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/* SPDX-License-Identifier: LGPL-2.1-or-later */
#include <unistd.h>
#include "alloc-util.h"
#include "dirent-util.h"
#include "efi-api.h"
#include "efivars.h"
#include "fd-util.h"
#include "fileio.h"
#include "sort-util.h"
#include "stat-util.h"
#include "stdio-util.h"
#include "utf8.h"
#if ENABLE_EFI
#define LOAD_OPTION_ACTIVE 0x00000001
#define MEDIA_DEVICE_PATH 0x04
#define MEDIA_HARDDRIVE_DP 0x01
#define MEDIA_FILEPATH_DP 0x04
#define SIGNATURE_TYPE_GUID 0x02
#define MBR_TYPE_EFI_PARTITION_TABLE_HEADER 0x02
#define END_DEVICE_PATH_TYPE 0x7f
#define END_ENTIRE_DEVICE_PATH_SUBTYPE 0xff
#define EFI_OS_INDICATIONS_BOOT_TO_FW_UI UINT64_C(0x0000000000000001)
#define boot_option__contents \
{ \
uint32_t attr; \
uint16_t path_len; \
uint16_t title[]; \
}
struct boot_option boot_option__contents;
struct boot_option__packed boot_option__contents _packed_;
assert_cc(offsetof(struct boot_option, title) == offsetof(struct boot_option__packed, title));
/* sizeof(struct boot_option) != sizeof(struct boot_option__packed), so
* the *size* of the structure should not be used anywhere below. */
struct drive_path {
uint32_t part_nr;
uint64_t part_start;
uint64_t part_size;
char signature[16];
uint8_t mbr_type;
uint8_t signature_type;
} _packed_;
#define device_path__contents \
{ \
uint8_t type; \
uint8_t sub_type; \
uint16_t length; \
union { \
uint16_t path[0]; \
struct drive_path drive; \
}; \
}
struct device_path device_path__contents;
struct device_path__packed device_path__contents _packed_;
assert_cc(sizeof(struct device_path) == sizeof(struct device_path__packed));
int efi_reboot_to_firmware_supported(void) {
_cleanup_free_ void *v = NULL;
static int cache = -1;
uint64_t b;
size_t s;
int r;
if (cache > 0)
return 0;
if (cache == 0)
return -EOPNOTSUPP;
if (!is_efi_boot())
goto not_supported;
r = efi_get_variable(EFI_GLOBAL_VARIABLE(OsIndicationsSupported), NULL, &v, &s);
if (r == -ENOENT)
goto not_supported; /* variable doesn't exist? it's not supported then */
if (r < 0)
return r;
if (s != sizeof(uint64_t))
return -EINVAL;
b = *(uint64_t*) v;
if (!(b & EFI_OS_INDICATIONS_BOOT_TO_FW_UI))
goto not_supported; /* bit unset? it's not supported then */
cache = 1;
return 0;
not_supported:
cache = 0;
return -EOPNOTSUPP;
}
static int get_os_indications(uint64_t *ret) {
static struct stat cache_stat = {};
_cleanup_free_ void *v = NULL;
static uint64_t cache;
struct stat new_stat;
size_t s;
int r;
assert(ret);
/* Let's verify general support first */
r = efi_reboot_to_firmware_supported();
if (r < 0)
return r;
/* stat() the EFI variable, to see if the mtime changed. If it did we need to cache again. */
if (stat(EFIVAR_PATH(EFI_GLOBAL_VARIABLE(OsIndications)), &new_stat) < 0) {
if (errno != ENOENT)
return -errno;
/* Doesn't exist? Then we can exit early (also see below) */
*ret = 0;
return 0;
} else if (stat_inode_unmodified(&new_stat, &cache_stat)) {
/* inode didn't change, we can return the cached value */
*ret = cache;
return 0;
}
r = efi_get_variable(EFI_GLOBAL_VARIABLE(OsIndications), NULL, &v, &s);
if (r == -ENOENT) {
/* Some firmware implementations that do support OsIndications and report that with
* OsIndicationsSupported will remove the OsIndications variable when it is unset. Let's
* pretend it's 0 then, to hide this implementation detail. Note that this call will return
* -ENOENT then only if the support for OsIndications is missing entirely, as determined by
