mirror of https://github.com/ceph/ceph-ansible.git
275 lines
9.9 KiB
Plaintext
275 lines
9.9 KiB
Plaintext
---
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# Variables here are applicable to all host groups NOT roles
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# This sample file generated by generate_group_vars_sample.sh
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# Dummy variable to avoid error because ansible does not recognize the
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# file as a good configuration file when no variable in it.
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dummy:
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# You can override default vars defined in defaults/main.yml here,
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# but I would advice to use host or group vars instead
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#raw_journal_devices: [] # backward compatibility with stable-2.2, will disappear in stable 3.1
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#journal_collocation: False # backward compatibility with stable-2.2, will disappear in stable 3.1
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#raw_multi_journal: False # backward compatibility with stable-2.2, will disappear in stable 3.1
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#dmcrypt_journal_collocation: False # backward compatibility with stable-2.2, will disappear in stable 3.1
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#dmcrypt_dedicated_journal: False # backward compatibility with stable-2.2, will disappear in stable 3.1
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###########
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# GENERAL #
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###########
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# Even though OSD nodes should not have the admin key
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# at their disposal, some people might want to have it
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# distributed on OSD nodes. Setting 'copy_admin_key' to 'true'
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# will copy the admin key to the /etc/ceph/ directory
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#copy_admin_key: false
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##############
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# CEPH OPTIONS
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##############
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# Devices to be used as OSDs
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# You can pre-provision disks that are not present yet.
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# Ansible will just skip them. Newly added disk will be
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# automatically configured during the next run.
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#
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# Declare devices to be used as OSDs
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# All scenario(except 3rd) inherit from the following device declaration
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# Note: This scenario uses the ceph-disk tool to provision OSDs
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#devices:
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# - /dev/sdb
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# - /dev/sdc
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# - /dev/sdd
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# - /dev/sde
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#devices: []
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#'osd_auto_discovery' mode prevents you from filling out the 'devices' variable above.
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# You can use this option with First and Forth and Fifth OSDS scenario.
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# Device discovery is based on the Ansible fact 'ansible_devices'
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# which reports all the devices on a system. If chosen all the disks
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# found will be passed to ceph-disk. You should not be worried on using
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# this option since ceph-disk has a built-in check which looks for empty devices.
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# Thus devices with existing partition tables will not be used.
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#
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#osd_auto_discovery: false
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# Encrypt your OSD device using dmcrypt
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# If set to True, no matter which osd_objecstore and osd_scenario you use the data will be encrypted
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#dmcrypt: "{{ True if dmcrypt_journal_collocation or dmcrypt_dedicated_journal else False }}" # backward compatibility with stable-2.2, will disappear in stable 3.1
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# I. First scenario: collocated
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#
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# To enable this scenario do: osd_scenario: collocated
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#
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#
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# If osd_objectstore: filestore is enabled both 'ceph data' and 'ceph journal' partitions
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# will be stored on the same device.
