import glob, logging, os, re, requests, signal, sys, time from datetime import datetime, timedelta from pathvalidate import is_valid_filename, sanitize_filename from plexapi.audio import Album, Track from plexapi.exceptions import BadRequest, NotFound, Unauthorized from plexapi.video import Season, Episode, Movie try: import msvcrt windows = True except ModuleNotFoundError: windows = False logger = logging.getLogger("Plex Meta Manager") class TimeoutExpired(Exception): pass class Failed(Exception): pass class NotScheduled(Exception): pass class NotScheduledRange(NotScheduled): pass class ImageData: def __init__(self, attribute, location, prefix="", is_poster=True, is_url=True): self.attribute = attribute self.location = location self.prefix = prefix self.is_poster = is_poster self.is_url = is_url self.compare = location if is_url else os.stat(location).st_size self.message = f"{prefix}{'poster' if is_poster else 'background'} to [{'URL' if is_url else 'File'}] {location}" def __str__(self): return str(self.__dict__) def retry_if_not_failed(exception): return not isinstance(exception, Failed) def retry_if_not_plex(exception): return not isinstance(exception, (BadRequest, NotFound, Unauthorized)) days_alias = { "monday": 0, "mon": 0, "m": 0, "tuesday": 1, "tues": 1, "tue": 1, "tu": 1, "t": 1, "wednesday": 2, "wed": 2, "w": 2, "thursday": 3, "thurs": 3, "thur": 3, "thu": 3, "th": 3, "r": 3, "friday": 4, "fri": 4, "f": 4, "saturday": 5, "sat": 5, "s": 5, "sunday": 6, "sun": 6, "su": 6, "u": 6 } mod_displays = { "": "is", ".not": "is not", ".is": "is", ".isnot": "is not", ".begins": "begins with", ".ends": "ends with", ".before": "is before", ".after": "is after", ".gt": "is greater than", ".gte": "is greater than or equal", ".lt": "is less than", ".lte": "is less than or equal" } pretty_days = {0: "Monday", 1: "Tuesday", 2: "Wednesday", 3: "Thursday", 4: "Friday", 5: "Saturday", 6: "Sunday"} pretty_months = { 1: "January", 2: "February", 3: "March", 4: "April", 5: "May", 6: "June", 7: "July", 8: "August", 9: "September", 10: "October", 11: "November", 12: "December" } seasons = ["current", "winter", "spring", "summer", "fall"] pretty_ids = {"anidbid": "AniDB", "imdbid": "IMDb", "mal_id": "MyAnimeList", "themoviedb_id": "TMDb", "thetvdb_id": "TVDb", "tvdbid": "TVDb"} collection_mode_options = { "default": "default", "hide": "hide", "hide_items": "hideItems", "hideitems": "hideItems", "show_items": "showItems", "showitems": "showItems" } advance_tags_to_edit = { "Movie": ["metadata_language", "use_original_title"], "Show": ["episode_sorting", "keep_episodes", "delete_episodes", "season_display", "episode_ordering", "metadata_language", "use_original_title"], "Artist": ["album_sorting"] } tags_to_edit = { "Movie": ["genre", "label", "collection", "country", "director", "producer", "writer"], "Show": ["genre", "label", "collection"], "Artist": ["genre", "style", "mood", "country", "collection", "similar_artist"] } mdb_types = ["mdb", "mdb_imdb", "mdb_metacritic", "mdb_metacriticuser", "mdb_trakt", "mdb_tomatoes", "mdb_tomatoesaudience", "mdb_tmdb", "mdb_letterboxd"] def tab_new_lines(data): return str(data).replace("\n", "\n ") if "\n" in str(data) else str(data) def make_ordinal(n): return f"{n}{'th' if 11 <= (n % 100) <= 13 else ['th', 'st', 'nd', 'rd', 'th'][min(n % 10, 4)]}" def add_zero(number): return str(number) if len(str(number)) > 1 else f"0{number}" def current_version(develop=False): url = f"https://raw.githubusercontent.com/meisnate12/Plex-Meta-Manager/{'develop' if develop else 'master'}/VERSION" try: return parse_version(requests.get(url).content.decode().strip()) except requests.exceptions.ConnectionError: return None def parse_version(version): split_version = version.split("-develop") return version, split_version[0], int(split_version[1]) if len(split_version) > 1 else 0 def add_dict_list(keys, value, dict_map): for key in keys: if key in dict_map: dict_map[key].append(value) else: dict_map[key] = [value] def get_list(data, lower=False, upper=False, split=True, int_list=False): if data is None: return None elif isinstance(data, list): list_data = data elif isinstance(data, dict): return [data] elif split is False: list_data = [str(data)] else: list_data = str(data).split(",") if lower is True: return [str(d).strip().lower() for d in list_data] elif upper is True: return [str(d).strip().upper() for d in list_data] elif int_list is True: try: return [int(str(d).strip()) for d in list_data] except ValueError: return [] else: return [d if isinstance(d, dict) else str(d).strip() for d in list_data] def get_int_list(data, id_type): int_values = [] for value in get_list(data): try: int_values.append(regex_first_int(value, id_type)) except Failed as e: logger.error(e) return int_values def validate_date(date_text, method, return_as=None): try: date_obg = datetime.strptime(str(date_text), "%Y-%m-%d" if "-" in str(date_text) else "%m/%d/%Y") except ValueError: raise Failed(f"Collection Error: {method}: {date_text} must match pattern YYYY-MM-DD (e.g. 2020-12-25) or MM/DD/YYYY (e.g. 12/25/2020)") return datetime.strftime(date_obg, return_as) if return_as else date_obg def logger_input(prompt, timeout=60): if windows: return windows_input(prompt, timeout) elif hasattr(signal, "SIGALRM"): return unix_input(prompt, timeout) else: raise SystemError("Input Timeout not supported on this system") def header(language="en-US,en;q=0.5"): return {"Accept-Language": "eng" if language == "default" else language, "User-Agent": "Mozilla/5.0 x64"} def alarm_handler(signum, frame): raise TimeoutExpired def unix_input(prompt, timeout=60): prompt = f"| {prompt}: " signal.signal(signal.SIGALRM, alarm_handler) signal.alarm(timeout) try: return input(prompt) except EOFError: raise Failed("Input Failed") finally: signal.alarm(0) def windows_input(prompt, timeout=5): sys.stdout.write(f"| {prompt}: ") sys.stdout.flush() result = [] start_time = time.time() while True: if msvcrt.kbhit(): char = msvcrt.getwche() if ord(char) == 13: # enter_key out = "".join(result) print("") logger.debug(f"{prompt}: {out}") return out elif ord(char) >= 32: #space_char result.append(char) if (time.time() - start_time) > timeout: print("") raise TimeoutExpired def get_id_from_imdb_url(imdb_url): match = re.search("(tt\\d+)", str(imdb_url)) if match: return match.group(1) else: raise Failed(f"Regex Error: Failed to parse IMDb ID from IMDb URL: {imdb_url}") def regex_first_int(data, id_type, default=None): match = re.search("(\\d+)", str(data)) if match: return int(match.group(1)) elif default: logger.warning(f"Regex Warning: Failed to parse {id_type} from {data} using {default} as default") return int(default) else: raise Failed(f"Regex Error: Failed to parse {id_type} from {data}") def validate_filename(filename): if is_valid_filename(filename): return filename, None else: mapping_name = sanitize_filename(filename) return mapping_name, f"Log Folder Name: {filename} is invalid using {mapping_name}" def item_title(item): if isinstance(item, Season): if f"Season {item.index}" == item.title: return f"{item.parentTitle} {item.title}" else: return f"{item.parentTitle} Season {item.index}: {item.title}" elif isinstance(item, Episode): text = f"{item.grandparentTitle} S{add_zero(item.parentIndex)}E{add_zero(item.index)}" if f"Season {item.parentIndex}" == item.parentTitle: return f"{text}: {item.title}" else: return f"{text}: {item.parentTitle}: {item.title}" elif isinstance(item, Movie) and item.year: return f"{item.title} ({item.year})" elif isinstance(item, Album): return f"{item.parentTitle}: {item.title}" elif isinstance(item, Track): return f"{item.grandparentTitle}: {item.parentTitle}: {item.title}" else: return item.title def item_set(item, item_id): return {"title": item_title(item), "tmdb" if isinstance(item, Movie) else "tvdb": item_id} def is_locked(filepath): locked = None file_object = None if os.path.exists(filepath): try: file_object = open(filepath, 'a', 8) if file_object: locked = False except IOError: locked = True finally: if file_object: file_object.close() return locked def time_window(tw): today = datetime.now() if tw == "today": return f"{today:%Y-%m-%d}" elif tw == "yesterday": return f"{today - timedelta(days=1):%Y-%m-%d}" elif tw == "this_week": return f"{today:%Y-0%V}" elif tw == "last_week": return f"{today - timedelta(weeks=1):%Y-0%V}" elif tw == "this_month": return f"{today:%Y-%m}" elif tw == "last_month": return