source-engine/public/tier0/ia32detect.h

//========= Copyright Valve Corporation, All rights reserved. ============//
//
// Purpose: 
//
// $NoKeywords: $
//
//=============================================================================//
#ifndef IA32DETECT_H
#define IA32DETECT_H

#ifdef PLATFORM_WINDOWS_PC
#include <intrin.h>
#endif

/*
    This section from http://iss.cs.cornell.edu/ia32.htm


 */
typedef	unsigned			bit;

enum CPUVendor
{
    INTEL,
    AMD,
    UNKNOWN_VENDOR
};
class ia32detect
{
public:

	enum type_t
	{
		type_OEM,
		type_OverDrive,
		type_Dual,
		type_reserved
	};

	enum brand_t
	{
		brand_na,
		brand_Celeron,
		brand_PentiumIII,
		brand_PentiumIIIXeon,
		brand_reserved1,
		brand_reserved2,
		brand_PentiumIIIMobile,
		brand_reserved3,
		brand_Pentium4,
		brand_invalid
	};

#	pragma pack(push, 1)

	struct version_t
	{
		bit	Stepping	: 4;
		bit	Model		: 4;
		bit	Family		: 4;
		bit	Type		: 2;
		bit	Reserved1	: 2;
		bit	XModel		: 4;
		bit	XFamily		: 8;
		bit	Reserved2	: 4;
	};

	struct misc_t
	{
		byte	Brand;
		byte	CLFLUSH;
		byte	Reserved;
		byte	APICId;
	};

	struct feature_t
	{
		bit	FPU			: 1; // Floating Point Unit On-Chip
		bit	VME			: 1; // Virtual 8086 Mode Enhancements
		bit	DE			: 1; // Debugging Extensions
		bit	PSE			: 1; // Page Size Extensions
		bit	TSC			: 1; // Time Stamp Counter
		bit	MSR			: 1; // Model Specific Registers
		bit	PAE			: 1; // Physical Address Extension
		bit	MCE			: 1; // Machine Check Exception
		bit	CX8			: 1; // CMPXCHG8 Instruction
		bit	APIC		: 1; // APIC On-Chip
		bit	Reserved1	: 1; 
		bit	SEP			: 1; // SYSENTER and SYSEXIT instructions
		bit	MTRR		: 1; // Memory Type Range Registers
		bit	PGE			: 1; // PTE Global Bit
		bit	MCA			: 1; // Machine Check Architecture
		bit	CMOV		: 1; // Conditional Move Instructions
		bit	PAT			: 1; // Page Attribute Table
		bit	PSE36		: 1; // 32-bit Page Size Extension
		bit	PSN			: 1; // Processor Serial Number
		bit	CLFSH		: 1; // CLFLUSH Instruction
		bit	Reserved2	: 1;
		bit	DS			: 1; // Debug Store
		bit	ACPI		: 1; // Thermal Monitor and Software Controlled Clock Facilities
		bit	MMX			: 1; // Intel MMX Technology
		bit	FXSR		: 1; // FXSAVE and FXRSTOR Instructions
		bit	SSE			: 1; // Intel SSE Technology
		bit	SSE2		: 1; // Intel SSE2 Technology
		bit	SS			: 1; // Self Snoop
		bit	HTT	        : 1; // Hyper Threading
		bit	TM			: 1; // Thermal Monitor
		bit	Reserved3	: 1;
		bit	PBE	        : 1; // Pending Brk. EN.
	};

#	pragma pack(pop)

	tstring vendor_name;
    CPUVendor vendor;
	tstring brand;
	version_t version;
	misc_t misc;
	feature_t feature;
	byte *cache;

	ia32detect ()
	{

        cache = 0;
		uint32 m = init0();

		uint32 *d = new uint32[m * 4];

		for (uint32 i = 1; i <= m; i++)
		{
#ifdef COMPILER_MSVC64
			__cpuid((int *) (d + (i-1) * 4), i);

#else
			uint32 *t = d + (i - 1) * 4;

