The Dell Storage Center volume driver interacts with configured Storage Center arrays.
The Dell Storage Center driver manages a Storage Center array via the Dell Storage Manager (DSM) Data Collector or by directly connecting to the Storage Center at the cost of replication and Live Volume functionality. Also note that the directly connecting to the Storage Center is only supported with Storage Center OS 7.1.1 or later. Any version of Storage Center OS supported by DSM is supported if connecting via the Data Collector.
Driver configuration settings and Storage Center options are defined in the
cinder.conf
file.
Prerequisites:
Storage Center OS version 7.1.1 or later and OpenStack Ocata or later must be used if connecting directly to the Storage Center.
Dell Storage Manager 2015 R1 or later if connecting through DSM.
The Dell Storage Center volume driver provides the following Cinder volume operations:
Create, delete, attach (map), and detach (unmap) volumes.
Create, list, and delete volume snapshots.
Create a volume from a snapshot.
Copy an image to a volume.
Copy a volume to an image.
Clone a volume.
Extend a volume.
Create, delete, list and update a consistency group.
Create, delete, and list consistency group snapshots.
Manage an existing volume.
Replication (Requires DSM.)
Failover-host for replicated back ends. (Requires DSM.)
Create a replication using Live Volume. (Requires DSM.)
Volume type extra specs can be used to enable a variety of Dell Storage Center options. Selecting Storage Profiles, Replay Profiles, enabling replication, replication options including Live Volume and Active Replay replication. (Replication options are available when connected via DSM.)
Storage Profiles control how Storage Center manages volume data. For a given volume, the selected Storage Profile dictates which disk tier accepts initial writes, as well as how data progression moves data between tiers to balance performance and cost. Predefined Storage Profiles are the most effective way to manage data in Storage Center.
By default, if no Storage Profile is specified in the volume extra
specs, the default Storage Profile for the user account configured for
the Block Storage driver is used. The extra spec key
storagetype:storageprofile
with the value of the name of the Storage
Profile on the Storage Center can be set to allow to use Storage
Profiles other than the default.
For ease of use from the command line, spaces in Storage Profile names
are ignored. As an example, here is how to define two volume types using
the High Priority
and Low Priority
Storage Profiles:
$ openstack volume type create "GoldVolumeType"
$ openstack volume type set --property storagetype:storageprofile=highpriority "GoldVolumeType"
$ openstack volume type create "BronzeVolumeType"
$ openstack volume type set --property storagetype:storageprofile=lowpriority "BronzeVolumeType"
Replay Profiles control how often the Storage Center takes a replay of a
given volume and how long those replays are kept. The default profile is
the daily
profile that sets the replay to occur once a day and to
persist for one week.
The extra spec key storagetype:replayprofiles
with the value of the
name of the Replay Profile or profiles on the Storage Center can be set
to allow to use Replay Profiles other than the default daily
profile.
As an example, here is how to define a volume type using the hourly
Replay Profile and another specifying both hourly
and the default
daily
profile:
$ openstack volume type create "HourlyType"
$ openstack volume type set --property storagetype:replayprofile=hourly "HourlyType"
$ openstack volume type create "HourlyAndDailyType"
$ openstack volume type set --property storagetype:replayprofiles=hourly,daily "HourlyAndDailyType"
Note the comma separated string for the HourlyAndDailyType
.
Replication for a given volume type is enabled via the extra spec
replication_enabled
.
To create a volume type that specifies only replication enabled back ends:
$ openstack volume type create "ReplicationType"
$ openstack volume type set --property replication_enabled='<is> True' "ReplicationType"
Extra specs can be used to configure replication. In addition to the Replay
Profiles above, replication:activereplay
can be set to enable replication
of the volume’s active replay. And the replication type can be changed to
synchronous via the replication_type
extra spec can be set.
To create a volume type that enables replication of the active replay:
$ openstack volume type create "ReplicationType"
$ openstack volume type key --property replication_enabled='<is> True' "ReplicationType"
$ openstack volume type key --property replication:activereplay='<is> True' "ReplicationType"
To create a volume type that enables synchronous replication :
$ openstack volume type create "ReplicationType"
$ openstack volume type key --property replication_enabled='<is> True' "ReplicationType"
$ openstack volume type key --property replication_type='<is> sync' "ReplicationType"
To create a volume type that enables replication using Live Volume:
$ openstack volume type create "ReplicationType"
$ openstack volume type key --property replication_enabled='<is> True' "ReplicationType"
$ openstack volume type key --property replication:livevolume='<is> True' "ReplicationType"
If QOS options are enabled on the Storage Center they can be enabled via extra
specs. The name of the Volume QOS can be specified via the
storagetype:volumeqos
extra spec. Likewise the name of the Group QOS to
use can be specified via the storagetype:groupqos
extra spec. Volumes
created with these extra specs set will be added to the specified QOS groups.
