// =================================================================== // Title: Device Storage Services 2.8 // Filename: Device28_StorageServices.mof // Version: 2.8 // Release: Preliminary // Date: 08/18/2003 // =================================================================== // Copyright 2002-2003 Distributed Management Task Force, Inc. (DMTF). // All rights reserved. // DMTF is a not-for-profit association of industry members dedicated // to promoting enterprise and systems management and interoperability. // DMTF specifications and documents may be reproduced for uses // consistent with this purpose by members and non-members, // provided that correct attribution is given. // As DMTF specifications may be revised from time to time, // the particular version and release date should always be noted. // // Implementation of certain elements of this standard or proposed // standard may be subject to third party patent rights, including // provisional patent rights (herein "patent rights"). DMTF makes // no representations to users of the standard as to the existence // of such rights, and is not responsible to recognize, disclose, or // identify any or all such third party patent right, owners or // claimants, nor for any incomplete or inaccurate identification or // disclosure of such rights, owners or claimants. DMTF shall have no // liability to any party, in any manner or circumstance, under any // legal theory whatsoever, for failure to recognize, disclose, or // identify any such third party patent rights, or for such party's // reliance on the standard or incorporation thereof in its product, // protocols or testing procedures. DMTF shall have no liability to // any party implementing such standard, whether such implementation // is foreseeable or not, nor to any patent owner or claimant, and shall // have no liability or responsibility for costs or losses incurred if // a standard is withdrawn or modified after publication, and shall be // indemnified and held harmless by any party implementing the // standard from any and all claims of infringement by a patent owner // for such implementations. // // For information about patents held by third-parties which have // notified the DMTF that, in their opinion, such patent may relate to // or impact implementations of DMTF standards, visit // http://www.dmtf.org/about/policies/disclosures.php. // =================================================================== // Description: The Device Model extends the management concepts that // are related to LogicalDevices. This file defines // a model for storage services. // // The object classes below are listed in an order that // avoids forward references. Required objects, defined // by other working groups, are omitted. // ================================================================== // Change Log for v2.8 Preliminary // CR997 - clarify StorageEfficiencyHint // CR1028 - Add CreateSetting to StorageCapabilities // CR1033 - Extent copy services. // CR1044 - Add: // StoragePool.TotalManagedSpace // StoragePool.TotalAvailableSpace // StoragePool.Primordial // - Remove TotalAvailableSpace // CR1046 - Add StorageConfigurationCapabilities // CR1141 - Correction of StorageSynchronized.SyncState. // // Change Log for v2.7.1 // - Fix MaxValue declarations in StorageSettingWithHints - the // properties, AccessDirectionHint and AccessBandwidthWeight // // Change Log for v2.7 Final // CR970 - Removal of the Experimental qualifier // - Remove StoragePool.GetSupportedSize and StoragePool. // GetSupportedSizeRange so they can remain experimental in 2.8 // CR978 - Clarify the use of settings and capabilities // - Change 'spindle' to 'package' // - Add ElementType in StoragePool methods // - Add ElementName to creation methods // - Fix ValueMap issues // - Generalize the "goal" parameter in CreateOrModifyElement // - Change units from megabytes to bytes. // CR994 - Update description for InstanceID // // Change Log for v2.7 // CR775 - Add StorageSetting, StoragePool, StorageCapabilities, // StorageConfigurationService, StorageSettingsWithHints, // HostedStoragePool, and AllocatedStoragePool // CR759 - Add ConfigurationReportingService // CR777 - Add StorageSynchrononized // Add StorageSetting.DeltaReservation, // StorageCpabilities.DeltaReservationMin, // StorageCpabilities.DeltaReservationMax, // StorageCpabilities.DeltaReservationDefault, // StorageConfigurationService.CreateReplica() and // StorageConfigurationService.ModifySynchronization() // CR895 - Correct the method return Values/ValueMaps for all the // methods in the ConfigurationReportingService. // ================================================================== #pragma locale ("en_US") // ================================================================== // StorageSynchronized // ================================================================== [Association, Version ("2.7.1000"), Description ( "Indicates that two Storage objects were replicated at the " "specified point in time. If the CopyType property is set to " "'Sync' (=3), then synchronization of the Storage objects is " "preserved.") ] class CIM_StorageSynchronized : CIM_Synchronized { [Override ("SystemElement"), Description ( "SystemElement represents the Storage that is the source of " "the replication.") ] CIM_ManagedElement REF SystemElement; [Override ("SyncedElement"), Description ( "SyncedElement represents the Storage that is the target of " "the replication.") ] CIM_ManagedElement REF SyncedElement; [Description ( "CopyType describes the Replication Policy. Values are:\n" "Async: create and maintain an asynchronous copy of the source.\n" "Sync: create and maintain a synchronized copy of the source.\n" "UnSyncAssoc: create an unsynchronized copy and maintain an " "association to the source."), ValueMap {"2", "3", "4", "..", "0x8000.."}, Values {"Async", "Sync", "UnSyncAssoc", "DMTF Reserved", "Vendor Specific"} ] uint16 CopyType; [Experimental, Description ( "ReplicaType provides information on how the Replica is " "being maintained. Values are:\n" "Full Copy: This indicates that a full copy of the source " "object is (or will be) generated .\n" "Before Delta: This indicates that the source object will be " "maintained as a delta data from the replica.\n" "After Delta: This indicates that the replica will be " "maintained as delta data from the source object.\n" "Log: This indicates that the replica object is being " "maintained as a log of changes to the source.\n" "Not Specified: The method of maintaining the copy is not " "specified."), ValueMap {"0", "2", "3", "4", "5","..", "0x8000.."}, Values {"Not Specified", "Full Copy", "Before Delta", "After Delta", "Log","DMTF Reserved", "Vendor Specific"} ] uint16 ReplicaType; [Experimental, Description ( "SyncState describes the state of the association with " "respect to Replication activity. Values are:\n" "Initialized: The link to enable replication is established.\n" "PrepareInProgress: Preparation for Replication is in progress.\n" "Prepared: All necessary preparation has completed.\n" "ResyncInProgress: Synchronization or Resynchronization is " "in progress.\n" "This may be the initial 'copy' or subsequent changes being copied.\n" "Synchronized: An Async or Sync replication is currently " "synchronized. When this value is set, SyncMaintained will " "be true.