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Usage

Cinder provides an infrastructure for managing volumes in OpenStack. Originally, this project was the Nova component called nova-volume and starting from the Folsom OpenStack release it has become an independent project.

This file provides the sample configurations for different use cases:

  • Pillar sample of a basic Cinder configuration:

    The pillar structure defines cinder-api and cinder-scheduler inside the controller role and cinder-volume inside the to volume role.

    cinder:
      controller:
        enabled: true
        version: juno
        cinder_uid: 304
        cinder_gid: 304
        nas_secure_file_permissions: false
        nas_secure_file_operations: false
        cinder_internal_tenant_user_id: f46924c112a14c80ab0a24a613d95eef
        cinder_internal_tenant_project_id: b7455b8974bb4064ad247c8f375eae6c
        default_volume_type: 7k2SaS
        enable_force_upload: true
        availability_zone_fallback: True
        database:
          engine: mysql
          host: 127.0.0.1
          port: 3306
          name: cinder
          user: cinder
          password: pwd
        identity:
          engine: keystone
          host: 127.0.0.1
          port: 35357
          tenant: service
          user: cinder
          password: pwd
        message_queue:
          engine: rabbitmq
          host: 127.0.0.1
          port: 5672
          user: openstack
          password: pwd
          virtual_host: '/openstack'
        backend:
          7k2_SAS:
            engine: storwize
            type_name: slow-disks
            host: 192.168.0.1
            port: 22
            user: username
            password: pass
            connection: FC/iSCSI
            multihost: true
            multipath: true
            pool: SAS7K2
        audit:
          enabled: false
        osapi_max_limit: 500
        barbican:
          enabled: true
    
    cinder:
      volume:
        enabled: true
        version: juno
        cinder_uid: 304
        cinder_gid: 304
        nas_secure_file_permissions: false
        nas_secure_file_operations: false
        cinder_internal_tenant_user_id: f46924c112a14c80ab0a24a613d95eef
        cinder_internal_tenant_project_id: b7455b8974bb4064ad247c8f375eae6c
        default_volume_type: 7k2SaS
        enable_force_upload: true
        my_ip: 192.168.0.254
        database:
          engine: mysql
          host: 127.0.0.1
          port: 3306
          name: cinder
          user: cinder
          password: pwd
        identity:
          engine: keystone
          host: 127.0.0.1
          port: 35357
          tenant: service
          user: cinder
          password: pwd
        message_queue:
          engine: rabbitmq
          host: 127.0.0.1
          port: 5672
          user: openstack
          password: pwd
          virtual_host: '/openstack'
        backend:
          7k2_SAS:
            engine: storwize
            type_name: 7k2 SAS disk
            host: 192.168.0.1
            port: 22
            user: username
            password: pass
            connection: FC/iSCSI
            multihost: true
            multipath: true
            pool: SAS7K2
        audit:
          enabled: false
        barbican:
          enabled: true

Volume vmware related options:

cinder:
  volume:
    backend:
      vmware:
        engine: vmware
        host_username: vmware
        host_password: vmware
        cluster_names: vmware_cluster01,vmware_cluster02
  • The CORS parameters enablement:

    cinder:
      controller:
        cors:
          allowed_origin: https:localhost.local,http:localhost.local
          expose_headers: X-Auth-Token,X-Openstack-Request-Id,X-Subject-Token
          allow_methods: GET,PUT,POST,DELETE,PATCH
          allow_headers: X-Auth-Token,X-Openstack-Request-Id,X-Subject-Token
          allow_credentials: True
          max_age: 86400
  • The client-side RabbitMQ HA setup for the controller:

    cinder:
      controller:
        ....
        message_queue:
          engine: rabbitmq
          members:
            - host: 10.0.16.1
            - host: 10.0.16.2
            - host: 10.0.16.3
          user: openstack
          password: pwd
          virtual_host: '/openstack'
        ....
  • The client-side RabbitMQ HA setup for the volume component

    cinder:
      volume:
        ....
        message_queue:
          engine: rabbitmq
          members:
            - host: 10.0.16.1
            - host: 10.0.16.2
            - host: 10.0.16.3
          user: openstack
          password: pwd
          virtual_host: '/openstack'
        ....
  • Configuring TLS communications.

    Note

    By default, system-wide installed CA certs are used. Therefore, the cacert_file and cacert parameters are optional.

