SlunkCrypt/gui/Utilities/CPU/CPUCapabilities.cs

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/******************************************************************************/
/* CPUCapabilities.NET, by LoRd_MuldeR <MuldeR2@GMX.de> */
/* This work has been released under the CC0 1.0 Universal license! */
/******************************************************************************/
using System;
using System.Runtime.InteropServices;
using System.Text;
namespace com.muldersoft.slunkcrypt.gui.utils.cpu
{
// ==================================================================
// CPU Flags
// ==================================================================
public enum CPUArchitecture : uint
{
CPU_ARCH_X86 = 0x00000001,
CPU_ARCH_X64 = 0x00000002,
CPU_ARCH_A64 = 0x00000003
}
[Flags]
public enum CPUCapabilities : ulong
{
CPU_3DNOW = 0x0000000000000001,
CPU_3DNOWEXT = 0x0000000000000002,
CPU_ADX = 0x0000000000000004,
CPU_AES = 0x0000000000000008,
CPU_AVX = 0x0000000000000010,
CPU_AVX2 = 0x0000000000000020,
CPU_AVX512_BITALG = 0x0000000000000040,
CPU_AVX512_BW = 0x0000000000000080,
CPU_AVX512_CD = 0x0000000000000100,
CPU_AVX512_DQ = 0x0000000000000200,
CPU_AVX512_ER = 0x0000000000000400,
CPU_AVX512_F = 0x0000000000000800,
CPU_AVX512_IFMA = 0x0000000000001000,
CPU_AVX512_PF = 0x0000000000002000,
CPU_AVX512_VBMI = 0x0000000000004000,
CPU_AVX512_VBMI2 = 0x0000000000008000,
CPU_AVX512_VL = 0x0000000000010000,
CPU_AVX512_VNNI = 0x0000000000020000,
CPU_AVX512_VPOPCNTDQ = 0x0000000000040000,
CPU_BMI1 = 0x0000000000080000,
CPU_BMI2 = 0x0000000000100000,
CPU_CLFSH = 0x0000000000200000,
CPU_CMOV = 0x0000000000400000,
CPU_CX16 = 0x0000000000800000,
CPU_CX8 = 0x0000000001000000,
CPU_ERMS = 0x0000000002000000,
CPU_FMA3 = 0x0000000004000000,
CPU_FMA4 = 0x0000000008000000,
CPU_FPU = 0x0000000010000000,
CPU_FSGSBASE = 0x0000000020000000,
CPU_FXSR = 0x0000000040000000,
CPU_HLE = 0x0000000080000000,
CPU_HTT = 0x0000000100000000,
CPU_INVPCID = 0x0000000200000000,
CPU_LAHF = 0x0000000400000000,
CPU_LZCNT = 0x0000000800000000,
CPU_MMX = 0x0000001000000000,
CPU_MMXEXT = 0x0000002000000000,
CPU_MONITOR = 0x0000004000000000,
CPU_MOVBE = 0x0000008000000000,
CPU_MSR = 0x0000010000000000,
CPU_OSXSAVE = 0x0000020000000000,
CPU_PCLMULQDQ = 0x0000040000000000,
CPU_POPCNT = 0x0000080000000000,
CPU_PREFETCHWT1 = 0x0000100000000000,
CPU_RDRND = 0x0000200000000000,
CPU_RDSEED = 0x0000400000000000,
CPU_RDTSCP = 0x0000800000000000,
CPU_RTM = 0x0001000000000000,
CPU_SEP = 0x0002000000000000,
CPU_SHA = 0x0004000000000000,
CPU_SSE = 0x0008000000000000,
CPU_SSE2 = 0x0010000000000000,
CPU_SSE3 = 0x0020000000000000,
CPU_SSE41 = 0x0040000000000000,
CPU_SSE42 = 0x0080000000000000,
CPU_SSE4a = 0x0100000000000000,
CPU_SSSE3 = 0x0200000000000000,
CPU_SYSCALL = 0x0400000000000000,
CPU_TBM = 0x0800000000000000,
CPU_TSC = 0x1000000000000000,
CPU_XOP = 0x2000000000000000,
CPU_XSAVE = 0x4000000000000000
}
// ==================================================================
// CPUInformation
// ==================================================================
public struct CPUInformation
{
public CPUInformation(byte type, byte familyExt, byte family, byte modelExt, byte model, byte stepping)
{
Type = type;
RawFamily = family;
RawFamilyExt = familyExt;
RawModel = model;
RawModelExt = modelExt;
Stepping = stepping;
}
public byte Type { get; }
public byte RawFamily { get; }
public byte RawFamilyExt { get; }
public byte RawModel { get; }
public byte RawModelExt { get; }
public byte Stepping { get; }
public uint Family
{
get { return (RawFamily == 15U) ? (((uint)RawFamilyExt) + RawFamily) : RawFamily; }
}
public uint Model
{
get { return ((RawFamily == 6U) || (RawFamily == 15U)) ? ((((uint)RawModelExt) << 4) + RawModel) : RawModel; }
}
public override String ToString()
{
return String.Format("Type={0}, Family={1}, Model={2}, Stepping={3}", Type, Family, Model, Stepping);
}
}
// ==================================================================
// CPU class
// ==================================================================
public static class CPU
{
private static readonly Lazy<bool> m_x64Process = new Lazy<bool>(() => Environment.Is64BitProcess);
