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from __future__ import annotations
from pathlib import Path
from typing import Any, Dict, TYPE_CHECKING, List, Optional, Tuple
from .device_model import PartitionModification, FilesystemType, BDevice, Size, Unit, PartitionType, PartitionFlag, \
ModificationStatus
from ..menu import Menu, ListManager, MenuSelection, TextInput
from ..output import FormattedOutput, warn
from .subvolume_menu import SubvolumeMenu
if TYPE_CHECKING:
_: Any
class PartitioningList(ListManager):
"""
subclass of ListManager for the managing of user accounts
"""
def __init__(self, prompt: str, device: BDevice, device_partitions: List[PartitionModification]):
self._device = device
self._actions = {
'create_new_partition': str(_('Create a new partition')),
'suggest_partition_layout': str(_('Suggest partition layout')),
'remove_added_partitions': str(_('Remove all newly added partitions')),
'assign_mountpoint': str(_('Assign mountpoint')),
'mark_formatting': str(_('Mark/Unmark to be formatted (wipes data)')),
'mark_bootable': str(_('Mark/Unmark as bootable')),
'set_filesystem': str(_('Change filesystem')),
'btrfs_mark_compressed': str(_('Mark/Unmark as compressed')), # btrfs only
'btrfs_set_subvolumes': str(_('Set subvolumes')), # btrfs only
'delete_partition': str(_('Delete partition'))
}
display_actions = list(self._actions.values())
super().__init__(prompt, device_partitions, display_actions[:2], display_actions[3:])
def reformat(self, data: List[PartitionModification]) -> Dict[str, Optional[PartitionModification]]:
table = FormattedOutput.as_table(data)
rows = table.split('\n')
# these are the header rows of the table and do not map to any User obviously
# we're adding 2 spaces as prefix because the menu selector '> ' will be put before
# the selectable rows so the header has to be aligned
display_data: Dict[str, Optional[PartitionModification]] = {f' {rows[0]}': None, f' {rows[1]}': None}
for row, user in zip(rows[2:], data):
row = row.replace('|', '\\|')
display_data[row] = user
return display_data
def selected_action_display(self, partition: PartitionModification) -> str:
return str(_('Partition'))
def filter_options(self, selection: PartitionModification, options: List[str]) -> List[str]:
not_filter = []
# only display formatting if the partition exists already
if not selection.exists():
not_filter += [self._actions['mark_formatting']]
else:
# only allow these options if the existing partition
# was marked as formatting, otherwise we run into issues where
# 1. select a new fs -> potentially mark as wipe now
# 2. Switch back to old filesystem -> should unmark wipe now, but
# how do we know it was the original one?
not_filter += [
self._actions['set_filesystem'],
self._actions['assign_mountpoint'],
self._actions['mark_bootable'],
self._actions['btrfs_mark_compressed'],
self._actions['btrfs_set_subvolumes']
]
# non btrfs partitions shouldn't get btrfs options
if selection.fs_type != FilesystemType.Btrfs:
not_filter += [self._actions['btrfs_mark_compressed'], self._actions['btrfs_set_subvolumes']]
else:
not_filter += [self._actions['assign_mountpoint']]
return [o for o in options if o not in not_filter]
def handle_action(
self,
action: str,
entry: Optional[PartitionModification],
data: List[PartitionModification]
) -> List[PartitionModification]:
action_key = [k for k, v in self._actions.items() if v == action][0]
match action_key:
case 'create_new_partition':
new_partition = self._create_new_partition()
data += [new_partition]
case 'suggest_partition_layout':
new_partitions = self._suggest_partition_layout(data)
if len(new_partitions) > 0:
data = new_partitions
case 'remove_added_partitions':
choice = self._reset_confirmation()
if choice.value == Menu.yes():
data = [part for part in data if part.is_exists_or_modify()]
case 'assign_mountpoint' if entry:
entry.mountpoint = self._prompt_mountpoint()
if entry.mountpoint == Path('/boot'):
entry.set_flag(PartitionFlag.Boot)
case 'mark_formatting' if entry:
self._prompt_formatting(entry)
case 'mark_bootable' if entry:
entry.invert_flag(PartitionFlag.Boot)
case 'set_filesystem' if entry:
fs_type = self._prompt_partition_fs_type()
if fs_type:
entry.fs_type = fs_type
# btrfs subvolumes will define mountpoints
if fs_type == FilesystemType.Btrfs:
entry.mountpoint = None
case 'btrfs_mark_compressed' if entry:
self._set_compressed(entry)
case 'btrfs_set_subvolumes' if entry:
self._set_btrfs_subvolumes(entry)
case 'delete_partition' if entry:
data = self._delete_partition(entry, data)
return data
def _delete_partition(
self,
entry: PartitionModification,
data: List[PartitionModification]
) -> List[PartitionModification]:
if entry.is_exists_or_modify():
entry.status = ModificationStatus.Delete
return data
else:
return [d for d in data if d != entry]
def _set_compressed(self, partition: PartitionModification):
compression = 'compress=zstd'
if compression in partition.mount_options:
partition.mount_options = [o for o in partition.mount_options if o != compression]
else:
partition.mount_options.append(compression)
def _set_btrfs_subvolumes(self, partition: PartitionModification):
partition.btrfs_subvols = SubvolumeMenu(
_("Manage btrfs subvolumes for current partition"),
partition.btrfs_subvols
).run()
def _prompt_formatting(self, partition: PartitionModification):
# an existing partition can toggle between Exist or Modify
if partition.is_modify():
partition.status = ModificationStatus.Exist
return
elif partition.exists():
