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android / platform / external / syslinux / 76d05dc695b06c4e987bb8078f78032441e1430c / . / com32 / hdt / hdt-cli-dmi.c
blob: 02bea0f7424b9708e4bb670933bfd97d0e2af85f [file] [log] [blame]
/* ----------------------------------------------------------------------- *
*
* Copyright 2009 Erwan Velu - All Rights Reserved
*
* Permission is hereby granted, free of charge, to any person
* obtaining a copy of this software and associated documentation
* files (the "Software"), to deal in the Software without
* restriction, including without limitation the rights to use,
* copy, modify, merge, publish, distribute, sublicense, and/or
* sell copies of the Software, and to permit persons to whom
* the Software is furnished to do so, subject to the following
* conditions:
*
* The above copyright notice and this permission notice shall
* be included in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
* OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
* HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
* WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
* OTHER DEALINGS IN THE SOFTWARE.
*
* -----------------------------------------------------------------------
*/
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <errno.h>
#include "hdt-cli.h"
#include "hdt-common.h"
static void show_dmi_modules(int argc __unused, char **argv __unused,
struct s_hardware *hardware)
{
char available_dmi_commands[1024];
reset_more_printf();
memset(available_dmi_commands, 0, sizeof(available_dmi_commands));
more_printf("Available DMI modules on your system:\n");
if (hardware->dmi.base_board.filled == true)
more_printf("\t%s\n", CLI_DMI_BASE_BOARD);
if (hardware->dmi.battery.filled == true)
more_printf("\t%s\n", CLI_DMI_BATTERY);
if (hardware->dmi.bios.filled == true)
more_printf("\t%s\n", CLI_DMI_BIOS);
if (hardware->dmi.chassis.filled == true)
more_printf("\t%s\n", CLI_DMI_CHASSIS);
for (int i = 0; i < hardware->dmi.memory_count; i++) {
if (hardware->dmi.memory[i].filled == true) {
more_printf("\tbank <number>\n");
break;
}
}
for (int i = 0; i < hardware->dmi.memory_module_count; i++) {
if (hardware->dmi.memory_module[i].filled == true) {
more_printf("\tmodule <number>\n");
break;
}
}
if (hardware->dmi.processor.filled == true)
more_printf("\t%s\n", CLI_DMI_PROCESSOR);
if (hardware->dmi.system.filled == true)
more_printf("\t%s\n", CLI_DMI_SYSTEM);
if (hardware->dmi.ipmi.filled == true)
more_printf("\t%s\n", CLI_DMI_IPMI);
if (hardware->dmi.cache_count)
more_printf("\t%s\n", CLI_DMI_CACHE);
if (strlen(hardware->dmi.oem_strings))
more_printf("\t%s\n", CLI_DMI_OEM);
if (hardware->dmi.hardware_security.filled)
more_printf("\t%s\n", CLI_DMI_SECURITY);
}
static void show_dmi_base_board(int argc __unused, char **argv __unused,
struct s_hardware *hardware)
{
if (hardware->dmi.base_board.filled == false) {
more_printf("base_board information not found on your system, see "
"`show list' to see which module is available.\n");
return;
}
reset_more_printf();
more_printf("Base board\n");
more_printf(" Manufacturer : %s\n", hardware->dmi.base_board.manufacturer);
more_printf(" Product Name : %s\n", hardware->dmi.base_board.product_name);
more_printf(" Version : %s\n", hardware->dmi.base_board.version);
more_printf(" Serial : %s\n", hardware->dmi.base_board.serial);
more_printf(" Asset Tag : %s\n", hardware->dmi.base_board.asset_tag);
more_printf(" Location : %s\n", hardware->dmi.base_board.location);
more_printf(" Type : %s\n", hardware->dmi.base_board.type);
for (int i = 0; i < BASE_BOARD_NB_ELEMENTS; i++) {
if (((bool *) (&hardware->dmi.base_board.features))[i] == true) {
more_printf(" %s\n", base_board_features_strings[i]);
}
}
for (unsigned int i = 0;
i <
sizeof hardware->dmi.base_board.devices_information /
sizeof *hardware->dmi.base_board.devices_information; i++) {
if (strlen(hardware->dmi.base_board.devices_information[i].type)) {
more_printf("On Board Device #%u Information\n", i)
more_printf(" Type : %s\n",
hardware->dmi.base_board.devices_information[i].
