| @node Users and Groups, System Management, Name Service Switch, Top |
| @c %MENU% How users are identified and classified |
| @chapter Users and Groups |
| |
| Every user who can log in on the system is identified by a unique number |
| called the @dfn{user ID}. Each process has an effective user ID which |
| says which user's access permissions it has. |
| |
| Users are classified into @dfn{groups} for access control purposes. Each |
| process has one or more @dfn{group ID values} which say which groups the |
| process can use for access to files. |
| |
| The effective user and group IDs of a process collectively form its |
| @dfn{persona}. This determines which files the process can access. |
| Normally, a process inherits its persona from the parent process, but |
| under special circumstances a process can change its persona and thus |
| change its access permissions. |
| |
| Each file in the system also has a user ID and a group ID. Access |
| control works by comparing the user and group IDs of the file with those |
| of the running process. |
| |
| The system keeps a database of all the registered users, and another |
| database of all the defined groups. There are library functions you |
| can use to examine these databases. |
| |
| @menu |
| * User and Group IDs:: Each user has a unique numeric ID; |
| likewise for groups. |
| * Process Persona:: The user IDs and group IDs of a process. |
| * Why Change Persona:: Why a program might need to change |
| its user and/or group IDs. |
| * How Change Persona:: Changing the user and group IDs. |
| * Reading Persona:: How to examine the user and group IDs. |
| |
| * Setting User ID:: Functions for setting the user ID. |
| * Setting Groups:: Functions for setting the group IDs. |
| |
| * Enable/Disable Setuid:: Turning setuid access on and off. |
| * Setuid Program Example:: The pertinent parts of one sample program. |
| * Tips for Setuid:: How to avoid granting unlimited access. |
| |
| * Who Logged In:: Getting the name of the user who logged in, |
| or of the real user ID of the current process. |
| |
| * User Accounting Database:: Keeping information about users and various |
| actions in databases. |
| |
| * User Database:: Functions and data structures for |
| accessing the user database. |
| * Group Database:: Functions and data structures for |
| accessing the group database. |
| * Database Example:: Example program showing the use of database |
| inquiry functions. |
| * Netgroup Database:: Functions for accessing the netgroup database. |
| @end menu |
| |
| @node User and Group IDs |
| @section User and Group IDs |
| |
| @cindex login name |
| @cindex user name |
| @cindex user ID |
| Each user account on a computer system is identified by a @dfn{user |
| name} (or @dfn{login name}) and @dfn{user ID}. Normally, each user name |
| has a unique user ID, but it is possible for several login names to have |
| the same user ID. The user names and corresponding user IDs are stored |
| in a data base which you can access as described in @ref{User Database}. |
| |
| @cindex group name |
| @cindex group ID |
| Users are classified in @dfn{groups}. Each user name belongs to one |
| @dfn{default group} and may also belong to any number of |
| @dfn{supplementary groups}. Users who are members of the same group can |
| share resources (such as files) that are not accessible to users who are |
| not a member of that group. Each group has a @dfn{group name} and |
| @dfn{group ID}. @xref{Group Database}, for how to find information |
| about a group ID or group name. |
| |
| @node Process Persona |
| @section The Persona of a Process |
| @cindex persona |
| @cindex effective user ID |
| @cindex effective group ID |
| @cindex supplementary group IDs |
| |
| @c When Hurd is more widely used, explain multiple effective user IDs |
| @c here. -zw |
| At any time, each process has an @dfn{effective user ID}, a @dfn{effective |
| group ID}, and a set of @dfn{supplementary group IDs}. These IDs |
| determine the privileges of the process. They are collectively |
| called the @dfn{persona} of the process, because they determine ``who it |
| is'' for purposes of access control. |
| |
| Your login shell starts out with a persona which consists of your user |
| ID, your default group ID, and your supplementary group IDs (if you are |
| in more than one group). In normal circumstances, all your other processes |
| inherit these values. |
| |
| @cindex real user ID |
| @cindex real group ID |
| A process also has a @dfn{real user ID} which identifies the user who |
| created the process, and a @dfn{real group ID} which identifies that |
| user's default group. These values do not play a role in access |
| control, so we do not consider them part of the persona. But they are |
| also important. |
| |
| Both the real and effective user ID can be changed during the lifetime |
| of a process. @xref{Why Change Persona}. |
| |
| For details on how a process's effective user ID and group IDs affect |
| its permission to access files, see @ref{Access Permission}. |
| |
| The effective user ID of a process also controls permissions for sending |
| signals using the @code{kill} function. @xref{Signaling Another |
| Process}. |
| |
| Finally, there are many operations which can only be performed by a |
| process whose effective user ID is zero. A process with this user ID is |
| a @dfn{privileged process}. Commonly the user name @code{root} is |
| associated with user ID 0, but there may be other user names with this |
| ID. |
| @c !!! should mention POSIX capabilities here. |
| |
| @node Why Change Persona |
| @section Why Change the Persona of a Process? |
| |
| The most obvious situation where it is necessary for a process to change |
| its user and/or group IDs is the @code{login} program. When |
| @code{login} starts running, its user ID is @code{root}. Its job is to |
| start a shell whose user and group IDs are those of the user who is |
| logging in. (To accomplish this fully, @code{login} must set the real |
| user and group IDs as well as its persona. But this is a special case.) |
| |
| The more common case of changing persona is when an ordinary user |
| program needs access to a resource that wouldn't ordinarily be |
| accessible to the user actually running it. |
| |
| For example, you may have a file that is controlled by your program but |
| that shouldn't be read or modified directly by other users, either |
| because it implements some kind of locking protocol, or because you want |
| to preserve the integrity or privacy of the information it contains. |
| This kind of restricted access can be implemented by having the program |
| change its effective user or group ID to match that of the resource. |
| |
| Thus, imagine a game program that saves scores in a file. The game |
| program itself needs to be able to update this file no matter who is |
| running it, but if users can write the file without going through the |
| game, they can give themselves any scores they like. Some people |
| consider this undesirable, or even reprehensible. It can be prevented |
| by creating a new user ID and login name (say, @code{games}) to own the |
| scores file, and make the file writable only by this user. Then, when |
| the game program wants to update this file, it can change its effective |
| user ID to be that for @code{games}. In effect, the program must |
| adopt the persona of @code{games} so it can write the scores file. |
| |
| @node How Change Persona |
| @section How an Application Can Change Persona |
| @cindex @code{setuid} programs |
| @cindex saved set-user-ID |
| @cindex saved set-group-ID |
| @cindex @code{_POSIX_SAVED_IDS} |
| |
| The ability to change the persona of a process can be a source of |
| unintentional privacy violations, or even intentional abuse. Because of |
| the potential for problems, changing persona is restricted to special |
| circumstances. |
| |
| You can't arbitrarily set your user ID or group ID to anything you want; |
| only privileged processes can do that. Instead, the normal way for a |
| program to change its persona is that it has been set up in advance to |
| change to a particular user or group. This is the function of the setuid |
| and setgid bits of a file's access mode. @xref{Permission Bits}. |
| |
| When the setuid bit of an executable file is on, executing that file |
| gives the process a third user ID: the @dfn{file user ID}. This ID is |
| set to the owner ID of the file. The system then changes the effective |
| user ID to the file user ID. The real user ID remains as it was. |
| Likewise, if the setgid bit is on, the process is given a @dfn{file |
| group ID} equal to the group ID of the file, and its effective group ID |
| is changed to the file group ID. |
| |
| If a process has a file ID (user or group), then it can at any time |
| change its effective ID to its real ID and back to its file ID. |
| Programs use this feature to relinquish their special privileges except |
| when they actually need them. This makes it less likely that they can |
| be tricked into doing something inappropriate with their privileges. |
| |
| @strong{Portability Note:} Older systems do not have file IDs. |
| To determine if a system has this feature, you can test the compiler |
| define @code{_POSIX_SAVED_IDS}. (In the POSIX standard, file IDs are |
| known as saved IDs.) |
| |
| @xref{File Attributes}, for a more general discussion of file modes and |
| accessibility. |
| |
| @node Reading Persona |
| @section Reading the Persona of a Process |
| |
| Here are detailed descriptions of the functions for reading the user and |
| group IDs of a process, both real and effective. To use these |
| facilities, you must include the header files @file{sys/types.h} and |
| @file{unistd.h}. |
| @pindex unistd.h |
| @pindex sys/types.h |
| |
| @comment sys/types.h |
| @comment POSIX.1 |
| @deftp {Data Type} uid_t |
| This is an integer data type used to represent user IDs. In the GNU |
| library, this is an alias for @code{unsigned int}. |
| @end deftp |
| |
| @comment sys/types.h |
| @comment POSIX.1 |
| @deftp {Data Type} gid_t |
| This is an integer data type used to represent group IDs. In the GNU |
| library, this is an alias for @code{unsigned int}. |
| @end deftp |
| |
| @comment unistd.h |
