The StorPool datastore driver enables OpenNebula to use a StorPool storage system for storing disk images.
To contribute bug patches or new features, you can use the GitHub Pull Request model. It is assumed that code and documentation are contributed under the Apache License 2.0.
More info:
- How to Contribute
- Support: OpenNebula user forum
- Development: OpenNebula developers forum
- Issues Tracking: GitHub issues (https://github.com/OpenNebula/addon-storpool/issues)
- Leader: Anton Todorov ([email protected])
Details could be found in Support Life Cycles for OpenNebula Environments at the StorPool Knowledge Base.
- Working OpenNebula CLI interface with
oneadmin
account authorized to OpenNebula's core with UID=0 - Network access to the StorPool API management interface
- StorPool CLI installed
- Python3 installed
- StorPool initiator driver (storpool_block)
- If the node is used as Bridge Node - the OpenNebula admin account
oneadmin
must be member of the 'disk' system group to have access to the StorPool block device during image create/import operations. - If it is Bridge Node only - it must be configured as host in OpenNebula but configured to not run VMs.
- The Bridge node must have qemu-img available - used by the addon during imports to convert various source image formats to StorPool backed RAW images.
Same requirements are applied for nodes that are used as Bridge nodes.
A working StorPool cluster is mandatory.
Standard OpenNebula datastore operations:
- essential Datastore MAD(DATASTORE_MAD) and Transfer Manager MAD(TM_MAD) functionality (see limitations)
- (optional) SYSTEM datastore volatile disks as StorPool block devices (see limitations)
- SYSTEM datastore on shared filesystem or ssh when TM_MAD=storpool is used
- SYSTEM datastore context image as a StorPool block device (see limitations)
- support migration from one SYSTEM datastore to another if both are using
storpool
TM_MAD
- delayed termination of non-persistent images: When a VM is terminated the corresponding StorPool volume is stored as a snapshot that is deleted permanently after predefined time period (default 48 hours)
- support setting StorPool VolumeCare tags on VMs
- support setting StorPool QoS Class tags on VMs
- support different StorPool clusters as separate datastores
- support StorPool MultiCluster (technology preview)
- support multiple OpenNebula instances(controllers) in a single StorPool cluster
- import of VmWare (VMDK) images
- import of Hyper-V (VHDX) images
- partial SYSTEM datastore support (see limitations)
- (optional) set limit on the number of VM disk snapshots (per disk limits)
- (optional) helper tool to migrate CONTEXT ISO image to StorPool backed volume (require SYSTEM_DS
TM_MAD=storpool
) - (optional) send volume snapshot to a remote StorPool cluster on image delete
- (optional) alternate local kvm/deploy script replacement that allows tweaks to the domain XML of the VMs with helper tools to enable iothreads, ioeventfd, fix virtio-scsi nqueues to match the number of VCPUs, set cpu-model, etc
- (optional) support VM checkpoint file stored directly on a StorPool backed block device (see Limitations)
- (optional) replace the "VM snapshot" interface scripts to do atomic disk snapshots on StorPool with option to set a limit on the number of snapshots per VM (see limitations)
- (optional) replace the <devices/video> element in the domain XML
- (optional) support for UEFI Normal/Secure boot with persistent UEFI NVRAM stored on StorPool backed block device
- (optional) support CDROM hotplug
- (optional) use cpu tune parameters instead/or in addition/ of cpu shares
- OpenNebula temporary keep the VM checkpoint file on the Host and then (optionally) transfer it to the storage. An workaround was added on the base of OpenNebula/one#3272.
- When SYSTEM datastore integration is enabled the reported free/used/total space of the Datastore is the space on StorPool. (On the host filesystem there are mostly symlinks and small files that do not require much disk space).
- VM snapshotting is not possible because it is handled internally by libvirt which does not support RAW disks. It is possible to reconfigure the 'VM snapshot' interface of OpenNebula to do atomic disk snapshots in a single StorPool transaction when only StorPool backed datastores are used.
- Only FULL opennebula backups are supported.
- Tested only with KVM hypervisor and Alma Linux 8. Should work on other Linux OS.
