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Local Platforms
- 1: Docker
- 2: QEMU
- 3: VirtualBox
1 - Docker
In this guide we will create a Kubernetes cluster in Docker, using a containerized version of Talos.
Running Talos in Docker is intended to be used in CI pipelines, and local testing when you need a quick and easy cluster. Furthermore, if you are running Talos in production, it provides an excellent way for developers to develop against the same version of Talos.
Requirements
The follow are requirements for running Talos in Docker:
- Docker 18.03 or greater
- a recent version of
talosctl
Note
If you are using Docker Desktop on a macOS computer, and you encounter the error: Cannot connect to the Docker daemon at unix:///var/run/docker.sock. Is the docker daemon running? you may need to manually create the link for the Docker socket:sudo ln -s "$HOME/.docker/run/docker.sock" /var/run/docker.sock
Caveats
Due to the fact that Talos will be running in a container, certain APIs are not available.
For example upgrade
, reset
, and similar APIs don’t apply in container mode.
Further, when running on a Mac in docker, due to networking limitations, VIPs are not supported.
Create the Cluster
Creating a local cluster is as simple as:
talosctl cluster create
Once the above finishes successfully, your talosconfig
(~/.talos/config
) and kubeconfig
(~/.kube/config
) will be configured to point to the new cluster.
Note: Startup times can take up to a minute or more before the cluster is available.
Finally, we just need to specify which nodes you want to communicate with using talosctl
.
Talosctl can operate on one or all the nodes in the cluster – this makes cluster wide commands much easier.
talosctl config nodes 10.5.0.2 10.5.0.3
Talos and Kubernetes API are mapped to a random port on the host machine, the retrieved talosconfig
and kubeconfig
are configured automatically to point to the new cluster.
Talos API endpoint can be found using talosctl config info
:
$ talosctl config info
...
Endpoints: 127.0.0.1:38423
Kubernetes API endpoint is available with talosctl cluster show
:
$ talosctl cluster show
...
KUBERNETES ENDPOINT https://127.0.0.1:43083
Using the Cluster
Once the cluster is available, you can make use of talosctl
and kubectl
to interact with the cluster.
For example, to view current running containers, run talosctl containers
for a list of containers in the system
namespace, or talosctl containers -k
for the k8s.io
namespace.
To view the logs of a container, use talosctl logs <container>
or talosctl logs -k <container>
.
Cleaning Up
To cleanup, run:
talosctl cluster destroy
Multiple Clusters
Multiple Talos Linux cluster can be created on the same host, each cluster will need to have:
- a unique name (default is
talos-default
) - a unique network CIDR (default is
10.5.0.0/24
)
To create a new cluster, run:
talosctl cluster create --name cluster2 --cidr 10.6.0.0/24
To destroy a specific cluster, run:
talosctl cluster destroy --name cluster2
To switch between clusters, use --context
flag:
talosctl --context cluster2 version
kubectl --context admin@cluster2 get nodes
Running Talos in Docker Manually
To run Talos in a container manually, run:
docker run --rm -it \
--name tutorial \
--hostname talos-cp \
--read-only \
--privileged \
--security-opt seccomp=unconfined \
--mount type=tmpfs,destination=/run \
--mount type=tmpfs,destination=/system \
--mount type=tmpfs,destination=/tmp \
--mount type=volume,destination=/system/state \
--mount type=volume,destination=/var \
--mount type=volume,destination=/etc/cni \
--mount type=volume,destination=/etc/kubernetes \
--mount type=volume,destination=/usr/libexec/kubernetes \
--mount type=volume,destination=/opt \
-e PLATFORM=container \
ghcr.io/siderolabs/talos:v1.10.0-alpha.0
The machine configuration submitted to the container should have a host DNS feature enabled with forwardKubeDNSToHost
enabled.
It is used to forward DNS requests to the resolver provided by Docker (or other container runtime).
2 - QEMU
In this guide we will create a Kubernetes cluster using QEMU.
Video Walkthrough
To see a live demo of this writeup, see the video below:
Requirements
- Linux
- a kernel with
- KVM enabled (
/dev/kvm
must exist) CONFIG_NET_SCH_NETEM
enabledCONFIG_NET_SCH_INGRESS
enabled
- KVM enabled (
- at least
CAP_SYS_ADMIN
andCAP_NET_ADMIN
capabilities - QEMU
bridge
,static
andfirewall
CNI plugins from the standard CNI plugins, andtc-redirect-tap
CNI plugin from the awslabs tc-redirect-tap installed to/opt/cni/bin
(installed automatically bytalosctl
)- iptables
/var/run/netns
directory should exist
Installation
How to get QEMU
Install QEMU with your operating system package manager. For example, on Ubuntu for x86:
apt install qemu-system-x86 qemu-kvm
Install talosctl
You can download talosctl
an MacOS and Linux via:
brew install siderolabs/tap/talosctl
For manually installation and other platform please see the talosctl installation guide.
