Upgrade from 5.x to 6.0
|Note: Proxmox VE 6.x is still in beta status|
Proxmox VE 6.x introduces several new major features. Carefully plan the upgrade, make and verify backups before beginning, and test extensively. Depending on the existing configuration, several manual steps—including some downtime—are required.
Note: A valid and tested backup is always needed before starting the upgrade process. Test the backup beforehand in a test lab setup.
In case the system is customized and/or uses additional packages (for example Sheepdog) or any other third party repositories/packages, ensure those packages are also upgraded to and compatible with Debian Buster.
In general, there are two ways to upgrade a Proxmox VE 5.x system to Proxmox VE 6.x:
- A new installation on a new hardware (and restoring VMs from the backup)
- An in-place upgrade via apt (step-by-step)
In both cases emptying the browser cache and reloading the GUI page is required after the upgrade.
- Backup all VMs and containers to external storage (see Backup and Restore).
- Backup all files in /etc (required: files in /etc/pve, as well as /etc/passwd, /etc/network/interfaces, /etc/resolv.conf, as well as anything deviating from a default installation)
- Install Proxmox VE from the ISO (this will delete all data on the existing host).
- Rebuild your cluster, if applicable.
- Restore the file /etc/pve/storage.cfg (this will make the external storage used for backup available).
- Restore firewall configs /etc/pve/firewall/ and /etc/pve/nodes/<node>/host.fw (if applicable).
- Restore full VMs from backups (see Backup and Restore).
Administrators comfortable with the command line can follow the procedure Bypassing backup and restore when upgrading if all VMs/CTs are on one shared storage.
In-place upgrades are done with apt-get. Familiarity with apt is required to proceed with this upgrade mechanism.
Tip: An upgrade test can easily be performed using a standalone server first. Install the Proxmox VE 5.4 ISO on some test hardware; then upgrade this installation to the latest minor version of Proxmox VE 5.4 (see Package repositories). To replicate the production setup as closely as possible, copy or create all relevant configurations to the test machine. Then start the upgrade. It is also possible to install Proxmox VE 5.4 in a VM and test the upgrade in this environment.
Hint: (Clusters) If any VMs and CTs need to keep running for the duration of the upgrade, migrate them away from the node that is currently upgraded. A migration of a VM or CT from an older version of Proxmox VE to a newer version will always work. A migration from a newer Proxmox VE version to an older version is not supported. Keep this in mind when planning your cluster upgrade.
- Upgrade to the latest version of Proxmox VE 5.4.
- Reliable access to all configured storage.
- A healthy cluster.
- Valid and tested backup of all VMs and CTs (in case something goes wrong).
- Correct configuration of the repository.
- At least 1GB free disk space at root mount point.
- Ceph: upgrade the Ceph cluster to Nautilus after you have upgraded: Follow the guide Ceph Luminous to Nautilus.
The following actions need to be done on the command line of each Proxmox VE node in your cluster (via console or ssh; preferably via console to avoid interrupted ssh connections). Remember: make sure that a valid backup of all VMs and CTs has been created before proceeding.
Continuously use the pve5to6 checklist script
A small checklist program named pve5to6 is included in the latest Proxmox VE 5.4 packages. The program will provide hints and warnings about potential issues before, during and after the upgrade process.
Note: the script offers guidance only. Consider that—due to the high degree of customizability of Proxmox VE—it may detect benign failures, but may also not detect issues that are problematic!
This script only checks things. By default, no changes to the system are made. Also, none of the issues will be automatically fixed.
It is recommended to re-run the script after each attempt to fix an issue. This ensures that the action taken actually fixed the respective warning. A list of common issues and potential fixes is provided below (see FIXME section).
Take special care when upgrading clustered systems (Corosync needs to be upgraded on all cluster nodes before upgrading the base system, see next section below). If your cluster is providing a hyper-converged Ceph storage cluster, special steps are needed as well after the upgrade - see Ceph Luminous to Nautilus.
Cluster: always upgrade to Corosync 3 first
With Corosync 3 the on-the-wire format has changed. It is now incompatible with Corosync 2.x because it switched out the underlying multicast UDP stack with kronosnet. Configuration files generated by a Proxmox VE with version 5.2 or newer, are already compatible with the new Corosync 3.x (at least enough to process the upgrade without any issues).
Important Note: before the upgrade, stop all HA management services first—no matter which way you choose for upgrading to Corosync 3. Stopping all HA services ensures that no cluster nodes get fenced during the upgrade. This also means that there will not be any HA functionality available for the short duration of the Corosync upgrade.
