Quick Start
Table of Contents
Longhorn’s V2 Data Engine harnesses the power of the Storage Performance Development Kit (SPDK) to elevate its overall performance. The integration significantly reduces I/O latency while simultaneously boosting IOPS and throughput. The enhancement provides a high-performance storage solution capable of meeting diverse workload demands.
V2 Data Engine is currently a PREVIEW feature and should NOT be utilized in a production environment. At present, a volume with V2 Data Engine only supports
In addition to the features mentioned above, additional functionalities such as replica number adjustment, online replica rebuilding, snapshot, backup, restore and so on will be introduced in future versions.
This tutorial will guide you through the process of configuring the environment and create Kubernetes persistent storage resources of persistent volumes (PVs) and persistent volume claims (PVCs) that correspond to Longhorn volumes using V2 Data Engine.
For Debian and Ubuntu, please install Linux kernel extra modules before loading the kernel modules
apt install -y linux-modules-extra-`uname -r`
We provide a manifest that helps you configure the kernel modules and huge pages automatically, making it easier to set up.
kubectl apply -f https://raw.githubusercontent.com/longhorn/longhorn/v1.6.3/deploy/prerequisite/longhorn-spdk-setup.yaml
And also can check the log with the following command to see the installation result.
Cloning into '/tmp/spdk'...
INFO: Requested 1024 hugepages but 1024 already allocated on node0
SPDK environment is configured successfully
Or, you can install them manually by following these steps.
Load the kernel modules on the each Longhorn node
modprobe uio
modprobe uio_pci_generic
Configure huge pages SPDK leverages huge pages for enhancing performance and minimizing memory overhead. You must configure 2 MiB-sized huge pages on each Longhorn node to enable usage of huge pages. Specifically, 1024 pages (equivalent to a total of 2 GiB) must be available on each Longhorn node.
To allocate huge pages, run the following commands on each node.
echo 1024 > /sys/kernel/mm/hugepages/hugepages-2048kB/nr_hugepages
To make the change permanent, add the following line to the file /etc/sysctl.conf.
echo "vm.nr_hugepages=1024" >> /etc/sysctl.conf
nvme-tcp
Kernel ModuleWe provide a manifest that helps you finish the deployment on each Longhorn node.
kubectl apply -f https://raw.githubusercontent.com/longhorn/longhorn/v1.6.3/deploy/prerequisite/longhorn-nvme-cli-installation.yaml
Or, you can manually load nvme-tcp
kernel module on the each Longhorn node
modprobe nvme-tcp
Rather than manually loading kernel modules uio
, uio_pci_generic
and nvme-tcp
each time after reboot, you can streamline the process by configuring automatic module loading during the boot sequence. For detailed instructions, please consult the manual provided by your operating system.
Reference:
kubelet
After finishing the above steps, restart kubelet on each node.
Make sure everything is correctly configured and installed by
bash -c "$(curl -sfL https://raw.githubusercontent.com/longhorn/longhorn/v1.6.3/scripts/environment_check.sh)" -s -s
Follow the steps in Quick Installation to install Longhorn system.
Enable the V2 Data Engine by changing the v2-data-engine
setting to true
after installation. Following this, the instance-manager pods will be automatically restarted.
Or, you can enable it in Setting > General > V2 Data Engine
.
When the V2 Data Engine is enabled, each Instance Manager pod for the V2 Data Engine uses 1 CPU core. The high CPU usage is caused by spdk_tgt
, a process running in each Instance Manager pod that handles input/output (IO) operations and requires intensive polling. spdk_tgt
consumes 100% of a dedicated CPU core to efficiently manage and process the IO requests, ensuring optimal performance and responsiveness for storage operations.
NAME CPU(cores) MEMORY(bytes)
csi-attacher-57c5fd5bdf-jsfs4 1m 7Mi
csi-attacher-57c5fd5bdf-kb6dv 1m 9Mi
csi-attacher-57c5fd5bdf-s7fb6 1m 7Mi
csi-provisioner-7b95bf4b87-8xr6f 1m 11Mi
csi-provisioner-7b95bf4b87-v4gwb 1m 9Mi
csi-provisioner-7b95bf4b87-vnt58 1m 9Mi
csi-resizer-6df9886858-6v2ds 1m 8Mi
csi-resizer-6df9886858-b6mns 1m 9Mi
csi-resizer-6df9886858-l4vmj 1m 8Mi
csi-snapshotter-5d84585dd4-4dwkz 1m 7Mi
csi-snapshotter-5d84585dd4-km8bc 1m 9Mi
csi-snapshotter-5d84585dd4-kzh6w 1m 7Mi
engine-image-ei-b907910b-79k2s 3m 19Mi
instance-manager-214803c4f23376af5a75418299b12ad6 1015m 133Mi (for V2 Data Engine)
instance-manager-4550bbc4938ff1266584f42943b511ad 4m 15Mi (for V1 Data Engine)
longhorn-csi-plugin-nz94f 1m 26Mi
longhorn-driver-deployer-556955d47f-h5672 1m 12Mi
longhorn-manager-2n9hd 4m 42Mi
longhorn-ui-58db78b68-bzzz8 0m 2Mi
longhorn-ui-58db78b68-ffbxr 0m 2Mi
You can observe the utilization of allocated huge pages on each node by running the command kubectl get node <node name> -o yaml
.
# kubectl get node sles-pool1-07437316-4jw8f -o yaml
...
status:
...
allocatable:
cpu: "8"
ephemeral-storage: "203978054087"
hugepages-1Gi: "0"
hugepages-2Mi: 2Gi
memory: 31813168Ki
pods: "110"
capacity:
cpu: "8"
ephemeral-storage: 209681388Ki
hugepages-1Gi: "0"
hugepages-2Mi: 2Gi
memory: 32861744Ki
pods: "110"
...
block-type
Disks in Longhorn NodesUnlike filesystem-type
disks that are designed for legacy volumes, volumes using V2 Data Engine are persistent on block-type
disks. Therefore, it is necessary to equip Longhorn nodes with block-type
disks.
If there are no additional disks available on the Longhorn nodes, you can create loop block devices to test the feature. To accomplish this, execute the following command on each Longhorn node to create a 10 GiB block device.
dd if=/dev/zero of=blockfile bs=1M count=10240
losetup -f blockfile
To display the path of the block device when running the command losetup -f blockfile
, use the following command.
losetup -j blockfile
node.longhorn.io
You can add the disk by navigating to the Node UI page and specify the Disk Type
as Block
. Next, provide the block device’s path in the Path
field.
Or, edit the node.longhorn.io
resource.
kubectl -n longhorn-system edit node.longhorn.io <NODE NAME>
Add the disk to Spec.Disks
<DISK NAME>:
allowScheduling: true
evictionRequested: false
path: /PATH/TO/BLOCK/DEVICE
storageReserved: 0
tags: []
diskType: block
Wait for a while, you will see the disk is displayed in the Status.DiskStatus
.
After the installation and configuration, we can dynamically provision a Persistent Volume using V2 Data Engine as the following steps.
Run the following command to create a StorageClass named longhorn-spdk
. Set parameters.dataEngine
to v2
to enable the V2 Data Engine.
kubectl apply -f https://raw.githubusercontent.com/longhorn/longhorn/v1.6.3/examples/v2/storageclass.yaml
Create a Pod that uses Longhorn volumes using V2 Data Engine by running this command:
kubectl apply -f https://raw.githubusercontent.com/longhorn/longhorn/v1.6.3/examples/v2/pod_with_pvc.yaml
Or, if you are creating a volume on Longhorn UI, please specify the Data Engine
as v2
.
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