Check docs/known_issues.md for details.
The installation instructions are for OpenNebula 6.4+.
If you are upgrading addon-storpool please read the Upgrade notes first!
# CentOS 7 front-end
yum -y install --enablerepo=epel jq xmlstarlet nmap-ncat pigz tar xmllint python36-lxml
# AlmaLinux 8 front-end
dnf -y install --enablerepo=epel jq xmlstarlet nmap-ncat pigz tar libxml2 python3-lxml
# Ubuntu 22.04/24.04 front-end
apt -y install tar jq xmlstarlet netcat pigz python3-lxml libxml2-utils
âť•use when adding new hosts tooâť•
# CentOS 7 node-kvm
yum -y install --enablerepo=epel jq pigz python36-lxml xmlstarlet tar
# AlmaLinux 8 node-kvm
dnf -y install --enablerepo=epel jq pigz python3-lxml xmlstarlet tar
# Ubuntu 22.04/24.04 node-kvm
apt -y install jq xmlstarlet pigz python3-lxml libxml2-utils tar
cd ~
git clone https://github.com/OpenNebula/addon-storpool
The automated installation is best suitable for new deployments. The install script will try to do an upgrade if it detects that addon-storpool is already installed but it is possible to have errors due to non expected changes
If oned and sunstone services are on different servers it is possible to install only part of the integration:
-
set environment variable AUTOCONF=1 to enable the automatic configuration of driver defaults in the opennebula configuration
-
Run the install script as 'root' user and check for any reported errors or warnings
cd addon-storpool
bash install.sh 2>&1 | tee install.log
The following commands are related to latest Stable version of OpenNebula.
- Copy the DATASTORE_MAD driver files.
cp -a ~/addon-storpool/datastore/storpool /var/lib/one/remotes/datastore/
# copy xpath_multi.py
cp ~/addon-storpool/datastore/xpath_multi.py /var/lib/one/remotes/datastore/
- Copy the TM_MAD driver files
cp -a ~/addon-storpool/tm/storpool /var/lib/one/remotes/tm/
- Copy the VM_MAD driver files
cp -a ~/addon-storpool/vmm/kvm/snapshot_* /var/lib/one/remotes/vmm/kvm/
- Prepare the fix for the volatile disks (needs to be enabled in /etc/one/oned.conf)
# copy the helper for deploy-tweaks
cp -a ~/addon-storpool/vmm/kvm/deploy-tweaks* /var/lib/one/remotes/vmm/kvm/
mkdir -p /var/lib/one/remotes/vmm/kvm/deploy-tweaks.d
cd /var/lib/one/remotes/vmm/kvm/deploy-tweaks.d
ln -s ../deploy-tweaks.d.example/volatile2dev.py
# the local attach_disk script
cp -a ~/addon-storpool/vmm/kvm/attach_disk.storpool /var/lib/one/remotes/vmm/kvm/
# the tmsave/tmrestore scripts
cp -a ~/addon-storpool/vmm/kvm/tm* /var/lib/one/remotes/vmm/kvm/
- copy reserved.sh helper tool to /var/lib/one/remotes/
cp -a ~/addon-storpool/misc/reserved.sh /var/lib/one/remotes/
- copy storpool_probe.sh tool to /var/lib/one/remotes/im/kvm-probes.d/host/system/
cp -a ~/addon-storpool/misc/storpool_probe.sh /var/lib/one/remotes/im/kvm-probes.d/host/system/
- fix ownership of the files in /var/lib/one/remotes/
chown -R oneadmin.oneadmin /var/lib/one/remotes/vmm/kvm
- Create a systemd timer for stats polling (alter the file paths if needed)
cp -v addon-storpool/misc/systemd/system/monitor_helper-sync* /etc/systemd/system/
systemctl daemon-reload
systemctl enable --now monitor_helper-sync.timer
The global configuration of addon-storpool is in /var/lib/one/remotes/addon-storpoolrc
file.
