7b954b9ba0
Fix typo in word 'diagnostics' in documentation. Signed-off-by: Anaswara T Rajan <anaswaratrajan@gmail.com> Reviewed-by: Armin Wolf <W_Armin@gmx.de> Link: https://lore.kernel.org/r/20241005070056.16326-1-anaswaratrajan@gmail.com Signed-off-by: Hans de Goede <hdegoede@redhat.com>
298 lines
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298 lines
12 KiB
ReStructuredText
.. SPDX-License-Identifier: GPL-2.0-or-later
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============================================
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Dell DDV WMI interface driver (dell-wmi-ddv)
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============================================
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Introduction
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============
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Many Dell notebooks made after ~2020 support a WMI-based interface for
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retrieving various system data like battery temperature, ePPID, diagnostic data
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and fan/thermal sensor data.
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This interface is likely used by the `Dell Data Vault` software on Windows,
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so it was called `DDV`. Currently the ``dell-wmi-ddv`` driver supports
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version 2 and 3 of the interface, with support for new interface versions
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easily added.
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.. warning:: The interface is regarded as internal by Dell, so no vendor
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documentation is available. All knowledge was thus obtained by
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trial-and-error, please keep that in mind.
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Dell ePPID (electronic Piece Part Identification)
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=================================================
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The Dell ePPID is used to uniquely identify components in Dell machines,
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including batteries. It has a form similar to `CC-PPPPPP-MMMMM-YMD-SSSS-FFF`
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and contains the following information:
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* Country code of origin (CC).
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* Part number with the first character being a filling number (PPPPPP).
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* Manufacture Identification (MMMMM).
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* Manufacturing Year/Month/Date (YMD) in base 36, with Y being the last digit
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of the year.
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* Manufacture Sequence Number (SSSS).
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* Optional Firmware Version/Revision (FFF).
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The `eppidtool <https://pypi.org/project/eppidtool>`_ python utility can be used
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to decode and display this information.
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All information regarding the Dell ePPID was gathered using Dell support
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documentation and `this website <https://telcontar.net/KBK/Dell/date_codes>`_.
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WMI interface description
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=========================
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The WMI interface description can be decoded from the embedded binary MOF (bmof)
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data using the `bmfdec <https://github.com/pali/bmfdec>`_ utility:
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::
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[WMI, Dynamic, Provider("WmiProv"), Locale("MS\\0x409"), Description("WMI Function"), guid("{8A42EA14-4F2A-FD45-6422-0087F7A7E608}")]
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class DDVWmiMethodFunction {
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[key, read] string InstanceName;
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[read] boolean Active;
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[WmiMethodId(1), Implemented, read, write, Description("Return Battery Design Capacity.")] void BatteryDesignCapacity([in] uint32 arg2, [out] uint32 argr);
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[WmiMethodId(2), Implemented, read, write, Description("Return Battery Full Charge Capacity.")] void BatteryFullChargeCapacity([in] uint32 arg2, [out] uint32 argr);
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[WmiMethodId(3), Implemented, read, write, Description("Return Battery Manufacture Name.")] void BatteryManufactureName([in] uint32 arg2, [out] string argr);
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[WmiMethodId(4), Implemented, read, write, Description("Return Battery Manufacture Date.")] void BatteryManufactureDate([in] uint32 arg2, [out] uint32 argr);
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[WmiMethodId(5), Implemented, read, write, Description("Return Battery Serial Number.")] void BatterySerialNumber([in] uint32 arg2, [out] uint32 argr);
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[WmiMethodId(6), Implemented, read, write, Description("Return Battery Chemistry Value.")] void BatteryChemistryValue([in] uint32 arg2, [out] string argr);
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[WmiMethodId(7), Implemented, read, write, Description("Return Battery Temperature.")] void BatteryTemperature([in] uint32 arg2, [out] uint32 argr);
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[WmiMethodId(8), Implemented, read, write, Description("Return Battery Current.")] void BatteryCurrent([in] uint32 arg2, [out] uint32 argr);
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[WmiMethodId(9), Implemented, read, write, Description("Return Battery Voltage.")] void BatteryVoltage([in] uint32 arg2, [out] uint32 argr);
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[WmiMethodId(10), Implemented, read, write, Description("Return Battery Manufacture Access(MA code).")] void BatteryManufactureAceess([in] uint32 arg2, [out] uint32 argr);
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[WmiMethodId(11), Implemented, read, write, Description("Return Battery Relative State-Of-Charge.")] void BatteryRelativeStateOfCharge([in] uint32 arg2, [out] uint32 argr);
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[WmiMethodId(12), Implemented, read, write, Description("Return Battery Cycle Count")] void BatteryCycleCount([in] uint32 arg2, [out] uint32 argr);
