In general SSDs will provide more IOPs than spinning disks. This fact and the
higher cost may make a xref:pve_ceph_device_classes[class based] separation of
pools appealing. Another possibility to speedup OSDs is to use a faster disk
-as journal or DB/WAL device, see xref:pve_ceph_osds[creating Ceph OSDs]. If a
-faster disk is used for multiple OSDs, a proper balance between OSD and WAL /
-DB (or journal) disk must be selected, otherwise the faster disk becomes the
-bottleneck for all linked OSDs.
+as journal or DB/**W**rite-**A**head-**L**og device, see
+xref:pve_ceph_osds[creating Ceph OSDs]. If a faster disk is used for multiple
+OSDs, a proper balance between OSD and WAL / DB (or journal) disk must be
+selected, otherwise the faster disk becomes the bottleneck for all linked OSDs.
Aside from the disk type, Ceph best performs with an even sized and distributed
amount of disks per node. For example, 4 x 500 GB disks with in each node is
footnote:[Ceph Monitor http://docs.ceph.com/docs/luminous/start/intro/]
maintains a master copy of the cluster map. For high availability you need to
have at least 3 monitors. One monitor will already be installed if you
-used the installation wizard. You wont need more than 3 monitors as long
+used the installation wizard. You won't need more than 3 monitors as long
as your cluster is small to midsize, only really large clusters will
need more than that.
pveceph createosd /dev/sd[X]
----
-Block.db and block.wal
-^^^^^^^^^^^^^^^^^^^^^^
+.Block.db and block.wal
If you want to use a separate DB/WAL device for your OSDs, you can specify it
through the '-db_dev' and '-wal_dev' options. The WAL is placed with the DB, if not
paremeters respectively. If they are not given the following values (in order)
will be used:
-* bluestore_block_{db,wal}_size in ceph config database section 'osd'
-* bluestore_block_{db,wal}_size in ceph config database section 'global'
-* bluestore_block_{db,wal}_size in ceph config section 'osd'
-* bluestore_block_{db,wal}_size in ceph config section 'global'
+* bluestore_block_{db,wal}_size from ceph configuration...
+** ... database, section 'osd'
+** ... database, section 'global'
+** ... file, section 'osd'
+** ... file, section 'global'
* 10% (DB)/1% (WAL) of OSD size
NOTE: The DB stores BlueStore’s internal metadata and the WAL is BlueStore’s
Ceph Filestore
~~~~~~~~~~~~~~
-Until Ceph Luminous, Filestore was used as storage type for Ceph OSDs. It can
-still be used and might give better performance in small setups, when backed by
-an NVMe SSD or similar.
-
+Before Ceph Luminous, Filestore was used as default storage type for Ceph OSDs.
Starting with Ceph Nautilus, {pve} does not support creating such OSDs with
-pveceph anymore. If you still want to create filestore OSDs, use 'ceph-volume'
-directly.
+'pveceph' anymore. If you still want to create filestore OSDs, use
+'ceph-volume' directly.
[source,bash]
----
pveceph createpool <name>
----
-If you would like to automatically get also a storage definition for your pool,
-active the checkbox "Add storages" on the GUI or use the command line option
-'--add_storages' on pool creation.
+If you would like to automatically also get a storage definition for your pool,
+mark the checkbox "Add storages" in the GUI or use the command line option
+'--add_storages' at pool creation.
Further information on Ceph pool handling can be found in the Ceph pool
operation footnote:[Ceph pool operation
Container images. Simply use the GUI too add a new `RBD` storage (see
section xref:ceph_rados_block_devices[Ceph RADOS Block Devices (RBD)]).
-You also need to copy the keyring to a predefined location for a external Ceph
+You also need to copy the keyring to a predefined location for an external Ceph
cluster. If Ceph is installed on the Proxmox nodes itself, then this will be
done automatically.
an issue with traditional shared filesystem approaches, like `NFS`, for
example.
+[thumbnail="screenshot/gui-node-ceph-cephfs-panel.png"]
+
{pve} supports both, using an existing xref:storage_cephfs[CephFS as storage]
to save backups, ISO files or container templates and creating a
hyper-converged CephFS itself.
`warm` state. But naturally, the active polling will cause some additional
performance impact on your system and active `MDS`.
-Multiple Active MDS
-^^^^^^^^^^^^^^^^^^^
+.Multiple Active MDS
Since Luminous (12.2.x) you can also have multiple active metadata servers
running, but this is normally only useful for a high count on parallel clients,
undone!
If you really want to destroy an existing CephFS you first need to stop, or
-destroy, all metadata server (`M̀DS`). You can destroy them either over the Web
+destroy, all metadata servers (`M̀DS`). You can destroy them either over the Web
GUI or the command line interface, with:
----
The following ceph commands below can be used to see if the cluster is healthy
('HEALTH_OK'), if there are warnings ('HEALTH_WARN'), or even errors
('HEALTH_ERR'). If the cluster is in an unhealthy state the status commands
-below will also give you an overview on the current events and actions take.
+below will also give you an overview of the current events and actions to take.
----
# single time output
You can find more information about troubleshooting
footnote:[Ceph troubleshooting http://docs.ceph.com/docs/luminous/rados/troubleshooting/]
-a Ceph cluster on its website.
+a Ceph cluster on the official website.
ifdef::manvolnum[]