c12s-kubespray/inventory/group_vars/all.yml

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# Valid bootstrap options (required): xenial, coreos, none
bootstrap_os: none
# Directory where the binaries will be installed
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bin_dir: /usr/local/bin
# Where the binaries will be downloaded.
# Note: ensure that you've enough disk space (about 1G)
local_release_dir: "/tmp/releases"
# Random shifts for retrying failed ops like pushing/downloading
retry_stagger: 5
# Uncomment this line for CoreOS only.
# Directory where python binary is installed
# ansible_python_interpreter: "/opt/bin/python"
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# This is the group that the cert creation scripts chgrp the
# cert files to. Not really changable...
kube_cert_group: kube-cert
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# Cluster Loglevel configuration
kube_log_level: 2
# Users to create for basic auth in Kubernetes API via HTTP
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kube_api_pwd: "changeme"
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kube_users:
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kube:
pass: "{{kube_api_pwd}}"
role: admin
root:
pass: "changeme"
role: admin
# Kubernetes cluster name, also will be used as DNS domain
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cluster_name: cluster.local
# Subdomains of DNS domain to be resolved via /etc/resolv.conf
ndots: 5
# For some environments, each node has a pubilcally accessible
# address and an address it should bind services to. These are
# really inventory level variables, but described here for consistency.
#
# When advertising access, the access_ip will be used, but will defer to
# ip and then the default ansible ip when unspecified.
#
# When binding to restrict access, the ip variable will be used, but will
# defer to the default ansible ip when unspecified.
#
# The ip variable is used for specific address binding, e.g. listen address
# for etcd. This is use to help with environments like Vagrant or multi-nic
# systems where one address should be preferred over another.
# ip: 10.2.2.2
#
# The access_ip variable is used to define how other nodes should access
# the node. This is used in flannel to allow other flannel nodes to see
# this node for example. The access_ip is really useful AWS and Google
# environments where the nodes are accessed remotely by the "public" ip,
# but don't know about that address themselves.
# access_ip: 1.1.1.1
# Etcd access modes:
# Enable multiaccess to configure clients to access all of the etcd members directly
# as the "http://hostX:port, http://hostY:port, ..." and ignore the proxy loadbalancers.
# This may be the case if clients support and loadbalance multiple etcd servers natively.
etcd_multiaccess: false
# Assume there are no internal loadbalancers for apiservers exist and listen on
# kube_apiserver_port (default 443)
loadbalancer_apiserver_localhost: true
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# Choose network plugin (calico, weave or flannel)
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kube_network_plugin: flannel
# Kubernetes internal network for services, unused block of space.
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kube_service_addresses: 10.233.0.0/18
# internal network. When used, it will assign IP
# addresses from this range to individual pods.
# This network must be unused in your network infrastructure!
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kube_pods_subnet: 10.233.64.0/18
# internal network total size (optional). This is the prefix of the
# entire network. Must be unused in your environment.
# kube_network_prefix: 18
# internal network node size allocation (optional). This is the size allocated
# to each node on your network. With these defaults you should have
# room for 4096 nodes with 254 pods per node.
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kube_network_node_prefix: 24
# With calico it is possible to distributed routes with border routers of the datacenter.
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peer_with_router: false
# Warning : enabling router peering will disable calico's default behavior ('node mesh').
# The subnets of each nodes will be distributed by the datacenter router
# The port the API Server will be listening on.
kube_apiserver_ip: "{{ kube_service_addresses|ipaddr('net')|ipaddr(1)|ipaddr('address') }}"
kube_apiserver_port: 443 # (https)
kube_apiserver_insecure_port: 8080 # (http)
# Internal DNS configuration.
# Kubernetes can create and mainatain its own DNS server to resolve service names
# into appropriate IP addresses. It's highly advisable to run such DNS server,
# as it greatly simplifies configuration of your applications - you can use
# service names instead of magic environment variables.
# You still must manually configure all your containers to use this DNS server,
# Kubernetes won't do this for you (yet).
# Do not install additional dnsmasq
skip_dnsmasq: false
# Upstream dns servers used by dnsmasq
#upstream_dns_servers:
# - 8.8.8.8
# - 8.8.4.4
#
# # Use dns server : https://github.com/ansibl8s/k8s-skydns/blob/master/skydns-README.md
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dns_setup: true
dns_domain: "{{ cluster_name }}"
#
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# # Ip address of the kubernetes skydns service
skydns_server: "{{ kube_service_addresses|ipaddr('net')|ipaddr(3)|ipaddr('address') }}"
dns_server: "{{ kube_service_addresses|ipaddr('net')|ipaddr(2)|ipaddr('address') }}"
# There are some changes specific to the cloud providers
# for instance we need to encapsulate packets with some network plugins
# cloud_provider:
# If set the possible values are either 'gce', 'aws', 'openstack' or 'vsphere'
# When vsphere or openstack are used make sure to source in the openstack/vsphere credentials
# like you would do when using nova-client/vsphere before starting the playbook.
## Set these proxy values in order to update docker daemon to use proxies
# http_proxy: ""
# https_proxy: ""
# no_proxy: ""
## A string of extra options to pass to the docker daemon.
## This string should be exactly as you wish it to appear.
## An obvious use case is allowing insecure-registry access
## to self hosted registries like so:
docker_options: "--insecure-registry={{ kube_service_addresses }}"
# default packages to install within the cluster
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kpm_packages: []
# - name: kube-system/grafana