| @comment POSIX.1 |
| @deftypefun uid_t getuid (void) |
| The @code{getuid} function returns the real user ID of the process. |
| @end deftypefun |
| |
| @comment unistd.h |
| @comment POSIX.1 |
| @deftypefun gid_t getgid (void) |
| The @code{getgid} function returns the real group ID of the process. |
| @end deftypefun |
| |
| @comment unistd.h |
| @comment POSIX.1 |
| @deftypefun uid_t geteuid (void) |
| The @code{geteuid} function returns the effective user ID of the process. |
| @end deftypefun |
| |
| @comment unistd.h |
| @comment POSIX.1 |
| @deftypefun gid_t getegid (void) |
| The @code{getegid} function returns the effective group ID of the process. |
| @end deftypefun |
| |
| @comment unistd.h |
| @comment POSIX.1 |
| @deftypefun int getgroups (int @var{count}, gid_t *@var{groups}) |
| The @code{getgroups} function is used to inquire about the supplementary |
| group IDs of the process. Up to @var{count} of these group IDs are |
| stored in the array @var{groups}; the return value from the function is |
| the number of group IDs actually stored. If @var{count} is smaller than |
| the total number of supplementary group IDs, then @code{getgroups} |
| returns a value of @code{-1} and @code{errno} is set to @code{EINVAL}. |
| |
| If @var{count} is zero, then @code{getgroups} just returns the total |
| number of supplementary group IDs. On systems that do not support |
| supplementary groups, this will always be zero. |
| |
| Here's how to use @code{getgroups} to read all the supplementary group |
| IDs: |
| |
| @smallexample |
| @group |
| gid_t * |
| read_all_groups (void) |
| @{ |
| int ngroups = getgroups (0, NULL); |
| gid_t *groups |
| = (gid_t *) xmalloc (ngroups * sizeof (gid_t)); |
| int val = getgroups (ngroups, groups); |
| if (val < 0) |
| @{ |
| free (groups); |
| return NULL; |
| @} |
| return groups; |
| @} |
| @end group |
| @end smallexample |
| @end deftypefun |
| |
| @node Setting User ID |
| @section Setting the User ID |
| |
| This section describes the functions for altering the user ID (real |
| and/or effective) of a process. To use these facilities, you must |
| include the header files @file{sys/types.h} and @file{unistd.h}. |
| @pindex unistd.h |
| @pindex sys/types.h |
| |
| @comment unistd.h |
| @comment POSIX.1 |
| @deftypefun int seteuid (uid_t @var{neweuid}) |
| This function sets the effective user ID of a process to @var{newuid}, |
| provided that the process is allowed to change its effective user ID. A |
| privileged process (effective user ID zero) can change its effective |
| user ID to any legal value. An unprivileged process with a file user ID |
| can change its effective user ID to its real user ID or to its file user |
| ID. Otherwise, a process may not change its effective user ID at all. |
| |
| The @code{seteuid} function returns a value of @code{0} to indicate |
| successful completion, and a value of @code{-1} to indicate an error. |
| The following @code{errno} error conditions are defined for this |
| function: |
| |
| @table @code |
| @item EINVAL |
| The value of the @var{newuid} argument is invalid. |
| |
| @item EPERM |
| The process may not change to the specified ID. |
| @end table |
| |
| Older systems (those without the @code{_POSIX_SAVED_IDS} feature) do not |
| have this function. |
| @end deftypefun |
| |
| @comment unistd.h |
| @comment POSIX.1 |
| @deftypefun int setuid (uid_t @var{newuid}) |
| If the calling process is privileged, this function sets both the real |
| and effective user ID of the process to @var{newuid}. It also deletes |
| the file user ID of the process, if any. @var{newuid} may be any |
| legal value. (Once this has been done, there is no way to recover the |
| old effective user ID.) |
| |
| If the process is not privileged, and the system supports the |
| @code{_POSIX_SAVED_IDS} feature, then this function behaves like |
| @code{seteuid}. |
| |
| The return values and error conditions are the same as for @code{seteuid}. |
| @end deftypefun |
| |
| @comment unistd.h |
| @comment BSD |
| @deftypefun int setreuid (uid_t @var{ruid}, uid_t @var{euid}) |
| This function sets the real user ID of the process to @var{ruid} and the |
| effective user ID to @var{euid}. If @var{ruid} is @code{-1}, it means |
| not to change the real user ID; likewise if @var{euid} is @code{-1}, it |
| means not to change the effective user ID. |
| |
| The @code{setreuid} function exists for compatibility with 4.3 BSD Unix, |
| which does not support file IDs. You can use this function to swap the |
| effective and real user IDs of the process. (Privileged processes are |
| not limited to this particular usage.) If file IDs are supported, you |
| should use that feature instead of this function. @xref{Enable/Disable |
| Setuid}. |
| |
| The return value is @code{0} on success and @code{-1} on failure. |
| The following @code{errno} error conditions are defined for this |
| function: |
| |
| @table @code |
| @item EPERM |
| The process does not have the appropriate privileges; you do not |
| have permission to change to the specified ID. |
| @end table |
| @end deftypefun |
| |
| @node Setting Groups |
| @section Setting the Group IDs |
| |
| This section describes the functions for altering the group IDs (real |
| and effective) of a process. To use these facilities, you must include |
| the header files @file{sys/types.h} and @file{unistd.h}. |
| @pindex unistd.h |
| @pindex sys/types.h |
| |
| @comment unistd.h |
| @comment POSIX.1 |
| @deftypefun int setegid (gid_t @var{newgid}) |
| This function sets the effective group ID of the process to |
| @var{newgid}, provided that the process is allowed to change its group |
| ID. Just as with @code{seteuid}, if the process is privileged it may |
| change its effective group ID to any value; if it isn't, but it has a |
| file group ID, then it may change to its real group ID or file group ID; |
| otherwise it may not change its effective group ID. |
| |
| Note that a process is only privileged if its effective @emph{user} ID |
| is zero. The effective group ID only affects access permissions. |
| |
| The return values and error conditions for @code{setegid} are the same |
| as those for @code{seteuid}. |
| |
| This function is only present if @code{_POSIX_SAVED_IDS} is defined. |
| @end deftypefun |
| |
| @comment unistd.h |
| @comment POSIX.1 |
| @deftypefun int setgid (gid_t @var{newgid}) |
| This function sets both the real and effective group ID of the process |
| to @var{newgid}, provided that the process is privileged. It also |
| deletes the file group ID, if any. |
| |
| If the process is not privileged, then @code{setgid} behaves like |
| @code{setegid}. |
| |
| The return values and error conditions for @code{setgid} are the same |
| as those for @code{seteuid}. |
| @end deftypefun |
| |
| @comment unistd.h |
| @comment BSD |
| @deftypefun int setregid (gid_t @var{rgid}, gid_t @var{egid}) |
| This function sets the real group ID of the process to @var{rgid} and |
| the effective group ID to @var{egid}. If @var{rgid} is @code{-1}, it |
| means not to change the real group ID; likewise if @var{egid} is |
| @code{-1}, it means not to change the effective group ID. |
| |
| The @code{setregid} function is provided for compatibility with 4.3 BSD |
| Unix, which does not support file IDs. You can use this function to |
| swap the effective and real group IDs of the process. (Privileged |
| processes are not limited to this usage.) If file IDs are supported, |
| you should use that feature instead of using this function. |
| @xref{Enable/Disable Setuid}. |
| |
| The return values and error conditions for @code{setregid} are the same |
| as those for @code{setreuid}. |
| @end deftypefun |
| |
| @code{setuid} and @code{setgid} behave differently depending on whether |
| the effective user ID at the time is zero. If it is not zero, they |
| behave like @code{seteuid} and @code{setegid}. If it is, they change |
| both effective and real IDs and delete the file ID. To avoid confusion, |
| we recommend you always use @code{seteuid} and @code{setegid} except |
| when you know the effective user ID is zero and your intent is to change |
| the persona permanently. This case is rare---most of the programs that |
| need it, such as @code{login} and @code{su}, have already been written. |
| |
| Note that if your program is setuid to some user other than @code{root}, |
| there is no way to drop privileges permanently. |
| |
| The system also lets privileged processes change their supplementary |
| group IDs. To use @code{setgroups} or @code{initgroups}, your programs |
| should include the header file @file{grp.h}. |
| @pindex grp.h |
| |
| @comment grp.h |
| @comment BSD |
| @deftypefun int setgroups (size_t @var{count}, gid_t *@var{groups}) |
| This function sets the process's supplementary group IDs. It can only |
| be called from privileged processes. The @var{count} argument specifies |
| the number of group IDs in the array @var{groups}. |
| |
| This function returns @code{0} if successful and @code{-1} on error. |
| The following @code{errno} error conditions are defined for this |
| function: |
| |
| @table @code |
| @item EPERM |
| The calling process is not privileged. |
| @end table |
| @end deftypefun |
| |
| @comment grp.h |
| @comment BSD |
| @deftypefun int initgroups (const char *@var{user}, gid_t @var{group}) |
| The @code{initgroups} function sets the process's supplementary group |
| IDs to be the normal default for the user name @var{user}. The group |
| @var{group} is automatically included. |
| |
| This function works by scanning the group database for all the groups |
| @var{user} belongs to. It then calls @code{setgroups} with the list it |
| has constructed. |
| |
| The return values and error conditions are the same as for |
| @code{setgroups}. |
| @end deftypefun |
| |
| If you are interested in the groups a particular user belongs to, but do |
| not want to change the process's supplementary group IDs, you can use |
| @code{getgrouplist}. To use @code{getgrouplist}, your programs should |
| include the header file @file{grp.h}. |
| @pindex grp.h |
| |
| @comment grp.h |
| @comment BSD |
| @deftypefun int getgrouplist (const char *@var{user}, gid_t @var{group}, gid_t *@var{groups}, int *@var{ngroups}) |
| The @code{getgrouplist} function scans the group database for all the |
