration, so that other PAM modules can attach tokens to the keyring. The keyutils package is used to manipulate keys more directly. This can be obtained from: Keyutils 6.13.2. OPTIONS debug Log debug information with syslog(3). force Causes the session keyring of the invoking process to be replaced unconditionally. revoke Causes the session keyring of the invoking process to be revoked when the invoking process exits if the session keyring was created for this process in the first place. 6.13.3. MODULE TYPES PROVIDED Only the session module type is provided. 6.13.4. RETURN VALUES PAM_SUCCESS This module will usually return this value PAM_AUTH_ERR Authentication failure. PAM_BUF_ERR Memory buffer error. PAM_IGNORE The return value should be ignored by PAM dispatch. PAM_SERVICE_ERR Cannot determine the user name. PAM_SESSION_ERR This module will return this value if its arguments are invalid or if a system error such as ENOMEM occurs. PAM_USER_UNKNOWN User not known. 6.13.5. EXAMPLES Add this line to your login entries to start each login session with its own session keyring: session required pam_keyinit.so This will prevent keys from one session leaking into another session for the same user. 6.13.6. AUTHOR pam_keyinit was written by David Howells, . 6.14. pam_lastlog - display date of last login pam_lastlog.so [ debug ] [ silent ] [ never ] [ nodate ] [ nohost ] [ noterm ] [ nowtmp ] [ noupdate ] [ showfailed ] [ inactive= ] 6.14.1. DESCRIPTION pam_lastlog is a PAM module to display a line of information about the last login of the user. In addition, the module maintains the /var/log/lastlog file. Some applications may perform this function themselves. In such cases, this module is not necessary. If the module is called in the auth or account phase, the accounts that were not used recently enough will be disallowed to log in. The check is not performed for the root account so the root is never locked out. 6.14.2. OPTIONS debug Print debug information. silent Don't inform the user about any previous login, just update the /var/log/lastlog file. never If the /var/log/lastlog file does not contain any old entries for the user, indicate that the user has never previously logged in with a welcome message. nodate Don't display the date of the last login. noterm Don't display the terminal name on which the last login was attempted. nohost Don't indicate from which host the last login was attempted. nowtmp Don't update the wtmp entry. noupdate Don't update any file. showfailed Display number of failed login attempts and the date of the last failed attempt from btmp. The date is not displayed when nodate is specified. inactive= This option is specific for the auth or account phase. It specifies the number of days after the last login of the user when the user will be locked out by the module. The default value is 90. 6.14.3. MODULE TYPES PROVIDED The auth and account module type allows to lock out users which did not login recently enough. The session module type is provided for displaying the information about the last login and/or updating the lastlog and wtmp files. 6.14.4. RETURN VALUES PAM_SUCCESS Everything was successful. PAM_SERVICE_ERR Internal service module error. PAM_USER_UNKNOWN User not known. PAM_AUTH_ERR User locked out in the auth or account phase due to inactivity. PAM_IGNORE There was an error during reading the lastlog file in the auth or account phase and thus inactivity of the user cannot be determined. 6.14.5. EXAMPLES Add the following line to /etc/pam.d/login to display the last login time of an user: session required pam_lastlog.so nowtmp To reject the user if he did not login during the previous 50 days the following line can be used: auth required pam_lastlog.so inactive=50 6.14.6. AUTHOR pam_lastlog was written by Andrew G. Morgan . Inactive account lock out added by Tomas Mraz . 6.15. pam_limits - limit resources pam_limits.so [ conf=/path/to/limits.conf ] [ debug ] [ set_all ] [ utmp_early ] [ noaudit ] 6.15.1. DESCRIPTION The pam_limits PAM module sets limits on the system resources that can be obtained in a user-session. Users of uid=0 are affected by this limits, too. By default limits are taken from the /etc/security/limits.conf config file. Then individual *.conf files from the /etc/security/limits.d/ directory are read. The files are parsed one after another in the order of "C" locale. The effect of the individual files is the same as if all the files were concatenated together in the order of parsing. If a config file is explicitly specified with a module option then the files in the above directory are not parsed. The module must not be called by a multithreaded application. If Linux PAM is compiled with audit support the module will report when it denies access based on limit of maximum number of concurrent login sessions. 6.15.2. DESCRIPTION The pam_limits.so module applies ulimit limits, nice priority and number of simultaneous login sessions limit to user login sessions. This description of the configuration file syntax applies to the /etc/security/limits.conf file and *.conf files in the /etc/security/limits.d directory. The syntax of the lines is as follows: The fields listed above should be filled as follows: * a username * a groupname, with @group syntax. This should not be confused with netgroups. * the wildcard *, for default entry. * the wildcard %, for maxlogins limit only, can also be used with %group syntax. If the % wildcard is used alone it is identical to using * with maxsyslogins limit. With a group specified after % it limits the total number of logins of all users that are member of the group. * an uid range specified as :. If min_uid is omitted, the match is exact for the max_uid. If max_uid is omitted, all uids greater than or equal min_uid match. * a gid range specified as @:. If min_gid is omitted, the match is exact for the max_gid. If max_gid is omitted, all gids greater than or equal min_gid match. For the exact match all groups including the user's supplementary groups are examined. For the range matches only the user's primary group is examined. * a gid specified as %: applicable to maxlogins limit only. It limits the total number of logins of all users that are member of the group with the specified gid. hard for enforcing hard resource limits. These limits are set by the superuser and enforced by the Kernel. The user cannot raise his requirement of system resources above such values. soft for enforcing soft resource limits. These limits are ones that the user can move up or down within the permitted range by any pre-existing hard limits. The values specified with this token can be thought of as default values, for normal system usage. - for enforcing both soft and hard resource limits together. Note, if you specify a type of '-' but neglect to supply the item and value fields then the module will never enforce any limits on the specified user/group etc. . core limits the core file size (KB) data maximum data size (KB) fsize maximum filesize (KB) memlock maximum locked-in-memory address space (KB) nofile maximum number of open file descriptors rss maximum resident set size (KB) (Ignored in Linux 2.4.30 and higher) stack maximum stack size (KB) cpu maximum CPU time (minutes) nproc maximum number of processes as address space limit (KB) maxlogins maximum number of logins for this user (this limit does not apply to user with uid=0) maxsyslogins maximum number of all logins on system; user is not allowed to log-in if total number of all users' logins is greater than specified number (this limit does not apply to user with uid=0) priority the priority to run user process with (negative values boost process priority) locks maximum locked files (Linux 2.4 and higher) sigpending maximum number of pending signals (Linux 2.6 and higher) msgqueue maximum memory used by POSIX message queues (bytes) (Linux 2.6 and higher) nice maximum nice priority allowed to raise to (Linux 2.6.12 and higher) values: [-20,19] rtprio maximum realtime priority allowed for non-privileged processes (Linux 2.6.12 and higher) All items support the values -1, unlimited or infinity indicating no limit, except for priority and nice. If a hard limit or soft limit of a resource is set to a valid value, but outside of the supported range of the local system, the system may reject the new limit or unexpected behavior may occur. If the control value required is used, the module will reject the login if a limit could not be set. In general, individual limits have priority over group limits, so if you impose no limits for admin group, but one of the members in this group have a limits line, the user will have its limits set according to this line. Also, please note that all limit settings are set per login. They are not global, nor are they permanent; existing only for the duration of the session. One exception is the maxlogin option, this one is system wide. But there is a race, concurrent logins at the same time will not always be detected as such but only counted as one. In the limits configuration file, the '#' character introduces a comment - after which the rest of the line is ignored. The pam_limits module does report configuration problems found in its configuration file and errors via syslog(3). 6.15.3. OPTIONS conf=/path/to/limits.conf Indicate an alternative limits.conf style configuration file to override the default. debug Print debug information. set_all Set the limits for which no value is specified in the configuration file to the one from the process with the PID 1. utmp_early Some broken applications actually allocate a utmp entry for the user before the user is admitted to the system. If some of the services you are configuring PAM for do this, you can selectively use this module argument to compensate for this behavior and at the same time maintain system-wide consistency with a single limits.conf file. noaudit Do not report exceeded maximum logins count to the audit subsystem. 6.15.4. MODULE TYPES PROVIDED Only the session module type is provided. 6.15.5. RETURN VALUES PAM_ABORT Cannot get current limits. PAM_IGNORE No limits found for this user. PAM_PERM_DENIED New limits could not be set. PAM_SERVICE_ERR Cannot read config file. PAM_SESSION_ERR Error recovering account name. PAM_SUCCESS Limits were changed. PAM_USER_UNKNOWN The user is not known to the system. 