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#
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# If osd_objectstore: bluestore is enabled 'ceph data', 'ceph block', 'ceph block.db', 'ceph block.wal' will be stored
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# on the same device. The device will get 2 partitions:
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# - One for 'data', called 'ceph data'
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# - One for 'ceph block', 'ceph block.db', 'ceph block.wal' called 'ceph block'
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#
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# Example of what you will get:
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# [root@ceph-osd0 ~]# blkid /dev/sda*
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# /dev/sda: PTTYPE="gpt"
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# /dev/sda1: UUID="9c43e346-dd6e-431f-92d8-cbed4ccb25f6" TYPE="xfs" PARTLABEL="ceph data" PARTUUID="749c71c9-ed8f-4930-82a7-a48a3bcdb1c7"
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# /dev/sda2: PARTLABEL="ceph block" PARTUUID="e6ca3e1d-4702-4569-abfa-e285de328e9d"
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#
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# Note: This scenario uses the ceph-disk tool to provision OSDs
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#osd_scenario: "{{ 'collocated' if journal_collocation or dmcrypt_journal_collocation else 'non-collocated' if raw_multi_journal or dmcrypt_dedicated_journal else 'dummy' }}" # backward compatibility with stable-2.2, will disappear in stable 3.1
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#valid_osd_scenarios:
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# - collocated
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# - non-collocated
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# - lvm
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# II. Second scenario: non-collocated
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#
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# To enable this scenario do: osd_scenario: non-collocated
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#
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# If osd_objectstore: filestore is enabled 'ceph data' and 'ceph journal' partitions
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# will be stored on different devices:
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# - 'ceph data' will be stored on the device listed in 'devices'
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# - 'ceph journal' will be stored on the device listed in 'dedicated_devices'
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#
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# Let's take an example, imagine 'devices' was declared like this:
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#
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# devices:
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# - /dev/sda
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# - /dev/sdb
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# - /dev/sdc
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# - /dev/sdd
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#
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# And 'dedicated_devices' was declared like this:
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#
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# dedicated_devices:
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# - /dev/sdf
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# - /dev/sdf
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# - /dev/sdg
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# - /dev/sdg
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#
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# This will result in the following mapping:
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# - /dev/sda will have /dev/sdf1 as a journal
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# - /dev/sdb will have /dev/sdf2 as a journal
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# - /dev/sdc will have /dev/sdg1 as a journal
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# - /dev/sdd will have /dev/sdg2 as a journal
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#
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#
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# If osd_objectstore: bluestore is enabled, both 'ceph block.db' and 'ceph block.wal' partitions will be stored
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# on a dedicated device.
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#
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# So the following will happen:
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# - The devices listed in 'devices' will get 2 partitions, one for 'block' and one for 'data'.
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# 'data' is only 100MB big and do not store any of your data, it's just a bunch of Ceph metadata.
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# 'block' will store all your actual data.
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# - The devices in 'dedicated_devices' will get 1 partition for RocksDB DB, called 'block.db'
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# and one for RocksDB WAL, called 'block.wal'
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#
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# By default dedicated_devices will represent block.db
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#
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# Example of what you will get:
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# [root@ceph-osd0 ~]# blkid /dev/sd*
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# /dev/sda: PTTYPE="gpt"
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# /dev/sda1: UUID="c6821801-2f21-4980-add0-b7fc8bd424d5" TYPE="xfs" PARTLABEL="ceph data" PARTUUID="f2cc6fa8-5b41-4428-8d3f-6187453464d0"
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# /dev/sda2: PARTLABEL="ceph block" PARTUUID="ea454807-983a-4cf2-899e-b2680643bc1c"
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# /dev/sdb: PTTYPE="gpt"
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# /dev/sdb1: PARTLABEL="ceph block.db" PARTUUID="af5b2d74-4c08-42cf-be57-7248c739e217"
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# /dev/sdb2: PARTLABEL="ceph block.wal" PARTUUID="af3f8327-9aa9-4c2b-a497-cf0fe96d126a"
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#
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# Note: This scenario uses the ceph-disk tool to provision OSDs
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#dedicated_devices: "{{ raw_journal_devices if raw_multi_journal or dmcrypt_dedicated_journal else [] }}" # backward compatibility with stable-2.2, will disappear in stable 3.1
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# More device granularity for Bluestore
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#
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# ONLY if osd_objectstore: bluestore is enabled.
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#
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# By default, if 'bluestore_wal_devices' is empty, it will get the content of 'dedicated_devices'.
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# If set, then you will have a dedicated partition on a specific device for block.wal.
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#
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# Example of what you will get:
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# [root@ceph-osd0 ~]# blkid /dev/sd*
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# /dev/sda: PTTYPE="gpt"
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# /dev/sda1: UUID="39241ae9-d119-4335-96b3-0898da8f45ce" TYPE="xfs" PARTLABEL="ceph data" PARTUUID="961e7313-bdb7-49e7-9ae7-077d65c4c669"
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# /dev/sda2: PARTLABEL="ceph block" PARTUUID="bff8e54e-b780-4ece-aa16-3b2f2b8eb699"
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# /dev/sdb: PTTYPE="gpt"
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# /dev/sdb1: PARTLABEL="ceph block.db" PARTUUID="0734f6b6-cc94-49e9-93de-ba7e1d5b79e3"
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# /dev/sdc: PTTYPE="gpt"
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# /dev/sdc1: PARTLABEL="ceph block.wal" PARTUUID="824b84ba-6777-4272-bbbd-bfe2a25cecf3"
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# Note: This option uses the ceph-disk tool
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#bluestore_wal_devices: "{{ dedicated_devices }}"
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# III. Use ceph-volume to create OSDs from logical volumes.
