383 lines
14 KiB
C
383 lines
14 KiB
C
/* ----------------------------------------------------------------------- *
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*
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* Copyright 2009 Erwan Velu - All Rights Reserved
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*
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* Permission is hereby granted, free of charge, to any person
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* obtaining a copy of this software and associated documentation
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* files (the "Software"), to deal in the Software without
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* restriction, including without limitation the rights to use,
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* copy, modify, merge, publish, distribute, sublicense, and/or
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* sell copies of the Software, and to permit persons to whom
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* the Software is furnished to do so, subject to the following
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* conditions:
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*
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* The above copyright notice and this permission notice shall
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* be included in all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
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* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
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* OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
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* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
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* HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
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* WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
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* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
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* OTHER DEALINGS IN THE SOFTWARE.
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*
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* -----------------------------------------------------------------------
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*/
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#include <memory.h>
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#include "hdt-menu.h"
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#define E820MAX 128
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/* Compute the e820 submenu */
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static void compute_e820(struct s_my_menu *menu)
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{
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char buffer[MENULEN + 1];
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char statbuffer[STATLEN + 1];
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sprintf(buffer, " e820 information ");
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menu->items_count = 0;
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menu->menu = add_menu(buffer, -1);
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struct e820entry map[E820MAX];
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int count = 0;
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char type[14];
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detect_memory_e820(map, E820MAX, &count);
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unsigned long memory_size = memsize_e820(map, count);
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snprintf(buffer, sizeof buffer, "Detected Memory - %lu MiB (%lu KiB)",
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memory_size >> 10, memory_size);
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snprintf(statbuffer, sizeof statbuffer,
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"Detected Memory : %lu MiB (%lu KiB)", memory_size >> 10,
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memory_size);
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add_item(buffer, statbuffer, OPT_INACTIVE, NULL, 0);
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add_item("", "", OPT_SEP, "", 0);
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for (int j = 0; j < count; j++) {
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get_type(map[j].type, type, 14);
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snprintf(buffer, sizeof buffer,
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"%016llx - %016llx (%s)",
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map[j].addr, map[j].size, remove_spaces(type));
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snprintf(statbuffer, sizeof statbuffer,
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"%016llx - %016llx (%s)",
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map[j].addr, map[j].size, remove_spaces(type));
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add_item(buffer, statbuffer, OPT_INACTIVE, NULL, 0);
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menu->items_count++;
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}
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}
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/* Compute the e801 submenu */
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static void compute_e801(struct s_my_menu *menu)
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{
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char buffer[MENULEN + 1];
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char statbuffer[STATLEN + 1];
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sprintf(buffer, " e801 information ");
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menu->items_count = 0;
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menu->menu = add_menu(buffer, -1);
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int mem_low, mem_high = 0;
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if (detect_memory_e801(&mem_low, &mem_high)) {
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snprintf(buffer, sizeof buffer, "%s", "e801 output is bogus");
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snprintf(statbuffer, sizeof statbuffer, "%s", "e801 output is bogus");
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add_item(buffer, statbuffer, OPT_INACTIVE, NULL, 0);
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menu->items_count++;
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} else {
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snprintf(buffer, sizeof buffer, "Detected Memory : %d MiB (%d KiB)",
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(mem_high >> 4) + (mem_low >> 10), mem_low + (mem_high << 6));
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snprintf(statbuffer, sizeof statbuffer,
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"Detected Memory : %d MiB (%d KiB)",
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(mem_high >> 4) + (mem_low >> 10), mem_low + (mem_high << 6));
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add_item(buffer, statbuffer, OPT_INACTIVE, NULL, 0);
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add_item("", "", OPT_SEP, "", 0);
