// SPDX-License-Identifier: GPL-2.0-or-later /* * The 'smbios' command displays information from the SMBIOS table. * * Copyright (c) 2023, Heinrich Schuchardt */ #include #include #include #include #include #include DECLARE_GLOBAL_DATA_PTR; static const struct str_lookup_table wakeup_type_strings[] = { { SMBIOS_WAKEUP_TYPE_RESERVED, "Reserved" }, { SMBIOS_WAKEUP_TYPE_OTHER, "Other" }, { SMBIOS_WAKEUP_TYPE_UNKNOWN, "Unknown" }, { SMBIOS_WAKEUP_TYPE_APM_TIMER, "APM Timer" }, { SMBIOS_WAKEUP_TYPE_MODEM_RING, "Modem Ring" }, { SMBIOS_WAKEUP_TYPE_LAN_REMOTE, "Lan Remote" }, { SMBIOS_WAKEUP_TYPE_POWER_SWITCH, "Power Switch" }, { SMBIOS_WAKEUP_TYPE_PCI_PME, "PCI PME#" }, { SMBIOS_WAKEUP_TYPE_AC_POWER_RESTORED, "AC Power Restored" }, }; static const struct str_lookup_table boardtype_strings[] = { { SMBIOS_BOARD_TYPE_UNKNOWN, "Unknown" }, { SMBIOS_BOARD_TYPE_OTHER, "Other" }, { SMBIOS_BOARD_TYPE_SERVER_BLADE, "Server Blade" }, { SMBIOS_BOARD_TYPE_CON_SWITCH, "Connectivity Switch" }, { SMBIOS_BOARD_TYPE_SM_MODULE, "System Management Module" }, { SMBIOS_BOARD_TYPE_PROCESSOR_MODULE, "Processor Module" }, { SMBIOS_BOARD_TYPE_IO_MODULE, "I/O Module" }, { SMBIOS_BOARD_TYPE_MEM_MODULE, "Memory Module" }, { SMBIOS_BOARD_TYPE_DAUGHTER_BOARD, "Daughter board" }, { SMBIOS_BOARD_TYPE_MOTHERBOARD, "Motherboard" }, { SMBIOS_BOARD_TYPE_PROC_MEM_MODULE, "Processor/Memory Module" }, { SMBIOS_BOARD_TYPE_PROC_IO_MODULE, "Processor/IO Module" }, { SMBIOS_BOARD_TYPE_INTERCON, "Interconnect board" }, }; static const struct str_lookup_table chassis_state_strings[] = { { SMBIOS_STATE_OTHER, "Other" }, { SMBIOS_STATE_UNKNOWN, "Unknown" }, { SMBIOS_STATE_SAFE, "Safe" }, { SMBIOS_STATE_WARNING, "Warning" }, { SMBIOS_STATE_CRITICAL, "Critical" }, { SMBIOS_STATE_NONRECOVERABLE, "Non-recoverable" }, }; static const struct str_lookup_table chassis_security_strings[] = { { SMBIOS_SECURITY_OTHER, "Other" }, { SMBIOS_SECURITY_UNKNOWN, "Unknown" }, { SMBIOS_SECURITY_NONE, "None" }, { SMBIOS_SECURITY_EXTINT_LOCK, "External interface locked out" }, { SMBIOS_SECURITY_EXTINT_EN, "External interface enabled" }, }; static const struct str_lookup_table processor_type_strings[] = { { SMBIOS_PROCESSOR_TYPE_OTHER, "Other" }, { SMBIOS_PROCESSOR_TYPE_UNKNOWN, "Unknown" }, { SMBIOS_PROCESSOR_TYPE_CENTRAL, "Central Processor" }, { SMBIOS_PROCESSOR_TYPE_MATH, "Math Processor" }, { SMBIOS_PROCESSOR_TYPE_DSP, "DSP Processor" }, { SMBIOS_PROCESSOR_TYPE_VIDEO, "Video Processor" }, }; static const struct str_lookup_table processor_family_strings[] = { { SMBIOS_PROCESSOR_FAMILY_OTHER, "Other" }, { SMBIOS_PROCESSOR_FAMILY_UNKNOWN, "Unknown" }, { SMBIOS_PROCESSOR_FAMILY_RSVD, "Reserved" }, { SMBIOS_PROCESSOR_FAMILY_ARMV7, "ARMv7" }, { SMBIOS_PROCESSOR_FAMILY_ARMV8, "ARMv8" }, { SMBIOS_PROCESSOR_FAMILY_RV32, "RISC-V RV32" }, { SMBIOS_PROCESSOR_FAMILY_RV64, "RISC-V RV64" }, }; static const struct str_lookup_table processor_upgrade_strings[] = { { SMBIOS_PROCESSOR_UPGRADE_OTHER, "Other" }, { SMBIOS_PROCESSOR_UPGRADE_UNKNOWN, "Unknown" }, { SMBIOS_PROCESSOR_UPGRADE_NONE, "None" }, }; static const struct str_lookup_table err_corr_type_strings[] = { { SMBIOS_CACHE_ERRCORR_OTHER, "Other" }, { SMBIOS_CACHE_ERRCORR_UNKNOWN, "Unknown" }, { SMBIOS_CACHE_ERRCORR_NONE, "None" }, { SMBIOS_CACHE_ERRCORR_PARITY, "Parity" }, { SMBIOS_CACHE_ERRCORR_SBITECC, "Single-bit ECC" }, { SMBIOS_CACHE_ERRCORR_MBITECC, "Multi-bit ECC" }, }; static const struct str_lookup_table sys_cache_type_strings[] = { { SMBIOS_CACHE_SYSCACHE_TYPE_OTHER, "Other" }, { SMBIOS_CACHE_SYSCACHE_TYPE_UNKNOWN, "Unknown" }, { SMBIOS_CACHE_SYSCACHE_TYPE_INST, "Instruction" }, { SMBIOS_CACHE_SYSCACHE_TYPE_DATA, "Data" }, { SMBIOS_CACHE_SYSCACHE_TYPE_UNIFIED, "Unified" }, }; static