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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-15 18:19:39 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-15 18:19:39 +0000 |
commit | b3099b4a9cd903bc2c0088e84a4e97d7cc072f1d (patch) | |
tree | 4de44db30324d1793a5b7ed6fdf32113fe7135ce /dmidecode.c | |
parent | Initial commit. (diff) | |
download | dmidecode-b3099b4a9cd903bc2c0088e84a4e97d7cc072f1d.tar.xz dmidecode-b3099b4a9cd903bc2c0088e84a4e97d7cc072f1d.zip |
Adding upstream version 3.5.upstream/3.5
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'dmidecode.c')
-rw-r--r-- | dmidecode.c | 6177 |
1 files changed, 6177 insertions, 0 deletions
diff --git a/dmidecode.c b/dmidecode.c new file mode 100644 index 0000000..54f59c1 --- /dev/null +++ b/dmidecode.c @@ -0,0 +1,6177 @@ +/* + * DMI Decode + * + * Copyright (C) 2000-2002 Alan Cox <alan@redhat.com> + * Copyright (C) 2002-2020 Jean Delvare <jdelvare@suse.de> + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the Free Software + * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + * + * For the avoidance of doubt the "preferred form" of this code is one which + * is in an open unpatent encumbered format. Where cryptographic key signing + * forms part of the process of creating an executable the information + * including keys needed to generate an equivalently functional executable + * are deemed to be part of the source code. + * + * Unless specified otherwise, all references are aimed at the "System + * Management BIOS Reference Specification, Version 3.2.0" document, + * available from http://www.dmtf.org/standards/smbios. + * + * Note to contributors: + * Please reference every value you add or modify, especially if the + * information does not come from the above mentioned specification. + * + * Additional references: + * - Intel AP-485 revision 36 + * "Intel Processor Identification and the CPUID Instruction" + * http://www.intel.com/support/processors/sb/cs-009861.htm + * - DMTF Common Information Model + * CIM Schema version 2.19.1 + * http://www.dmtf.org/standards/cim/ + * - IPMI 2.0 revision 1.0 + * "Intelligent Platform Management Interface Specification" + * http://developer.intel.com/design/servers/ipmi/spec.htm + * - AMD publication #25481 revision 2.28 + * "CPUID Specification" + * http://www.amd.com/us-en/assets/content_type/white_papers_and_tech_docs/25481.pdf + * - BIOS Integrity Services Application Programming Interface version 1.0 + * http://www.intel.com/design/archives/wfm/downloads/bisspec.htm + * - DMTF DSP0239 version 1.1.0 + * "Management Component Transport Protocol (MCTP) IDs and Codes" + * http://www.dmtf.org/standards/pmci + * - "TPM Main, Part 2 TPM Structures" + * Specification version 1.2, level 2, revision 116 + * https://trustedcomputinggroup.org/tpm-main-specification/ + * - "PC Client Platform TPM Profile (PTP) Specification" + * Family "2.0", Level 00, Revision 00.43, January 26, 2015 + * https://trustedcomputinggroup.org/pc-client-platform-tpm-profile-ptp-specification/ + * - "RedFish Host Interface Specification" (DMTF DSP0270) + * https://www.dmtf.org/sites/default/files/DSP0270_1.0.1.pdf + */ + +#include <fcntl.h> +#include <stdio.h> +#include <string.h> +#include <strings.h> +#include <stdlib.h> +#include <unistd.h> +#include <arpa/inet.h> +#include <sys/socket.h> + +#ifdef __FreeBSD__ +#include <errno.h> +#include <kenv.h> +#endif + +#include "version.h" +#include "config.h" +#include "types.h" +#include "util.h" +#include "dmidecode.h" +#include "dmiopt.h" +#include "dmioem.h" +#include "dmioutput.h" + +#define out_of_spec "<OUT OF SPEC>" +static const char *bad_index = "<BAD INDEX>"; + +enum cpuid_type cpuid_type = cpuid_none; + +#define SUPPORTED_SMBIOS_VER 0x030500 + +#define FLAG_NO_FILE_OFFSET (1 << 0) +#define FLAG_STOP_AT_EOT (1 << 1) + +#define SYS_FIRMWARE_DIR "/sys/firmware/dmi/tables" +#define SYS_ENTRY_FILE SYS_FIRMWARE_DIR "/smbios_entry_point" +#define SYS_TABLE_FILE SYS_FIRMWARE_DIR "/DMI" + +/* + * Type-independant Stuff + */ + +/* Returns 1 if the buffer contains only printable ASCII characters */ +int is_printable(const u8 *data, int len) +{ + int i; + + for (i = 0; i < len; i++) + if (data[i] < 32 || data[i] >= 127) + return 0; + + return 1; +} + +/* Replace non-ASCII characters with dots */ +static void ascii_filter(char *bp, size_t len) +{ + size_t i; + + for (i = 0; i < len; i++) + if (bp[i] < 32 || bp[i] >= 127) + bp[i] = '.'; +} + +static char *_dmi_string(const struct dmi_header *dm, u8 s, int filter) +{ + char *bp = (char *)dm->data; + + bp += dm->length; + while (s > 1 && *bp) + { + bp += strlen(bp); + bp++; + s--; + } + + if (!*bp) + return NULL; + + if (filter) + ascii_filter(bp, strlen(bp)); + + return bp; +} + +const char *dmi_string(const struct dmi_header *dm, u8 s) +{ + char *bp; + + if (s == 0) + return "Not Specified"; + + bp = _dmi_string(dm, s, 1); + if (bp == NULL) + return bad_index; + + return bp; +} + +static const char *dmi_smbios_structure_type(u8 code) +{ + static const char *type[] = { + "BIOS", /* 0 */ + "System", + "Base Board", + "Chassis", + "Processor", + "Memory Controller", + "Memory Module", + "Cache", + "Port Connector", + "System Slots", + "On Board Devices", + "OEM Strings", + "System Configuration Options", + "BIOS Language", + "Group Associations", + "System Event Log", + "Physical Memory Array", + "Memory Device", + "32-bit Memory Error", + "Memory Array Mapped Address", + "Memory Device Mapped Address", + "Built-in Pointing Device", + "Portable Battery", + "System Reset", + "Hardware Security", + "System Power Controls", + "Voltage Probe", + "Cooling Device", + "Temperature Probe", + "Electrical Current Probe", + "Out-of-band Remote Access", + "Boot Integrity Services", + "System Boot", + "64-bit Memory Error", + "Management Device", + "Management Device Component", + "Management Device Threshold Data", + "Memory Channel", + "IPMI Device", + "Power Supply", + "Additional Information", + "Onboard Device", + "Management Controller Host Interface", + "TPM Device", + "Processor", + "Firmware", + "String Property" /* 46 */ + }; + + if (code >= 128) + return "OEM-specific"; + if (code <= 46) + return type[code]; + return out_of_spec; +} + +static int dmi_bcd_range(u8 value, u8 low, u8 high) +{ + if (value > 0x99 || (value & 0x0F) > 0x09) + return 0; + if (value < low || value > high) + return 0; + return 1; +} + +static void dmi_dump(const struct dmi_header *h) +{ + static char raw_data[48]; + int row, i; + unsigned int off; + char *s; + + pr_list_start("Header and Data", NULL); + for (row = 0; row < ((h->length - 1) >> 4) + 1; row++) + { + off = 0; + for (i = 0; i < 16 && i < h->length - (row << 4); i++) + off += sprintf(raw_data + off, i ? " %02X" : "%02X", + (h->data)[(row << 4) + i]); + pr_list_item(raw_data); + } + pr_list_end(); + + if ((h->data)[h->length] || (h->data)[h->length + 1]) + { + pr_list_start("Strings", NULL); + i = 1; + while ((s = _dmi_string(h, i++, !(opt.flags & FLAG_DUMP)))) + { + if (opt.flags & FLAG_DUMP) + { + int j, l = strlen(s) + 1; + + for (row = 0; row < ((l - 1) >> 4) + 1; row++) + { + off = 0; + for (j = 0; j < 16 && j < l - (row << 4); j++) + off += sprintf(raw_data + off, + j ? " %02X" : "%02X", + (unsigned char)s[(row << 4) + j]); + pr_list_item(raw_data); + } + /* String isn't filtered yet so do it now */ + ascii_filter(s, l - 1); + } + pr_list_item("%s", s); + } + pr_list_end(); + } +} + +/* shift is 0 if the value is in bytes, 1 if it is in kilobytes */ +void dmi_print_memory_size(const char *attr, u64 code, int shift) +{ + unsigned long capacity; + u16 split[7]; + static const char *unit[8] = { + "bytes", "kB", "MB", "GB", "TB", "PB", "EB", "ZB" + }; + int i; + + /* + * We split the overall size in powers of thousand: EB, PB, TB, GB, + * MB, kB and B. In practice, it is expected that only one or two + * (consecutive) of these will be non-zero. + */ + split[0] = code.l & 0x3FFUL; + split[1] = (code.l >> 10) & 0x3FFUL; + split[2] = (code.l >> 20) & 0x3FFUL; + split[3] = ((code.h << 2) & 0x3FCUL) | (code.l >> 30); + split[4] = (code.h >> 8) & 0x3FFUL; + split[5] = (code.h >> 18) & 0x3FFUL; + split[6] = code.h >> 28; + + /* + * Now we find the highest unit with a non-zero value. If the following + * is also non-zero, we use that as our base. If the following is zero, + * we simply display the highest unit. + */ + for (i = 6; i > 0; i--) + { + if (split[i]) + break; + } + if (i > 0 && split[i - 1]) + { + i--; + capacity = split[i] + (split[i + 1] << 10); + } + else + capacity = split[i]; + + pr_attr(attr, "%lu %s", capacity, unit[i + shift]); +} + +/* + * 7.1 BIOS Information (Type 0) + */ + +static void dmi_bios_runtime_size(u32 code) +{ + const char *format; + + if (code & 0x000003FF) + { + format = "%u bytes"; + } + else + { + format = "%u kB"; + code >>= 10; + } + + pr_attr("Runtime Size", format, code); +} + +static void dmi_bios_rom_size(u8 code1, u16 code2) +{ + static const char *unit[4] = { + "MB", "GB", out_of_spec, out_of_spec + }; + + if (code1 != 0xFF) + { + u64 s = { .l = (code1 + 1) << 6 }; + dmi_print_memory_size("ROM Size", s, 1); + } + else + pr_attr("ROM Size", "%u %s", code2 & 0x3FFF, unit[code2 >> 14]); +} + +static void dmi_bios_characteristics(u64 code) +{ + /* 7.1.1 */ + static const char *characteristics[] = { + "BIOS characteristics not supported", /* 3 */ + "ISA is supported", + "MCA is supported", + "EISA is supported", + "PCI is supported", + "PC Card (PCMCIA) is supported", + "PNP is supported", + "APM is supported", + "BIOS is upgradeable", + "BIOS shadowing is allowed", + "VLB is supported", + "ESCD support is available", + "Boot from CD is supported", + "Selectable boot is supported", + "BIOS ROM is socketed", + "Boot from PC Card (PCMCIA) is supported", + "EDD is supported", + "Japanese floppy for NEC 9800 1.2 MB is supported (int 13h)", + "Japanese floppy for Toshiba 1.2 MB is supported (int 13h)", + "5.25\"/360 kB floppy services are supported (int 13h)", + "5.25\"/1.2 MB floppy services are supported (int 13h)", + "3.5\"/720 kB floppy services are supported (int 13h)", + "3.5\"/2.88 MB floppy services are supported (int 13h)", + "Print screen service is supported (int 5h)", + "8042 keyboard services are supported (int 9h)", + "Serial services are supported (int 14h)", + "Printer services are supported (int 17h)", + "CGA/mono video services are supported (int 10h)", + "NEC PC-98" /* 31 */ + }; + int i; + + /* + * This isn't very clear what this bit is supposed to mean + */ + if (code.l & (1 << 3)) + { + pr_list_item("%s", characteristics[0]); + return; + } + + for (i = 4; i <= 31; i++) + if (code.l & (1 << i)) + pr_list_item("%s", characteristics[i - 3]); +} + +static void dmi_bios_characteristics_x1(u8 code) +{ + /* 7.1.2.1 */ + static const char *characteristics[] = { + "ACPI is supported", /* 0 */ + "USB legacy is supported", + "AGP is supported", + "I2O boot is supported", + "LS-120 boot is supported", + "ATAPI Zip drive boot is supported", + "IEEE 1394 boot is supported", + "Smart battery is supported" /* 7 */ + }; + int i; + + for (i = 0; i <= 7; i++) + if (code & (1 << i)) + pr_list_item("%s", characteristics[i]); +} + +static void dmi_bios_characteristics_x2(u8 code) +{ + /* 37.1.2.2 */ + static const char *characteristics[] = { + "BIOS boot specification is supported", /* 0 */ + "Function key-initiated network boot is supported", + "Targeted content distribution is supported", + "UEFI is supported", + "System is a virtual machine", + "Manufacturing mode is supported", + "Manufacturing mode is enabled" /* 6 */ + }; + int i; + + for (i = 0; i <= 6; i++) + if (code & (1 << i)) + pr_list_item("%s", characteristics[i]); +} + +/* + * 7.2 System Information (Type 1) + */ + +static void dmi_system_uuid(void (*print_cb)(const char *name, const char *format, ...), + const char *attr, const u8 *p, u16 ver) +{ + int only0xFF = 1, only0x00 = 1; + int i; + + for (i = 0; i < 16 && (only0x00 || only0xFF); i++) + { + if (p[i] != 0x00) only0x00 = 0; + if (p[i] != 0xFF) only0xFF = 0; + } + + if (only0xFF) + { + if (print_cb) + print_cb(attr, "Not Present"); + else + printf("Not Present\n"); + return; + } + if (only0x00) + { + if (print_cb) + print_cb(attr, "Not Settable"); + else + printf("Not Settable\n"); + return; + } + + /* + * As of version 2.6 of the SMBIOS specification, the first 3 + * fields of the UUID are supposed to be encoded on little-endian. + * The specification says that this is the defacto standard, + * however I've seen systems following RFC 4122 instead and use + * network byte order, so I am reluctant to apply the byte-swapping + * for older versions. + */ + if (ver >= 0x0206) + { + if (print_cb) + print_cb(attr, + "%02x%02x%02x%02x-%02x%02x-%02x%02x-%02x%02x-%02x%02x%02x%02x%02x%02x", + p[3], p[2], p[1], p[0], p[5], p[4], p[7], p[6], + p[8], p[9], p[10], p[11], p[12], p[13], p[14], p[15]); + else + printf("%02x%02x%02x%02x-%02x%02x-%02x%02x-%02x%02x-%02x%02x%02x%02x%02x%02x\n", + p[3], p[2], p[1], p[0], p[5], p[4], p[7], p[6], + p[8], p[9], p[10], p[11], p[12], p[13], p[14], p[15]); + } + else + { + if (print_cb) + print_cb(attr, + "%02x%02x%02x%02x-%02x%02x-%02x%02x-%02x%02x-%02x%02x%02x%02x%02x%02x", + p[0], p[1], p[2], p[3], p[4], p[5], p[6], p[7], + p[8], p[9], p[10], p[11], p[12], p[13], p[14], p[15]); + else + printf("%02x%02x%02x%02x-%02x%02x-%02x%02x-%02x%02x-%02x%02x%02x%02x%02x%02x\n", + p[0], p[1], p[2], p[3], p[4], p[5], p[6], p[7], + p[8], p[9], p[10], p[11], p[12], p[13], p[14], p[15]); + } +} + +static const char *dmi_system_wake_up_type(u8 code) +{ + /* 7.2.2 */ + static const char *type[] = { + "Reserved", /* 0x00 */ + "Other", + "Unknown", + "APM Timer", + "Modem Ring", + "LAN Remote", + "Power Switch", + "PCI PME#", + "AC Power Restored" /* 0x08 */ + }; + + if (code <= 0x08) + return type[code]; + return out_of_spec; +} + +/* + * 7.3 Base Board Information (Type 2) + */ + +static void dmi_base_board_features(u8 code) +{ + /* 7.3.1 */ + static const char *features[] = { + "Board is a hosting board", /* 0 */ + "Board requires at least one daughter board", + "Board is removable", + "Board is replaceable", + "Board is hot swappable" /* 4 */ + }; + + if ((code & 0x1F) == 0) + pr_list_start("Features", "%s", "None"); + else + { + int i; + + pr_list_start("Features", NULL); + for (i = 0; i <= 4; i++) + if (code & (1 << i)) + pr_list_item("%s", features[i]); + } + pr_list_end(); +} + +static const char *dmi_base_board_type(u8 code) +{ + /* 7.3.2 */ + static const char *type[] = { + "Unknown", /* 0x01 */ + "Other", + "Server Blade", + "Connectivity Switch", + "System Management Module", + "Processor Module", + "I/O Module", + "Memory Module", + "Daughter Board", + "Motherboard", + "Processor+Memory Module", + "Processor+I/O Module", + "Interconnect Board" /* 0x0D */ + }; + + if (code >= 0x01 && code <= 0x0D) + return type[code - 0x01]; + return out_of_spec; +} + +static void dmi_base_board_handles(u8 count, const u8 *p) +{ + int i; + + pr_list_start("Contained Object Handles", "%u", count); + for (i = 0; i < count; i++) + pr_list_item("0x%04X", WORD(p + sizeof(u16) * i)); + pr_list_end(); +} + +/* + * 7.4 Chassis Information (Type 3) + */ + +static const char *dmi_chassis_type(u8 code) +{ + /* 7.4.1 */ + static const char *type[] = { + "Other", /* 0x01 */ + "Unknown", + "Desktop", + "Low Profile Desktop", + "Pizza Box", + "Mini Tower", + "Tower", + "Portable", + "Laptop", + "Notebook", + "Hand Held", + "Docking Station", + "All In One", + "Sub Notebook", + "Space-saving", + "Lunch Box", + "Main Server Chassis", /* CIM_Chassis.ChassisPackageType says "Main System Chassis" */ + "Expansion Chassis", + "Sub Chassis", + "Bus Expansion Chassis", + "Peripheral Chassis", + "RAID Chassis", + "Rack Mount Chassis", + "Sealed-case PC", + "Multi-system", + "CompactPCI", + "AdvancedTCA", + "Blade", + "Blade Enclosing", + "Tablet", + "Convertible", + "Detachable", + "IoT Gateway", + "Embedded PC", + "Mini PC", + "Stick PC" /* 0x24 */ + }; + + code &= 0x7F; /* bits 6:0 are chassis type, 7th bit is the lock bit */ + + if (code >= 0x01 && code <= 0x24) + return type[code - 0x01]; + return out_of_spec; +} + +static const char *dmi_chassis_lock(u8 code) +{ + static const char *lock[] = { + "Not Present", /* 0x00 */ + "Present" /* 0x01 */ + }; + + return lock[code]; +} + +static const char *dmi_chassis_state(u8 code) +{ + /* 7.4.2 */ + static const char *state[] = { + "Other", /* 0x01 */ + "Unknown", + "Safe", + "Warning", + "Critical", + "Non-recoverable" /* 0x06 */ + }; + + if (code >= 0x01 && code <= 0x06) + return state[code - 0x01]; + return out_of_spec; +} + +static const char *dmi_chassis_security_status(u8 code) +{ + /* 7.4.3 */ + static const char *status[] = { + "Other", /* 0x01 */ + "Unknown", + "None", + "External Interface Locked Out", + "External Interface Enabled" /* 0x05 */ + }; + + if (code >= 0x01 && code <= 0x05) + return status[code - 0x01]; + return out_of_spec; +} + +static void dmi_chassis_height(u8 code) +{ + if (code == 0x00) + pr_attr("Height", "Unspecified"); + else + pr_attr("Height", "%u U", code); +} + +static void dmi_chassis_power_cords(u8 code) +{ + if (code == 0x00) + pr_attr("Number Of Power Cords", "Unspecified"); + else + pr_attr("Number Of Power Cords", "%u", code); +} + +static void dmi_chassis_elements(u8 count, u8 len, const u8 *p) +{ + int i; + + pr_list_start("Contained Elements", "%u", count); + for (i = 0; i < count; i++) + { + if (len >= 0x03) + { + const char *type; + + type = (p[i * len] & 0x80) ? + dmi_smbios_structure_type(p[i * len] & 0x7F) : + dmi_base_board_type(p[i * len] & 0x7F); + + if (p[1 + i * len] == p[2 + i * len]) + pr_list_item("%s (%u)", type, p[1 + i * len]); + else + pr_list_item("%s (%u-%u)", type, p[1 + i * len], + p[2 + i * len]); + } + } + pr_list_end(); +} + +/* + * 7.5 Processor Information (Type 4) + */ + +static const char *dmi_processor_type(u8 code) +{ + /* 7.5.1 */ + static const char *type[] = { + "Other", /* 0x01 */ + "Unknown", + "Central Processor", + "Math Processor", + "DSP Processor", + "Video Processor" /* 0x06 */ + }; + + if (code >= 0x01 && code <= 0x06) + return type[code - 0x01]; + return out_of_spec; +} + +static const char *dmi_processor_family(const struct dmi_header *h, u16 ver) +{ + const u8 *data = h->data; + unsigned int i, low, high; + u16 code; + + /* 7.5.2 */ + static struct { + int value; + const char *name; + } family2[] = { + { 0x01, "Other" }, + { 0x02, "Unknown" }, + { 0x03, "8086" }, + { 0x04, "80286" }, + { 0x05, "80386" }, + { 0x06, "80486" }, + { 0x07, "8087" }, + { 0x08, "80287" }, + { 