mirror of
https://github.com/PyratLabs/ansible-role-k3s
synced 2024-12-12 14:00:18 +01:00
121 lines
3.7 KiB
Markdown
121 lines
3.7 KiB
Markdown
# Quickstart: K3s single node
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This is the quickstart guide to creating your own single-node k3s "cluster".
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:hand: This example requires your Ansible user to be able to connect to the
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server over SSH using key-based authentication. The user is also has an entry
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in a sudoers file that allows privilege escalation without requiring a
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password.
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To test this is the case, run the following check replacing `<ansible_user>`
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and `<server_name>`. The expected output is `Works`
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`ssh <ansible_user>@<server_name> 'sudo cat /etc/shadow >/dev/null && echo "Works"'`
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For example:
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```text
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[ xmanning@dreadfort:~/git/kubernetes-playground ] (master) $ ssh ansible@kube-0 'sudo cat /etc/shadow >/dev/null && echo "Works"'
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Works
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[ xmanning@dreadfort:~/git/kubernetes-playground ] (master) $
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```
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## Directory structure
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Our working directory will have the following files:
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```text
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kubernetes-playground/
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|_ inventory.yml
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|_ single_node.yml
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```
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## Inventory
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Here's a YAML based example inventory for our server called `inventory.yml`:
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```yaml
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---
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k3s_cluster:
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hosts:
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kube-0:
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ansible_user: ansible
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ansible_host: 10.10.9.2
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ansible_python_interpreter: /usr/bin/python3
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```
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We can test this works with `ansible -i inventory.yml -m ping all`, expected
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result:
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```text
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kube-0 | SUCCESS => {
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"changed": false,
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"ping": "pong"
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}
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```
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## Playbook
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Here is our playbook for a single node k3s cluster (`single_node.yml`):
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```yaml
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---
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- name: Build a single node k3s cluster
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hosts: kube-0
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vars:
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k3s_become_for_all: true
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roles:
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- role: xanmanning.k3s
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```
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## Execution
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To execute the playbook against our inventory file, we will run the following
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command:
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`ansible-playbook -i inventory.yml single_node.yml`
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The output we can expect is similar to the below, with no failed or unreachable
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nodes:
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```text
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PLAY RECAP *******************************************************************************************************
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kube-0 : ok=39 changed=8 unreachable=0 failed=0 skipped=39 rescued=0 ignored=0
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```
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## Testing
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After logging into the server, we can test that k3s is running and that it is
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ready to execute our Kubernetes workloads by running the following:
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- `sudo kubectl get nodes`
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- `sudo kubectl get pods -o wide --all-namespaces`
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:hand: Note we are using `sudo` because we need to be root to access the
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kube config for this node. This behavior can be changed with specifying
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`write-kubeconfig-mode: 0644` in `k3s_server`.
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**Get Nodes**:
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```text
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ansible@kube-0:~$ sudo kubectl get nodes
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NAME STATUS ROLES AGE VERSION
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kube-0 Ready master 5m27s v1.19.4+k3s
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ansible@kube-0:~$
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```
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**Get Pods**:
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```text
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ansible@kube-0:~$ sudo kubectl get pods --all-namespaces -o wide
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NAMESPACE NAME READY STATUS RESTARTS AGE IP NODE NOMINATED NODE READINESS GATES
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kube-system metrics-server-7b4f8b595-k692h 1/1 Running 0 9m38s 10.42.0.2 kube-0 <none> <none>
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kube-system local-path-provisioner-7ff9579c6-5lgzb 1/1 Running 0 9m38s 10.42.0.3 kube-0 <none> <none>
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kube-system coredns-66c464876b-xg42q 1/1 Running 0 9m38s 10.42.0.5 kube-0 <none> <none>
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kube-system helm-install-traefik-tdpcs 0/1 Completed 0 9m38s 10.42.0.4 kube-0 <none> <none>
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kube-system svclb-traefik-hk248 2/2 Running 0 9m4s 10.42.0.7 kube-0 <none> <none>
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kube-system traefik-5dd496474-bf4kv 1/1 Running 0 9m4s 10.42.0.6 kube-0 <none> <none>
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```
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