- Edit
/etc/one/oned.conf
and addstorpool
to theTM_MAD
arguments
TM_MAD = [
executable = "one_tm",
arguments = "-t 15 -d dummy,lvm,shared,fs_lvm,qcow2,ssh,vmfs,ceph,dev,storpool"
]
- Edit
/etc/one/oned.conf
and addstorpool
to theDATASTORE_MAD
arguments
DATASTORE_MAD = [
executable = "one_datastore",
arguments = "-t 15 -d dummy,fs,vmfs,lvm,ceph,dev,storpool -s shared,ssh,ceph,fs_lvm,qcow2,storpool"
]
- When
storpool
backed SYSTEM datastore is used, edit/etc/one/oned.conf
and update the ARGUMENTS of theVM_MAD
forKVM
to enable the deploy-tweaks script.
VM_MAD = [
NAME = "kvm",
SUNSTONE_NAME = "KVM",
EXECUTABLE = "one_vmm_exec",
ARGUMENTS = "-l deploy=deploy-tweaks -t 15 -r 0 i -p kvm",
...
Optionally add attach_disk, tmsave and tmrestore:
VM_MAD = [
NAME = "kvm",
SUNSTONE_NAME = "KVM",
EXECUTABLE = "one_vmm_exec",
ARGUMENTS = "-l deploy=deploy-tweaks,attach_disk=attach_disk.storpool,save=tmsave,restore=tmrestore -t 15 -r 0 -p kvm",
...
- Edit
/etc/one/oned.conf
and appendTM_MAD_CONF
definition for StorPool
TM_MAD_CONF = [ NAME = "storpool", LN_TARGET = "NONE", CLONE_TARGET = "SELF", SHARED = "yes", DS_MIGRATE = "yes", DRIVER = "raw", ALLOW_ORPHANS = "yes", TM_MAD_SYSTEM = "" ]
- Edit
/etc/one/oned.conf
and append DS_MAD_CONF definition for StorPool
DS_MAD_CONF = [ NAME = "storpool", REQUIRED_ATTRS = "DISK_TYPE", PERSISTENT_ONLY = "NO", MARKETPLACE_ACTIONS = "export" ]
- Edit
/etc/one/oned.conf
and append the following VM_RESTRICTED_ATTR
cat >>/etc/one/oned.conf <<_EOF_
VM_RESTRICTED_ATTR = "VMSNAPSHOT_LIMIT"
VM_RESTRICTED_ATTR = "DISKSNAPSHOT_LIMIT"
VM_RESTRICTED_ATTR = "VC_POLICY"
VM_RESTRICTED_ATTR = "SP_QOSCLASS"
_EOF_
- Enable live disk snapshots support for StorPool by adding
kvm-storpool
toLIVE_DISK_SNAPSHOTS
variable in/etc/one/vmm_exec/vmm_execrc
LIVE_DISK_SNAPSHOTS="kvm-qcow2 kvm-ceph kvm-storpool"
- RAFT_LEADER_IP
The driver will try to autodetect the leader IP address from oned configuration but if it fail set it manually in addon-storpoolrc
echo "RAFT_LEADER_IP=1.2.3.4" >> /var/lib/one/remotes/addon-storpoolrc
- DS_CP_REPORT_FORMAT
OpenNebula 6.0 introduces changes in the Image import function
For OpenNebula up to 5.12.*(included):
echo "DS_CP_REPORT_FORMAT=0" >> /var/lib/one/remotes/addon-storpoolrc
For OpenNebula 6+:
echo "DS_CP_REPORT_FORMAT=1" >> /var/lib/one/remotes/addon-storpoolrc
- If you plan to do live disk snapshots with fsfreeze via qemu-guest-agent but
SCRIPTS_REMOTE_DIR
is not the default one (if it is changed in/etc/one/oned.conf
), defineSCRIPTS_REMOTE_DIR
in the drivers configuration.
- Restart
opennebula
service
systemctl restart opennebula
- As oneadmin user (re)sync the remote scripts to the hosts
su - oneadmin -c 'onehost sync --force'
- Add oneadmin user to the mysyslog group if available
grep -q mysyslog /etc/group && usermod -a -G mysyslog oneadmin
Make sure that the OpenNebula shell tools are working without additional arguments. When OpenNebula endpoint differ from default one eider create ~oneadmin/.one/one_endpoint
file or set ONE_XMLRPC
in addon-storpoolrc
.
