High-Availability Storage With GlusterFS On Ubuntu 9.10 - Automatic File Replication (Mirror) Across Two Storage Servers
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This tutorial shows how to set up a high-availability storage with two storage servers (Ubuntu 9.10) that use GlusterFS. Each storage server will be a mirror of the other storage server, and files will be replicated automatically across both storage servers. The client system (Ubuntu 9.10 as well) will be able to access the storage as if it was a local filesystem. GlusterFS is a clustered file-system capable of scaling to several peta-bytes. It aggregates various storage bricks over Infiniband RDMA or TCP/IP interconnect into one large parallel network file system. Storage bricks can be made of any commodity hardware such as x86_64 servers with SATA-II RAID and Infiniband HBA.
I do not issue any guarantee that this will work for you!
1 Preliminary Note
In this tutorial I use three systems, two servers and a client:
- server1.example.com: IP address 192.168.0.100 (server)
- server2.example.com: IP address 192.168.0.101 (server)
- client1.example.com: IP address 192.168.0.102 (client)
Because we will run all the steps from this tutorial with root privileges, we can either prepend all commands in this tutorial with the string sudo, or we become root right now by typing
sudo su
All three systems should be able to resolve the other systems' hostnames. If this cannot be done through DNS, you should edit the /etc/hosts file so that it looks as follows on all three systems:
vi /etc/hosts
127.0.0.1 localhost.localdomain localhost192.168.0.100 server1.example.com server1192.168.0.101 server2.example.com server2192.168.0.102 client1.example.com client1# The following lines are desirable for IPv6 capable hosts::1 localhost ip6-localhost ip6-loopbackfe00::0 ip6-localnetff00::0 ip6-mcastprefixff02::1 ip6-allnodesff02::2 ip6-allroutersff02::3 ip6-allhosts
(It is also possible to use IP addresses instead of hostnames in the following setup. If you prefer to use IP addresses, you don't have to care about whether the hostnames can be resolved or not.)
2 Setting Up The GlusterFS Servers
server1.example.com/server2.example.com:
GlusterFS is available as a package for Ubuntu 9.10, therefore we can install it as follows:
aptitude install glusterfs-server
The command
glusterfs --version
should now show the GlusterFS version that you've just installed (2.0.2 in this case):
root@server1:~# glusterfs --version
glusterfs 2.0.2 built on Jun 29 2009 23:49:59
Repository revision: 07019da2e16534d527215a91904298ede09bb798
Copyright (c) 2006-2009 Z RESEARCH Inc. <http://www.zresearch.com>
GlusterFS comes with ABSOLUTELY NO WARRANTY.
You may redistribute copies of GlusterFS under the terms of the GNU General Public License.
root@server1:~#
Next we create a few directories:
mkdir /data/
mkdir /data/export
mkdir /data/export-ns
Now we create the GlusterFS server configuration file /etc/glusterfs/glusterfsd.vol (we make a backup of the original /etc/glusterfs/glusterfsd.volfile first) which defines which directory will be exported (/data/export) and what client is allowed to connect (192.168.0.102 = client1.example.com):
cp /etc/glusterfs/glusterfsd.vol /etc/glusterfs/glusterfsd.vol_orig
cat /dev/null > /etc/glusterfs/glusterfsd.vol
vi /etc/glusterfs/glusterfsd.vol
volume posix type storage/posix option directory /data/exportend-volumevolume locks type features/locks subvolumes posixend-volumevolume brick type performance/io-threads option thread-count 8 subvolumes locksend-volumevolume server type protocol/server option transport-type tcp option auth.addr.brick.allow * subvolumes brickend-volume
Please note that it is possible to use wildcards for the IP addresses (like 192.168.*) and that you can specify multiple IP addresses separated by comma (e.g. 192.168.0.102,192.168.0.103).
Afterwards we start the GlusterFS server:
/etc/init.d/glusterfs-server start
3 Setting Up The GlusterFS Client
client1.example.com:
On the client, we can install the GlusterFS client as follows:
aptitude install glusterfs-client glusterfs-server
Then we create the following directory:
mkdir /mnt/glusterfs
Next we create the file /etc/glusterfs/glusterfs.vol (we make a backup of the original/etc/glusterfs/glusterfs.vol file first):
cp /etc/glusterfs/glusterfs.vol /etc/glusterfs/glusterfs.vol_orig
cat /dev/null > /etc/glusterfs/glusterfs.vol
vi /etc/glusterfs/glusterfs.vol
volume remote1 type protocol/client option transport-type tcp option remote-host server1.example.com option remote-subvolume brickend-volumevolume remote2 type protocol/client option transport-type tcp option remote-host server2.example.com option remote-subvolume brickend-volumevolume replicate type cluster/replicate subvolumes remote1 remote2end-volumevolume writebehind type performance/write-behind option window-size 1MB subvolumes replicateend-volumevolume cache type performance/io-cache option cache-size 512MB subvolumes writebehindend-volume
Make sure you use the correct server hostnames or IP addresses in the option remote-host lines!
