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|
/*
* OPAL utilities
*
* Copyright (C) 2022-2023 Luca Boccassi <bluca@debian.org>
* 2023 Ondrej Kozina <okozina@redhat.com>
*
* This file 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.
*
* This file 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 this file; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
#include <errno.h>
#include <assert.h>
#include <sys/ioctl.h>
#include <sys/types.h>
#include <sys/stat.h>
#ifdef HAVE_SYS_SYSMACROS_H
# include <sys/sysmacros.h> /* for major, minor */
#endif
#include "internal.h"
#include "libcryptsetup.h"
#include "luks2/hw_opal/hw_opal.h"
#include "utils_device_locking.h"
#if HAVE_HW_OPAL
#include <linux/sed-opal.h>
/* Error codes are defined in the specification:
* TCG_Storage_Architecture_Core_Spec_v2.01_r1.00
* Section 5.1.5: Method Status Codes
* Names and values from table 166 */
typedef enum OpalStatus {
OPAL_STATUS_SUCCESS,
OPAL_STATUS_NOT_AUTHORIZED,
OPAL_STATUS_OBSOLETE0, /* Undefined but possible return values are called 'obsolete' */
OPAL_STATUS_SP_BUSY,
OPAL_STATUS_SP_FAILED,
OPAL_STATUS_SP_DISABLED,
OPAL_STATUS_SP_FROZEN,
OPAL_STATUS_NO_SESSIONS_AVAILABLE,
OPAL_STATUS_UNIQUENESS_CONFLICT,
OPAL_STATUS_INSUFFICIENT_SPACE,
OPAL_STATUS_INSUFFICIENT_ROWS,
OPAL_STATUS_INVALID_PARAMETER,
OPAL_STATUS_OBSOLETE1,
OPAL_STATUS_OBSOLETE2,
OPAL_STATUS_TPER_MALFUNCTION,
OPAL_STATUS_TRANSACTION_FAILURE,
OPAL_STATUS_RESPONSE_OVERFLOW,
OPAL_STATUS_AUTHORITY_LOCKED_OUT,
OPAL_STATUS_FAIL = 0x3F, /* As defined by specification */
_OPAL_STATUS_MAX,
_OPAL_STATUS_INVALID = -EINVAL,
} OpalStatus;
static const char* const opal_status_table[_OPAL_STATUS_MAX] = {
[OPAL_STATUS_SUCCESS] = "success",
[OPAL_STATUS_NOT_AUTHORIZED] = "not authorized",
[OPAL_STATUS_OBSOLETE0] = "obsolete",
[OPAL_STATUS_SP_BUSY] = "SP busy",
[OPAL_STATUS_SP_FAILED] = "SP failed",
[OPAL_STATUS_SP_DISABLED] = "SP disabled",
[OPAL_STATUS_SP_FROZEN] = "SP frozen",
[OPAL_STATUS_NO_SESSIONS_AVAILABLE] = "no sessions available",
[OPAL_STATUS_UNIQUENESS_CONFLICT] = "uniqueness conflict",
[OPAL_STATUS_INSUFFICIENT_SPACE] = "insufficient space",
[OPAL_STATUS_INSUFFICIENT_ROWS] = "insufficient rows",
[OPAL_STATUS_INVALID_PARAMETER] = "invalid parameter",
[OPAL_STATUS_OBSOLETE1] = "obsolete",
[OPAL_STATUS_OBSOLETE2] = "obsolete",
[OPAL_STATUS_TPER_MALFUNCTION] = "TPer malfunction",
[OPAL_STATUS_TRANSACTION_FAILURE] = "transaction failure",
[OPAL_STATUS_RESPONSE_OVERFLOW] = "response overflow",
[OPAL_STATUS_AUTHORITY_LOCKED_OUT] = "authority locked out",
[OPAL_STATUS_FAIL] = "unknown failure",
};
static const char *opal_status_to_string(int t)
{
if (t < 0)
return strerror(-t);
if (t >= _OPAL_STATUS_MAX)
return "unknown error";
return opal_status_table[t];
}
static const char *opal_ioctl_to_string(unsigned long rq)
{
switch(rq) {
case IOC_OPAL_GET_STATUS: return "GET_STATUS";
case IOC_OPAL_GET_GEOMETRY: return "GET_GEOMETRY";
case IOC_OPAL_GET_LR_STATUS: return "GET_LR_STATUS";
case IOC_OPAL_TAKE_OWNERSHIP: return "TAKE_OWNERSHIP";
case IOC_OPAL_ACTIVATE_USR: return "ACTIVATE_USR";
case IOC_OPAL_ACTIVATE_LSP: return "ACTIVATE_LSP";
case IOC_OPAL_ERASE_LR: return "ERASE_LR";
case IOC_OPAL_SECURE_ERASE_LR: return "SECURE_ERASE_LR";
case IOC_OPAL_ADD_USR_TO_LR: return "ADD_USR_TO_LR";
case IOC_OPAL_SET_PW: return "SET_PW";
