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ee8887f4c0
Signed-off-by: Jan Fajerski <jfajerski@suse.com> Fixes: https://tracker.ceph.com/issues/45094
324 lines
12 KiB
ReStructuredText
324 lines
12 KiB
ReStructuredText
.. _ceph-volume-lvm-prepare:
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``prepare``
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===========
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This subcommand allows a :term:`filestore` or :term:`bluestore` setup. It is
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recommended to pre-provision a logical volume before using it with
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``ceph-volume lvm``.
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Logical volumes are not altered except for adding extra metadata.
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.. note:: This is part of a two step process to deploy an OSD. If looking for
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a single-call way, please see :ref:`ceph-volume-lvm-create`
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To help identify volumes, the process of preparing a volume (or volumes) to
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work with Ceph, the tool will assign a few pieces of metadata information using
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:term:`LVM tags`.
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:term:`LVM tags` makes volumes easy to discover later, and help identify them as
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part of a Ceph system, and what role they have (journal, filestore, bluestore,
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etc...)
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Although :term:`bluestore` is the default, the back end can be specified with:
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* :ref:`--filestore <ceph-volume-lvm-prepare_filestore>`
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* :ref:`--bluestore <ceph-volume-lvm-prepare_bluestore>`
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.. _ceph-volume-lvm-prepare_bluestore:
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``bluestore``
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-------------
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The :term:`bluestore` objectstore is the default for new OSDs. It offers a bit
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more flexibility for devices compared to :term:`filestore`.
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Bluestore supports the following configurations:
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* A block device, a block.wal, and a block.db device
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* A block device and a block.wal device
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* A block device and a block.db device
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* A single block device
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The bluestore subcommand accepts physical block devices, partitions on
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physical block devices or logical volumes as arguments for the various device parameters
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If a physical device is provided, a logical volume will be created. A volume group will
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either be created or reused it its name begins with ``ceph``.
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This allows a simpler approach at using LVM but at the cost of flexibility:
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there are no options or configurations to change how the LV is created.
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The ``block`` is specified with the ``--data`` flag, and in its simplest use
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case it looks like::
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ceph-volume lvm prepare --bluestore --data vg/lv
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A raw device can be specified in the same way::
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ceph-volume lvm prepare --bluestore --data /path/to/device
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For enabling :ref:`encryption <ceph-volume-lvm-encryption>`, the ``--dmcrypt`` flag is required::
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ceph-volume lvm prepare --bluestore --dmcrypt --data vg/lv
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If a ``block.db`` or a ``block.wal`` is needed (they are optional for
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bluestore) they can be specified with ``--block.db`` and ``--block.wal``
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accordingly. These can be a physical device, a partition or
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a logical volume.
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For both ``block.db`` and ``block.wal`` partitions aren't made logical volumes
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because they can be used as-is.
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While creating the OSD directory, the process will use a ``tmpfs`` mount to
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place all the files needed for the OSD. These files are initially created by
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``ceph-osd --mkfs`` and are fully ephemeral.
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A symlink is always created for the ``block`` device, and optionally for
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``block.db`` and ``block.wal``. For a cluster with a default name, and an OSD
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id of 0, the directory could look like::
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# ls -l /var/lib/ceph/osd/ceph-0
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lrwxrwxrwx. 1 ceph ceph 93 Oct 20 13:05 block -> /dev/ceph-be2b6fbd-bcf2-4c51-b35d-a35a162a02f0/osd-block-25cf0a05-2bc6-44ef-9137-79d65bd7ad62
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lrwxrwxrwx. 1 ceph ceph 93 Oct 20 13:05 block.db -> /dev/sda1
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lrwxrwxrwx. 1 ceph ceph 93 Oct 20 13:05 block.wal -> /dev/ceph/osd-wal-0
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-rw-------. 1 ceph ceph 37 Oct 20 13:05 ceph_fsid
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-rw-------. 1 ceph ceph 37 Oct 20 13:05 fsid
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-rw-------. 1 ceph ceph 55 Oct 20 13:05 keyring
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-rw-------. 1 ceph ceph 6 Oct 20 13:05 ready
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-rw-------. 1 ceph ceph 10 Oct 20 13:05 type
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-rw-------. 1 ceph ceph 2 Oct 20 13:05 whoami
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In the above case, a device was used for ``block`` so ``ceph-volume`` create
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a volume group and a logical volume using the following convention:
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* volume group name: ``ceph-{cluster fsid}`` or if the vg exists already
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``ceph-{random uuid}``
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* logical volume name: ``osd-block-{osd_fsid}``
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.. _ceph-volume-lvm-prepare_filestore:
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``filestore``
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-------------
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This is the OSD backend that allows preparation of logical volumes for
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a :term:`filestore` objectstore OSD.
