BSD_AUTH(3) BSD Programmer's Manual BSD_AUTH(3)
auth_open, auth_call, auth_challenge, auth_check_change, auth_check_expire, auth_clean, auth_close, auth_clrenv, auth_clroption, auth_clroptions, auth_getitem, auth_getpwd, auth_getstate, auth_getvalue, auth_set_va_list, auth_setdata, auth_setenv, auth_setitem, auth_setoption, auth_setpwd, auth_setstate - interface to the BSD Authen- tication system
#include <login_cap.h> #include <bsd_auth.h> auth_session_t * auth_open(void); int auth_close(auth_session_t *as); int auth_call(auth_session_t *as, char *path, ...); char * auth_challenge(auth_session_t *as); quad_t auth_check_change(auth_session_t *as); quad_t auth_check_expire(auth_session_t *as); void auth_clean(auth_session_t *as); void auth_clrenv(auth_session_t *as); void auth_clroption(auth_session_t * as, char *name); void auth_clroptions(auth_session_t *as); char * auth_getitem(auth_session_t *as, auth_item_t item); struct passwd * auth_getpwd(auth_session_t *as); int auth_getstate(auth_session_t *as); char * auth_getvalue(auth_session_t *as, char *what); void auth_set_va_list(auth_session_t *as, va_list ap); int auth_setdata(auth_session_t *as, void *ptr, size_t len); void auth_setenv(auth_session_t *as); int auth_setitem(auth_session_t *as, auth_item_t item, char *value); int auth_setoption(auth_session_t *as, char *name, char *value); int auth_setpwd(auth_session_t *as, struct passwd *pwd); void auth_setstate(auth_session_t *as, int state);
These functions provide the lower level interface to the BSD Authentica- tion system. They all operate on a BSD Authentication session pointer, as, which is returned by auth_open(). The session pointer must be passed to all other BSD Authentication functions called. The auth_open() func- tion returns NULL if it was unable to allocate memory for the session. The session is terminated by the auth_close() function, which also sets any environment variables requested by the login script (assuming the user was not rejected) or removes files created by the login script if the authentication was not successful. It returns the final state of the authentication request. A return value of 0 implies the user was not au- thenticated. A non-zero return value is made up of 1 or more of the fol- lowing values ORed together: AUTH_OKAY The user was authenticated. AUTH_ROOTOKAY The user was authenticated with a root instance. AUTH_SECURE The user was authenticated via a mechanism which is not subject to eavesdropping attacks (such as provided by token cards). The full state of the session is returned by the auth_getstate() func- tion. In addition to the values above, it also may contain the bits: AUTH_SILENT Do not report an error, the user was not authenticated for access and was not expected to be. This is returned by login scripts that allow changing of the user's pass- word, for instance. This value is stripped off for nor- mal returns. AUTH_CHALLENGE The user was not authenticated for access and a chal- lenge was issued. The challenge should be displayed to the user, a response retrieved, and the result verified. This value is stripped off for normal returns. AUTH_EXPIRED The user's account has expired. AUTH_PWEXPIRED The user's password has expired and needs to be changed. A session may be cleaned by calling auth_clean(). This function removes any files created by a login script in this session and clears all state associated with this session, with the exception of the option settings. It is not necessary to call auth_clean() if auth_close() is called. The remaining functions are described in alphabetical order. The fundamental function for doing BSD Authentication is auth_call(). In addition to the pointer to the BSD Authentication session, it takes the following parameters: path The full path name of the login script to run. The call will fail if path does not pass the requirements of the secure_path(3) function. ... The remaining arguments, which should be of type char * and ter- minated with a NULL, are passed to the login script at the end of the command line. The auth_call() function, after verifying the path, creates a bi- directional pipe (socketpair) which is located on file descriptor 3 for the child (the login script). This is known as the "back channel". The actual command line passed to the child is made up of 3 parts. The param- eters passed to auth_call() following path have appended to them any ar- guments specified by the auth_set_va_list() function. These are typically the variable arguments passed to the function that calls auth_call(). Any option values set by the auth_setoption() function are inserted between the first argument (the command name) and the second argument with a preceding -v flag. The name and value are separated by an '=': -v name=value Once the login script has been spawned, any data specified by the auth_setdata() is written to the back channel. Multiple blocks of data may have been specified and they will be sent in the same order they were specified. As the data is sent, the storage for the data is zeroed out and then freed (the data is zeroed out since it may contain sensitive in- formation, such as a password). Once any data is written out, auth_call() reads up to 8192 bytes of data from the back channel. The state of the session is determined from this data (see login.conf(5) for details). If the login script exits with a 0 and does not specify any return state on the back channel, the state prior to the call to auth_call() is retained. The back channel data may also contain a file descriptor passed back from the login script. If this is the case, the login script will first send back the string "fd" to indicate that a file descriptor will be the next data item. The file descriptor will be passed back to the next invocation of the login script with a number specified by the -v fd option. This is used to implement stateful challenge/response schemes that require a per- sistent connection during the challenge and response. The copy of the descriptor in the parent process is closed when the child is running to prevent deadlock when file locking is used. The descriptor is also closed by a call to auth_close() or auth_clean(). The data read from the back channel is also used