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* Remove Azure internal links from docs * Ignore Azure internal link in dev-docs --------- Signed-off-by: Daniel Weiße <dw@edgeless.systems>
349 lines
17 KiB
Markdown
349 lines
17 KiB
Markdown
# First steps with Constellation
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The following steps guide you through the process of creating a cluster and deploying a sample app. This example assumes that you have successfully [installed and set up Constellation](install.md),
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and have access to a cloud subscription.
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:::tip
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If you don't have a cloud subscription, check out [MiniConstellation](first-steps-local.md), which lets you set up a local Constellation cluster using virtualization.
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:::
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## Create a cluster
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1. Create the configuration file for your selected cloud provider.
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<tabs groupId="csp">
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<tabItem value="azure" label="Azure">
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```bash
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constellation config generate azure
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```
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</tabItem>
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<tabItem value="gcp" label="GCP">
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```bash
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constellation config generate gcp
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```
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</tabItem>
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<tabItem value="aws" label="AWS">
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```bash
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constellation config generate aws
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```
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</tabItem>
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</tabs>
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This creates the file `constellation-conf.yaml` in your current working directory.
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2. Fill in your cloud provider specific information.
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<tabs groupId="csp">
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<tabItem value="azure" label="Azure (CLI)">
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You need several resources for the cluster. You can use the following `az` script to create them:
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```bash
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RESOURCE_GROUP=constellation # enter name of new resource group for your cluster here
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LOCATION=westus # enter location of resources here
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SUBSCRIPTION_ID=$(az account show --query id --out tsv)
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SERVICE_PRINCIPAL_NAME=constell
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az group create --name "${RESOURCE_GROUP}" --location "${LOCATION}"
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az group create --name "${RESOURCE_GROUP}-identity" --location "${LOCATION}"
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az ad sp create-for-rbac -n "${SERVICE_PRINCIPAL_NAME}" --role Owner --scopes "/subscriptions/${SUBSCRIPTION_ID}/resourceGroups/${RESOURCE_GROUP}" | tee azureServiceAccountKey.json
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az identity create -g "${RESOURCE_GROUP}-identity" -n "${SERVICE_PRINCIPAL_NAME}"
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identityID=$(az identity show -n "${SERVICE_PRINCIPAL_NAME}" -g "${RESOURCE_GROUP}-identity" --query principalId --out tsv)
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az role assignment create --assignee-principal-type ServicePrincipal --assignee-object-id "${identityID}" --role 'Virtual Machine Contributor' --scope "/subscriptions/${SUBSCRIPTION_ID}"
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az role assignment create --assignee-principal-type ServicePrincipal --assignee-object-id "${identityID}" --role 'Application Insights Component Contributor' --scope "/subscriptions/${SUBSCRIPTION_ID}"
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echo "subscription: ${SUBSCRIPTION_ID}
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tenant: $(az account show --query tenantId -o tsv)
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location: ${LOCATION}
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resourceGroup: ${RESOURCE_GROUP}
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userAssignedIdentity: $(az identity show -n "${SERVICE_PRINCIPAL_NAME}" -g "${RESOURCE_GROUP}-identity" --query id --out tsv)
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appClientID: $(jq -r '.appId' azureServiceAccountKey.json)
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clientSecretValue: $(jq -r '.password' azureServiceAccountKey.json)"
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```
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Fill the values produced by the script into your configuration file.
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By default, Constellation uses `Standard_DC4as_v5` CVMs (4 vCPUs, 16 GB RAM) to create your cluster. Optionally, you can switch to a different VM type by modifying **instanceType** in the configuration file. For CVMs, any VM type with a minimum of 4 vCPUs from the [DCasv5 & DCadsv5](https://docs.microsoft.com/en-us/azure/virtual-machines/dcasv5-dcadsv5-series) or [ECasv5 & ECadsv5](https://docs.microsoft.com/en-us/azure/virtual-machines/ecasv5-ecadsv5-series) families is supported.
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Run `constellation config instance-types` to get the list of all supported options.
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</tabItem>
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<tabItem value="azure-portal" label="Azure (Portal)">
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* **subscription**: The UUID of your Azure subscription, e.g., `8b8bd01f-efd9-4113-9bd1-c82137c32da7`.
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You can view your subscription UUID via `az account show` and read the `id` field. For more information refer to [Azure's documentation](https://docs.microsoft.com/en-us/azure/azure-portal/get-subscription-tenant-id#find-your-azure-subscription).