			__asm
			{
				mov	eax, i;
				mov esi, t;

				cpuid;

				mov dword ptr [esi + 0x0], eax;
				mov dword ptr [esi + 0x4], ebx;
				mov dword ptr [esi + 0x8], ecx;
				mov dword ptr [esi + 0xC], edx;
			}
#endif
		}

		if (m >= 1)
			init1(d);

		if (m >= 2)
			init2(d[4] & 0xFF);

		delete [] d;

		init0x80000000();


        //-----------------------------------------------------------------------
        // Get the vendor of the processor
        //-----------------------------------------------------------------------
        if (_tcscmp(vendor_name.c_str(), _T("GenuineIntel")) == 0)
        {
            vendor = INTEL;

        }
        else if (_tcscmp(vendor_name.c_str(), _T("AuthenticAMD")) == 0)
        {
            vendor = AMD;

        }
        else 
        {
            vendor = UNKNOWN_VENDOR;
        }
	}

	const tstring version_text () const
	{
		tchar b[128];

		_stprintf(b, _T("%d.%d.%d %s XVersion(%d.%d)"), 
			version.Family, version.Model, version.Stepping, type_text(), version.XFamily, version.XModel);

		return tstring(b);
	}

protected:

	const tchar * type_text () const
	{
		static const tchar *text[] =
		{
			_T("Intel OEM Processor"),
			_T("Intel OverDrive(R) Processor"),
			_T("Intel Dual Processor"),
			_T("reserved")
		};

		return text[version.Type];
	}

	const tstring brand_text () const
	{
		static const tchar *text[] =
		{
			_T("n/a"),
			_T("Celeron"),
			_T("Pentium III"),
			_T("Pentium III Xeon"),
			_T("reserved (4)"),
			_T("reserved (5)"),
			_T("Pentium III Mobile"),
			_T("reserved (7)"),
			_T("Pentium 4")
		};

		if (misc.Brand < brand_invalid)
			return tstring(text[misc.Brand]);
		else
		{
			tchar b[32];

			_stprintf(b, _T("Brand %d (Update)"), misc.Brand);

			return tstring(b);
		}
	}

private:

	uint32 init0 ()
	{
		uint32 m;

		int data[4 + 1];
		tchar * s1;

		s1 = (tchar *) &data[1];
		__cpuid(data, 0);
		data[4] = 0;
		// Returns something like this:
		//  data[0] = 0x0000000b
		//  data[1] = 0x756e6547 	Genu
		//  data[2] = 0x6c65746e 	ntel
		//  data[3] = 0x49656e69 	ineI
		//  data[4] = 0x00000000

		m = data[0];
		int t = data[2];
		data[2] = data[3];
		data[3] = t;
		vendor_name = s1;
		return m;
	}

	void init1 (uint32 *d)
	{
		version = *(version_t *)&d[0];
		misc = *(misc_t *)&d[1];
		feature = *(feature_t *)&d[3];
	}

	void process2 (uint32 d, bool c[])
	{
		if ((d & 0x80000000) == 0)
			for (int i = 0; i < 32; i += 8)
				c[(d >> i) & 0xFF] = true;
	}

	void init2 (byte count)
	{
		uint32 d[4];
		bool c[256];

		for (int ci1 = 0; ci1 < 256; ci1++)
			c[ci1] = false;

		for (int i = 0; i < count; i++)
		{
#ifdef COMPILER_MSVC64
			__cpuid((int *) d, 2);
#else
			__asm
			{
				mov	eax, 2;
				lea esi, d;
				cpuid;
				mov [esi + 0x0], eax;
				mov [esi + 0x4], ebx;
				mov [esi + 0x8], ecx;
				mov [esi + 0xC], edx;
			}
#endif

			if (i == 0)
				d[0] &= 0xFFFFFF00;

			process2(d[0], c);
			process2(d[1], c);
			process2(d[2], c);
			process2(d[3], c);
		}

		int m = 0;

		for (int ci2 = 0; ci2 < 256; ci2++)
			if (c[ci2])
				m++;

		cache = new byte[m];

		m = 0;

		for (int ci3 = 1; ci3 < 256; ci3++)
			if (c[ci3])
				cache[m++] = ci3;

		cache[m] = 0;
	}

	void init0x80000000 ()
	{
		uint32 m;

