Harvester Cloud Provider
RKE1 and RKE2 clusters can be provisioned in Rancher using the built-in Harvester Node Driver. Harvester provides load balancer and Harvester cluster storage passthrough support to the guest Kubernetes cluster.
In this page we will learn:
- How to deploy the Harvester cloud provider in both RKE1 and RKE2 cluster.
- How to use the Harvester load balancer.
Backward Compatibility Notice
note
Please note a known backward compatibility issue if you’re using the Harvester cloud provider version v0.2.2 or higher. If your Harvester version is below v1.2.0 and you intend to use newer RKE2 versions (i.e., >= v1.26.6+rke2r1
, v1.25.11+rke2r1
, v1.24.15+rke2r1
), it is essential to upgrade your Harvester cluster to v1.2.0 or a higher version before proceeding with the upgrade of the guest Kubernetes cluster or Harvester cloud provider.
For a detailed support matrix, please refer to the Harvester CCM & CSI Driver with RKE2 Releases section of the official website.
Deploying
Prerequisites
- The Kubernetes cluster is built on top of Harvester virtual machines.
- The Harvester virtual machines run as guest Kubernetes nodes are in the same namespace.
important
Each Harvester VM must have the macvlan
kernel module, which is required for the LoadBalancer
services of the DHCP IPAM mode.
To check if the kernel module is available, access the VM and run the following commands:
lsmod | grep macvlan
sudo modprobe macvlan
The kernel module is likely to be missing if the following occur:
$ lsmod | grep macvlan
does not produce output.$ sudo modprobe macvlan
displays an error message similar tomodprobe: FATAL: Module macvlan not found in directory /lib/modules/5.14.21-150400.22-default
.
By default, the macvlan
kernel module is not included in SUSE Linux Enterprise 15 Service Pack 4/5/6 minimal cloud images (see Issue #6418). Those images contain the kernel-default-base package, which includes only the base modules. However, the macvlan
kernel driver becomes available when you install the kernel-default
package.
To eliminate the need for manual intervention after the guest cluster is provisioned, build your own cloud images using the openSUSE Build Service (OBS). You must remove the kernel-default-base
package and add the kernel-default
package in the Minimal.kiwi
file to ensure that the resulting cloud image includes the macvlan
kernel module. For more information, see Custom SUSE VM Images.
Deploying to the RKE1 Cluster with Harvester Node Driver
When spinning up an RKE cluster using the Harvester node driver, you can perform two steps to deploy the Harvester
cloud provider:
Select
Harvester(Out-of-tree)
option.Install
Harvester Cloud Provider
from the Rancher marketplace.
Deploying to the RKE2 Cluster with Harvester Node Driver
When spinning up an RKE2 cluster using the Harvester node driver, select the Harvester
cloud provider. The node driver will then help deploy both the CSI driver and CCM automatically.
Starting with Rancher v2.9.0, you can configure a specific folder for cloud config data using the Data directory configuration path field.
Manually Deploying to the RKE2 Cluster
Generate cloud config data using the script
generate_addon.sh
, and then place the data on every custom node (directory:/etc/kubernetes/cloud-config
).curl -sfL https://raw.githubusercontent.com/harvester/cloud-provider-harvester/master/deploy/generate_addon.sh | bash -s <serviceaccount name> <namespace>
note
The script depends on
kubectl
andjq
when operating the Harvester cluster, and functions only when given access to theHarvester Cluster
kubeconfig file.You can find the
kubeconfig
file in one of the Harvester management nodes in the/etc/rancher/rke2/rke2.yaml
path. The server IP must be replaced with the VIP address.Example of content:
apiVersion: v1
clusters:
- cluster:
certificate-authority-data: <redacted>
server: https://127.0.0.1:6443
name: default
# ...
You must specify the namespace in which the guest cluster will be created.
Example of output:
########## cloud config ############
apiVersion: v1
clusters:
- cluster:
certificate-authority-data: <CACERT>
server: https://HARVESTER-ENDPOINT/k8s/clusters/local
name: local
contexts:
- context:
cluster: local
namespace: default
user: harvester-cloud-provider-default-local
name: harvester-cloud-provider-default-local
current-context: harvester-cloud-provider-default-local
kind: Config
preferences: {}
users:
- name: harvester-cloud-provider-default-local
user:
token: <TOKEN>
########## cloud-init user data ############
write_files:
- encoding: b64
content: <CONTENT>
owner: root:root
path: /etc/kubernetes/cloud-config
permissions: '0644'
On the RKE2 cluster creation page, go to the Cluster Configuration screen and set the value of Cloud Provider to External.