| groups @var{user} belongs to. Up to *@var{ngroups} group IDs |
| corresponding to these groups are stored in the array @var{groups}; the |
| return value from the function is the number of group IDs actually |
| stored. If *@var{ngroups} is smaller than the total number of groups |
| found, then @code{getgrouplist} returns a value of @code{-1} and stores |
| the actual number of groups in *@var{ngroups}. The group @var{group} is |
| automatically included in the list of groups returned by |
| @code{getgrouplist}. |
| |
| Here's how to use @code{getgrouplist} to read all supplementary groups |
| for @var{user}: |
| |
| @smallexample |
| @group |
| gid_t * |
| supplementary_groups (char *user) |
| @{ |
| int ngroups = 16; |
| gid_t *groups |
| = (gid_t *) xmalloc (ngroups * sizeof (gid_t)); |
| struct passwd *pw = getpwnam (user); |
| |
| if (pw == NULL) |
| return NULL; |
| |
| if (getgrouplist (pw->pw_name, pw->pw_gid, groups, &ngroups) < 0) |
| @{ |
| groups = xrealloc (ngroups * sizeof (gid_t)); |
| getgrouplist (pw->pw_name, pw->pw_gid, groups, &ngroups); |
| @} |
| return groups; |
| @} |
| @end group |
| @end smallexample |
| @end deftypefun |
| |
| @node Enable/Disable Setuid |
| @section Enabling and Disabling Setuid Access |
| |
| A typical setuid program does not need its special access all of the |
| time. It's a good idea to turn off this access when it isn't needed, |
| so it can't possibly give unintended access. |
| |
| If the system supports the @code{_POSIX_SAVED_IDS} feature, you can |
| accomplish this with @code{seteuid}. When the game program starts, its |
| real user ID is @code{jdoe}, its effective user ID is @code{games}, and |
| its saved user ID is also @code{games}. The program should record both |
| user ID values once at the beginning, like this: |
| |
| @smallexample |
| user_user_id = getuid (); |
| game_user_id = geteuid (); |
| @end smallexample |
| |
| Then it can turn off game file access with |
| |
| @smallexample |
| seteuid (user_user_id); |
| @end smallexample |
| |
| @noindent |
| and turn it on with |
| |
| @smallexample |
| seteuid (game_user_id); |
| @end smallexample |
| |
| @noindent |
| Throughout this process, the real user ID remains @code{jdoe} and the |
| file user ID remains @code{games}, so the program can always set its |
| effective user ID to either one. |
| |
| On other systems that don't support file user IDs, you can |
| turn setuid access on and off by using @code{setreuid} to swap the real |
| and effective user IDs of the process, as follows: |
| |
| @smallexample |
| setreuid (geteuid (), getuid ()); |
| @end smallexample |
| |
| @noindent |
| This special case is always allowed---it cannot fail. |
| |
| Why does this have the effect of toggling the setuid access? Suppose a |
| game program has just started, and its real user ID is @code{jdoe} while |
| its effective user ID is @code{games}. In this state, the game can |
| write the scores file. If it swaps the two uids, the real becomes |
| @code{games} and the effective becomes @code{jdoe}; now the program has |
| only @code{jdoe} access. Another swap brings @code{games} back to |
| the effective user ID and restores access to the scores file. |
| |
| In order to handle both kinds of systems, test for the saved user ID |
| feature with a preprocessor conditional, like this: |
| |
| @smallexample |
| #ifdef _POSIX_SAVED_IDS |
| seteuid (user_user_id); |
| #else |
| setreuid (geteuid (), getuid ()); |
| #endif |
| @end smallexample |
| |
| @node Setuid Program Example |
| @section Setuid Program Example |
| |
| Here's an example showing how to set up a program that changes its |
| effective user ID. |
| |
| This is part of a game program called @code{caber-toss} that manipulates |
| a file @file{scores} that should be writable only by the game program |
| itself. The program assumes that its executable file will be installed |
| with the setuid bit set and owned by the same user as the @file{scores} |
| file. Typically, a system administrator will set up an account like |
| @code{games} for this purpose. |
| |
| The executable file is given mode @code{4755}, so that doing an |
| @samp{ls -l} on it produces output like: |
| |
| @smallexample |
| -rwsr-xr-x 1 games 184422 Jul 30 15:17 caber-toss |
| @end smallexample |
| |
| @noindent |
| The setuid bit shows up in the file modes as the @samp{s}. |
| |
| The scores file is given mode @code{644}, and doing an @samp{ls -l} on |
| it shows: |
| |
| @smallexample |
| -rw-r--r-- 1 games 0 Jul 31 15:33 scores |
| @end smallexample |
| |
| Here are the parts of the program that show how to set up the changed |
| user ID. This program is conditionalized so that it makes use of the |
| file IDs feature if it is supported, and otherwise uses @code{setreuid} |
| to swap the effective and real user IDs. |
| |
| @smallexample |
| #include <stdio.h> |
| #include <sys/types.h> |
| #include <unistd.h> |
| #include <stdlib.h> |
| |
| |
| /* @r{Remember the effective and real UIDs.} */ |
| |
| static uid_t euid, ruid; |
| |
| |
| /* @r{Restore the effective UID to its original value.} */ |
| |
| void |
| do_setuid (void) |
| @{ |
| int status; |
| |
| #ifdef _POSIX_SAVED_IDS |
| status = seteuid (euid); |
| #else |
| status = setreuid (ruid, euid); |
| #endif |
| if (status < 0) @{ |
| fprintf (stderr, "Couldn't set uid.\n"); |
| exit (status); |
| @} |
| @} |
| |
| |
| @group |
| /* @r{Set the effective UID to the real UID.} */ |
| |
| void |
| undo_setuid (void) |
| @{ |
| int status; |
| |
| #ifdef _POSIX_SAVED_IDS |
| status = seteuid (ruid); |
| #else |
| status = setreuid (euid, ruid); |
| #endif |
| if (status < 0) @{ |
| fprintf (stderr, "Couldn't set uid.\n"); |
| exit (status); |
| @} |
| @} |
| @end group |
| |
| /* @r{Main program.} */ |
| |
| int |
| main (void) |
| @{ |
| /* @r{Remember the real and effective user IDs.} */ |
| ruid = getuid (); |
| euid = geteuid (); |
| undo_setuid (); |
| |
| /* @r{Do the game and record the score.} */ |
| @dots{} |
| @} |
| @end smallexample |
| |
| Notice how the first thing the @code{main} function does is to set the |
| effective user ID back to the real user ID. This is so that any other |
| file accesses that are performed while the user is playing the game use |
| the real user ID for determining permissions. Only when the program |
| needs to open the scores file does it switch back to the file user ID, |
| like this: |
| |
| @smallexample |
| /* @r{Record the score.} */ |
| |
| int |
| record_score (int score) |
| @{ |
| FILE *stream; |
| char *myname; |
| |
| /* @r{Open the scores file.} */ |
| do_setuid (); |
| stream = fopen (SCORES_FILE, "a"); |
| undo_setuid (); |
| |
| @group |
| /* @r{Write the score to the file.} */ |
| if (stream) |
| @{ |
| myname = cuserid (NULL); |
| if (score < 0) |
| fprintf (stream, "%10s: Couldn't lift the caber.\n", myname); |
| else |
| fprintf (stream, "%10s: %d feet.\n", myname, score); |
| fclose (stream); |
| return 0; |
| @} |
| else |
| return -1; |
| @} |
| @end group |
| @end smallexample |
| |
| @node Tips for Setuid |
| @section Tips for Writing Setuid Programs |
| |
| It is easy for setuid programs to give the user access that isn't |
| intended---in fact, if you want to avoid this, you need to be careful. |
| Here are some guidelines for preventing unintended access and |
| minimizing its consequences when it does occur: |
| |
| @itemize @bullet |
| @item |
| Don't have @code{setuid} programs with privileged user IDs such as |
| @code{root} unless it is absolutely necessary. If the resource is |
| specific to your particular program, it's better to define a new, |
| nonprivileged user ID or group ID just to manage that resource. |
| It's better if you can write your program to use a special group than a |
| special user. |
| |
| @item |
| Be cautious about using the @code{exec} functions in combination with |
| changing the effective user ID. Don't let users of your program execute |
| arbitrary programs under a changed user ID. Executing a shell is |
| especially bad news. Less obviously, the @code{execlp} and @code{execvp} |
| functions are a potential risk (since the program they execute depends |
| on the user's @code{PATH} environment variable). |
| |
| If you must @code{exec} another program under a changed ID, specify an |
| absolute file name (@pxref{File Name Resolution}) for the executable, |
| and make sure that the protections on that executable and @emph{all} |
| containing directories are such that ordinary users cannot replace it |
| with some other program. |
| |
| You should also check the arguments passed to the program to make sure |
| they do not have unexpected effects. Likewise, you should examine the |
| environment variables. Decide which arguments and variables are safe, |
| and reject all others. |
| |
| You should never use @code{system} in a privileged program, because it |
| invokes a shell. |
| |
| @item |
| Only use the user ID controlling the resource in the part of the program |
| that actually uses that resource. When you're finished with it, restore |
| the effective user ID back to the actual user's user ID. |
| @xref{Enable/Disable Setuid}. |
| |
| @item |
| If the @code{setuid} part of your program needs to access other files |
| besides the controlled resource, it should verify that the real user |
| would ordinarily have permission to access those files. You can use the |
| @code{access} function (@pxref{Access Permission}) to check this; it |
| uses the real user and group IDs, rather than the effective IDs. |
| @end itemize |
| |
| @node Who Logged In |
| @section Identifying Who Logged In |
| @cindex login name, determining |
| @cindex user ID, determining |
| |
| You can use the functions listed in this section to determine the login |
| name of the user who is running a process, and the name of the user who |
| logged in the current session. See also the function @code{getuid} and |
| friends (@pxref{Reading Persona}). How this information is collected by |
| the system and how to control/add/remove information from the background |
| storage is described in @ref{User Accounting Database}. |
| |
| The @code{getlogin} function is declared in @file{unistd.h}, while |
| @code{cuserid} and @code{L_cuserid} are declared in @file{stdio.h}. |
