// =================================================================== // Title: Device_Sensors // $State: Exp $ // $Date: 2005/02/17 00:09:56 $ // $RCSfile: Device_Sensors.mof,v $ // $Revision: 1.1 $ // =================================================================== //#pragma inLine ("Includes/copyright.inc") // Copyright 1998-2005 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owner or claimant, and shall // have no liability or responsibility for costs or losses incurred if // a standard is withdrawn or modified after publication, and shall be // indemnified and held harmless by any party implementing the // standard from any and all claims of infringement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. //#pragma inLine // =================================================================== // Description: The Device Model extends the management concepts that // are related to LogicalDevices. This file describes // the management of sensors (including LEDs, Buzzers, // WatchDog processors, etc.). // // 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 Final // CR1036 - Sensor cleanup // CR1223 - SysDev Omnibus CR - minor MOF corrections. // // Change Log for v2.7 // CR621 - Promote subclassing of PackageTempSensor and PackageAlarm // from Dependency to PackageDependency and deprecate them. // CR771 - Add the composition qualifer to CollectionOfSensors // ================================================================== #pragma locale ("en_US") // =================================================================== // Sensor // =================================================================== [Abstract, Version ( "2.6.0" ), Description ( "A Sensor is a hardware device capable of measuring the " "characteristics of some physical property - for example, the " "temperature or voltage characteristics of a UnitaryComputer " "System.")] class CIM_Sensor : CIM_LogicalDevice { [Description ( "The Type of the Sensor, e.g. Voltage or Temperature Sensor. " "If the type is set to \"Other\", then the OtherSensorType " "Description can be used to further identify the type, or if " "the Sensor has numeric readings, then the type of the " "Sensor can be implicitly determined by the Units. A " "description of the different Sensor types is as follows: A " "Temperature Sensor measures the environmental temperature. " "Voltage and Current Sensors measure electrical voltage and " "current readings. A Tachometer measures speed/revolutions " "of a Device. For example, a Fan Device can have an " "associated Tachometer which measures its speed. A Counter " "is a general purpose Sensor that measures some numerical " "property of a Device. A Counter value can be cleared, but " "it never decreases. A Switch Sensor has states like " "Open/Close, On/Off, or Up/Down. A Lock has states of " "Locked/Unlocked. Humidity, Smoke Detection and Air Flow " "Sensors measure the equivalent environmental " "characteristics. A Presence Sensor detects the presence of " "a PhysicalElement."), ValueMap { "0", "1", "2", "3", "4", "5", "6", "7", "8", "9", "10", "11", "12" }, Values { "Unknown", "Other", "Temperature", "Voltage", "Current", "Tachometer", "Counter", "Switch", "Lock", "Humidity", "Smoke Detection", "Presence", "Air Flow" }, ModelCorrespondence { "CIM_Sensor.OtherSensorTypeDescription" }] uint16 SensorType; [Description ( "A string describing the Sensor type - used when the " "SensorType property is set to \"Other\"."), MaxLen ( 128 ), ModelCorrespondence { "CIM_Sensor.SensorType" }] string OtherSensorTypeDescription; [Description ( "PossibleStates enumerates the string outputs of the Sensor. " "For example, a \"Switch\" Sensor may output the states " "\"On\", or \"Off\". Another implementation of the Switch " "may output the states \"Open\", and \"Close\". Another " "example is a NumericSensor supporting thresholds. This " "Sensor can report the states like \"Normal\", \"Upper " "Fatal\", \"Lower Non-Critical\", etc. A NumericSensor that " "does not publish readings and thresholds, but stores this " "data internally, can still report its states."), MaxLen ( 128 )] string PossibleStates[]; [Description ( "The current state indicated by the Sensor. This is always " "one of the \"PossibleStates\"."), MaxLen ( 128 )] string CurrentState; [Description ( "The polling interval that the Sensor hardware or the " "instrumentation uses to determine the current state of the " "Sensor."), Units ( "NanoSeconds" )] uint64 PollingInterval; }; // =================================================================== // AssociatedSensor // =================================================================== [Association, Version ( "2.6.0" ), Description ( "Many Devices include Sensors or have Sensors installed nearby, " "in order to measure critical input and output properties. This " "association indicates that relationship.")] class CIM_AssociatedSensor : CIM_Dependency { [Override ( "Antecedent" ), Description ( "The Sensor.")] CIM_Sensor REF Antecedent; [Override ( "Dependent" ), Description ( "The LogicalDevice for which information is measured by the " "Sensor.")] CIM_LogicalDevice REF Dependent; }; // =================================================================== // BinarySensor // =================================================================== [Deprecated { "CIM_Sensor" }, Version ( "2.8.0" ), Description ( "A BinarySensor provides a boolean output. The use of this " "class is being deprecated in lieu of creating a Sensor with " "two PossibleStates.")] class CIM_BinarySensor : CIM_Sensor { [Deprecated { "CIM_Sensor.SensorType" }, Description ( "The current value indicated by the Sensor.")] boolean CurrentReading; [Deprecated { "CIM_Sensor.SensorType" }, Description ( "ExpectedReading indicates the 'normal' value for the " "Sensor.")] boolean ExpectedReading; [Deprecated { "CIM_Sensor.PossibleStates" }, Description ( "InterpretationOfTrue is a string indicating what a 'True' " "value from the BinarySensor means. This information could " "be displayed to a user."), MaxLen ( 64 )] string InterpretationOfTrue; [Deprecated { "CIM_Sensor.PossibleStates" }, Description ( "InterpretationOfFalse is a string indicating what a 'False' " "value from the BinarySensor means. This information could " "be displayed to a user."), MaxLen ( 64 )] string InterpretationOfFalse; }; // =================================================================== // MultiStateSensor // =================================================================== [Version ( "2.6.0" ), Description ( "A Multi-StateSensor is a multi-member set of Sensors.")] class CIM_MultiStateSensor : CIM_Sensor { }; // =================================================================== // CollectionOfSensors // =================================================================== [Association, Aggregation, Composition, Version ( "2.7.0" ), Description ( "The CollectionOfSensors association indicates the Sensors that " "make up a MultiStateSensor.")] class CIM_CollectionOfSensors : CIM_Component { [Aggregate, Override ( "GroupComponent" ), Max ( 1 ), Description ( "The MultiStateSensor.")] CIM_MultiStateSensor REF GroupComponent; [Override ( "PartComponent" ), Min ( 2 ), Description ( "A Sensor that is part of the MultiStateSensor.")] CIM_Sensor REF PartComponent; }; // =================================================================== // NumericSensor // =================================================================== [Version ( "2.8.0" ), Description ( "A Numeric Sensor is capable of returning numeric readings and " "optionally supports thresholds settings.")] class CIM_NumericSensor : CIM_Sensor { [Description ( "The base unit of the values returned by this Sensor. All " "the values returned by this Sensor are represented in the " "units obtained by (BaseUnits * 10 raised to the power of " "the UnitModifier). For example, if BaseUnits is Volts and " "the UnitModifier is -6, then the units of the values " "returned are MicroVolts. However, if the RateUnits property " "is set to a value other than \"None\", then the units are " "further qualified as rate units. In the above example, if " "RateUnits is set to \"Per Second\", then the values " "returned by the Sensor are in MicroVolts/Second. The units " "apply to all numeric properties of the Sensor, unless " "explicitly overridden by the Units qualifier."), ValueMap { "0", "1", "2", "3", "4", "5", "6", "7", "8", "9", "10", "11", "12", "13", "14", "15", "16", "17", "18", "19", "20", "21", "22", "23", "24", "25", "26", "27", "28", "29", "30", "31", "32", "33", "34", "35", "36", "37", "38", "39", "40", "41", "42", "43", "44", "45", "46", "47", "48", "49", "50", "51", "52", "53", "54", "55", "56", "57", "58", "59", "60", "61", "62", "63", "64", "65" }, Values { "Unknown", "Other", "Degrees C", "Degrees F", "Degrees K", "Volts", "Amps", "Watts", "Joules", "Coulombs", //10 "VA", "Nits", "Lumens", "Lux", "Candelas", "kPa", "PSI", "Newtons", "CFM", "RPM", //20 "Hertz", "Seconds", "Minutes", "Hours", "Days", "Weeks", "Mils", "Inches", "Feet", "Cubic Inches", //30 "Cubic Feet", "Meters", "Cubic Centimeters", "Cubic Meters", "Liters", "Fluid Ounces", "Radians", "Steradians", "Revolutions", "Cycles", //40 "Gravities", "Ounces", "Pounds", "Foot-Pounds", "Ounce-Inches", "Gauss", "Gilberts", "Henries", "Farads", "Ohms", //50 "Siemens", "Moles", "Becquerels", "PPM (parts/million)", "Decibels", "DbA", "DbC", "Grays", "Sieverts", "Color Temperature Degrees K", //60 "Bits", "Bytes", "Words (data)", "DoubleWords", "QuadWords", "Percentage" }, ModelCorrespondence { "CIM_NumericSensor.UnitModifier", "CIM_NumericSensor.RateUnits" }] uint16 BaseUnits; [Description ( "The unit multiplier for the values returned by this Sensor. " "All the values returned by this Sensor are represented in " "the units obtained by (BaseUnits * 10 raised to the power " "of the UnitModifier). For example, if BaseUnits is Volts " "and the Unit Modifier is -6, then the units of the values " "returned are MicroVolts. However, if the RateUnits property " "is set to a value other than \"None\", then the units are " "further qualified as rate units. In the above example, if " "RateUnits is set to \"Per Second\", then the values " "returned by the Sensor are in MicroVolts/Second. The units " "apply to all numeric properties of the Sensor, unless " "explicitly overridden by the Units qualifier."), ModelCorrespondence { "CIM_NumericSensor.BaseUnits", "CIM_NumericSensor.RateUnits" }] sint32 UnitModifier; [Description ( "Specifies if the units returned by this Sensor are rate " "units. All the values returned by this