--- # You can override vars by using host or group vars ########### # GENERAL # ########### ###################################### # Releases name to number dictionary # ###################################### ceph_release_num: dumpling: 0.67 emperor: 0.72 firefly: 0.80 giant: 0.87 hammer: 0.94 infernalis: 9 jewel: 10 kraken: 11 luminous: 12 mimic: 13 nautilus: 14 dev: 99 # Directory to fetch cluster fsid, keys etc... fetch_directory: fetch/ # The 'cluster' variable determines the name of the cluster. # Changing the default value to something else means that you will # need to change all the command line calls as well, for example if # your cluster name is 'foo': # "ceph health" will become "ceph --cluster foo health" # # An easier way to handle this is to use the environment variable CEPH_ARGS # So run: "export CEPH_ARGS="--cluster foo" # With that you will be able to run "ceph health" normally cluster: ceph # Inventory host group variables mon_group_name: mons osd_group_name: osds rgw_group_name: rgws mds_group_name: mdss nfs_group_name: nfss rbdmirror_group_name: rbdmirrors client_group_name: clients iscsi_gw_group_name: iscsigws mgr_group_name: mgrs rgwloadbalancer_group_name: rgwloadbalancers grafana_server_group_name: grafana-server # If configure_firewall is true, then ansible will try to configure the # appropriate firewalling rules so that Ceph daemons can communicate # with each others. configure_firewall: True # Open ports on corresponding nodes if firewall is installed on it ceph_mon_firewall_zone: public ceph_mgr_firewall_zone: public ceph_osd_firewall_zone: public ceph_rgw_firewall_zone: public ceph_mds_firewall_zone: public ceph_nfs_firewall_zone: public ceph_rbdmirror_firewall_zone: public ceph_iscsi_firewall_zone: public ceph_dashboard_firewall_zone: public ceph_rgwloadbalancer_firewall_zone: public # Generate local ceph.conf in fetch directory ceph_conf_local: false ############ # PACKAGES # ############ debian_package_dependencies: [] centos_package_dependencies: - epel-release - libselinux-python redhat_package_dependencies: [] suse_package_dependencies: [] # Whether or not to install the ceph-test package. ceph_test: false # Enable the ntp service by default to avoid clock skew on ceph nodes # Disable if an appropriate NTP client is already installed and configured ntp_service_enabled: true # Set type of NTP client daemon to use, valid entries are chronyd, ntpd or timesyncd # Note that this selection is currently ignored on containerized deployments ntp_daemon_type: chronyd # This variable determines if ceph packages can be updated. If False, the # package resources will use "state=present". If True, they will use # "state=latest". upgrade_ceph_packages: False ceph_use_distro_backports: false # DEBIAN ONLY ########### # INSTALL # ########### ceph_repository_type: dummy # ORIGIN SOURCE # # Choose between: # - 'repository' means that you will get ceph installed through a new repository. Later below choose between 'community', 'rhcs', 'dev' or 'obs' # - 'distro' means that no separate repo file will be added # you will get whatever version of Ceph is included in your Linux distro. # 'local' means that the ceph binaries will be copied over from the local machine ceph_origin: dummy valid_ceph_origins: - repository - distro - local ceph_repository: dummy valid_ceph_repository: - community - rhcs - dev - uca - custom - obs # REPOSITORY: COMMUNITY VERSION # # Enabled when ceph_repository == 'community' # ceph_mirror: http://download.ceph.com ceph_stable_key: https://download.ceph.com/keys/release.asc ceph_stable_release: dummy ceph_stable_repo: "{{ ceph_mirror }}/debian-{{ ceph_stable_release }}" nfs_ganesha_stable: true # use stable repos for nfs-ganesha nfs_ganesha_stable_branch: V2.7-stable nfs_ganesha_stable_deb_repo: "{{ ceph_mirror }}/nfs-ganesha/deb-{{ nfs_ganesha_stable_branch }}/{{ ceph_stable_release }}" # Use the option below to specify your applicable package tree, eg. when using non-LTS Ubuntu versions # # for a list of available Debian distributions, visit http://download.ceph.com/debian-{{ ceph_stable_release }}/dists/ # for more info read: https://github.com/ceph/ceph-ansible/issues/305 #ceph_stable_distro_source: "{{ ansible_distribution_release }}" # This option is needed for _both_ stable and dev version, so please always fill the right version # # for supported distros, see http://download.ceph.com/rpm-{{ ceph_stable_release }}/ ceph_stable_redhat_distro: el7 # REPOSITORY: RHCS VERSION RED HAT STORAGE (from 4.0) # # Enabled when ceph_repository == 'rhcs' # # This version is supported on RHEL 7 and 8 # ceph_rhcs_version: "{{ ceph_stable_rh_storage_version | default(4) }}" valid_ceph_repository_type: - cdn - iso ceph_rhcs_iso_path: "{{ ceph_stable_rh_storage_iso_path | default('') }}" ceph_rhcs_mount_path: "{{ ceph_stable_rh_storage_mount_path | default('/tmp/rh-storage-mount') }}" ceph_rhcs_repository_path: "{{ ceph_stable_rh_storage_repository_path | default('/tmp/rh-storage-repo') }}" # where to copy iso's content # RHCS installation in Debian systems ceph_rhcs_cdn_debian_repo: https://customername:customerpasswd@rhcs.download.redhat.com ceph_rhcs_cdn_debian_repo_version: "/3-release/" # for GA, later for updates use /3-updates/ # REPOSITORY: UBUNTU CLOUD ARCHIVE # # Enabled when ceph_repository == 'uca' # # This allows the install of Ceph from the Ubuntu Cloud Archive. The Ubuntu Cloud Archive # usually has newer Ceph releases than the normal distro repository. # # ceph_stable_repo_uca: "http://ubuntu-cloud.archive.canonical.com/ubuntu" ceph_stable_openstack_release_uca: queens ceph_stable_release_uca: "{{ ansible_distribution_release }}-updates/{{ ceph_stable_openstack_release_uca }}" # REPOSITORY: openSUSE OBS # # Enabled when ceph_repository == 'obs' # # This allows the install of Ceph from the openSUSE OBS repository. The OBS repository # usually has newer Ceph releases than the normal distro repository. # # ceph_obs_repo: "https://download.opensuse.org/repositories/filesystems:/ceph:/{{ ceph_stable_release }}/openSUSE_Leap_{{ ansible_distribution_version }}/" # REPOSITORY: DEV # # Enabled when ceph_repository == 'dev' # ceph_dev_branch: master # development branch you would like to use e.g: master, wip-hack ceph_dev_sha1: latest # distinct sha1 to use, defaults to 'latest' (as in latest built) nfs_ganesha_dev: false # use development repos for nfs-ganesha # Set this to choose the version of ceph dev libraries used in the nfs-ganesha packages from shaman # flavors so far include: ceph_master, ceph_jewel, ceph_kraken, ceph_luminous nfs_ganesha_flavor: "ceph_master" ceph_iscsi_config_dev: true # special repo for deploying iSCSI gateways # REPOSITORY: CUSTOM # # Enabled when ceph_repository == 'custom' # # Use a custom repository to install ceph. For RPM, ceph_custom_repo should be # a URL to the .repo file to be installed on the targets. For deb, # ceph_custom_repo should be the URL to the repo base. # ceph_custom_repo: https://server.domain.com/ceph-custom-repo # ORIGIN: LOCAL CEPH INSTALLATION # # Enabled when ceph_repository == 'local' # # Path to DESTDIR of the ceph install #ceph_installation_dir: "/path/to/ceph_installation/" # Whether or not to use installer script rundep_installer.sh # This script takes in rundep and installs the packages line by line onto the machine # If this is set to false then it is assumed that the machine ceph is being copied onto will already have # all runtime dependencies installed #use_installer: false # Root directory for ceph-ansible #ansible_dir: "/path/to/ceph-ansible" ###################### # CEPH CONFIGURATION # ###################### ## Ceph