    • RabbitMQ TLS:

      cinder:
        controller, volume:
           message_queue:
             port: 5671
             ssl:
               enabled: True
               (optional) cacert: cert body if the cacert_file does not exists
               (optional) cacert_file: /etc/openstack/rabbitmq-ca.pem
               (optional) version: TLSv1_2
    • MySQL TLS:

      cinder:
        controller:
           database:
             ssl:
               enabled: True
               (optional) cacert: cert body if the cacert_file does not exists
               (optional) cacert_file: /etc/openstack/mysql-ca.pem
    • Openstack HTTPS API:

      cinder:
       controller, volume:
           identity:
              protocol: https
              (optional) cacert_file: /etc/openstack/proxy.pem
           glance:
              protocol: https
              (optional) cacert_file: /etc/openstack/proxy.pem
  • Cinder setup with zeroing deleted volumes:

    cinder:
      controller:
        enabled: true
        wipe_method: zero
        ...
  • Cinder setup with shreding deleted volumes:

    cinder:
      controller:
        enabled: true
        wipe_method: shred
        ...
  • Configuration of policy.json file:

    cinder:
      controller:
        ....
        policy:
          'volume:delete': 'rule:admin_or_owner'
          # Add key without value to remove line from policy.json
          'volume:extend':
  • Default Cinder backend lvm_type setup:

    cinder:
      volume:
        enabled: true
        backend:
          # Type of LVM volumes to deploy; (default, thin, or auto). Auto defaults to thin if thin is supported.
          lvm_type: auto
  • Default Cinder setup with iSCSI target:

    cinder:
      controller:
        enabled: true
        version: mitaka
        default_volume_type: lvmdriver-1
        database:
          engine: mysql
          host: 127.0.0.1
          port: 3306
          name: cinder
          user: cinder
          password: pwd
        identity:
          engine: keystone
          host: 127.0.0.1
          port: 35357
          tenant: service
          user: cinder
          password: pwd
        message_queue:
          engine: rabbitmq
          host: 127.0.0.1
          port: 5672
          user: openstack
          password: pwd
          virtual_host: '/openstack'
        backend:
          lvmdriver-1:
            engine: lvm
            type_name: lvmdriver-1
            volume_group: cinder-volume
  • Cinder setup for IBM Storwize:

    cinder:
      volume:
        enabled: true
        backend:
          7k2_SAS:
            engine: storwize
            type_name: 7k2 SAS disk
            host: 192.168.0.1
            port: 22
            user: username
            password: pass
            connection: FC/iSCSI
            multihost: true
            multipath: true
            pool: SAS7K2
          10k_SAS:
            engine: storwize
            type_name: 10k SAS disk
            host: 192.168.0.1
            port: 22
            user: username
            password: pass
            connection: FC/iSCSI
            multihost: true
            multipath: true
            pool: SAS10K
          15k_SAS:
            engine: storwize
            type_name: 15k SAS
            host: 192.168.0.1
            port: 22
            user: username
            password: pass
            connection: FC/iSCSI
            multihost: true
            multipath: true
            pool: SAS15K
  • Cinder setup with NFS:

    cinder:
      controller:
        enabled: true
        default_volume_type: nfs-driver
        backend:
          nfs-driver:
            engine: nfs
            type_name: nfs-driver
            volume_group: cinder-volume
            path: /var/lib/cinder/nfs
            devices:
            - 172.16.10.110:/var/nfs/cinder
            options: rw,sync
  • Cinder setup with NetApp:

    cinder:
      controller:
        backend:
          netapp:
            engine: netapp
            type_name: netapp
            user: openstack
            vserver: vm1
            server_hostname: 172.18.2.3
            password: password
            storage_protocol: nfs
            transport_type: https
            lun_space_reservation: enabled
            use_multipath_for_image_xfer: True
            nas_secure_file_operations: false
            nas_secure_file_permissions: false
            devices:
              - 172.18.1.2:/vol_1
              - 172.18.1.2:/vol_2
              - 172.18.1.2:/vol_3
              - 172.18.1.2:/vol_4
    linux:
      system:
        package:
          nfs-common:
            version: latest
  • Cinder setup with Hitachi VPS:

    cinder:
      controller:
        enabled: true
        backend:
          hus100_backend:
            type_name: HUS100
            backend: hus100_backend
            engine: hitachi_vsp
            connection: FC
  • Cinder setup with Hitachi VPS with defined ldev range:

    cinder:
      controller:
        enabled: true
        backend:
          hus100_backend:
            type_name: HUS100
            backend: hus100_backend
            engine: hitachi_vsp
            connection: FC
            ldev_range: 0-1000
  • Cinder setup with Ceph:

    cinder:
      controller:
        enabled: true
        backend:
          ceph_backend:
            type_name: standard-iops
            backend: ceph_backend
            backend_host: ceph
            pool: volumes
            engine: ceph
            user: cinder
            secret_uuid: da74ccb7-aa59-1721-a172-0006b1aa4e3e
            client_cinder_key: AQDOavlU6BsSJhAAnpFR906mvdgdfRqLHwu0Uw==
            report_discard_supported: True
            image_volume_cache_enabled: False
  • Cinder setup with HP3par:

    cinder:
      controller:
        enabled: true
        backend:
          hp3par_backend:
            type_name: hp3par
            backend: hp3par_backend
            user: hp3paruser
            password: something
            url: http://10.10.10.10/api/v1
            cpg: OpenStackCPG
            host: 10.10.10.10
            login: hp3paradmin
            sanpassword: something
            debug: True
            snapcpg: OpenStackSNAPCPG
  • Cinder setup with Fujitsu Eternus:

    cinder:
      volume:
        enabled: true
        backend:
          10kThinPro:
            type_name: 10kThinPro
            engine: fujitsu
            pool: 10kThinPro
            host: 192.168.0.1
            port: 5988
            user: username
            password: pass
            connection: FC/iSCSI
            name: 10kThinPro
          10k_SAS:
            type_name: 10k_SAS
            pool: SAS10K
            engine: fujitsu
            host: 192.168.0.1
            port: 5988
            user: username
            password: pass
            connection: FC/iSCSI
            name: 10k_SAS
  • Cinder setup with IBM GPFS filesystem:

    cinder:
      volume:
        enabled: true
        backend:
          GPFS-GOLD:
            type_name: GPFS-GOLD
            engine: gpfs
            mount_point: '/mnt/gpfs-openstack/cinder/gold'
          GPFS-SILVER:
            type_name: GPFS-SILVER
            engine: gpfs
            mount_point: '/mnt/gpfs-openstack/cinder/silver'
  • Cinder setup with HP LeftHand:

    cinder:
      volume:
        enabled: true
        backend:
          HP-LeftHand:
            type_name: normal-storage
            engine: hp_lefthand
            api_url: 'https://10.10.10.10:8081/lhos'
            username: user
            password: password
            clustername: cluster1
            iscsi_chap_enabled: false
  • Extra parameters for HP LeftHand:

    cinder type-key normal-storage set hplh:data_pl=r-10-2 hplh:provisioning=full
  • Cinder setup with Solidfire:

    cinder:
      volume:
        enabled: true
        backend:
          solidfire:
            type_name: normal-storage
            engine: solidfire
            san_ip: 10.10.10.10
            san_login: user
            san_password: password
            clustername: cluster1
            sf_emulate_512: false
            sf_api_port: 14443
            host: ctl01
            #for compatibility with old versions
            sf_account_prefix: PREFIX
  • Cinder setup with Block Device driver:

    cinder:
      volume:
        enabled: true
        backend:
          bdd:
            engine: bdd
            enabled: true
            type_name: bdd
            devices:
              - sdb
              - sdc
              - sdd
  • Enable cinder-backup service for ceph

    cinder:
      controller:
        enabled: true
        version: mitaka
        backup:
          engine: ceph
          ceph_conf: "/etc/ceph/ceph.conf"
          ceph_pool: backup
          ceph_stripe_count: 0
          ceph_stripe_unit: 0
          ceph_user: cinder
          ceph_chunk_size: 134217728
          restore_discard_excess_bytes: false
      volume:
        enabled: true
        version: mitaka
        backup:
          engine: ceph
          ceph_conf: "/etc/ceph/ceph.conf"
          ceph_pool: backup
          ceph_stripe_count: 0
          ceph_stripe_unit: 0
          ceph_user: cinder
          ceph_chunk_size: 134217728
          restore_discard_excess_bytes: false
  • Auditing filter (CADF) enablement:

    cinder:
      controller:
        audit:
          enabled: true
      ....
          filter_factory: 'keystonemiddleware.audit:filter_factory'
          map_file: '/etc/pycadf/cinder_api_audit_map.conf'
      ....
      volume:
        audit:
          enabled: true
      ....
          filter_factory: 'keystonemiddleware.audit:filter_factory'
          map_file: '/etc/pycadf/cinder_api_audit_map.conf'
  • Cinder setup with custom availability zones:

    cinder:
      controller:
        default_availability_zone: my-default-zone
        storage_availability_zone: my-custom-zone-name
    cinder:
      volume:
        default_availability_zone: my-default-zone
        storage_availability_zone: my-custom-zone-name

    The default_availability_zone is used when a volume has been created, without specifying a zone in the create request as this zone must exist in your configuration.

    The storage_availability_zone is an actual zone where the node belongs to and must be specified per each node.

