import getpass, pathlib, os, shutil, re import sys, time, signal from .exceptions import * from .profiles import Profile from .locale_helpers import search_keyboard_layout from .output import log, LOG_LEVELS from .storage import storage from .networking import list_interfaces ## TODO: Some inconsistencies between the selection processes. ## Some return the keys from the options, some the values? def get_terminal_height(): return shutil.get_terminal_size().lines def get_terminal_width(): return shutil.get_terminal_size().columns def get_longest_option(options): return max([len(x) for x in options]) def check_for_correct_username(username): if re.match(r'^[a-z_][a-z0-9_-]*\$?$', username) and len(username) <= 32: return True log( "The username you entered is invalid. Try again", level=LOG_LEVELS.Warning, fg='red' ) return False def do_countdown(): SIG_TRIGGER = False def kill_handler(sig, frame): print() exit(0) def sig_handler(sig, frame): global SIG_TRIGGER SIG_TRIGGER = True signal.signal(signal.SIGINT, kill_handler) original_sigint_handler = signal.getsignal(signal.SIGINT) signal.signal(signal.SIGINT, sig_handler) for i in range(5, 0, -1): print(f"{i}", end='') for x in range(4): sys.stdout.flush() time.sleep(0.25) print(".", end='') if SIG_TRIGGER: abort = input('\nDo you really want to abort (y/n)? ') if abort.strip() != 'n': exit(0) if SIG_TRIGGER is False: sys.stdin.read() SIG_TRIGGER = False signal.signal(signal.SIGINT, sig_handler) print() signal.signal(signal.SIGINT, original_sigint_handler) return True def get_password(prompt="Enter a password: "): while (passwd := getpass.getpass(prompt)): passwd_verification = getpass.getpass(prompt='And one more time for verification: ') if passwd != passwd_verification: log(' * Passwords did not match * ', fg='red') continue if len(passwd.strip()) <= 0: break return passwd return None def print_large_list(options, padding=5, margin_bottom=0, separator=': '): highest_index_number_length = len(str(len(options))) longest_line = highest_index_number_length + len(separator) + get_longest_option(options) + padding max_num_of_columns = get_terminal_width() // longest_line max_options_in_cells = max_num_of_columns * (get_terminal_height()-margin_bottom) if (len(options) > max_options_in_cells): for index, option in enumerate(options): print(f"{index}: {option}") else: for row in range(0, (get_terminal_height()-margin_bottom)): for column in range(row, len(options), (get_terminal_height()-margin_bottom)): spaces = " "*(longest_line - len(options[column])) print(f"{str(column): >{highest_index_number_length}}{separator}{options[column]}", end = spaces) print() def ask_for_superuser_account(prompt='Create a required super-user with sudo privileges: ', forced=False): while 1: new_user = input(prompt).strip(' ') if not new_user and forced: # TODO: make this text more generic? # It's only used to create the first sudo user when root is disabled in guided.py log(' * Since root is disabled, you need to create a least one (super) user!', fg='red') continue elif not new_user and not forced: raise UserError("No superuser was created.") elif not check_for_correct_username(new_user): continue password = get_password(prompt=f'Password for user {new_user}: ') return {new_user: {"!password" : password}} def ask_for_additional_users(prompt='Any additional users to install (leave blank for no users): '): users = {} super_users = {} while 1: new_user = input(prompt).strip(' ') if not new_user: break if not check_for_correct_username(new_user): continue password = get_password(prompt=f'Password for user {new_user}: ') if input("Should this user be a sudo (super) user (y/N): ").strip(' ').lower() in ('y', 'yes'): super_users[new_user] = {"!password" : password} else: users[new_user] = {"!password" : password} return users, super_users def ask_for_a_timezone(): timezone = input('Enter a valid timezone (Example: Europe/Stockholm): ').strip() if (pathlib.Path("/usr")/"share"/"zoneinfo"/timezone).exists(): return timezone else: log( f"Time zone {timezone} does not exist, continuing with system default.", level=LOG_LEVELS.Warning, fg='red' ) def ask_for_audio_selection(): audio = "pulseaudio" # Default for most desktop environments pipewire_choice = input("Would you like to install pipewire instead of pulseaudio as the default audio server? [Y/n] ").lower() if pipewire_choice in ("y", ""): audio = "pipewire" return audio def ask_to_configure_network(): # Optionally configure one network interface. #while 1: # {MAC: Ifname} interfaces = {'ISO-CONFIG' : 'Copy ISO network configuration to