First, make sure that all warnings that are reported by the checklist script and not related to Corosync are fixed or determined to be benign/false negatives. Next, stop the local resource manager "pve-ha-lrm" on each node. Only after they have been stopped, also stop the cluster resource manager "pve-ha-crm" on each node; use the GUI (Node -> Services) or the CLI by running the following command on each node:
systemctl stop pve-ha-lrm
Only after the above was done for all nodes, run the following on each node:
systemctl stop pve-ha-crm
Then add the Proxmox Corosync 3 Stretch repository:
echo "deb http://download.proxmox.com/debian/corosync-3/ stretch main" > /etc/apt/sources.list.d/corosync3.list
Then make sure again that only corosync, kronosnet and their libraries will be updated or newly installed:
apt list --upgradeable Listing... Done corosync/stable 3.0.2-pve2~bpo9 amd64 [upgradable from: 2.4.4-pve1] libcmap4/stable 3.0.2-pve2~bpo9 amd64 [upgradable from: 2.4.4-pve1] libcorosync-common4/stable 3.0.2-pve2~bpo9 amd64 [upgradable from: 2.4.4-pve1] libcpg4/stable 3.0.2-pve2~bpo9 amd64 [upgradable from: 2.4.4-pve1] libqb0/stable 1.0.5-1~bpo9+2 amd64 [upgradable from: 1.0.3-1~bpo9] libquorum5/stable 3.0.2-pve2~bpo9 amd64 [upgradable from: 2.4.4-pve1] libvotequorum8/stable 3.0.2-pve2~bpo9 amd64 [upgradable from: 2.4.4-pve1]
There are two ways to proceed with the Corosync upgrade:
- Upgrade nodes one by one. Initially, the newly upgraded node(s) will not have be quorate on their own. Once at least half of the nodes plus one have been upgraded, the upgraded partition will become quorate and the not-yet-upgraded partition will lose quorum. Once all nodes have been upgraded, they should form a healthy, quorate cluster again.
- Upgrade all nodes simultaneously, e.g. using parallel ssh/screen/tmux.
Note: changes to any VM/CT or the cluster in general are not allowed for the duration of the upgrade!
Pre-download the upgrade to corosync-3 on all nodes, e.g., with:
apt dist-upgrade --download-only
Actually run the upgrade on all nodes:
At any point in this procedure, the local view of the cluster quorum on a node can be verified with:
Once the update to Corosync 3.x is done on all nodes, restart the local resource manager and cluster resource manager on all nodes:
systemctl start pve-ha-lrm systemctl start pve-ha-crm
Update the configured APT repositories
First, make sure that the system is running using the latest Proxmox VE 5.4 packages:
apt-get update && apt-get dist-upgrade
Update all Debian repository entries to Buster.
sed -i 's/stretch/buster/g' /etc/apt/sources.list
(FIXME: security repo might need special handling - check final Buster release notes?)
Disable the pve-enterprise repository, the pve-no-subscription repository and the pvetest repository for PVE 5.x.
To do so add the # symbol to comment out these repositories in /etc/apt/sources.list.d/pve-enterprise.list and /etc/apt/sources.list. See Package_Repositories
Note: After an update from Corosync 2 to Corosync 3, also remove the Stretch Corosync 3.x repository from /etc/apt/sources.list.d/ before proceeding
rm -f /etc/apt/sources.list.d/corosync3.list
Add the PVE 6 test package repository
echo "deb http://download.proxmox.com/debian/pve buster pvetest" > /etc/apt/sources.list.d/pve-install-repo.list
(Ceph only) Replace ceph.com repositories with proxmox.com ceph repositories
echo "deb http://download.proxmox.com/debian/ceph-luminous buster main" > /etc/apt/sources.list.d/ceph.list
If there is a backports line, remove it - currently, the upgrade has not been tested with packages from the backports repository installed.
Update the repositories data:
Upgrade the system to Debian Buster and PVE 6.0
This action will take some time depending on the system performance - up to 60 min or more. On high-performance servers with SSD storage, the dist-upgrade can be finished in 5 minutes.
Start with this step to get the initial set of upgraded packages:
During the steps above, you may be asked to approve some of the new packages replacing configuration files. They are not relevant to the Proxmox VE upgrade, so you can choose what you want to do.
Reboot the system in order to use the new PVE kernel
After the Proxmox VE upgrade
- (Ceph only) upgrade the Ceph cluster to the Nautilus release, following the article Ceph Luminous to Nautilus.
proxmox-ve package is too old
Check the configured package repository entries (see Package_Repositories) and run
to get the latest PVE 5.x packages before upgrading to PVE 6.x
corosync 2.x installed, cluster-wide upgrade to 3.x needed!
See section Upgrade to corosync 3 first
- Failing upgrade to "buster"
Make sure that the repository configuration for Buster is correct.
If there was a network failure and the upgrade has been made partially try to repair the situation with
apt-get -fy install
- Unable to boot due to grub failure