* efi_reboot_to_firmware_supported() above. */
*ret = 0;
return 0;
}
if (r < 0)
return r;
if (s != sizeof(uint64_t))
return -EINVAL;
cache_stat = new_stat;
*ret = cache = *(uint64_t *)v;
return 0;
}
int efi_get_reboot_to_firmware(void) {
int r;
uint64_t b;
r = get_os_indications(&b);
if (r < 0)
return r;
return !!(b & EFI_OS_INDICATIONS_BOOT_TO_FW_UI);
}
int efi_set_reboot_to_firmware(bool value) {
int r;
uint64_t b, b_new;
r = get_os_indications(&b);
if (r < 0)
return r;
b_new = UPDATE_FLAG(b, EFI_OS_INDICATIONS_BOOT_TO_FW_UI, value);
/* Avoid writing to efi vars store if we can due to firmware bugs. */
if (b != b_new)
return efi_set_variable(EFI_GLOBAL_VARIABLE(OsIndications), &b_new, sizeof(uint64_t));
return 0;
}
static ssize_t utf16_size(const uint16_t *s, size_t buf_len_bytes) {
size_t l = 0;
/* Returns the size of the string in bytes without the terminating two zero bytes */
while (l < buf_len_bytes / sizeof(uint16_t)) {
if (s[l] == 0)
return (l + 1) * sizeof(uint16_t);
l++;
}
return -EINVAL; /* The terminator was not found */
}
int efi_get_boot_option(
uint16_t id,
char **ret_title,
sd_id128_t *ret_part_uuid,
char **ret_path,
bool *ret_active) {
char variable[STRLEN(EFI_GLOBAL_VARIABLE_STR("Boot")) + 4 + 1];
_cleanup_free_ uint8_t *buf = NULL;
size_t l;
struct boot_option *header;
ssize_t title_size;
_cleanup_free_ char *s = NULL, *p = NULL;
sd_id128_t p_uuid = SD_ID128_NULL;
int r;
if (!is_efi_boot())
return -EOPNOTSUPP;
xsprintf(variable, EFI_GLOBAL_VARIABLE_STR("Boot%04X"), id);
r = efi_get_variable(variable, NULL, (void **)&buf, &l);
if (r < 0)
return r;
if (l < offsetof(struct boot_option, title))
return -ENOENT;
header = (struct boot_option *)buf;
title_size = utf16_size(header->title, l - offsetof(struct boot_option, title));
if (title_size < 0)
return title_size;
if (ret_title) {
s = utf16_to_utf8(header->title, title_size);
if (!s)
return -ENOMEM;
}
if (header->path_len > 0) {
uint8_t *dbuf;
size_t dnext, doff;
doff = offsetof(struct boot_option, title) + title_size;
dbuf = buf + doff;
if (header->path_len > l - doff)
return -EINVAL;
dnext = 0;
while (dnext < header->path_len) {
struct device_path *dpath;
dpath = (struct device_path *)(dbuf + dnext);
if (dpath->length < 4)
break;
/* Type 0x7F – End of Hardware Device Path, Sub-Type 0xFF – End Entire Device Path */
if (dpath->type == END_DEVICE_PATH_TYPE && dpath->sub_type == END_ENTIRE_DEVICE_PATH_SUBTYPE)
break;
dnext += dpath->length;
/* Type 0x04 – Media Device Path */
if (dpath->type != MEDIA_DEVICE_PATH)
continue;
/* Sub-Type 1 – Hard Drive */
if (dpath->sub_type == MEDIA_HARDDRIVE_DP) {
/* 0x02 – GUID Partition Table */
if (dpath->drive.mbr_type != MBR_TYPE_EFI_PARTITION_TABLE_HEADER)
continue;
/* 0x02 – GUID signature */
if (dpath->drive.signature_type != SIGNATURE_TYPE_GUID)
continue;
if (ret_part_uuid)
p_uuid = efi_guid_to_id128(dpath->drive.signature);
continue;
}
/* Sub-Type 4 – File Path */
if (dpath->sub_type == MEDIA_FILEPATH_DP && !p && ret_path) {
p = utf16_to_utf8(dpath->path, dpath->length-4);
if (!p)
return -ENOMEM;
efi_tilt_backslashes(p);
continue;
}
}
}
if (ret_title)
*ret_title = TAKE_PTR(s);
if (ret_part_uuid)
*ret_part_uuid = p_uuid;
if (ret_path)
*ret_path = TAKE_PTR(p);
if (ret_active)
*ret_active = header->attr & LOAD_OPTION_ACTIVE;
return 0;
}
static void to_utf16(uint16_t *dest, const char *src) {
int i;
for (i = 0; src[i] != '\0'; i++)
dest[i] = src[i];
dest[i] = '\0';