const struct str_lookup_table associativity_strings[] = { { SMBIOS_CACHE_ASSOC_OTHER, "Other" }, { SMBIOS_CACHE_ASSOC_UNKNOWN, "Unknown" }, { SMBIOS_CACHE_ASSOC_DMAPPED, "Direct Mapped" }, { SMBIOS_CACHE_ASSOC_2WAY, "2-way Set-Associative" }, { SMBIOS_CACHE_ASSOC_4WAY, "4-way Set-Associative" }, { SMBIOS_CACHE_ASSOC_FULLY, "Fully Associative" }, { SMBIOS_CACHE_ASSOC_8WAY, "8-way Set-Associative" }, { SMBIOS_CACHE_ASSOC_16WAY, "16-way Set-Associative" }, { SMBIOS_CACHE_ASSOC_12WAY, "12-way Set-Associative" }, { SMBIOS_CACHE_ASSOC_24WAY, "24-way Set-Associative" }, { SMBIOS_CACHE_ASSOC_32WAY, "32-way Set-Associative" }, { SMBIOS_CACHE_ASSOC_48WAY, "48-way Set-Associative" }, { SMBIOS_CACHE_ASSOC_64WAY, "64-way Set-Associative" }, { SMBIOS_CACHE_ASSOC_20WAY, "20-way Set-Associative" }, }; static const struct str_lookup_table slot_type_strings[] = { { SMBIOS_SYSSLOT_TYPE_OTHER, "Other" }, { SMBIOS_SYSSLOT_TYPE_UNKNOWN, "Unknown" }, { SMBIOS_SYSSLOT_TYPE_ISA, "ISA" }, { SMBIOS_SYSSLOT_TYPE_PCI, "PCI" }, { SMBIOS_SYSSLOT_TYPE_PCMCIA, "PC Card (PCMCIA)" }, { SMBIOS_SYSSLOT_TYPE_PCIE, "PCI Express" }, { SMBIOS_SYSSLOT_TYPE_PCIEGEN2, "PCI Express Gen 2" }, { SMBIOS_SYSSLOT_TYPE_PCIEGEN3, "PCI Express Gen 3" }, { SMBIOS_SYSSLOT_TYPE_PCIEGEN3X16, "PCI Express Gen 3 x16" }, { SMBIOS_SYSSLOT_TYPE_PCIEGEN4, "PCI Express Gen 4" }, { SMBIOS_SYSSLOT_TYPE_PCIEGEN4X8, "PCI Express Gen 4 x8" }, { SMBIOS_SYSSLOT_TYPE_PCIEGEN4X16, "PCI Express Gen 4 x16" }, }; static const struct str_lookup_table slot_bus_width_strings[] = { { SMBIOS_SYSSLOT_WIDTH_OTHER, "Other" }, { SMBIOS_SYSSLOT_WIDTH_UNKNOWN, "Unknown" }, { SMBIOS_SYSSLOT_WIDTH_8BIT, "8 bit" }, { SMBIOS_SYSSLOT_WIDTH_16BIT, "16 bit" }, { SMBIOS_SYSSLOT_WIDTH_32BIT, "32 bit" }, { SMBIOS_SYSSLOT_WIDTH_64BIT, "64 bit" }, { SMBIOS_SYSSLOT_WIDTH_128BIT, "128 bit " }, { SMBIOS_SYSSLOT_WIDTH_1X, "1x or x1" }, { SMBIOS_SYSSLOT_WIDTH_2X, "2x or x2" }, { SMBIOS_SYSSLOT_WIDTH_4X, "4x or x4" }, { SMBIOS_SYSSLOT_WIDTH_8X, "8x or x8" }, { SMBIOS_SYSSLOT_WIDTH_12X, "12x or x12" }, { SMBIOS_SYSSLOT_WIDTH_16X, "16x or x16" }, { SMBIOS_SYSSLOT_WIDTH_32X, "32x or x32" }, }; static const struct str_lookup_table slot_usage_strings[] = { { SMBIOS_SYSSLOT_USAGE_OTHER, "Other" }, { SMBIOS_SYSSLOT_USAGE_UNKNOWN, "Unknown" }, { SMBIOS_SYSSLOT_USAGE_AVAILABLE, "Available" }, { SMBIOS_SYSSLOT_USAGE_INUSE, "In use" }, { SMBIOS_SYSSLOT_USAGE_NA, "Unavailable" }, }; static const struct str_lookup_table slot_length_strings[] = { { SMBIOS_SYSSLOT_LENG_OTHER, "Other" }, { SMBIOS_SYSSLOT_LENG_UNKNOWN, "Unknown" }, { SMBIOS_SYSSLOT_LENG_SHORT, "Short Length" }, { SMBIOS_SYSSLOT_LENG_LONG, "Long Length" }, { SMBIOS_SYSSLOT_LENG_2_5INDRV, "2.5 inch drive form factor" }, { SMBIOS_SYSSLOT_LENG_3_5INDRV, "3.5 inch drive form factor" }, }; static const struct str_lookup_table ma_location_strings[] = { { SMBIOS_MA_LOCATION_OTHER, "Other" }, { SMBIOS_MA_LOCATION_UNKNOWN, "Unknown" }, { SMBIOS_MA_LOCATION_MOTHERBOARD, "System board or motherboard" }, }; static const struct str_lookup_table ma_use_strings[] = { { SMBIOS_MA_USE_OTHER, "Other" }, { SMBIOS_MA_USE_UNKNOWN, "Unknown" }, { SMBIOS_MA_USE_SYSTEM, "System memory" }, { SMBIOS_MA_USE_VIDEO, "Video memory" }, { SMBIOS_MA_USE_FLASH, "Flash memory" }, { SMBIOS_MA_USE_NVRAM, "Non-volatile RAM" }, { SMBIOS_MA_USE_CACHE, "Cache memory" }, }; static const struct str_lookup_table ma_err_corr_strings[] = { { SMBIOS_MA_ERRCORR_OTHER, "Other" }, { SMBIOS_MA_ERRCORR_UNKNOWN, "Unknown" }, { SMBIOS_MA_ERRCORR_NONE, "None" }, { SMBIOS_MA_ERRCORR_PARITY, "Parity" }, { SMBIOS_MA_ERRCORR_SBITECC, "Single-bit ECC" }, { SMBIOS_MA_ERRCORR_MBITECC, "Multi-bit