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-/****************************************************************************
-*
-* SciTech OS Portability Manager Library
-*
-* ========================================================================
-*
-* The contents of this file are subject to the SciTech MGL Public
-* License Version 1.0 (the "License"); you may not use this file
-* except in compliance with the License. You may obtain a copy of
-* the License at http://www.scitechsoft.com/mgl-license.txt
-*
-* Software distributed under the License is distributed on an
-* "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or
-* implied. See the License for the specific language governing
-* rights and limitations under the License.
-*
-* The Original Code is Copyright (C) 1991-1998 SciTech Software, Inc.
-*
-* The Initial Developer of the Original Code is SciTech Software, Inc.
-* All Rights Reserved.
-*
-* ========================================================================
-*
-* Language: ANSI C
-* Environment: Any
-*
-* Description: Main module to implement the Zen Timer support functions.
-*
-****************************************************************************/
-
-#include "ztimer.h"
-#include "pmapi.h"
-#include "oshdr.h"
-#if !defined(__WIN32_VXD__) && !defined(__OS2_VDD__) && !defined(__NT_DRIVER__)
-#include <stdio.h>
-#include <string.h>
-#endif
-
-/*----------------------------- Implementation ----------------------------*/
-
-/* External Intel assembler functions */
-#ifdef __INTEL__
-/* {secret} */
-ibool _ASMAPI _CPU_haveCPUID(void);
-/* {secret} */
-ibool _ASMAPI _CPU_check80386(void);
-/* {secret} */
-ibool _ASMAPI _CPU_check80486(void);
-/* {secret} */
-uint _ASMAPI _CPU_checkCPUID(void);
-/* {secret} */
-uint _ASMAPI _CPU_getCPUIDModel(void);
-/* {secret} */
-uint _ASMAPI _CPU_getCPUIDStepping(void);
-/* {secret} */
-uint _ASMAPI _CPU_getCPUIDFeatures(void);
-/* {secret} */
-uint _ASMAPI _CPU_getCacheSize(void);
-/* {secret} */
-uint _ASMAPI _CPU_have3DNow(void);
-/* {secret} */
-ibool _ASMAPI _CPU_checkClone(void);
-/* {secret} */
-void _ASMAPI _CPU_readTimeStamp(CPU_largeInteger *time);
-/* {secret} */
-void _ASMAPI _CPU_runBSFLoop(ulong iterations);
-/* {secret} */
-ulong _ASMAPI _CPU_mulDiv(ulong a,ulong b,ulong c);
-/* {secret} */
-void ZTimerQuickInit(void);
-#define CPU_HaveMMX 0x00800000
-#define CPU_HaveRDTSC 0x00000010
-#define CPU_HaveSSE 0x02000000
-#endif
-
-#if defined(__SMX32__)
-#include "smx/cpuinfo.c"
-#elif defined(__RTTARGET__)
-#include "rttarget/cpuinfo.c"
-#elif defined(__REALDOS__)
-#include "dos/cpuinfo.c"
-#elif defined(__NT_DRIVER__)
-#include "ntdrv/cpuinfo.c"
-#elif defined(__WIN32_VXD__)
-#include "vxd/cpuinfo.c"
-#elif defined(__WINDOWS32__)
-#include "win32/cpuinfo.c"
-#elif defined(__OS2_VDD__)
-#include "vdd/cpuinfo.c"
-#elif defined(__OS2__)
-#include "os2/cpuinfo.c"
-#elif defined(__LINUX__)
-#include "linux/cpuinfo.c"
-#elif defined(__QNX__)
-#include "qnx/cpuinfo.c"
-#elif defined(__BEOS__)
-#include "beos/cpuinfo.c"
-#else
-#error CPU library not ported to this platform yet!
-#endif
-
-/*------------------------ Public interface routines ----------------------*/
-
-/****************************************************************************
-REMARKS:
-Read an I/O port location.
-****************************************************************************/
-static uchar rdinx(
- int port,
- int index)
-{
- PM_outpb(port,(uchar)index);
- return PM_inpb(port+1);
-}
-
-/****************************************************************************
-REMARKS:
-Write an I/O port location.
-****************************************************************************/
-static void wrinx(
- ushort port,
- ushort index,
- ushort value)
-{
- PM_outpb(port,(uchar)index);
- PM_outpb(port+1,(uchar)value);
-}
-
-/****************************************************************************
-REMARKS:
-Enables the Cyrix CPUID instruction to properly detect MediaGX and 6x86
-processors.
