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[系统底层] [求助]请问个问题,有关CPUID的问题

2007-10-26 01:21 5333

[系统底层] [求助]请问个问题,有关CPUID的问题

2007-10-26 01:21
5333
有关CPUID的问题 如何将CPUID指令后的返回值输出呢?(取得的是eax.edx.和ecx的值)
能否有VB来实现?用汇编的话可难死哦了,因为我不会汇编!~~~哭了...

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foxabu 活跃值 13 2007-10-26 01:26
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Visual C++ 有标准库 详细见 MSDn
Microsoft Specific

Generates the cpuid instruction available on x86 and x64, which queries the processor for information about the supported features and CPU type.

void __cpuid(
   int CPUInfo[4],
   int InfoType
);

Parameters
[out] CPUInfo
The information returned in an array of four integers.

[in] InfoType
A code indicating the type of information to be retrieved.

Requirements
Intrinsic  Architecture  
__cpuid
x86, x64

Header file <intrin.h>

Remarks
The supported features and CPU type information is returned in CPUInfo, an array of four 32-bit integers that is filled with the values of the EAX, EBX, ECX, and EDX registers (in that order) after the cpuid instruction is called. The information returned has a different meaning depending on the value passed as the InfoType parameter. The information returned with various values of InfoType is processor-dependent.

When the InfoType argument is 0, the following table describes the output.

Information Returned
Array index  Bit range  Description  
0
0-31
Maximum meaningful value for the InfoType parameter.

1
0-31
Identification String (part 1)

2
0-31
Identification String (part 3)

3
0-31
Identification String (part 2)

When the InfoType argument is 1, the following table describes the output.

CPU Information Returned
Array index  Bit range  Description  
0
0-3
Stepping ID

0
4-7
Model

0
8-11
Family

0
12-13
Processor Type

0
14-15
Reserved

0
16-19
Extended model

0
20-27
Extended family

0
28-31
Reserved

1
0-7
Brand Index

1
8-15
CLFLUSH cache line size / 8

1
16-23
Reserved

1
24-31
APIC Physical ID

2
0
SSE3 New Instructions

2
1-2
Reserved

2
3
MONITOR/MWAIT

2
4
CPL Qualified Debug Store

2
5-7
Reserved

2
8
Thermal Monitor 2

2
9
Reserved

2
10
L1 Context ID

2
11-31
Reserved

3
0-31
Feature Information (see below)

The following table shows the meaning of the Feature Information value, the value of EDX which is written to CPUInfo[3], when the InfoType argument is 1.

Feature Information Returned
Bit  Mnemonic  Description  
0
FPU
x87 FPU on Chip

1
VME
Virtual-8086 Mode Enhancement

2
DE
Debugging Extensions

3
PSE
Page Size Extensions

4
TSC
Time Stamp Counter

5
MSR
RDMSR and WRMSR Support

6
PAE
Physical Address Extensions

7
MCE
Machine Check Exception

8
CX8
CMPXCHG8B Inst.

9
APIC
APIC on Chip

10
n/a
Reserved

11
SEP
SYSENTER and SYSEXIT

12
MTRR
Memory Type Range Registers

13
PGE
PTE Global Bit

14
MCA
Machine Check Architecture

15
CMOV
Conditional Move/Compare Instruction

16
PAT
Page Attribute Table

17
PSE
Page Size Extension

18
PSN
Processor Serial Number

19
CLFSH
CFLUSH Instruction

20
n/a
Reserved

21
DS
Debug Store

22
ACPI
Thermal Monitor and Clock Ctrl

23
MMX
MMX Technology

24
FXSR
FXSAVE/FXRSTOR

25
SSE
SSE Extensions

26
SSE2
SSE2 Extensions

27
SS
Self Snoop

28
HTT
Hyper-threading technology

29
TM
Thermal Monitor

30
n/a
Reserved

31
PBE
Pend. Brk. En.

Some processors, such as the SSE3-enabled processors, support additional InfoType values. When the InfoType argument is 3 or 4, these processors might return cache and TLB information. When InfoType is 5, these processors return information relating to the monitor feature (see _mm_monitor).

The SSE3-enabled processors support Extended Function CPUID information. If this is supported, InfoType values from 0x8000000 might be used to return information. To determine the maximum meaningful value allowed, set InfoType to 0x8000000. The maximum value of InfoType supported will be written to CPUInfo[0]. The following table shows values returned using the extended function CPUID information.

Extended Function CPUID Information Returned
InfoType  Array index  Information  
0x80000000
0
Maximum meaningful value of InfoType for extended function CPUID information.