type);
more_printf(" Status : %s\n",
hardware->dmi.base_board.devices_information[i].
status ? "Enabled" : "Disabled");
more_printf(" Description : %s\n",
hardware->dmi.base_board.devices_information[i].
description);
}
}
}
static void show_dmi_system(int argc __unused, char **argv __unused,
struct s_hardware *hardware)
{
if (hardware->dmi.system.filled == false) {
more_printf("system information not found on your system, see "
"`show list' to see which module is available.\n");
return;
}
reset_more_printf();
more_printf("System\n");
more_printf(" Manufacturer : %s\n", hardware->dmi.system.manufacturer);
more_printf(" Product Name : %s\n", hardware->dmi.system.product_name);
more_printf(" Version : %s\n", hardware->dmi.system.version);
more_printf(" Serial : %s\n", hardware->dmi.system.serial);
more_printf(" UUID : %s\n", hardware->dmi.system.uuid);
more_printf(" Wakeup Type : %s\n", hardware->dmi.system.wakeup_type);
more_printf(" SKU Number : %s\n", hardware->dmi.system.sku_number);
more_printf(" Family : %s\n", hardware->dmi.system.family);
if (strlen(hardware->dmi.system.configuration_options)) {
more_printf("System Configuration Options\n");
more_printf("%s\n", hardware->dmi.system.configuration_options);
}
if (hardware->dmi.system.system_reset.filled) {
more_printf("System Reset\n");
more_printf(" Status : %s\n",
(hardware->dmi.system.system_reset.
status ? "Enabled" : "Disabled"));
more_printf(" Watchdog Timer : %s\n",
(hardware->dmi.system.system_reset.
watchdog ? "Present" : "Not Present"));
if (strlen(hardware->dmi.system.system_reset.boot_option))
more_printf(" Boot Option : %s\n",
hardware->dmi.system.system_reset.boot_option);
if (strlen(hardware->dmi.system.system_reset.boot_option_on_limit))
more_printf(" Boot Option On Limit : %s\n",
hardware->dmi.system.system_reset.boot_option_on_limit);
if (strlen(hardware->dmi.system.system_reset.reset_count))
more_printf(" Reset Count : %s\n",
hardware->dmi.system.system_reset.reset_count);
if (strlen(hardware->dmi.system.system_reset.reset_limit))
more_printf(" Reset Limit : %s\n",
hardware->dmi.system.system_reset.reset_limit);
if (strlen(hardware->dmi.system.system_reset.timer_interval))
more_printf(" Timer Interval : %s\n",
hardware->dmi.system.system_reset.timer_interval);
if (strlen(hardware->dmi.system.system_reset.timeout))
more_printf(" Timeout : %s\n",
hardware->dmi.system.system_reset.timeout);
}
more_printf("System Boot Information\n");
more_printf(" Status : %s\n",
hardware->dmi.system.system_boot_status);
}
static void show_dmi_bios(int argc __unused, char **argv __unused,
struct s_hardware *hardware)
{
if (hardware->dmi.bios.filled == false) {
more_printf("bios information not found on your system, see "
"`show list' to see which module is available.\n");
return;
}
reset_more_printf();
more_printf("BIOS\n");
more_printf(" Vendor : %s\n", hardware->dmi.bios.vendor);
more_printf(" Version : %s\n", hardware->dmi.bios.version);
more_printf(" Release Date : %s\n", hardware->dmi.bios.release_date);
more_printf(" Bios Revision : %s\n", hardware->dmi.bios.bios_revision);
if (strlen(hardware->dmi.bios.firmware_revision))