-****************************************************************************/
-static void _CPU_enableCyrixCPUID(void)
-{
- uchar ccr3;
-
- PM_init();
- ccr3 = rdinx(0x22,0xC3);
- wrinx(0x22,0xC3,(uchar)(ccr3 | 0x10));
- wrinx(0x22,0xE8,(uchar)(rdinx(0x22,0xE8) | 0x80));
- wrinx(0x22,0xC3,ccr3);
-}
-
-/****************************************************************************
-DESCRIPTION:
-Returns the type of processor in the system.
-
-HEADER:
-ztimer.h
-
-RETURNS:
-Numerical identifier for the installed processor
-
-REMARKS:
-Returns the type of processor in the system. Note that if the CPU is an
-unknown Pentium family processor that we don't have an enumeration for,
-the return value will be greater than or equal to the value of CPU_UnkPentium
-(depending on the value returned by the CPUID instruction).
-
-SEE ALSO:
-CPU_getProcessorSpeed, CPU_haveMMX, CPU_getProcessorName
-****************************************************************************/
-uint ZAPI CPU_getProcessorType(void)
-{
-#if defined(__INTEL__)
- uint cpu,vendor,model,cacheSize;
- static ibool firstTime = true;
-
- if (_CPU_haveCPUID()) {
- cpu = _CPU_checkCPUID();
- vendor = cpu & ~CPU_mask;
- if (vendor == CPU_Intel) {
- /* Check for Intel processors */
- switch (cpu & CPU_mask) {
- case 4: cpu = CPU_i486; break;
- case 5: cpu = CPU_Pentium; break;
- case 6:
- if ((model = _CPU_getCPUIDModel()) == 1)
- cpu = CPU_PentiumPro;
- else if (model <= 6) {
- cacheSize = _CPU_getCacheSize();
- if ((model == 5 && cacheSize == 0) ||
- (model == 5 && cacheSize == 256) ||
- (model == 6 && cacheSize == 128))
- cpu = CPU_Celeron;
- else
- cpu = CPU_PentiumII;
- }
- else if (model >= 7) {
- /* Model 7 == Pentium III */
- /* Model 8 == Celeron/Pentium III Coppermine */
- cacheSize = _CPU_getCacheSize();
- if ((model == 8 && cacheSize == 128))
- cpu = CPU_Celeron;
- else
- cpu = CPU_PentiumIII;
- }
- break;
- default:
- cpu = CPU_UnkIntel;
- }
- }
- else if (vendor == CPU_Cyrix) {
- /* Check for Cyrix processors */
- switch (cpu & CPU_mask) {
- case 4:
- if ((model = _CPU_getCPUIDModel()) == 4)
- cpu = CPU_CyrixMediaGX;
- else
- cpu = CPU_UnkCyrix;
- break;
- case 5:
- if ((model = _CPU_getCPUIDModel()) == 2)
- cpu = CPU_Cyrix6x86;
- else if (model == 4)
- cpu = CPU_CyrixMediaGXm;
- else
- cpu = CPU_UnkCyrix;
- break;
- case 6:
- if ((model = _CPU_getCPUIDModel()) <= 1)
- cpu = CPU_Cyrix6x86MX;
- else
- cpu = CPU_UnkCyrix;
- break;
- default:
- cpu = CPU_UnkCyrix;
- }
- }
- else if (vendor == CPU_AMD) {
- /* Check for AMD processors */
- switch (cpu & CPU_mask) {
- case 4:
- if ((model = _CPU_getCPUIDModel()) == 0)
- cpu = CPU_AMDAm5x86;
- else
- cpu = CPU_AMDAm486;
- break;
- case 5:
- if ((model = _CPU_getCPUIDModel()) <= 3)
- cpu = CPU_AMDK5;
- else if (model <= 7)
- cpu = CPU_AMDK6;
- else if (model == 8)
- cpu = CPU_AMDK6_2;
- else if (model == 9)
- cpu = CPU_AMDK6_III;
- else if (model == 13) {
- if (_CPU_getCPUIDStepping() <= 3)
- cpu = CPU_AMDK6_IIIplus;
- else
- cpu = CPU_AMDK6_2plus;
- }
- else
- cpu = CPU_UnkAMD;
- break;
- case 6:
- if ((model = _CPU_getCPUIDModel()) == 3)
- cpu = CPU_AMDDuron;
- else
- cpu = CPU_AMDAthlon;
- break;
- default:
- cpu = CPU_UnkAMD;
- }
- }
- else if (vendor == CPU_IDT) {
- /* Check for IDT WinChip processors */
- switch (cpu & CPU_mask) {
- case 5:
- if ((model = _CPU_getCPUIDModel()) <= 4)
- cpu = CPU_WinChipC6;
- else if (model == 8)
- cpu = CPU_WinChip2;
- else
- cpu = CPU_UnkIDT;
- break;
- default:
- cpu = CPU_UnkIDT;
- }
- }
- else {
- /* Assume a Pentium compatible Intel clone */
- cpu = CPU_Pentium;
- }
- return cpu | vendor | (_CPU_getCPUIDStepping() << CPU_steppingShift);
- }
- else {
- if (_CPU_check80386())
- cpu = CPU_i386;
- else if (_CPU_check80486()) {
- /* If we get here we may have a Cyrix processor so we can try
- * enabling the CPUID instruction and trying again.