0x80000000
1-3
Reserved.

0x80000001
0-4
Reserved

0x80000002
0-4
Processor Brand String

0x80000003
0-4
Processor Brand String, continued

0x80000004
0-4
Processor Brand String, continued

0x80000005
0-4
Reserved

0x80000006
0-1
Reserved

0x80000006
2
Bits 0-7: Cache Line Size

Bits 12-15: L2 Associativity

Bits 16-31: Cache size in 1K units

0x80000006
3
Reserved

0x80000007
0-4
Reserved

Example
  Copy Code
// cpuid.cpp
// processor: x86, x64
// Use the __cpuid intrinsic to get information about a CPU

#include <stdio.h>
#include <string.h>
#include <intrin.h>

const char* szFeatures[] =
{
    "x87 FPU On Chip",
    "Virtual-8086 Mode Enhancement",
    "Debugging Extensions",
    "Page Size Extensions",
    "Time Stamp Counter",
    "RDMSR and WRMSR Support",
    "Physical Address Extensions",
    "Machine Check Exception",
    "CMPXCHG8B Instruction",
    "APIC On Chip",
    "Unknown1",
    "SYSENTER and SYSEXIT",
    "Memory Type Range Registers",
    "PTE Global Bit",
    "Machine Check Architecture",
    "Conditional Move/Compare Instruction",
    "Page Attribute Table",
    "Page Size Extension",
    "Processor Serial Number",
    "CFLUSH Extension",
    "Unknown2",
    "Debug Store",
    "Thermal Monitor and Clock Ctrl",
    "MMX Technology",
    "FXSAVE/FXRSTOR",
    "SSE Extensions",
    "SSE2 Extensions",
    "Self Snoop",
    "Hyper-threading Technology",
    "Thermal Monitor",
    "Unknown4",
    "Pend. Brk. EN."
};

int main(int argc, char* argv[])
{
    char CPUString[0x20];
    char CPUBrandString[0x40];
    int CPUInfo[4] = {-1};
    int nSteppingID = 0;
    int nModel = 0;
    int nFamily = 0;
    int nProcessorType = 0;
    int nExtendedmodel = 0;
    int nExtendedfamily = 0;
    int nBrandIndex = 0;
    int nCLFLUSHcachelinesize = 0;
    int nAPICPhysicalID = 0;
    int nFeatureInfo = 0;
    int nCacheLineSize = 0;
    int nL2Associativity = 0;
    int nCacheSizeK = 0;
    int nRet = 0;
    unsigned    nIds, nExIds, i;
    bool    bSSE3NewInstructions = false;
    bool    bMONITOR_MWAIT = false;
    bool    bCPLQualifiedDebugStore = false;
    bool    bThermalMonitor2 = false;

    // __cpuid with an InfoType argument of 0 returns the number of
    // valid Ids in CPUInfo[0] and the CPU identification string in
    // the other three array elements. The CPU identification string is
    // not in linear order. The code below arranges the information
    // in a human readable form.
    __cpuid(CPUInfo, 0);
    nIds = CPUInfo[0];
    memset(CPUString, 0, sizeof(CPUString));
    *((int*)CPUString) = CPUInfo[1];
    *((int*)(CPUString+4)) = CPUInfo[3];
    *((int*)(CPUString+8)) = CPUInfo[2];

    // Get the information associated with each valid Id
    for (i=0; i<=nIds; ++i)
    {
        __cpuid(CPUInfo, i);
        printf_s("\nFor InfoType %d\n", i);
        printf_s("CPUInfo[0] = 0x%x\n", CPUInfo[0]);
        printf_s("CPUInfo[1] = 0x%x\n", CPUInfo[1]);
        printf_s("CPUInfo[2] = 0x%x\n", CPUInfo[2]);
        printf_s("CPUInfo[3] = 0x%x\n", CPUInfo[3]);

        // Interpret CPU feature information.
        if  (i == 1)
        {
            nSteppingID = CPUInfo[0] & 0xf;
            nModel = (CPUInfo[0] >> 4) & 0xf;
            nFamily = (CPUInfo[0] >> 8) & 0xf;
            nProcessorType = (CPUInfo[0] >> 12) & 0x3;
            nExtendedmodel = (CPUInfo[0] >> 16) & 0xf;
            nExtendedfamily = (CPUInfo[0] >> 20) & 0xff;
            nBrandIndex = CPUInfo[1] & 0xff;
            nCLFLUSHcachelinesize = ((CPUInfo[1] >> 8) & 0xff) * 8;
            nAPICPhysicalID = (CPUInfo[1] >> 24) & 0xff;
            bSSE3NewInstructions = (CPUInfo[2] & 0x1) || false;
            bMONITOR_MWAIT = (CPUInfo[2] & 0x8) || false;
            bCPLQualifiedDebugStore = (CPUInfo[2] & 0x10) || false;
            bThermalMonitor2 = (CPUInfo[2] & 0x100) || false;
            nFeatureInfo = CPUInfo[3];
        }
    }

