GETGRNAM(3C) Standard C Library Functions GETGRNAM(3C)

NAME

getgrnam, getgrnam_r, getgrent, getgrent_r, getgrgid, getgrgid_r,
setgrent, endgrent, fgetgrent, fgetgrent_r - group database entry
functions

SYNOPSIS

#include <grp.h>

struct group *getgrnam(const char *name);


struct group *getgrnam_r(const char *name, struct group *grp,
char *buffer, int bufsize);


struct group *getgrent(void);


struct group *getgrent_r(struct group *grp, char *buffer, int bufsize);


struct group *getgrgid(gid_t gid);


struct group *getgrgid_r(gid_t gid, struct group *grp, char *buffer,
int bufsize);


void setgrent(void);


void endgrent(void);


struct group *fgetgrent(FILE *f);


struct group *fgetgrent_r(FILE *f, struct group *grp, char *buffer,
int bufsize);

Standard conforming

cc [ flag... ] file... -D_POSIX_PTHREAD_SEMANTICS [ library... ]

int getgrnam_r(const char *name, struct group *grp, char *buffer,
size_t bufsize, struct group **result);


int getgrgid_r(gid_t gid, struct group *grp, char *buffer,
size_t bufsize, struct group **result);

DESCRIPTION

These functions are used to obtain entries describing user groups.
Entries can come from any of the sources for group specified in the
/etc/nsswitch.conf file (see nsswitch.conf(5)).


The getgrnam() function searches the group database for an entry with
the group name specified by the character string parameter name.


The getgrgid() function searches the group database for an entry with
the (numeric) group id specified by gid.


The setgrent(), getgrent(), and endgrent() functions are used to
enumerate group entries from the database.


The setgrent() function effectively rewinds the group database to
allow repeated searches. It sets (or resets) the enumeration to the
beginning of the set of group entries. This function should be
called before the first call to getgrent().


The getgrent() function returns a pointer to a structure containing
the broken-out fields of an entry in the group database. When first
called, getgrent() returns a pointer to a group structure containing
the next group structure in the group database. Successive calls can
be used to search the entire database.


The endgrent() function can be called to close the group database and
deallocate resources when processing is complete. It is permissible,
though possibly less efficient, for the process to call more group
functions after calling endgrent().


The fgetgrent() function, unlike the other functions above, does not
use nsswitch.conf. It reads and parses the next line from the stream
f, which is assumed to have the format of the group file (see
group(5)).

Reentrant Interfaces

The getgrnam(), getgrgid(), getgrent(), and fgetgrent() functions
use thread-specific storage that is reused in each call to one of
these functions by the same thread, making them safe to use but not
recommended for multithreaded applications.


The parallel functions getgrnam_r(), getgrgid_r(), getgrent_r(), and
fgetgrent_r() provide reentrant interfaces for these operations.


Each reentrant interface performs the same operation as its non-
reentrant counterpart, named by removing the _r suffix. The
reentrant interfaces, however, use buffers supplied by the caller to
store returned results instead of using thread-specific data that can
be overwritten by each call. They are safe for use in both single-
threaded and multithreaded applications.


Each reentrant interface takes the same arguments as its non-
reentrant counterpart, as well as the following additional
parameters. The grp argument must be a pointer to a struct group
structure allocated by the caller. On successful completion, the
function returns the group entry in this structure. Storage
referenced by the group structure is allocated from the memory
provided with the buffer argument that is bufsize characters in size.
The maximum size needed for this buffer can be determined with the
_SC_GETGR_R_SIZE_MAX sysconf(3C) parameter. The standard-conforming
versions place a pointer to the modified grp structure in the result
parameter, instead of returning a pointer to this structure. A null
pointer is returned at the location pointed to by result on error or
if the requested entry is not found.


For enumeration in multithreaded applications, the position within
the enumeration is a process-wide property shared by all threads. The
setgrent() function can be used in a multithreaded application but
resets the enumeration position for all threads. If multiple threads
interleave calls to getgrent_r(), the threads will enumerate disjoint
subsets of the group database. Like their non-reentrant counterparts,
getgrnam_r() and getgrgid_r() leave the enumeration position in an
indeterminate state.

group Structure
Group entries are represented by the struct group structure defined
in <grp.h>:

struct group {
char *gr_name; /* the name of the group */
char *gr_passwd; /* the encrypted group password */
gid_t gr_gid; /* the numerical group ID */
char **gr_mem; /* vector of pointers to member
names */
};

RETURN VALUES

The getgrnam(), getgrnam_r(), getgrgid(), and getgrgid_r() functions
each return a pointer to a struct group if they successfully locate
the requested entry. They return a null pointer if either the
requested entry was not found or an error occurred. On error, errno
is set to indicate the error. The standard-conforming functions
getgrnam_r() and getgrgid_r() return 0 upon success or an error
number in case of failure.


