/* SPDX-License-Identifier: LGPL-2.1-or-later */ #include #include #include #include "bcd.h" #include "bootspec-fundamental.h" #include "console.h" #include "devicetree.h" #include "disk.h" #include "drivers.h" #include "efivars-fundamental.h" #include "graphics.h" #include "initrd.h" #include "linux.h" #include "measure.h" #include "pe.h" #include "vmm.h" #include "random-seed.h" #include "secure-boot.h" #include "shim.h" #include "ticks.h" #include "util.h" #include "xbootldr.h" #ifndef GNU_EFI_USE_MS_ABI /* We do not use uefi_call_wrapper() in systemd-boot. As such, we rely on the * compiler to do the calling convention conversion for us. This is check is * to make sure the -DGNU_EFI_USE_MS_ABI was passed to the comiler. */ #error systemd-boot requires compilation with GNU_EFI_USE_MS_ABI defined. #endif #define TEXT_ATTR_SWAP(c) EFI_TEXT_ATTR(((c) & 0b11110000) >> 4, (c) & 0b1111) /* Magic string for recognizing our own binaries */ _used_ _section_(".sdmagic") static const char magic[] = "#### LoaderInfo: systemd-boot " GIT_VERSION " ####"; /* Makes systemd-boot available from \EFI\Linux\ for testing purposes. */ _used_ _section_(".osrel") static const char osrel[] = "ID=systemd-boot\n" "VERSION=\"" GIT_VERSION "\"\n" "NAME=\"systemd-boot " GIT_VERSION "\"\n"; enum loader_type { LOADER_UNDEFINED, LOADER_AUTO, LOADER_EFI, LOADER_LINUX, /* Boot loader spec type #1 entries */ LOADER_UNIFIED_LINUX, /* Boot loader spec type #2 entries */ LOADER_SECURE_BOOT_KEYS, }; typedef struct { char16_t *id; /* The unique identifier for this entry (typically the filename of the file defining the entry) */ char16_t *title_show; /* The string to actually display (this is made unique before showing) */ char16_t *title; /* The raw (human readable) title string of the entry (not necessarily unique) */ char16_t *sort_key; /* The string to use as primary sort key, usually ID= from os-release, possibly suffixed */ char16_t *version; /* The raw (human readable) version string of the entry */ char16_t *machine_id; EFI_HANDLE *device; enum loader_type type; char16_t *loader; char16_t *devicetree; char16_t *options; char16_t **initrd; char16_t key; EFI_STATUS (*call)(void); int tries_done; int tries_left; char16_t *path; char16_t *current_name; char16_t *next_name; } ConfigEntry; typedef struct { ConfigEntry **entries; UINTN entry_count; UINTN idx_default; UINTN idx_default_efivar; uint32_t timeout_sec; /* Actual timeout used (efi_main() override > efivar > config). */ uint32_t timeout_sec_config; uint32_t timeout_sec_efivar; char16_t *entry_default_config; char16_t *entry_default_efivar; char16_t *entry_oneshot; char16_t *entry_saved; bool editor; bool auto_entries; bool auto_firmware; bool reboot_for_bitlocker; secure_boot_enroll secure_boot_enroll; bool force_menu; bool use_saved_entry; bool use_saved_entry_efivar; bool beep; int64_t console_mode; int64_t console_mode_efivar; RandomSeedMode random_seed_mode; } Config; /* These values have been chosen so that the transitions the user sees could * employ unsigned over-/underflow like this: * efivar unset ↔ force menu ↔ no timeout/skip menu ↔ 1 s ↔ 2 s ↔ … */ enum { TIMEOUT_MIN = 1, TIMEOUT_MAX = UINT32_MAX - 2U, TIMEOUT_UNSET = UINT32_MAX - 1U, TIMEOUT_MENU_FORCE = UINT32_MAX, TIMEOUT_MENU_HIDDEN = 0, TIMEOUT_TYPE_MAX = UINT32_MAX, }; enum { IDX_MAX = INT16_MAX, IDX_INVALID, }; static void cursor_left(UINTN *cursor, UINTN *first) { assert(cursor); assert(first); if ((*cursor) > 0) (*cursor)--; else if ((*first) > 0) (*first)--; } static void cursor_right( UINTN *cursor, UINTN *first, UINTN x_max, UINTN len) { assert(cursor); assert(first); if ((*cursor)+1 < x_max) (*cursor)++; else if ((*first) + (*cursor) < len) (*first)++; } static bool line_edit( char16_t **line_in, UINTN x_max, UINTN y_pos) { _cleanup_free_ char16_t *line = NULL, *print = NULL; UINTN size, len, first = 0, cursor = 0, clear = 0; assert(line_in); len = strlen16(*line_in); size = len + 1024; line = xnew(char16_t, size); print = xnew(char16_t, x_max + 1); strcpy16(line, strempty(*line_in)); for (;;) { EFI_STATUS err; uint64_t key; UINTN j; UINTN cursor_color = TEXT_ATTR_SWAP(COLOR_EDIT); j = MIN(len - first, x_max); memcpy(print, line + first, j * sizeof(char16_t)); while (clear > 0 && j < x_max) { clear--; print[j++] = ' '; } print[j] = '\0'; /* See comment at edit_line() call site for why we start at 1. */ print_at(1, y_pos, COLOR_EDIT, print); if (!print[cursor]) print[cursor] = ' '; print[cursor+1] = '\0'; do { print_at(cursor + 1, y_pos, cursor_color, print + cursor); cursor_color = TEXT_ATTR_SWAP(cursor_color); err = console_key_read(&key, 750 * 1000); if (!IN_SET(err, EFI_SUCCESS, EFI_TIMEOUT, EFI_NOT_READY)) return false; print_at(cursor + 1, y_pos, COLOR_EDIT, print + cursor); } while (err != EFI_SUCCESS); switch (key) { case KEYPRESS(0, SCAN_ESC, 0): case KEYPRESS(EFI_CONTROL_PRESSED, 0, 'c'): case KEYPRESS(EFI_CONTROL_PRESSED, 0, 'g'): case KEYPRESS(EFI_CONTROL_PRESSED, 0, CHAR_CTRL('c')): case KEYPRESS(EFI_CONTROL_PRESSED, 0, CHAR_CTRL('g')): return false; case KEYPRESS(0, SCAN_HOME, 0): case KEYPRESS(EFI_CONTROL_PRESSED, 0, 'a'): case KEYPRESS(EFI_CONTROL_PRESSED, 0, CHAR_CTRL('a')): /* beginning-of-line */ cursor = 0; first = 0; continue; case KEYPRESS(0, SCAN_END, 0): case KEYPRESS(EFI_CONTROL_PRESSED, 0, 'e'): case KEYPRESS(EFI_CONTROL_PRESSED, 0, CHAR_CTRL('e')): /* end-of-line */ cursor = len - first; if (cursor+1 >= x_max) { cursor = x_max-1; first = len - (x_max-1); } continue; case KEYPRESS(0, SCAN_DOWN, 0): case KEYPRESS(EFI_ALT_PRESSED, 0, 'f'): case KEYPRESS(EFI_CONTROL_PRESSED, SCAN_RIGHT, 0): /* forward-word */ while (line[first + cursor] == ' ') cursor_right(&cursor, &first, x_max, len); while (line[first + cursor] && line[first + cursor] != ' ') cursor_right(&cursor, &first, x_max, len); continue; case KEYPRESS(0, SCAN_UP, 0): case KEYPRESS(EFI_ALT_PRESSED, 0, 'b'): case KEYPRESS(EFI_CONTROL_PRESSED, SCAN_LEFT, 0): /* backward-word */ if ((first + cursor) > 0 && line[first + cursor-1] == ' ') { cursor_left(&cursor, &first); while ((first + cursor) > 0 && line[first + cursor] == ' ') cursor_left(&cursor, &first); } while ((first + cursor) > 0 && line[first + cursor-1] != ' ') cursor_left(&cursor, &first); continue; case KEYPRESS(0, SCAN_RIGHT, 0): case KEYPRESS(EFI_CONTROL_PRESSED, 0, 'f'): case KEYPRESS(EFI_CONTROL_PRESSED, 0, CHAR_CTRL('f')): /* forward-char */ if (first + cursor == len) continue; cursor_right(&cursor, &first, x_max, len); continue; case KEYPRESS(0, SCAN_LEFT, 0): case KEYPRESS(EFI_CONTROL_PRESSED, 0, 'b'): case KEYPRESS(EFI_CONTROL_PRESSED, 0, CHAR_CTRL('b')): /* backward-char */ cursor_left(&cursor, &first); continue; case KEYPRESS(EFI_CONTROL_PRESSED, SCAN_DELETE, 0): case KEYPRESS(EFI_ALT_PRESSED, 0, 'd'): /* kill-word */ clear = 0; UINTN k; for (k = first + cursor; k < len && line[k] == ' '; k++) clear++; for (; k < len && line[k] != ' '; k++) clear++; for (UINTN i = first + cursor; i + clear < len; i++) line[i] = line[i + clear]; len -= clear; line[len] = '\0'; continue; case KEYPRESS(EFI_CONTROL_PRESSED, 0, 'w'): case KEYPRESS(EFI_CONTROL_PRESSED, 0, CHAR_CTRL('w')): case KEYPRESS(EFI_ALT_PRESSED, 0, CHAR_BACKSPACE): /* backward-kill-word */ clear = 0; if ((first + cursor) > 0 && line[first + cursor-1] == ' ') { cursor_left(&cursor, &first); clear++; while ((first + cursor) > 0 && line[first + cursor] == ' ') { cursor_left(&cursor, &first); clear++; } } while ((first + cursor) > 0 && line[first + cursor-1] != ' ') { cursor_left(&cursor, &first); clear++; } for (UINTN i = first + cursor; i + clear < len; i++) line[i] = line[i + clear]; len -= clear; line[len] = '\0'; continue; case KEYPRESS(0, SCAN_DELETE, 0): case KEYPRESS(EFI_CONTROL_PRESSED, 0, 'd'): case KEYPRESS(EFI_CONTROL_PRESSED, 0, CHAR_CTRL('d')): if (len == 0) continue; if (first + cursor == len) continue; for (UINTN i = first + cursor; i < len; i++) line[i] = line[i+1]; clear = 1; len--; continue; case KEYPRESS(EFI_CONTROL_PRESSED, 0, 'k'): case KEYPRESS(EFI_CONTROL_PRESSED, 0, CHAR_CTRL('k')): /* kill-line */ line[first + cursor] = '\0'; clear = len - (first + cursor); len = first + cursor; continue; case KEYPRESS(0, 0, CHAR_LINEFEED): case KEYPRESS(0, 0, CHAR_CARRIAGE_RETURN): case KEYPRESS(0, SCAN_F3, 0): /* EZpad Mini 4s firmware sends malformed events */ case KEYPRESS(0, SCAN_F3, CHAR_CARRIAGE_RETURN): /* Teclast X98+ II firmware sends malformed events */ if (!streq16(line, *line_in)) { free(*line_in); *line_in = TAKE_PTR(line); } return true; case KEYPRESS(0, 0, CHAR_BACKSPACE): if (len == 0) continue; if (first == 0 && cursor == 0) continue; for (UINTN i = first + cursor-1; i < len; i++) line[i] = line[i+1]; clear = 1; len--; if (cursor > 0) cursor--; if (cursor > 0 || first == 0) continue; /* show full line if it fits */ if (len < x_max) { cursor = first; first = 0; continue; } /* jump left to see what we delete */ if (first > 10) { first -= 10; cursor = 10; } else { cursor = first; first = 0; } continue; case KEYPRESS(0, 0, ' ') ... KEYPRESS(0, 0, '~'): case KEYPRESS(0, 0, 0x80) ... KEYPRESS(0, 0, 0xffff): if (len+1 == size) continue; for (UINTN i = len; i > first + cursor; i--) line[i] = line[i-1]; line[first + cursor] = KEYCHAR(key); len++; line[len] = '\0'; if (cursor+1 < x_max) cursor++; else if (first + cursor < len) first++; continue; } } } static UINTN entry_lookup_key(Config *config, UINTN start, char16_t key) { assert(config); if (key == 0) return IDX_INVALID; /* select entry by number key */ if (key >= '1' && key <= '9') { UINTN i = key - '0'; if (i > config->entry_count) i = config->entry_count; return i-1; } /* find matching key in config entries */ for (UINTN i = start; i < config->entry_count; i++) if (config->entries[i]->key == key) return i; for (UINTN i = 0; i < start; i++) if (config->entries[i]->key == key) return i; return IDX_INVALID; } static char16_t *update_timeout_efivar(uint32_t *t, bool inc) { assert(t); switch (*t) { case TIMEOUT_MAX: *t = inc ? TIMEOUT_MAX : (*t - 1); break; case TIMEOUT_UNSET: *t = inc ? TIMEOUT_MENU_FORCE : TIMEOUT_UNSET; break; case TIMEOUT_MENU_FORCE: *t = inc ? TIMEOUT_MENU_HIDDEN : TIMEOUT_UNSET; break; case TIMEOUT_MENU_HIDDEN: *t = inc ? TIMEOUT_MIN : TIMEOUT_MENU_FORCE; break; default: *t += inc ? 