0x09, "80387" }, + { 0x0A, "80487" }, + { 0x0B, "Pentium" }, + { 0x0C, "Pentium Pro" }, + { 0x0D, "Pentium II" }, + { 0x0E, "Pentium MMX" }, + { 0x0F, "Celeron" }, + { 0x10, "Pentium II Xeon" }, + { 0x11, "Pentium III" }, + { 0x12, "M1" }, + { 0x13, "M2" }, + { 0x14, "Celeron M" }, + { 0x15, "Pentium 4 HT" }, + + { 0x18, "Duron" }, + { 0x19, "K5" }, + { 0x1A, "K6" }, + { 0x1B, "K6-2" }, + { 0x1C, "K6-3" }, + { 0x1D, "Athlon" }, + { 0x1E, "AMD29000" }, + { 0x1F, "K6-2+" }, + { 0x20, "Power PC" }, + { 0x21, "Power PC 601" }, + { 0x22, "Power PC 603" }, + { 0x23, "Power PC 603+" }, + { 0x24, "Power PC 604" }, + { 0x25, "Power PC 620" }, + { 0x26, "Power PC x704" }, + { 0x27, "Power PC 750" }, + { 0x28, "Core Duo" }, + { 0x29, "Core Duo Mobile" }, + { 0x2A, "Core Solo Mobile" }, + { 0x2B, "Atom" }, + { 0x2C, "Core M" }, + { 0x2D, "Core m3" }, + { 0x2E, "Core m5" }, + { 0x2F, "Core m7" }, + { 0x30, "Alpha" }, + { 0x31, "Alpha 21064" }, + { 0x32, "Alpha 21066" }, + { 0x33, "Alpha 21164" }, + { 0x34, "Alpha 21164PC" }, + { 0x35, "Alpha 21164a" }, + { 0x36, "Alpha 21264" }, + { 0x37, "Alpha 21364" }, + { 0x38, "Turion II Ultra Dual-Core Mobile M" }, + { 0x39, "Turion II Dual-Core Mobile M" }, + { 0x3A, "Athlon II Dual-Core M" }, + { 0x3B, "Opteron 6100" }, + { 0x3C, "Opteron 4100" }, + { 0x3D, "Opteron 6200" }, + { 0x3E, "Opteron 4200" }, + { 0x3F, "FX" }, + { 0x40, "MIPS" }, + { 0x41, "MIPS R4000" }, + { 0x42, "MIPS R4200" }, + { 0x43, "MIPS R4400" }, + { 0x44, "MIPS R4600" }, + { 0x45, "MIPS R10000" }, + { 0x46, "C-Series" }, + { 0x47, "E-Series" }, + { 0x48, "A-Series" }, + { 0x49, "G-Series" }, + { 0x4A, "Z-Series" }, + { 0x4B, "R-Series" }, + { 0x4C, "Opteron 4300" }, + { 0x4D, "Opteron 6300" }, + { 0x4E, "Opteron 3300" }, + { 0x4F, "FirePro" }, + { 0x50, "SPARC" }, + { 0x51, "SuperSPARC" }, + { 0x52, "MicroSPARC II" }, + { 0x53, "MicroSPARC IIep" }, + { 0x54, "UltraSPARC" }, + { 0x55, "UltraSPARC II" }, + { 0x56, "UltraSPARC IIi" }, + { 0x57, "UltraSPARC III" }, + { 0x58, "UltraSPARC IIIi" }, + + { 0x60, "68040" }, + { 0x61, "68xxx" }, + { 0x62, "68000" }, + { 0x63, "68010" }, + { 0x64, "68020" }, + { 0x65, "68030" }, + { 0x66, "Athlon X4" }, + { 0x67, "Opteron X1000" }, + { 0x68, "Opteron X2000" }, + { 0x69, "Opteron A-Series" }, + { 0x6A, "Opteron X3000" }, + { 0x6B, "Zen" }, + + { 0x70, "Hobbit" }, + + { 0x78, "Crusoe TM5000" }, + { 0x79, "Crusoe TM3000" }, + { 0x7A, "Efficeon TM8000" }, + + { 0x80, "Weitek" }, + + { 0x82, "Itanium" }, + { 0x83, "Athlon 64" }, + { 0x84, "Opteron" }, + { 0x85, "Sempron" }, + { 0x86, "Turion 64" }, + { 0x87, "Dual-Core Opteron" }, + { 0x88, "Athlon 64 X2" }, + { 0x89, "Turion 64 X2" }, + { 0x8A, "Quad-Core Opteron" }, + { 0x8B, "Third-Generation Opteron" }, + { 0x8C, "Phenom FX" }, + { 0x8D, "Phenom X4" }, + { 0x8E, "Phenom X2" }, + { 0x8F, "Athlon X2" }, + { 0x90, "PA-RISC" }, + { 0x91, "PA-RISC 8500" }, + { 0x92, "PA-RISC 8000" }, + { 0x93, "PA-RISC 7300LC" }, + { 0x94, "PA-RISC 7200" }, + { 0x95, "PA-RISC 7100LC" }, + { 0x96, "PA-RISC 7100" }, + + { 0xA0, "V30" }, + { 0xA1, "Quad-Core Xeon 3200" }, + { 0xA2, "Dual-Core Xeon 3000" }, + { 0xA3, "Quad-Core Xeon 5300" }, + { 0xA4, "Dual-Core Xeon 5100" }, + { 0xA5, "Dual-Core Xeon 5000" }, + { 0xA6, "Dual-Core Xeon LV" }, + { 0xA7, "Dual-Core Xeon ULV" }, + { 0xA8, "Dual-Core Xeon 7100" }, + { 0xA9, "Quad-Core Xeon 5400" }, + { 0xAA, "Quad-Core Xeon" }, + { 0xAB, "Dual-Core Xeon 5200" }, + { 0xAC, "Dual-Core Xeon 7200" }, + { 0xAD, "Quad-Core Xeon 7300" }, + { 0xAE, "Quad-Core Xeon 7400" }, + { 0xAF, "Multi-Core Xeon 7400" }, + { 0xB0, "Pentium III Xeon" }, + { 0xB1, "Pentium III Speedstep" }, + { 0xB2, "Pentium 4" }, + { 0xB3, "Xeon" }, + { 0xB4, "AS400" }, + { 0xB5, "Xeon MP" }, + { 0xB6, "Athlon XP" }, + { 0xB7, "Athlon MP" }, + { 0xB8, "Itanium 2" }, + { 0xB9, "Pentium M" }, + { 0xBA, "Celeron D" }, + { 0xBB, "Pentium D" }, + { 0xBC, "Pentium EE" }, + { 0xBD, "Core Solo" }, + /* 0xBE handled as a special case */ + { 0xBF, "Core 2 Duo" }, + { 0xC0, "Core 2 Solo" }, + { 0xC1, "Core 2 Extreme" }, + { 0xC2, "Core 2 Quad" }, + { 0xC3, "Core 2 Extreme Mobile" }, + { 0xC4, "Core 2 Duo Mobile" }, + { 0xC5, "Core 2 Solo Mobile" }, + { 0xC6, "Core i7" }, + { 0xC7, "Dual-Core Celeron" }, + { 0xC8, "IBM390" }, + { 0xC9, "G4" }, + { 0xCA, "G5" }, + { 0xCB, "ESA/390 G6" }, + { 0xCC, "z/Architecture" }, + { 0xCD, "Core i5" }, + { 0xCE, "Core i3" }, + { 0xCF, "Core i9" }, + + { 0xD2, "C7-M" }, + { 0xD3, "C7-D" }, + { 0xD4, "C7" }, + { 0xD5, "Eden" }, + { 0xD6, "Multi-Core Xeon" }, + { 0xD7, "Dual-Core Xeon 3xxx" }, + { 0xD8, "Quad-Core Xeon 3xxx" }, + { 0xD9, "Nano" }, + { 0xDA, "Dual-Core Xeon 5xxx" }, + { 0xDB, "Quad-Core Xeon 5xxx" }, + + { 0xDD, "Dual-Core Xeon 7xxx" }, + { 0xDE, "Quad-Core Xeon 7xxx" }, + { 0xDF, "Multi-Core Xeon 7xxx" }, + { 0xE0, "Multi-Core Xeon 3400" }, + + { 0xE4, "Opteron 3000" }, + { 0xE5, "Sempron II" }, + { 0xE6, "Embedded Opteron Quad-Core" }, + { 0xE7, "Phenom Triple-Core" }, + { 0xE8, "Turion Ultra Dual-Core Mobile" }, + { 0xE9, "Turion Dual-Core Mobile" }, + { 0xEA, "Athlon Dual-Core" }, + { 0xEB, "Sempron SI" }, + { 0xEC, "Phenom II" }, + { 0xED, "Athlon II" }, + { 0xEE, "Six-Core Opteron" }, + { 0xEF, "Sempron M" }, + + { 0xFA, "i860" }, + { 0xFB, "i960" }, + + { 0x100, "ARMv7" }, + { 0x101, "ARMv8" }, + { 0x104, "SH-3" }, + { 0x105, "SH-4" }, + { 0x118, "ARM" }, + { 0x119, "StrongARM" }, + { 0x12C, "6x86" }, + { 0x12D, "MediaGX" }, + { 0x12E, "MII" }, + { 0x140, "WinChip" }, + { 0x15E, "DSP" }, + { 0x1F4, "Video Processor" }, + + { 0x200, "RV32" }, + { 0x201, "RV64" }, + { 0x202, "RV128" }, + }; + /* + * Note to developers: when adding entries to this list, check if + * function dmi_processor_id below needs updating too. + */ + + /* Special case for ambiguous value 0x30 (SMBIOS 2.0 only) */ + if (ver == 0x0200 && data[0x06] == 0x30 && h->length >= 0x08) + { + const char *manufacturer = dmi_string(h, data[0x07]); + + if (strstr(manufacturer, "Intel") != NULL + || strncasecmp(manufacturer, "Intel", 5) == 0) + return "Pentium Pro"; + } + + code = (data[0x06] == 0xFE && h->length >= 0x2A) ? + WORD(data + 0x28) : data[0x06]; + + /* Special case for ambiguous value 0xBE */ + if (code == 0xBE) + { + if (h->length >= 0x08) + { + const char *manufacturer = dmi_string(h, data[0x07]); + + /* Best bet based on manufacturer string */ + if (strstr(manufacturer, "Intel") != NULL + || strncasecmp(manufacturer, "Intel", 5) == 0) + return "Core 2"; + if (strstr(manufacturer, "AMD") != NULL + || strncasecmp(manufacturer, "AMD", 3) == 0) + return "K7"; + } + + return "Core 2 or K7"; + } + + /* Perform a binary search */ + low = 0; + high = ARRAY_SIZE(family2) - 1; + + while (1) + { + i = (low + high) / 2; + if (family2[i].value == code) + return family2[i].name; + if (low == high) /* Not found */ + return out_of_spec; + + if (code < family2[i].value) + high = i; + else + low = i + 1; + } +} + +static enum cpuid_type dmi_get_cpuid_type(const struct dmi_header *h) +{ + const u8 *data = h->data; + const u8 *p = data + 0x08; + u16 type; + + type = (data[0x06] == 0xFE && h->length >= 0x2A) ? + WORD(data + 0x28) : data[0x06]; + + if (type == 0x05) /* 80386 */ + { + return cpuid_80386; + } + else if (type == 0x06) /* 80486 */ + { + u16 dx = WORD(p); + /* + * Not all 80486 CPU support the CPUID instruction, we have to find + * whether the one we have here does or not. Note that this trick + * works only because we know that 80486 must be little-endian. + */ + if ((dx & 0x0F00) == 0x0400 + && ((dx & 0x00F0) == 0x0040 || (dx & 0x00F0) >= 0x0070) + && ((dx & 0x000F) >= 0x0003)) + return cpuid_x86_intel; + else + return cpuid_80486; + } + else if ((type >= 0x100 && type <= 0x101) /* ARM */ + || (type >= 0x118 && type <= 0x119)) /* ARM */ + { + /* + * The field's format depends on the processor's support of + * the SMCCC_ARCH_SOC_ID architectural call. Software can determine + * the support for SoC ID by examining the Processor Characteristics field + * for "Arm64 SoC ID" bit. + */ + if (h->length >= 0x28 + && (WORD(data + 0x26) & (1 << 9))) + return cpuid_arm_soc_id; + else + return cpuid_arm_legacy; + } + else if ((type >= 0x0B && type <= 0x15) /* Intel, Cyrix */ + || (type >= 0x28 && type <= 0x2F) /* Intel */ + || (type >= 0xA1 && type <= 0xB3) /* Intel */ + || type == 0xB5 /* Intel */ + || (type >= 0xB9 && type <= 0xC7) /* Intel */ + || (type >= 0xCD && type <= 0xCF) /* Intel */ + || (type >= 0xD2 && type <= 0xDB) /* VIA, Intel */ + || (type >= 0xDD && type <= 0xE0)) /* Intel */ + return cpuid_x86_intel; + else if ((type >= 0x18 && type <= 0x1D) /* AMD */ + || type == 0x1F /* AMD */ + || (type >= 0x38 && type <= 0x3F) /* AMD */ + || (type >= 0x46 && type <= 0x4F) /* AMD */ + || (type >= 0x66 && type <= 0x6B) /* AMD */ + || (type >= 0x83 && type <= 0x8F) /* AMD */ + || (type >= 0xB6 && type <= 0xB7) /* AMD */ + || (type >= 0xE4 && type <= 0xEF)) /* AMD */ + return cpuid_x86_amd; + + /* neither X86 nor ARM */ + return cpuid_none; +} + +void dmi_print_cpuid(void (*print_cb)(const char *name, const char *format, ...), + const char *label, enum cpuid_type sig, const u8 *p) +{ + u32 eax, midr, jep106, soc_revision; + u16 dx; + + switch (sig) + { + case cpuid_80386: + dx = WORD(p); + /* + * 80386 have a different signature. + */ + print_cb(label, + "Type %u, Family %u, Major Stepping %u, Minor Stepping %u", + dx >> 12, (dx >> 8) & 0xF, + (dx >> 4) & 0xF, dx & 0xF); + return; + + case cpuid_80486: + dx = WORD(p); + print_cb(label, + "Type %u, Family %u, Model %u, Stepping %u", + (dx >> 12) & 0x3, (dx >> 8) & 0xF, + (dx >> 4) & 0xF, dx & 0xF); + return; + + case cpuid_arm_legacy: /* ARM before SOC ID */ + midr = DWORD(p); + /* + * The format of this field was not defined for ARM processors + * before version 3.1.0 of the SMBIOS specification, so we + * silently skip it if it reads all zeroes. + */ + if (midr == 0) + return; + print_cb(label, + "Implementor 0x%02x, Variant 0x%x, Architecture %u, Part 0x%03x, Revision %u", + midr >> 24, (midr >> 20) & 0xF, + (midr >> 16) & 0xF, (midr >> 4) & 0xFFF, midr & 0xF); + return; + + case cpuid_arm_soc_id: /* ARM with SOC ID */ + /* + * If Soc ID is supported, the first DWORD is the JEP-106 code; + * the second DWORD is the SoC revision value. + */ + jep106 = DWORD(p); + soc_revision = DWORD(p + 4); + /* + * According to SMC Calling Convention (SMCCC) v1.3 specification + * (https://developer.arm.com/documentation/den0028/d/), the format + * of the values returned by the SMCCC_ARCH_SOC_ID call is as follows: + * + * JEP-106 code for the SiP (SoC_ID_type == 0) + * Bit[31] must be zero + * Bits[30:24] JEP-106 bank index for the SiP + * Bits[23:16] JEP-106 identification code with parity bit for the SiP + * Bits[15:0] Implementation defined SoC ID + * + * SoC revision (SoC_ID_type == 1) + * Bit[31] must be zero + * Bits[30:0] SoC revision + */ + pr_attr("Signature", + "JEP-106 Bank 0x%02x Manufacturer 0x%02x, SoC ID 0x%04x, SoC Revision 0x%08x", + (jep106 >> 24) & 0x7F, (jep106 >> 16) & 0x7F, jep106 & 0xFFFF, soc_revision); + return; + + case cpuid_x86_intel: /* Intel */ + eax = DWORD(p); + /* + * Extra flags are now returned in the ECX register when + * one calls the CPUID instruction. Their meaning is + * explained in table 3-5, but DMI doesn't support this + * yet. + */ + print_cb(label, + "Type %u, Family %u, Model %u, Stepping %u", + (eax >> 12) & 0x3, + ((eax >> 20) & 0xFF) + ((eax >> 8) & 0x0F), + ((eax >> 12) & 0xF0) + ((eax >> 4) & 0x0F), + eax & 0xF); + break; + + case cpuid_x86_amd: /* AMD, publication #25481 revision 2.28 */ + eax = DWORD(p); + print_cb(label, "Family %u, Model %u, Stepping %u", + ((eax >> 8) & 0xF) + (((eax >> 8) & 0xF) == 0xF ? (eax >> 20) & 0xFF : 0), + ((eax >> 4) & 0xF) | (((eax >> 8) & 0xF) == 0xF ? (eax >> 12) & 0xF0 : 0), + eax & 0xF); + break; + default: + return; + } +} + +static void dmi_processor_id(const struct dmi_header *h) +{ + /* Intel AP-485 revision 36, table 2-4 */ + static const char *flags[32] = { + "FPU (Floating-point unit on-chip)", /* 0 */ + "VME (Virtual mode extension)", + "DE (Debugging extension)", + "PSE (Page size extension)", + "TSC (Time stamp counter)", + "MSR (Model specific registers)", + "PAE (Physical address extension)", + "MCE (Machine check exception)", + "CX8 (CMPXCHG8 instruction supported)", + "APIC (On-chip APIC hardware supported)", + NULL, /* 10 */ + "SEP (Fast system call)", + "MTRR (Memory type range registers)", + "PGE (Page global enable)", + "MCA (Machine check architecture)", + "CMOV (Conditional move instruction supported)", + "PAT (Page attribute table)", + "PSE-36 (36-bit page size extension)", + "PSN (Processor serial number present and enabled)", + "CLFSH (CLFLUSH instruction supported)", + NULL, /* 20 */ + "DS (Debug store)", + "ACPI (ACPI supported)", + "MMX (MMX technology supported)", + "FXSR (FXSAVE and FXSTOR instructions supported)", + "SSE (Streaming SIMD extensions)", + "SSE2 (Streaming SIMD extensions 2)", + "SS (Self-snoop)", + "HTT (Multi-threading)", + "TM (Thermal monitor supported)", + NULL, /* 30 */ + "PBE (Pending break enabled)" /* 31 */ + }; + const u8 *data = h->data; + const u8 *p = data + 0x08; + enum cpuid_type sig = dmi_get_cpuid_type(h); + u32 edx; + + /* + * This might help learn about new processors supporting the + * CPUID instruction or another form of identification. + */ + if (!(opt.flags & FLAG_QUIET)) + pr_attr("ID", "%02X %02X %02X %02X %02X %02X %02X %02X", + p[0], p[1], p[2], p[3], p[4], p[5], p[6], p[7]); + + dmi_print_cpuid(pr_attr, "Signature", sig, p); + + if (sig != cpuid_x86_intel && sig != cpuid_x86_amd) + return; + + edx = DWORD(p + 4); + if ((edx & 0xBFEFFBFF) == 0) + pr_list_start("Flags", "None"); + else + { + int i; + + pr_list_start("Flags", NULL); + for (i = 0; i <= 31; i++) + if (flags[i] != NULL && edx & (1 << i)) + pr_list_item("%s", flags[i]); + } + pr_list_end(); +} + +static void dmi_processor_voltage(const char *attr, u8 code) +{ + /* 7.5.4 */ + static const char *voltage[] = { + "5.0 V", /* 0 */ + "3.3 V", + "2.9 V" /* 2 */ + }; + int i; + + if (code & 0x80) + pr_attr(attr, "%.1f V", (float)(code & 0x7f) / 10); + else if ((code & 0x07) == 0x00) + pr_attr(attr, "Unknown"); + else + { + char voltage_str[18]; + int off = 0; + + for (i = 0; i <= 2; i++) + { + if (code & (1 << i)) + { + /* Insert space if not the first value */ + off += sprintf(voltage_str + off, + off ? " %s" :"%s", + voltage[i]); + } + } + if (off) + pr_attr(attr, voltage_str); + } +} + +static void dmi_processor_frequency(const char *attr, const u8 *p) +{ + u16 code = WORD(p); + + if (code) + { + if (attr) + pr_attr(attr, "%u MHz", code); + else + printf("%u MHz\n", code); + } + else + { + if (attr) + pr_attr(attr, "Unknown"); + else + printf("Unknown\n"); + } +} + +/* code is assumed to be a 3-bit value */ +static const char *dmi_processor_status(u8 code) +{ + static const char *status[] = { + "Unknown", /* 0x00 */ + "Enabled", + "Disabled By User", + "Disabled By BIOS", + "Idle", /* 0x04 */ + out_of_spec, + out_of_spec, + "Other" /* 0x07 */ + }; + + return status[code]; +} + +static const char *dmi_processor_upgrade(u8 code) +{ + /* 7.5.5 */ + static const char *upgrade[] = { + "Other", /* 0x01 */ + "Unknown", + "Daughter Board", + "ZIF Socket", + "Replaceable Piggy Back", + "None", + "LIF Socket", + "Slot 1", + "Slot 2", + "370-pin Socket", + "Slot A", + "Slot M", + "Socket 423", + "Socket A (Socket 462)", + "Socket 478", + "Socket 754", + "Socket 940", + "Socket 939", + "Socket mPGA604", + "Socket LGA771", + "Socket LGA775", + "Socket S1", + "Socket AM2", + "Socket F (1207)", + "Socket LGA1366", + "Socket G34", + "Socket AM3", + "Socket C32", + "Socket LGA1156", + "Socket LGA1567", + "Socket PGA988A", + "Socket BGA1288", + "Socket rPGA988B", + "Socket BGA1023", + "Socket BGA1224", + "Socket BGA1155", + "Socket LGA1356", + "Socket LGA2011", + "Socket FS1", + "Socket FS2", + "Socket FM1", + "Socket FM2", + "Socket LGA2011-3", + "Socket LGA1356-3", + "Socket LGA1150", + "Socket BGA1168", + "Socket BGA1234", + "Socket BGA1364", + "Socket AM4", + "Socket LGA1151", + "Socket BGA1356", + "Socket BGA1440", + "Socket BGA1515", + "Socket LGA3647-1", + "Socket SP3", + "Socket SP3r2", + "Socket LGA2066", + "Socket BGA1392", + "Socket BGA1510", + "Socket BGA1528", + "Socket LGA4189", + "Socket LGA1200", + "Socket LGA4677" /* 0x3F */ + }; + + if (code >= 0x01 && code <= 0x3F) + return upgrade[code - 0x01]; + return out_of_spec; +} + +static void dmi_processor_cache(const char *attr, u16 code, const char *level, + u16 ver) +{ + if (code == 0xFFFF) + { + if (ver >= 0x0203) + pr_attr(attr, "Not Provided"); + else + pr_attr(attr, "No %s Cache", level); + } + else + pr_attr(attr, "0x%04X", code); +} + +static void dmi_processor_characteristics(const char *attr, u16 code) +{ + /* 7.5.9 */ + static const char *characteristics[] = { + "64-bit capable", /* 2 */ + "Multi-Core", + "Hardware Thread", + "Execute Protection", + "Enhanced Virtualization", + "Power/Performance Control", + "128-bit Capable", + "Arm64 SoC ID" /* 9 */ + }; + + if ((code & 0x00FC) == 0) + pr_attr(attr, "None"); + else + { + int i; + + pr_list_start(attr, NULL); + for (i = 2; i <= 9; i++) + if (code & (1 << i)) + pr_list_item("%s", characteristics[i - 2]); + pr_list_end(); + } +} + +/* + * 7.6 Memory Controller Information (Type 5) + */ + +static const char *dmi_memory_controller_ed_method(u8 code) +{ + /* 7.6.1 */ + static const char *method[] = { + "Other", /* 0x01 */ + "Unknown", + "None", + "8-bit Parity", + "32-bit ECC", + "64-bit ECC", + "128-bit ECC", + "CRC" /* 0x08 */ + }; + + if (code >= 0x01 && code <= 0x08) + return method[code - 0x01]; + return out_of_spec; +} + +static void dmi_memory_controller_ec_capabilities(const char *attr, u8 code) +{ + /* 7.6.2 */ + static const char *capabilities[] = { + "Other", /* 0 */ + "Unknown", + "None", + "Single-bit Error Correcting", + "Double-bit Error Correcting", + "Error Scrubbing" /* 5 */ + }; + + if ((code & 0x3F) == 0) + pr_attr(attr, "None"); + else + { + int i; + + pr_list_start(attr, NULL); + for (i = 0; i <= 5; i++) + if (code & (1 << i)) + pr_list_item("%s", capabilities[i]); + pr_list_end(); + } +} + +static const char *dmi_memory_controller_interleave(u8 code) +{ + /* 7.6.3 */ + static const char *interleave[] = { + "Other", /* 0x01 */ + "Unknown", + "One-way Interleave", + "Two-way Interleave", + "Four-way Interleave", + "Eight-way Interleave", + "Sixteen-way Interleave" /* 0x07 */ + }; + + if (code >= 0x01 && code <= 0x07) + return interleave[code - 0x01]; + return out_of_spec; +} + +static void