| @pindex stdio.h |
| @pindex unistd.h |
| |
| @comment unistd.h |
| @comment POSIX.1 |
| @deftypefun {char *} getlogin (void) |
| The @code{getlogin} function returns a pointer to a string containing the |
| name of the user logged in on the controlling terminal of the process, |
| or a null pointer if this information cannot be determined. The string |
| is statically allocated and might be overwritten on subsequent calls to |
| this function or to @code{cuserid}. |
| @end deftypefun |
| |
| @comment stdio.h |
| @comment POSIX.1 |
| @deftypefun {char *} cuserid (char *@var{string}) |
| The @code{cuserid} function returns a pointer to a string containing a |
| user name associated with the effective ID of the process. If |
| @var{string} is not a null pointer, it should be an array that can hold |
| at least @code{L_cuserid} characters; the string is returned in this |
| array. Otherwise, a pointer to a string in a static area is returned. |
| This string is statically allocated and might be overwritten on |
| subsequent calls to this function or to @code{getlogin}. |
| |
| The use of this function is deprecated since it is marked to be |
| withdrawn in XPG4.2 and has already been removed from newer revisions of |
| POSIX.1. |
| @end deftypefun |
| |
| @comment stdio.h |
| @comment POSIX.1 |
| @deftypevr Macro int L_cuserid |
| An integer constant that indicates how long an array you might need to |
| store a user name. |
| @end deftypevr |
| |
| These functions let your program identify positively the user who is |
| running or the user who logged in this session. (These can differ when |
| setuid programs are involved; see @ref{Process Persona}.) The user cannot |
| do anything to fool these functions. |
| |
| For most purposes, it is more useful to use the environment variable |
| @code{LOGNAME} to find out who the user is. This is more flexible |
| precisely because the user can set @code{LOGNAME} arbitrarily. |
| @xref{Standard Environment}. |
| |
| |
| @node User Accounting Database |
| @section The User Accounting Database |
| @cindex user accounting database |
| |
| Most Unix-like operating systems keep track of logged in users by |
| maintaining a user accounting database. This user accounting database |
| stores for each terminal, who has logged on, at what time, the process |
| ID of the user's login shell, etc., etc., but also stores information |
| about the run level of the system, the time of the last system reboot, |
| and possibly more. |
| |
| The user accounting database typically lives in @file{/etc/utmp}, |
| @file{/var/adm/utmp} or @file{/var/run/utmp}. However, these files |
| should @strong{never} be accessed directly. For reading information |
| from and writing information to the user accounting database, the |
| functions described in this section should be used. |
| |
| |
| @menu |
| * Manipulating the Database:: Scanning and modifying the user |
| accounting database. |
| * XPG Functions:: A standardized way for doing the same thing. |
| * Logging In and Out:: Functions from BSD that modify the user |
| accounting database. |
| @end menu |
| |
| @node Manipulating the Database |
| @subsection Manipulating the User Accounting Database |
| |
| These functions and the corresponding data structures are declared in |
| the header file @file{utmp.h}. |
| @pindex utmp.h |
| |
| @comment utmp.h |
| @comment SVID |
| @deftp {Data Type} {struct exit_status} |
| The @code{exit_status} data structure is used to hold information about |
| the exit status of processes marked as @code{DEAD_PROCESS} in the user |
| accounting database. |
| |
| @table @code |
| @item short int e_termination |
| The exit status of the process. |
| |
| @item short int e_exit |
| The exit status of the process. |
| @end table |
| @end deftp |
| |
| @deftp {Data Type} {struct utmp} |
| The @code{utmp} data structure is used to hold information about entries |
| in the user accounting database. On the GNU system it has the following |
| members: |
| |
| @table @code |
| @item short int ut_type |
| Specifies the type of login; one of @code{EMPTY}, @code{RUN_LVL}, |
| @code{BOOT_TIME}, @code{OLD_TIME}, @code{NEW_TIME}, @code{INIT_PROCESS}, |
| @code{LOGIN_PROCESS}, @code{USER_PROCESS}, @code{DEAD_PROCESS} or |
| @code{ACCOUNTING}. |
| |
| @item pid_t ut_pid |
| The process ID number of the login process. |
| |
| @item char ut_line[] |
| The device name of the tty (without @file{/dev/}). |
| |
| @item char ut_id[] |
| The inittab ID of the process. |
| |
| @item char ut_user[] |
| The user's login name. |
| |
| @item char ut_host[] |
| The name of the host from which the user logged in. |
| |
| @item struct exit_status ut_exit |
| The exit status of a process marked as @code{DEAD_PROCESS}. |
| |
| @item long ut_session |
| The Session ID, used for windowing. |
| |
| @item struct timeval ut_tv |
| Time the entry was made. For entries of type @code{OLD_TIME} this is |
| the time when the system clock changed, and for entries of type |
| @code{NEW_TIME} this is the time the system clock was set to. |
| |
| @item int32_t ut_addr_v6[4] |
| The Internet address of a remote host. |
| @end table |
| @end deftp |
| |
| The @code{ut_type}, @code{ut_pid}, @code{ut_id}, @code{ut_tv}, and |
| @code{ut_host} fields are not available on all systems. Portable |
| applications therefore should be prepared for these situations. To help |
| doing this the @file{utmp.h} header provides macros |
| @code{_HAVE_UT_TYPE}, @code{_HAVE_UT_PID}, @code{_HAVE_UT_ID}, |
| @code{_HAVE_UT_TV}, and @code{_HAVE_UT_HOST} if the respective field is |
| available. The programmer can handle the situations by using |
| @code{#ifdef} in the program code. |
| |
| The following macros are defined for use as values for the |
| @code{ut_type} member of the @code{utmp} structure. The values are |
| integer constants. |
| |
| @table @code |
| @comment utmp.h |
| @comment SVID |
| @vindex EMPTY |
| @item EMPTY |
| This macro is used to indicate that the entry contains no valid user |
| accounting information. |
| |
| @comment utmp.h |
| @comment SVID |
| @vindex RUN_LVL |
| @item RUN_LVL |
| This macro is used to identify the systems runlevel. |
| |
| @comment utmp.h |
| @comment SVID |
| @vindex BOOT_TIME |
| @item BOOT_TIME |
| This macro is used to identify the time of system boot. |
| |
| @comment utmp.h |
| @comment SVID |
| @vindex OLD_TIME |
| @item OLD_TIME |
| This macro is used to identify the time when the system clock changed. |
| |
| @comment utmp.h |
| @comment SVID |
| @vindex NEW_TIME |
| @item NEW_TIME |
| This macro is used to identify the time after the system changed. |
| |
| @comment utmp.h |
| @comment SVID |
| @vindex INIT_PROCESS |
| @item INIT_PROCESS |
| This macro is used to identify a process spawned by the init process. |
| |
| @comment utmp.h |
| @comment SVID |
| @vindex LOGIN_PROCESS |
| @item LOGIN_PROCESS |
| This macro is used to identify the session leader of a logged in user. |
| |
| @comment utmp.h |
| @comment SVID |
| @vindex USER_PROCESS |
| @item USER_PROCESS |
| This macro is used to identify a user process. |
| |
| @comment utmp.h |
| @comment SVID |
| @vindex DEAD_PROCESS |
| @item DEAD_PROCESS |
| This macro is used to identify a terminated process. |
| |
| @comment utmp.h |
| @comment SVID |
| @vindex ACCOUNTING |
| @item ACCOUNTING |
| ??? |
| @end table |
| |
| The size of the @code{ut_line}, @code{ut_id}, @code{ut_user} and |
| @code{ut_host} arrays can be found using the @code{sizeof} operator. |
| |
| Many older systems have, instead of an @code{ut_tv} member, an |
| @code{ut_time} member, usually of type @code{time_t}, for representing |
| the time associated with the entry. Therefore, for backwards |
| compatibility only, @file{utmp.h} defines @code{ut_time} as an alias for |
| @code{ut_tv.tv_sec}. |
| |
| @comment utmp.h |
| @comment SVID |
| @deftypefun void setutent (void) |
| This function opens the user accounting database to begin scanning it. |
| You can then call @code{getutent}, @code{getutid} or @code{getutline} to |
| read entries and @code{pututline} to write entries. |
| |
| If the database is already open, it resets the input to the beginning of |
| the database. |
| @end deftypefun |
| |
| @comment utmp.h |
| @comment SVID |
| @deftypefun {struct utmp *} getutent (void) |
| The @code{getutent} function reads the next entry from the user |
| accounting database. It returns a pointer to the entry, which is |
| statically allocated and may be overwritten by subsequent calls to |
| @code{getutent}. You must copy the contents of the structure if you |
| wish to save the information or you can use the @code{getutent_r} |
| function which stores the data in a user-provided buffer. |
| |
| A null pointer is returned in case no further entry is available. |
| @end deftypefun |
| |
| @comment utmp.h |
| @comment SVID |
| @deftypefun void endutent (void) |
| This function closes the user accounting database. |
| @end deftypefun |
| |
| @comment utmp.h |
| @comment SVID |
| @deftypefun {struct utmp *} getutid (const struct utmp *@var{id}) |
| This function searches forward from the current point in the database |
| for an entry that matches @var{id}. If the @code{ut_type} member of the |
| @var{id} structure is one of @code{RUN_LVL}, @code{BOOT_TIME}, |
| @code{OLD_TIME} or @code{NEW_TIME} the entries match if the |
| @code{ut_type} members are identical. If the @code{ut_type} member of |
| the @var{id} structure is @code{INIT_PROCESS}, @code{LOGIN_PROCESS}, |
| @code{USER_PROCESS} or @code{DEAD_PROCESS}, the entries match if the |
| @code{ut_type} member of the entry read from the database is one of |
| these four, and the @code{ut_id} members match. However if the |
| @code{ut_id} member of either the @var{id} structure or the entry read |
| from the database is empty it checks if the @code{ut_line} members match |
| instead. If a matching entry is found, @code{getutid} returns a pointer |
| to the entry, which is statically allocated, and may be overwritten by a |
| subsequent call to @code{getutent}, @code{getutid} or @code{getutline}. |
| You must copy the contents of the structure if you wish to save the |
| information. |
| |
| A null pointer is returned in case the end of the database is reached |
| without a match. |
| |
