diff options
Diffstat (limited to 'arch/linux/x86/processor.h')
| -rw-r--r-- | arch/linux/x86/processor.h | 461 |
1 files changed, 264 insertions, 197 deletions
diff --git a/arch/linux/x86/processor.h b/arch/linux/x86/processor.h index aba623bf..918bac7c 100644 --- a/arch/linux/x86/processor.h +++ b/arch/linux/x86/processor.h @@ -16,138 +16,161 @@ * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */ +struct _Processor { + gchar *model_name; + gchar *vendor_id; + gchar *flags; + gint cache_size; + gfloat bogomips, cpu_mhz; + + gchar *has_fpu; + gchar *bug_fdiv, *bug_hlt, *bug_f00f, *bug_coma; + + gint model, family, stepping; + gchar *strmodel; + + gint id; +}; + /* * This function is partly based on x86cpucaps * by Osamu Kayasono <jacobi@jcom.home.ne.jp> - */ -static void -get_processor_strfamily(Processor *processor) + */ +static void get_processor_strfamily(Processor * processor) { gint family = processor->family; gint model = processor->model; if (g_str_equal(processor->vendor_id, "GenuineIntel")) { - if (family == 4) { - processor->strmodel = g_strdup("i486 series"); - } else if (family == 5) { - if (model < 4) { - processor->strmodel = g_strdup("Pentium Classic"); - } else { - processor->strmodel = g_strdup("Pentium MMX"); - } - } else if (family == 6) { - if (model <= 1) { - processor->strmodel = g_strdup("Pentium Pro"); - } else if (model < 7) { - processor->strmodel = g_strdup("Pentium II/Pentium II Xeon/Celeron"); - } else if (model == 9) { - processor->strmodel = g_strdup("Pentium M"); - } else { - processor->strmodel = g_strdup("Pentium III/Pentium III Xeon/Celeron"); - } - } else if (family > 6) { - processor->strmodel = g_strdup("Pentium 4"); - } else { - processor->strmodel = g_strdup("i386 class"); - } + if (family == 4) { + processor->strmodel = g_strdup("i486 series"); + } else if (family == 5) { + if (model < 4) { + processor->strmodel = g_strdup("Pentium Classic"); + } else { + processor->strmodel = g_strdup("Pentium MMX"); + } + } else if (family == 6) { + if (model <= 1) { + processor->strmodel = g_strdup("Pentium Pro"); + } else if (model < 7) { + processor->strmodel = g_strdup("Pentium II/Pentium II Xeon/Celeron"); + } else if (model == 9) { + processor->strmodel = g_strdup("Pentium M"); + } else { + processor->strmodel = g_strdup("Pentium III/Pentium III Xeon/Celeron"); + } + } else if (family > 6) { + processor->strmodel = g_strdup("Pentium 4"); + } else { + processor->strmodel = g_strdup("i386 class"); + } } else if (g_str_equal(processor->vendor_id, "AuthenticAMD")) { - if (family == 4) { - if (model <= 9) { - processor->strmodel = g_strdup("AMD i80486 series"); - } else { - processor->strmodel = g_strdup("AMD 5x86"); - } - } else if (family == 5) { - if (model <= 3) { - processor->strmodel = g_strdup("AMD K5"); - } else if (model <= 7) { - processor->strmodel = g_strdup("AMD K6"); - } else if (model == 8) { - processor->strmodel = g_strdup("AMD K6-2"); - } else if (model == 9) { - processor->strmodel = g_strdup("AMD K6-III"); - } else { - processor->strmodel = g_strdup("AMD K6-2+/III+"); - } - } else if (family == 6) { - if (model == 1) { - processor->strmodel = g_strdup("AMD Athlon (K7"); - } else if (model == 2) { - processor->strmodel = g_strdup("AMD Athlon (K75)"); - } else if (model == 3) { - processor->strmodel = g_strdup("AMD Duron (Spitfire)"); - } else if (model == 4) { - processor->strmodel = g_strdup("AMD Athlon (Thunderbird)"); - } else if (model == 6) { - processor->strmodel = g_strdup("AMD Athlon XP/MP/4 (Palomino)"); - } else if (model == 7) { - processor->strmodel = g_strdup("AMD Duron (Morgan)"); - } else if (model == 8) { - processor->strmodel = g_strdup("AMD Athlon XP/MP (Thoroughbred)"); - } else if (model == 10) { - processor->strmodel = g_strdup("AMD Athlon XP/MP (Barton)"); - } else { - processor->strmodel = g_strdup("AMD Athlon (unknown)"); - } - } else if (family > 6) { - processor->strmodel = g_strdup("AMD Opteron/Athlon64/FX"); - } else { - processor->strmodel = g_strdup("AMD i386 class"); - } + if (family == 4) { + if (model <= 9) { + processor->strmodel = g_strdup("AMD i80486 series"); + } else { + processor->strmodel = g_strdup("AMD 5x86"); + } + } else if (family == 5) { + if (model <= 3) { + processor->strmodel = g_strdup("AMD K5"); + } else if (model <= 7) { + processor->strmodel = g_strdup("AMD K6"); + } else if (model == 8) { + processor->strmodel = g_strdup("AMD K6-2"); + } else if (model == 9) { + processor->strmodel = g_strdup("AMD K6-III"); + } else { + processor->strmodel = g_strdup("AMD K6-2+/III+"); + } + } else if (family == 6) { + if (model == 1) { + processor->strmodel = g_strdup("AMD Athlon (K7)"); + } else if (model == 2) { + processor->strmodel = g_strdup("AMD Athlon (K75)"); + } else if (model == 3) { + processor->strmodel = g_strdup("AMD Duron (Spitfire)"); + } else if (model == 4) { + processor->strmodel = g_strdup("AMD Athlon (Thunderbird)"); + } else if (model == 6) { + processor->strmodel = g_strdup("AMD Athlon XP/MP/4 (Palomino)"); + } else if (model == 7) { + processor->strmodel = g_strdup("AMD Duron (Morgan)"); + } else if (model == 8) { + processor->strmodel = g_strdup("AMD Athlon XP/MP (Thoroughbred)"); + } else if (model == 10) { + processor->strmodel = g_strdup("AMD Athlon XP/MP (Barton)"); + } else { + processor->strmodel = g_strdup("AMD Athlon (unknown)"); + } + } else if (family > 6) { + processor->strmodel = g_strdup("AMD Opteron/Athlon64/FX"); + } else { + processor->strmodel = g_strdup("AMD i386 class"); + } } else if (g_str_equal(processor->vendor_id, "CyrixInstead")) { - if (family == 4) { - processor->strmodel = g_strdup("Cyrix 5x86"); - } else if (family == 5) { - processor->strmodel = g_strdup("Cyrix M1 (6x86)"); - } else if (family == 6) { - if (model == 0) { - processor->strmodel = g_strdup("Cyrix M2 (6x86MX)"); - } else if (model <= 5) { - processor->strmodel = g_strdup("VIA Cyrix III (M2 core)"); - } else if (model == 6) { - processor->strmodel = g_strdup("VIA Cyrix III (WinChip C5A)"); - } else if (model == 7) { - processor->strmodel = g_strdup("VIA Cyrix III (WinChip C5B/C)"); - } else { - processor->strmodel = g_strdup("VIA Cyrix III (WinChip C5C-T)"); - } - } else { - processor->strmodel = g_strdup("Cyrix i386 class"); - } + if (family == 4) { + processor->strmodel = g_strdup("Cyrix 5x86"); + } else if (family == 5) { + processor->strmodel = g_strdup("Cyrix M1 (6x86)"); + } else if (family == 6) { + if (model == 0) { + processor->strmodel = g_strdup("Cyrix M2 (6x86MX)"); + } else if (model <= 5) { + processor->strmodel = g_strdup("VIA Cyrix III (M2 core)"); + } else if (model == 