HardenedBSD/sbin/mountd/netgroup.5

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.\" @(#)netgroup.5 8.2 (Berkeley) 12/11/93
.\"
.Dd December 11, 1993
.Dt NETGROUP 5
.Os
.Sh NAME
.Nm netgroup
.Nd defines network groups
.Sh SYNOPSIS
.Nm netgroup
.Sh DESCRIPTION
The
.Nm netgroup
file
specifies ``netgroups'', which are sets of
.Sy (host, user, domain)
tuples that are to be given similar network access.
.Pp
Each line in the file
consists of a netgroup name followed by a list of the members of the
netgroup.
Each member can be either the name of another netgroup or a specification
of a tuple as follows:
.Bd -literal -offset indent
(host, user, domain)
.Ed
where the
.Sy host ,
.Sy user ,
and
.Sy domain
are character string names for the corresponding component.
Any of the comma separated fields may be empty to specify a ``wildcard'' value
or may consist of the string ``-'' to specify ``no valid value''.
The members of the list may be separated by whitespace and/or commas;
the ``\e'' character may be used at the end of a line to specify
line continuation.
The functions specified in
.Xr getnetgrent 3
should normally be used to access the
.Nm netgroup
database.
.Pp
Lines that begin with a # are treated as comments.
Just when you thought it was safe... - getnetgrent.c: address some NIS compatibility problems. We really need to use the netgroup.byuser and netgroup.byhost maps to speed up innetgr() when using NIS. Also, change the NIS interaction in the following way: If /etc/netgroup does not exist or is empty (or contains only the NIS '+' token), we now use NIS exclusively. This lets us use the 'reverse netgroup' maps and is more or less the behavior of other platforms. If /etc/netgroup exists and contains local netgroup data (but no '+'). we use only lthe local stuff and ignore NIS. If /etc/netgroup exists and contains both local data and the '+', we use the local data nd the netgroup map as a single combined database (which, unfortunately, can be slow when the netgroup database is large). This is what we have been doing up until now. Head off a potential NULL pointer dereference in the old innetgr() matching code. Also fix the way the NIS netgroup map is incorporated into things: adding the '+' is supposed to make it seem as though the netgroup database is 'inserted' wherever the '+' is placed. We didn't quite do it that way before. (The NetBSD people apparently use a real, honest-to-gosh, netgroup.db database that works just like the password database. This is actually a neat idea since netgroups is the sort of thing that can really benefit from having multi-key search capability, particularly since reverse lookups require more than a trivial amount of processing. Should we do something like this too?) - netgroup.5: document all this stuff. - rcmd.c: some sleuthing with some test programs linked with my own version of innetgr() has revealed that SunOS always passes the NIS domain name to innetgr() in the 'domain' argument. We might as well do the same (if YP is defined). - ether_addr.c: also fix the NIS interaction so that placing the '+' token in the /etc/ethers file makes it seem like the NIS ethers data is 'inserted' at that point. (Chances are nobody will notice the effect of this change, which is just te way I like it. :)
1995-08-07 05:42:14 +02:00
.Sh NIS/YP INTERACTION
On most other platforms,
.Nm netgroups
are only used in conjunction with
NIS and local
.Pa /etc/netgroup
files are ignored. With FreeBSD,
.Nm netgroups
can be used with either NIS or local files, but there are certain
caveats to consider. The existing
.Nm netgroup
system is extremely inefficient where
.Fn innetgr 3
lookups are concerned since
.Nm netgroup
memberships are computed on the fly. By contrast, the NIS
.Nm netgroup
database consists of three seperate maps (netgroup, netgroup.byuser
and netgroup.byhost) that are keyed to allow
.Fn innetgr 3
lookups to be done quickly. The FreeBSD
.Nm netgroup
system can interact with the NIS
.Nm netgroup
maps in the following ways:
.Bl -bullet -offset indent
.It
If the
.Pa /etc/netgroup
file does not exist, or it exists and is empty, or
it exists and contains only a '+', and NIS is running,
.Nm netgroup
lookups will be done exclusively through NIS, with
.Fn innetgr 3
taking advantage of the netgroup.byuser and
netgroup.byhost maps to speed up searches. (This
is more or less compatible with the behavior of SunOS and
similar platforms.)
.It
If the
.Pa /etc/netgroup
exists and contains only local
.Nm netgroup
information (with no NIS '+' token), then only the local
.Nm netgroup
information will be processed (and NIS will be ingored).
.It
If
.Pa /etc/netgroup
exists and contains both local netgroup data
.Pa and
the NIS '+' token, the local data and the NIS netgroup
map will be processed as a single combined
.Nm netgroup
database. While this configuration is the most flexible, it
is also the least efficient: in particular,
.Fn innetgr 3
lookups will be especially slow if the
database is large.
.El
.Sh FILES
.Bl -tag -width /etc/netgroup -compact
.It Pa /etc/netgroup
the netgroup database.
.El
.Sh SEE ALSO
.Xr getnetgrent 3 ,
.Xr exports 5
.Sh COMPATIBILITY
The file format is compatible with that of various vendors, however it
appears that not all vendors use an identical format.
.Sh BUGS
The interpretation of access restrictions based on the member tuples of a
netgroup is left up to the various network applications.
Also, it is not obvious how the domain specification
applies to the BSD environment.
Just when you thought it was safe... - getnetgrent.c: address some NIS compatibility problems. We really need to use the netgroup.byuser and netgroup.byhost maps to speed up innetgr() when using NIS. Also, change the NIS interaction in the following way: If /etc/netgroup does not exist or is empty (or contains only the NIS '+' token), we now use NIS exclusively. This lets us use the 'reverse netgroup' maps and is more or less the behavior of other platforms. If /etc/netgroup exists and contains local netgroup data (but no '+'). we use only lthe local stuff and ignore NIS. If /etc/netgroup exists and contains both local data and the '+', we use the local data nd the netgroup map as a single combined database (which, unfortunately, can be slow when the netgroup database is large). This is what we have been doing up until now. Head off a potential NULL pointer dereference in the old innetgr() matching code. Also fix the way the NIS netgroup map is incorporated into things: adding the '+' is supposed to make it seem as though the netgroup database is 'inserted' wherever the '+' is placed. We didn't quite do it that way before. (The NetBSD people apparently use a real, honest-to-gosh, netgroup.db database that works just like the password database. This is actually a neat idea since netgroups is the sort of thing that can really benefit from having multi-key search capability, particularly since reverse lookups require more than a trivial amount of processing. Should we do something like this too?) - netgroup.5: document all this stuff. - rcmd.c: some sleuthing with some test programs linked with my own version of innetgr() has revealed that SunOS always passes the NIS domain name to innetgr() in the 'domain' argument. We might as well do the same (if YP is defined). - ether_addr.c: also fix the NIS interaction so that placing the '+' token in the /etc/ethers file makes it seem like the NIS ethers data is 'inserted' at that point. (Chances are nobody will notice the effect of this change, which is just te way I like it. :)
1995-08-07 05:42:14 +02:00
.Pp
The
.Nm netgroup
database should be stored in the form of a
hashed
.Xr db 3
database just like the
.Xr passwd 5
database to speed up reverse lookups.