from __future__ import annotations import importlib.util import sys from collections import Counter from functools import cached_property from pathlib import Path from tempfile import NamedTemporaryFile from types import ModuleType from typing import List, TYPE_CHECKING, Any, Optional, Dict, Union from archinstall.default_profiles.profile import Profile, TProfile, GreeterType from .profile_model import ProfileConfiguration from ..hardware import GfxDriver, GfxPackage from ..menu import MenuSelectionType, Menu, MenuSelection from ..networking import list_interfaces, fetch_data_from_url from ..output import error, debug, info, warn from ..storage import storage if TYPE_CHECKING: from ..installer import Installer _: Any class ProfileHandler: def __init__(self): self._profiles_path: Path = storage['PROFILE'] self._profiles = None # special variable to keep track of a profile url configuration # it is merely used to be able to export the path again when a user # wants to save the configuration self._url_path = None def to_json(self, profile: Optional[Profile]) -> Dict[str, Any]: """ Serialize the selected profile setting to JSON """ data: Dict[str, Any] = {} if profile is not None: data = { 'main': profile.name, 'details': [profile.name for profile in profile.current_selection], 'custom_settings': {profile.name: profile.custom_settings for profile in profile.current_selection} } if self._url_path is not None: data['path'] = self._url_path return data def parse_profile_config(self, profile_config: Dict[str, Any]) -> Optional[Profile]: """ Deserialize JSON configuration for profile """ profile: Optional[Profile] = None # the order of these is important, we want to # load all the default_profiles from url and custom # so that we can then apply whatever was specified # in the main/detail sections if url_path := profile_config.get('path', None): self._url_path = url_path local_path = Path(url_path) if local_path.is_file(): profiles = self._process_profile_file(local_path) self.remove_custom_profiles(profiles) self.add_custom_profiles(profiles) else: self._import_profile_from_url(url_path) # if custom := profile_config.get('custom', None): # from archinstall.default_profiles.custom import CustomTypeProfile # custom_types = [] # # for entry in custom: # custom_types.append( # CustomTypeProfile( # entry['name'], # entry['enabled'], # entry.get('packages', []), # entry.get('services', []) # ) # ) # # self.remove_custom_profiles(custom_types) # self.add_custom_profiles(custom_types) # # # this doesn't mean it's actual going to be set as a selection # # but we are simply populating the custom profile with all # # possible custom definitions # if custom_profile := self.get_profile_by_name('Custom'): # custom_profile.set_current_selection(custom_types) if main := profile_config.get('main', None): profile = self.get_profile_by_name(main) if main else None if not profile: return None valid_sub_profiles: List[Profile] = [] invalid_sub_profiles: List[str] = [] details: List[str] = profile_config.get('details', []) if details: for detail in filter(None, details): if sub_profile := self.get_profile_by_name(detail): valid_sub_profiles.append(sub_profile) else: invalid_sub_profiles.append(detail) if invalid_sub_profiles: info('No profile definition found: {}'.format(', '.join(invalid_sub_profiles))) custom_settings = profile_config.get('custom_settings', {}) profile.set_custom_settings(custom_settings) profile.set_current_selection(valid_sub_profiles) return profile @property def profiles(self) -> List[Profile]: """ List of all available default_profiles """ self._profiles = self._profiles or self._find_available_profiles() return self._profiles @cached_property def _local_mac_addresses(self) -> List[str]: return list(list_interfaces()) def add_custom_profiles(self, profiles: Union[TProfile, List[TProfile]]): if not isinstance(profiles, list): profiles = [profiles] for profile in profiles: self._profiles.append(profile) self._verify_unique_profile_names(self._profiles) def remove_custom_profiles(self, profiles: Union[TProfile, List[TProfile]]): if not