/* * CPU detetion based on DMI decode rev 1.2 * * (C) 2003 Nicolas Planel * * Licensed under the GNU Public license. If you want to use it in with * another license just ask. */ #include #include #include #include #include #include typedef unsigned char u8; typedef unsigned short u16; typedef unsigned int u32; static void dump_raw_data(void *data, unsigned int length) { unsigned char buffer1[80], buffer2[80], *b1, *b2, c; unsigned char *p = data; unsigned long column=0; unsigned int length_printed = 0; const unsigned char maxcolumn = 16; while (length_printed < length) { b1 = buffer1; b2 = buffer2; for (column = 0; column < maxcolumn && length_printed < length; column ++) { b1 += sprintf(b1, "%02x ",(unsigned int) *p); if (*p < 32 || *p > 126) c = '.'; else c = *p; b2 += sprintf(b2, "%c", c); p++; length_printed++; } /* pad out the line */ for (; column < maxcolumn; column++) { b1 += sprintf(b1, " "); b2 += sprintf(b2, " "); } printf("%s\t%s\n", buffer1, buffer2); } } #define DEFAULT_MEM_DEV "/dev/mem" void *mem_chunk(u32 base, u32 len, const char *devmem) { void *p; int fd; off_t mmoffset; void *mmp; if ((fd = open(devmem, O_RDONLY)) < 0) return NULL; if ((p = malloc(len)) == NULL) return NULL; mmoffset = base % getpagesize(); mmp = mmap(0, mmoffset + len, PROT_READ, MAP_SHARED, fd, base - mmoffset); if (mmp == MAP_FAILED) { free(p); return NULL; } memcpy(p, (u8 *)mmp + mmoffset, len); munmap(mmp, mmoffset + len); close(fd); return p; } struct dmi_header { u8 type; u8 length; u16 handle; }; static char *dmi_string(struct dmi_header *dm, u8 s) { u8 *bp=(u8 *)dm; if (!s) return ""; bp+=dm->length; while(s>1) { bp+=strlen(bp); bp++; s--; } return bp; } static char *dmi_processor_type(u8 code) { static char *processor_type[]={ "", "Other", "Unknown", "Central Processor", "Math Processor", "DSP Processor", "Video Processor" }; if(code == 0xFF) return "Other"; if (code > 0xA1) return ""; return processor_type[code]; } static char *dmi_processor_family(u8 code) { static char *processor_family[]={ "", "Other", "Unknown", "8086", "80286", "Intel386 processor", "Intel486 processor", "8087", "80287", "80387", "80487", "Pentium processor Family", "Pentium Pro processor", "Pentium II processor", "Pentium processor with MMX technology", "Celeron processor", "Pentium II Xeon processor", "Pentium III processor", "M1 Family", "M1","M1","M1","M1","M1","M1", /* 13h - 18h */ "K5 Family", "K5","K5","K5","K5","K5","K5", /* 1Ah - 1Fh */ "Power PC Family", "Power PC 601", "Power PC 603", "Power PC 603+", "Power PC 604", }; if(code == 0xFF) return "Other"; if (code > 0x24) return ""; return processor_family[code]; } typedef int (*dmi_decode)(u8 * data); static int decode_handle(u32 base, int len, int num, dmi_decode decode) { u8 *buf; u8 *data; int i = 0; int ret = 0; if ((buf = mem_chunk(base, len, DEFAULT_MEM_DEV)) == NULL) return 0; data = buf; while(ilength; while(next-buf+1type == 4) && /*"Central Processor"*/(data[5] == 3)) { if(/*Processor Manufacturer*/data[7] != 0 && /*Populated*/(data[0x18] & (1 << 6))) return 1; } return 0; } static int memory_in_MB_type6(u8 *data) { struct dmi_header *dm; int dmi_memory_module_size(u8 code) { /* 3.3.7.2 */ switch(code&0x7F) { case 0x7D: /* Not Determinable */ case 0x7E: /* Disabled */ case 0x7F: /* Not Installed */ break; default: return 1<<(code&0x7F); } return 0; } dm = (struct dmi_header *)data; if ((dm->type == 6) && (dm->length >= 0xC)) return dmi_memory_module_size(data[0x0A]); /* Enabled Size */ return 0; } static int memory_in_MB_type17(u8 *data) { struct dmi_header *dm; int form_factor_check(u8 code) { /* 3.3.18.1 */ static const char form_factor[]={ 0, /* "Other", */ /* 0x01 */ 0, /* "Unknown", */ 1, /* "SIMM", */ 1, /* "SIP", */ 0, /* "Chip", */ 1, /* "DIP", */ 0, /* "ZIP", */ 0, /* "Proprietary Card", */ 1, /* "DIMM", */ 0, /* "TSOP", */ 0, /* "Row Of Chips", */ 1, /* "RIMM", */ 1, /* "SODIMM", */ 1, /* "SRIMM" *//* 0x0E */ }; if(code>=0x01 && code<=0x0E) return form_factor[code-0x01]; return 0; /* out of spec */ } int dmi_memory_device_size(u16 code) { int mult = 1; if (code == 0 || code == 0xFFFF) return 0; if (code & 0x8000) /* code is in KB */ mult = 1024; return (code & 0x7FFF) * mult; } dm = (struct dmi_header *)data; if ((dm->type == 17) && (dm->length >= 0x15)) { if (form_factor_check(data[0x0E])) return dmi_memory_device_size((data[0x0D] << 8) + data[0x0C]); } return 0; } int intelDetectSMP(void) { return dmi_detect(processor) > 1; } int dmiDetectMemory(void) { int s1 = dmi_detect(memory_in_MB_type6); int s2 = dmi_detect(memory_in_MB_type17); return s1 > s2 ? s1 : s2; } #ifdef TEST int main(void) { printf("Memory Size: %d MB\n", dmiDetectMemory()); } #endif