- */
- if (firstTime) {
- firstTime = false;
- _CPU_enableCyrixCPUID();
- return CPU_getProcessorType();
- }
- cpu = CPU_i486;
- }
- else
- cpu = CPU_Pentium;
- if (!_CPU_checkClone())
- return cpu | CPU_Intel;
- return cpu;
- }
-#elif defined(__ALPHA__)
- return CPU_Alpha;
-#elif defined(__MIPS__)
- return CPU_Mips;
-#elif defined(__PPC__)
- return CPU_PowerPC;
-#endif
-}
-
-/****************************************************************************
-DESCRIPTION:
-Returns true if the processor supports Intel MMX extensions.
-
-HEADER:
-ztimer.h
-
-RETURNS:
-True if MMX is available, false if not.
-
-REMARKS:
-This function determines if the processor supports the Intel MMX extended
-instruction set.
-
-SEE ALSO:
-CPU_getProcessorType, CPU_getProcessorSpeed, CPU_have3DNow, CPU_haveSSE,
-CPU_getProcessorName
-****************************************************************************/
-ibool ZAPI CPU_haveMMX(void)
-{
-#ifdef __INTEL__
- if (_CPU_haveCPUID())
- return (_CPU_getCPUIDFeatures() & CPU_HaveMMX) != 0;
- return false;
-#else
- return false;
-#endif
-}
-
-/****************************************************************************
-DESCRIPTION:
-Returns true if the processor supports AMD 3DNow! extensions.
-
-HEADER:
-ztimer.h
-
-RETURNS:
-True if 3DNow! is available, false if not.
-
-REMARKS:
-This function determines if the processor supports the AMD 3DNow! extended
-instruction set.
-
-SEE ALSO:
-CPU_getProcessorType, CPU_getProcessorSpeed, CPU_haveMMX, CPU_haveSSE,
-CPU_getProcessorName
-****************************************************************************/
-ibool ZAPI CPU_have3DNow(void)
-{
-#ifdef __INTEL__
- if (_CPU_haveCPUID())
- return _CPU_have3DNow();
- return false;
-#else
- return false;
-#endif
-}
-
-/****************************************************************************
-DESCRIPTION:
-Returns true if the processor supports Intel KNI extensions.
-
-HEADER:
-ztimer.h
-
-RETURNS:
-True if Intel KNI is available, false if not.
-
-REMARKS:
-This function determines if the processor supports the Intel KNI extended
-instruction set.
-
-SEE ALSO:
-CPU_getProcessorType, CPU_getProcessorSpeed, CPU_haveMMX, CPU_have3DNow,
-CPU_getProcessorName
-****************************************************************************/
-ibool ZAPI CPU_haveSSE(void)
-{
-#ifdef __INTEL__
- if (_CPU_haveCPUID())
- return (_CPU_getCPUIDFeatures() & CPU_HaveSSE) != 0;
- return false;
-#else
- return false;
-#endif
-}
-
-/****************************************************************************
-RETURNS:
-True if the RTSC instruction is available, false if not.
-
-REMARKS:
-This function determines if the processor supports the Intel RDTSC
-instruction, for high precision timing. If the processor is not an Intel or
-Intel clone CPU, this function will always return false.
-
-DESCRIPTION:
-Returns true if the processor supports RDTSC extensions.
