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Dynamically provision Stateful Persistent Node-Local Volumes & Filesystems for Kubernetes that is integrated with a backend LVM2 data storage stack.

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OpenEBS - LocalPV-LVM CSI Driver

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Linux LVM2 The OpenEBS LocalPV-LVM Data-Engine is a mature and well deployed production grade CSI driver for dynamically provisioning Node Local Volumes into a K8s cluster utilizing the LINUX LVM2 Data / storage Mgmt stack as the storage backend. It integrates LVM2 into the OpenEBS platform and exposes many LVM2 services and capabilities.

Overview

LocalPV-LVM CSI Driver became GA in August 2021 (with the release v0.8.0). It is now a very mature product and a core component of the OpenEBS storage platform. Due to the major adoption of LocalPV-LVM (+50,000 users), this Data-Engine is now being unified and integrated into the core OpenEBS Storage platform; instead of being maintained as an external Data-Engine within our project.

Our 2024 Roadmap is here. It defines a rich set of new features, which covers the integration of LocalPV-LVM into the core OpenEBS platform.
Please review this roadmap and feel free to pass back any feedback on it, as well as recommend and suggest new ideas regarding LocalPV-LVM. We welcome all your feedback.

LocalPV-LVM is very popular : Live OpenEBS systems actively report back product metrics every day, to our Global Anaytics metrics engine (unless disabled by the user). Here are our key project popularity metrics as of: 01 Mar 2024

🚀   OpenEBS is the #1 deployed Storage Platform for Kubernetes
⚡   LocalPV-LVM is the 3rd most deployed Data-Engine within the platform
😎   LocalPV-LVM has +50,000 Daily Active Users
😎   LocalPV-LVM has +120,000 Global installations
💾   +49 Million OpenEBS Volumes have been deployed globally
📺   We have +8 Million Global OpenEBS installations
⭐   We are the #1 GitHub Star ranked K8s Data Storage platform


Dev Activity dashboard

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Project info

The orignal v1.0 dev roadmap is here . This tracks our base historical engineering development work and is now somewhat out of date. We will be publish an updated 2024 Unified Roadmp soon, as LocalPV-LVM is now being integrated and unified into the core OpenEBS storage platform.


Usage and Deployment

Prerequisites

Important

Before installing the LocalPV-LVM driver please make sure your Kubernetes Cluster meets the following prerequisites:

  1. All the nodes must have LVM2 utils package installed
  2. All the nodes must have dm-snapshot Kernel Module loaded - (Device Mapper Snapshot)
  3. You have access to install RBAC components into <OPENEBS> namespace.

Supported System

Name Version
K8S 1.23+
Distro Alpine, Arch, CentOS, Debian, Fedora, NixOS, SUSE, Talos, RHEL, Ubuntu
Kernel oldest supported kernel is 2.6
LVM2 2.03.21
Min RAM LVM2 is a kernel native module. It is very efficent and fast. It has no strict memory requirements
Stability LVM2 is extremly stable and very mature. The Kernel was released ~2005. It exists in most LINUX distros


Setup

Find the disk which you want to use for the LocalPV-LVM. Note: For testing you can use the loopback device.

truncate -s 1024G /tmp/disk.img
sudo losetup -f /tmp/disk.img --show

Note

  • LocalPV-LVM will not provision the VG for the user
  • The required Physical Volumes(PV) and Volume Group(VG) names will need to be created and present beforehand.

Create the Volume group on all the nodes, which will be used by the LVM2 Driver for provisioning the volumes

sudo pvcreate /dev/loop0
sudo vgcreate lvmvg /dev/loop0       ## here lvmvg is the volume group name to be created


Installation

Install the latest release of OpenEBS LVM2 LocalPV-LVM driver by running the following command. Note: All nodes must be running the same version of LocalPV-LVM, LMV2, device-mapper & dm-snapshot.

NOTE: Installation using operator YAMLs is not the supported way any longer.
We can install the latest release of OpenEBS LVM driver by running the following command:

helm repo add openebs https://openebs.github.io/openebs
helm repo update
helm install openebs --namespace openebs openebs/openebs --create-namespace

NOTE: If you are running a custom Kubelet location, or a Kubernetes distribution that uses a custom Kubelet location, the kubelet directory must be changed on the helm values at install-time using the flag option --set lvm-localpv.lvmNode.kubeletDir=<your-directory-path> in the helm install command.