dmi_memory_controller_speeds(const char *attr, u16 code) +{ + /* 7.6.4 */ + const char *speeds[] = { + "Other", /* 0 */ + "Unknown", + "70 ns", + "60 ns", + "50 ns" /* 4 */ + }; + + if ((code & 0x001F) == 0) + pr_attr(attr, "None"); + else + { + int i; + + pr_list_start(attr, NULL); + for (i = 0; i <= 4; i++) + if (code & (1 << i)) + pr_list_item("%s", speeds[i]); + pr_list_end(); + } +} + +static void dmi_memory_controller_slots(u8 count, const u8 *p) +{ + int i; + + pr_list_start("Associated Memory Slots", "%u", count); + for (i = 0; i < count; i++) + pr_list_item("0x%04X", WORD(p + sizeof(u16) * i)); + pr_list_end(); +} + +/* + * 7.7 Memory Module Information (Type 6) + */ + +static void dmi_memory_module_types(const char *attr, u16 code, int flat) +{ + /* 7.7.1 */ + static const char *types[] = { + "Other", /* 0 */ + "Unknown", + "Standard", + "FPM", + "EDO", + "Parity", + "ECC", + "SIMM", + "DIMM", + "Burst EDO", + "SDRAM" /* 10 */ + }; + + if ((code & 0x07FF) == 0) + pr_attr(attr, "None"); + else if (flat) + { + char type_str[68]; + int i, off = 0; + + for (i = 0; i <= 10; i++) + { + if (code & (1 << i)) + { + /* Insert space if not the first value */ + off += sprintf(type_str + off, + off ? " %s" :"%s", + types[i]); + } + } + if (off) + pr_attr(attr, type_str); + } + else + { + int i; + + pr_list_start(attr, NULL); + for (i = 0; i <= 10; i++) + if (code & (1 << i)) + pr_list_item("%s", types[i]); + pr_list_end(); + } +} + +static void dmi_memory_module_connections(u8 code) +{ + if (code == 0xFF) + pr_attr("Bank Connections", "None"); + else if ((code & 0xF0) == 0xF0) + pr_attr("Bank Connections", "%u", code & 0x0F); + else if ((code & 0x0F) == 0x0F) + pr_attr("Bank Connections", "%u", code >> 4); + else + pr_attr("Bank Connections", "%u %u", code >> 4, code & 0x0F); +} + +static void dmi_memory_module_speed(const char *attr, u8 code) +{ + if (code == 0) + pr_attr(attr, "Unknown"); + else + pr_attr(attr, "%u ns", code); +} + +static void dmi_memory_module_size(const char *attr, u8 code) +{ + const char *connection; + + /* 7.7.2 */ + if (code & 0x80) + connection = " (Double-bank Connection)"; + else + connection = " (Single-bank Connection)"; + + switch (code & 0x7F) + { + case 0x7D: + pr_attr(attr, "Not Determinable%s", connection); + break; + case 0x7E: + pr_attr(attr, "Disabled%s", connection); + break; + case 0x7F: + pr_attr(attr, "Not Installed"); + return; + default: + pr_attr(attr, "%u MB%s", 1 << (code & 0x7F), + connection); + } +} + +static void dmi_memory_module_error(u8 code) +{ + static const char *status[] = { + "OK", /* 0x00 */ + "Uncorrectable Errors", + "Correctable Errors", + "Correctable and Uncorrectable Errors" /* 0x03 */ + }; + + if (code & (1 << 2)) + pr_attr("Error Status", "See Event Log"); + else + pr_attr("Error Status", "%s", status[code & 0x03]); +} + +/* + * 7.8 Cache Information (Type 7) + */ + +static const char *dmi_cache_mode(u8 code) +{ + static const char *mode[] = { + "Write Through", /* 0x00 */ + "Write Back", + "Varies With Memory Address", + "Unknown" /* 0x03 */ + }; + + return mode[code]; +} + +/* code is assumed to be a 2-bit value */ +static const char *dmi_cache_location(u8 code) +{ + static const char *location[4] = { + "Internal", /* 0x00 */ + "External", + out_of_spec, /* 0x02 */ + "Unknown" /* 0x03 */ + }; + + return location[code]; +} + +static void dmi_cache_size_2(const char *attr, u32 code) +{ + u64 size; + + if (code & 0x80000000) + { + code &= 0x7FFFFFFFLU; + size.l = code << 6; + size.h = code >> 26; + } + else + { + size.l = code; + size.h = 0; + } + + /* Use a more convenient unit for large cache size */ + dmi_print_memory_size(attr, size, 1); +} + +static void dmi_cache_size(const char *attr, u16 code) +{ + dmi_cache_size_2(attr, + (((u32)code & 0x8000LU) << 16) | (code & 0x7FFFLU)); +} + +static void dmi_cache_types(const char *attr, u16 code, int flat) +{ + /* 7.8.2 */ + static const char *types[] = { + "Other", /* 0 */ + "Unknown", + "Non-burst", + "Burst", + "Pipeline Burst", + "Synchronous", + "Asynchronous" /* 6 */ + }; + + if ((code & 0x007F) == 0) + pr_attr(attr, "None"); + else if (flat) + { + char type_str[70]; + int i, off = 0; + + for (i = 0; i <= 6; i++) + { + if (code & (1 << i)) + { + /* Insert space if not the first value */ + off += sprintf(type_str + off, + off ? " %s" :"%s", + types[i]); + } + } + if (off) + pr_attr(attr, type_str); + } + else + { + int i; + + pr_list_start(attr, NULL); + for (i = 0; i <= 6; i++) + if (code & (1 << i)) + pr_list_item("%s", types[i]); + pr_list_end(); + } +} + +static const char *dmi_cache_ec_type(u8 code) +{ + /* 7.8.3 */ + static const char *type[] = { + "Other", /* 0x01 */ + "Unknown", + "None", + "Parity", + "Single-bit ECC", + "Multi-bit ECC" /* 0x06 */ + }; + + if (code >= 0x01 && code <= 0x06) + return type[code - 0x01]; + return out_of_spec; +} + +static const char *dmi_cache_type(u8 code) +{ + /* 7.8.4 */ + static const char *type[] = { + "Other", /* 0x01 */ + "Unknown", + "Instruction", + "Data", + "Unified" /* 0x05 */ + }; + + if (code >= 0x01 && code <= 0x05) + return type[code - 0x01]; + return out_of_spec; +} + +static const char *dmi_cache_associativity(u8 code) +{ + /* 7.8.5 */ + static const char *type[] = { + "Other", /* 0x01 */ + "Unknown", + "Direct Mapped", + "2-way Set-associative", + "4-way Set-associative", + "Fully Associative", + "8-way Set-associative", + "16-way Set-associative", + "12-way Set-associative", + "24-way Set-associative", + "32-way Set-associative", + "48-way Set-associative", + "64-way Set-associative", + "20-way Set-associative" /* 0x0E */ + }; + + if (code >= 0x01 && code <= 0x0E) + return type[code - 0x01]; + return out_of_spec; +} + +/* + * 7.9 Port Connector Information (Type 8) + */ + +static const char *dmi_port_connector_type(u8 code) +{ + /* 7.9.2 */ + static const char *type[] = { + "None", /* 0x00 */ + "Centronics", + "Mini Centronics", + "Proprietary", + "DB-25 male", + "DB-25 female", + "DB-15 male", + "DB-15 female", + "DB-9 male", + "DB-9 female", + "RJ-11", + "RJ-45", + "50 Pin MiniSCSI", + "Mini DIN", + "Micro DIN", + "PS/2", + "Infrared", + "HP-HIL", + "Access Bus (USB)", + "SSA SCSI", + "Circular DIN-8 male", + "Circular DIN-8 female", + "On Board IDE", + "On Board Floppy", + "9 Pin Dual Inline (pin 10 cut)", + "25 Pin Dual Inline (pin 26 cut)", + "50 Pin Dual Inline", + "68 Pin Dual Inline", + "On Board Sound Input From CD-ROM", + "Mini Centronics Type-14", + "Mini Centronics Type-26", + "Mini Jack (headphones)", + "BNC", + "IEEE 1394", + "SAS/SATA Plug Receptacle", + "USB Type-C Receptacle" /* 0x23 */ + }; + static const char *type_0xA0[] = { + "PC-98", /* 0xA0 */ + "PC-98 Hireso", + "PC-H98", + "PC-98 Note", + "PC-98 Full" /* 0xA4 */ + }; + + if (code <= 0x23) + return type[code]; + if (code >= 0xA0 && code <= 0xA4) + return type_0xA0[code - 0xA0]; + if (code == 0xFF) + return "Other"; + return out_of_spec; +} + +static const char *dmi_port_type(u8 code) +{ + /* 7.9.3 */ + static const char *type[] = { + "None", /* 0x00 */ + "Parallel Port XT/AT Compatible", + "Parallel Port PS/2", + "Parallel Port ECP", + "Parallel Port EPP", + "Parallel Port ECP/EPP", + "Serial Port XT/AT Compatible", + "Serial Port 16450 Compatible", + "Serial Port 16550 Compatible", + "Serial Port 16550A Compatible", + "SCSI Port", + "MIDI Port", + "Joystick Port", + "Keyboard Port", + "Mouse Port", + "SSA SCSI", + "USB", + "Firewire (IEEE P1394)", + "PCMCIA Type I", + "PCMCIA Type II", + "PCMCIA Type III", + "Cardbus", + "Access Bus Port", + "SCSI II", + "SCSI Wide", + "PC-98", + "PC-98 Hireso", + "PC-H98", + "Video Port", + "Audio Port", + "Modem Port", + "Network Port", + "SATA", + "SAS" /* 0x21 */ + }; + static const char *type_0xA0[] = { + "8251 Compatible", /* 0xA0 */ + "8251 FIFO Compatible" /* 0xA1 */ + }; + + if (code <= 0x21) + return type[code]; + if (code >= 0xA0 && code <= 0xA1) + return type_0xA0[code - 0xA0]; + if (code == 0xFF) + return "Other"; + return out_of_spec; +} + +/* + * 7.10 System Slots (Type 9) + */ + +static const char *dmi_slot_type(u8 code) +{ + /* 7.10.1 */ + static const char *type[] = { + "Other", /* 0x01 */ + "Unknown", + "ISA", + "MCA", + "EISA", + "PCI", + "PC Card (PCMCIA)", + "VLB", + "Proprietary", + "Processor Card", + "Proprietary Memory Card", + "I/O Riser Card", + "NuBus", + "PCI-66", + "AGP", + "AGP 2x", + "AGP 4x", + "PCI-X", + "AGP 8x", + "M.2 Socket 1-DP", + "M.2 Socket 1-SD", + "M.2 Socket 2", + "M.2 Socket 3", + "MXM Type I", + "MXM Type II", + "MXM Type III", + "MXM Type III-HE", + "MXM Type IV", + "MXM 3.0 Type A", + "MXM 3.0 Type B", + "PCI Express 2 SFF-8639 (U.2)", + "PCI Express 3 SFF-8639 (U.2)", + "PCI Express Mini 52-pin with bottom-side keep-outs", + "PCI Express Mini 52-pin without bottom-side keep-outs", + "PCI Express Mini 76-pin", + "PCI Express 4 SFF-8639 (U.2)", + "PCI Express 5 SFF-8639 (U.2)", + "OCP NIC 3.0 Small Form Factor (SFF)", + "OCP NIC 3.0 Large Form Factor (LFF)", + "OCP NIC Prior to 3.0" /* 0x28 */ + }; + static const char *type_0x30[] = { + "CXL FLexbus 1.0" /* 0x30 */ + }; + static const char *type_0xA0[] = { + "PC-98/C20", /* 0xA0 */ + "PC-98/C24", + "PC-98/E", + "PC-98/Local Bus", + "PC-98/Card", + "PCI Express", + "PCI Express x1", + "PCI Express x2", + "PCI Express x4", + "PCI Express x8", + "PCI Express x16", + "PCI Express 2", + "PCI Express 2 x1", + "PCI Express 2 x2", + "PCI Express 2 x4", + "PCI Express 2 x8", + "PCI Express 2 x16", + "PCI Express 3", + "PCI Express 3 x1", + "PCI Express 3 x2", + "PCI Express 3 x4", + "PCI Express 3 x8", + "PCI Express 3 x16", + out_of_spec, /* 0xB7 */ + "PCI Express 4", + "PCI Express 4 x1", + "PCI Express 4 x2", + "PCI Express 4 x4", + "PCI Express 4 x8", + "PCI Express 4 x16", + "PCI Express 5", + "PCI Express 5 x1", + "PCI Express 5 x2", + "PCI Express 5 x4", + "PCI Express 5 x8", + "PCI Express 5 x16", + "PCI Express 6+", + "EDSFF E1", + "EDSFF E3" /* 0xC6 */ + }; + /* + * Note to developers: when adding entries to these lists, check if + * function dmi_slot_id below needs updating too. + */ + + if (code >= 0x01 && code <= 0x28) + return type[code - 0x01]; + if (code == 0x30) + return type_0x30[code - 0x30]; + if (code >= 0xA0 && code <= 0xC6) + return type_0xA0[code - 0xA0]; + return out_of_spec; +} + +/* If hide_unknown is set, return NULL instead of "Other" or "Unknown" */ +static const char *dmi_slot_bus_width(u8 code, int hide_unknown) +{ + /* 7.10.2 */ + static const char *width[] = { + "Other", /* 0x01 */ + "Unknown", + "8-bit", + "16-bit", + "32-bit", + "64-bit", + "128-bit", + "x1", + "x2", + "x4", + "x8", + "x12", + "x16", + "x32" /* 0x0E */ + }; + + if (code >= 0x01 && code <= 0x0E) + { + if (code <= 0x02 && hide_unknown) + return NULL; + return width[code - 0x01]; + } + return out_of_spec; +} + +static void dmi_slot_type_with_width(u8 type, u8 width) +{ + const char *type_str, *width_str; + + type_str = dmi_slot_type(type); + width_str = dmi_slot_bus_width(width, 1); + + if (width_str) + pr_attr("Type", "%s %s", width_str, type_str); + else + pr_attr("Type", "%s", type_str); +} + +static const char *dmi_slot_current_usage(u8 code) +{ + /* 7.10.3 */ + static const char *usage[] = { + "Other", /* 0x01 */ + "Unknown", + "Available", + "In Use", + "Unavailable" /* 0x05 */ + }; + + if (code >= 0x01 && code <= 0x05) + return usage[code - 0x01]; + return out_of_spec; +} + +static const char *dmi_slot_length(u8 code) +{ + /* 7.10.4 */ + static const char *length[] = { + "Other", /* 0x01 */ + "Unknown", + "Short", + "Long", + "2.5\" drive form factor", + "3.5\" drive form factor" /* 0x06 */ + }; + + if (code >= 0x01 && code <= 0x06) + return length[code - 0x01]; + return out_of_spec; +} + +static void dmi_slot_id(u8 code1, u8 code2, u8 type) +{ + /* 7.10.5 */ + switch (type) + { + case 0x04: /* MCA */ + pr_attr("ID", "%u", code1); + break; + case 0x05: /* EISA */ + pr_attr("ID", "%u", code1); + break; + case 0x06: /* PCI */ + case 0x0E: /* PCI */ + case 0x0F: /* AGP */ + case 0x10: /* AGP */ + case 0x11: /* AGP */ + case 0x12: /* PCI-X */ + case 0x13: /* AGP */ + case 0x1F: /* PCI Express 2 */ + case 0x20: /* PCI Express 3 */ + case 0x21: /* PCI Express Mini */ + case 0x22: /* PCI Express Mini */ + case 0x23: /* PCI Express Mini */ + case 0xA5: /* PCI Express */ + case 0xA6: /* PCI Express */ + case 0xA7: /* PCI Express */ + case 0xA8: /* PCI Express */ + case 0xA9: /* PCI Express */ + case 0xAA: /* PCI Express */ + case 0xAB: /* PCI Express 2 */ + case 0xAC: /* PCI Express 2 */ + case 0xAD: /* PCI Express 2 */ + case 0xAE: /* PCI Express 2 */ + case 0xAF: /* PCI Express 2 */ + case 0xB0: /* PCI Express 2 */ + case 0xB1: /* PCI Express 3 */ + case 0xB2: /* PCI Express 3 */ + case 0xB3: /* PCI Express 3 */ + case 0xB4: /* PCI Express 3 */ + case 0xB5: /* PCI Express 3 */ + case 0xB6: /* PCI Express 3 */ + case 0xB8: /* PCI Express 4 */ + case 0xB9: /* PCI Express 4 */ + case 0xBA: /* PCI Express 4 */ + case 0xBB: /* PCI Express 4 */ + case 0xBC: /* PCI Express 4 */ + case 0xBD: /* PCI Express 4 */ + case 0xBE: /* PCI Express 5 */ + case 0xBF: /* PCI Express 5 */ + case 0xC0: /* PCI Express 5 */ + case 0xC1: /* PCI Express 5 */ + case 0xC2: /* PCI Express 5 */ + case 0xC3: /* PCI Express 5 */ + case 0xC4: /* PCI Express 6+ */ + pr_attr("ID", "%u", code1); + break; + case 0x07: /* PCMCIA */ + pr_attr("ID", "Adapter %u, Socket %u", code1, code2); + break; + } +} + +static void dmi_slot_characteristics(const char *attr, u8 code1, u8 code2) +{ + /* 7.10.6 */ + static const char *characteristics1[] = { + "5.0 V is provided", /* 1 */ + "3.3 V is provided", + "Opening is shared", + "PC Card-16 is supported", + "Cardbus is supported", + "Zoom Video is supported", + "Modem ring resume is supported" /* 7 */ + }; + /* 7.10.7 */ + static const char *characteristics2[] = { + "PME signal is supported", /* 0 */ + "Hot-plug devices are supported", + "SMBus signal is supported", + "PCIe slot bifurcation is supported", + "Async/surprise removal is supported", + "Flexbus slot, CXL 1.0 capable", + "Flexbus slot, CXL 2.0 capable" /* 6 */ + }; + + if (code1 & (1 << 0)) + pr_attr(attr, "Unknown"); + else if ((code1 & 0xFE) == 0 && (code2 & 0x07) == 0) + pr_attr(attr, "None"); + else + { + int i; + + pr_list_start(attr, NULL); + for (i = 1; i <= 7; i++) + if (code1 & (1 << i)) + pr_list_item("%s", characteristics1[i - 1]); + for (i = 0; i <= 6; i++) + if (code2 & (1 << i)) + pr_list_item("%s", characteristics2[i]); + pr_list_end(); + } +} + +static void dmi_slot_segment_bus_func(u16 code1, u8 code2, u8 code3) +{ + /* 7.10.8 */ + if (!(code1 == 0xFFFF && code2 == 0xFF && code3 == 0xFF)) + pr_attr("Bus Address", "%04x:%02x:%02x.%x", + code1, code2, code3 >> 3, code3 & 0x7); +} + +static void dmi_slot_peers(u8 n, const u8 *data) +{ + char attr[16]; + int i; + + for (i = 1; i <= n; i++, data += 5) + { + sprintf(attr, "Peer Device %hhu", (u8)i); + pr_attr(attr, "%04x:%02x:%02x.%x (Width %u)", + WORD(data), data[2], data[3] >> 3, data[3] & 0x07, + data[4]); + } +} + +static void dmi_slot_information(u8 type, u8 code) +{ + switch (type) + { + case 0x1F: /* PCI Express 2 */ + case 0x20: /* PCI Express 3 */ + case 0x21: /* PCI Express Mini */ + case 0x22: /* PCI Express Mini */ + case 0x23: /* PCI Express Mini */ + case 0xA5: /* PCI Express */ + case 0xA6: /* PCI Express */ + case 0xA7: /* PCI Express */ + case 0xA8: /* PCI Express */ + case 0xA9: /* PCI Express */ + case 0xAA: /* PCI Express */ + case 0xAB: /* PCI Express 2 */ + case 0xAC: /* PCI Express 2 */ + case 0xAD: /* PCI Express 2 */ + case 0xAE: /* PCI Express 2 */ + case 0xAF: /* PCI Express 2 */ + case 0xB0: /* PCI Express 2 */ + case 0xB1: /* PCI Express 3 */ + case 0xB2: /* PCI Express 3 */ + case 0xB3: /* PCI Express 3 */ + case 0xB4: /* PCI Express 3 */ + case 0xB5: /* PCI Express 3 */ + case 0xB6: /* PCI Express 3 */ + case 0xB8: /* PCI Express 4 */ + case 0xB9: /* PCI Express 4 */ + case 0xBA: /* PCI Express 4 */ + case 0xBB: /* PCI Express 4 */ + case 0xBC: /* PCI Express 4 */ + case 0xBD: /* PCI Express 4 */ + case 0xBE: /* PCI Express 5 */ + case 0xBF: /* PCI Express 5 */ + case 0xC0: /* PCI Express 5 */ + case 0xC1: /* PCI Express 5 */ + case 0xC2: /* PCI Express 5 */ + case 0xC3: /* PCI Express 5 */ + case 0xC4: /* PCI Express 6+ */ + if (code) + pr_attr("PCI Express Generation", "%u", code); + break; + } +} + +static void dmi_slot_physical_width(u8 code) +{ + if (code) + pr_attr("Slot Physical Width", "%s", + dmi_slot_bus_width(code, 0)); +} + +static void dmi_slot_pitch(u16 code) +{ + if (code) + pr_attr("Pitch", "%u.