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* **tenant**: The UUID of your Azure tenant, e.g., `3400e5a2-8fe2-492a-886c-38cb66170f25`.
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You can view your tenant UUID via `az account show` and read the `tenant` field. For more information refer to [Azure's documentation](https://docs.microsoft.com/en-us/azure/azure-portal/get-subscription-tenant-id#find-your-azure-ad-tenant).
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* **location**: The Azure datacenter location you want to deploy your cluster in, e.g., `westus`. CVMs are currently only supported in a few regions, check [Azure's products available by region](https://azure.microsoft.com/en-us/global-infrastructure/services/?products=virtual-machines®ions=all). These are:
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* `westus`
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* `eastus`
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* `northeurope`
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* `westeurope`
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* **resourceGroup**: [Create a new resource group in Azure](https://learn.microsoft.com/azure/azure-resource-manager/management/manage-resource-groups-portal) for your Constellation cluster. Set this configuration field to the name of the created resource group.
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* **userAssignedIdentity**: [Create a new managed identity in Azure](https://learn.microsoft.com/azure/active-directory/managed-identities-azure-resources/how-manage-user-assigned-managed-identities). You should create the identity in a different resource group as all resources within the cluster resource group will be deleted on cluster termination.
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Add two role assignments to the identity: `Virtual Machine Contributor` and `Application Insights Component Contributor`. The `scope` of both should refer to the previously created cluster resource group.
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Set the configuration value to the full ID of the created identity, e.g., `/subscriptions/8b8bd01f-efd9-4113-9bd1-c82137c32da7/resourcegroups/constellation-identity/providers/Microsoft.ManagedIdentity/userAssignedIdentities/constellation-identity`. You can get it by opening the `JSON View` from the `Overview` section of the identity.
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The user-assigned identity is used by instances of the cluster to access other cloud resources.
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For more information about managed identities refer to [Azure's documentation](https://docs.microsoft.com/en-us/azure/active-directory/managed-identities-azure-resources/how-manage-user-assigned-managed-identities).
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* **appClientID**: [Create a new app registration in Azure](https://learn.microsoft.com/azure/active-directory/develop/quickstart-register-app).
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Set `Supported account types` to `Accounts in this organizational directory only` and leave the `Redirect URI` empty.
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Set the configuration value to the `Application (client) ID`, e.g., `86ec31dd-532b-4a8c-a055-dd23f25fb12f`.
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In the cluster resource group, go to `Access Control (IAM)` and set the created app registration as `Owner`.
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* **clientSecretValue**: In the previously created app registration, go to `Certificates & secrets` and create a new `Client secret`.
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Set the configuration value to the secret value.
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* **instanceType**: The VM type you want to use for your Constellation nodes.
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For CVMs, any type with a minimum of 4 vCPUs from the [DCasv5 & DCadsv5](https://docs.microsoft.com/en-us/azure/virtual-machines/dcasv5-dcadsv5-series) or [ECasv5 & ECadsv5](https://docs.microsoft.com/en-us/azure/virtual-machines/ecasv5-ecadsv5-series) families is supported. It defaults to `Standard_DC4as_v5` (4 vCPUs, 16 GB RAM).
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Run `constellation config instance-types` to get the list of all supported options.
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</tabItem>
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<tabItem value="gcp" label="GCP (CLI)">
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You need a service account for the cluster. You can use the following `gcloud` script to create it:
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```bash
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SERVICE_ACCOUNT_ID=constell # enter name of service account here
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PROJECT_ID= # enter project id here
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SERVICE_ACCOUNT_EMAIL=${SERVICE_ACCOUNT_ID}@${PROJECT_ID}.iam.gserviceaccount.com
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gcloud iam service-accounts create "${SERVICE_ACCOUNT_ID}" --description="Service account used inside Constellation" --display-name="Constellation service account" --project="${PROJECT_ID}"
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gcloud projects add-iam-policy-binding "${PROJECT_ID}" --member="serviceAccount:${SERVICE_ACCOUNT_EMAIL}" --role='roles/compute.instanceAdmin.v1'
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gcloud projects add-iam-policy-binding "${PROJECT_ID}" --member="serviceAccount:${SERVICE_ACCOUNT_EMAIL}" --role='roles/compute.networkAdmin'
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gcloud projects add-iam-policy-binding "${PROJECT_ID}" --member="serviceAccount:${SERVICE_ACCOUNT_EMAIL}" --role='roles/compute.securityAdmin'
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gcloud projects add-iam-policy-binding "${PROJECT_ID}" --member="serviceAccount:${SERVICE_ACCOUNT_EMAIL}" --role='roles/compute.storageAdmin'
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gcloud projects add-iam-policy-binding "${PROJECT_ID}" --member="serviceAccount:${SERVICE_ACCOUNT_EMAIL}" --role='roles/iam.serviceAccountUser'
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gcloud iam service-accounts keys create gcpServiceAccountKey.json --iam-account="${SERVICE_ACCOUNT_EMAIL}"
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echo "project: ${PROJECT_ID}
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serviceAccountKeyPath: $(realpath gcpServiceAccountKey.json)"
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```
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Fill the values produced by the script into your configuration file.