6) { + processor->strmodel = g_strdup("VIA Cyrix III (WinChip C5A)"); + } else if (model == 7) { + processor->strmodel = g_strdup("VIA Cyrix III (WinChip C5B/C)"); + } else { + processor->strmodel = g_strdup("VIA Cyrix III (WinChip C5C-T)"); + } + } else { + processor->strmodel = g_strdup("Cyrix i386 class"); + } } else if (g_str_equal(processor->vendor_id, "CentaurHauls")) { - if (family == 5) { - if (model <= 4) { - processor->strmodel = g_strdup("Centaur WinChip C6"); - } else if (model <= 8) { - processor->strmodel = g_strdup("Centaur WinChip 2"); - } else { - processor->strmodel = g_strdup("Centaur WinChip 2A"); - } - } else { - processor->strmodel = g_strdup("Centaur i386 class"); - } + if (family == 5) { + if (model <= 4) { + processor->strmodel = g_strdup("Centaur WinChip C6"); + } else if (model <= 8) { + processor->strmodel = g_strdup("Centaur WinChip 2"); + } else { + processor->strmodel = g_strdup("Centaur WinChip 2A"); + } + } else { + processor->strmodel = g_strdup("Centaur i386 class"); + } } else if (g_str_equal(processor->vendor_id, "GenuineTMx86")) { - processor->strmodel = g_strdup("Transmeta Crusoe TM3x00/5x00"); + processor->strmodel = g_strdup("Transmeta Crusoe TM3x00/5x00"); } else { - processor->strmodel = g_strdup("Unknown"); + processor->strmodel = g_strdup("Unknown"); } } -static Processor * -computer_get_processor(void) +static GSList *__scan_processors(void) { - Processor *processor; + GSList *procs = NULL; + Processor *processor = NULL; FILE *cpuinfo; - gchar buffer[128]; + gchar buffer[256]; cpuinfo = fopen("/proc/cpuinfo", "r"); if (!cpuinfo) return NULL; - processor = g_new0(Processor, 1); - while (fgets(buffer, 128, cpuinfo)) { + while (fgets(buffer, 256, cpuinfo)) { gchar **tmp = g_strsplit(buffer, ":", 2); + if (g_str_has_prefix(tmp[0], "processor")) { + if (processor) { + get_processor_strfamily(processor); + procs = g_slist_append(procs, processor); + } + + processor = g_new0(Processor, 1); + } + if (tmp[0] && tmp[1]) { tmp[0] = g_strstrip(tmp[0]); tmp[1] = g_strstrip(tmp[1]); @@ -165,74 +188,81 @@ computer_get_processor(void) get_str("hlt_bug", processor->bug_hlt); get_str("f00f_bug", processor->bug_f00f); get_str("coma_bug", processor->bug_coma); - + get_int("model", processor->model); get_int("cpu family", processor->family); get_int("stepping", processor->stepping); + + get_int("processor", processor->id); } g_strfreev(tmp); } - get_processor_strfamily(processor); + if (processor) { + get_processor_strfamily(processor); + procs = g_slist_append(procs, processor); + } fclose(cpuinfo); - return processor; + return procs; } static struct { char *name, *meaning; } flag_meaning[] = { - { "3dnow", "3DNow! Technology" }, - { "3dnowext", "Extended 3DNow! Technology" }, - { "fpu", "Floating Point Unit" }, - { "vme", "Virtual 86 Mode Extension" }, - { "de", "Debug Extensions - I/O breakpoints" }, - { "pse", "Page Size Extensions (4MB pages)" }, - { "tsc", "Time Stamp Counter and RDTSC instruction" }, - { "msr", "Model Specific Registers" }, - { "pae", "Physical Address Extensions (36-bit address, 2MB pages)" }, - { "mce", "Machine Check Architeture" }, - { "cx8", "CMPXCHG8 instruction" }, - { "apic", "Advanced Programmable Interrupt Controller" }, - { "sep", "Fast System Call (SYSENTER/SYSEXIT instructions)" }, - { "mtrr", "Memory