6.15.6. FILES /etc/security/limits.conf Default configuration file 6.15.7. EXAMPLES These are some example lines which might be specified in /etc/security/limits.conf. * soft core 0 * hard nofile 512 @student hard nproc 20 @faculty soft nproc 20 @faculty hard nproc 50 ftp hard nproc 0 @student - maxlogins 4 :123 hard cpu 5000 @500: soft cpu 10000 600:700 hard locks 10 6.15.8. AUTHORS pam_limits was initially written by Cristian Gafton 6.16. pam_listfile - deny or allow services based on an arbitrary file pam_listfile.so item=[tty|user|rhost|ruser|group|shell] sense=[allow|deny] file=/path/filename onerr=[succeed|fail] [ apply=[user|@group] ] [ quiet ] 6.16.1. DESCRIPTION pam_listfile is a PAM module which provides a way to deny or allow services based on an arbitrary file. The module gets the item of the type specified -- user specifies the username, PAM_USER; tty specifies the name of the terminal over which the request has been made, PAM_TTY; rhost specifies the name of the remote host (if any) from which the request was made, PAM_RHOST; and ruser specifies the name of the remote user (if available) who made the request, PAM_RUSER -- and looks for an instance of that item in the file=filename. filename contains one line per item listed. If the item is found, then if sense=allow, PAM_SUCCESS is returned, causing the authorization request to succeed; else if sense=deny, PAM_AUTH_ERR is returned, causing the authorization request to fail. If an error is encountered (for instance, if filename does not exist, or a poorly-constructed argument is encountered), then if onerr=succeed, PAM_SUCCESS is returned, otherwise if onerr=fail, PAM_AUTH_ERR or PAM_SERVICE_ERR (as appropriate) will be returned. An additional argument, apply=, can be used to restrict the application of the above to a specific user (apply=username) or a given group (apply=@groupname). This added restriction is only meaningful when used with the tty, rhost and shell items. Besides this last one, all arguments should be specified; do not count on any default behavior. No credentials are awarded by this module. 6.16.2. OPTIONS item=[tty|user|rhost|ruser|group|shell] What is listed in the file and should be checked for. sense=[allow|deny] Action to take if found in file, if the item is NOT found in the file, then the opposite action is requested. file=/path/filename File containing one item per line. The file needs to be a plain file and not world writable. onerr=[succeed|fail] What to do if something weird happens like being unable to open the file. apply=[user|@group] Restrict the user class for which the restriction apply. Note that with item=[user|ruser|group] this does not make sense, but for item=[tty|rhost|shell] it have a meaning. quiet Do not treat service refusals or missing list files as errors that need to be logged. 6.16.3. MODULE TYPES PROVIDED All module types (auth, account, password and session) are provided. 6.16.4. RETURN VALUES PAM_AUTH_ERR Authentication failure. PAM_BUF_ERR Memory buffer error. PAM_IGNORE The rule does not apply to the apply option. PAM_SERVICE_ERR Error in service module. PAM_SUCCESS Success. 6.16.5. EXAMPLES Classic 'ftpusers' authentication can be implemented with this entry in /etc/pam.d/ftpd: # # deny ftp-access to users listed in the /etc/ftpusers file # auth required pam_listfile.so \ onerr=succeed item=user sense=deny file=/etc/ftpusers Note, users listed in /etc/ftpusers file are (counterintuitively) not allowed access to the ftp service. To allow login access only for certain users, you can use a /etc/pam.d/login entry like this: # # permit login to users listed in /etc/loginusers # auth required pam_listfile.so \ onerr=fail item=user sense=allow file=/etc/loginusers For this example to work, all users who are allowed to use the login service should be listed in the file /etc/loginusers. Unless you are explicitly trying to lock out root, make sure that when you do this, you leave a way for root to log in, either by listing root in /etc/loginusers, or by listing a user who is able to su to the root account. 6.16.6. AUTHOR pam_listfile was written by Michael K. Johnson and Elliot Lee . 6.17. pam_localuser - require users to be listed in /etc/passwd pam_localuser.so [ debug ] [ file=/path/passwd ] 6.17.1. DESCRIPTION pam_localuser is a PAM module to help implementing site-wide login policies, where they typically include a subset of the network's users and a few accounts that are local to a particular workstation. Using pam_localuser and pam_wheel or pam_listfile is an effective way to restrict access to either local users and/or a subset of the network's users. This could also be implemented using pam_listfile.so and a very short awk script invoked by cron, but it's common enough to have been separated out. 6.17.2. OPTIONS debug Print debug information. file=/path/passwd Use a file other than /etc/passwd. 6.17.3. MODULE TYPES PROVIDED All module types (account, auth, password and session) are provided. 6.17.4. RETURN VALUES PAM_SUCCESS The new localuser was set successfully. PAM_SERVICE_ERR No username was given. PAM_USER_UNKNOWN User not known. 6.17.5. EXAMPLES Add the following line to /etc/pam.d/su to allow only local users in group wheel to use su. account sufficient pam_localuser.so account required pam_wheel.so 6.17.6. AUTHOR pam_localuser was written by Nalin Dahyabhai . 6.18. pam_loginuid - record user's login uid to the process attribute pam_loginuid.so [ require_auditd ] 6.18.1. DESCRIPTION The pam_loginuid module sets the loginuid process attribute for the process that was authenticated. This is necessary for applications to be correctly audited. This PAM module should only be used for entry point applications like: login, sshd, gdm, vsftpd, crond and atd. There are probably other entry point applications besides these. You should not use it for applications like sudo or su as that defeats the purpose by changing the loginuid to the account they just switched to. 6.18.2. OPTIONS require_auditd This option, when given, will cause this module to query the audit daemon status and deny logins if it is not running. 6.18.3. MODULE TYPES PROVIDED Only the session module type is provided. 6.18.4. RETURN VALUES PAM_SESSION_ERR An error occurred during session management. 6.18.5. EXAMPLES #%PAM-1.0 auth required pam_unix.so auth required pam_nologin.so account required pam_unix.so password required pam_unix.so session required pam_unix.so session required pam_loginuid.so 6.18.6. AUTHOR pam_loginuid was written by Steve Grubb 6.19. pam_mail - inform about available mail pam_mail.so [ close ] [ debug ] [ dir=maildir ] [ empty ] [ hash=count ] [ noenv ] [ nopen ] [ quiet ] [ standard ] 6.19.1. DESCRIPTION The pam_mail PAM module provides the "you have new mail" service to the user. It can be plugged into any application that has credential or session hooks. It gives a single message indicating the newness of any mail it finds in the user's mail folder. This module also sets the PAM environment variable, MAIL, to the user's mail directory. If the mail spool file (be it /var/mail/$USER or a pathname given with the dir= parameter) is a directory then pam_mail assumes it is in the Maildir format. 6.19.2. OPTIONS close Indicate if the user has any mail also on logout. debug Print debug information. dir=maildir Look for the users' mail in an alternative location defined by maildir/. The default location for mail is /var/mail/. Note, if the supplied maildir is prefixed by a '~', the directory is interpreted as indicating a file in the user's home directory. empty Also print message if user has no mail. hash=count Mail directory hash depth. For example, a hashcount of 2 would make the mail file be /var/spool/mail/u/s/user. noenv Do not set the MAIL environment variable. nopen Don't print any mail information on login. This flag is useful to get the MAIL environment variable set, but to not display any information about it. quiet Only report when there is new mail. standard Old style "You have..." format which doesn't show the mail spool being used. This also implies "empty". 6.19.3. MODULE TYPES PROVIDED The session and auth (on establishment and deletion of credentials) module types are provided. 6.19.4. RETURN VALUES PAM_BUF_ERR Memory buffer error. PAM_SERVICE_ERR Badly formed arguments. PAM_SUCCESS Success. PAM_USER_UNKNOWN User not known. 6.19.5. EXAMPLES Add the following line to /etc/pam.d/login to indicate that the user has new mail when they login to the system. session optional pam_mail.so standard 6.19.6. AUTHOR pam_mail was written by Andrew G. Morgan . 6.20. pam_mkhomedir - create users home directory pam_mkhomedir.so [ silent ] [ umask=mode ] [ skel=skeldir ] 6.20.1. DESCRIPTION The pam_mkhomedir PAM module will create a users home directory if it does not exist when the session begins. This allows users to be present in central database (such as NIS, kerberos or LDAP) without using a distributed file system or pre-creating a large number of directories. The skeleton directory (usually /etc/skel/) is used to copy default files and also sets a umask for the creation. The new users home directory will not be removed after logout of the user. 6.20.2. OPTIONS silent Don't print informative messages. umask=mask The user file-creation mask is set to mask. The default value of mask is 0022. skel=/path/to/skel/directory Indicate an alternative skel directory to override the default /etc/skel. 6.20.3. MODULE TYPES PROVIDED Only the session module type is provided. 6.20.4. RETURN VALUES PAM_BUF_ERR Memory buffer error. PAM_CRED_INSUFFICIENT Insufficient credentials to access authentication data. PAM_PERM_DENIED Not enough permissions to create the new directory or read the skel directory. PAM_USER_UNKNOWN User not known to the underlying authentication module. PAM_SUCCESS Environment variables were set. 6.20.5. EXAMPLES A sample /etc/pam.d/login file: auth requisite pam_securetty.so auth sufficient pam_ldap.so auth required pam_unix.so auth required pam_nologin.so account sufficient pam_ldap.so account required pam_unix.so password required pam_unix.so session required pam_mkhomedir.so skel=/etc/skel/ umask=0022 session required pam_unix.so session optional pam_lastlog.so session optional pam_mail.so standard 6.20.6. AUTHOR pam_mkhomedir was written by Jason Gunthorpe . 