options # # Each cluster requires a unique, consistent filesystem ID. By # default, the playbook generates one for you and stores it in a file # in `fetch_directory`. If you want to customize how the fsid is # generated, you may find it useful to disable fsid generation to # avoid cluttering up your ansible repo. If you set `generate_fsid` to # false, you *must* generate `fsid` in another way. # ACTIVATE THE FSID VARIABLE FOR NON-VAGRANT DEPLOYMENT fsid: "{{ cluster_uuid.stdout }}" generate_fsid: true ceph_conf_key_directory: /etc/ceph # Permissions for keyring files in /etc/ceph ceph_keyring_permissions: '0600' cephx: true ## Client options # rbd_cache: "true" rbd_cache_writethrough_until_flush: "true" rbd_concurrent_management_ops: 20 rbd_client_directories: true # this will create rbd_client_log_path and rbd_client_admin_socket_path directories with proper permissions # Permissions for the rbd_client_log_path and # rbd_client_admin_socket_path. Depending on your use case for Ceph # you may want to change these values. The default, which is used if # any of the variables are unset or set to a false value (like `null` # or `false`) is to automatically determine what is appropriate for # the Ceph version with non-OpenStack workloads -- ceph:ceph and 0770 # for infernalis releases, and root:root and 1777 for pre-infernalis # releases. # # For other use cases, including running Ceph with OpenStack, you'll # want to set these differently: # # For OpenStack on RHEL, you'll want: # rbd_client_directory_owner: "qemu" # rbd_client_directory_group: "libvirtd" (or "libvirt", depending on your version of libvirt) # rbd_client_directory_mode: "0755" # # For OpenStack on Ubuntu or Debian, set: # rbd_client_directory_owner: "libvirt-qemu" # rbd_client_directory_group: "kvm" # rbd_client_directory_mode: "0755" # # If you set rbd_client_directory_mode, you must use a string (e.g., # 'rbd_client_directory_mode: "0755"', *not* # 'rbd_client_directory_mode: 0755', or Ansible will complain: mode # must be in octal or symbolic form rbd_client_directory_owner: null rbd_client_directory_group: null rbd_client_directory_mode: null rbd_client_log_path: /var/log/ceph rbd_client_log_file: "{{ rbd_client_log_path }}/qemu-guest-$pid.log" # must be writable by QEMU and allowed by SELinux or AppArmor rbd_client_admin_socket_path: /var/run/ceph # must be writable by QEMU and allowed by SELinux or AppArmor ## Monitor options # # You must define either monitor_interface, monitor_address or monitor_address_block. # These variables must be defined at least in all.yml and overrided if needed (inventory host file or group_vars/*.yml). # Eg. If you want to specify for each monitor which address the monitor will bind to you can set it in your **inventory host file** by using 'monitor_address' variable. # Preference will go to monitor_address if both monitor_address and monitor_interface are defined. monitor_interface: interface monitor_address: x.x.x.x monitor_address_block: subnet # set to either ipv4 or ipv6, whichever your network is using ip_version: ipv4 mon_use_fqdn: false # if set to true, the MON name used will be the fqdn in the ceph.conf mon_host_v1: enabled: True suffix: ':6789' mon_host_v2: suffix: ':3300' ########## # CEPHFS # ########## # When pg_autoscale_mode is set to True, you must add the target_size_ratio key with a correct value # `pg_num` and `pgp_num` keys will be ignored, even if specified. # eg: # cephfs_data_pool: # name: "{{ cephfs_data if cephfs_data is defined else 'cephfs_data' }}" # pg_num: "{{ osd_pool_default_pg_num }}" # pgp_num: "{{ osd_pool_default_pg_num }}" # rule_name: "replicated_rule" # type: 1 # erasure_profile: "" # expected_num_objects: "" # application: "cephfs" # size: "{{ osd_pool_default_size }}" # min_size: "{{ osd_pool_default_min_size }}" # pg_autoscale_mode: False # target_size_ratio: 0.2 cephfs: cephfs # name of the ceph filesystem cephfs_data_pool: name: "{{ cephfs_data if cephfs_data is defined else 'cephfs_data' }}" pg_num: "{{ osd_pool_default_pg_num }}" pgp_num: "{{ osd_pool_default_pg_num }}" rule_name: "replicated_rule" type: 1 erasure_profile: "" expected_num_objects: "" application: "cephfs" size: "{{ osd_pool_default_size }}" min_size: "{{ osd_pool_default_min_size }}" pg_autoscale_mode: False cephfs_metadata_pool: name: "{{ cephfs_metadata if cephfs_metadata is defined else 'cephfs_metadata' }}" pg_num: "{{ osd_pool_default_pg_num }}" pgp_num: "{{ osd_pool_default_pg_num }}" rule_name: "replicated_rule" type: 1 erasure_profile: "" expected_num_objects: "" application: "cephfs" size: "{{ osd_pool_default_size }}" min_size: "{{ osd_pool_default_min_size }}" pg_autoscale_mode: False cephfs_pools: - "{{ cephfs_data_pool }}" - "{{ cephfs_metadata_pool }}" ## OSD options # is_hci: false hci_safety_factor: 0.2 non_hci_safety_factor: 0.7 osd_memory_target: 4294967296 journal_size: 5120 # OSD journal size in MB block_db_size: -1 # block db size in bytes for the ceph-volume lvm batch. -1 means use the default of 'as big as possible'. public_network: 0.0.0.0/0 cluster_network: "{{ public_network | regex_replace(' ', '') }}" osd_mkfs_type: xfs osd_mkfs_options_xfs: -f -i size=2048 osd_mount_options_xfs: noatime,largeio,inode64,swalloc osd_objectstore: bluestore # Any device containing these patterns in their path will be excluded. osd_auto_discovery_exclude: "dm-*|loop*|md*|rbd*" # xattrs. by default, 'filestore xattr use omap' is set to 'true' if # 'osd_mkfs_type' is set to 'ext4'; otherwise it isn't set. This can # be set to 'true' or 'false' to explicitly override those # defaults. Leave it 'null' to use the default for your chosen mkfs # type. filestore_xattr_use_omap: null ## MDS options # mds_use_fqdn: false # if set to true, the MDS name used will be the fqdn in the ceph.conf mds_max_mds: 1 ## Rados Gateway options # radosgw_frontend_type: beast # For additionnal frontends see: http://docs.ceph.com/docs/nautilus/radosgw/frontends/ radosgw_civetweb_port: 8080 radosgw_civetweb_num_threads: 512 radosgw_civetweb_options: "num_threads={{ radosgw_civetweb_num_threads }}" # For additional civetweb configuration options available such as logging, # keepalive, and timeout settings, please see the civetweb docs at # https://github.com/civetweb/civetweb/blob/master/docs/UserManual.md radosgw_frontend_port: "{{ radosgw_civetweb_port if radosgw_frontend_type == 'civetweb' else '8080' }}" # The server private key, public certificate and any other CA or intermediate certificates should be in one file, in PEM format. radosgw_frontend_ssl_certificate: "" radosgw_frontend_options: "{{ radosgw_civetweb_options if radosgw_frontend_type == 'civetweb' else '' }}" radosgw_thread_pool_size: 512 # You must define either radosgw_interface, radosgw_address. # These variables must be defined at least in all.yml and overrided if needed (inventory host file or group_vars/*.yml). # Eg. If you want to specify for each radosgw node which address the radosgw will bind to you can set it in your **inventory host file** by using 'radosgw_address' variable. # Preference will go to radosgw_address if both radosgw_address and radosgw_interface are defined. radosgw_interface: interface radosgw_address: x.x.x.x radosgw_address_block: subnet radosgw_keystone_ssl: false # activate this when using keystone PKI keys radosgw_num_instances: 1 # Rados Gateway options email_address: foo@bar.com ## Testing mode # enable this mode _only_ when you have a single node # if you don't want it keep the option commented #common_single_host_mode: true ## Handlers - restarting daemons after a config change # if for whatever reasons the content of your ceph configuration changes # ceph daemons will be restarted as well. At the moment, we can not detect # which config option changed so all the daemons will be restarted. Although # this restart will be serialized for each node, in between a health check # will be performed so we make sure we don't move to the next node until # ceph is not healthy # Obviously between the checks (for monitors to be in quorum and for osd's pgs # to be clean) we have to wait. These retries and delays can be configurable # for both monitors and osds. # # Monitor handler checks handler_health_mon_check_retries: 10 handler_health_mon_check_delay: 20 # # OSD handler checks handler_health_osd_check_retries: 40 handler_health_osd_check_delay: 30 handler_health_osd_check: true # # MDS handler checks handler_health_mds_check_retries: 5 handler_health_mds_check_delay: 10 # # RGW handler checks handler_health_rgw_check_retries: 5 handler_health_rgw_check_delay: 10 # NFS handler checks handler_health_nfs_check_retries: 5 handler_health_nfs_check_delay: 10 # RBD MIRROR handler checks handler_health_rbd_mirror_check_retries: 5 handler_health_rbd_mirror_check_delay: 10 # MGR handler checks handler_health_mgr_check_retries: 5 handler_health_mgr_check_delay: 10 ## health mon/osds check retries/delay: health_mon_check_retries: 20 health_mon_check_delay: 10 health_osd_check_retries: 20 health_osd_check_delay: 10 ############### # NFS-GANESHA # ############### # Confiure the type of NFS gatway access. At least one must be enabled for an # NFS role to be useful # # Set this to true to enable File access via NFS. Requires an MDS role. nfs_file_gw: false # Set this to true to enable Object access via NFS. Requires an RGW role. nfs_obj_gw: "{{ False if groups.get(mon_group_name, []) | length == 0 else True }}" ############# # MULTISITE # ############# # Changing this value allows multisite code to run rgw_multisite: false # If the desired multisite configuration involves only one realm, one zone group and one zone (per cluster), then the multisite variables can be set here. # Please see README-MULTISITE.md for more information. # # If multiple realms or multiple zonegroups or multiple zones need to be created on a cluster then, # the multisite config variables should be editted in their respective zone .yaml file and realm .yaml file. # See README-MULTISITE-MULTIREALM.md for more information. # The following Multi-site related variables should be set by the user. # # rgw_zone is set to "default" to enable compression for clusters configured without rgw multi-site # If multisite is configured, rgw_zone should not be set to "default". # rgw_zone: default #rgw_zonemaster: true #rgw_zonesecondary: false #rgw_zonegroup: solarsystem # should be set by the user #rgw_zonegroupmaster: true #rgw_zone_user: zone.user #rgw_zone_user_display_name: "Zone User" #rgw_realm: milkyway # should be set by the user #rgw_multisite_proto: "http" #system_access_key: 6kWkikvapSnHyE22P7nO # should be re-created by the user #system_secret_key: MGecsMrWtKZgngOHZdrd6d3JxGO5CPWgT2lcnpSt # should be re-created by the user # Multi-site remote pull URL variables #rgw_pull_port: "{{ radosgw_frontend_port }}" #rgw_pull_proto: "http" # should be the same as rgw_multisite_proto for the master zone cluster #rgw_pullhost: localhost # rgw_pullhost only needs to be declared if there is a zone secondary. ################### # CONFIG OVERRIDE # ################### # Ceph configuration file override. # This allows you to specify more configuration options # using an INI style format. # # When configuring RGWs, make sure you use the form [client.rgw.*] # instead of [client.radosgw.*]. # For more examples check the profiles directory of https://github.com/ceph/ceph-ansible. # # The following sections are supported: [global], [mon], [osd], [mds], [client] # # Example: # ceph_conf_overrides: # global: # foo: 1234 # bar: 5678 # "client.rgw.{{ hostvars[groups.get(rgw_group_name)[0]]['ansible_hostname'] }}": # rgw_zone: zone1 # ceph_conf_overrides: {} ############# # OS TUNING # ############# disable_transparent_hugepage: "{{ false if osd_objectstore == 'bluestore' else true }}" os_tuning_params: - { name: fs.file-max, value: 26234859 } - { name: vm.zone_reclaim_mode, value: 0 } - { name: vm.swappiness, value: 10 } - { name: vm.min_free_kbytes, value: "{{ vm_min_free_kbytes }}" } # For Debian & Red Hat/CentOS installs set TCMALLOC_MAX_TOTAL_THREAD_CACHE_BYTES # Set this to a byte value (e.g. 134217728) # A value of 0 will leave the package default. ceph_tcmalloc_max_total_thread_cache: 0 ########## # DOCKER # ########## ceph_docker_image: "ceph/daemon" ceph_docker_image_tag: latest ceph_docker_registry: docker.io ceph_docker_registry_auth: false #ceph_docker_registry_username: #ceph_docker_registry_password: ## Client only docker image - defaults to {{ ceph_docker_image }} ceph_client_docker_image: "{{ ceph_docker_image }}" ceph_client_docker_image_tag: "{{ ceph_docker_image_tag }}" ceph_client_docker_registry: "{{ ceph_docker_registry }}" ceph_docker_enable_centos_extra_repo: false ceph_docker_on_openstack: false containerized_deployment: False container_binary: timeout_command: "{{ 'timeout --foreground -s KILL ' ~ docker_pull_timeout if (docker_pull_timeout != '0') and (ceph_docker_dev_image is undefined or not ceph_docker_dev_image) else '' }}" # this is only here for usage with the rolling_update.yml playbook # do not ever change this here rolling_update: false ##################### # Docker pull retry # ##################### docker_pull_retry: 3 docker_pull_timeout: "300s" ############# # OPENSTACK # ############# openstack_config: false # When pg_autoscale_mode is set to True, you must add the target_size_ratio key with a correct value # `pg_num` and `pgp_num` keys will be ignored, even if specified. # eg: # openstack_glance_pool: # name: "images" # pg_num: "{{ osd_pool_default_pg_num }}" # pgp_num: "{{ osd_pool_default_pg_num }}" # rule_name: "replicated_rule" # type: 1 # erasure_profile: "" # expected_num_objects: "" # application: "rbd" # size: "{{ osd_pool_default_size }}" # min_size: "{{ osd_pool_default_min_size }}" # pg_autoscale_mode: False # target_size_ratio: 0.2 openstack_glance_pool: name: "images" pg_num: "{{ osd_pool_default_pg_num }}" pgp_num: "{{ osd_pool_default_pg_num }}" rule_name: "replicated_rule" type: 1 erasure_profile: "" expected_num_objects: "" application: "rbd" size: "{{ osd_pool_default_size }}" min_size: "{{ osd_pool_default_min_size }}" pg_autoscale_mode: False openstack_cinder_pool: name: "volumes" pg_num: "{{ osd_pool_default_pg_num }}" pgp_num: "{{ osd_pool_default_pg_num }}" rule_name: "replicated_rule" type: 1 erasure_profile: "" expected_num_objects: "" application: "rbd" size: "{{ osd_pool_default_size }}" min_size: "{{ osd_pool_default_min_size }}" pg_autoscale_mode: False openstack_nova_pool: name: "vms" pg_num: "{{ osd_pool_default_pg_num }}" pgp_num: "{{ osd_pool_default_pg_num }}" rule_name: "replicated_rule" type: 1 erasure_profile: "" expected_num_objects: "" application: "rbd" size: "{{ osd_pool_default_size }}" min_size: "{{ osd_pool_default_min_size }}" pg_autoscale_mode: False openstack_cinder_backup_pool: name: "backups" pg_num: "{{ osd_pool_default_pg_num }}" pgp_num: "{{ osd_pool_default_pg_num }}" rule_name: "replicated_rule" type: 1 erasure_profile: "" expected_num_objects: "" application: "rbd" size: "{{ osd_pool_default_size }}" min_size: "{{ osd_pool_default_min_size }}" pg_autoscale_mode: False openstack_gnocchi_pool: name: "metrics" pg_num: "{{ osd_pool_default_pg_num }}" pgp_num: "{{ osd_pool_default_pg_num }}" rule_name: "replicated_rule" type: 1 erasure_profile: "" expected_num_objects: "" application: "rbd" size: "{{ osd_pool_default_size }}" min_size: "{{ osd_pool_default_min_size }}" pg_autoscale_mode: False openstack_cephfs_data_pool: name: "manila_data" pg_num: "{{ osd_pool_default_pg_num }}" pgp_num: "{{ osd_pool_default_pg_num }}" rule_name: "replicated_rule" type: 1 erasure_profile: "" expected_num_objects: "" application: "rbd" size: "{{ osd_pool_default_size }}" min_size: "{{ osd_pool_default_min_size }}" pg_autoscale_mode: False openstack_cephfs_metadata_pool: name: "manila_metadata" pg_num: "{{ osd_pool_default_pg_num }}" pgp_num: "{{ osd_pool_default_pg_num }}" rule_name: "replicated_rule" type: 1 erasure_profile: "" expected_num_objects: "" application: "rbd" size: "{{ osd_pool_default_size }}" min_size: "{{ osd_pool_default_min_size }}" pg_autoscale_mode: False openstack_pools: - "{{ openstack_glance_pool }}" - "{{ openstack_cinder_pool }}" - "{{ openstack_nova_pool }}" - "{{ openstack_cinder_backup_pool }}" - "{{ openstack_gnocchi_pool }}" - "{{ openstack_cephfs_data_pool }}" - "{{ openstack_cephfs_metadata_pool }}" # The value for 'key' can be a pre-generated key, # e.g key: "AQDC2UxZH4yeLhAAgTaZb+4wDUlYOsr1OfZSpQ==" # By default, keys will be auto-generated. # openstack_keys: - { name: client.glance, caps: { mon: "profile rbd", osd: "profile rbd pool=volumes, profile rbd pool={{ openstack_glance_pool.name }}"}, mode: "0600" } - { name: client.cinder, caps: { mon: "profile rbd", osd: "profile rbd pool={{ openstack_cinder_pool.name }}, profile rbd pool={{ openstack_nova_pool.name }}, profile rbd pool={{ openstack_glance_pool.name }}"}, mode: "0600" } - { name: client.cinder-backup, caps: { mon: "profile rbd", osd: "profile rbd pool={{ openstack_cinder_backup_pool.name }}"}, mode: "0600" } - { name: client.gnocchi, caps: { mon: "profile rbd", osd: "profile rbd pool={{ openstack_gnocchi_pool.name }}"}, mode: "0600", } - { name: client.openstack, caps: { mon: "profile rbd", osd: "profile rbd pool={{ openstack_glance_pool.name }}, profile rbd pool={{ openstack_nova_pool.name }}, profile rbd pool={{ openstack_cinder_pool.name }}, profile rbd pool={{ openstack_cinder_backup_pool.name }}"}, mode: "0600" } ############# # DASHBOARD # ############# dashboard_enabled: True # Choose http or https # For https, you should set dashboard.crt/key and grafana.crt/key dashboard_protocol: http dashboard_port: 8443 dashboard_admin_user: admin dashboard_admin_user_ro: false # This variable must be set with a strong custom password when dashboard_enabled is True #dashboard_admin_password: p@ssw0rd # We only need this for SSL (https) connections dashboard_crt: '' dashboard_key: '' dashboard_rgw_api_user_id: ceph-dashboard dashboard_rgw_api_admin_resource: '' dashboard_rgw_api_no_ssl_verify: False dashboard_frontend_vip: '' node_exporter_container_image: "prom/node-exporter:v0.17.0" node_exporter_port: 9100 grafana_admin_user: admin # This variable must be set with a strong custom password when dashboard_enabled is True #grafana_admin_password: admin # We only need this for SSL (https) connections grafana_crt: '' grafana_key: '' grafana_container_image: "grafana/grafana:5.4.3" grafana_container_cpu_period: 100000 grafana_container_cpu_cores: 2 # container_memory is in GB grafana_container_memory: 4 grafana_uid: 472 grafana_datasource: Dashboard grafana_dashboards_path: "/etc/grafana/dashboards/ceph-dashboard" grafana_dashboard_version: nautilus grafana_dashboard_files: - ceph-cluster.json - cephfs-overview.json - host-details.json - hosts-overview.json - osd-device-details.json - osds-overview.json - pool-detail.json - pool-overview.json - radosgw-detail.json - radosgw-overview.json - rbd-overview.json grafana_plugins: - vonage-status-panel - grafana-piechart-panel grafana_allow_embedding: True grafana_port: 3000 prometheus_container_image: "prom/prometheus:v2.7.2" prometheus_container_cpu_period: 100000 prometheus_container_cpu_cores: 2 # container_memory is in GB prometheus_container_memory: 4 prometheus_data_dir: /var/lib/prometheus prometheus_conf_dir: /etc/prometheus prometheus_user_id: '65534' # This is the UID used by the prom/prometheus container image prometheus_port: 9092 alertmanager_container_image: "prom/alertmanager:v0.16.2" alertmanager_container_cpu_period: 100000 alertmanager_container_cpu_cores: 2 # container_memory is in GB alertmanager_container_memory: 4 alertmanager_data_dir: /var/lib/alertmanager alertmanager_conf_dir: /etc/alertmanager alertmanager_port: 9093 alertmanager_cluster_port: 9094 ################################## # DEPRECIATED iSCSI TARGET SETUP # ################################## # WARNING # # The following values are depreciated. To setup targets, gateways, LUNs, and # clients you should use gwcli or dashboard. If the following values are set, # the old ceph-iscsi-config/ceph-iscsi-cli packages will be used. # Specify the iqn for ALL gateways. This iqn is shared across the gateways, so an iscsi # client sees the gateway group as a single storage subsystem. gateway_iqn: "" # gateway_ip_list provides a list of the IP Addrresses - one per gateway - that will be used # as an iscsi target portal ip. The list must be comma separated - and the order determines # the sequence of TPG's within the iscsi target across each gateway. Once set, additional # gateways can be added, but the order must *not* be changed. gateway_ip_list: 0.0.0.0 # rbd_devices defines the images that should be created and exported from the iscsi gateways. # If the rbd does not exist, it will be created for you. In addition you may increase the # size of rbd's by changing the size parameter and rerunning the playbook. A size value lower # than the current size of the rbd is ignored. # # the 'host' parameter defines which of the gateway nodes should handle the physical # allocation/expansion or removal of the rbd # to remove an image, simply use a state of 'absent'. This will first check the rbd is not allocated # to any client, and the remove it from LIO and then delete the rbd image # # NB. this variable definition can be commented out to bypass LUN management # # Example: # #rbd_devices: # - { pool: 'rbd', image: 'ansible1', size: '30G', host: 'ceph-1', state: 'present' } # - { pool: 'rbd', image: 'ansible2', size: '15G', host: 'ceph-1', state: 'present' } # - { pool: 'rbd', image: 'ansible3', size: '30G', host: 'ceph-1', state: 'present' } # - { pool: 'rbd', image: 'ansible4', size: '50G', host: 'ceph-1', state: 'present' } rbd_devices: {} # client_connections defines the client ACL's to restrict client access to specific LUNs # The settings are as follows; # - image_list is a comma separated list of rbd images of the form . # - chap supplies the user and password the client will use for authentication of the # form / # - status shows the intended state of this client definition - 'present' or 'absent' # # NB. this definition can be commented out to skip client (nodeACL) management # # Example: # #client_connections: # - { client: 'iqn.1994-05.com.redhat:rh7-iscsi-client', image_list: 'rbd.ansible1,rbd.ansible2', chap: 'rh7-iscsi-client/redhat', status: 'present' } # - { client: 'iqn.1991-05.com.microsoft:w2k12r2', image_list: 'rbd.ansible4', chap: 'w2k12r2/microsoft_w2k12', status: 'absent' } client_connections: {} ############### # DEPRECATION # ############### use_fqdn_yes_i_am_sure: false ###################################################### # VARIABLES BELOW SHOULD NOT BE MODIFIED BY THE USER # # *DO NOT* MODIFY THEM # ###################################################### container_exec_cmd: docker: false