from __future__ import annotations import ipaddress import logging from typing import Any, Optional, TYPE_CHECKING, List, Union, Dict from ..menu.menu import MenuSelectionType from ..menu.text_input import TextInput from ..models.network_configuration import NetworkConfiguration, NicType from ..networking import list_interfaces from ..menu import Menu from ..output import log, FormattedOutput from ..menu.list_manager import ListManager if TYPE_CHECKING: _: Any class ManualNetworkConfig(ListManager): """ subclass of ListManager for the managing of network configurations """ def __init__(self, prompt: str, ifaces: List[NetworkConfiguration]): self._actions = [ str(_('Add interface')), str(_('Edit interface')), str(_('Delete interface')) ] super().__init__(prompt, ifaces, [self._actions[0]], self._actions[1:]) def reformat(self, data: List[NetworkConfiguration]) -> Dict[str, Optional[NetworkConfiguration]]: 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[NetworkConfiguration]] = {f' {rows[0]}': None, f' {rows[1]}': None} for row, iface in zip(rows[2:], data): row = row.replace('|', '\\|') display_data[row] = iface return display_data def selected_action_display(self, iface: NetworkConfiguration) -> str: return iface.iface if iface.iface else '' def handle_action(self, action: str, entry: Optional[NetworkConfiguration], data: List[NetworkConfiguration]): if action == self._actions[0]: # add iface_name = self._select_iface(data) if iface_name: iface = NetworkConfiguration(NicType.MANUAL, iface=iface_name) iface = self._edit_iface(iface) data += [iface] elif entry: if action == self._actions[1]: # edit interface data = [d for d in data if d.iface != entry.iface] data.append(self._edit_iface(entry)) elif action == self._actions[2]: # delete data = [d for d in data if d != entry] return data def _select_iface(self, data: List[NetworkConfiguration]) -> Optional[Any]: all_ifaces = list_interfaces().values() existing_ifaces = [d.iface for d in data] available = set(all_ifaces) - set(existing_ifaces) choice = Menu(str(_('Select interface to add')), list(available), skip=True).run() if choice.type_ == MenuSelectionType.Esc: return None return choice.value def _edit_iface(self, edit_iface: NetworkConfiguration): iface_name = edit_iface.iface modes = ['DHCP (auto detect)', 'IP (static)'] default_mode = 'DHCP (auto detect)' prompt = _('Select which mode to configure for "{}" or skip to use default mode "{}"').format(iface_name, default_mode) mode = Menu(prompt, modes, default_option=default_mode, skip=False).run() if mode.value == 'IP (static)': while 1: prompt = _('Enter the IP and subnet for {} (example: 192.168.0.5/24): ').format(iface_name) ip = TextInput(prompt, edit_iface.ip).run().strip() # Implemented new check for correct IP/subnet input try: ipaddress.ip_interface(ip) break except ValueError: log("You need to enter a valid IP in IP-config mode.", level=logging.WARNING, fg='red') # Implemented new check for correct gateway IP address gateway = None while 1: gateway = TextInput( _('Enter your gateway (router) IP address or leave blank for none: '), edit_iface.gateway ).run().strip() try: if len(gateway) > 0: ipaddress.ip_address(gateway) break except ValueError: log("You need to enter a valid gateway (router) IP address.", level=logging.WARNING, fg='red') if edit_iface.dns: display_dns = ' '.join(edit_iface.dns) else: display_dns = None dns_input = TextInput(_('Enter your DNS servers (space separated, blank for none): '), display_dns).run().strip() dns = [] if len(dns_input): dns = dns_input.split(' ') return NetworkConfiguration(NicType.MANUAL, iface=iface_name, ip=ip, gateway=gateway, dns=dns, dhcp=False) else: # this will contain network iface names return NetworkConfiguration(NicType.MANUAL, iface=iface_name) def ask_to_configure_network( preset: Union[NetworkConfiguration, List[NetworkConfiguration]] ) -> Optional[NetworkConfiguration | List[NetworkConfiguration]]: """ Configure the network on the newly installed system """ network_options = { 'none': str(_('No network configuration')), 'iso_config': str(_('Copy ISO network configuration to installation')), 'network_manager': str(_('Use NetworkManager (necessary to configure internet graphically in GNOME and KDE)')), 'manual': str(_('Manual configuration')) } # for this routine it's easier to set the cursor position rather than a preset value cursor_idx = None if preset and not isinstance(preset, list): if preset.type == 'iso_config': cursor_idx = 0 elif preset.type == 'network_manager': cursor_idx = 1 warning = str(_('Are you sure you want to reset this setting?')) choice = Menu( _('Select one network interface to configure'), list(network_options.values()), cursor_index=cursor_idx, sort=False, raise_error_on_interrupt=True, raise_error_warning_msg=warning ).run() match choice.type_: case MenuSelectionType.Esc: return preset case MenuSelectionType.Ctrl_c: return None if choice.value == network_options['none']: return None elif choice.value == network_options['iso_config']: return NetworkConfiguration(NicType.ISO) elif choice.value == network_options['network_manager']: return NetworkConfiguration(NicType.NM) elif choice.value == network_options['manual']: preset_ifaces = preset if isinstance(preset, list) else [] return ManualNetworkConfig('Configure interfaces', preset_ifaces).run() return preset