13 Transactional updates #
Transactional updates are available in SUSE Linux Enterprise Desktop as a technology preview, for updating SLES when the root file system is read-only. Transactional updates are atomic (all updates are applied only if all updates succeed) and support rollbacks. It does not affect a running system as no changes are activated until after the system is rebooted. As reboots are disruptive, the administrator must decide if a reboot is more expensive than disturbing running services. If reboots are too expensive then do not use transactional updates.
Transactional updates are run daily by the
transactional-update
script. The script checks for
available updates. If there are any updates, it creates a new snapshot of
the root file system in the background, and then fetches updates from the
release channels. After the new snapshot is completely updated, it is
marked as active and will be the new default root file system after the next
reboot of the system. When transactional-update
is set to run
automatically (which is the default behavior) it also reboots the system.
Both the time that the update runs and the reboot maintenance window are
configurable.
Only packages that are part of the snapshot of the root file system can be updated. If packages contain files that are not part of the snapshot, the update could fail or break the system.
RPMs that require a license to be accepted cannot be updated.
13.1 Limitations of technology preview #
As a technology preview, there are certain limitations in functionality. The
following packages will not work with transactional-update
:
The nginx default index.html page may not be available
tomcat-webapps and tomcat-admin-webapps
phpMyAdmin
sca-appliance-*
mpi-selector
emacs works except for Emacs games
bind and bind-chrootenv
docbook*
sblim-sfcb*
texlive*
iso_ent
openjade
opensp
pcp
plymouth
postgresql-server-10
pulseaudio-gdm-hooks
smartmontools
The updater component of the system installer does not work with a read-only file system as it has no support for transactional updates.
Further considerations:
It is a good idea to minimize the time between updating the system and rebooting the machine.
Only one update can be applied at a time. Be sure to reboot after an update, and before the next update is applied.
update-alternatives
should not be run after a transactional update until the machine has been rebooted.Do not create new system users or system groups after a transactional update until after reboot. It is acceptable to create normal users and groups (UID > 1000, GID > 1000).
YaST is not yet aware of transactional updates. If a YaST module needs to install additional packages, this will not work. Normal system operations only modifying configuration files in
/etc
will work.For php7-fastcgi, you must manually create a symbolic link,
/srv/www/cgi-bin/php
, that points to/usr/bin/php-cgi
.ntpis part of the Legacy Module for migration from older SLES versions. It is not supported on a new SUSE Linux Enterprise Desktop installation, and has been replaced by chrony. If you continue to use ntp, a fresh installation is required to work correctly with transactional updates.
sblim-sfcb: the whole sblim ecosystem is incompatible with transactional update.
btrfs-defrag
from the btrfsmaintenance package does not work with a read-only root file system.For
btrfs-balance
, the variableBTRFS_BALANCE_MOUNTPOINTS
in/etc/sysconfig/btrfsmaintenance
must be changed from/
to/.snapshots
.For
btrfs-scrub
, the variableBTRFS_SCRUB_MOUNTPOINTS
in/etc/sysconfig/btrfsmaintenance
must be changed from/
to/.snapshots
.
13.2 Enabling transactional-update #
You must enable the Transactional Server Module during system installation, and then select the Transactional Server System Role. Installing any package from the Transactional Server Module later in a running system is NOT supported and may break the system.
Changing the subvolume layout of the root partition, or putting
sub-directories or subvolumes of the root partition on their own partitions
(except /home
, /var
,
/srv
, and /opt
) is not supported,
and will most probably break the system.
13.3 Managing automatic updates #
Automatic updates are controlled by a systemd.timer
that runs once per day. This applies all updates, and informs
rebootmgrd
that the machine should be rebooted. You may
adjust the time when the update runs, see systemd.timer(5). To adjust the
maintenance window, which is when rebootmgrd
reboots the
system, see rebootmgrd(8).