installation','NetworkManager':'Use NetworkManager to control and manage your internet connection', **list_interfaces()} nic = generic_select(interfaces.values(), "Select one network interface to configure (leave blank to skip): ") if nic and nic != 'Copy ISO network configuration to installation': if nic == 'Use NetworkManager to control and manage your internet connection': return {'nic': nic,'NetworkManager':True} mode = generic_select(['DHCP (auto detect)', 'IP (static)'], f"Select which mode to configure for {nic}: ") if mode == 'IP (static)': while 1: ip = input(f"Enter the IP and subnet for {nic} (example: 192.168.0.5/24): ").strip() if ip: break else: log( "You need to enter a valid IP in IP-config mode.", level=LOG_LEVELS.Warning, fg='red' ) if not len(gateway := input('Enter your gateway (router) IP address or leave blank for none: ').strip()): gateway = None dns = None if len(dns_input := input('Enter your DNS servers (space separated, blank for none): ').strip()): dns = dns_input.split(' ') return {'nic': nic, 'dhcp': False, 'ip': ip, 'gateway' : gateway, 'dns' : dns} else: return {'nic': nic} elif nic: return nic return None def ask_for_disk_layout(): options = { 'keep-existing' : 'Keep existing partition layout and select which ones to use where.', 'format-all' : 'Format entire drive and setup a basic partition scheme.', 'abort' : 'Abort the installation.' } value = generic_select(options.values(), "Found partitions on the selected drive, (select by number) what you want to do: ") return next((key for key, val in options.items() if val == value), None) def ask_for_main_filesystem_format(): options = { 'btrfs' : 'btrfs', 'ext4' : 'ext4', 'xfs' : 'xfs', 'f2fs' : 'f2fs' } value = generic_select(options.values(), "Select which filesystem your main partition should use (by number or name): ") return next((key for key, val in options.items() if val == value), None) def generic_select(options, input_text="Select one of the above by index or absolute value: ", sort=True): """ A generic select function that does not output anything other than the options and their indexes. As an example: generic_select(["first", "second", "third option"]) 1: first 2: second 3: third option """ if type(options) == dict: options = list(options) if sort: options = sorted(list(options)) if len(options) <= 0: raise RequirementError('generic_select() requires at least one option to operate.') for index, option in enumerate(options): print(f"{index}: {option}") selected_option = input(input_text) if len(selected_option.strip()) <= 0: return None elif selected_option.isdigit(): selected_option = int(selected_option) if selected_option > len(options): raise RequirementError(f'Selected option "{selected_option}" is out of range') selected_option = options[selected_option] elif selected_option in options: pass # We gave a correct absolute value else: raise RequirementError(f'Selected option "{selected_option}" does not exist in available options: {options}') return selected_option def select_disk(dict_o_disks): """ Asks the user to select a harddrive from the `dict_o_disks` selection. Usually this is combined with :ref:`archinstall.list_drives`. :param dict_o_disks: A `dict` where keys are the drive-name, value should be a dict containing drive information. :type dict_o_disks: dict :return: The name/path (the dictionary key) of the selected drive :rtype: str """ drives = sorted(list(dict_o_disks.keys())) if len(drives) >= 1: for index, drive in enumerate(drives): print(f"{index}: {drive} ({dict_o_disks[drive]['size'], dict_o_disks[drive].device, dict_o_disks[drive]['label']})") drive = input('Select one of the above disks (by number or full path) or write /mnt to skip partitioning: ') if drive.strip() == '/mnt': return None elif drive.isdigit(): drive = int(drive) if drive >= len(drives): raise DiskError(f'Selected option "{drive}" is out of range') drive = dict_o_disks[drives[drive]] elif drive in dict_o_disks: drive = dict_o_disks[drive] else: raise DiskError(f'Selected drive does not exist: "{drive}"') return drive raise DiskError('select_disk() requires a non-empty dictionary of disks to select from.') def select_profile(options): """ Asks the user to select a profile from the `options` dictionary parameter. Usually this is combined with :ref:`archinstall.list_profiles`. :param options: A `dict` where keys are the profile name, value should be a dict containing profile information. :type options: dict :return: The name/dictionary key of the selected profile :rtype: str """ profiles = sorted(list(options)) if len(profiles) >= 1: for