| The @code{getutid} function may cache the last read entry. Therefore, |
| if you are using @code{getutid} to search for multiple occurrences, it |
| is necessary to zero out the static data after each call. Otherwise |
| @code{getutid} could just return a pointer to the same entry over and |
| over again. |
| @end deftypefun |
| |
| @comment utmp.h |
| @comment SVID |
| @deftypefun {struct utmp *} getutline (const struct utmp *@var{line}) |
| This function searches forward from the current point in the database |
| until it finds an entry whose @code{ut_type} value is |
| @code{LOGIN_PROCESS} or @code{USER_PROCESS}, and whose @code{ut_line} |
| member matches the @code{ut_line} member of the @var{line} structure. |
| If it finds such an entry, it returns a pointer to the entry which is |
| statically allocated, and may be overwritten by a subsequent call to |
| @code{getutent}, @code{getutid} or @code{getutline}. You must copy the |
| contents of the structure if you wish to save the information. |
| |
| A null pointer is returned in case the end of the database is reached |
| without a match. |
| |
| The @code{getutline} function may cache the last read entry. Therefore |
| if you are using @code{getutline} to search for multiple occurrences, it |
| is necessary to zero out the static data after each call. Otherwise |
| @code{getutline} could just return a pointer to the same entry over and |
| over again. |
| @end deftypefun |
| |
| @comment utmp.h |
| @comment SVID |
| @deftypefun {struct utmp *} pututline (const struct utmp *@var{utmp}) |
| The @code{pututline} function inserts the entry @code{*@var{utmp}} at |
| the appropriate place in the user accounting database. If it finds that |
| it is not already at the correct place in the database, it uses |
| @code{getutid} to search for the position to insert the entry, however |
| this will not modify the static structure returned by @code{getutent}, |
| @code{getutid} and @code{getutline}. If this search fails, the entry |
| is appended to the database. |
| |
| The @code{pututline} function returns a pointer to a copy of the entry |
| inserted in the user accounting database, or a null pointer if the entry |
| could not be added. The following @code{errno} error conditions are |
| defined for this function: |
| |
| @table @code |
| @item EPERM |
| The process does not have the appropriate privileges; you cannot modify |
| the user accounting database. |
| @end table |
| @end deftypefun |
| |
| All the @code{get*} functions mentioned before store the information |
| they return in a static buffer. This can be a problem in multi-threaded |
| programs since the data returned for the request is overwritten by the |
| return value data in another thread. Therefore the GNU C Library |
| provides as extensions three more functions which return the data in a |
| user-provided buffer. |
| |
| @comment utmp.h |
| @comment GNU |
| @deftypefun int getutent_r (struct utmp *@var{buffer}, struct utmp **@var{result}) |
| The @code{getutent_r} is equivalent to the @code{getutent} function. It |
| returns the next entry from the database. But instead of storing the |
| information in a static buffer it stores it in the buffer pointed to by |
| the parameter @var{buffer}. |
| |
| If the call was successful, the function returns @code{0} and the |
| pointer variable pointed to by the parameter @var{result} contains a |
| pointer to the buffer which contains the result (this is most probably |
| the same value as @var{buffer}). If something went wrong during the |
| execution of @code{getutent_r} the function returns @code{-1}. |
| |
| This function is a GNU extension. |
| @end deftypefun |
| |
| @comment utmp.h |
| @comment GNU |
| @deftypefun int getutid_r (const struct utmp *@var{id}, struct utmp *@var{buffer}, struct utmp **@var{result}) |
| This function retrieves just like @code{getutid} the next entry matching |
| the information stored in @var{id}. But the result is stored in the |
| buffer pointed to by the parameter @var{buffer}. |
| |
| If successful the function returns @code{0} and the pointer variable |
| pointed to by the parameter @var{result} contains a pointer to the |
| buffer with the result (probably the same as @var{result}. If not |
| successful the function return @code{-1}. |
| |
| This function is a GNU extension. |
| @end deftypefun |
| |
| @comment utmp.h |
| @comment GNU |
| @deftypefun int getutline_r (const struct utmp *@var{line}, struct utmp *@var{buffer}, struct utmp **@var{result}) |
| This function retrieves just like @code{getutline} the next entry |
| matching the information stored in @var{line}. But the result is stored |
| in the buffer pointed to by the parameter @var{buffer}. |
| |
| If successful the function returns @code{0} and the pointer variable |
| pointed to by the parameter @var{result} contains a pointer to the |
| buffer with the result (probably the same as @var{result}. If not |
| successful the function return @code{-1}. |
| |
| This function is a GNU extension. |
| @end deftypefun |
| |
| |
| In addition to the user accounting database, most systems keep a number |
| of similar databases. For example most systems keep a log file with all |
| previous logins (usually in @file{/etc/wtmp} or @file{/var/log/wtmp}). |
| |
| For specifying which database to examine, the following function should |
| be used. |
| |
| @comment utmp.h |
| @comment SVID |
| @deftypefun int utmpname (const char *@var{file}) |
| The @code{utmpname} function changes the name of the database to be |
| examined to @var{file}, and closes any previously opened database. By |
| default @code{getutent}, @code{getutid}, @code{getutline} and |
| @code{pututline} read from and write to the user accounting database. |
| |
| The following macros are defined for use as the @var{file} argument: |
| |
| @deftypevr Macro {char *} _PATH_UTMP |
| This macro is used to specify the user accounting database. |
| @end deftypevr |
| |
| @deftypevr Macro {char *} _PATH_WTMP |
| This macro is used to specify the user accounting log file. |
| @end deftypevr |
| |
| The @code{utmpname} function returns a value of @code{0} if the new name |
| was successfully stored, and a value of @code{-1} to indicate an error. |
| Note that @code{utmpname} does not try to open the database, and that |
| therefore the return value does not say anything about whether the |
| database can be successfully opened. |
| @end deftypefun |
| |
| Specially for maintaining log-like databases the GNU C Library provides |
| the following function: |
| |
| @comment utmp.h |
| @comment SVID |
| @deftypefun void updwtmp (const char *@var{wtmp_file}, const struct utmp *@var{utmp}) |
| The @code{updwtmp} function appends the entry *@var{utmp} to the |
| database specified by @var{wtmp_file}. For possible values for the |
| @var{wtmp_file} argument see the @code{utmpname} function. |
| @end deftypefun |
| |
| @strong{Portability Note:} Although many operating systems provide a |
| subset of these functions, they are not standardized. There are often |
| subtle differences in the return types, and there are considerable |
| differences between the various definitions of @code{struct utmp}. When |
| programming for the GNU system, it is probably best to stick |
| with the functions described in this section. If however, you want your |
| program to be portable, consider using the XPG functions described in |
| @ref{XPG Functions}, or take a look at the BSD compatible functions in |
| @ref{Logging In and Out}. |
| |
| |
| @node XPG Functions |
| @subsection XPG User Accounting Database Functions |
| |
| These functions, described in the X/Open Portability Guide, are declared |
| in the header file @file{utmpx.h}. |
| @pindex utmpx.h |
| |
| @deftp {Data Type} {struct utmpx} |
| The @code{utmpx} data structure contains at least the following members: |
| |
| @table @code |
| @item short int ut_type |
| Specifies the type of login; one of @code{EMPTY}, @code{RUN_LVL}, |
| @code{BOOT_TIME}, @code{OLD_TIME}, @code{NEW_TIME}, @code{INIT_PROCESS}, |
| @code{LOGIN_PROCESS}, @code{USER_PROCESS} or @code{DEAD_PROCESS}. |
| |
| @item pid_t ut_pid |
| The process ID number of the login process. |
| |
| @item char ut_line[] |
| The device name of the tty (without @file{/dev/}). |
| |
| @item char ut_id[] |
| The inittab ID of the process. |
| |
| @item char ut_user[] |
| The user's login name. |
| |
| @item struct timeval ut_tv |
| Time the entry was made. For entries of type @code{OLD_TIME} this is |
| the time when the system clock changed, and for entries of type |
| @code{NEW_TIME} this is the time the system clock was set to. |
| @end table |
| On the GNU system, @code{struct utmpx} is identical to @code{struct |
| utmp} except for the fact that including @file{utmpx.h} does not make |
| visible the declaration of @code{struct exit_status}. |
| @end deftp |
| |
| The following macros are defined for use as values for the |
| @code{ut_type} member of the @code{utmpx} structure. The values are |
| integer constants and are, on the GNU system, identical to the |
| definitions in @file{utmp.h}. |
| |
| @table @code |
| @comment utmpx.h |
| @comment XPG4.2 |
| @vindex EMPTY |
| @item EMPTY |
| This macro is used to indicate that the entry contains no valid user |
| accounting information. |
| |
| @comment utmpx.h |
| @comment XPG4.2 |
| @vindex RUN_LVL |
| @item RUN_LVL |
| This macro is used to identify the systems runlevel. |
| |
| @comment utmpx.h |
| @comment XPG4.2 |
| @vindex BOOT_TIME |
| @item BOOT_TIME |
| This macro is used to identify the time of system boot. |
| |
| @comment utmpx.h |
| @comment XPG4.2 |
| @vindex OLD_TIME |
| @item OLD_TIME |
| This macro is used to identify the time when the system clock changed. |
| |
| @comment utmpx.h |
| @comment XPG4.2 |
| @vindex NEW_TIME |
| @item NEW_TIME |
| This macro is used to identify the time after the system changed. |
| |
| @comment utmpx.h |
| @comment XPG4.2 |
| @vindex INIT_PROCESS |
| @item INIT_PROCESS |
| This macro is used to identify a process spawned by the init process. |
| |
| @comment utmpx.h |
| @comment XPG4.2 |
| @vindex LOGIN_PROCESS |
| @item LOGIN_PROCESS |
| This macro is used to identify the session leader of a logged in user. |
| |
| @comment utmpx.h |
| @comment XPG4.2 |
| @vindex USER_PROCESS |
| @item USER_PROCESS |