    // Calling __cpuid with 0x80000000 as the InfoType argument
    // gets the number of valid extended IDs.
    __cpuid(CPUInfo, 0x80000000);
    nExIds = CPUInfo[0];
    memset(CPUBrandString, 0, sizeof(CPUBrandString));

    // Get the information associated with each extended ID.
    for (i=0x80000000; i<=nExIds; ++i)
    {
        __cpuid(CPUInfo, i);
        printf_s("\nFor InfoType %x\n", i);
        printf_s("CPUInfo[0] = 0x%x\n", CPUInfo[0]);
        printf_s("CPUInfo[1] = 0x%x\n", CPUInfo[1]);
        printf_s("CPUInfo[2] = 0x%x\n", CPUInfo[2]);
        printf_s("CPUInfo[3] = 0x%x\n", CPUInfo[3]);

        // Interpret CPU brand string and cache information.
        if  (i == 0x80000002)
            memcpy(CPUBrandString, CPUInfo, sizeof(CPUInfo));
        else if  (i == 0x80000003)
            memcpy(CPUBrandString + 16, CPUInfo, sizeof(CPUInfo));
        else if  (i == 0x80000004)
            memcpy(CPUBrandString + 32, CPUInfo, sizeof(CPUInfo));
        else if  (i == 0x80000006)
        {
            nCacheLineSize = CPUInfo[2] & 0xff;
            nL2Associativity = (CPUInfo[2] >> 12) & 0xf;
            nCacheSizeK = (CPUInfo[2] >> 16) & 0xffff;
        }
    }

    // Display all the information in user-friendly format.

    printf_s("\n\nCPU String: %s\n", CPUString);

    if  (nIds >= 1)
    {
        if  (nSteppingID)
            printf_s("Stepping ID = %d\n", nSteppingID);
        if  (nModel)
            printf_s("Model = %d\n", nModel);
        if  (nFamily)
            printf_s("Family = %d\n", nFamily);
        if  (nProcessorType)
            printf_s("Processor Type = %d\n", nProcessorType);
        if  (nExtendedmodel)
            printf_s("Extended model = %d\n", nExtendedmodel);
        if  (nExtendedfamily)
            printf_s("Extended family = %d\n", nExtendedfamily);
        if  (nBrandIndex)
            printf_s("Brand Index = %d\n", nBrandIndex);
        if  (nCLFLUSHcachelinesize)
            printf_s("CLFLUSH cache line size = %d\n",
                     nCLFLUSHcachelinesize);
        if  (nAPICPhysicalID)
            printf_s("APIC Physical ID = %d\n", nAPICPhysicalID);

if  (nFeatureInfo || bSSE3NewInstructions ||
             bMONITOR_MWAIT || bCPLQualifiedDebugStore ||
             bThermalMonitor2)
        {
            printf_s("\nThe following features are supported:\n");

if  (bSSE3NewInstructions)
printf_s("\tSSE3 New Instructions\n");
if  (bMONITOR_MWAIT)
printf_s("\tMONITOR/MWAIT\n");
if  (bCPLQualifiedDebugStore)
printf_s("\tCPL Qualified Debug Store\n");
if  (bThermalMonitor2)
printf_s("\tThermal Monitor 2\n");

            i = 0;
            nIds = 1;
            while (i < (sizeof(szFeatures)/sizeof(const char*)))
            {
                if  (nFeatureInfo & nIds)
                {
                    printf_s("\t");
                    printf_s(szFeatures[i]);
                    printf_s("\n");
                }

                nIds <<= 1;
                ++i;
            }
        }
    }

    if  (nExIds >= 0x80000004)
        printf_s("\nCPU Brand String: %s\n", CPUBrandString);

    if  (nExIds >= 0x80000006)
    {
        printf_s("Cache Line Size = %d\n", nCacheLineSize);
        printf_s("L2 Associativity = %d\n", nL2Associativity);
        printf_s("Cache Size = %dK\n", nCacheSizeK);
    }

return  nRet;
}

Sample Output
  
For InfoType 0
CPUInfo[0] = 0x5
CPUInfo[1] = 0x756e6547
CPUInfo[2] = 0x6c65746e
CPUInfo[3] = 0x49656e69