case IOC_OPAL_LR_SETUP: return "LR_SETUP";
case IOC_OPAL_LOCK_UNLOCK: return "LOCK_UNLOCK";
case IOC_OPAL_SAVE: return "SAVE";
case IOC_OPAL_PSID_REVERT_TPR: return "PSID_REVERT_TPR";
}
assert(false && "unknown OPAL ioctl");
return NULL;
}
static void opal_ioctl_debug(struct crypt_device *cd,
unsigned long rq,
void *args,
bool post,
int ret)
{
const char *cmd = opal_ioctl_to_string(rq);
if (ret) {
log_dbg(cd, "OPAL %s failed: %s", cmd, opal_status_to_string(ret));
return;
}
if (post) switch(rq) {
case IOC_OPAL_GET_STATUS: { /* OUT */
struct opal_status *st = args;
log_dbg(cd, "OPAL %s: flags:%" PRIu32, cmd, st->flags);
};
break;
case IOC_OPAL_GET_GEOMETRY: { /* OUT */
struct opal_geometry *geo = args;
log_dbg(cd, "OPAL %s: align:%" PRIu8 ", lb_size:%" PRIu32 ", gran:%" PRIu64 ", lowest_lba:%" PRIu64,
cmd, geo->align, geo->logical_block_size, geo->alignment_granularity, geo->lowest_aligned_lba);
};
break;
case IOC_OPAL_GET_LR_STATUS: { /* OUT */
struct opal_lr_status *lrs = args;
log_dbg(cd, "OPAL %s: sum:%" PRIu32 ", who:%" PRIu32 ", lr:%" PRIu8
", start:%" PRIu64 ", length:%" PRIu64 ", rle:%" PRIu32 ", rwe:%" PRIu32 ", state:%" PRIu32,
cmd, lrs->session.sum, lrs->session.who, lrs->session.opal_key.lr,
lrs->range_start, lrs->range_length, lrs->RLE, lrs->WLE, lrs->l_state);
};
break;
} else switch (rq) {
case IOC_OPAL_TAKE_OWNERSHIP: { /* IN */
log_dbg(cd, "OPAL %s", cmd);
};
break;
case IOC_OPAL_ACTIVATE_USR: { /* IN */
struct opal_session_info *ui = args;
log_dbg(cd, "OPAL %s: sum:%" PRIu32 ", who:%" PRIu32 ", lr:%" PRIu8,
cmd, ui->sum, ui->who, ui->opal_key.lr);
};
break;
case IOC_OPAL_ACTIVATE_LSP: { /* IN */
struct opal_lr_act *act = args;
log_dbg(cd, "OPAL %s: k.lr:%" PRIu8 ", sum:%" PRIu32 ", num_lrs:%" PRIu8 ", lr:"
"%"PRIu8"|%"PRIu8"|%"PRIu8"|%"PRIu8"|%"PRIu8"|%"PRIu8"|%"PRIu8"|%"PRIu8"|%"PRIu8,
cmd, act->key.lr, act->sum, act->num_lrs,
act->lr[0], act->lr[1], act->lr[2], act->lr[3], act->lr[4],
act->lr[5], act->lr[6], act->lr[7], act->lr[8]);
};
break;
case IOC_OPAL_ERASE_LR: { /* IN */
struct opal_session_info *ui = args;
log_dbg(cd, "OPAL %s: sum:%" PRIu32 ", who:%" PRIu32 ", lr:%" PRIu8,
cmd, ui->sum, ui->who, ui->opal_key.lr);
};
break;
case IOC_OPAL_SECURE_ERASE_LR: { /* IN */
struct opal_session_info *ui = args;
log_dbg(cd, "OPAL %s: sum:%" PRIu32 ", who:%" PRIu32 ", lr:%" PRIu8,
cmd, ui->sum, ui->who, ui->opal_key.lr);
};
break;
case IOC_OPAL_ADD_USR_TO_LR: { /* IN */
struct opal_lock_unlock *lu = args;
log_dbg(cd, "OPAL %s: sum:%" PRIu32 ", who:%" PRIu32 ", lr:%" PRIu8
", l_state:%" PRIu32 ", flags:%" PRIu16,
cmd, lu->session.sum, lu->session.who, lu->session.opal_key.lr,
lu->l_state, lu->flags);
};
break;
case IOC_OPAL_SET_PW: { /* IN */
struct opal_new_pw *pw = args;
log_dbg(cd, "OPAL %s: sum:%" PRIu32 ", who:%" PRIu32 ", lr:%" PRIu8,
cmd, pw->session.sum, pw->session.who, pw->session.opal_key.lr);
};
break;
case IOC_OPAL_LR_SETUP: { /* IN */
struct opal_user_lr_setup *lrs = args;
log_dbg(cd, "OPAL %s: sum:%" PRIu32 ", who:%" PRIu32 ", lr:%" PRIu8
", start:%" PRIu64 ", length:%" PRIu64 ", rle:%" PRIu32 ", rwe:%" PRIu32,
cmd, lrs->session.sum, lrs->session.who, lrs->session.opal_key.lr,
lrs->range_start, lrs->range_length, lrs->RLE, lrs->WLE);
};
break;
case IOC_OPAL_LOCK_UNLOCK: { /* IN */
struct opal_lock_unlock *lu = args;
log_dbg(cd, "OPAL %s: sum:%" PRIu32 ", who:%" PRIu32 ", lr:%" PRIu8
", l_state:%" PRIu32 ", flags:%" PRIu16,
cmd, lu->session.sum, lu->session.who, lu->session.opal_key.lr,
lu->l_state, lu->flags);
};
break;
case IOC_OPAL_SAVE: { /* IN */
struct opal_lock_unlock *lu = args;
log_dbg(cd, "OPAL %s: sum:%" PRIu32 ", who:%" PRIu32 ", lr:%" PRIu8
", l_state:%" PRIu32 ", flags:%" PRIu16,
cmd, lu->session.sum, lu->session.who, lu->session.opal_key.lr,
lu->l_state, lu->flags);
};
break;
case IOC_OPAL_PSID_REVERT_TPR: { /* IN */
struct opal_key *key = args;
log_dbg(cd, "OPAL %s: lr:%" PRIu8,
cmd, key->lr);
};
break;
}
}
static int opal_ioctl(struct crypt_device *cd, int fd, unsigned long rq, void *args)
{
int r;
opal_ioctl_debug(cd, rq, args, false, 0);
r = ioctl(fd, rq, args);
opal_ioctl_debug(cd, rq, args, true, r);
return r;
}
static int opal_geometry_fd(struct crypt_device *cd,
int fd,
bool *ret_align,
uint32_t *ret_block_size,
uint64_t *ret_alignment_granularity_blocks,
uint64_t *ret_lowest_lba_blocks)
{
int r;
struct opal_geometry geo;
assert(fd >= 0);
r = opal_ioctl(cd, fd, IOC_OPAL_GET_GEOMETRY, &geo);
if (r != OPAL_STATUS_SUCCESS)
return r;
if (ret_align)
*ret_align = (geo.align == 1);
if (ret_block_size)
*ret_block_size = geo.logical_block_size;
if (ret_alignment_granularity_blocks)
*ret_alignment_granularity_blocks = geo.alignment_granularity;
if (ret_lowest_lba_blocks)
*ret_lowest_lba_blocks = geo.lowest_aligned_lba;
return r;
}
static int opal_range_check_attributes_fd(struct crypt_device *cd,
int fd,
uint32_t segment_number,
const struct volume_key *vk,
const uint64_t *check_offset_sectors,
const uint64_t *check_length_sectors,
bool *check_read_locked,
bool *check_write_locked,
bool *ret_read_locked,
bool *ret_write_locked)
{
int r;
struct opal_lr_status *lrs;
uint32_t opal_block_bytes = 0;
uint64_t offset, length;
bool read_locked, write_locked;
assert(fd >= 0);
assert(cd);
assert(vk);
if (check_offset_sectors || check_length_sectors) {
r = opal_geometry_fd(cd, fd, NULL, &opal_block_bytes, NULL, NULL);
if (r != OPAL_STATUS_SUCCESS)
return -EINVAL;
}
lrs = crypt_safe_alloc(sizeof(*lrs));
if (!lrs)
return -ENOMEM;
*lrs = (struct opal_lr_status) {
.session = {
.who = segment_number + 1,
.opal_key = {
.key_len = vk->keylength,
.lr = segment_number
}
}
};
memcpy(lrs->session.opal_key.key, vk->key, vk->keylength);
r = opal_ioctl(cd, fd, IOC_OPAL_GET_LR_STATUS, lrs);
if (r != OPAL_STATUS_SUCCESS) {
log_dbg(cd, "Failed to get locking range status on device '%s'.",
crypt_get_device_name(cd));
r = -EINVAL;
goto out;
}
r = 0;
if (check_offset_sectors) {
offset = lrs->range_start * opal_block_bytes / SECTOR_SIZE;
if (offset != *check_offset_sectors) {
log_err(cd, _("OPAL range %d offset %" PRIu64 " does not match expected values %" PRIu64 "."),
segment_number, offset, *check_offset_sectors);
r = -EINVAL;
}
}
if (check_length_sectors) {
length = lrs->range_length * opal_block_bytes / SECTOR_SIZE;
if (length != *check_length_sectors) {
log_err(cd, _("OPAL range %d length %" PRIu64" does not match device length %" PRIu64 "."),
segment_number, length, *check_length_sectors);
r = -EINVAL;
}
}
if (!lrs->RLE || !lrs->WLE) {
log_err(cd, _("OPAL range %d locking is disabled."), segment_number);
r = -EINVAL;
}
read_locked = (lrs->l_state == OPAL_LK);
write_locked = !!(lrs->l_state & (OPAL_RO | OPAL_LK));
if (check_read_locked && (read_locked != *check_read_locked)) {
log_dbg(cd, "OPAL range %d read lock is %slocked.",
segment_number, *check_read_locked ? "" : "not ");
log_err(cd, _("Unexpected OPAL range %d lock state."), segment_number);
r = -EINVAL;
}
if (check_write_locked && (write_locked != *check_write_locked)) {
log_dbg(cd, "OPAL range %d write lock is %slocked.",
segment_number, *check_write_locked ? "" : "not ");
log_err(cd, _("Unexpected OPAL range %d lock state."), segment_number);
r = -EINVAL;
}
if (ret_read_locked)
*ret_read_locked = read_locked;
if (ret_write_locked)
*ret_write_locked = write_locked;
out:
crypt_safe_free(lrs);
return r;
}
static int opal_query_status(struct crypt_device *cd, struct device *dev, unsigned expected)
{
struct opal_status st = { };
int fd, r;
assert(cd);
assert(dev);
fd = device_open(cd, dev, O_RDONLY);
if (fd < 0)
return -EIO;
r = opal_ioctl(cd, fd, IOC_OPAL_GET_STATUS, &st);
return r < 0 ? -EINVAL : (st.flags & expected) ? 1 : 0;
}
static int opal_enabled(struct crypt_device *cd, struct device *dev)
{
return opal_query_status(cd, dev, OPAL_FL_LOCKING_ENABLED);
}
/* requires opal lock */
int opal_setup_ranges(struct crypt_device *cd,
struct device *dev,
const struct volume_key *vk,
uint64_t range_start,
uint64_t range_length,
uint32_t segment_number,
const void *admin_key,
size_t admin_key_len)
{
struct opal_lr_act *activate = NULL;
struct opal_session_info *user_session = NULL;
struct opal_lock_unlock *user_add_to_lr = NULL, *lock = NULL;
struct opal_new_pw *new_pw = NULL;
struct opal_user_lr_setup *setup = NULL;
int r, fd;
assert(cd);
assert(dev);
assert(vk);
assert(admin_key);
assert(vk->keylength <= OPAL_KEY_MAX);
if (admin_key_len > OPAL_KEY_MAX)
return -EINVAL;
fd = device_open(cd, dev, O_RDONLY);
if (fd < 0)
return -EIO;
r = opal_enabled(cd, dev);
if (r < 0)
return r;
/* If OPAL has never been enabled, we need to take ownership and do basic setup first */
if (r == 0) {
activate = crypt_safe_alloc(sizeof(struct opal_lr_act));
if (!activate) {
r = -ENOMEM;
goto out;
}
*activate = (struct opal_lr_act) {
.key = {
.key_len = admin_key_len,
},
.num_lrs = 8,
/* A max of 9 segments are supported, enable them all as there's no reason not to
* (0 is whole-volume)
*/
.lr = { 1, 2, 3, 4, 5, 6, 7, 8 },
};
memcpy(activate->key.key, admin_key, admin_key_len);
r = opal_ioctl(cd, fd, IOC_OPAL_TAKE_OWNERSHIP, &activate->key);
if (r < 0) {
r = -ENOTSUP;
log_dbg(cd, "OPAL not supported on this kernel version, refusing.");
goto out;
}
if (r == OPAL_STATUS_NOT_AUTHORIZED) /* We'll try again with a different key. */ {
r = -EPERM;
log_dbg(cd, "Failed to take ownership of OPAL device '%s': permission denied",
crypt_get_device_name(cd));
goto out;
}
if (r != OPAL_STATUS_SUCCESS) {
log_dbg(cd, "Failed to take ownership of OPAL device '%s': %s",
crypt_get_device_name(cd), opal_status_to_string(r));
r = -EINVAL;
goto out;
}
r = opal_ioctl(cd, fd, IOC_OPAL_ACTIVATE_LSP, activate);
if (r != OPAL_STATUS_SUCCESS) {
log_dbg(cd, "Failed to activate OPAL device '%s': %s",
crypt_get_device_name(cd), opal_status_to_string(r));
r = -EINVAL;
goto out;
}
} else {
/* If it is already enabled, wipe the locking range first */
user_session = crypt_safe_alloc(sizeof(struct opal_session_info));
if (!user_session) {
r = -ENOMEM;
goto out;
}
*user_session = (struct opal_session_info) {
.who = OPAL_ADMIN1,
.opal_key = {
.lr = segment_number,
.key_len = admin_key_len,
},
};
memcpy(user_session->opal_key.key, admin_key, admin_key_len);
r = opal_ioctl(cd, fd, IOC_OPAL_ERASE_LR, user_session);
if (r != OPAL_STATUS_SUCCESS) {
log_dbg(cd, "Failed to reset (erase) OPAL locking range %u on device '%s': %s",
segment_number, crypt_get_device_name(cd), opal_status_to_string(r));
r = opal_ioctl(cd, fd, IOC_OPAL_SECURE_ERASE_LR, user_session);
if (r != OPAL_STATUS_SUCCESS) {
log_dbg(cd, "Failed to reset (secure erase) OPAL locking range %u on device '%s': %s",
segment_number, crypt_get_device_name(cd), opal_status_to_string(r));
r = -EINVAL;
goto out;
}
}
}
crypt_safe_free(user_session);
user_session = crypt_safe_alloc(sizeof(struct opal_session_info));
if (!user_session) {
r = -ENOMEM;
goto out;
}
*user_session = (struct opal_session_info) {
.who = segment_number + 1,
.opal_key = {
.key_len = admin_key_len,
},
};
memcpy(user_session->opal_key.key, admin_key, admin_key_len);
r = opal_ioctl(cd, fd, IOC_OPAL_ACTIVATE_USR, user_session);
if (r != OPAL_STATUS_SUCCESS) {
log_dbg(cd, "Failed to activate OPAL user on device '%s': %s",
crypt_get_device_name(cd), opal_status_to_string(r));
r = -EINVAL;
goto out;
}
user_add_to_lr = crypt_safe_alloc(sizeof(struct opal_lock_unlock));
if (!user_add_to_lr) {
r = -ENOMEM;
goto out;
}
*user_add_to_lr = (struct opal_lock_unlock) {
.session = {
.who = segment_number + 1,
.opal_key = {
.lr = segment_number,
.key_len = admin_key_len,
},
},
.l_state = OPAL_RO,
};
memcpy(user_add_to_lr->session.opal_key.key, admin_key, admin_key_len);
r = opal_ioctl(cd, fd, IOC_OPAL_ADD_USR_TO_LR, user_add_to_lr);
if (r != OPAL_STATUS_SUCCESS) {
log_dbg(cd, "Failed to add OPAL user to locking range %u (RO) on device '%s': %s",
segment_number, crypt_get_device_name(cd), opal_status_to_string(r));
r = -EINVAL;
goto out;
}
user_add_to_lr->l_state = OPAL_RW;
r = opal_ioctl(cd, fd, IOC_OPAL_ADD_USR_TO_LR, user_add_to_lr);
if (r != OPAL_STATUS_SUCCESS) {
log_dbg(cd, "Failed to add OPAL user to locking range %u (RW) on device '%s': %s",
segment_number, crypt_get_device_name(cd), opal_status_to_string(r));
r = -EINVAL;
goto out;
}
new_pw = crypt_safe_alloc(sizeof(struct opal_new_pw));
if (!new_pw) {
r = -ENOMEM;
goto out;
}
*new_pw = (struct opal_new_pw) {
.session = {
.who = OPAL_ADMIN1,
.opal_key = {
.lr = segment_number,
.key_len = admin_key_len,
},
},
.new_user_pw = {
.who = segment_number + 1,
.opal_key = {
.key_len = vk->keylength,
.lr = segment_number,
},
},
};
memcpy(new_pw->new_user_pw.opal_key.key, vk->key, vk->keylength);
memcpy(new_pw->session.opal_key.key, admin_key, admin_key_len);
r = opal_ioctl(cd, fd, IOC_OPAL_SET_PW, new_pw);
if (r != OPAL_STATUS_SUCCESS) {
log_dbg(cd, "Failed to set OPAL user password on device '%s': (%d) %s",
crypt_get_device_name(cd), r, opal_status_to_string(r));
r = -EINVAL;
goto out;
}
setup = crypt_safe_alloc(sizeof(struct opal_user_lr_setup));
if (!setup) {
r = -ENOMEM;
goto out;
}
*setup = (struct opal_user_lr_setup) {
.range_start = range_start,
.range_length = range_length,
/* Some drives do not enable Locking Ranges on setup. This have some
* interesting consequences: Lock command called later below will pass,
* but locking range will _not_ be locked at all.
*/
.RLE = 1,
.WLE = 1,
.session = {
.who = OPAL_ADMIN1,
.opal_key = {
.key_len = admin_key_len,
.lr = segment_number,
},
},
};
memcpy(setup->session.opal_key.key, admin_key, admin_key_len);
r = opal_ioctl(cd, fd, IOC_OPAL_LR_SETUP, setup);
if (r != OPAL_STATUS_SUCCESS) {
log_dbg(cd, "Failed to setup locking range of length %llu at offset %llu on OPAL device '%s': %s",
setup->range_length, setup->range_start, crypt_get_device_name(cd), opal_status_to_string(r));
r = -EINVAL;
goto out;
}
/* After setup an OPAL device is unlocked, but the expectation with cryptsetup is that it needs
* to be activated separately, so lock it immediately. */
lock = crypt_safe_alloc(sizeof(struct opal_lock_unlock));
if (!lock) {
r = -ENOMEM;
goto out;
}
*lock = (struct opal_lock_unlock) {
.l_state = OPAL_LK,
.session = {
.who = segment_number + 1,
.opal_key = {
.key_len = vk->keylength,
.lr = segment_number,
},
}
};
memcpy(lock->session.opal_key.key, vk->key, vk->keylength);
r = opal_ioctl(cd, fd, IOC_OPAL_LOCK_UNLOCK, lock);
if (r != OPAL_STATUS_SUCCESS) {
log_dbg(cd, "Failed to lock OPAL device '%s': %s",
crypt_get_device_name(cd), opal_status_to_string(r));
r = -EINVAL;
goto out;
}
/* Double check the locking range is locked and the ranges are set up as configured */
r = opal_range_check_attributes_fd(cd, fd, segment_number, vk, &range_start,
&range_length, &(bool) {true}, &(bool){true},
NULL, NULL);
out:
crypt_safe_free(activate);
crypt_safe_free(user_session);
crypt_safe_free(user_add_to_lr);
crypt_safe_free(new_pw);
crypt_safe_free(setup);
crypt_safe_free(lock);
return r;
}
static int opal_lock_unlock(struct crypt_device *cd,
struct device *dev,
uint32_t segment_number,
const struct volume_key *vk,
bool lock)
{
struct opal_lock_unlock unlock = {
.l_state = lock ? OPAL_LK : OPAL_RW,
.session = {
.who = segment_number + 1,
.opal_key = {
.lr = segment_number,
},
},
};
int r, fd;
if (opal_supported(cd, dev) <= 0)
return -ENOTSUP;
if (!lock && !vk)
return -EINVAL;
fd = device_open(cd, dev, O_RDONLY);
if (fd < 0)
return -EIO;
if (!lock) {
assert(vk->keylength <= OPAL_KEY_MAX);
unlock.session.opal_key.key_len = vk->keylength;
memcpy(unlock.session.opal_key.key, vk->key, vk->keylength);
}
r = opal_ioctl(cd, fd, IOC_OPAL_LOCK_UNLOCK, &unlock);
if (r < 0) {
r = -ENOTSUP;
log_dbg(cd, "OPAL not supported on this kernel version, refusing.");
goto out;
}
if (r == OPAL_STATUS_NOT_AUTHORIZED) /* We'll try again with a different key. */ {
r = -EPERM;
log_dbg(cd, "Failed to %slock OPAL device '%s': permission denied",
lock ? "" : "un", crypt_get_device_name(cd));
goto out;
}
if (r != OPAL_STATUS_SUCCESS) {
log_dbg(cd, "Failed to %slock OPAL device '%s': %s",
lock ? "" : "un", crypt_get_device_name(cd), opal_status_to_string(r));
r = -EINVAL;
goto out;
}
/* If we are unlocking, also tell the kernel to automatically unlock when resuming
* from suspend, otherwise the drive will be locked and everything will go up in flames.
* Also set the flag to allow locking without having to pass the key again.
* But do not error out if this fails, as the device will already be unlocked.
*
* On a lock path we have to overwrite the cached key from kernel otherwise the locking range
* gets unlocked automatically after system resume even when cryptsetup previously locked it
* on purpose (crypt_deactivate* or crypt_suspend)
*/
if (!lock)
unlock.flags = OPAL_SAVE_FOR_LOCK;
r = opal_ioctl(cd, fd, IOC_OPAL_SAVE, &unlock);
if (r != OPAL_STATUS_SUCCESS) {
if (!lock)
log_std(cd, "Failed to prepare OPAL device '%s' for sleep resume, be aware before suspending: %s",
crypt_get_device_name(cd), opal_status_to_string(r));
else
log_std(cd, "Failed to erase OPAL key for device '%s' from kernel: %s",
crypt_get_device_name(cd), opal_status_to_string(r));
r = 0;
}
out:
if (!lock)
crypt_safe_memzero(unlock.session.opal_key.key, unlock.session.opal_key.key_len);
return r;
}
/* requires opal lock */
int opal_lock(struct crypt_device *cd, struct device *dev, uint32_t segment_number)
{
return opal_lock_unlock(cd, dev, segment_number, NULL, /* lock= */ true);
}
/* requires opal lock */
int opal_unlock(struct crypt_device *cd,
struct device *dev,
uint32_t segment_number,
const struct volume_key *vk)
{
return opal_lock_unlock(cd, dev, segment_number, vk, /* lock= */ false);
}
/*
* It does not require opal lock. This completely destroys
* data on whole OPAL block device. Serialization does not
* make sense here.
*/
int opal_factory_reset(struct crypt_device *cd,
struct device *dev,
const char *password,
size_t password_len)
{
struct opal_key reset = {
.key_len = password_len,
};
int r, fd;
assert(cd);
assert(dev);
assert(password);
if (password_len > OPAL_KEY_MAX)
return -EINVAL;
fd = device_open(cd, dev, O_RDONLY);
if (fd < 0)
return -EIO;
memcpy(reset.key, password, password_len);
r = opal_ioctl(cd, fd, IOC_OPAL_PSID_REVERT_TPR, &reset);
if (r < 0) {
r = -ENOTSUP;
log_dbg(cd, "OPAL not supported on this kernel version, refusing.");
goto out;
}
if (r == OPAL_STATUS_NOT_AUTHORIZED) /* We'll try again with a different key. */ {
r = -EPERM;
log_dbg(cd, "Failed to reset OPAL device '%s', incorrect PSID?",
crypt_get_device_name(cd));
goto out;
}
if (r != OPAL_STATUS_SUCCESS) {
r = -EINVAL;
log_dbg(cd, "Failed to reset OPAL device '%s' with PSID: %s",
crypt_get_device_name(cd), opal_status_to_string(r));
goto out;
}
out:
crypt_safe_memzero(reset.key, reset.key_len);
return r;
}
/* requires opal lock */
int opal_reset_segment(struct crypt_device *cd,
struct device *dev,
uint32_t segment_number,
const char *password,
size_t password_len)
{
struct opal_session_info *user_session = NULL;
struct opal_user_lr_setup *setup = NULL;
int r, fd;
assert(cd);
assert(dev);
assert(password);
if (password_len > OPAL_KEY_MAX)
return -EINVAL;
if (opal_enabled(cd, dev) <= 0)
return -EINVAL;
user_session = crypt_safe_alloc(sizeof(struct opal_session_info));
if (!user_session)
return -ENOMEM;
*user_session = (struct opal_session_info) {
.who = OPAL_ADMIN1,
.opal_key = {
.lr = segment_number,
.key_len = password_len,
},
};
memcpy(user_session->opal_key.key, password, password_len);
fd = device_open(cd, dev, O_RDONLY);
if (fd < 0) {
r = -EIO;
goto out;
}
r = opal_ioctl(cd, fd, IOC_OPAL_ERASE_LR, user_session);
if (r != OPAL_STATUS_SUCCESS) {
log_dbg(cd, "Failed to reset (erase) OPAL locking range %u on device '%s': %s",
segment_number, crypt_get_device_name(cd), opal_status_to_string(r));
r = opal_ioctl(cd, fd, IOC_OPAL_SECURE_ERASE_LR, user_session);
if (r != OPAL_STATUS_SUCCESS) {
log_dbg(cd, "Failed to reset (secure erase) OPAL locking range %u on device '%s': %s",
segment_number, crypt_get_device_name(cd), opal_status_to_string(r));
r = -EINVAL;
goto out;
}
/* Unlike IOC_OPAL_ERASE_LR, IOC_OPAL_SECURE_ERASE_LR does not disable the locking range,
* we have to do that by hand.
*/
setup = crypt_safe_alloc(sizeof(struct opal_user_lr_setup));
if (!setup) {
r = -ENOMEM;
goto out;
}
*setup = (struct opal_user_lr_setup) {
.range_start = 0,
.range_length = 0,
.session = {
.who = OPAL_ADMIN1,
.opal_key = user_session->opal_key,
},
};
r = opal_ioctl(cd, fd, IOC_OPAL_LR_SETUP, setup);
if (r != OPAL_STATUS_SUCCESS) {
log_dbg(cd, "Failed to disable locking range on OPAL device '%s': %s",
crypt_get_device_name(cd), opal_status_to_string(r));
r = -EINVAL;
goto out;
}
}
out:
crypt_safe_free(user_session);
crypt_safe_free(setup);
return r;
}
/*
* Does not require opal lock (immutable).
*/
int opal_supported(struct crypt_device *cd, struct device *dev)
{
return opal_query_status(cd, dev, OPAL_FL_SUPPORTED|OPAL_FL_LOCKING_SUPPORTED);
}
/*
* Does not require opal lock (immutable).
