/* ----------------------------------------------------------------------- * * * Copyright 2009 Erwan Velu - All Rights Reserved * * Permission is hereby granted, free of charge, to any person * obtaining a copy of this software and associated documentation * files (the "Software"), to deal in the Software without * restriction, including without limitation the rights to use, * copy, modify, merge, publish, distribute, sublicense, and/or * sell copies of the Software, and to permit persons to whom * the Software is furnished to do so, subject to the following * conditions: * * The above copyright notice and this permission notice shall * be included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT * HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, * WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR * OTHER DEALINGS IN THE SOFTWARE. * * ----------------------------------------------------------------------- */ #include #include #include #include #include "hdt-cli.h" #include "hdt-common.h" void main_show_cpu(int argc __unused, char **argv __unused, struct s_hardware *hardware) { char features[81]; /* We know the total number of logical cores and we * know the number of cores of the first CPU. Let's consider * the system as symetrical, and so compute the number of * physical CPUs. This is only possible if ACPI is present */ if (hardware->acpi.madt.processor_local_apic_count > 0) { more_printf("CPU (%d logical / %d phys)\n", hardware->acpi.madt.processor_local_apic_count, hardware->physical_cpu_count); } else more_printf("CPU\n"); more_printf(" Manufacturer : %s \n", hardware->cpu.vendor); more_printf(" Product : %s \n", hardware->cpu.model); more_printf(" CPU Cores : %d \n", hardware->cpu.num_cores); if (hardware->dmi.processor.thread_count != 0) more_printf(" CPU Threads : %d \n", hardware->dmi.processor.thread_count); more_printf(" L2 Cache : %dK\n", hardware->cpu.l2_cache_size); memset(features, 0, sizeof(features)); snprintf(features, sizeof(features), " Features : %d Mhz : ", hardware->dmi.processor.current_speed); if (hardware->cpu.flags.lm) strcat(features, "x86_64 64bit "); else strcat(features, "x86 32bit "); if (hardware->cpu.flags.smp) strcat(features, "SMP "); /* This CPU is featuring Intel or AMD Virtualisation Technology */ if (hardware->cpu.flags.vmx || hardware->cpu.flags.svm) strcat(features, "HwVIRT "); more_printf("%s\n", features); } /* Let's compute the cpu flags display * We have to maximize the number of flags per line */ static void show_flag(char *buffer, bool flag, char *flag_name, bool flush) { char output_buffer[81]; /* Flush is only set when no more flags are present * When it's set, or if the line is complete, * we have to end the string computation and display the line. * Before adding the flag into the buffer, let's check that adding it * will not overflow the rendering.*/ if ((((strlen(buffer) + strlen(flag_name)) > 66) && flag) || flush) { snprintf(output_buffer, sizeof output_buffer, "Flags : %s\n", buffer); more_printf("%s", output_buffer); memset(buffer, 0, sizeof(buffer)); if (flush) return; } /* Let's add the flag name only if the flag is present */ if (flag) strcat(buffer, flag_name); } static void show_cpu(int argc __unused, char **argv __unused, struct s_hardware *hardware) { char buffer[81]; reset_more_printf(); /* We know the total number of logical cores and we * know the number of cores of the first CPU. Let's consider * the system as symetrical, and so compute the number of * physical CPUs. This is only possible if ACPI is present*/ if (hardware->acpi.madt.processor_local_apic_count > 0) { more_printf("CPU (%d logical / %d phys)\n", hardware->acpi.madt.processor_local_apic_count, hardware->acpi.madt.processor_local_apic_count / hardware->cpu.num_cores); } else more_printf("CPU\n"); more_printf("Vendor : %s\n", hardware->cpu.vendor); more_printf("Model : %s\n", hardware->cpu.model); more_printf("CPU Cores : %d\n", hardware->cpu.num_cores); if (hardware->dmi.processor.core_enabled != 0) more_printf("CPU Enable: %d\n", hardware->dmi.processor.core_enabled); if (hardware->dmi.processor.thread_count != 0) more_printf("CPU Thread: %d \n", hardware->dmi.processor.thread_count); more_printf("L1 Cache : %dK + %dK (I + D) \n", hardware->cpu.l1_instruction_cache_size, hardware->cpu.l1_data_cache_size); more_printf("L2 Cache : %dK\n", hardware->cpu.l2_cache_size); more_printf("Family ID : %d\n", hardware->cpu.family); more_printf("Model ID : %d\n", hardware->cpu.model_id); more_printf("Stepping : %d\n", hardware->cpu.stepping); if (hardware->is_dmi_valid) { more_printf("FSB : %d MHz\n", hardware->dmi.processor.external_clock); more_printf("Cur. Speed: %d MHz\n", hardware->dmi.processor.current_speed); more_printf("Max Speed : %d MHz\n", hardware->dmi.processor.max_speed); more_printf("Upgrade : %s\n", hardware->dmi.processor.upgrade); more_printf("Voltage : %d.%02d\n", hardware->dmi.processor.voltage_mv / 1000, hardware->dmi.processor.voltage_mv - ((hardware->dmi.processor.voltage_mv / 1000) * 1000)); } if (hardware->cpu.flags.smp) { more_printf("SMP : yes\n"); } else { more_printf("SMP : no\n"); } if (hardware->cpu.flags.lm) { more_printf("x86_64 : yes\n"); } else { more_printf("x86_64 : no\n"); } if (hardware->cpu.flags.vmx || hardware->cpu.flags.svm) { more_printf("HwVirt : yes\n"); } else { more_printf("HwVirt : no\n"); } /* Let's display the supported cpu flags */ memset(buffer, 0, sizeof(buffer)); show_flag(buffer, hardware->cpu.flags.fpu, "fpu ", false); show_flag(buffer, hardware->cpu.flags.vme, "vme ", false); show_flag(buffer, hardware->cpu.flags.de, "de ", false); show_flag(buffer, hardware->cpu.flags.pse, "pse ", false); show_flag(buffer, hardware->cpu.flags.tsc, "tsc ", false); show_flag(buffer, hardware->cpu.flags.msr, "msr ", false); show_flag(buffer, hardware->cpu.flags.pae, "pae ", false); show_flag(buffer, hardware->cpu.flags.mce, "mce ", false); show_flag(buffer, hardware->cpu.flags.cx8, "cx8 ", false); show_flag(buffer, hardware->cpu.flags.apic, "apic ", false); show_flag(buffer, hardware->cpu.flags.sep, "sep ", false); show_flag(buffer, hardware->cpu.flags.mtrr, "mtrr ", false); show_flag(buffer, hardware->cpu.flags.pge, "pge ", false); show_flag(buffer, hardware->cpu.flags.mca, "mca ", false); show_flag(buffer, hardware->cpu.flags.cmov, "cmov ", false); show_flag(buffer, hardware->cpu.flags.pat, "pat ", false); show_flag(buffer, hardware->cpu.flags.pse_36, "pse_36 ", false); show_flag(buffer, hardware->cpu.flags.psn, "psn ", false); show_flag(buffer, hardware->cpu.flags.clflsh, "clflsh ", false); show_flag(buffer, hardware->cpu.flags.dts, "dts ", false); show_flag(buffer, hardware->cpu.flags.acpi, "acpi ", false); show_flag(buffer, hardware->cpu.flags.mmx, "mmx ", false); show_flag(buffer, hardware->cpu.flags.sse, "sse ", false); show_flag(buffer, hardware->cpu.flags.sse2, "sse2 ", false); show_flag(buffer, hardware->cpu.flags.ss, "ss ", false); show_flag(buffer, hardware->cpu.flags.htt, "ht ", false); show_flag(buffer, hardware->cpu.flags.acc, "acc ", false); show_flag(buffer, hardware->cpu.flags.syscall, "syscall ", false); show_flag(buffer, hardware->cpu.flags.mp, "mp ", false); show_flag(buffer, hardware->cpu.flags.nx, "nx ", false); show_flag(buffer, hardware->cpu.flags.mmxext, "mmxext ", false); show_flag(buffer, hardware->cpu.flags.lm, "lm ", false); show_flag(buffer, hardware->cpu.flags.nowext, "3dnowext ", false); show_flag(buffer, hardware->cpu.flags.now, "3dnow! ", false); show_flag(buffer, hardware->cpu.flags.svm, "svm ", false); show_flag(buffer, hardware->cpu.flags.vmx, "vmx ", false); show_flag(buffer, hardware->cpu.flags.pbe, "pbe ", false); show_flag(buffer, hardware->cpu.flags.fxsr_opt, "fxsr_opt ", false); show_flag(buffer, hardware->cpu.flags.gbpages, "gbpages ", false); show_flag(buffer, hardware->cpu.flags.rdtscp, "rdtscp ", false); show_flag(buffer, hardware->cpu.flags.pni, "pni ", false); show_flag(buffer, hardware->cpu.flags.pclmulqd, "pclmulqd ", false); show_flag(buffer, hardware->cpu.flags.dtes64, "dtes64 ", false); show_flag(buffer, hardware->cpu.flags.smx, "smx ", false); show_flag(buffer, hardware->cpu.flags.est, "est ", false); show_flag(buffer, hardware->cpu.flags.tm2, "tm2 ", false); show_flag(buffer, hardware->cpu.flags.sse3, "sse3 ", false); show_flag(buffer, hardware->cpu.flags.fma, "fma ", false); show_flag(buffer, hardware->cpu.flags.cx16, "cx16 ", false); show_flag(buffer, hardware->cpu.flags.xtpr, "xtpr ", false); show_flag(buffer, hardware->cpu.flags.pdcm, "pdcm ", false); show_flag(buffer, hardware->cpu.flags.dca, "dca ", false); show_flag(buffer, hardware->cpu.flags.xmm4_1, "xmm4_1 ", false); show_flag(buffer, hardware->cpu.flags.xmm4_2, "xmm4_2 ", false); show_flag(buffer, hardware->cpu.flags.x2apic, "x2apic ", false); show_flag(buffer, hardware->cpu.flags.movbe, "movbe ", false); show_flag(buffer, hardware->cpu.flags.popcnt, "popcnt ", false); show_flag(buffer, hardware->cpu.flags.aes, "aes ", false); show_flag(buffer, hardware->cpu.flags.xsave, "xsave ", false); show_flag(buffer, hardware->cpu.flags.osxsave, "osxsave ", false); show_flag(buffer, hardware->cpu.flags.avx, "avx ", false); show_flag(buffer, hardware->cpu.flags.hypervisor, "hypervisor ", false); show_flag(buffer, hardware->cpu.flags.ace2, "ace2 ", false); show_flag(buffer, hardware->cpu.flags.ace2_en, "ace2_en ", false); show_flag(buffer, hardware->cpu.flags.phe, "phe ", false); show_flag(buffer, hardware->cpu.flags.phe_en, "phe_en ", false); show_flag(buffer, hardware->cpu.flags.pmm, "pmm ", false); show_flag(buffer, hardware->cpu.flags.pmm_en, "pmm_en ", false); show_flag(buffer, hardware->cpu.flags.extapic, "extapic ", false); show_flag(buffer, hardware->cpu.flags.cr8_legacy, "cr8_legacy ", false); show_flag(buffer, hardware->cpu.flags.abm, "abm ", false); show_flag(buffer, hardware->cpu.flags.sse4a, "sse4a ", false); show_flag(buffer, hardware->cpu.flags.misalignsse, "misalignsse ", false); show_flag(buffer, hardware->cpu.flags.nowprefetch, "3dnowprefetch ", false); show_flag(buffer, hardware->cpu.flags.osvw, "osvw ", false); show_flag(buffer, hardware->cpu.flags.ibs, "ibs ", false); show_flag(buffer, hardware->cpu.flags.sse5, "sse5 ", false); show_flag(buffer, hardware->cpu.flags.skinit, "skinit ", false); show_flag(buffer, hardware->cpu.flags.wdt, "wdt ", false); show_flag(buffer, hardware->cpu.flags.ida, "ida ", false); show_flag(buffer, hardware->cpu.flags.arat, "arat ", false); show_flag(buffer, hardware->cpu.flags.tpr_shadow, "tpr_shadow ", false); show_flag(buffer, hardware->cpu.flags.vnmi, "vnmi ", false); show_flag(buffer, hardware->cpu.flags.flexpriority, "flexpriority ", false); show_flag(buffer, hardware->cpu.flags.ept, "ept ", false); show_flag(buffer, hardware->cpu.flags.vpid, "vpid ", false); /* No more flags, let's display the remaining flags */ show_flag(buffer, false, "", true); } struct cli_module_descr cpu_show_modules = { .modules = NULL, .default_callback = show_cpu, }; struct cli_mode_descr cpu_mode = { .mode = CPU_MODE, .name = CLI_CPU, .default_modules = NULL, .show_modules = &cpu_show_modules, .set_modules = NULL, };