Proxmox Cluster File System (pmxcfs): Difference between revisions
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The Proxmox Cluster file system (“pmxcfs”) is a database-driven file | The Proxmox Cluster file system (“pmxcfs”) is a database-driven file | ||
system for storing configuration files, replicated in real time to all | system for storing configuration files, replicated in real time to all | ||
cluster nodes using corosync. We use this to store all | cluster nodes using corosync. We use this to store all Proxmox VE related | ||
configuration files. | configuration files. | ||
Although the file system stores all data inside a persistent database | Although the file system stores all data inside a persistent database on disk, | ||
on disk, a copy of the data resides in RAM. This imposes restrictions | a copy of the data resides in RAM. This imposes restrictions on the maximum | ||
on the maximum size, which is currently | size, which is currently 128 MiB. This is still enough to store the | ||
store the configuration of several thousand virtual machines. | configuration of several thousand virtual machines. | ||
This system provides the following advantages: | This system provides the following advantages: | ||
Seamless replication of all configuration to all nodes in real time | Seamless replication of all configuration to all nodes in real time | ||
Line 50: | Line 50: | ||
Corosync cluster configuration file (prior to Proxmox VE 4.x, this file was called cluster.conf) | Corosync cluster configuration file (prior to Proxmox VE 4.x, this file was called cluster.conf) | ||
datacenter.cfg | datacenter.cfg | ||
Proxmox VE | Proxmox VE datacenter-wide configuration (keyboard layout, proxy, …) | ||
domains.cfg | domains.cfg | ||
Proxmox VE authentication domains | Proxmox VE authentication domains | ||
Line 70: | Line 70: | ||
VM configuration data for LXC containers | VM configuration data for LXC containers | ||
nodes/<NAME>/openvz/ | nodes/<NAME>/openvz/ | ||
Prior to | Prior to Proxmox VE 4.0, used for container configuration data (deprecated, removed soon) | ||
nodes/<NAME>/pve-ssl.key | nodes/<NAME>/pve-ssl.key | ||
Private SSL key for pve-ssl.pem | Private SSL key for pve-ssl.pem | ||
Line 182: | Line 182: | ||
node node2 works by running the following command as root on any member node | node node2 works by running the following command as root on any member node | ||
of the cluster: | of the cluster: | ||
mv /etc/pve/nodes/node1/qemu-server/100.conf /etc/pve/nodes/node2/ | mv /etc/pve/nodes/node1/qemu-server/100.conf /etc/pve/nodes/node2/qemu-server/ | ||
Before manually recovering a guest like this, make absolutely sure | Before manually recovering a guest like this, make absolutely sure | ||
that the failed source node is really powered off/fenced. Otherwise Proxmox VE’s | that the failed source node is really powered off/fenced. Otherwise Proxmox VE’s |
Latest revision as of 14:11, 23 November 2023
The Proxmox Cluster file system (“pmxcfs”) is a database-driven file system for storing configuration files, replicated in real time to all cluster nodes using corosync. We use this to store all Proxmox VE related configuration files.
Although the file system stores all data inside a persistent database on disk, a copy of the data resides in RAM. This imposes restrictions on the maximum size, which is currently 128 MiB. This is still enough to store the configuration of several thousand virtual machines.
This system provides the following advantages:
-
Seamless replication of all configuration to all nodes in real time
-
Provides strong consistency checks to avoid duplicate VM IDs
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Read-only when a node loses quorum
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Automatic updates of the corosync cluster configuration to all nodes
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Includes a distributed locking mechanism
POSIX Compatibility
The file system is based on FUSE, so the behavior is POSIX like. But some feature are simply not implemented, because we do not need them:
-
You can just generate normal files and directories, but no symbolic links, …
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You can’t rename non-empty directories (because this makes it easier to guarantee that VMIDs are unique).
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You can’t change file permissions (permissions are based on paths)
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O_EXCL creates were not atomic (like old NFS)
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O_TRUNC creates are not atomic (FUSE restriction)
File Access Rights
All files and directories are owned by user root and have group www-data. Only root has write permissions, but group www-data can read most files. Files below the following paths are only accessible by root:
/etc/pve/priv/ /etc/pve/nodes/${NAME}/priv/
Technology
We use the Corosync Cluster Engine for cluster communication, and SQlite for the database file. The file system is implemented in user space using FUSE.