#ifdef COMPILER_MSVC64
		int data[4];
		__cpuid(data, 0x80000000);
		m = data[0];
#else
		__asm
		{
			mov	eax, 0x80000000;
			cpuid;
			mov m, eax
		}
#endif

		if ((m & 0x80000000) != 0)
		{
			uint32 *d = new uint32[(m - 0x80000000) * 4];

			for (uint32 i = 0x80000001; i <= m; i++)
			{
				uint32 *t = d + (i - 0x80000001) * 4;

#ifdef COMPILER_MSVC64
				__cpuid((int *) (d + (i - 0x80000001) * 4), i);
#else
				__asm
				{
					mov	eax, i;
					mov	esi, t;
					cpuid;
					mov dword ptr [esi + 0x0], eax;
					mov dword ptr [esi + 0x4], ebx;
					mov dword ptr [esi + 0x8], ecx;
					mov dword ptr [esi + 0xC], edx;
				}
#endif
			}

			if (m >= 0x80000002)
				brand = (tchar *)(d + 4);

			// note the assignment to brand above does a copy, we need to delete
			delete[] d;
		}
	}
};

#endif // IA32DETECT_H
1 5 years ago			`//========= Copyright Valve Corporation, All rights reserved. ============//`
			`//`
			`// Purpose:`
			`//`
			`// $NoKeywords: $`
			`//`
			`//=============================================================================//`
			`#ifndef IA32DETECT_H`
			`#define IA32DETECT_H`

			`#ifdef PLATFORM_WINDOWS_PC`
			`#include <intrin.h>`
			`#endif`

			`/*`
			`This section from http://iss.cs.cornell.edu/ia32.htm`


			`*/`
			`typedef unsigned bit;`

			`enum CPUVendor`
			`{`
			`INTEL,`
			`AMD,`
			`UNKNOWN_VENDOR`
			`};`
			`class ia32detect`
			`{`
			`public:`

			`enum type_t`
			`{`
			`type_OEM,`
			`type_OverDrive,`
			`type_Dual,`
			`type_reserved`
			`};`

			`enum brand_t`
			`{`
			`brand_na,`
			`brand_Celeron,`
			`brand_PentiumIII,`
			`brand_PentiumIIIXeon,`
			`brand_reserved1,`
			`brand_reserved2,`
			`brand_PentiumIIIMobile,`
			`brand_reserved3,`
			`brand_Pentium4,`
			`brand_invalid`
			`};`

			`# pragma pack(push, 1)`

			`struct version_t`
			`{`
			`bit Stepping : 4;`
			`bit Model : 4;`
			`bit Family : 4;`
			`bit Type : 2;`
			`bit Reserved1 : 2;`
			`bit XModel : 4;`
			`bit XFamily : 8;`
			`bit Reserved2 : 4;`
			`};`

			`struct misc_t`
			`{`
			`byte Brand;`
			`byte CLFLUSH;`
			`byte Reserved;`
			`byte APICId;`
			`};`

