Dell EMC VxFlex OS (ScaleIO) Storage driver

Dell EMC VxFlex OS (ScaleIO) Storage driver

Overview

Dell EMC VxFlex OS (formerly named Dell EMC ScaleIO) is a software-only solution that uses existing servers local disks and LAN to create a virtual SAN that has all of the benefits of external storage, but at a fraction of the cost and complexity. Using the driver, Block Storage hosts can connect to a VxFlex OS Storage cluster.

The Dell EMC VxFlex OS Cinder driver is designed and tested to work with both VxFlex OS and with ScaleIO. The configuration options are identical for both VxFlex OS and ScaleIO.

Official VxFlex OS documentation

To find the VxFlex OS documentation:

  1. Go to the VxFlex OS product documentation page.
  2. From the left-side panel, select the relevant VxFlex OS version.

Supported VxFlex OS and ScaleIO Versions

The Dell EMC VxFlex OS Block Storage driver has been tested against the following versions of ScaleIO and VxFlex OS and found to be compatible:

  • ScaleIO 2.0.x
  • ScaleIO 2.5.x
  • VxFlex OS 2.6.x

Please consult the Official VxFlex OS documentation to determine supported operating systems for each version of VxFlex OS or ScaleIO.

Deployment prerequisites

  • The VxFlex OS Gateway must be installed and accessible in the network. For installation steps, refer to the Preparing the installation Manager and the Gateway section in VxFlex OS Deployment Guide. See Official VxFlex OS documentation.
  • VxFlex OS Storage Data Client (SDC) must be installed on all OpenStack nodes.

Note

Ubuntu users must follow the specific instructions in the VxFlex OS Deployment Guide for Ubuntu environments. See the Deploying on Ubuntu Servers section in VxFlex OS Deployment Guide. See Official VxFlex OS documentation.

Supported operations

  • Create, delete, clone, attach, detach, manage, and unmanage volumes
  • Create, delete, manage, and unmanage volume snapshots
  • Create a volume from a snapshot
  • Copy an image to a volume
  • Copy a volume to an image
  • Extend a volume
  • Get volume statistics
  • Create, list, update, and delete consistency groups
  • Create, list, update, and delete consistency group snapshots

VxFlex OS Block Storage driver configuration

This section explains how to configure and connect the block storage nodes to a VxFlex OS storage cluster.

Edit the cinder.conf file by adding the configuration below under a new section (for example, [scaleio]) and change the enable_backends setting (in the [DEFAULT] section) to include this new back end. The configuration file is usually located at /etc/cinder/cinder.conf.

For a configuration example, refer to the example cinder.conf .

VxFlex OS driver name

Configure the driver name by adding the following parameter:

volume_driver = cinder.volume.drivers.dell_emc.scaleio.driver.ScaleIODriver

VxFlex OS Gateway server IP

The VxFlex OS Gateway provides a REST interface to VxFlex OS.

Configure the Gateway server IP address by adding the following parameter:

san_ip = <VxFlex OS GATEWAY IP>

VxFlex OS Storage Pools

Multiple Storage Pools and Protection Domains can be listed for use by the virtual machines. The list should include every Protection Domain and Storage Pool pair that you would like Cinder to utilize.

To retrieve the available Storage Pools, use the command scli --query_all and search for available Storage Pools.

Configure the available Storage Pools by adding the following parameter:

sio_storage_pools = <Comma-separated list of protection domain:storage pool name>

VxFlex OS user credentials

Block Storage requires a VxFlex OS user with administrative privileges. Dell EMC recommends creating a dedicated OpenStack user account that has an administrative user role.

Refer to the VxFlex OS User Guide for details on user account management.

Configure the user credentials by adding the following parameters:

san_login = <SIO_USER>
san_password = <SIO_PASSWD>

Oversubscription

Configure the oversubscription ratio by adding the following parameter under the separate section for VxFlex OS:

sio_max_over_subscription_ratio = <OVER_SUBSCRIPTION_RATIO>

Note

The default value for sio_max_over_subscription_ratio is 10.0.

Oversubscription is calculated correctly by the Block Storage service only if the extra specification provisioning:type appears in the volume type regardless of the default provisioning type. Maximum oversubscription value supported for VxFlex OS is 10.0.

