Ceph is a distributed storage and network file system designed to provide excellent performance, reliability, and scalability.
Ceph is a unified, distributed storage system designed for excellent performance, reliability, and scalability.
The ceph-fs charm deploys the metadata server daemon (MDS) for the Ceph distributed file system (CephFS). The deployment is done within the context of an existing Ceph cluster.
This section covers common and/or important configuration options. See file
config.yaml for the full list of options, along with their descriptions and
default values. A YAML file (e.g.
ceph-osd.yaml) is often used to store
configuration options. See the Juju documentation for
details on configuring applications.
pool-type option dictates the storage pool type. See section 'Ceph pool
type' for more information.
source option states the software sources. A common value is an OpenStack
UCA release (e.g. 'cloud:xenial-queens' or 'cloud:bionic-ussuri'). See Ceph
and the UCA. The underlying host's existing apt sources
will be used if this option is not specified (this behaviour can be explicitly
chosen by using the value of 'distro').
Ceph pool type
Ceph storage pools can be configured to ensure data resiliency either through
replication or by erasure coding. This charm supports both types via the
pool-type configuration option, which can take on the values of 'replicated'
and 'erasure-coded'. The default value is 'replicated'.
For this charm, the pool type will be associated with CephFS volumes.
Note: Erasure-coded pools are supported starting with Ceph Luminous.
Replicated pools use a simple replication strategy in which each written object is copied, in full, to multiple OSDs within the cluster.
ceph-osd-replication-count option sets the replica count for any object
stored within the 'ceph-fs-data' cephfs pool. Increasing this value increases
data resilience at the cost of consuming more real storage in the Ceph cluster.
The default value is '3'.
ceph-osd-replication-countoption must be set prior to adding the relation to the ceph-mon application. Otherwise, the pool's configuration will need to be set by interfacing with the cluster directly.
Erasure coded pools
Erasure coded pools use a technique that allows for the same resiliency as replicated pools, yet reduces the amount of space required. Written data is split into data chunks and error correction chunks, which are both distributed throughout the cluster.
Note: Erasure coded pools require more memory and CPU cycles than replicated pools do.
When using erasure coded pools for CephFS file systems two pools will be
created: a replicated pool (for storing MDS metadata) and an erasure coded pool
(for storing the data written into a CephFS volume). The
ceph-osd-replication-count configuration option only applies to the metadata
Erasure coded pools can be configured via options whose names begin with the
Important: It is strongly recommended to tailor the
ec-profile-moptions to the needs of the given environment. These latter options have default values of '1' and '2' respectively, which result in the same space requirements as those of a replicated pool.
Ceph BlueStore compression
This charm supports BlueStore inline compression
for its associated Ceph storage pool(s). The feature is enabled by assigning a
compression mode via the
bluestore-compression-mode configuration option. The
default behaviour is to disable compression.
The efficiency of compression depends heavily on what type of data is stored in the pool and the charm provides a set of configuration options to fine tune the compression behaviour.
Note: BlueStore compression is supported starting with Ceph Mimic.
To deploy a single MDS node within an existing Ceph cluster:
juju deploy ceph-fs juju add-relation ceph-fs:ceph-mds ceph-mon:mds
Highly available CephFS is achieved by deploying multiple MDS servers (i.e. multiple ceph-fs units).
This section lists Juju actions supported by the charm.
Actions allow specific operations to be performed on a per-unit basis. To
display action descriptions run
juju actions ceph-fs. If the charm is not
deployed then see file
Please report bugs on Launchpad.
For general charm questions refer to the OpenStack Charm Guide.
- (string) Compressor to use (if any) for pools requested by this charm. . NOTE: The ceph-osd charm sets a global default for this value (defaults to 'lz4' unless configured by the end user) which will be used unless specified for individual pools.
- (int) Chunks larger than this are broken into smaller blobs sizing bluestore compression max blob size before being compressed on pools requested by this charm.
- (int) Value of bluestore compression max blob size for rotational media on pools requested by this charm.
- (int) Value of bluestore compression max blob size for solid state media on pools requested by this charm.
- (int) Chunks smaller than this are never compressed on pools requested by this charm.
- (int) Value of bluestore compression min blob size for rotational media on pools requested by this charm.
- (int) Value of bluestore compression min blob size for solid state media on pools requested by this charm.
- (string) Policy for using compression on pools requested by this charm. . 'none' means never use compression. 'passive' means use compression when clients hint that data is compressible. 'aggressive' means use compression unless clients hint that data is not compressible. 'force' means use compression under all circumstances even if the clients hint that the data is not compressible.
- (float) The ratio of the size of the data chunk after compression relative to the original size must be at least this small in order to store the compressed version on pools requested by this charm.