That's it! Now we can mount the GlusterFS filesystem to /mnt/glusterfs with one of the following two commands:
glusterfs -f /etc/glusterfs/glusterfs.vol /mnt/glusterfs
or
mount -t glusterfs /etc/glusterfs/glusterfs.vol /mnt/glusterfs
You should now see the new share in the outputs of...
mount
root@client1:~# mount
/dev/mapper/client1-root on / type ext4 (rw,errors=remount-ro)
proc on /proc type proc (rw)
none on /sys type sysfs (rw,noexec,nosuid,nodev)
none on /sys/fs/fuse/connections type fusectl (rw)
none on /sys/kernel/debug type debugfs (rw)
none on /sys/kernel/security type securityfs (rw)
udev on /dev type tmpfs (rw,mode=0755)
none on /dev/pts type devpts (rw,noexec,nosuid,gid=5,mode=0620)
none on /dev/shm type tmpfs (rw,nosuid,nodev)
none on /var/run type tmpfs (rw,nosuid,mode=0755)
none on /var/lock type tmpfs (rw,noexec,nosuid,nodev)
none on /lib/init/rw type tmpfs (rw,nosuid,mode=0755)
/dev/sda5 on /boot type ext2 (rw)
/etc/glusterfs/glusterfs.vol on /mnt/glusterfs type fuse.glusterfs (rw,max_read=131072,allow_other,default_permissions)
root@client1:~#
... and...
df -h
root@client1:~# df -h
Filesystem Size Used Avail Use% Mounted on
/dev/mapper/client1-root
29G 808M 27G 3% /
udev 122M 152K 121M 1% /dev
none 122M 0 122M 0% /dev/shm
none 122M 36K 122M 1% /var/run
none 122M 0 122M 0% /var/lock
none 122M 0 122M 0% /lib/init/rw
/dev/sda5 228M 15M 202M 7% /boot
/etc/glusterfs/glusterfs.vol
18G 805M 16G 5% /mnt/glusterfs
root@client1:~#
(server1.example.com and server2.example.com each have 18GB of space for the GlusterFS filesystem, but because the data is mirrored, the client doesn't see 36GB (2 x 18GB), but only 18GB.)
Instead of mounting the GlusterFS share manually on the client, you could modify /etc/fstab so that the share gets mounted automatically when the client boots.
Open /etc/fstab and append the following line:
vi /etc/fstab
[...]/etc/glusterfs/glusterfs.vol /mnt/glusterfs glusterfs defaults 0 0
To test if your modified /etc/fstab is working, reboot the client:
reboot
After the reboot, you should find the share in the outputs of...
df -h
... and...
mount
4 Testing
Now let's create some test files on the GlusterFS share:
client1.example.com:
touch /mnt/glusterfs/test1
touch /mnt/glusterfs/test2
Now let's check the /data/export directory on server1.example.com and server2.example.com. The test1 and test2 files should be present on each node:
server1.example.com/server2.example.com:
ls -l /data/export
root@server1:~# ls -l /data/export
total 0
-rw-r--r-- 1 root root 0 2009-12-18 15:37 test1
-rw-r--r-- 1 root root 0 2009-12-18 15:37 test2
root@server1:~#
Now we shut down server1.example.com and add/delete some files on the GlusterFS share on client1.example.com.
server1.example.com:
shutdown -h now
client1.example.com:
touch /mnt/glusterfs/test3
touch /mnt/glusterfs/test4
rm -f /mnt/glusterfs/test2
The changes should be visible in the /data/export directory on server2.example.com:
server2.example.com:
ls -l /data/export
root@server2:~# ls -l /data/export
total 0
-rw-r--r-- 1 root root 0 2009-12-18 15:37 test1
-rw-r--r-- 1 root root 0 2009-12-18 15:39 test3
-rw-r--r-- 1 root root 0 2009-12-18 15:39 test4
root@server2:~#
Let's boot server1.example.com again and take a look at the /data/export directory:
server1.example.com:
ls -l /data/export
root@server1:~# ls -l /data/export
total 0
-rw-r--r-- 1 root root 0 2009-12-18 15:37 test1
-rw-r--r-- 1 root root 0 2009-12-18 15:37 test2
root@server1:~#
As you see, server1.example.com hasn't noticed the changes that happened while it was down. This is easy to fix, all we need to do is invoke a read command on the GlusterFS share on client1.example.com, e.g.:
client1.example.com:
ls -l /mnt/glusterfs/
root@client1:~# ls -l /mnt/glusterfs/
total 0
-rw-r--r-- 1 root root 0 2009-12-18 15:37 test1
-rw-r--r-- 1 root root 0 2009-12-18 15:39 test3
-rw-r--r-- 1 root root 0 2009-12-18 15:39 test4
root@client1:~#
Now take a look at the /data/export directory on server1.example.com again, and you should see that the changes have been replicated to that node:
server1.example.com:
ls -l /data/export
root@server1:~# ls -l /data/export
total 0
-rw-r--r-- 1 root root 0 2009-12-18 15:37 test1
-rw-r--r-- 1 root root 0 2009-12-18 15:39 test3
-rw-r--r-- 1 root root 0 2009-12-18 15:39 test4
root@server1:~#
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