Copy and paste the
cloud-init user data
content to Machine Pools > Show Advanced > User Data.Add the
HelmChart
CRD forharvester-cloud-provider
to Cluster Configuration > Add-On Config > Additional Manifest.You must replace
<cluster-name>
with the name of your cluster.apiVersion: helm.cattle.io/v1
kind: HelmChart
metadata:
name: harvester-cloud-provider
namespace: kube-system
spec:
targetNamespace: kube-system
bootstrap: true
repo: https://raw.githubusercontent.com/rancher/charts/dev-v2.9
chart: harvester-cloud-provider
version: 104.0.2+up0.2.6
helmVersion: v3
valuesContent: |-
global:
cattle:
clusterName: <cluster-name>
To create the load balancer, add the annotation
cloudprovider.harvesterhci.io/ipam: <dhcp|pool>
.
Deploying to the RKE2 custom cluster (experimental)
Generate cloud config data using the script
generate_addon.sh
, and then place the data on every custom node (directory:/etc/kubernetes/cloud-config
).curl -sfL https://raw.githubusercontent.com/harvester/cloud-provider-harvester/master/deploy/generate_addon.sh | bash -s <serviceaccount name> <namespace>
note
The script depends on
kubectl
andjq
when operating the Harvester cluster, and functions only when given access to theHarvester Cluster
kubeconfig file.You can find the
kubeconfig
file in one of the Harvester management nodes in the/etc/rancher/rke2/rke2.yaml
path. The server IP must be replaced with the VIP address.Example of content:
apiVersion: v1
clusters:
- cluster:
certificate-authority-data: <redacted>
server: https://127.0.0.1:6443
name: default
# ...
You must specify the namespace in which the guest cluster will be created.
Example of output:
########## cloud config ############
apiVersion: v1
clusters:
- cluster:
certificate-authority-data: <CACERT>
server: https://HARVESTER-ENDPOINT/k8s/clusters/local
name: local
contexts:
- context:
cluster: local
namespace: default
user: harvester-cloud-provider-default-local
name: harvester-cloud-provider-default-local
current-context: harvester-cloud-provider-default-local
kind: Config
preferences: {}
users:
- name: harvester-cloud-provider-default-local
user:
token: <TOKEN>
########## cloud-init user data ############
write_files:
- encoding: b64
content: <CONTENT>
owner: root:root
path: /etc/kubernetes/cloud-config
permissions: '0644'
Create a VM in the Harvester cluster with the following settings:
Basics tab: The minimum requirements are 2 CPUs and 4 GiB of RAM. The required disk space depends on the VM image.
Networks tab: Specify a network name with the format
nic-<number>
.Advanced Options tab: Copy and paste the content of the Cloud Config User Data screen.
On the Basics tab of the Cluster Configuration screen, select Harvester as the Cloud Provider and then select Create to spin up the cluster.
On the Registration tab, perform the steps required to run the RKE2 registration command on the VM.
Deploying to the K3s cluster with Harvester node driver (experimental)
When spinning up a K3s cluster using the Harvester node driver, you can perform the following steps to deploy the harvester cloud provider:
Use
generate_addon.sh
to generate cloud config.curl -sfL https://raw.githubusercontent.com/harvester/cloud-provider-harvester/master/deploy/generate_addon.sh | bash -s <serviceaccount name> <namespace>
The output will look as follows:
########## cloud config ############
apiVersion: v1
clusters:
- cluster:
certificate-authority-data: <CACERT>
server: https://HARVESTER-ENDPOINT/k8s/clusters/local
name: local
contexts:
- context:
cluster: local
namespace: default
user: harvester-cloud-provider-default-local
name: harvester-cloud-provider-default-local
current-context: harvester-cloud-provider-default-local
kind: Config
preferences: {}
users:
- name: harvester-cloud-provider-default-local
user:
token: <TOKEN>
########## cloud-init user data ############
write_files:
- encoding: b64
content: <CONTENT>
owner: root:root
path: /etc/kubernetes/cloud-config
permissions: '0644'
```
Copy and paste the
cloud-init user data
content to Machine Pools >Show Advanced > User Data.Add the following
HelmChart
yaml ofharvester-cloud-provider
to Cluster Configuration > Add-On Config > Additional Manifest.apiVersion: helm.cattle.io/v1
kind: HelmChart
metadata:
name: harvester-cloud-provider
namespace: kube-system
spec:
targetNamespace: kube-system
bootstrap: true
repo: https://charts.harvesterhci.io/
chart: harvester-cloud-provider
version: 0.2.2
helmVersion: v3
Disable the
in-tree
cloud provider in the following ways:- Click the
Edit as YAML
button.