StorPool uses resource separation utilizing the cgroup subsystem. The reserved resources should be updated in the 'Overcommitment' section on each host (RESERVED_CPU and RESERVED_MEM in pre ONE-5.4). There is a helper script that report the values that should be set on each host. The script should be available after a host is added to OpenNebula.
# for each host do as oneadmin user
ssh hostN /var/tmp/one/reserved.sh >reserved.tmpl
onehost update 'hostN' --append reserved.tmpl
or execute this scriptlet
``bash su - oneadmin while read -ru 4 hst; do echo "$hst"; ssh "$hst" /var/tmp/one/reserved.sh | tee "$hst.template"; onehost update "$hst" --append "$hst.template"; done 4< <(onehost list -x | xmlstarlet sel -t -m .//HOST -v NAME -n)
_Please note that the 'Overcommitment' change has no effect when NUMA configuration is used for the VMs_
### Configuring the System Datastore
addon-storpool driver is doing its best to support transfer manager (TM_MAD) backend of type _shared_, _ssh_, or _storpool_ (*recommended*) for the SYSTEM datastore. When only StorPool Storage is used the SYSTEM datastore will hold only symbolic links to the StorPool block devices, so it will not take much space. See more details on the [Open Cloud Storage Setup](https://docs.opennebula.io/6.0/open_cluster_deployment/storage_setup/).
* By default the storpool TM_MAD is with enabled SHARED attribute (*SHARED=YES*). But the default behavior for SYSTEM datastores is to use `ssh`. If a SYSTEM datastore is on shared filesystem then *SP_SYSTEM=shared* should be set in the datastore configuration
### Configuring the Datastore
Some configuration attributes must be set to enable a datastore as StorPool enabled one:
* **DS_MAD**: [mandatory] The DS driver for the datastore. String, use value `storpool`
* **TM_MAD**: [mandatory] Transfer driver for the datastore. String, use value `storpool`
* **DISK_TYPE**: [mandatory for IMAGE datastores] Type for the VM disks using images from this datastore. String, use value `block`
* **BRIDGE_LIST**: Nodes to use for image datastore operations. String (1)
1. Quoted, space separated list of server hostnames which are members of the StorPool cluster. If it is left empty or removed the front-end must have working _storpool_block_ service (must have access to the StorPool cluster) as all disk preparations will be done locally.
After a datastore is created in OpenNebula a StorPool template must be created to represent the datastore in StorPool. The name of the template should be *one-ds-${DATASTORE_ID}* where *${DATASTORE_ID}* is the *ID* of the OpenNebula's Datastore. Please refer the *StorPool's User Guide* for details how to configure a StorPool template.
* When there are multiple OpenNebula instances using same StorPool cluster a custom prefix should be set for each opennebula instance in the _addon-storpoolrc_ configuration file
The following example illustrates the creation of a StorPool datastore. The datastore will use hosts _node1, node2 and node3_ for importing and creating images.