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[WmiMethodId(13), Implemented, read, write, Description("Return Battery ePPID")] void BatteryePPID([in] uint32 arg2, [out] string argr);
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[WmiMethodId(14), Implemented, read, write, Description("Return Battery Raw Analytics Start")] void BatteryeRawAnalyticsStart([in] uint32 arg2, [out] uint32 argr);
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[WmiMethodId(15), Implemented, read, write, Description("Return Battery Raw Analytics")] void BatteryeRawAnalytics([in] uint32 arg2, [out] uint32 RawSize, [out, WmiSizeIs("RawSize") : ToInstance] uint8 RawData[]);
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[WmiMethodId(16), Implemented, read, write, Description("Return Battery Design Voltage.")] void BatteryDesignVoltage([in] uint32 arg2, [out] uint32 argr);
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[WmiMethodId(17), Implemented, read, write, Description("Return Battery Raw Analytics A Block")] void BatteryeRawAnalyticsABlock([in] uint32 arg2, [out] uint32 RawSize, [out, WmiSizeIs("RawSize") : ToInstance] uint8 RawData[]);
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[WmiMethodId(18), Implemented, read, write, Description("Return Version.")] void ReturnVersion([in] uint32 arg2, [out] uint32 argr);
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[WmiMethodId(32), Implemented, read, write, Description("Return Fan Sensor Information")] void FanSensorInformation([in] uint32 arg2, [out] uint32 RawSize, [out, WmiSizeIs("RawSize") : ToInstance] uint8 RawData[]);
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[WmiMethodId(34), Implemented, read, write, Description("Return Thermal Sensor Information")] void ThermalSensorInformation([in] uint32 arg2, [out] uint32 RawSize, [out, WmiSizeIs("RawSize") : ToInstance] uint8 RawData[]);
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};
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Each WMI method takes an ACPI buffer containing a 32-bit index as input argument,
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with the first 8 bit being used to specify the battery when using battery-related
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WMI methods. Other WMI methods may ignore this argument or interpret it
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differently. The WMI method output format varies:
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* if the function has only a single output, then an ACPI object
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of the corresponding type is returned
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* if the function has multiple outputs, when an ACPI package
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containing the outputs in the same order is returned
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The format of the output should be thoroughly checked, since many methods can
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return malformed data in case of an error.
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The data format of many battery-related methods seems to be based on the
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`Smart Battery Data Specification`, so unknown battery-related methods are
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likely to follow this standard in some way.
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WMI method GetBatteryDesignCapacity()
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-------------------------------------
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Returns the design capacity of the battery in mAh as an u16.
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WMI method BatteryFullCharge()
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------------------------------
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Returns the full charge capacity of the battery in mAh as an u16.
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WMI method BatteryManufactureName()
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-----------------------------------
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Returns the manufacture name of the battery as an ASCII string.
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WMI method BatteryManufactureDate()
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-----------------------------------
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Returns the manufacture date of the battery as an u16.
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The date is encoded in the following manner:
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- bits 0 to 4 contain the manufacture day.
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- bits 5 to 8 contain the manufacture month.
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- bits 9 to 15 contain the manufacture year biased by 1980.
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.. note::
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The data format needs to be verified on more machines.
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WMI method BatterySerialNumber()
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--------------------------------
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Returns the serial number of the battery as an u16.
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WMI method BatteryChemistryValue()
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----------------------------------
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Returns the chemistry of the battery as an ASCII string.
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Known values are:
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- "Li-I" for Li-Ion
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WMI method BatteryTemperature()
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-------------------------------
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Returns the temperature of the battery in tenth degree kelvin as an u16.
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WMI method BatteryCurrent()
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---------------------------
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Returns the current flow of the battery in mA as an s16.
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Negative values indicate discharging.
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WMI method BatteryVoltage()
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---------------------------
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Returns the voltage flow of the battery in mV as an u16.
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WMI method BatteryManufactureAccess()
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-------------------------------------
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Returns a manufacture-defined value as an u16.
