- 1 Server-side issues
- 2 Client-side issues
- 3 Performance issues
- 4 Other issues
exportfs: /etc/exports:2: syntax error: bad option list
Delete all space from the option list in
Group/GID permissions issues
If NFS shares mount fine, and are fully accessible to the owner, but not to group members; check the number of groups that user belongs to. NFS has a limit of 16 on the number of groups a user can belong to. If you have users with more than this, you need to enable the
--manage-gids start-up flag for
rpc.mountd on the NFS server.
# Options for rpc.mountd. # If you have a port-based firewall, you might want to set up # a fixed port here using the --port option. # See rpc.mountd(8) for more details. MOUNTD_OPTS="--manage-gids"
"Permission denied" when trying to write files
- If you need to mount shares as root, and have full r/w access from the client, add the no_root_squash option to the export in
mount.nfs4: No such device
Check that you have loaded the
lsmod | grep nfs
and if previous returns empty or only nfsd-stuff, do
# modprobe nfs
mount.nfs4: access denied by server while mounting
NFS shares have to reside in /srv - check your
/etc/exports file and if necessary create the proper folder structure as described in the NFS#File_system page.
Check that the permissions on your client's folder are correct. Try using 755.
or try "exportfs -rav" reload
Unable to connect from OS X clients
When trying to connect from a OS X client, you will see that everything is ok at logs, but MacOS X refuses to mount your NFS share. You have to add
insecure option to your share and re-run
Unreliable connection from OS X clients
OS X's NFS client is optimized for OS X Servers and might present some issues with Linux servers. If you are experiencing slow performance, frequent disconnects and problems with international characters edit the default mount options by adding the line
nfs.client.mount.options = intr,locallocks,nfc to
/etc/nfs.conf on your Mac client. More information about the mount options can be found here.
Intermittent client freezes when copying large files
If you copy large files from your client machine to the NFS server, the transfer speed is very fast, but after some seconds the speed drops and your client machine intermittently locks up completely for some time until the transfer is finished.
Try adding sync as a mount option on the client (e.g. in /etc/fstab) to fix this problem.
If you got error such as this:
mount.nfs: rpc.statd is not running but is required for remote locking. mount.nfs: Either use '-o nolock' to keep locks local, or start statd. mount.nfs: an incorrect mount option was specified
To fix this, you need to change the "NEED_STATD" value in
Remember to start all the required services (see NFS), not just the
mount.nfs: Operation not permitted
After updating to nfs-utils 1.2.1-2 or higher, mounting NFS shares stopped working. Henceforth, nfs-utils uses NFSv4 per default instead of NFSv3. The problem can be solved by using either mount option
'nfsvers=3' on the command line:
# mount.nfs remote target directory -o ...,vers=3,... # mount.nfs remote target directory -o ...,nfsvers=3,...
remote target directory nfs ...,vers=3,... 0 0 remote target directory nfs ...,nfsvers=3,... 0 0
This NFS Howto page has some useful information regarding performance. Here are some further tips:
Diagnose the problem
- Htop should be your first port of call. The most obvious symptom will be a maxed-out CPU.
- Press F2, and under "Display options", enable "Detailed CPU time". Press F1 for an explanation of the colours used in the CPU bars. In particular, is the CPU spending most of its time responding to IRQs, or in Wait-IO (wio)?
Symptoms: Nothing seems to be very heavily loaded, but some operations on the client take a long time to complete for no apparent reason.
If your workload involves lots of small reads and writes (or if there are a lot of clients), there may not be enough threads running on the server to handle the quantity of queries. To check if this is the case, run the following command on one or more of the clients:
# nfsstat -rc
Client rpc stats: calls retrans authrefrsh 113482 0 113484
retrans column contains a number larger than 0, the server is failing to respond to some NFS requests, and the number of threads should be increased.
To increase the number of threads on the server, edit the file
/etc/conf.d/nfs-server.conf and change the value of the
NFSD_COUNT variable. The default number of threads is 8. Try doubling this number until
retrans remains consistently at zero. Don't be afraid of increasing the number quite substantially. 256 threads may be quite reasonable, depending on the workload. You will need to restart the NFS server daemon each time you modify the configuration file. Bear in mind that the client statistics will only be reset to zero when the client is rebooted.
Use htop (disable the hiding of kernel threads) to keep an eye on how much work each nfsd thread is doing. If you reach a point where the
retrans values are non-zero, but you can see
nfsd threads on the server doing no work, something different is now causing your bottleneck, and you'll need to re-diagnose this new problem.
Symptoms: Your clients are writing many small files. The server CPU is not maxed out, but there is very high wait-IO, and the server disk seems to be churning more than you might expect.
In order to ensure data consistency across clients, the NFS protocol requires that the client's cache is flushed (all data is pushed to the server) whenever a file is closed after writing. Because the server is not allowed to buffer disk writes (if it crashes, the client won't realise the data wasn't written properly), the data is written to disk immediately before the client's request is completed. When you're writing lots of small files from the client, this means that the server spends most of its time waiting for small files to be written to its disk, which can cause a significant reduction in throughput.
See this excellent article or the nfs manpage for more details on the close-to-open policy. There are several approaches to solving this problem:
The nocto mount option
Does your situation match these conditions?
- The export you have mounted on the client is only going to be used by the one client.
- It doesn't matter too much if a file written on one client doesn't immediately appear on other clients.
- It doesn't matter if after a client has written a file, and the client thinks the file has been saved, and then the client crashes, the file may be lost.
If you're happy with the above conditions, you can use the nocto mount option, which will disable the close-to-open behaviour. See the nfs manpage for details.
The async export option
Does your situation match these conditions?
- It's important that when a file is closed after writing on one client, it is:
- Immediately visible on all the other clients.
- Safely stored on the server, even if the client crashes immediately after closing the file.
- It's not important to you that if the server crashes:
- You may loose the files that were most recently written by clients.
- When the server is restarted, the clients will believe their recent files exist, even though they were actually lost.
In this situation, you can use
async instead of
sync in the server's
/etc/exports file for those specific exports. See the exports manual page for details. In this case, it does not make sense to use the
nocto mount option on the client.
Buffer cache size and MTU
Symptoms: High kernel or IRQ CPU usage, a very high packet count through the network card.
This is a trickier optimisation. Make sure this is definitely the problem before spending too much time on this. The default values are usually fine for most situations.
See this excellent article for information about I/O buffering in NFS. Essentially, data is accumulated into buffers before being sent. The size of the buffer will affect the way data is transmitted over the network. The Maximum Transmission Unit (MTU) of the network equipment will also affect throughput, as the buffers need to be split into MTU-sized chunks before they're sent over the network. If your buffer size is too big, the kernel or hardware may spend too much time splitting it into MTU-sized chunks. If the buffer size is too small, there will be overhead involved in sending a very large number of small packets. You can use the rsize and wsize mount options on the client to alter the buffer cache size. To achieve the best throughput, you need to experiment and discover the best values for your setup.
It is possible to change the MTU of many network cards. If your clients are on a separate subnet (e.g. for a Beowulf cluster), it may be safe to configure all of the network cards to use a high MTU. This should be done in very-high-bandwidth environments.
See also the nfs manual page for more about rsize and wsize.
If you find that you cannot set the permissions on files properly, make sure the user/group you are chowning are on both the client and server.
If all your files are owned by
nobody, and you are using NFSv4, on both the client and server, you should:
- For systemd, ensure that the
rpc-idmapdservice has been started.
- For initscripts, ensure that
NEED_IDMAPDis set to