StorageExtent describes the capabilities and management of the various media that exist to store data and allow data retrieval. This superclass could be used to represent the various components of RAID (Hardware or Software) or as a raw logical extent on top of physical media.
CIM_StorageExtent - child subclasses in ROOT\CIMV2\storage\iscsitarget
{'Description':'The state requested for the element. This information will be placed into the RequestedState property of the instance if the return code of the RequestStateChange method is 0 ('Completed with No Error'), 3 ('Timeout'), or 4096 (0x1000) ('Job Started'). Refer to the description of the EnabledState and RequestedState properties for the detailed explanations of the RequestedState values.','ModelCorrespondence':['CIM_EnabledLogicalElement.RequestedState'],'ValueMap':['2', '3', '4', '6', '7', '8', '9', '10', '11', '..', '32768..65535'],'Values':['Enabled', 'Disabled', 'Shut Down', 'Offline', 'Test', 'Defer', 'Quiesce', 'Reboot', 'Reset', 'DMTF Reserved', 'Vendor Reserved']}
{'Description':'Reference to the job (can be null if the task is completed).'}
TimeoutPeriod
datetime
2
✓
-
{'Description':'A timeout period that specifies the maximum amount of time that the client expects the transition to the new state to take. The interval format must be used to specify the TimeoutPeriod. A value of 0 or a null parameter indicates that the client has no time requirements for the transition. If this property does not contain 0 or null and the implementation does not support this parameter, a return code of 'Use Of Timeout Parameter Not Supported' must be returned.'}
{'Description':'The power state to set.','ValueMap':['1', '2', '3', '4', '5', '6'],'Values':['Full Power', 'Power Save - Low Power Mode', 'Power Save - Standby', 'Power Save - Other', 'Power Cycle', 'Power Off']}
Time
datetime
1
✓
-
{'Description':'Time indicates when the power state should be set, either as a regular date-time value or as an interval value (where the interval begins when the method invocation is received.'}
'Access describes whether the media is readable (value=1), writeable (value=2), or both (value=3). "Unknown" (0) and "Write Once" (4) can also be defined.'
'Size in bytes of the blocks which form this StorageExtent. If variable block size, then the maximum block size in bytes should be specified. If the block size is unknown or if a block concept is not valid (for example, for AggregateExtents, Memory or LogicalDisks), enter a 1.'
'The maximum number of blocks, of size BlockSize, which are available for consumption when layering StorageExtents using the BasedOn association. This property only has meaning when this StorageExtent is an Antecedent reference in a BasedOn relationship. For example, a StorageExtent could be composed of 120 blocks. However, the Extent itself may use 20 blocks for redundancy data. If another StorageExtent is BasedOn this Extent, only 100 blocks would be available to it. This information ('100 blocks is available for consumption') is indicated in the ConsumableBlocks property.'
'Current value for Delta reservation. This is a percentage that specifies the amount of space that should be reserved in a replica for caching changes.'
'StorageExtents have additional status information beyond that captured in the OperationalStatus and other properties, inherited from ManagedSystemElement. This additional information (for example, "Protection Disabled", value=9) is captured in the ExtentStatus property. 'In-Band Access Granted' says that access to data on an extent is granted to some consumer and is only valid when 'Exported' is also set. It is set as a side effect of PrivilegeManagementService.ChangeAccess or equivalent interfaces. 'Imported' indicates that the extent is used in the current system, but known to be managed by some other system. For example, a server imports volumes from a disk array. 'Exported' indicates the extent is meant to be used by some comsumer. A disk array's logical units are exported. Intermediate composite extents may be neither imported nor exported.'
'The list here applies to all StorageExtent subclasses. Please look at the Description in each subclass for guidelines on the approriate values for that subclass. Note that any of these formats could apply to a CompositeExtent.
Note - this property originally touched on two concepts that are now separated into this property and NameNamespace. Values 2,3,4,5,6, and 8 are retained for backwards compatibility but are deprecated in lieu of the corresponding values in CIM_StorageExtent.NameNamespace.
For example, the preferred source for SCSI virtual (RAID) disk names is from Inquiry VPD page 83 response, type 3 identifiers. These will have NameFormat set to 'NAA' and NameNamespace to 'VPD83Type3'.
