OSD Service Specification

Service Specification of type osd are a way to describe a cluster layout using the properties of disks. It gives the user an abstract way tell ceph which disks should turn into an OSD with which configuration without knowing the specifics of device names and paths.

Instead of doing this

ceph orch daemon add osd *<host>*:*<path-to-device>*

for each device and each host, we can define a yaml|json file that allows us to describe the layout. Here’s the most basic example.

Create a file called i.e. osd_spec.yml

service_type: osd
service_id: default_drive_group  <- name of the drive_group (name can be custom)
placement:
  host_pattern: '*'              <- which hosts to target, currently only supports globs
data_devices:                    <- the type of devices you are applying specs to
  all: true                      <- a filter, check below for a full list

This would translate to:

Turn any available(ceph-volume decides what ‘available’ is) into an OSD on all hosts that match the glob pattern ‘*’. (The glob pattern matches against the registered hosts from host ls) There will be a more detailed section on host_pattern down below.

and pass it to osd create like so

ceph orch apply osd -i /path/to/osd_spec.yml

This will go out on all the matching hosts and deploy these OSDs.

Since we want to have more complex setups, there are more filters than just the ‘all’ filter.

Also, there is a –dry-run flag that can be passed to the apply osd command, which gives you a synopsis of the proposed layout.

Example

[monitor.1]# ceph orch apply osd -i /path/to/osd_spec.yml --dry-run

Filters

Note

Filters are applied using a AND gate by default. This essentially means that a drive needs to fulfill all filter criteria in order to get selected. If you wish to change this behavior you can adjust this behavior by setting

filter_logic: OR # valid arguments are AND, OR

in the OSD Specification.

You can assign disks to certain groups by their attributes using filters.

The attributes are based off of ceph-volume’s disk query. You can retrieve the information with

ceph-volume inventory </path/to/disk>

Vendor or Model:

You can target specific disks by their Vendor or by their Model

model: disk_model_name

or

vendor: disk_vendor_name

Size:

You can also match by disk Size.

size: size_spec

Size specs:

Size specification of format can be of form:

  • LOW:HIGH

  • :HIGH

  • LOW:

  • EXACT

Concrete examples:

Includes disks of an exact size

size: '10G'

Includes disks which size is within the range

size: '10G:40G'

Includes disks less than or equal to 10G in size

size: ':10G'

Includes disks equal to or greater than 40G in size

size: '40G:'

Sizes don’t have to be exclusively in Gigabyte(G).

Supported units are Megabyte(M), Gigabyte(G) and Terrabyte(T). Also appending the (B) for byte is supported. MB, GB, TB

Rotational:

This operates on the ‘rotational’ attribute of the disk.

rotational: 0 | 1

1 to match all disks that are rotational

0 to match all disks that are non-rotational (SSD, NVME etc)

All:

This will take all disks that are ‘available’

Note: This is exclusive for the data_devices section.

all: true

Limiter:

When you specified valid filters but want to limit the amount of matching disks you can use the ‘limit’ directive.

limit: 2

For example, if you used vendor to match all disks that are from VendorA but only want to use the first two you could use limit.

data_devices:
  vendor: VendorA
  limit: 2

Note: Be aware that limit is really just a last resort and shouldn’t be used if it can be avoided.

Additional Options

There are multiple optional settings you can use to change the way OSDs are deployed. You can add these options to the base level of a DriveGroup for it to take effect.

This example would deploy all OSDs with encryption enabled.

service_type: osd
service_id: example_osd_spec
placement:
  host_pattern: '*'
data_devices:
  all: true
encrypted: true

See a full list in the DriveGroupSpecs

Examples

The simple case

All nodes with the same setup

20 HDDs
Vendor: VendorA
Model: HDD-123-foo
Size: 4TB

2 SSDs
Vendor: VendorB
Model: MC-55-44-ZX
Size: 512GB

This is a common setup and can be described quite easily:

service_type: osd
service_id: osd_spec_default
placement:
  host_pattern: '*'
data_devices:
  model: HDD-123-foo <- note that HDD-123 would also be valid
db_devices:
  model: MC-55-44-XZ <- same here, MC-55-44 is valid

