Automatized Upgrade Procedure for Ganeti¶
- Created:
2013-Aug-20
- Status:
Implemented
- Ganeti-Version:
2.10.0
This is a design document detailing the proposed changes to the upgrade process, in order to allow it to be more automatic.
Current state and shortcomings¶
Ganeti requires to run the same version of Ganeti to be run on all nodes of a cluster and this requirement is unlikely to go away in the foreseeable future. Also, the configuration may change between minor versions (and in the past has proven to do so). This requires a quite involved manual upgrade process of draining the queue, stopping ganeti, changing the binaries, upgrading the configuration, starting ganeti, distributing the configuration, and undraining the queue.
Proposed changes¶
While we will not remove the requirement of the same Ganeti version running on all nodes, the transition from one version to the other will be made more automatic. It will be possible to install new binaries ahead of time, and the actual switch between versions will be a single command.
While changing the file layout anyway, we install the python
code, which is architecture independent, under ${prefix}/share
,
in a way that properly separates the Ganeti libraries of the
various versions.
Path changes to allow multiple versions installed¶
Currently, Ganeti installs to ${PREFIX}/bin
, ${PREFIX}/sbin
,
and so on, as well as to ${pythondir}/ganeti
.
These paths will be changed in the following way.
The python package will be installed to
${PREFIX}/share/ganeti/${VERSION}/ganeti
. Here ${VERSION} is, depending on configure options, either the full qualified version number, consisting of major, minor, revision, and suffix, or it is just a major.minor pair. All python executables will be installed under${PREFIX}/share/ganeti/${VERSION}
so that they see their respective Ganeti library.${PREFIX}/share/ganeti/default
is a symbolic link to${sysconfdir}/ganeti/share
which, in turn, is a symbolic link to${PREFIX}/share/ganeti/${VERSION}
. For all python executables (likegnt-cluster
,gnt-node
, etc) symbolic links going through${PREFIX}/share/ganeti/default
are added under${PREFIX}/sbin
.All other files will be installed to the corresponding path under
${libdir}/ganeti/${VERSION}
instead of under${PREFIX}
directly, where${libdir}
defaults to${PREFIX}/lib
.${libdir}/ganeti/default
will be a symlink to${sysconfdir}/ganeti/lib
which, in turn, is a symlink to${libdir}/ganeti/${VERSION}
. Symbolic links to the files installed under${libdir}/ganeti/${VERSION}
will be added under${PREFIX}/bin
,${PREFIX}/sbin
, and so on. These symbolic links will go through${libdir}/ganeti/default
so that the version can easily be changed by updating the symbolic link in${sysconfdir}
.
The set of links for ganeti binaries might change between the versions.
However, as the file structure under ${libdir}/ganeti/${VERSION}
reflects
that of /
, two links of different versions will never conflict. Similarly,
the symbolic links for the python executables will never conflict, as they
always point to a file with the same basename directly under
${PREFIX}/share/ganeti/default
. Therefore, each version will make sure that
enough symbolic links are present in ${PREFIX}/bin
, ${PREFIX}/sbin
and
so on, even though some might be dangling, if a different version of ganeti is
currently active.
The extra indirection through ${sysconfdir}
allows installations that choose
to have ${sysconfdir}
and ${localstatedir}
outside ${PREFIX}
to
mount ${PREFIX}
read-only. The latter is important for systems that choose
/usr
as ${PREFIX}
and are following the Filesystem Hierarchy Standard.
For example, choosing /usr
as ${PREFIX}
and /etc
as ${sysconfdir}
,
the layout for version 2.10 will look as follows.
/
|
+-- etc
| |
| +-- ganeti
| |
| +-- lib -> /usr/lib/ganeti/2.10
| |
| +-- share -> /usr/share/ganeti/2.10
+-- usr
|
+-- bin
| |
| +-- harep -> /usr/lib/ganeti/default/usr/bin/harep
| |
| ...
|
+-- sbin
| |
| +-- gnt-cluster -> /usr/share/ganeti/default/gnt-cluster
| |
| ...
|
+-- ...
|
+-- lib
| |
| +-- ganeti
| |
| +-- default -> /etc/ganeti/lib
| |
| +-- 2.10
| |
| +-- usr
| |
| +-- bin
| | |
| | +-- htools
| | |
| | +-- harep -> htools
| | |
| | ...
| ...
|
+-- share
|
+-- ganeti
|
+-- default -> /etc/ganeti/share
|
+-- 2.10
|
+ -- gnt-cluster
|
+ -- gnt-node
|
+ -- ...
|
+ -- ganeti
|
+-- backend.py
|
+-- ...
|
+-- cmdlib
| |
| ...
