CIM_PowerManagementCapabilities¶
Class reference¶
Subclass of CIM_Capabilities
A class derived from Capabilities that describes the power management aspects of an element (typically a system or device). The element’s power management capabilities are decoupled from a PowerManagementService, since a single service could apply to multiple elements, each with specific capabilities.
Key properties¶
Local properties¶
string OtherPowerChangeCapabilities
A string describing the additional power management capabilities of the element, used when the PowerChangeCapabilities is set to the value 1, “Other”.
string[] OtherPowerCapabilitiesDescriptions
An array of strings describing an element’s additional power management capabilities, used when the PowerCapabilities array includes the value 1, “Other”.
uint16[] RequestedPowerStatesSupported
An enumeration that indicates the requested power states supported by the power management service. Because this is an array, multiple values can be specified. The current values in the enumeration are:
2=On, corresponding to ACPI state G0 or S0 or D0.
3=Sleep - Light, corresponding to ACPI state G1, S1/S2, or D1.
4=Sleep - Deep, corresponding to ACPI state G1, S3, or D2.
5=Power Cycle (Off - Soft), corresponding to ACPI state G2, S5, or D3, but where the managed element is set to return to power state “On” at a pre-determined time.
6=Off - Hard, corresponding to ACPI state G3, S5, or D3.
7=Hibernate (Off - Soft), corresponding to ACPI state S4, where the state of the managed element is preserved and will be recovered upon powering on.
8=Off - Soft, corresponding to ACPI state G2, S5, or D3. 9= Power Cycle (Off-Hard), corresponds to the managed element reaching the ACPI state G3 followed by ACPI state S0.
10=Master Bus Reset, corresponds to the system reaching ACPI state S5 followed by ACPI state S0. This is used to represent system master bus reset. 11=Diagnostic Interrupt (NMI), corresponding to the system reaching ACPI state S5 followed by ACPI state S0. This is used to represent system non-maskable interrupt. 12=Off - Soft Graceful, equivalent to Off Soft but preceded by a request to the managed element to perform an orderlyshutdown.
13=Off - Hard Graceful, equivalent to Off Hard but preceded by a request to the managed element to perform an orderly shutdown.
14=Master Bus Rest Graceful, equivalent to Master Bus Reset but preceded by a request to the managed element to perform an orderly shutdown.
15=Power Cycle (Off - Soft Graceful), equivalent to Power Cycle (Off - Soft) but preceded by a request to the managed element to perform an orderly shutdown.
16=Power Cycle (Off - Hard Graceful), equivalent to Power Cycle (Off - Hard) but preceded by a request to the managed element to perform an orderly shutdown.
17=Diagnostic Interrupt (INIT), equivalent to Diagnostic Interrupt (NMI) but performed by an INIT switch instead because the NMI signal is masked.
..=DMTF Reserved.
0x7FFF..0xFFFF = Vendor Specific.
ValueMap Values 1 Other 2 On 3 Sleep - Light 4 Sleep -Deep 5 Power Cycle (Off - Soft) 6 Off - Hard 7 Hibernate (Off - Soft) 8 Off - Soft 9 Power Cycle (Off-Hard) 10 Master Bus Reset 11 Diagnostic Interrupt (NMI) 12 Off - Soft Graceful 13 Off - Hard Graceful 14 Master Bus Reset Graceful 15 Power Cycle (Off - Soft Graceful) 16 Power Cycle (Off - Hard Graceful) 17 Diagnostic Interrupt (INIT) DMTF Reserved 0x7FFF..0xFFFF Vendor Specific
uint16[] PowerChangeCapabilities
An enumeration indicating the specific power-related capabilities of a managed element. Since this is an array, multiple values may be specified. The current values in the enumeration are:
0 = Unknown
1 = Other
2 = Power Saving Modes Entered Automatically, describing that a managed element can change its power state based on usage or other criteria
3 = Power State Settable, indicating that the RequestPowerStateChange method is supported
4 = Power Cycling Supported, indicating that the RequestPowerStateChange method can be invoked with the PowerState input variable set to ‘Power Cycle (Off Soft)’
5 = Timed Power On Supported, indicating that the RequestPowerStateChange method can be invoked with the PowerState input variable set to ‘Power On’ and the Time parameter set to a specific date and time, or interval, for power-on.8 = Graceful Shutdown Supported, indicating that the managed element can be sent a hardware signal requesting an orderly shutdown prior to the requested power state change.