You can disable automatic transactional updates with this command:
#
systemctl --now disable transactional-update.timer
13.4 The transactional-update
command #
The transactional-update
command enables atomic installation
or removal of updates; updates are applied only
if all of them can be successfully installed.
transactional-update
creates a snapshot of your system
before the update is applied, and you can restore this snapshot. All changes become
active only after reboot.
--continue
The
--continue
option is for making multiple changes to an existing snapshot without rebooting.The default
transactional-update
behavior is to create a new snapshot from the current root file system. If you forget something, such as installing a new package, you have to reboot to apply your previous changes, runtransactional-update
again to install the forgotten package, and reboot again. You cannot run thetransactional-update
command multiple times without rebooting to add more changes to the snapshot, because that creates separate independent snapshots that do not include changes from the previous snapshots.Use the
--continue
option to make as many changes as you want without rebooting. A separate snapshot is made each time, and each snapshot contains all the changes you made in the previous snapshots, plus your new changes. Repeat this process as many times as you want, and when the final snapshot includes everything you want reboot the system, and your final snapshot becomes the new root file system.Another useful feature of the
--continue
option is you may select any existing snapshot as the base for your new snapshot. The following example demonstrates runningtransactional-update
to install a new package in a snapshot based on snapshot 13, and then running it again to install another package:#
transactional-update pkg install package_1
#
transactional-update --continue 13 pkg install package_2
The
--continue [num]
option callssnapper create --from
, see Section 10.6.2, “Creating snapshots”.cleanup
If the current root file system is identical to the active root file system (after a reboot, before
transactional-update
creates a new snapshot with updates), all old snapshots without a cleanup algorithm get a cleanup algorithm set. This ensures that old snapshots will be deleted by Snapper. (See the section about cleanup algorithms in snapper(8).) This also removes all unreferenced (and thus unused)/etc
overlay directories in/var/lib/overlay
:#
transactional-update cleanup
pkg in/install
Installs individual packages from the available channels using the
zypper install
command. This command can also be used to install Program Temporary Fix (PTF) RPM files.#
transactional-update pkg install package_name
or
#
transactional-update pkg install rpm1 rpm2
pkg rm/remove
Removes individual packages from the active snapshot using the
zypper remove
command. This command can also be used to remove PTF RPM files.#
transactional-update pkg remove package_name
pkg up/update
Updates individual packages from the active snapshot using the
zypper update
command. Only packages that are part of the snapshot of the base file system can be updated.#
transactional-update pkg update package_name
up/update
If there are new updates available, a new snapshot is created and
zypper up/update
updates the snapshot.#
transactional-update up
dup
If there are new updates available, a new snapshot is created and
zypper dup –no-allow-vendor-change
updates the snapshot. The snapshot is activated afterwards and becomes the new root file system after reboot.#
transactional-update dup
patch
If there are new updates available, a new snapshot is created and
zypper patch
updates the snapshot.#
transactional-update patch
rollback
This sets the default subvolume. On systems with a read-write file system
snapper rollback
is called. On a read-only file system and without any argument, the current system is set to a new default root file system. If you specify a number, that snapshot is used as the default root file system. On a read-only file system, it does not create any additional snapshots.#
transactional-update rollback snapshot_number
grub.cfg
This creates a new GRUB2 configuration. Sometimes it is necessary to adjust the boot configuration, for example adding additional kernel parameters. Edit /etc/default/grub, run
transactional-update grub.cfg
, and then reboot to activate the change. You must immediately reboot, or the new GRUB2 configuration will be overwritten with the default by the next transactional-update.#
transactional-update grub.cfg
reboot
This parameter triggers a reboot after the action is completed.
#
transactional-update dup reboot
--help
This prints a help screen with options and subcommands.
#
transactional-update --help
13.5 Troubleshooting #
If the upgrade fails, run supportconfig
to collect log
data. Provide the resulting files, including
/var/log/transactional-update.log
to SUSE Support.