\n" "FractureInProgress: An operation to fracture an Async or " "Sync replication is in progress.\n" "Fractured: An Async or Sync replication is fractured.\n" "QuiesceInProgress: A quiesce operation is in progress.\n" "Quiesced: The replication has been quiesced and is ready " "for a change.\n" "RestoreInProgress: An operation is in progress to copy the " "Synced object to the System object.\n" "Idle: The 'normal' state for an UnSyncAssoc replica.\n" "Broken: The relationship is non-functional due to errors in " "the source, the target, the path between the two or space " "constraints."), ValueMap {"2", "3", "4", "5", "6", "7", "8", "9", "10", "11", "12", "13", "..", "0x8000.."}, Values {"Initialized", "PrepareInProgress", "Prepared", "ResyncInProgress", "Synchronized", "Fracture In Progress", "QuiesceInProgress", "Quiesced", "Restore In Progresss", "Idle", "Broken", "Fractured", "DMTF Reserved", "Vendor Specific"} ] uint16 SyncState; }; // ================================================================== // StorageSetting // ================================================================== [Version ("2.7.0"), Description ( "StorageSetting is roughly equivalent to a Service Level " "Agreement (SLA) It defines the characteristics, qualities of " "service and goals when used in a CreateOrModifyElement " "FromStoragePool or CreateOrModifyStoragePool method in the " "StorageConfigurationService. It specifies a series of " "properties with Maximum and Minimum values that define the " "(inclusive) bounds that the object should maintain. Note that " "the setting is associated to a StorageVolume, using " "ElementSetting.") ] class CIM_StorageSetting : CIM_SettingData { [Write, Description ( "Indicates the desired value for No Single Point of " "Failure. Possible values are false = single point of " "failure, and true = no single point of failure.") ] boolean NoSinglePointOfFailure; [Write, Description ( "DataRedundancyMax describes the maximum number of complete " "copies of data to be maintained. Examples would be RAID 5 " "where 1 copy is maintained and RAID 1 where 2 or more " "copies are maintained. Possible values are 1 to n. The " "desired redundancy is specified using DataRedundancyGoal, " "while the minimum is defined by DataRedundancyMin."), MinValue (1), ModelCorrespondence {"CIM_StorageSetting.DataRedundancyMin", "CIM_StorageSetting.DataRedundancyGoal"} ] uint16 DataRedundancyMax; [Write, Description ( "DataRedundancyMin describes the minimum number of complete " "copies of data to be maintained. Examples would be RAID 5 " "where 1 copy is maintained and RAID 1 where 2 or more " "copies are maintained. Possible values are 1 to n. The " "desired redundancy is specified using DataRedundancyGoal, " "while the maximum is defined by DataRedundancyMax."), MinValue (1), ModelCorrespondence {"CIM_StorageSetting.DataRedundancyMax", "CIM_StorageSetting.DataRedundancyGoal"} ] uint16 DataRedundancyMin; [Write, Description ( "DataRedundancyGoal describes the desired number of complete " "copies of data to be maintained. Examples would be RAID 5 " "where 1 copy is maintained and RAID 1 where 2 or more " "copies are maintained. Possible values are 1 to n. The " "bounds (max and min) for redundancy are defined using the " "properties, DataRedundancyMax and DataRedundancyMin."), MinValue (1), ModelCorrespondence {"CIM_StorageSetting.DataRedundancyMax", "CIM_StorageSetting.DataRedundancyMin"} ] uint16 DataRedundancyGoal; [Write, Description ( "PackageRedundancyMax describes the maximum number of " "redundant packages to be used. For example, in the storage " "domain, package redundancy describes how many disk spindles " "can fail without data loss including, at most, one spare. " "An example would be RAID5 with a spare disk which would " "have a PackageRedundancy of 2. Possible values are 0 to " "n. The desired redundancy is specified using " "PackageRedundancyGoal, while the minimum is defined by " "PackageRedundancyMin."), ModelCorrespondence {"CIM_StorageSetting.PackageRedundancyMin" "CIM_StorageSetting.PackageRedundancyGoal"} ] uint16 PackageRedundancyMax; [Write, Description ( "PackageRedundancyMin describes the minimum number of " "redundant packages to be used. For example, in the storage " "domain, package redundancy describes how many disk spindles " "can fail without data loss including, at most, one spare. " "An example would be RAID5 with a spare disk which would " "have a PackageRedundancy of 2. Possible values are 0 to " "n. The desired redundancy is specified using " "PackageRedundancyGoal, while the maximum is defined by " "PackageRedundancyMax."), ModelCorrespondence {"CIM_StorageSetting.PackageRedundancyMax" "CIM_StorageSetting.PackageRedundancyGoal"} ] uint16 PackageRedundancyMin; [Write, Description ( "PackageRedundancyGoal describes the desired number of " "redundant packages to be used. For example, in the storage " "domain, package redundancy describes how many disk spindles " "can fail without data loss including, at most, one spare. " "An example would be RAID5 with a spare disk which would " "have a PackageRedundancy of 2. Possible values are 0 to " "n. The bounds (max and min) for redundancy are defined " "using the properties, PackageRedundancyMax and " "PackageRedundancyMin."), ModelCorrespondence {"CIM_StorageSetting.PackageRedundancyMax" "CIM_StorageSetting.PackageRedundancyMin"} ] uint16 PackageRedundancyGoal; [Description ( "DeltaReservationMax is a number between 1 (1%) and a 100 " "(100%) which specifies the maximum amount of space that " "should be reserved in a replica for caching changes. For a " "complete copy this would be 100%. The desired reservation " "is specified using DeltaReservationGoal, while the minimum " "is defined by DeltaReservationMin."), Units ("Percentage"), MinValue (1), MaxValue (100), ModelCorrespondence {"CIM_StorageSetting.DeltaReservationMin" "CIM_StorageSetting.DeltaReservationGoal"} ] uint8 DeltaReservationMax; [Description ( "DeltaReservationMin is a number between 1 (1%) and a 100 " "(100%) which specifies the minimum amount of space that " "should be reserved in a replica for caching changes. For a " "complete copy this would be 100%. The desired reservation " "is specified using DeltaReservationGoal, while the maximum " "is defined by DeltaReservationMax."), Units ("Percentage"), MinValue (1), MaxValue (100), ModelCorrespondence {"CIM_StorageSetting.DeltaReservationMax" "CIM_StorageSetting.DeltaReservationGoal"} ] uint8 DeltaReservationMin; [Description ( "DeltaReservationGoal is a number between 1 (1%) and a 100 " "(100%) which specifies the desired amount of space that " "should be reserved in a replica for caching changes. For a " "complete copy this would be 100%. The bounds (max and min) " "for the reservation are defined using the properties, " "DeltaReservationMax and DeltaReservationMin."), Units ("Percentage"), MinValue (1), MaxValue (100), ModelCorrespondence {"CIM_StorageSetting.DeltaReservationMin" "CIM_StorageSetting.DeltaReservationMax"} ] uint8 DeltaReservationGoal; }; // ================================================================== // StoragePool // ================================================================== [Version ("2.7.1000"), Description ( "A pool of Storage that is managed within the scope of a " "particular System. StoragePools may consist of component " "StoragePools or StorageExtents. StorageExtents that belong to " "the StoragePool have a Component relationship to the " "StoragePool. StorageExtents/StoragePools that are elements of " "a pool have their available space aggregated into the pool. " "StoragePools and StorageVolumes may be created from " "StoragePools. This is indicated by the " "AllocatedFromStoragePool association. StoragePool is scoped " "to a system by the HostedStoragePool association.") ] class CIM_StoragePool : CIM_LogicalElement { [Key, Description ( "Within the scope of the instantiating Namespace, InstanceID " "opaquely and uniquely identifies an instance of this " "class. In order to ensure uniqueness within the NameSpace, " "the value of InstanceID SHOULD be constructed using the " "following 'preferred' algorithm:\n" " :\n" "Where and are separated by a colon ':', " "and where MUST include a copyrighted, trademarked " "or otherwise unique name that is owned by the business " "entity creating/defining the InstanceID, or is a registered " "ID that is assigned to the business entity by a recognized " "global authority (This is similar to the _ structure of Schema class names.) In " "addition, to ensure uniqueness MUST NOT contain a " "colon (':'). When using this algorithm, the first colon to " "appear in InstanceID MUST appear between and .\n" " is chosen by the business entity and SHOULD not " "be re-used to identify different underlying (real-world) " "elements. If the above 'preferred' algorithm is not used, " "the defining entity MUST assure that the resultant " "InstanceID is not re-used across any InstanceIDs produced " "by this or other providers for this instance's NameSpace.\n" "For DMTF defined instances, the 'preferred' algorithm MUST " "be used with the set to 'CIM'.") ] string InstanceID; [Required, Description ( "A unique name in the context of the System that identifies " "this pool."), MaxLen (256) ] string PoolID; [Experimental, Description ( "If true, \"Primordial\" indicates that the containing " "System does not have the ability to create or delete this " "operational element. This is important because " "higher-level StoragePools may be assembled using the " "Component or AllocatedFromStoragePool associations. " "Although the higher-level abstractions can be created and " "deleted, the most basic, (i.e. primordial), hardware-based " "StoragePools 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.") ] boolean Primordial=false; [Experimental, Description ( "The total amount of raw storage (in bytes) managed by this " "StoragePool. This includes all of the bytes consumed to " "create the storage surfaced by this StoragePool, including " "all of the overhead bytes that are not reflected in the " "size of the logical storage allocated from this StoragePool.\n" "Conceptually TotalManagedSpace reflects all storage known " "via Component associations to underlying StorageExtents or " "via AllocatedFromStoragePool associations to underlying " "StoragePools. However, note that this underlying storage " "may not be surfaced by the instrumentation."), Units ("Bytes"), ModelCorrespondence {"StoragePool.RemainingManagedSpace"} ] uint64 TotalManagedSpace; [Experimental, Description ( "The remaining amount of raw storage (in bytes) from the " "TotalManagedSpace of this StoragePool. This property is " "maintained here to provide efficient access to this " "information. However, note that it is possible to compute " "RemainingManagedSpace as (TotalManagedSpace ? " "SUM(References(AllocatedFromStoragePool, SpaceConsumed)). " "Note that SpaceConsumed remains useful to determine the " "amount of raw storage consumed by a particular allocated " "element."), Units ("Bytes"), ModelCorrespondence {"StoragePool.TotalManagedSpace", "AllocatedFromStoragePool.SpaceConsumed"} ] uint64 RemainingManagedSpace; [Description ( "For pools that support discrete sizes for volume or pool " "creation, this method can be used to retrieve a list of " "supported sizes. Note that different pool implementations " "may support either or both the GetSupportedSizes and " "GetSupportedSizeRanges methods at different times, " "depending on Pool configuration. Also note that the " "advertised sizes may change after the call due to requests " "from other clients. If the pool currently only supports a " "range of sizes, then the return value will be set to 1."), ValueMap {"0", "1", "2"}, Values {"Method completed OK", "Method not supported", "Use GetSupportedSizeRange instead"} ] uint32 GetSupportedSizes ( [IN, Description( "The type of element for which supported sizes are " "reported for."), ValueMap{"2", "3"}, Values {"Storage Pool", "Storage Volume"}] uint16 ElementType, [IN, Description ( "The StorageSetting for which supported sizes should be " "reported for.")] CIM_StorageSetting REF Goal, [OUT, IN(false), Description ( "List of support sizes for a Volume/Pool creation or " "modification."), Units ("Bytes") ] uint64 Sizes[] ); [Description ( "For pools that that support a range of sizes for volume or " "pool creation, this method can be used to retrieve the " "supported range. Note that different pool implementations " "may support either or both the GetSupportedSizes and " "GetSupportedSizeRanges methods at different times, " "depending on Pool configuration. Also note that the " "advertised sizes may change after the call due to requests " "from other clients. If the pool currently only supports " "discrete sizes, then the return value will be set to 1."), ValueMap {"0", "1", "2"}, Values {"Method completed OK", "Method not supported", "Use GetSupportedSizes instead"} ] uint32 GetSupportedSizeRange ( [IN, Description( "The type of element for which supported size ranges are " "reported for."), ValueMap{"2", "3"}, Values {"Storage Pool", "Storage Volume"}] uint16 ElementType, [IN, Description ( "The StorageSetting for which supported size ranges should " "be reported for.") ] CIM_StorageSetting REF Goal, [OUT, IN(false), Description ( "The minimum size for a volume/pool in bytes."), Units ("Bytes") ] uint64 MinimumVolumeSize, [OUT, IN(false), Description ( "The maximum size for a volume/pool in bytes."), Units ("Bytes") ] uint64 MaximumVolumeSize, [OUT, IN(false), Description ( "A volume/pool size must be a multiple of this value " "which is specified in bytes"), Units ("Bytes") ] uint64 VolumeSizeDivisor); }; // ================================================================== // StorageCapabilities // ================================================================== [Version ("2.7.1000"), Description ( "A subclass of Capabilities that defines the Capabilities of a " "StorageService or StoragePool. For example, an instance of " "StorageCapabilities could be associated with either a " "StorageConfigurationService or StoragePool by using " "ElementCapabilities.") ] class CIM_StorageCapabilities : CIM_Capabilities { [Description ( "Enumeration indicating the type of element to which this " "StorageCapabilities applies."), ValueMap {"0", "1", "2", "3", "4", "5", "6"}, Values {"Unknown", "Reserved", "Any Type", "StorageVolume", "StorageExtent", "StoragePool", "StorageConfigurationService"} ] uint16 