File System Layout
The file system is mounted at:
/etc/pve
Files
authkey.pub |
Public key used by the ticket system |
ceph.conf |
Ceph configuration file (note: /etc/ceph/ceph.conf is a symbolic link to this) |
corosync.conf |
Corosync cluster configuration file (prior to Proxmox VE 4.x, this file was called cluster.conf) |
datacenter.cfg |
Proxmox VE datacenter-wide configuration (keyboard layout, proxy, …) |
domains.cfg |
Proxmox VE authentication domains |
firewall/cluster.fw |
Firewall configuration applied to all nodes |
firewall/<NAME>.fw |
Firewall configuration for individual nodes |
firewall/<VMID>.fw |
Firewall configuration for VMs and containers |
ha/crm_commands |
Displays HA operations that are currently being carried out by the CRM |
ha/manager_status |
JSON-formatted information regarding HA services on the cluster |
ha/resources.cfg |
Resources managed by high availability, and their current state |
nodes/<NAME>/config |
Node-specific configuration |
nodes/<NAME>/lxc/<VMID>.conf |
VM configuration data for LXC containers |
nodes/<NAME>/openvz/ |
Prior to Proxmox VE 4.0, used for container configuration data (deprecated, removed soon) |
nodes/<NAME>/pve-ssl.key |
Private SSL key for pve-ssl.pem |
nodes/<NAME>/pve-ssl.pem |
Public SSL certificate for web server (signed by cluster CA) |
nodes/<NAME>/pveproxy-ssl.key |
Private SSL key for pveproxy-ssl.pem (optional) |
nodes/<NAME>/pveproxy-ssl.pem |
Public SSL certificate (chain) for web server (optional override for pve-ssl.pem) |
nodes/<NAME>/qemu-server/<VMID>.conf |
VM configuration data for KVM VMs |
priv/authkey.key |
Private key used by ticket system |
priv/authorized_keys |
SSH keys of cluster members for authentication |
priv/ceph* |
Ceph authentication keys and associated capabilities |
priv/known_hosts |
SSH keys of the cluster members for verification |
priv/lock/* |
Lock files used by various services to ensure safe cluster-wide operations |
priv/pve-root-ca.key |
Private key of cluster CA |
priv/shadow.cfg |
Shadow password file for PVE Realm users |
priv/storage/<STORAGE-ID>.pw |
Contains the password of a storage in plain text |
priv/tfa.cfg |
Base64-encoded two-factor authentication configuration |
priv/token.cfg |
API token secrets of all tokens |
pve-root-ca.pem |
Public certificate of cluster CA |
pve-www.key |
Private key used for generating CSRF tokens |
sdn/* |
Shared configuration files for Software Defined Networking (SDN) |
status.cfg |
Proxmox VE external metrics server configuration |
storage.cfg |
Proxmox VE storage configuration |
user.cfg |
Proxmox VE access control configuration (users/groups/…) |
virtual-guest/cpu-models.conf |
For storing custom CPU models |
vzdump.cron |
Cluster-wide vzdump backup-job schedule |
Symbolic links
Certain directories within the cluster file system use symbolic links, in order to point to a node’s own configuration files. Thus, the files pointed to in the table below refer to different files on each node of the cluster.
local |
nodes/<LOCAL_HOST_NAME> |
lxc |
nodes/<LOCAL_HOST_NAME>/lxc/ |
openvz |
nodes/<LOCAL_HOST_NAME>/openvz/ (deprecated, removed soon) |
qemu-server |
nodes/<LOCAL_HOST_NAME>/qemu-server/ |
Special status files for debugging (JSON)
.version |
File versions (to detect file modifications) |
.members |
Info about cluster members |
.vmlist |
List of all VMs |
.clusterlog |
Cluster log (last 50 entries) |
.rrd |
RRD data (most recent entries) |
Enable/Disable debugging
You can enable verbose syslog messages with:
echo "1" >/etc/pve/.debug
And disable verbose syslog messages with:
echo "0" >/etc/pve/.debug
Recovery
If you have major problems with your Proxmox VE host, for example hardware issues, it could be helpful to copy the pmxcfs database file /var/lib/pve-cluster/config.db, and move it to a new Proxmox VE host. On the new host (with nothing running), you need to stop the pve-cluster service and replace the config.db file (required permissions 0600). Following this, adapt /etc/hostname and /etc/hosts according to the lost Proxmox VE host, then reboot and check (and don’t forget your VM/CT data).
Remove Cluster Configuration
The recommended way is to reinstall the node after you remove it from your cluster. This ensures that all secret cluster/ssh keys and any shared configuration data is destroyed.
In some cases, you might prefer to put a node back to local mode without reinstalling, which is described in Separate A Node Without Reinstalling
Recovering/Moving Guests from Failed Nodes
For the guest configuration files in nodes/<NAME>/qemu-server/ (VMs) and nodes/<NAME>/lxc/ (containers), Proxmox VE sees the containing node <NAME> as the owner of the respective guest. This concept enables the usage of local locks instead of expensive cluster-wide locks for preventing concurrent guest configuration changes.
As a consequence, if the owning node of a guest fails (for example, due to a power outage, fencing event, etc.), a regular migration is not possible (even if all the disks are located on shared storage), because such a local lock on the (offline) owning node is unobtainable. This is not a problem for HA-managed guests, as Proxmox VE’s High Availability stack includes the necessary (cluster-wide) locking and watchdog functionality to ensure correct and automatic recovery of guests from fenced nodes.
If a non-HA-managed guest has only shared disks (and no other local resources which are only available on the failed node), a manual recovery is possible by simply moving the guest configuration file from the failed node’s directory in /etc/pve/ to an online node’s directory (which changes the logical owner or location of the guest).
For example, recovering the VM with ID 100 from an offline node1 to another node node2 works by running the following command as root on any member node of the cluster:
mv /etc/pve/nodes/node1/qemu-server/100.conf /etc/pve/nodes/node2/qemu-server/
Before manually recovering a guest like this, make absolutely sure that the failed source node is really powered off/fenced. Otherwise Proxmox VE’s locking principles are violated by the mv command, which can have unexpected consequences. |
Guests with local disks (or other local resources which are only available on the offline node) are not recoverable like this. Either wait for the failed node to rejoin the cluster or restore such guests from backups. |