Deploy a Production Ready Kubernetes Cluster on bare metal or raw VMs - This is a clone of https://github.com/kubernetes-sigs/kubespray.git with a kitten twist.
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Build Status kubernetes-ansible

This project allows to

  • Install and configure a Multi-Master/HA kubernetes cluster.
  • Choose the network plugin to be used within the cluster
  • A set of roles in order to install applications over the k8s cluster
  • A flexible method which helps to create new roles for apps.

Linux distributions tested:

  • Debian Wheezy, Jessie
  • Ubuntu 14.10, 15.04, 15.10
  • Fedora 23
  • CentOS/RHEL 7
  • CoreOS

Requirements

  • The target servers must have access to the Internet in order to pull docker imaqes.
  • The firewalls are not managed, you'll need to implement your own rules the way you used to. in order to avoid any issue during deployment you should disable your firewall
  • Copy your ssh keys to all the servers part of your inventory.
  • Ansible v2.x and python-netaddr
  • Base knowledge on Ansible. Please refer to Ansible documentation

Components

Quickstart

The following steps will quickly setup a kubernetes cluster with default configuration. These defaults are good for tests purposes.

Edit the inventory according to the number of servers

[kube-master]
node1
node2

[etcd]
node1
node2
node3

[kube-node]
node2
node3
node4
node5
node6

[k8s-cluster:children]
kube-node
kube-master

Run the playbook

ansible-playbook -i inventory/inventory.cfg cluster.yml -u root

You can jump directly to "Available apps, installation procedure"

Ansible

Coreos bootstrap

Before running the cluster playbook you must satisfy the following requirements:

  • On each CoreOS nodes a writable directory /opt/bin (~400M disk space)

  • Uncomment the variable ansible_python_interpreter in the file inventory/group_vars/all.yml

  • run the Python bootstrap playbook

ansible-playbook -u smana -e ansible_ssh_user=smana  -b --become-user=root -i inventory/inventory.cfg coreos-bootstrap.yml

Then you can proceed to cluster deployment

Variables

The main variables to change are located in the directory inventory/group_vars/all.yml.

Inventory

Below is an example of an inventory.

## Configure 'ip' variable to bind kubernetes services on a
## different ip than the default iface
node1 ansible_ssh_host=95.54.0.12  # ip=10.3.0.1
node2 ansible_ssh_host=95.54.0.13  # ip=10.3.0.2
node3 ansible_ssh_host=95.54.0.14  # ip=10.3.0.3
node4 ansible_ssh_host=95.54.0.15  # ip=10.3.0.4
node5 ansible_ssh_host=95.54.0.16  # ip=10.3.0.5
node6 ansible_ssh_host=95.54.0.17  # ip=10.3.0.6

[kube-master]
node1
node2

[etcd]
node1
node2
node3

[kube-node]
node2
node3
node4
node5
node6

[k8s-cluster:children]
kube-node
kube-master

Playbook

---
- hosts: k8s-cluster
  roles:
    - { role: adduser, tags: adduser }
    - { role: download, tags: download }
    - { role: kubernetes/preinstall, tags: preinstall }
    - { role: etcd, tags: etcd }
    - { role: docker, tags: docker }
    - { role: kubernetes/node, tags: node }
    - { role: network_plugin, tags: network }
    - { role: dnsmasq, tags: dnsmasq }

- hosts: kube-master
  roles:
    - { role: kubernetes/master, tags: master }

Run

It is possible to define variables for different environments. For instance, in order to deploy the cluster on 'dev' environment run the following command.

ansible-playbook -i inventory/dev/inventory.cfg cluster.yml -u root

Kubernetes

Multi master notes

  • You can choose where to install the master components. If you want your master node to act both as master (api,scheduler,controller) and node (e.g. accept workloads, create pods ...), the server address has to be present on both groups 'kube-master' and 'kube-node'.

  • For safety reasons, you should have at least two master nodes and 3 etcd servers

  • Kube-proxy doesn't support multiple apiservers on startup (Issue 18174). An external loadbalancer needs to be configured. In order to do so, some variables have to be used 'loadbalancer_apiserver' and 'apiserver_loadbalancer_domain_name'

Network Plugin

You can choose between 3 network plugins. Only one must be chosen.

