Huawei volume driver

Huawei volume driver

Huawei volume driver can be used to provide functions such as the logical volume and snapshot for virtual machines (VMs) in the OpenStack Block Storage driver that supports iSCSI and Fibre Channel protocols.

Version mappings

The following table describes the version mappings among the Block Storage driver, Huawei storage system and OpenStack:

Version mappings among the Block Storage driver and Huawei storage system
Description Storage System Version

Create, delete, expand, attach, detach, manage and unmanage volumes

Create volumes with assigned storage pools

Create volumes with assigned disk types

Create, delete and update a consistency group

Copy an image to a volume

Copy a volume to an image

Auto Zoning

SmartThin

Volume Migration

Replication V2.1

Create, delete, manage, unmanage and backup snapshots

Create and delete a cgsnapshot

OceanStor T series V2R2 C00/C20/C30

OceanStor V3 V3R1C10/C20 V3R2C10 V3R3C00/C10/C20

OceanStor 2200V3 V300R005C00

OceanStor 2600V3 V300R005C00

OceanStor 18500/18800 V1R1C00/C20/C30 V3R3C00

OceanStor Dorado V300R001C00

OceanStor V3 V300R006C00

OceanStor 2200V3 V300R006C00

OceanStor 2600V3 V300R006C00

Clone a volume

Create volume from snapshot

Retype

SmartQoS

SmartTier

SmartCache

Thick

OceanStor T series V2R2 C00/C20/C30

OceanStor V3 V3R1C10/C20 V3R2C10 V3R3C00/C10/C20

OceanStor 2200V3 V300R005C00

OceanStor 2600V3 V300R005C00

OceanStor 18500/18800V1R1C00/C20/C30

OceanStor V3 V300R006C00

OceanStor 2200V3 V300R006C00

OceanStor 2600V3 V300R006C00

SmartPartition

OceanStor T series V2R2 C00/C20/C30

OceanStor V3 V3R1C10/C20 V3R2C10 V3R3C00/C10/C20

OceanStor 2600V3 V300R005C00

OceanStor 18500/18800V1R1C00/C20/C30

OceanStor V3 V300R006C00

OceanStor 2600V3 V300R006C00

Hypermetro

Hypermetro consistency group

OceanStor V3 V3R3C00/C10/C20

OceanStor 2600V3 V3R5C00

OceanStor 18500/18800 V3R3C00

OceanStor Dorado V300R001C00

OceanStor V3 V300R006C00

OceanStor 2600V3 V300R006C00

Volume driver configuration

This section describes how to configure the Huawei volume driver for either iSCSI storage or Fibre Channel storage.

Pre-requisites

When creating a volume from image, install the multipath tool and add the following configuration keys in the [DEFAULT] configuration group of the /etc/cinder/cinder.conf file:

use_multipath_for_image_xfer = True
enforce_multipath_for_image_xfer = True

To configure the volume driver, follow the steps below:

  1. In /etc/cinder, create a Huawei-customized driver configuration file. The file format is XML.

  2. Change the name of the driver configuration file based on the site requirements, for example, cinder_huawei_conf.xml.

  3. Configure parameters in the driver configuration file.

    Each product has its own value for the Product parameter under the Storage xml block. The full xml file with the appropriate Product parameter is as below:

      <?xml version="1.0" encoding="UTF-8"?>
         <config>
            <Storage>
               <Product>PRODUCT</Product>
               <Protocol>PROTOCOL</Protocol>
               <UserName>xxxxxxxx</UserName>
               <UserPassword>xxxxxxxx</UserPassword>
               <RestURL>https://x.x.x.x:8088/deviceManager/rest/</RestURL>
            </Storage>
            <LUN>
               <LUNType>xxx</LUNType>
               <WriteType>xxx</WriteType>
               <Prefetch Type="xxx" Value="xxx" />
               <StoragePool>xxx</StoragePool>
            </LUN>
            <iSCSI>
               <DefaultTargetIP>x.x.x.x</DefaultTargetIP>
               <Initiator Name="xxxxxxxx" TargetIP="x.x.x.x"/>
            </iSCSI>
            <Host OSType="Linux" HostIP="x.x.x.x, x.x.x.x"/>
         </config>
    
