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from __future__ import annotations
import shlex
import time
from dataclasses import dataclass
from pathlib import Path
from typing import Optional, List
from . import disk
from .general import SysCommand, generate_password, SysCommandWorker
from .output import info, debug
from .exceptions import SysCallError, DiskError
from .storage import storage
@dataclass
class Luks2:
luks_dev_path: Path
mapper_name: Optional[str] = None
password: Optional[str] = None
key_file: Optional[Path] = None
auto_unmount: bool = False
# will be set internally after unlocking the device
_mapper_dev: Optional[Path] = None
@property
def mapper_dev(self) -> Optional[Path]:
if self.mapper_name:
return Path(f'/dev/mapper/{self.mapper_name}')
return None
def __post_init__(self):
if self.luks_dev_path is None:
raise ValueError('Partition must have a path set')
def __enter__(self):
self.unlock(self.key_file)
def __exit__(self, *args: str, **kwargs: str):
if self.auto_unmount:
self.lock()
def _default_key_file(self) -> Path:
return Path(f'/tmp/{self.luks_dev_path.name}.disk_pw')
def _password_bytes(self) -> bytes:
if not self.password:
raise ValueError('Password for luks2 device was not specified')
if isinstance(self.password, bytes):
return self.password
else:
return bytes(self.password, 'UTF-8')
def encrypt(
self,
key_size: int = 512,
hash_type: str = 'sha512',
iter_time: int = 10000,
key_file: Optional[Path] = None
) -> Path:
info(f'Luks2 encrypting: {self.luks_dev_path}')
byte_password = self._password_bytes()
if not key_file:
if self.key_file:
key_file = self.key_file
else:
key_file = self._default_key_file()
with open(key_file, 'wb') as fh:
fh.write(byte_password)
cryptsetup_args = shlex.join([
'/usr/bin/cryptsetup',
'--batch-mode',
'--verbose',
'--type', 'luks2',
'--pbkdf', 'argon2id',
'--hash', hash_type,
'--key-size', str(key_size),
'--iter-time', str(iter_time),
'--key-file', str(key_file),
'--use-urandom',
'luksFormat', str(self.luks_dev_path),
])
# Retry formatting the volume because archinstall can some times be too quick
# which generates a "Device /dev/sdX does not exist or access denied." between
# setting up partitions and us trying to encrypt it.
for retry_attempt in range(storage['DISK_RETRY_ATTEMPTS']):
try:
SysCommand(cryptsetup_args)
break
except SysCallError as err:
time.sleep(storage['DISK_TIMEOUTS'])
if retry_attempt != storage['DISK_RETRY_ATTEMPTS'] - 1:
continue
if err.exit_code == 1:
info(f'luks2 partition currently in use: {self.luks_dev_path}')
info('Attempting to unmount, crypt-close and trying encryption again')
self.lock()
# Then try again to set up the crypt-device
SysCommand(cryptsetup_args)
else:
raise DiskError(f'Could not encrypt volume "{self.luks_dev_path}": {err}')
return key_file
def _get_luks_uuid(self) -> str:
command = f'/usr/bin/cryptsetup luksUUID {self.luks_dev_path}'
try:
return SysCommand(command).decode()
except SysCallError as err:
info(f'Unable to get UUID for Luks device: {self.luks_dev_path}')
raise err
def is_unlocked(self) -> bool:
return self.mapper_name is not None and Path(f'/dev/mapper/{self.mapper_name}').exists()
def unlock(self, key_file: Optional[Path] = None):
"""
Unlocks the luks device, an optional key file location for unlocking can be specified,
otherwise a default location for the key file will be used.
:param key_file: An alternative key file
:type key_file: Path
"""
debug(f'Unlocking luks2 device: {self.luks_dev_path}')
if not self.mapper_name:
raise ValueError('mapper name missing')
byte_password = self._password_bytes()
if not key_file:
if self.key_file:
key_file = self.key_file
else:
key_file = self._default_key_file()
with open(key_file, 'wb') as fh:
fh.write(byte_password)
wait_timer = time.time()
while Path(self.luks_dev_path).exists() is False and time.time() - wait_timer < 10:
time.sleep(0.025)
SysCommand(f'/usr/bin/cryptsetup open {self.luks_dev_path} {self.mapper_name} --key-file {key_file} --type luks2')
if not self.mapper_dev or not self.mapper_dev.is_symlink():
raise DiskError(f'Failed to open luks2 device: {self.luks_dev_path}')
def lock(self):
disk.device_handler.umount(self.luks_dev_path)
# Get crypt-information about the device by doing a reverse lookup starting with the partition path
# For instance: /dev/sda
disk.device_handler.partprobe(self.luks_dev_path)
lsblk_info = disk.get_lsblk_info(self.luks_dev_path)
# For each child (sub-partition/sub-device)
for child in lsblk_info.children:
# Unmount the child location
for mountpoint in child.mountpoints:
debug(f'Unmounting {mountpoint}')
disk.device_handler.umount(mountpoint, recursive=True)
# And close it if possible.
debug(f"Closing crypt device {child.name}")
SysCommand(f"cryptsetup close {child.name}")
self._mapper_dev = None
def create_keyfile(self, target_path: Path, override: bool = False):
"""
Routine to create keyfiles, so it can be moved elsewhere
"""
if self.mapper_name is None:
raise ValueError('Mapper name must be provided')
# Once we store the key as ../xyzloop.key systemd-cryptsetup can
# automatically load this key if we name the device to "xyzloop"
kf_path = Path(f'/etc/cryptsetup-keys.d/{self.mapper_name}.key')
key_file = target_path / kf_path.relative_to(kf_path.root)
crypttab_path = target_path / 'etc/crypttab'
if key_file.exists():
if not override:
info(f'Key file {key_file} already exists, keeping existing')
return
else:
info(f'Key file {key_file} already exists, overriding')
key_file.parent.mkdir(parents=True, exist_ok=True)
with open(key_file, "w") as keyfile:
keyfile.write(generate_password(length=512))
key_file.chmod(0o400)
self._add_key(key_file)
self._crypttab(crypttab_path, kf_path, options=["luks", "key-slot=1"])
def _add_key(self, key_file: Path):
info(f'Adding additional key-file {key_file}')
command = f'/usr/bin/cryptsetup -q -v luksAddKey {self.luks_dev_path} {key_file}'
worker = SysCommandWorker(command, environment_vars={'LC_ALL': 'C'})
pw_injected = False
while worker.is_alive():
if b'Enter any existing passphrase' in worker and pw_injected is False:
worker.write(self._password_bytes())
pw_injected = True
if worker.exit_code != 0:
raise DiskError(f'Could not add encryption key {key_file} to {self.luks_dev_path}: {worker.decode()}')
def _crypttab(
self,
crypttab_path: Path,
key_file: Path,
options: List[str]
) -> None:
info(f'Adding crypttab entry for key {key_file}')
with open(crypttab_path, 'a') as crypttab:
opt = ','.join(options)
uuid = self._get_luks_uuid()
row = f"{self.mapper_name} UUID={uuid} {key_file} {opt}\n"
crypttab.write(row)
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