To create a volume type that sets both Volume and Group QOS:
$ openstack volume type create "StorageCenterQOS"
$ openstack volume type key --property 'storagetype:volumeqos'='unlimited' "StorageCenterQOS"
$ openstack volume type key --property 'storagetype:groupqos'='limited' "StorageCenterQOS"
Data reduction profiles can be specified in the
storagetype:datareductionprofile
extra spec. Available options are None,
Compression, and Deduplication. Note that not all options are available on
every Storage Center.
To create volume types that support no compression, compression, and deduplication and compression respectively:
$ openstack volume type create "NoCompressionType"
$ openstack volume type key --property 'storagetype:datareductionprofile'='None' "NoCompressionType"
$ openstack volume type create "CompressedType"
$ openstack volume type key --property 'storagetype:datareductionprofile'='Compression' "CompressedType"
$ openstack volume type create "DedupType"
$ openstack volume type key --property 'storagetype:datareductionprofile'='Deduplication' "DedupType"
Note: The default is no compression.
Use the following instructions to update the configuration file for iSCSI:
default_volume_type = delliscsi
enabled_backends = delliscsi
[delliscsi]
# Name to give this storage back-end
volume_backend_name = delliscsi
# The iSCSI driver to load
volume_driver = cinder.volume.drivers.dell_emc.sc.storagecenter_iscsi.SCISCSIDriver
# IP address of the DSM or the Storage Center if attaching directly.
san_ip = 172.23.8.101
# DSM user name
san_login = Admin
# DSM password
san_password = secret
# The Storage Center serial number to use
dell_sc_ssn = 64702
# ==Optional settings==
# The DSM API port
dell_sc_api_port = 3033
# Server folder to place new server definitions
dell_sc_server_folder = devstacksrv
# Volume folder to place created volumes
dell_sc_volume_folder = devstackvol/Cinder
Use the following instructions to update the configuration file for fibre channel:
default_volume_type = dellfc
enabled_backends = dellfc
[dellfc]
# Name to give this storage back-end
volume_backend_name = dellfc
# The FC driver to load
volume_driver = cinder.volume.drivers.dell_emc.sc.storagecenter_fc.SCFCDriver
# IP address of the DSM or the Storage Center if attaching directly.
san_ip = 172.23.8.101
# DSM user name
san_login = Admin
# DSM password
san_password = secret
# The Storage Center serial number to use
dell_sc_ssn = 64702
# ==Optional settings==
# The DSM API port
dell_sc_api_port = 3033
# Server folder to place new server definitions
dell_sc_server_folder = devstacksrv
# Volume folder to place created volumes
dell_sc_volume_folder = devstackvol/Cinder
It is possible to specify a secondary DSM to use in case the primary DSM fails.
Configuration is done through the cinder.conf. Both DSMs have to be configured to manage the same set of Storage Centers for this backend. That means the dell_sc_ssn and any Storage Centers used for replication or Live Volume.
Add network and credential information to the backend to enable Dual DSM.
[dell]
# The IP address and port of the secondary DSM.
secondary_san_ip = 192.168.0.102
secondary_sc_api_port = 3033
# Specify credentials for the secondary DSM.
secondary_san_login = Admin
secondary_san_password = secret
The driver will use the primary until a failure. At that point it will attempt to use the secondary. It will continue to use the secondary until the volume service is restarted or the secondary fails at which point it will attempt to use the primary.
Note: Requires two DSM Data Collectors.
Add the following to the back-end specification to specify another Storage Center to replicate to.
[dell]
replication_device = target_device_id: 65495, qosnode: cinderqos
The target_device_id
is the SSN of the remote Storage Center and the
qosnode
is the QoS Node setup between the two Storage Centers.
Note that more than one replication_device
line can be added. This will
slow things down, however.
A volume is only replicated if the volume is of a volume-type that has
the extra spec replication_enabled
set to <is> True
.
Warning: replication_device requires DSM. If this is on a backend that is directly connected to the Storage Center the driver will not load as it is unable to meet the replication requirement.
This driver supports both standard replication and Live Volume (if supported and licensed). The main difference is that a VM attached to a Live Volume is mapped to both Storage Centers. In the case of a failure of the primary Live Volume still requires a failover-host to move control of the volume to the second controller.
Existing mappings should work and not require the instance to be remapped but it might need to be rebooted.
Live Volume is more resource intensive than replication. One should be sure to plan accordingly.
The failover-host command is designed for the case where the primary system is not coming back. If it has been executed and the primary has been restored it is possible to attempt a failback.
Simply specify default as the backend_id.