  • flannel: gre/vxlan (layer 2) networking. (official docs)

  • calico: bgp (layer 3) networking. (official docs)

  • weave: Weave is a lightweight container overlay network that doesn't require an external K/V database cluster. (official docs)

The choice is defined with the variable kube_network_plugin

Check cluster status

Kubernetes components

  • Check the status of the processes
systemctl status kubelet
  • Check the logs
journalctl -ae -u kubelet
  • Check the NAT rules
iptables -nLv -t nat

For the master nodes you'll have to see the docker logs for the apiserver

docker logs [apiserver docker id]

Available apps, installation procedure

There are two ways of installing new apps

Ansible galaxy

Additionnal apps can be installed with ansible-galaxy.

you'll need to edit the file 'requirements.yml' in order to chose needed apps. The list of available apps are available there

For instance it is strongly recommanded to install a dns server which resolves kubernetes service names. In order to use this role you'll need the following entries in the file 'requirements.yml' Please refer to the k8s-kubedns readme for additionnal info.

- src: https://github.com/ansibl8s/k8s-common.git
  path: roles/apps
  # version: v1.0

- src: https://github.com/ansibl8s/k8s-kubedns.git
  path: roles/apps
  # version: v1.0

Note: the role common is required by all the apps and provides the tasks and libraries needed.

And empty the apps directory

rm -rf roles/apps/*

Then download the roles with ansible-galaxy

ansible-galaxy install -r requirements.yml

Finally update the playbook apps.yml with the chosen roles, and run it

...
- hosts: kube-master
  roles:
    - { role: apps/k8s-kubedns, tags: ['kubedns', 'apps']  }
...
ansible-playbook -i inventory/inventory.cfg apps.yml -u root

Git submodules

Alternatively the roles can be installed as git submodules. That way is easier if you want to do some changes and commit them.

Networking

Calico

Check if the calico-node container is running

docker ps | grep calico

The calicoctl command allows to check the status of the network workloads.

  • Check the status of Calico nodes
calicoctl status
  • Show the configured network subnet for containers
calicoctl pool show
  • Show the workloads (ip addresses of containers and their located)
calicoctl endpoint show --detail
Optionnal : BGP Peering with border routers

In some cases you may want to route the pods subnet and so NAT is not needed on the nodes. For instance if you have a cluster spread on different locations and you want your pods to talk each other no matter where they are located. The following variables need to be set: peer_with_router enable the peering with border router of the datacenter (default value: false). you'll need to edit the inventory and add a and a hostvar local_as by node.

node1 ansible_ssh_host=95.54.0.12 local_as=xxxxxx

Flannel

You can choose the backend type by changing the variable flannel_backend_type (default: vxlan)

  • Flannel configuration file should have been created there
cat /run/flannel/subnet.env
FLANNEL_NETWORK=10.233.0.0/18
FLANNEL_SUBNET=10.233.16.1/24
FLANNEL_MTU=1450
FLANNEL_IPMASQ=false
  • Check if the network interface has been created
ip a show dev flannel.1
4: flannel.1: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1450 qdisc noqueue state UNKNOWN group default
    link/ether e2:f3:a7:0f:bf:cb brd ff:ff:ff:ff:ff:ff
    inet 10.233.16.0/18 scope global flannel.1
       valid_lft forever preferred_lft forever
    inet6 fe80::e0f3:a7ff:fe0f:bfcb/64 scope link
       valid_lft forever preferred_lft forever
  • Docker must be configured with a bridge ip in the flannel subnet.
ps aux | grep docker
root     20196  1.7  2.7 1260616 56840 ?       Ssl  10:18   0:07 /usr/bin/docker daemon --bip=10.233.16.1/24 --mtu=1450
  • Try to run a container and check its ip address
kubectl run test --image=busybox --command -- tail -f /dev/null
replicationcontroller "test" created

kubectl describe po test-34ozs | grep ^IP
IP:				10.233.16.2
kubectl exec test-34ozs -- ip a show dev eth0
8: eth0@if9: <BROADCAST,MULTICAST,UP,LOWER_UP,M-DOWN> mtu 1450 qdisc noqueue
    link/ether 02:42:0a:e9:2b:03 brd ff:ff:ff:ff:ff:ff
    inet 10.233.16.2/24 scope global eth0
       valid_lft forever preferred_lft forever
    inet6 fe80::42:aff:fee9:2b03/64 scope link tentative flags 08
       valid_lft forever preferred_lft forever

Congrats ! now you can walk through kubernetes basics