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snprintf(buffer, sizeof buffer, "Low Memory : %d KiB (%d MiB)",
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mem_low, mem_low >> 10);
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snprintf(statbuffer, sizeof statbuffer, "Low Memory : %d KiB (%d MiB)",
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mem_low, mem_low >> 10);
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add_item(buffer, statbuffer, OPT_INACTIVE, NULL, 0);
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snprintf(buffer, sizeof buffer, "High Memory : %d KiB (%d MiB)",
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mem_high << 6, mem_high >> 4);
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snprintf(statbuffer, sizeof statbuffer, "High Memory : %d KiB (%d MiB)",
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mem_high << 6, mem_high >> 4);
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add_item(buffer, statbuffer, OPT_INACTIVE, NULL, 0);
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}
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menu->items_count++;
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}
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/* Compute the 88 submenu */
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static void compute_88(struct s_my_menu *menu)
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{
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char buffer[MENULEN + 1];
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char statbuffer[STATLEN + 1];
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sprintf(buffer, " 88 information ");
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menu->items_count = 0;
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menu->menu = add_menu(buffer, -1);
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int mem_size = 0;
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if (detect_memory_88(&mem_size)) {
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snprintf(buffer, sizeof buffer, "%s", "88 output is bogus");
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snprintf(statbuffer, sizeof statbuffer, "%s", "88 output is bogus");
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add_item(buffer, statbuffer, OPT_INACTIVE, NULL, 0);
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menu->items_count++;
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} else {
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snprintf(buffer, sizeof buffer, "Detected Memory : %d MiB (%d KiB)",
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mem_size >> 10, mem_size);
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snprintf(statbuffer, sizeof statbuffer,
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"Detected Memory : %d MiB (%d KiB)", mem_size >> 10, mem_size);
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add_item(buffer, statbuffer, OPT_INACTIVE, NULL, 0);
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}
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menu->items_count++;
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}
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/* Compute the Memory submenu */
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static void compute_memory_module(struct s_my_menu *menu, s_dmi * dmi,
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int slot_number)
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{
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int i = slot_number;
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char buffer[MENULEN + 1];
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char statbuffer[STATLEN + 1];
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sprintf(buffer, " Bank <%d> ", i);
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menu->items_count = 0;
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menu->menu = add_menu(buffer, -1);
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snprintf(buffer, sizeof buffer, "Form Factor : %s",
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dmi->memory[i].form_factor);
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snprintf(statbuffer, sizeof statbuffer, "Form Factor: %s",
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dmi->memory[i].form_factor);
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add_item(buffer, statbuffer, OPT_INACTIVE, NULL, 0);
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menu->items_count++;
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snprintf(buffer, sizeof buffer, "Type : %s", dmi->memory[i].type);
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snprintf(statbuffer, sizeof statbuffer, "Type: %s", dmi->memory[i].type);
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add_item(buffer, statbuffer, OPT_INACTIVE, NULL, 0);
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menu->items_count++;
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snprintf(buffer, sizeof buffer, "Type Details : %s",
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dmi->memory[i].type_detail);
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snprintf(statbuffer, sizeof statbuffer, "Type Details: %s",
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dmi->memory[i].type_detail);
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add_item(buffer, statbuffer, OPT_INACTIVE, NULL, 0);
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menu->items_count++;
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snprintf(buffer, sizeof buffer, "Speed : %s", dmi->memory[i].speed);
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snprintf(statbuffer, sizeof statbuffer, "Speed (Mhz): %s",
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dmi->memory[i].speed);
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add_item(buffer, statbuffer, OPT_INACTIVE, NULL, 0);
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menu->items_count++;
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snprintf(buffer, sizeof buffer, "Size : %s", dmi->memory[i].size);
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snprintf(statbuffer, sizeof statbuffer, "Size: %s", dmi->memory[i].size);
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add_item(buffer, statbuffer, OPT_INACTIVE, NULL, 0);
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menu->items_count++;
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snprintf(buffer, sizeof buffer, "Device Set : %s",
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dmi->memory[i].device_set);
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snprintf(statbuffer, sizeof statbuffer, "Device Set: %s",
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dmi->memory[i].device_set);
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add_item(buffer, statbuffer, OPT_INACTIVE, NULL, 0);
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menu->items_count++;
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snprintf(buffer, sizeof buffer, "Device Loc. : %s",
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dmi->memory[i].device_locator);
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snprintf(statbuffer, sizeof statbuffer, "Device Location: %s",
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dmi->memory[i].device_locator);