Sensor are " "represented in the units obtained by (BaseUnits * 10 raised " "to the power of the UnitModifier). This is true unless this " "property (RateUnits) has a value different than \"None\". " "For example, if BaseUnits is Volts and the UnitModifier is " "-6, then the units of the values returned are MicroVolts. " "But, if the RateUnits property is set to a value other than " "\"None\", then the units are further qualified as rate " "units. In the above example, if RateUnits is set to \"Per " "Second\", then the values returned by the Sensor are in " "MicroVolts/Second. The units apply to all numeric " "properties of the Sensor, unless explicitly overridden by " "the Units qualifier. Any implementation of CurrentReading " "should be qualified with either a Counter or a Gauge " "qualifier, depending on the characteristics of the sensor " "being modeled."), ValueMap { "0", "1", "2", "3", "4", "5", "6", "7", "8", "9" }, Values { "None", "Per MicroSecond", "Per MilliSecond", "Per Second", "Per Minute", "Per Hour", "Per Day", "Per Week", "Per Month", "Per Year" }, ModelCorrespondence { "CIM_NumericSensor.UnitModifier", "CIM_NumericSensor.BaseUnits" }] uint16 RateUnits; [Description ( "The current value indicated by the Sensor."), MappingStrings { "MIF.DMTF|Temperature Probe|002.5", "MIF.DMTF|Electrical Current Probe|001.5", "MIF.DMTF|Voltage Probe|001.5" }] sint32 CurrentReading; [Description ( "NominalReading indicates the 'normal' or expected value for " "the NumericSensor."), MappingStrings { "MIF.DMTF|Temperature Probe|002.6", "MIF.DMTF|Electrical Current Probe|001.6", "MIF.DMTF|Voltage Probe|001.6" }] sint32 NominalReading; [Description ( "NormalMax provides guidance for the user as to the normal " "maximum range for the NumericSensor."), MappingStrings { "MIF.DMTF|Temperature Probe|002.7", "MIF.DMTF|Electrical Current Probe|001.7", "MIF.DMTF|Voltage Probe|001.7" }] sint32 NormalMax; [Description ( "NormalMin provides guidance for the user as to the normal " "minimum range for the NumericSensor."), MappingStrings { "MIF.DMTF|Temperature Probe|002.8", "MIF.DMTF|Electrical Current Probe|001.8", "MIF.DMTF|Voltage Probe|001.8" }] sint32 NormalMin; [Description ( "MaxReadable indicates the largest value of the measured " "property that can be read by the NumericSensor."), MappingStrings { "MIF.DMTF|Temperature Probe|002.9", "MIF.DMTF|Electrical Current Probe|001.9", "MIF.DMTF|Voltage Probe|001.9" }] sint32 MaxReadable; [Description ( "MinReadable indicates the smallest value of the measured " "property that can be read by the NumericSensor."), MappingStrings { "MIF.DMTF|Temperature Probe|002.10", "MIF.DMTF|Electrical Current Probe|001.10", "MIF.DMTF|Voltage Probe|001.10" }] sint32 MinReadable; [Description ( "Resolution indicates the ability of the Sensor to resolve " "differences in the measured property. The units for this " "measurement are determined by " "BaseUnit*UnitModifier/RateUnit."), MappingStrings { "MIF.DMTF|Temperature Probe|002.17", "MIF.DMTF|Electrical Current Probe|001.17", "MIF.DMTF|Voltage Probe|001.17" }] uint32 Resolution; [Deprecated { "CIM_NumericSensor.Resolution", "CIM_NumericSensor.Accuracy" }, Description ( "This property is being deprecated in lieu of using the " "Resolution and Accuracy properties. \n" "Indicates the tolerance of the Sensor for the measured " "property. Tolerance, along with Resolution and Accuracy, is " "used to calculate the actual value of the measured physical " "property. Tolerance may vary depending on whether the " "Device is linear over its dynamic range.")] sint32 Tolerance; [Description ( "Indicates the accuracy of the Sensor for the measured " "property. Its value is recorded as plus/minus hundredths of " "a percent. Accuracy, along with Resolution, is used to " "calculate the actual value of the measured physical " "property. Accuracy may vary depending on whether the Device " "is linear over its dynamic range."), Units ( "Hundredths of Percent" ), MappingStrings { "MIF.DMTF|Temperature Probe|002.19", "MIF.DMTF|Electrical Current Probe|001.19", "MIF.DMTF|Voltage Probe|001.19" }] sint32 Accuracy; [Description ( "Indicates that the Sensor is linear over its dynamic range.")] boolean IsLinear; [Description ( "Indicates the margin built around the thresholds. This " "margin prevents unnecessary state changes when the Sensor " "reading may fluctuate very close to its thresholds. This " "could be due to the Sensor's tolerance/accuracy/resolution " "or due to environmental factors. Once a threshold is " "crossed, the state of the Sensor should change. However, " "the state should not fluctuate between the old and new " "states unless the Sensor's change in the reading exceeds " "the hysteresis value. The units for this measurement are " "determined by BaseUnit*UnitModifier/RateUnit.")] uint32 Hysteresis; [Description ( "The Sensor's threshold values specify the ranges (min and " "max values) for determining whether the Sensor is operating " "under Normal, NonCritical, Critical or Fatal conditions. If " "Current Reading is between LowerThresholdNonCritical and " "Upper ThresholdNonCritical, then the Sensor is reporting a " "normal value. If CurrentReading is between " "LowerThresholdNonCritical and LowerThresholdCritical, then " "the CurrentState is NonCritical."), MappingStrings { "MIF.DMTF|Temperature Probe|002.11", "MIF.DMTF|Electrical Current Probe|001.11", "MIF.DMTF|Voltage Probe|001.11" }] sint32 LowerThresholdNonCritical; [Description ( "The Sensor's threshold values specify the ranges (min and " "max values) for determining whether the Sensor is operating " "under Normal, NonCritical, Critical or Fatal conditions. If " "the CurrentReading is between LowerThresholdNonCritical and " "UpperThresholdNonCritical, then the Sensor is reporting a " "normal value. If the CurrentReading is between " "UpperThreshold NonCritical and UpperThresholdCritical, then " "the CurrentState is NonCritical."), MappingStrings { "MIF.DMTF|Temperature Probe|002.12", "MIF.DMTF|Electrical Current Probe|001.12", "MIF.DMTF|Voltage Probe|001.12" }] sint32 UpperThresholdNonCritical; [Description ( "The Sensor's threshold values specify the ranges (min and " "max values) for determining whether the Sensor is operating " "under Normal, NonCritical, Critical or Fatal conditions. If " "the CurrentReading is between LowerThresholdCritical and " "Lower ThresholdFatal, then the CurrentState is Critical."), MappingStrings { "MIF.DMTF|Temperature Probe|002.13", "MIF.DMTF|Electrical Current Probe|001.13", "MIF.DMTF|Voltage Probe|001.13" }] sint32 LowerThresholdCritical; [Description ( "The Sensor's threshold values specify the ranges (min and " "max values) for determining whether the Sensor is operating " "under Normal, NonCritical, Critical or Fatal conditions. If " "the CurrentReading is between UpperThresholdCritical and " "Upper ThresholdFatal, then the CurrentState is Critical."), MappingStrings { "MIF.DMTF|Temperature Probe|002.14", "MIF.DMTF|Electrical Current Probe|001.14", "MIF.DMTF|Voltage Probe|001.14" }] sint32 UpperThresholdCritical; [Description ( "The Sensor's threshold values specify the ranges (min and " "max values) for determining whether the Sensor is operating " "under Normal, NonCritical, Critical or Fatal conditions. If " "the CurrentReading is below LowerThresholdFatal, then the " "Current State is Fatal."), MappingStrings { "MIF.DMTF|Temperature Probe|002.15", "MIF.DMTF|Electrical Current Probe|001.15", "MIF.DMTF|Voltage Probe|001.15" }] sint32 LowerThresholdFatal; [Description ( "The Sensor's threshold values specify the ranges (min and " "max values) for determining whether the Sensor is operating " "under Normal, NonCritical, Critical or Fatal conditions. If " "the CurrentReading is above UpperThresholdFatal, then the " "Current State is Fatal."), MappingStrings { "MIF.DMTF|Temperature Probe|002.16", "MIF.DMTF|Electrical Current Probe|001.16", "MIF.DMTF|Voltage Probe|001.16" }] sint32 UpperThresholdFatal; [Description ( "An array representing the thresholds supported by this " "Sensor."), ValueMap { "0", "1", "2", "3", "4", "5" }, Values { "LowerThresholdNonCritical", "UpperThresholdNonCritical", "LowerThresholdCritical", "UpperThresholdCritical", "LowerThresholdFatal", "UpperThresholdFatal" }] uint16 SupportedThresholds[]; [Description ( "An array representing the thresholds that are currently " "enabled for this Sensor."), ValueMap { "0", "1", "2", "3", "4", "5" }, Values { "LowerThresholdNonCritical", "UpperThresholdNonCritical", "LowerThresholdCritical", "UpperThresholdCritical", "LowerThresholdFatal", "UpperThresholdFatal" }] uint16 EnabledThresholds[]; [Description ( "An array representing the writable thresholds supported by " "Sensor."), ValueMap { "0", "1", "2", "3", "4", "5" }, Values { "LowerThresholdNonCritical", "UpperThresholdNonCritical", "LowerThresholdCritical", "UpperThresholdCritical", "LowerThresholdFatal", "UpperThresholdFatal" }] uint16 SettableThresholds[]; [Description ( "This method resets the values of the thresholds to hardware " "defaults. This method returns 0 if successful, 1 if " "unsupported and any other value if an error occurred. In a " "subclass, the set of possible return codes could be " "specified, using a ValueMap qualifier on the method. The " "strings to which the ValueMap contents are 'translated' may " "also be specified in the subclass as a Values array " "qualifier.")] uint32 RestoreDefaultThresholds(); [Deprecated { "No Value" }, Description ( "The use of this method is being deprecated, since Current " "senor reading can be retrieved through the GetInstance " "operation. \n" "For a non-linear Sensor, the resolution, accuracy, " "tolerance and hysteresis vary as the current reading moves. " "This method can be used to get these factors for a given " "reading. It returns 0 if successful, 1 if unsupported, and " "any other value if an error occurred. In a subclass, the " "set of possible return codes could be specified, using a " "ValueMap qualifier on the method. The strings to which the " "ValueMap contents are 'translated' may also be specified in " "the subclass as a Values array qualifier.")] uint32 GetNonLinearFactors( [IN, Description ( "The sensor reading to get information for.")] sint32 SensorReading, [IN ( false ), OUT, Description ( "The accuracy of the reading.")] sint32 Accuracy, [IN ( false ), OUT, Description ( "The resolution of the reading.")] uint32 Resolution, [IN ( false ), OUT, Description ( "The tolerance of the reading.")] sint32 Tolerance, [IN ( false ), OUT, Description ( "The Hysteresis of the reading.")] uint32 