...
gnt-cluster upgrade¶
The actual upgrade process will be done by a new command upgrade
to
gnt-cluster
. If called with the option --to
which take precisely
one argument, the version to
upgrade (or downgrade) to, given as full string with major, minor, revision,
and suffix. To be compatible with current configuration upgrade and downgrade
procedures, the new version must be of the same major version and
either an equal or higher minor version, or precisely the previous
minor version.
When executed, gnt-cluster upgrade --to=<version>
will perform the
following actions.
It verifies that the version to change to is installed on all nodes of the cluster that are not marked as offline. If this is not the case it aborts with an error. This initial testing is an optimization to allow for early feedback.
An intent-to-upgrade file is created that contains the current version of ganeti, the version to change to, and the process ID of the
gnt-cluster upgrade
process. The latter is not used automatically, but allows manual detection if the upgrade process died unintentionally. The intend-to-upgrade file is persisted to disk before continuing.The Ganeti job queue is drained, and the executable waits till there are no more jobs in the queue. Once Filtering of jobs for the Ganeti job queue is implemented, for upgrades, and only for upgrades, all jobs are paused instead (in the sense that the currently running opcode continues, but the next opcode is not started) and it is continued once all jobs are fully paused.
All ganeti daemons on the master node are stopped.
It is verified again that all nodes at this moment not marked as offline have the new version installed. If this is not the case, then all changes so far (stopping ganeti daemons and draining the queue) are undone and failure is reported. This second verification is necessary, as the set of online nodes might have changed during the draining period.
All ganeti daemons on all remaining (non-offline) nodes are stopped.
A backup of all Ganeti-related status information is created for manual rollbacks. While the normal way of rolling back after an upgrade should be calling
gnt-cluster upgrade
from the newer version with the older version as argument, a full backup provides an additional safety net, especially for jump-upgrades (skipping intermediate minor versions).If the action is a downgrade to the previous minor version, the configuration is downgraded now, using
cfgupgrade --downgrade
.If the action is downgrade, any version-specific additional downgrade actions are carried out.
The
${sysconfdir}/ganeti/lib
and${sysconfdir}/ganeti/share
symbolic links are updated.If the action is an upgrade to a higher minor version, the configuration is upgraded now, using
cfgupgrade
.ensure-dirs --full-run
is run on all nodes.All daemons are started on all nodes.
gnt-cluster redist-conf
is run on the master node.All daemons are restarted on all nodes.
The Ganeti job queue is undrained.
The intent-to-upgrade file is removed.
post-upgrade
is run with the original version as argument.gnt-cluster verify
is run and the result reported.
Considerations on unintended reboots of the master node¶
During the upgrade procedure, the only ganeti process still running is
the one instance of gnt-cluster upgrade
. This process is also responsible
for eventually removing the queue drain. Therefore, we have to provide
means to resume this process, if it dies unintentionally. The process
itself will handle SIGTERM gracefully by either undoing all changes
done so far, or by ignoring the signal all together and continuing to
the end; the choice between these behaviors depends on whether change
of the configuration has already started (in which case it goes
through to the end), or not (in which case the actions done so far are
rolled back).
To achieve this, gnt-cluster upgrade
will support a --resume
option. It is recommended
to have gnt-cluster upgrade --resume
as an at-reboot task in the crontab.
The gnt-cluster upgrade --resume
command first verifies that
it is running on the master node, using the same requirement as for
starting the master daemon, i.e., confirmed by a majority of all
nodes. If it is not the master node, it will remove any possibly
existing intend-to-upgrade file and exit. If it is running on the
master node, it will check for the existence of an intend-to-upgrade
file. If no such file is found, it will simply exit. If found, it will
resume at the appropriate stage.
If the configuration file still is at the initial version,
gnt-cluster upgrade
is resumed at the step immediately following the writing of the intend-to-upgrade file. It should be noted that all steps before changing the configuration are idempotent, so redoing them does not do any harm.If the configuration is already at the new version, all daemons on all nodes are stopped (as they might have been started again due to a reboot) and then it is resumed at the step immediately following the configuration change. All actions following the configuration change can be repeated without bringing the cluster into a worse state.
Caveats¶
Since gnt-cluster upgrade
drains the queue and undrains it later, so any
information about a previous drain gets lost. This problem will
disappear, once Filtering of jobs for the Ganeti job queue is implemented, as then the
undrain will then be restricted to filters by gnt-upgrade.
Requirement of job queue update¶
Since for upgrades we only pause jobs and do not fully drain the queue, we need to be able to transform the job queue into a queue for the new version. The preferred way to obtain this is to keep the serialization format backwards compatible, i.e., only adding new opcodes and new optional fields.
However, even with soft drain, no job is running at the moment cfgupgrade is running. So, if we change the queue representation, including the representation of individual opcodes in any way, cfgupgrade will also modify the queue accordingly. In a jobs-as-processes world, pausing a job will be implemented in such a way that the corresponding process stops after finishing the current opcode, and a new process is created if and when the job is unpaused again.