partition.status = ModificationStatus.Modify
# If we mark a partition for formatting, but the format is CRYPTO LUKS, there's no point in formatting it really
# without asking the user which inner-filesystem they want to use. Since the flag 'encrypted' = True is already set,
# it's safe to change the filesystem for this partition.
if partition.fs_type == FilesystemType.Crypto_luks:
prompt = str(_('This partition is currently encrypted, to format it a filesystem has to be specified'))
fs_type = self._prompt_partition_fs_type(prompt)
partition.fs_type = fs_type
if fs_type == FilesystemType.Btrfs:
partition.mountpoint = None
def _prompt_mountpoint(self) -> Path:
header = str(_('Partition mount-points are relative to inside the installation, the boot would be /boot as an example.')) + '\n'
header += str(_('If mountpoint /boot is set, then the partition will also be marked as bootable.')) + '\n'
prompt = str(_('Mountpoint: '))
print(header)
while True:
value = TextInput(prompt).run().strip()
if value:
mountpoint = Path(value)
break
return mountpoint
def _prompt_partition_fs_type(self, prompt: str = '') -> FilesystemType:
options = {fs.value: fs for fs in FilesystemType if fs != FilesystemType.Crypto_luks}
prompt = prompt + '\n' + str(_('Enter a desired filesystem type for the partition'))
choice = Menu(prompt, options, sort=False, skip=False).run()
return options[choice.single_value]
def _validate_sector(self, start_sector: str, end_sector: Optional[str] = None) -> bool:
if not start_sector.isdigit():
return False
if end_sector:
if end_sector.endswith('%'):
if not end_sector[:-1].isdigit():
return False
elif not end_sector.isdigit():
return False
elif int(start_sector) > int(end_sector):
return False
return True
def _prompt_sectors(self) -> Tuple[Size, Size]:
device_info = self._device.device_info
text = str(_('Current free sectors on device {}:')).format(device_info.path) + '\n\n'
free_space_table = FormattedOutput.as_table(device_info.free_space_regions)
prompt = text + free_space_table + '\n'
total_sectors = device_info.total_size.format_size(Unit.sectors, device_info.sector_size)
prompt += str(_('Total sectors: {}')).format(total_sectors) + '\n'
print(prompt)
largest_free_area = max(device_info.free_space_regions, key=lambda r: r.get_length())
# prompt until a valid start sector was entered
while True:
start_prompt = str(_('Enter the start sector (default: {}): ')).format(largest_free_area.start)
start_sector = TextInput(start_prompt).run().strip()
if not start_sector or self._validate_sector(start_sector):
break
warn(f'Invalid start sector entered: {start_sector}')
if not start_sector:
start_sector = str(largest_free_area.start)
end_sector = str(largest_free_area.end)
else:
end_sector = '100%'
# prompt until valid end sector was entered
while True:
end_prompt = str(_('Enter the end sector of the partition (percentage or block number, default: {}): ')).format(end_sector)
end_value = TextInput(end_prompt).run().strip()
if not end_value or self._validate_sector(start_sector, end_value):
break
warn(f'Invalid end sector entered: {start_sector}')
# override the default value with the user value
if end_value:
end_sector = end_value
start_size = Size(int(start_sector), Unit.sectors, device_info.sector_size)
if end_sector.endswith('%'):
end_size = Size(int(end_sector[:-1]), Unit.Percent, device_info.sector_size, device_info.total_size)
else:
end_size = Size(int(end_sector), Unit.sectors, device_info.sector_size)
return start_size, end_size
def _create_new_partition(self) -> PartitionModification:
fs_type = self._prompt_partition_fs_type()
start_size, end_size = self._prompt_sectors()
length = end_size - start_size
# new line for the next prompt
print()
mountpoint = None
if fs_type != FilesystemType.Btrfs:
mountpoint = self._prompt_mountpoint()
partition = PartitionModification(
status=ModificationStatus.Create,
type=PartitionType.Primary,
start=start_size,
length=length,
fs_type=fs_type,
mountpoint=mountpoint
)
if partition.mountpoint == Path('/boot'):
partition.set_flag(PartitionFlag.Boot)
return partition
def _reset_confirmation(self) -> MenuSelection:
prompt = str(_('This will remove all newly added partitions, continue?'))
choice = Menu(prompt, Menu.yes_no(), default_option=Menu.no(), skip=False).run()
return choice
def _suggest_partition_layout(self, data: List[PartitionModification]) -> List[PartitionModification]:
# if modifications have been done already, inform the user
# that this operation will erase those modifications
if any([not entry.exists() for entry in data]):
choice = self._reset_confirmation()
if choice.value == Menu.no():
return []
from ..interactions.disk_conf import suggest_single_disk_layout
device_modification = suggest_single_disk_layout(self._device)
return device_modification.partitions
def manual_partitioning(
device: BDevice,
prompt: str = '',
preset: List[PartitionModification] = []
) -> List[PartitionModification]:
if not prompt:
prompt = str(_('Partition management: {}')).format(device.device_info.path) + '\n'
prompt += str(_('Total length: {}')).format(device.device_info.total_size.format_size(Unit.MiB))
manual_preset = []
if not preset:
# we'll display the existing partitions of the device
for partition in device.partition_infos:
manual_preset.append(
PartitionModification.from_existing_partition(partition)
)
else:
manual_preset = preset
menu_list = PartitioningList(prompt, device, manual_preset)
partitions = menu_list.run()
if menu_list.is_last_choice_cancel():
return preset
return partitions
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