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WMI method BatteryRelativeStateOfCharge()
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-----------------------------------------
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Returns the capacity of the battery in percent as an u16.
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WMI method BatteryCycleCount()
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------------------------------
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Returns the cycle count of the battery as an u16.
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WMI method BatteryePPID()
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-------------------------
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Returns the ePPID of the battery as an ASCII string.
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WMI method BatteryeRawAnalyticsStart()
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--------------------------------------
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Performs an analysis of the battery and returns a status code:
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- ``0x0``: Success
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- ``0x1``: Interface not supported
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- ``0xfffffffe``: Error/Timeout
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.. note::
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The meaning of this method is still largely unknown.
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WMI method BatteryeRawAnalytics()
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---------------------------------
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Returns a buffer usually containing 12 blocks of analytics data.
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Those blocks contain:
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- a block number starting with 0 (u8)
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- 31 bytes of unknown data
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.. note::
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The meaning of this method is still largely unknown.
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WMI method BatteryDesignVoltage()
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---------------------------------
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Returns the design voltage of the battery in mV as an u16.
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WMI method BatteryeRawAnalyticsABlock()
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---------------------------------------
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Returns a single block of analytics data, with the second byte
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of the index being used for selecting the block number.
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*Supported since WMI interface version 3!*
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.. note::
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The meaning of this method is still largely unknown.
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WMI method ReturnVersion()
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--------------------------
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Returns the WMI interface version as an u32.
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WMI method FanSensorInformation()
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---------------------------------
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Returns a buffer containing fan sensor entries, terminated
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with a single ``0xff``.
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Those entries contain:
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- fan type (u8)
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- fan speed in RPM (little endian u16)
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WMI method ThermalSensorInformation()
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-------------------------------------
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Returns a buffer containing thermal sensor entries, terminated
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with a single ``0xff``.
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Those entries contain:
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- thermal type (u8)
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- current temperature (s8)
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- min. temperature (s8)
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- max. temperature (s8)
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- unknown field (u8)
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.. note::
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TODO: Find out what the meaning of the last byte is.
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ACPI battery matching algorithm
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===============================
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The algorithm used to match ACPI batteries to indices is based on information
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which was found inside the logging messages of the OEM software.
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Basically for each new ACPI battery, the serial numbers of the batteries behind
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indices 1 till 3 are compared with the serial number of the ACPI battery.
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Since the serial number of the ACPI battery can either be encoded as a normal
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integer or as a hexadecimal value, both cases need to be checked. The first
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index with a matching serial number is then selected.
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A serial number of 0 indicates that the corresponding index is not associated
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with an actual battery, or that the associated battery is not present.
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Some machines like the Dell Inspiron 3505 only support a single battery and thus
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ignore the battery index. Because of this the driver depends on the ACPI battery
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hook mechanism to discover batteries.
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.. note::
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The ACPI battery matching algorithm currently used inside the driver is
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outdated and does not match the algorithm described above. The reasons for
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this are differences in the handling of the ToHexString() ACPI opcode between
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Linux and Windows, which distorts the serial number of ACPI batteries on many
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machines. Until this issue is resolved, the driver cannot use the above
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algorithm.
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Reverse-Engineering the DDV WMI interface
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=========================================
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1. Find a supported Dell notebook, usually made after ~2020.
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2. Dump the ACPI tables and search for the WMI device (usually called "ADDV").
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3. Decode the corresponding bmof data and look at the ASL code.
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4. Try to deduce the meaning of a certain WMI method by comparing the control
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flow with other ACPI methods (_BIX or _BIF for battery related methods
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for example).
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5. Use the built-in UEFI diagnostics to view sensor types/values for fan/thermal
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related methods (sometimes overwriting static ACPI data fields can be used
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to test different sensor type values, since on some machines this data is
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not reinitialized upon a warm reset).
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Alternatively:
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1. Load the ``dell-wmi-ddv`` driver, use the ``force`` module param
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if necessary.
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2. Use the debugfs interface to access the raw fan/thermal sensor buffer data.
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3. Compare the data with the built-in UEFI diagnostics.
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In case the DDV WMI interface version available on your Dell notebook is not
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supported or you are seeing unknown fan/thermal sensors, please submit a
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bugreport on `bugzilla <https://bugzilla.kernel.org>`_ so they can be added
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to the ``dell-wmi-ddv`` driver.
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See Documentation/admin-guide/reporting-issues.rst for further information.
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