systemd
Daemonjournalctl
: Query the systemd
Journaludev
The Network File System (NFS) is a protocol that allows access to files on a server ima a manner very similar to accessing local files.
The Network File System (NFS) is a standardized, well-proven and widely supported network protocol that allows files to be shared between separate hosts.
The Network Information Service (NIS) can be used to have a centralized user management in the network. Combining NFS and NIS allows using file and directory permissions for access control in the network. NFS with NIS makes a network transparent to the user.
In the default configuration, NFS completely trusts the network and thus any machine that is connected to a trusted network. Any user with administrator privileges on any computer with physical access to any network the NFS server trusts can access any files that the server makes available.
Often, this level of security is perfectly satisfactory, such as when the network that is trusted is truly private, often localized to a single cabinet or machine room, and no unauthorized access is possible. In other cases the need to trust a whole subnet as a unit is restrictive and there is a need for more fine-grained trust. To meet the need in these cases, NFS supports various security levels using the Kerberos infrastructure. Kerberos requires NFSv4, which is used by default. For details, see Book “Security Guide”, Chapter 6 “Network Authentication with Kerberos”.
The following are terms used in the YaST module.
A directory exported by an NFS server, which clients can integrate it into their system.
The NFS client is a system that uses NFS services from an NFS server over the Network File System protocol. The TCP/IP protocol is already integrated into the Linux kernel; there is no need to install any additional software.
The NFS server provides NFS services to clients. A running server depends
on the following daemons: nfsd
(worker), idmapd
(ID-to-name
mapping for NFSv4, needed for certain scenarios only), statd
(file locking), and mountd
(mount requests).
NFSv3 is the version 3 implementation, the “old” stateless NFS that supports client authentication.
NFSv4 is the new version 4 implementation that supports secure user authentication via kerberos. NFSv4 requires one single port only and thus is better suited for environments behind a firewall than NFSv3.
The protocol is specified as http://tools.ietf.org/html/rfc3530.
Parallel NFS, a protocol extension of NFSv4. Any pNFS clients can directly access the data on an NFS server.
In principle, all exports can be made using IP addresses only. To avoid
time-outs, you need a working DNS system. DNS is necessary at least for
logging purposes, because the mountd
daemon does reverse lookups.
The NFS server is not part of the default installation. To install the NFS server using YaST, choose
› , select , and enable the option in the section. Click to install the required packages.Like NIS, NFS is a client/server system. However, a machine can be both—it can supply file systems over the network (export) and mount file systems from other hosts (import).
Mounting NFS volumes locally on the exporting server is not supported on openSUSE Leap.
Configuring an NFS server can be done either through YaST or manually. For authentication, NFS can also be combined with Kerberos.
With YaST, turn a host in your network into an NFS server—a server that exports directories and files to all hosts granted access to it or to all members of a group. Thus, the server can also provide applications without installing the applications locally on every host.
To set up such a server, proceed as follows:
Start YaST and select Figure 22.1, “NFS Server Configuration Tool”. You may be prompted to install additional software.
› ; seeActivate the
radio button.
If a firewall is active on your system (SuSEfirewall2), check
nfs
service.
Check whether you want to Note: NFSv2.
. If you deactivate NFSv4, YaST will only support NFSv3. For information about enabling NFSv2, see
If NFSv4 is selected, additionally enter the appropriate NFSv4 domain
name. This parameter is used by the idmapd
daemon that is required for Kerberos
setups or if clients cannot work with numeric user names. Leave it as
localdomain
(the default) if you do not run
idmapd
or do not have any
special requirements. For more information on the idmapd
daemon see /etc/idmapd.conf
.
Click
if you need secure access to the server. A prerequisite for this is to have Kerberos installed on your domain and to have both the server and the clients kerberized. Click to proceed with the next configuration dialog.Click
in the upper half of the dialog to export your directory.If you have not configured the allowed hosts already, another dialog for entering the client information and options pops up automatically. Enter the host wild card (usually you can leave the default settings as they are).
There are four possible types of host wild cards that can be set for each
host: a single host (name or IP address), netgroups, wild cards (such as
*
indicating all machines can access the server), and
IP networks.
For more information about these options, see the
exports
man page.
Click
to complete the configuration.
The configuration files for the NFS export service are
/etc/exports
and
/etc/sysconfig/nfs
. In addition to these files,
/etc/idmapd.conf
is needed for the NFSv4 server
configuration with kerberized NFS or if the clients cannot work with
numeric user names.
To start or restart the services, run the command
systemctl restart nfsserver
. This also restarts the
RPC portmapper that is required by the NFS server.
To make sure the NFS server always starts at boot time, run sudo
systemctl enable nfsserver
.
NFSv4 is the latest version of NFS protocol available on openSUSE Leap. Configuring directories for export with NFSv4 is now the same as with NFSv3.