| This macro is used to identify a user process. |
| |
| @comment utmpx.h |
| @comment XPG4.2 |
| @vindex DEAD_PROCESS |
| @item DEAD_PROCESS |
| This macro is used to identify a terminated process. |
| @end table |
| |
| The size of the @code{ut_line}, @code{ut_id} and @code{ut_user} arrays |
| can be found using the @code{sizeof} operator. |
| |
| @comment utmpx.h |
| @comment XPG4.2 |
| @deftypefun void setutxent (void) |
| This function is similar to @code{setutent}. On the GNU system it is |
| simply an alias for @code{setutent}. |
| @end deftypefun |
| |
| @comment utmpx.h |
| @comment XPG4.2 |
| @deftypefun {struct utmpx *} getutxent (void) |
| The @code{getutxent} function is similar to @code{getutent}, but returns |
| a pointer to a @code{struct utmpx} instead of @code{struct utmp}. On |
| the GNU system it simply is an alias for @code{getutent}. |
| @end deftypefun |
| |
| @comment utmpx.h |
| @comment XPG4.2 |
| @deftypefun void endutxent (void) |
| This function is similar to @code{endutent}. On the GNU system it is |
| simply an alias for @code{endutent}. |
| @end deftypefun |
| |
| @comment utmpx.h |
| @comment XPG4.2 |
| @deftypefun {struct utmpx *} getutxid (const struct utmpx *@var{id}) |
| This function is similar to @code{getutid}, but uses @code{struct utmpx} |
| instead of @code{struct utmp}. On the GNU system it is simply an alias |
| for @code{getutid}. |
| @end deftypefun |
| |
| @comment utmpx.h |
| @comment XPG4.2 |
| @deftypefun {struct utmpx *} getutxline (const struct utmpx *@var{line}) |
| This function is similar to @code{getutid}, but uses @code{struct utmpx} |
| instead of @code{struct utmp}. On the GNU system it is simply an alias |
| for @code{getutline}. |
| @end deftypefun |
| |
| @comment utmpx.h |
| @comment XPG4.2 |
| @deftypefun {struct utmpx *} pututxline (const struct utmpx *@var{utmp}) |
| The @code{pututxline} function is functionally identical to |
| @code{pututline}, but uses @code{struct utmpx} instead of @code{struct |
| utmp}. On the GNU system, @code{pututxline} is simply an alias for |
| @code{pututline}. |
| @end deftypefun |
| |
| @comment utmpx.h |
| @comment XPG4.2 |
| @deftypefun int utmpxname (const char *@var{file}) |
| The @code{utmpxname} function is functionally identical to |
| @code{utmpname}. On the GNU system, @code{utmpxname} is simply an |
| alias for @code{utmpname}. |
| @end deftypefun |
| |
| You can translate between a traditional @code{struct utmp} and an XPG |
| @code{struct utmpx} with the following functions. On the GNU system, |
| these functions are merely copies, since the two structures are |
| identical. |
| |
| @comment utmpx.h |
| @comment utmp.h |
| @comment GNU |
| @deftypefun int getutmp (const struct utmpx *utmpx, struct utmp *utmp) |
| @code{getutmp} copies the information, insofar as the structures are |
| compatible, from @var{utmpx} to @var{utmp}. |
| @end deftypefun |
| |
| @comment utmpx.h |
| @comment utmp.h |
| @comment GNU |
| @deftypefun int getutmpx (const struct utmp *utmp, struct utmpx *utmpx) |
| @code{getutmpx} copies the information, insofar as the structures are |
| compatible, from @var{utmp} to @var{utmpx}. |
| @end deftypefun |
| |
| |
| @node Logging In and Out |
| @subsection Logging In and Out |
| |
| These functions, derived from BSD, are available in the separate |
| @file{libutil} library, and declared in @file{utmp.h}. |
| @pindex utmp.h |
| |
| Note that the @code{ut_user} member of @code{struct utmp} is called |
| @code{ut_name} in BSD. Therefore, @code{ut_name} is defined as an alias |
| for @code{ut_user} in @file{utmp.h}. |
| |
| @comment utmp.h |
| @comment BSD |
| @deftypefun int login_tty (int @var{filedes}) |
| This function makes @var{filedes} the controlling terminal of the |
| current process, redirects standard input, standard output and |
| standard error output to this terminal, and closes @var{filedes}. |
| |
| This function returns @code{0} on successful completion, and @code{-1} |
| on error. |
| @end deftypefun |
| |
| @comment utmp.h |
| @comment BSD |
| @deftypefun void login (const struct utmp *@var{entry}) |
| The @code{login} functions inserts an entry into the user accounting |
| database. The @code{ut_line} member is set to the name of the terminal |
| on standard input. If standard input is not a terminal @code{login} |
| uses standard output or standard error output to determine the name of |
| the terminal. If @code{struct utmp} has a @code{ut_type} member, |
| @code{login} sets it to @code{USER_PROCESS}, and if there is an |
| @code{ut_pid} member, it will be set to the process ID of the current |
| process. The remaining entries are copied from @var{entry}. |
| |
| A copy of the entry is written to the user accounting log file. |
| @end deftypefun |
| |
| @comment utmp.h |
| @comment BSD |
| @deftypefun int logout (const char *@var{ut_line}) |
| This function modifies the user accounting database to indicate that the |
| user on @var{ut_line} has logged out. |
| |
| The @code{logout} function returns @code{1} if the entry was successfully |
| written to the database, or @code{0} on error. |
| @end deftypefun |
| |
| @comment utmp.h |
| @comment BSD |
| @deftypefun void logwtmp (const char *@var{ut_line}, const char *@var{ut_name}, const char *@var{ut_host}) |
| The @code{logwtmp} function appends an entry to the user accounting log |
| file, for the current time and the information provided in the |
| @var{ut_line}, @var{ut_name} and @var{ut_host} arguments. |
| @end deftypefun |
| |
| @strong{Portability Note:} The BSD @code{struct utmp} only has the |
| @code{ut_line}, @code{ut_name}, @code{ut_host} and @code{ut_time} |
| members. Older systems do not even have the @code{ut_host} member. |
| |
| |
| @node User Database |
| @section User Database |
| @cindex user database |
| @cindex password database |
| @pindex /etc/passwd |
| |
| This section describes how to search and scan the database of registered |
| users. The database itself is kept in the file @file{/etc/passwd} on |
| most systems, but on some systems a special network server gives access |
| to it. |
| |
| @menu |
| * User Data Structure:: What each user record contains. |
| * Lookup User:: How to look for a particular user. |
| * Scanning All Users:: Scanning the list of all users, one by one. |
| * Writing a User Entry:: How a program can rewrite a user's record. |
| @end menu |
| |
| @node User Data Structure |
| @subsection The Data Structure that Describes a User |
| |
| The functions and data structures for accessing the system user database |
| are declared in the header file @file{pwd.h}. |
| @pindex pwd.h |
| |
| @comment pwd.h |
| @comment POSIX.1 |
| @deftp {Data Type} {struct passwd} |
| The @code{passwd} data structure is used to hold information about |
| entries in the system user data base. It has at least the following members: |
| |
| @table @code |
| @item char *pw_name |
| The user's login name. |
| |
| @item char *pw_passwd. |
| The encrypted password string. |
| |
| @item uid_t pw_uid |
| The user ID number. |
| |
| @item gid_t pw_gid |
| The user's default group ID number. |
| |
| @item char *pw_gecos |
| A string typically containing the user's real name, and possibly other |
| information such as a phone number. |
| |
| @item char *pw_dir |
| The user's home directory, or initial working directory. This might be |
| a null pointer, in which case the interpretation is system-dependent. |
| |
| @item char *pw_shell |
| The user's default shell, or the initial program run when the user logs in. |
| This might be a null pointer, indicating that the system default should |
| be used. |
| @end table |
| @end deftp |
| |
| @node Lookup User |
| @subsection Looking Up One User |
| @cindex converting user ID to user name |
| @cindex converting user name to user ID |
| |
| You can search the system user database for information about a |
| specific user using @code{getpwuid} or @code{getpwnam}. These |
| functions are declared in @file{pwd.h}. |
| |
| @comment pwd.h |
| @comment POSIX.1 |
| @deftypefun {struct passwd *} getpwuid (uid_t @var{uid}) |
| This function returns a pointer to a statically-allocated structure |
| containing information about the user whose user ID is @var{uid}. This |
| structure may be overwritten on subsequent calls to @code{getpwuid}. |
| |
| A null pointer value indicates there is no user in the data base with |
| user ID @var{uid}. |
| @end deftypefun |
| |
| @comment pwd.h |
| @comment POSIX.1c |
| @deftypefun int getpwuid_r (uid_t @var{uid}, struct passwd *@var{result_buf}, char *@var{buffer}, size_t @var{buflen}, struct passwd **@var{result}) |
| This function is similar to @code{getpwuid} in that it returns |
| information about the user whose user ID is @var{uid}. However, it |
| fills the user supplied structure pointed to by @var{result_buf} with |
| the information instead of using a static buffer. The first |
| @var{buflen} bytes of the additional buffer pointed to by @var{buffer} |
| are used to contain additional information, normally strings which are |
| pointed to by the elements of the result structure. |
| |
| If a user with ID @var{uid} is found, the pointer returned in |
| @var{result} points to the record which contains the wanted data (i.e., |
| @var{result} contains the value @var{result_buf}). If no user is found |
| or if an error occurred, the pointer returned in @var{result} is a null |
| pointer. The function returns zero or an error code. If the buffer |
| @var{buffer} is too small to contain all the needed information, the |
| error code @code{ERANGE} is returned and @var{errno} is set to |
| @code{ERANGE}. |
| @end deftypefun |
| |
| |
| @comment pwd.h |
| @comment POSIX.1 |
| @deftypefun {struct passwd *} getpwnam (const char *@var{name}) |
| This function returns a pointer to a statically-allocated structure |
| containing information about the user whose user name is @var{name}. |
| This structure may be overwritten on subsequent calls to |
| @code{getpwnam}. |
| |
| A null pointer return indicates there is no user named @var{name}. |
| @end deftypefun |
| |
| @comment pwd.h |
| @comment POSIX.1c |
| @deftypefun int getpwnam_r (const char *@var{name}, struct passwd *@var{result_buf}, char *@var{buffer}, size_t @var{buflen}, struct passwd **@var{result}) |