ECC" }, { SMBIOS_MA_ERRCORR_CRC, "CRC" }, }; static const struct str_lookup_table md_form_factor_strings[] = { { SMBIOS_MD_FF_OTHER, "Other" }, { SMBIOS_MD_FF_UNKNOWN, "Unknown" }, { SMBIOS_MD_FF_SIMM, "SIMM" }, { SMBIOS_MD_FF_SIP, "SIP" }, { SMBIOS_MD_FF_CHIP, "Chip" }, { SMBIOS_MD_FF_DIP, "DIP" }, { SMBIOS_MD_FF_ZIP, "ZIP" }, { SMBIOS_MD_FF_PROPCARD, "Proprietary Card" }, { SMBIOS_MD_FF_DIMM, "DIMM" }, { SMBIOS_MD_FF_TSOP, "TSOP" }, { SMBIOS_MD_FF_ROC, "Row of chips" }, { SMBIOS_MD_FF_RIMM, "RIMM" }, { SMBIOS_MD_FF_SODIMM, "SODIMM" }, { SMBIOS_MD_FF_SRIMM, "SRIMM" }, { SMBIOS_MD_FF_FBDIMM, "FB-DIMM" }, { SMBIOS_MD_FF_DIE, "Die" }, }; static const struct str_lookup_table md_type_strings[] = { { SMBIOS_MD_TYPE_OTHER, "Other" }, { SMBIOS_MD_TYPE_UNKNOWN, "Unknown" }, { SMBIOS_MD_TYPE_DRAM, "DRAM" }, { SMBIOS_MD_TYPE_EDRAM, "EDRAM" }, { SMBIOS_MD_TYPE_VRAM, "VRAM" }, { SMBIOS_MD_TYPE_SRAM, "SRAM" }, { SMBIOS_MD_TYPE_RAM, "RAM" }, { SMBIOS_MD_TYPE_ROM, "ROM" }, { SMBIOS_MD_TYPE_FLASH, "FLASH" }, { SMBIOS_MD_TYPE_EEPROM, "EEPROM" }, { SMBIOS_MD_TYPE_FEPROM, "FEPROM" }, { SMBIOS_MD_TYPE_EPROM, "EPROM" }, { SMBIOS_MD_TYPE_CDRAM, "CDRAM" }, { SMBIOS_MD_TYPE_3DRAM, "3DRAM" }, { SMBIOS_MD_TYPE_SDRAM, "SDRAM" }, { SMBIOS_MD_TYPE_SGRAM, "SGRAM" }, { SMBIOS_MD_TYPE_RDRAM, "RDRAM" }, { SMBIOS_MD_TYPE_DDR, "DDR" }, { SMBIOS_MD_TYPE_DDR2, "DDR2" }, { SMBIOS_MD_TYPE_DDR2FBD, "DDR2 FB-DIMM" }, { SMBIOS_MD_TYPE_RSVD1, "Reserved" }, { SMBIOS_MD_TYPE_RSVD2, "Reserved" }, { SMBIOS_MD_TYPE_DSVD3, "Reserved" }, { SMBIOS_MD_TYPE_DDR3, "DDR3" }, { SMBIOS_MD_TYPE_FBD2, "FBD2" }, { SMBIOS_MD_TYPE_DDR4, "DDR4" }, { SMBIOS_MD_TYPE_LPDDR, "LPDDR" }, { SMBIOS_MD_TYPE_LPDDR2, "LPDDR2" }, { SMBIOS_MD_TYPE_LPDDR3, "LPDDR3" }, { SMBIOS_MD_TYPE_LPDDR4, "LPDDR4" }, { SMBIOS_MD_TYPE_LNVD, "Logical non-volatile device" }, { SMBIOS_MD_TYPE_HBM, "HBM" }, { SMBIOS_MD_TYPE_HBM2, "HBM2" }, { SMBIOS_MD_TYPE_DDR5, "DDR5" }, { SMBIOS_MD_TYPE_LPDDR5, "LPDDR5" }, { SMBIOS_MD_TYPE_HBM3, "HBM3" }, }; static const struct str_lookup_table md_tech_strings[] = { { SMBIOS_MD_TECH_OTHER, "Other" }, { SMBIOS_MD_TECH_UNKNOWN, "Unknown" }, { SMBIOS_MD_TECH_DRAM, "DRAM" }, { SMBIOS_MD_TECH_NVDIMMN, "NVDIMM-N" }, { SMBIOS_MD_TECH_NVDIMMF, "NVDIMM-F" }, { SMBIOS_MD_TECH_NVDIMMP, "NVDIMM-P" }, { SMBIOS_MD_TECH_OPTANE, "Intel Optane persistent memory" }, }; /** * smbios_get_string() - get SMBIOS string from table * * @table: SMBIOS table * @index: index of the string * Return: address of string, may point to empty string */ static const char *smbios_get_string(void *table, int index) { const char *str = (char *)table + ((struct smbios_header *)table)->length; static const char fallback[] = ""; if (!index) return fallback; if (!*str) ++str; for (--index; *str && index; --index) str += strlen(str) + 1; return str; } static struct smbios_header *next_table(struct smbios_header *table) { const char *str; if (table->type == SMBIOS_END_OF_TABLE) return NULL; str = smbios_get_string(table, -1); return (struct smbios_header *)(++str); } static void smbios_print_generic(struct smbios_header *table) { char *str = (char *)table + table->length; if (CONFIG_IS_ENABLED(HEXDUMP)) { printf("Header and Data:\n"); print_hex_dump("\t", DUMP_PREFIX_OFFSET, 16, 1, table, table->length, false); } if (*str) { printf("Strings:\n"); for (int index = 1; *str; ++index) { printf("\tString %u: %s\n", index, str); str += strlen(str) + 1; } } } static void smbios_print_str(const char *label, void *table, u8 index) { printf("\t%s: %s\n", label, smbios_get_string(table, index)); } static void smbios_print_lookup_str(const struct str_lookup_table *table, u16 index, u16 array_size, const char *prefix) { int i; const