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add_item(buffer, statbuffer, OPT_INACTIVE, NULL, 0);
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menu->items_count++;
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snprintf(buffer, sizeof buffer, "Bank Locator : %s",
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dmi->memory[i].bank_locator);
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snprintf(statbuffer, sizeof statbuffer, "Bank Locator: %s",
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dmi->memory[i].bank_locator);
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add_item(buffer, statbuffer, OPT_INACTIVE, NULL, 0);
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menu->items_count++;
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snprintf(buffer, sizeof buffer, "Total Width : %s",
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dmi->memory[i].total_width);
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snprintf(statbuffer, sizeof statbuffer, "Total bit Width: %s",
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dmi->memory[i].total_width);
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add_item(buffer, statbuffer, OPT_INACTIVE, NULL, 0);
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menu->items_count++;
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snprintf(buffer, sizeof buffer, "Data Width : %s",
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dmi->memory[i].data_width);
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snprintf(statbuffer, sizeof statbuffer, "Data bit Width: %s",
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dmi->memory[i].data_width);
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add_item(buffer, statbuffer, OPT_INACTIVE, NULL, 0);
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menu->items_count++;
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snprintf(buffer, sizeof buffer, "Error : %s", dmi->memory[i].error);
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snprintf(statbuffer, sizeof statbuffer, "Error: %s", dmi->memory[i].error);
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add_item(buffer, statbuffer, OPT_INACTIVE, NULL, 0);
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menu->items_count++;
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snprintf(buffer, sizeof buffer, "Vendor : %s",
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dmi->memory[i].manufacturer);
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snprintf(statbuffer, sizeof statbuffer, "Vendor: %s",
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dmi->memory[i].manufacturer);
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add_item(buffer, statbuffer, OPT_INACTIVE, NULL, 0);
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menu->items_count++;
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snprintf(buffer, sizeof buffer, "Serial : %s", dmi->memory[i].serial);
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snprintf(statbuffer, sizeof statbuffer, "Serial: %s",
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dmi->memory[i].serial);
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add_item(buffer, statbuffer, OPT_INACTIVE, NULL, 0);
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menu->items_count++;
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snprintf(buffer, sizeof buffer, "Asset Tag : %s",
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dmi->memory[i].asset_tag);
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snprintf(statbuffer, sizeof statbuffer, "Asset Tag: %s",
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dmi->memory[i].asset_tag);
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add_item(buffer, statbuffer, OPT_INACTIVE, NULL, 0);
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menu->items_count++;
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snprintf(buffer, sizeof buffer, "Part Number : %s",
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dmi->memory[i].part_number);
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snprintf(statbuffer, sizeof statbuffer, "Part Number: %s",
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dmi->memory[i].part_number);
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add_item(buffer, statbuffer, OPT_INACTIVE, NULL, 0);
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menu->items_count++;
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}
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/* Compute the Memory submenu when type 6 is used*/
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static void compute_memory_module_type6(struct s_my_menu *menu, s_dmi * dmi,
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int slot_number)
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{
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int i = slot_number;
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char buffer[MENULEN + 1];
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char statbuffer[STATLEN + 1];
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sprintf(buffer, " Bank <%d> ", i);
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menu->items_count = 0;
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menu->menu = add_menu(buffer, -1);
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snprintf(buffer, sizeof buffer, "Socket Designation : %s",
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dmi->memory_module[i].socket_designation);
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snprintf(statbuffer, sizeof statbuffer, "Socket Designation : %s",
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dmi->memory_module[i].socket_designation);
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add_item(buffer, statbuffer, OPT_INACTIVE, NULL, 0);
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menu->items_count++;
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snprintf(buffer, sizeof buffer, "Bank Connections : %s",
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dmi->memory_module[i].bank_connections);
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snprintf(statbuffer, sizeof statbuffer, "Bank Connections: %s",
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dmi->memory_module[i].bank_connections);
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add_item(buffer, statbuffer, OPT_INACTIVE, NULL, 0);
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menu->items_count++;
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snprintf(buffer, sizeof buffer, "Type : %s",
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dmi->memory_module[i].type);
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snprintf(statbuffer, sizeof statbuffer, "Type : %s",
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dmi->memory_module[i].type);
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add_item(buffer, statbuffer, OPT_INACTIVE, NULL, 0);
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menu->items_count++;
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snprintf(buffer, sizeof buffer, "Current Speed : %s",
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dmi->memory_module[i].speed);
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snprintf(statbuffer, sizeof statbuffer, "Current Speed : %s",
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dmi->memory_module[i].speed);