| This function is similar to @code{getpwnam} in that is returns |
| information about the user whose user name is @var{name}. However, like |
| @code{getpwuid_r}, it fills the user supplied buffers in |
| @var{result_buf} and @var{buffer} with the information instead of using |
| a static buffer. |
| |
| The return values are the same as for @code{getpwuid_r}. |
| @end deftypefun |
| |
| |
| @node Scanning All Users |
| @subsection Scanning the List of All Users |
| @cindex scanning the user list |
| |
| This section explains how a program can read the list of all users in |
| the system, one user at a time. The functions described here are |
| declared in @file{pwd.h}. |
| |
| You can use the @code{fgetpwent} function to read user entries from a |
| particular file. |
| |
| @comment pwd.h |
| @comment SVID |
| @deftypefun {struct passwd *} fgetpwent (FILE *@var{stream}) |
| This function reads the next user entry from @var{stream} and returns a |
| pointer to the entry. The structure is statically allocated and is |
| rewritten on subsequent calls to @code{fgetpwent}. You must copy the |
| contents of the structure if you wish to save the information. |
| |
| The stream must correspond to a file in the same format as the standard |
| password database file. |
| @end deftypefun |
| |
| @comment pwd.h |
| @comment GNU |
| @deftypefun int fgetpwent_r (FILE *@var{stream}, struct passwd *@var{result_buf}, char *@var{buffer}, size_t @var{buflen}, struct passwd **@var{result}) |
| This function is similar to @code{fgetpwent} in that it reads the next |
| user entry from @var{stream}. But the result is returned in the |
| structure pointed to by @var{result_buf}. The |
| first @var{buflen} bytes of the additional buffer pointed to by |
| @var{buffer} are used to contain additional information, normally |
| strings which are pointed to by the elements of the result structure. |
| |
| The stream must correspond to a file in the same format as the standard |
| password database file. |
| |
| If the function returns zero @var{result} points to the structure with |
| the wanted data (normally this is in @var{result_buf}). If errors |
| occurred the return value is nonzero and @var{result} contains a null |
| pointer. |
| @end deftypefun |
| |
| The way to scan all the entries in the user database is with |
| @code{setpwent}, @code{getpwent}, and @code{endpwent}. |
| |
| @comment pwd.h |
| @comment SVID, BSD |
| @deftypefun void setpwent (void) |
| This function initializes a stream which @code{getpwent} and |
| @code{getpwent_r} use to read the user database. |
| @end deftypefun |
| |
| @comment pwd.h |
| @comment POSIX.1 |
| @deftypefun {struct passwd *} getpwent (void) |
| The @code{getpwent} function reads the next entry from the stream |
| initialized by @code{setpwent}. It returns a pointer to the entry. The |
| structure is statically allocated and is rewritten on subsequent calls |
| to @code{getpwent}. You must copy the contents of the structure if you |
| wish to save the information. |
| |
| A null pointer is returned when no more entries are available. |
| @end deftypefun |
| |
| @comment pwd.h |
| @comment GNU |
| @deftypefun int getpwent_r (struct passwd *@var{result_buf}, char *@var{buffer}, int @var{buflen}, struct passwd **@var{result}) |
| This function is similar to @code{getpwent} in that it returns the next |
| entry from the stream initialized by @code{setpwent}. Like |
| @code{fgetpwent_r}, it uses the user-supplied buffers in |
| @var{result_buf} and @var{buffer} to return the information requested. |
| |
| The return values are the same as for @code{fgetpwent_r}. |
| |
| @end deftypefun |
| |
| @comment pwd.h |
| @comment SVID, BSD |
| @deftypefun void endpwent (void) |
| This function closes the internal stream used by @code{getpwent} or |
| @code{getpwent_r}. |
| @end deftypefun |
| |
| @node Writing a User Entry |
| @subsection Writing a User Entry |
| |
| @comment pwd.h |
| @comment SVID |
| @deftypefun int putpwent (const struct passwd *@var{p}, FILE *@var{stream}) |
| This function writes the user entry @code{*@var{p}} to the stream |
| @var{stream}, in the format used for the standard user database |
| file. The return value is zero on success and nonzero on failure. |
| |
| This function exists for compatibility with SVID. We recommend that you |
| avoid using it, because it makes sense only on the assumption that the |
| @code{struct passwd} structure has no members except the standard ones; |
| on a system which merges the traditional Unix data base with other |
| extended information about users, adding an entry using this function |
| would inevitably leave out much of the important information. |
| @c Then how are programmers to modify the password file? -zw |
| |
| The group and user ID fields are left empty if the group or user name |
| starts with a - or +. |
| |
| The function @code{putpwent} is declared in @file{pwd.h}. |
| @end deftypefun |
| |
| @node Group Database |
| @section Group Database |
| @cindex group database |
| @pindex /etc/group |
| |
| This section describes how to search and scan the database of |
| registered groups. The database itself is kept in the file |
| @file{/etc/group} on most systems, but on some systems a special network |
| service provides access to it. |
| |
| @menu |
| * Group Data Structure:: What each group record contains. |
| * Lookup Group:: How to look for a particular group. |
| * Scanning All Groups:: Scanning the list of all groups. |
| @end menu |
| |
| @node Group Data Structure |
| @subsection The Data Structure for a Group |
| |
| The functions and data structures for accessing the system group |
| database are declared in the header file @file{grp.h}. |
| @pindex grp.h |
| |
| @comment grp.h |
| @comment POSIX.1 |
| @deftp {Data Type} {struct group} |
| The @code{group} structure is used to hold information about an entry in |
| the system group database. It has at least the following members: |
| |
| @table @code |
| @item char *gr_name |
| The name of the group. |
| |
| @item gid_t gr_gid |
| The group ID of the group. |
| |
| @item char **gr_mem |
| A vector of pointers to the names of users in the group. Each user name |
| is a null-terminated string, and the vector itself is terminated by a |
| null pointer. |
| @end table |
| @end deftp |
| |
| @node Lookup Group |
| @subsection Looking Up One Group |
| @cindex converting group name to group ID |
| @cindex converting group ID to group name |
| |
| You can search the group database for information about a specific |
| group using @code{getgrgid} or @code{getgrnam}. These functions are |
| declared in @file{grp.h}. |
| |
| @comment grp.h |
| @comment POSIX.1 |
| @deftypefun {struct group *} getgrgid (gid_t @var{gid}) |
| This function returns a pointer to a statically-allocated structure |
| containing information about the group whose group ID is @var{gid}. |
| This structure may be overwritten by subsequent calls to |
| @code{getgrgid}. |
| |
| A null pointer indicates there is no group with ID @var{gid}. |
| @end deftypefun |
| |
| @comment grp.h |
| @comment POSIX.1c |
| @deftypefun int getgrgid_r (gid_t @var{gid}, struct group *@var{result_buf}, char *@var{buffer}, size_t @var{buflen}, struct group **@var{result}) |
| This function is similar to @code{getgrgid} in that it returns |
| information about the group whose group ID is @var{gid}. However, it |
| fills the user supplied structure pointed to by @var{result_buf} with |
| the information instead of using a static buffer. The first |
| @var{buflen} bytes of the additional buffer pointed to by @var{buffer} |
| are used to contain additional information, normally strings which are |
| pointed to by the elements of the result structure. |
| |
| If a group with ID @var{gid} is found, the pointer returned in |
| @var{result} points to the record which contains the wanted data (i.e., |
| @var{result} contains the value @var{result_buf}). If no group is found |
| or if an error occurred, the pointer returned in @var{result} is a null |
| pointer. The function returns zero or an error code. If the buffer |
| @var{buffer} is too small to contain all the needed information, the |
| error code @code{ERANGE} is returned and @var{errno} is set to |
| @code{ERANGE}. |
| @end deftypefun |
| |
| @comment grp.h |
| @comment SVID, BSD |
| @deftypefun {struct group *} getgrnam (const char *@var{name}) |
| This function returns a pointer to a statically-allocated structure |
| containing information about the group whose group name is @var{name}. |
| This structure may be overwritten by subsequent calls to |
| @code{getgrnam}. |
| |
| A null pointer indicates there is no group named @var{name}. |
| @end deftypefun |
| |
| @comment grp.h |
| @comment POSIX.1c |
| @deftypefun int getgrnam_r (const char *@var{name}, struct group *@var{result_buf}, char *@var{buffer}, size_t @var{buflen}, struct group **@var{result}) |
| This function is similar to @code{getgrnam} in that is returns |
| information about the group whose group name is @var{name}. Like |
| @code{getgrgid_r}, it uses the user supplied buffers in |
| @var{result_buf} and @var{buffer}, not a static buffer. |
| |
| The return values are the same as for @code{getgrgid_r} |
| @code{ERANGE}. |
| @end deftypefun |
| |
| @node Scanning All Groups |
| @subsection Scanning the List of All Groups |
| @cindex scanning the group list |
| |
| This section explains how a program can read the list of all groups in |
| the system, one group at a time. The functions described here are |
| declared in @file{grp.h}. |
| |
| You can use the @code{fgetgrent} function to read group entries from a |
| particular file. |
| |
| @comment grp.h |
| @comment SVID |
| @deftypefun {struct group *} fgetgrent (FILE *@var{stream}) |
| The @code{fgetgrent} function reads the next entry from @var{stream}. |
| It returns a pointer to the entry. The structure is statically |
| allocated and is overwritten on subsequent calls to @code{fgetgrent}. You |
| must copy the contents of the structure if you wish to save the |
| information. |
| |
| The stream must correspond to a file in the same format as the standard |
| group database file. |
| @end deftypefun |
| |
| @comment grp.h |
| @comment GNU |
| @deftypefun int fgetgrent_r (FILE *@var{stream}, struct group *@var{result_buf}, char *@var{buffer}, size_t @var{buflen}, struct group **@var{result}) |