more_printf(" Firmware Revision : %s\n",
hardware->dmi.bios.firmware_revision);
more_printf(" Address : 0x%04X0\n", hardware->dmi.bios.address);
more_printf(" Runtime address : %u %s\n",
hardware->dmi.bios.runtime_size,
hardware->dmi.bios.runtime_size_unit);
more_printf(" Rom size : %u %s\n", hardware->dmi.bios.rom_size,
hardware->dmi.bios.rom_size_unit);
for (int i = 0; i < BIOS_CHAR_NB_ELEMENTS; i++) {
if (((bool *) (&hardware->dmi.bios.characteristics))[i] == true) {
more_printf(" %s\n", bios_charac_strings[i]);
}
}
for (int i = 0; i < BIOS_CHAR_X1_NB_ELEMENTS; i++) {
if (((bool *) (&hardware->dmi.bios.characteristics_x1))[i] == true) {
more_printf(" %s\n", bios_charac_x1_strings[i]);
}
}
for (int i = 0; i < BIOS_CHAR_X2_NB_ELEMENTS; i++) {
if (((bool *) (&hardware->dmi.bios.characteristics_x2))[i] == true) {
more_printf(" %s\n", bios_charac_x2_strings[i]);
}
}
}
static void show_dmi_chassis(int argc __unused, char **argv __unused,
struct s_hardware *hardware)
{
if (hardware->dmi.chassis.filled == false) {
more_printf("chassis information not found on your system, see "
"`show list' to see which module is available.\n");
return;
}
reset_more_printf();
more_printf("Chassis\n");
more_printf(" Manufacturer : %s\n",
hardware->dmi.chassis.manufacturer);
more_printf(" Type : %s\n", hardware->dmi.chassis.type);
more_printf(" Lock : %s\n", hardware->dmi.chassis.lock);
more_printf(" Version : %s\n", hardware->dmi.chassis.version);
more_printf(" Serial : %s\n", hardware->dmi.chassis.serial);
more_printf(" Asset Tag : %s\n",
del_multi_spaces(hardware->dmi.chassis.asset_tag));
more_printf(" Boot up state : %s\n",
hardware->dmi.chassis.boot_up_state);
more_printf(" Power supply state : %s\n",
hardware->dmi.chassis.power_supply_state);
more_printf(" Thermal state : %s\n",
hardware->dmi.chassis.thermal_state);
more_printf(" Security Status : %s\n",
hardware->dmi.chassis.security_status);
more_printf(" OEM Information : %s\n",
hardware->dmi.chassis.oem_information);
more_printf(" Height : %u\n", hardware->dmi.chassis.height);
more_printf(" NB Power Cords : %u\n",
hardware->dmi.chassis.nb_power_cords);
}
static void show_dmi_ipmi(int argc __unused, char **argv __unused,
struct s_hardware *hardware)
{
if (hardware->dmi.ipmi.filled == false) {
more_printf("IPMI module not available\n");
return;
}
reset_more_printf();
more_printf("IPMI\n");
more_printf(" Interface Type : %s\n",
hardware->dmi.ipmi.interface_type);
more_printf(" Specification Ver. : %u.%u\n",
hardware->dmi.ipmi.major_specification_version,
hardware->dmi.ipmi.minor_specification_version);
more_printf(" I2C Slave Address : 0x%02x\n",
hardware->dmi.ipmi.I2C_slave_address);
more_printf(" Nv Storage Address : %u\n", hardware->dmi.ipmi.nv_address);
uint32_t high = hardware->dmi.ipmi.base_address >> 32;
uint32_t low = hardware->dmi.ipmi.base_address & 0xFFFF;
more_printf(" Base Address : %08X%08X\n", high, (low & ~1));
more_printf(" IRQ : %d\n", hardware->dmi.ipmi.irq);
}
static void show_dmi_battery(int argc __unused, char **argv __unused,
struct s_hardware *hardware)
{
if (hardware->dmi.battery.filled == false) {
more_printf("battery information not found on your system, see "