char *str = NULL; for (i = 0; i < array_size; i++) { if ((table + i)->idx == index) str = (table + i)->str; } if (str) printf("\t%s: %s\n", prefix, str); else printf("\t%s: [%04x]\n", prefix, index); } static void smbios_print_type0(struct smbios_type0 *table) { printf("BIOS Information\n"); smbios_print_str("Vendor", table, table->vendor); smbios_print_str("BIOS Version", table, table->bios_ver); /* Keep table->bios_start_segment as 0 for UEFI-based systems */ smbios_print_str("BIOS Release Date", table, table->bios_release_date); printf("\tBIOS ROM Size: 0x%02x\n", table->bios_rom_size); printf("\tBIOS Characteristics: 0x%016llx\n", table->bios_characteristics); if (table->hdr.length < SMBIOS_TYPE0_LENGTH_V24) return; printf("\tBIOS Characteristics Extension Byte 1: 0x%02x\n", table->bios_characteristics_ext1); printf("\tBIOS Characteristics Extension Byte 2: 0x%02x\n", table->bios_characteristics_ext2); printf("\tSystem BIOS Major Release: 0x%02x\n", table->bios_major_release); printf("\tSystem BIOS Minor Release: 0x%02x\n", table->bios_minor_release); printf("\tEmbedded Controller Firmware Major Release: 0x%02x\n", table->ec_major_release); printf("\tEmbedded Controller Firmware Minor Release: 0x%02x\n", table->ec_minor_release); if (table->hdr.length < SMBIOS_TYPE0_LENGTH_V31) return; printf("\tExtended BIOS ROM Size: 0x%04x\n", table->extended_bios_rom_size); } static void smbios_print_type1(struct smbios_type1 *table) { printf("System Information\n"); smbios_print_str("Manufacturer", table, table->manufacturer); smbios_print_str("Product Name", table, table->product_name); smbios_print_str("Version", table, table->version); smbios_print_str("Serial Number", table, table->serial_number); if (table->hdr.length < SMBIOS_TYPE1_LENGTH_V21) return; printf("\tUUID: %pUl\n", table->uuid); smbios_print_lookup_str(wakeup_type_strings, table->wakeup_type, ARRAY_SIZE(wakeup_type_strings), "Wake-up Type"); if (table->hdr.length < SMBIOS_TYPE1_LENGTH_V24) return; smbios_print_str("SKU Number", table, table->sku_number); smbios_print_str("Family", table, table->family); } static void smbios_print_type2(struct smbios_type2 *table) { int i; u8 *addr = (u8 *)table + offsetof(struct smbios_type2, eos); printf("Baseboard Information\n"); smbios_print_str("Manufacturer", table, table->manufacturer); smbios_print_str("Product Name", table, table->product_name); smbios_print_str("Version", table, table->version); smbios_print_str("Serial Number", table, table->serial_number); smbios_print_str("Asset Tag", table, table->asset_tag_number); printf("\tFeature Flags: 0x%02x\n", table->feature_flags); smbios_print_str("Chassis Location", table, table->chassis_location); printf("\tChassis Handle: 0x%04x\n", table->chassis_handle); smbios_print_lookup_str(boardtype_strings, table->board_type, ARRAY_SIZE(boardtype_strings), "Board Type"); printf("\tNumber of Contained Object Handles: 0x%02x\n", table->number_contained_objects); if (!table->number_contained_objects) return; printf("\tContained Object Handles:\n"); for (i = 0; i < table->number_contained_objects; i++) { printf("\t\tObject[%03d]:\n", i); if (CONFIG_IS_ENABLED(HEXDUMP)) print_hex_dump("\t\t", DUMP_PREFIX_OFFSET, 16, 1, addr, sizeof(u16), false); addr += sizeof(u16); } printf("\n"); } static void smbios_print_type3(struct smbios_type3 *table) { int i; u8 *addr = (u8 *)table + offsetof(struct smbios_type3, sku_number); printf("Chassis Information\n"); smbios_print_str("Manufacturer", table, table->manufacturer); printf("\tType: 0x%02x\n", table->chassis_type); smbios_print_str("Version", table, table->version); smbios_print_str("Serial Number", table, table->serial_number); smbios_print_str("Asset