private static readonly Lazy<CPUArchitecture> m_architecture = new Lazy<CPUArchitecture>(GetCPUArchitecture);
private static readonly Lazy<uint> m_count = new Lazy<uint>(GetCPUCount);
private static readonly Lazy<CPUInformation> m_information = new Lazy<CPUInformation>(GetCPUInformation);
private static readonly Lazy<string> m_vendor = new Lazy<string>(GetCPUVendorString);
private static readonly Lazy<CPUCapabilities> m_capabilities = new Lazy<CPUCapabilities>(GetCPUCapabilities);
private static readonly Lazy<Tuple<ushort, ushort>> m_libraryVersion = new Lazy<Tuple<ushort, ushort>>(GetCPULibraryVersion);
private static readonly Lazy<string> m_brand = new Lazy<string>(GetCPUBrandString);
private static readonly Tuple<ushort, ushort> REQUIRED_LIBRARY_VERSION = Tuple.Create<ushort, ushort>(2, 0);
// ------------------------------------------------------------------
// Properties
// ------------------------------------------------------------------
public static bool IsX64Process
{
get { return m_x64Process.Value; }
}
public static CPUArchitecture Architecture
{
get { return m_architecture.Value; }
}
public static uint Count
{
get { return m_count.Value; }
}
public static string Vendor
{
get { return m_vendor.Value; }
}
public static CPUInformation Information
{
get { return m_information.Value; }
}
public static CPUCapabilities Capabilities
{
get { return m_capabilities.Value; }
}
public static string Brand
{
get { return m_brand.Value; }
}
public static Tuple<ushort, ushort> LibraryVersion
{
get { return m_libraryVersion.Value; }
}
// ------------------------------------------------------------------
// Initialization methods
// ------------------------------------------------------------------
private static CPUArchitecture GetCPUArchitecture()
{
try
{
ushort processMachine, nativeMachine;
if (Internal.IsWow64Process2(Internal.GetCurrentProcess(), out processMachine, out nativeMachine))
{
switch(nativeMachine)
{
case 0x8664:
return CPUArchitecture.CPU_ARCH_X64;
case 0xAA64:
return CPUArchitecture.CPU_ARCH_A64;
default:
return CPUArchitecture.CPU_ARCH_X86;
}
}
}
catch { }
try
{
VerifyLibraryVersion();
uint value = IsX64Process ? Internal.GetCPUArchitectureX64() : Internal.GetCPUArchitectureX86();
return (CPUArchitecture)value;
}
catch (Exception e)
{
throw new SystemException("Failed to determine CPU architecture!", e);
}
}
private static uint GetCPUCount()
{
try
{
VerifyLibraryVersion();
return IsX64Process ? Internal.GetCPUCountX64() : Internal.GetCPUCountX86();
}
catch (Exception e)
{
throw new SystemException("Failed to determine CPU count!", e);
}
}
private static string GetCPUVendorString()
{
const uint BUFFER_SIZE = 13;
try
{
byte[] buffer = new byte[BUFFER_SIZE];
VerifyLibraryVersion();
if (IsX64Process ? Internal.GetCPUVendorStringX64(buffer, BUFFER_SIZE) : Internal.GetCPUVendorStringX86(buffer, BUFFER_SIZE))
{
return AllocateAsciiString(buffer);
}
return string.Empty;
}
catch (Exception e)
{
throw new SystemException("Failed to determine CPU vendor string!", e);
}
}
private static CPUInformation GetCPUInformation()
{
try
{
byte type, familyExt, family, modelExt, model, stepping;
VerifyLibraryVersion();
if (IsX64Process ? Internal.GetCPUInformationX64(out type, out familyExt, out family, out modelExt, out model, out stepping) : Internal.GetCPUInformationX86(out type, out familyExt, out family, out modelExt, out model, out stepping))
{
return new CPUInformation(type, familyExt, family, modelExt, model, stepping);
}
return new CPUInformation(0, 0, 0, 0, 0, 0);
}
catch (Exception e)
{
throw new SystemException("Failed to determine CPU family and model!", e);
}
}
private static CPUCapabilities GetCPUCapabilities()
{
try
{
VerifyLibraryVersion();
ulong value = IsX64Process ? Internal.GetCPUCapabilitiesX64() : Internal.GetCPUCapabilitiesX86();
return (CPUCapabilities)value;
}
catch (Exception e)
{
throw new SystemException("Failed to determine CPU capabilities!", e);
}
}
private static string GetCPUBrandString()
{
const uint BUFFER_SIZE = 48;
try
{
byte[] buffer = new byte[BUFFER_SIZE];
VerifyLibraryVersion();
if (IsX64Process ? Internal.GetCPUBrandStringX64(buffer, BUFFER_SIZE) : Internal.GetCPUBrandStringX86(buffer, BUFFER_SIZE))
{