%02u mm", code / 100, code % 100); +} + +static const char *dmi_slot_height(u8 code) +{ + /* 7.10.3 */ + static const char *height[] = { + "Not applicable", /* 0x00 */ + "Other", + "Unknown", + "Full height", + "Low-profile" /* 0x04 */ + }; + + if (code <= 0x04) + return height[code]; + return out_of_spec; +} + +/* + * 7.11 On Board Devices Information (Type 10) + */ + +static const char *dmi_on_board_devices_type(u8 code) +{ + /* 7.11.1 and 7.42.2 */ + static const char *type[] = { + "Other", /* 0x01 */ + "Unknown", + "Video", + "SCSI Controller", + "Ethernet", + "Token Ring", + "Sound", + "PATA Controller", + "SATA Controller", + "SAS Controller", + "Wireless LAN", + "Bluetooth", + "WWAN", + "eMMC", + "NVMe Controller", + "UFS Controller" /* 0x10 */ + }; + + if (code >= 0x01 && code <= 0x10) + return type[code - 0x01]; + return out_of_spec; +} + +static void dmi_on_board_devices(const struct dmi_header *h) +{ + u8 *p = h->data + 4; + u8 count = (h->length - 0x04) / 2; + int i; + + for (i = 0; i < count; i++) + { + if (count == 1) + pr_handle_name("On Board Device Information"); + else + pr_handle_name("On Board Device %d Information", + i + 1); + pr_attr("Type", "%s", + dmi_on_board_devices_type(p[2 * i] & 0x7F)); + pr_attr("Status", "%s", + p[2 * i] & 0x80 ? "Enabled" : "Disabled"); + pr_attr("Description", "%s", dmi_string(h, p[2 * i + 1])); + } +} + +/* + * 7.12 OEM Strings (Type 11) + */ + +static void dmi_oem_strings(const struct dmi_header *h) +{ + char attr[11]; + u8 *p = h->data + 4; + u8 count = p[0x00]; + int i; + + for (i = 1; i <= count; i++) + { + sprintf(attr, "String %hhu", (u8)i); + pr_attr(attr, "%s",dmi_string(h, i)); + } +} + +/* + * 7.13 System Configuration Options (Type 12) + */ + +static void dmi_system_configuration_options(const struct dmi_header *h) +{ + char attr[11]; + u8 *p = h->data + 4; + u8 count = p[0x00]; + int i; + + for (i = 1; i <= count; i++) + { + sprintf(attr, "Option %hhu", (u8)i); + pr_attr(attr, "%s",dmi_string(h, i)); + } +} + +/* + * 7.14 BIOS Language Information (Type 13) + */ + +static void dmi_bios_languages(const struct dmi_header *h) +{ + u8 *p = h->data + 4; + u8 count = p[0x00]; + int i; + + for (i = 1; i <= count; i++) + pr_list_item("%s", dmi_string(h, i)); +} + +static const char *dmi_bios_language_format(u8 code) +{ + if (code & 0x01) + return "Abbreviated"; + else + return "Long"; +} + +/* + * 7.15 Group Associations (Type 14) + */ + +static void dmi_group_associations_items(u8 count, const u8 *p) +{ + int i; + + for (i = 0; i < count; i++) + { + pr_list_item("0x%04X (%s)", + WORD(p + 3 * i + 1), + dmi_smbios_structure_type(p[3 * i])); + } +} + +/* + * 7.16 System Event Log (Type 15) + */ + +static const char *dmi_event_log_method(u8 code) +{ + static const char *method[] = { + "Indexed I/O, one 8-bit index port, one 8-bit data port", /* 0x00 */ + "Indexed I/O, two 8-bit index ports, one 8-bit data port", + "Indexed I/O, one 16-bit index port, one 8-bit data port", + "Memory-mapped physical 32-bit address", + "General-purpose non-volatile data functions" /* 0x04 */ + }; + + if (code <= 0x04) + return method[code]; + if (code >= 0x80) + return "OEM-specific"; + return out_of_spec; +} + +static void dmi_event_log_status(u8 code) +{ + static const char *valid[] = { + "Invalid", /* 0 */ + "Valid" /* 1 */ + }; + static const char *full[] = { + "Not Full", /* 0 */ + "Full" /* 1 */ + }; + + pr_attr("Status", "%s, %s", + valid[(code >> 0) & 1], full[(code >> 1) & 1]); +} + +static void dmi_event_log_address(u8 method, const u8 *p) +{ + /* 7.16.3 */ + switch (method) + { + case 0x00: + case 0x01: + case 0x02: + pr_attr("Access Address", "Index 0x%04X, Data 0x%04X", + WORD(p), WORD(p + 2)); + break; + case 0x03: + pr_attr("Access Address", "0x%08X", DWORD(p)); + break; + case 0x04: + pr_attr("Access Address", "0x%04X", WORD(p)); + break; + default: + pr_attr("Access Address", "Unknown"); + } +} + +static const char *dmi_event_log_header_type(u8 code) +{ + static const char *type[] = { + "No Header", /* 0x00 */ + "Type 1" /* 0x01 */ + }; + + if (code <= 0x01) + return type[code]; + if (code >= 0x80) + return "OEM-specific"; + return out_of_spec; +} + +static const char *dmi_event_log_descriptor_type(u8 code) +{ + /* 7.16.6.1 */ + static const char *type[] = { + NULL, /* 0x00 */ + "Single-bit ECC memory error", + "Multi-bit ECC memory error", + "Parity memory error", + "Bus timeout", + "I/O channel block", + "Software NMI", + "POST memory resize", + "POST error", + "PCI parity error", + "PCI system error", + "CPU failure", + "EISA failsafe timer timeout", + "Correctable memory log disabled", + "Logging disabled", + NULL, /* 0x0F */ + "System limit exceeded", + "Asynchronous hardware timer expired", + "System configuration information", + "Hard disk information", + "System reconfigured", + "Uncorrectable CPU-complex error", + "Log area reset/cleared", + "System boot" /* 0x17 */ + }; + + if (code <= 0x17 && type[code] != NULL) + return type[code]; + if (code >= 0x80 && code <= 0xFE) + return "OEM-specific"; + if (code == 0xFF) + return "End of log"; + return out_of_spec; +} + +static const char *dmi_event_log_descriptor_format(u8 code) +{ + /* 7.16.6.2 */ + static const char *format[] = { + "None", /* 0x00 */ + "Handle", + "Multiple-event", + "Multiple-event handle", + "POST results bitmap", + "System management", + "Multiple-event system management" /* 0x06 */ + }; + + if (code <= 0x06) + return format[code]; + if (code >= 0x80) + return "OEM-specific"; + return out_of_spec; +} + +static void dmi_event_log_descriptors(u8 count, u8 len, const u8 *p) +{ + /* 7.16.1 */ + char attr[16]; + int i; + + for (i = 0; i < count; i++) + { + if (len >= 0x02) + { + sprintf(attr, "Descriptor %d", i + 1); + pr_attr(attr, "%s", + dmi_event_log_descriptor_type(p[i * len])); + sprintf(attr, "Data Format %d", i + 1); + pr_attr(attr, "%s", + dmi_event_log_descriptor_format(p[i * len + 1])); + } + } +} + +/* + * 7.17 Physical Memory Array (Type 16) + */ + +static const char *dmi_memory_array_location(u8 code) +{ + /* 7.17.1 */ + static const char *location[] = { + "Other", /* 0x01 */ + "Unknown", + "System Board Or Motherboard", + "ISA Add-on Card", + "EISA Add-on Card", + "PCI Add-on Card", + "MCA Add-on Card", + "PCMCIA Add-on Card", + "Proprietary Add-on Card", + "NuBus" /* 0x0A */ + }; + static const char *location_0xA0[] = { + "PC-98/C20 Add-on Card", /* 0xA0 */ + "PC-98/C24 Add-on Card", + "PC-98/E Add-on Card", + "PC-98/Local Bus Add-on Card", + "CXL Flexbus 1.0" /* 0xA4 */ + }; + + if (code >= 0x01 && code <= 0x0A) + return location[code - 0x01]; + if (code >= 0xA0 && code <= 0xA4) + return location_0xA0[code - 0xA0]; + return out_of_spec; +} + +static const char *dmi_memory_array_use(u8 code) +{ + /* 7.17.2 */ + static const char *use[] = { + "Other", /* 0x01 */ + "Unknown", + "System Memory", + "Video Memory", + "Flash Memory", + "Non-volatile RAM", + "Cache Memory" /* 0x07 */ + }; + + if (code >= 0x01 && code <= 0x07) + return use[code - 0x01]; + return out_of_spec; +} + +static const char *dmi_memory_array_ec_type(u8 code) +{ + /* 7.17.3 */ + static const char *type[] = { + "Other", /* 0x01 */ + "Unknown", + "None", + "Parity", + "Single-bit ECC", + "Multi-bit ECC", + "CRC" /* 0x07 */ + }; + + if (code >= 0x01 && code <= 0x07) + return type[code - 0x01]; + return out_of_spec; +} + +static void dmi_memory_array_error_handle(u16 code) +{ + if (code == 0xFFFE) + pr_attr("Error Information Handle", "Not Provided"); + else if (code == 0xFFFF) + pr_attr("Error Information Handle", "No Error"); + else + pr_attr("Error Information Handle", "0x%04X", code); +} + +/* + * 7.18 Memory Device (Type 17) + */ + +static void dmi_memory_device_width(const char *attr, u16 code) +{ + /* + * If no memory module is present, width may be 0 + */ + if (code == 0xFFFF || (code == 0 && !(opt.flags & FLAG_NO_QUIRKS))) + pr_attr(attr, "Unknown"); + else + pr_attr(attr, "%u bits", code); +} + +static void dmi_memory_device_size(u16 code) +{ + if (code == 0) + pr_attr("Size", "No Module Installed"); + else if (code == 0xFFFF) + pr_attr("Size", "Unknown"); + else + { + u64 s = { .l = code & 0x7FFF }; + if (!(code & 0x8000)) + s.l <<= 10; + dmi_print_memory_size("Size", s, 1); + } +} + +static void dmi_memory_device_extended_size(u32 code) +{ + code &= 0x7FFFFFFFUL; + + /* + * Use the greatest unit for which the exact value can be displayed + * as an integer without rounding + */ + if (code & 0x3FFUL) + pr_attr("Size", "%lu MB", (unsigned long)code); + else if (code & 0xFFC00UL) + pr_attr("Size", "%lu GB", (unsigned long)code >> 10); + else + pr_attr("Size", "%lu TB", (unsigned long)code >> 20); +} + +static void dmi_memory_voltage_value(const char *attr, u16 code) +{ + if (code == 0) + pr_attr(attr, "Unknown"); + else + pr_attr(attr, code % 100 ? "%g V" : "%.1f V", + (float)code / 1000); +} + +static const char *dmi_memory_device_form_factor(u8 code) +{ + /* 7.18.1 */ + static const char *form_factor[] = { + "Other", /* 0x01 */ + "Unknown", + "SIMM", + "SIP", + "Chip", + "DIP", + "ZIP", + "Proprietary Card", + "DIMM", + "TSOP", + "Row Of Chips", + "RIMM", + "SODIMM", + "SRIMM", + "FB-DIMM", + "Die" /* 0x10 */ + }; + + if (code >= 0x01 && code <= 0x10) + return form_factor[code - 0x01]; + return out_of_spec; +} + +static void dmi_memory_device_set(u8 code) +{ + if (code == 0) + pr_attr("Set", "None"); + else if (code == 0xFF) + pr_attr("Set", "Unknown"); + else + pr_attr("Set", "%u", code); +} + +static const char *dmi_memory_device_type(u8 code) +{ + /* 7.18.2 */ + static const char *type[] = { + "Other", /* 0x01 */ + "Unknown", + "DRAM", + "EDRAM", + "VRAM", + "SRAM", + "RAM", + "ROM", + "Flash", + "EEPROM", + "FEPROM", + "EPROM", + "CDRAM", + "3DRAM", + "SDRAM", + "SGRAM", + "RDRAM", + "DDR", + "DDR2", + "DDR2 FB-DIMM", + "Reserved", + "Reserved", + "Reserved", + "DDR3", + "FBD2", + "DDR4", + "LPDDR", + "LPDDR2", + "LPDDR3", + "LPDDR4", + "Logical non-volatile device", + "HBM", + "HBM2", + "DDR5", + "LPDDR5" /* 0x23 */ + }; + + if (code >= 0x01 && code <= 0x23) + return type[code - 0x01]; + return out_of_spec; +} + +static void dmi_memory_device_type_detail(u16 code) +{ + /* 7.18.3 */ + static const char *detail[] = { + "Other", /* 1 */ + "Unknown", + "Fast-paged", + "Static Column", + "Pseudo-static", + "RAMBus", + "Synchronous", + "CMOS", + "EDO", + "Window DRAM", + "Cache DRAM", + "Non-Volatile", + "Registered (Buffered)", + "Unbuffered (Unregistered)", + "LRDIMM" /* 15 */ + }; + char list[172]; /* Update length if you touch the array above */ + + if ((code & 0xFFFE) == 0) + pr_attr("Type Detail", "None"); + else + { + int i, off = 0; + + list[0] = '\0'; + for (i = 1; i <= 15; i++) + if (code & (1 << i)) + off += sprintf(list + off, off ? " %s" : "%s", + detail[i - 1]); + pr_attr("Type Detail", list); + } +} + +static void dmi_memory_device_speed(const char *attr, u16 code1, u32 code2) +{ + if (code1 == 0xFFFF) + { + if (code2 == 0) + pr_attr(attr, "Unknown"); + else + pr_attr(attr, "%lu MT/s", code2); + } + else + { + if (code1 == 0) + pr_attr(attr, "Unknown"); + else + pr_attr(attr, "%u MT/s", code1); + } +} + +static void dmi_memory_technology(u8 code) +{ + /* 7.18.6 */ + static const char * const technology[] = { + "Other", /* 0x01 */ + "Unknown", + "DRAM", + "NVDIMM-N", + "NVDIMM-F", + "NVDIMM-P", + "Intel Optane DC persistent memory" /* 0x07 */ + }; + if (code >= 0x01 && code <= 0x07) + pr_attr("Memory Technology", "%s", technology[code - 0x01]); + else + pr_attr("Memory Technology", "%s", out_of_spec); +} + +static void dmi_memory_operating_mode_capability(u16 code) +{ + /* 7.18.7 */ + static const char * const mode[] = { + "Other", /* 1 */ + "Unknown", + "Volatile memory", + "Byte-accessible persistent memory", + "Block-accessible persistent memory" /* 5 */ + }; + char list[99]; /* Update length if you touch the array above */ + + if ((code & 0xFFFE) == 0) + pr_attr("Memory Operating Mode Capability", "None"); + else { + int i, off = 0; + + list[0] = '\0'; + for (i = 1; i <= 5; i++) + if (code & (1 << i)) + off += sprintf(list + off, off ? " %s" : "%s", + mode[i - 1]); + pr_attr("Memory Operating Mode Capability", list); + } +} + +static void dmi_memory_manufacturer_id(const char *attr, u16 code) +{ + /* 7.18.8 */ + /* 7.18.10 */ + /* LSB is 7-bit Odd Parity number of continuation codes */ + if (code == 0) + pr_attr(attr, "Unknown"); + else + pr_attr(attr, "Bank %d, Hex 0x%02X", + (code & 0x7F) + 1, code >> 8); +} + +static void dmi_memory_product_id(const char *attr, u16 code) +{ + /* 7.18.9 */ + /* 7.18.11 */ + if (code == 0) + pr_attr(attr, "Unknown"); + else + pr_attr(attr, "0x%04X", code); +} + +static void dmi_memory_size(const char *attr, u64 code) +{ + /* 7.18.12 */ + /* 7.18.13 */ + if (code.h == 0xFFFFFFFF && code.l == 0xFFFFFFFF) + pr_attr(attr, "Unknown"); + else if (code.h == 0x0 && code.l == 0x0) + pr_attr(attr, "None"); + else + dmi_print_memory_size(attr, code, 0); +} + +/* + * 7.19 32-bit Memory Error Information (Type 18) + */ + +static const char *dmi_memory_error_type(u8 code) +{ + /* 7.19.1 */ + static const char *type[] = { + "Other", /* 0x01 */ + "Unknown", + "OK", + "Bad Read", + "Parity Error", + "Single-bit Error", + "Double-bit Error", + "Multi-bit Error", + "Nibble Error", + "Checksum Error", + "CRC Error", + "Corrected Single-bit Error", + "Corrected Error", + "Uncorrectable Error" /* 0x0E */ + }; + + if (code >= 0x01 && code <= 0x0E) + return type[code - 0x01]; + return out_of_spec; +} + +static const char *dmi_memory_error_granularity(u8 code) +{ + /* 7.19.2 */ + static const char *granularity[] = { + "Other", /* 0x01 */ + "Unknown", + "Device Level", + "Memory Partition Level" /* 0x04 */ + }; + + if (code >= 0x01 && code <= 0x04) + return granularity[code - 0x01]; + return out_of_spec; +} + +static const char *dmi_memory_error_operation(u8 code) +{ + /* 7.19.3 */ + static const char *operation[] = { + "Other", /* 0x01 */ + "Unknown", + "Read", + "Write", + "Partial Write" /* 0x05 */ + }; + + if (code >= 0x01 && code <= 0x05) + return operation[code - 0x01]; + return out_of_spec; +} + +static void dmi_memory_error_syndrome(u32 code) +{ + if (code == 0x00000000) + pr_attr("Vendor Syndrome", "Unknown"); + else + pr_attr("Vendor Syndrome", "0x%08X", code); +} + +static void dmi_32bit_memory_error_address(const char *attr, u32 code) +{ + if (code == 0x80000000) + pr_attr(attr, "Unknown"); + else + pr_attr(attr, "0x%08X", code); +} + +/* + * 7.20 Memory Array Mapped Address (Type 19) + */ + +static void dmi_mapped_address_size(u32 code) +{ + if (code == 0) + pr_attr("Range Size", "Invalid"); + else + { + u64 size; + + size.h = 0; + size.l = code; + dmi_print_memory_size("Range Size", size, 1); + } +} + +static void dmi_mapped_address_extended_size(u64 start, u64 end) +{ + if (start.h == end.h && start.l == end.l) + pr_attr("Range Size", "Invalid"); + else + dmi_print_memory_size("Range Size", u64_range(start, end), 0); +} + +/* + * 7.21 Memory Device Mapped Address (Type 20) + */ + +static void dmi_mapped_address_row_position(u8 code) +{ + if (code == 0) + pr_attr("Partition Row Position", "%s", out_of_spec); + else if (code == 0xFF) + pr_attr("Partition Row Position", "Unknown"); + else + pr_attr("Partition Row Position", "%u", code); +} + +static void dmi_mapped_address_interleave_position(u8 code) +{ + if (code != 0) + { + if (code == 0xFF) + pr_attr("Interleave Position", "Unknown"); + else + pr_attr("Interleave Position", "%u", code); + } +} + +static void dmi_mapped_address_interleaved_data_depth(u8 code) +{ + if (code != 0) + { + if (code == 0xFF) + pr_attr("Interleaved Data Depth", "Unknown"); + else + pr_attr("Interleaved Data Depth", "%u", code); + } +} + +/* + * 7.22 Built-in Pointing Device (Type 21) + */ + +static const char *dmi_pointing_device_type(u8 code) +{ + /* 7.22.1 */ + static const char *type[] = { + "Other", /* 0x01 */ + "Unknown", + "Mouse", + "Track Ball", + "Track Point", + "Glide Point", + "Touch Pad", + "Touch Screen", + "Optical Sensor" /* 0x09 */ + }; + + if (code >= 0x01 && code <= 0x09) + return type[code - 0x01]; + return out_of_spec; +} + +static const char *dmi_pointing_device_interface(u8 code) +{ + /* 7.22.2 */ + static const char *interface[] = { + "Other", /* 0x01 */ + "Unknown", + "Serial", + "PS/2", + "Infrared", + "HIP-HIL", + "Bus Mouse", + "ADB (Apple Desktop Bus)" /* 0x08 */ + }; + static const char *interface_0xA0[] = { + "Bus Mouse DB-9", /* 0xA0 */ + "Bus Mouse Micro DIN", + "USB", + "I2C", + "SPI" /* 0xA4 */ + }; + + if (code >= 0x01 && code <= 0x08) + return interface[code - 0x01]; + if (code >= 0xA0 && code <= 0xA4) + return interface_0xA0[code - 0xA0]; + return out_of_spec; +} + +/* + * 7.23 Portable Battery (Type 22) + */ + +static const char *dmi_battery_chemistry(u8 code) +{ + /* 7.23.1 */ + static const char *chemistry[] = { + "Other", /* 0x01 */ + "Unknown", + "Lead Acid", + "Nickel Cadmium", + "Nickel Metal Hydride", + "Lithium Ion", + "Zinc Air", + "Lithium Polymer" /* 0x08 */ + }; + + if (code >= 0x01 && code <= 0x08) + return chemistry[code - 0x01]; + return out_of_spec; +} + +static void dmi_battery_capacity(u16 code, u8 multiplier) +{ + if (code == 0) + pr_attr("Design Capacity", "Unknown"); + else + pr_attr("Design Capacity", "%u mWh", code * multiplier); +} + +static void dmi_battery_voltage(u16 code) +{ + if (code == 0) + pr_attr("Design Voltage", "Unknown"); + else + pr_attr("Design Voltage", "%u mV", code); +} + +static void dmi_battery_maximum_error(u8 code) +{ + if (code == 0xFF) + pr_attr("Maximum Error", "Unknown"); + else + pr_attr("Maximum Error", "%u%%", code); +} + +/* + * 7.24 System Reset (Type 23) + */ + +/* code is assumed to be a 2-bit value */ +static const char *dmi_system_reset_boot_option(u8 code) +{ + static const char *option[] = { + out_of_spec, /* 0x0 */ + "Operating System", /* 0x1 */ + "System Utilities", + "Do Not Reboot" /* 0x3 */ + }; + + return option[code]; +} + +static void dmi_system_reset_count(const char *attr, u16 code) +{ + if (code == 0xFFFF) + pr_attr(attr, "Unknown"); + else + pr_attr(attr, "%u", code); +} + +static void dmi_system_reset_timer(const char *attr, u16 code) +{ + if (code == 0xFFFF) + pr_attr(attr, "Unknown"); + else + pr_attr(attr, "%u min", code); +} + +/* + * 7.25 Hardware Security (Type 24) + */ + +static const char *dmi_hardware_security_status(u8 code) +{ + static const char *status[] = { + "Disabled", /* 0x00 */ + "Enabled", + "Not Implemented", + "Unknown" /* 0x03 */ + }; + + return status[code]; +} + +/* + * 7.26 System Power Controls (Type 25) + */ + +static void dmi_power_controls_power_on(const u8 *p) +{ + char time[15]; + int off = 0; + + /* 7.26.1 */ + if (dmi_bcd_range(p[0], 0x01, 0x12)) + off += sprintf(time + off, "%02X", p[0]); + else + off += sprintf(time + off, "*"); + if (dmi_bcd_range(p[1], 0x01, 0x31)) + off += sprintf(time + off, "-%02X", p[1]); + else + off += sprintf(time + off, "-*"); + if (dmi_bcd_range(p[2], 0x00, 0x23)) + off += sprintf(time + off, " %02X", p[2]); + else + off += sprintf(time + off, " *"); + if (dmi_bcd_range(p[3], 0x00, 0x59)) + off += sprintf(time + off, ":%02X", p[3]); + else + off += sprintf(time + off, ":*"); + if (dmi_bcd_range(p[4], 0x00, 0x59)) + off += sprintf(time + off, ":%02X", p[4]); + else + off += sprintf(time + off, ":*"); + + pr_attr("Next Scheduled Power-on", time); +} + +/* + * 7.27 Voltage Probe (Type 26) + */ + +static const char *dmi_voltage_probe_location(u8 code) +{ + /* 7.27.1 */ + static const char *location[] = { + "Other", /* 0x01 */ + "Unknown", + "Processor", + "Disk", + "Peripheral Bay", + "System Management Module", + "Motherboard", + "Memory Module", + "Processor Module", + "Power Unit", + "Add-in Card" /* 0x0B */ + }; + + if (code >= 0x01 && code <= 0x0B) + return location[code - 0x01]; + return out_of_spec; +} + +static const char *dmi_probe_status(u8 code) +{ + /* 7.27.1 */ + static const char *status[] = { + "Other", /* 0x01 */ + "Unknown", + "OK", + "Non-critical", + "Critical", + "Non-recoverable" /* 0x06 */ + }; + + if (code >= 0x01 && code <= 0x06) + return status[code - 0x01]; + return out_of_spec; +} + +static void dmi_voltage_probe_value(const char *attr, u16 code) +{ + if (code == 0x8000) + pr_attr(attr, "Unknown"); + else + pr_attr(attr, "%.3f V", (float)(i16)code / 1000); +} + +static void dmi_voltage_probe_resolution(u16 code) +{ + if (code == 0x8000) + pr_attr("Resolution", "Unknown"); + else + pr_attr("Resolution", "%.1f mV", (float)code / 10); +} + +static void dmi_probe_accuracy(u16 code) +{ + if (code == 0x8000) + pr_attr("Accuracy", "Unknown"); + else + pr_attr("Accuracy", "%.2f%%", (float)code / 100); +} + +/* + * 7.28 Cooling Device (Type 27) + */ + +static const char *dmi_cooling_device_type(u8 code) +{ + /* 7.28.1 */ + static const char *type[] = { + "Other", /* 0x01 */ + "Unknown", + "Fan", + "Centrifugal Blower", + "Chip Fan", + "Cabinet Fan", + "Power Supply Fan", + "Heat Pipe", + "Integrated Refrigeration" /* 0x09 */ + }; + static const char *type_0x10[] = { + "Active Cooling", /* 0x10 */ + "Passive Cooling" /* 0x11 */ + }; + + if (code >= 0x01 && code <= 0x09) + return type[code - 0x01]; + if (code >= 0x10 && code <= 0x11) + return type_0x10[code - 0x10]; + return out_of_spec; +} + +static void dmi_cooling_device_speed(u16 code) +{ + if (code == 0x8000) + pr_attr("Nominal Speed", "Unknown Or Non-rotating"); + else + pr_attr("Nominal Speed", "%u rpm", code); +} + +/* + * 7.29 Temperature Probe (Type 28) + */ + +static const char *dmi_temperature_probe_location(u8 code) +{ + /* 7.29.1 */ + static const char *location[] = { + "Other", /* 0x01 */ + "Unknown", + "Processor", + "Disk", + "Peripheral Bay", + "System Management Module", + "Motherboard", + "Memory Module", + "Processor Module", + "Power Unit", + "Add-in Card", + "Front Panel Board", + "Back Panel Board", + "Power System Board", + "Drive Back Plane" /* 0x0F */ + }; + + if (code >= 0x01 && code <= 0x0F) + return location[code - 0x01]; + return out_of_spec; +} + +static void dmi_temperature_probe_value(const char *attr, u16 code) +{ + if (code == 0x8000) + pr_attr(attr, "Unknown"); + else + pr_attr(attr, "%.1f deg C", (float)(i16)code / 10); +} + +static void dmi_temperature_probe_resolution(u16 code) +{ + if (code == 0x8000) + pr_attr("Resolution", "Unknown"); + else + pr_attr("Resolution", "%.3f deg C", (float)code / 1000); +} + +/* + * 7.30 Electrical Current Probe (Type 29) + */ + +static void dmi_current_probe_value(const char *attr, u16 code) +{ + if (code == 0x8000) + pr_attr(attr, "Unknown"); + else + pr_attr(attr, "%.3f A", (float)(i16)code / 1000); +} + +static void dmi_current_probe_resolution(u16 code) +{ + if (code == 0x8000) + pr_attr("Resolution", "Unknown"); + else + pr_attr("Resolution", "%.1f mA", (float)code / 10); +} + +/* + * 7.33 System Boot Information (Type 32) + */ + +static const char *dmi_system_boot_status(u8 code) +{ + static const char *status[] = { + "No errors detected", /* 0 */ + "No bootable media", + "Operating system failed to load", + "Firmware-detected hardware failure", + "Operating system-detected hardware failure", + "User-requested boot", + "System security violation", + "Previously-requested image", + "System watchdog timer expired" /* 8 */ + }; + + if (code <= 8) + return status[code]; + if (code >= 128 && code <= 191) + return "OEM-specific"; + if (code >= 192) + return "Product-specific"; + return out_of_spec; +} + +/* + * 7.34 64-bit Memory Error Information (Type 33) + */ + +static void dmi_64bit_memory_error_address(const char *attr, u64 code) +{ + if (code.h == 0x80000000 && code.l == 0x00000000) + pr_attr(attr, "Unknown"); + else + pr_attr(attr, "0x%08X%08X", code.h, code.l); +} + +/* + * 7.35 Management Device (Type 34) + */ + +/* + * Several boards have a bug where some type 34 structures have their + * length incorrectly set to 0x10 instead of 0x0B. This causes the + * first 5 characters of the device name to be trimmed. It's easy to + * check and fix, so do it, but warn. + */ +static void dmi_fixup_type_34(struct dmi_header *h, int display) +{ + u8 *p = h->data; + + /* Make sure the hidden data is ASCII only */ + if (h->length == 0x10 + && is_printable(p + 0x0B, 0x10 - 0x0B)) + { + if (!(opt.flags & FLAG_QUIET) && display) + fprintf(stderr, + "Invalid entry length (%u). Fixed up to %u.\n", + 0x10, 0x0B); + h->length = 0x0B; + } +} + +static const char *dmi_management_device_type(u8 code) +{ + /* 7.35.1 */ + static const char *type[] = { + "Other", /* 0x01 */ + "Unknown", + "LM75", + "LM78", + "LM79", + "LM80", + "LM81", + "ADM9240", + "DS1780", + "MAX1617", + "GL518SM", + "W83781D", + "HT82H791" /* 0x0D */ + }; + + if (code >= 0x01 && code <= 0x0D) + return type[code - 0x01]; + return out_of_spec; +} + +static const char *dmi_management_device_address_type(u8 code) +{ + /* 7.35.2 */ + static const char *type[] = { + "Other", /* 0x01 */ + "Unknown", + "I/O Port", + "Memory", + "SMBus" /* 0x05 */ + }; + + if (code >= 0x01 && code <= 0x05) + return type[code - 0x01]; + return out_of_spec; +} + +/* + * 7.38 Memory Channel (Type 37) + */ + +static const char *dmi_memory_channel_type(u8 code) +{ + /* 7.38.1 */ + static const char *type[] = { + "Other", /* 0x01 */ + "Unknown", + "RamBus", + "SyncLink" /* 0x04 */ + }; + + if (code >= 0x01 && code <= 0x04) + return type[code - 0x01]; + return out_of_spec; +} + +static void dmi_memory_channel_devices(u8 count, const u8 *p) +{ + char attr[18]; + int i; + + for (i = 1; i <= count; i++) + { + sprintf(attr, "Device %hhu Load", (u8)i); + pr_attr(attr, "%u", p[3 * i]); + if (!(opt.flags & FLAG_QUIET)) + { + sprintf(attr, "Device %hhu Handle", (u8)i); + pr_attr(attr, "0x%04X", WORD(p + 3 * i + 1)); + } + } +} + +/* + * 7.39 IPMI Device Information (Type 38) + */ + +static const char *dmi_ipmi_interface_type(u8 code) +{ + /* 7.39.1 and IPMI 2.0, appendix C1, table C1-2 */ + static const char *type[] = { + "Unknown", /* 0x00 */ + "KCS (Keyboard Control Style)", + "SMIC (Server Management Interface Chip)", + "BT (Block Transfer)", + "SSIF (SMBus System Interface)" /* 0x04 */ + }; + + if (code <= 0x04) + return type[code]; + return out_of_spec; +} + +static void dmi_ipmi_base_address(u8 type, const u8 *p, u8 lsb) +{ + if (type == 0x04) /* SSIF */ + { + pr_attr("Base Address", "0x%02X (SMBus)", (*p) >> 1); + } + else + { + u64 address = QWORD(p); + pr_attr("Base Address", "0x%08X%08X (%s)", + address.h, (address.l & ~1) | lsb, + address.l & 1 ? "I/O" : "Memory-mapped"); + } +} + +/* code is assumed to be a 2-bit value */ +static const char *dmi_ipmi_register_spacing(u8 code) +{ + /* IPMI 2.0, appendix C1, table C1-1 */ + static const char *spacing[] = { + "Successive Byte Boundaries", /* 0x00 */ + "32-bit Boundaries", + "16-byte Boundaries", /* 0x02 */ + out_of_spec /* 0x03 */ + }; + + return spacing[code]; +} + +/* + * 7.40 System Power Supply (Type 39) + */ + +static void dmi_power_supply_power(u16 code) +{ + if (code == 0x8000) + pr_attr("Max Power Capacity", "Unknown"); + else + pr_attr("Max Power Capacity", "%u W", (unsigned int)code); +} + +static const char *dmi_power_supply_type(u8 code) +{ + /* 7.40.1 */ + static const char *type[] = { + "Other", /* 0x01 */ + "Unknown", + "Linear", + "Switching", + "Battery", + "UPS", + "Converter", + "Regulator" /* 0x08 */ + }; + + if (code >= 0x01 && code <= 0x08) + return type[code - 0x01]; + return out_of_spec; +} + +static const char *dmi_power_supply_status(u8 code) +{ + /* 7.40.1 */ + static const char *status[] = { + "Other", /* 0x01 */ + "Unknown", + "OK", + "Non-critical", + "Critical" /* 0x05 */ + }; + + if (code >= 0x01 && code <= 0x05) + return status[code - 0x01]; + return out_of_spec; +} + +static const char *dmi_power_supply_range_switching(u8 code) +{ + /* 7.40.1 */ + static const char *switching[] = { + "Other", /* 0x01 */ + "Unknown", + "Manual", + "Auto-switch", + "Wide Range", + "N/A" /* 0x06 */ + }; + + if (code >= 0x01 && code <= 0x06) + return switching[code - 0x01]; + return out_of_spec; +} + +/* + * 7.41 Additional Information (Type 40) + * + * Proper support of this entry type would require redesigning a large part of + * the code, so I am waiting to see actual implementations of it to decide + * whether it's worth the effort. + */ + +static void dmi_additional_info(const struct dmi_header *h) +{ + u8 *p = h->data + 4; + u8 count = *p++; + u8 length; + int i, offset = 5; + + for (i = 0; i < count; i++) + { + pr_handle_name("Additional Information %d", i + 1); + + /* Check for short entries */ + if (h->length < offset + 1) break; + length = p[0x00]; + if (length < 0x05 || h->length < offset + length) break; + + pr_attr("Referenced Handle", "0x%04x", + WORD(p + 0x01)); + pr_attr("Referenced Offset", "0x%02x", + p[0x03]); + pr_attr("String", "%s", + dmi_string(h, p[0x04])); + + switch (length - 0x05) + { + case 1: + pr_attr("Value", "0x%02x", p[0x05]); + break; + case 2: + pr_attr("Value", "0x%04x", WORD(p + 0x05)); + break; + case 4: + pr_attr("Value", "0x%08x", DWORD(p + 0x05)); + break; + default: + pr_attr("Value", "Unexpected size"); + break; + } + + p += length; + offset += length; + } +} + +/* + * 7.43 Management Controller Host Interface (Type 42) + */ + +static const char *dmi_management_controller_host_type(u8 code) +{ + /* DMTF DSP0239 (MCTP) version 1.1.0 */ + static const char *type[] = { + "KCS: Keyboard Controller Style", /* 0x02 */ + "8250 UART Register Compatible", + "16450 UART Register Compatible", + "16550/16550A UART Register Compatible", + "16650/16650A UART Register Compatible", + "16750/16750A UART Register Compatible", + "16850/16850A UART Register Compatible" /* 0x08 */ + }; + + if (code >= 0x02 && code <= 0x08) + return type[code - 0x02]; + if (code <= 0x3F) + return "MCTP"; + if (code == 0x40) + return "Network"; + if (code == 0xF0) + return "OEM"; + return out_of_spec; +} + +/* + * 7.43.2: Protocol Record Types + */ +static const char *dmi_protocol_record_type(u8 type) +{ + const char *protocol[] = { + "Reserved", /* 0x0 */ + "Reserved", + "IPMI", + "MCTP", + "Redfish over IP", /* 0x4 */ + }; + + if (type <= 0x4) + return protocol[type]; + if (type == 0xF0) + return "OEM"; + return out_of_spec; +} + +/* + * DSP0270: 8.6: Protocol IP Assignment types + */ +static const char *dmi_protocol_assignment_type(u8 type) +{ + const char *assignment[] = { + "Unknown", /* 0x0 */ + "Static", + "DHCP", + "AutoConf", + "Host Selected", /* 0x4 */ + }; + + if (type <= 0x4) + return assignment[type]; + return out_of_spec; +} + +/* + * DSP0270: 8.6: Protocol IP Address type + */ +static const char *dmi_address_type(u8 type) +{ + const char *addressformat[] = { + "Unknown", /* 0x0 */ + "IPv4", + "IPv6", /* 0x2 */ + }; + + if (type <= 0x2) + return addressformat[type]; + return out_of_spec; +} + +/* + * DSP0270: 8.6 Protocol Address decode + */ +static const char *dmi_address_decode(u8 *data, char *storage, u8 addrtype) +{ + if (addrtype == 0x1) /* IPv4 */ + return inet_ntop(AF_INET, data, storage, 64); + if (addrtype == 0x2) /* IPv6 */ + return inet_ntop(AF_INET6, data, storage, 64); + return out_of_spec; +} + +/* + * DSP0270: 8.5: Parse the protocol record format + */ +static void dmi_parse_protocol_record(u8 *rec) +{ + u8 rid; + u8 rlen; + u8 *rdata; + char buf[64]; + u8 assign_val; + u8 addrtype; + u8 hlen; + const char *addrstr; + const char *hname; + char attr[38]; + + /* DSP0270: 8.5: Protocol Identifier */ + rid = rec[0x0]; + /* DSP0270: 8.5: Protocol Record Length */ + rlen = rec[0x1]; + /* DSP0270: 8.5: Protocol Record Data */ + rdata = &rec[0x2]; + + pr_attr("Protocol ID", "%02x (%s)", rid, + dmi_protocol_record_type(rid)); + + /* + * Don't decode anything other than Redfish for now + * Note 0x4 is Redfish over IP in 7.43.2 + * and DSP0270: 8.5 + */ + if (rid != 0x4) + return; + + /* + * Ensure that the protocol record is of sufficient length + * For RedFish that means rlen must be at least 91 bytes + * other protcols will need different length checks + */ + if (rlen < 91) + return; + + /* + * DSP0270: 8.6: Redfish Over IP Service UUID + * Note: ver is hardcoded to 0x311 here just for + * convenience. It could get passed from the SMBIOS + * header, but that's a lot of passing of pointers just + * to get that info, and the only thing it is used for is + * to determine the endianness of the field. Since we only + * do this parsing on versions of SMBIOS after 3.1.1, and the + * endianness of the field is always little after version 2.6.0 + * we can just pick a sufficiently recent version here. + */ + dmi_system_uuid(pr_subattr, "Service UUID", &rdata[0], 0x311); + + /* + * DSP0270: 8.6: Redfish Over IP Host IP Assignment Type + * Note, using decimal indices here, as the DSP0270 + * uses decimal, so as to make it more comparable + */ + assign_val = rdata[16]; + pr_subattr("Host IP Assignment Type", "%s", + dmi_protocol_assignment_type(assign_val)); + + /* DSP0270: 8.6: Redfish Over IP Host Address format */ + addrtype = rdata[17]; + addrstr = dmi_address_type(addrtype); + pr_subattr("Host IP Address Format", "%s", + addrstr); + + /* DSP0270: 8.6 IP Assignment types */ + /* We only use the Host IP Address and Mask if the assignment type is static */ + if (assign_val == 0x1 || assign_val == 0x3) + { + /* DSP0270: 8.6: the Host IPv[4|6] Address */ + sprintf(attr, "%s Address", addrstr); + pr_subattr(attr, "%s", + dmi_address_decode(&rdata[18], buf, addrtype)); + + /* DSP0270: 8.6: Prints the Host IPv[4|6] Mask */ + sprintf(attr, "%s Mask", addrstr); + pr_subattr(attr, "%s", + dmi_address_decode(&rdata[34], buf, addrtype)); + } + + /* DSP0270: 8.6: Get the Redfish Service IP Discovery Type */ + assign_val = rdata[50]; + /* Redfish Service IP Discovery type mirrors Host IP Assignment type */ + pr_subattr("Redfish Service IP Discovery Type", "%s", + dmi_protocol_assignment_type(assign_val)); + + /* DSP0270: 8.6: Get the Redfish Service IP Address Format */ + addrtype = rdata[51]; + addrstr = dmi_address_type(addrtype); + pr_subattr("Redfish Service IP Address Format", "%s", + addrstr); + + if (assign_val == 0x1 || assign_val == 0x3) + { + u16 port; + u32 vlan; + + /* DSP0270: 8.6: Prints the Redfish IPv[4|6] Service Address */ + sprintf(attr, "%s Redfish Service Address", addrstr); + pr_subattr(attr, "%s", + dmi_address_decode(&rdata[52], buf, + addrtype)); + + /* DSP0270: 8.6: Prints the Redfish IPv[4|6] Service Mask */ + sprintf(attr, "%s Redfish Service Mask", addrstr); + pr_subattr(attr, "%s", + dmi_address_decode(&rdata[68], buf, + addrtype)); + + /* DSP0270: 8.6: Redfish vlan and port info */ + port = WORD(&rdata[84]); + vlan = DWORD(&rdata[86]); + pr_subattr("Redfish Service Port", "%hu", port); + pr_subattr("Redfish Service Vlan", "%u", vlan); + } + + /* DSP0270: 8.6: Redfish host length and name */ + hlen = rdata[90]; + + /* + * DSP0270: 8.6: The length of the host string + 91 (the minimum + * size of a protocol record) cannot exceed the record length + * (rec[0x1]) + */ + hname = (const char *)&rdata[91]; + if (hlen + 91 > rlen) + { + hname = out_of_spec; + hlen = strlen(out_of_spec); + } + pr_subattr("Redfish Service Hostname", "%.*s", hlen, hname); +} + +/* + * DSP0270: 8.3: Device type ennumeration + */ +static const char *dmi_parse_device_type(u8 type) +{ + const char *devname[] = { + "USB", /* 0x2 */ + "PCI/PCIe", /* 0x3 */ + }; + + if (type >= 0x2 && type <= 0x3) + return devname[type - 0x2]; + if (type >= 0x80) + return "OEM"; + return out_of_spec; +} + +static void dmi_parse_controller_structure(const struct dmi_header *h) +{ + int i; + u8 *data = h->data; + /* Host interface type */ + u8 type; + /* Host Interface specific data length */ + u8 len; + u8 count; + u32 total_read; + + /* + * Minimum length of this struct is 0xB bytes + */ + if (h->length < 0xB) + return; + + /* + * Also need to ensure that the interface specific data length + * plus the size of the structure to that point don't exceed + * the defined length of the structure, or we will overrun its + * bounds + */ + len = data[0x5]; + total_read = len + 0x6; + + if (total_read > h->length) + return; + + type = data[0x4]; + pr_attr("Host Interface Type", "%s", + dmi_management_controller_host_type(type)); + + /* + * The following decodes are code for Network interface host types only + * As defined in DSP0270 + */ + if (type != 0x40) + return; + + if (len != 0) + { + /* DSP0270: 8.3 Table 2: Device Type */ + type = data[0x6]; + + pr_attr("Device Type", "%s", + dmi_parse_device_type(type)); + if (type == 0x2 && len >= 5) + { + /* USB Device Type - need at least 6 bytes */ + u8 *usbdata = &data[0x7]; + /* USB Device Descriptor: idVendor */ + pr_attr("idVendor", "0x%04x", + WORD(&usbdata[0x0])); + /* USB Device Descriptor: idProduct */ + pr_attr("idProduct", "0x%04x", + WORD(&usbdata[0x2])); + /* + * USB Serial number is here, but its useless, don't + * bother decoding it + */ + } + else if (type == 0x3 && len >= 9) + { + /* PCI Device Type - Need at least 8 bytes */ + u8 *pcidata = &data[0x7]; + /* PCI Device Descriptor: VendorID */ + pr_attr("VendorID", "0x%04x", + WORD(&pcidata[0x0])); + /* PCI Device Descriptor: DeviceID */ + pr_attr("DeviceID", "0x%04x", + WORD(&pcidata[0x2])); + /* PCI Device Descriptor: PCI SubvendorID */ + pr_attr("SubVendorID", "0x%04x", + WORD(&pcidata[0x4])); + /* PCI Device Descriptor: PCI SubdeviceID */ + pr_attr("SubDeviceID", "0x%04x", + WORD(&pcidata[0x6])); + } + else if (type == 0x4 && len >= 5) + { + /* OEM Device Type - Need at least 4 bytes */ + u8 *oemdata = &data[0x7]; + /* OEM Device Descriptor: IANA */ + pr_attr("Vendor ID", "0x%02x:0x%02x:0x%02x:0x%02x", + oemdata[0x0], oemdata[0x1], + oemdata[0x2], oemdata[0x3]); + } + /* Don't mess with unknown types for now */ + } + + /* + * DSP0270: 8.2 and 8.5: Protocol record count and protocol records + * Move to the Protocol Count. + */ + data = &data[total_read]; + + /* + * We've validated up to 0x6 + len bytes, but we need to validate + * the next byte below, the count value. + */ + total_read++; + if (total_read > h->length) + { + fprintf(stderr, + "Total read length %d exceeds total structure length %d (handle 0x%04hx)\n", + total_read, h->length, h->handle); + return; + } + + /* Get the protocol records count */ + count = data[0x0]; + if (count) + { + u8 *rec = &data[0x1]; + for (i = 0; i < count; i++) + { + /* + * Need to ensure that this record doesn't overrun + * the total length of the type 42 struct. Note the +2 + * is added for the two leading bytes of a protocol + * record representing the type and length bytes. + */ + total_read += rec[1] + 2; + if (total_read > h->length) + { + fprintf(stderr, + "Total read length %d exceeds total structure length %d (handle 0x%04hx, record %d)\n", + total_read, h->length, h->handle, i + 1); + return; + } + + dmi_parse_protocol_record(rec); + + /* + * DSP0270: 8.6 + * Each record is rec[1] bytes long, starting at the + * data byte immediately following the length field. + * That means we need to add the byte for the rec id, + * the byte for the length field, and the value of the + * length field itself. + */ + rec += rec[1] + 2; + } + } +} + +/* + * 7.44 TPM Device (Type 43) + */ + +static void dmi_tpm_vendor_id(const u8 *p) +{ + char vendor_id[5]; + int i; + + /* ASCII filtering */ + for (i = 0; i < 4 && p[i] != 0; i++) + { + if (p[i] < 32 || p[i] >= 127) + vendor_id[i] = '.'; + else + vendor_id[i] = p[i]; + } + + /* Terminate the string */ + vendor_id[i] = '\0'; + + pr_attr("Vendor ID", "%s", vendor_id); +} + +static void dmi_tpm_characteristics(u64 code) +{ + /* 7.1.1 */ + static const char *characteristics[] = { + "TPM Device characteristics not supported", /* 2 */ + "Family configurable via firmware update", + "Family configurable via platform software support", + "Family configurable via OEM proprietary mechanism" /* 5 */ + }; + int i; + + /* + * This isn't very clear what this bit is supposed to mean + */ + if (code.l & (1 << 2)) + { + pr_list_item("%s", characteristics[0]); + return; + } + + for (i = 3; i <= 5; i++) + if (code.l & (1 << i)) + pr_list_item("%s", characteristics[i - 2]); +} + +/* + * 7.46 Firmware Inventory Information (Type 45) + */ + +static void dmi_firmware_characteristics(u16 code) +{ + /* 7.46.3 */ + static const char *characteristics[] = { + "Updatable", /* 0 */ + "Write-Protect" /* 1 */ + }; + int i; + + for (i = 0; i <= 1; i++) + pr_list_item("%s: %s", characteristics[i], + (code & (1 << i)) ? "Yes" : "No"); +} + +static const char *dmi_firmware_state(u8 code) +{ + /* 7.46.4 */ + static const char *state[] = { + "Other", /* 0x01 */ + "Unknown", + "Disabled", + "Enabled", + "Absent", + "Stand-by Offline", + "Stand-by Spare", + "Unavailable Offline" /* 0x08 */ + }; + + if (code >= 0x01 && code <= 0x08) + return state[code - 0x01]; + return out_of_spec; +} + +static void dmi_firmware_components(u8 count, const u8 *p) +{ + int i; + + pr_list_start("Associated Components", "%u", count); + for (i = 0; i < count; i++) + pr_list_item("0x%04X", WORD(p + sizeof(u16) * i)); + pr_list_end(); +} + +/* + * Main + */ + +static void dmi_decode(const struct dmi_header *h, u16 ver) +{ + const u8 *data = h->data; + + /* + * Note: DMI types 37 and 42 are untested + */ + switch (h->type) + { + case 0: /* 7.1 BIOS Information */ + pr_handle_name("BIOS Information"); + if (h->length < 0x12) break; + pr_attr("Vendor", "%s", + dmi_string(h, data[0x04])); + pr_attr("Version", "%s", + dmi_string(h, data[0x05])); + pr_attr("Release Date", "%s", + dmi_string(h, data[0x08])); + /* + * On IA-64 and UEFI-based systems, the BIOS base + * address will read 0 because there is no BIOS. Skip + * the base address and the runtime size in this case. + */ + if (WORD(data + 0x06) != 0) + { + pr_attr("Address", "0x%04X0", + WORD(data + 0x06)); + dmi_bios_runtime_size((0x10000 - WORD(data + 0x06)) << 4); + } + dmi_bios_rom_size(data[0x09], h->length < 0x1A ? 