Format of the Name property. Values for extents representing SCSI volumes are (per SCSI SPC-3): 2 = VPD Page 83, NAA IEEE Registered Extended (VPD83NAA6) (DEPRECATED) 3 = VPD Page 83, NAA IEEE Registered (VPD83NAA5) (DEPRECATED) 4 = VPD Page 83, (VPD83Type2) (DEPRECATED) 5 = VPD Page 83, T10 Vendor Identification (VPD83Type1) (DEPRECATED) 6 = VPD Page 83, Vendor Specific (VPD83Type0) (DEPRECATED) 7 = Serial Number/Vendor/Model (SNVM) SNVM is 3 strings representing the vendor name, product name within the vendor namespace, and the serial number within the model namespace. Strings are delimited with a '+'. Spaces may be included and are significant. The serial number is the text representation of the serial number in hexadecimal upper case. This represents the vendor and model ID from SCSI Inquiry data; the vendor field MUST be 8 characters wide and the product field MUST be 16 characters wide. For example, 'ACME____+SUPER DISK______+124437458' (_ is a space character) 8 = Node WWN (for single LUN/controller) (NodeWWN) (DEPRECATED) 9 = NAA as a generic format. See http://standards.ieee.org/regauth/oui/tutorials/fibrecomp_id.html. Formatted as 16 or 32 unseparated uppercase hex characters (2 per binary byte). For example '21000020372D3C73' 10 = EUI as a generic format (EUI64) See http://standards.ieee.org/regauth/oui/tutorials/EUI64.html. Formatted as 16 unseparated uppercase hex characters (2 per binary byte) 11 = T10 vendor identifier format as returned by SCSI Inquiry VPD page 83, identifier type 1. See T10 SPC-3 specification. This is the 8-byte ASCII vendor ID from the T10 registry followed by a vendor specific ASCII identifier; spaces are permitted. For non SCSI volumes, 'SNVM' may be the most appropriate choice. 12 = OS Device Name (for LogicalDisks). See LogicalDisk Name description for details.'
'The preferred source SCSI for volume names is SCSI VPD Page 83 responses. Page 83 returns a list of identifiers for various device elements. The metadata for each identifier includes an Association field, identifiers with association of 0 apply to volumes. Page 83 supports several namespaces specified in the Type field in the identifier metadata. See SCSI SPC-3 specification. 2 = VPD Page 83, Type 3 NAA (NameFormat SHOULD be NAA) 3 = VPD Page 83, Type 2 EUI64 (NameFormat EUI) 4 = VPD Page 83, Type 1 T10 Vendor Identification (NameFormat T10) Less preferred volume namespaces from other interfaces: 5 = VPD page 80, Serial number (NameFormat SHOULD be Other) 6 = FC NodeWWN (NameFormat SHOULD be NAA or EUI) 7 = Serial Number/Vendor/Model (NameFormat SHOULD be SNVM) The preferred namespace for LogigicalDisk names is platform specific device namespace; see LogigicalDIsk Description. 8 = OS Device Namespace.'
MappingStrings
['SPC.INCITS-T10| VPD 83, Association 0 | Identifier']
'Total number of logically contiguous blocks, of size Block Size, which form this Extent. The total size of the Extent can be calculated by multiplying BlockSize by NumberOfBlocks. If the BlockSize is 1, this property is the total size of the Extent.'
'If true, "Primordial" indicates that the containing System does not have the ability to create or delete this operational element. This is important because StorageExtents are assembled into higher-level abstractions using the BasedOn association. Although the higher-level abstractions can be created and deleted, the most basic, (i.e. primordial), hardware-based storage entities cannot. They are physically realized as part of the System, or are actually managed by some other System and imported as if they were physically realized. In other words, a Primordial StorageExtent exists in, but is not created by its System and conversely a non-Primordial StorageExtent is created in the context of its System. For StorageVolumes, this property will generally be false. One use of this property is to enable algorithms that aggregate StorageExtent.ConsumableSpace across all, StorageExtents but that also want to distinquish the space that underlies Primordial StoragePools. Since implementations are not required to surface all Component StorageExtents of a StoragePool, this information is not accessible in any other way.'
'Boolean set to TRUE if the Storage is sequentially accessed by a MediaAccessDevice. A TapePartition is an example of a sequentially accessed StorageExtent. StorageVolumes, Disk Partitions and LogicalDisks represent randomly accessed Extents.'
'StorageExtent describes the capabilities and management of the various media that exist to store data and allow data retrieval. This superclass could be used to represent the various components of RAID (Hardware or Software) or as a raw logical extent on top of physical media.'