6.21. pam_motd - display the motd file pam_motd.so [ motd=/path/filename ] 6.21.1. DESCRIPTION pam_motd is a PAM module that can be used to display arbitrary motd (message of the day) files after a successful login. By default the /etc/motd file is shown. The message size is limited to 64KB. 6.21.2. OPTIONS motd=/path/filename The /path/filename file is displayed as message of the day. 6.21.3. MODULE TYPES PROVIDED Only the session module type is provided. 6.21.4. RETURN VALUES PAM_IGNORE This is the only return value of this module. 6.21.5. EXAMPLES The suggested usage for /etc/pam.d/login is: session optional pam_motd.so motd=/etc/motd 6.21.6. AUTHOR pam_motd was written by Ben Collins . 6.22. pam_namespace - setup a private namespace pam_namespace.so [ debug ] [ unmnt_remnt ] [ unmnt_only ] [ require_selinux ] [ gen_hash ] [ ignore_config_error ] [ ignore_instance_parent_mode ] [ unmount_on_close ] [ use_current_context ] [ use_default_context ] [ mount_private ] 6.22.1. DESCRIPTION The pam_namespace PAM module sets up a private namespace for a session with polyinstantiated directories. A polyinstantiated directory provides a different instance of itself based on user name, or when using SELinux, user name, security context or both. If an executable script /etc/security/namespace.init exists, it is used to initialize the instance directory after it is set up and mounted on the polyinstantiated directory. The script receives the polyinstantiated directory path, the instance directory path, flag whether the instance directory was newly created (0 for no, 1 for yes), and the user name as its arguments. The pam_namespace module disassociates the session namespace from the parent namespace. Any mounts/unmounts performed in the parent namespace, such as mounting of devices, are not reflected in the session namespace. To propagate selected mount/unmount events from the parent namespace into the disassociated session namespace, an administrator may use the special shared-subtree feature. For additional information on shared-subtree feature, please refer to the mount(8) man page and the shared-subtree description at http://lwn.net/Articles/159077 and http://lwn.net/Articles/159092. 6.22.2. DESCRIPTION The pam_namespace.so module allows setup of private namespaces with polyinstantiated directories. Directories can be polyinstantiated based on user name or, in the case of SELinux, user name, sensitivity level or complete security context. If an executable script /etc/security/namespace.init exists, it is used to initialize the namespace every time an instance directory is set up and mounted. The script receives the polyinstantiated directory path and the instance directory path as its arguments. The /etc/security/namespace.conf file specifies which directories are polyinstantiated, how they are polyinstantiated, how instance directories would be named, and any users for whom polyinstantiation would not be performed. When someone logs in, the file namespace.conf is scanned. Comments are marked by # characters. Each non comment line represents one polyinstantiated directory. The fields are separated by spaces but can be quoted by " characters also escape sequences \b, \n, and \t are recognized. The fields are as follows: polydir instance_prefix method list_of_uids The first field, polydir, is the absolute pathname of the directory to polyinstantiate. The special string $HOME is replaced with the user's home directory, and $USER with the username. This field cannot be blank. The second field, instance_prefix is the string prefix used to build the pathname for the instantiation of . Depending on the polyinstantiation method it is then appended with "instance differentiation string" to generate the final instance directory path. This directory is created if it did not exist already, and is then bind mounted on the to provide an instance of based on the column. The special string $HOME is replaced with the user's home directory, and $USER with the username. This field cannot be blank. The third field, method, is the method used for polyinstantiation. It can take these values; "user" for polyinstantiation based on user name, "level" for polyinstantiation based on process MLS level and user name, "context" for polyinstantiation based on process security context and user name, "tmpfs" for mounting tmpfs filesystem as an instance dir, and "tmpdir" for creating temporary directory as an instance dir which is removed when the user's session is closed. Methods "context" and "level" are only available with SELinux. This field cannot be blank. The fourth field, list_of_uids, is a comma separated list of user names for whom the polyinstantiation is not performed. If left blank, polyinstantiation will be performed for all users. If the list is preceded with a single "~" character, polyinstantiation is performed only for users in the list. The method field can contain also following optional flags separated by : characters. create=mode,owner,group - create the polyinstantiated directory. The mode, owner and group parameters are optional. The default for mode is determined by umask, the default owner is the user whose session is opened, the default group is the primary group of the user. iscript=path - path to the instance directory init script. The base directory for relative paths is /etc/security/namespace.d. noinit - instance directory init script will not be executed. shared - the instance directories for "context" and "level" methods will not contain the user name and will be shared among all users. mntopts=value - value of this flag is passed to the mount call when the tmpfs mount is done. It allows for example the specification of the maximum size of the tmpfs instance that is created by the mount call. See mount(8) for details. The directory where polyinstantiated instances are to be created, must exist and must have, by default, the mode of 0000. The requirement that the instance parent be of mode 0000 can be overridden with the command line option ignore_instance_parent_mode In case of context or level polyinstantiation the SELinux context which is used for polyinstantiation is the context used for executing a new process as obtained by getexeccon. This context must be set by the calling application or pam_selinux.so module. If this context is not set the polyinstatiation will be based just on user name. The "instance differentiation string" is for "user" method and _ for "context" and "level" methods. If the whole string is too long the end of it is replaced with md5sum of itself. Also when command line option gen_hash is used the whole string is replaced with md5sum of itself. 6.22.3. OPTIONS debug A lot of debug information is logged using syslog unmnt_remnt For programs such as su and newrole, the login session has already setup a polyinstantiated namespace. For these programs, polyinstantiation is performed based on new user id or security context, however the command first needs to undo the polyinstantiation performed by login. This argument instructs the command to first undo previous polyinstantiation before proceeding with new polyinstantiation based on new id/context unmnt_only For trusted programs that want to undo any existing bind mounts and process instance directories on their own, this argument allows them to unmount currently mounted instance directories require_selinux If selinux is not enabled, return failure gen_hash Instead of using the security context string for the instance name, generate and use its md5 hash. ignore_config_error If a line in the configuration file corresponding to a polyinstantiated directory contains format error, skip that line process the next line. Without this option, pam will return an error to the calling program resulting in termination of the session. ignore_instance_parent_mode Instance parent directories by default are expected to have the restrictive mode of 000. Using this option, an administrator can choose to ignore the mode of the instance parent. This option should be used with caution as it will reduce security and isolation goals of the polyinstantiation mechanism. unmount_on_close Explicitly unmount the polyinstantiated directories instead of relying on automatic namespace destruction after the last process in a namespace exits. This option should be used only in case it is ensured by other means that there cannot be any processes running in the private namespace left after the session close. It is also useful only in case there are multiple pam session calls in sequence from the same process. use_current_context Useful for services which do not change the SELinux context with setexeccon call. The module will use the current SELinux context of the calling process for the level and context polyinstantiation. use_default_context Useful for services which do not use pam_selinux for changing the SELinux context with setexeccon call. The module will use the default SELinux context of the user for the level and context polyinstantiation. mount_private This option can be used on systems where the / mount point or its submounts are made shared (for example with a mount --make-rshared / command). The module will mark the whole directory tree so any mount and unmount operations in the polyinstantiation namespace are private. Normally the pam_namespace will try to detect the shared / mount point and make the polyinstantiated directories private automatically. This option has to be used just when only a subtree is shared and / is not. Note that mounts and unmounts done in the private namespace will not affect the parent namespace if this option is used or when the shared / mount point is autodetected. 6.22.4. MODULE TYPES PROVIDED Only the session module type is provided. The module must not be called from multithreaded processes. 6.22.5. RETURN VALUES PAM_SUCCESS Namespace setup was successful. PAM_SERVICE_ERR Unexpected system error occurred while setting up namespace. PAM_SESSION_ERR Unexpected namespace configuration error occurred. 