archived-g-helper/app/Gpu/NVidia/NvidiaGpuControl.cs

using GHelper.Helpers;
using NvAPIWrapper.GPU;
using NvAPIWrapper.Native;
using NvAPIWrapper.Native.GPU;
using NvAPIWrapper.Native.GPU.Structures;
using NvAPIWrapper.Native.Interfaces.GPU;
using System.Diagnostics;
using static NvAPIWrapper.Native.GPU.Structures.PerformanceStates20InfoV1;

namespace GHelper.Gpu.NVidia;

public class NvidiaGpuControl : IGpuControl
{

    public static int MaxCoreOffset => AppConfig.Get("max_gpu_core", 250);
    public static int MaxMemoryOffset => AppConfig.Get("max_gpu_memory", 250);

    public const int MinCoreOffset = -250;
    public const int MinMemoryOffset = -250;

    private static PhysicalGPU? _internalGpu;

    public NvidiaGpuControl()
    {
        _internalGpu = GetInternalDiscreteGpu();
    }

    public bool IsValid => _internalGpu != null;

    public bool IsNvidia => IsValid;

    public string FullName => _internalGpu!.FullName;

    public int? GetCurrentTemperature()
    {
        if (!IsValid) return null;

        PhysicalGPU internalGpu = _internalGpu!;
        IThermalSensor? gpuSensor =
            GPUApi.GetThermalSettings(internalGpu.Handle).Sensors
            .FirstOrDefault(s => s.Target == ThermalSettingsTarget.GPU);

        return gpuSensor?.CurrentTemperature;
    }

    public void Dispose()
    {
    }

    public void KillGPUApps()
    {

        if (!IsValid) return;
        PhysicalGPU internalGpu = _internalGpu!;

        try
        {
            Process[] processes = internalGpu.GetActiveApplications();
            foreach (Process process in processes)
                try
                {
                    Logger.WriteLine("Kill:" + process.ProcessName);
                    ProcessHelper.KillByProcess(process);
                }
                catch (Exception ex)
                {
                    Logger.WriteLine(ex.Message);
                }
        }
        catch (Exception ex)
        {
            Logger.WriteLine(ex.Message);
        }

        //GeneralApi.RestartDisplayDriver();
    }


    public int GetClocks(out int core, out int memory)
    {
        PhysicalGPU internalGpu = _internalGpu!;

        //Logger.WriteLine(internalGpu.FullName);
        //Logger.WriteLine(internalGpu.ArchitectInformation.ToString());

        try
        {
            IPerformanceStates20Info states = GPUApi.GetPerformanceStates20(internalGpu.Handle);
            core = states.Clocks[PerformanceStateId.P0_3DPerformance][0].FrequencyDeltaInkHz.DeltaValue / 1000;
            memory = states.Clocks[PerformanceStateId.P0_3DPerformance][1].FrequencyDeltaInkHz.DeltaValue / 1000;
            Logger.WriteLine($"GET GPU CLOCKS: {core}, {memory}");

            foreach (var delta in states.Voltages[PerformanceStateId.P0_3DPerformance])
            {
                Logger.WriteLine("GPU VOLT:" + delta.IsEditable + " - " + delta.ValueDeltaInMicroVolt.DeltaValue);
            }

            return 0;

        }
        catch (Exception ex)
        {
            Logger.WriteLine("GET GPU CLOCKS:" + ex.Message);
            core = memory = 0;
            return -1;
        }

    }


    public bool RestartGPU()
    {
        try
        {

            string script = @"$device = Get-PnpDevice | Where-Object { $_.FriendlyName -imatch 'NVIDIA' -and $_.Class -eq 'Display' }; Disable-PnpDevice $device.InstanceId -Confirm:$false; Start-Sleep -Seconds 5; Enable-PnpDevice $device.InstanceId -Confirm:$false";
            Logger.WriteLine(script);
            ProcessHelper.RunCMD("powershell", script);
            //Thread.Sleep(2000);
            return true;
        }
        catch (Exception ex)
        {
            Logger.WriteLine(ex.ToString());
            return false;
        }
    }

    public int SetClocksFromConfig()
    {
        int core = AppConfig.Get("gpu_core", 0);
        int memory = AppConfig.Get("gpu_memory", 0);
        int status = SetClocks(core, memory);
        return status;
    }

    public int SetClocks(int core, int memory, int voltage = 0)
    {

        if (core < MinCoreOffset || core > MaxCoreOffset) return 0;
        if (memory < MinMemoryOffset || memory > MaxMemoryOffset) return 0;

        PhysicalGPU internalGpu = _internalGpu!;

        var coreClock = new PerformanceStates20ClockEntryV1(PublicClockDomain.Graphics, new PerformanceStates20ParameterDelta(core * 1000));
        var memoryClock = new PerformanceStates20ClockEntryV1(PublicClockDomain.Memory, new PerformanceStates20ParameterDelta(memory * 1000));
        var voltageEntry = new PerformanceStates20BaseVoltageEntryV1(PerformanceVoltageDomain.Core, new PerformanceStates20ParameterDelta(voltage));

        PerformanceStates20ClockEntryV1[] clocks = { coreClock, memoryClock };
        PerformanceStates20BaseVoltageEntryV1[] voltages = { };

        PerformanceState20[] performanceStates = { new PerformanceState20(PerformanceStateId.P0_3DPerformance, clocks, voltages) };

        var overclock = new PerformanceStates20InfoV1(performanceStates, 2, 0);

        try
        {
            Logger.WriteLine($"SET GPU CLOCKS: {core}, {memory}");
            GPUApi.SetPerformanceStates20(internalGpu.Handle, overclock);
        }
        catch (Exception ex)
        {
            Logger.WriteLine("SET GPU CLOCKS: " + ex.Message);
            return -1;
        }



        return 1;
    }

    private static PhysicalGPU? GetInternalDiscreteGpu()
    {
        try
        {
            return PhysicalGPU
                .GetPhysicalGPUs()
                .FirstOrDefault(gpu => gpu.SystemType == SystemType.Laptop);
        }
        catch (Exception ex)
        {
            Debug.WriteLine(ex.Message);
            return null;
        }
    }


    public int? GetGpuUse()
    {
        if (!IsValid)
            return null;

        PhysicalGPU internalGpu = _internalGpu!;
        IUtilizationDomainInfo? gpuUsage = GPUApi.GetUsages(internalGpu.Handle).GPU;

        return (int?)gpuUsage?.Percentage;

    }

}