Hysteresis); }; // =================================================================== // DiscreteSensor // =================================================================== [Deprecated { "CIM_Sensor" }, Version ( "2.8.0" ), Description ( "A DiscreteSensor has a set of legal string values, that it can " "report. These values are enumerated in the Sensor's " "PossibleValues property. A DiscreteSensor will always have a " "'current reading' that corresponds to one of the enumerated " "values. \n" "The use of this class is being deprecated in lieu of " "CIM_Sensor. Information in the CurrentReading and " "PossibleValues properties will typically have the same values " "and semantics as for the CurrentState and PossibleStates " "properties, inherited from Sensor.")] class CIM_DiscreteSensor : CIM_Sensor { [Deprecated { "CIM_Sensor.CurrentState" }, Description ( "The current value indicated by the Sensor."), MaxLen ( 64 )] string CurrentReading; [Deprecated { "CIM_Sensor.PossibleStates" }, Description ( "PossibleValues enumerates the string outputs that can be " "reported by the DiscreteSensor."), MaxLen ( 64 )] string PossibleValues[]; [Deprecated { "No Value" }, Description ( "AcceptableValues details which of the PossibleValues " "strings are considered 'acceptable' (ie, 'not an error')."), MaxLen ( 64 )] string AcceptableValues[]; }; // =================================================================== // TemperatureSensor // =================================================================== [Deprecated { "CIM_NumericSensor" }, Version ( "2.8.0" ), Description ( "The use of this class is being deprecated in lieu of the " "additions to Sensor and Numeric Sensor. A TemperatureSensor " "can be defined by setting the SensorType property, inherited " "from Sensor, to 2 (\"Temperature\").")] class CIM_TemperatureSensor : CIM_NumericSensor { [Deprecated { "No Value" }, Override ( "SensorType" )] uint16 SensorType = 2; [Deprecated { "No Value" }, Override ( "BaseUnits" )] uint16 BaseUnits = 2; [Deprecated { "No Value" }, Override ( "UnitModifier" )] sint32 UnitModifier = -1; [Deprecated { "No Value" }, Override ( "RateUnits" )] uint16 RateUnits = 0; [Deprecated { "No Value" }, Override ( "CurrentReading" ), MappingStrings { "MIF.DMTF|Temperature Probe|002.5" }] sint32 CurrentReading; [Deprecated { "No Value" }, Override ( "NominalReading" ), MappingStrings { "MIF.DMTF|Temperature Probe|002.6" }] sint32 NominalReading; [Deprecated { "No Value" }, Override ( "NormalMax" ), MappingStrings { "MIF.DMTF|Temperature Probe|002.7" }] sint32 NormalMax; [Deprecated { "No Value" }, Override ( "NormalMin" ), MappingStrings { "MIF.DMTF|Temperature Probe|002.8" }] sint32 NormalMin; [Deprecated { "No Value" }, Override ( "MaxReadable" ), MappingStrings { "MIF.DMTF|Temperature Probe|002.9" }] sint32 MaxReadable; [Deprecated { "No Value" }, Override ( "MinReadable" ), MappingStrings { "MIF.DMTF|Temperature Probe|002.10" }] sint32 MinReadable; [Deprecated { "No Value" }, Override ( "Resolution" ), Units ( "Hundredths of Degrees C" ), MappingStrings { "MIF.DMTF|Temperature Probe|002.17" }] uint32 Resolution; [Deprecated { "No Value" }, Override ( "Tolerance" ), MappingStrings { "MIF.DMTF|Temperature Probe|002.18" }] sint32 Tolerance; [Deprecated { "No Value" }, Override ( "Accuracy" ), MappingStrings { "MIF.DMTF|Temperature Probe|002.19" }] sint32 Accuracy; [Deprecated { "No Value" }, Override ( "LowerThresholdNonCritical" ), MappingStrings { "MIF.DMTF|Temperature Probe|002.11" }] sint32 LowerThresholdNonCritical; [Deprecated { "No Value" }, Override ( "UpperThresholdNonCritical" ), MappingStrings { "MIF.DMTF|Temperature Probe|002.12" }] sint32 UpperThresholdNonCritical; [Deprecated { "No Value" }, Override ( "LowerThresholdCritical" ), MappingStrings { "MIF.DMTF|Temperature Probe|002.13" }] sint32 LowerThresholdCritical; [Deprecated { "No Value" }, Override ( "UpperThresholdCritical" ), MappingStrings { "MIF.DMTF|Temperature Probe|002.14" }] sint32 UpperThresholdCritical; [Deprecated { "No Value" }, Override ( "LowerThresholdFatal" ), MappingStrings { "MIF.DMTF|Temperature Probe|002.15" }] sint32 LowerThresholdFatal; [Deprecated { "No Value" }, Override ( "UpperThresholdFatal" ), MappingStrings { "MIF.DMTF|Temperature Probe|002.16" }] sint32 UpperThresholdFatal; }; // =================================================================== // CurrentSensor // =================================================================== [Deprecated { "CIM_NumericSensor" }, Version ( "2.8.0" ), Description ( "The use of this class is being deprecated in lieu of the " "additions to Sensor and NumericSensor. A CurrentSensor can be " "defined by setting the SensorType property, inherited from " "Sensor, to 4 (\"Current\").")] class CIM_CurrentSensor : CIM_NumericSensor { [Deprecated { "No Value" }, Override ( "SensorType" )] uint16 SensorType = 4; [Deprecated { "No Value" }, Override ( "BaseUnits" )] uint16 BaseUnits = 6; [Deprecated { "No Value" }, Override ( "UnitModifier" )] sint32 UnitModifier = -3; [Deprecated { "No Value" }, Override ( "RateUnits" )] uint16 RateUnits = 0; [Deprecated { "No Value" }, Override ( "CurrentReading" ), MappingStrings { "MIF.DMTF|Electrical Current Probe|001.5" }] sint32 CurrentReading; [Deprecated { "No Value" }, Override ( "NominalReading" ), MappingStrings { "MIF.DMTF|Electrical Current Probe|001.6" }] sint32 NominalReading; [Deprecated { "No Value" }, Override ( "NormalMax" ), MappingStrings { "MIF.DMTF|Electrical Current Probe|001.7" }] sint32 NormalMax; [Deprecated { "No Value" }, Override ( "NormalMin" ), MappingStrings { "MIF.DMTF|Electrical Current Probe|001.8" }] sint32 NormalMin; [Deprecated { "No Value" }, Override ( "MaxReadable" ), MappingStrings { "MIF.DMTF|Electrical Current Probe|001.9" }] sint32 MaxReadable; [Deprecated { "No Value" }, Override ( "MinReadable" ), MappingStrings { "MIF.DMTF|Electrical Current Probe|001.10" }] sint32 MinReadable; [Deprecated { "No Value" }, Override ( "Resolution" ), Units ( "Tenths of MilliAmps" ), MappingStrings { "MIF.DMTF|Electrical Current Probe|001.17" }] uint32 Resolution; [Deprecated { "No Value" }, Override ( "Tolerance" ), MappingStrings { "MIF.DMTF|Electrical Current Probe|001.18" }] sint32 Tolerance; [Deprecated { "No Value" }, Override ( "Accuracy" ), MappingStrings { "MIF.DMTF|Electrical Current Probe|001.19" }] sint32 Accuracy; [Deprecated { "No Value" }, Override ( "LowerThresholdNonCritical" ), MappingStrings { "MIF.DMTF|Electrical Current Probe|001.11" }] sint32 LowerThresholdNonCritical; [Deprecated { "No Value" }, Override ( "UpperThresholdNonCritical" ), MappingStrings { "MIF.DMTF|Electrical Current Probe|001.12" }] sint32 UpperThresholdNonCritical; [Deprecated { "No Value" }, Override ( "LowerThresholdCritical" ), MappingStrings { "MIF.DMTF|Electrical Current Probe|001.13" }] sint32 LowerThresholdCritical; [Deprecated { "No Value" }, Override ( "UpperThresholdCritical" ), MappingStrings { "MIF.DMTF|Electrical Current Probe|001.14" }] sint32 UpperThresholdCritical; [Deprecated { "No Value" }, Override ( "LowerThresholdFatal" ), MappingStrings { "MIF.DMTF|Electrical Current Probe|001.15" }] sint32 LowerThresholdFatal; [Deprecated { "No Value" }, Override ( "UpperThresholdFatal" ), MappingStrings { "MIF.DMTF|Electrical Current Probe|001.16" }] sint32 UpperThresholdFatal; }; // =================================================================== // VoltageSensor // =================================================================== [Deprecated { "CIM_NumericSensor" }, Version ( "2.8.0" ), Description ( "The use of this class is being deprecated in lieu of the " "additions to Sensor and NumericSensor. A VoltageSensor can be " "defined by setting the SensorType property, inherited from " "Sensor, to 3 (\"Voltage\").")] class CIM_VoltageSensor : CIM_NumericSensor { [Deprecated { "No value" }, Override ( "SensorType" )] uint16 SensorType = 3; [Deprecated { "No value" }, Override ( "BaseUnits" )] uint16 BaseUnits = 5; [Deprecated { "No value" }, Override ( "UnitModifier" )] sint32 UnitModifier = -3; [Deprecated { "No value" }, Override ( "RateUnits" )] uint16 RateUnits = 0; [Deprecated { "No value" }, Override ( "CurrentReading" ), MappingStrings { "MIF.DMTF|Voltage Probe|001.5" }] sint32 CurrentReading; [Deprecated { "No value" }, Override ( "NominalReading" ), MappingStrings { "MIF.DMTF|Voltage Probe|001.6" }] sint32 NominalReading; [Deprecated { "No value" }, Override ( "NormalMax" ), MappingStrings { "MIF.DMTF|Voltage Probe|001.7" }] sint32 NormalMax; [Deprecated { "No value" }, Override ( "NormalMin" ), MappingStrings { "MIF.DMTF|Voltage Probe|001.8" }] sint32 NormalMin; [Deprecated { "No value" }, Override ( "MaxReadable" ), MappingStrings { "MIF.DMTF|Voltage Probe|001.9" }] sint32 MaxReadable; [Deprecated { "No value" }, Override ( "MinReadable" ), MappingStrings { "MIF.DMTF|Voltage Probe|001.10" }] sint32 MinReadable; [Deprecated { "No value" }, Override ( "Resolution" ), Units ( "Tenths of MilliVolts" ), MappingStrings { "MIF.DMTF|Voltage Probe|001.17" }] uint32 Resolution; [Deprecated { "No value" }, Override ( "Tolerance" ), MappingStrings { "MIF.DMTF|Voltage Probe|001.18" }] sint32 Tolerance; [Deprecated { "No value" }, Override ( "Accuracy" ), MappingStrings { "MIF.DMTF|Voltage Probe|001.19" }] sint32 Accuracy; [Deprecated { "No value" }, Override ( "LowerThresholdNonCritical" ), MappingStrings { "MIF.DMTF|Voltage Probe|001.11" }] sint32 LowerThresholdNonCritical; [Deprecated { "No value" }, Override ( "UpperThresholdNonCritical" ), MappingStrings { "MIF.DMTF|Voltage Probe|001.12" }] sint32 UpperThresholdNonCritical; [Deprecated { "No value" }, Override ( "LowerThresholdCritical" ), MappingStrings { "MIF.DMTF|Voltage Probe|001.13" }] sint32 LowerThresholdCritical; [Deprecated { "No value" }, Override ( "UpperThresholdCritical" ), MappingStrings { "MIF.DMTF|Voltage Probe|001.14" }] sint32 UpperThresholdCritical; [Deprecated { "No value" }, Override ( "LowerThresholdFatal" ), MappingStrings { "MIF.DMTF|Voltage Probe|001.15" }] sint32 LowerThresholdFatal; [Deprecated { "No value" }, Override ( "UpperThresholdFatal" ), MappingStrings { "MIF.DMTF|Voltage Probe|001.16" }] sint32 UpperThresholdFatal; }; // =================================================================== // Tachometer // =================================================================== [Deprecated { "CIM_NumericSensor" }, Version ( "2.8.0" ), Description ( "The use of this class is deprecated in lieu of the additions " "to Sensor and NumericSensor. A Tachometer can be defined by " "setting the SensorType