6.22.6. FILES /etc/security/namespace.conf Main configuration file /etc/security/namespace.d Directory for additional configuration files /etc/security/namespace.init Init script for instance directories 6.22.7. EXAMPLES These are some example lines which might be specified in /etc/security/namespace.conf. # The following three lines will polyinstantiate /tmp, # /var/tmp and user's home directories. /tmp and /var/tmp # will be polyinstantiated based on the security level # as well as user name, whereas home directory will be # polyinstantiated based on the full security context and user name. # Polyinstantiation will not be performed for user root # and adm for directories /tmp and /var/tmp, whereas home # directories will be polyinstantiated for all users. # # Note that instance directories do not have to reside inside # the polyinstantiated directory. In the examples below, # instances of /tmp will be created in /tmp-inst directory, # where as instances of /var/tmp and users home directories # will reside within the directories that are being # polyinstantiated. # /tmp /tmp-inst/ level root,adm /var/tmp /var/tmp/tmp-inst/ level root,adm $HOME $HOME/$USER.inst/inst- context For the s you need polyinstantiation (login for example) put the following line in /etc/pam.d/ as the last line for session group: session required pam_namespace.so [arguments] This module also depends on pam_selinux.so setting the context. 6.22.8. AUTHORS The namespace setup scheme was designed by Stephen Smalley, Janak Desai and Chad Sellers. The pam_namespace PAM module was developed by Janak Desai , Chad Sellers and Steve Grubb . Additional improvements by Xavier Toth and Tomas Mraz . 6.23. pam_nologin - prevent non-root users from login pam_nologin.so [ file=/path/nologin ] [ successok ] 6.23.1. DESCRIPTION pam_nologin is a PAM module that prevents users from logging into the system when /var/run/nologin or /etc/nologin exists. The contents of the file are displayed to the user. The pam_nologin module has no effect on the root user's ability to log in. 6.23.2. OPTIONS file=/path/nologin Use this file instead the default /var/run/nologin or /etc/nologin. successok Return PAM_SUCCESS if no file exists, the default is PAM_IGNORE. 6.23.3. MODULE TYPES PROVIDED The auth and acct module types are provided. 6.23.4. RETURN VALUES PAM_AUTH_ERR The user is not root and /etc/nologin exists, so the user is not permitted to log in. PAM_BUF_ERR Memory buffer error. PAM_IGNORE This is the default return value. PAM_SUCCESS Success: either the user is root or the nologin file does not exist. PAM_USER_UNKNOWN User not known to the underlying authentication module. 6.23.5. EXAMPLES The suggested usage for /etc/pam.d/login is: auth required pam_nologin.so 6.23.6. AUTHOR pam_nologin was written by Michael K. Johnson . 6.24. pam_permit - the promiscuous module pam_permit.so 6.24.1. DESCRIPTION pam_permit is a PAM module that always permit access. It does nothing else. In the case of authentication, the user's name will be set to nobody if the application didn't set one. Many applications and PAM modules become confused if this name is unknown. This module is very dangerous. It should be used with extreme caution. 6.24.2. OPTIONS This module does not recognise any options. 6.24.3. MODULE TYPES PROVIDED The auth, account, password and session module types are provided. 6.24.4. RETURN VALUES PAM_SUCCESS This module always returns this value. 6.24.5. EXAMPLES Add this line to your other login entries to disable account management, but continue to permit users to log in. account required pam_permit.so 6.24.6. AUTHOR pam_permit was written by Andrew G. Morgan, . 6.25. pam_pwhistory - grant access using .pwhistory file pam_pwhistory.so [ debug ] [ use_authtok ] [ enforce_for_root ] [ remember=N ] [ retry=N ] [ authtok_type=STRING ] 6.25.1. DESCRIPTION This module saves the last passwords for each user in order to force password change history and keep the user from alternating between the same password too frequently. This module does not work together with kerberos. In general, it does not make much sense to use this module in conjunction with NIS or LDAP, since the old passwords are stored on the local machine and are not available on another machine for password history checking. 6.25.2. OPTIONS debug Turns on debugging via syslog(3). use_authtok When password changing enforce the module to use the new password provided by a previously stacked password module (this is used in the example of the stacking of the pam_cracklib module documented below). enforce_for_root If this option is set, the check is enforced for root, too. remember=N The last N passwords for each user are saved in /etc/security/opasswd. The default is 10. Value of 0 makes the module to keep the existing contents of the opasswd file unchanged. retry=N Prompt user at most N times before returning with error. The default is 1. authtok_type=STRING See pam_get_authtok(3) for more details. 6.25.3. MODULE TYPES PROVIDED Only the password module type is provided. 6.25.4. RETURN VALUES PAM_AUTHTOK_ERR No new password was entered, the user aborted password change or new password couldn't be set. PAM_IGNORE Password history was disabled. PAM_MAXTRIES Password was rejected too often. PAM_USER_UNKNOWN User is not known to system. 6.25.5. FILES /etc/security/opasswd File with password history 6.25.6. EXAMPLES An example password section would be: #%PAM-1.0 password required pam_pwhistory.so password required pam_unix.so use_authtok In combination with pam_cracklib: #%PAM-1.0 password required pam_cracklib.so retry=3 password required pam_pwhistory.so use_authtok password required pam_unix.so use_authtok 6.25.7. AUTHOR pam_pwhistory was written by Thorsten Kukuk 6.26. pam_rhosts - grant access using .rhosts file pam_rhosts.so 6.26.1. DESCRIPTION This module performs the standard network authentication for services, as used by traditional implementations of rlogin and rsh etc. The authentication mechanism of this module is based on the contents of two files; /etc/hosts.equiv (or and ~/.rhosts. Firstly, hosts listed in the former file are treated as equivalent to the localhost. Secondly, entries in the user's own copy of the latter file is used to map "remote-host remote-user" pairs to that user's account on the current host. Access is granted to the user if their host is present in /etc/hosts.equiv and their remote account is identical to their local one, or if their remote account has an entry in their personal configuration file. The module authenticates a remote user (internally specified by the item PAM_RUSER connecting from the remote host (internally specified by the item PAM_RHOST). Accordingly, for applications to be compatible this authentication module they must set these items prior to calling pam_authenticate(). The module is not capable of independently probing the network connection for such information. 6.26.2. OPTIONS debug Print debug information. silent Don't print informative messages. superuser=account Handle account as root. 6.26.3. MODULE TYPES PROVIDED Only the auth module type is provided. 6.26.4. RETURN VALUES PAM_AUTH_ERR The remote host, remote user name or the local user name couldn't be determined or access was denied by .rhosts file. PAM_USER_UNKNOWN User is not known to system. 6.26.5. EXAMPLES To grant a remote user access by /etc/hosts.equiv or .rhosts for rsh add the following lines to /etc/pam.d/rsh: #%PAM-1.0 # auth required pam_rhosts.so auth required pam_nologin.so auth required pam_env.so auth required pam_unix.so 6.26.6. AUTHOR pam_rhosts was written by Thorsten Kukuk 6.27. pam_rootok - gain only root access pam_rootok.so [ debug ] 6.27.1. DESCRIPTION pam_rootok is a PAM module that authenticates the user if their UID is 0. Applications that are created setuid-root generally retain the UID of the user but run with the authority of an enhanced effective-UID. It is the real UID that is checked. 6.27.2. OPTIONS debug Print debug information. 6.27.3. MODULE TYPES PROVIDED The auth, acct and password module types are provided. 6.27.4. RETURN VALUES PAM_SUCCESS The UID is 0. PAM_AUTH_ERR The UID is not 0. 6.27.5. EXAMPLES In the case of the su(1) application the historical usage is to permit the superuser to adopt the identity of a lesser user without the use of a password. To obtain this behavior with PAM the following pair of lines are needed for the corresponding entry in the /etc/pam.d/su configuration file: # su authentication. Root is granted access by default. auth sufficient pam_rootok.so auth required pam_unix.so 6.27.6. AUTHOR pam_rootok was written by Andrew G. Morgan, . 6.28. pam_securetty - limit root login to special devices pam_securetty.so [ debug ] 6.28.1. DESCRIPTION pam_securetty is a PAM module that allows root logins only if the user is logging in on a "secure" tty, as defined by the listing in /etc/securetty. pam_securetty also checks to make sure that /etc/securetty is a plain file and not world writable. It will also allow root logins on the tty specified with console= switch on the kernel command line and on ttys from the /sys/class/tty/console/active. This module has no effect on non-root users and requires that the application fills in the PAM_TTY item correctly. For canonical usage, should be listed as a required authentication method before any sufficient authentication methods. 6.28.2. OPTIONS debug Print debug information. noconsole Do not automatically allow root logins on the kernel console device, as specified on the kernel command line or by the sys file, if it is not also specified in the /etc/securetty file. 6.28.3. MODULE TYPES PROVIDED Only the auth module type is provided. 6.28.4. RETURN VALUES PAM_SUCCESS The user is allowed to continue authentication. Either the user is not root, or the root user is trying to log in on an acceptable device. PAM_AUTH_ERR Authentication is rejected. Either root is attempting to log in via an unacceptable device, or the /etc/securetty file is world writable or not a normal file. PAM_INCOMPLETE An application error occurred. pam_securetty was not able to get information it required from the application that called it. PAM_SERVICE_ERR An error occurred while the module was determining the user's name or tty, or the module could not open /etc/securetty. PAM_USER_UNKNOWN The module could not find the user name in the /etc/passwd file to verify whether the user had a UID of 0. Therefore, the results of running this module are ignored. 6.28.5. EXAMPLES auth required pam_securetty.so auth required pam_unix.so 6.28.6. AUTHOR pam_securetty was written by Elliot Lee . 