}
static uint16_t *tilt_slashes(uint16_t *s) {
for (uint16_t *p = s; *p; p++)
if (*p == '/')
*p = '\\';
return s;
}
int efi_add_boot_option(
uint16_t id,
const char *title,
uint32_t part,
uint64_t pstart,
uint64_t psize,
sd_id128_t part_uuid,
const char *path) {
size_t size, title_len, path_len;
_cleanup_free_ char *buf = NULL;
struct boot_option *option;
struct device_path *devicep;
char variable[STRLEN(EFI_GLOBAL_VARIABLE_STR("Boot")) + 4 + 1];
if (!is_efi_boot())
return -EOPNOTSUPP;
title_len = (strlen(title)+1) * 2;
path_len = (strlen(path)+1) * 2;
buf = malloc0(offsetof(struct boot_option, title) + title_len +
sizeof(struct drive_path) +
sizeof(struct device_path) + path_len);
if (!buf)
return -ENOMEM;
/* header */
option = (struct boot_option *)buf;
option->attr = LOAD_OPTION_ACTIVE;
option->path_len = offsetof(struct device_path, drive) + sizeof(struct drive_path) +
offsetof(struct device_path, path) + path_len +
offsetof(struct device_path, path);
to_utf16(option->title, title);
size = offsetof(struct boot_option, title) + title_len;
/* partition info */
devicep = (struct device_path *)(buf + size);
devicep->type = MEDIA_DEVICE_PATH;
devicep->sub_type = MEDIA_HARDDRIVE_DP;
devicep->length = offsetof(struct device_path, drive) + sizeof(struct drive_path);
memcpy(&devicep->drive.part_nr, &part, sizeof(uint32_t));
memcpy(&devicep->drive.part_start, &pstart, sizeof(uint64_t));
memcpy(&devicep->drive.part_size, &psize, sizeof(uint64_t));
efi_id128_to_guid(part_uuid, devicep->drive.signature);
devicep->drive.mbr_type = MBR_TYPE_EFI_PARTITION_TABLE_HEADER;
devicep->drive.signature_type = SIGNATURE_TYPE_GUID;
size += devicep->length;
/* path to loader */
devicep = (struct device_path *)(buf + size);
devicep->type = MEDIA_DEVICE_PATH;
devicep->sub_type = MEDIA_FILEPATH_DP;
devicep->length = offsetof(struct device_path, path) + path_len;
to_utf16(devicep->path, path);
tilt_slashes(devicep->path);
size += devicep->length;
/* end of path */
devicep = (struct device_path *)(buf + size);
devicep->type = END_DEVICE_PATH_TYPE;
devicep->sub_type = END_ENTIRE_DEVICE_PATH_SUBTYPE;
devicep->length = offsetof(struct device_path, path);
size += devicep->length;
xsprintf(variable, EFI_GLOBAL_VARIABLE_STR("Boot%04X"), id);
return efi_set_variable(variable, buf, size);
}
int efi_remove_boot_option(uint16_t id) {
char variable[STRLEN(EFI_GLOBAL_VARIABLE_STR("Boot")) + 4 + 1];
if (!is_efi_boot())
return -EOPNOTSUPP;
xsprintf(variable, EFI_GLOBAL_VARIABLE_STR("Boot%04X"), id);
return efi_set_variable(variable, NULL, 0);
}
int efi_get_boot_order(uint16_t **ret_order) {
_cleanup_free_ void *buf = NULL;
size_t l;
int r;
assert(ret_order);
if (!is_efi_boot())
return -EOPNOTSUPP;
r = efi_get_variable(EFI_GLOBAL_VARIABLE(BootOrder), NULL, &buf, &l);
if (r < 0)
return r;
if (l <= 0)
return -ENOENT;
if (l % sizeof(uint16_t) > 0 ||
l / sizeof(uint16_t) > INT_MAX)
return -EINVAL;
*ret_order = TAKE_PTR(buf);
return (int) (l / sizeof(uint16_t));
}
int efi_set_boot_order(const uint16_t *order, size_t n) {
if (!is_efi_boot())
return -EOPNOTSUPP;
return efi_set_variable(EFI_GLOBAL_VARIABLE(BootOrder), order, n * sizeof(uint16_t));
}
static int boot_id_hex(const char s[static 4]) {
int id = 0;
assert(s);
for (int i = 0; i < 4; i++)
if (s[i] >= '0' && s[i] <= '9')
id |= (s[i] - '0') << (3 - i) * 4;
else if (s[i] >= 'A' && s[i] <= 'F')
id |= (s[i] - 'A' + 10) << (3 - i) * 4;
else
return -EINVAL;
return id;
}