- Disable
servicelb
and setdisable-cloud-controller: true
to disable the default K3s cloud controller.
machineGlobalConfig:
disable:
- servicelb
disable-cloud-controller: true
- Add
cloud-provider=external
to use the Harvester cloud provider.
machineSelectorConfig:
- config:
kubelet-arg:
- cloud-provider=external
protect-kernel-defaults: false
- Click the
With these settings in place a K3s cluster should provision successfully while using the external cloud provider.
Upgrade Cloud Provider
Upgrade RKE2
The cloud provider can be upgraded by upgrading the RKE2 version. You can upgrade the RKE2 cluster via the Rancher UI as follows:
- Click ☰ > Cluster Management.
- Find the guest cluster that you want to upgrade and select ⋮ > Edit Config.
- Select Kubernetes Version.
- Click Save.
Upgrade RKE/K3s
RKE/K3s upgrade cloud provider via the Rancher UI, as follows:
- Click ☰ > RKE/K3s Cluster > Apps > Installed Apps.
- Find the cloud provider chart and select ⋮ > Edit/Upgrade.
- Select Version.
- Click Next > Update.
info
The upgrade process for a single-node guest cluster may stall when the new harvester-cloud-provider
pod is stuck in the Pending state. This issue is caused by a section in the harvester-cloud-provider
deployment that describes the rolling update strategy. Specifically, the default value conflicts with the podAntiAffinity
configuration in single-node clusters.
For more information, see this GitHub issue comment. To address the issue, manually delete the old harvester-cloud-provider
pod. You might need to do this multiple times until the new pod can be successfully scheduled.
Load Balancer Support
Once you’ve deployed the Harvester cloud provider, you can leverage the Kubernetes LoadBalancer
service to expose a microservice within the guest cluster to the external world. Creating a Kubernetes LoadBalancer
service assigns a dedicated Harvester load balancer to the service, and you can make adjustments through the Add-on Config
within the Rancher UI.
IPAM
Harvester’s built-in load balancer offers both DHCP and Pool modes, and you can configure it by adding the annotation cloudprovider.harvesterhci.io/ipam: $mode
to its corresponding service. Starting from Harvester cloud provider >= v0.2.0, it also introduces a unique Share IP mode. A service shares its load balancer IP with other services in this mode.
DCHP: A DHCP server is required. The Harvester load balancer will request an IP address from the DHCP server.
Pool: An IP pool must be configured first. The Harvester load balancer controller will allocate an IP for the load balancer service following the IP pool selection policy.
Share IP: When creating a new load balancer service, you can re-utilize an existing load balancer service IP. The new service is referred to as a secondary service, while the currently chosen service is the primary one. To specify the primary service in the secondary service, you can add the annotation
cloudprovider.harvesterhci.io/primary-service: $primary-service-name
. However, there are two known limitations:- Services that share the same IP address can’t use the same port.
- Secondary services cannot share their IP with additional services.
note
Modifying the IPAM
mode isn’t allowed. You must create a new service if you intend to change the IPAM
mode.
Health checks
Beginning with Harvester cloud provider v0.2.0, additional health checks of the LoadBalancer
service within the guest Kubernetes cluster are no longer necessary. Instead, you can configure liveness and readiness probes for your workloads. Consequently, any unavailable pods will be automatically removed from the load balancer endpoints to achieve the same desired outcome.