On openSUSE
prior to Leap, the bind mount in
/etc/exports
was mandatory. It is still supported,
but now deprecated.
/etc/exports
The /etc/exports
file contains a list of entries.
Each entry indicates a directory that is shared and how it is shared. A
typical entry in /etc/exports
consists of:
/SHARED/DIRECTORY HOST(OPTION_LIST)
For example:
/export/data 192.168.1.2(rw,sync)
Here the IP address 192.168.1.2
is used to identify
the allowed client. You can also use the name of the host, a wild card
indicating a set of hosts (*.abc.com
,
*
, etc.), or netgroups
(@my-hosts
).
For a detailed explanation of all options and their meaning, refer to
the man page of /etc/exports
(man
exports
).
In case you have modified /etc/exports
while the
NFS server was running, you need to restart it for the changes to become
active: sudo systemctl restart nfsserver
.
/etc/sysconfig/nfs
The /etc/sysconfig/nfs
file contains a few
parameters that determine NFSv4 server daemon behavior. It is important
to set the parameter NFS4_SUPPORT
to
yes
(default). NFS4_SUPPORT
determines whether the NFS server supports NFSv4 exports and clients.
In case you have modified /etc/sysconfig/nfs
while
the NFS server was running, you need to restart it for the changes to
become active: sudo systemctl restart nfsserver
.
On openSUSE prior to Leap, the
--bind
mount in /etc/exports
was
mandatory. It is still supported, but now deprecated. Configuring
directories for export with NFSv4 is now the same as with NFSv3.
If NFS clients still depend on NFSv2, enable it on the server in
/etc/sysconfig/nfs
by setting:
NFSD_OPTIONS="-V2" MOUNTD_OPTIONS="-V2"
After restarting the service, check whether version 2 is available with the command:
tux >
cat /proc/fs/nfsd/versions
+2 +3 +4 +4.1 -4.2
/etc/idmapd.conf
The idmapd
daemon is only
required if Kerberos authentication is used, or if clients cannot work
with numeric user names. Linux clients can work with numeric user names
since Linux kernel 2.6.39. The idmapd
daemon does the name-to-ID mapping
for NFSv4 requests to the server and replies to the client.
If required, idmapd
needs to run on the NFSv4 server. Name-to-ID mapping on the client will
be done by nfsidmap
provided by the package
nfs-client.
Make sure that there is a uniform way in which user names and IDs (UIDs) are assigned to users across machines that might probably be sharing file systems using NFS. This can be achieved by using NIS, LDAP, or any uniform domain authentication mechanism in your domain.
The parameter Domain
must be set the same for both,
client and server in the /etc/idmapd.conf
file. If
you are not sure, leave the domain as localdomain
in
the server and client files. A sample configuration file looks like the
following:
[General] Verbosity = 0 Pipefs-Directory = /var/lib/nfs/rpc_pipefs Domain = localdomain [Mapping] Nobody-User = nobody Nobody-Group = nobody
To start the idmapd
daemon, run
systemctl start nfs-idmapd
. In case you have modified
/etc/idmapd.conf
while the daemon was running, you
need to restart it for the changes to become active: systemctl
start nfs-idmapd
.
For more information, see the man pages of idmapd
and
idmapd.conf
(man idmapd
and
man idmapd.conf
).
To use Kerberos authentication for NFS, Generic Security Services (GSS) must be enabled. Select
in the initial YaST NFS Server dialog. You must have a working Kerberos server to use this feature. YaST does not set up the server but only uses the provided functionality. To use Kerberos authentication in addition to the YaST configuration, complete at least the following steps before running the NFS configuration:
Make sure that both the server and the client are in the same Kerberos
domain. They must access the same KDC (Key Distribution Center) server
and share their krb5.keytab
file (the default
location on any machine is /etc/krb5.keytab
). For
more information about Kerberos, see
Book “Security Guide”, Chapter 6 “Network Authentication with Kerberos”.
Start the gssd service on the client with systemctl start
rpc-gssd.service
.
Start the svcgssd service on the server with systemctl start
rpc-svcgssd.service
.
Kerberos authentication also requires the idmapd
daemon to run on the server. For more
information refer to /etc/idmapd.conf
.
For more information about configuring kerberized NFS, refer to the links in Section 22.5, “For More Information”.
To configure your host as an NFS client, you do not need to install additional software. All needed packages are installed by default.
Authorized users can mount NFS directories from an NFS server into the local file tree using the YaST NFS client module. Proceed as follows:
Start the YaST NFS client module.
Click
in the tab. Enter the host name of the NFS server, the directory to import, and the mount point at which to mount this directory locally.
When using NFSv4, select localdomain
.
To use Kerberos authentication for NFS, GSS security must be enabled. Select
.Enable
in the tab if you use a Firewall and want to allow access to the service from remote computers. The firewall status is displayed next to the check box.Click
to save your changes.
