This is tencent cloud provider for cluster-api
There're 3 binaries:
- clusterapi-generic-controller: machinedeployment controller and machineset controller. No depends on tencent provider.
- tke-cluster-controller: cluster controller for TKE
- tke-machine-controller: machine controller for TKE
To build these binaries, just type:
make bin
The binaries will be under output/bin/.
To build docker images from the binaries, try:
REPO=ccr.ccs.tencentyun.com/ccs-dev TAG=0.2 make img
3 images will be produced by above command:
- ccr.ccs.tencentyun.com/ccs-dev/clusterapi-generic-controller:0.2
- ccr.ccs.tencentyun.com/ccs-dev/tke-cluster-controller:0.2
- ccr.ccs.tencentyun.com/ccs-dev/tke-machine-controller:0.2
To generate yaml files using above docker images, try:
REPO=ccr.ccs.tencentyun.com/ccs-dev TAG=0.2 make yaml
The generated yaml files will be under output/yaml
Usally we only need output/yaml/clusterapi-controllers-all-in-one.yaml, whick defines 3 deployments.
kubectl apply -f config/crds/clusterapi-crds-all-in-one.yaml
check:
# kubectl get CustomResourceDefinition
NAME AGE
clusters.cluster.k8s.io 1m
machines.cluster.k8s.io 1m
machinesets.cluster.k8s.io 1m
machinedeployments.cluster.k8s.io 1m
There's a template yaml file for the secret:
# cat config/yaml/tencent-cloud-api-secret.yaml
apiVersion: v1
kind: Secret
metadata:
name: tencent-cloud-api-secret
type: Opaque
data:
SecretId: '!!! Get your SecretId from https://console.cloud.tencent.com/cam/capi'
SecretKey: '!!! Get your SecretKey from https://console.cloud.tencent.com/cam/capi'
Go to Tencent Cloud API Token to get your effective SecretId and SecretKey, fill them into the config/yaml/tencent-cloud-api-secret.yaml, and then kubectl apply -f config/yaml/tencent-cloud-api-secret.yaml
kubectl apply -f output/yaml/clusterapi-controllers-all-in-one.yaml
check:
# kubectl get deployment
NAME DESIRED CURRENT UP-TO-DATE AVAILABLE AGE
clusterapi-generic-controller 1 1 1 1 3d
tke-cluster-controller 1 1 1 1 3d
tke-machine-controller 1 1 1 1 3d
Now this TKE cluster is cluster-api enabled.
Modify the parameters in config/samples/cluster.yaml.
# cat config/samples/cluster.yaml
apiVersion: "cluster.k8s.io/v1alpha1"
kind: Cluster
metadata:
name: test-tke-cluster
spec:
clusterNetwork:
services:
cidrBlocks: ["10.96.0.0/12"]
pods:
cidrBlocks: ["192.168.0.0/16"]
serviceDomain: "cluster.local"
providerConfig:
value:
apiVersion: "tkeproviderconfig/v1alpha1"
kind: "TKEClusterProviderConfig"
clusterName: "cluster-test3"
clusterCIDR: "172.30.0.0/19"
clusterVersion: "1.10.5"
vpcId: "vpc-iueiposq"
region: "ap-beijing"
The create the cluster resource:
kubectl apply -f config/samples/cluster.yaml
check:
kubectl get clusters
Wait until the status turns from "Creating" to "Created", which means the cluster is ready.
Modify the parameters in config/samples/machinedeployment.yaml.
# cat config/samples/machinedeployment.yaml
apiVersion: "cluster.k8s.io/v1alpha1"
kind: MachineDeployment
metadata:
name: sample-machinedeployment
spec:
replicas: 2
selector:
matchLabels:
foo: bar
template:
metadata:
labels:
foo: bar
spec:
providerConfig:
value:
apiVersion: "tkeproviderconfig/v1alpha1"
kind: "TKEMachineProviderConfig"
zoneId: "800001"
cpu: 1
mem: 2
bandwidthType: "PayByTraffic"
bandwidth: 1
subnetId: "subnet-nzi3a453"
storageSize: 50
rootSize: 20
password: "123456789!"
isVpcGateway: 0
wanIp: 1
osName: "ubuntu16.04.1 LTSx86_64"
versions:
kubelet: 1.10.5
strategy:
type: "RollingUpdate"
rollingUpdate:
maxUnavailable: "30%"
maxSurge: "30%"
minReadySeconds: 2
Get the region name from Tencent Cloud Regions
Get the zoneId from Tencent Cloud ZoneIds
Get vpcId from vpc console
Get subnetId from subnet console
Then create the machinedeployment resource, wait the machines ready. You can scale up and down the machinedeployment, and then delete it.