by the auth_getvalue() and auth_close() functions. Subsequent calls to auth_call() will cause this data to be lost and overwritten with the new data read from the new call. The environment passed to the login script by auth_call() only contains two values: PATH and SHELL. The PATH is set to the default path (/bin and /usr/bin) while the SHELL is set to the default system shell (/bin/sh). The auth_challenge() function queries the login script defined by the current style for a challenge for the user specified by name. (See below for the setting of the style and name). It internally uses the auth_call() function. The generated challenge is returned. NULL is re- turned on error or if no challenge was generated. The challenge can also be extracted by the auth_getchallenge() function, which simply returns the last challenge generated for this session. The auth_check_change() and auth_check_expire() functions check the pass- word expiration (change) and account expiration times. They return 0 if no change or expiration time is set for the account. They return a nega- tive value of how many seconds have passed since the password or account expired. In this case the state of the session is marked with either AUTH_PWEXPIRED or AUTH_EXPIRED as well as clearing any bits which would indicate the authentication was successful. If the password or account has not expired, they return the number of seconds left until the account does expire. The return value of -1 can either indicate the password or account just expired or that no password entry was set for the current session. The auth_clrenv() function clears any requests set by a login script for environment variables to be set. The auth_clroption() function clears the previously set option name. The auth_clroptions() function clears all previously set options. The auth_getitem() function returns the value of item. The item may be one of: AUTH_CHALLENGE The latest challenge, if any, set for the session. AUTH_CLASS The class of the user, as defined by the /etc/login.conf file. This value is not directly used by BSD Authentication, rather, it is passed to the lo- gin scripts for their possible use. AUTH_INTERACTIVE If set to any value, then the session is tagged as in- teractive. If not set, the session is not interactive. When the value is requested it is always either NULL or "True". The auth subroutines may choose to provide ad- ditional information to standard output or standard er- ror when the session is interactive. There is no func- tional change in the operation of the subroutines. AUTH_NAME The name of the user being authenticated. The name should include the instance, if any, that is being re- quested. AUTH_SERVICE The service requesting the authentication. Initially it is set to the default service which provides the tradi- tional interactive service. AUTH_STYLE The style of authentication being performed, as defined by the /etc/login.conf file. The style determines which login script should actually be used. The value returned points to private memory and should not be freed by the caller. The auth_getvalue() function returns the value, if any, associated with the specified internal variable what. These variables are set by login scripts. When a new login script is run (by the auth_call() function) the values from the previous login script are lost. (See login.conf(5) for details on internal variables.) The auth_set_va_list() function establishes a variable argument list to be used by the auth_call() function. It is intended to be used by func- tions which need to call auth_call() but take a variable number of argu- ments themselves. Since the arguments are not copied, the call to auth_call() must be placed within the scope of ap. The auth_call() func- tion will call va_end(3) on ap. The auth_setdata() function makes a copy of len bytes of data pointed to by ptr for use by auth_call(). The data will be passed on the back chan- nel to the next login script called. The auth_setenv() function adds/deletes any environment variables re- quested by the login script to the current environment. The auth_setitem() function assigns value to the specified item. The items are described above with the auth_getitem() function. In addition, if value is NULL, the item is cleared. If value is NULL and item is AUTH_ALL then all items are cleared. The auth_setoption() function requests that the option name be set with the value of value when a script is executed by auth_call(). The actual arguments to the script will be placed at the beginning of the argument vector. For each option two arguments will be issued: -v name=value. The function auth_setpwd() establishes the password file entry for the authentication session. If the name has already been set by auth_setitem() then the pwd argument may be NULL, else it must be the password entry to use. The function auth_getpwd() retrieves the saved password file entry for the authentication session. If no entry has been saved (either explicitly via auth_setpwd() or implicitly via auth_check_expire() or auth_check_change()) it returns NULL. Note that the memory containing the password file entry is freed by a call to auth_close() or auth_clean(). The function auth_setstate() sets the sessions state to state. Typically this is either AUTH_OKAY or 0.
authenticate(3), login_cap(3), pw_dup(3), login.conf(5)
The auth_check_change() and auth_check_expire() functions call getpwnam() or getpwuid(), overwriting the static storage used by the getpwent(3) family of routines. The calling program must either make a local copy of the passwd struct pointer via the pw_dup(3) function or use the auth_setpwd(3) function to copy the passwd struct into as. MirOS BSD #10-current March 20, 1997 4
Generated on 2015-07-19 22:36:15 by $MirOS: src/scripts/roff2htm,v 1.80 2015/01/02 13:54:19 tg Exp $
These manual pages and other documentation are copyrighted by their respective writers;
their source is available at our CVSweb,
AnonCVS, and other mirrors. The rest is Copyright © 2002–2015 The MirOS Project, Germany.
This product includes material provided by Thorsten Glaser.
This manual page’s HTML representation is supposed to be valid XHTML/1.1; if not, please send a bug report – diffs preferred.