6.29. pam_selinux - set the default security context pam_selinux.so [ open ] [ close ] [ restore ] [ nottys ] [ debug ] [ verbose ] [ select_context ] [ env_params ] [ use_current_range ] 6.29.1. DESCRIPTION pam_selinux is a PAM module that sets up the default SELinux security context for the next executed process. When a new session is started, the open_session part of the module computes and sets up the execution security context used for the next execve(2) call, the file security context for the controlling terminal, and the security context used for creating a new kernel keyring. When the session is ended, the close_session part of the module restores old security contexts that were in effect before the change made by the open_session part of the module. Adding pam_selinux into the PAM stack might disrupt behavior of other PAM modules which execute applications. To avoid that, pam_selinux.so open should be placed after such modules in the PAM stack, and pam_selinux.so close should be placed before them. When such a placement is not feasible, pam_selinux.so restore could be used to temporary restore original security contexts. 6.29.2. OPTIONS open Only execute the open_session part of the module. close Only execute the close_session part of the module. restore In open_session part of the module, temporarily restore the security contexts as they were before the previous call of the module. Another call of this module without the restore option will set up the new security contexts again. nottys Do not setup security context of the controlling terminal. debug Turn on debug messages via syslog(3). verbose Attempt to inform the user when security context is set. select_context Attempt to ask the user for a custom security context role. If MLS is on, ask also for sensitivity level. env_params Attempt to obtain a custom security context role from PAM environment. If MLS is on, obtain also sensitivity level. This option and the select_context option are mutually exclusive. The respective PAM environment variables are SELINUX_ROLE_REQUESTED, SELINUX_LEVEL_REQUESTED, and SELINUX_USE_CURRENT_RANGE. The first two variables are self describing and the last one if set to 1 makes the PAM module behave as if the use_current_range was specified on the command line of the module. use_current_range Use the sensitivity level of the current process for the user context instead of the default level. Also suppresses asking of the sensitivity level from the user or obtaining it from PAM environment. 6.29.3. MODULE TYPES PROVIDED Only the session module type is provided. 6.29.4. RETURN VALUES PAM_SUCCESS The security context was set successfully. PAM_SESSION_ERR Unable to get or set a valid context. PAM_USER_UNKNOWN The user is not known to the system. PAM_BUF_ERR Memory allocation error. 6.29.5. EXAMPLES auth required pam_unix.so session required pam_permit.so session optional pam_selinux.so 6.29.6. AUTHOR pam_selinux was written by Dan Walsh . 6.30. pam_shells - check for valid login shell pam_shells.so 6.30.1. DESCRIPTION pam_shells is a PAM module that only allows access to the system if the users shell is listed in /etc/shells. It also checks if /etc/shells is a plain file and not world writable. 6.30.2. OPTIONS This module does not recognise any options. 6.30.3. MODULE TYPES PROVIDED The auth and account module types are provided. 6.30.4. RETURN VALUES PAM_AUTH_ERR Access to the system was denied. PAM_SUCCESS The users login shell was listed as valid shell in /etc/shells. PAM_SERVICE_ERR The module was not able to get the name of the user. 6.30.5. EXAMPLES auth required pam_shells.so 6.30.6. AUTHOR pam_shells was written by Erik Troan . 6.31. pam_succeed_if - test account characteristics pam_succeed_if.so [flag...] [condition...] 6.31.1. DESCRIPTION pam_succeed_if.so is designed to succeed or fail authentication based on characteristics of the account belonging to the user being authenticated or values of other PAM items. One use is to select whether to load other modules based on this test. The module should be given one or more conditions as module arguments, and authentication will succeed only if all of the conditions are met. 6.31.2. OPTIONS The following flags are supported: debug Turns on debugging messages sent to syslog. use_uid Evaluate conditions using the account of the user whose UID the application is running under instead of the user being authenticated. quiet Don't log failure or success to the system log. quiet_fail Don't log failure to the system log. quiet_success Don't log success to the system log. audit Log unknown users to the system log. Conditions are three words: a field, a test, and a value to test for. Available fields are user, uid, gid, shell, home, ruser, rhost, tty and service: field < number Field has a value numerically less than number. field <= number Field has a value numerically less than or equal to number. field eq number Field has a value numerically equal to number. field >= number Field has a value numerically greater than or equal to number. field > number Field has a value numerically greater than number. field ne number Field has a value numerically different from number. field = string Field exactly matches the given string. field != string Field does not match the given string. field =~ glob Field matches the given glob. field !~ glob Field does not match the given glob. field in item:item:... Field is contained in the list of items separated by colons. field notin item:item:... Field is not contained in the list of items separated by colons. user ingroup group User is in given group. user notingroup group User is not in given group. user innetgr netgroup (user,host) is in given netgroup. user notinnetgr group (user,host) is not in given netgroup. 6.31.3. MODULE TYPES PROVIDED All module types (account, auth, password and session) are provided. 6.31.4. RETURN VALUES PAM_SUCCESS The condition was true. PAM_AUTH_ERR The condition was false. PAM_SERVICE_ERR A service error occurred or the arguments can't be parsed correctly. 6.31.5. EXAMPLES To emulate the behaviour of pam_wheel, except there is no fallback to group 0: auth required pam_succeed_if.so quiet user ingroup wheel Given that the type matches, only loads the othermodule rule if the UID is over 500. Adjust the number after default to skip several rules. type [default=1 success=ignore] pam_succeed_if.so quiet uid > 500 type required othermodule.so arguments... 6.31.6. AUTHOR Nalin Dahyabhai 6.32. pam_tally - login counter (tallying) module pam_tally.so [ file=/path/to/counter ] [ onerr=[fail|succeed] ] [ magic_root ] [ even_deny_root_account ] [ deny=n ] [ lock_time=n ] [ unlock_time=n ] [ per_user ] [ no_lock_time ] [ no_reset ] [ audit ] [ silent ] [ no_log_info ] pam_tally [ --file /path/to/counter ] [ --user username ] [ --reset[=n] ] [ --quiet ] 6.32.1. DESCRIPTION This module maintains a count of attempted accesses, can reset count on success, can deny access if too many attempts fail. pam_tally has several limitations, which are solved with pam_tally2. For this reason pam_tally is deprecated and will be removed in a future release. pam_tally comes in two parts: pam_tally.so and pam_tally. The former is the PAM module and the latter, a stand-alone program. pam_tally is an (optional) application which can be used to interrogate and manipulate the counter file. It can display users' counts, set individual counts, or clear all counts. Setting artificially high counts may be useful for blocking users without changing their passwords. For example, one might find it useful to clear all counts every midnight from a cron job. The faillog(8) command can be used instead of pam_tally to to maintain the counter file. Normally, failed attempts to access root will not cause the root account to become blocked, to prevent denial-of-service: if your users aren't given shell accounts and root may only login via su or at the machine console (not telnet/rsh, etc), this is safe. 6.32.2. OPTIONS GLOBAL OPTIONS This can be used for auth and account module types. onerr=[fail|succeed] If something weird happens (like unable to open the file), return with PAM_SUCCESS if onerr=succeed is given, else with the corresponding PAM error code. file=/path/to/counter File where to keep counts. Default is /var/log/faillog. audit Will log the user name into the system log if the user is not found. silent Don't print informative messages. no_log_info Don't log informative messages via syslog(3). AUTH OPTIONS Authentication phase first checks if user should be denied access and if not it increments attempted login counter. Then on call to pam_setcred(3) it resets the attempts counter. deny=n Deny access if tally for this user exceeds n. lock_time=n Always deny for n seconds after failed attempt. unlock_time=n Allow access after n seconds after failed attempt. If this option is used the user will be locked out for the specified amount of time after he exceeded his maximum allowed attempts. Otherwise the account is locked until the lock is removed by a manual intervention of the system administrator. magic_root If the module is invoked by a user with uid=0 the counter is not incremented. The sysadmin should use this for user launched services, like su, otherwise this argument should be omitted. no_lock_time Do not use the .fail_locktime field in /var/log/faillog for this user. no_reset Don't reset count on successful entry, only decrement. even_deny_root_account Root account can become unavailable. per_user If /var/log/faillog contains a non-zero .fail_max/.fail_locktime field for this user then use it instead of deny=n/ lock_time=n parameter. no_lock_time Don't use .fail_locktime filed in /var/log/faillog for this user. ACCOUNT OPTIONS Account phase resets attempts counter if the user is not magic root. This phase can be used optionally for services which don't call pam_setcred(3) correctly or if the reset should be done regardless of the failure of the account phase of other modules. magic_root If the module is invoked by a user with uid=0 the counter is not incremented. The sysadmin should use this for user launched services, like su, otherwise this argument should be omitted. no_reset Don't reset count on successful entry, only decrement. 6.32.3. MODULE TYPES PROVIDED The auth and account module types are provided. 6.32.4. RETURN VALUES PAM_AUTH_ERR A invalid option was given, the module was not able to retrieve the user name, no valid counter file was found, or too many failed logins. PAM_SUCCESS Everything was successful. PAM_USER_UNKNOWN User not known. 