# This is an example of a bring your own (byo) host inventory # Create an OSEv3 group that contains the masters and nodes groups [OSEv3:children] masters nodes etcd lb # Set variables common for all OSEv3 hosts [OSEv3:vars] # SSH user, this user should allow ssh based auth without requiring a # password. If using ssh key based auth, then the key should be managed by an # ssh agent. ansible_ssh_user=root # If ansible_ssh_user is not root, ansible_sudo must be set to true and the # user must be configured for passwordless sudo #ansible_sudo=true # deployment type valid values are origin, online, atomic-enterprise, and openshift-enterprise deployment_type=atomic-enterprise # Install the openshift examples #openshift_install_examples=true # Enable cluster metrics #use_cluster_metrics=true # Configure metricsPublicURL in the master config for cluster metrics # See: https://docs.openshift.com/enterprise/latest/install_config/cluster_metrics.html #openshift_master_metrics_public_url=https://hawkular-metrics.example.com/hawkular/metrics # Configure loggingPublicURL in the master config for aggregate logging # See: https://docs.openshift.com/enterprise/latest/install_config/aggregate_logging.html #openshift_master_logging_public_url=https://kibana.example.com # Add additional, insecure, and blocked registries to global docker configuration # For enterprise deployment types we ensure that registry.access.redhat.com is # included if you do not include it #cli_docker_additional_registries=registry.example.com #cli_docker_insecure_registries=registry.example.com #cli_docker_blocked_registries=registry.hacker.com # Alternate image format string. If you're not modifying the format string and # only need to inject your own registry you may want to consider # cli_docker_additional_registries instead #oreg_url=example.com/aep3/aep-${component}:${version} # Additional yum repos to install #openshift_additional_repos=[{'id': 'aep-devel', 'name': 'aep-devel', 'baseurl': 'http://example.com/puddle/build/AtomicOpenShift/3.1/latest/RH7-RHOSE-3.0/$basearch/os', 'enabled': 1, 'gpgcheck': 0}] # htpasswd auth openshift_master_identity_providers=[{'name': 'htpasswd_auth', 'login': 'true', 'challenge': 'true', 'kind': 'HTPasswdPasswordIdentityProvider', 'filename': '/etc/origin/htpasswd'}] # Allow all auth #openshift_master_identity_providers=[{'name': 'allow_all', 'login': 'true', 'challenge': 'true', 'kind': 'AllowAllPasswordIdentityProvider'}] # LDAP auth #openshift_master_identity_providers=[{'name': 'my_ldap_provider', 'challenge': 'true', 'login': 'true', 'kind': 'LDAPPasswordIdentityProvider', 'attributes': {'id': ['dn'], 'email': ['mail'], 'name': ['cn'], 'preferredUsername': ['uid']}, 'bindDN': '', 'bindPassword': '', 'ca': '', 'insecure': 'false', 'url': 'ldap://ldap.example.com:389/ou=users,dc=example,dc=com?uid'}] # Project Configuration #osm_project_request_message='' #osm_project_request_template='' #osm_mcs_allocator_range='s0:/2' #osm_mcs_labels_per_project=5 #osm_uid_allocator_range='1000000000-1999999999/10000' # Configure Fluentd #use_fluentd=true # Enable cockpit #osm_use_cockpit=true # # Set cockpit plugins #osm_cockpit_plugins=['cockpit-kubernetes'] # Native high availbility cluster method with optional load balancer. # If no lb group is defined installer assumes that a load balancer has # been preconfigured. For installation the value of # openshift_master_cluster_hostname must resolve to the load balancer # or to one or all of the masters defined in the inventory if no load # balancer is present. #openshift_master_cluster_method=native #openshift_master_cluster_hostname=openshift-ansible.test.example.com #openshift_master_cluster_public_hostname=openshift-ansible.test.example.com # Pacemaker high availability cluster method. # Pacemaker HA environment must be able to self provision the # configured VIP. For installation openshift_master_cluster_hostname # must resolve to the configured VIP. #openshift_master_cluster_method=pacemaker #openshift_master_cluster_password=openshift_cluster #openshift_master_cluster_vip=192.168.133.25 #openshift_master_cluster_public_vip=192.168.133.25 #openshift_master_cluster_hostname=openshift-ansible.test.example.com #openshift_master_cluster_public_hostname=openshift-ansible.test.example.com # Override the default controller lease ttl #osm_controller_lease_ttl=30 # default subdomain to use for exposed routes #osm_default_subdomain=apps.test.example.com # additional cors origins #osm_custom_cors_origins=['foo.example.com', 'bar.example.com'] # default project node selector #osm_default_node_selector='region=primary' # default storage plugin dependencies to install, by default the ceph and # glusterfs plugin dependencies will be installed, if available. #osn_storage_plugin_deps=['ceph','glusterfs'] # default selectors for router and registry services # openshift_router_selector='region=infra' # openshift_registry_selector='region=infra' # Configure the multi-tenant SDN plugin (default is 'redhat/openshift-ovs-subnet') # os_sdn_network_plugin_name='redhat/openshift-ovs-multitenant' # Disable the OpenShift SDN plugin # openshift_use_openshift_sdn=False # set RPM version for debugging purposes #openshift_pkg_version=-3.1.0.0 # Configure custom named certificates # NOTE: openshift_master_named_certificates is cached on masters and is an # additive fact, meaning that each run with a different set of certificates # will add the newly provided certificates to the cached set of certificates. # If you would like openshift_master_named_certificates to be overwritten with # the provided value, specify openshift_master_overwrite_named_certificates. #openshift_master_overwrite_named_certificates: true # # Provide local certificate paths which will be deployed to masters #openshift_master_named_certificates=[{"certfile": "/path/to/custom1.crt", "keyfile": "/path/to/custom1.key"}] # # Detected names may be overridden by specifying the "names" key #openshift_master_named_certificates=[{"certfile": "/path/to/custom1.crt", "keyfile": "/path/to/custom1.key", "names": ["public-master-host.com"]}] # Session options #openshift_master_session_name=ssn #openshift_master_session_max_seconds=3600 # An authentication and encryption secret will be generated if secrets # are not provided. If provided, openshift_master_session_auth_secrets # and openshift_master_encryption_secrets must be equal length. # # Signing secrets, used to authenticate sessions using # HMAC. Recommended to use secrets with 32 or 64 bytes. #openshift_master_session_auth_secrets=['DONT+USE+THIS+SECRET+b4NV+pmZNSO'] # # Encrypting secrets, used to encrypt sessions. Must be 16, 24, or 32 # characters long, to select AES-128, AES-192, or AES-256. #openshift_master_session_encryption_secrets=['DONT+USE+THIS+SECRET+b4NV+pmZNSO'] # configure how often node iptables rules are refreshed #openshift_node_iptables_sync_period=5s # Configure nodeIP in the node config # This is needed in cases where node traffic is desired to go over an # interface other than the default network interface. #openshift_node_set_node_ip=True # Force setting of system hostname when configuring OpenShift # This works around issues related to installations that do not have valid dns # entries for the interfaces attached to the host. #openshift_set_hostname=True # Configure dnsIP in the node config #openshift_dns_ip=172.30.0.1 # Configure node kubelet arguments #openshift_node_kubelet_args={'max-pods': ['40'], 'image-gc-high-threshold': ['90'], 'image-gc-low-threshold': ['80']} # host group for masters [masters] aep3-master[1:3]-ansible.test.example.com [etcd] aep3-etcd[1:3]-ansible.test.example.com [lb] aep3-lb-ansible.test.example.com # NOTE: Currently we require that masters be part of the SDN which requires that they also be nodes # However, in order to ensure that your masters are not burdened with running pods you should # make them unschedulable by adding openshift_schedulable=False any node that's also a master. [nodes] aep3-master[1:3]-ansible.test.example.com aep3-node[1:2]-ansible.test.example.com openshift_node_labels="{'region': 'primary', 'zone': 'default'}"