Cluster CRD

Rook allows creation and customization of storage clusters through the custom resource definitions (CRDs). The following settings are available for a cluster.

Settings

Settings can be specified at the global level to apply to the cluster as a whole, while other settings can be specified at more fine-grained levels. If any setting is unspecified, a suitable default will be used automatically.

Cluster metadata

• name: The name that will be used internally for the Ceph cluster. Most commonly the name is the same as the namespace since multiple clusters are not supported in the same namespace.
• namespace: The Kubernetes namespace that will be created for the Rook cluster. The services, pods, and other resources created by the operator will be added to this namespace. The common scenario is to create a single Rook cluster. If multiple clusters are created, they must not have conflicting devices or host paths.

Cluster settings

• dataDirHostPath: The path on the host (hostPath) where config and data should be stored for each of the services. If the directory does not exist, it will be created. Because this directory persists on the host, it will remain after pods are deleted.
  • On Minikube environments, use /data/rook. Minikube boots into a tmpfs but it provides some directories where files can be persisted across reboots. Using one of these directories will ensure that Rook’s data and configuration files are persisted and that enough storage space is available.
  • If a path is not specified, an empty dir will be used and the config will be lost when the pod or host is restarted. This option is not recommended.
  • WARNING: For test scenarios, if you delete a cluster and start a new cluster on the same hosts, the path used by dataDirHostPath must be deleted. Otherwise, stale keys and other config will remain from the previous cluster and the new mons will fail to start. If this value is empty, each pod will get an ephemeral directory to store their config files that is tied to the lifetime of the pod running on that node. More details can be found in the Kubernetes empty dir docs.
• hostNetwork: uses network of the hosts instead of using the SDN below the containers.
• monCount: set the number of mons to be started. The number should be odd and between 1 and 9. Default if not specified is 3. For more details on the mons and when to choose a number other than 3, see the mon health design doc.
• placement: placement configuration settings
• resources: resources configuration settings
• storage: Storage selection and configuration that will be used across the cluster. Note that these settings can be overridden for specific nodes.
  • useAllNodes: true or false, indicating if all nodes in the cluster should be used for storage according to the cluster level storage selection and configuration values. If individual nodes are specified under the nodes field below, then useAllNodes must be set to false.
  • nodes: Names of individual nodes in the cluster that should have their storage included in accordance with either the cluster level configuration specified above or any node specific overrides described in the next section below. useAllNodes must be set to false to use specific nodes and their config.
  • storage selection settings
  • storage configuration settings

Node updates

Nodes can be added and removed over time by updating the Cluster CRD, for example with kubectl -n rook edit cluster rook. This will bring up your default text editor and allow you to add and remove storage nodes from the cluster. This feature is only available when useAllNodes has been set to false.

Node settings

In addition to the cluster level settings specified above, each individual node can also specify configuration to override the cluster level settings and defaults. If a node does not specify any configuration then it will inherit the cluster level settings.

• name: The name of the node, which should match its kubernetes.io/hostname label.
• devices: A list of individual device names belonging to this node to include in the storage cluster.
  • name: The name of the device (e.g., sda).
• storage selection settings
• storage configuration settings

Storage Selection Settings

Below are the settings available, both at the cluster and individual node level, for selecting which storage resources will be included in the cluster.

• useAllDevices: true or false, indicating whether all devices found on nodes in the cluster should be automatically consumed by OSDs. Not recommended unless you have a very controlled environment where you will not risk formatting of devices with existing data. When true, all devices will be used except those with partitions created or a local filesystem. Is overridden by deviceFilter if specified.
• deviceFilter: A regular expression that allows selection of devices to be consumed by OSDs. If individual devices have been specified for a node then this filter will be ignored. This field uses golang regular expression syntax. For example:
  • sdb: Only selects the sdb device if found
  • ^sd.: Selects all devices starting with sd
  • ^sd[a-d]: Selects devices starting with sda, sdb, sdc, and sdd if found
  • ^s: Selects all devices that start with s
  • ^[^r]: Selects all devices that do not start with r
• metadataDevice: Name of a device to use for the metadata of OSDs on each node. Performance can be improved by using a low latency device (such as SSD or NVMe) as the metadata device, while other spinning platter (HDD) devices on a node are used to store data.
• directories: A list of directory paths that will be included in the storage cluster. Note that using two directories on the same physical device can cause a negative performance impact.
  • path: The path on disk of the directory (e.g., /rook/storage-dir).