			`struct feature_t`
			`{`
			`bit FPU : 1; // Floating Point Unit On-Chip`
			`bit VME : 1; // Virtual 8086 Mode Enhancements`
			`bit DE : 1; // Debugging Extensions`
			`bit PSE : 1; // Page Size Extensions`
			`bit TSC : 1; // Time Stamp Counter`
			`bit MSR : 1; // Model Specific Registers`
			`bit PAE : 1; // Physical Address Extension`
			`bit MCE : 1; // Machine Check Exception`
			`bit CX8 : 1; // CMPXCHG8 Instruction`
			`bit APIC : 1; // APIC On-Chip`
			`bit Reserved1 : 1;`
			`bit SEP : 1; // SYSENTER and SYSEXIT instructions`
			`bit MTRR : 1; // Memory Type Range Registers`
			`bit PGE : 1; // PTE Global Bit`
			`bit MCA : 1; // Machine Check Architecture`
			`bit CMOV : 1; // Conditional Move Instructions`
			`bit PAT : 1; // Page Attribute Table`
			`bit PSE36 : 1; // 32-bit Page Size Extension`
			`bit PSN : 1; // Processor Serial Number`
			`bit CLFSH : 1; // CLFLUSH Instruction`
			`bit Reserved2 : 1;`
			`bit DS : 1; // Debug Store`
			`bit ACPI : 1; // Thermal Monitor and Software Controlled Clock Facilities`
			`bit MMX : 1; // Intel MMX Technology`
			`bit FXSR : 1; // FXSAVE and FXRSTOR Instructions`
			`bit SSE : 1; // Intel SSE Technology`
			`bit SSE2 : 1; // Intel SSE2 Technology`
			`bit SS : 1; // Self Snoop`
			`bit HTT : 1; // Hyper Threading`
			`bit TM : 1; // Thermal Monitor`
			`bit Reserved3 : 1;`
			`bit PBE : 1; // Pending Brk. EN.`
			`};`

			`# pragma pack(pop)`

			`tstring vendor_name;`
			`CPUVendor vendor;`
			`tstring brand;`
			`version_t version;`
			`misc_t misc;`
			`feature_t feature;`
			`byte *cache;`

			`ia32detect ()`
			`{`

			`cache = 0;`
			`uint32 m = init0();`

			`uint32 d = new uint32[m 4];`

			`for (uint32 i = 1; i <= m; i++)`
			`{`
			`#ifdef COMPILER_MSVC64`
			`__cpuid((int ) (d + (i-1) 4), i);`

			`#else`
			`uint32 t = d + (i - 1) 4;`

			`__asm`
			`{`
			`mov eax, i;`
			`mov esi, t;`

			`cpuid;`

			`mov dword ptr [esi + 0x0], eax;`
			`mov dword ptr [esi + 0x4], ebx;`
			`mov dword ptr [esi + 0x8], ecx;`
			`mov dword ptr [esi + 0xC], edx;`
			`}`
			`#endif`
			`}`

			`if (m >= 1)`
			`init1(d);`

			`if (m >= 2)`
			`init2(d[4] & 0xFF);`

			`delete [] d;`

			`init0x80000000();`


			`//-----------------------------------------------------------------------`
			`// Get the vendor of the processor`
			`//-----------------------------------------------------------------------`
			`if (_tcscmp(vendor_name.c_str(), _T("GenuineIntel")) == 0)`
			`{`
			`vendor = INTEL;`

			`}`
			`else if (_tcscmp(vendor_name.c_str(), _T("AuthenticAMD")) == 0)`
			`{`
			`vendor = AMD;`

			`}`
			`else`
			`{`
			`vendor = UNKNOWN_VENDOR;`
			`}`
			`}`

			`const tstring version_text () const`
			`{`
			`tchar b[128];`

			`_stprintf(b, _T("%d.%d.%d %s XVersion(%d.%d)"),`
			`version.Family, version.Model, version.Stepping, type_text(), version.XFamily, version.XModel);`

			`return tstring(b);`
			`}`

			`protected:`

			`const tchar * type_text () const`
			`{`
			`static const tchar *text[] =`
			`{`
			`_T("Intel OEM Processor"),`
			`_T("Intel OverDrive(R) Processor"),`
			`_T("Intel Dual Processor"),`
			`_T("reserved")`
			`};`

			`return text[version.Type];`
			`}`

			`const tstring brand_text () const`
			`{`
			`static const tchar *text[] =`
			`{`
			`_T("n/a"),`
			`_T("Celeron"),`
			`_T("Pentium III"),`
			`_T("Pentium III Xeon"),`
			`_T("reserved (4)"),`
			`_T("reserved (5)"),`
			`_T("Pentium III Mobile"),`
			`_T("reserved (7)"),`
			`_T("Pentium 4")`
			`};`

			`if (misc.Brand < brand_invalid)`
			`return tstring(text[misc.Brand]);`
			`else`
			`{`
			`tchar b[32];`