Default provisioning type

If provisioning type settings are not specified in the volume type, the default value is set according to the san_thin_provision option in the configuration file. The default provisioning type will be thin if the option is not specified in the configuration file. To set the default provisioning type thick, set the san_thin_provision option to false in the configuration file, as follows:

san_thin_provision = false

The configuration file is usually located in /etc/cinder/cinder.conf. For a configuration example, see: cinder.conf.

Configuration example

cinder.conf example file

You can update the cinder.conf file by editing the necessary parameters as follows:

[DEFAULT]
enabled_backends = scaleio

[scaleio]
volume_driver = cinder.volume.drivers.dell_emc.scaleio.driver.ScaleIODriver
volume_backend_name = scaleio
san_ip = GATEWAY_IP
sio_storage_pools = Domain1:Pool1,Domain2:Pool2
san_login = SIO_USER
san_password = SIO_PASSWD
san_thin_provision = false

Connector configuration

Before using attach/detach volume operations VxFlex OS connector must be properly configured. On each node where VxFlex OS SDC is installed do the following:

  1. Create /opt/emc/scaleio/openstack/connector.conf if it does not exist.

    $ mkdir -p /opt/emc/scaleio/openstack
    $ touch /opt/emc/scaleio/openstack/connector.conf
    
  2. For each VxFlex OS section in the cinder.conf create the same section in the /opt/emc/scaleio/openstack/connector.conf and populate it with passwords. Example:

    [vxflexos]
    san_password = SIO_PASSWD
    
    [vxflexos-new]
    san_password = SIO2_PASSWD
    

Configuration options

The VxFlex OS driver supports these configuration options:

Description of ScaleIO configuration options
Configuration option = Default value Description
sio_allow_non_padded_volumes = False (Boolean) Allow volumes to be created in Storage Pools when zero padding is disabled. This option should not be enabled if multiple tenants will utilize volumes from a shared Storage Pool.
sio_max_over_subscription_ratio = 10.0 (Float) max_over_subscription_ratio setting for the driver. Maximum value allowed is 10.0.
sio_rest_server_port = 443 (String) Gateway REST server port.
sio_round_volume_capacity = True (Boolean) Round volume sizes up to 8GB boundaries. VxFlex OS/ScaleIO requires volumes to be sized in multiples of 8GB. If set to False, volume creation will fail for volumes not sized properly
sio_server_api_version = None (String) VxFlex OS/ScaleIO API version. This value should be left as the default value unless otherwise instructed by technical support.
sio_server_certificate_path = None (String) Server certificate path.
sio_storage_pools = None (String) Storage Pools. Comma separated list of storage pools used to provide volumes. Each pool should be specified as a protection_domain_name:storage_pool_name value
sio_unmap_volume_before_deletion = False (Boolean) Unmap volumes before deletion.
sio_verify_server_certificate = False (Boolean) Verify server certificate.
sio_protection_domain_id = None (String) DEPRECATED: Protection Domain ID. DEPRECATED
sio_protection_domain_name = None (String) DEPRECATED: Protection Domain name. DEPRECATED
sio_storage_pool_id = None (String) DEPRECATED: Storage Pool ID. DEPRECATED
sio_storage_pool_name = None (String) DEPRECATED: Storage Pool name. DEPRECATED

Volume Types

Volume types can be used to specify characteristics of volumes allocated via the VxFlex OS Driver. These characteristics are defined as Extra Specs within Volume Types.

VxFlex OS Protection Domain and Storage Pool

When multiple storage pools are specified in the Cinder configuration, users can specify which pool should be utilized by adding the pool Extra Spec to the volume type extra-specs and setting the value to the requested protection_domain:storage_pool.

$ openstack volume type create sio_type_1
$ openstack volume type set --property volume_backend_name=scaleio sio_type_1
$ openstack volume type set --property pool=Domain2:Pool2 sio_type_1

VxFlex OS thin provisioning support

The Block Storage driver supports creation of thin-provisioned and thick-provisioned volumes. The provisioning type settings can be added as an extra specification of the volume type, as follows:

$ openstack volume type create sio_type_thick
$ openstack volume type set --property provisioning:type=thick sio_type_thick

VxFlex OS QoS support

QoS support for the VxFlex OS driver includes the ability to set the following capabilities:

maxIOPS
The QoS I/O rate limit. If not set, the I/O rate will be unlimited. The setting must be larger than 10.
maxIOPSperGB
The QoS I/O rate limit. The limit will be calculated by the specified value multiplied by the volume size. The setting must be larger than 10.
maxBWS
The QoS I/O bandwidth rate limit in KBs. If not set, the I/O bandwidth rate will be unlimited. The setting must be a multiple of 1024.
maxBWSperGB
The QoS I/O bandwidth rate limit in KBs. The limit will be calculated by the specified value multiplied by the volume size. The setting must be a multiple of 1024.