    The corresponding ``Product`` values for each product are as below:
    
    • For T series V2

      <Product>TV2</Product>
      
    • For V3

      <Product>V3</Product>
      
    • For OceanStor 18000 series

      <Product>18000</Product>
      
    • For OceanStor Dorado series

      <Product>Dorado</Product>
      

    The Protocol value to be used is iSCSI for iSCSI and FC for Fibre Channel as shown below:

    # For iSCSI
    <Protocol>iSCSI</Protocol>
    
    # For Fibre channel
    <Protocol>FC</Protocol>
    

    Note

    For details about the parameters in the configuration file, see the Configuration file parameters section.

  4. Configure the cinder.conf file.

    In the [default] block of /etc/cinder/cinder.conf, enable the VOLUME_BACKEND:

    enabled_backends = VOLUME_BACKEND
    

    Add a new block [VOLUME_BACKEND], and add the following contents:

    [VOLUME_BACKEND]
    volume_driver = VOLUME_DRIVER
    cinder_huawei_conf_file = /etc/cinder/cinder_huawei_conf.xml
    volume_backend_name = Huawei_Storage
    
    • volume_driver indicates the loaded driver.
    • cinder_huawei_conf_file indicates the specified Huawei-customized configuration file.
    • volume_backend_name indicates the name of the backend.

    Add information about remote devices in /etc/cinder/cinder.conf in target backend block for Hypermetro.

    [VOLUME_BACKEND]
    volume_driver = VOLUME_DRIVER
    cinder_huawei_conf_file = /etc/cinder/cinder_huawei_conf.xml
    volume_backend_name = Huawei_Storage
    metro_san_user = xxx
    metro_san_password = xxx
    metro_domain_name = xxx
    metro_san_address = https://x.x.x.x:8088/deviceManager/rest/
    metro_storage_pools = xxx
    

    Add information about remote devices in /etc/cinder/cinder.conf in target backend block for Replication.

    [VOLUME_BACKEND]
    volume_driver = VOLUME_DRIVER
    cinder_huawei_conf_file = /etc/cinder/cinder_huawei_conf.xml
    volume_backend_name = Huawei_Storage
    replication_device =
        backend_id: xxx,
        storage_pool :xxx,
        san_address: https://x.x.x.x:8088/deviceManager/rest/,
        san_user: xxx,
        san_password: xxx,
        iscsi_default_target_ip: x.x.x.x
    

    Note

    By default, the value for Hypermetro and Replication is None. For details about the parameters in the configuration file, see the Configuration file parameters section.

    The volume-driver value for every product is as below:

    # For iSCSI
    volume_driver = cinder.volume.drivers.huawei.huawei_driver.HuaweiISCSIDriver
    
    # For FC
    volume_driver = cinder.volume.drivers.huawei.huawei_driver.HuaweiFCDriver
    
  5. Run the service cinder-volume restart command to restart the Block Storage service.

Configuring iSCSI Multipathing

To configure iSCSI Multipathing, follow the steps below:

  1. Add the port group settings in the Huawei-customized driver configuration file and configure the port group name needed by an initiator.

    <iSCSI>
       <DefaultTargetIP>x.x.x.x</DefaultTargetIP>
       <Initiator Name="xxxxxx" TargetPortGroup="xxxx" />
    </iSCSI>
    
  2. Enable the multipathing switch of the Compute service module.

    Add volume_use_multipath = True in [libvirt] of /etc/nova/nova.conf.

  3. Run the service nova-compute restart command to restart the nova-compute service.

Configuring FC Multipathing

To configure FC Multipathing, follow the steps below:

  1. Enable the multipathing switch of the Compute service module.

    Add volume_use_multipath = True in [libvirt] of /etc/nova/nova.conf.

  2. Run the service nova-compute restart command to restart the nova-compute service.

Configuring CHAP and ALUA

On a public network, any application server whose IP address resides on the same network segment as that of the storage systems iSCSI host port can access the storage system and perform read and write operations in it. This poses risks to the data security of the storage system. To ensure the storage systems access security, you can configure CHAP authentication to control application servers access to the storage system.