1 : -1; } switch (*t) { case TIMEOUT_UNSET: return xstrdup16(u"Menu timeout defined by configuration file."); case TIMEOUT_MENU_FORCE: return xstrdup16(u"Timeout disabled, menu will always be shown."); case TIMEOUT_MENU_HIDDEN: return xstrdup16(u"Menu disabled. Hold down key at bootup to show menu."); default: return xpool_print(L"Menu timeout set to %u s.", *t); } } static bool unicode_supported(void) { static int cache = -1; if (cache < 0) /* Basic unicode box drawing support is mandated by the spec, but it does * not hurt to make sure it works. */ cache = ST->ConOut->TestString(ST->ConOut, (char16_t *) L"─") == EFI_SUCCESS; return cache; } static void ps_string(const char16_t *fmt, const void *value) { assert(fmt); if (value) Print(fmt, value); } static void ps_bool(const char16_t *fmt, bool value) { assert(fmt); Print(fmt, yes_no(value)); } static bool ps_continue(void) { if (unicode_supported()) Print(L"\n─── Press any key to continue, ESC or q to quit. ───\n\n"); else Print(L"\n--- Press any key to continue, ESC or q to quit. ---\n\n"); uint64_t key; return console_key_read(&key, UINT64_MAX) == EFI_SUCCESS && !IN_SET(key, KEYPRESS(0, SCAN_ESC, 0), KEYPRESS(0, 0, 'q'), KEYPRESS(0, 0, 'Q')); } static void print_status(Config *config, char16_t *loaded_image_path) { UINTN x_max, y_max; uint32_t screen_width = 0, screen_height = 0; SecureBootMode secure; _cleanup_free_ char16_t *device_part_uuid = NULL; assert(config); clear_screen(COLOR_NORMAL); console_query_mode(&x_max, &y_max); query_screen_resolution(&screen_width, &screen_height); secure = secure_boot_mode(); (void) efivar_get(LOADER_GUID, L"LoaderDevicePartUUID", &device_part_uuid); /* We employ some unusual indentation here for readability. */ ps_string(L" systemd-boot version: %a\n", GIT_VERSION); ps_string(L" loaded image: %s\n", loaded_image_path); ps_string(L" loader partition UUID: %s\n", device_part_uuid); ps_string(L" architecture: %a\n", EFI_MACHINE_TYPE_NAME); Print(L" UEFI specification: %u.%02u\n", ST->Hdr.Revision >> 16, ST->Hdr.Revision & 0xffff); ps_string(L" firmware vendor: %s\n", ST->FirmwareVendor); Print(L" firmware version: %u.%02u\n", ST->FirmwareRevision >> 16, ST->FirmwareRevision & 0xffff); Print(L" OS indications: %lu\n", get_os_indications_supported()); Print(L" secure boot: %s (%s)\n", yes_no(IN_SET(secure, SECURE_BOOT_USER, SECURE_BOOT_DEPLOYED)), secure_boot_mode_to_string(secure)); ps_bool(L" shim: %s\n", shim_loaded()); ps_bool(L" TPM: %s\n", tpm_present()); Print(L" console mode: %d/%ld (%" PRIuN L"x%" PRIuN L" @%ux%u)\n", ST->ConOut->Mode->Mode, ST->ConOut->Mode->MaxMode - INT64_C(1), x_max, y_max, screen_width, screen_height); if (!ps_continue()) return; switch (config->timeout_sec_config) { case TIMEOUT_UNSET: break; case TIMEOUT_MENU_FORCE: Print(L" timeout (config): menu-force\n"); break; case TIMEOUT_MENU_HIDDEN: Print(L" timeout (config): menu-hidden\n"); break; default: Print(L" timeout (config): %u s\n", config->timeout_sec_config); } switch (config->timeout_sec_efivar) { case TIMEOUT_UNSET: break; case TIMEOUT_MENU_FORCE: Print(L" timeout (EFI var): menu-force\n"); break; case TIMEOUT_MENU_HIDDEN: Print(L" timeout (EFI var): menu-hidden\n"); break; default: Print(L" timeout (EFI var): %u s\n", config->timeout_sec_efivar); } ps_string(L" default (config): %s\n", config->entry_default_config); ps_string(L" default (EFI var): %s\n", config->entry_default_efivar); ps_string(L" default (one-shot): %s\n", config->entry_oneshot); ps_string(L" saved entry: %s\n", config->entry_saved); ps_bool(L" editor: %s\n", config->editor); ps_bool(L" auto-entries: %s\n", config->auto_entries); ps_bool(L" auto-firmware: %s\n", config->auto_firmware); ps_bool(L" beep: %s\n", config->beep); ps_bool(L" reboot-for-bitlocker: %s\n", config->reboot_for_bitlocker); ps_string(L" random-seed-mode: %s\n", random_seed_modes_table[config->random_seed_mode]); switch (config->secure_boot_enroll) { case ENROLL_OFF: Print(L" secure-boot-enroll: off\n"); break; case ENROLL_MANUAL: Print(L" secure-boot-enroll: manual\n"); break; case ENROLL_FORCE: Print(L" secure-boot-enroll: force\n"); break; default: assert_not_reached(); } switch (config->console_mode) { case CONSOLE_MODE_AUTO: Print(L" console-mode (config): %s\n", L"auto"); break; case CONSOLE_MODE_KEEP: Print(L" console-mode (config): %s\n", L"keep"); break; case CONSOLE_MODE_FIRMWARE_MAX: Print(L" console-mode (config): %s\n", L"max"); break; default: Print(L" console-mode (config): %ld\n", config->console_mode); break; } /* EFI var console mode is always a concrete value or unset. */ if (config->console_mode_efivar != CONSOLE_MODE_KEEP) Print(L"console-mode (EFI var): %ld\n", config->console_mode_efivar); if (!ps_continue()) return; for (UINTN i = 0; i < config->entry_count; i++) { ConfigEntry *entry = config->entries[i]; _cleanup_free_ char16_t *dp = NULL; if (entry->device) (void) device_path_to_str(DevicePathFromHandle(entry->device), &dp); Print(L" config entry: %" PRIuN L"/%" PRIuN L"\n", i + 1, config->entry_count); ps_string(L" id: %s\n", entry->id); ps_string(L" title: %s\n", entry->title); ps_string(L" title show: %s\n", streq16(entry->title, entry->title_show) ? NULL : entry->title_show); ps_string(L" sort key: %s\n", entry->sort_key); ps_string(L" version: %s\n", entry->version); ps_string(L" machine-id: %s\n", entry->machine_id); ps_string(L" device: %s\n", dp); ps_string(L" loader: %s\n", entry->loader); STRV_FOREACH(initrd, entry->initrd) Print(L" initrd: %s\n", *initrd); ps_string(L" devicetree: %s\n", entry->devicetree); ps_string(L" options: %s\n", entry->options); ps_bool(L" internal call: %s\n", !!entry->call); ps_bool(L"counting boots: %s\n", entry->tries_left >= 0); if (entry->tries_left >= 0) { Print(L" tries: %u left, %u done\n", entry->tries_left, entry->tries_done); Print(L" current path: %s\\%s\n", entry->path, entry->current_name); Print(L" next path: %s\\%s\n", entry->path, entry->next_name); } if (!ps_continue()) return; } } static EFI_STATUS reboot_into_firmware(void) { uint64_t osind = 0; EFI_STATUS err; if (!FLAGS_SET(get_os_indications_supported(), EFI_OS_INDICATIONS_BOOT_TO_FW_UI)) return log_error_status_stall(EFI_UNSUPPORTED, L"Reboot to firmware interface not supported."); (void) efivar_get_uint64_le(EFI_GLOBAL_GUID, L"OsIndications", &osind); osind |= EFI_OS_INDICATIONS_BOOT_TO_FW_UI; err = efivar_set_uint64_le(EFI_GLOBAL_GUID, L"OsIndications", osind, EFI_VARIABLE_NON_VOLATILE); if (err != EFI_SUCCESS) return log_error_status_stall(err, L"Error setting OsIndications: %r", err); RT->ResetSystem(EfiResetCold, EFI_SUCCESS, 0, NULL); assert_not_reached(); } static bool menu_run( Config *config, ConfigEntry **chosen_entry, char16_t *loaded_image_path) { assert(config); assert(chosen_entry); EFI_STATUS err; UINTN visible_max = 0; UINTN idx_highlight = config->idx_default; UINTN idx_highlight_prev = 0; UINTN idx, idx_first = 0, idx_last = 0; bool new_mode = true, clear = true; bool refresh = true, highlight = false; UINTN x_start = 0, y_start = 0, y_status = 0; UINTN x_max, y_max; _cleanup_(strv_freep) char16_t **lines = NULL; _cleanup_free_ char16_t *clearline = NULL, *separator = NULL, *status = NULL; uint32_t timeout_efivar_saved = config->timeout_sec_efivar; uint32_t timeout_remain = config->timeout_sec == TIMEOUT_MENU_FORCE ? 