-
-HEADER:
-ztimer.h
-
-RETURNS:
-True if RTSC is available, false if not.
-
-REMARKS:
-This function determines if the processor supports the RDTSC instruction
-for reading the processor time stamp counter.
-
-SEE ALSO:
-CPU_getProcessorType, CPU_getProcessorSpeed, CPU_haveMMX, CPU_have3DNow,
-CPU_getProcessorName
-****************************************************************************/
-ibool ZAPI CPU_haveRDTSC(void)
-{
-#ifdef __INTEL__
- if (_CPU_haveCPUID())
- return (_CPU_getCPUIDFeatures() & CPU_HaveRDTSC) != 0;
- return false;
-#else
- return false;
-#endif
-}
-
-#ifdef __INTEL__
-
-#define ITERATIONS 16000
-#define SAMPLINGS 2
-#define INNER_LOOPS 400
-
-/****************************************************************************
-REMARKS:
-If processor does not support time stamp reading, but is at least a 386 or
-above, utilize method of timing a loop of BSF instructions which take a
-known number of cycles to run on i386(tm), i486(tm), and Pentium(R)
-processors.
-****************************************************************************/
-static ulong GetBSFCpuSpeed(
- ulong cycles)
-{
- CPU_largeInteger t0,t1,count_freq;
- ulong ticks; /* Microseconds elapsed during test */
- ulong current; /* Variable to store time elapsed */
- int i,j,iPriority;
- ulong lowest = (ulong)-1;
-
- iPriority = SetMaxThreadPriority();
- GetCounterFrequency(&count_freq);
- for (i = 0; i < SAMPLINGS; i++) {
- GetCounter(&t0);
- for (j = 0; j < INNER_LOOPS; j++)
- _CPU_runBSFLoop(ITERATIONS);
- GetCounter(&t1);
- current = t1.low - t0.low;
- if (current < lowest)
- lowest = current;
- }
- RestoreThreadPriority(iPriority);
-
- /* Compute frequency */
- ticks = _CPU_mulDiv(lowest,1000000,count_freq.low);
- if ((ticks % count_freq.low) > (count_freq.low/2))
- ticks++; /* Round up if necessary */
- if (ticks == 0)
- return 0;
- return ((cycles*INNER_LOOPS)/ticks);
-}
-
-#define TOLERANCE 1
-
-/****************************************************************************
-REMARKS:
-On processors supporting the Read Time Stamp opcode, compare elapsed
-time on the High-Resolution Counter with elapsed cycles on the Time
-Stamp Register.
-
-The inner loop runs up to 20 times oruntil the average of the previous
-three calculated frequencies is within 1 MHz of each of the individual
-calculated frequencies. This resampling increases the accuracy of the
-results since outside factors could affect this calculation.
-****************************************************************************/
-static ulong GetRDTSCCpuSpeed(
- ibool accurate)
-{
- CPU_largeInteger t0,t1,s0,s1,count_freq;
- u64 stamp0, stamp1, ticks0, ticks1;
- u64 total_cycles, cycles, hz, freq;
- u64 total_ticks, ticks;
- int tries,iPriority;
- ulong maxCount;
-
- PM_set64_32(total_cycles,0);
- PM_set64_32(total_ticks,0);
- maxCount = accurate ? 600000 : 30000;
- iPriority = SetMaxThreadPriority();
- GetCounterFrequency(&count_freq);
- PM_set64(freq,count_freq.high,count_freq.low);
- for (tries = 0; tries < 3; tries++) {
- /* Loop until 100 ticks have passed since last read of hi-res
- * counter. This accounts for overhead later.
- */
- GetCounter(&t0);
- t1.low = t0.low;
- t1.high = t0.high;
- while ((t1.low - t0.low) < 100) {
- GetCounter(&t1);
- _CPU_readTimeStamp(&s0);
- }
-
- /* Loop until 30000 ticks have passed since last read of hi-res counter.
- * This allows for elapsed time for sampling. For a hi-res frequency
- * of 1MHz, this is about 0.03 of a second. The frequency reported
- * by the OS dependent code should be tuned to provide a good
- * sample period depending on the accuracy of the OS timers (ie:
- * if the accuracy is lower, lower the frequency to spend more time
- * in the inner loop to get better accuracy).
