| Name | Data Type | Qualifiers |
| Name | Data Type | Value | Scope | Flavors |
| Caption | string |
| Description | string | The Caption property is a short textual description (one- line string) of the object. | None | TRANSLATABLE= true |
| MaxLen | uint32 | 64 | None | None |
| ChangeableType | uint16 |
| Description | string | Enumeration indicating the type of setting. 0 "Not Changeable - Persistent" indicates the instance of SettingData represents primordial settings and shall not be modifiable. 1 "Changeable - Transient" indicates the SettingData represents modifiable settings that are not persisted. Establishing persistent settings from transient settings may be supported. 2 "Changeable - Persistent" indicates the SettingData represents a persistent configuration that may be modified. 3 "Not Changeable - Transient" indicates the SettingData represents a snapshot of the settings of the associated ManagedElement and is not persistent. | None | TRANSLATABLE= true |
| Experimental | boolean | true | TOSUBCLASS= false | None |
| ValueMap | string | 0, 1, 2, 3 | None | None |
| Values | string | Not Changeable - Persistent, Changeable - Transient, Changeable - Persistent, Not Changeable - Transient | None | TRANSLATABLE= true |
| ConfigurationName | string |
| Description | string | An instance of CIM_SettingData may correspond to a well-known configuration that exists for an associated CIM_ManagedElement. If the ConfigurationName property is non-NULL, the instance of CIM_SettingData shall correspond to a well-known configuration for a Managed Element, the value of the ConfigurationName property shall be the name of the configuration, and the ChangeableType property shall have the value 0 or 2. A value of NULL for the ConfigurationName property shall mean that the instance of CIM_SettingData does not correspond to a well-known configuration for a Managed Element or that this information is unknown. | None | TRANSLATABLE= true |
| Experimental | boolean | true | TOSUBCLASS= false | None |
| Description | string |
| Description | string | The Description property provides a textual description of the object. | None | TRANSLATABLE= true |
| ElementName | string |
| Description | string | The user-friendly name for this instance of SettingData. In addition, the user-friendly name can be used as an index property for a search or query. (Note: The name does not have to be unique within a namespace.) | None | TRANSLATABLE= true |
| Override | string | ElementName | TOSUBCLASS= false | None |
| Required | boolean | true | None | OVERRIDABLE= false
|
| Generation | uint64 |
| Description | string | Generation is an optional, monotonically increasing property that may be used to identify a particular generation of the resource represented by this class.
If Generation is supported by the implementation, its value shall not be null.
Except as otherwise specified, a value (including null) of Generation specified at creation time shall be replaced by null if Generation is not supported by the implementation or shall be a, (possibly different), non-null value if the implementation does support Generation.
After creation and if supported, Generation shall be updated, at least once per access, whenever the represented resource is modified, regardless of the source of the modification.
Note: the Generation value only needs to be updated once between references, even if the resource is updated many times. The key point is to assure that it will be different if there have been updates, not to count each update.
Note: unless otherwise specified, the value of Generation within one instance is not required to be coordinated with the value of Generation in any other instance.
Note:the semantics of the instance, (as defined by its creation class), define the underlying resource. That underlying resource may be a collection or aggregation of resources. And, in that case, the semantics of the instance further define when updates to constituent resources also require updates to the Generation of the collective resource. Default behavior of composite aggregations should be to update the Generation of the composite whenever the Generation of a component is updated.
Subclasses may define additional requirements for updates on some or all of related instances.
For a particular instance, the value of Generation may wrap through zero, but the elapsed time between wraps shall be greater than 10's of years.
This class does not require Generation to be unique across instances of other classes nor across instances of the same class that have different keys. Generation shall be different across power cycles, resets, or reboots if any of those actions results in an update. Generation may be different across power cycles, resets, or reboots if those actions do not result in an update. If the Generation property of an instance is non-null, and if any attempt to update the instance includes the Generation property, then if it doesn't match the current value, the update shall fail.
The usage of this property is intended to be further specified by applicable management profiles.
Typically, a client will read the value of this property and then supply that value as input to an operation that modifies the instance in some means. This may be via an explicit parameter in an extrinsic method or via an embedded value in an extrinsic method or intrinsic operation.