16 : WORD(data + 0x18)); + pr_list_start("Characteristics", NULL); + dmi_bios_characteristics(QWORD(data + 0x0A)); + pr_list_end(); + if (h->length < 0x13) break; + dmi_bios_characteristics_x1(data[0x12]); + if (h->length < 0x14) break; + dmi_bios_characteristics_x2(data[0x13]); + if (h->length < 0x18) break; + if (data[0x14] != 0xFF && data[0x15] != 0xFF) + pr_attr("BIOS Revision", "%u.%u", + data[0x14], data[0x15]); + if (data[0x16] != 0xFF && data[0x17] != 0xFF) + pr_attr("Firmware Revision", "%u.%u", + data[0x16], data[0x17]); + break; + + case 1: /* 7.2 System Information */ + pr_handle_name("System Information"); + if (h->length < 0x08) break; + pr_attr("Manufacturer", "%s", + dmi_string(h, data[0x04])); + pr_attr("Product Name", "%s", + dmi_string(h, data[0x05])); + pr_attr("Version", "%s", + dmi_string(h, data[0x06])); + pr_attr("Serial Number", "%s", + dmi_string(h, data[0x07])); + if (h->length < 0x19) break; + dmi_system_uuid(pr_attr, "UUID", data + 0x08, ver); + pr_attr("Wake-up Type", "%s", + dmi_system_wake_up_type(data[0x18])); + if (h->length < 0x1B) break; + pr_attr("SKU Number", "%s", + dmi_string(h, data[0x19])); + pr_attr("Family", "%s", + dmi_string(h, data[0x1A])); + break; + + case 2: /* 7.3 Base Board Information */ + pr_handle_name("Base Board Information"); + if (h->length < 0x08) break; + pr_attr("Manufacturer", "%s", + dmi_string(h, data[0x04])); + pr_attr("Product Name", "%s", + dmi_string(h, data[0x05])); + pr_attr("Version", "%s", + dmi_string(h, data[0x06])); + pr_attr("Serial Number", "%s", + dmi_string(h, data[0x07])); + if (h->length < 0x09) break; + pr_attr("Asset Tag", "%s", + dmi_string(h, data[0x08])); + if (h->length < 0x0A) break; + dmi_base_board_features(data[0x09]); + if (h->length < 0x0E) break; + pr_attr("Location In Chassis", "%s", + dmi_string(h, data[0x0A])); + if (!(opt.flags & FLAG_QUIET)) + pr_attr("Chassis Handle", "0x%04X", + WORD(data + 0x0B)); + pr_attr("Type", "%s", + dmi_base_board_type(data[0x0D])); + if (h->length < 0x0F) break; + if (h->length < 0x0F + data[0x0E] * sizeof(u16)) break; + if (!(opt.flags & FLAG_QUIET)) + dmi_base_board_handles(data[0x0E], data + 0x0F); + break; + + case 3: /* 7.4 Chassis Information */ + pr_handle_name("Chassis Information"); + if (h->length < 0x09) break; + pr_attr("Manufacturer", "%s", + dmi_string(h, data[0x04])); + pr_attr("Type", "%s", + dmi_chassis_type(data[0x05])); + pr_attr("Lock", "%s", + dmi_chassis_lock(data[0x05] >> 7)); + pr_attr("Version", "%s", + dmi_string(h, data[0x06])); + pr_attr("Serial Number", "%s", + dmi_string(h, data[0x07])); + pr_attr("Asset Tag", "%s", + dmi_string(h, data[0x08])); + if (h->length < 0x0D) break; + pr_attr("Boot-up State", "%s", + dmi_chassis_state(data[0x09])); + pr_attr("Power Supply State", "%s", + dmi_chassis_state(data[0x0A])); + pr_attr("Thermal State", "%s", + dmi_chassis_state(data[0x0B])); + pr_attr("Security Status", "%s", + dmi_chassis_security_status(data[0x0C])); + if (h->length < 0x11) break; + pr_attr("OEM Information", "0x%08X", + DWORD(data + 0x0D)); + if (h->length < 0x13) break; + dmi_chassis_height(data[0x11]); + dmi_chassis_power_cords(data[0x12]); + if (h->length < 0x15) break; + if (h->length < 0x15 + data[0x13] * data[0x14]) break; + dmi_chassis_elements(data[0x13], data[0x14], data + 0x15); + if (h->length < 0x16 + data[0x13] * data[0x14]) break; + pr_attr("SKU Number", "%s", + dmi_string(h, data[0x15 + data[0x13] * data[0x14]])); + break; + + case 4: /* 7.5 Processor Information */ + pr_handle_name("Processor Information"); + if (h->length < 0x1A) break; + pr_attr("Socket Designation", "%s", + dmi_string(h, data[0x04])); + pr_attr("Type", "%s", + dmi_processor_type(data[0x05])); + pr_attr("Family", "%s", + dmi_processor_family(h, ver)); + pr_attr("Manufacturer", "%s", + dmi_string(h, data[0x07])); + dmi_processor_id(h); + pr_attr("Version", "%s", + dmi_string(h, data[0x10])); + dmi_processor_voltage("Voltage", data[0x11]); + dmi_processor_frequency("External Clock", data + 0x12); + dmi_processor_frequency("Max Speed", data + 0x14); + dmi_processor_frequency("Current Speed", data + 0x16); + if (data[0x18] & (1 << 6)) + pr_attr("Status", "Populated, %s", + dmi_processor_status(data[0x18] & 0x07)); + else + pr_attr("Status", "Unpopulated"); + pr_attr("Upgrade", "%s", + dmi_processor_upgrade(data[0x19])); + if (h->length < 0x20) break; + if (!(opt.flags & FLAG_QUIET)) + { + dmi_processor_cache("L1 Cache Handle", + WORD(data + 0x1A), "L1", ver); + dmi_processor_cache("L2 Cache Handle", + WORD(data + 0x1C), "L2", ver); + dmi_processor_cache("L3 Cache Handle", + WORD(data + 0x1E), "L3", ver); + } + if (h->length < 0x23) break; + pr_attr("Serial Number", "%s", + dmi_string(h, data[0x20])); + pr_attr("Asset Tag", "%s", + dmi_string(h, data[0x21])); + pr_attr("Part Number", "%s", + dmi_string(h, data[0x22])); + if (h->length < 0x28) break; + if (data[0x23] != 0) + pr_attr("Core Count", "%u", + h->length >= 0x2C && data[0x23] == 0xFF ? + WORD(data + 0x2A) : data[0x23]); + if (data[0x24] != 0) + pr_attr("Core Enabled", "%u", + h->length >= 0x2E && data[0x24] == 0xFF ? + WORD(data + 0x2C) : data[0x24]); + if (data[0x25] != 0) + pr_attr("Thread Count", "%u", + h->length >= 0x30 && data[0x25] == 0xFF ? + WORD(data + 0x2E) : data[0x25]); + dmi_processor_characteristics("Characteristics", + WORD(data + 0x26)); + break; + + case 5: /* 7.6 Memory Controller Information */ + pr_handle_name("Memory Controller Information"); + if (h->length < 0x0F) break; + pr_attr("Error Detecting Method", "%s", + dmi_memory_controller_ed_method(data[0x04])); + dmi_memory_controller_ec_capabilities("Error Correcting Capabilities", + data[0x05]); + pr_attr("Supported Interleave", "%s", + dmi_memory_controller_interleave(data[0x06])); + pr_attr("Current Interleave", "%s", + dmi_memory_controller_interleave(data[0x07])); + pr_attr("Maximum Memory Module Size", "%u MB", + 1 << data[0x08]); + pr_attr("Maximum Total Memory Size", "%u MB", + data[0x0E] * (1 << data[0x08])); + dmi_memory_controller_speeds("Supported Speeds", + WORD(data + 0x09)); + dmi_memory_module_types("Supported Memory Types", + WORD(data + 0x0B), 0); + dmi_processor_voltage("Memory Module Voltage", data[0x0D]); + if (h->length < 0x0F + data[0x0E] * sizeof(u16)) break; + dmi_memory_controller_slots(data[0x0E], data + 0x0F); + if (h->length < 0x10 + data[0x0E] * sizeof(u16)) break; + dmi_memory_controller_ec_capabilities("Enabled Error Correcting Capabilities", + data[0x0F + data[0x0E] * sizeof(u16)]); + break; + + case 6: /* 7.7 Memory Module Information */ + pr_handle_name("Memory Module Information"); + if (h->length < 0x0C) break; + pr_attr("Socket Designation", "%s", + dmi_string(h, data[0x04])); + dmi_memory_module_connections(data[0x05]); + dmi_memory_module_speed("Current Speed", data[0x06]); + dmi_memory_module_types("Type", WORD(data + 0x07), 1); + dmi_memory_module_size("Installed Size", data[0x09]); + dmi_memory_module_size("Enabled Size", data[0x0A]); + dmi_memory_module_error(data[0x0B]); + break; + + case 7: /* 7.8 Cache Information */ + pr_handle_name("Cache Information"); + if (h->length < 0x0F) break; + pr_attr("Socket Designation", "%s", + dmi_string(h, data[0x04])); + pr_attr("Configuration", "%s, %s, Level %u", + WORD(data + 0x05) & 0x0080 ? "Enabled" : "Disabled", + WORD(data + 0x05) & 0x0008 ? "Socketed" : "Not Socketed", + (WORD(data + 0x05) & 0x0007) + 1); + pr_attr("Operational Mode", "%s", + dmi_cache_mode((WORD(data + 0x05) >> 8) & 0x0003)); + pr_attr("Location", "%s", + dmi_cache_location((WORD(data + 0x05) >> 5) & 0x0003)); + if (h->length >= 0x1B) + dmi_cache_size_2("Installed Size", DWORD(data + 0x17)); + else + dmi_cache_size("Installed Size", WORD(data + 0x09)); + if (h->length >= 0x17) + dmi_cache_size_2("Maximum Size", DWORD(data + 0x13)); + else + dmi_cache_size("Maximum Size", WORD(data + 0x07)); + dmi_cache_types("Supported SRAM Types", WORD(data + 0x0B), 0); + dmi_cache_types("Installed SRAM Type", WORD(data + 0x0D), 1); + if (h->length < 0x13) break; + dmi_memory_module_speed("Speed", data[0x0F]); + pr_attr("Error Correction Type", "%s", + dmi_cache_ec_type(data[0x10])); + pr_attr("System Type", "%s", + dmi_cache_type(data[0x11])); + pr_attr("Associativity", "%s", + dmi_cache_associativity(data[0x12])); + break; + + case 8: /* 7.9 Port Connector Information */ + pr_handle_name("Port Connector Information"); + if (h->length < 0x09) break; + pr_attr("Internal Reference Designator", "%s", + dmi_string(h, data[0x04])); + pr_attr("Internal Connector Type", "%s", + dmi_port_connector_type(data[0x05])); + pr_attr("External Reference Designator", "%s", + dmi_string(h, data[0x06])); + pr_attr("External Connector Type", "%s", + dmi_port_connector_type(data[0x07])); + pr_attr("Port Type", "%s", + dmi_port_type(data[0x08])); + break; + + case 9: /* 7.10 System Slots */ + pr_handle_name("System Slot Information"); + if (h->length < 0x0C) break; + pr_attr("Designation", "%s", + dmi_string(h, data[0x04])); + dmi_slot_type_with_width(data[0x05], data[0x06]); + pr_attr("Current Usage", "%s", + dmi_slot_current_usage(data[0x07])); + pr_attr("Length", "%s", + dmi_slot_length(data[0x08])); + dmi_slot_id(data[0x09], data[0x0A], data[0x05]); + if (h->length < 0x0D) + dmi_slot_characteristics("Characteristics", data[0x0B], 0x00); + else + dmi_slot_characteristics("Characteristics", data[0x0B], data[0x0C]); + if (h->length < 0x11) break; + dmi_slot_segment_bus_func(WORD(data + 0x0D), data[0x0F], data[0x10]); + if (h->length < 0x13) break; + pr_attr("Data Bus Width", "%u", data[0x11]); + pr_attr("Peer Devices", "%u", data[0x12]); + if (h->length < 0x13 + data[0x12] * 5) break; + dmi_slot_peers(data[0x12], data + 0x13); + if (h->length < 0x17 + data[0x12] * 5) break; + dmi_slot_information(data[0x05], data[0x13 + data[0x12] * 5]); + dmi_slot_physical_width(data[0x14 + data[0x12] * 5]); + dmi_slot_pitch(WORD(data + 0x15 + data[0x12] * 5)); + if (h->length < 0x18 + data[0x12] * 5) break; + pr_attr("Height", "%s", + dmi_slot_height(data[0x17 + data[0x12] * 5])); + break; + + case 10: /* 7.11 On Board Devices Information */ + dmi_on_board_devices(h); + break; + + case 11: /* 7.12 OEM Strings */ + pr_handle_name("OEM Strings"); + if (h->length < 0x05) break; + dmi_oem_strings(h); + break; + + case 12: /* 7.13 System Configuration Options */ + pr_handle_name("System Configuration Options"); + if (h->length < 0x05) break; + dmi_system_configuration_options(h); + break; + + case 13: /* 7.14 BIOS Language Information */ + pr_handle_name("BIOS Language Information"); + if (h->length < 0x16) break; + if (ver >= 0x0201) + { + pr_attr("Language Description Format", "%s", + dmi_bios_language_format(data[0x05])); + } + pr_list_start("Installable Languages", "%u", data[0x04]); + dmi_bios_languages(h); + pr_list_end(); + pr_attr("Currently Installed Language", "%s", + dmi_string(h, data[0x15])); + break; + + case 14: /* 7.15 Group Associations */ + pr_handle_name("Group Associations"); + if (h->length < 0x05) break; + pr_attr("Name", "%s", + dmi_string(h, data[0x04])); + pr_list_start("Items", "%u", + (h->length - 0x05) / 3); + dmi_group_associations_items((h->length - 0x05) / 3, data + 0x05); + pr_list_end(); + break; + + case 15: /* 7.16 System Event Log */ + pr_handle_name("System Event Log"); + if (h->length < 0x14) break; + pr_attr("Area Length", "%u bytes", + WORD(data + 0x04)); + pr_attr("Header Start Offset", "0x%04X", + WORD(data + 0x06)); + if (WORD(data + 0x08) - WORD(data + 0x06)) + pr_attr("Header Length", "%u byte%s", + WORD(data + 0x08) - WORD(data + 0x06), + WORD(data + 0x08) - WORD(data + 0x06) > 1 ? "s" : ""); + pr_attr("Data Start Offset", "0x%04X", + WORD(data + 0x08)); + pr_attr("Access Method", "%s", + dmi_event_log_method(data[0x0A])); + dmi_event_log_address(data[0x0A], data + 0x10); + dmi_event_log_status(data[0x0B]); + pr_attr("Change Token", "0x%08X", + DWORD(data + 0x0C)); + if (h->length < 0x17) break; + pr_attr("Header Format", "%s", + dmi_event_log_header_type(data[0x14])); + pr_attr("Supported Log Type Descriptors", "%u", + data[0x15]); + if (h->length < 0x17 + data[0x15] * data[0x16]) break; + dmi_event_log_descriptors(data[0x15], data[0x16], data + 0x17); + break; + + case 16: /* 7.17 Physical Memory Array */ + pr_handle_name("Physical Memory Array"); + if (h->length < 0x0F) break; + pr_attr("Location", "%s", + dmi_memory_array_location(data[0x04])); + pr_attr("Use", "%s", + dmi_memory_array_use(data[0x05])); + pr_attr("Error Correction Type", "%s", + dmi_memory_array_ec_type(data[0x06])); + if (DWORD(data + 0x07) == 0x80000000) + { + if (h->length < 0x17) + pr_attr("Maximum Capacity", "Unknown"); + else + dmi_print_memory_size("Maximum Capacity", + QWORD(data + 0x0F), 0); + } + else + { + u64 capacity; + + capacity.h = 0; + capacity.l = DWORD(data + 0x07); + dmi_print_memory_size("Maximum Capacity", + capacity, 1); + } + if (!(opt.flags & FLAG_QUIET)) + dmi_memory_array_error_handle(WORD(data + 0x0B)); + pr_attr("Number Of Devices", "%u", + WORD(data + 0x0D)); + break; + + case 17: /* 7.18 Memory Device */ + pr_handle_name("Memory Device"); + if (h->length < 0x15) break; + if (!(opt.flags & FLAG_QUIET)) + { + pr_attr("Array Handle", "0x%04X", + WORD(data + 0x04)); + dmi_memory_array_error_handle(WORD(data + 0x06)); + } + dmi_memory_device_width("Total Width", WORD(data + 0x08)); + dmi_memory_device_width("Data Width", WORD(data + 0x0A)); + if (h->length >= 0x20 && WORD(data + 0x0C) == 0x7FFF) + dmi_memory_device_extended_size(DWORD(data + 0x1C)); + else + dmi_memory_device_size(WORD(data + 0x0C)); + pr_attr("Form Factor", "%s", + dmi_memory_device_form_factor(data[0x0E])); + dmi_memory_device_set(data[0x0F]); + pr_attr("Locator", "%s", + dmi_string(h, data[0x10])); + pr_attr("Bank Locator", "%s", + dmi_string(h, data[0x11])); + pr_attr("Type", "%s", + dmi_memory_device_type(data[0x12])); + dmi_memory_device_type_detail(WORD(data + 0x13)); + if (h->length < 0x17) break; + /* If no module is present, the remaining fields are irrelevant */ + if (WORD(data + 0x0C) == 0 && !(opt.flags & FLAG_NO_QUIRKS)) + break; + dmi_memory_device_speed("Speed", WORD(data + 0x15), + h->length >= 0x5C ? + DWORD(data + 0x54) : 0); + if (h->length < 0x1B) break; + pr_attr("Manufacturer", "%s", + dmi_string(h, data[0x17])); + pr_attr("Serial Number", "%s", + dmi_string(h, data[0x18])); + pr_attr("Asset Tag", "%s", + dmi_string(h, data[0x19])); + pr_attr("Part Number", "%s", + dmi_string(h, data[0x1A])); + if (h->length < 0x1C) break; + if ((data[0x1B] & 0x0F) == 0) + pr_attr("Rank", "Unknown"); + else + pr_attr("Rank", "%u", data[0x1B] & 0x0F); + if (h->length < 0x22) break; + dmi_memory_device_speed("Configured Memory Speed", + WORD(data + 0x20), + h->length >= 0x5C ? + DWORD(data + 0x58) : 0); + if (h->length < 0x28) break; + dmi_memory_voltage_value("Minimum Voltage", + WORD(data + 0x22)); + dmi_memory_voltage_value("Maximum Voltage", + WORD(data + 0x24)); + dmi_memory_voltage_value("Configured Voltage", + WORD(data + 0x26)); + if (h->length < 0x34) break; + dmi_memory_technology(data[0x28]); + dmi_memory_operating_mode_capability(WORD(data + 0x29)); + pr_attr("Firmware Version", "%s", + dmi_string(h, data[0x2B])); + dmi_memory_manufacturer_id("Module Manufacturer ID", + WORD(data + 0x2C)); + dmi_memory_product_id("Module Product ID", + WORD(data + 0x2E)); + dmi_memory_manufacturer_id("Memory Subsystem Controller Manufacturer ID", + WORD(data + 0x30)); + dmi_memory_product_id("Memory Subsystem Controller Product ID", + WORD(data + 0x32)); + if (h->length < 0x3C) break; + dmi_memory_size("Non-Volatile Size", QWORD(data + 0x34)); + if (h->length < 0x44) break; + dmi_memory_size("Volatile Size", QWORD(data + 0x3C)); + if (h->length < 0x4C) break; + dmi_memory_size("Cache Size", QWORD(data + 0x44)); + if (h->length < 0x54) break; + dmi_memory_size("Logical Size", QWORD(data + 0x4C)); + break; + + case 18: /* 7.19 32-bit Memory Error Information */ + pr_handle_name("32-bit Memory Error Information"); + if (h->length < 0x17) break; + pr_attr("Type", "%s", + dmi_memory_error_type(data[0x04])); + pr_attr("Granularity", "%s", + dmi_memory_error_granularity(data[0x05])); + pr_attr("Operation", "%s", + dmi_memory_error_operation(data[0x06])); + dmi_memory_error_syndrome(DWORD(data + 0x07)); + dmi_32bit_memory_error_address("Memory Array Address", + DWORD(data + 0x0B)); + dmi_32bit_memory_error_address("Device Address", + DWORD(data + 0x0F)); + dmi_32bit_memory_error_address("Resolution", + DWORD(data + 0x13)); + break; + + case 19: /* 7.20 Memory Array Mapped Address */ + pr_handle_name("Memory Array Mapped Address"); + if (h->length < 0x0F) break; + if (h->length >= 0x1F && DWORD(data + 0x04) == 0xFFFFFFFF) + { + u64 start, end; + + start = QWORD(data + 0x0F); + end = QWORD(data + 0x17); + + pr_attr("Starting Address", "0x%08X%08Xk", + start.h, start.l); + pr_attr("Ending Address", "0x%08X%08Xk", + end.h, end.l); + dmi_mapped_address_extended_size(start, end); + } + else + { + pr_attr("Starting Address", "0x%08X%03X", + DWORD(data + 0x04) >> 2, + (DWORD(data + 0x04) & 0x3) << 10); + pr_attr("Ending Address", "0x%08X%03X", + DWORD(data + 0x08) >> 2, + ((DWORD(data + 0x08) & 0x3) << 10) + 0x3FF); + dmi_mapped_address_size(DWORD(data + 0x08) - DWORD(data + 0x04) + 1); + } + if (!