property. inherited from Sensor, to 5 " "(\"Tachometer\").")] class CIM_Tachometer : CIM_NumericSensor { [Deprecated { "No value" }, Override ( "SensorType" )] uint16 SensorType = 5; [Deprecated { "No value" }, Override ( "BaseUnits" )] uint16 BaseUnits = 38; [Deprecated { "No value" }, Override ( "UnitModifier" )] sint32 UnitModifier = 1; [Deprecated { "No value" }, Override ( "RateUnits" )] uint16 RateUnits = 4; [Deprecated { "No value" }, Override ( "Resolution" ), Units ( "Tenths of Revolutions per Minute" )] uint32 Resolution; }; // =================================================================== // AssociatedSupplyVoltageSensor // =================================================================== [Association, Deprecated { "CIM_AssociatedSensor" }, Version ( "2.8.0" ), Description ( "The use of this association is being deprecated in lieu of " "using AssociatedSensor, since the use of the referenced class " "VoltageSensor is deprecated. \n" "A PowerSupply may have an associated VoltageSensor, monitoring " "its input voltage. This is described by this association.")] class CIM_AssociatedSupplyVoltageSensor : CIM_AssociatedSensor { [Deprecated { "CIM_AssociatedSensor.Antecedent" }, Override ( "Antecedent" ), Description ( "The VoltageSensor.")] CIM_VoltageSensor REF Antecedent; [Deprecated { "CIM_AssociatedSensor.Dependent" }, Override ( "Dependent" ), Description ( "The PowerSupply associated with the VoltageSensor.")] CIM_PowerSupply REF Dependent; [Deprecated { "No Value" }, Description ( "Indicates the PowerSupply's input voltage range measured by " "the associated sensor. Range 1, 2 or both can be specified " "using the values 2, 3 or 4, respectively."), ValueMap { "0", "1", "2", "3", "4" }, Values { "Unknown", "Other", "Range 1", "Range 2", "Both Range 1 and 2" }] uint16 MonitoringRange; }; // =================================================================== // AssociatedSupplyCurrentSensor // =================================================================== [Association, Deprecated { "CIM_AssociatedSensor" }, Version ( "2.8.0" ), Description ( "The use of this association is being deprecated in lieu of " "using AssociatedSensor, since the use of the referenced class " "CurrentSensor is deprecated. \n" "A PowerSupply may have an associated CurrentSensor, monitoring " "its input frequency. This is described by this association.")] class CIM_AssociatedSupplyCurrentSensor : CIM_AssociatedSensor { [Deprecated { "CIM_AssociatedSensor.Antecedent" }, Override ( "Antecedent" ), Description ( "The CurrentSensor.")] CIM_CurrentSensor REF Antecedent; [Deprecated { "CIM_AssociatedSensor.Dependent" }, Override ( "Dependent" ), Description ( "The PowerSupply associated with the CurrentSensor.")] CIM_PowerSupply REF Dependent; [Deprecated { "No Value" }, Description ( "Indicates the PowerSupply's input frequency range measured " "by the associated sensor. Range 1, 2 or both can be " "specified using the values 2, 3 or 4, respectively."), ValueMap { "0", "1", "2", "3", "4" }, Values { "Unknown", "Other", "Range 1", "Range 2", "Both Range 1 and 2" }] uint16 MonitoringRange; }; // ================================================================== // PackageTempSensor // ================================================================== [Association, Deprecated { "CIM_PackageDependency" }, Version ( "2.7.0" ), Description ( "Often, a TemperatureSensor is installed in a Package such as a " "Chassis or a Rack, not to measure any particular Device, but " "the Package's environment in general. The use of this " "association has been deprecated. Instead, use " "PackageDependency to describe this relationship.")] class CIM_PackageTempSensor : CIM_PackageDependency { [Deprecated { "CIM_PackageDependency.Antecedent" }, Override ( "Antecedent" ), Description ( "The TemperatureSensor for the Package.")] CIM_TemperatureSensor REF Antecedent; [Deprecated { "CIM_PackageDependency.Dependent" }, Override ( "Dependent" ), Description ( "The PhysicalPackage whose environment is monitored.")] CIM_PhysicalPackage REF Dependent; }; // ==================================================================== // AlarmDevice // =================================================================== [Version ( "2.8.0" ), Description ( "An AlarmDevice is a type of Device that emits audible or " "visible indications related to a problem situation.")] class CIM_AlarmDevice : CIM_LogicalDevice { [Description ( "Boolean indicating that the Alarm is audible.")] boolean AudibleAlarm; [Description ( "Boolean indicating that the Alarm is visible.")] boolean VisibleAlarm; [Description ( "Boolean indicating that the Alarm causes motion of the " "Device.")] boolean MotionAlarm; [Description ( "Urgency is an enumerated value that indicates the relative " "frequency at which the Alarm flashes, vibrates and/or emits " "audible tones."), ValueMap { "0", "1", "2", "3", "4", "5", "6" }, Values { "Unknown", "Other", "Not Supported", "Informational", "Non-Critical", "Critical", "Unrecoverable" }] uint16 Urgency; [Description ( "The current state of the alarm."), ValueMap { "0", "1", "2", "3" }, Values { "Unknown", "Off", "Steady", "Alternating" }] uint16 AlarmState; [Description ( "True indicates that the audio of an AlarmState indicator " "has been disabled (i.e. muted). A disabled