"`show list' to see which module is available.\n");
return;
}
reset_more_printf();
more_printf("Battery \n");
more_printf(" Vendor : %s\n",
hardware->dmi.battery.manufacturer);
more_printf(" Manufacture Date : %s\n",
hardware->dmi.battery.manufacture_date);
more_printf(" Serial : %s\n", hardware->dmi.battery.serial);
more_printf(" Name : %s\n", hardware->dmi.battery.name);
more_printf(" Chemistry : %s\n", hardware->dmi.battery.chemistry);
more_printf(" Design Capacity : %s\n",
hardware->dmi.battery.design_capacity);
more_printf(" Design Voltage : %s\n",
hardware->dmi.battery.design_voltage);
more_printf(" SBDS : %s\n", hardware->dmi.battery.sbds);
more_printf(" SBDS Manuf. Date : %s\n",
hardware->dmi.battery.sbds_manufacture_date);
more_printf(" SBDS Chemistry : %s\n",
hardware->dmi.battery.sbds_chemistry);
more_printf(" Maximum Error : %s\n",
hardware->dmi.battery.maximum_error);
more_printf(" OEM Info : %s\n", hardware->dmi.battery.oem_info);
}
static void show_dmi_cpu(int argc __unused, char **argv __unused,
struct s_hardware *hardware)
{
if (hardware->dmi.processor.filled == false) {
more_printf("processor information not found on your system, see "
"`show list' to see which module is available.\n");
return;
}
reset_more_printf();
more_printf("CPU\n");
more_printf(" Socket Designation : %s\n",
hardware->dmi.processor.socket_designation);
more_printf(" Type : %s\n", hardware->dmi.processor.type);
more_printf(" Family : %s\n", hardware->dmi.processor.family);
more_printf(" Manufacturer : %s\n",
hardware->dmi.processor.manufacturer);
more_printf(" Version : %s\n", hardware->dmi.processor.version);
more_printf(" External Clock : %u\n",
hardware->dmi.processor.external_clock);
more_printf(" Max Speed : %u\n",
hardware->dmi.processor.max_speed);
more_printf(" Current Speed : %u\n",
hardware->dmi.processor.current_speed);
more_printf(" Cpu Type : %u\n",
hardware->dmi.processor.signature.type);
more_printf(" Cpu Family : %u\n",
hardware->dmi.processor.signature.family);
more_printf(" Cpu Model : %u\n",
hardware->dmi.processor.signature.model);
more_printf(" Cpu Stepping : %u\n",
hardware->dmi.processor.signature.stepping);
more_printf(" Cpu Minor Stepping : %u\n",
hardware->dmi.processor.signature.minor_stepping);
more_printf("Voltage : %d.%02d\n",
hardware->dmi.processor.voltage_mv / 1000,
hardware->dmi.processor.voltage_mv -
((hardware->dmi.processor.voltage_mv / 1000) * 1000));
more_printf(" Status : %s\n", hardware->dmi.processor.status);
more_printf(" Upgrade : %s\n", hardware->dmi.processor.upgrade);
more_printf(" Cache L1 Handle : %s\n", hardware->dmi.processor.cache1);
more_printf(" Cache L2 Handle : %s\n", hardware->dmi.processor.cache2);
more_printf(" Cache L3 Handle : %s\n", hardware->dmi.processor.cache3);
more_printf(" Serial : %s\n", hardware->dmi.processor.serial);
more_printf(" Part Number : %s\n",
hardware->dmi.processor.part_number);
if (hardware->dmi.processor.core_count != 0)
more_printf(" Cores Count : %d\n", hardware->dmi.processor.core_count);
if (hardware->dmi.processor.core_enabled != 0)
more_printf(" Cores Enabled : %d\n", hardware->dmi.processor.core_enabled);