0 : config->timeout_sec; bool exit = false, run = true, firmware_setup = false; int64_t console_mode_initial = ST->ConOut->Mode->Mode, console_mode_efivar_saved = config->console_mode_efivar; UINTN default_efivar_saved = config->idx_default_efivar; graphics_mode(false); ST->ConIn->Reset(ST->ConIn, false); ST->ConOut->EnableCursor(ST->ConOut, false); /* draw a single character to make ClearScreen work on some firmware */ Print(L" "); err = console_set_mode(config->console_mode_efivar != CONSOLE_MODE_KEEP ? config->console_mode_efivar : config->console_mode); if (err != EFI_SUCCESS) { clear_screen(COLOR_NORMAL); log_error_stall(L"Error switching console mode: %r", err); } UINTN line_width = 0, entry_padding = 3; while (!exit) { uint64_t key; if (new_mode) { console_query_mode(&x_max, &y_max); /* account for padding+status */ visible_max = y_max - 2; /* Drawing entries starts at idx_first until idx_last. We want to make * sure that idx_highlight is centered, but not if we are close to the * beginning/end of the entry list. Otherwise we would have a half-empty * screen. */ if (config->entry_count <= visible_max || idx_highlight <= visible_max / 2) idx_first = 0; else if (idx_highlight >= config->entry_count - (visible_max / 2)) idx_first = config->entry_count - visible_max; else idx_first = idx_highlight - (visible_max / 2); idx_last = idx_first + visible_max - 1; /* length of the longest entry */ line_width = 0; for (UINTN i = 0; i < config->entry_count; i++) line_width = MAX(line_width, strlen16(config->entries[i]->title_show)); line_width = MIN(line_width + 2 * entry_padding, x_max); /* offsets to center the entries on the screen */ x_start = (x_max - (line_width)) / 2; if (config->entry_count < visible_max) y_start = ((visible_max - config->entry_count) / 2) + 1; else y_start = 0; /* Put status line after the entry list, but give it some breathing room. */ y_status = MIN(y_start + MIN(visible_max, config->entry_count) + 1, y_max - 1); lines = strv_free(lines); clearline = mfree(clearline); separator = mfree(separator); /* menu entries title lines */ lines = xnew(char16_t *, config->entry_count + 1); for (UINTN i = 0; i < config->entry_count; i++) { UINTN j, padding; lines[i] = xnew(char16_t, line_width + 1); padding = (line_width - MIN(strlen16(config->entries[i]->title_show), line_width)) / 2; for (j = 0; j < padding; j++) lines[i][j] = ' '; for (UINTN k = 0; config->entries[i]->title_show[k] != '\0' && j < line_width; j++, k++) lines[i][j] = config->entries[i]->title_show[k]; for (; j < line_width; j++) lines[i][j] = ' '; lines[i][line_width] = '\0'; } lines[config->entry_count] = NULL; clearline = xnew(char16_t, x_max + 1); separator = xnew(char16_t, x_max + 1); for (UINTN i = 0; i < x_max; i++) { clearline[i] = ' '; separator[i] = unicode_supported() ? L'─' : L'-'; } clearline[x_max] = 0; separator[x_max] = 0; new_mode = false; clear = true; } if (clear) { clear_screen(COLOR_NORMAL); clear = false; refresh = true; } if (refresh) { for (UINTN i = idx_first; i <= idx_last && i < config->entry_count; i++) { print_at(x_start, y_start + i - idx_first, i == idx_highlight ? COLOR_HIGHLIGHT : COLOR_ENTRY, lines[i]); if (i == config->idx_default_efivar) print_at(x_start, y_start + i - idx_first, i == idx_highlight ? COLOR_HIGHLIGHT : COLOR_ENTRY, unicode_supported() ? L" ►" : L"=>"); } refresh = false; } else if (highlight) { print_at(x_start, y_start + idx_highlight_prev - idx_first, COLOR_ENTRY, lines[idx_highlight_prev]); print_at(x_start, y_start + idx_highlight - idx_first, COLOR_HIGHLIGHT, lines[idx_highlight]); if (idx_highlight_prev == config->idx_default_efivar) print_at(x_start, y_start + idx_highlight_prev - idx_first, COLOR_ENTRY, unicode_supported() ? L" ►" : L"=>"); if (idx_highlight == config->idx_default_efivar) print_at(x_start, y_start + idx_highlight - idx_first, COLOR_HIGHLIGHT, unicode_supported() ? L" ►" : L"=>"); highlight = false; } if (timeout_remain > 0) { free(status); status = xpool_print(L"Boot in %u s.", timeout_remain); } if (status) { /* If we draw the last char of the last line, the screen will scroll and break our * input. Therefore, draw one less character then we could for the status message. * Note that the same does not apply for the separator line as it will never be drawn * on the last line. */ UINTN len = strnlen16(status, x_max - 1); UINTN x = (x_max - len) / 2; status[len] = '\0'; print_at(0, y_status, COLOR_NORMAL, clearline + x_max - x); ST->ConOut->OutputString(ST->ConOut, status); ST->ConOut->OutputString(ST->ConOut, clearline + 1 + x + len); len = MIN(MAX(len, line_width) + 2 * entry_padding, x_max); x = (x_max - len) / 2; print_at(x, y_status - 1, COLOR_NORMAL, separator + x_max - len); } else { print_at(0, y_status - 1, COLOR_NORMAL, clearline); print_at(0, y_status, COLOR_NORMAL, clearline + 1); /* See comment above. */ } /* Beep several times so that the selected entry can be distinguished. */ if (config->beep) beep(idx_highlight + 1); err = console_key_read(&key, timeout_remain > 0 ? 1000 * 1000 : UINT64_MAX); if (err == EFI_NOT_READY) /* No input device returned a key, try again. This * normally should not happen. */ continue; if (err == EFI_TIMEOUT) { assert(timeout_remain > 0); timeout_remain--; if (timeout_remain == 0) { exit = true; break; } /* update status */ continue; } if (err != EFI_SUCCESS) { exit = true; break; } timeout_remain = 0; /* clear status after keystroke */ status = mfree(status); idx_highlight_prev = idx_highlight; if (firmware_setup) { firmware_setup = false; if (key == KEYPRESS(0, 0, CHAR_CARRIAGE_RETURN)) reboot_into_firmware(); continue; } switch (key) { case KEYPRESS(0, SCAN_UP, 0): case KEYPRESS(0, 0, 'k'): case KEYPRESS(0, 0, 'K'): if (idx_highlight > 0) idx_highlight--; break; case KEYPRESS(0, SCAN_DOWN, 0): case KEYPRESS(0, 0, 'j'): case KEYPRESS(0, 0, 'J'): if (idx_highlight < config->entry_count-1) idx_highlight++; break; case KEYPRESS(0, SCAN_HOME, 0): case KEYPRESS(EFI_ALT_PRESSED, 0, '<'): if (idx_highlight > 0) { refresh = true; idx_highlight = 0; } break; case KEYPRESS(0, SCAN_END, 0): case KEYPRESS(EFI_ALT_PRESSED, 0, '>'): if (idx_highlight < config->entry_count-1) { refresh = true; idx_highlight = config->entry_count-1; } break; case KEYPRESS(0, SCAN_PAGE_UP, 0): if (idx_highlight > visible_max) idx_highlight -= visible_max; else idx_highlight = 0; break; case KEYPRESS(0, SCAN_PAGE_DOWN, 0): idx_highlight += visible_max; if (idx_highlight > config->entry_count-1) idx_highlight = config->entry_count-1; break; case KEYPRESS(0, 0, CHAR_LINEFEED): case KEYPRESS(0, 0, CHAR_CARRIAGE_RETURN): case KEYPRESS(0, SCAN_F3, 0): /* EZpad Mini 4s firmware sends malformed events */ case KEYPRESS(0, SCAN_F3, CHAR_CARRIAGE_RETURN): /* Teclast X98+ II firmware sends malformed events */ case KEYPRESS(0, SCAN_RIGHT, 0): exit = true; break; case KEYPRESS(0, SCAN_F1, 0): case KEYPRESS(0, 0, 'h'): case KEYPRESS(0, 0, 'H'): case KEYPRESS(0, 0, '?'): /* This must stay below 80 characters! Q/v/Ctrl+l/f deliberately not advertised. */ status = xstrdup16(u"(d)efault (t/T)timeout (e)dit (r/R)resolution (p)rint (h)elp"); break; case KEYPRESS(0, 0, 'Q'): exit = true; run = false; break; case KEYPRESS(0, 0, 'd'): case KEYPRESS(0, 0, 'D'): if (config->idx_default_efivar != idx_highlight) { free(config->entry_default_efivar); config->entry_default_efivar = xstrdup16(config->entries[idx_highlight]->id); config->idx_default_efivar = idx_highlight; status = xstrdup16(u"Default boot entry selected."); } else { config->entry_default_efivar = mfree(config->entry_default_efivar); config->idx_default_efivar = IDX_INVALID; status = xstrdup16(u"Default boot entry cleared."); } config->use_saved_entry_efivar = false; refresh = true; break; case KEYPRESS(0, 0, '-'): case KEYPRESS(0, 0, 'T'): status = update_timeout_efivar(&config->timeout_sec_efivar, false); break; case KEYPRESS(0, 0, '+'): case KEYPRESS(0, 0, 't'): status = update_timeout_efivar(&config->timeout_sec_efivar, true); break; case KEYPRESS(0, 0, 'e'): case KEYPRESS(0, 0, 'E'): /* only the options of configured entries can be edited */ if (!config->editor || !IN_SET(config->entries[idx_highlight]->type, LOADER_EFI, LOADER_LINUX, LOADER_UNIFIED_LINUX)) { status = xstrdup16(u"Entry does not support editing the command line."); break; } /* Unified kernels that are signed as a whole will not accept command line options * when secure boot is enabled unless there is none embedded in the image. Do not try * to pretend we can edit it to only have it be ignored. */ if (config->entries[idx_highlight]->type == LOADER_UNIFIED_LINUX && secure_boot_enabled() && config->entries[idx_highlight]->options) { status = xstrdup16(u"Entry not editable in SecureBoot mode."); break; } /* The edit line may end up on the last line of the screen. And even though we're * not telling the firmware to advance the line, it still does in this one case, * causing a scroll to happen that screws with our beautiful boot loader output. * Since we cannot paint the last character of the edit line, we simply start * at x-offset 1 for symmetry. */ print_at(1, y_status, COLOR_EDIT, clearline + 2); exit = line_edit(&config->entries[idx_highlight]->options, x_max - 2, y_status); print_at(1, y_status, COLOR_NORMAL, clearline + 2); break; case KEYPRESS(0, 0, 'v'): status = xpool_print( L"systemd-boot " GIT_VERSION L" (" EFI_MACHINE_TYPE_NAME L"), " L"UEFI Specification %u.%02u, Vendor %s %u.%02u", ST->Hdr.Revision >> 16, ST->Hdr.Revision & 0xffff, ST->FirmwareVendor, ST->FirmwareRevision >> 16, ST->FirmwareRevision & 0xffff); break; case KEYPRESS(0, 0, 'p'): case KEYPRESS(0, 0, 'P'): print_status(config, loaded_image_path); clear = true; break; case KEYPRESS(EFI_CONTROL_PRESSED, 0, 'l'): case KEYPRESS(EFI_CONTROL_PRESSED, 0, CHAR_CTRL('l')): clear = true; break; case KEYPRESS(0, 0, 'r'): err = console_set_mode(CONSOLE_MODE_NEXT); if (err != EFI_SUCCESS) status = xpool_print(L"Error changing console mode: %r", err); else { config->console_mode_efivar = ST->ConOut->Mode->Mode; status = xpool_print(L"Console mode changed to %ld.", config->console_mode_efivar); } new_mode = true; break; case KEYPRESS(0, 0, 'R'): config->console_mode_efivar = CONSOLE_MODE_KEEP; err = console_set_mode(config->console_mode == CONSOLE_MODE_KEEP ? console_mode_initial : config->console_mode); if (err != EFI_SUCCESS) status = xpool_print(L"Error resetting console mode: %r", err); else status = xpool_print(L"Console mode reset to %s default.", config->console_mode == CONSOLE_MODE_KEEP ? L"firmware" : L"configuration file"); new_mode = true; break; case KEYPRESS(0, 0, 'f'): case KEYPRESS(0, 0, 'F'): case KEYPRESS(0, SCAN_F2, 0): /* Most vendors. */ case KEYPRESS(0, SCAN_F10, 0): /* HP and Lenovo. */ case KEYPRESS(0, SCAN_DELETE, 0): /* Same as F2. */ case KEYPRESS(0, SCAN_ESC, 0): /* HP. */ if (FLAGS_SET(get_os_indications_supported(), EFI_OS_INDICATIONS_BOOT_TO_FW_UI)) { firmware_setup = true; /* Let's make sure the user really wants to do this. */ status = xpool_print(L"Press Enter to reboot into firmware interface."); } else status = xpool_print(L"Reboot into firmware interface not supported."); break; default: /* jump with a hotkey directly to a matching entry */ idx = entry_lookup_key(config, idx_highlight+1, KEYCHAR(key)); if (idx == IDX_INVALID) break; idx_highlight = idx; refresh = true; } if (idx_highlight > idx_last) { idx_last = idx_highlight; idx_first = 1 + idx_highlight - visible_max; refresh = true; } else if (idx_highlight < idx_first) { idx_first = idx_highlight; idx_last = idx_highlight + visible_max-1; refresh = true; } if (!refresh && idx_highlight != idx_highlight_prev) highlight = true; } *chosen_entry = config->entries[idx_highlight]; /* Update EFI vars after we left the menu to reduce NVRAM writes. */ if (default_efivar_saved != config->idx_default_efivar) efivar_set(LOADER_GUID, L"LoaderEntryDefault", config->entry_default_efivar, EFI_VARIABLE_NON_VOLATILE); if (console_mode_efivar_saved != config->console_mode_efivar) { if (config->console_mode_efivar == CONSOLE_MODE_KEEP) efivar_set(LOADER_GUID, L"LoaderConfigConsoleMode", NULL, EFI_VARIABLE_NON_VOLATILE); else efivar_set_uint_string(LOADER_GUID, L"LoaderConfigConsoleMode", config->console_mode_efivar, EFI_VARIABLE_NON_VOLATILE); } if (timeout_efivar_saved != config->timeout_sec_efivar) { switch (config->timeout_sec_efivar) { case TIMEOUT_UNSET: efivar_set(LOADER_GUID, L"LoaderConfigTimeout", NULL, EFI_VARIABLE_NON_VOLATILE); break; case TIMEOUT_MENU_FORCE: efivar_set(LOADER_GUID, u"LoaderConfigTimeout", u"menu-force", EFI_VARIABLE_NON_VOLATILE); break; case TIMEOUT_MENU_HIDDEN: efivar_set(LOADER_GUID, u"LoaderConfigTimeout", u"menu-hidden", EFI_VARIABLE_NON_VOLATILE); break; default: efivar_set_uint_string(LOADER_GUID, L"LoaderConfigTimeout", config->timeout_sec_efivar, EFI_VARIABLE_NON_VOLATILE); } } clear_screen(COLOR_NORMAL); return run; } static void config_add_entry(Config *config, ConfigEntry *entry) { assert(config); assert(entry); /* This is just for paranoia. */ assert(config->entry_count < IDX_MAX); if ((config->entry_count & 15) == 0) { config->entries = xrealloc( config->entries, sizeof(void *) * config->entry_count, sizeof(void *) * (config->entry_count + 16)); } config->entries[config->entry_count++] = entry; } static void config_entry_free(ConfigEntry *entry) { if (!entry) return; free(entry->id); free(entry->title_show); free(entry->title); free(entry->sort_key); free(entry->version); free(entry->machine_id); free(entry->loader); free(entry->devicetree); free(entry->options); strv_free(entry->initrd); free(entry->path); free(entry->current_name); free(entry->next_name); free(entry); } static inline void config_entry_freep(ConfigEntry **entry) { config_entry_free(*entry); } static char *line_get_key_value( char *content, const char *sep, UINTN *pos, char **key_ret, char **value_ret) { char *line, *value; UINTN linelen; assert(content); assert(sep); assert(pos); assert(key_ret); assert(value_ret); for (;;) { line = content + *pos; if (*line == '\0') return NULL; linelen = 0; while (line[linelen] && !strchr8("\n\r", line[linelen])) linelen++; /* move pos to next line */ *pos += linelen; if (content[*pos]) (*pos)++; /* empty line */ if (linelen == 0) continue; /* terminate line */ line[linelen] = '\0'; /* remove leading whitespace */ while (linelen > 0 && strchr8(" \t", *line)) { line++; linelen--; } /* remove trailing whitespace */ while (linelen > 0 && strchr8(" \t", line[linelen - 1])) linelen--; line[linelen] = '\0'; if (*line == '#') continue; /* split key/value */ value = line; while (*value && !strchr8(sep, *value)) value++; if (*value == '\0') continue; *value = '\0'; value++; while (*value && strchr8(sep, *value)) value++; /* unquote */ if (value[0] == '"' && line[linelen - 1] == '"') { value++; line[linelen - 1] = '\0'; } *key_ret = line; *value_ret = value; return line; } } static void config_defaults_load_from_file(Config *config, char *content) { char *line; UINTN pos = 0; char *key, *value; EFI_STATUS err; assert(config); assert(content); while ((line = line_get_key_value(content, " \t", &pos, &key, &value))) { if (streq8(key, "timeout")) { if (streq8( value, "menu-force")) config->timeout_sec_config = TIMEOUT_MENU_FORCE; else if (streq8(value, "menu-hidden")) config->timeout_sec_config = TIMEOUT_MENU_HIDDEN; else { uint64_t u; if (!parse_number8(value, &u, NULL) || u > TIMEOUT_TYPE_MAX) { log_error_stall(L"Error parsing 'timeout' config option: %a", value); continue; } config->timeout_sec_config = u; } config->timeout_sec = config->timeout_sec_config; continue; } if (streq8(key, "default")) { if (value[0] == '@' && !strcaseeq8(value, "@saved")) { log_error_stall(L"Unsupported special entry identifier: %a", value); continue; } free(config->entry_default_config); config->entry_default_config = xstr8_to_16(value); continue; } if (streq8(key, "editor")) { err = parse_boolean(value, &config->editor); if (err != EFI_SUCCESS) log_error_stall(L"Error parsing 'editor' config option: %a", value); continue; } if (streq8(key, "auto-entries")) { err = parse_boolean(value, &config->auto_entries); if (err != EFI_SUCCESS) log_error_stall(L"Error parsing 'auto-entries' config option: %a", value); continue; } if (streq8(key, "auto-firmware")) { err = parse_boolean(value, &config->auto_firmware); if (err != EFI_SUCCESS) log_error_stall(L"Error parsing 'auto-firmware' config option: %a", value); continue; } if (streq8(key, "beep")) { err = parse_boolean(value, &config->beep); if (err != EFI_SUCCESS) log_error_stall(L"Error parsing 'beep' config option: %a", value); continue; } if (streq8(key, "reboot-for-bitlocker")) { err = parse_boolean(value, &config->reboot_for_bitlocker); if (err != EFI_SUCCESS) log_error_stall(L"Error parsing 'reboot-for-bitlocker' config option: %a", value); } if (streq8(key, "secure-boot-enroll")) { if (streq8(value, "manual")) config->secure_boot_enroll = ENROLL_MANUAL; else if (streq8(value, "force")) config->secure_boot_enroll = ENROLL_FORCE; else if (streq8(value, "off")) config->secure_boot_enroll = ENROLL_OFF; else log_error_stall(L"Error parsing 'secure-boot-enroll' config option: %a", value); continue; } if (streq8(key, "console-mode")) { if (streq8(value, "auto")) config->console_mode = CONSOLE_MODE_AUTO; else if (streq8(value, "max")) config->console_mode = CONSOLE_MODE_FIRMWARE_MAX; else if (streq8(value, "keep")) config->console_mode = CONSOLE_MODE_KEEP; else { uint64_t u; if (!parse_number8(value, &u, NULL) || u > CONSOLE_MODE_RANGE_MAX) { log_error_stall(L"Error parsing 'console-mode' config option: %a", value); continue; } config->console_mode = u; } continue; } if (streq8(key, "random-seed-mode")) { if (streq8(value, "off")) config->random_seed_mode = RANDOM_SEED_OFF; else if (streq8(value, "with-system-token")) config->random_seed_mode = RANDOM_SEED_WITH_SYSTEM_TOKEN; else if (streq8(value, "always")) config->random_seed_mode = RANDOM_SEED_ALWAYS; else { bool on; err = parse_boolean(value, &on); if (err != EFI_SUCCESS) { log_error_stall(L"Error parsing 'random-seed-mode' config option: %a", value); continue; } config->random_seed_mode = on ? RANDOM_SEED_ALWAYS : RANDOM_SEED_OFF; } continue; } } } static void config_entry_parse_tries( ConfigEntry *entry, const char16_t *path, const char16_t *file, const char16_t *suffix) { assert(entry); assert(path); assert(file); assert(suffix); /* * Parses a suffix of two counters (one going down, one going up) in the form "+LEFT-DONE" from the end of the * filename (but before the .efi/.conf suffix), where the "-DONE" part is optional and may be left out (in * which case that counter as assumed to be zero, i.e. the missing part is synonymous to "-0"). * * Names we grok, and the series they result in: * * foobar+3.efi → foobar+2-1.efi → foobar+1-2.efi → foobar+0-3.efi → STOP! * foobar+4-0.efi → foobar+3-1.efi → foobar+2-2.efi → foobar+1-3.efi → foobar+0-4.efi → STOP! */ const char16_t *counter = NULL; for (;;) { char16_t *plus = strchr16(counter ?: file, '+'); if (plus) { /* We want the last "+". */ counter = plus + 1; continue; } if (counter) break; /* No boot counter found. */ return; } uint64_t tries_left, tries_done = 0; size_t prefix_len = counter - file; if (!parse_number16(counter, &tries_left, &counter) || tries_left > INT_MAX) return; /* Parse done counter only if present. */ if (*counter == '-' && (!parse_number16(counter + 1, &tries_done, &counter) || tries_done > INT_MAX)) return; /* Boot counter in the middle of the name? */ if (!streq16(counter, suffix)) return; entry->tries_left = tries_left; entry->tries_done = tries_done; entry->path = xstrdup16(path); entry->current_name = xstrdup16(file); entry->next_name = xpool_print( L"%.