index, profile in enumerate(profiles): print(f"{index}: {profile}") print(' -- The above list is a set of pre-programmed profiles. --') print(' -- They might make it easier to install things like desktop environments. --') print(' -- (Leave blank and hit enter to skip this step and continue) --') selected_profile = input('Enter a pre-programmed profile name if you want to install one: ') if len(selected_profile.strip()) <= 0: return None if selected_profile.isdigit() and (pos := int(selected_profile)) <= len(profiles)-1: selected_profile = profiles[pos] elif selected_profile in options: selected_profile = options[options.index(selected_profile)] else: RequirementError("Selected profile does not exist.") return Profile(None, selected_profile) raise RequirementError("Selecting profiles require a least one profile to be given as an option.") def select_language(options, show_only_country_codes=True): """ Asks the user to select a language from the `options` dictionary parameter. Usually this is combined with :ref:`archinstall.list_keyboard_languages`. :param options: A `dict` where keys are the language name, value should be a dict containing language information. :type options: dict :param show_only_country_codes: Filters out languages that are not len(lang) == 2. This to limit the number of results from stuff like dvorak and x-latin1 alternatives. :type show_only_country_codes: bool :return: The language/dictionary key of the selected language :rtype: str """ if show_only_country_codes: languages = sorted([language for language in list(options) if len(language) == 2]) else: languages = sorted(list(options)) if len(languages) >= 1: for index, language in enumerate(languages): print(f"{index}: {language}") print(' -- You can enter ? or help to search for more languages --') selected_language = input('Select one of the above keyboard languages (by number or full name): ') if selected_language.lower() in ('?', 'help'): while True: filter_string = input('Search for layout containing (example: "sv-"): ') new_options = list(search_keyboard_layout(filter_string)) if len(new_options) <= 0: log(f"Search string '{filter_string}' yielded no results, please try another search or Ctrl+D to abort.", fg='yellow') continue return select_language(new_options, show_only_country_codes=False) elif selected_language.isdigit() and (pos := int(selected_language)) <= len(languages)-1: selected_language = languages[pos] return select_language # I'm leaving "options" on purpose here. # Since languages possibly contains a filtered version of # all possible language layouts, and we might want to write # for instance sv-latin1 (if we know that exists) without having to # go through the search step. elif selected_language in options: selected_language = options[options.index(selected_language)] return selected_language else: print("Invalid Langue please select a valid option.") raise RequirementError("Selecting languages require a least one language to be given as an option.") def select_mirror_regions(mirrors, show_top_mirrors=True): """ Asks the user to select a mirror or region from the `mirrors` dictionary parameter. Usually this is combined with :ref:`archinstall.list_mirrors`. :param mirrors: A `dict` where keys are the mirror region name, value should be a dict containing mirror information. :type mirrors: dict :param show_top_mirrors: Will limit the list to the top 10 fastest mirrors based on rank-mirror *(Currently not implemented but will be)*. :type show_top_mirrors: bool :return: The dictionary information about a mirror/region. :rtype: dict """ # TODO: Support multiple options and country codes, SE,UK for instance. regions = sorted(list(mirrors.keys())) selected_mirrors = {} if len(regions) >= 1: print_large_list(regions, margin_bottom=2) print(' -- You can skip this step by leaving the option blank --') selected_mirror = input('Select one of the above regions to download packages from (by number or full name): ') if len(selected_mirror.strip()) == 0: return {"mirror": None} elif selected_mirror.isdigit() and int(selected_mirror) <= len(regions)-1: # I'm leaving "mirrors" on purpose here. # Since region possibly contains a known region of # all possible regions, and we might want to write # for instance Sweden (if we know that exists) without having to # go through the search step. region = regions[int(selected_mirror)] selected_mirrors[region] = mirrors[region] elif selected_mirror in mirrors: selected_mirrors[selected_mirror] = mirrors[selected_mirror] else: print("Selected region does not exist.") return selected_mirrors