# Getting started ## Building your own inventory Ansible inventory can be stored in 3 formats: YAML, JSON, or INI-like. There is an example inventory located [here](https://github.com/kubernetes-sigs/kubespray/blob/master/inventory/sample/inventory.ini). You can use an [inventory generator](https://github.com/kubernetes-sigs/kubespray/blob/master/contrib/inventory_builder/inventory.py) to create or modify an Ansible inventory. Currently, it is limited in functionality and is only used for configuring a basic Kubespray cluster inventory, but it does support creating inventory file for large clusters as well. It now supports separated ETCD and Kubernetes master roles from node role if the size exceeds a certain threshold. Run `python3 contrib/inventory_builder/inventory.py help` help for more information. Example inventory generator usage: ```ShellSession cp -r inventory/sample inventory/mycluster declare -a IPS=(10.10.1.3 10.10.1.4 10.10.1.5) CONFIG_FILE=inventory/mycluster/hosts.yml python3 contrib/inventory_builder/inventory.py ${IPS[@]} ``` Then use `inventory/mycluster/hosts.yml` as inventory file. ## Starting custom deployment Once you have an inventory, you may want to customize deployment data vars and start the deployment: **IMPORTANT**: Edit my\_inventory/groups\_vars/\*.yaml to override data vars: ```ShellSession ansible-playbook -i inventory/mycluster/hosts.yml cluster.yml -b -v \ --private-key=~/.ssh/private_key ``` See more details in the [ansible guide](ansible.md). ### Adding nodes You may want to add worker, master or etcd nodes to your existing cluster. This can be done by re-running the `cluster.yml` playbook, or you can target the bare minimum needed to get kubelet installed on the worker and talking to your masters. This is especially helpful when doing something like autoscaling your clusters. - Add the new worker node to your inventory in the appropriate group (or utilize a [dynamic inventory](https://docs.ansible.com/ansible/intro_dynamic_inventory.html)). - Run the ansible-playbook command, substituting `cluster.yml` for `scale.yml`: ```ShellSession ansible-playbook -i inventory/mycluster/hosts.yml scale.yml -b -v \ --private-key=~/.ssh/private_key ``` ### Remove nodes You may want to remove **master**, **worker**, or **etcd** nodes from your existing cluster. This can be done by re-running the `remove-node.yml` playbook. First, all specified nodes will be drained, then stop some kubernetes services and delete some certificates, and finally execute the kubectl command to delete these nodes. This can be combined with the add node function. This is generally helpful when doing something like autoscaling your clusters. Of course, if a node is not working, you can remove the node and install it again. Use `--extra-vars "node=,"` to select the node(s) you want to delete. ```ShellSession ansible-playbook -i inventory/mycluster/hosts.yml remove-node.yml -b -v \ --private-key=~/.ssh/private_key \ --extra-vars "node=nodename,nodename2" ``` If a node is completely unreachable by ssh, add `--extra-vars reset_nodes=no` to skip the node reset step. If one node is unavailable, but others you wish to remove are able to connect via SSH, you could set reset_nodes=no as a host var in inventory. ## Connecting to Kubernetes By default, Kubespray configures kube-master hosts with insecure access to kube-apiserver via port 8080. A kubeconfig file is not necessary in this case, because kubectl will use to connect. The kubeconfig files generated will point to localhost (on kube-masters) and kube-node hosts will connect either to a localhost nginx proxy or to a loadbalancer if configured. More details on this process are in the [HA guide](ha-mode.md). Kubespray permits connecting to the cluster remotely on any IP of any kube-master host on port 6443 by default. However, this requires authentication. One can get a kubeconfig from kube-master hosts (see [below](#accessing-kubernetes-api)) or connect with a [username and password](vars.md#user-accounts). For more information on kubeconfig and accessing a Kubernetes cluster, refer to the Kubernetes [documentation](https://kubernetes.io/docs/tasks/access-application-cluster/configure-access-multiple-clusters/). ## Accessing Kubernetes Dashboard As of kubernetes-dashboard v1.7.x: - New login options that use apiserver auth proxying of token/basic/kubeconfig by default - Requires RBAC in authorization\_modes - Only serves over https - No longer available at until apiserver is updated with the https proxy URL If the variable `dashboard_enabled` is set (default is true), then you can access the Kubernetes Dashboard at the following URL, You will be prompted for credentials: Or you can run 'kubectl proxy' from your local machine to access dashboard in your browser from: It is recommended to access dashboard from behind a gateway (like Ingress Controller) that enforces an authentication token. Details and other access options here: ## Accessing Kubernetes API The main client of Kubernetes is `kubectl`. It is installed on each kube-master host and can optionally be configured on your ansible host by setting `kubectl_localhost: true` and `kubeconfig_localhost: true` in the configuration: - If `kubectl_localhost` enabled, `kubectl` will download onto `/usr/local/bin/` and setup with bash completion. A helper script `inventory/mycluster/artifacts/kubectl.sh` also created for setup with below `admin.conf`. - If `kubeconfig_localhost` enabled `admin.conf` will appear in the `inventory/mycluster/artifacts/` directory after deployment. - The location where these files are downloaded to can be configured via the `artifacts_dir` variable. You can see a list of nodes by running the following commands: ```ShellSession cd inventory/mycluster/artifacts ./kubectl.sh get nodes ``` If desired, copy admin.conf to ~/.kube/config.