6.32.5. EXAMPLES Add the following line to /etc/pam.d/login to lock the account after too many failed logins. The number of allowed fails is specified by /var/log/faillog and needs to be set with pam_tally or faillog(8) before. auth required pam_securetty.so auth required pam_tally.so per_user auth required pam_env.so auth required pam_unix.so auth required pam_nologin.so account required pam_unix.so password required pam_unix.so session required pam_limits.so session required pam_unix.so session required pam_lastlog.so nowtmp session optional pam_mail.so standard 6.32.6. AUTHOR pam_tally was written by Tim Baverstock and Tomas Mraz. 6.33. pam_tally2 - login counter (tallying) module pam_tally2.so [ file=/path/to/counter ] [ onerr=[fail|succeed] ] [ magic_root ] [ even_deny_root ] [ deny=n ] [ lock_time=n ] [ unlock_time=n ] [ root_unlock_time=n ] [ serialize ] [ audit ] [ silent ] [ no_log_info ] pam_tally2 [ --file /path/to/counter ] [ --user username ] [ --reset[=n] ] [ --quiet ] 6.33.1. DESCRIPTION This module maintains a count of attempted accesses, can reset count on success, can deny access if too many attempts fail. pam_tally2 comes in two parts: pam_tally2.so and pam_tally2. The former is the PAM module and the latter, a stand-alone program. pam_tally2 is an (optional) application which can be used to interrogate and manipulate the counter file. It can display users' counts, set individual counts, or clear all counts. Setting artificially high counts may be useful for blocking users without changing their passwords. For example, one might find it useful to clear all counts every midnight from a cron job. Normally, failed attempts to access root will not cause the root account to become blocked, to prevent denial-of-service: if your users aren't given shell accounts and root may only login via su or at the machine console (not telnet/rsh, etc), this is safe. 6.33.2. OPTIONS GLOBAL OPTIONS This can be used for auth and account module types. onerr=[fail|succeed] If something weird happens (like unable to open the file), return with PAM_SUCCESS if onerr=succeed is given, else with the corresponding PAM error code. file=/path/to/counter File where to keep counts. Default is /var/log/tallylog. audit Will log the user name into the system log if the user is not found. silent Don't print informative messages. no_log_info Don't log informative messages via syslog(3). AUTH OPTIONS Authentication phase first increments attempted login counter and checks if user should be denied access. If the user is authenticated and the login process continues on call to pam_setcred(3) it resets the attempts counter. deny=n Deny access if tally for this user exceeds n. lock_time=n Always deny for n seconds after failed attempt. unlock_time=n Allow access after n seconds after failed attempt. If this option is used the user will be locked out for the specified amount of time after he exceeded his maximum allowed attempts. Otherwise the account is locked until the lock is removed by a manual intervention of the system administrator. magic_root If the module is invoked by a user with uid=0 the counter is not incremented. The sysadmin should use this for user launched services, like su, otherwise this argument should be omitted. even_deny_root Root account can become unavailable. root_unlock_time=n This option implies even_deny_root option. Allow access after n seconds to root account after failed attempt. If this option is used the root user will be locked out for the specified amount of time after he exceeded his maximum allowed attempts. serialize Serialize access to the tally file using locks. This option might be used only for non-multithreaded services because it depends on the fcntl locking of the tally file. Also it is a good idea to use this option only in such configurations where the time between auth phase and account or setcred phase is not dependent on the authenticating client. Otherwise the authenticating client will be able to prevent simultaneous authentications by the same user by simply artificially prolonging the time the file record lock is held. ACCOUNT OPTIONS Account phase resets attempts counter if the user is not magic root. This phase can be used optionally for services which don't call pam_setcred(3) correctly or if the reset should be done regardless of the failure of the account phase of other modules. magic_root If the module is invoked by a user with uid=0 the counter is not changed. The sysadmin should use this for user launched services, like su, otherwise this argument should be omitted. 6.33.3. MODULE TYPES PROVIDED The auth and account module types are provided. 6.33.4. RETURN VALUES PAM_AUTH_ERR A invalid option was given, the module was not able to retrieve the user name, no valid counter file was found, or too many failed logins. PAM_SUCCESS Everything was successful. PAM_USER_UNKNOWN User not known. 6.33.5. NOTES pam_tally2 is not compatible with the old pam_tally faillog file format. This is caused by requirement of compatibility of the tallylog file format between 32bit and 64bit architectures on multiarch systems. There is no setuid wrapper for access to the data file such as when the pam_tally2.so module is called from xscreensaver. As this would make it impossible to share PAM configuration with such services the following workaround is used: If the data file cannot be opened because of insufficient permissions (EACCES) the module returns PAM_IGNORE. 6.33.6. EXAMPLES Add the following line to /etc/pam.d/login to lock the account after 4 failed logins. Root account will be locked as well. The accounts will be automatically unlocked after 20 minutes. The module does not have to be called in the account phase because the login calls pam_setcred(3) correctly. auth required pam_securetty.so auth required pam_tally2.so deny=4 even_deny_root unlock_time=1200 auth required pam_env.so auth required pam_unix.so auth required pam_nologin.so account required pam_unix.so password required pam_unix.so session required pam_limits.so session required pam_unix.so session required pam_lastlog.so nowtmp session optional pam_mail.so standard 6.33.7. FILES /var/log/tallylog failure count logging file 6.33.8. AUTHOR pam_tally2 was written by Tim Baverstock and Tomas Mraz. 6.34. pam_time - time controled access pam_time.so [ debug ] [ noaudit ] 6.34.1. DESCRIPTION The pam_time PAM module does not authenticate the user, but instead it restricts access to a system and or specific applications at various times of the day and on specific days or over various terminal lines. This module can be configured to deny access to (individual) users based on their name, the time of day, the day of week, the service they are applying for and their terminal from which they are making their request. By default rules for time/port access are taken from config file /etc/security/time.conf. If Linux PAM is compiled with audit support the module will report when it denies access. 6.34.2. DESCRIPTION The pam_time PAM module does not authenticate the user, but instead it restricts access to a system and or specific applications at various times of the day and on specific days or over various terminal lines. This module can be configured to deny access to (individual) users based on their name, the time of day, the day of week, the service they are applying for and their terminal from which they are making their request. For this module to function correctly there must be a correctly formatted /etc/security/time.conf file present. White spaces are ignored and lines maybe extended with '\' (escaped newlines). Text following a '#' is ignored to the end of the line. The syntax of the lines is as follows: services;ttys;users;times In words, each rule occupies a line, terminated with a newline or the beginning of a comment; a '#'. It contains four fields separated with semicolons, ';'. The first field, the services field, is a logic list of PAM service names that the rule applies to. The second field, the tty field, is a logic list of terminal names that this rule applies to. The third field, the users field, is a logic list of users or a netgroup of users to whom this rule applies. For these items the simple wildcard '*' may be used only once. With netgroups no wildcards or logic operators are allowed. The times field is used to indicate the times at which this rule applies. The format here is a logic list of day/time-range entries. The days are specified by a sequence of two character entries, MoTuSa for example is Monday Tuesday and Saturday. Note that repeated days are unset MoMo = no day, and MoWk = all weekdays bar Monday. The two character combinations accepted are Mo Tu We Th Fr Sa Su Wk Wd Al, the last two being week-end days and all 7 days of the week respectively. As a final example, AlFr means all days except Friday. Each day/time-range can be prefixed with a '!' to indicate "anything but". The time-range part is two 24-hour times HHMM, separated by a hyphen, indicating the start and finish time (if the finish time is smaller than the start time it is deemed to apply on the following day). For a rule to be active, ALL of service+ttys+users must be satisfied by the applying process. Note, currently there is no daemon enforcing the end of a session. This needs to be remedied. Poorly formatted rules are logged as errors using syslog(3). 6.34.3. OPTIONS debug Some debug information is printed with syslog(3). noaudit Do not report logins at disallowed time to the audit subsystem. 6.34.4. MODULE TYPES PROVIDED Only the account type is provided. 6.34.5. RETURN VALUES PAM_SUCCESS Access was granted. PAM_ABORT Not all relevant data could be gotten. PAM_BUF_ERR Memory buffer error. PAM_PERM_DENIED Access was not granted. PAM_USER_UNKNOWN The user is not known to the system. 6.34.6. FILES /etc/security/time.conf Default configuration file 6.34.7. EXAMPLES These are some example lines which might be specified in /etc/security/time.conf. All users except for root are denied access to console-login at all times: login ; tty* & !ttyp* ; !root ; !Al0000-2400 Games (configured to use PAM) are only to be accessed out of working hours. This rule does not apply to the user waster: games ; * ; !waster ; Wd0000-2400 | Wk1800-0800 6.34.8. AUTHOR pam_time was written by Andrew G. Morgan . 