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By default, Constellation uses `n2d-standard-4` VMs (4 vCPUs, 16 GB RAM) to create your cluster. Optionally, you can switch to a different VM type by modifying **instanceType** in the configuration file. Supported are all machines from the N2D family with a minimum of 4 vCPUs. Refer to [N2D machine series](https://cloud.google.com/compute/docs/general-purpose-machines#n2d_machines) or run `constellation config instance-types` to get the list of all supported options.
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</tabItem>
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<tabItem value="gcp-console" label="GCP (Console)">
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* **project**: The ID of your GCP project, e.g., `constellation-129857`.
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You can find it on the [welcome screen of your GCP project](https://console.cloud.google.com/welcome). For more information refer to [Google's documentation](https://support.google.com/googleapi/answer/7014113).
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* **region**: The GCP region you want to deploy your cluster in, e.g., `us-west1`.
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You can find a [list of all regions in Google's documentation](https://cloud.google.com/compute/docs/regions-zones#available).
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* **zone**: The GCP zone you want to deploy your cluster in, e.g., `us-west1-a`.
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You can find a [list of all zones in Google's documentation](https://cloud.google.com/compute/docs/regions-zones#available).
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* **serviceAccountKeyPath**: To configure this, you need to create a GCP [service account](https://cloud.google.com/iam/docs/service-accounts) with the following permissions:
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* `Compute Instance Admin (v1) (roles/compute.instanceAdmin.v1)`
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* `Compute Network Admin (roles/compute.networkAdmin)`
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* `Compute Security Admin (roles/compute.securityAdmin)`
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* `Compute Storage Admin (roles/compute.storageAdmin)`
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* `Service Account User (roles/iam.serviceAccountUser)`
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Afterward, create and download a new JSON key for this service account. Place the downloaded file in your Constellation workspace, and set the config parameter to the filename, e.g., `constellation-129857-15343dba46cb.json`.
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* **instanceType**: The VM type you want to use for your Constellation nodes.
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Supported are all machines from the N2D family with a minimum of 4 vCPUs. It defaults to `n2d-standard-4` (4 vCPUs, 16 GB RAM), but you can use any other VMs from the same family. Refer to [N2D machine series](https://cloud.google.com/compute/docs/general-purpose-machines#n2d_machines) or run `constellation config instance-types` to get the list of all supported options.
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</tabItem>
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<tabItem value="aws" label="AWS">
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* **region**: The name of your chosen AWS data center region, e.g., `us-east-2`.
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Constellation OS images are currently replicated to the following regions:
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* `eu-central-1`
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* `us-east-2`
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* `ap-south-1`
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If you require the OS image to be available in another region, [let us know](https://github.com/edgelesssys/constellation/issues/new?assignees=&labels=&template=feature_request.md&title=Support+new+AWS+image+region:+xx-xxxx-x).
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You can find a list of all [regions in AWS's documentation](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/using-regions-availability-zones.html#concepts-available-regions).
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* **zone**: The name of your chosen AWS data center availability zone, e.g., `us-east-2a`.
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Learn more about [availability zones in AWS's documentation](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/using-regions-availability-zones.html#concepts-availability-zones).
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* **image**: The ID of the amazon machine image (AMI) the Constellation nodes will use:
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Constellation OS images are available with the following IDs:
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| AMI | Region |
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| - | - |
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| `ami-0e27ebcefc38f648b` | `eu-central-1` |
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| `ami-098cd37f66523b7c3` | `us-east-2` |
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| `ami-04a87d302e2509aad` | `ap-south-1` |
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* **iamProfileControlPlane**: The name of an IAM instance profile attached to all control-plane nodes.
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Use the [provided Terraform script](https://github.com/edgelesssys/constellation/tree/release/v2.2/hack/terraform/aws/iam) to generate the necessary profile. The profile name will be provided as Terraform output value: `control_plane_instance_profile`.