For InfoType 1
CPUInfo[0] = 0xf31
CPUInfo[1] = 0x20800
CPUInfo[2] = 0x41d
CPUInfo[3] = 0xbfebfbff

For InfoType 2
CPUInfo[0] = 0x605b5001
CPUInfo[1] = 0x0
CPUInfo[2] = 0x0
CPUInfo[3] = 0x7c7040

For InfoType 3
CPUInfo[0] = 0x0
CPUInfo[1] = 0x0
CPUInfo[2] = 0x0
CPUInfo[3] = 0x0

For InfoType 4
CPUInfo[0] = 0x0
CPUInfo[1] = 0x0
CPUInfo[2] = 0x0
CPUInfo[3] = 0x0

For InfoType 5
CPUInfo[0] = 0x40
CPUInfo[1] = 0x40
CPUInfo[2] = 0x0
CPUInfo[3] = 0x0

For InfoType 80000000
CPUInfo[0] = 0x80000008
CPUInfo[1] = 0x0
CPUInfo[2] = 0x0
CPUInfo[3] = 0x0

For InfoType 80000001
CPUInfo[0] = 0x0
CPUInfo[1] = 0x0
CPUInfo[2] = 0x0
CPUInfo[3] = 0x0

For InfoType 80000002
CPUInfo[0] = 0x20202020
CPUInfo[1] = 0x20202020
CPUInfo[2] = 0x20202020
CPUInfo[3] = 0x20202020

For InfoType 80000003
CPUInfo[0] = 0x47202020
CPUInfo[1] = 0x69756e65
CPUInfo[2] = 0x4920656e
CPUInfo[3] = 0x6c65746e

For InfoType 80000004
CPUInfo[0] = 0x20295228
CPUInfo[1] = 0x20555043
CPUInfo[2] = 0x30382e32
CPUInfo[3] = 0x7a4847

For InfoType 80000005
CPUInfo[0] = 0x0
CPUInfo[1] = 0x0
CPUInfo[2] = 0x0
CPUInfo[3] = 0x0

For InfoType 80000006
CPUInfo[0] = 0x0
CPUInfo[1] = 0x0
CPUInfo[2] = 0x4008040
CPUInfo[3] = 0x0

For InfoType 80000007
CPUInfo[0] = 0x0
CPUInfo[1] = 0x0
CPUInfo[2] = 0x0
CPUInfo[3] = 0x0

For InfoType 80000008
CPUInfo[0] = 0x2028
CPUInfo[1] = 0x0
CPUInfo[2] = 0x0
CPUInfo[3] = 0x0

CPU String: GenuineIntel
Stepping ID = 1
Model = 3
Family = 15
CLFLUSH cache line size = 64

The following features are supported:
        SSE3 New Instructions
        MONITOR/MWAIT
        CPL Qualified Debug Store
        x87 FPU On Chip
        Virtual-8086 Mode Enhancement
        Debugging Extensions
        Page Size Extensions
        Time Stamp Counter
        RDMSR and WRMSR Support
        Physical Address Extensions
        Machine Check Exception
        CMPXCHG8B Instruction
        APIC On Chip
        SYSENTER and SYSEXIT
        Memory Type Range Registers
        PTE Global Bit
        Machine Check Architecture
        Conditional Move/Compare Instruction
        Page Attribute Table
        Page Size Extension
        CFLUSH Extension
        Debug Store
        Thermal Monitor and Clock Ctrl
        MMX Technology
        FXSAVE/FXRSTOR
        SSE Extensions
        SSE2 Extensions
        Self Snoop
        Hyper-threading Technology
        Thermal Monitor
        Pend. Brk. EN.

CPU Brand String:                    Genuine Intel(R) CPU 2.80GHz
Cache Line Size = 64
L2 Associativity = 8
Cache Size = 1024K

END Microsoft Specific

See Also
Reference
雪    币: 199
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wopasi 活跃值 1 2007-10-26 04:12
3
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天书?还是?我倒 看不懂
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Hitman 活跃值 2007-10-29 14:44
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你还是改学C++吧 呵呵
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BlueT 活跃值 2 2007-10-29 20:01
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VB使用汇编极不方便。
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wopasi 活跃值 1 2007-10-30 01:39
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解决了 逼我用delphi可恶啊 我就不会delphi 变量的定义我还得baidu
欺负新人啊 我我我。。。。怒了 非给他写出来 我就不信 软件的作者欺负新人 我就非要给他写出来看看
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jzfcf 活跃值 2007-11-21 11:52
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二楼内容太全,搜藏...
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