* Use MiniConstellation to automatically deploy a two-node cluster.
* For more fine-grained control, create the cluster using the QEMU provider.
Both options use virtualization to create a local cluster with control-plane nodes and worker nodes. They **don't** require hardware with Confidential VM (CVM) support. For attestation, they currently use a software-based vTPM provided by KVM/QEMU.
## Prerequisites
* A Linux OS with the following components installed
* (Optional) [virsh](https://www.libvirt.org/manpages/virsh.html) to observe and access your nodes
* Other system requirements
* An x86-64 CPU with at least 4 cores (6 cores are recommended)
* At least 4 GB RAM (6 GB are recommended)
* 20 GB of free disk space
* Hardware virtualization enabled in the BIOS/UEFI (often referred to as Intel VT-x or AMD-V/SVM)
*`iptables` rules configured to not drop forwarded packages.
If running the following command returns no error, please follow [the troubleshooting guide](#vms-have-no-internet-access):
```bash
sudo iptables -S | grep -q -- '-P FORWARD DROP'
```
## Create a cluster
<tabsgroupId="csp">
<tabItemvalue="mini"label="MiniConstellation">
<!-- vale off -->
With the `constellation mini` command, you can deploy and test Constellation locally. This mode is called MiniConstellation. Conceptually, MiniConstellation is similar to [MicroK8s](https://microk8s.io/), [K3s](https://k3s.io/), and [minikube](https://minikube.sigs.k8s.io/docs/).
<!-- vale on -->
:::caution
MiniConstellation has specific soft- and hardware requirements such as a Linux OS running on an x86-64 CPU. Pay attention to all [prerequisites](#prerequisites) when setting up.
:::
:::note
Since MiniConstellation runs on your local system, cloud features such as load balancing,
attaching persistent storage, or autoscaling aren't available.
:::
The following creates your MiniConstellation cluster (may take up to 10 minutes to complete):
```bash
constellation mini up
```
This will configure your current directory as the [workspace](../architecture/orchestration.md#workspaces) for this cluster.
All `constellation` commands concerning this cluster need to be issued from this directory.
</tabItem>
<tabItemvalue="qemu"label="QEMU">
With the QEMU provider, you can create a local Constellation cluster as if it were in the cloud. The provider uses [QEMU](https://www.qemu.org/) to create multiple VMs for the cluster nodes, which interact with each other.
:::caution
Constellation on QEMU has specific soft- and hardware requirements such as a Linux OS running on an x86-64 CPU. Pay attention to all [prerequisites](#prerequisites) when setting up.
:::
:::note
Since Constellation on QEMU runs on your local system, cloud features such as load balancing,
attaching persistent storage, or autoscaling aren't available.
:::
1. To set up your local cluster, you need to create a configuration file for Constellation first.
```bash
constellation config generate qemu
```
This creates a [configuration file](../workflows/config.md) for QEMU called `constellation-conf.yaml`. After that, your current folder also becomes your [workspace](../architecture/orchestration.md#workspaces). All `constellation` commands for your cluster need to be executed from this directory.
2. Now you can create your cluster and its nodes. `constellation create` uses the options set in `constellation-conf.yaml`.
This will allow you to [recover your cluster](../workflows/recovery.md) in case of a disaster.
:::info
Depending on your setup, `constellation init` may take 10+ minutes to complete.
:::
4. Configure kubectl
```bash
export KUBECONFIG="$PWD/constellation-admin.conf"
```
</tabItem>
</tabs>
## Connect to the cluster
Your cluster initially consists of a single control-plane node:
```shell-session
$ kubectl get nodes
NAME STATUS ROLES AGE VERSION
control-plane-0 Ready control-plane 66s v1.24.6
```
A worker node will request to join the cluster shortly. Before the new worker node is allowed to join the cluster, its state is verified using remote attestation by the [JoinService](../architecture/microservices.md#joinservice).
If verification passes successfully, the new node receives keys and certificates to join the cluster.
You can follow this process by viewing the logs of the JoinService:
Once you are done, you can clean up the created resources using the following command:
```bash
constellation mini down
```
This will destroy your cluster and clean up your workspace.
The VM image and cluster configuration file (`constellation-conf.yaml`) will be kept and may be reused to create new clusters.
</tabItem>
<tabItemvalue="qemu"label="QEMU">
Once you are done, you can clean up the created resources using the following command:
```bash
constellation terminate
```
This should give the following output:
```shell-session
$ constellation terminate
You are about to terminate a Constellation cluster.
All of its associated resources will be DESTROYED.
This action is irreversible and ALL DATA WILL BE LOST.
Do you want to continue? [y/n]:
```
Confirm with `y` to terminate the cluster:
```shell-session
Terminating ...
Your Constellation cluster was terminated successfully.
```
This will destroy your cluster and clean up your workspace.
The VM image and cluster configuration file (`constellation-conf.yaml`) will be kept and may be reused to create new clusters.
</tabItem>
</tabs>
## Troubleshooting
Make sure to use the [latest release](https://github.com/edgelesssys/constellation/releases/latest) and check out the [known issues](https://github.com/edgelesssys/constellation/issues?q=is%3Aopen+is%3Aissue+label%3A%22known+issue%22).
### VMs have no internet access
`iptables` rules may prevent your VMs from accessing the internet.
Make sure your rules aren't dropping forwarded packages.
List your rules:
```bash
sudo iptables -S
```
The output may look similar to the following:
```shell-session
-P INPUT ACCEPT
-P FORWARD DROP
-P OUTPUT ACCEPT
-N DOCKER
-N DOCKER-ISOLATION-STAGE-1
-N DOCKER-ISOLATION-STAGE-2
-N DOCKER-USER
```
If your `FORWARD` chain is set to `DROP`, you need to update your rules:
