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Systemd/src/shared/efivars.c

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core: if the bootloader supports it, determine firmware and boot loader delay This allows us to print simple performance data of all parts of the boot now: - firmware - boot loader - kernel - initrd - userspace This only works for bootloaders which support passing TSC data via EFI variables. As of now that's only gummiboot.
2013-01-19 04:20:23 +01:00
/*-*- Mode: C; c-basic-offset: 8; indent-tabs-mode: nil -*-*/
/***
This file is part of systemd.
Copyright 2013 Lennart Poettering
systemd is free software; you can redistribute it and/or modify it
under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation; either version 2.1 of the License, or
(at your option) any later version.
systemd is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public License
along with systemd; If not, see <http://www.gnu.org/licenses/>.
***/
#include <unistd.h>
bootctl: add boot loader and firmware interface tool
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#include <string.h>
core: if the bootloader supports it, determine firmware and boot loader delay This allows us to print simple performance data of all parts of the boot now: - firmware - boot loader - kernel - initrd - userspace This only works for bootloaders which support passing TSC data via EFI variables. As of now that's only gummiboot.
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#include <fcntl.h>
efi: add missing #include
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#include <ctype.h>
core: if the bootloader supports it, determine firmware and boot loader delay This allows us to print simple performance data of all parts of the boot now: - firmware - boot loader - kernel - initrd - userspace This only works for bootloaders which support passing TSC data via EFI variables. As of now that's only gummiboot.
2013-01-19 04:20:23 +01:00
support acpi firmware performance data (FPDT) Prefer firmware-provided performance data over loader-exported ones; if ACPI data is available, always use it, otherwise try to read the loader data. The firmware-provided variables start at the time the first EFI image is executed and end when the operating system exits the boot services; the (loader) time calculated in systemd-analyze increases.
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#include "acpi-fpdt.h"
core: if the bootloader supports it, determine firmware and boot loader delay This allows us to print simple performance data of all parts of the boot now: - firmware - boot loader - kernel - initrd - userspace This only works for bootloaders which support passing TSC data via EFI variables. As of now that's only gummiboot.
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#include "util.h"
#include "utf8.h"
#include "efivars.h"
build-sys: make EFI support build-time optional
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#ifdef ENABLE_EFI
efi: various cleanups
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bool is_efi_boot(void) {
util: move is_efiboot() to efivars.c
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return access("/sys/firmware/efi", F_OK) >= 0;
}
bootctl: print secure boot flags
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static int read_flag(const char *varname) {
int r;
Modernization Fixes minor leak in error path in device.c.
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_cleanup_free_ void *v = NULL;
bootctl: print secure boot flags
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size_t s;
uint8_t b;
r = efi_get_variable(EFI_VENDOR_GLOBAL, varname, NULL, &v, &s);
if (r < 0)
return r;
Modernization Fixes minor leak in error path in device.c.
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if (s != 1)
return -EINVAL;
bootctl: print secure boot flags
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b = *(uint8_t *)v;
r = b > 0;
return r;
}
int is_efi_secure_boot(void) {
return read_flag("SecureBoot");
}
int is_efi_secure_boot_setup_mode(void) {
return read_flag("SetupMode");
}
efi: various cleanups
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int efi_get_variable(
sd_id128_t vendor,
const char *name,
uint32_t *attribute,
void **value,
size_t *size) {
core: if the bootloader supports it, determine firmware and boot loader delay This allows us to print simple performance data of all parts of the boot now: - firmware - boot loader - kernel - initrd - userspace This only works for bootloaders which support passing TSC data via EFI variables. As of now that's only gummiboot.