ElementType; [Description ( "Indicates whether or not the associated element supports no " "single point of failure. Values are: FALSE = does not " "support no single point of failure, and TRUE = supports no " "single point of failure."), ModelCorrespondence { "CIM_StorageCapabilities.NoSinglePointOfFailureDefault"} ] boolean NoSinglePointOfFailure; [Description ( "Indicates the default value for the NoSinglePointOfFailure " "property."), ModelCorrespondence { "CIM_StorageCapabilities.NoSinglePointOfFailure"} ] boolean NoSinglePointOfFailureDefault; [Description ( "DataRedundancyMax describes the maximum number of complete " "copies of data that can be maintained. Examples would be " "RAID 5 (where 1 copy is maintained) and RAID 1 (where 2 or " "more copies are maintained). Possible values are 1 to n. " "The default redundancy is specified using " "DataRedundancyDefault, while the minimum is defined by " "DataRedundancyMin."), MinValue (1), ModelCorrespondence {"CIM_StorageCapabilities.DataRedundancyMin", "CIM_StorageCapabilities.DataRedundancyDefault"} ] uint16 DataRedundancyMax; [Description ( "DataRedundancyMin describes the minimum number of complete " "copies of data that can be maintained. Examples would be " "RAID 5 where 1 copy is maintained and RAID 1 where 2 or " "more copies are maintained). Possible values are 1 to n. " "The default redundancy is specified using " "DataRedundancyDefault, while the maximum is defined by " "DataRedundancyMax."), MinValue (1), ModelCorrespondence {"CIM_StorageCapabilities.DataRedundancyMax", "CIM_StorageCapabilities.DataRedundancyDefault"} ] uint16 DataRedundancyMin; [Description ( "DataRedundancyDefault describes the default number of " "complete copies of data that can be maintained. Examples " "would be RAID 5 where 1 copy is maintained and RAID 1 where " "2 or more copies are maintained. Possible values are 1 to " "n. The bounds for the redundancy (max and min) are defined " "by DataRedundancyMax and DataRedundancyMin."), MinValue (1), ModelCorrespondence {"CIM_StorageCapabilities.DataRedundancyMax", "CIM_StorageCapabilities.DataRedundancyMin"} ] uint16 DataRedundancyDefault; [Description ( "PackageRedundancyMax describes the maximum number of " "redundant packages that can be used. For example, in the " "storage domain, package redundancy describes how many disk " "spindles can fail without data loss including, at most, one " "spare. An example would be RAID5 with a spare disk which " "would have a PackageRedundancy of 2. Possible values are 0 " "to n. The default redundancy is specified using " "PackageRedundancyDefault, while the maximum is defined by " "PackageRedundancyMax."), ModelCorrespondence { "CIM_StorageCapabilities.PackageRedundancyMin", "CIM_StorageCapabilities.PackageRedundancyDefault"} ] uint16 PackageRedundancyMax; [Description ( "PackageRedundancyMin describes the minimum number of " "redundant packages that can be used. For example, in the " "storage domain, package redundancy describes how many disk " "spindles can fail without data loss including, at most, one " "spare. An example would be RAID5 with a spare disk which " "would have a PackageRedundancy of 2. Possible values are 0 " "to n. The default redundancy is specified using " "PackageRedundancyDefault, while the minimum is defined by " "PackageRedundancyMin."), ModelCorrespondence { "CIM_StorageCapabilities.PackageRedundancyMax", "CIM_StorageCapabilities.PackageRedundancyDefault"} ] uint16 PackageRedundancyMin; [Description ( "PackageRedundancyDefault describes the default number of " "redundant packages that will be used. For example, in the " "storage domain, package redundancy describes how many disk " "spindles can fail without data loss including, at most, one " "spare. An example would be RAID5 with a spare disk which " "would have a PackageRedundancy of 2. Possible values are 0 " "to n. The bounds for redundancy are specified using the " "properties, PackageRedundancyMax and PackageRedundancyMin."), ModelCorrespondence { "CIM_StorageCapabilities.PackageRedundancyMin", "CIM_StorageCapabilities.PackageRedundancyMax"} ] uint16 PackageRedundancyDefault; [Description ( "DeltaReservatioMax is a number between 1 (1%) and a 100 " "(100%) that specifies the maximum amount of space reserved " "in a replica for caching changes. For a complete copy this " "would be 100%, but it can be lower in some " "implementations. This parameter sets the upper limit, " "while DeltaReservationMin sets the lower limit."), Units ("Percentage"), MinValue (0), MaxValue (100), ModelCorrespondence { "CIM_StorageCapabilities.DeltaReservationMin", "CIM_StorageCapabilities.DeltaReservationDefault"} ] uint16 DeltaReservationMax; [Description ( "DeltaReservationMin is a number between 1 (1%) and a 100 " "(100%) that specifies the minimum amount of space that " "should be reserved in a replica for caching changes. For a " "complete copy this would be 100%, but it can be lower in " "some implementations. This parameter sets the lower limit, " "while DeltaReservationMax sets the upper limit."), Units ("Percentage"), MinValue (0), MaxValue (100), ModelCorrespondence { "CIM_StorageCapabilities.DeltaReservationMax", "CIM_StorageCapabilities.DeltaReservationDefault"} ] uint16 DeltaReservationMin; [Description ( "Delta reservation is a number between 1 (1%) and a 100 " "(100%) that specifies how much space should be reserved by " "default in a replica for caching changes. For a complete " "copy this would be 100%, but it can be lower in some " "implementations. This parameter sets the default value, " "while DeletaReservationMax and DeltReservationMin set the " "upper and lower bounds."), Units ("Percentage"), MinValue (0), MaxValue (100), ModelCorrespondence { "CIM_StorageCapabilities.DeltaReservationMax", "CIM_StorageCapabilities.DeltaReservationMin"} ] uint16 DeltaReservationDefault; [Experimental, Description ( "Method to create and populate a StorageSetting instance " "from a StorageCapability instance. This removes the need " "to populate default settings and other settings in the " "context of each StorageCapabilities (which could be " "numerous). If the underlying instrumentation supports the " "StorageSettingWithHints subclass, then an instance of that " "class will be created instead."), ValueMap {"0", "1", "2", "3", "4", "5", "..", "32768..65535"}, Values {"Success", "Not Supported", "Unspecified Error", "Timeout", "Failed", "Invalid Parameter", "DMTF Reserved", "Vendor Specific"} ] uint32 CreateSetting ( [IN, Description( "If 'Default' is passed for the CreateDefault parameter, " "the Max, Goal, and Min setting attributes are set to " "the Default values of the parent StorageCapabilities when " "the instance is created.\n If set to 'Goal' the new " "StorageSetting attributes are set to the related " "attributes of the parent StorageCapabilities, e.g. Min to " "Min, Goal to Default, and Max to Max.