  • For microk8s, we need to change the kubelet directory to /var/snap/microk8s/common/var/lib/kubelet/, we need to replace /var/lib/kubelet/ with /var/snap/microk8s/common/var/lib/kubelet/.
  • For k0s, the default directory (/var/lib/kubelet) should be changed to /var/lib/k0s/kubelet.
  • For RancherOS, the default directory (/var/lib/kubelet) should be changed to /opt/rke/var/lib/kubelet.

Verify that the LVM driver Components are installed and running using below command. Depending on number of nodes, you will see one lvm-controller pod and lvm-node daemonset running on the nodes :

$ kubectl get pods -n openebs -l role=openebs-lvm
NAME                                              READY   STATUS    RESTARTS   AGE
openebs-lvm-localpv-controller-7b6d6b4665-fk78q   5/5     Running   0          11m
openebs-lvm-localpv-node-mcch4                    2/2     Running   0          11m
openebs-lvm-localpv-node-pdt88                    2/2     Running   0          11m
openebs-lvm-localpv-node-r9jn2                    2/2     Running   0          11m

Once LVM driver is installed and running we can provision a volume.

Deployment

1. Create a Storage class

$ cat sc.yaml

apiVersion: storage.k8s.io/v1
kind: StorageClass
metadata:
  name: openebs-lvmpv
parameters:
  storage: "lvm"
  volgroup: "lvmvg"
provisioner: local.csi.openebs.io

Check the doc on storageclasses to know all the supported parameters for LocalPV-LVM

VolumeGroup Availability

If LVM volume group is available on certain nodes only, then make use of topology to tell the list of nodes where we have the volgroup available. As shown in the below storage class, we can use allowedTopologies to describe volume group availability on nodes.

apiVersion: storage.k8s.io/v1
kind: StorageClass
metadata:
  name: openebs-lvmpv
allowVolumeExpansion: true
parameters:
  storage: "lvm"
  volgroup: "lvmvg"
provisioner: local.csi.openebs.io
allowedTopologies:
- matchLabelExpressions:
  - key: kubernetes.io/hostname
    values:
      - lvmpv-node1
      - lvmpv-node2

The above storage class tells that volume group "lvmvg" is available on nodes lvmpv-node1 and lvmpv-node2 only. The LVM driver will create volumes on those nodes only.

Please note that the provisioner name for LVM driver is "local.csi.openebs.io", we have to use this while creating the storage class so that the volume provisioning/deprovisioning request can come to LVM driver.

2. Create the PVC

$ cat pvc.yaml

kind: PersistentVolumeClaim
apiVersion: v1
metadata:
  name: csi-lvmpv
spec:
  storageClassName: openebs-lvmpv
  accessModes:
    - ReadWriteOnce
  resources:
    requests:
      storage: 4Gi

Create a PVC using the storage class created for the LVM driver.

3. Deploy the application

Create the deployment yaml using the pvc backed by LVM storage.

$ cat fio.yaml

apiVersion: v1
kind: Pod
metadata:
  name: fio
spec:
  restartPolicy: Never
  containers:
  - name: perfrunner
    image: openebs/tests-fio
    command: ["/bin/bash"]
    args: ["-c", "while true ;do sleep 50; done"]
    volumeMounts:
       - mountPath: /datadir
         name: fio-vol
    tty: true
  volumes:
  - name: fio-vol
    persistentVolumeClaim:
      claimName: csi-lvmpv

After the deployment of the application, we can go to the node and see that the lvm volume is being used by the application for reading/writing the data and space is consumed from the LVM. Please note that to check the provisioned volumes on the node, we need to run pvscan --cache command to update the lvm cache and then we can use lvdisplay and all other lvm commands on the node.

4. Deprovisioning

for deprovisioning the volume we can delete the application which is using the volume and then we can go ahead and delete the pv, as part of deletion of pv this volume will also be deleted from the volume group and data will be freed.

$ kubectl delete -f fio.yaml
pod "fio" deleted
$ kubectl delete -f pvc.yaml
persistentvolumeclaim "csi-lvmpv" deleted

Features

  • Access Modes
    • ReadWriteOnce
    • ReadOnlyMany
    • ReadWriteMany
  • Volume modes
    • Filesystem mode
    • Block mode
  • Supports fsTypes: ext4, btrfs, xfs
  • Volume metrics
  • Topology
  • Snapshot
  • Clone
  • Volume Resize
  • Thin Provision
  • Backup/Restore
  • Ephemeral inline volume

Limitation

  • Resize of volumes with snapshot is not supported

License Compliance

FOSSA Status