if (hardware->dmi.processor.thread_count != 0)
more_printf(" Threads Count : %d\n", hardware->dmi.processor.thread_count);
more_printf(" ID : %s\n", hardware->dmi.processor.id);
for (int i = 0; i < PROCESSOR_FLAGS_ELEMENTS; i++) {
if (((bool *) (&hardware->dmi.processor.cpu_flags))[i] == true) {
more_printf(" %s\n", cpu_flags_strings[i]);
}
}
}
void show_dmi_memory_bank(int argc, char **argv, struct s_hardware *hardware)
{
int bank = -1;
/* Sanitize arguments */
if (argc > 0)
bank = strtol(argv[0], (char **)NULL, 10);
if (errno == ERANGE || bank < 0) {
more_printf("This bank number is incorrect\n");
return;
}
if ((bank >= hardware->dmi.memory_count) || (bank < 0)) {
more_printf("Bank %d number doesn't exist\n", bank);
return;
}
if (hardware->dmi.memory[bank].filled == false) {
more_printf("Bank %d doesn't contain any information\n", bank);
return;
}
reset_more_printf();
more_printf("Memory Bank %d\n", bank);
more_printf(" Form Factor : %s\n", hardware->dmi.memory[bank].form_factor);
more_printf(" Type : %s\n", hardware->dmi.memory[bank].type);
more_printf(" Type Detail : %s\n", hardware->dmi.memory[bank].type_detail);
more_printf(" Speed : %s\n", hardware->dmi.memory[bank].speed);
more_printf(" Size : %s\n", hardware->dmi.memory[bank].size);
more_printf(" Device Set : %s\n", hardware->dmi.memory[bank].device_set);
more_printf(" Device Loc. : %s\n",
hardware->dmi.memory[bank].device_locator);
more_printf(" Bank Locator : %s\n",
hardware->dmi.memory[bank].bank_locator);
more_printf(" Total Width : %s\n", hardware->dmi.memory[bank].total_width);
more_printf(" Data Width : %s\n", hardware->dmi.memory[bank].data_width);
more_printf(" Error : %s\n", hardware->dmi.memory[bank].error);
more_printf(" Vendor : %s\n",
hardware->dmi.memory[bank].manufacturer);
more_printf(" Serial : %s\n", hardware->dmi.memory[bank].serial);
more_printf(" Asset Tag : %s\n", hardware->dmi.memory[bank].asset_tag);
more_printf(" Part Number : %s\n", hardware->dmi.memory[bank].part_number);
}
static void show_dmi_cache(int argc, char **argv, struct s_hardware *hardware)
{
if (!hardware->dmi.cache_count) {
more_printf("cache information not found on your system, see "
"`show list' to see which module is available.\n");
return;
}
int cache = strtol(argv[0], NULL, 10);
if (argc != 1 || cache > hardware->dmi.cache_count) {
more_printf("show cache [0-%d]\n", hardware->dmi.cache_count - 1);
return;
}
reset_more_printf();
more_printf("Cache Information #%d\n", cache);
more_printf(" Socket Designation : %s\n",
hardware->dmi.cache[cache].socket_designation);
more_printf(" Configuration : %s\n",
hardware->dmi.cache[cache].configuration);
more_printf(" Operational Mode : %s\n",
hardware->dmi.cache[cache].mode);
more_printf(" Location : %s\n",
hardware->dmi.cache[cache].location);
more_printf(" Installed Size : %u KB",
hardware->dmi.cache[cache].installed_size);
more_printf("\n");
more_printf(" Maximum Size : %u KB",
hardware->dmi.cache[cache].max_size);
more_printf("\n");
more_printf(" Supported SRAM Types : %s",
hardware->dmi.cache[cache].supported_sram_types);
more_printf("\n");
more_printf(" Installed SRAM Type : %s",
hardware->dmi.cache[cache].installed_sram_types);