isinstance(profiles, list): profiles = [profiles] remove_names = [p.name for p in profiles] self._profiles = [p for p in self._profiles if p.name not in remove_names] def get_profile_by_name(self, name: str) -> Optional[Profile]: return next(filter(lambda x: x.name == name, self.profiles), None) # type: ignore def get_top_level_profiles(self) -> List[Profile]: return list(filter(lambda x: x.is_top_level_profile(), self.profiles)) def get_server_profiles(self) -> List[Profile]: return list(filter(lambda x: x.is_server_type_profile(), self.profiles)) def get_desktop_profiles(self) -> List[Profile]: return list(filter(lambda x: x.is_desktop_type_profile(), self.profiles)) def get_custom_profiles(self) -> List[Profile]: return list(filter(lambda x: x.is_custom_type_profile(), self.profiles)) def get_mac_addr_profiles(self) -> List[Profile]: tailored = list(filter(lambda x: x.is_tailored(), self.profiles)) match_mac_addr_profiles = list(filter(lambda x: x.name in self._local_mac_addresses, tailored)) return match_mac_addr_profiles def install_greeter(self, install_session: 'Installer', greeter: GreeterType): packages = [] service = None match greeter: case GreeterType.LightdmSlick: packages = ['lightdm', 'lightdm-slick-greeter'] service = ['lightdm'] case GreeterType.Lightdm: packages = ['lightdm', 'lightdm-gtk-greeter'] service = ['lightdm'] case GreeterType.Sddm: packages = ['sddm'] service = ['sddm'] case GreeterType.Gdm: packages = ['gdm'] service = ['gdm'] case GreeterType.Ly: packages = ['ly'] service = ['ly'] if packages: install_session.add_additional_packages(packages) if service: install_session.enable_service(service) # slick-greeter requires a config change if greeter == GreeterType.LightdmSlick: path = install_session.target.joinpath('etc/lightdm/lightdm.conf') with open(path, 'r') as file: filedata = file.read() filedata = filedata.replace('#greeter-session=example-gtk-gnome', 'greeter-session=lightdm-slick-greeter') with open(path, 'w') as file: file.write(filedata) def install_gfx_driver(self, install_session: 'Installer', driver: Optional[GfxDriver]): try: if driver is not None: driver_pkgs = driver.packages() pkg_names = [p.value for p in driver_pkgs] for driver_pkg in {GfxPackage.Nvidia, GfxPackage.NvidiaOpen} & set(driver_pkgs): for kernel in {"linux-lts", "linux-zen"} & set(install_session.kernels): # Fixes https://github.com/archlinux/archinstall/issues/585 install_session.add_additional_packages(f"{kernel}-headers") # I've had kernel regen fail if it wasn't installed before nvidia-dkms install_session.add_additional_packages(['dkms', 'xorg-server', 'xorg-xinit', f'{driver_pkg.value}-dkms']) # Return after first driver match, since it is impossible to use both simultaneously. return if 'amdgpu' in driver_pkgs: # The order of these two are important if amdgpu is installed #808 if 'amdgpu' in install_session.modules: install_session.modules.remove('amdgpu') install_session.modules.append('amdgpu') if 'radeon' in install_session.modules: install_session.modules.remove('radeon') install_session.modules.append('radeon') install_session.add_additional_packages(pkg_names) except Exception as err: warn(f"Could not handle nvidia and linuz-zen specific situations during xorg installation: {err}") # Prep didn't run, so there's no driver to install install_session.add_additional_packages(['xorg-server', 'xorg-xinit']) def install_profile_config(self, install_session: 'Installer', profile_config: ProfileConfiguration): profile = profile_config.profile if not profile: return profile.install(install_session) if profile_config.gfx_driver and (profile.is_xorg_type_profile() or profile.is_desktop_type_profile()): self.install_gfx_driver(install_session, profile_config.gfx_driver) if profile_config.greeter: self.install_greeter(install_session, profile_config.greeter) def _import_profile_from_url(self, url: str): """ Import default_profiles from a url path """ try: data = fetch_data_from_url(url) b_data = bytes(data, 'utf-8') with NamedTemporaryFile(delete=False, suffix='.py') as fp: fp.write(b_data) filepath = Path(fp.name) profiles = self._process_profile_file(filepath) self.remove_custom_profiles(profiles) self.add_custom_profiles(profiles) except ValueError: err = str(_('Unable to fetch profile from specified url: {}')).format(url) error(err) def _load_profile_class(self, module: ModuleType) -> List[Profile]: """ Load all default_profiles defined in a module """ profiles = [] for k, v in module.