- */
- t0.low = t1.low;
- t0.high = t1.high;
- while ((t1.low - t0.low) < maxCount) {
- GetCounter(&t1);
- _CPU_readTimeStamp(&s1);
- }
-
- /* Find the difference during the timing loop */
- PM_set64(stamp0,s0.high,s0.low);
- PM_set64(stamp1,s1.high,s1.low);
- PM_set64(ticks0,t0.high,t0.low);
- PM_set64(ticks1,t1.high,t1.low);
- PM_sub64(cycles,stamp1,stamp0);
- PM_sub64(ticks,ticks1,ticks0);
-
- /* Sum up the results */
- PM_add64(total_ticks,total_ticks,ticks);
- PM_add64(total_cycles,total_cycles,cycles);
- }
- RestoreThreadPriority(iPriority);
-
- /* Compute frequency in Hz */
- PM_mul64(hz,total_cycles,freq);
- PM_div64(hz,hz,total_ticks);
- return PM_64to32(hz);
-}
-
-#endif /* __INTEL__ */
-
-/****************************************************************************
-DESCRIPTION:
-Returns the speed of the processor in MHz.
-
-HEADER:
-ztimer.h
-
-PARAMETERS:
-accurate - True of the speed should be measured accurately
-
-RETURNS:
-Processor speed in MHz.
-
-REMARKS:
-This function returns the speed of the CPU in MHz. Note that if the speed
-cannot be determined, this function will return 0.
-
-If the accurate parameter is set to true, this function will spend longer
-profiling the speed of the CPU, and will not round the CPU speed that is
-reported. This is important for highly accurate timing using the Pentium
-RDTSC instruction, but it does take a lot longer for the profiling to
-produce accurate results.
-
-SEE ALSO:
-CPU_getProcessorSpeedInHz, CPU_getProcessorType, CPU_haveMMX,
-CPU_getProcessorName
-****************************************************************************/
-ulong ZAPI CPU_getProcessorSpeed(
- ibool accurate)
-{
-#if defined(__INTEL__)
- /* Number of cycles needed to execute a single BSF instruction on i386+
- * processors.
- */
- ulong cpuSpeed;
- uint i;
- static ulong intel_cycles[] = {
- 115,47,43,
- };
- static ulong cyrix_cycles[] = {
- 38,38,52,52,
- };
- static ulong amd_cycles[] = {
- 49,
- };
- static ulong known_speeds[] = {
- 1000,950,900,850,800,750,700,650,600,550,500,450,433,400,350,
- 333,300,266,233,200,166,150,133,120,100,90,75,66,60,50,33,20,0,
- };
-
- if (CPU_haveRDTSC()) {
- cpuSpeed = (GetRDTSCCpuSpeed(accurate) + 500000) / 1000000;
- }
- else {
- int type = CPU_getProcessorType();
- int processor = type & CPU_mask;
- int vendor = type & CPU_familyMask;
- if (vendor == CPU_Intel)
- cpuSpeed = GetBSFCpuSpeed(ITERATIONS * intel_cycles[processor - CPU_i386]);
- else if (vendor == CPU_Cyrix)
- cpuSpeed = GetBSFCpuSpeed(ITERATIONS * cyrix_cycles[processor - CPU_Cyrix6x86]);
- else if (vendor == CPU_AMD)
- cpuSpeed = GetBSFCpuSpeed(ITERATIONS * amd_cycles[0]);
- else
- return 0;
- }
-
- /* Now normalise the results given known processors speeds, if the
- * speed we measure is within 2MHz of the expected values
- */
- if (!accurate) {
- for (i = 0; known_speeds[i] != 0; i++) {
- if (cpuSpeed >= (known_speeds[i]-3) && cpuSpeed <= (known_speeds[i]+3)) {
- return known_speeds[i];
- }
- }
- }
- return cpuSpeed;
-#else
- return 0;
-#endif
-}
-
-/****************************************************************************
-DESCRIPTION:
-Returns the speed of the processor in Hz.
-
-HEADER:
-ztimer.h
-
-RETURNS:
-Accurate processor speed in Hz.
-
-REMARKS:
-This function returns the accurate speed of the CPU in Hz. Note that if the
-speed cannot be determined, this function will return 0.
-
-This function is similar to the CPU_getProcessorSpeed function, except that
-it attempts to accurately measure the CPU speed in Hz. This is used
-internally in the Zen Timer libraries to provide accurate real world timing
-information. This is important for highly accurate timing using the Pentium
-RDTSC instruction, but it does take a lot longer for the profiling to
-produce accurate results.