The QoS keys above must be created and associated with a volume type. For example:

$ openstack volume qos create qos-limit-iops --consumer back-end --property maxIOPS=5000
$ openstack volume type create sio_limit_iops
$ openstack volume qos associate qos-limit-iops sio_limit_iops

The driver always chooses the minimum between the QoS keys value and the relevant calculated value of maxIOPSperGB or maxBWSperGB.

Since the limits are per SDC, they will be applied after the volume is attached to an instance, and thus to a compute node/SDC.

Using VxFlex OS Storage with a containerized overcloud

When using a containerized overcloud, such as one deployed via TripleO or RedHat Openstack version 12 and above, there is an additional step that must be performed.

Before deploying the overcloud

After ensuring that the Storage Data Client (SDC) is installed on all nodes and before deploying the overcloud, modify the TripleO Heat Template for the nova-compute and cinder-volume containers to add volume mappings for directories containing the SDC components. These files can normally be found at /usr/share/openstack-tripleo-heat-templates/docker/services/nova-compute.yaml and /usr/share/openstack-tripleo-heat-templates/docker/services/cinder-volume.yaml

Two lines need to be inserted into the list of mapped volumes in each container.

/opt/emc/scaleio:/opt/emc/scaleio
/bin/emc/scaleio:/bin/emc/scaleio

The changes to the two heat templates are identical, as an example the original nova-compute file should have section that resembles the following:

...
docker_config:
  step_4:
    nova_compute:
      image: &nova_compute_image {get_param: DockerNovaComputeImage}
      ipc: host
      net: host
      privileged: true
      user: nova
      restart: always
      volumes:
        list_concat:
          - {get_attr: [ContainersCommon, volumes]}
          -
            - /var/lib/kolla/config_files/nova_compute.json:/var/lib/kolla/config_files/config.json:ro
            - /var/lib/config-data/puppet-generated/nova_libvirt/:/var/lib/kolla/config_files/src:ro
            - /etc/ceph:/var/lib/kolla/config_files/src-ceph:ro
            - /dev:/dev
            - /lib/modules:/lib/modules:ro
            - /etc/iscsi:/etc/iscsi
            - /run:/run
            - /var/lib/nova:/var/lib/nova:shared
            - /var/lib/libvirt:/var/lib/libvirt
            - /var/log/containers/nova:/var/log/nova
            - /sys/class/net:/sys/class/net
            - /sys/bus/pci:/sys/bus/pci
      environment:
       - KOLLA_CONFIG_STRATEGY=COPY_ALWAYS
...

After modifying the nova-compute file, the section should resemble:

...
docker_config:
  step_4:
    nova_compute:
      image: &nova_compute_image {get_param: DockerNovaComputeImage}
      ipc: host
      net: host
      privileged: true
      user: nova
      restart: always
      volumes:
        list_concat:
          - {get_attr: [ContainersCommon, volumes]}
          -
            - /var/lib/kolla/config_files/nova_compute.json:/var/lib/kolla/config_files/config.json:ro
            - /var/lib/config-data/puppet-generated/nova_libvirt/:/var/lib/kolla/config_files/src:ro
            - /etc/ceph:/var/lib/kolla/config_files/src-ceph:ro
            - /dev:/dev
            - /lib/modules:/lib/modules:ro
            - /etc/iscsi:/etc/iscsi
            - /run:/run
            - /var/lib/nova:/var/lib/nova:shared
            - /var/lib/libvirt:/var/lib/libvirt
            - /var/log/containers/nova:/var/log/nova
            - /sys/class/net:/sys/class/net
            - /sys/bus/pci:/sys/bus/pci
            - /opt/emc/scaleio:/opt/emc/scaleio
            - /bin/emc/scaleio:/bin/emc/scaleio
      environment:
       - KOLLA_CONFIG_STRATEGY=COPY_ALWAYS
...

Once the nova-compute file is modified, make an identical change to the cinder-volume file.

Deploy the overcloud

Once the above changes have been made, deploy the overcloud as usual.

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