namespace CommonHelpers { public class Vlv0100 { // Those addresses are taken from DSDT for VLV0100 // and might change at any time with a BIOS update // Purpose: https://lore.kernel.org/lkml/20220206022023.376142-1-andrew.smirnov@gmail.com/ // Addresses: DSDT.txt static IntPtr FSLO_FSHI = new IntPtr(0xFE700B00 + 0x92); static IntPtr GNLO_GNHI = new IntPtr(0xFE700B00 + 0x95); static IntPtr FRPR = new IntPtr(0xFE700B00 + 0x97); static IntPtr FNRL_FNRH = new IntPtr(0xFE700300 + 0xB0); static IntPtr FNCK = new IntPtr(0xFE700300 + 0x9F); static IntPtr BATH_BATL = new IntPtr(0xFE700400 + 0x6E); static IntPtr PDFV = new IntPtr(0xFE700C00 + 0x4C); static IntPtr XBID = new IntPtr(0xFE700300 + 0xBD); static IntPtr PDCT = new IntPtr(0xFE700C00 + 0x01); static ushort IO6C = 0x6C; public const ushort MAX_FAN_RPM = 0x1C84; public static readonly ushort[] SupportedFirmwares = { 0xB030 // 45104 }; public static readonly byte[] SupportedBoardID = { 6 }; public static readonly byte[] SupportedPDCS = { 0x2B // 43 }; private static InpOut? inpOut; public static bool IsOpen { get { return inpOut is not null; } } public static bool IsSupported { get { return SupportedFirmwares.Contains(FirmwareVersion) && SupportedBoardID.Contains(BoardID); } } public static ushort FirmwareVersion { get; private set; } public static byte BoardID { get; private set; } public static byte PDCS { get; private set; } public static bool Open() { if (inpOut != null) return true; try { inpOut = new InpOut(); var data = inpOut?.ReadMemory(PDFV, 2); if (data is not null) FirmwareVersion = BitConverter.ToUInt16(data); else FirmwareVersion = 0xFFFF; data = inpOut?.ReadMemory(XBID, 1); if (data is not null) BoardID = data[0]; else BoardID = 0xFF; data = inpOut?.ReadMemory(PDCT, 1); if (data is not null) PDCS = data[0]; else PDCS = 0xFF; return true; } catch (Exception e) { Log.TraceException("VLV0100", "InpOut", e); Close(); return false; } } public static void Close() { SetFanControl(false); using (inpOut) { } inpOut = null; } public static ushort GetFanDesiredRPM() { var data = inpOut?.ReadMemory(FSLO_FSHI, 2); if (data is null) return 0; return BitConverter.ToUInt16(data); } public static ushort? GetFanRPM() { var data = inpOut?.ReadMemory(FNRL_FNRH, 2); if (data is null) return null; return BitConverter.ToUInt16(data); } public static void SetFanControl(Boolean userControlled) { SetGain(10); SetRampRate(userControlled ? (byte)10 : (byte)20); inpOut?.DlPortWritePortUchar(IO6C, userControlled ? (byte)0xCC : (byte)0xCD); } public static void SetFanDesiredRPM(ushort rpm) { if (rpm > MAX_FAN_RPM) rpm = MAX_FAN_RPM; byte[] data = BitConverter.GetBytes(rpm); inpOut?.WriteMemory(FSLO_FSHI, data); } public static bool GetFanCheck() { var data = inpOut?.ReadMemory(FNCK, 1); if (data is null) return false; return (data[0] & 0x1) != 0; } public static float GetBattTemperature() { var data = inpOut?.ReadMemory(BATH_BATL, 2); if (data is null) return 0; int value = (data[0] << 8) + data[1]; return (float)(value - 0x0AAC) / 10.0f; } private static void SetGain(ushort gain) { byte[] data = BitConverter.GetBytes(gain); inpOut?.WriteMemory(GNLO_GNHI, data); } private static void SetRampRate(byte rampRate) { byte[] data = BitConverter.GetBytes(rampRate); inpOut?.WriteMemory(FRPR, data); } } }