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Alternatively, you can create the AWS profile with a tool of your choice. Use the JSON policy in [main.tf](https://github.com/edgelesssys/constellation/tree/release/v2.2/hack/terraform/aws/iam/main.tf) in the resource `aws_iam_policy.control_plane_policy`.
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* **iamProfileWorkerNodes**: The name of an IAM instance profile attached to all worker nodes.
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Use the [provided Terraform script](https://github.com/edgelesssys/constellation/tree/release/v2.2/hack/terraform/aws/iam) to generate the necessary profile. The profile name will be provided as Terraform output value: `worker_nodes_instance_profile`.
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Alternatively, you can create the AWS profile with a tool of your choice. Use the JSON policy in [main.tf](https://github.com/edgelesssys/constellation/tree/release/v2.2/hack/terraform/aws/iam/main.tf) in the resource `aws_iam_policy.worker_node_policy`.
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</tabItem>
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</tabs>
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:::info
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In case you don't have access to CVMs on Azure, you may use less secure [trusted launch VMs](../workflows/trusted-launch.md) instead. For this, set **confidentialVM** to `false` in the configuration file.
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:::
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3. Download the trusted measurements for your configured image.
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```bash
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constellation config fetch-measurements
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```
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For details, see the [verification section](../workflows/verify-cluster.md).
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4. Create the cluster with one control-plane node and two worker nodes. `constellation create` uses options set in `constellation-conf.yaml`.
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:::tip
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On Azure, you may need to wait 15+ minutes at this point for role assignments to propagate.
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:::
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```bash
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constellation create --control-plane-nodes 1 --worker-nodes 2 -y
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```
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This should give the following output:
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```shell-session
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$ constellation create ...
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Your Constellation cluster was created successfully.
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```
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5. Initialize the cluster
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:::caution
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In this release of Constellation, initialization on **Azure** might be slow and might take up to 60 minutes to initialize all Kubernetes nodes. This has been fixed in v2.4.
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:::
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```bash
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constellation init
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```
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This should give the following output:
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```shell-session
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$ constellation init
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Your Constellation master secret was successfully written to ./constellation-mastersecret.json
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Initializing cluster ...
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Your Constellation cluster was successfully initialized.
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Constellation cluster identifier g6iMP5wRU1b7mpOz2WEISlIYSfdAhB0oNaOg6XEwKFY=
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Kubernetes configuration constellation-admin.conf
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You can now connect to your cluster by executing:
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export KUBECONFIG="$PWD/constellation-admin.conf"
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```
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The cluster's identifier will be different in your output.
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Keep `constellation-mastersecret.json` somewhere safe.
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This will allow you to [recover your cluster](../workflows/recovery.md) in case of a disaster.
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:::info
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Depending on your CSP and region, `constellation init` may take 10+ minutes to complete.
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:::
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6. Configure kubectl
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```bash
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export KUBECONFIG="$PWD/constellation-admin.conf"
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```
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## Deploy a sample application
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1. Deploy the [emojivoto app](https://github.com/BuoyantIO/emojivoto)
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```bash
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kubectl apply -k github.com/BuoyantIO/emojivoto/kustomize/deployment
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```
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2. Expose the frontend service locally
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```bash
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kubectl wait --for=condition=available --timeout=60s -n emojivoto --all deployments
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kubectl -n emojivoto port-forward svc/web-svc 8080:80 &
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curl http://localhost:8080
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kill %1
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```
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## Terminate your cluster
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```bash
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constellation terminate
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```
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This should give the following output:
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```shell-session
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$ constellation terminate
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You are about to terminate a Constellation cluster.
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All of its associated resources will be DESTROYED.
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This includes any other Terraform workspace in the current directory.
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This action is irreversible and ALL DATA WILL BE LOST.
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Do you want to continue? [y/n]:
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```
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Confirm with `y` to terminate the cluster:
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```shell-session
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Terminating ...
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Your Constellation cluster was terminated successfully.
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```
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:::tip
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On Azure, if you have used the `az` script, you can keep the prerequisite resources and reuse them for a new cluster.
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Or you can delete them:
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```bash
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RESOURCE_GROUP=constellation # name of your cluster resource group
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APPID=$(jq -r '.appId' azureServiceAccountKey.json)
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az ad sp delete --id "${APPID}"
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az group delete -g "${RESOURCE_GROUP}-identity" --yes --no-wait
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az group delete -g "${RESOURCE_GROUP}" --yes --no-wait
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```
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:::
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