/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "mpi.h" #include "prtypes.h" /* * This file implements a single function: s_mpi_getProcessorLineSize(); * s_mpi_getProcessorLineSize() returns the size in bytes of the cache line * if a cache exists, or zero if there is no cache. If more than one * cache line exists, it should return the smallest line size (which is * usually the L1 cache). * * mp_modexp uses this information to make sure that private key information * isn't being leaked through the cache. * * Currently the file returns good data for most modern x86 processors, and * reasonable data on 64-bit ppc processors. All other processors are assumed * to have a cache line size of 32 bytes unless modified by target.mk. * */ #if defined(i386) || defined(__i386) || defined(__X86__) || defined(_M_IX86) || defined(__x86_64__) || defined(__x86_64) || defined(_M_AMD64) /* X86 processors have special instructions that tell us about the cache */ #include "string.h" #if defined(__x86_64__) || defined(__x86_64) || defined(_M_AMD64) #define AMD_64 1 #endif /* Generic CPUID function */ #if defined(AMD_64) #if defined(__GNUC__) void freebl_cpuid(unsigned long op, unsigned long *eax, unsigned long *ebx, unsigned long *ecx, unsigned long *edx) { __asm__("cpuid\n\t" : "=a"(*eax), "=b"(*ebx), "=c"(*ecx), "=d"(*edx) : "0"(op)); } #elif defined(_MSC_VER) #include void freebl_cpuid(unsigned long op, unsigned long *eax, unsigned long *ebx, unsigned long *ecx, unsigned long *edx) { int intrinsic_out[4]; __cpuid(intrinsic_out, op); *eax = intrinsic_out[0]; *ebx = intrinsic_out[1]; *ecx = intrinsic_out[2]; *edx = intrinsic_out[3]; } #endif #else /* !defined(AMD_64) */ /* x86 */ #if defined(__GNUC__) void freebl_cpuid(unsigned long op, unsigned long *eax, unsigned long *ebx, unsigned long *ecx, unsigned long *edx) { /* Some older processors don't fill the ecx register with cpuid, so clobber it * before calling cpuid, so that there's no risk of picking random bits that * erroneously indicate that absent CPU features are present. * Also, GCC isn't smart enough to save the ebx PIC register on its own * in this case, so do it by hand. Use edi to store ebx and pass the * value returned in ebx from cpuid through edi. */ __asm__("xor %%ecx, %%ecx\n\t" "mov %%ebx,%%edi\n\t" "cpuid\n\t" "xchgl %%ebx,%%edi\n\t" : "=a"(*eax), "=D"(*ebx), "=c"(*ecx), "=d"(*edx) : "0"(op)); } /* * try flipping a processor flag to determine CPU type */ static unsigned long changeFlag(unsigned long flag) { unsigned long changedFlags, originalFlags; __asm__("pushfl\n\t" /* get the flags */ "popl %0\n\t" "movl %0,%1\n\t" /* save the original flags */ "xorl %2,%0\n\t" /* flip the bit */ "pushl %0\n\t" /* set the flags */ "popfl\n\t" "pushfl\n\t" /* get the flags again (for return) */ "popl %0\n\t" "pushl %1\n\t" /* restore the original flags */ "popfl\n\t" : "=r"(changedFlags), "=r"(originalFlags), "=r"(flag) : "2"(flag)); return changedFlags ^ originalFlags; } #elif defined(_MSC_VER) /* * windows