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# Use 'osd_scenario: lvm' to enable this scenario.
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# when using lvm, not collocated journals.
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# lvm_volumes is a list of dictionaries.
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#
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# Filestore: Each dictionary must contain a data, journal and vg_name key. Any
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# logical volume or logical group used must be a name and not a path. data
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# can be a logical volume, device or partition. journal can be either a lv or partition.
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# You can not use the same journal for many data lvs.
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# data_vg must be the volume group name of the data lv, only applicable when data is an lv.
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# journal_vg is optional and must be the volume group name of the journal lv, if applicable.
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# For example:
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# lvm_volumes:
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# - data: data-lv1
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# data_vg: vg1
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# journal: journal-lv1
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# journal_vg: vg2
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# crush_device_class: foo
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# - data: data-lv2
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# journal: /dev/sda1
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# data_vg: vg1
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# - data: data-lv3
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# journal: /dev/sdb1
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# data_vg: vg2
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# - data: /dev/sda
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# journal: /dev/sdb1
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# - data: /dev/sda1
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# journal: /dev/sdb1
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#
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# Bluestore: Each dictionary must contain at least data. When defining wal or
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# db, it must have both the lv name and vg group (db and wal are not required).
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# This allows for four combinations: just data, data and wal, data and wal and
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# db, data and db.
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# For example:
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# lvm_volumes:
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# - data: data-lv1
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# data_vg: vg1
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# wal: wal-lv1
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# wal_vg: vg1
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# crush_device_class: foo
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# - data: data-lv2
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# db: db-lv2
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# db_vg: vg2
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# - data: data-lv3
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# wal: wal-lv1
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# wal_vg: vg3
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# db: db-lv3
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# db_vg: vg3
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# - data: data-lv4
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# data_vg: vg4
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# - data: /dev/sda
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# - data: /dev/sdb1
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#lvm_volumes: []
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##########
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# DOCKER #
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##########
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#ceph_config_keys: [] # DON'T TOUCH ME
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# Resource limitation
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# For the whole list of limits you can apply see: docs.docker.com/engine/admin/resource_constraints
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# 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
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# These options can be passed using the 'ceph_osd_docker_extra_env' variable.
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#ceph_osd_docker_memory_limit: 3g
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#ceph_osd_docker_cpu_limit: 1
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# The next two variables are undefined, and thus, unused by default.
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# If `lscpu | grep NUMA` returned the following:
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# NUMA node0 CPU(s): 0,2,4,6,8,10,12,14,16
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# NUMA node1 CPU(s): 1,3,5,7,9,11,13,15,17
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# then, the following would run the OSD on the first NUMA node only.
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#ceph_osd_docker_cpuset_cpus: "0,2,4,6,8,10,12,14,16"
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#ceph_osd_docker_cpuset_mems: "0"
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# PREPARE DEVICE
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#
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# WARNING /!\ DMCRYPT scenario ONLY works with Docker version 1.12.5 and above
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#
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#ceph_osd_docker_devices: "{{ devices }}"
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#ceph_osd_docker_prepare_env: -e OSD_JOURNAL_SIZE={{ journal_size }}
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# ACTIVATE DEVICE
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#
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#ceph_osd_docker_extra_env:
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#ceph_osd_docker_run_script_path: "/usr/share" # script called by systemd to run the docker command
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###########
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# SYSTEMD #
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###########
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# ceph_osd_systemd_overrides will override the systemd settings
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# for the ceph-osd services.
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# For example,to set "PrivateDevices=false" you can specify:
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#ceph_osd_systemd_overrides:
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# Service:
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# PrivateDevices: False
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