This document describes how to install Kf and its dependencies on an on-premises cluster created as part of Google Distributed Cloud, either on VMware or on bare metal.
If you are already familiar with the process of installing Kf on a GKE cluster in Google Cloud, the main differences for the on-premises procedure are:
- You do not have to install the Config Connector for an on-premises install.
- The on-premises procedure uses Docker credentials instead of Workload Identity.
Before you begin
Google Distributed Cloud requirements
A user cluster that meets Cloud Service Mesh requirements.
Configured for logging and monitoring.
Registered to a fleet:
Kf requirements
Tekton for use by Kf. This is not a user facing service.
A dedicated Google Service Account.
Prepare a new on-premises cluster and related services
Set up environment variables
Linux and Mac
export PROJECT_ID=YOUR_PROJECT_ID export CLUSTER_PROJECT_ID=YOUR_PROJECT_ID export CLUSTER_NAME=kf-cluster export COMPUTE_ZONE=us-central1-a export COMPUTE_REGION=us-central1 export CLUSTER_LOCATION=${COMPUTE_ZONE} # Replace ZONE with REGION to switch export NODE_COUNT=4 export MACHINE_TYPE=e2-standard-4 export NETWORK=default export CLUSTER_PROJECT_ID=YOUR_PROJECT_ID export CLUSTER_NAME=kf-cluster export DOCKER_SERVER=YOUR_DOCKER_SERVER_URL export SA_NAME=${CLUSTER_NAME}-sa export SA_EMAIL=${SA_NAME}@${CLUSTER_PROJECT_ID}.iam.gserviceaccount.com
Windows PowerShell
Set-Variable -Name PROJECT_ID -Value YOUR_PROJECT_ID Set-Variable -Name CLUSTER_PROJECT_ID -Value YOUR_PROJECT_ID Set-Variable -Name CLUSTER_NAME -Value kf-cluster Set-Variable -Name COMPUTE_ZONE -Value us-central1-a Set-Variable -Name COMPUTE_REGION -Value us-central1 Set-Variable -Name CLUSTER_LOCATION -Value $COMPUTE_ZONE # Replace ZONE with REGION to switch Set-Variable -Name NODE_COUNT -Value 4 Set-Variable -Name MACHINE_TYPE -Value e2-standard-4 Set-Variable -Name NETWORK -Value default Set-Variable -Name CLUSTER_PROJECT_ID -Value YOUR_PROJECT_ID Set-Variable -Name CLUSTER_NAME -Value kf-cluster Set-Variable -Name DOCKER_SERVER -Value YOUR_DOCKER_SERVER_URL Set-Variable -Name SA_NAME -Value ${CLUSTER_NAME}-sa Set-Variable -Name SA_EMAIL -Value ${SA_NAME}@${CLUSTER_PROJECT_ID}.iam.gserviceaccount.com
Set up service account
Create the Google Cloud service account (GSA) and service account key used for the builds to read/write from Container Registry. This step is different if you are using a different container registry because it could have a different way of obtaining the credentials to access the registry.
Create the service account used by Kf:
gcloud beta iam service-accounts create ${SA_NAME} \ --project=${CLUSTER_PROJECT_ID} \ --description="gcr.io admin for ${CLUSTER_NAME}" \ --display-name="${CLUSTER_NAME}"
Assign the service account the
storage.admin
role required to read/write from the Container Registry:gcloud projects add-iam-policy-binding ${CLUSTER_PROJECT_ID} \ --member="serviceAccount:${SA_NAME}@${CLUSTER_PROJECT_ID}.iam.gserviceaccount.com" \ --role="roles/storage.admin"
Create the service account key:
temp_dir=$(mktemp -d)
key_path=${temp_dir}/key.json
gcloud iam service-accounts keys create --iam-account ${SA_EMAIL} ${key_path}
key_json=$(cat ${key_path})
rm -rf ${temp_dir}
Install software dependencies on cluster
Install Cloud Service Mesh.