Tag", table, table->asset_tag_number); smbios_print_lookup_str(chassis_state_strings, table->bootup_state, ARRAY_SIZE(chassis_state_strings), "Boot-up State"); smbios_print_lookup_str(chassis_state_strings, table->power_supply_state, ARRAY_SIZE(chassis_state_strings), "Power Supply State"); smbios_print_lookup_str(chassis_state_strings, table->thermal_state, ARRAY_SIZE(chassis_state_strings), "Thermal State"); smbios_print_lookup_str(chassis_security_strings, table->security_status, ARRAY_SIZE(chassis_security_strings), "Security Status"); printf("\tOEM-defined: 0x%08x\n", table->oem_defined); printf("\tHeight: 0x%02x\n", table->height); printf("\tNumber of Power Cords: 0x%02x\n", table->number_of_power_cords); printf("\tContained Element Count: 0x%02x\n", table->element_count); printf("\tContained Element Record Length: 0x%02x\n", table->element_record_length); if (table->element_count) { printf("\tContained Elements:\n"); for (i = 0; i < table->element_count; i++) { printf("\t\tElement[%03d]:\n", i); if (CONFIG_IS_ENABLED(HEXDUMP)) print_hex_dump("\t\t", DUMP_PREFIX_OFFSET, 16, 1, addr, table->element_record_length, false); printf("\t\tContained Element Type: 0x%02x\n", *addr); printf("\t\tContained Element Minimum: 0x%02x\n", *(addr + 1)); printf("\t\tContained Element Maximum: 0x%02x\n", *(addr + 2)); addr += table->element_record_length; } } smbios_print_str("SKU Number", table, *addr); } static void smbios_print_type4(struct smbios_type4 *table) { printf("Processor Information:\n"); smbios_print_str("Socket Designation", table, table->socket_design); smbios_print_lookup_str(processor_type_strings, table->processor_type, ARRAY_SIZE(processor_type_strings), "Processor Type"); smbios_print_lookup_str(processor_family_strings, table->processor_family, ARRAY_SIZE(processor_family_strings), "Processor Family"); smbios_print_str("Processor Manufacturer", table, table->processor_manufacturer); printf("\tProcessor ID word 0: 0x%08x\n", table->processor_id[0]); printf("\tProcessor ID word 1: 0x%08x\n", table->processor_id[1]); smbios_print_str("Processor Version", table, table->processor_version); printf("\tVoltage: 0x%02x\n", table->voltage); printf("\tExternal Clock: 0x%04x\n", table->external_clock); printf("\tMax Speed: 0x%04x\n", table->max_speed); printf("\tCurrent Speed: 0x%04x\n", table->current_speed); printf("\tStatus: 0x%02x\n", table->status); smbios_print_lookup_str(processor_upgrade_strings, table->processor_upgrade, ARRAY_SIZE(processor_upgrade_strings), "Processor Upgrade"); printf("\tL1 Cache Handle: 0x%04x\n", table->l1_cache_handle); printf("\tL2 Cache Handle: 0x%04x\n", table->l2_cache_handle); printf("\tL3 Cache Handle: 0x%04x\n", table->l3_cache_handle); if (table->hdr.length < SMBIOS_TYPE4_LENGTH_V23) return; smbios_print_str("Serial Number", table, table->serial_number); smbios_print_str("Asset Tag", table, table->asset_tag); smbios_print_str("Part Number", table, table->part_number); if (table->hdr.length < SMBIOS_TYPE4_LENGTH_V25) return; printf("\tCore Count: 0x%02x\n", table->core_count); printf("\tCore Enabled: 0x%02x\n", table->core_enabled); printf("\tThread Count: 0x%02x\n", table->thread_count); printf("\tProcessor Characteristics: 0x%04x\n", table->processor_characteristics); if (table->hdr.length < SMBIOS_TYPE4_LENGTH_V26) return; smbios_print_lookup_str(processor_family_strings, table->processor_family2, ARRAY_SIZE(processor_family_strings), "Processor Family 2"); if (table->hdr.length < SMBIOS_TYPE4_LENGTH_V30) return; printf("\tCore Count 2: 0x%04x\n", table->core_count2); printf("\tCore Enabled 2: 0x%04x\n", table->core_enabled2); printf("\tThread Count 2: 0x%04x\n", table->thread_count2); if (table->hdr.length < SMBIOS_TYPE4_LENGTH_V36) return; printf("\tThread Enabled: 0x%04x\n", table->thread_enabled); } static void smbios_print_type7(struct smbios_type7 *table) { printf("Cache Information:\n"); smbios_print_str("Socket Designation", table, table->socket_design); printf("\tCache Configuration: 0x%04x\n", table->config.data); printf("\tMaximum Cache Size: 0x%04x\n", table->max_size.data); printf("\tInstalled Size: 0x%04x\n", table->inst_size.data); printf("\tSupported SRAM Type: 0x%04x\n", table->supp_sram_type.data); printf("\tCurrent SRAM Type: 0x%04x\n", table->curr_sram_type.data); if (table->hdr.length < SMBIOS_TYPE7_LENGTH_V21) return; printf("\tCache Speed: 0x%02x\n", table->speed); smbios_print_lookup_str(err_corr_type_strings, table->err_corr_type, ARRAY_SIZE(err_corr_type_strings), "Error Correction Type"); smbios_print_lookup_str(sys_cache_type_strings, table->sys_cache_type, ARRAY_SIZE(sys_cache_type_strings), "System Cache Type"); smbios_print_lookup_str(associativity_strings, table->associativity, ARRAY_SIZE(associativity_strings), "Associativity"); if (table->hdr.length < SMBIOS_TYPE7_LENGTH_V31) return; printf("\tMaximum Cache Size 2: 0x%08x\n", table->max_size2.data); printf("\tInstalled Cache Size 2: 0x%08x\n", table->inst_size2.data); } static void smbios_print_type9(struct smbios_type9 *table) { int i; u8 *addr = (u8 *)table + offsetof(struct smbios_type9, slot_information); printf("System Slots:\n"); smbios_print_str("Socket Designation", table, table->socket_design); smbios_print_lookup_str(slot_type_strings, table->slot_type, ARRAY_SIZE(slot_type_strings), "Slot Type"); smbios_print_lookup_str(slot_bus_width_strings, table->slot_data_bus_width, ARRAY_SIZE(slot_bus_width_strings), "Slot Data Bus Width"); smbios_print_lookup_str(slot_usage_strings, table->current_usage, ARRAY_SIZE(slot_usage_strings), "Current Usage"); smbios_print_lookup_str(slot_length_strings, table->slot_length, ARRAY_SIZE(slot_length_strings), "Slot Length"); printf("\tSlot ID: 0x%04x\n", table->slot_id); printf("\tSlot Characteristics 1: 0x%04x\n", table->slot_characteristics_1); if (table->hdr.length < SMBIOS_TYPE9_LENGTH_V21) return; printf("\tSlot Characteristics 2: 0x%04x\n", table->slot_characteristics_2); if (table->hdr.length < SMBIOS_TYPE9_LENGTH_V26) return; printf("\tSegment Group Number (Base): 0x%04x\n", table->segment_group_number); printf("\tBus Number (Base): 0x%04x\n", table->bus_number); printf("\tDevice/Function Number (Base): 0x%04x\n", table->device_function_number.data); printf("\tData Bus Width (Base): 0x%04x\n", table->electrical_bus_width); printf("\tPeer (S/B/D/F/Width) grouping count: 0x%04x\n", table->peer_grouping_count); printf("\tPeer (S/B/D/F/Width) groups:\n"); for (i = 0; i < table->peer_grouping_count; i++) { printf("\t\tPeer group[%03d]:\n", i); if (CONFIG_IS_ENABLED(HEXDUMP)) print_hex_dump("\t\t", DUMP_PREFIX_OFFSET, 16, 1, addr, SMBIOS_TYPE9_PGROUP_SIZE, false); addr += SMBIOS_TYPE9_PGROUP_SIZE; } printf("\n"); /* table->slot_information */ printf("\tSlot Information: 0x%04x\n", *addr); /* table->slot_physical_width */ addr += sizeof(table->slot_information); printf("\tSlot Physical Width: 0x%04x\n", *addr); /* table->slot_pitch */ addr += sizeof(table->slot_physical_width); printf("\tSlot Pitch: 0x%04x\n", *(u16 *)addr); /* table->slot_height */ addr += sizeof(table->slot_pitch); printf("\tSlot Height: 0x%04x\n", *addr); } static void smbios_print_type16(struct smbios_type16 *table) { printf("Physical Memory Array:\n"); if (table->hdr.length < SMBIOS_TYPE16_LENGTH_V21) return; smbios_print_lookup_str(ma_location_strings, table->location, ARRAY_SIZE(ma_location_strings), "Location"); smbios_print_lookup_str(ma_use_strings, table->use, ARRAY_SIZE(ma_use_strings), "Use"); smbios_print_lookup_str(ma_err_corr_strings, table->mem_err_corr, ARRAY_SIZE(ma_err_corr_strings), "Memory Error Correction"); printf("\tMaximum Capacity: 0x%08x\n", table->max_cap); printf("\tMemory Error Information Handle: 0x%04x\n", table->mem_err_info_hdl); printf("\tNumber of Memory Devices: 0x%04x\n", table->num_of_mem_dev); if (table->hdr.length < SMBIOS_TYPE16_LENGTH_V27) return; printf("\tExtended Maximum Capacity: 0x%016llx\n", table->ext_max_cap); } static void smbios_print_type17(struct smbios_type17 *table) { printf("Memory Device:\n"); if (table->hdr.length < SMBIOS_TYPE17_LENGTH_V21) return; printf("\tPhysical Memory Array Handle: 0x%04x\n", table->phy_mem_array_hdl); printf("\tMemory Error Information Handle: 0x%04x\n", table->mem_err_info_hdl); printf("\tTotal Width: 0x%04x\n", table->total_width); printf("\tData Width: 0x%04x\n", table->data_width); printf("\tSize: 0x%04x\n", table->size); smbios_print_lookup_str(md_form_factor_strings, table->form_factor, ARRAY_SIZE(md_form_factor_strings), "Form Factor"); printf("\tDevice Set: 0x%04x\n", table->dev_set); smbios_print_str("Device Locator", table, table->dev_locator); smbios_print_str("Bank Locator", table, table->bank_locator); smbios_print_lookup_str(md_type_strings, table->mem_type, ARRAY_SIZE(md_type_strings), "Memory Type"); printf("\tType Detail: 0x%04x\n", table->type_detail); if (table->hdr.length < SMBIOS_TYPE17_LENGTH_V23) return; printf("\tSpeed: 0x%04x\n", table->speed); smbios_print_str("Manufacturer", table, table->manufacturer); smbios_print_str("Serial Number", table, table->serial_number); smbios_print_str("Asset Tag", table, table->asset_tag); smbios_print_str("Part Number", table, table->part_number); if (table->hdr.length < SMBIOS_TYPE17_LENGTH_V26) return; printf("\tAttributes: 0x%04x\n", table->attributes); if (table->hdr.length < SMBIOS_TYPE17_LENGTH_V27) return; printf("\tExtended Size: 0x%08x\n", table->ext_size); printf("\tConfigured Memory Speed: 0x%04x\n", table->config_mem_speed); if (table->hdr.length < SMBIOS_TYPE17_LENGTH_V28) return; printf("\tMinimum voltage: 0x%04x\n", table->min_voltage); printf("\tMaximum voltage: 0x%04x\n", table->max_voltage); printf("\tConfigured voltage: 0x%04x\n", table->config_voltage); if (table->hdr.length < SMBIOS_TYPE17_LENGTH_V32) return; smbios_print_lookup_str(md_tech_strings, table->mem_tech, ARRAY_SIZE(md_tech_strings), "Memory Technology"); printf("\tMemory Operating Mode Capability: 0x%04x\n", table->mem_op_mode_cap); smbios_print_str("Firmware Version", table, table->fw_ver); printf("\tModule Manufacturer ID: 0x%04x\n", table->module_man_id); printf("\tModule Product ID: 0x%04x\n", table->module_prod_id); printf("\tMemory Subsystem Controller Manufacturer ID: 0x%04x\n", table->mem_subsys_con_man_id); printf("\tMemory Subsystem Controller Product ID: 0x%04x\n", table->mem_subsys_con_prod_id); printf("\tNon-volatile Size: 0x%016llx\n", table->nonvolatile_size); printf("\tVolatile Size: 0x%016llx\n", table->volatile_size); printf("\tCache Size: 0x%016llx\n", table->cache_size); printf("\tLogical Size: 0x%016llx\n", table->logical_size); if (table->hdr.length < SMBIOS_TYPE17_LENGTH_V33) return; printf("\tExtended Speed: 0x%04x\n", table->ext_speed); printf("\tExtended Configured Memory Speed: 0x%04x\n", table->ext_config_mem_speed); printf("\tPMIC0 Manufacturer ID: 0x%04x\n", table->pmic0_man_id); printf("\tPMIC0 Revision Number: 0x%04x\n", table->pmic0_rev_num); printf("\tRCD Manufacturer ID: 0x%04x\n", table->rcd_man_id); printf("\tRCD Revision Number: 0x%04x\n", table->rcd_rev_num); } static