versions of the above assembler */ #define wcpuid __asm __emit 0fh __asm __emit 0a2h void freebl_cpuid(unsigned long op, unsigned long *Reax, unsigned long *Rebx, unsigned long *Recx, unsigned long *Redx) { unsigned long Leax, Lebx, Lecx, Ledx; __asm { pushad xor ecx,ecx mov eax,op wcpuid mov Leax,eax mov Lebx,ebx mov Lecx,ecx mov Ledx,edx popad } *Reax = Leax; *Rebx = Lebx; *Recx = Lecx; *Redx = Ledx; } static unsigned long changeFlag(unsigned long flag) { unsigned long changedFlags, originalFlags; __asm { push eax push ebx pushfd /* get the flags */ pop eax push eax /* save the flags on the stack */ mov originalFlags,eax /* save the original flags */ mov ebx,flag xor eax,ebx /* flip the bit */ push eax /* set the flags */ popfd pushfd /* get the flags again (for return) */ pop eax popfd /* restore the original flags */ mov changedFlags,eax pop ebx pop eax } return changedFlags ^ originalFlags; } #endif #endif #if !defined(AMD_64) #define AC_FLAG 0x40000 #define ID_FLAG 0x200000 /* 386 processors can't flip the AC_FLAG, intel AP Note AP-485 */ static int is386() { return changeFlag(AC_FLAG) == 0; } /* 486 processors can't flip the ID_FLAG, intel AP Note AP-485 */ static int is486() { return changeFlag(ID_FLAG) == 0; } #endif /* * table for Intel Cache. * See Intel Application Note AP-485 for more information */ typedef unsigned char CacheTypeEntry; typedef enum { Cache_NONE = 0, Cache_UNKNOWN = 1, Cache_TLB = 2, Cache_TLBi = 3, Cache_TLBd = 4, Cache_Trace = 5, Cache_L1 = 6, Cache_L1i = 7, Cache_L1d = 8, Cache_L2 = 9, Cache_L2i = 10, Cache_L2d = 11, Cache_L3 = 12, Cache_L3i = 13, Cache_L3d = 14 } CacheType; struct _cache { CacheTypeEntry type; unsigned char lineSize; }; static const struct _cache CacheMap[256] = { /* 00 */ { Cache_NONE, 0 }, /* 01 */ { Cache_TLBi, 0 }, /* 02 */ { Cache_TLBi, 0 }, /* 03 */ { Cache_TLBd, 0 }, /* 04 */ { Cache_TLBd, }, /* 05 */ { Cache_UNKNOWN, 0 }, /* 06 */ { Cache_L1i, 32 }, /* 07 */ { Cache_UNKNOWN, 0 }, /* 08 */ { Cache_L1i, 32 }, /* 09 */ { Cache_UNKNOWN, 0 }, /* 0a */ { Cache_L1d, 32 }, /* 0b */ { Cache_UNKNOWN, 0 }, /* 0c */ { Cache_L1d, 32 }, /* 0d */ { Cache_UNKNOWN, 0 }, /* 0e */ { Cache_UNKNOWN, 0 }, /* 0f */ { Cache_UNKNOWN, 0 }, /* 10 */ { Cache_UNKNOWN, 0 }, /* 11 */ { Cache_UNKNOWN, 0 }, /* 12 */ { Cache_UNKNOWN, 0 }, /* 13 */ { Cache_UNKNOWN, 0 }, /* 14 */ { Cache_UNKNOWN, 0 }, /* 15 */ { Cache_UNKNOWN, 0 }, /* 16 */ { Cache_UNKNOWN, 0 }, /* 17 */ { Cache_UNKNOWN, 0 }, /* 18 */ { Cache_UNKNOWN, 0 }, /* 19 */ { Cache_UNKNOWN, 0 }, /* 1a */ { Cache_UNKNOWN, 0 }, /* 1b */ { Cache_UNKNOWN, 0 }, /* 1c */ { Cache_UNKNOWN, 0 }, /* 1d */ { Cache_UNKNOWN, 0 }, /* 1e */ { Cache_UNKNOWN, 0 }, /* 1f */ { Cache_UNKNOWN, 0 }, /* 20 */ { Cache_UNKNOWN, 0 }, /* 21 */ { Cache_UNKNOWN, 0 }, /* 22 */ { Cache_L3, 64 }, /* 23 */ { Cache_L3, 64 }, /* 24 */ { Cache_UNKNOWN, 0 }, /* 25 */ { Cache_L3, 64 }, /* 26 */ { Cache_UNKNOWN, 0 }, /* 27 */ { Cache_UNKNOWN, 0 }, /* 28 */ { Cache_UNKNOWN, 0 }, /* 29 */ { Cache_L3, 64 }, /* 2a */ { Cache_UNKNOWN, 0 }, /* 2b */ { Cache_UNKNOWN, 0 }, /* 2c */ { Cache_L1d, 64 }, /* 2d */ { Cache_UNKNOWN, 0 }, /* 2e */ { Cache_UNKNOWN, 0 }, /* 2f */ { Cache_UNKNOWN, 0 }, /* 30 */ { Cache_L1i, 64 }, /* 31 */ { Cache_UNKNOWN, 0 }, /* 32 */ { Cache_UNKNOWN, 0 }, /* 33 */ { Cache_UNKNOWN, 0 }, /* 34 */ { Cache_UNKNOWN, 0 }, /* 35 */ { Cache_UNKNOWN, 0 }, /* 36 */ { Cache_UNKNOWN, 0 }, /* 37 */ { Cache_UNKNOWN, 0 }, /* 38 */ { Cache_UNKNOWN, 0 }, /* 39 */ { Cache_L2, 64 }, /* 3a */ { Cache_UNKNOWN, 0 }, /* 3b */ { Cache_L2, 64 }, /* 3c */ { Cache_L2, 64 }, /* 3d */ { Cache_UNKNOWN, 0 }, /* 3e */ { Cache_UNKNOWN, 0 }, /* 3f */ { Cache_UNKNOWN, 0 }, /* 40 */ { Cache_L2, 0 }, /* 41 */ { Cache_L2, 32 }, /* 42 */ { Cache_L2, 32 }, /* 43 */ { Cache_L2, 32 }, /* 44 */ { Cache_L2, 32 }, /* 45 */ { Cache_L2, 32 }, /* 46 */ { Cache_UNKNOWN, 0 }, /* 47 */ { Cache_UNKNOWN, 0 }, /* 48 */ { Cache_UNKNOWN, 0 }, /* 49 */ { Cache_UNKNOWN, 0 }, /* 4a */ { Cache_UNKNOWN, 0 }, /* 4b */ { Cache_UNKNOWN, 0 }, /* 4c */ { Cache_UNKNOWN, 0 }, /* 4d */ { Cache_UNKNOWN, 0 }, /* 4e */ { Cache_UNKNOWN, 0 }, /* 4f */ { Cache_UNKNOWN, 0 }, /* 50 */ { Cache_TLBi, 0 }, /* 51 */ { Cache_TLBi, 0 }, /* 52 */ { Cache_TLBi, 0 }, /* 53 */ { Cache_UNKNOWN, 0 }, /* 54 */ { Cache_UNKNOWN, 0 }, /* 55 */ { Cache_UNKNOWN, 0 }, /* 56 */ { Cache_UNKNOWN, 0 }, /* 57 */ { Cache_UNKNOWN, 0 }, /* 58 */ { Cache_UNKNOWN, 0 }, /* 59 */ { Cache_UNKNOWN, 0 }, /* 5a */ { Cache_UNKNOWN, 0 }, /* 5b */ { Cache_TLBd, 0 }, /* 5c */ { Cache_TLBd, 0 }, /* 5d */ { Cache_TLBd, 0 }, /* 5e */ { Cache_UNKNOWN, 0 }, /* 5f */ { Cache_UNKNOWN, 0 }, /* 60 */ { Cache_UNKNOWN, 0 }, /* 61 */ { Cache_UNKNOWN, 0 }, /* 62 */ { Cache_UNKNOWN, 0 }, /* 63 */ { Cache_UNKNOWN, 0 }, /* 64 */ { Cache_UNKNOWN, 0 }, /* 65 */ { Cache_UNKNOWN, 0 }, /* 66 */ { Cache_L1d, 64 }, /* 67 */ { Cache_L1d, 64 }, /* 68 */ { Cache_L1d, 64 }, /* 69 */ { Cache_UNKNOWN, 0 }, /* 6a */ { Cache_UNKNOWN, 0 }, /* 6b */ { Cache_UNKNOWN, 0 }, /* 6c */ { Cache_UNKNOWN, 0 }, /* 6d */ { Cache_UNKNOWN, 0 }, /* 6e */ { Cache_UNKNOWN, 0 }, /* 6f */ { Cache_UNKNOWN, 0 }, /* 70 */ { Cache_Trace, 1 }, /* 71 */ { Cache_Trace, 1 }, /* 72 */ { Cache_Trace, 1 }, /* 73 */ { Cache_UNKNOWN, 0 }, /* 74 */ { Cache_UNKNOWN, 0 }, /* 75 */ { Cache_UNKNOWN, 0 }, /* 76 */ { Cache_UNKNOWN, 0 }, /* 77 */ { Cache_UNKNOWN, 0 }, /* 78 */ { Cache_UNKNOWN, 0 }, /* 79 */ { Cache_L2, 64 }, /* 7a */ { Cache_L2, 64 }, /* 7b */ { Cache_L2, 64 }, /* 7c */ { Cache_L2, 64 }, /* 7d */ { Cache_UNKNOWN, 0 }, /* 7e */ { Cache_UNKNOWN, 0 }, /* 7f */ { Cache_UNKNOWN, 0 }, /* 80 */ { Cache_UNKNOWN, 0 }, /* 81 */ { Cache_UNKNOWN, 0 }, /* 82 */ { Cache_L2, 32 }, /* 83 */ { Cache_L2, 32 }, /* 84 */ { Cache_L2, 32 }, /* 85 */ { Cache_L2, 32 }, /* 86 */ { Cache_L2, 64 }, /* 87 */ { Cache_L2, 64 }, /* 88 */ { Cache_UNKNOWN, 0 }, /* 89 */ { Cache_UNKNOWN, 0 }, /* 8a */ { Cache_UNKNOWN, 0 }, /* 8b */ { Cache_UNKNOWN, 0 }, /* 8c */ { Cache_UNKNOWN, 0 }, /* 8d */ { Cache_UNKNOWN, 0 }, /* 8e */ { Cache_UNKNOWN, 0 }, /* 8f */ { Cache_UNKNOWN, 0 }, /* 90 */ { Cache_UNKNOWN, 0 }, /* 91 */ { Cache_UNKNOWN, 0 }, /* 92 */ { Cache_UNKNOWN, 0 }, /* 93 */ { Cache_UNKNOWN, 0 }, /* 94 */ { Cache_UNKNOWN, 0 }, /* 95 */ { Cache_UNKNOWN, 0 }, /* 96 */ { Cache_UNKNOWN, 0 }, /* 97 */ { Cache_UNKNOWN, 0 }, /* 98 */ { Cache_UNKNOWN, 0 }, /* 99 */ { Cache_UNKNOWN, 0 }, /* 9a */ { Cache_UNKNOWN, 0 }, /* 9b */ { Cache_UNKNOWN, 0 }, /* 9c */ { Cache_UNKNOWN, 0 }, /* 9d */ { Cache_UNKNOWN, 0 }, /* 9e */ { Cache_UNKNOWN, 0 }, /* 9f */ { Cache_UNKNOWN, 0 }, /* a0 */ { Cache_UNKNOWN, 0 }, /* a1 */ { Cache_UNKNOWN, 0 }, /* a2 */ { Cache_UNKNOWN, 0 }, /* a3 */ { Cache_UNKNOWN, 0 }, /* a4 */ { Cache_UNKNOWN, 0 }, /* a5 */ { Cache_UNKNOWN, 0 }, /* a6 */ { Cache_UNKNOWN, 0 }, /* a7 */ { Cache_UNKNOWN, 0 }, /* a8 */ { Cache_UNKNOWN, 0 }, /* a9 */ { Cache_UNKNOWN, 0 }, /* aa */ { Cache_UNKNOWN, 0 }, /* ab */ { Cache_UNKNOWN, 0 }, /* ac */ { Cache_UNKNOWN, 0 }, /* ad */ { Cache_UNKNOWN, 0 }, /* ae */ { Cache_UNKNOWN, 0 }, /* af */ { Cache_UNKNOWN, 0 }, /* b0 */ { Cache_TLBi, 0 }, /* b1 */ { Cache_UNKNOWN, 0 }, /* b2 */ { Cache_UNKNOWN, 0 }, /* b3 */ { Cache_TLBd, 0 }, /* b4 */ { Cache_UNKNOWN, 0 }, /* b5 */ { Cache_UNKNOWN, 0 }, /* b6 */ { Cache_UNKNOWN, 0 }, /* b7 */ { Cache_UNKNOWN, 0 }, /* b8 */ { Cache_UNKNOWN, 0 }, /* b9 */ { Cache_UNKNOWN, 0 }, /* ba */ { Cache_UNKNOWN, 0 }, /* bb */ { Cache_UNKNOWN, 0 }, /* bc */ { Cache_UNKNOWN, 0 }, /* bd */ { Cache_UNKNOWN, 0 }, /* be */ { Cache_UNKNOWN, 0 }, /* bf */ { Cache_UNKNOWN, 0 }, /* c0 */ { Cache_UNKNOWN, 0 }, /* c1 */ { Cache_UNKNOWN, 0 }, /* c2 */ { Cache_UNKNOWN, 0 }, /* c3 */ { Cache_UNKNOWN, 0 }, /* c4 */ { Cache_UNKNOWN, 0 }, /* c5 */ { Cache_UNKNOWN, 0 }, /* c6 */ { Cache_UNKNOWN, 0 }, /* c7 */ { Cache_UNKNOWN, 0 }, /* c8 */ { Cache_UNKNOWN, 0 }, /* c9 */ { Cache_UNKNOWN, 0 }, /* ca */ { Cache_UNKNOWN, 0 }, /* cb */ { Cache_UNKNOWN, 0 }, /* cc */ { Cache_UNKNOWN, 0 }, /* cd */ { Cache_UNKNOWN, 0 }, /* ce */ { Cache_UNKNOWN, 0 }, /* cf */ { Cache_UNKNOWN, 0 }, /* d0 */ { Cache_UNKNOWN, 0 }, /* d1 */ { Cache_UNKNOWN, 0 }, /* d2 */ { Cache_UNKNOWN, 0 }, /* d3 */ { Cache_UNKNOWN, 0 }, /* d4 */ { Cache_UNKNOWN, 0 }, /* d5 */ { Cache_UNKNOWN, 0 }, /* d6 */ { Cache_UNKNOWN, 0 }, /* d7 */ { Cache_UNKNOWN, 0 }, /* d8 */ { Cache_UNKNOWN, 0 }, /* d9 */ { Cache_UNKNOWN, 0 }, /* da */ { Cache_UNKNOWN, 0 }, /* db */ { Cache_UNKNOWN, 0 }, /* dc */ { Cache_UNKNOWN, 0 }, /* dd */ { Cache_UNKNOWN, 0 }, /* de */ { Cache_UNKNOWN, 0 }, /* df */ { Cache_UNKNOWN, 0 }, /* e0 */ { Cache_UNKNOWN, 0 }, /* e1 */ { Cache_UNKNOWN, 0 }, /* e2 */ { Cache_UNKNOWN, 0 }, /* e3 */ { Cache_UNKNOWN, 0 }, /* e4 */ { Cache_UNKNOWN, 0 }, /* e5 */ { Cache_UNKNOWN, 0 }, /* e6 */ { Cache_UNKNOWN, 0 }, /* e7 */ { Cache_UNKNOWN, 0 }, /* e8 */ { Cache_UNKNOWN, 0 }, /* e9 */ { Cache_UNKNOWN, 0 }, /* ea */ { Cache_UNKNOWN, 0 }, /* eb */ { Cache_UNKNOWN, 0 }, /* ec */ { Cache_UNKNOWN, 0 }, /* ed */ { Cache_UNKNOWN, 0 }, /* ee */ { Cache_UNKNOWN, 0 }, /* ef */ { Cache_UNKNOWN, 0 }, /* f0 */ { Cache_UNKNOWN, 0 }, /* f1 */ { Cache_UNKNOWN, 0 }, /* f2 */ { Cache_UNKNOWN, 0 }, /* f3 */ { Cache_UNKNOWN, 0 }, /* f4 */ { Cache_UNKNOWN, 0 }, /* f5 */ { Cache_UNKNOWN, 0 }, /* f6 */ { Cache_UNKNOWN, 0 }, /* f7 */ { Cache_UNKNOWN, 0 }, /* f8 */ { Cache_UNKNOWN, 0 }, /* f9 */ { Cache_UNKNOWN, 0 }, /* fa */ { Cache_UNKNOWN, 0 }, /* fb */ { Cache_UNKNOWN, 0 }, /* fc */ { Cache_UNKNOWN, 0 }, /* fd */ { Cache_UNKNOWN, 0 }, /* fe */ { Cache_UNKNOWN, 0 }, /* ff */ { Cache_UNKNOWN, 0 } }; /* * use the above table to determine the CacheEntryLineSize. */ static void getIntelCacheEntryLineSize(unsigned long val, int *level, unsigned long *lineSize) { CacheType type; type = CacheMap[val].type; /* only interested in data caches */ /* NOTE val = 0x40 is a special value that means no L2 or L3 cache. * this data check has the side effect of rejecting that entry. If * that wasn't the case, we could have to reject it explicitly */ if (CacheMap[val].lineSize == 0) { return; } /* look at the caches, skip types we aren't interested in. * if we already have a value for a lower level cache, skip the * current entry */ if ((type == Cache_L1) || (type == Cache_L1d)) { *level = 1; *lineSize = CacheMap[val].lineSize; } else if ((*level >= 2) && ((type == Cache_L2) || (type == Cache_L2d))) { *level = 2; *lineSize = CacheMap[val].lineSize; } else if ((*level >= 3) && ((type == Cache_L3) || (type == Cache_L3d))) { *level = 3; *lineSize = CacheMap[val].lineSize; } return; } static void getIntelRegisterCacheLineSize(unsigned long val, int *level, unsigned long *lineSize) { getIntelCacheEntryLineSize(val >> 24 & 0xff, level, lineSize); getIntelCacheEntryLineSize(val >> 16 & 0xff, level, lineSize); getIntelCacheEntryLineSize(val >> 8 & 0xff, level, lineSize); getIntelCacheEntryLineSize(val & 0xff, level, lineSize); } /* * returns '0' if no recognized cache is found, or if the cache * information is supported by this processor */ static unsigned long getIntelCacheLineSize(int cpuidLevel) { int level = 4; unsigned long lineSize = 0; unsigned long eax, ebx, ecx, edx; int repeat, count; if (cpuidLevel < 2) { return 0; } /* command '2' of the cpuid is intel's cache info call. Each byte of the * 4 registers contain a potential descriptor for the cache. The CacheMap * table maps the cache entry with the processor cache. Register 'al' * contains a count value that cpuid '2' needs to be called in order to * find all the cache descriptors. Only registers with the high bit set * to 'zero' have valid descriptors. This code loops through all the * required calls to cpuid '2' and passes any valid descriptors it finds * to the getIntelRegisterCacheLineSize code, which breaks the registers * down into their component descriptors. In the end the lineSize of the * lowest level cache data cache is returned. */ freebl_cpuid(2, &eax, &ebx, &ecx, &edx); repeat = eax & 0xf; for (count = 0; count < repeat; count++) { if ((eax & 0x80000000) == 0) { getIntelRegisterCacheLineSize(eax & 0xffffff00, &level, &lineSize); } if ((ebx & 0x80000000) == 0) { getIntelRegisterCacheLineSize(ebx, &level, &lineSize); } if ((ecx & 0x80000000) == 0) { getIntelRegisterCacheLineSize(ecx, &level, &lineSize); } if ((edx & 0x80000000) == 0) { getIntelRegisterCacheLineSize(edx, &level, &lineSize); } if (count + 1 != repeat) { freebl_cpuid(2, &eax, &ebx, &ecx, &edx); } } return lineSize; } /* * returns '0' if the cache info is not supported by this processor. * This is based on the AMD extended cache commands for cpuid. * (see "AMD Processor Recognition Application Note" Publication 20734). * Some other processors use the identical scheme. * (see "Processor Recognition, Transmeta Corporation"). */ static unsigned long getOtherCacheLineSize(unsigned long cpuidLevel) { unsigned long lineSize = 0; unsigned long eax, ebx, ecx, edx; /* get the Extended CPUID level */ freebl_cpuid(0x80000000, &eax, &ebx, &ecx, &edx); cpuidLevel = eax; if (cpuidLevel >= 0x80000005) { freebl_cpuid(0x80000005, &eax, &ebx, &ecx, &edx); lineSize = ecx & 0xff; /* line Size, L1 Data Cache */ } return lineSize; } static const char *const manMap[] = { #define INTEL 0 "GenuineIntel", #define AMD 1 "AuthenticAMD", #define CYRIX 2 "CyrixInstead", #define CENTAUR 2 "CentaurHauls", #define NEXGEN 3 "NexGenDriven", #define TRANSMETA 4 "GenuineTMx86", #define RISE 5 "RiseRiseRise", #define UMC 6 "UMC UMC UMC ", #define SIS 7 "Sis Sis Sis ", #define NATIONAL 8 "Geode by NSC", }; static const int n_manufacturers = sizeof(manMap) / sizeof(manMap[0]); #define MAN_UNKNOWN 9 #if !defined(AMD_64) #define SSE2_FLAG (1 << 26) unsigned long s_mpi_is_sse2() { unsigned long eax, ebx, ecx, edx; if (is386() || is486()) { return 0; } freebl_cpuid(0, &eax, &ebx, &ecx, &edx); /* has no SSE2 extensions */ if (eax == 0) { return 0; } freebl_cpuid(1, &eax, &ebx, &ecx, &edx); return (edx & SSE2_FLAG) == SSE2_FLAG; } #endif unsigned long s_mpi_getProcessorLineSize() { unsigned long eax, ebx, ecx, edx; PRUint32 cpuid[3]; unsigned long cpuidLevel; unsigned long cacheLineSize = 0; int manufacturer = MAN_UNKNOWN; int i; char string[13]; #if !defined(AMD_64) if (is386()) { return 0; /* 386 had no cache */ } if (is486()) { return 32; /* really? need more info */ } #endif /* Pentium, cpuid command is available */ freebl_cpuid(0, &eax, &ebx, &ecx, &edx); cpuidLevel = eax; /* string holds the CPU's manufacturer ID string - a twelve * character ASCII string stored in ebx, edx, ecx, and * the 32-bit extended feature flags are in edx, ecx. */ cpuid[0] = ebx; cpuid[1] = ecx; cpuid[2] = edx; memcpy(string, cpuid, sizeof(cpuid)); string[12] = 0; manufacturer = MAN_UNKNOWN; for (i = 0; i < n_manufacturers; i++) { if (strcmp(manMap[i], string) == 0) { manufacturer = i; } } if (manufacturer == INTEL) { cacheLineSize = getIntelCacheLineSize(cpuidLevel); } else { cacheLineSize = getOtherCacheLineSize(cpuidLevel); } /* doesn't support cache info based on cpuid. This means * an old pentium class processor, which have cache lines of * 32. If we learn