Follow the Cloud Service Mesh install guide to install Cloud Service Mesh.
If on Google Distributed Cloud, set the
loadBalancerIP
to an IP allocated to the cluster as described in Configure external IP addresses for Google Distributed Cloud.
Install Tekton:
kubectl apply -f "https://storage.googleapis.com/tekton-releases/pipeline/previous/v0.65.1/release.yaml"
Install Kf
Install the Kf CLI:
Linux
This command installs the Kf CLI for all users on the system. Follow the instructions in the Cloud Shell tab to install it just for yourself.
gcloud storage cp gs://kf-releases/v2.11.27/kf-linux /tmp/kf
chmod a+x /tmp/kf
sudo mv /tmp/kf /usr/local/bin/kf
Mac
This command installs
kf
for all users on the system.gcloud storage cp gs://kf-releases/v2.11.27/kf-darwin /tmp/kf
chmod a+x /tmp/kf
sudo mv /tmp/kf /usr/local/bin/kf
Cloud Shell
This command installs
kf
on your Cloud Shell instance if you usebash
, the instructions may need to be modified for other shells.mkdir -p ~/bin
gcloud storage cp gs://kf-releases/v2.11.27/kf-linux ~/bin/kf
chmod a+x ~/bin/kf
echo "export PATH=$HOME/bin:$PATH" >> ~/.bashrc
source ~/.bashrc
Windows
This command downloads
kf
to current directory. Add it to the path if you want to call if from anywhere other than the current directory.gcloud storage cp gs://kf-releases/v2.11.27/kf-windows.exe kf.exe
Install the operator:
kubectl apply -f "https://storage.googleapis.com/kf-releases/v2.11.27/operator.yaml"
Configure the operator for Kf:
kubectl apply -f "https://storage.googleapis.com/kf-releases/v2.11.27/kfsystem.yaml"
Create a Kubernetes secret for Docker credentials
Create a Kubernetes secret in the Kf namespace for Docker credentials
you created above in Service account setup. Then patch the
Kubernetes secret to the subresource-apiserver
deployment for source uploads.
Enable and update the Kf operator to use Container Registry as the container registry.
export CONTAINER_REGISTRY=${COMPUTE_REGION}-docker.pkg.dev/${CLUSTER_PROJECT_ID}/${CLUSTER_NAME} kubectl patch \ kfsystem kfsystem \ --type='json' \ -p="[{'op': 'replace', 'path': '/spec/kf', 'value': {'enabled': true, 'config': {'featureFlags': {'enable_appdevexperience_builds': true}, 'spaceContainerRegistry': '${CONTAINER_REGISTRY}', 'secrets':{'workloadidentity':{'googleserviceaccount':'${CLUSTER_NAME}-sa', 'googleprojectid':'${CLUSTER_PROJECT_ID}'}}}}}]"
export CONTAINER_REGISTRY=gcr.io/${CLUSTER_PROJECT_ID}
kubectl patch kfsystem kfsystem \ --type='json' \ -p="[{'op': 'replace', 'path': '/spec/kf', 'value': {'enabled': true, 'config': {'spaceContainerRegistry':'${CONTAINER_REGISTRY}'}}}]"
Verify the
kf
namespace has been created by the Kf operator. This might take a few minutes to complete.kubectl get namespace kf
Create a Kubernetes secret for use with Docker registries.
export secret_name=kf-gcr-key-${RANDOM}
kubectl -n kf create secret docker-registry ${secret_name} \ --docker-username=_json_key --docker-server ${DOCKER_SERVER} \ --docker-password="${key_json}"
Update the Kf operator to specify the secret containing Docker credentials.
kubectl patch kfsystem kfsystem \ --type='json' \ -p="[{'op': 'replace', 'path': '/spec/kf', 'value': {'config': {'secrets':{'build':{'imagePushSecrets':'${secret_name}'}}}}}]"
Validate installation
kf doctor --retries=20