(opt.flags & FLAG_QUIET)) + pr_attr("Physical Array Handle", "0x%04X", + WORD(data + 0x0C)); + pr_attr("Partition Width", "%u", + data[0x0E]); + break; + + case 20: /* 7.21 Memory Device Mapped Address */ + pr_handle_name("Memory Device Mapped Address"); + if (h->length < 0x13) break; + if (h->length >= 0x23 && DWORD(data + 0x04) == 0xFFFFFFFF) + { + u64 start, end; + + start = QWORD(data + 0x13); + end = QWORD(data + 0x1B); + + pr_attr("Starting Address", "0x%08X%08Xk", + start.h, start.l); + pr_attr("Ending Address", "0x%08X%08Xk", + end.h, end.l); + dmi_mapped_address_extended_size(start, end); + } + else + { + pr_attr("Starting Address", "0x%08X%03X", + DWORD(data + 0x04) >> 2, + (DWORD(data + 0x04) & 0x3) << 10); + pr_attr("Ending Address", "0x%08X%03X", + DWORD(data + 0x08) >> 2, + ((DWORD(data + 0x08) & 0x3) << 10) + 0x3FF); + dmi_mapped_address_size(DWORD(data + 0x08) - DWORD(data + 0x04) + 1); + } + if (!(opt.flags & FLAG_QUIET)) + { + pr_attr("Physical Device Handle", "0x%04X", + WORD(data + 0x0C)); + pr_attr("Memory Array Mapped Address Handle", "0x%04X", + WORD(data + 0x0E)); + } + dmi_mapped_address_row_position(data[0x10]); + dmi_mapped_address_interleave_position(data[0x11]); + dmi_mapped_address_interleaved_data_depth(data[0x12]); + break; + + case 21: /* 7.22 Built-in Pointing Device */ + pr_handle_name("Built-in Pointing Device"); + if (h->length < 0x07) break; + pr_attr("Type", "%s", + dmi_pointing_device_type(data[0x04])); + pr_attr("Interface", "%s", + dmi_pointing_device_interface(data[0x05])); + pr_attr("Buttons", "%u", + data[0x06]); + break; + + case 22: /* 7.23 Portable Battery */ + pr_handle_name("Portable Battery"); + if (h->length < 0x10) break; + pr_attr("Location", "%s", + dmi_string(h, data[0x04])); + pr_attr("Manufacturer", "%s", + dmi_string(h, data[0x05])); + if (data[0x06] || h->length < 0x1A) + pr_attr("Manufacture Date", "%s", + dmi_string(h, data[0x06])); + if (data[0x07] || h->length < 0x1A) + pr_attr("Serial Number", "%s", + dmi_string(h, data[0x07])); + pr_attr("Name", "%s", + dmi_string(h, data[0x08])); + if (data[0x09] != 0x02 || h->length < 0x1A) + pr_attr("Chemistry", "%s", + dmi_battery_chemistry(data[0x09])); + if (h->length < 0x16) + dmi_battery_capacity(WORD(data + 0x0A), 1); + else + dmi_battery_capacity(WORD(data + 0x0A), data[0x15]); + dmi_battery_voltage(WORD(data + 0x0C)); + pr_attr("SBDS Version", "%s", + dmi_string(h, data[0x0E])); + dmi_battery_maximum_error(data[0x0F]); + if (h->length < 0x1A) break; + if (data[0x07] == 0) + pr_attr("SBDS Serial Number", "%04X", + WORD(data + 0x10)); + if (data[0x06] == 0) + pr_attr("SBDS Manufacture Date", "%u-%02u-%02u", + 1980 + (WORD(data + 0x12) >> 9), + (WORD(data + 0x12) >> 5) & 0x0F, + WORD(data + 0x12) & 0x1F); + if (data[0x09] == 0x02) + pr_attr("SBDS Chemistry", "%s", + dmi_string(h, data[0x14])); + pr_attr("OEM-specific Information", "0x%08X", + DWORD(data + 0x16)); + break; + + case 23: /* 7.24 System Reset */ + pr_handle_name("System Reset"); + if (h->length < 0x0D) break; + pr_attr("Status", "%s", + data[0x04] & (1 << 0) ? "Enabled" : "Disabled"); + pr_attr("Watchdog Timer", "%s", + data[0x04] & (1 << 5) ? "Present" : "Not Present"); + if (!(data[0x04] & (1 << 5))) + break; + pr_attr("Boot Option", "%s", + dmi_system_reset_boot_option((data[0x04] >> 1) & 0x3)); + pr_attr("Boot Option On Limit", "%s", + dmi_system_reset_boot_option((data[0x04] >> 3) & 0x3)); + dmi_system_reset_count("Reset Count", WORD(data + 0x05)); + dmi_system_reset_count("Reset Limit", WORD(data + 0x07)); + dmi_system_reset_timer("Timer Interval", WORD(data + 0x09)); + dmi_system_reset_timer("Timeout", WORD(data + 0x0B)); + break; + + case 24: /* 7.25 Hardware Security */ + pr_handle_name("Hardware Security"); + if (h->length < 0x05) break; + pr_attr("Power-On Password Status", "%s", + dmi_hardware_security_status(data[0x04] >> 6)); + pr_attr("Keyboard Password Status", "%s", + dmi_hardware_security_status((data[0x04] >> 4) & 0x3)); + pr_attr("Administrator Password Status", "%s", + dmi_hardware_security_status((data[0x04] >> 2) & 0x3)); + pr_attr("Front Panel Reset Status", "%s", + dmi_hardware_security_status(data[0x04] & 0x3)); + break; + + case 25: /* 7.26 System Power Controls */ + pr_handle_name("System Power Controls"); + if (h->length < 0x09) break; + dmi_power_controls_power_on(data + 0x04); + break; + + case 26: /* 7.27 Voltage Probe */ + pr_handle_name("Voltage Probe"); + if (h->length < 0x14) break; + pr_attr("Description", "%s", + dmi_string(h, data[0x04])); + pr_attr("Location", "%s", + dmi_voltage_probe_location(data[0x05] & 0x1f)); + pr_attr("Status", "%s", + dmi_probe_status(data[0x05] >> 5)); + dmi_voltage_probe_value("Maximum Value", WORD(data + 0x06)); + dmi_voltage_probe_value("Minimum Value", WORD(data + 0x08)); + dmi_voltage_probe_resolution(WORD(data + 0x0A)); + dmi_voltage_probe_value("Tolerance", WORD(data + 0x0C)); + dmi_probe_accuracy(WORD(data + 0x0E)); + pr_attr("OEM-specific Information", "0x%08X", + DWORD(data + 0x10)); + if (h->length < 0x16) break; + dmi_voltage_probe_value("Nominal Value", WORD(data + 0x14)); + break; + + case 27: /* 7.28 Cooling Device */ + pr_handle_name("Cooling Device"); + if (h->length < 0x0C) break; + if (!(opt.flags & FLAG_QUIET) && WORD(data + 0x04) != 0xFFFF) + pr_attr("Temperature Probe Handle", "0x%04X", + WORD(data + 0x04)); + pr_attr("Type", "%s", + dmi_cooling_device_type(data[0x06] & 0x1f)); + pr_attr("Status", "%s", + dmi_probe_status(data[0x06] >> 5)); + if (data[0x07] != 0x00) + pr_attr("Cooling Unit Group", "%u", + data[0x07]); + pr_attr("OEM-specific Information", "0x%08X", + DWORD(data + 0x08)); + if (h->length < 0x0E) break; + dmi_cooling_device_speed(WORD(data + 0x0C)); + if (h->length < 0x0F) break; + pr_attr("Description", "%s", dmi_string(h, data[0x0E])); + break; + + case 28: /* 7.29 Temperature Probe */ + pr_handle_name("Temperature Probe"); + if (h->length < 0x14) break; + pr_attr("Description", "%s", + dmi_string(h, data[0x04])); + pr_attr("Location", "%s", + dmi_temperature_probe_location(data[0x05] & 0x1F)); + pr_attr("Status", "%s", + dmi_probe_status(data[0x05] >> 5)); + dmi_temperature_probe_value("Maximum Value", + WORD(data + 0x06)); + dmi_temperature_probe_value("Minimum Value", + WORD(data + 0x08)); + dmi_temperature_probe_resolution(WORD(data + 0x0A)); + dmi_temperature_probe_value("Tolerance", + WORD(data + 0x0C)); + dmi_probe_accuracy(WORD(data + 0x0E)); + pr_attr("OEM-specific Information", "0x%08X", + DWORD(data + 0x10)); + if (h->length < 0x16) break; + dmi_temperature_probe_value("Nominal Value", + WORD(data + 0x14)); + break; + + case 29: /* 7.30 Electrical Current Probe */ + pr_handle_name("Electrical Current Probe"); + if (h->length < 0x14) break; + pr_attr("Description", "%s", + dmi_string(h, data[0x04])); + pr_attr("Location", "%s", + dmi_voltage_probe_location(data[5] & 0x1F)); + pr_attr("Status", "%s", + dmi_probe_status(data[0x05] >> 5)); + dmi_current_probe_value("Maximum Value", + WORD(data + 0x06)); + dmi_current_probe_value("Minimum Value", + WORD(data + 0x08)); + dmi_current_probe_resolution(WORD(data + 0x0A)); + dmi_current_probe_value("Tolerance", + WORD(data + 0x0C)); + dmi_probe_accuracy(WORD(data + 0x0E)); + pr_attr("OEM-specific Information", "0x%08X", + DWORD(data + 0x10)); + if (h->length < 0x16) break; + dmi_current_probe_value("Nominal Value", + WORD(data + 0x14)); + break; + + case 30: /* 7.31 Out-of-band Remote Access */ + pr_handle_name("Out-of-band Remote Access"); + if (h->length < 0x06) break; + pr_attr("Manufacturer Name", "%s", + dmi_string(h, data[0x04])); + pr_attr("Inbound Connection", "%s", + data[0x05] & (1 << 0) ? "Enabled" : "Disabled"); + pr_attr("Outbound Connection", "%s", + data[0x05] & (1 << 1) ? "Enabled" : "Disabled"); + break; + + case 31: /* 7.32 Boot Integrity Services Entry Point */ + pr_handle_name("Boot Integrity Services Entry Point"); + if (h->length < 0x1C) break; + pr_attr("Checksum", "%s", + checksum(data, h->length) ? "OK" : "Invalid"); + pr_attr("16-bit Entry Point Address", "%04X:%04X", + DWORD(data + 0x08) >> 16, + DWORD(data + 0x08) & 0xFFFF); + pr_attr("32-bit Entry Point Address", "0x%08X", + DWORD(data + 0x0C)); + break; + + case 32: /* 7.33 System Boot Information */ + pr_handle_name("System Boot Information"); + if (h->length < 0x0B) break; + pr_attr("Status", "%s", + dmi_system_boot_status(data[0x0A])); + break; + + case 33: /* 7.34 64-bit Memory Error Information */ + pr_handle_name("64-bit Memory Error Information"); + if (h->length < 0x1F) break; + pr_attr("Type", "%s", + dmi_memory_error_type(data[0x04])); + pr_attr("Granularity", "%s", + dmi_memory_error_granularity(data[0x05])); + pr_attr("Operation", "%s", + dmi_memory_error_operation(data[0x06])); + dmi_memory_error_syndrome(DWORD(data + 0x07)); + dmi_64bit_memory_error_address("Memory Array Address", + QWORD(data + 0x0B)); + dmi_64bit_memory_error_address("Device Address", + QWORD(data + 0x13)); + dmi_32bit_memory_error_address("Resolution", + DWORD(data + 0x1B)); + break; + + case 34: /* 7.35 Management Device */ + pr_handle_name("Management Device"); + if (h->length < 0x0B) break; + pr_attr("Description", "%s", + dmi_string(h, data[0x04])); + pr_attr("Type", "%s", + dmi_management_device_type(data[0x05])); + pr_attr("Address", "0x%08X", + DWORD(data + 0x06)); + pr_attr("Address Type", "%s", + dmi_management_device_address_type(data[0x0A])); + break; + + case 35: /* 7.36 Management Device Component */ + pr_handle_name("Management Device Component"); + if (h->length < 0x0B) break; + pr_attr("Description", "%s", + dmi_string(h, data[0x04])); + if (!(opt.flags & FLAG_QUIET)) + { + pr_attr("Management Device Handle", "0x%04X", + WORD(data + 0x05)); + pr_attr("Component Handle", "0x%04X", + WORD(data + 0x07)); + if (WORD(data + 0x09) != 0xFFFF) + pr_attr("Threshold Handle", "0x%04X", + WORD(data + 0x09)); + } + break; + + case 36: /* 7.37 Management Device Threshold Data */ + pr_handle_name("Management Device Threshold Data"); + if (h->length < 0x10) break; + if (WORD(data + 0x04) != 0x8000) + pr_attr("Lower Non-critical Threshold", "%d", + (i16)WORD(data + 0x04)); + if (WORD(data + 0x06) != 0x8000) + pr_attr("Upper Non-critical Threshold", "%d", + (i16)WORD(data + 0x06)); + if (WORD(data + 0x08) != 0x8000) + pr_attr("Lower Critical Threshold", "%d", + (i16)WORD(data + 0x08)); + if (WORD(data + 0x0A) != 0x8000) + pr_attr("Upper Critical Threshold", "%d", + (i16)WORD(data + 0x0A)); + if (WORD(data + 0x0C) != 0x8000) + pr_attr("Lower Non-recoverable Threshold", "%d", + (i16)WORD(data + 0x0C)); + if (WORD(data + 0x0E) != 0x8000) + pr_attr("Upper Non-recoverable Threshold", "%d", + (i16)WORD(data + 0x0E)); + break; + + case 37: /* 7.38 Memory Channel */ + pr_handle_name("Memory Channel"); + if (h->length < 0x07) break; + pr_attr("Type", "%s", + dmi_memory_channel_type(data[0x04])); + pr_attr("Maximal Load", "%u", + data[0x05]); + pr_attr("Devices", "%u", + data[0x06]); + if (h->length < 0x07 + 3 * data[0x06]) break; + dmi_memory_channel_devices(data[0x06], data + 0x07); + break; + + case 38: /* 7.39 IPMI Device Information */ + /* + * We use the word "Version" instead of "Revision", conforming to + * the IPMI specification. + */ + pr_handle_name("IPMI Device Information"); + if (h->length < 0x10) break; + pr_attr("Interface Type", "%s", + dmi_ipmi_interface_type(data[0x04])); + pr_attr("Specification Version", "%u.%u", + data[0x05] >> 4, data[0x05] & 0x0F); + pr_attr("I2C Slave Address", "0x%02x", + data[0x06] >> 1); + if (data[0x07] != 0xFF) + pr_attr("NV Storage Device Address", "%u", + data[0x07]); + else + pr_attr("NV Storage Device", "Not Present"); + dmi_ipmi_base_address(data[0x04], data + 0x08, + h->length < 0x11 ? 0 : (data[0x10] >> 4) & 1); + if (h->length < 0x12) break; + if (data[0x04] != 0x04) + { + pr_attr("Register Spacing", "%s", + dmi_ipmi_register_spacing(data[0x10] >> 6)); + if (data[0x10] & (1 << 3)) + { + pr_attr("Interrupt Polarity", "%s", + data[0x10] & (1 << 1) ? "Active High" : "Active Low"); + pr_attr("Interrupt Trigger Mode", "%s", + data[0x10] & (1 << 0) ? "Level" : "Edge"); + } + } + if (data[0x11] != 0x00) + { + pr_attr("Interrupt Number", "%u", + data[0x11]); + } + break; + + case 39: /* 7.40 System Power Supply */ + pr_handle_name("System Power Supply"); + if (h->length < 0x10) break; + if (data[0x04] != 0x00) + pr_attr("Power Unit Group", "%u", + data[0x04]); + pr_attr("Location", "%s", + dmi_string(h, data[0x05])); + pr_attr("Name", "%s", + dmi_string(h, data[0x06])); + pr_attr("Manufacturer", "%s", + dmi_string(h, data[0x07])); + pr_attr("Serial Number", "%s", + dmi_string(h, data[0x08])); + pr_attr("Asset Tag", "%s", + dmi_string(h, data[0x09])); + pr_attr("Model Part Number", "%s", + dmi_string(h, data[0x0A])); + pr_attr("Revision", "%s", + dmi_string(h, data[0x0B])); + dmi_power_supply_power(WORD(data + 0x0C)); + if (WORD(data + 0x0E) & (1 << 1)) + pr_attr("Status", "Present, %s", + dmi_power_supply_status((WORD(data + 0x0E) >> 7) & 0x07)); + else + pr_attr("Status", "Not Present"); + pr_attr("Type", "%s", + dmi_power_supply_type((WORD(data + 0x0E) >> 10) & 0x0F)); + pr_attr("Input Voltage Range Switching", "%s", + dmi_power_supply_range_switching((WORD(data + 0x0E) >> 3) & 0x0F)); + pr_attr("Plugged", "%s", + WORD(data + 0x0E) & (1 << 2) ? "No" : "Yes"); + pr_attr("Hot Replaceable", "%s", + WORD(data + 0x0E) & (1 << 0) ? "Yes" : "No"); + if (h->length < 0x16) break; + if (!(opt.flags & FLAG_QUIET)) + { + if (WORD(data + 0x10) != 0xFFFF) + pr_attr("Input Voltage Probe Handle", "0x%04X", + WORD(data + 0x10)); + if (WORD(data + 0x12) != 0xFFFF) + pr_attr("Cooling Device Handle", "0x%04X", + WORD(data + 0x12)); + if (WORD(data + 0x14) != 0xFFFF) + pr_attr("Input Current Probe Handle", "0x%04X", + WORD(data + 0x14)); + } + break; + + case 40: /* 7.41 Additional Information */ + if (h->length < 0x0B) break; + if (opt.flags & FLAG_QUIET) + return; + dmi_additional_info(h); + break; + + case 41: /* 7.42 Onboard Device Extended Information */ + pr_handle_name("Onboard Device"); + if (h->length < 0x0B) break; + pr_attr("Reference Designation", "%s", dmi_string(h, data[0x04])); + pr_attr("Type", "%s", + dmi_on_board_devices_type(data[0x05] & 0x7F)); + pr_attr("Status", "%s", + data[0x05] & 0x80 ? "Enabled" : "Disabled"); + pr_attr("Type Instance", "%u", data[0x06]); + dmi_slot_segment_bus_func(WORD(data + 0x07), data[0x09], data[0x0A]); + break; + + case 42: /* 7.43 Management Controller Host Interface */ + pr_handle_name("Management Controller Host Interface"); + if (ver < 0x0302) + { + if (h->length < 0x05) break; + pr_attr("Interface Type", "%s", + dmi_management_controller_host_type(data[0x04])); + /* + * There you have a type-dependent, variable-length + * part in the middle of the structure, with no + * length specifier, so no easy way to decode the + * common, final part of the structure. What a pity. + */ + if (h->length < 0x09) break; + if (data[0x04] == 0xF0) /* OEM */ + { + pr_attr("Vendor ID", "0x%02X%02X%02X%02X", + data[0x05], data[0x06], data[0x07], + data[0x08]); + } + } + else + dmi_parse_controller_structure(h); + break; + + case 43: /* 7.44 TPM Device */ + pr_handle_name("TPM Device"); + if (h->length < 0x1B) break; + dmi_tpm_vendor_id(data + 0x04); + pr_attr("Specification Version", "%d.%d", data[0x08], data[0x09]); + switch (data[0x08]) + { + case 0x01: + /* + * We skip the first 2 bytes, which are + * redundant with the above, and uncoded + * in a silly way. + */ + pr_attr("Firmware Revision", "%u.%u", + data[0x0C], data[0x0D]); + break; + case 0x02: + pr_attr("Firmware Revision", "%u.%u", + DWORD(data + 0x0A) >> 16, + DWORD(data + 0x0A) & 0xFFFF); + /* + * We skip the next 4 bytes, as their + * format is not standardized and their + * usefulness seems limited anyway. + */ + break; + } + pr_attr("Description", "%s", dmi_string(h, data[0x12])); + pr_list_start("Characteristics", NULL); + dmi_tpm_characteristics(QWORD(data + 0x13)); + pr_list_end(); + if (h->length < 0x1F) break; + pr_attr("OEM-specific Information", "0x%08X", + DWORD(data + 0x1B)); + break; + + case 45: /* 7.46 Firmware Inventory Information */ + pr_handle_name("Firmware Inventory Information"); + if (h->length < 0x18) break; + pr_attr("Firmware Component Name", "%s", + dmi_string(h, data[0x04])); + pr_attr("Firmware Version", "%s", + dmi_string(h, data[0x05])); + pr_attr("Firmware ID", "%s", dmi_string(h, data[0x07])); + pr_attr("Release Date", "%s", dmi_string(h, data[0x09])); + pr_attr("Manufacturer", "%s", dmi_string(h, data[0x0A])); + pr_attr("Lowest Supported Firmware Version", "%s", + dmi_string(h, data[0x0B])); + dmi_memory_size("Image Size", QWORD(data + 0x0C)); + pr_list_start("Characteristics", NULL); + dmi_firmware_characteristics(WORD(data + 0x14)); + pr_list_end(); + pr_attr("State", "%s", dmi_firmware_state(data[0x16])); + if (h->length < 0x18 + data[0x17] * 2) break; + if (!