However, we can improve it by reducing the filters on core properties of the drives:

service_type: osd
service_id: osd_spec_default
placement:
  host_pattern: '*'
data_devices:
  rotational: 1
db_devices:
  rotational: 0

Now, we enforce all rotating devices to be declared as ‘data devices’ and all non-rotating devices will be used as shared_devices (wal, db)

If you know that drives with more than 2TB will always be the slower data devices, you can also filter by size:

service_type: osd
service_id: osd_spec_default
placement:
  host_pattern: '*'
data_devices:
  size: '2TB:'
db_devices:
  size: ':2TB'

Note: All of the above DriveGroups are equally valid. Which of those you want to use depends on taste and on how much you expect your node layout to change.

The advanced case

Here we have two distinct setups

20 HDDs
Vendor: VendorA
Model: HDD-123-foo
Size: 4TB

12 SSDs
Vendor: VendorB
Model: MC-55-44-ZX
Size: 512GB

2 NVMEs
Vendor: VendorC
Model: NVME-QQQQ-987
Size: 256GB
  • 20 HDDs should share 2 SSDs

  • 10 SSDs should share 2 NVMes

This can be described with two layouts.

service_type: osd
service_id: osd_spec_hdd
placement:
  host_pattern: '*'
data_devices:
  rotational: 0
db_devices:
  model: MC-55-44-XZ
  limit: 2 (db_slots is actually to be favoured here, but it's not implemented yet)
---
service_type: osd
service_id: osd_spec_ssd
placement:
  host_pattern: '*'
data_devices:
  model: MC-55-44-XZ
db_devices:
  vendor: VendorC

This would create the desired layout by using all HDDs as data_devices with two SSD assigned as dedicated db/wal devices. The remaining SSDs(8) will be data_devices that have the ‘VendorC’ NVMEs assigned as dedicated db/wal devices.

The advanced case (with non-uniform nodes)

The examples above assumed that all nodes have the same drives. That’s however not always the case.

Node1-5

20 HDDs
Vendor: Intel
Model: SSD-123-foo
Size: 4TB
2 SSDs
Vendor: VendorA
Model: MC-55-44-ZX
Size: 512GB

Node6-10

5 NVMEs
Vendor: Intel
Model: SSD-123-foo
Size: 4TB
20 SSDs
Vendor: VendorA
Model: MC-55-44-ZX
Size: 512GB

You can use the ‘host_pattern’ key in the layout to target certain nodes. Salt target notation helps to keep things easy.

service_type: osd
service_id: osd_spec_node_one_to_five
placement:
  host_pattern: 'node[1-5]'
data_devices:
  rotational: 1
db_devices:
  rotational: 0
---
service_type: osd
service_id: osd_spec_six_to_ten
placement:
  host_pattern: 'node[6-10]'
data_devices:
  model: MC-55-44-XZ
db_devices:
  model: SSD-123-foo

This applies different OSD specs to different hosts depending on the host_pattern key.

Dedicated wal + db

All previous cases co-located the WALs with the DBs. It’s however possible to deploy the WAL on a dedicated device as well, if it makes sense.

20 HDDs
Vendor: VendorA
Model: SSD-123-foo
Size: 4TB

2 SSDs
Vendor: VendorB
Model: MC-55-44-ZX
Size: 512GB

2 NVMEs
Vendor: VendorC
Model: NVME-QQQQ-987
Size: 256GB

The OSD spec for this case would look like the following (using the model filter):

service_type: osd
service_id: osd_spec_default
placement:
  host_pattern: '*'
data_devices:
  model: MC-55-44-XZ
db_devices:
  model: SSD-123-foo
wal_devices:
  model: NVME-QQQQ-987

It is also possible to specify directly device paths in specific hosts like the following:

service_type: osd
service_id: osd_using_paths
placement:
  hosts:
    - Node01
    - Node02
data_devices:
  paths:
    - /dev/sdb
db_devices:
  paths:
    - /dev/sdc
wal_devices:
  paths:
    - /dev/sdd

This can easily be done with other filters, like size or vendor as well.