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It can use a logical volume for the OSD data and a physical device, a partition
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or logical volume for the journal. A physical device will have a logical volume
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created on it. A volume group will either be created or reused it its name begins
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with ``ceph``. No special preparation is needed for these volumes other than
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following the minimum size requirements for data and journal.
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The CLI call looks like this of a basic standalone filestore OSD::
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ceph-volume lvm prepare --filestore --data <data block device>
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To deploy file store with an external journal::
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ceph-volume lvm prepare --filestore --data <data block device> --journal <journal block device>
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For enabling :ref:`encryption <ceph-volume-lvm-encryption>`, the ``--dmcrypt`` flag is required::
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ceph-volume lvm prepare --filestore --dmcrypt --data <data block device> --journal <journal block device>
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Both the journal and data block device can take three forms:
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* a physical block device
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* a partition on a physical block device
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* a logical volume
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When using logical volumes the value *must* be of the format
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``volume_group/logical_volume``. Since logical volume names
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are not enforced for uniqueness, this prevents accidentally
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choosing the wrong volume.
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When using a partition, it *must* contain a ``PARTUUID``, that can be
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discovered by ``blkid``. THis ensure it can later be identified correctly
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regardless of the device name (or path).
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For example: passing a logical volume for data and a partition ``/dev/sdc1`` for
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the journal::
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ceph-volume lvm prepare --filestore --data volume_group/lv_name --journal /dev/sdc1
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Passing a bare device for data and a logical volume ias the journal::
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ceph-volume lvm prepare --filestore --data /dev/sdc --journal volume_group/journal_lv
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A generated uuid is used to ask the cluster for a new OSD. These two pieces are
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crucial for identifying an OSD and will later be used throughout the
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:ref:`ceph-volume-lvm-activate` process.
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The OSD data directory is created using the following convention::
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/var/lib/ceph/osd/<cluster name>-<osd id>
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At this point the data volume is mounted at this location, and the journal
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volume is linked::
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ln -s /path/to/journal /var/lib/ceph/osd/<cluster_name>-<osd-id>/journal
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The monmap is fetched using the bootstrap key from the OSD::
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/usr/bin/ceph --cluster ceph --name client.bootstrap-osd
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--keyring /var/lib/ceph/bootstrap-osd/ceph.keyring
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mon getmap -o /var/lib/ceph/osd/<cluster name>-<osd id>/activate.monmap
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``ceph-osd`` will be called to populate the OSD directory, that is already
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mounted, re-using all the pieces of information from the initial steps::
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ceph-osd --cluster ceph --mkfs --mkkey -i <osd id> \
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--monmap /var/lib/ceph/osd/<cluster name>-<osd id>/activate.monmap --osd-data \
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/var/lib/ceph/osd/<cluster name>-<osd id> --osd-journal /var/lib/ceph/osd/<cluster name>-<osd id>/journal \
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--osd-uuid <osd uuid> --keyring /var/lib/ceph/osd/<cluster name>-<osd id>/keyring \
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--setuser ceph --setgroup ceph
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.. _ceph-volume-lvm-partitions:
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Partitioning
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------------
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``ceph-volume lvm`` does not currently create partitions from a whole device.
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If using device partitions the only requirement is that they contain the
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``PARTUUID`` and that it is discoverable by ``blkid``. Both ``fdisk`` and
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``parted`` will create that automatically for a new partition.