Install Talos kernel and initramfs
QEMU provisioner depends on Talos kernel (vmlinuz
) and initramfs (initramfs.xz
).
These files can be downloaded from the Talos release:
mkdir -p _out/
curl https://github.com/siderolabs/talos/releases/download/<version>/vmlinuz-<arch> -L -o _out/vmlinuz-<arch>
curl https://github.com/siderolabs/talos/releases/download/<version>/initramfs-<arch>.xz -L -o _out/initramfs-<arch>.xz
For example version v1.10.0-alpha.0
:
curl https://github.com/siderolabs/talos/releases/download/v1.10.0-alpha.0/vmlinuz-amd64 -L -o _out/vmlinuz-amd64
curl https://github.com/siderolabs/talos/releases/download/v1.10.0-alpha.0/initramfs-amd64.xz -L -o _out/initramfs-amd64.xz
Create the Cluster
For the first time, create root state directory as your user so that you can inspect the logs as non-root user:
mkdir -p ~/.talos/clusters
Create the cluster:
sudo --preserve-env=HOME talosctl cluster create --provisioner qemu
Before the first cluster is created, talosctl
will download the CNI bundle for the VM provisioning and install it to ~/.talos/cni
directory.
Once the above finishes successfully, your talosconfig (~/.talos/config
) will be configured to point to the new cluster, and kubeconfig
will be
downloaded and merged into default kubectl config location (~/.kube/config
).
Cluster provisioning process can be optimized with registry pull-through caches.
Using the Cluster
Once the cluster is available, you can make use of talosctl
and kubectl
to interact with the cluster.
For example, to view current running containers, run talosctl -n 10.5.0.2 containers
for a list of containers in the system
namespace, or talosctl -n 10.5.0.2 containers -k
for the k8s.io
namespace.
To view the logs of a container, use talosctl -n 10.5.0.2 logs <container>
or talosctl -n 10.5.0.2 logs -k <container>
.
A bridge interface will be created, and assigned the default IP 10.5.0.1. Each node will be directly accessible on the subnet specified at cluster creation time. A loadbalancer runs on 10.5.0.1 by default, which handles loadbalancing for the Kubernetes APIs.
You can see a summary of the cluster state by running:
$ talosctl cluster show --provisioner qemu
PROVISIONER qemu
NAME talos-default
NETWORK NAME talos-default
NETWORK CIDR 10.5.0.0/24
NETWORK GATEWAY 10.5.0.1
NETWORK MTU 1500
NODES:
NAME TYPE IP CPU RAM DISK
talos-default-controlplane-1 ControlPlane 10.5.0.2 1.00 1.6 GB 4.3 GB
talos-default-controlplane-2 ControlPlane 10.5.0.3 1.00 1.6 GB 4.3 GB
talos-default-controlplane-3 ControlPlane 10.5.0.4 1.00 1.6 GB 4.3 GB
talos-default-worker-1 Worker 10.5.0.5 1.00 1.6 GB 4.3 GB
Cleaning Up
To cleanup, run:
sudo --preserve-env=HOME talosctl cluster destroy --provisioner qemu
Note: In that case that the host machine is rebooted before destroying the cluster, you may need to manually remove
~/.talos/clusters/talos-default
.
Manual Clean Up
The talosctl cluster destroy
command depends heavily on the clusters state directory.
It contains all related information of the cluster.
The PIDs and network associated with the cluster nodes.