The getgrent(), getgrent_r(), fgetgrent(), and fgetgrent_r()
functions each return a pointer to a struct group if they
successfully enumerate an entry; otherwise they return a null pointer
on end-of-file or error. On error, errno is set to indicate the
error.


The getgrnam(), getgrgid(), getgrent(), and fgetgrent() functions use
thread-specific data storage, so returned data must be copied before
a subsequent call to any of these functions if the data are to be
saved.


When the pointer returned by the reentrant functions getgrnam_r(),
getgrgid_r(), getgrent_r(), and fgetgrent_r() is non-null, it is
always equal to the grp pointer that was supplied by the caller.


Applications wishing to check for error situations should set errno
to 0 before calling getgrnam(), getgrnam_r(), getgrent(),
getgrent_r()getgrgid(), getgrgid_r(), fgetgrent(), and fgetgrent_r().
If these functions return a null pointer and errno is non-zero, an
error occurred.

ERRORS

The getgrent_r(), fgetgrent(), and fgetgrent_r() functions will fail
if:

EIO
An I/O error has occurred.


ERANGE
Insufficient storage was supplied by buffer and bufsize to
contain the data to be referenced by the resulting group
structure.


The getgrent_r() function will fail if:

EMFILE
There are {OPEN_MAX} file descriptors currently open in the
calling process.


ENFILE
The maximum allowable number of files is currently open in
the system.


The getgrnam(), getgrnam_r(), getgrgid(), getgrgid_r(), and
getgrent() functions may fail if:

EINTR
A signal was caught during the operation.


EIO
An I/O error has occurred.


EMFILE
There are {OPEN_MAX} file descriptors currently open in the
calling process.


ENFILE
The maximum allowable number of files is currently open in
the system.


The getgrnam_r() and getgrgid_r() functions may fail if:

ERANGE
Insufficient storage was supplied by buffer and bufsize to
contain the data to be referenced by the resulting group
structure.

ATTRIBUTES

See attributes(7) for descriptions of the following attributes:


+--------------------+------------------------------------------+
| ATTRIBUTE TYPE | ATTRIBUTE VALUE |
+--------------------+------------------------------------------+
|Interface Stability | See below. |
+--------------------+------------------------------------------+
|MT-Level | See Reentrant Interfaces in DESCRIPTION. |
+--------------------+------------------------------------------+


The endgrent(), getgrent(), getgrgid(), getgrgid_r(), getgrnam(),
getgrnam_r(), and setgrent() functions are Standard.

SEE ALSO

Intro(3), getpwnam(3C), group(5), nsswitch.conf(5), passwd(5),
attributes(7), standards(7)

NOTES

When compiling multithreaded programs, see Intro(3).


Use of the enumeration interfaces getgrent() and getgrent_r() is
discouraged; enumeration is supported for the group file and NIS but
in general is not efficient and might not be supported for all
database sources. The semantics of enumeration are discussed further
in nsswitch.conf(5).


Previous releases allowed the use of ``+'' and ``-'' entries in
/etc/group to selectively include and exclude entries from NIS. The
primary usage of these entries is superseded by the name service
switch, so the ``+/-'' form might not be supported in future
releases.


If required, the ``+/-'' functionality can still be obtained for NIS
by specifying compat as the source for group.


If the ``+/-'' functionality is required in conjunction with LDAP,
specify both compat as the source for group and ldap as the source
for the pseudo-database group_compat. See group(5), and
nsswitch.conf(5) for details.


Solaris 2.4 and earlier releases provided definitions of the
getgrnam_r() and getgrgid_r() functions as specified in POSIX.1c
Draft 6. The final POSIX.1c standard changed the interface for these
functions. Support for the Draft 6 interface is provided for
compatibility only and might not be supported in future releases. New
applications and libraries should use the standard-conforming
interface.


For POSIX.1c-conforming applications, the _POSIX_PTHREAD_SEMANTICS
and _REENTRANT flags are automatically turned on by defining the
_POSIX_C_SOURCE flag with a value >=199506L.

February 25, 2017 GETGRNAM(3C)