ValueMap Values 0 Unknown 1 Other 2 Power Saving Modes Entered Automatically 3 Power State Settable 4 Power Cycling Supported 5 Timed Power On Supported 6 Off Hard Power Cycling Supported 7 HW Reset Supported 8 Graceful Shutdown Supported
uint16[] PowerCapabilities
An enumeration indicating the specific power-related capabilities of a managed element. Since this is an array, multiple values may be specified. The current values in the enumeration are:
0 = Unknown
1 = Other
2 = Power Saving Modes Entered Automatically, describing that a managed element can change its power state based on usage or other criteria
3 = Power State Settable, indicating that the SetPowerState method is supported
4 = Power Cycling Supported, indicating that the SetPowerState method can be invoked with the PowerState input variable set to ‘Power Cycle’
5 = Timed Power On Supported, indicating that the SetPowerState method can be invoked with the PowerState input variable set to ‘Power Cycle’ and the Time parameter set to a specific date and time, or interval, for power-on.
ValueMap Values 0 Unknown 1 Other 2 Power Saving Modes Entered Automatically 3 Power State Settable 4 Power Cycling Supported 5 Timed Power On Supported
uint16[] PowerStatesSupported
An enumeration that indicates the power states supported by a managed element. Because this is an array, multiple values can be specified. The current values in the enumeration are:
2=On, corresponding to ACPI state G0 or S0 or D0.
3=Sleep - Light, corresponding to ACPI state G1, S1/S2, or D1.
4=Sleep - Deep, corresponding to ACPI state G1, S3, or D2.
5=Power Cycle (Off - Soft), corresponding to ACPI state G2, S5, or D3, but where the managed element is set to return to power state “On” at a pre-determined time.
6=Off - Hard, corresponding to ACPI state G3, S5, or D3.
7=Hibernate (Off - Soft), corresponding to ACPI state S4, where the state of the managed element is preserved and will be recovered upon powering on.
8=Off - Soft, corresponding to ACPI state G2, S5, or D3. 9= Power Cycle (Off-Hard), corresponds to the managed element reaching the ACPI state G3 followed by ACPI state S0.
10=Master Bus Reset, corresponds to the system reaching ACPI state S5 followed by ACPI state S0. This is used to represent system master bus reset. 11=Diagnostic Interrupt (NMI), corresponding to the system reaching ACPI state S5 followed by ACPI state S0. This is used to represent system non-maskable interrupt. 12=Off - Soft Graceful, equivalent to Off Soft but preceded by a request to the managed element to perform an orderlyshutdown.
13=Off - Hard Graceful, equivalent to Off Hard but preceded by a request to the managed element to perform an orderly shutdown.
14=Master Bus Rest Graceful, equivalent to Master Bus Reset but preceded by a request to the managed element to perform an orderly shutdown.
15=Power Cycle (Off - Soft Graceful), equivalent to Power Cycle (Off - Soft) but preceded by a request to the managed element to perform an orderly shutdown.
16=Power Cycle (Off - Hard Graceful), equivalent to Power Cycle (Off - Hard) but preceded by a request to the managed element to perform an orderly shutdown.
..=DMTF Reserved.
0x7FFF..0xFFFF = Vendor Specific.
ValueMap Values 1 Other 2 On 3 Sleep - Light 4 Sleep -Deep 5 Power Cycle (Off - Soft) 6 Off - Hard 7 Hibernate (Off - Soft) 8 Off - Soft 9 Power Cycle (Off-Hard) 10 Master Bus Reset 11 Diagnostic Interrupt (NMI) 12 Off - Soft Graceful 13 Off - Hard Graceful 14 Master Bus Reset Graceful 15 Power Cycle (Off - Soft Graceful) 16 Power Cycle (Off - Hard Graceful) DMTF Reserved 0x7FFF..0xFFFF Vendor Specific
Local methods¶
None