__dict__.items(): if isinstance(v, type) and v.__module__ == module.__name__: try: cls_ = v() if isinstance(cls_, Profile): profiles.append(cls_) except Exception: debug(f'Cannot import {module}, it does not appear to be a Profile class') return profiles def _verify_unique_profile_names(self, profiles: List[Profile]): """ All profile names have to be unique, this function will verify that the provided list contains only default_profiles with unique names """ counter = Counter([p.name for p in profiles]) duplicates = list(filter(lambda x: x[1] != 1, counter.items())) if len(duplicates) > 0: err = str(_('Profiles must have unique name, but profile definitions with duplicate name found: {}')).format(duplicates[0][0]) error(err) sys.exit(1) def _is_legacy(self, file: Path) -> bool: """ Check if the provided profile file contains a legacy profile definition """ with open(file, 'r') as fp: for line in fp.readlines(): if '__packages__' in line: return True return False def _process_profile_file(self, file: Path) -> List[Profile]: """ Process a file for profile definitions """ if self._is_legacy(file): info(f'Cannot import {file} because it is no longer supported, please use the new profile format') return [] if not file.is_file(): info(f'Cannot find profile file {file}') return [] name = file.name.removesuffix(file.suffix) debug(f'Importing profile: {file}') try: if spec := importlib.util.spec_from_file_location(name, file): imported = importlib.util.module_from_spec(spec) if spec.loader is not None: spec.loader.exec_module(imported) return self._load_profile_class(imported) except Exception as e: error(f'Unable to parse file {file}: {e}') return [] def _find_available_profiles(self) -> List[Profile]: """ Search the profile path for profile definitions """ profiles = [] for file in self._profiles_path.glob('**/*.py'): # ignore the abstract default_profiles class if 'profile.py' in file.name: continue profiles += self._process_profile_file(file) self._verify_unique_profile_names(profiles) return profiles def reset_top_level_profiles(self, exclude: List[Profile] = []): """ Reset all top level profile configurations, this is usually necessary when a new top level profile is selected """ excluded_profiles = [p.name for p in exclude] for profile in self.get_top_level_profiles(): if profile.name not in excluded_profiles: profile.reset() def select_profile( self, selectable_profiles: List[Profile], current_profile: Optional[Union[TProfile, List[TProfile]]] = None, title: str = '', allow_reset: bool = True, multi: bool = False, ) -> MenuSelection: """ Helper function to perform a profile selection """ options = {p.name: p for p in selectable_profiles} warning = str(_('Are you sure you want to reset this setting?')) preset_value: Optional[Union[str, List[str]]] = None if current_profile is not None: if isinstance(current_profile, list): preset_value = [p.name for p in current_profile] else: preset_value = current_profile.name choice = Menu( title=title, preset_values=preset_value, p_options=options, allow_reset=allow_reset, allow_reset_warning_msg=warning, multi=multi, sort=True, preview_command=self.preview_text, preview_size=0.5 ).run() if choice.type_ == MenuSelectionType.Selection: value = choice.value if multi: # this is quite dirty and should eb switched to a # dedicated return type instead choice.value = [options[val] for val in value] # type: ignore else: choice.value = options[value] # type: ignore return choice def preview_text(self, selection: str) -> Optional[str]: """ Callback for preview display on profile selection """ profile = self.get_profile_by_name(selection) return profile.preview_text() if profile is not None else None profile_handler = ProfileHandler()