$ cinder failover-host cinder@delliscsi --backend_id default
Non trivial heavy lifting is done by this command. It attempts to recover as best it can but if things have diverged too far it can only do so much. It is also a one time only command so do not reboot or restart the service in the middle of it.
Failover and failback are significant operations under OpenStack Cinder. Be sure to consult with support before attempting.
This option allows one to set a default Server OS type to use when creating a server definition on the Dell Storage Center.
When attaching a volume to a node the Dell Storage Center driver creates a server definition on the storage array. This definition includes a Server OS type. The type used by the Dell Storage Center cinder driver is “Red Hat Linux 6.x”. This is a modern operating system definition that supports all the features of an OpenStack node.
Add the following to the back-end specification to specify the Server OS to use when creating a server definition. The server type used must come from the drop down list in the DSM.
[dell]
dell_server_os = 'Red Hat Linux 7.x'
Note that this server definition is created once. Changing this setting after the fact will not change an existing definition. The selected Server OS does not have to match the actual OS used on the node.
This option excludes a list of Storage Center ISCSI fault domains from the ISCSI properties returned by the initialize_connection call. This only applies to the ISCSI driver.
Add the excluded_domain_ips option into the backend config for several fault domains to be excluded. This option takes a comma separated list of Target IP addresses listed under the fault domain. Older versions of DSM (EM) may list this as the Well Known IP Address.
Note that the included_domain_ips
takes precedance over
excluded_domain_ips
. When included_domain_ips
is not an empty list,
the option excluded_domain_ips
is ignored.
Add the following to the back-end specification to exclude the domains at 172.20.25.15 and 172.20.26.15.
[dell]
excluded_domain_ips=172.20.25.15, 172.20.26.15, 0:0:0:0:0:ffff:c0a8:15
This option includes or will whitelist a list of Storage Center ISCSI fault domains from the ISCSI properties returned by the initialize_connection call. This only applies to the ISCSI driver.
Add the included_domain_ips
option into the backend config for several
default domains to be included or whitelisted. This option takes a comma
separated list of Target IP addresses listed under the fault domain. Older
versions of DSM (EM) may list this as the Well Known IP Address.
Note that the included_domain_ips
takes precedance over
excluded_domain_ips
. When included_domain_ips
is not an empty list,
the option excluded_domain_ips
is ignored.
Add the following to the back-end specification to include or whitelist the domains at 172.20.25.15 and 172.20.26.15.
[dell]
included_domain_ips=172.20.25.15, 172.20.26.15, 0:0:0:0:0:ffff:c0a8:15
The user can specify timeouts for Dell SC REST API calls.
To set the timeout for ASYNC REST API calls in seconds.
[dell]
dell_api_async_rest_timeout=15
To set the timeout for SYNC REST API calls in seconds.
[dell]
dell_api_sync_rest_timeout=30
Generally these should not be set without guidance from Dell support.
The following table contains the configuration options specific to the Dell Storage Center volume driver.
Configuration option = Default value |
Description |
---|---|
|
(Integer) Dell SC API async call default timeout in seconds. |
|
(Integer) Dell SC API sync call default timeout in seconds. |
|
(Port(min=0, max=65535)) Dell API port |
|
(String) Name of the server folder to use on the Storage Center |
|
(Integer) Storage Center System Serial Number |
|
(Boolean) Enable HTTPS SC certificate verification |
|
(String) Name of the volume folder to use on the Storage Center |
|
(String) Server OS type to use when creating a new server on the Storage Center. |
|
(List of IPAddress) Comma separated Fault Domain IPs to be excluded from iSCSI returns. |
|
(List of IPAddress) Comma separated Fault Domain IPs to be included from iSCSI returns. |
|
(Port(min=0, max=65535)) Port to use to access the SAN API |
|
(String) Cluster name to use for creating volumes |
|
(String) IP address of SAN controller |
|
(Boolean) Execute commands locally instead of over SSH; use if the volume service is running on the SAN device |
|
(String) Username for SAN controller |
|
(String) Password for SAN controller |
|
(String) Filename of private key to use for SSH authentication |
|
(Port(min=0, max=65535)) SSH port to use with SAN |
|
(Boolean) Use thin provisioning for SAN volumes? |
|
(String) IP address of secondary DSM controller |
|
(String) Secondary DSM user name |
|
(String) Secondary DSM user password name |
|
(Port(min=0, max=65535)) Secondary Dell API port |
|
(Integer) SSH connection timeout in seconds |
|
(Integer) Maximum ssh connections in the pool |
|
(Integer) Minimum ssh connections in the pool |
|
(IPAddress) DEPRECATED: Fault Domain IP to be excluded from iSCSI returns. DEPRECATED |
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