The functionality of the module might change, but the main features will remain. Compatibility with future versions is guaranteed, but might require additional migration steps.

The module is only guaranteed to work if requirements are met. As for any other configurations, the module may work, but its smooth operation is not guaranteed.

This module manages replicated block storage based on DRBD. Currently, LINSTOR is used as a control-plane. The module allows you to create a Storage Pool in LINSTOR as well as a StorageClass in Kubernetes by creating Kubernetes custom resources. To create a Storage Pool, you will need the LVMVolumeGroup configured on the cluster nodes. The LVM configuration is done by the sds-node-configurator module.

Caution! Before enabling the sds-replicated-volume module, you must enable the sds-node-configurator module.

Caution! The user is not allowed to configure the LINSTOR backend directly.

Caution! Data synchronization during volume replication is carried out in synchronous mode only, asynchronous mode is not supported.

After you enable the sds-replicated-volume module in the Deckhouse configuration, your cluster will be automatically set to use the LINSTOR backend. You will only have to create storage pools and StorageClasses.

Caution! The user is not allowed to create a StorageClass for the replicated.csi.storage.deckhouse.io CSI driver.

Two modes are supported: LVM and LVMThin. Each mode has its advantages and disadvantages. Read FAQ to learn more and compare them.

Quickstart guide

Note that all commands must be run on a machine that has administrator access to the Kubernetes API.

Enabling modules

  • Enable the sds-node-configurator module
kubectl apply -f - <<EOF
apiVersion: deckhouse.io/v1alpha1
kind: ModuleConfig
metadata:
  name: sds-node-configurator
spec:
  enabled: true
  version: 1
EOF
  • Wait for it to become Ready. At this stage, you do NOT need to check the pods in the d8-sds-node-configurator namespace.
kubectl get module sds-node-configurator -w
  • Enable the sds-replicated-volume module. Refer to the configuration to learn more about module settings. In the example below, the module is launched with the default settings. This will result in the following actions across all cluster nodes:
    • installation of the DRBD kernel module;
    • registration of the CSI driver;
    • launch of service pods for the sds-replicated-volume components.
kubectl apply -f - <<EOF
apiVersion: deckhouse.io/v1alpha1
kind: ModuleConfig
metadata:
  name: sds-replicated-volume
spec:
  enabled: true
  version: 1
EOF
  • Wait for the module to become Ready.
kubectl get module sds-replicated-volume -w
  • Make sure that all pods in d8-sds-replicated-volume and d8-sds-node-configurator namespaces are Running or Completed and are running on all nodes where DRBD resources are intended to be used.
kubectl -n d8-sds-replicated-volume get pod -owide -w
kubectl -n d8-sds-node-configurator get pod -o wide -w

Configuring storage on nodes

You need to create LVM volume groups on the nodes using LVMVolumeGroup custom resources. As part of this quickstart guide, we will create a regular Thick storage. See usage examples to learn more about custom resources.

To configure the storage:

  • List all the BlockDevice resources available in your cluster:
kubectl get bd

NAME                                           NODE       CONSUMABLE   SIZE      PATH
dev-0a29d20f9640f3098934bca7325f3080d9b6ef74   worker-0   true         30Gi      /dev/vdd
dev-457ab28d75c6e9c0dfd50febaac785c838f9bf97   worker-0   false        20Gi      /dev/vde
dev-49ff548dfacba65d951d2886c6ffc25d345bb548   worker-1   true         35Gi      /dev/vde
dev-75d455a9c59858cf2b571d196ffd9883f1349d2e   worker-2   true         35Gi      /dev/vdd
dev-ecf886f85638ee6af563e5f848d2878abae1dcfd   worker-0   true         5Gi       /dev/vdb
kubectl apply -f - <<EOF
apiVersion: storage.deckhouse.io/v1alpha1
kind: LvmVolumeGroup
metadata:
  name: "vg-1-on-worker-0" # The name can be any fully qualified resource name in Kubernetes. This LvmVolumeGroup resource name will be used to create ReplicatedStoragePool in the future
spec:
  type: Local
  blockDeviceNames:  # specify the names of the BlockDevice resources that are located on the target node and whose CONSUMABLE is set to true. Note that the node name is not specified anywhere since it is derived from BlockDevice resources.
    - dev-0a29d20f9640f3098934bca7325f3080d9b6ef74
    - dev-ecf886f85638ee6af563e5f848d2878abae1dcfd
  actualVGNameOnTheNode: "vg-1" # the name of the LVM VG to be created from the above block devices on the node 
EOF
  • Wait for the created LVMVolumeGroup resource to become Operational:
kubectl get lvg vg-1-on-worker-0 -w
  • The resource becoming Operational means that an LVM VG named vg-1 made up of the /dev/vdd and /dev/vdb block devices has been created on the worker-0 node.