Storage Configuration Settings

Below are the settings available, both at the cluster and individual node level, that affect how the selected storage resources will be configured.

• location: Location information about the cluster to help with data placement, such as region or data center. This is directly fed into the underlying Ceph CRUSH map. More information on CRUSH maps can be found in the ceph docs.
• storeConfig: Configuration information about the store format for each OSD.
  • storeType: filestore or bluestore (default: bluestore), The underlying storage format to use for each OSD.
  • databaseSizeMB: The size in MB of a bluestore database.
  • walSizeMB: The size in MB of a bluestore write ahead log (WAL).
  • journalSizeMB: The size in MB of a filestore journal.

Placement Configuration Settings

Placement configuration for the cluster services. It includes the following keys: api, mgr, mon, osd and all. Each service will have its placement configuration generated by merging the generic configuration under all with the most specific one (which will override any attributes).

A Placement configuration is specified (according to the kubernetes PodSpec) as:

• nodeAffinity: kubernetes NodeAffinity
• podAffinity: kubernetes PodAffinity
• podAntiAffinity: kubernetes PodAntiAffinity
• tolerations: list of kubernetes Toleration

The mon pod does not allow Pod affinity or anti-affinity. This is because of the mons having built-in anti-affinity with each other through the operator. The operator chooses which nodes are to run a mon on. Each mon is then tied to a node with a node selector using a hostname. See the mon design doc for more details on the mon failover design.

Cluster-wide Resources Configuration Settings

Resources should be specified so that the rook components are handled after Kubernetes Pod Quality of Service classes. This allows to keep rook components running when for example a node runs out of memory and the rook components are not killed depending on their Quality of Service class.

You can set resource requests/limits for rook components through the Resource Requirements/Limits structure in the following keys:

• api: Set resource requests/limits for the API.
• mgr: Set resource requests/limits for MGRs.
• mon: Set resource requests/limits for Mons.
• osd: Set resource requests/limits for OSDs.

Resource Requirements/Limits

For more information on resource requests/limits see the official Kubernetes documentation: Kubernetes - Managing Compute Resources for Containers

• requests: Requests for cpu or memory.
  • cpu: Request for CPU (example: one CPU core 1, 50% of one CPU core 500m).
  • memory: Limit for Memory (example: one gigabyte of memory 1Gi, half a gigabyte of memory 512Mi).
• limits: Limits for cpu or memory.
  • cpu: Limit for CPU (example: one CPU core 1, 50% of one CPU core 500m).
  • memory: Limit for Memory (example: one gigabyte of memory 1Gi, half a gigabyte of memory 512Mi).

Samples

Storage configuration: All devices

apiVersion: v1
kind: Namespace
metadata:
  name: rook
---
apiVersion: rook.io/v1alpha1
kind: Cluster
metadata:
  name: rook
  namespace: rook
spec:
  dataDirHostPath: /var/lib/rook
  # cluster level storage configuration and selection
  storage:
    useAllNodes: true
    useAllDevices: true
    deviceFilter:
    metadataDevice:
    location:
    storeConfig:
      storeType: bluestore
      databaseSizeMB: 1024 # this value can be removed for environments with normal sized disks (100 GB or larger)
      journalSizeMB: 1024  # this value can be removed for environments with normal sized disks (20 GB or larger)

Storage Configuration: Specific devices

Individual nodes and their config can be specified so that only the named nodes below will be used as storage resources. Each node’s ‘name’ field should match their ‘kubernetes.io/hostname’ label.