*/
int opal_geometry(struct crypt_device *cd,
struct device *dev,
bool *ret_align,
uint32_t *ret_block_size,
uint64_t *ret_alignment_granularity_blocks,
uint64_t *ret_lowest_lba_blocks)
{
int fd;
assert(cd);
assert(dev);
fd = device_open(cd, dev, O_RDONLY);
if (fd < 0)
return -EIO;
return opal_geometry_fd(cd, fd, ret_align, ret_block_size,
ret_alignment_granularity_blocks, ret_lowest_lba_blocks);
}
/* requires opal lock */
int opal_range_check_attributes_and_get_lock_state(struct crypt_device *cd,
struct device *dev,
uint32_t segment_number,
const struct volume_key *vk,
const uint64_t *check_offset_sectors,
const uint64_t *check_length_sectors,
bool *ret_read_locked,
bool *ret_write_locked)
{
int fd;
assert(cd);
assert(dev);
assert(vk);
fd = device_open(cd, dev, O_RDONLY);
if (fd < 0)
return -EIO;
return opal_range_check_attributes_fd(cd, fd, segment_number, vk,
check_offset_sectors, check_length_sectors, NULL,
NULL, ret_read_locked, ret_write_locked);
}
static int opal_lock_internal(struct crypt_device *cd, struct device *opal_device, struct crypt_lock_handle **opal_lock)
{
char *lock_resource;
int devfd, r;
struct stat st;
if (!crypt_metadata_locking_enabled()) {
*opal_lock = NULL;
return 0;
}
/*
* This also asserts we do not hold any metadata lock on the same device to
* avoid deadlock (OPAL lock must be taken first)
*/
devfd = device_open(cd, opal_device, O_RDONLY);
if (devfd < 0)
return -EINVAL;
if (fstat(devfd, &st) || !S_ISBLK(st.st_mode))
return -EINVAL;
r = asprintf(&lock_resource, "OPAL_%d:%d", major(st.st_rdev), minor(st.st_rdev));
if (r < 0)
return -ENOMEM;
r = crypt_write_lock(cd, lock_resource, true, opal_lock);
free(lock_resource);
return r;
}
int opal_exclusive_lock(struct crypt_device *cd, struct device *opal_device, struct crypt_lock_handle **opal_lock)
{
if (!cd || !opal_device || (crypt_get_type(cd) && strcmp(crypt_get_type(cd), CRYPT_LUKS2)))
return -EINVAL;
return opal_lock_internal(cd, opal_device, opal_lock);
}
void opal_exclusive_unlock(struct crypt_device *cd, struct crypt_lock_handle *opal_lock)
{
crypt_unlock_internal(cd, opal_lock);
}
#else
#pragma GCC diagnostic ignored "-Wunused-parameter"
int opal_setup_ranges(struct crypt_device *cd,
struct device *dev,
const struct volume_key *vk,
uint64_t range_start,
uint64_t range_length,
uint32_t segment_number,
const void *admin_key,
size_t admin_key_len)
{
return -ENOTSUP;
}
int opal_lock(struct crypt_device *cd, struct device *dev, uint32_t segment_number)
{
return -ENOTSUP;
}
int opal_unlock(struct crypt_device *cd,
struct device *dev,
uint32_t segment_number,
const struct volume_key *vk)
{
return -ENOTSUP;
}
int opal_supported(struct crypt_device *cd, struct device *dev)
{
return -ENOTSUP;
}
int opal_factory_reset(struct crypt_device *cd,
struct device *dev,
const char *password,
size_t password_len)
{
return -ENOTSUP;
}
int opal_reset_segment(struct crypt_device *cd,
struct device *dev,
uint32_t segment_number,
const char *password,
size_t password_len)
{
return -ENOTSUP;
}
int opal_geometry(struct crypt_device *cd,
struct device *dev,
bool *ret_align,
uint32_t *ret_block_size,
uint64_t *ret_alignment_granularity_blocks,
uint64_t *ret_lowest_lba_blocks)
{
return -ENOTSUP;
}
int opal_range_check_attributes_and_get_lock_state(struct crypt_device *cd,
struct device *dev,
uint32_t segment_number,
const struct volume_key *vk,
const uint64_t *check_offset_sectors,
const uint64_t *check_length_sectors,
bool *ret_read_locked,
bool *ret_write_locked)
{
return -ENOTSUP;
}
int opal_exclusive_lock(struct crypt_device *cd, struct device *opal_device, struct crypt_lock_handle **opal_lock)
{
return -ENOTSUP;
}
void opal_exclusive_unlock(struct crypt_device *cd, struct crypt_lock_handle *opal_lock)
{
}
#endif
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