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Much of the discussion presented in
Reading the User Database
applies to the group database as well. Although there has traditionally
been a well-known file (/etc/group) in a well-known format, the POSIX
standard only provides a set of C library routines
(<grp.h>
and getgrent()
)
for accessing the information.
Even though this file may exist, it may not have
complete information. Therefore, as with the user database, it is necessary
to have a small C program that generates the group database as its output.
grcat
, a C program that “cats” the group database,
is as follows:
/* * grcat.c * * Generate a printable version of the group database. */ #include <stdio.h> #include <grp.h> int main(int argc, char **argv) { struct group *g; int i; while ((g = getgrent()) != NULL) { printf("%s:%s:%ld:", g->gr_name, g->gr_passwd, (long) g->gr_gid); for (i = 0; g->gr_mem[i] != NULL; i++) { printf("%s", g->gr_mem[i]);
if (g->gr_mem[i+1] != NULL) putchar(','); }
putchar('\n'); } endgrent(); return 0; }
Each line in the group database represents one group. The fields are separated with colons and represent the following information:
The group’s name.
The group’s encrypted password. In practice, this field is never used; it is usually empty or set to ‘*’.
The group’s numeric group ID number;
the association of name to number must be unique within the file.
(On some systems it’s a C long
, and not an int
. Thus,
we cast it to long
for all cases.)
A comma-separated list of usernames. These users are members of the group.
Modern Unix systems allow users to be members of several groups
simultaneously. If your system does, then there are elements
"group1"
through "groupN"
in PROCINFO
for those group ID numbers.
(Note that PROCINFO
is a gawk
extension;
see section Predefined Variables.)
Here is what running grcat
might produce:
$ grcat -| wheel:*:0:arnold -| nogroup:*:65534: -| daemon:*:1: -| kmem:*:2: -| staff:*:10:arnold,miriam,andy -| other:*:20: …
Here are the functions for obtaining information from the group database. There are several, modeled after the C library functions of the same names:
# group.awk --- functions for dealing with the group file BEGIN { # Change to suit your system _gr_awklib = "/usr/local/libexec/awk/" } function _gr_init( oldfs, oldrs, olddol0, grcat, using_fw, using_fpat, n, a, i) { if (_gr_inited) return oldfs = FS oldrs = RS olddol0 = $0 using_fw = (PROCINFO["FS"] == "FIELDWIDTHS") using_fpat = (PROCINFO["FS"] == "FPAT") FS = ":" RS = "\n" grcat = _gr_awklib "grcat" while ((grcat | getline) > 0) { if ($1 in _gr_byname) _gr_byname[$1] = _gr_byname[$1] "," $4 else _gr_byname[$1] = $0 if ($3 in _gr_bygid) _gr_bygid[$3] = _gr_bygid[$3] "," $4 else _gr_bygid[$3] = $0 n = split($4, a, "[ \t]*,[ \t]*") for (i = 1; i <= n; i++) if (a[i] in _gr_groupsbyuser) _gr_groupsbyuser[a[i]] = _gr_groupsbyuser[a[i]] " " $1 else _gr_groupsbyuser[a[i]] = $1 _gr_bycount[++_gr_count] = $0 } close(grcat) _gr_count = 0 _gr_inited++ FS = oldfs if (using_fw) FIELDWIDTHS = FIELDWIDTHS else if (using_fpat) FPAT = FPAT RS = oldrs $0 = olddol0 }
The BEGIN
rule sets a private variable to the directory where
grcat
is stored. Because it is used to help out an awk
library
routine, we have chosen to put it in /usr/local/libexec/awk. You might
want it to be in a different directory on your system.
These routines follow the same general outline as the user database routines
(see section Reading the User Database).
The _gr_inited
variable is used to
ensure that the database is scanned no more than once.
The _gr_init()
function first saves FS
,
RS
, and
$0
, and then sets FS
and RS
to the correct values for
scanning the group information.
It also takes care to note whether FIELDWIDTHS
or FPAT
is being used, and to restore the appropriate field-splitting mechanism.
The group information is stored in several associative arrays.
The arrays are indexed by group name (_gr_byname
), by group ID number
(_gr_bygid
), and by position in the database (_gr_bycount
).
There is an additional array indexed by username (_gr_groupsbyuser
),
which is a space-separated list of groups to which each user belongs.
Unlike in the user database, it is possible to have multiple records in the database for the same group. This is common when a group has a large number of members. A pair of such entries might look like the following:
tvpeople:*:101:johnny,jay,arsenio tvpeople:*:101:david,conan,tom,joan
For this reason, _gr_init()
looks to see if a group name or
group ID number is already seen. If so, the usernames are
simply concatenated onto the previous list of users.75
Finally, _gr_init()
closes the pipeline to grcat
, restores
FS
(and FIELDWIDTHS
or FPAT
, if necessary), RS
, and $0
,
initializes _gr_count
to zero
(it is used later), and makes _gr_inited
nonzero.
The getgrnam()
function takes a group name as its argument, and if that
group exists, it is returned.
Otherwise, it
relies on the array reference to a nonexistent
element to create the element with the null string as its value:
function getgrnam(group) { _gr_init() return _gr_byname[group] }
The getgrgid()
function is similar; it takes a numeric group ID and
looks up the information associated with that group ID:
function getgrgid(gid) { _gr_init() return _gr_bygid[gid] }
The getgruser()
function does not have a C counterpart. It takes a
username and returns the list of groups that have the user as a member:
function getgruser(user) { _gr_init() return _gr_groupsbyuser[user] }
The getgrent()
function steps through the database one entry at a time.
It uses _gr_count
to track its position in the list:
function getgrent() { _gr_init() if (++_gr_count in _gr_bycount) return _gr_bycount[_gr_count]
return "" }
The endgrent()
function resets _gr_count
to zero so that getgrent()
can
start over again:
function endgrent() { _gr_count = 0 }
As with the user database routines, each function calls _gr_init()
to
initialize the arrays. Doing so only incurs the extra overhead of running
grcat
if these functions are used (as opposed to moving the body of
_gr_init()
into a BEGIN
rule).
Most of the work is in scanning the database and building the various
associative arrays. The functions that the user calls are themselves very
simple, relying on awk
’s associative arrays to do work.
The id
program in Printing Out User Information
uses these functions.
There is a
subtle problem with the code just presented. Suppose that
the first time there were no names. This code adds the names with
a leading comma. It also doesn’t check that there is a $4
.
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