			`_stprintf(b, _T("Brand %d (Update)"), misc.Brand);`

			`return tstring(b);`
			`}`
			`}`

			`private:`

			`uint32 init0 ()`
			`{`
			`uint32 m;`

			`int data[4 + 1];`
			`tchar * s1;`

			`s1 = (tchar *) &data[1];`
			`__cpuid(data, 0);`
			`data[4] = 0;`
			`// Returns something like this:`
			`// data[0] = 0x0000000b`
			`// data[1] = 0x756e6547 Genu`
			`// data[2] = 0x6c65746e ntel`
			`// data[3] = 0x49656e69 ineI`
			`// data[4] = 0x00000000`

			`m = data[0];`
			`int t = data[2];`
			`data[2] = data[3];`
			`data[3] = t;`
			`vendor_name = s1;`
			`return m;`
			`}`

			`void init1 (uint32 *d)`
			`{`
			`version = (version_t )&d[0];`
			`misc = (misc_t )&d[1];`
			`feature = (feature_t )&d[3];`
			`}`

			`void process2 (uint32 d, bool c[])`
			`{`
			`if ((d & 0x80000000) == 0)`
			`for (int i = 0; i < 32; i += 8)`
			`c[(d >> i) & 0xFF] = true;`
			`}`

			`void init2 (byte count)`
			`{`
			`uint32 d[4];`
			`bool c[256];`

			`for (int ci1 = 0; ci1 < 256; ci1++)`
			`c[ci1] = false;`

			`for (int i = 0; i < count; i++)`
			`{`
			`#ifdef COMPILER_MSVC64`
			`__cpuid((int *) d, 2);`
			`#else`
			`__asm`
			`{`
			`mov eax, 2;`
			`lea esi, d;`
			`cpuid;`
			`mov [esi + 0x0], eax;`
			`mov [esi + 0x4], ebx;`
			`mov [esi + 0x8], ecx;`
			`mov [esi + 0xC], edx;`
			`}`
			`#endif`

			`if (i == 0)`
			`d[0] &= 0xFFFFFF00;`

			`process2(d[0], c);`
			`process2(d[1], c);`
			`process2(d[2], c);`
			`process2(d[3], c);`
			`}`

			`int m = 0;`

			`for (int ci2 = 0; ci2 < 256; ci2++)`
			`if (c[ci2])`
			`m++;`

			`cache = new byte[m];`

			`m = 0;`

			`for (int ci3 = 1; ci3 < 256; ci3++)`
			`if (c[ci3])`
			`cache[m++] = ci3;`

			`cache[m] = 0;`
			`}`

			`void init0x80000000 ()`
			`{`
			`uint32 m;`

			`#ifdef COMPILER_MSVC64`
			`int data[4];`
			`__cpuid(data, 0x80000000);`
			`m = data[0];`
			`#else`
			`__asm`
			`{`
			`mov eax, 0x80000000;`
			`cpuid;`
			`mov m, eax`
			`}`
			`#endif`

			`if ((m & 0x80000000) != 0)`
			`{`
			`uint32 d = new uint32[(m - 0x80000000) 4];`

			`for (uint32 i = 0x80000001; i <= m; i++)`
			`{`
			`uint32 t = d + (i - 0x80000001) 4;`

			`#ifdef COMPILER_MSVC64`
			`__cpuid((int ) (d + (i - 0x80000001) 4), i);`
			`#else`
			`__asm`
			`{`
			`mov eax, i;`
			`mov esi, t;`
			`cpuid;`
			`mov dword ptr [esi + 0x0], eax;`
			`mov dword ptr [esi + 0x4], ebx;`
			`mov dword ptr [esi + 0x8], ecx;`
			`mov dword ptr [esi + 0xC], edx;`
			`}`
			`#endif`
			`}`

			`if (m >= 0x80000002)`
			`brand = (tchar *)(d + 4);`

			`// note the assignment to brand above does a copy, we need to delete`
			`delete[] d;`
			`}`
			`}`
			`};`

			`#endif // IA32DETECT_H`