3 Mounting storage devices #
This section gives an overview which device identificators are used during mounting of devices, and provides details about mounting network storages.
3.1 Understanding UUIDs #
A UUID (Universally Unique Identifier) is a 128-bit number for a file system that is unique on both the local system and across other systems. It is randomly generated with system hardware information and time stamps as part of its seed. UUIDs are commonly used to uniquely tag devices.
Using non-persistent “traditional” device names such as
/dev/sda1
may render the system unbootable when adding
storage. For example, if root (/
) is assigned to
/dev/sda1
, it might be reassigned to
/dev/sdg1
after a SAN has been attached or additional
hard disks have been applied to the system. In this case the boot loader
configuration and the /etc/fstab
file need to be
adjusted, otherwise the system will no longer boot.
By default UUID are used in the boot loader and
/etc/fstab
files for the boot device. The UUID is a
property of the file system and can change if you reformat the drive. Other
alternatives to using UUIDs of device names would be to identify devices by
ID or label.
You can also use the UUID as criterion for assembling and activating
software RAID devices. When a RAID is created, the md
driver generates a UUID for the device, and stores the value in the
md
superblock.
You can find the UUID for any block device in the
/dev/disk/by-uuid
directory. For example, a UUID entry
looks like this:
>
ls -og /dev/disk/by-uuid/
lrwxrwxrwx 1 10 Dec 5 07:48 e014e482-1c2d-4d09-84ec-61b3aefde77a -> ../../sda1
3.2 Persistent device names with udev #
Starting with Linux kernel 2.6, udev
provides a user
space solution for the dynamic /dev
directory, with
persistent device naming. As part of the hotplug system,
udev
is executed if a device is added to or removed from
the system.
A list of rules is used to match against specific device attributes. The
udev
rules infrastructure (defined in the
/etc/udev/rules.d
directory) provides stable names for
all disk devices, regardless of their order of recognition or the connection
used for the device. The udev
tools examine every
appropriate block device that the kernel creates to apply naming rules based
on certain buses, drive types, or file systems. For information about how to
define your own rules for udev
, see
Writing
udev Rules.
Along with the dynamic kernel-provided device node name,
udev
maintains classes of persistent symbolic links
pointing to the device in the /dev/disk
directory,
which is further categorized by the by-id
,
by-label
, by-path
, and
by-uuid
subdirectories.
Other programs besides udev
, such as LVM or
md
, might also generate UUIDs, but they are not listed
in /dev/disk
.
For more information about using udev
for managing
devices, see Kapitel 24, Gerätemanagement über dynamischen Kernel mithilfe von udev
.
For more information about udev
commands, see
man 7 udev
.
3.3 Mounting network storage devices #
Some types of storage devices require network to be configured and available
before systemd.mount
starts to mount the devices. To
postpone mounting of these types of devices, add the
_netdev
and x-systemd.requires=iscsi.service
options to the /etc/fstab
file for each particular network storage device. An example follows:
mars.example.org:/nfsexport /shared nfs defaults,_netdev,x-systemd.requires=iscsi.service 0 0
Do not use the nofail
option as booting of the machine continues without waiting
for the particular storage device to be successfully mounted.