(opt.flags & FLAG_QUIET)) + dmi_firmware_components(data[0x17], data + 0x18); + break; + + case 126: + pr_handle_name("Inactive"); + break; + + case 127: + pr_handle_name("End Of Table"); + break; + + default: + if (dmi_decode_oem(h)) + break; + if (opt.flags & FLAG_QUIET) + return; + pr_handle_name("%s Type", + h->type >= 128 ? "OEM-specific" : "Unknown"); + dmi_dump(h); + } + pr_sep(); +} + +static void to_dmi_header(struct dmi_header *h, u8 *data) +{ + h->type = data[0]; + h->length = data[1]; + h->handle = WORD(data + 2); + h->data = data; +} + +static void dmi_table_string(const struct dmi_header *h, const u8 *data, u16 ver) +{ + int key; + u8 offset = opt.string->offset; + + if (opt.string->type == 11) /* OEM strings */ + { + if (h->length < 5 || offset > data[4]) + { + fprintf(stderr, "No OEM string number %u\n", offset); + return; + } + + if (offset) + printf("%s\n", dmi_string(h, offset)); + else + printf("%u\n", data[4]); /* count */ + return; + } + + if (offset >= h->length) + return; + + key = (opt.string->type << 8) | offset; + switch (key) + { + case 0x015: /* -s bios-revision */ + if (data[offset - 1] != 0xFF && data[offset] != 0xFF) + printf("%u.%u\n", data[offset - 1], data[offset]); + break; + case 0x017: /* -s firmware-revision */ + if (data[offset - 1] != 0xFF && data[offset] != 0xFF) + printf("%u.%u\n", data[offset - 1], data[offset]); + break; + case 0x108: + dmi_system_uuid(NULL, NULL, data + offset, ver); + break; + case 0x305: + printf("%s\n", dmi_chassis_type(data[offset])); + break; + case 0x406: + printf("%s\n", dmi_processor_family(h, ver)); + break; + case 0x416: + dmi_processor_frequency(NULL, data + offset); + break; + default: + printf("%s\n", dmi_string(h, data[offset])); + } +} + +static int dmi_table_dump(const u8 *ep, u32 ep_len, const u8 *table, + u32 table_len) +{ + int fd; + FILE *f; + + fd = open(opt.dumpfile, O_WRONLY|O_CREAT|O_EXCL, 0666); + if (fd == -1) + { + fprintf(stderr, "%s: ", opt.dumpfile); + perror("open"); + return -1; + } + + f = fdopen(fd, "wb"); + if (!f) + { + fprintf(stderr, "%s: ", opt.dumpfile); + perror("fdopen"); + return -1; + } + + if (!(opt.flags & FLAG_QUIET)) + pr_comment("Writing %d bytes to %s.", ep_len, opt.dumpfile); + if (fwrite(ep, ep_len, 1, f) != 1) + { + fprintf(stderr, "%s: ", opt.dumpfile); + perror("fwrite"); + goto err_close; + } + + if (fseek(f, 32, SEEK_SET) != 0) + { + fprintf(stderr, "%s: ", opt.dumpfile); + perror("fseek"); + goto err_close; + } + + if (!(opt.flags & FLAG_QUIET)) + pr_comment("Writing %d bytes to %s.", table_len, opt.dumpfile); + if (fwrite(table, table_len, 1, f) != 1) + { + fprintf(stderr, "%s: ", opt.dumpfile); + perror("fwrite"); + goto err_close; + } + + if (fclose(f)) + { + fprintf(stderr, "%s: ", opt.dumpfile); + perror("fclose"); + return -1; + } + + return 0; + +err_close: + fclose(f); + return -1; +} + +static void dmi_table_decode(u8 *buf, u32 len, u16 num, u16 ver, u32 flags) +{ + u8 *data; + int i = 0; + + /* First pass: Save specific values needed to decode OEM types */ + data = buf; + while ((i < num || !num) + && data + 4 <= buf + len) /* 4 is the length of an SMBIOS structure header */ + { + u8 *next; + struct dmi_header h; + + to_dmi_header(&h, data); + + /* + * If a short entry is found (less than 4 bytes), not only it + * is invalid, but we cannot reliably locate the next entry. + * Also stop at end-of-table marker if so instructed. + */ + if (h.length < 4 || + (h.type == 127 && + (opt.flags & (FLAG_QUIET | FLAG_STOP_AT_EOT)))) + break; + i++; + + /* Look for the next handle */ + next = data + h.length; + while ((unsigned long)(next - buf + 1) < len + && (next[0] != 0 || next[1] != 0)) + next++; + next += 2; + + /* Make sure the whole structure fits in the table */ + if ((unsigned long)(next - buf) > len) + break; + + /* Assign vendor for vendor-specific decodes later */ + if (h.type == 1 && h.length >= 6) + dmi_set_vendor(_dmi_string(&h, data[0x04], 0), + _dmi_string(&h, data[0x05], 0)); + + /* Remember CPUID type for HPE type 199 */ + if (h.type == 4 && h.length >= 0x1A && cpuid_type == cpuid_none) + cpuid_type = dmi_get_cpuid_type(&h); + data = next; + } + + /* Second pass: Actually decode the data */ + i = 0; + data = buf; + while ((i < num || !num) + && data + 4 <= buf + len) /* 4 is the length of an SMBIOS structure header */ + { + u8 *next; + struct dmi_header h; + int display; + + to_dmi_header(&h, data); + display = ((opt.type == NULL || opt.type[h.type]) + && (opt.handle == ~0U || opt.handle == h.handle) + && !((opt.flags & FLAG_QUIET) && (h.type == 126 || h.type == 127)) + && !opt.string); + + /* + * If a short entry is found (less than 4 bytes), not only it + * is invalid, but we cannot reliably locate the next entry. + * Better stop at this point, and let the user know his/her + * table is broken. + */ + if (h.length < 4) + { + if (!(opt.flags & FLAG_QUIET)) + { + fprintf(stderr, + "Invalid entry length (%u). DMI table " + "is broken! Stop.\n\n", + (unsigned int)h.length); + opt.flags |= FLAG_QUIET; + } + break; + } + i++; + + /* In quiet mode, stop decoding at end of table marker */ + if ((opt.flags & FLAG_QUIET) && h.type == 127) + break; + + if (display + && (!(opt.flags & FLAG_QUIET) || (opt.flags & FLAG_DUMP))) + pr_handle(&h); + + /* Look for the next handle */ + next = data + h.length; + while ((unsigned long)(next - buf + 1) < len + && (next[0] != 0 || next[1] != 0)) + next++; + next += 2; + + /* Make sure the whole structure fits in the table */ + if ((unsigned long)(next - buf) > len) + { + if (display && !(opt.flags & FLAG_QUIET)) + pr_struct_err("<TRUNCATED>"); + pr_sep(); + data = next; + break; + } + + /* Fixup a common mistake */ + if (h.type == 34 && !(opt.flags & FLAG_NO_QUIRKS)) + dmi_fixup_type_34(&h, display); + + if (display) + { + if (opt.flags & FLAG_DUMP) + { + dmi_dump(&h); + pr_sep(); + } + else + dmi_decode(&h, ver); + } + else if (opt.string != NULL + && opt.string->type == h.type) + dmi_table_string(&h, data, ver); + + data = next; + + /* SMBIOS v3 requires stopping at this marker */ + if (h.type == 127 && (flags & FLAG_STOP_AT_EOT)) + break; + } + + /* + * SMBIOS v3 64-bit entry points do not announce a structures count, + * and only indicate a maximum size for the table. + */ + if (!(opt.flags & FLAG_QUIET)) + { + if (num && i != num) + fprintf(stderr, "Wrong DMI structures count: %d announced, " + "only %d decoded.\n", num, i); + if ((unsigned long)(data - buf) > len + || (num && (unsigned long)(data - buf) < len)) + fprintf(stderr, "Wrong DMI structures length: %u bytes " + "announced, structures occupy %lu bytes.\n", + len, (unsigned long)(data - buf)); + } +} + +/* Allocates a buffer for the table, must be freed by the caller */ +static u8 *dmi_table_get(off_t base, u32 *len, u16 num, u32 ver, + const char *devmem, u32 flags) +{ + u8 *buf; + + if (ver > SUPPORTED_SMBIOS_VER && !(opt.flags & FLAG_QUIET)) + { + pr_comment("SMBIOS implementations newer than version %u.%u.%u are not", + SUPPORTED_SMBIOS_VER >> 16, + (SUPPORTED_SMBIOS_VER >> 8) & 0xFF, + SUPPORTED_SMBIOS_VER & 0xFF); + pr_comment("fully supported by this version of dmidecode."); + } + + if (!(opt.flags & FLAG_QUIET)) + { + if (opt.type == NULL) + { + if (num) + pr_info("%u structures occupying %u bytes.", + num, *len); + if (!(opt.flags & FLAG_FROM_DUMP)) + pr_info("Table at 0x%08llX.", + (unsigned long long)base); + } + pr_sep(); + } + + if ((flags & FLAG_NO_FILE_OFFSET) || (opt.flags & FLAG_FROM_DUMP)) + { + /* + * When reading from sysfs or from a dump file, the file may be + * shorter than announced. For SMBIOS v3 this is expcted, as we + * only know the maximum table size, not the actual table size. + * For older implementations (and for SMBIOS v3 too), this + * would be the result of the kernel truncating the table on + * parse error. + */ + size_t size = *len; + buf = read_file(flags & FLAG_NO_FILE_OFFSET ? 0 : base, + &size, devmem); + if (!(opt.flags & FLAG_QUIET) && num && size != (size_t)*len) + { + fprintf(stderr, "Wrong DMI structures length: %u bytes " + "announced, only %lu bytes available.\n", + *len, (unsigned long)size); + } + *len = size; + } + else + buf = mem_chunk(base, *len, devmem); + + if (buf == NULL) + { + fprintf(stderr, "Failed to read table, sorry.\n"); +#ifndef USE_MMAP + if (!(flags & FLAG_NO_FILE_OFFSET)) + fprintf(stderr, + "Try compiling dmidecode with -DUSE_MMAP.\n"); +#endif + } + + return buf; +} + + +/* + * Build a crafted entry point with table address hard-coded to 32, + * as this is where we will put it in the output file. We adjust the + * DMI checksum appropriately. The SMBIOS checksum needs no adjustment. + */ +static void overwrite_dmi_address(u8 *buf) +{ + buf[0x05] += buf[0x08] + buf[0x09] + buf[0x0A] + buf[0x0B] - 32; + buf[0x08] = 32; + buf[0x09] = 0; + buf[0x0A] = 0; + buf[0x0B] = 0; +} + +/* Same thing for SMBIOS3 entry points */ +static void overwrite_smbios3_address(u8 *buf) +{ + buf[0x05] += buf[0x10] + buf[0x11] + buf[0x12] + buf[0x13] + + buf[0x14] + buf[0x15] + buf[0x16] + buf[0x17] - 32; + buf[0x10] = 32; + buf[0x11] = 0; + buf[0x12] = 0; + buf[0x13] = 0; + buf[0x14] = 0; + buf[0x15] = 0; + buf[0x16] = 0; + buf[0x17] = 0; +} + +static int smbios3_decode(u8 *buf, const char *devmem, u32 flags) +{ + u32 ver, len; + u64 offset; + u8 *table; + + /* Don't let checksum run beyond the buffer */ + if (buf[0x06] > 0x20) + { + fprintf(stderr, + "Entry point length too large (%u bytes, expected %u).\n", + (unsigned int)buf[0x06], 0x18U); + return 0; + } + + if (buf[0x06] < 0x18 + || !checksum(buf, buf[0x06])) + return 0; + + ver = (buf[0x07] << 16) + (buf[0x08] << 8) + buf[0x09]; + if (!(opt.flags & FLAG_QUIET)) + pr_info("SMBIOS %u.%u.%u present.", + buf[0x07], buf[0x08], buf[0x09]); + + offset = QWORD(buf + 0x10); + if (!(flags & FLAG_NO_FILE_OFFSET) && offset.h && sizeof(off_t) < 8) + { + fprintf(stderr, "64-bit addresses not supported, sorry.\n"); + return 0; + } + + /* Maximum length, may get trimmed */ + len = DWORD(buf + 0x0C); + table = dmi_table_get(((off_t)offset.h << 32) | offset.l, &len, 0, ver, + devmem, flags | FLAG_STOP_AT_EOT); + if (table == NULL) + return 1; + + if (opt.flags & FLAG_DUMP_BIN) + { + u8 crafted[32]; + + memcpy(crafted, buf, 32); + overwrite_smbios3_address(crafted); + + dmi_table_dump(crafted, crafted[0x06], table, len); + } + else + { + dmi_table_decode(table, len, 0, ver >> 8, + flags | FLAG_STOP_AT_EOT); + } + + free(table); + + return 1; +} + +static void dmi_fixup_version(u16 *ver) +{ + /* Some BIOS report weird SMBIOS version, fix that up */ + switch (*ver) + { + case 0x021F: + case 0x0221: + if (!(opt.flags & FLAG_QUIET)) + fprintf(stderr, + "SMBIOS version fixup (2.%d -> 2.%d).\n", + *ver & 0xFF, 3); + *ver = 0x0203; + break; + case 0x0233: + if (!(opt.flags & FLAG_QUIET)) + fprintf(stderr, + "SMBIOS version fixup (2.%d -> 2.%d).\n", + 51, 6); + *ver = 0x0206; + break; + } +} + +static int smbios_decode(u8 *buf, const char *devmem, u32 flags) +{ + u16 ver, num; + u32 len; + u8 *table; + + /* Don't let checksum run beyond the buffer */ + if (buf[0x05] > 0x20) + { + fprintf(stderr, + "Entry point length too large (%u bytes, expected %u).\n", + (unsigned int)buf[0x05], 0x1FU); + return 0; + } + + /* + * The size of this structure is 0x1F bytes, but we also accept value + * 0x1E due to a mistake in SMBIOS specification version 2.1. + */ + if (buf[0x05] < 0x1E + || !checksum(buf, buf[0x05]) + || memcmp(buf + 0x10, "_DMI_", 5) != 0 + || !checksum(buf + 0x10, 0x0F)) + return 0; + + ver = (buf[0x06] << 8) + buf[0x07]; + if (!(opt.flags & FLAG_NO_QUIRKS)) + dmi_fixup_version(&ver); + if (!(opt.flags & FLAG_QUIET)) + pr_info("SMBIOS %u.%u present.", + ver >> 8, ver & 0xFF); + + /* Maximum length, may get trimmed */ + len = WORD(buf + 0x16); + num = WORD(buf + 0x1C); + table = dmi_table_get(DWORD(buf + 0x18), &len, num, ver << 8, + devmem, flags); + if (table == NULL) + return 1; + + if (opt.flags & FLAG_DUMP_BIN) + { + u8 crafted[32]; + + memcpy(crafted, buf, 32); + overwrite_dmi_address(crafted + 0x10); + + dmi_table_dump(crafted, crafted[0x05], table, len); + } + else + { + dmi_table_decode(table, len, num, ver, flags); + } + + free(table); + + return 1; +} + +static int legacy_decode(u8 *buf, const char *devmem, u32 flags) +{ + u16 ver, num; + u32 len; + u8 *table; + + if (!checksum(buf, 0x0F)) + return 0; + + ver = ((buf[0x0E] & 0xF0) << 4) + (buf[0x0E] & 0x0F); + if (!(opt.flags & FLAG_QUIET)) + pr_info("Legacy DMI %u.%u present.", + buf[0x0E] >> 4, buf[0x0E] & 0x0F); + + /* Maximum length, may get trimmed */ + len = WORD(buf + 0x06); + num = WORD(buf + 0x0C); + table = dmi_table_get(DWORD(buf + 0x08), &len, num, ver << 8, + devmem, flags); + if (table == NULL) + return 1; + + if (opt.flags & FLAG_DUMP_BIN) + { + u8 crafted[16]; + + memcpy(crafted, buf, 16); + overwrite_dmi_address(crafted); + + dmi_table_dump(crafted, 0x0F, table, len); + } + else + { + dmi_table_decode(table, len, num, ver, flags); + } + + free(table); + + return 1; +} + +/* + * Probe for EFI interface + */ +#define EFI_NOT_FOUND (-1) +#define EFI_NO_SMBIOS (-2) +static int address_from_efi(off_t *address) +{ +#if defined(__linux__) + FILE *efi_systab; + const char *filename; + char linebuf[64]; +#elif defined(__FreeBSD__) + char addrstr[KENV_MVALLEN + 1]; +#endif + const char *eptype; + int ret; + + *address = 0; /* Prevent compiler warning */ + +#if defined(__linux__) + /* + * Linux up to 2.6.6: /proc/efi/systab + * Linux 2.6.7 and up: /sys/firmware/efi/systab + */ + if ((efi_systab = fopen(filename = "/sys/firmware/efi/systab", "r")) == NULL + && (efi_systab = fopen(filename = "/proc/efi/systab", "r")) == NULL) + { + /* No EFI interface, fallback to memory scan */ + return EFI_NOT_FOUND; + } + ret = EFI_NO_SMBIOS; + while ((fgets(linebuf, sizeof(linebuf) - 1, efi_systab)) != NULL) + { + char *addrp = strchr(linebuf, '='); + *(addrp++) = '\0'; + if (strcmp(linebuf, "SMBIOS3") == 0 + || strcmp(linebuf, "SMBIOS") == 0) + { + *address = strtoull(addrp, NULL, 0); + eptype = linebuf; + ret = 0; + break; + } + } + if (fclose(efi_systab) != 0) + perror(filename); + + if (ret == EFI_NO_SMBIOS) + fprintf(stderr, "%s: SMBIOS entry point missing\n", filename); +#elif defined(__FreeBSD__) + /* + * On FreeBSD, SMBIOS anchor base address in UEFI mode is exposed + * via kernel environment: + * https://svnweb.freebsd.org/base?view=revision&revision=307326 + */ + ret = kenv(KENV_GET, "hint.smbios.0.mem", addrstr, sizeof(addrstr)); + if (ret == -1) + { + if (errno != ENOENT) + perror("kenv"); + return EFI_NOT_FOUND; + } + + *address = strtoull(addrstr, NULL, 0); + eptype = "SMBIOS"; + ret = 0; +#else + ret = EFI_NOT_FOUND; +#endif + + if (ret == 0 && !(opt.flags & FLAG_QUIET)) + pr_comment("%s entry point at 0x%08llx", + eptype, (unsigned long long)*address); + + return ret; +} + +int main(int argc, char * const argv[]) +{ + int ret = 0; /* Returned value */ + int found = 0; + off_t fp; + size_t size; + int efi; + u8 *buf = NULL; + + /* + * We don't want stdout and stderr to be mixed up if both are + * redirected to the same file. + */ + setlinebuf(stdout); + setlinebuf(stderr); + + if (sizeof(u8) != 1 || sizeof(u16) != 2 || sizeof(u32) != 4 || '\0' != 0) + { + fprintf(stderr, "%s: compiler incompatibility\n", argv[0]); + exit(255); + } + + /* Set default option values */ + opt.devmem = DEFAULT_MEM_DEV; + opt.flags = 0; + opt.handle = ~0U; + + if (parse_command_line(argc, argv)<0) + { + ret = 2; + goto exit_free; + } + + if (opt.flags & FLAG_HELP) + { + print_help(); + goto exit_free; + } + + if (opt.flags & FLAG_VERSION) + { + printf("%s\n", VERSION); + goto exit_free; + } + + if (!(opt.flags & FLAG_QUIET)) + pr_comment("dmidecode %s", VERSION); + + /* Read from dump if so instructed */ + if (opt.flags & FLAG_FROM_DUMP) + { + if (!(opt.flags & FLAG_QUIET)) + pr_info("Reading SMBIOS/DMI data from file %s.", + opt.dumpfile); + if ((buf = mem_chunk(0, 0x20, opt.dumpfile)) == NULL) + { + ret = 1; + goto exit_free; + } + + if (memcmp(buf, "_SM3_", 5) == 0) + { + if (smbios3_decode(buf, opt.dumpfile, 0)) + found++; + } + else if (memcmp(buf, "_SM_", 4) == 0) + { + if (smbios_decode(buf, opt.dumpfile, 0)) + found++; + } + else if (memcmp(buf, "_DMI_", 5) == 0) + { + if (legacy_decode(buf, opt.dumpfile, 0)) + found++; + } + goto done; + } + + /* + * First try reading from sysfs tables. The entry point file could + * contain one of several types of entry points, so read enough for + * the largest one, then determine what type it contains. + */ + size = 0x20; + if (!(opt.flags & FLAG_NO_SYSFS) + && (buf = read_file(0, &size, SYS_ENTRY_FILE)) != NULL) + { + if (!(opt.flags & FLAG_QUIET)) + pr_info("Getting SMBIOS data from sysfs."); + if (size >= 24 && memcmp(buf, "_SM3_", 5) == 0) + { + if (smbios3_decode(buf, SYS_TABLE_FILE, FLAG_NO_FILE_OFFSET)) + found++; + } + else if (size >= 31 && memcmp(buf, "_SM_", 4) == 0) + { + if (smbios_decode(buf, SYS_TABLE_FILE, FLAG_NO_FILE_OFFSET)) + found++; + } + else if (size >= 15 && memcmp(buf, "_DMI_", 5) == 0) + { + if (legacy_decode(buf, SYS_TABLE_FILE, FLAG_NO_FILE_OFFSET)) + found++; + } + + if (found) + goto done; + if (!(opt.flags & FLAG_QUIET)) + pr_info("Failed to get SMBIOS data from sysfs."); + } + + /* Next try EFI (ia64, Intel-based Mac, arm64) */ + efi = address_from_efi(&fp); + switch (efi) + { + case EFI_NOT_FOUND: + goto memory_scan; + case EFI_NO_SMBIOS: + ret = 1; + goto exit_free; + } + + if (!(opt.flags & FLAG_QUIET)) + pr_info("Found SMBIOS entry point in EFI, reading table from %s.", + opt.devmem); + if ((buf = mem_chunk(fp, 0x20, opt.devmem)) == NULL) + { + ret = 1; + goto exit_free; + } + + if (memcmp(buf, "_SM3_", 5) == 0) + { + if (smbios3_decode(buf, opt.devmem, 0)) + found++; + } + else if (memcmp(buf, "_SM_", 4) == 0) + { + if (smbios_decode(buf, opt.devmem, 0)) + found++; + } + goto done; + +memory_scan: +#if defined __i386__ || defined __x86_64__ + if (!(opt.flags & FLAG_QUIET)) + pr_info("Scanning %s for entry point.", opt.devmem); + /* Fallback to memory scan (x86, x86_64) */ + if ((buf = mem_chunk(0xF0000, 0x10000, opt.devmem)) == NULL) + { + ret = 1; + goto exit_free; + } + + /* Look for a 64-bit entry point first */ + for (fp = 0; fp <= 0xFFE0; fp += 16) + { + if (memcmp(buf + fp, "_SM3_", 5) == 0) + { + if (smbios3_decode(buf + fp, opt.devmem, 0)) + { + found++; + goto done; + } + } + } + + /* If none found, look for a 32-bit entry point */ + for (fp = 0; fp <= 0xFFF0; fp += 16) + { + if (memcmp(buf + fp, "_SM_", 4) == 0 && fp <= 0xFFE0) + { + if (smbios_decode(buf + fp, opt.devmem, 0)) + { + found++; + goto done; + } + } + else if (memcmp(buf + fp, "_DMI_", 5) == 0) + { + if (legacy_decode(buf + fp, opt.devmem, 0)) + { + found++; + goto done; + } + } + } +#endif + +done: + if (!found && !(opt.flags & FLAG_QUIET)) + pr_comment("No SMBIOS nor DMI entry point found, sorry."); + + free(buf); +exit_free: + free(opt.type); + + return ret; +} |