Pool Placement and Storage Classes 

Contents

Pool Placement and Storage Classes

Placement Targets 

New in version Jewel.

Placement targets control which Pools are associated with a particular bucket. A bucket’s placement target is selected on creation, and cannot be modified. The radosgw-admin bucket stats command will display its placement_rule.

The zonegroup configuration contains a list of placement targets with an initial target named default-placement. The zone configuration then maps each zonegroup placement target name onto its local storage. This zone placement information includes the index_pool name for the bucket index, the data_extra_pool name for metadata about incomplete multipart uploads, and a data_pool name for each storage class.

Storage Classes 

New in version Nautilus.

Storage classes are used to customize the placement of object data. S3 Bucket Lifecycle rules can automate the transition of objects between storage classes.

Storage classes are defined in terms of placement targets. Each zonegroup placement target lists its available storage classes with an initial class named STANDARD. The zone configuration is responsible for providing a data_pool pool name for each of the zonegroup’s storage classes.

Zonegroup/Zone Configuration 

Placement configuration is performed with radosgw-admin commands on the zonegroups and zones.

The zonegroup placement configuration can be queried with:

$ radosgw-admin zonegroup get
{
    "id": "ab01123f-e0df-4f29-9d71-b44888d67cd5",
    "name": "default",
    "api_name": "default",
    ...
    "placement_targets": [
        {
            "name": "default-placement",
            "tags": [],
            "storage_classes": [
                "STANDARD"
            ]
        }
    ],
    "default_placement": "default-placement",
    ...
}

The zone placement configuration can be queried with:

$ radosgw-admin zone get
{
    "id": "557cdcee-3aae-4e9e-85c7-2f86f5eddb1f",
    "name": "default",
    "domain_root": "default.rgw.meta:root",
    ...
    "placement_pools": [
        {
            "key": "default-placement",
            "val": {
                "index_pool": "default.rgw.buckets.index",
                "storage_classes": {
                    "STANDARD": {
                        "data_pool": "default.rgw.buckets.data"
                    }
                },
                "data_extra_pool": "default.rgw.buckets.non-ec",
                "index_type": 0,
                "inline_data": true
            }
        }
    ],
    ...
}

Note

If you have not done any previous Multisite Configuration, a default zone and zonegroup are created for you, and changes to the zone/zonegroup will not take effect until the Ceph Object Gateways are restarted. If you have created a realm for multisite, the zone/zonegroup changes will take effect once the changes are committed with radosgw-admin period update --commit.

Adding a Placement Target 

To create a new placement target named temporary, start by adding it to the zonegroup:

$ radosgw-admin zonegroup placement add \
      --rgw-zonegroup default \
      --placement-id temporary

Then provide the zone placement info for that target:

$ radosgw-admin zone placement add \
      --rgw-zone default \
      --placement-id temporary \
      --data-pool default.rgw.temporary.data \
      --index-pool default.rgw.temporary.index \
      --data-extra-pool default.rgw.temporary.non-ec

Note

With default placement target settings, RGW stores an object’s first data chunk in the RADOS “head” object along with xattr metadata. The –placement-inline-data=false flag may be passed with the zone placement add or zone placement modify commands to change this behavior for new objects stored on the target. When data is stored inline (default), it may provide an advantage for read/write workloads since the first chunk of an object’s data can be retrieved/stored in a single librados call along with object metadata. On the other hand, a target that does not store data inline can provide a performance benefit for RGW client delete requests when the BlueStore DB is located on faster storage than bucket data since it eliminates the need to access slower devices synchronously while processing the client request. In that case, data associated with the deleted objects is removed asynchronously in the background by garbage collection.

Adding a Storage Class 

To add a new storage class named GLACIER to the default-placement target, start by adding it to the zonegroup:

$ radosgw-admin zonegroup placement add \
      --rgw-zonegroup default \
      --placement-id default-placement \
      --storage-class GLACIER

Then provide the zone placement info for that storage class:

$ radosgw-admin zone placement add \
      --rgw-zone default \
      --placement-id default-placement \
      --storage-class GLACIER \
      --data-pool default.rgw.glacier.data \
      --compression lz4

Customizing Placement 

Default Placement 

By default, new buckets will use the zonegroup’s default_placement target. This zonegroup setting can be changed with:

$ radosgw-admin zonegroup placement default \
      --rgw-zonegroup default \
      --placement-id new-placement

User Placement 

A Ceph Object Gateway user can override the zonegroup’s default placement target by setting a non-empty default_placement field in the user info. Similarly, the default_storage_class can override the STANDARD storage class applied to objects by default.

$ radosgw-admin user info --uid testid
{
    ...
    "default_placement": "",
    "default_storage_class": "",
    "placement_tags": [],
    ...
}

If a zonegroup’s placement target contains any tags, users will be unable to create buckets with that placement target unless their user info contains at least one matching tag in its placement_tags field. This can be useful to restrict access to certain types of storage.

The radosgw-admin command can modify these fields directly with:

$ radosgw-admin user modify \
      --uid <user-id> \
      --placement-id <default-placement-id> \
      --storage-class <default-storage-class> \
      --tags <tag1,tag2>

S3 Bucket Placement 

When creating a bucket with the S3 protocol, a placement target can be provided as part of the LocationConstraint to override the default placement targets from the user and zonegroup.

Normally, the LocationConstraint must match the zonegroup’s api_name:

<LocationConstraint>default</LocationConstraint>

A custom placement target can be added to the api_name following a colon:

<LocationConstraint>default:new-placement</LocationConstraint>

Swift Bucket Placement 

When creating a bucket with the Swift protocol, a placement target can be provided in the HTTP header X-Storage-Policy:

X-Storage-Policy: new-placement

Using Storage Classes 

All placement targets have a STANDARD storage class which is applied to new objects by default. The user can override this default with its default_storage_class.

To create an object in a non-default storage class, provide that storage class name in an HTTP header with the request. The S3 protocol uses the X-Amz-Storage-Class header, while the Swift protocol uses the X-Object-Storage-Class header.

When using AWS S3 SDKs such as boto3, it is important that non-default storage class names match those provided by AWS S3, or else the SDK will drop the request and raise an exception.

S3 Object Lifecycle Management can then be used to move object data between storage classes using Transition actions.