  • Next, create an LVMVolumeGroup resource for worker-1:

kubectl apply -f - <<EOF
apiVersion: storage.deckhouse.io/v1alpha1
kind: LvmVolumeGroup
metadata:
  name: "vg-1-on-worker-1"
spec:
  type: Local
  blockDeviceNames:
    - dev-49ff548dfacba65d951d2886c6ffc25d345bb548
  actualVGNameOnTheNode: "vg-1"
EOF
  • Wait for the created LVMVolumeGroup resource to become Operational:
kubectl get lvg vg-1-on-worker-1 -w
  • The resource becoming Operational means that an LVM VG named vg-1 made up of the /dev/vde block device has been created on the worker-1 node.

  • Create an LVMVolumeGroup resource for worker-2:

kubectl apply -f - <<EOF
apiVersion: storage.deckhouse.io/v1alpha1
kind: LvmVolumeGroup
metadata:
  name: "vg-1-on-worker-2"
spec:
  type: Local
  blockDeviceNames:
    - dev-75d455a9c59858cf2b571d196ffd9883f1349d2e
  actualVGNameOnTheNode: "vg-1"
EOF
  • Wait for the created LVMVolumeGroup resource to become Operational:
kubectl get lvg vg-1-on-worker-2 -w
  • The resource becoming Operational means that an LVM VG named vg-1 made up of the /dev/vdd block device has been created on the worker-2 node.

  • Now that we have all the LVM VGs created on the nodes, create a ReplicatedStoragePool out of those VGs:

kubectl apply -f -<<EOF
apiVersion: storage.deckhouse.io/v1alpha1
kind: ReplicatedStoragePool
metadata:
  name: data
spec:
  type: LVM
  lvmVolumeGroups: # Here, specify the names of the LvmVolumeGroup resources you created earlier
    - name: vg-1-on-worker-0
    - name: vg-1-on-worker-1
    - name: vg-1-on-worker-2
EOF
  • Wait for the created ReplicatedStoragePool resource to become Completed:
kubectl get rsp data -w
  • Confirm that the data Storage Pool has been created on nodes worker-0, worker-1 and worker-2 in LINSTOR:
alias linstor='kubectl -n d8-sds-replicated-volume exec -ti deploy/linstor-controller -- linstor'
linstor sp l

╭─────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────╮
┊ StoragePool          ┊ Node     ┊ Driver   ┊ PoolName ┊ FreeCapacity ┊ TotalCapacity ┊ CanSnapshots ┊ State ┊ SharedName                    ┊
╞═════════════════════════════════════════════════════════════════════════════════════════════════════════════════════════════════════════════╡
┊ DfltDisklessStorPool ┊ worker-0 ┊ DISKLESS ┊          ┊              ┊               ┊ False        ┊ Ok    ┊ worker-0;DfltDisklessStorPool ┊
┊ DfltDisklessStorPool ┊ worker-1 ┊ DISKLESS ┊          ┊              ┊               ┊ False        ┊ Ok    ┊ worker-1;DfltDisklessStorPool ┊
┊ DfltDisklessStorPool ┊ worker-2 ┊ DISKLESS ┊          ┊              ┊               ┊ False        ┊ Ok    ┊ worker-2;DfltDisklessStorPool ┊
┊ data                 ┊ worker-0 ┊ LVM      ┊ vg-1     ┊    35.00 GiB ┊     35.00 GiB ┊ False        ┊ Ok    ┊ worker-0;data                 ┊
┊ data                 ┊ worker-1 ┊ LVM      ┊ vg-1     ┊    35.00 GiB ┊     35.00 GiB ┊ False        ┊ Ok    ┊ worker-1;data                 ┊
┊ data                 ┊ worker-2 ┊ LVM      ┊ vg-1     ┊    35.00 GiB ┊     35.00 GiB ┊ False        ┊ Ok    ┊ worker-2;data                 ┊
╰─────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────╯
kubectl apply -f -<<EOF
apiVersion: storage.deckhouse.io/v1alpha1
kind: ReplicatedStorageClass
metadata:
  name: replicated-storage-class
spec:
  storagePool: data # Here, specify the name of the ReplicatedStoragePool you created earlier
  reclaimPolicy: Delete
  topology: Ignored # - note that setting "ignored" means there should be no zones (nodes labeled topology.kubernetes.io/zone) in the cluster
EOF
  • Wait for the created ReplicatedStorageClass resource to become Created:
kubectl get rsc replicated-storage-class -w
  • Confirm that the corresponding StorageClass has been created:
kubectl get sc replicated-storage-class
  • If StorageClass with the name replicated-storage-class is shown, then the configuration of the sds-replicated-volume module is complete. Now users can create PVs by specifying StorageClass with the name replicated-storage-class. Given the above settings, a volume will be created with 3 replicas on different nodes.

System requirements and recommendations

Requirements

  • Stock kernels shipped with the supported distributions.
  • High-speed 10Gbps network.
  • Do not use another SDS (Software defined storage) to provide disks to our SDS.

Recommendations

  • Avoid using RAID. The reasons are detailed in the FAQ.

  • Use local physical disks. The reasons are detailed in the FAQ.