more_printf("\n");
more_printf(" Speed : %u ns",
hardware->dmi.cache[cache].speed);
more_printf("\n");
more_printf(" Error Correction Type : %s\n",
hardware->dmi.cache[cache].error_correction_type);
more_printf(" System Type : %s\n",
hardware->dmi.cache[cache].system_type);
more_printf(" Associativity : %s\n",
hardware->dmi.cache[cache].associativity);
}
void show_dmi_memory_module(int argc, char **argv, struct s_hardware *hardware)
{
int module = -1;
/* Sanitize arguments */
if (argc > 0)
module = strtol(argv[0], (char **)NULL, 10);
if (errno == ERANGE || module < 0) {
more_printf("This module number is incorrect\n");
return;
}
if ((module >= hardware->dmi.memory_module_count) || (module < 0)) {
more_printf("Module number %d doesn't exist\n", module);
return;
}
if (hardware->dmi.memory_module[module].filled == false) {
more_printf("Module %d doesn't contain any information\n", module);
return;
}
reset_more_printf();
more_printf("Memory Module %d\n", module);
more_printf(" Socket Designation : %s\n",
hardware->dmi.memory_module[module].socket_designation);
more_printf(" Bank Connections : %s\n",
hardware->dmi.memory_module[module].bank_connections);
more_printf(" Current Speed : %s\n",
hardware->dmi.memory_module[module].speed);
more_printf(" Type : %s\n",
hardware->dmi.memory_module[module].type);
more_printf(" Installed Size : %s\n",
hardware->dmi.memory_module[module].installed_size);
more_printf(" Enabled Size : %s\n",
hardware->dmi.memory_module[module].enabled_size);
more_printf(" Error Status : %s\n",
hardware->dmi.memory_module[module].error_status);
}
void main_show_dmi(int argc __unused, char **argv __unused,
struct s_hardware *hardware)
{
if (hardware->is_dmi_valid == false) {
more_printf("No valid DMI table found, exiting.\n");
return;
}
reset_more_printf();
more_printf("DMI Table version %u.%u found\n",
hardware->dmi.dmitable.major_version,
hardware->dmi.dmitable.minor_version);
show_dmi_modules(0, NULL, hardware);
}
void show_dmi_memory_modules(int argc __unused, char **argv __unused,
struct s_hardware *hardware)
{
/* Do we have so display unpopulated banks ? */
int show_free_banks = 1;
more_printf("Memory Size : %lu MB (%lu KB)\n",
(hardware->detected_memory_size + (1 << 9)) >> 10,
hardware->detected_memory_size);
if ((hardware->dmi.memory_count <= 0)
&& (hardware->dmi.memory_module_count <= 0)) {
more_printf("No memory bank found\n");
return;
}
/* Sanitize arguments */
if (argc > 0) {
/* When we display a summary, there is no need to show the unpopulated banks
* The first argv is set to define this behavior
*/
show_free_banks = strtol(argv[0], NULL, 10);
if (errno == ERANGE || show_free_banks < 0 || show_free_banks > 1)
goto usage;
}
reset_more_printf();
/* If type 17 is available */
if (hardware->dmi.memory_count > 0) {
char bank_number[255];
more_printf("Memory Banks\n");
for (int i = 0; i < hardware->dmi.memory_count; i++) {
if (hardware->dmi.memory[i].filled == true) {
memset(bank_number, 0, sizeof(bank_number));
snprintf(bank_number, sizeof(bank_number), "%d ", i);
if (show_free_banks == false) {
if (strncmp(hardware->dmi.memory[i].size, "Free", 4))