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_cleanup_close_ int fd = -1;
_cleanup_free_ char *p = NULL;
uint32_t a;
ssize_t n;
struct stat st;
void *r;
assert(name);
assert(value);
assert(size);
if (asprintf(&p,
"/sys/firmware/efi/efivars/%s-%02x%02x%02x%02x-%02x%02x-%02x%02x-%02x%02x-%02x%02x%02x%02x%02x%02x",
name, SD_ID128_FORMAT_VAL(vendor)) < 0)
return -ENOMEM;
fd = open(p, O_RDONLY|O_NOCTTY|O_CLOEXEC);
if (fd < 0)
return -errno;
if (fstat(fd, &st) < 0)
return -errno;
if (st.st_size < 4)
return -EIO;
if (st.st_size > 4*1024*1024 + 4)
return -E2BIG;
n = read(fd, &a, sizeof(a));
if (n < 0)
efi: various cleanups
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return -errno;
core: if the bootloader supports it, determine firmware and boot loader delay This allows us to print simple performance data of all parts of the boot now: - firmware - boot loader - kernel - initrd - userspace This only works for bootloaders which support passing TSC data via EFI variables. As of now that's only gummiboot.
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if (n != sizeof(a))
return -EIO;
r = malloc(st.st_size - 4 + 2);
if (!r)
return -ENOMEM;
n = read(fd, r, (size_t) st.st_size - 4);
if (n < 0) {
free(r);
efivars: fix return code Was returning 1 on read error.
2013-03-22 01:55:17 +01:00
return -errno;
core: if the bootloader supports it, determine firmware and boot loader delay This allows us to print simple performance data of all parts of the boot now: - firmware - boot loader - kernel - initrd - userspace This only works for bootloaders which support passing TSC data via EFI variables. As of now that's only gummiboot.
2013-01-19 04:20:23 +01:00
}
if (n != (ssize_t) st.st_size - 4) {
free(r);
return -EIO;
}
/* Always NUL terminate (2 bytes, to protect UTF-16) */
((char*) r)[st.st_size - 4] = 0;
((char*) r)[st.st_size - 4 + 1] = 0;
*value = r;
efi: fix returned length of efi_get_variable()
2013-02-11 06:20:55 +01:00
*size = (size_t) st.st_size - 4;
core: if the bootloader supports it, determine firmware and boot loader delay This allows us to print simple performance data of all parts of the boot now: - firmware - boot loader - kernel - initrd - userspace This only works for bootloaders which support passing TSC data via EFI variables. As of now that's only gummiboot.
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if (attribute)
*attribute = a;
return 0;
}
efi: various cleanups
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int efi_get_variable_string(sd_id128_t vendor, const char *name, char **p) {
bootctl: add boot loader and firmware interface tool
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_cleanup_free_ void *s = NULL;
make gcc shut up If -flto is used then gcc will generate a lot more warnings than before, among them a number of use-without-initialization warnings. Most of them without are false positives, but let's make them go away, because it doesn't really matter.
2014-02-19 17:47:11 +01:00
size_t ss = 0;
efi: various cleanups
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int r;
char *x;
bootctl: add boot loader and firmware interface tool
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efi: various cleanups
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r = efi_get_variable(vendor, name, NULL, &s, &ss);
if (r < 0)
return r;
x = utf16_to_utf8(s, ss);
if (!x)
return -ENOMEM;
*p = x;
return 0;
bootctl: add boot loader and firmware interface tool
2013-02-08 17:24:43 +01:00
}
static size_t utf16_size(const uint16_t *s) {
size_t l = 0;
while (s[l] > 0)
l++;
efi: various cleanups
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bootctl: add boot loader and firmware interface tool
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return (l+1) * sizeof(uint16_t);
}
static void efi_guid_to_id128(const void *guid, sd_id128_t *id128) {
struct uuid {
uint32_t u1;
uint16_t u2;
uint16_t u3;
uint8_t u4[8];
} _packed_;
const struct uuid *uuid = guid;
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));
}
efi: various cleanups
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int efi_get_boot_option(
uint16_t id,
char **title,
sd_id128_t *part_uuid,
char **path) {
bootctl: add boot loader and firmware interface tool
2013-02-08 17:24:43 +01:00
struct boot_option {
uint32_t attr;
uint16_t path_len;
uint16_t title[];
} _packed_;
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_;
struct device_path {
uint8_t type;
uint8_t sub_type;
uint16_t length;
union {
uint16_t path[0];
struct drive_path drive;
};
} _packed_;
efi: various cleanups
2013-02-13 00:07:55 +01:00
char boot_id[9];
_cleanup_free_ uint8_t *buf = NULL;
bootctl: add boot loader and firmware interface tool
2013-02-08 17:24:43 +01:00
size_t l;
struct boot_option *header;
size_t title_size;
char *s = NULL;
char *p = NULL;
sd_id128_t p_uuid = SD_ID128_NULL;
int err;
snprintf(boot_id, sizeof(boot_id), "Boot%04X", id);
err = efi_get_variable(EFI_VENDOR_GLOBAL, boot_id, NULL, (void **)&buf, &l);
if (err < 0)
return err;
if (l < sizeof(struct boot_option))
return -ENOENT;
header = (struct boot_option *)buf;
title_size = utf16_size(header->title);
if (title_size > l - offsetof(struct boot_option, title))
return -EINVAL;
efivars: un-leak a few strings
2013-04-03 22:32:01 +02:00
if (title) {
s = utf16_to_utf8(header->title, title_size);
if (!s) {
err = -ENOMEM;
goto err;
}
bootctl: add boot loader and firmware interface tool
2013-02-08 17:24:43 +01:00
}
if (header->path_len > 0) {
efi: various cleanups
2013-02-13 00:07:55 +01:00
uint8_t *dbuf;
bootctl: add boot loader and firmware interface tool
2013-02-08 17:24:43 +01:00
size_t dnext;
dbuf = buf + offsetof(struct boot_option, title) + title_size;
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 == 0x7f && dpath->sub_type == 0xff)
break;
dnext += dpath->length;
/* Type 0x04 Media Device Path */
if (dpath->type != 0x04)
continue;
/* Sub-Type 1 Hard Drive */
if (dpath->sub_type == 0x01) {
/* 0x02 GUID Partition Table */
if (dpath->drive.mbr_type != 0x02)
continue;
/* 0x02 GUID signature */
if (dpath->drive.signature_type != 0x02)
continue;
efivars: un-leak a few strings
2013-04-03 22:32:01 +02:00
if (part_uuid)
efi_guid_to_id128(dpath->drive.signature, &p_uuid);
bootctl: add boot loader and firmware interface tool
2013-02-08 17:24:43 +01:00
continue;
}
/* Sub-Type 4 File Path */
efivars: un-leak a few strings
2013-04-03 22:32:01 +02:00
if (dpath->sub_type == 0x04 && !p && path) {
bootctl: add boot loader and firmware interface tool
2013-02-08 17:24:43 +01:00
p = utf16_to_utf8(dpath->path, dpath->length-4);
continue;
}
}
}
efi: various cleanups
2013-02-13 00:07:55 +01:00
if (title)
*title = s;
bootctl: add boot loader and firmware interface tool
2013-02-08 17:24:43 +01:00
if (part_uuid)
*part_uuid = p_uuid;
if (path)
*path = p;
efi: various cleanups
2013-02-13 00:07:55 +01:00
bootctl: add boot loader and firmware interface tool
2013-02-08 17:24:43 +01:00
return 0;
err:
free(s);
free(p);
return err;
}
efi: various cleanups
2013-02-13 00:07:55 +01:00
int efi_get_boot_order(uint16_t **order) {
bootctl: add boot loader and firmware interface tool
2013-02-08 17:24:43 +01:00
void *buf;
size_t l;
efi: various cleanups
2013-02-13 00:07:55 +01:00
int r;
bootctl: add boot loader and firmware interface tool
2013-02-08 17:24:43 +01:00
efi: various cleanups
2013-02-13 00:07:55 +01:00
r = efi_get_variable(EFI_VENDOR_GLOBAL, "BootOrder", NULL, &buf, &l);
if (r < 0)
return r;
bootctl: add boot loader and firmware interface tool
2013-02-08 17:24:43 +01:00
efi: various cleanups
2013-02-13 00:07:55 +01:00
if (l <= 0) {
bootctl: add boot loader and firmware interface tool
2013-02-08 17:24:43 +01:00
free(buf);
return -ENOENT;
}
efi: various cleanups
2013-02-13 00:07:55 +01:00
if ((l % sizeof(uint16_t) > 0) ||
(l / sizeof(uint16_t) > INT_MAX)) {
bootctl: add boot loader and firmware interface tool
2013-02-08 17:24:43 +01:00
free(buf);
return -EINVAL;
}
*order = buf;
efi: various cleanups
2013-02-13 00:07:55 +01:00
return (int) (l / sizeof(uint16_t));
}
efi: unify BootXXXX reading
2013-02-13 17:34:57 +01:00
static int boot_id_hex(const char s[4]) {
int i;
int id = 0;
for (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 -1;
return id;
}
efi: efi_get_boot_options() should already sort the entries, the random order in the efivars fs is probably not useful This also introduces a new FOREACH_DIRENT macro and makes use of it.
2013-02-13 22:02:40 +01:00
static int cmp_uint16(const void *_a, const void *_b) {
const uint16_t *a = _a, *b = _b;
efi: compare by substraction
2013-02-17 19:54:29 +01:00
return (int)*a - (int)*b;
efi: efi_get_boot_options() should already sort the entries, the random order in the efivars fs is probably not useful This also introduces a new FOREACH_DIRENT macro and makes use of it.
2013-02-13 22:02:40 +01:00
}
efi: various cleanups
2013-02-13 00:07:55 +01:00
int efi_get_boot_options(uint16_t **options) {
_cleanup_closedir_ DIR *dir = NULL;
struct dirent *de;
uint16_t *list = NULL;
efi: efi_get_boot_options() should already sort the entries, the random order in the efivars fs is probably not useful This also introduces a new FOREACH_DIRENT macro and makes use of it.
2013-02-13 22:02:40 +01:00
int count = 0, r;
efi: various cleanups
2013-02-13 00:07:55 +01:00
assert(options);
dir = opendir("/sys/firmware/efi/efivars/");
if (!dir)
return -errno;
efi: efi_get_boot_options() should already sort the entries, the random order in the efivars fs is probably not useful This also introduces a new FOREACH_DIRENT macro and makes use of it.
2013-02-13 22:02:40 +01:00
FOREACH_DIRENT(de, dir, r = -errno; goto fail) {
efi: unify BootXXXX reading
2013-02-13 17:34:57 +01:00
int id;
efi: various cleanups
2013-02-13 00:07:55 +01:00
uint16_t *t;
if (strncmp(de->d_name, "Boot", 4) != 0)
continue;
efi: unify BootXXXX reading
2013-02-13 17:34:57 +01:00
if (strlen(de->d_name) != 45)
efi: various cleanups
2013-02-13 00:07:55 +01:00
continue;
if (strcmp(de->d_name + 8, "-8be4df61-93ca-11d2-aa0d-00e098032b8c") != 0)
continue;
efi: unify BootXXXX reading
2013-02-13 17:34:57 +01:00
id = boot_id_hex(de->d_name + 4);
if (id < 0)
efi: various cleanups
2013-02-13 00:07:55 +01:00
continue;
t = realloc(list, (count + 1) * sizeof(uint16_t));
if (!t) {
efi: efi_get_boot_options() should already sort the entries, the random order in the efivars fs is probably not useful This also introduces a new FOREACH_DIRENT macro and makes use of it.
2013-02-13 22:02:40 +01:00
r = -ENOMEM;
goto fail;
efi: various cleanups
2013-02-13 00:07:55 +01:00
}
list = t;
efi: unify BootXXXX reading
2013-02-13 17:34:57 +01:00
list[count ++] = id;
efi: various cleanups
2013-02-13 00:07:55 +01:00
}
Never call qsort on potentially NULL arrays This extends 62678ded 'efi: never call qsort on potentially NULL arrays' to all other places where qsort is used and it is not obvious that the count is non-zero.
2013-10-12 01:33:13 +02:00
qsort_safe(list, count, sizeof(uint16_t), cmp_uint16);
efi: efi_get_boot_options() should already sort the entries, the random order in the efivars fs is probably not useful This also introduces a new FOREACH_DIRENT macro and makes use of it.
2013-02-13 22:02:40 +01:00
efi: various cleanups
2013-02-13 00:07:55 +01:00
*options = list;
return count;
efi: efi_get_boot_options() should already sort the entries, the random order in the efivars fs is probably not useful This also introduces a new FOREACH_DIRENT macro and makes use of it.
2013-02-13 22:02:40 +01:00
fail:
free(list);
return r;
bootctl: add boot loader and firmware interface tool
2013-02-08 17:24:43 +01:00
}
efi: read microseconds from boot loader info instead of "ticks" magic
2013-01-23 02:16:11 +01:00
static int read_usec(sd_id128_t vendor, const char *name, usec_t *u) {
core: if the bootloader supports it, determine firmware and boot loader delay This allows us to print simple performance data of all parts of the boot now: - firmware - boot loader - kernel - initrd - userspace This only works for bootloaders which support passing TSC data via EFI variables. As of now that's only gummiboot.
2013-01-19 04:20:23 +01:00
_cleanup_free_ char *j = NULL;
int r;
make gcc shut up If -flto is used then gcc will generate a lot more warnings than before, among them a number of use-without-initialization warnings. Most of them without are false positives, but let's make them go away, because it doesn't really matter.
2014-02-19 17:47:11 +01:00
uint64_t x = 0;
core: if the bootloader supports it, determine firmware and boot loader delay This allows us to print simple performance data of all parts of the boot now: - firmware - boot loader - kernel - initrd - userspace This only works for bootloaders which support passing TSC data via EFI variables. As of now that's only gummiboot.
2013-01-19 04:20:23 +01:00
assert(name);
assert(u);
efi: use efi_get_variable_string() instead of efi_get_variable() where we can
2013-02-13 21:24:10 +01:00
r = efi_get_variable_string(EFI_VENDOR_LOADER, name, &j);
core: if the bootloader supports it, determine firmware and boot loader delay This allows us to print simple performance data of all parts of the boot now: - firmware - boot loader - kernel - initrd - userspace This only works for bootloaders which support passing TSC data via EFI variables. As of now that's only gummiboot.
2013-01-19 04:20:23 +01:00
if (r < 0)
return r;
r = safe_atou64(j, &x);
if (r < 0)
return r;
efi: read microseconds from boot loader info instead of "ticks" magic
2013-01-23 02:16:11 +01:00
*u = x;
core: if the bootloader supports it, determine firmware and boot loader delay This allows us to print simple performance data of all parts of the boot now: - firmware - boot loader - kernel - initrd - userspace This only works for bootloaders which support passing TSC data via EFI variables. As of now that's only gummiboot.
2013-01-19 04:20:23 +01:00
return 0;
}
support acpi firmware performance data (FPDT) Prefer firmware-provided performance data over loader-exported ones; if ACPI data is available, always use it, otherwise try to read the loader data. The firmware-provided variables start at the time the first EFI image is executed and end when the operating system exits the boot services; the (loader) time calculated in systemd-analyze increases.