int efi_get_boot_options(uint16_t **ret_options) {
_cleanup_closedir_ DIR *dir = NULL;
_cleanup_free_ uint16_t *list = NULL;
int count = 0;
assert(ret_options);
if (!is_efi_boot())
return -EOPNOTSUPP;
dir = opendir(EFIVAR_PATH("."));
if (!dir)
return -errno;
FOREACH_DIRENT(de, dir, return -errno) {
int id;
if (!startswith(de->d_name, "Boot"))
continue;
if (strlen(de->d_name) != 45)
continue;
if (!streq(de->d_name + 8, EFI_GLOBAL_VARIABLE_STR(""))) /* generate variable suffix using macro */
continue;
id = boot_id_hex(de->d_name + 4);
if (id < 0)
continue;
if (!GREEDY_REALLOC(list, count + 1))
return -ENOMEM;
list[count++] = id;
}
typesafe_qsort(list, count, cmp_uint16);
*ret_options = TAKE_PTR(list);
return count;
}
bool efi_has_tpm2(void) {
static int cache = -1;
int r;
/* Returns whether the system has a TPM2 chip which is known to the EFI firmware. */
if (cache >= 0)
return cache;
/* First, check if we are on an EFI boot at all. */
if (!is_efi_boot())
return (cache = false);
/* Then, check if the ACPI table "TPM2" exists, which is the TPM2 event log table, see:
* https://trustedcomputinggroup.org/wp-content/uploads/TCG_ACPIGeneralSpecification_v1.20_r8.pdf
* This table exists whenever the firmware knows ACPI and is hooked up to TPM2. */
if (access("/sys/firmware/acpi/tables/TPM2", F_OK) >= 0)
return (cache = true);
if (errno != ENOENT)
log_debug_errno(errno, "Unable to test whether /sys/firmware/acpi/tables/TPM2 exists, assuming it doesn't: %m");
/* As the last try, check if the EFI firmware provides the EFI_TCG2_FINAL_EVENTS_TABLE
* stored in EFI configuration table, see:
*
* https://trustedcomputinggroup.org/wp-content/uploads/EFI-Protocol-Specification-rev13-160330final.pdf */
if (access("/sys/kernel/security/tpm0/binary_bios_measurements", F_OK) >= 0) {
_cleanup_free_ char *major = NULL;
/* The EFI table might exist for TPM 1.2 as well, hence let's check explicitly which TPM version we are looking at here. */
r = read_virtual_file("/sys/class/tpm/tpm0/tpm_version_major", SIZE_MAX, &major, /* ret_size= */ NULL);
if (r >= 0)
return (cache = streq(strstrip(major), "2"));
log_debug_errno(r, "Unable to read /sys/class/tpm/tpm0/tpm_version_major, assuming TPM does not qualify as TPM2: %m");
} else if (errno != ENOENT)
log_debug_errno(errno, "Unable to test whether /sys/kernel/security/tpm0/binary_bios_measurements exists, assuming it doesn't: %m");
return (cache = false);
}
#endif
struct efi_guid {
uint32_t u1;
uint16_t u2;
uint16_t u3;
uint8_t u4[8];
} _packed_;
sd_id128_t efi_guid_to_id128(const void *guid) {
const struct efi_guid *uuid = ASSERT_PTR(guid); /* cast is safe, because struct efi_guid is packed */
sd_id128_t id128;
id128.bytes[0] = (uuid->u1 >> 24) & 0xff;
id128.bytes[1] = (uuid->u1 >> 16) & 0xff;
id128.bytes[2] = (uuid->u1 >> 8) & 0xff;
id128.bytes[3] = uuid->u1 & 0xff;
id128.bytes[4] = (uuid->u2 >> 8) & 0xff;
id128.bytes[5] = uuid->u2 & 0xff;
id128.bytes[6] = (uuid->u3 >> 8) & 0xff;
id128.bytes[7] = uuid->u3 & 0xff;
memcpy(&id128.bytes[8], uuid->u4, sizeof(uuid->u4));
return id128;
}
void efi_id128_to_guid(sd_id128_t id, void *ret_guid) {
assert(ret_guid);
struct efi_guid uuid = {
.u1 = id.bytes[0] << 24 | id.bytes[1] << 16 | id.bytes[2] << 8 | id.bytes[3],
.u2 = id.bytes[4] << 8 | id.bytes[5],
.u3 = id.bytes[6] << 8 | id.bytes[7],
};
memcpy(uuid.u4, id.bytes+8, sizeof(uuid.u4));
memcpy(ret_guid, &uuid, sizeof(uuid));
}
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