differently, we can use a switch based on * the Manufacturer id */ if (cacheLineSize == 0) { cacheLineSize = 32; } return cacheLineSize; } #define MPI_GET_PROCESSOR_LINE_SIZE_DEFINED 1 #endif #if defined(__ppc64__) /* * Sigh, The PPC has some really nice features to help us determine cache * size, since it had lots of direct control functions to do so. The POWER * processor even has an instruction to do this, but it was dropped in * PowerPC. Unfortunately most of them are not available in user mode. * * The dcbz function would be a great way to determine cache line size except * 1) it only works on write-back memory (it throws an exception otherwise), * and 2) because so many mac programs 'knew' the processor cache size was * 32 bytes, they used this instruction as a fast 'zero 32 bytes'. Now the new * G5 processor has 128 byte cache, but dcbz only clears 32 bytes to keep * these programs happy. dcbzl work if 64 bit instructions are supported. * If you know 64 bit instructions are supported, and that stack is * write-back, you can use this code. */ #include "memory.h" /* clear the cache line that contains 'array' */ static inline void dcbzl(char *array) { register char *a asm("r2") = array; __asm__ __volatile__("dcbzl %0,r0" : "=r"(a) : "0"(a)); } #define PPC_DO_ALIGN(x, y) ((char *)((((long long)(x)) + ((y)-1)) & ~((y)-1))) #define PPC_MAX_LINE_SIZE 256 unsigned long s_mpi_getProcessorLineSize() { char testArray[2 * PPC_MAX_LINE_SIZE + 1]; char *test; int i; /* align the array on a maximum line size boundary, so we * know we are starting to clear from the first address */ test = PPC_DO_ALIGN(testArray, PPC_MAX_LINE_SIZE); /* set all the values to 1's */ memset(test, 0xff, PPC_MAX_LINE_SIZE); /* clear one cache block starting at 'test' */ dcbzl(test); /* find the size of the cleared area, that's our block size */ for (i = PPC_MAX_LINE_SIZE; i != 0; i = i / 2) { if (test[i - 1] == 0) { return i; } } return 0; } #define MPI_GET_PROCESSOR_LINE_SIZE_DEFINED 1 #endif /* * put other processor and platform specific cache code here * return the smallest cache line size in bytes on the processor * (usually the L1 cache). If the OS has a call, this would be * a greate place to put it. * * If there is no cache, return 0; * * define MPI_GET_PROCESSOR_LINE_SIZE_DEFINED so the generic functions * below aren't compiled. * */ /* target.mk can define MPI_CACHE_LINE_SIZE if it's common for the family or * OS */ #if defined(MPI_CACHE_LINE_SIZE) && !defined(MPI_GET_PROCESSOR_LINE_SIZE_DEFINED) unsigned long s_mpi_getProcessorLineSize() { return MPI_CACHE_LINE_SIZE; } #define MPI_GET_PROCESSOR_LINE_SIZE_DEFINED 1 #endif /* If no way to get the processor cache line size has been defined, assume * it's 32 bytes (most common value, does not significantly impact performance) */ #ifndef MPI_GET_PROCESSOR_LINE_SIZE_DEFINED unsigned long s_mpi_getProcessorLineSize() { return 32; } #endif #ifdef TEST_IT #include main() { printf("line size = %d\n", s_mpi_getProcessorLineSize()); } #endif