2013-09-24 00:23:35 +02:00
int efi_loader_get_boot_usec(usec_t *firmware, usec_t *loader) {
core: if the bootloader supports it, determine firmware and boot loader delay This allows us to print simple performance data of all parts of the boot now: - firmware - boot loader - kernel - initrd - userspace This only works for bootloaders which support passing TSC data via EFI variables. As of now that's only gummiboot.
2013-01-19 04:20:23 +01:00
uint64_t x, y;
int r;
assert(firmware);
assert(loader);
efi: fix Usec vs. USec
2013-01-24 10:32:21 +01:00
r = read_usec(EFI_VENDOR_LOADER, "LoaderTimeInitUSec", &x);
core: if the bootloader supports it, determine firmware and boot loader delay This allows us to print simple performance data of all parts of the boot now: - firmware - boot loader - kernel - initrd - userspace This only works for bootloaders which support passing TSC data via EFI variables. As of now that's only gummiboot.
2013-01-19 04:20:23 +01:00
if (r < 0)
return r;
efi: fix Usec vs. USec
2013-01-24 10:32:21 +01:00
r = read_usec(EFI_VENDOR_LOADER, "LoaderTimeExecUSec", &y);
core: if the bootloader supports it, determine firmware and boot loader delay This allows us to print simple performance data of all parts of the boot now: - firmware - boot loader - kernel - initrd - userspace This only works for bootloaders which support passing TSC data via EFI variables. As of now that's only gummiboot.
2013-01-19 04:20:23 +01:00
if (r < 0)
return r;
if (y == 0 || y < x)
return -EIO;
if (y > USEC_PER_HOUR)
return -EIO;
*firmware = x;
*loader = y;
return 0;
}
support acpi firmware performance data (FPDT) Prefer firmware-provided performance data over loader-exported ones; if ACPI data is available, always use it, otherwise try to read the loader data. The firmware-provided variables start at the time the first EFI image is executed and end when the operating system exits the boot services; the (loader) time calculated in systemd-analyze increases.
2013-09-24 00:23:35 +02:00
int efi_loader_get_device_part_uuid(sd_id128_t *u) {
efi: add efi boot generator that automatically mounts the ESP to /boot
2013-01-21 01:02:53 +01:00
_cleanup_free_ char *p = NULL;
int r, parsed[16];
efi: use efi_get_variable_string() instead of efi_get_variable() where we can
2013-02-13 21:24:10 +01:00
r = efi_get_variable_string(EFI_VENDOR_LOADER, "LoaderDevicePartUUID", &p);
efi: add efi boot generator that automatically mounts the ESP to /boot
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if (r < 0)
return r;
if (sscanf(p, "%02x%02x%02x%02x-%02x%02x-%02x%02x-%02x%02x-%02x%02x%02x%02x%02x%02x",
&parsed[0], &parsed[1], &parsed[2], &parsed[3],
&parsed[4], &parsed[5], &parsed[6], &parsed[7],
&parsed[8], &parsed[9], &parsed[10], &parsed[11],
&parsed[12], &parsed[13], &parsed[14], &parsed[15]) != 16)
return -EIO;
gpt-auto-generator: automatically find the root disk of the system When run in an initrd and no root= argument is set (or is set to root=gpt-auto) we will automatically look for the root partition on the same disk the EFI ESP is located on. Since we look for swap, /home and /srv on the disk the root partition is located on, we hence have a fully discoverable chain: Firmware discovers the EFI ESP partition → the initrd discovers the root partition → the host OS discovers swap, /home, and /srv. Note that this requires an EFI boot loader that sets the LoaderDevicePartUUID EFI variable, such as Gummiboot.
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if (u) {
unsigned i;
for (i = 0; i < ELEMENTSOF(parsed); i++)
u->bytes[i] = parsed[i];
}
efi: add efi boot generator that automatically mounts the ESP to /boot
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return 0;
}
build-sys: make EFI support build-time optional
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#endif
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