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For example, using a new, unformatted drive (``/dev/sdd`` in this case) we can
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use ``parted`` to create a new partition. First we list the device
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information::
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$ parted --script /dev/sdd print
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Model: VBOX HARDDISK (scsi)
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Disk /dev/sdd: 11.5GB
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Sector size (logical/physical): 512B/512B
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Disk Flags:
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This device is not even labeled yet, so we can use ``parted`` to create
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a ``gpt`` label before we create a partition, and verify again with ``parted
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print``::
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$ parted --script /dev/sdd mklabel gpt
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$ parted --script /dev/sdd print
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Model: VBOX HARDDISK (scsi)
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Disk /dev/sdd: 11.5GB
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Sector size (logical/physical): 512B/512B
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Partition Table: gpt
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Disk Flags:
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Now lets create a single partition, and verify later if ``blkid`` can find
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a ``PARTUUID`` that is needed by ``ceph-volume``::
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$ parted --script /dev/sdd mkpart primary 1 100%
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$ blkid /dev/sdd1
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/dev/sdd1: PARTLABEL="primary" PARTUUID="16399d72-1e1f-467d-96ee-6fe371a7d0d4"
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.. _ceph-volume-lvm-existing-osds:
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Existing OSDs
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-------------
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For existing clusters that want to use this new system and have OSDs that are
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already running there are a few things to take into account:
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.. warning:: this process will forcefully format the data device, destroying
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existing data, if any.
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* OSD paths should follow this convention::
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/var/lib/ceph/osd/<cluster name>-<osd id>
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* Preferably, no other mechanisms to mount the volume should exist, and should
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be removed (like fstab mount points)
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The one time process for an existing OSD, with an ID of 0 and using
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a ``"ceph"`` cluster name would look like (the following command will **destroy
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any data** in the OSD)::
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ceph-volume lvm prepare --filestore --osd-id 0 --osd-fsid E3D291C1-E7BF-4984-9794-B60D9FA139CB
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The command line tool will not contact the monitor to generate an OSD ID and
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will format the LVM device in addition to storing the metadata on it so that it
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can be started later (for detailed metadata description see
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:ref:`ceph-volume-lvm-tags`).
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Crush device class
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------------------
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To set the crush device class for the OSD, use the ``--crush-device-class`` flag. This will
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work for both bluestore and filestore OSDs::
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ceph-volume lvm prepare --bluestore --data vg/lv --crush-device-class foo
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.. _ceph-volume-lvm-multipath:
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``multipath`` support
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---------------------
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``multipath`` devices are support if ``lvm`` is configured properly.
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**Leave it to LVM**
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Most Linux distributions should ship their LVM2 package with
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``multipath_component_detection = 1`` in the default configuration. With this
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setting ``LVM`` ignores any device that is a multipath component and
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``ceph-volume`` will accordingly not touch these devices.
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**Using filters**
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Should this setting be unavailable, a correct ``filter`` expression must be
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provided in ``lvm.conf``. ``ceph-volume`` must not be able to use both the
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multipath device and its multipath components.
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Storing metadata
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----------------
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The following tags will get applied as part of the preparation process
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regardless of the type of volume (journal or data) or OSD objectstore:
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* ``cluster_fsid``
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* ``encrypted``
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* ``osd_fsid``
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* ``osd_id``
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* ``crush_device_class``
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For :term:`filestore` these tags will be added:
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* ``journal_device``
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* ``journal_uuid``
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For :term:`bluestore` these tags will be added:
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* ``block_device``
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* ``block_uuid``
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* ``db_device``
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* ``db_uuid``
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* ``wal_device``
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* ``wal_uuid``
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.. note:: For the complete lvm tag conventions see :ref:`ceph-volume-lvm-tag-api`
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Summary
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-------
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To recap the ``prepare`` process for :term:`bluestore`:
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#. Accepts raw physical devices, partitions on physical devices or logical volumes as arguments.
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#. Creates logical volumes on any raw physical devices.
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#. Generate a UUID for the OSD
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#. Ask the monitor get an OSD ID reusing the generated UUID
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#. OSD data directory is created on a tmpfs mount.
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#. ``block``, ``block.wal``, and ``block.db`` are symlinked if defined.
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#. monmap is fetched for activation
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#. Data directory is populated by ``ceph-osd``
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#. Logical Volumes are assigned all the Ceph metadata using lvm tags
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And the ``prepare`` process for :term:`filestore`:
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#. Accepts raw physical devices, partitions on physical devices or logical volumes as arguments.
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#. Generate a UUID for the OSD
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#. Ask the monitor get an OSD ID reusing the generated UUID
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#. OSD data directory is created and data volume mounted
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#. Journal is symlinked from data volume to journal location
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#. monmap is fetched for activation
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#. devices is mounted and data directory is populated by ``ceph-osd``
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#. data and journal volumes are assigned all the Ceph metadata using lvm tags
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