#### Image datastore through *Sunstone*
Sunstone -> Storage -> Datastores -> Add [+]
* Name: StorPool IMAGE
* Storage Backend: Custom
Drivers (Datastore): Custom -> Custom DS_MAD: storpool
Drivers (Transfer): Custom -> Custom TM_MAD: storpool
* Datastore Type: Images
* Disk type -> Block
* Host Bridge List: node1 node2 node3
#### Image datastore through *onedatastore*
```bash
# create datastore configuration file
$ cat >/tmp/imageds.tmpl <<EOF
NAME = "StorPool IMAGE"
DS_MAD = "storpool"
TM_MAD = "storpool"
TYPE = "IMAGE_DS"
DISK_TYPE = "block"
BRIDGE_LIST = "node1 node2 node3"
EOF
# Create datastore
$ onedatastore create /tmp/imageds.tmpl
# Verify datastore is created
$ onedatastore list
ID NAME SIZE AVAIL CLUSTER IMAGES TYPE DS TM
0 system 98.3G 93% - 0 sys - ssh
1 default 98.3G 93% - 0 img fs ssh
2 files 98.3G 93% - 0 fil fs ssh
100 StorPool 2.4T 99% - 0 img storpool storpool
Create a StorPool template for the datastore with ID 100:
storpool template one-ds-100 replication 3 placeHead hdd placeAll hdd placeTail ssd
Sunstone -> Datastores -> Add [+]
- Name: StorPool SYSTEM
- Storage Backend: Custom Drivers (Transfer): Custom -> Custom TM_MAD: storpool
- Datastore Type: System
- Host Bridge List: node1 node2 node3
# create datastore configuration file
$ cat >/tmp/ds.conf <<_EOF_
NAME = "StorPool SYSTEM"
TM_MAD = "storpool"
TYPE = "SYSTEM_DS"
_EOF_
# Create datastore
$ onedatastore create /tmp/ds.conf
# Verify datastore is created
$ onedatastore list
ID NAME SIZE AVAIL CLUSTER IMAGES TYPE DS TM
0 system 98.3G 93% - 0 sys - shared
1 default 98.3G 93% - 0 img fs shared
2 files 98.3G 93% - 0 fil fs ssh
100 StorPool 2.4T 99% - 0 img storpool storpool
101 StorPoolSys 0M - - 0 sys - storpool
Create a StorPool template for the datastore with ID 101:
storpool template one-ds-101 replication 3 placeHead hdd placeAll hdd placeTail ssd
Please follow the advanced configuration guide to enable the extras that are not covered by the basic configuration.
Please follow the configuration tips for suggestions how to optionally reconfigure OpenNebula.
-
The suggested upgrade procedure is as follow
- Stop all opennebula services
- Upgrade the opennebula packages. But do not reconfigure anything yet
- Upgrade the addon (checkout/clone latest from github and run AUTOCONF=1 bash install.sh)
- Follow the addon configuration chapter in README.md to (re)configure the deriver
- Continue (re)configuring OpenNebula following the upstream docs
-
After upgrade please run misc/tagVolumes.sh to update/apply the common tags for volumes/snapshots
-
Remove old cron configuration files
/etc/cron.d/vc-policy
,/etc/cron.d/addon-storpool
-
Run the following code to update the StorPool volume tags
source /var/lib/one/remotes/addon-storpoolrc && while read -r -u 4 volume; do storpool volume "${volume}" update tag nloc=${ONE_PX:-one} tag virt=one; done 4< <(storpool -B -j volume list | jq -r --arg onepx "${ONE_PX:-one}" '.data[]|select(.name|startswith($onepx))|.name')
Please follow the naming convention for details on how the OpenNebula's datastores and images are mapped to the StorPool Templates, Volumes and Snapshots.
-
In release 19.03.2 the volume names of the attached CDROM images was changed. A separate volume with a unique name is created for each attachment. This could lead to errors when using restore with the alternate VM snapshot interface enabled. The workaround is to manually create/or rename/ a snapshot of the desired CDROM volume following the new naming convention. The migration to the new CDROM's volume naming convention is integrated so there is no manual operations needed.
-
Recent version of libvirt has more strict checks of the domain XML and do not allow live migration when there are file backed VM disks that are not on shared filesystem. The definition of the volatile disks that OpenNebula create are with hard-coded type 'file' that conflict with libvirt. There is a fix for this in addon-storpool 19.04.3+ but it will not alter the currently running VM's. A workaround is to patch vmm/kvm/migrate and add a check that enable
--unsafe
option if all disks are with disabled cache (cache="none"
). The following line just before the line that do the VM migration could leverage this issue:
(virsh --connect $LIBVIRT_URI dumpxml $deploy_id 2>/dev/null || echo '<a><disk device="disk"><driver cache="writeback"/></disk></a>') | xmllint --xpath '(//disk[@device="disk"]/driver[not(@cache="none")])' - >/dev/null 2>&1 || MIGRATE_OPTIONS+=" --unsafe"