  • Cinder setup with custom non-admin volume query filters:

    cinder:
      controller:
        query_volume_filters:
          - name
          - status
          - metadata
          - availability_zone
          - bootable
  • public_endpoint and osapi_volume_base_url:

    • public_endpoint
      Used for configuring versions endpoint
    • osapi_volume_base_URL
      Used to present Cinder URL to users

    These parameters can be useful when running Cinder under load balancer in SSL.

    cinder:
      controller:
        public_endpoint_address: https://${_param:cluster_domain}:8776
  • Client role definition:

    cinder:
      client:
        enabled: true
        identity:
          host: 127.0.0.1
          port: 35357
          project: service
          user: cinder
          password: pwd
          protocol: http
          endpoint_type: internalURL
          region_name: RegionOne
        backend:
          ceph:
            type_name: standard-iops
            engine: ceph
            key:
              conn_speed: fibre-10G
  • Barbican integration enablement:

    cinder:
      controller:
        barbican:
          enabled: true
  • Keystone API version specification (v3 is default):

    cinder:
      controller:
        identity:
          api_version: v2.0

Enhanced logging with logging.conf

By default logging.conf is disabled. You can enable per-binary logging.conf by setting the following parameters:

  • openstack_log_appender
    Set to true to enable log_config_append for all OpenStack services
  • openstack_fluentd_handler_enabled
    Set to true to enable FluentHandler for all Openstack services
  • openstack_ossyslog_handler_enabled
    Set to true to enable OSSysLogHandler for all Openstack services

Only WatchedFileHandler, OSSysLogHandler, and FluentHandler are available.

To configure this functionality with pillar:

cinder:
  controller:
    logging:
      log_appender: true
      log_handlers:
        watchedfile:
          enabled: true
        fluentd:
          enabled: true
        ossyslog:
          enabled: true

  volume:
    logging:
      log_appender: true
      log_handlers:
        watchedfile:
          enabled: true
        fluentd:
          enabled: true
        ossyslog:
          enabled: true

Enable x509 and ssl communication between Cinder and Galera cluster.

By default communication between Cinder and Galera is unsecure.

cinder:
volume:
database:
x509:
enabled: True
controller:
database:
x509:
enabled: True

You able to set custom certificates in pillar:

cinder:
controller:
database:
x509:
cacert: (certificate content) cert: (certificate content) key: (certificate content)
volume:
database:
x509:
cacert: (certificate content) cert: (certificate content) key: (certificate content)
You can read more about it here:
https://docs.openstack.org/security-guide/databases/database-access-control.html

Cinder services on compute node with memcached caching and security strategy:

cinder:
  volume:
    enabled: true
    ...
    cache:
      engine: memcached
      members:
      - host: 127.0.0.1
        port: 11211
      - host: 127.0.0.1
        port: 11211
      security:
        enabled: true
        strategy: ENCRYPT
        secret_key: secret

Cinder services on controller node with memcached caching and security strategy:

cinder:
  controller:
    enabled: true
    ...
    cache:
      engine: memcached
      members:
      - host: 127.0.0.1
        port: 11211
      - host: 127.0.0.1
        port: 11211
      security:
        enabled: true
        strategy: ENCRYPT
        secret_key: secret

Upgrades

Each openstack formula provide set of phases (logical bloks) that will help to build flexible upgrade orchestration logic for particular components. The list of phases and theirs descriptions are listed in table below:

State Description
<app>.upgrade.service_running Ensure that all services for particular application are enabled for autostart and running
<app>.upgrade.service_stopped Ensure that all services for particular application disabled for autostart and dead
<app>.upgrade.pkgs_latest Ensure that packages used by particular application are installed to latest available version. This will not upgrade data plane packages like qemu and openvswitch as usually minimal required version in openstack services is really old. The data plane packages should be upgraded separately by apt-get upgrade or apt-get dist-upgrade Applying this state will not autostart service.
<app>.upgrade.render_config Ensure configuration is rendered actual version.
<app>.upgrade.pre We assume this state is applied on all nodes in the cloud before running upgrade. Only non destructive actions will be applied during this phase. Perform service built in service check like (keystone-manage doctor and nova-status upgrade)
<app>.upgrade.upgrade.pre Mostly applicable for data plane nodes. During this phase resources will be gracefully removed from current node if it is allowed. Services for upgraded application will be set to admin disabled state to make sure node will not participate in resources scheduling. For example on gtw nodes this will set all agents to admin disable state and will move all routers to other agents.
<app>.upgrade.upgrade This state will basically upgrade application on particular target. Stop services, render configuration, install new packages, run offline dbsync (for ctl), start services. Data plane should not be affected, only OpenStack python services.
<app>.upgrade.upgrade.post Add services back to scheduling.
<app>.upgrade.post This phase should be launched only when upgrade of the cloud is completed. Cleanup temporary files, perform other post upgrade tasks.
<app>.upgrade.verify Here we will do basic health checks (API CRUD operations, verify do not have dead network agents/compute services)

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