For example: a profile may require that an intrinsic instance modification supply the Generation property and that it must match for the modification to succeed. | None | TRANSLATABLE= true |
| Experimental | boolean | true | TOSUBCLASS= false | None |
| InstanceID | string |
| Description | string | Within the scope of the instantiating Namespace, InstanceID opaquely and uniquely identifies an instance of this class. To ensure uniqueness within the NameSpace, the value of InstanceID should be constructed using the following "preferred" algorithm:
<OrgID>:<LocalID>
Where <OrgID> and <LocalID> are separated by a colon (:), and where <OrgID> must include a copyrighted, trademarked, or otherwise unique name that is owned by the business entity that is creating or defining the InstanceID or that is a registered ID assigned to the business entity by a recognized global authority. (This requirement is similar to the <Schema Name>_<Class Name> structure of Schema class names.) In addition, to ensure uniqueness, <OrgID> must not contain a colon (:). When using this algorithm, the first colon to appear in InstanceID must appear between <OrgID> and <LocalID>.
<LocalID> is chosen by the business entity and should not be reused to identify different underlying (real-world) elements. If the above "preferred" algorithm is not used, the defining entity must assure that the resulting InstanceID is not reused across any InstanceIDs produced by this or other providers for the NameSpace of this instance.
For DMTF-defined instances, the "preferred" algorithm must be used with the <OrgID> set to CIM. | None | TRANSLATABLE= true |
| Key | boolean | true | None | OVERRIDABLE= false
|
| Override | string | InstanceID | TOSUBCLASS= false | None |
| LoadBalanceAlgorithm | uint16 |
| Description | string | The desired load balance algorithm.
Least Blocks, Least IO, and Address Region are used in storage device path redundancy drivers to optimize load balancing by routing requests to a path with the least queued blocks or IO requests, or based on locality of reference.
'Product Specific' indicates that the algorithm is optimized for a particular type of product. Information about that product SHOULD be provided in an associated CIM_Product instance. | None | TRANSLATABLE= true |
| ModelCorrespondence | string | CIM_RedundancySet.LoadBalanceAlgorithm | None | None |
| ValueMap | string | 2, 3, 4, 5, 6, 7, .., 0x8000.. | None | None |
| Values | string | No Load Balancing, Round Robin, Least Blocks, Least IO, Address Region, Product Specific, DMTF Reserved, Vendor Reserved | None | TRANSLATABLE= true |
| Write | boolean | true | None | None |
| MaxNumberSupported | uint32 |
| Description | string | MaxNumberSupported indicates the largest number of elements that will be able to participate in the RedundancySet. A value of 0 shall indicate no limit on the number of elements. | None | TRANSLATABLE= true |
| ModelCorrespondence | string | CIM_RedundancySet.MaxNumberSupported | None | None |
| MinNumberNeeded | uint32 |
| Description | string | MinNumberNeeded indicates the smallest number of elements that will be required to be operational in order for components dependent on the redundancy set to function. | None | TRANSLATABLE= true |
| MinValue | sint64 | 0 | None | None |
| ModelCorrespondence | string | CIM_RedundancySet.MinNumberNeeded | None | None |
| TypeOfSet | uint16 |
| ArrayType | string | Indexed | None | OVERRIDABLE= false
|
| Description | string | TypeOfSet provides information on the type of redundancy. - N+1 (=2) indicates all members are active, are unaware and function independent of one another. However, there exist at least one extra member to achieve functionality. 'Sparing' is implied (i.e. each member can be a spare for the other(s). An example of N+1 is a system that has 2 power supplies, but needs only 1 power supply to functioning properly.
- Load Balanced (=3) indicates all members are active. However, there functionality is not independent of each other. Their functioning is determined by some sort of load balancing algorithm (implemented in hardware and/or software). 'Sparing' is implied (i.e. each member can be a spare for the other(s).
- Sparing (=4) indicates that all members are active and are aware of each others. However, their functionality is independent until failover. Each member can be a spare for the other(s).
- Limited Sparing (=5) indicates that all members are active, and they may or may not be aware of each and they are not spares for each other. Instead, their redundancy is indicated by the IsSpare relationship. | None | TRANSLATABLE= true |
| ModelCorrespondence | string | CIM_RedundancySet.TypeOfSet | None | None |
| ValueMap | string | 2, 3, 4, 5, .., 0x8000.. | None | None |
| Values | string | N+1, Load Balanced, Sparing, Limited Sparing, DMTF Reserved, Vendor Reserved | None | TRANSLATABLE= true |
| Write | boolean | true | None | None |
| VendorIdentifyingInfo | string |
| Description | string | VendorIdentifyingInfo captures the vendor identifying data for the RedundancySet. One example is the product name for a cluster. | None | TRANSLATABLE= true |
| ModelCorrespondence | string | CIM_RedundancySet.VendorIdentifyingInfo | None | None |
| Write | boolean | true | None | None |
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