6.35. pam_timestamp - authenticate using cached successful authentication attempts pam_timestamp.so [ timestamp_timeout=number ] [ verbose ] [ debug ] 6.35.1. DESCRIPTION In a nutshell, pam_timestamp caches successful authentication attempts, and allows you to use a recent successful attempt as the basis for authentication. This is similar mechanism which is used in sudo. When an application opens a session using pam_timestamp, a timestamp file is created in the timestampdir directory for the user. When an application attempts to authenticate the user, a pam_timestamp will treat a sufficiently recent timestamp file as grounds for succeeding. 6.35.2. OPTIONS timestamp_timeout=number How long should pam_timestamp treat timestamp as valid after their last modification date (in seconds). Default is 300 seconds. verbose Attempt to inform the user when access is granted. debug Turns on debugging messages sent to syslog(3). 6.35.3. MODULE TYPES PROVIDED The auth and session module types are provided. 6.35.4. RETURN VALUES PAM_AUTH_ERR The module was not able to retrieve the user name or no valid timestamp file was found. PAM_SUCCESS Everything was successful. PAM_SESSION_ERR Timestamp file could not be created or updated. 6.35.5. NOTES Users can get confused when they are not always asked for passwords when running a given program. Some users reflexively begin typing information before noticing that it is not being asked for. 6.35.6. EXAMPLES auth sufficient pam_timestamp.so verbose auth required pam_unix.so session required pam_unix.so session optional pam_timestamp.so 6.35.7. FILES /var/run/sudo/... timestamp files and directories 6.35.8. AUTHOR pam_timestamp was written by Nalin Dahyabhai. 6.36. pam_umask - set the file mode creation mask pam_umask.so [ debug ] [ silent ] [ usergroups ] [ umask=mask ] 6.36.1. DESCRIPTION pam_umask is a PAM module to set the file mode creation mask of the current environment. The umask affects the default permissions assigned to newly created files. The PAM module tries to get the umask value from the following places in the following order: * umask= argument * umask= entry in the user's GECOS field * UMASK= entry from /etc/default/login * UMASK entry from /etc/login.defs The GECOS field is split on comma ',' characters. The module also in addition to the umask= entry recognizes pri= entry, which sets the nice priority value for the session, and ulimit= entry, which sets the maximum size of files the processes in the session can create. 6.36.2. OPTIONS debug Print debug information. silent Don't print informative messages. usergroups If the user is not root and the username is the same as primary group name, the umask group bits are set to be the same as owner bits (examples: 022 -> 002, 077 -> 007). umask=mask Sets the calling process's file mode creation mask (umask) to mask & 0777. The value is interpreted as Octal. 6.36.3. MODULE TYPES PROVIDED Only the session type is provided. 6.36.4. RETURN VALUES PAM_SUCCESS The new umask was set successfully. PAM_SERVICE_ERR No username was given. PAM_USER_UNKNOWN User not known. 6.36.5. EXAMPLES Add the following line to /etc/pam.d/login to set the user specific umask at login: session optional pam_umask.so umask=0022 6.36.6. AUTHOR pam_umask was written by Thorsten Kukuk . 6.37. pam_unix - traditional password authentication pam_unix.so [ ... ] 6.37.1. DESCRIPTION This is the standard Unix authentication module. It uses standard calls from the system's libraries to retrieve and set account information as well as authentication. Usually this is obtained from the /etc/passwd and the /etc/shadow file as well if shadow is enabled. The account component performs the task of establishing the status of the user's account and password based on the following shadow elements: expire, last_change, max_change, min_change, warn_change. In the case of the latter, it may offer advice to the user on changing their password or, through the PAM_AUTHTOKEN_REQD return, delay giving service to the user until they have established a new password. The entries listed above are documented in the shadow(5) manual page. Should the user's record not contain one or more of these entries, the corresponding shadow check is not performed. 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. A helper binary, unix_chkpwd(8), is provided to check the user's password when it is stored in a read protected database. This binary is very simple and will only check the password of the user invoking it. It is called transparently on behalf of the user by the authenticating component of this module. In this way it is possible for applications like xlock(1) to work without being setuid-root. The module, by default, will temporarily turn off SIGCHLD handling for the duration of execution of the helper binary. This is generally the right thing to do, as many applications are not prepared to handle this signal from a child they didn't know was fork()d. The noreap module argument can be used to suppress this temporary shielding and may be needed for use with certain applications. The maximum length of a password supported by the pam_unix module via the helper binary is PAM_MAX_RESP_SIZE - currently 512 bytes. The rest of the password provided by the conversation function to the module will be ignored. The password component of this module performs the task of updating the user's password. The default encryption hash is taken from the ENCRYPT_METHOD variable from /etc/login.defs The session component of this module logs when a user logins or leave the system. Remaining arguments, supported by others functions of this module, are silently ignored. Other arguments are logged as errors through syslog(3). 6.37.2. OPTIONS debug Turns on debugging via syslog(3). audit A little more extreme than debug. nullok The default action of this module is to not permit the user access to a service if their official password is blank. The nullok argument overrides this default. try_first_pass Before prompting the user for their password, the module first tries the previous stacked module's password in case that satisfies this module as well. use_first_pass The argument use_first_pass forces the module to use a previous stacked modules password and will never prompt the user - if no password is available or the password is not appropriate, the user will be denied access. nodelay This argument can be used to discourage the authentication component from requesting a delay should the authentication as a whole fail. The default action is for the module to request a delay-on-failure of the order of two second. use_authtok When password changing enforce the module to set the new password to the one provided by a previously stacked password module (this is used in the example of the stacking of the pam_cracklib module documented below). not_set_pass This argument is used to inform the module that it is not to pay attention to/make available the old or new passwords from/to other (stacked) password modules. nis NIS RPC is used for setting new passwords. remember=n The last n passwords for each user are saved in /etc/security/opasswd in order to force password change history and keep the user from alternating between the same password too frequently. Instead of this option the pam_pwhistory module should be used. shadow Try to maintain a shadow based system. md5 When a user changes their password next, encrypt it with the MD5 algorithm. bigcrypt When a user changes their password next, encrypt it with the DEC C2 algorithm. sha256 When a user changes their password next, encrypt it with the SHA256 algorithm. The SHA256 algorithm must be supported by the crypt(3) function. sha512 When a user changes their password next, encrypt it with the SHA512 algorithm. The SHA512 algorithm must be supported by the crypt(3) function. blowfish When a user changes their password next, encrypt it with the blowfish algorithm. The blowfish algorithm must be supported by the crypt(3) function. rounds=n Set the optional number of rounds of the SHA256, SHA512 and blowfish password hashing algorithms to n. broken_shadow Ignore errors reading shadow information for users in the account management module. minlen=n Set a minimum password length of n characters. The max. for DES crypt based passwords are 8 characters. no_pass_expiry When set ignore password expiration as defined by the shadow entry of the user. The option has an effect only in case pam_unix was not used for the authentication or it returned authentication failure meaning that other authentication source or method succeeded. The example can be public key authentication in sshd. The module will return PAM_SUCCESS instead of eventual PAM_NEW_AUTHTOK_REQD or PAM_AUTHTOK_EXPIRED. Invalid arguments are logged with syslog(3). 6.37.3. MODULE TYPES PROVIDED All module types (account, auth, password and session) are provided. 6.37.4. RETURN VALUES PAM_IGNORE Ignore this module. 6.37.5. EXAMPLES An example usage for /etc/pam.d/login would be: # Authenticate the user auth required pam_unix.so # Ensure users account and password are still active account required pam_unix.so # Change the users password, but at first check the strength # with pam_cracklib(8) password required pam_cracklib.so retry=3 minlen=6 difok=3 password required pam_unix.so use_authtok nullok md5 session required pam_unix.so 6.37.6. AUTHOR pam_unix was written by various people. 6.38. pam_userdb - authenticate against a db database pam_userdb.so db=/path/database [ debug ] [ crypt=[crypt|none] ] [ icase ] [ dump ] [ try_first_pass ] [ use_first_pass ] [ unknown_ok ] [ key_only ] 6.38.1. DESCRIPTION The pam_userdb module is used to verify a username/password pair against values stored in a Berkeley DB database. The database is indexed by the username, and the data fields corresponding to the username keys are the passwords. 