\n\n" "This method maybe deprecated in lieu of intrinsics " "once limitations in the CIM Operations are addressed."), ValueMap {"2", "3"}, Values {"Default", "Goal"}] uint16 SettingType, [OUT, IN(False), Description( "Reference to the created StorageSetting instance")] CIM_StorageSetting REF NewSetting ); }; // ================================================================== // StorageConfigurationService // ================================================================== [Version ("2.7.1000"), Description ( "This service allows the active management of a Storage " "Server. It allows jobs to be started for the creation, " "modification and deletion of storage objects (StoragePools and " "StorageVolumes).") ] class CIM_StorageConfigurationService : CIM_Service { [Description ( "Starts a job to create (or modify) a StoragePool. The " "StoragePool will be (or must be) scoped to the same System " "as this Service. One of the parameters for this method is " "Size. As an input parameter, Size specifies the desired " "size of the pool. As an output parameter, it specifies the " "size achieved. Space is taken from either or both of the " "specified input StoragePools and StorageExtents (InPools " "and InExtents). The capability requirements that the Pool " "must support are defined using the Goal parameter. If the " "requested pool size cannot be created, no action will be " "taken, the Return Value will be 4097/0x1001, and the output " "value of Size will be set to the nearest possible size. If " "0 is returned, then the task completed successfully and the " "use of ConcreteJob was not required. If the task will take " "some time to complete, a ConcreteJob will be created and " "its reference returned in the output parameter Job."), ValueMap {"0", "1", "2", "3", "4", "5", "6", "..", "4096", "4097", "4098..32767", "32768..65535"}, Values {"Job Completed with No Error", "Not Supported", "Unknown", "Timeout", "Failed", "Invalid Parameter", "In Use", "DMTF Reserved", "Method Parameters Checked - Job Started", "Size Not Supported", "Method Reserved", "Vendor Specific"} ] uint32 CreateOrModifyStoragePool ( [IN, Description ( "A end user relevant name for the pool being created. If " "NULL, then a system supplied default name can be used. " "The value will be stored in the 'ElementName' property " "for the created pool. If not NULL, this parameter " "will supply a new name when modifying an existing pool.") ] string ElementName, [OUT, IN(false), Description( "Reference to the job (may be null if job completed).") ] CIM_ConcreteJob REF Job, [IN, Description ( "Reference to an instance of StorageSetting that defines " "the desired capabilities of the StoragePool. If set to a " "null value, the default configuration from the source " "pool will be used. If not NULL, this parameter will supply " "a new Goal setting when modifying an existing pool." ) ] CIM_StorageSetting REF Goal, [IN, OUT, Description( "As an input parameter this specifies the desired pool " "size in bytes. As an output parameter this specifies " "the size achieved."), Units ("Bytes") ] uint64 Size, [IN, Description ( "Array of strings containing representations of " "references to CIM_StoragePool instances, that are used " "to create the Pool or modify the source pools.") ] string InPools[], [IN, Description ( "Array of strings containing representations of " "references to CIM_StorageExtent instances, that are used " "to create the Pool or modify the source extents.") ] string InExtents[], [IN, OUT, Description ( "As an input parameter: if null, creates a new StoragePool. " "If not null, modifies the referenced Pool. When returned, " "it is a reference to the resulting StoragePool.") ] CIM_StoragePool REF Pool); [Description ( "Start a job to create (or modify) a specified element (for " "example a StorageVolume or StorageExtent) from a " "StoragePool. One of the parameters for this method is " "Size. As an input parameter, Size specifies the desired " "size of the element. As an output parameter, it specifies " "the size achieved. Space is taken from the input " "StoragePool. The desired settings for the element are " "specified by the Goal parameter. If the requested size " "cannot be created, no action will be taken, and the Return " "Value will be 4097/0x1001. Also, the output value of Size " "is set to the nearest possible size. If 0 is returned, the " "function completed successfully and no ConcreteJob instance " "was required. If 4096/0x1000 is returned, a ConcreteJob " "will be started to create the element. The Job's reference " "will be returned in the output parameter Job."), ValueMap {"0", "1", "2", "3", "4", "5", "6", "..", "4096", "4097", "4098..32767", "32768..65535"}, Values {"Job Completed with No Error", "Not Supported", "Unknown", "Timeout", "Failed", "Invalid Parameter", "In Use", "DMTF Reserved", "Method Parameters Checked - Job Started", "Size Not Supported", "Method Reserved", "Vendor Specific"} ] uint32 CreateOrModifyElementFromStoragePool( [IN, Description ( "A end user relevant name for the element being created. If " "NULL, then a system supplied default name can be used. The " "value will be stored in the 'ElementName' property for " "the created element. If not NULL, this parameter will " "supply a new name when modifying an existing element.") ] string ElementName, [IN, Description ( "Enumeration indicating the type of element being created " "or modified. If the input parameter TheElement is " "specified when the operation is a 'modify', this type " "value must match the type of that instance."), ValueMap{"0", "1", "2", "3", "..", "32768..65535"}, Values {"Unknown", "Reserved", "StorageVolume", "StorageExtent", "DMTF Reserved", "Vendor Specific"} ] uint16 ElementType, [OUT, IN(false), Description( "Reference to the job (may be null if job completed).") ] CIM_ConcreteJob REF Job, [IN, Description( "The requirements for the element to maintain. If set to " "a null value, the default configuration from the source " "pool will be used. This parameter should be a reference " "to a Setting or Profile appropriate to the element being " "created. If not NULL, this parameter will supply a new " "Goal when modifying an existing element.") ] CIM_ManagedElement REF Goal, [IN, OUT, Description ( "As an input parameter Size specifies the desired size. " "If not NULL, this parameter will supply a new size when " "modifying an existing element. As an output parameter " "Size specifies the size achieved."), Units ("Bytes") ] uint64 Size, [IN, Description( "The Pool from which to create the element. This parameter " "must be set to null if the input parameter TheElement is " "specified (in the case of a 'modify' operation).") ] CIM_StoragePool REF InPool, [IN, OUT, Description ( "As an input parameter: if null, creates a new element. If " "not null, then the method modifies the specified element. " "As an output parameter, it is a reference to the " "resulting element.") ] CIM_LogicalElement REF TheElement); [Description ( "Start a job to delete a StoragePool. The freed space is " "returned source StoragePools (indicated by AllocatedFrom " "StoragePool) or back to underlying storage extents. If 0 " "is returned, the function completed successfully, and no " "ConcreteJob was required. If 4096/0x1000 is returned, a " "ConcreteJob will be started to delete the StoragePool. A " "reference to the Job is returned in the Job parameter."), ValueMap {"0", "1", "2", "3", "4", "5", "6", "..", "4096", "4097..32767", "32768..65535"}, Values {"Job Completed with No Error", "Not Supported", "Unknown", "Timeout", "Failed", "Invalid Parameter", "In Use", "DMTF Reserved", "Method Parameters Checked - Job