-
-SEE ALSO:
-CPU_getProcessorSpeed, CPU_getProcessorType, CPU_haveMMX,
-CPU_getProcessorName
-****************************************************************************/
-ulong ZAPI CPU_getProcessorSpeedInHZ(
- ibool accurate)
-{
-#if defined(__INTEL__)
- if (CPU_haveRDTSC()) {
- return GetRDTSCCpuSpeed(accurate);
- }
- return CPU_getProcessorSpeed(false) * 1000000;
-#else
- return 0;
-#endif
-}
-
-/****************************************************************************
-DESCRIPTION:
-Returns a string defining the speed and name of the processor.
-
-HEADER:
-ztimer.h
-
-RETURNS:
-Processor name string.
-
-REMARKS:
-This function returns an English string describing the speed and name of the
-CPU.
-
-SEE ALSO:
-CPU_getProcessorType, CPU_haveMMX, CPU_getProcessorName
-****************************************************************************/
-char * ZAPI CPU_getProcessorName(void)
-{
-#if defined(__INTEL__)
- static int cpu,speed = -1;
- static char name[80];
-
- if (speed == -1) {
- cpu = CPU_getProcessorType();
- speed = CPU_getProcessorSpeed(false);
- }
- sprintf(name,"%d MHz ", speed);
- switch (cpu & CPU_mask) {
- case CPU_i386:
- strcat(name,"Intel i386 processor");
- break;
- case CPU_i486:
- strcat(name,"Intel i486 processor");
- break;
- case CPU_Pentium:
- strcat(name,"Intel Pentium processor");
- break;
- case CPU_PentiumPro:
- strcat(name,"Intel Pentium Pro processor");
- break;
- case CPU_PentiumII:
- strcat(name,"Intel Pentium II processor");
- break;
- case CPU_Celeron:
- strcat(name,"Intel Celeron processor");
- break;
- case CPU_PentiumIII:
- strcat(name,"Intel Pentium III processor");
- break;
- case CPU_UnkIntel:
- strcat(name,"Unknown Intel processor");
- break;
- case CPU_Cyrix6x86:
- strcat(name,"Cyrix 6x86 processor");
- break;
- case CPU_Cyrix6x86MX:
- strcat(name,"Cyrix 6x86MX processor");
- break;
- case CPU_CyrixMediaGX:
- strcat(name,"Cyrix MediaGX processor");
- break;
- case CPU_CyrixMediaGXm:
- strcat(name,"Cyrix MediaGXm processor");
- break;
- case CPU_UnkCyrix:
- strcat(name,"Unknown Cyrix processor");
- break;
- case CPU_AMDAm486:
- strcat(name,"AMD Am486 processor");
- break;
- case CPU_AMDAm5x86:
- strcat(name,"AMD Am5x86 processor");
- break;
- case CPU_AMDK5:
- strcat(name,"AMD K5 processor");
- break;
- case CPU_AMDK6:
- strcat(name,"AMD K6 processor");
- break;
- case CPU_AMDK6_2:
- strcat(name,"AMD K6-2 processor");
- break;
- case CPU_AMDK6_III:
- strcat(name,"AMD K6-III processor");
- break;
- case CPU_AMDK6_2plus:
- strcat(name,"AMD K6-2+ processor");
- break;
- case CPU_AMDK6_IIIplus:
- strcat(name,"AMD K6-III+ processor");
- break;
- case CPU_UnkAMD:
- strcat(name,"Unknown AMD processor");
- break;
- case CPU_AMDAthlon:
- strcat(name,"AMD Athlon processor");
- break;
- case CPU_AMDDuron:
- strcat(name,"AMD Duron processor");
- break;
- case CPU_WinChipC6:
- strcat(name,"IDT WinChip C6 processor");
- break;
- case CPU_WinChip2:
- strcat(name,"IDT WinChip 2 processor");
- break;
- case CPU_UnkIDT:
- strcat(name,"Unknown IDT processor");
- break;
- default:
- strcat(name,"Unknown processor");
- }
- if (CPU_haveMMX())
- strcat(name," with MMX(R)");
- if (CPU_have3DNow())
- strcat(name,", 3DNow!(R)");
- if (CPU_haveSSE())
- strcat(name,", SSE(R)");
- return name;
-#else
- return "Unknown";
-#endif
-}