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add_item(buffer, statbuffer, OPT_INACTIVE, NULL, 0);
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menu->items_count++;
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snprintf(buffer, sizeof buffer, "Installed Size : %s",
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dmi->memory_module[i].installed_size);
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snprintf(statbuffer, sizeof statbuffer, "Installed Size : %s",
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dmi->memory_module[i].installed_size);
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add_item(buffer, statbuffer, OPT_INACTIVE, NULL, 0);
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menu->items_count++;
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snprintf(buffer, sizeof buffer, "Enabled Size : %s",
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dmi->memory_module[i].enabled_size);
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snprintf(statbuffer, sizeof statbuffer, "Enabled Size : %s",
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dmi->memory_module[i].enabled_size);
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add_item(buffer, statbuffer, OPT_INACTIVE, NULL, 0);
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menu->items_count++;
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snprintf(buffer, sizeof buffer, "Error Status : %s",
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dmi->memory_module[i].error_status);
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snprintf(statbuffer, sizeof statbuffer, "Error Status : %s",
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dmi->memory_module[i].error_status);
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add_item(buffer, statbuffer, OPT_INACTIVE, NULL, 0);
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menu->items_count++;
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}
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/* Compute the Memory menu */
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void compute_memory(struct s_hdt_menu *menu, s_dmi * dmi,
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struct s_hardware *hardware)
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{
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char buffer[MENULEN + 1];
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int i = 0;
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int memory_count = 0;
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/* If memory type 17 is available */
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if (dmi->memory_count > 0) {
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memory_count = dmi->memory_count;
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for (i = 0; i < dmi->memory_count; i++) {
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compute_memory_module(&(menu->memory_sub_menu[i]), dmi, i);
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}
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} else if (dmi->memory_module_count > 0) {
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memory_count = dmi->memory_module_count;
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/* Memory Type 17 isn't available, let's fallback on type 6 */
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for (i = 0; i < dmi->memory_module_count; i++) {
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compute_memory_module_type6(&(menu->memory_sub_menu[i]), dmi, i);
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}
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}
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compute_e820(&(menu->memory_sub_menu[++i]));
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compute_e801(&(menu->memory_sub_menu[++i]));
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compute_88(&(menu->memory_sub_menu[++i]));
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menu->memory_menu.menu = add_menu(" Memory ", -1);
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menu->memory_menu.items_count = 0;
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snprintf(buffer, sizeof(buffer), " %lu MB detected ",
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(hardware->detected_memory_size + (1 << 9)) >> 10);
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add_item(buffer, "Detected Memory", OPT_INACTIVE, NULL,
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menu->memory_sub_menu[0].menu);
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menu->memory_menu.items_count++;
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add_item("", "", OPT_SEP, "", 0);
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if (memory_count == 0) {
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snprintf(buffer, sizeof buffer, " No memory bank detected ");
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add_item(buffer, "Memory Bank", OPT_INACTIVE, NULL,
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menu->memory_sub_menu[1].menu);
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menu->memory_menu.items_count++;
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} else
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for (i = 0; i < memory_count; i++) {
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snprintf(buffer, sizeof buffer, " Bank <%d> ", i);
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add_item(buffer, "Memory Bank", OPT_SUBMENU, NULL,
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menu->memory_sub_menu[i].menu);
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menu->memory_menu.items_count++;
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}
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add_item("", "", OPT_SEP, "", 0);
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snprintf(buffer, sizeof buffer, " e820 ");
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add_item(buffer, "e820 mapping", OPT_SUBMENU, NULL,
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menu->memory_sub_menu[++i].menu);
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menu->memory_menu.items_count++;
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snprintf(buffer, sizeof buffer, " e801 ");
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add_item(buffer, "e801 information", OPT_SUBMENU, NULL,
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menu->memory_sub_menu[++i].menu);
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menu->memory_menu.items_count++;
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snprintf(buffer, sizeof buffer, " 88 ");
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add_item(buffer, "88 information", OPT_SUBMENU, NULL,
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menu->memory_sub_menu[++i].menu);
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menu->memory_menu.items_count++;
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add_item("", "", OPT_SEP, "", 0);
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printf("MENU: Memory menu done (%d items)\n",
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menu->memory_menu.items_count);
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add_item("Run Test", "Run Test", OPT_RUN, hardware->memtest_label, 0);
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}
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