void smbios_print_type19(struct smbios_type19 *table) { printf("Memory Array Mapped Address:\n"); if (table->hdr.length < SMBIOS_TYPE19_LENGTH_V21) return; printf("\tStarting Address: 0x%08x\n", table->start_addr); printf("\tEnding Address: 0x%08x\n", table->end_addr); printf("\tMemory Array Handle: 0x%04x\n", table->mem_array_hdl); printf("\tPartition Width: 0x%04x\n", table->partition_wid); if (table->hdr.length < SMBIOS_TYPE19_LENGTH_V27) return; printf("\tExtended Starting Address: 0x%016llx\n", table->ext_start_addr); printf("\tExtended Ending Address: 0x%016llx\n", table->ext_end_addr); } static void smbios_print_type127(struct smbios_type127 *table) { printf("End Of Table\n"); } static int do_smbios(struct cmd_tbl *cmdtp, int flag, int argc, char *const argv[]) { ulong addr; void *entry; u32 size; char version[12]; struct smbios_header *table; static const char smbios_sig[] = "_SM_"; static const char smbios3_sig[] = "_SM3_"; size_t count = 0; u32 table_maximum_size; addr = gd_smbios_start(); if (!addr) { log_warning("SMBIOS not available\n"); return CMD_RET_FAILURE; } entry = map_sysmem(addr, 0); if (!memcmp(entry, smbios3_sig, sizeof(smbios3_sig) - 1)) { struct smbios3_entry *entry3 = entry; table = (void *)(uintptr_t)entry3->struct_table_address; snprintf(version, sizeof(version), "%d.%d.%d", entry3->major_ver, entry3->minor_ver, entry3->doc_rev); table = (void *)(uintptr_t)entry3->struct_table_address; size = entry3->length; table_maximum_size = entry3->table_maximum_size; } else if (!memcmp(entry, smbios_sig, sizeof(smbios_sig) - 1)) { struct smbios_entry *entry2 = entry; snprintf(version, sizeof(version), "%d.%d", entry2->major_ver, entry2->minor_ver); table = (void *)(uintptr_t)entry2->struct_table_address; size = entry2->length; table_maximum_size = entry2->struct_table_length; } else { log_err("Unknown SMBIOS anchor format\n"); return CMD_RET_FAILURE; } if (table_compute_checksum(entry, size)) { log_err("Invalid anchor checksum\n"); return CMD_RET_FAILURE; } printf("SMBIOS %s present.\n", version); for (struct smbios_header *pos = table; pos; pos = next_table(pos)) ++count; printf("%zd structures occupying %d bytes\n", count, table_maximum_size); printf("Table at 0x%llx\n", (unsigned long long)map_to_sysmem(table)); for (struct smbios_header *pos = table; pos; pos = next_table(pos)) { printf("\nHandle 0x%04x, DMI type %d, %d bytes at 0x%llx\n", pos->handle, pos->type, pos->length, (unsigned long long)map_to_sysmem(pos)); switch (pos->type) { case SMBIOS_BIOS_INFORMATION: smbios_print_type0((struct smbios_type0 *)pos); break; case SMBIOS_SYSTEM_INFORMATION: smbios_print_type1((struct smbios_type1 *)pos); break; case SMBIOS_BOARD_INFORMATION: smbios_print_type2((struct smbios_type2 *)pos); break; case SMBIOS_SYSTEM_ENCLOSURE: smbios_print_type3((struct smbios_type3 *)pos); break; case SMBIOS_PROCESSOR_INFORMATION: smbios_print_type4((struct smbios_type4 *)pos); break; case SMBIOS_CACHE_INFORMATION: smbios_print_type7((struct smbios_type7 *)pos); break; case SMBIOS_SYSTEM_SLOTS: smbios_print_type9((struct smbios_type9 *)pos); break; case SMBIOS_PHYS_MEMORY_ARRAY: smbios_print_type16((struct smbios_type16 *)pos); break; case SMBIOS_MEMORY_DEVICE: smbios_print_type17((struct smbios_type17 *)pos); break; case SMBIOS_MEMORY_ARRAY_MAPPED_ADDRESS: smbios_print_type19((struct smbios_type19 *)pos); break; case SMBIOS_END_OF_TABLE: smbios_print_type127((struct smbios_type127 *)pos); break; default: smbios_print_generic(pos); break; } } return CMD_RET_SUCCESS; } U_BOOT_LONGHELP(smbios, "- display SMBIOS information"); U_BOOT_CMD(smbios, 1, 0, do_smbios, "display SMBIOS information", smbios_help_text);