return AllocateAsciiString(buffer);
}
return string.Empty;
}
catch (Exception e)
{
throw new SystemException("Failed to determine CPU brand string!", e);
}
}
private static Tuple<ushort, ushort> GetCPULibraryVersion()
{
try
{
uint value = IsX64Process ? Internal.GetCPULibraryVersionX64() : Internal.GetCPULibraryVersionX86();
return Tuple.Create((ushort)((value >> 16) & 0xFFFF), (ushort)(value & 0xFFFF));
}
catch (Exception e)
{
throw new SystemException("Failed to determine CPU library version!", e);
}
}
// ------------------------------------------------------------------
// P/Invoke methods
// ------------------------------------------------------------------
private static class Internal
{
private const string DLL_NAME_X86 = "cpu-capabilities-x86.dll";
private const string DLL_NAME_X64 = "cpu-capabilities-x64.dll";
private const string DLL_KERNEL32 = "kernel32.dll";
/* GetCPUArchitecture() */
[DllImport(DLL_NAME_X64, CallingConvention = CallingConvention.Cdecl)]
public static extern uint GetCPUArchitectureX64();
[DllImport(DLL_NAME_X86, CallingConvention = CallingConvention.Cdecl)]
public static extern uint GetCPUArchitectureX86();
/* GetCPUCount() */
[DllImport(DLL_NAME_X64, CallingConvention = CallingConvention.Cdecl)]
public static extern uint GetCPUCountX64();
[DllImport(DLL_NAME_X86, CallingConvention = CallingConvention.Cdecl)]
public static extern uint GetCPUCountX86();
/* GetCPUVendorString() */
[DllImport(DLL_NAME_X64, CallingConvention = CallingConvention.Cdecl)]
public static extern bool GetCPUVendorStringX64([Out] byte[] buffer, uint size);
[DllImport(DLL_NAME_X86, CallingConvention = CallingConvention.Cdecl)]
public static extern bool GetCPUVendorStringX86([Out] byte[] buffer, uint size);
/* GetCPUInformation() */
[DllImport(DLL_NAME_X64, CallingConvention = CallingConvention.Cdecl)]
public static extern bool GetCPUInformationX64(out byte type, out byte familyExt, out byte family, out byte modelExt, out byte model, out byte stepping);
[DllImport(DLL_NAME_X86, CallingConvention = CallingConvention.Cdecl)]
public static extern bool GetCPUInformationX86(out byte type, out byte familyExt, out byte family, out byte modelExt, out byte model, out byte stepping);
/* GetCPUCapabilities() */
[DllImport(DLL_NAME_X64, CallingConvention = CallingConvention.Cdecl)]
public static extern ulong GetCPUCapabilitiesX64();
[DllImport(DLL_NAME_X86, CallingConvention = CallingConvention.Cdecl)]
public static extern ulong GetCPUCapabilitiesX86();
/* GetCPUBrandString() */
[DllImport(DLL_NAME_X64, CallingConvention = CallingConvention.Cdecl)]
public static extern bool GetCPUBrandStringX64([Out] byte[] buffer, uint size);
[DllImport(DLL_NAME_X86, CallingConvention = CallingConvention.Cdecl)]
public static extern bool GetCPUBrandStringX86([Out] byte[] buffer, uint size);
/* GetCPULibraryVersion() */
[DllImport(DLL_NAME_X64, CallingConvention = CallingConvention.Cdecl)]
public static extern uint GetCPULibraryVersionX64();
[DllImport(DLL_NAME_X86, CallingConvention = CallingConvention.Cdecl)]
public static extern uint GetCPULibraryVersionX86();
/* IsWow64Process2() */
[DllImport(DLL_KERNEL32, EntryPoint = "IsWow64Process2", ExactSpelling = true)]
public static extern bool IsWow64Process2(IntPtr process, out ushort processMachine, out ushort nativeMachine);
[DllImport(DLL_KERNEL32, EntryPoint = "GetCurrentProcess", ExactSpelling = true)]
public static extern IntPtr GetCurrentProcess();
}
// ------------------------------------------------------------------
// Utility methods
// ------------------------------------------------------------------
private static void VerifyLibraryVersion()
{
if ((LibraryVersion.Item1 != REQUIRED_LIBRARY_VERSION.Item1) || (LibraryVersion.Item2 < REQUIRED_LIBRARY_VERSION.Item2))
{
throw new InvalidOperationException(string.Format("CPU library version {0} is not supported! (required version: {1})", m_libraryVersion.Value.Item1, REQUIRED_LIBRARY_VERSION));
}
}
private static string AllocateAsciiString(byte[] buffer)
{
int index = Array.IndexOf(buffer, (byte)0);
if (index >= 0)
{
return (index > 0) ? Encoding.ASCII.GetString(buffer, 0, index) : string.Empty;
}
return Encoding.ASCII.GetString(buffer);
}
}
}