| This function is similar to @code{fgetgrent} in that it reads the next |
| user entry from @var{stream}. But the result is returned in the |
| structure pointed to by @var{result_buf}. The first @var{buflen} bytes |
| of the additional buffer pointed to by @var{buffer} are used to contain |
| additional information, normally strings which are pointed to by the |
| elements of the result structure. |
| |
| This stream must correspond to a file in the same format as the standard |
| group database file. |
| |
| If the function returns zero @var{result} points to the structure with |
| the wanted data (normally this is in @var{result_buf}). If errors |
| occurred the return value is non-zero and @var{result} contains a null |
| pointer. |
| @end deftypefun |
| |
| The way to scan all the entries in the group database is with |
| @code{setgrent}, @code{getgrent}, and @code{endgrent}. |
| |
| @comment grp.h |
| @comment SVID, BSD |
| @deftypefun void setgrent (void) |
| This function initializes a stream for reading from the group data base. |
| You use this stream by calling @code{getgrent} or @code{getgrent_r}. |
| @end deftypefun |
| |
| @comment grp.h |
| @comment SVID, BSD |
| @deftypefun {struct group *} getgrent (void) |
| The @code{getgrent} function reads the next entry from the stream |
| initialized by @code{setgrent}. It returns a pointer to the entry. The |
| structure is statically allocated and is overwritten on subsequent calls |
| to @code{getgrent}. You must copy the contents of the structure if you |
| wish to save the information. |
| @end deftypefun |
| |
| @comment grp.h |
| @comment GNU |
| @deftypefun int getgrent_r (struct group *@var{result_buf}, char *@var{buffer}, size_t @var{buflen}, struct group **@var{result}) |
| This function is similar to @code{getgrent} in that it returns the next |
| entry from the stream initialized by @code{setgrent}. Like |
| @code{fgetgrent_r}, it places the result in user-supplied buffers |
| pointed to @var{result_buf} and @var{buffer}. |
| |
| If the function returns zero @var{result} contains a pointer to the data |
| (normally equal to @var{result_buf}). If errors occurred the return |
| value is non-zero and @var{result} contains a null pointer. |
| @end deftypefun |
| |
| @comment grp.h |
| @comment SVID, BSD |
| @deftypefun void endgrent (void) |
| This function closes the internal stream used by @code{getgrent} or |
| @code{getgrent_r}. |
| @end deftypefun |
| |
| @node Database Example |
| @section User and Group Database Example |
| |
| Here is an example program showing the use of the system database inquiry |
| functions. The program prints some information about the user running |
| the program. |
| |
| @smallexample |
| @include db.c.texi |
| @end smallexample |
| |
| Here is some output from this program: |
| |
| @smallexample |
| I am Throckmorton Snurd. |
| My login name is snurd. |
| My uid is 31093. |
| My home directory is /home/fsg/snurd. |
| My default shell is /bin/sh. |
| My default group is guest (12). |
| The members of this group are: |
| friedman |
| tami |
| @end smallexample |
| |
| @node Netgroup Database |
| @section Netgroup Database |
| |
| @menu |
| * Netgroup Data:: Data in the Netgroup database and where |
| it comes from. |
| * Lookup Netgroup:: How to look for a particular netgroup. |
| * Netgroup Membership:: How to test for netgroup membership. |
| @end menu |
| |
| @node Netgroup Data |
| @subsection Netgroup Data |
| |
| @cindex Netgroup |
| Sometimes it is useful to group users according to other criteria |
| (@pxref{Group Database}). E.g., it is useful to associate a certain |
| group of users with a certain machine. On the other hand grouping of |
| host names is not supported so far. |
| |
| In Sun Microsystems SunOS appeared a new kind of database, the netgroup |
| database. It allows grouping hosts, users, and domains freely, giving |
| them individual names. To be more concrete, a netgroup is a list of triples |
| consisting of a host name, a user name, and a domain name where any of |
| the entries can be a wildcard entry matching all inputs. A last |
| possibility is that names of other netgroups can also be given in the |
| list specifying a netgroup. So one can construct arbitrary hierarchies |
| without loops. |
| |
| Sun's implementation allows netgroups only for the @code{nis} or |
| @code{nisplus} service, @pxref{Services in the NSS configuration}. The |
| implementation in the GNU C library has no such restriction. An entry |
| in either of the input services must have the following form: |
| |
| @smallexample |
| @var{groupname} ( @var{groupname} | @code{(}@var{hostname}@code{,}@var{username}@code{,}@code{domainname}@code{)} )+ |
| @end smallexample |
| |
| Any of the fields in the triple can be empty which means anything |
| matches. While describing the functions we will see that the opposite |
| case is useful as well. I.e., there may be entries which will not |
| match any input. For entries like this, a name consisting of the single |
| character @code{-} shall be used. |
| |
| @node Lookup Netgroup |
| @subsection Looking up one Netgroup |
| |
| The lookup functions for netgroups are a bit different to all other |
| system database handling functions. Since a single netgroup can contain |
| many entries a two-step process is needed. First a single netgroup is |
| selected and then one can iterate over all entries in this netgroup. |
| These functions are declared in @file{netdb.h}. |
| |
| @comment netdb.h |
| @comment BSD |
| @deftypefun int setnetgrent (const char *@var{netgroup}) |
| A call to this function initializes the internal state of the library to |
| allow following calls of the @code{getnetgrent} to iterate over all entries |
| in the netgroup with name @var{netgroup}. |
| |
| When the call is successful (i.e., when a netgroup with this name exists) |
| the return value is @code{1}. When the return value is @code{0} no |
| netgroup of this name is known or some other error occurred. |
| @end deftypefun |
| |
| It is important to remember that there is only one single state for |
| iterating the netgroups. Even if the programmer uses the |
| @code{getnetgrent_r} function the result is not really reentrant since |
| always only one single netgroup at a time can be processed. If the |
| program needs to process more than one netgroup simultaneously she |
| must protect this by using external locking. This problem was |
| introduced in the original netgroups implementation in SunOS and since |
| we must stay compatible it is not possible to change this. |
| |
| Some other functions also use the netgroups state. Currently these are |
| the @code{innetgr} function and parts of the implementation of the |
| @code{compat} service part of the NSS implementation. |
| |
| @comment netdb.h |
| @comment BSD |
| @deftypefun int getnetgrent (char **@var{hostp}, char **@var{userp}, char **@var{domainp}) |
| This function returns the next unprocessed entry of the currently |
| selected netgroup. The string pointers, in which addresses are passed in |
| the arguments @var{hostp}, @var{userp}, and @var{domainp}, will contain |
| after a successful call pointers to appropriate strings. If the string |
| in the next entry is empty the pointer has the value @code{NULL}. |
| The returned string pointers are only valid if none of the netgroup |
| related functions are called. |
| |
| The return value is @code{1} if the next entry was successfully read. A |
| value of @code{0} means no further entries exist or internal errors occurred. |
| @end deftypefun |
| |
| @comment netdb.h |
| @comment GNU |
| @deftypefun int getnetgrent_r (char **@var{hostp}, char **@var{userp}, char **@var{domainp}, char *@var{buffer}, int @var{buflen}) |
| This function is similar to @code{getnetgrent} with only one exception: |
| the strings the three string pointers @var{hostp}, @var{userp}, and |
| @var{domainp} point to, are placed in the buffer of @var{buflen} bytes |
| starting at @var{buffer}. This means the returned values are valid |
| even after other netgroup related functions are called. |
| |
| The return value is @code{1} if the next entry was successfully read and |
| the buffer contains enough room to place the strings in it. @code{0} is |
| returned in case no more entries are found, the buffer is too small, or |
| internal errors occurred. |
| |
| This function is a GNU extension. The original implementation in the |
| SunOS libc does not provide this function. |
| @end deftypefun |
| |
| @comment netdb.h |
| @comment BSD |
| @deftypefun void endnetgrent (void) |
| This function frees all buffers which were allocated to process the last |
| selected netgroup. As a result all string pointers returned by calls |
| to @code{getnetgrent} are invalid afterwards. |
| @end deftypefun |
| |
| @node Netgroup Membership |
| @subsection Testing for Netgroup Membership |
| |
| It is often not necessary to scan the whole netgroup since often the |
| only interesting question is whether a given entry is part of the |
| selected netgroup. |
| |
| @comment netdb.h |
| @comment BSD |
| @deftypefun int innetgr (const char *@var{netgroup}, const char *@var{host}, const char *@var{user}, const char *@var{domain}) |
| This function tests whether the triple specified by the parameters |
| @var{hostp}, @var{userp}, and @var{domainp} is part of the netgroup |
| @var{netgroup}. Using this function has the advantage that |
| |
| @enumerate |
| @item |
| no other netgroup function can use the global netgroup state since |
| internal locking is used and |
| @item |
| the function is implemented more efficiently than successive calls |
| to the other @code{set}/@code{get}/@code{endnetgrent} functions. |
| @end enumerate |
| |
| Any of the pointers @var{hostp}, @var{userp}, and @var{domainp} can be |
| @code{NULL} which means any value is accepted in this position. This is |
| also true for the name @code{-} which should not match any other string |
| otherwise. |
| |
| The return value is @code{1} if an entry matching the given triple is |
| found in the netgroup. The return value is @code{0} if the netgroup |
| itself is not found, the netgroup does not contain the triple or |
| internal errors occurred. |
| @end deftypefun |