*s%u-%u%s", prefix_len, file, LESS_BY(tries_left, 1u), MIN(tries_done + 1, (uint64_t) INT_MAX), suffix); } static EFI_STATUS config_entry_bump_counters(ConfigEntry *entry) { _cleanup_free_ char16_t* old_path = NULL, *new_path = NULL; _cleanup_(file_closep) EFI_FILE *handle = NULL; _cleanup_free_ EFI_FILE_INFO *file_info = NULL; UINTN file_info_size; EFI_STATUS err; assert(entry); if (entry->tries_left < 0) return EFI_SUCCESS; if (!entry->path || !entry->current_name || !entry->next_name) return EFI_SUCCESS; _cleanup_(file_closep) EFI_FILE *root = NULL; err = open_volume(entry->device, &root); if (err != EFI_SUCCESS) { log_error_stall(L"Error opening entry root path: %r", err); return err; } old_path = xpool_print(L"%s\\%s", entry->path, entry->current_name); err = root->Open(root, &handle, old_path, EFI_FILE_MODE_READ|EFI_FILE_MODE_WRITE, 0ULL); if (err != EFI_SUCCESS) { log_error_stall(L"Error opening boot entry: %r", err); return err; } err = get_file_info_harder(handle, &file_info, &file_info_size); if (err != EFI_SUCCESS) { log_error_stall(L"Error getting boot entry file info: %r", err); return err; } /* And rename the file */ strcpy16(file_info->FileName, entry->next_name); err = handle->SetInfo(handle, &GenericFileInfo, file_info_size, file_info); if (err != EFI_SUCCESS) { log_error_stall(L"Failed to rename '%s' to '%s', ignoring: %r", old_path, entry->next_name, err); return err; } /* Flush everything to disk, just in case… */ err = handle->Flush(handle); if (err != EFI_SUCCESS) { log_error_stall(L"Error flushing boot entry file info: %r", err); return err; } /* Let's tell the OS that we renamed this file, so that it knows what to rename to the counter-less name on * success */ new_path = xpool_print(L"%s\\%s", entry->path, entry->next_name); efivar_set(LOADER_GUID, L"LoaderBootCountPath", new_path, 0); /* If the file we just renamed is the loader path, then let's update that. */ if (streq16(entry->loader, old_path)) { free(entry->loader); entry->loader = TAKE_PTR(new_path); } return EFI_SUCCESS; } static void config_entry_add_type1( Config *config, EFI_HANDLE *device, EFI_FILE *root_dir, const char16_t *path, const char16_t *file, char *content, const char16_t *loaded_image_path) { _cleanup_(config_entry_freep) ConfigEntry *entry = NULL; char *line; UINTN pos = 0, n_initrd = 0; char *key, *value; EFI_STATUS err; assert(config); assert(device); assert(root_dir); assert(path); assert(file); assert(content); entry = xnew(ConfigEntry, 1); *entry = (ConfigEntry) { .tries_done = -1, .tries_left = -1, }; while ((line = line_get_key_value(content, " \t", &pos, &key, &value))) { if (streq8(key, "title")) { free(entry->title); entry->title = xstr8_to_16(value); continue; } if (streq8(key, "sort-key")) { free(entry->sort_key); entry->sort_key = xstr8_to_16(value); continue; } if (streq8(key, "version")) { free(entry->version); entry->version = xstr8_to_16(value); continue; } if (streq8(key, "machine-id")) { free(entry->machine_id); entry->machine_id = xstr8_to_16(value); continue; } if (streq8(key, "linux")) { free(entry->loader); entry->type = LOADER_LINUX; entry->loader = xstr8_to_path(value); entry->key = 'l'; continue; } if (streq8(key, "efi")) { entry->type = LOADER_EFI; free(entry->loader); entry->loader = xstr8_to_path(value); /* do not add an entry for ourselves */ if (strcaseeq16(entry->loader, loaded_image_path)) { entry->type = LOADER_UNDEFINED; break; } continue; } if (streq8(key, "architecture")) { /* do not add an entry for an EFI image of architecture not matching with that of the image */ if (!streq8(value, EFI_MACHINE_TYPE_NAME)) { entry->type = LOADER_UNDEFINED; break; } continue; } if (streq8(key, "devicetree")) { free(entry->devicetree); entry->devicetree = xstr8_to_path(value); continue; } if (streq8(key, "initrd")) { entry->initrd = xrealloc( entry->initrd, n_initrd == 0 ? 0 : (n_initrd + 1) * sizeof(uint16_t *), (n_initrd + 2) * sizeof(uint16_t *)); entry->initrd[n_initrd++] = xstr8_to_path(value); entry->initrd[n_initrd] = NULL; continue; } if (streq8(key, "options")) { _cleanup_free_ char16_t *new = NULL; new = xstr8_to_16(value); if (entry->options) { char16_t *s = xpool_print(L"%s %s", entry->options, new); free(entry->options); entry->options = s; } else entry->options = TAKE_PTR(new); continue; } } if (entry->type == LOADER_UNDEFINED) return; /* check existence */ _cleanup_(file_closep) EFI_FILE *handle = NULL; err = root_dir->Open(root_dir, &handle, entry->loader, EFI_FILE_MODE_READ, 0ULL); if (err != EFI_SUCCESS) return; entry->device = device; entry->id = xstrdup16(file); strtolower16(entry->id); config_add_entry(config, entry); config_entry_parse_tries(entry, path, file, L".conf"); TAKE_PTR(entry); } static EFI_STATUS efivar_get_timeout(const char16_t *var, uint32_t *ret_value) { _cleanup_free_ char16_t *value = NULL; EFI_STATUS err; assert(var); assert(ret_value); err = efivar_get(LOADER_GUID, var, &value); if (err != EFI_SUCCESS) return err; if (streq16(value, u"menu-force")) { *ret_value = TIMEOUT_MENU_FORCE; return EFI_SUCCESS; } if (streq16(value, u"menu-hidden")) { *ret_value = TIMEOUT_MENU_HIDDEN; return EFI_SUCCESS; } uint64_t timeout; if (!parse_number16(value, &timeout, NULL)) return EFI_INVALID_PARAMETER; *ret_value = MIN(timeout, TIMEOUT_TYPE_MAX); return EFI_SUCCESS; } static void config_load_defaults(Config *config, EFI_FILE *root_dir) { _cleanup_free_ char *content = NULL; UINTN value = 0; /* avoid false maybe-uninitialized warning */ EFI_STATUS err; assert(root_dir); *config = (Config) { .editor = true, .auto_entries = true, .auto_firmware = true, .reboot_for_bitlocker = false, .secure_boot_enroll = ENROLL_MANUAL, .random_seed_mode = RANDOM_SEED_WITH_SYSTEM_TOKEN, .idx_default_efivar = IDX_INVALID, .console_mode = CONSOLE_MODE_KEEP, .console_mode_efivar = CONSOLE_MODE_KEEP, .timeout_sec_config = TIMEOUT_UNSET, .timeout_sec_efivar = TIMEOUT_UNSET, }; err = file_read(root_dir, L"\\loader\\loader.conf", 0, 0, &content, NULL); if (err == EFI_SUCCESS) config_defaults_load_from_file(config, content); err = efivar_get_timeout(u"LoaderConfigTimeout", &config->timeout_sec_efivar); if (err == EFI_SUCCESS) config->timeout_sec = config->timeout_sec_efivar; else if (err != EFI_NOT_FOUND) log_error_stall(u"Error reading LoaderConfigTimeout EFI variable: %r", err); err = efivar_get_timeout(u"LoaderConfigTimeoutOneShot", &config->timeout_sec); if (err == EFI_SUCCESS) { /* Unset variable now, after all it's "one shot". */ (void) efivar_set(LOADER_GUID, L"LoaderConfigTimeoutOneShot", NULL, EFI_VARIABLE_NON_VOLATILE); config->force_menu = true; /* force the menu when this is set */ } else if (err != EFI_NOT_FOUND) log_error_stall(u"Error reading LoaderConfigTimeoutOneShot EFI variable: %r", err); err = efivar_get_uint_string(LOADER_GUID, L"LoaderConfigConsoleMode", &value); if (err == EFI_SUCCESS) config->console_mode_efivar = value; err = efivar_get(LOADER_GUID, L"LoaderEntryOneShot", &config->entry_oneshot); if (err == EFI_SUCCESS) /* Unset variable now, after all it's "one shot". */ (void) efivar_set(LOADER_GUID, L"LoaderEntryOneShot", NULL, EFI_VARIABLE_NON_VOLATILE); (void) efivar_get(LOADER_GUID, L"LoaderEntryDefault", &config->entry_default_efivar); strtolower16(config->entry_default_config); strtolower16(config->entry_default_efivar); strtolower16(config->entry_oneshot); strtolower16(config->entry_saved); config->use_saved_entry = streq16(config->entry_default_config, L"@saved"); config->use_saved_entry_efivar = streq16(config->entry_default_efivar, L"@saved"); if (config->use_saved_entry || config->use_saved_entry_efivar) (void) efivar_get(LOADER_GUID, L"LoaderEntryLastBooted", &config->entry_saved); } static void config_load_entries( Config *config, EFI_HANDLE *device, EFI_FILE *root_dir, const char16_t *loaded_image_path) { _cleanup_(file_closep) EFI_FILE *entries_dir = NULL; _cleanup_free_ EFI_FILE_INFO *f = NULL; UINTN f_size = 0; EFI_STATUS err; assert(config); assert(device); assert(root_dir); /* Adds Boot Loader Type #1 entries (i.e. /loader/entries/….conf) */ err = open_directory(root_dir, L"\\loader\\entries", &entries_dir); if (err != EFI_SUCCESS) return; for (;;) { _cleanup_free_ char *content = NULL; err = readdir_harder(entries_dir, &f, &f_size); if (err != EFI_SUCCESS || !f) break; if (f->FileName[0] == '.') continue; if (FLAGS_SET(f->Attribute, EFI_FILE_DIRECTORY)) continue; if (!endswith_no_case(f->FileName, L".conf")) continue; if (startswith(f->FileName, L"auto-")) continue; err = file_read(entries_dir, f->FileName, 0, 0, &content, NULL); if (err == EFI_SUCCESS) config_entry_add_type1(config, device, root_dir, L"\\loader\\entries", f->FileName, content, loaded_image_path); } } static int config_entry_compare(const ConfigEntry *a, const ConfigEntry *b) { int r; assert(a); assert(b); /* Order entries that have no tries left to the end of the list */ r = CMP(a->tries_left == 0, b->tries_left == 0); if (r != 0) return r; /* If there's a sort key defined for *both* entries, then we do new-style ordering, i.e. by * sort-key/machine-id/version, with a final fallback to id. If there's no sort key for either, we do * old-style ordering, i.e. by id only. If one has sort key and the other does not, we put new-style * before old-style. */ r = CMP(!a->sort_key, !b->sort_key); if (r != 0) /* one is old-style, one new-style */ return r; if (a->sort_key && b->sort_key) { r = strcmp16(a->sort_key, b->sort_key); if (r != 0) return r; /* If multiple installations of the same OS are around, group by machine ID */ r = strcmp16(a->machine_id, b->machine_id); if (r != 0) return r; /* If the sort key was defined, then order by version now (downwards, putting the newest first) */ r = -strverscmp_improved(a->version, b->version); if (r != 0) return r; } /* Now order by ID. The version is likely part of the ID, thus note that this will generatelly put * the newer versions earlier. Specifying a sort key explicitly is preferable, because it gives an * explicit sort order. */ r = -strverscmp_improved(a->id, b->id); if (r != 0) return r; if (a->tries_left < 0 || b->tries_left < 0) return 0; /* If both items have boot counting, and otherwise are identical, put the entry with more tries left first */ r = -CMP(a->tries_left, b->tries_left); if (r != 0) return r; /* If they have the same number of tries left, then let the one win which was tried fewer times so far */ return CMP(a->tries_done, b->tries_done); } static UINTN config_entry_find(Config *config, const char16_t *pattern) { assert(config); /* We expect pattern and entry IDs to be already case folded. */ if (!pattern) return IDX_INVALID; for (UINTN i = 0; i < config->entry_count; i++) if (efi_fnmatch(pattern, config->entries[i]->id)) return i; return IDX_INVALID; } static void config_default_entry_select(Config *config) { UINTN i; assert(config); i = config_entry_find(config, config->entry_oneshot); if (i != IDX_INVALID) { config->idx_default = i; return; } i = config_entry_find(config, config->use_saved_entry_efivar ? config->entry_saved : config->entry_default_efivar); if (i != IDX_INVALID) { config->idx_default = i; config->idx_default_efivar = i; return; } if (config->use_saved_entry) /* No need to do the same thing twice. */ i = config->use_saved_entry_efivar ? IDX_INVALID : config_entry_find(config, config->entry_saved); else i = config_entry_find(config, config->entry_default_config); if (i != IDX_INVALID) { config->idx_default = i; return; } /* select the first suitable entry */ for (i = 0; i < config->entry_count; i++) { if (config->entries[i]->type == LOADER_AUTO || config->entries[i]->call) continue; config->idx_default = i; return; } /* If no configured entry to select from was found, enable the menu. */ config->idx_default = 0; if (config->timeout_sec == 0) config->timeout_sec = 10; } static bool entries_unique(ConfigEntry **entries, bool *unique, UINTN entry_count) { bool is_unique = true; assert(entries); assert(unique); for (UINTN i = 0; i < entry_count; i++) for (UINTN k = i + 1; k < entry_count; k++) { if (!streq16(entries[i]->title_show, entries[k]->title_show)) continue; is_unique = unique[i] = unique[k] = false; } return is_unique; } /* generate a unique title, avoiding non-distinguishable menu entries */ static void config_title_generate(Config *config) { assert(config); bool unique[config->entry_count]; /* set title */ for (UINTN i = 0; i < config->entry_count; i++) { assert(!config->entries[i]->title_show); unique[i] = true; config->entries[i]->title_show = xstrdup16(config->entries[i]->title ?: config->entries[i]->id); } if (entries_unique(config->entries, unique, config->entry_count)) return; /* add version to non-unique titles */ for (UINTN i = 0; i < config->entry_count; i++) { if (unique[i]) continue; unique[i] = true; if (!config->entries[i]->version) continue; _cleanup_free_ char16_t *t = config->entries[i]->title_show; config->entries[i]->title_show = xpool_print(L"%s (%s)", t, config->entries[i]->version); } if (entries_unique(config->entries, unique, config->entry_count)) return; /* add machine-id to non-unique titles */ for (UINTN i = 0; i < config->entry_count; i++) { if (unique[i]) continue; unique[i] = true; if (!config->entries[i]->machine_id) continue; _cleanup_free_ char16_t *t = config->entries[i]->title_show; config->entries[i]->title_show = xpool_print( L"%s (%.*s)", t, strnlen16(config->entries[i]->machine_id, 8), config->entries[i]->machine_id); } if (entries_unique(config->entries, unique, config->entry_count)) return; /* add file name to non-unique titles */ for (UINTN i = 0; i < config->entry_count; i++) { if (unique[i]) continue; _cleanup_free_ char16_t *t = config->entries[i]->title_show; config->entries[i]->title_show = xpool_print(L"%s (%s)", t, config->entries[i]->id); } } static bool is_sd_boot(EFI_FILE *root_dir, const char16_t *loader_path) { EFI_STATUS err; static const char * const sections[] = { ".sdmagic", NULL }; UINTN offset = 0, size = 0, read; _cleanup_free_ char *content = NULL; assert(root_dir); assert(loader_path); err = pe_file_locate_sections(root_dir, loader_path, sections, &offset, &size); if (err != EFI_SUCCESS || size != sizeof(magic)) return false; err = file_read(root_dir, loader_path, offset, size, &content, &read); if (err != EFI_SUCCESS || size != read) return false; return memcmp(content, magic, sizeof(magic)) == 0; } static ConfigEntry *config_entry_add_loader_auto( Config *config, EFI_HANDLE *device, EFI_FILE *root_dir, const char16_t *loaded_image_path, const char16_t *id, char16_t key, const char16_t *title, const char16_t *loader) { assert(config); assert(device); assert(root_dir); assert(id); assert(title); if (!config->auto_entries) return NULL; if (!loader) { loader = L"\\EFI\\BOOT\\BOOT" EFI_MACHINE_TYPE_NAME ".efi"; /* We are trying to add the default EFI loader here, * but we do not want to do that if that would be us. * * If the default loader is not us, it might be shim. It would * chainload GRUBX64.EFI in that case, which might be us.*/ if (strcaseeq16(loader, loaded_image_path) || is_sd_boot(root_dir, loader) || is_sd_boot(root_dir, L"\\EFI\\BOOT\\GRUB" EFI_MACHINE_TYPE_NAME L".EFI")) return NULL; } /* check existence */ _cleanup_(file_closep) EFI_FILE *handle = NULL; EFI_STATUS err = root_dir->Open(root_dir, &handle, (char16_t *) loader, EFI_FILE_MODE_READ, 0ULL); if (err != EFI_SUCCESS) return NULL; ConfigEntry *entry = xnew(ConfigEntry, 1); *entry = (ConfigEntry) { .id = xstrdup16(id), .type = LOADER_AUTO, .title = xstrdup16(title), .device = device, .loader = xstrdup16(loader), .key = key, .tries_done = -1, .tries_left = -1, }; config_add_entry(config, entry); return entry; } static void config_entry_add_osx(Config *config) { EFI_STATUS err; UINTN n_handles = 0; _cleanup_free_ EFI_HANDLE *handles = NULL; assert(config); if (!config->auto_entries) return; err = BS->LocateHandleBuffer(ByProtocol, &FileSystemProtocol, NULL, &n_handles, &handles); if (err != EFI_SUCCESS) return; for (UINTN i = 0; i < n_handles; i++) { _cleanup_(file_closep) EFI_FILE *root = NULL; if (open_volume(handles[i], &root) != EFI_SUCCESS) continue; if (config_entry_add_loader_auto( config, handles[i], root, NULL, L"auto-osx", 'a', L"macOS", L"\\System\\Library\\CoreServices\\boot.efi")) break; } } static EFI_STATUS boot_windows_bitlocker(void) { _cleanup_free_ EFI_HANDLE *handles = NULL; UINTN n_handles; EFI_STATUS err; // FIXME: Experimental for now. Should be generalized, and become a per-entry option that can be // enabled independently of BitLocker, and without a BootXXXX entry pre-existing. /* BitLocker key cannot be sealed without a TPM present. */ if (!tpm_present()) return EFI_NOT_FOUND; err = BS->LocateHandleBuffer(ByProtocol, &BlockIoProtocol, NULL, &n_handles, &handles); if (err != EFI_SUCCESS) return err; /* Look for BitLocker magic string on all block drives. */ bool found = false; for (UINTN i = 0; i < n_handles; i++) { EFI_BLOCK_IO_PROTOCOL *block_io; err = BS->HandleProtocol(handles[i], &BlockIoProtocol, (void **) &block_io); if (err != EFI_SUCCESS || block_io->Media->BlockSize < 512 || block_io->Media->BlockSize > 4096) continue; char buf[4096]; err = block_io->ReadBlocks(block_io, block_io->Media->MediaId, 0, sizeof(buf), buf); if (err != EFI_SUCCESS) continue; if (memcmp(buf + 3, "-FVE-FS-", STRLEN("-FVE-FS-")) == 0) { found = true; break; } } /* If no BitLocker drive was found, we can just chainload bootmgfw.efi directly. */ if (!found) return EFI_NOT_FOUND; _cleanup_free_ uint16_t *boot_order = NULL; UINTN boot_order_size; /* There can be gaps in Boot#### entries. Instead of iterating over the full * EFI var list or uint16_t namespace, just look for "Windows Boot Manager" in BootOrder. */ err = efivar_get_raw(EFI_GLOBAL_GUID, L"BootOrder", (char **) &boot_order, &boot_order_size); if (err != EFI_SUCCESS || boot_order_size % sizeof(uint16_t) != 0) return err; for (UINTN i = 0; i < boot_order_size / sizeof(uint16_t); i++) { _cleanup_free_ char *buf = NULL; char16_t name[sizeof(L"Boot0000")]; UINTN buf_size; SPrint(name, sizeof(name), L"Boot%04x", (uint32_t) boot_order[i]); err = efivar_get_raw(EFI_GLOBAL_GUID, name, &buf, &buf_size); if (err != EFI_SUCCESS) continue; /* Boot#### are EFI_LOAD_OPTION. But we really are only interested * for the description, which is at this offset. */ UINTN offset = sizeof(uint32_t) + sizeof(uint16_t); if (buf_size < offset + sizeof(char16_t)) continue; if (streq16((char16_t *) (buf + offset), L"Windows Boot Manager")) { err = efivar_set_raw( EFI_GLOBAL_GUID, L"BootNext", boot_order + i, sizeof(boot_order[i]), EFI_VARIABLE_NON_VOLATILE); if (err != EFI_SUCCESS) return err; RT->ResetSystem(EfiResetWarm, EFI_SUCCESS, 0, NULL); assert_not_reached(); } } return EFI_NOT_FOUND; } static void config_entry_add_windows(Config *config, EFI_HANDLE *device, EFI_FILE *root_dir) { #if defined(__i386__) || defined(__x86_64__) || defined(__arm__) || defined(__aarch64__) _cleanup_free_ char *bcd = NULL; char16_t *title = NULL; EFI_STATUS err; UINTN len; assert(config); assert(device); assert(root_dir); if (!config->auto_entries) return; /* Try to find a better title. */ err = file_read(root_dir, L"\\EFI\\Microsoft\\Boot\\BCD", 0, 100*1024, &bcd, &len); if (err == EFI_SUCCESS) title = get_bcd_title((uint8_t *) bcd, len); ConfigEntry *e = config_entry_add_loader_auto(config, device, root_dir, NULL, L"auto-windows", 'w', title ?: L"Windows Boot Manager", L"\\EFI\\Microsoft\\Boot\\bootmgfw.efi"); if (config->reboot_for_bitlocker) e->call = boot_windows_bitlocker; #endif } static void config_entry_add_unified( Config *config, EFI_HANDLE *device, EFI_FILE *root_dir) { _cleanup_(file_closep) EFI_FILE *linux_dir = NULL; _cleanup_free_ EFI_FILE_INFO *f = NULL; UINTN f_size = 0; EFI_STATUS err; /* Adds Boot Loader Type #2 entries (i.e. /EFI/Linux/….efi) */ assert(config); assert(device); assert(root_dir); err = open_directory(root_dir, L"\\EFI\\Linux", &linux_dir); if (err != EFI_SUCCESS) return; for (;;) { enum { SECTION_CMDLINE, SECTION_OSREL, _SECTION_MAX, }; static const char * const sections[_SECTION_MAX + 1] = { [SECTION_CMDLINE] = ".cmdline", [SECTION_OSREL] = ".osrel", NULL, }; _cleanup_free_ char16_t *os_pretty_name = NULL, *os_image_id = NULL, *os_name = NULL, *os_id = NULL, *os_image_version = NULL, *os_version = NULL, *os_version_id = NULL, *os_build_id = NULL; const char16_t *good_name, *good_version, *good_sort_key; _cleanup_free_ char *content = NULL; UINTN offs[_SECTION_MAX] = {}; UINTN szs[_SECTION_MAX] = {}; char *line; UINTN pos = 0; char *key, *value; err = readdir_harder(linux_dir, &f, &f_size); if (err != EFI_SUCCESS || !f) break; if (f->FileName[0] == '.') continue; if (FLAGS_SET(f->Attribute, EFI_FILE_DIRECTORY)) continue; if (!endswith_no_case(f->FileName, L".efi")) continue; if (startswith(f->FileName, L"auto-")) continue; /* look for .osrel and .cmdline sections in the .efi binary */ err = pe_file_locate_sections(linux_dir, f->FileName, sections, offs, szs); if (err != EFI_SUCCESS || szs[SECTION_OSREL] == 0) continue; err = file_read(linux_dir, f->FileName, offs[SECTION_OSREL], szs[SECTION_OSREL], &content, NULL); if (err != EFI_SUCCESS) continue; /* read properties from the embedded os-release file */ while ((line = line_get_key_value(content, "=", &pos, &key, &value))) { if (streq8(key, "PRETTY_NAME")) { free(os_pretty_name); os_pretty_name = xstr8_to_16(value); continue; } if (streq8(key, "IMAGE_ID")) { free(os_image_id); os_image_id = xstr8_to_16(value); continue; } if (streq8(key, "NAME")) { free(os_name); os_name = xstr8_to_16(value); continue; } if (streq8(key, "ID")) { free(os_id); os_id = xstr8_to_16(value); continue; } if (streq8(key, "IMAGE_VERSION")) { free(os_image_version); os_image_version = xstr8_to_16(value); continue; } if (streq8(key, "VERSION")) { free(os_version); os_version = xstr8_to_16(value); continue; } if (streq8(key, "VERSION_ID")) { free(os_version_id); os_version_id = xstr8_to_16(value); continue; } if (streq8(key, "BUILD_ID")) { free(os_build_id); os_build_id = xstr8_to_16(value); continue; } } if (!bootspec_pick_name_version_sort_key( os_pretty_name, os_image_id, os_name, os_id, os_image_version, os_version, os_version_id, os_build_id, &good_name, &good_version, &good_sort_key)) continue; ConfigEntry *entry = xnew(ConfigEntry, 1); *entry = (ConfigEntry) { .id = xstrdup16(f->FileName), .type = LOADER_UNIFIED_LINUX, .title = xstrdup16(good_name), .version = xstrdup16(good_version), .device = device, .loader = xpool_print(L"\\EFI\\Linux\\%s", f->FileName), .sort_key = xstrdup16(good_sort_key), .key = 'l', .tries_done = -1, .tries_left = -1, }; strtolower16(entry->id); config_add_entry(config, entry); config_entry_parse_tries(entry, L"\\EFI\\Linux", f->FileName, L".efi"); if (szs[SECTION_CMDLINE] == 0) continue; content = mfree(content); /* read the embedded cmdline file */ size_t cmdline_len; err = file_read(linux_dir, f->FileName, offs[SECTION_CMDLINE], szs[SECTION_CMDLINE], &content, &cmdline_len); if (err == EFI_SUCCESS) { entry->options = xstrn8_to_16(content, cmdline_len); mangle_stub_cmdline(entry->options); } } } static void config_load_xbootldr( Config *config, EFI_HANDLE *device) { _cleanup_(file_closep) EFI_FILE *root_dir = NULL; EFI_HANDLE new_device = NULL; /* avoid false maybe-uninitialized warning */ EFI_STATUS err; assert(config); assert(device); err = xbootldr_open(device, &new_device, &root_dir); if (err != EFI_SUCCESS) return; config_entry_add_unified(config, new_device, root_dir); config_load_entries(config, new_device, root_dir, NULL); } static EFI_STATUS initrd_prepare( EFI_FILE *root, const ConfigEntry *entry, char16_t **ret_options, void **ret_initrd, UINTN *ret_initrd_size) { assert(root); assert(entry); assert(ret_options); assert(ret_initrd); assert(ret_initrd_size); if (entry->type != LOADER_LINUX || !entry->initrd) { ret_options = NULL; ret_initrd = NULL; ret_initrd_size = 0; return EFI_SUCCESS; } /* Note that order of initrds matters. The kernel will only look for microcode updates in the very * first one it sees. */ /* Add initrd= to options for older kernels that do not support LINUX_INITRD_MEDIA. Should be dropped * if linux_x86.c is dropped. */ _cleanup_free_ char16_t *options = NULL; EFI_STATUS err; UINTN size = 0; _cleanup_free_ uint8_t *initrd = NULL; STRV_FOREACH(i, entry->initrd) { _cleanup_free_ char16_t *o = options; if (o) options = xpool_print(L"%s initrd=%s", o, *i); else options = xpool_print(L"initrd=%s", *i); _cleanup_(file_closep) EFI_FILE *handle = NULL; err = root->Open(root, &handle, *i, EFI_FILE_MODE_READ, 0); if (err != EFI_SUCCESS) return err; _cleanup_free_ EFI_FILE_INFO *info = NULL; err = get_file_info_harder(handle, &info, NULL); if (err != EFI_SUCCESS) return err; if (info->FileSize == 0) /* Automatically skip over empty files */ continue; UINTN new_size, read_size = info->FileSize; if (__builtin_add_overflow(size, read_size, &new_size)) return EFI_OUT_OF_RESOURCES; initrd = xrealloc(initrd, size, new_size); err = chunked_read(handle, &read_size, initrd + size); if (err != EFI_SUCCESS) return err; /* Make sure the actual read size is what we expected. */ assert(size + read_size == new_size); size = new_size; } if (entry->options) { _cleanup_free_ char16_t *o = options; options = xpool_print(L"%s %s", o, entry->options); } *ret_options = TAKE_PTR(options); *ret_initrd = TAKE_PTR(initrd); *ret_initrd_size = size; return EFI_SUCCESS; } static EFI_STATUS image_start( EFI_HANDLE parent_image, const ConfigEntry *entry) { _cleanup_(devicetree_cleanup) struct devicetree_state dtstate = {}; _cleanup_(unload_imagep) EFI_HANDLE image = NULL; _cleanup_free_ EFI_DEVICE_PATH *path = NULL; EFI_STATUS err; assert(entry); /* If this loader entry has a special way to boot, try that first. */ if (entry->call) (void) entry->call(); _cleanup_(file_closep) EFI_FILE *image_root = NULL; err = open_volume(entry->device, &image_root); if (err != EFI_SUCCESS) return log_error_status_stall(err, L"Error opening root path: %r", err); err = make_file_device_path(entry->device, entry->loader, &path); if (err != EFI_SUCCESS) return log_error_status_stall(err, L"Error making file device path: %r", err); UINTN initrd_size = 0; _cleanup_free_ void *initrd = NULL; _cleanup_free_ char16_t *options_initrd = NULL; err = initrd_prepare(image_root, entry, &options_initrd, &initrd, &initrd_size); if (err != EFI_SUCCESS) return log_error_status_stall(err, L"Error preparing initrd: %r", err); err = shim_load_image(parent_image, path, &image); if (err != EFI_SUCCESS) return log_error_status_stall(err, L"Error loading %s: %r", entry->loader, err); /* DTBs are loaded by the kernel before ExitBootServices, and they can be used to map and assign * arbitrary memory ranges, so skip it when secure boot is enabled as the DTB here is unverified. */ if (entry->devicetree && !secure_boot_enabled()) { err = devicetree_install(&dtstate, image_root, entry->devicetree); if (err != EFI_SUCCESS) return log_error_status_stall(err, L"Error loading %s: %r", entry->devicetree, err); } _cleanup_(cleanup_initrd) EFI_HANDLE initrd_handle = NULL; err = initrd_register(initrd, initrd_size, &initrd_handle); if (err != EFI_SUCCESS) return log_error_status_stall(err, L"Error registering initrd: %r", err); EFI_LOADED_IMAGE_PROTOCOL *loaded_image; err = BS->HandleProtocol(image, &LoadedImageProtocol, (void **) &loaded_image); if (err != EFI_SUCCESS) return log_error_status_stall(err, L"Error getting LoadedImageProtocol handle: %r", err); char16_t *options = options_initrd ?: entry->options; if (options) { loaded_image->LoadOptions = options; loaded_image->LoadOptionsSize = strsize16(options); /* Try to log any options to the TPM, especially to catch manually edited options */ (void) tpm_log_load_options(options, NULL); } efivar_set_time_usec(LOADER_GUID, L"LoaderTimeExecUSec", 0); err = BS->StartImage(image, NULL, NULL); graphics_mode(false); if (err == EFI_SUCCESS) return EFI_SUCCESS; /* Try calling the kernel compat entry point if one exists. */ if (err == EFI_UNSUPPORTED && entry->type == LOADER_LINUX) { uint32_t compat_address; err = pe_kernel_info(loaded_image->ImageBase, &compat_address); if (err != EFI_SUCCESS) { if (err != EFI_UNSUPPORTED) return log_error_status_stall(err, L"Error finding kernel compat entry address: %r", err); } else if (compat_address > 0) { EFI_IMAGE_ENTRY_POINT kernel_entry = (EFI_IMAGE_ENTRY_POINT) ((uint8_t *) loaded_image->ImageBase + compat_address); err = kernel_entry(image, ST); graphics_mode(false); if (err == EFI_SUCCESS) return EFI_SUCCESS; } else err = EFI_UNSUPPORTED; } return log_error_status_stall(err, L"Failed to execute %s (%s): %r", entry->title_show, entry->loader, err); } static void config_free(Config *config) { assert(config); for (UINTN i = 0; i < config->entry_count; i++) config_entry_free(config->entries[i]); free(config->entries); free(config->entry_default_config); free(config->entry_default_efivar); free(config->entry_oneshot); free(config->entry_saved); } static void config_write_entries_to_variable(Config *config) { _cleanup_free_ char *buffer = NULL; UINTN sz = 0; char *p; assert(config); for (UINTN i = 0; i < config->entry_count; i++) sz += strsize16(config->entries[i]->id); p = buffer = xmalloc(sz); for (UINTN i = 0; i < config->entry_count; i++) p = mempcpy(p, config->entries[i]->id, strsize16(config->entries[i]->id)); assert(p == buffer + sz); /* Store the full list of discovered entries. */ (void) efivar_set_raw(LOADER_GUID, L"LoaderEntries", buffer, sz, 0); } static void save_selected_entry(const Config *config, const ConfigEntry *entry) { assert(config); assert(entry); assert(entry->loader || !entry->call); /* Always export the selected boot entry to the system in a volatile var. */ (void) efivar_set(LOADER_GUID, L"LoaderEntrySelected", entry->id, 0); /* Do not save or delete if this was a oneshot boot. */ if (streq16(config->entry_oneshot, entry->id)) return; if (config->use_saved_entry_efivar || (!config->entry_default_efivar && config->use_saved_entry)) { /* Avoid unnecessary NVRAM writes. */ if (streq16(config->entry_saved, entry->id)) return; (void) efivar_set(LOADER_GUID, L"LoaderEntryLastBooted", entry->id, EFI_VARIABLE_NON_VOLATILE); } else /* Delete the non-volatile var if not needed. */ (void) efivar_set(LOADER_GUID, L"LoaderEntryLastBooted", NULL, EFI_VARIABLE_NON_VOLATILE); } static EFI_STATUS secure_boot_discover_keys(Config *config, EFI_FILE *root_dir) { EFI_STATUS err; _cleanup_(file_closep) EFI_FILE *keys_basedir = NULL; if (secure_boot_mode() != SECURE_BOOT_SETUP) return EFI_SUCCESS; /* the lack of a 'keys' directory is not fatal and is silently ignored */ err = open_directory(root_dir, u"\\loader\\keys", &keys_basedir); if (err == EFI_NOT_FOUND) return EFI_SUCCESS; if (err != EFI_SUCCESS) return err; for (;;) { _cleanup_free_ EFI_FILE_INFO *dirent = NULL; size_t dirent_size = 0; ConfigEntry *entry = NULL; err = readdir_harder(keys_basedir, &dirent, &dirent_size); if (err != EFI_SUCCESS || !dirent) return err; if (dirent->FileName[0] == '.') continue; if (!FLAGS_SET(dirent->Attribute, EFI_FILE_DIRECTORY)) continue; entry = xnew(ConfigEntry, 1); *entry = (ConfigEntry) { .id = xpool_print(L"secure-boot-keys-%s", dirent->FileName), .title = xpool_print(L"Enroll Secure Boot keys: %s", dirent->FileName), .path = xpool_print(L"\\loader\\keys\\%s", dirent->FileName), .type = LOADER_SECURE_BOOT_KEYS, .tries_done = -1, .tries_left = -1, }; config_add_entry(config, entry); if (config->secure_boot_enroll == ENROLL_FORCE && strcaseeq16(dirent->FileName, u"auto")) /* if we auto enroll successfully this call does not return, if it fails we still * want to add other potential entries to the menu */ secure_boot_enroll_at(root_dir, entry->path); } return EFI_SUCCESS; } static void export_variables( EFI_LOADED_IMAGE_PROTOCOL *loaded_image, const char16_t *loaded_image_path, uint64_t init_usec) { static const uint64_t loader_features = EFI_LOADER_FEATURE_CONFIG_TIMEOUT | EFI_LOADER_FEATURE_CONFIG_TIMEOUT_ONE_SHOT | EFI_LOADER_FEATURE_ENTRY_DEFAULT | EFI_LOADER_FEATURE_ENTRY_ONESHOT | EFI_LOADER_FEATURE_BOOT_COUNTING | EFI_LOADER_FEATURE_XBOOTLDR | EFI_LOADER_FEATURE_RANDOM_SEED | EFI_LOADER_FEATURE_LOAD_DRIVER | EFI_LOADER_FEATURE_SORT_KEY | EFI_LOADER_FEATURE_SAVED_ENTRY | EFI_LOADER_FEATURE_DEVICETREE | 0; _cleanup_free_ char16_t *infostr = NULL, *typestr = NULL; char16_t uuid[37]; assert(loaded_image); efivar_set_time_usec(LOADER_GUID, L"LoaderTimeInitUSec", init_usec); efivar_set(LOADER_GUID, L"LoaderInfo", L"systemd-boot " GIT_VERSION, 0); infostr = xpool_print(L"%s %u.%02u", ST->FirmwareVendor, ST->FirmwareRevision >> 16, ST->FirmwareRevision & 0xffff); efivar_set(LOADER_GUID, L"LoaderFirmwareInfo", infostr, 0); typestr = xpool_print(L"UEFI %u.%02u", ST->Hdr.Revision >> 16, ST->Hdr.Revision & 0xffff); efivar_set(LOADER_GUID, L"LoaderFirmwareType", typestr, 0); (void) efivar_set_uint64_le(LOADER_GUID, L"LoaderFeatures", loader_features, 0); /* the filesystem path to this image, to prevent adding ourselves to the menu */ efivar_set(LOADER_GUID, L"LoaderImageIdentifier", loaded_image_path, 0); /* export the device path this image is started from */ if (disk_get_part_uuid(loaded_image->DeviceHandle, uuid) == EFI_SUCCESS) efivar_set(LOADER_GUID, L"LoaderDevicePartUUID", uuid, 0); } static void config_load_all_entries( Config *config, EFI_LOADED_IMAGE_PROTOCOL *loaded_image, const char16_t *loaded_image_path, EFI_FILE *root_dir) { assert(config); assert(loaded_image); assert(root_dir); config_load_defaults(config, root_dir); /* scan /EFI/Linux/ directory */ config_entry_add_unified(config, loaded_image->DeviceHandle, root_dir); /* scan /loader/entries/\*.conf files */ config_load_entries(config, loaded_image->DeviceHandle, root_dir, loaded_image_path); /* Similar, but on any XBOOTLDR partition */ config_load_xbootldr(config, loaded_image->DeviceHandle); /* sort entries after version number */ sort_pointer_array((void **) config->entries, config->entry_count, (compare_pointer_func_t) config_entry_compare); /* if we find some well-known loaders, add them to the end of the list */ config_entry_add_osx(config); config_entry_add_windows(config, loaded_image->DeviceHandle, root_dir); config_entry_add_loader_auto(config, loaded_image->DeviceHandle, root_dir, NULL, L"auto-efi-shell", 's', L"EFI Shell", L"\\shell" EFI_MACHINE_TYPE_NAME ".efi"); config_entry_add_loader_auto(config, loaded_image->DeviceHandle, root_dir, loaded_image_path, L"auto-efi-default", '\0', L"EFI Default Loader", NULL); if (config->auto_firmware && FLAGS_SET(get_os_indications_supported(), EFI_OS_INDICATIONS_BOOT_TO_FW_UI)) { ConfigEntry *entry = xnew(ConfigEntry, 1); *entry = (ConfigEntry) { .id = xstrdup16(u"auto-reboot-to-firmware-setup"), .title = xstrdup16(u"Reboot Into Firmware Interface"), .call = reboot_into_firmware, .tries_done = -1, .tries_left = -1, }; config_add_entry(config, entry); } /* find if secure boot signing keys exist and autoload them if necessary otherwise creates menu entries so that the user can load them manually if the secure-boot-enroll variable is set to no (the default), we do not even search for keys on the ESP */ if (config->secure_boot_enroll != ENROLL_OFF) secure_boot_discover_keys(config, root_dir); if (config->entry_count == 0) return; config_write_entries_to_variable(config); config_title_generate(config); /* select entry by configured pattern or EFI LoaderDefaultEntry= variable */ config_default_entry_select(config); } EFI_STATUS efi_main(EFI_HANDLE image, EFI_SYSTEM_TABLE *sys_table) { EFI_LOADED_IMAGE_PROTOCOL *loaded_image; _cleanup_(file_closep) EFI_FILE *root_dir = NULL; _cleanup_(config_free) Config config = {}; _cleanup_free_ char16_t *loaded_image_path = NULL; EFI_STATUS err; uint64_t init_usec; bool menu = false; InitializeLib(image, sys_table); init_usec = time_usec(); debug_hook(L"systemd-boot"); /* Uncomment the next line if you need to wait for debugger. */ // debug_break(); err = BS->OpenProtocol(image, &LoadedImageProtocol, (void **)&loaded_image, image, NULL, EFI_OPEN_PROTOCOL_GET_PROTOCOL); if (err != EFI_SUCCESS) return log_error_status_stall(err, L"Error getting a LoadedImageProtocol handle: %r", err); (void) device_path_to_str(loaded_image->FilePath, &loaded_image_path); export_variables(loaded_image, loaded_image_path, init_usec); /* The firmware may skip initializing some devices for the sake of a faster boot. This is especially * true for fastboot enabled firmwares. But this means that things we use like input devices or the * xbootldr partition may not be available yet. Reconnect all drivers should hopefully make the * firmware initialize everything we need. */ if (is_direct_boot(loaded_image->DeviceHandle)) (void) reconnect_all_drivers(); err = open_volume(loaded_image->DeviceHandle, &root_dir); if (err != EFI_SUCCESS) return log_error_status_stall(err, L"Unable to open root directory: %r", err); (void) load_drivers(image, loaded_image, root_dir); config_load_all_entries(&config, loaded_image, loaded_image_path, root_dir); if (config.entry_count == 0) { log_error_stall(L"No loader found. Configuration files in \\loader\\entries\\*.conf are needed."); goto out; } /* select entry or show menu when key is pressed or timeout is set */ if (config.force_menu || config.timeout_sec > 0) menu = true; else { uint64_t key; /* Block up to 100ms to give firmware time to get input working. */ err = console_key_read(&key, 100 * 1000); if (err == EFI_SUCCESS) { /* find matching key in config entries */ UINTN idx = entry_lookup_key(&config, config.idx_default, KEYCHAR(key)); if (idx != IDX_INVALID) config.idx_default = idx; else menu = true; } } for (;;) { ConfigEntry *entry; entry = config.entries[config.idx_default]; if (menu) { efivar_set_time_usec(LOADER_GUID, L"LoaderTimeMenuUSec", 0); if (!menu_run(&config, &entry, loaded_image_path)) break; } /* if auto enrollment is activated, we try to load keys for the given entry. */ if (entry->type == LOADER_SECURE_BOOT_KEYS && config.secure_boot_enroll != ENROLL_OFF) { err = secure_boot_enroll_at(root_dir, entry->path); if (err != EFI_SUCCESS) return err; continue; } /* Run special entry like "reboot" now. Those that have a loader * will be handled by image_start() instead. */ if (entry->call && !entry->loader) { entry->call(); continue; } (void) config_entry_bump_counters(entry); save_selected_entry(&config, entry); /* Optionally, read a random seed off the ESP and pass it to the OS */ (void) process_random_seed(root_dir, config.random_seed_mode); err = image_start(image, entry); if (err != EFI_SUCCESS) goto out; menu = true; config.timeout_sec = 0; } err = EFI_SUCCESS; out: BS->CloseProtocol(image, &LoadedImageProtocol, image, NULL); return err; }