- (int) This value dictates the number of replicas ceph must make of any object it stores within the images rbd pool. Of course, this only applies if using Ceph as a backend store. Note that once the images rbd pool has been created, changing this value will not have any effect (although it can be changed in ceph by manually configuring your ceph cluster).
- (int) Defines a relative weighting of the pool as a percentage of the total amount of data in the Ceph cluster. This effectively weights the number of placement groups for the pool created to be appropriately portioned to the amount of data expected. For example, if the compute images for the OpenStack compute instances are expected to take up 20% of the overall configuration then this value would be specified as 20. Note - it is important to choose an appropriate value for the pool weight as this directly affects the number of placement groups which will be created for the pool. The number of placement groups for a pool can only be increased, never decreased - so it is important to identify the percent of data that will likely reside in the pool.
- (string) The IP address and netmask of the public (front-side) network (e.g., 192.168.0.0/24). If multiple networks are to be used, a space-delimited list of a.b.c.d/x can be provided.
- (int) Defines a relative weighting of the EC pool as a percentage of the total amount of data in the Ceph cluster. This effectively weights the number of placement groups for the pool created to be appropriately portioned to the amount of data expected. For example, if the compute images for the OpenStack compute instances are expected to take up 20% of the overall configuration then this value would be specified as 20. Note - it is important to choose an appropriate value for the pool weight as this directly affects the number of placement groups which will be created for the pool. The number of placement groups for a pool can only be increased, never decreased - so it is important to identify the percent of data that will likely reside in the pool.
- (string) (lrc plugin) The type of the crush bucket in which each set of chunks defined by l will be stored. For instance, if it is set to rack, each group of l chunks will be placed in a different rack. It is used to create a CRUSH rule step such as step choose rack. If it is not set, no such grouping is done.
- (string) Device class from CRUSH map to use for placement groups for erasure profile - valid values: ssd, hdd or nvme (or leave unset to not use a device class).
- (int) (shec plugin - c) The number of parity chunks each of which includes each data chunk in its calculation range. The number is used as a durability estimator. For instance, if c=2, 2 OSDs can be down without losing data.
- (int) (clay plugin - d) Number of OSDs requested to send data during recovery of a single chunk. d needs to be chosen such that k+1 <= d <= k+m-1. Larger the d, the better the savings.
- (int) Number of data chunks that will be used for EC data pool. K+M factors should never be greater than the number of available zones (or hosts) for balancing.
- (int) (lrc plugin - l) Group the coding and data chunks into sets of size l. For instance, for k=4 and m=2, when l=3 two groups of three are created. Each set can be recovered without reading chunks from another set. Note that using the lrc plugin does incur more raw storage usage than isa or jerasure in order to reduce the cost of recovery operations.
- (int) Number of coding chunks that will be used for EC data pool. K+M factors should never be greater than the number of available zones (or hosts) for balancing.
- (string) Name for the EC profile to be created for the EC pools. If not defined a profile name will be generated based on the name of the pool used by the application.
- (string) EC plugin to use for this applications pool. The following list of plugins acceptable - jerasure, lrc, isa, shec, clay.
- (string) (clay plugin) specifies the plugin that is used as a building block in the layered construction. It can be one of jerasure, isa, shec (defaults to jerasure).
- (string) EC profile technique used for this applications pool - will be validated based on the plugin configured via ec-profile-plugin. Supported techniques are ‘reed_sol_van’, ‘reed_sol_r6_op’, ‘cauchy_orig’, ‘cauchy_good’, ‘liber8tion’ for jerasure, ‘reed_sol_van’, ‘cauchy’ for isa and ‘single’, ‘multiple’ for shec.
- (string) Key ID to import to the apt keyring to support use with arbitary source configuration from outside of Launchpad archives or PPA's.
- (int) Mon and OSD debug level. Max is 20.
- (string) Name of the metadata pool to be created/used. If not defined a metadata pool name will be generated based on the name of the application. The metadata pool is always replicated, not erasure coded.
- (string) Ceph pool type to use for storage - valid values include ‘replicated’ and ‘erasure-coded’. Note that if erasure-coded is enabled then data pools for both replicated and erasure-coded are created - use of the erasure-coded pool is controlled using xattrs on directories and files.
- (boolean) If True enables IPv6 support. The charm will expect network interfaces to be configured with an IPv6 address. If set to False (default) IPv4 is expected. NOTE: these charms do not currently support IPv6 privacy extension. In order for this charm to function correctly, the privacy extension must be disabled and a non-temporary address must be configured/available on your network interface.
- (string) Name of the data pool to be created/used. If not defined a data pool name will be generated based on the name of the application.
- (string) Optional configuration to support use of additional sources such as: . - ppa:myteam/ppa - cloud:bionic-ussuri - cloud:xenial-proposed/queens - http://my.archive.com/ubuntu main . The last option should be used in conjunction with the key configuration option.
- (boolean) If set to True, supporting services will log to syslog.