Type Range Registers" }, - { "pge", "Page Global Enable" }, - { "mca", "Machine Check Architecture" }, - { "cmov", "Conditional Move instruction" }, - { "pat", "Page Attribute Table" }, - { "pse36", "36bit Page Size Extensions" }, - { "psn", "96 bit Processor Serial Number" }, - { "mmx", "MMX technology" }, - { "mmxext", "Extended MMX Technology" }, - { "cflush", "Cache Flush" }, - { "dtes", "Debug Trace Store" }, - { "fxsr", "FXSAVE and FXRSTOR instructions" }, - { "kni", "Streaming SIMD instructions" }, - { "xmm", "Streaming SIMD instructions" }, - { "ht", "HyperThreading" }, - { "mp", "Multiprocessing Capable" }, - { "sse", "SSE instructions" }, - { "sse2", "SSE2 (WNI) instructions" }, - { "acc", "Automatic Clock Control" }, - { "ia64", "IA64 Instructions" }, - { "syscall", "SYSCALL and SYSEXIT instructions" }, - { "nx", "No-execute Page Protection" }, - { "xd", "Execute Disable" }, - { "clflush", "Cache Line Flush instruction" }, - { "acpi", "Thermal Monitor and Software Controlled Clock Facilities" }, - { "dts", "Debug Store" }, - { "ss", "Self Snoop" }, - { "tm", "Thermal Monitor" }, - { "pbe", "Pending Break Enable" }, - { "pb", "Pending Break Enable" }, - { NULL, NULL} + { "3dnow", "3DNow! Technology" }, + { "3dnowext", "Extended 3DNow! Technology" }, + { "fpu", "Floating Point Unit" }, + { "vme", "Virtual 86 Mode Extension" }, + { "de", "Debug Extensions - I/O breakpoints" }, + { "pse", "Page Size Extensions (4MB pages)" }, + { "tsc", "Time Stamp Counter and RDTSC instruction" }, + { "msr", "Model Specific Registers" }, + { "pae", "Physical Address Extensions" }, + { "mce", "Machine Check Architeture" }, + { "cx8", "CMPXCHG8 instruction" }, + { "apic", "Advanced Programmable Interrupt Controller" }, + { "sep", "Fast System Call (SYSENTER/SYSEXIT)" }, + { "mtrr", "Memory Type Range Registers" }, + { "pge", "Page Global Enable" }, + { "mca", "Machine Check Architecture" }, + { "cmov", "Conditional Move instruction" }, + { "pat", "Page Attribute Table" }, + { "pse36", "36bit Page Size Extensions" }, + { "psn", "96 bit Processor Serial Number" }, + { "mmx", "MMX technology" }, + { "mmxext", "Extended MMX Technology" }, + { "cflush", "Cache Flush" }, + { "dtes", "Debug Trace Store" }, + { "fxsr", "FXSAVE and FXRSTOR instructions" }, + { "kni", "Streaming SIMD instructions" }, + { "xmm", "Streaming SIMD instructions" }, + { "ht", "HyperThreading" }, + { "mp", "Multiprocessing Capable" }, + { "sse", "SSE instructions" }, + { "sse2", "SSE2 (WNI) instructions" }, + { "acc", "Automatic Clock Control" }, + { "ia64", "IA64 Instructions" }, + { "syscall", "SYSCALL and SYSEXIT instructions" }, + { "nx", "No-execute Page Protection" }, + { "xd", "Execute Disable" }, + { "clflush", "Cache Line Flush instruction" }, + { "acpi", "Thermal Monitor and Software Controlled Clock" }, + { "dts", "Debug Store" }, + { "ss", "Self Snoop" }, + { "tm", "Thermal Monitor" }, + { "pbe", "Pending Break Enable" }, + { "pb", "Pending Break Enable" }, + { NULL, NULL }, }; -gchar * -processor_get_capabilities_from_flags(gchar * strflags) +gchar *processor_get_capabilities_from_flags(gchar * strflags) { - /* FIXME: * Separate between processor capabilities, additional instructions and whatnot. */ + /* FIXME: + * - Separate between processor capabilities, additional instructions