If you happened to have deleted the state folder by mistake or you would like to cleanup the environment, here are the steps how to do it manually:
Remove VM Launchers
Find the process of talosctl qemu-launch
:
ps -elf | grep 'talosctl qemu-launch'
To remove the VMs manually, execute:
sudo kill -s SIGTERM <PID>
Example output, where VMs are running with PIDs 157615 and 157617
ps -elf | grep '[t]alosctl qemu-launch'
0 S root 157615 2835 0 80 0 - 184934 - 07:53 ? 00:00:00 talosctl qemu-launch
0 S root 157617 2835 0 80 0 - 185062 - 07:53 ? 00:00:00 talosctl qemu-launch
sudo kill -s SIGTERM 157615
sudo kill -s SIGTERM 157617
Stopping VMs
Find the process of qemu-system
:
ps -elf | grep 'qemu-system'
To stop the VMs manually, execute:
sudo kill -s SIGTERM <PID>
Example output, where VMs are running with PIDs 158065 and 158216
ps -elf | grep qemu-system
2 S root 1061663 1061168 26 80 0 - 1786238 - 14:05 ? 01:53:56 qemu-system-x86_64 -m 2048 -drive format=raw,if=virtio,file=/home/username/.talos/clusters/talos-default/bootstrap-master.disk -smp cpus=2 -cpu max -nographic -netdev tap,id=net0,ifname=tap0,script=no,downscript=no -device virtio-net-pci,netdev=net0,mac=1e:86:c6:b4:7c:c4 -device virtio-rng-pci -no-reboot -boot order=cn,reboot-timeout=5000 -smbios type=1,uuid=7ec0a73c-826e-4eeb-afd1-39ff9f9160ca -machine q35,accel=kvm
2 S root 1061663 1061170 67 80 0 - 621014 - 21:23 ? 00:00:07 qemu-system-x86_64 -m 2048 -drive format=raw,if=virtio,file=/homeusername/.talos/clusters/talos-default/pxe-1.disk -smp cpus=2 -cpu max -nographic -netdev tap,id=net0,ifname=tap0,script=no,downscript=no -device virtio-net-pci,netdev=net0,mac=36:f3:2f:c3:9f:06 -device virtio-rng-pci -no-reboot -boot order=cn,reboot-timeout=5000 -smbios type=1,uuid=ce12a0d0-29c8-490f-b935-f6073ab916a6 -machine q35,accel=kvm
sudo kill -s SIGTERM 1061663
sudo kill -s SIGTERM 1061663
Remove load balancer
Find the process of talosctl loadbalancer-launch
:
ps -elf | grep 'talosctl loadbalancer-launch'
To remove the LB manually, execute:
sudo kill -s SIGTERM <PID>
Example output, where loadbalancer is running with PID 157609
ps -elf | grep '[t]alosctl loadbalancer-launch'
4 S root 157609 2835 0 80 0 - 184998 - 07:53 ? 00:00:07 talosctl loadbalancer-launch --loadbalancer-addr 10.5.0.1 --loadbalancer-upstreams 10.5.0.2
sudo kill -s SIGTERM 157609
Remove DHCP server
Find the process of talosctl dhcpd-launch
:
ps -elf | grep 'talosctl dhcpd-launch'
To remove the LB manually, execute:
sudo kill -s SIGTERM <PID>
Example output, where loadbalancer is running with PID 157609
ps -elf | grep '[t]alosctl dhcpd-launch'
4 S root 157609 2835 0 80 0 - 184998 - 07:53 ? 00:00:07 talosctl dhcpd-launch --state-path /home/username/.talos/clusters/talos-default --addr 10.5.0.1 --interface talosbd9c32bc
sudo kill -s SIGTERM 157609
Remove network
This is more tricky part as if you have already deleted the state folder.
If you didn’t then it is written in the state.yaml
in the
~/.talos/clusters/<cluster-name>
directory.
sudo cat ~/.talos/clusters/<cluster-name>/state.yaml | grep bridgename
bridgename: talos<uuid>
If you only had one cluster, then it will be the interface with name
talos<uuid>
46: talos<uuid>: <NO-CARRIER,BROADCAST,MULTICAST,UP> mtu 1500 qdisc noqueue state DOWN group default qlen 1000
link/ether a6:72:f4:0a:d3:9c brd ff:ff:ff:ff:ff:ff
inet 10.5.0.1/24 brd 10.5.0.255 scope global talos17c13299
valid_lft forever preferred_lft forever
inet6 fe80::a472:f4ff:fe0a:d39c/64 scope link
valid_lft forever preferred_lft forever
To remove this interface:
sudo ip link del talos<uuid>
Remove state directory
To remove the state directory execute:
sudo rm -Rf /home/$USER/.talos/clusters/<cluster-name>
Troubleshooting
Logs
Inspect logs directory
sudo cat ~/.talos/clusters/<cluster-name>/*.log
Logs are saved under <cluster-name>-<role>-<node-id>.log
For example in case of k8s cluster name:
ls -la ~/.talos/clusters/k8s | grep log
-rw-r--r--. 1 root root 69415 Apr 26 20:58 k8s-master-1.log
-rw-r--r--. 1 root root 68345 Apr 26 20:58 k8s-worker-1.log
-rw-r--r--. 1 root root 24621 Apr 26 20:59 lb.log
Inspect logs during the installation
tail -f ~/.talos/clusters/<cluster-name>/*.log
3 - VirtualBox
In this guide we will create a Kubernetes cluster using VirtualBox.