6.38.2. OPTIONS crypt=[crypt|none] Indicates whether encrypted or plaintext passwords are stored in the database. If it is crypt, passwords should be stored in the database in crypt(3) form. If none is selected, passwords should be stored in the database as plaintext. db=/path/database Use the /path/database database for performing lookup. There is no default; the module will return PAM_IGNORE if no database is provided. Note that the path to the database file should be specified without the .db suffix. debug Print debug information. dump Dump all the entries in the database to the log. Don't do this by default! icase Make the password verification to be case insensitive (ie when working with registration numbers and such). Only works with plaintext password storage. try_first_pass Use the authentication token previously obtained by another module that did the conversation with the application. If this token can not be obtained then the module will try to converse. This option can be used for stacking different modules that need to deal with the authentication tokens. use_first_pass Use the authentication token previously obtained by another module that did the conversation with the application. If this token can not be obtained then the module will fail. This option can be used for stacking different modules that need to deal with the authentication tokens. unknown_ok Do not return error when checking for a user that is not in the database. This can be used to stack more than one pam_userdb module that will check a username/password pair in more than a database. key_only The username and password are concatenated together in the database hash as 'username-password' with a random value. if the concatenation of the username and password with a dash in the middle returns any result, the user is valid. this is useful in cases where the username may not be unique but the username and password pair are. 6.38.3. MODULE TYPES PROVIDED The auth and account module types are provided. 6.38.4. RETURN VALUES PAM_AUTH_ERR Authentication failure. PAM_AUTHTOK_RECOVERY_ERR Authentication information cannot be recovered. PAM_BUF_ERR Memory buffer error. PAM_CONV_ERR Conversation failure. PAM_SERVICE_ERR Error in service module. PAM_SUCCESS Success. PAM_USER_UNKNOWN User not known to the underlying authentication module. 6.38.5. EXAMPLES auth sufficient pam_userdb.so icase db=/etc/dbtest 6.38.6. AUTHOR pam_userdb was written by Cristian Gafton >gafton@redhat.com<. 6.39. pam_warn - logs all PAM items pam_warn.so 6.39.1. DESCRIPTION pam_warn is a PAM module that logs the service, terminal, user, remote user and remote host to syslog(3). The items are not probed for, but instead obtained from the standard PAM items. The module always returns PAM_IGNORE, indicating that it does not want to affect the authentication process. 6.39.2. OPTIONS This module does not recognise any options. 6.39.3. MODULE TYPES PROVIDED The auth, account, password and session module types are provided. 6.39.4. RETURN VALUES PAM_IGNORE This module always returns PAM_IGNORE. 6.39.5. EXAMPLES #%PAM-1.0 # # If we don't have config entries for a service, the # OTHER entries are used. To be secure, warn and deny # access to everything. other auth required pam_warn.so other auth required pam_deny.so other account required pam_warn.so other account required pam_deny.so other password required pam_warn.so other password required pam_deny.so other session required pam_warn.so other session required pam_deny.so 6.39.6. AUTHOR pam_warn was written by Andrew G. Morgan . 6.40. pam_wheel - only permit root access to members of group wheel pam_wheel.so [ debug ] [ deny ] [ group=name ] [ root_only ] [ trust ] [ use_uid ] 6.40.1. DESCRIPTION The pam_wheel PAM module is used to enforce the so-called wheel group. By default it permits root access to the system if the applicant user is a member of the wheel group. If no group with this name exist, the module is using the group with the group-ID 0. 6.40.2. OPTIONS debug Print debug information. deny Reverse the sense of the auth operation: if the user is trying to get UID 0 access and is a member of the wheel group (or the group of the group option), deny access. Conversely, if the user is not in the group, return PAM_IGNORE (unless trust was also specified, in which case we return PAM_SUCCESS). group=name Instead of checking the wheel or GID 0 groups, use the name group to perform the authentication. root_only The check for wheel membership is done only. trust The pam_wheel module will return PAM_SUCCESS instead of PAM_IGNORE if the user is a member of the wheel group (thus with a little play stacking the modules the wheel members may be able to su to root without being prompted for a passwd). use_uid The check for wheel membership will be done against the current uid instead of the original one (useful when jumping with su from one account to another for example). 6.40.3. MODULE TYPES PROVIDED The auth and account module types are provided. 6.40.4. RETURN VALUES PAM_AUTH_ERR Authentication failure. PAM_BUF_ERR Memory buffer error. PAM_IGNORE The return value should be ignored by PAM dispatch. PAM_PERM_DENY Permission denied. PAM_SERVICE_ERR Cannot determine the user name. PAM_SUCCESS Success. PAM_USER_UNKNOWN User not known. 6.40.5. EXAMPLES The root account gains access by default (rootok), only wheel members can become root (wheel) but Unix authenticate non-root applicants. su auth sufficient pam_rootok.so su auth required pam_wheel.so su auth required pam_unix.so 6.40.6. AUTHOR pam_wheel was written by Cristian Gafton . 6.41. pam_xauth - forward xauth keys between users pam_xauth.so [ debug ] [ xauthpath=/path/to/xauth ] [ systemuser=UID ] [ targetuser=UID ] 6.41.1. DESCRIPTION The pam_xauth PAM module is designed to forward xauth keys (sometimes referred to as "cookies") between users. Without pam_xauth, when xauth is enabled and a user uses the su(1) command to assume another user's privileges, that user is no longer able to access the original user's X display because the new user does not have the key needed to access the display. pam_xauth solves the problem by forwarding the key from the user running su (the source user) to the user whose identity the source user is assuming (the target user) when the session is created, and destroying the key when the session is torn down. This means, for example, that when you run su(1) from an xterm session, you will be able to run X programs without explicitly dealing with the xauth(1) xauth command or ~/.Xauthority files. pam_xauth will only forward keys if xauth can list a key connected to the $DISPLAY environment variable. Primitive access control is provided by ~/.xauth/export in the invoking user's home directory and ~/.xauth/import in the target user's home directory. If a user has a ~/.xauth/import file, the user will only receive cookies from users listed in the file. If there is no ~/.xauth/import file, the user will accept cookies from any other user. If a user has a .xauth/export file, the user will only forward cookies to users listed in the file. If there is no ~/.xauth/export file, and the invoking user is not root, the user will forward cookies to any other user. If there is no ~/.xauth/export file, and the invoking user is root, the user will not forward cookies to other users. Both the import and export files support wildcards (such as *). Both the import and export files can be empty, signifying that no users are allowed. 6.41.2. OPTIONS debug Print debug information. xauthpath=/path/to/xauth Specify the path the xauth program (it is expected in /usr/X11R6/bin/xauth, /usr/bin/xauth, or /usr/bin/X11/xauth by default). systemuser=UID Specify the highest UID which will be assumed to belong to a "system" user. pam_xauth will refuse to forward credentials to users with UID less than or equal to this number, except for root and the "targetuser", if specified. targetuser=UID Specify a single target UID which is exempt from the systemuser check. 6.41.3. MODULE TYPES PROVIDED Only the session type is provided. 6.41.4. RETURN VALUES PAM_BUF_ERR Memory buffer error. PAM_PERM_DENIED Permission denied by import/export file. PAM_SESSION_ERR Cannot determine user name, UID or access users home directory. PAM_SUCCESS Success. PAM_USER_UNKNOWN User not known. 6.41.5. EXAMPLES Add the following line to /etc/pam.d/su to forward xauth keys between users when calling su: session optional pam_xauth.so 6.41.6. AUTHOR pam_xauth was written by Nalin Dahyabhai , based on original version by Michael K. Johnson . Chapter 7. See also * The Linux-PAM Application Writers' Guide. * The Linux-PAM Module Writers' Guide. * The V. Samar and R. Schemers (SunSoft), ``UNIFIED LOGIN WITH PLUGGABLE AUTHENTICATION MODULES'', Open Software Foundation Request For Comments 86.0, October 1995. Chapter 8. Author/acknowledgments This document was written by Andrew G. Morgan (morgan@kernel.org) with many contributions from Chris Adams, Peter Allgeyer, Tim Baverstock, Tim Berger, Craig S. Bell, Derrick J. Brashear, Ben Buxton, Seth Chaiklin, Oliver Crow, Chris Dent, Marc Ewing, Cristian Gafton, Emmanuel Galanos, Brad M. Garcia, Eric Hester, Michel D'Hooge, Roger Hu, Eric Jacksch, Michael K. Johnson, David Kinchlea, Olaf Kirch, Marcin Korzonek, Thorsten Kukuk, Stephen Langasek, Nicolai Langfeldt, Elliot Lee, Luke Kenneth Casson Leighton, Al Longyear, Ingo Luetkebohle, Marek Michalkiewicz, Robert Milkowski, Aleph One, Martin Pool, Sean Reifschneider, Jan Rekorajski, Erik Troan, Theodore Ts'o, Jeff Uphoff, Myles Uyema, Savochkin Andrey Vladimirovich, Ronald Wahl, David Wood, John Wilmes, Joseph S. D. Yao and Alex O. Yuriev. Thanks are also due to Sun Microsystems, especially to Vipin Samar and Charlie Lai for their advice. At an early stage in the development of Linux-PAM, Sun graciously made the documentation for their implementation of PAM available. This act greatly accelerated the development of Linux-PAM. Chapter 9. Copyright information for this document Copyright (c) 2006 Thorsten Kukuk Copyright (c) 1996-2002 Andrew G. Morgan Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, and the entire permission notice in its entirety, including the disclaimer of warranties. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. The name of the author may not be used to endorse or promote products derived from this software without specific prior written permission. Alternatively, this product may be distributed under the terms of the GNU General Public License (GPL), in which case the provisions of the GNU GPL are required instead of the above restrictions. (This clause is necessary due to a potential bad interaction between the GNU GPL and the restrictions contained in a BSD-style copyright.) THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH