--- # Variables here are applicable to all host groups NOT roles # This sample file generated by generate_group_vars_sample.sh # Dummy variable to avoid error because ansible does not recognize the # file as a good configuration file when no variable in it. dummy: # You can override vars by using host or group vars ########### # GENERAL # ########### # Even though RGW nodes should not have the admin key # at their disposal, some people might want to have it # distributed on RGW nodes. Setting 'copy_admin_key' to 'true' # will copy the admin key to the /etc/ceph/ directory #copy_admin_key: false ########## # TUNING # ########## # To support buckets with a very large number of objects it's # important to split them into shards. We suggest about 100K # objects per shard as a conservative maximum. #rgw_override_bucket_index_max_shards: 16 # Consider setting a quota on buckets so that exceeding this # limit will require admin intervention. #rgw_bucket_default_quota_max_objects: 1638400 # i.e., 100K * 16 # Declaring rgw_create_pools will create pools with the given number of pgs, # size, and type. The following are some important notes on this automatic # pool creation: # - The pools and associated pg_num's below are merely examples of pools that # could be automatically created when rgws are deployed. # - The default pg_num is 8 (from osd_pool_default_pg_num) for pool created # if rgw_create_pools isn't declared and configured. # - A pgcalc tool should be used to determine the optimal sizes for # the rgw.buckets.data, rgw.buckets.index pools as well as any other # pools declared in this dictionary. # https://ceph.io/pgcalc is the upstream pgcalc tool # https://access.redhat.com/labsinfo/cephpgc is a pgcalc tool offered by # Red Hat if you are using RHCS. # - The default value of {{ rgw_zone }} is 'default'. # - The type must be set as either 'replicated' or 'ec' for # each pool. # - If a pool's type is 'ec', k and m values must be set via # the ec_k, and ec_m variables. #rgw_create_pools: # "{{ rgw_zone }}.rgw.buckets.data": # pg_num: 64 # type: ec # ec_profile: myecprofile # ec_k: 5 # ec_m: 3 # "{{ rgw_zone }}.rgw.buckets.index": # pg_num: 16 # size: 3 # type: replicated # "{{ rgw_zone }}.rgw.meta": # pg_num: 8 # size: 3 # type: replicated # "{{ rgw_zone }}.rgw.log": # pg_num: 8 # size: 3 # type: replicated # "{{ rgw_zone }}.rgw.control": # pg_num: 8 # size: 3 # type: replicated ########## # DOCKER # ########## # Resource limitation # For the whole list of limits you can apply see: docs.docker.com/engine/admin/resource_constraints # Default values are based from: https://access.redhat.com/documentation/en-us/red_hat_ceph_storage/2/html/red_hat_ceph_storage_hardware_guide/minimum_recommendations # These options can be passed using the 'ceph_rgw_docker_extra_env' variable. #ceph_rgw_docker_memory_limit: "4096m" #ceph_rgw_docker_cpu_limit: 8 #ceph_rgw_docker_cpuset_cpus: "0,2,4,6,8,10,12,14,16" #ceph_rgw_docker_cpuset_mems: "0" #ceph_rgw_docker_extra_env: #ceph_config_keys: [] # DON'T TOUCH ME #rgw_config_keys: "/" # DON'T TOUCH ME ########### # SYSTEMD # ########### # ceph_rgw_systemd_overrides will override the systemd settings # for the ceph-rgw services. # For example,to set "PrivateDevices=false" you can specify: #ceph_rgw_systemd_overrides: # Service: # PrivateDevices: False