The configuration is written to /etc/fstab
and the
specified file systems are mounted. When you start the YaST configuration
client at a later time, it also reads the existing configuration from this
file.
On (diskless) systems, where the root partition is mounted via network as an NFS share, you need to be careful when configuring the network device with which the NFS share is accessible.
When shutting down or rebooting the system, the default processing order is to turn off network connections, then unmount the root partition. With NFS root, this order causes problems as the root partition cannot be cleanly unmounted as the network connection to the NFS share is already not activated. To prevent the system from deactivating the relevant network device, open the network device configuration tab as described in Section 13.4.1.2.5, “Activating the Network Device” and choose in the pane.
The prerequisite for importing file systems manually from an NFS server is
a running RPC port mapper. The nfs
service takes care to
start it properly; thus, start it by entering systemctl start
nfs
as root
. Then
remote file systems can be mounted in the file system like local partitions
using mount
:
tux >
sudo
mount HOST:REMOTE-PATHLOCAL-PATH
To import user directories from the nfs.example.com
machine, for example, use:
tux >
sudo
mount nfs.example.com:/home /home
The autofs daemon can be used to mount remote file systems automatically.
Add the following entry to the /etc/auto.master
file:
/nfsmounts /etc/auto.nfs
Now the /nfsmounts
directory acts as the root for all
the NFS mounts on the client if the auto.nfs
file is
filled appropriately. The name auto.nfs
is chosen for
the sake of convenience—you can choose any name. In
auto.nfs
add entries for all the NFS mounts as
follows:
localdata -fstype=nfs server1:/data nfs4mount -fstype=nfs4 server2:/
Activate the settings with systemctl start autofs
as
root
. In this example, /nfsmounts/localdata
,
the /data
directory of
server1
, is mounted with NFS and
/nfsmounts/nfs4mount
from
server2
is mounted with NFSv4.
If the /etc/auto.master
file is edited while the
service autofs is running, the automounter must be restarted for the
changes to take effect with systemctl restart autofs
.
/etc/fstab
#
A typical NFSv3 mount entry in /etc/fstab
looks like
this:
nfs.example.com:/data /local/path nfs rw,noauto 0 0
For NFSv4 mounts, use nfs4
instead of
nfs
in the third column:
nfs.example.com:/data /local/pathv4 nfs4 rw,noauto 0 0
The noauto
option prevents the file system from being
mounted automatically at start-up. If you want to mount the respective
file system manually, it is possible to shorten the mount command
specifying the mount point only:
tux >
sudo
mount /local/path
If you do not enter the noauto
option, the init
scripts of the system will handle the mount of those file systems at
start-up.
NFS is one of the oldest protocols, developed in the '80s. As such, NFS is usually sufficient if you want to share small files. However, when you want to transfer big files or many clients want to access data, an NFS server becomes a bottleneck and has a significant impact on the system performance. This is because of files quickly getting bigger, whereas the relative speed of your Ethernet has not fully kept up.
When you request a file from a regular NFS server, the server looks up the file metadata, collects all the data and transfers it over the network to your client. However, the performance bottleneck becomes apparent no matter how small or big the files are:
With small files most of the time is spent collecting the metadata.
With big files most of the time is spent on transferring the data from server to client.
pNFS, or parallel NFS, overcomes this limitation as it separates the file system metadata from the location of the data. As such, pNFS requires two types of servers:
A metadata or control server that handles all the non-data traffic
One or more storage server(s) that hold(s) the data
The metadata and the storage servers form a single, logical NFS server. When a client wants to read or write, the metadata server tells the NFSv4 client which storage server to use to access the file chunks. The client can access the data directly on the server.
openSUSE Leap supports pNFS on the client side only.
Proceed as described in Procedure 22.2, “Importing NFS Directories”, but click
the check box and optionally . YaST will do all the necessary steps and will write all
the required options in the file /etc/exports
.
Refer to Section 22.4.2, “Importing File Systems Manually” to start. Most of the
configuration is done by the NFSv4 server. For pNFS, the only difference
is to add the minorversion
option and the metadata server
MDS_SERVER to your mount
command:
tux >
sudo
mount -t nfs4 -o minorversion=1 MDS_SERVER MOUNTPOINT
To help with debugging, change the value in the /proc
file system:
tux >
sudo
echo 32767 > /proc/sys/sunrpc/nfsd_debugtux >
sudo
echo 32767 > /proc/sys/sunrpc/nfs_debug
In addition to the man pages of exports
,
nfs
, and mount
, information about
configuring an NFS server and client is available in
/usr/share/doc/packages/nfsidmap/README
. For further
documentation online refer to the following Web sites:
Find the detailed technical documentation online at SourceForge.
For instructions for setting up kerberized NFS, refer to NFS Version 4 Open Source Reference Implementation.
If you have questions on NFSv4, refer to the Linux NFSv4 FAQ.