--- title: Minikube Compute-to-Data Environment description: --- ## Requirements - functioning internet-accessable provider service - machine capable of running compute (e.g. we used a machine with 8 CPUs, 16 GB Ram, 100GB SSD and fast internet connection) - Ubuntu 20.04 ## Install Docker and Git ```bash sudo apt update sudo apt install git docker.io sudo usermod -aG docker $USER && newgrp docker ``` ## Install Minikube ```bash wget -q --show-progress https://github.com/kubernetes/minikube/releases/download/v1.22.0/minikube_1.22.0-0_amd64.deb sudo dpkg -i minikube_1.22.0-0_amd64.deb ``` ## Start Minikube First command is imporant, and solves a [PersistentVolumeClaims problem](https://github.com/kubernetes/minikube/issues/7828). ```bash minikube config set kubernetes-version v1.16.0 minikube start --cni=calico --driver=docker --container-runtime=docker ``` ## Install kubectl ```bash curl -LO "https://dl.k8s.io/release/$(curl -L -s https://dl.k8s.io/release/stable.txt)/bin/linux/amd64/kubectl" curl -LO "https://dl.k8s.io/$(curl -L -s https://dl.k8s.io/release/stable.txt)/bin/linux/amd64/kubectl.sha256" echo "$(> /etc/hosts' ``` ## Storage class (Optional) For minikube, you can use the default 'standard' class. For AWS, please make sure that your class allocates volumes in the same region and zone in which you are running your pods. We created our own 'standard' class in AWS: ```bash kubectl get storageclass standard -o yaml ``` ```yaml allowedTopologies: - matchLabelExpressions: - key: failure-domain.beta.kubernetes.io/zone values: - us-east-1a apiVersion: storage.k8s.io/v1 kind: StorageClass parameters: fsType: ext4 type: gp2 provisioner: kubernetes.io/aws-ebs reclaimPolicy: Delete volumeBindingMode: Immediate ``` For more information, please visit https://kubernetes.io/docs/concepts/storage/storage-classes/ ## Download and Configure Operator Service Open new terminal and run the command below. ```bash git clone https://github.com/oceanprotocol/operator-service.git ``` Edit `operator-service/kubernetes/postgres-configmap.yaml`. Change `POSTGRES_PASSWORD` to nice long random password. Edit `operator-service/kubernetes/deployment.yaml`. Optionally change: - `ALGO_POD_TIMEOUT` - add `requests_cpu` - add `requests_memory` - add `limits_cpu` - add `limits_memory` ```yaml ... spec: containers: - env: - name: requests_cpu value: "4" - name: requests_memory value: "8Gi" - name: limits_cpu value: "8" - name: limits_memory value: "15Gi" - name: ALGO_POD_TIMEOUT value: "3600" ... ``` ## Download and Configure Operator Engine ```bash git clone https://github.com/oceanprotocol/operator-engine.git ``` Check the [README](https://github.com/oceanprotocol/operator-engine#customize-your-operator-engine-deployment) section of operator engine to customize your deployment. At a minimum you should add your IPFS URLs or AWS settings, and add (or remove) notification URLs. ## Create namespaces ```bash kubectl create ns ocean-operator kubectl create ns ocean-compute ``` ## Deploy Operator Service ```bash kubectl config set-context --current --namespace ocean-operator kubectl create -f operator-service/kubernetes/postgres-configmap.yaml kubectl create -f operator-service/kubernetes/postgres-storage.yaml kubectl create -f operator-service/kubernetes/postgres-deployment.yaml kubectl create -f operator-service/kubernetes/postgresql-service.yaml kubectl apply -f operator-service/kubernetes/deployment.yaml ``` ## Deploy Operator Engine ```bash kubectl config set-context --current --namespace ocean-compute kubectl apply -f operator-engine/kubernetes/sa.yml kubectl apply -f operator-engine/kubernetes/binding.yml kubectl apply -f operator-engine/kubernetes/operator.yml kubectl create -f operator-service/kubernetes/postgres-configmap.yaml ``` **Optional**: For production enviroments, it's safer to block access to metadata. To do so run the below command: ```bash kubectl -n ocean-compute apply -f /ocean/operator-engine/kubernetes/egress.yaml ``` ## Expose Operator Service ```bash kubectl expose deployment operator-api --namespace=ocean-operator --port=8050 ``` Run a port forward or create your ingress service and setup DNS and certificates (not covered here): ```bash kubectl -n ocean-operator port-forward svc/operator-api 8050 ``` Alternatively you could use another method to communicate between the C2D Environment and the provider, such as an SSH tunnel. ## Initialize database If your minikube is running on compute.example.com: ```bash curl -X POST "https://compute.example.com/api/v1/operator/pgsqlinit" -H "accept: application/json" ``` ## Update Provider Update your provider service by updating the `operator_service.url` value in `config.ini` ```ini operator_service.url = https://compute.example.com/ ``` Restart your provider service. [Watch the explanatory video for more details](https://vimeo.com/580934725)