Adjust the driver configuration file as follows:

<Initiator ALUA="xxx" CHAPinfo="xxx" Name="xxx" TargetIP="x.x.x.x"/>

ALUA indicates a multipathing mode. 0 indicates that ALUA is disabled. 1 indicates that ALUA is enabled. CHAPinfo indicates the user name and password authenticated by CHAP. The format is mmuser; mm-user@storage. The user name and password are separated by semicolons (;).

Configuring multiple storage

Multiple storage systems configuration example:

enabled_backends = v3_fc, 18000_fc
[v3_fc]
volume_driver = cinder.volume.drivers.huawei.huawei_driver.HuaweiFCDriver
cinder_huawei_conf_file = /etc/cinder/cinder_huawei_conf_v3_fc.xml
volume_backend_name = huawei_v3_fc
[18000_fc]
volume_driver = cinder.volume.drivers.huawei.huawei_driver.HuaweiFCDriver
cinder_huawei_conf_file = /etc/cinder/cinder_huawei_conf_18000_fc.xml
volume_backend_name = huawei_18000_fc

Configuration file parameters

This section describes mandatory and optional configuration file parameters of the Huawei volume driver.

Mandatory parameters
Parameter Default value Description Applicable to
Product - Type of a storage product. Possible values are TV2, 18000 and V3. All
Protocol - Type of a connection protocol. The possible value is either 'iSCSI' or 'FC'. All
RestURL - Access address of the REST interface, https://x.x.x.x/devicemanager/rest/. The value x.x.x.x indicates the management IP address. OceanStor 18000 uses the preceding setting, and V2 and V3 requires you to add port number 8088, for example, https://x.x.x.x:8088/deviceManager/rest/. If you need to configure multiple RestURL, separate them by semicolons (;). All
UserName - User name of a storage administrator. All
UserPassword - Password of a storage administrator. All
StoragePool - Name of a storage pool to be used. If you need to configure multiple storage pools, separate them by semicolons (;). All

Note

The value of StoragePool cannot contain Chinese characters.

Optional parameters
Parameter Default value Description Applicable to
LUNType Thick Type of the LUNs to be created. The value can be Thick or Thin. Dorado series only support Thin LUNs. All
WriteType 1 Cache write type, possible values are: 1 (write back), 2 (write through), and 3 (mandatory write back). All
LUNcopyWaitInterval 5 After LUN copy is enabled, the plug-in frequently queries the copy progress. You can set a value to specify the query interval. All
Timeout 432000 Timeout interval for waiting LUN copy of a storage device to complete. The unit is second. All
Initiator Name - Name of a compute node initiator. All
Initiator TargetIP - IP address of the iSCSI port provided for compute nodes. All
Initiator TargetPortGroup - IP address of the iSCSI target port that is provided for compute nodes. All
DefaultTargetIP - Default IP address of the iSCSI target port that is provided for compute nodes. All
OSType Linux Operating system of the Nova compute node’s host. All
HostIP - IP address of the Nova compute node’s host. All
metro_san_user - User name of a storage administrator of hypermetro remote device. V3R3/2600 V3R5/18000 V3R3
metro_san_password - Password of a storage administrator of hypermetro remote device. V3R3/2600 V3R5/18000 V3R3
metro_domain_name - Hypermetro domain name configured on ISM. V3R3/2600 V3R5/18000 V3R3
metro_san_address - Access address of the REST interface, https://x.x.x.x/devicemanager/rest/. The value x.x.x.x indicates the management IP address. V3R3/2600 V3R5/18000 V3R3
metro_storage_pools - Remote storage pool for hypermetro. V3R3/2600 V3R5/18000 V3R3
backend_id - Target device ID. All
storage_pool - Pool name of target backend when failover for replication. All
san_address - Access address of the REST interface, https://x.x.x.x/devicemanager/rest/. The value x.x.x.x indicates the management IP address. All
san_user - User name of a storage administrator of replication remote device. All
san_password - Password of a storage administrator of replication remote device. All
iscsi_default_target_ip - Remote transacton port IP. All

Important

The Initiator Name, Initiator TargetIP, and Initiator TargetPortGroup are ISCSI parameters and therefore not applicable to FC.

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