more_printf(" bank %02d : %s %s@%s\n",
i, hardware->dmi.memory[i].size,
hardware->dmi.memory[i].type,
hardware->dmi.memory[i].speed);
} else {
more_printf(" bank %02d : %s %s@%s\n", i,
hardware->dmi.memory[i].size,
hardware->dmi.memory[i].type,
hardware->dmi.memory[i].speed);
}
}
}
} else if (hardware->dmi.memory_module_count > 0) {
/* Let's use type 6 as a fallback of type 17 */
more_printf("Memory Modules\n");
for (int i = 0; i < hardware->dmi.memory_module_count; i++) {
if (hardware->dmi.memory_module[i].filled == true) {
more_printf(" module %02d : %s %s@%s\n", i,
hardware->dmi.memory_module[i].enabled_size,
hardware->dmi.memory_module[i].type,
hardware->dmi.memory_module[i].speed);
}
}
}
return;
//printf("Type 'show bank<bank_number>' for more details.\n");
usage:
more_printf("show memory <clear screen? <show free banks?>>\n");
return;
}
void show_dmi_oem_strings(int argc __unused, char **argv __unused,
struct s_hardware *hardware)
{
reset_more_printf();
if (strlen(hardware->dmi.oem_strings))
more_printf("OEM Strings\n%s", hardware->dmi.oem_strings);
}
void show_dmi_hardware_security(int argc __unused, char **argv __unused,
struct s_hardware *hardware)
{
reset_more_printf();
if (!hardware->dmi.hardware_security.filled)
return;
more_printf("Hardware Security\n");
more_printf(" Power-On Password Status : %s\n",
hardware->dmi.hardware_security.power_on_passwd_status);
more_printf(" Keyboard Password Status : %s\n",
hardware->dmi.hardware_security.keyboard_passwd_status);
more_printf(" Administrator Password Status : %s\n",
hardware->dmi.hardware_security.administrator_passwd_status);
more_printf(" Front Panel Reset Status : %s\n",
hardware->dmi.hardware_security.front_panel_reset_status);
}
struct cli_callback_descr list_dmi_show_modules[] = {
{
.name = CLI_DMI_BASE_BOARD,
.exec = show_dmi_base_board,
.nomodule = false,
},
{
.name = CLI_DMI_BIOS,
.exec = show_dmi_bios,
.nomodule = false,
},
{
.name = CLI_DMI_BATTERY,
.exec = show_dmi_battery,
.nomodule = false,
},
{
.name = CLI_DMI_CHASSIS,
.exec = show_dmi_chassis,
.nomodule = false,
},
{
.name = CLI_DMI_MEMORY,
.exec = show_dmi_memory_modules,
.nomodule = false,
},
{
.name = CLI_DMI_MEMORY_BANK,
.exec = show_dmi_memory_bank,
.nomodule = false,
},
{
.name = "module",
.exec = show_dmi_memory_module,
.nomodule = false,
},
{
.name = CLI_DMI_PROCESSOR,
.exec = show_dmi_cpu,
.nomodule = false,
},
{
.name = CLI_DMI_SYSTEM,
.exec = show_dmi_system,
.nomodule = false,
},
{
.name = CLI_DMI_OEM,
.exec = show_dmi_oem_strings,
.nomodule = false,
},
{
.name = CLI_DMI_SECURITY,
.exec = show_dmi_hardware_security,
.nomodule = false,
},
{
.name = CLI_DMI_IPMI,
.exec = show_dmi_ipmi,
.nomodule = false,
},
{
.name = CLI_DMI_CACHE,
.exec = show_dmi_cache,
.nomodule = false,
},
{
.name = CLI_DMI_LIST,
.exec = show_dmi_modules,
.nomodule = false,
},
{
.name = NULL,
.exec = NULL,
.nomodule = false,
},
};
struct cli_module_descr dmi_show_modules = {
.modules = list_dmi_show_modules,
.default_callback = main_show_dmi,
};
struct cli_mode_descr dmi_mode = {
.mode = DMI_MODE,
.name = CLI_DMI,
.default_modules = NULL,
.show_modules = &dmi_show_modules,
.set_modules = NULL,
};