state here does " "not imply that the AlarmState is off.")] boolean AudioIndicatorIsDisabled; [Description ( "True indicates that the visual of an AlarmState indicator " "has been disabled (i.e. dimmed). A disabled state here does " "not imply that the AlarmState is off.")] boolean VisualIndicatorIsDisabled; [Description ( "True indicates that the motion of an AlarmState indicator " "has been disabled (i.e. stopped). A disabled state here " "does not imply that the AlarmState is off.")] boolean MotionIndicatorIsDisabled; [Description ( "SetAlarmState is a method for defining the current state of " "the Alarm. Its input parameter, RequestedAlarmState, is " "specified using the Values list of AlarmDevice's AlarmState " "property. SetAlarmState returns 0 if the request is " "successfully implemented, 1 if the specified RequestedAlarm " "State is not supported, and some other value if any other " "error occurred. In a subclass, the set of possible return " "codes should be specified using a ValueMap qualifier on the " "method. The strings to which the ValueMap contents are " "'translated' should be specified as a Values array " "qualifier.")] uint32 SetAlarmState ( [IN, Description ( "The desired state for the alarm."), ValueMap { "0", "1", "2", "3" }, Values { "Unknown", "Off", "Steady", "Alternating" }] uint16 RequestedAlarmState); [Description ( "SetAlarmIndicator is a method for enabling or disabling the " "indicator of the AlarmState function, without changing the " "current AlarmState. It has 3 input parameters, Audio " "Indicator, VisualIndicator and MotionIndicator. For all of " "the input parameters, a value of 0 indicates no change to " "the AlarmState indicator, 1 indicates Disable, and 2 " "indicates Enable. The method returns 0 if the request is " "successfully implemented, 1 if the specified request is not " "supported, and some other value if any other error " "occurred. In a subclass, the set of possible return codes " "should be specified using a ValueMap qualifier on the " "method. The strings to which the ValueMap contents are " "'translated' should be specified as a Values array " "qualifier.")] uint32 SetAlarmIndicator ( [IN, Description ( "The state for the audio indicator."), ValueMap { "0", "1", "2" }, Values { "No Change", "Disable", "Enable" }] uint16 AudioIndicator, [IN, Description ( "The state for the visual indicator."), ValueMap { "0", "1", "2" }, Values { "No Change", "Disable", "Enable" }] uint16 VisualIndicator, [IN, Description ( "The state for the motion indicator."), ValueMap { "0", "1", "2" }, Values { "No Change", "Disable", "Enable" }] uint16 MotionIndicator); [Description ( "SetUrgency is a method for defining the desired urgency " "level for the Alarm. Its input parameter, RequestedUrgency, " "is specified using the Values list of AlarmDevice's Urgency " "property. SetUrgency returns 0 if the request is " "successfully implemented, 1 if the specified Urgency level " "is not supported, and some other value if any other error " "occurred. In a subclass, the set of possible return codes " "should be specified using a ValueMap qualifier on the " "method. The strings to which the ValueMap contents are " "'translated' should be specified as a Values array " "qualifier.")] uint32 SetUrgency ( [IN, Description ( "Desired urgency for the alarm."), ValueMap { "1", "3", "4", "5", "6" }, Values { "Other", "Informational", "Non-Critical", "Critical", "Unrecoverable" }] uint16 RequestedUrgency); }; // =================================================================== // AssociatedAlarm // =================================================================== [Association, Version ( "2.6.0" ), Description ( "LogicalDevices may have one or more AlarmDevices associated " "with them, in order to indicate problem situations. This " "relationship is indicated by the AssociatedAlarm dependency.")] class CIM_AssociatedAlarm : CIM_Dependency { [Override ( "Antecedent" ), Description ( "The AlarmDevice.")] CIM_AlarmDevice REF Antecedent; [Override ( "Dependent" ), Description ( "The LogicalDevice that is alarmed.")] CIM_LogicalDevice REF Dependent; }; // ================================================================== // PackageAlarm // ================================================================== [Association, Deprecated { "CIM_PackageDependency" }, Version ( "2.7.0" ), Description ( "Often, an AlarmDevice is installed as part of a Package, not " "to indicate issues with any particular LogicalDevice or " "PhysicalComponent, but with the Package's environment in " "general, its security state or its overall health. The use of " "this association has been deprecated. Instead, use " "PackageDependency to describe this relationship.")] class CIM_PackageAlarm : CIM_PackageDependency { [Deprecated { "CIM_PackageDependency.Antecedent" }, Override ( "Antecedent" ), Description ( "The AlarmDevice for the Package.")] CIM_AlarmDevice REF Antecedent; [Deprecated { "CIM_PackageDependency.Dependent" }, Override ( "Dependent" ), Description ( "The PhysicalPackage whose health, security, environment, " "etc. is alarmed.")] CIM_PhysicalPackage REF Dependent; }; // =================================================================== // end of file // ===================================================================