Started", "Method Reserved", "Vendor Specific"} ] uint32 DeleteStoragePool ( [OUT, IN(false), Description( "Reference to the job (may be null if job completed).") ] CIM_ConcreteJob REF Job, [IN, Description( "Reference to the pool to delete.") ] CIM_StoragePool REF Pool); [Description ( "Start a job to delete an element previously created from a " "StoragePool. The freed space is returned to the source " "StoragePool. If 0 is returned, the function completed " "successfully and no ConcreteJob was required. If " "4096/0x1000 is returned, a ConcreteJob will be started to " "delete the element. A reference to the Job is returned in " "the Job parameter."), ValueMap {"0", "1", "2", "3", "4", "5", "6", "..", "4096", "4097..32767", "32768..65535"}, Values {"Job Completed with No Error", "Not Supported", "Unknown", "Timeout", "Failed", "Invalid Parameter", "In Use", "DMTF Reserved", "Method Parameters Checked - Job Started", "Method Reserved", "Vendor Specific"} ] uint32 ReturnToStoragePool( [OUT, IN(false), Description( "Reference to the job (may be null if job completed).") ] CIM_ConcreteJob REF Job, [IN, Description( "Reference to the element to return to the StoragePool.") ] CIM_LogicalElement REF TheElement); [Description ( "Start a job to create a new storage object which is a " "replica of the specified source storage object. " "(SourceElement). Note that using the input paramter, " "CopyType, this function can be used to instantiate the " "replica, and to create an ongoing association between the " "source and replica. If 0 is returned, the function " "completed successfully and no ConcreteJob instance is " "created. If 4096/0x1000 is returned, a ConcreteJob is " "started, a reference to which is returned in the Job output " "parameter."), ValueMap {"0", "1", "2", "3", "4", "5", "6", "..", "4096", "4097..32767", "32768..65535"}, Values {"Job Completed with No Error", "Not Supported", "Unknown", "Timeout", "Failed", "Invalid Parameter", "In Use", "DMTF Reserved", "Method Parameters Checked - Job Started", "Method Reserved", "Vendor Specific"} ] uint32 CreateReplica( [IN, Description ( "A end user relevant name for the element being created. " "If NULL, then a system supplied default name can be used. " "The value will be stored in the 'ElementName' property " "for the created element.") ] string ElementName, [OUT, IN(false), Description( "Reference to the job (may be null if job completed).") ] CIM_ConcreteJob REF Job, [IN, Required, Description( "The source storage object which may be a StorageVolume or " "storage object.") ] CIM_LogicalElement REF SourceElement, [OUT, IN(false), Description( "Reference to the created target storage element " "(i.e., the replica).") ] CIM_LogicalElement REF TargetElement, [IN, Description( "The definition for the StorageSetting to be maintained " "by the target storage object (the replica).") ] CIM_StorageSetting REF TargetSettingGoal, [IN, Description( "The underlying storage for the target element (the " "replica) will be drawn from TargetPool if specified, " "otherwise the allocation is implementation specific.") ] CIM_StoragePool REF TargetPool, [IN, Description( "CopyType describes the type of copy that will be made. " "Values are: \n " " Async: Create and maintain an asynchronous " "copy of the source. \n " " Sync: Create and maintain a synchronized copy " "of the source. \n" " UnSyncAssoc: Create an unsynchronized copy and " "maintain an association to the source. \n " " UnSyncUnAssoc: Create unassociated copy of the " "source element."), ValueMap {"2", "3", "4", "5", "..", "32768..65535"}, Values {"Async", "Sync", "UnSyncAssoc", "UnSyncUnAssoc", "DMTF Reserved", "Vendor Specific"} ] uint16 CopyType); [Description ( "Modify (or start a job to modify) the synchronization " "association between two storage objects. If 0 is returned, " "the function completed successfully and no ConcreteJob " "instance was created. If 0x1000 is returned, a ConcreteJob " "was started and a reference to this Job is returned in the " "Job output parameter. A return value of 1 indicates the " "method is not supported. All other values indicate some " "type of error condition."), ValueMap {"0", "1", "2", "3", "4", "5", "6", "..", "0x1000", "0x1001..0x7FFF", "0x8000..0xFFFF"}, Values {"Job Completed with No Error", "Not Supported", "Unspecified Error", "Timeout", "Failed", "Invalid Parameter", "In Use", "DMTF Reserved", "Method Parameters Checked - Job Started", "Method Reserved", "Vendor Specific"} ] uint32 ModifySynchronization( [IN, Description( "Operation describes the type of modification to be made " "to the replica. Values are: \n " " Detach: 'Forget' the synchronization between two " "storage objects. Start to treat the objects as " "independent. \n " " Fracture: Suspend the synchronization between two " "storage objects. The association and (typically) changes " "are remembered to allow a fast resynchronization. This " "may be used during a backup cycle to allow one of the " "objects to be copied while the other remains in " "production. \n" " Resync Replica: Re-establish the synchronization of " "a replica. This will negate the action of a previous " "Fracture operation. \n" " Restore from Replica: Renew the contents of the " "original storage object from a replica. \n" " Prepare: Get the link ready for a Resync operation to " "take place. Some implementations will require this " "operation to be invoked to keep the Resync operation " "as fast as possible.\n" " Unprepare: Clear a prepared state if a Prepare is " "not to be followed by a Resync operation. \n" " Quiesce: Some applications require notification so " "that they can ready the link for an operation. For " "example flush any cached data or buffered changes.\n" " Unquiesce: Take the link from the quiesced state " "(without executing the intended operation.\n" " Reset To Sync: Change the CopyType of the association " "to Sync (e.g., from the Async CopyType). \n" " Reset To Async: Change the CopyType of the association " "to Async (e.g., from the Sync CopyType)."), ValueMap {"0","1","2", "3", "4", "5", "6", "7", "8", "9", "10", "11", "..", "0x8000..0xFFFF"}, Values {"DMTF Reserved", "DMTF Reserved", "Detach", "Fracture", "Resync Replica", "Restore from Replica", "Prepare", "Unprepare", "Quiesce", "Unquiesce", "Reset To Sync", "Reset To Async", "DMTF Reserved", "Vendor Specific"} ] uint16 Operation, [OUT, IN(false), Description( "Reference to the job (may be null if the task completed).") ] CIM_ConcreteJob REF Job, [IN, Description( "The referenced to the StorageSynchronized association " "describing the storage source/replica relationship.") ] CIM_StorageSynchronized REF Synchronization); [Experimental, Description ( "Create (or start a job to create) a StorageSynchronized " "relationship between two existing storage objects. Note " "that using the input parameter, CopyType, this function can " "be used to to create an ongoing association between the " "source and replica. If 0 is returned, the function " "completed successfully and no ConcreteJob instance is " "created. If 0x1000 is returned, a ConcreteJob is started, " "a reference to which is returned in the Job output " "parameter. A return value of 1 indicates the method is not " "supported. All other values indicate some type of error " "condition."), ValueMap {"0", "1", "2", "3", "4", "5", "6", "..", "0x1000", "0x1001..0x7FFF", "0x8000..0xFFFF"}, Values {"Job Completed with No Error", "Not Supported", "Unspecified Error", "Timeout", "Failed", "Invalid Parameter", "In Use", "DMTF Reserved", "Method Parameters Checked - Job Started", "Method Reserved", "Vendor Specific"} ] uint32 AttachReplica( [OUT, IN(false), Description( "Reference to the job (may be null if the task " "completed).") ] CIM_ConcreteJob REF Job, [IN, Required, Description( "The source storage object which may be a StorageVolume or " "other storage object") ] CIM_ManagedElement REF SourceElement, [IN, Description( "Reference to the target storage element " "(i.e., the replica).") ] CIM_ManagedElement REF TargetElement, [IN, Description( "CopyType describes the type of Synchronized relationship " "that will be created. " "Values are: \n " " Async: Create and maintain an asynchronous " "copy of the source. \n " " Sync: Create and maintain a synchronized copy " "of the source. \n" " UnSyncAssoc: Create an unsynchronized copy and " "maintain an association to the source. \n " " UnSyncUnAssoc: Create unassociated copy of the " "source element."), ValueMap {"2", "3", "4", "5", "..", "0x8000..0xFFFF"}, Values {"Async", "Sync", "UnSyncAssoc", "UnSyncUnAssoc", "DMTF Reserved", "Vendor Specific"} ] uint16 CopyType); }; // ================================================================== // StorageConfigurationCapabilities // ================================================================== [Experimental, Version ("2.7.1000"), Description ( "A subclass of Capabilities that defines the Capabilities of a " "StorageConfigurationService. An instance of " "StorageConfigurationCapabilities is associated with a " "StorageConfigurationService using ElementCapabilities.") ] class CIM_StorageConfigurationCapabilities : CIM_Capabilities { [Description ( "Enumeration indicating what operations will be executed as " "asynchronous jobs. If an operation is included in both " "this and SupportedSynchronousActions then the underlying " "implementation is indicating that it may or may not create " "a job."), ValueMap {"2", "3", "4", "5", "6", "7", "8", "9", "10"}, Values {"Storage Pool Creation", "Storage Pool Deletion", "Storage Pool Modification", "Storage Element Creation", "Storage Element Return", "Storage Element Modification", "Replica Creation", "Replica Modification", "Replica Attachment"}, ModelCorrespondence { "CIM_StorageConfigurationCapabilities.SupportedSynchronousActions"} ] uint16 SupportedAsynchronousActions[]; [Description ( "Enumeration indicating what operations will be executed " "without the creation of a job. If an operation is included " "in both this and SupportedAsynchronousActions then the " "underlying instrumentation is indicating that it may or may " "not create a job."), ValueMap {"2", "3", "4", "5", "6", "7", "8", "9", "10"}, Values {"Storage Pool Creation", "Storage Pool Deletion", "Storage Pool Modification", "Storage Element Creation", "Storage Element Return", "Storage Element Modification", "Replica Creation", "Replica Modification", "Replica Attachment"}, ModelCorrespondence { "CIM_StorageConfigurationCapabilities." "SupportedAsynchronousActions"} ] uint16 SupportedSynchronousActions[]; [Description ( "Enumeration indicating the type of storage elements that " "are supported by the associated " "StorageConfigurationService."), ValueMap {"2", "3", "..", "0x8000..0xFFFF"}, Values {"StorageVolume", "StorageExtent", "DMTF Reserved", "Vendor Specific"}, ModelCorrespondence { "CIM_StorageConfigurationService." "CreateOrModifyElementFromStoragePool.ElementType"} ] uint16 SupportedStorageElementTypes[]; [Description ( "Enumeration indicating features supported by the " "StoragePool methods."), ValueMap {"2", "3", "4", "..", "0x8000..0xFFFF"}, Values {"InExtents", "Single InPool", "Multiple InPools", "DMTF Reserved", "Vendor Specific"}, ModelCorrespondence { "CIM_StorageConfigurationService." "CreateOrModifyStoragePool.InPools", "CIM_StorageConfigurationService." "CreateOrModifyStoragePool.InElements" } ] uint16 SupportedStoragePoolFeatures[]; [Description ( "Enumeration indicating features supported by the Storage " "Element methods."), ValueMap {"2", "3", "4", "5", "6", "7", "..", "0x8000..0xFFFF"}, Values {"StorageExtent Creation", "StorageVolume Creation", "StorageExtent Modification", "StorageVolume Modification", "Single InPool", "Multiple InPools", "DMTF Reserved", "Vendor Specific"}, ModelCorrespondence { "CIM_StorageConfigurationService." "CreateOrModifyElementFromStoragePool.ElementType", "CIM_StorageConfigurationService." "CreateOrModifyElementFromStoragePool.InPools"} ] uint16 SupportedStorageElementFeatures[]; [Description ( "SupportedCopyTypes describes the replication capabilities " "supported by the associated StorageConfigurationServices. " "Values are:\n" "Async: asynchronous copies may be created and maintained.\n" "Sync: synchronous copies may be created and maintained.\n" "UnSyncAssoc: unsynchronized copies may be created and maintained.\n" "UnSyncUnAssoc: a 'straight copy' may be created."), ValueMap {"2", "3", "4", "5", "..", "0x8000..0xFFFF"}, Values {"Async", "Sync", "UnSyncAssoc", "UnSyncUnAssoc", "DMTF Reserved", "Vendor Specific"}, ModelCorrespondence { "CIM_StorageConfigurationService.CreateReplica.CopyType"} ] uint16 SupportedCopyTypes[]; [Description ( "InitialReplicationState specifies which initial " "ReplicationState is supported by a particular provider. " "Values are:\n" "Initialized: The replication relationship is known and " "unsynchronized, but time required to synchronize may be long.\n" "Prepared: The replication relationship is known and " "unsynchronized and the time required to synchronize will be short.\n" "Synchronized: The replicas are synchronized."), ValueMap {"2", "3", "4", "..", "0x8000..0xFFFF"}, Values {"Initialized", "Prepared", "Synchronized", "DMTF Reserved", "Vendor Specific"}, ModelCorrespondence { "CIM_StorageConfigurationService.AttachReplica", "CIM_StorageConfigurationService.CreateReplica"} ] uint16 InitialReplicationState; }; // ==================================================================== // StorageSettingWithHints // ==================================================================== [Version ("2.7.1"), Description ( "This subclass of StorageSetting allows a client to specify " "'hint's for optimization of the volume performance. The " "effect of these hints is implementation dependent.") ] class CIM_StorageSettingWithHints: CIM_StorageSetting { [Description ( "This hint is an indication from a client of the importance " "placed on data availability. Values are 0=Don't Care to " "10=Very Important."), MinValue (0), MaxValue (10) ] uint16 DataAvailabilityHint; [Description ( "This hint is an indication from a client of the randomness " "of accesses. Values are 0=Entirely Sequential to " "10=Entirely Random."), MinValue (0), MaxValue (10) ] uint16 AccessRandomnessHint; [Description ( "This hint is an indication from a client of the direction " "of accesses. Values are 0=Entirely Read to 10=Entirely " "Write."), MinValue (0), MaxValue (10) ] uint16 AccessDirectionHint; [Description ( "This hint is an indication from a client of the optimal " "access sizes (in bytes). Since