and whatnot. + * - Use binary search or something faster than this O(n) cruft + */ gchar **flags, **old; gchar *tmp = ""; gint i, j = 0; @@ -243,7 +273,7 @@ processor_get_capabilities_from_flags(gchar * strflags) while (flags[j]) { gchar *meaning = ""; for (i = 0; flag_meaning[i].name != NULL; i++) { - if (!strcmp(flags[j], flag_meaning[i].name)) { + if (g_str_equal(flags[j], flag_meaning[i].name)) { meaning = flag_meaning[i].meaning; break; } @@ -257,47 +287,84 @@ processor_get_capabilities_from_flags(gchar * strflags) return tmp; } -static gchar * -processor_get_info(Processor *processor) +static gchar *processor_get_detailed_info(Processor * processor) { - gchar *tmp = processor_get_capabilities_from_flags(processor-> - flags); - gchar *ret = g_strdup_printf("[Processor]\n" - "Name=%s\n" - "Specification=%s\n" - "Family, model, stepping=%d, %d, %d\n" - "Vendor=%s\n" - "Cache Size=%dkb\n" - "Frequency=%.2fMHz\n" - "BogoMips=%.2f\n" - "Byte Order=%s\n" - "[Features]\n" - "FDIV Bug=%s\n" - "HLT Bug=%s\n" - "F00F Bug=%s\n" - "Coma Bug=%s\n" - "Has FPU=%s\n" - "[Capabilities]\n" "%s", - processor->strmodel, - processor->model_name, - processor->family, - processor->model, - processor->stepping, - processor->vendor_id, - processor->cache_size, - processor->cpu_mhz, - processor->bogomips, + gchar *tmp, *ret; + + tmp = processor_get_capabilities_from_flags(processor->flags); + ret = g_strdup_printf("[Processor]\n" + "Name=%s\n" + "Family, model, stepping=%d, %d, %d (%s)\n" + "Vendor=%s\n" + "[Configuration]\n" + "Cache Size=%dkb\n" + "Frequency=%.2fMHz\n" + "BogoMIPS=%.2f\n" + "Byte Order=%s\n" + "[Features]\n" + "FDIV Bug=%s\n" + "HLT Bug=%s\n" + "F00F Bug=%s\n" + "Coma Bug=%s\n" + "Has FPU=%s\n" + "[Capabilities]\n" + "%s", + processor->model_name, + processor->family, + processor->model, + processor->stepping, + processor->strmodel, + vendor_get_name(processor->vendor_id), + processor->cache_size, + processor->cpu_mhz, processor->bogomips, #if G_BYTE_ORDER == G_LITTLE_ENDIAN - "Little Endian", + "Little Endian", #else - "Big Endian", + "Big Endian", #endif - processor->bug_fdiv, - processor->bug_hlt, - processor->bug_f00f, - processor->bug_coma, - processor->has_fpu, - tmp); - g_free(tmp); - return ret; + processor->bug_fdiv ? processor->bug_fdiv : "yes", + processor->bug_hlt ? processor->bug_hlt : "yes", + processor->bug_f00f ? processor->bug_f00f : "yes", + processor->bug_coma ? processor->bug_coma : "yes", + processor->has_fpu ? processor->has_fpu : "no", + tmp); + g_free(tmp); + return ret; + +} + +static gchar *processor_get_info(GSList * processors) +{ + Processor *processor; + + if (g_slist_length(processors) > 1) { + gchar *ret, *tmp, *hashkey; + GSList *l; + + tmp = g_strdup(""); + + for (l = processors; l; l = l->next) { + processor = (Processor *) l->data; + + tmp = g_strdup_printf("%s$CPU%d$%s=%.2fMHz\n", + tmp, processor->id, + processor->model_name, + processor->cpu_mhz); + + hashkey = g_strdup_printf("CPU%d", processor->id); + g_hash_table_insert(moreinfo, hashkey, + processor_get_detailed_info(processor)); + } + + ret = g_strdup_printf("[$ShellParam$]\n" + "ViewType=1\n" + "[Processors]\n" + "%s", tmp); + g_free(tmp); + + return ret; + } + + processor = (Processor *) processors->data; + return processor_get_detailed_info(processor); } |