Using Azure
This is a step-by-step guide to deploy an Aptos validator and validator fullnode (VFN) using Microsoft Azure. Using this guide, the validator and VFN will be deployed on separate machines.
Before you begin, make sure to read and understand the Node Requirements. Similarly, make sure you have installed the Aptos CLI, Terraform, Kubernetes CLI, and Azure CLI. This guide assumes that you already have an Azure account setup.
Deployment steps​
If you follow the default setup in this document, then your validator and VFN will be connected to the Aptos mainnet.
To connect to a different Aptos network, such as testnet, make sure you download the correct genesis and waypoint
files for the network you want to connect to. Similarly, you will need to modify the Terraform files to use the
correct configurations (e.g., source
, image_tag
and chain_id
).
-
Create a working directory for your Aptos nodes, and pick a username for your nodes, e.g.,
export WORKSPACE=mainnet
export USERNAME=alice
mkdir ~/$WORKSPACE
cd ~/$WORKSPACE -
Create a blob storage container for storing the Terraform state on Azure, you can do this on the Azure UI or using the commands below:
az group create -l <azure region> -n aptos-$WORKSPACE
az storage account create -n <storage account name> -g aptos-$WORKSPACE -l <azure region> --sku Standard_LRS
az storage container create -n <container name> --account-name <storage account name> --resource-group aptos-$WORKSPACE -
Create a Terraform file called
main.tf
in your working directory:cd ~/$WORKSPACE
vi main.tf -
Modify the
main.tf
file to configure Terraform and create the Terraform module. See the example below:terraform {
required_version = "~> 1.3.6"
backend "azurerm" {
resource_group_name = <resource group name>
storage_account_name = <storage account name>
container_name = <container name>
key = "state/validator"
}
}
module "aptos-node" {
# Download the Terraform module from the aptos-core repository.
source = "github.com/aptos-labs/aptos-core.git//terraform/aptos-node/azure?ref=mainnet"
region = <azure region> # Specify the Azure region
era = 1 # Bump the era number to wipe the chain data
chain_id = 1 # Use 1 for mainnet, or different values for other networks.
image_tag = "mainnet" # Specify the image tag to use based on the network
validator_name = "<Name of your validator>" # Specify the name of your validator
}For all customization options, see:
-
Initialize Terraform in the
$WORKSPACE
directory where you created themain.tf
file.terraform init
This will download all the Terraform dependencies into the
.terraform
folder in your current working directory. -
Create a new Terraform workspace to isolate your environments, and see the list of workspaces.
terraform workspace new $WORKSPACE
# This command will list all workspaces
terraform workspace list -
Apply the Terraform configuration.
terraform apply
This may take a while to finish (e.g., >20 minutes). Terraform will create all the resources on your cloud account.
-
After
terraform apply
finishes, you can check if the resources have been created correctly, by running the following commands:az aks get-credentials --resource-group aptos-$WORKSPACE --name aptos-$WORKSPACE
: This command will configure access for your k8s cluster.kubectl get pods
: This command will output all pods in the cluster. You should see haproxy, the validator and the VFN (with the validator and VFN podpending
due to further action in later steps).kubectl get svc
: This command will output all services in the cluster. You should see thevalidator-lb
andfullnode-lb
, with an external IP for network connectivity.
-
Next, we need to inject your node's IP information into your environment. You can do this by running the following commands:
export VALIDATOR_ADDRESS="$(kubectl get svc ${WORKSPACE}-aptos-node-0-validator-lb --output jsonpath='{.status.loadBalancer.ingress[0].hostname}')"
export FULLNODE_ADDRESS="$(kubectl get svc ${WORKSPACE}-aptos-node-0-fullnode-lb --output jsonpath='{.status.loadBalancer.ingress[0].hostname}')" -
Now, generate the key pairs for your nodes in your working directory. You can do this by running the following command with the Aptos CLI:
aptos genesis generate-keys --output-dir ~/$WORKSPACE/keys
This will create 4 key files under
~/$WORKSPACE/keys
directory:public-keys.yaml
: This file contains all public keys for your validator and VFN, as well as your account address.private-keys.yaml
: This file contains all private keys for your validator and VFN.validator-identity.yaml
: This file contains the public and private keys for your validator, as well as your account address.validator-full-node-identity.yaml
: This file contains the public and private keys for your VFN, as well as your account address.
Backup your private keysYour private keys are important for you to establish ownership of your nodes. Never share your private keys with anyone, and make sure to backup
private-keys.yaml
somewhere safe. -
Next, you will need to set your validator configuration. This includes setting the validator and VFN host names, which may be IP addresses or DNS addresses. This can be done by running the following command:
aptos genesis set-validator-configuration \
--local-repository-dir ~/$WORKSPACE \
--username $USERNAME \
--owner-public-identity-file ~/$WORKSPACE/keys/public-keys.yaml \
--validator-host $VALIDATOR_ADDRESS:6180 \
--full-node-host $FULLNODE_ADDRESS:6182 \
--stake-amount 100000000000000Configuring the validator will create two YAML files in the
~/$WORKSPACE/$USERNAME
directory:owner.yaml
andoperator.yaml
. These will be useful for connecting your nodes to the Aptos network (later). -
Download the following files by following the instructions on the Node Files pages. You will need to select the appropriate network (e.g.,
mainnet
,testnet
,devnet
) and download the following files:genesis.blob
waypoint.txt
-
To recap, in your working directory (
~/$WORKSPACE
), you should have a list of files:main.tf
: The Terraform files to install theaptos-node
module.keys
folder containing:public-keys.yaml
: Public keys for both nodes.private-keys.yaml
: Private keys for both nodes.validator-identity.yaml
: Key and account information for the validator.validator-full-node-identity.yaml
: Key and account information for the VFN.
$username
folder containing:owner.yaml
: The owner, operator and voter mappings.operator.yaml
: Validator and VFN operator information.
waypoint.txt
: The waypoint for the genesis transaction on the network you are connecting to.genesis.blob
The genesis blob for the network you are connecting to.
-
Finally, insert the
genesis.blob
,waypoint.txt
and the identity files as secrets into the k8s cluster, by running the following command:kubectl create secret generic ${WORKSPACE}-aptos-node-0-genesis-e1 \
--from-file=genesis.blob=genesis.blob \
--from-file=waypoint.txt=waypoint.txt \
--from-file=validator-identity.yaml=keys/validator-identity.yaml \
--from-file=validator-full-node-identity.yaml=keys/validator-full-node-identity.yamlEra numbers and dangling volumesThe
-e1
suffix in the command above refers to the era number. If you changed theera
number, make sure it matches when creating the secrets.The
era
is a concept relevant only to Kubernetes deployments of an Aptos node. Changing theera
provides an easy way to wipe your deployment's state (e.g., blockchain data). However, this may lead to dangling persistent volumes. Confirm the existence of any dangling volumes withkubectl get pvc
and delete any dangling volumes manually to minimize costs. -
Now, we should be able to see that all pods are running, including the validator and VFN. You can check this by executing the following command:
kubectl get pods
# Example output
NAME READY STATUS RESTARTS AGE
node1-aptos-node-0-fullnode-e9-0 1/1 Running 0 4h31m
node1-aptos-node-0-haproxy-7cc4c5f74c-l4l6n 1/1 Running 0 4h40m
node1-aptos-node-0-validator-0 1/1 Running 0 4h30m
You have now completed setting up your validator and VFN using Azure. However, your nodes will not be able to connect to the Aptos network just yet.
Connecting to the Aptos Network​
You have now completed setting up your validator and VFN using Azure. Proceed to Connect Nodes for the next steps.