apiVersion: v1
kind: Namespace
metadata:
  name: rook
---
apiVersion: rook.io/v1alpha1
kind: Cluster
metadata:
  name: rook
  namespace: rook
spec:
  dataDirHostPath: /var/lib/rook
  # cluster level storage configuration and selection
  storage:
    useAllNodes: false
    useAllDevices: false
    deviceFilter:
    metadataDevice:
    location:
    storeConfig:
      storeType: bluestore
      databaseSizeMB: 1024 # this value can be removed for environments with normal sized disks (100 GB or larger)
      journalSizeMB: 1024  # this value can be removed for environments with normal sized disks (20 GB or larger)
    nodes:
    - name: "172.17.4.101"
      directories:         # specific directories to use for storage can be specified for each node
      - path: "/rook/storage-dir"
    - name: "172.17.4.201"
      devices:             # specific devices to use for storage can be specified for each node
      - name: "sdb"
      - name: "sdc"
      storeConfig:         # configuration can be specified at the node level which overrides the cluster level config
        storeType: filestore
    - name: "172.17.4.301"
      deviceFilter: "^sd."

Storage Configuration: Cluster wide Directories

This example is based up on the Storage Configuration: Specific devices. Individual nodes can override the cluster wide specified directories list.

apiVersion: v1
kind: Namespace
metadata:
  name: rook
---
apiVersion: rook.io/v1alpha1
kind: Cluster
metadata:
  name: rook
  namespace: rook
spec:
  dataDirHostPath: /var/lib/rook
  # cluster level storage configuration and selection
  storage:
    useAllNodes: false
    useAllDevices: false
    storeConfig:
      storeType: bluestore
      databaseSizeMB: 1024 # this value can be removed for environments with normal sized disks (100 GB or larger)
      journalSizeMB: 1024  # this value can be removed for environments with normal sized disks (20 GB or larger)
    directories:
    - path: "/rook/storage-dir"
    nodes:
    - name: "172.17.4.101"
      directories: # specific directories to use for storage can be specified for each node
      # overrides the above `directories` values for this node
      - path: "/rook/my-node-storage-dir"
    - name: "172.17.4.201"

Node Affinity

To control where various services will be scheduled by kubernetes, use the placement configuration sections below. The example under ‘all’ would have all services scheduled on kubernetes nodes labeled with ‘role=storage’ and tolerate taints with a key of ‘storage-node’.

apiVersion: v1
kind: Namespace
metadata:
  name: rook
---
apiVersion: rook.io/v1alpha1
kind: Cluster
metadata:
  name: rook
  namespace: rook
spec:
  dataDirHostPath: /var/lib/rook
  placement:
    all:
      nodeAffinity:
        requiredDuringSchedulingIgnoredDuringExecution:
          nodeSelectorTerms:
          - matchExpressions:
            - key: role
              operator: In
              values:
              - storage-node
      tolerations:
      - key: storage-node
        operator: Exists
    api:
      nodeAffinity:
      tolerations:
    mgr:
      nodeAffinity:
      tolerations:
    mon:
      nodeAffinity:
      tolerations:
    osd:
      nodeAffinity:
      tolerations:

Resource requests/Limits

To control how many resources the rook components can request/use, you can set requests and limits in Kubernetes for them. You can override these requests/limits for OSDs per node when using useAllNodes: false in the node item in the nodes list.

WARNING Before setting resource requests/limits, please take a look at the Ceph documentation for recommendations for each component: Ceph - Hardware Recommendations.

apiVersion: v1
kind: Namespace
metadata:
  name: rook
---
apiVersion: rook.io/v1alpha1
kind: Cluster
metadata:
  name: rook
  namespace: rook
spec:
  dataDirHostPath: /var/lib/rook
  # cluster level resource requests/limits configuration
  resources:
  storage:
    useAllNodes: false
    nodes:
    - name: "172.17.4.201"
      resources:
        limits:
          cpu: "2"
          memory: "4096Mi"
        requests:
          cpu: "2"
          memory: "4096Mi"