Video Walkthrough
To see a live demo of this writeup, visit Youtube here:
Installation
How to Get VirtualBox
Install VirtualBox with your operating system package manager or from the website. For example, on Ubuntu for x86:
apt install virtualbox
Install talosctl
You can download talosctl
an MacOS and Linux via:
brew install siderolabs/tap/talosctl
For manually installation and other platform please see the talosctl installation guide.
Download ISO Image
Download the ISO image from Image Factory.
mkdir -p _out/
curl https://factory.talos.dev/image/376567988ad370138ad8b2698212367b8edcb69b5fd68c80be1f2ec7d603b4ba/<version>/metal-<arch>.iso -L -o _out/metal-<arch>.iso
For example version v1.10.0-alpha.0
for linux
platform:
mkdir -p _out/
curl https://factory.talos.dev/image/376567988ad370138ad8b2698212367b8edcb69b5fd68c80be1f2ec7d603b4ba/v1.10.0-alpha.0/metal-amd64.iso -L -o _out/metal-amd64.iso
Create VMs
Start by creating a new VM by clicking the “New” button in the VirtualBox UI:
Supply a name for this VM, and specify the Type and Version:
Edit the memory to supply at least 2GB of RAM for the VM:
Proceed through the disk settings, keeping the defaults. You can increase the disk space if desired.
Once created, select the VM and hit “Settings”:
In the “System” section, supply at least 2 CPUs:
In the “Network” section, switch the network “Attached To” section to “Bridged Adapter”:
Finally, in the “Storage” section, select the optical drive and, on the right, select the ISO by browsing your filesystem:
Repeat this process for a second VM to use as a worker node. You can also repeat this for additional nodes desired.
Start Control Plane Node
Once the VMs have been created and updated, start the VM that will be the first control plane node.
This VM will boot the ISO image specified earlier and enter “maintenance mode”.
Once the machine has entered maintenance mode, there will be a console log that details the IP address that the node received.
Take note of this IP address, which will be referred to as $CONTROL_PLANE_IP
for the rest of this guide.
If you wish to export this IP as a bash variable, simply issue a command like export CONTROL_PLANE_IP=1.2.3.4
.
Generate Machine Configurations
With the IP address above, you can now generate the machine configurations to use for installing Talos and Kubernetes. Issue the following command, updating the output directory, cluster name, and control plane IP as you see fit:
talosctl gen config talos-vbox-cluster https://$CONTROL_PLANE_IP:6443 --output-dir _out
This will create several files in the _out
directory: controlplane.yaml, worker.yaml, and talosconfig.
Create Control Plane Node
Using the controlplane.yaml
generated above, you can now apply this config using talosctl.
Issue:
talosctl apply-config --insecure --nodes $CONTROL_PLANE_IP --file _out/controlplane.yaml
You should now see some action in the VirtualBox console for this VM. Talos will be installed to disk, the VM will reboot, and then Talos will configure the Kubernetes control plane on this VM.
Note: This process can be repeated multiple times to create an HA control plane.
Create Worker Node
Create at least a single worker node using a process similar to the control plane creation above.
Start the worker node VM and wait for it to enter “maintenance mode”.
Take note of the worker node’s IP address, which will be referred to as $WORKER_IP
Issue:
talosctl apply-config --insecure --nodes $WORKER_IP --file _out/worker.yaml
Note: This process can be repeated multiple times to add additional workers.
Using the Cluster
Once the cluster is available, you can make use of talosctl
and kubectl
to interact with the cluster.
For example, to view current running containers, run talosctl containers
for a list of containers in the system
namespace, or talosctl containers -k
for the k8s.io
namespace.
To view the logs of a container, use talosctl logs <container>
or talosctl logs -k <container>
.
First, configure talosctl to talk to your control plane node by issuing the following, updating paths and IPs as necessary:
export TALOSCONFIG="_out/talosconfig"
talosctl config endpoint $CONTROL_PLANE_IP
talosctl config node $CONTROL_PLANE_IP
Bootstrap Etcd
Set the endpoints
and nodes
:
talosctl --talosconfig $TALOSCONFIG config endpoint <control plane 1 IP>
talosctl --talosconfig $TALOSCONFIG config node <control plane 1 IP>
Bootstrap etcd
:
talosctl --talosconfig $TALOSCONFIG bootstrap
Retrieve the kubeconfig
At this point we can retrieve the admin kubeconfig
by running:
talosctl --talosconfig $TALOSCONFIG kubeconfig .
You can then use kubectl in this fashion:
kubectl get nodes
Cleaning Up
To cleanup, simply stop and delete the virtual machines from the VirtualBox UI.