this property is an array, " "several sizes can be specified."), Units ("Bytes") ] uint16 AccessSizeHint[]; [Description ( "This hint is an indication from a client how important " "access latency is. Values are 0=Don't Care to 10=Very " "Important."), MinValue (0), MaxValue (10) ] uint16 AccessLatencyHint; [Description ( "This hint is an indication from a client of bandwidth " "prioritization. Values are 0=Don't Care to 10=Very " "Important."), MinValue (0), MaxValue (10) ] uint16 AccessBandwidthWeight; [Description ( "This hint is an indication of the importance the client " "places on the cost of storage. Values are 0=Don't Care to " "10=Very Important. A StorageVolume provider might choose " "to place data on low cost or high cost drives based on this " "parameter."), MinValue (0), MaxValue (10) ] uint16 StorageCostHint; [Description ( "This hint is an indication of the importance placed on " "storage space efficiency by the client. Values are 0=Don't " "Care to 10=Very Important. A StorageVolume provider might " "choose different RAID levels based on this hint."), MinValue (0), MaxValue (10) ] uint16 StorageEfficiencyHint; }; // =================================================================== // AllocatedFromStoragePool // =================================================================== [Association, Version ("2.7.0"), Description ( "AllocatedFromStoragePool is an association describing how " "LogicalElements are allocated from underlying StoragePools. " "These elements typically would be subclasses of StorageExtents " "or StoragePools.") ] class CIM_AllocatedFromStoragePool : CIM_Dependency { [Override ("Antecedent"), Description ( "The StoragePool.") ] CIM_StoragePool REF Antecedent; [Override ("Dependent"), Description ( "The subsidiary element.") ] CIM_LogicalElement REF Dependent; [Description ( "Space consumed from this Pool, in bytes."), Units ("Bytes") ] uint64 SpaceConsumed; }; // ================================================================== // HostedStoragePool // ================================================================== [Association, Aggregation, Composition, Version ("2.7.0"), Description ( "SystemStoragePool is a specialization of SystemComponent " "association that establishes that the StoragePool is defined " "in the context of the System.") ] class CIM_HostedStoragePool : CIM_SystemComponent { [Aggregate, Override ("GroupComponent"), Min (1), Max (1), Description ( "The parent system in the Association.") ] CIM_System REF GroupComponent; [Override ("PartComponent"), Description ( "The StoragePool that is a component of a System.") ] CIM_StoragePool REF PartComponent; }; // =================================================================== // ConfigurationReportingService // =================================================================== [Description ( "Service to provide reports on current configuration and " "potential for growth. The service may be used in several circumstances:\n" "- To report growth potential (how many can I have)\n" "- To report information on objects not directly modeled for " "performance or other reasons.\n" "It can also report counts of 'things' or counts of 'units'. " "For example, the number of disk drives could be reported or " "the capacity that they would provide.") ] class CIM_ConfigurationReportingService : CIM_Service { [Description ( "Returns a list of classes that the given Managed Element " "supports or has installed."), ValueMap {"0", "1", "2", "3", "4", "..", "32768..65535"}, Values {"Success", "Not Supported", "Unknown", "Timeout", "Failed", "DMTF Reserved", "Vendor Specific"} ] uint32 GetClassTypes( [IN, ValueMap {"2", "3"}, Values {"Supports", "Installed"}, Description ( "The type of inquiry to be performed.") ] uint16 InquiryType, [IN, Description( "False : Only report on elements directly contained " "in/attached to the given ManagedElement. \n" "True : Report on all objects contained in/attached " "to the given ManagedElement.") ] boolean Recursive, [IN, Description( "The target of query, for example a rack or a chassis.") ] CIM_ManagedElement REF Target, [OUT, IN (false), Description( "Array containing the class names (typically the leaf " "classes) that the given ManagedElement can support or " "has installed.") ] string ClassTypes[]); [Description ( "Returns a list of UnitTypes that are installed for a given " "ClassType on a given ManagedElement."), ValueMap {"0", "1", "2", "3", "4", "..", "32768..65535"}, Values {"Success", "Not Supported", "Unknown", "Timeout", "Failed", "DMTF Reserved", "Vendor Specific"} ] uint32 GetUnitTypes( [IN, ValueMap {"2", "3"}, Values {"Supported", "Installed"}, Description ("The type of inquiry to be performed.") ] uint16 InquiryType, [IN, Description( "False : Only report on elements directly contained " "in/attached to the given ManagedElement. \n" "True : Report on all objects contained in/attached " "to the given ManagedElement.") ] boolean Recursive, [IN, Description( "The target of query, for example a rack or a chassis.") ] CIM_ManagedElement REF Target, [IN, Description( "The ClassType for the query. This should be a entry " "returned in the GetClassTypes.ClassTypes property.") ] string ClassType, [OUT, IN (false), Description( "A list of supported UnitTypes."), ValueMap{"2", "3", "4", "5", "6", "7", "8", "9", "10", "..", "32768..65535"}, Values {"None", "Front Side", "Back Side", "Contained", "Connected", "I/O", "Memory", "StorageMediaLocation", "Megabytes", "DMTF Reserved", "Vendor Specific"}, ModelCorrespondence { "CIM_ConfigurationReportingService." "ReportCapacity(UnitType)"} ] uint16 UnitTypes[]); [Description ( "Returns the maximum number supported or the number of " "currently installed units for the given UnitType, for a " "given ClassType on a given ManagedElement."), ValueMap {"0", "1", "2", "3", "4", "..", "32768..65535"}, Values {"Success", "Not Supported", "Unknown", "Timeout", "Failed", "DMTF Reserved", "Vendor Specific"} ] uint32 ReportCapacity( [IN, ValueMap {"2", "3"}, Values {"Supported", "Installed"}, Description ("The type of inquiry to be performed.") ] uint16 InquiryType, [IN, Description( "False : Only report on elements directly contained " "in/attached to the given ManagedElement. \n" "True : Report on all objects contained in/attached " "to the given ManagedElement.") ] boolean Recursive, [IN, Description( "The target of query, for example a rack or a chassis.") ] CIM_ManagedElement REF Target, [IN, Description( "The ClassType for the query. This should be a entry " "returned in the GetClassTypes.ClassTypes property.") ] string ClassType, [IN, Description( "The UnitType for the query."), ValueMap{"2", "3", "4", "5", "6", "7", "8", "9", "10", "..", "32768..65535"}, Values {"None", "Front Side", "Back Side", "Contained", "Connected", "I/O", "Memory", "StorageMediaLocation", "Megabytes", "DMTF Reserved", "Vendor Specific"}, ModelCorrespondence { "CIM_ConfigurationReportingService." "GetUnitTypes(UnitTypes)"} ] uint16 UnitType, [OUT, IN (false), Description ( "The maximum number of supported or the number of " "currently installed units.") ] uint64 NumberOfUnits); }; // =================================================================== // end of file // ===================================================================