f"{today.year}-{today.month - 1 or 12}" elif tw == "this_year": return f"{today.year}" elif tw == "last_year": return f"{today.year - 1}" else: return tw def check_num(num, is_int=True): try: return int(str(num)) if is_int else float(str(num)) except (ValueError, TypeError): return None def glob_filter(filter_in): filter_in = filter_in.translate({ord("["): "[[]", ord("]"): "[]]"}) if "[" in filter_in else filter_in return glob.glob(filter_in) def is_date_filter(value, modifier, data, final, current_time): if value is None: return True if modifier in ["", ".not"]: threshold_date = current_time - timedelta(days=data) if (modifier == "" and (value is None or value < threshold_date)) \ or (modifier == ".not" and value and value >= threshold_date): return True elif modifier in [".before", ".after"]: filter_date = validate_date(data, final) if (modifier == ".before" and value >= filter_date) or (modifier == ".after" and value <= filter_date): return True elif modifier == ".regex": jailbreak = True for check_data in data: if re.compile(check_data).match(value.strftime("%m/%d/%Y")): jailbreak = True break if not jailbreak: return True return False def is_number_filter(value, modifier, data): return value is None or (modifier == ".gt" and value <= data) \ or (modifier == ".gte" and value < data) \ or (modifier == ".lt" and value >= data) \ or (modifier == ".lte" and value > data) def is_boolean_filter(value, data): return (data and not value) or (not data and value) def is_string_filter(values, modifier, data): jailbreak = False for value in values: for check_value in data: if (modifier in ["", ".not"] and check_value.lower() in value.lower()) \ or (modifier in [".is", ".isnot"] and value.lower() == check_value.lower()) \ or (modifier == ".begins" and value.lower().startswith(check_value.lower())) \ or (modifier == ".ends" and value.lower().endswith(check_value.lower())) \ or (modifier == ".regex" and re.compile(check_value).match(value)): jailbreak = True break if jailbreak: break return (jailbreak and modifier in [".not", ".isnot"]) or (not jailbreak and modifier in ["", ".is", ".begins", ".ends", ".regex"]) def check_collection_mode(collection_mode): if collection_mode and str(collection_mode).lower() in collection_mode_options: return collection_mode_options[str(collection_mode).lower()] else: raise Failed(f"Config Error: {collection_mode} collection_mode invalid\n\tdefault (Library default)\n\thide (Hide Collection)\n\thide_items (Hide Items in this Collection)\n\tshow_items (Show this Collection and its Items)") def check_day(_m, _d): if _m in [1, 3, 5, 7, 8, 10, 12] and _d > 31: return _m, 31 elif _m in [4, 6, 9, 11] and _d > 30: return _m, 30 elif _m == 2 and _d > 28: return _m, 28 else: return _m, _d def schedule_check(attribute, data, current_time, run_hour): skip_collection = True range_collection = False schedule_list = get_list(data) next_month = current_time.replace(day=28) + timedelta(days=4) last_day = next_month - timedelta(days=next_month.day) schedule_str = "" for schedule in schedule_list: run_time = str(schedule).lower() display = f"{attribute} attribute {schedule} invalid" if run_time.startswith(("day", "daily")): skip_collection = False elif run_time == "never": schedule_str += f"\nNever scheduled to run" elif run_time.startswith(("hour", "week", "month", "year", "range")): match = re.search("\\(([^)]+)\\)", run_time) if not match: logger.error(f"Schedule Error: failed to parse {attribute}: {schedule}") continue param = match.group(1) if run_time.startswith("hour"): try: if 0 <= int(param) <= 23: schedule_str += f"\nScheduled to run only on the {make_ordinal(int(param))} hour" if run_hour == int(param): skip_collection = False else: raise ValueError except ValueError: logger.error(f"Schedule Error: hourly {display} must be an integer between 0 and 23") elif run_time.startswith("week"): if param.lower() not in days_alias: logger.error(f"Schedule Error: weekly {display} must be a day of the week i.e. weekly(Monday)") continue weekday = days_alias[param.lower()] schedule_str += f"\nScheduled weekly on {pretty_days[weekday]}" if weekday == current_time.weekday(): skip_collection = False elif run_time.startswith("month"): try: if 1 <= int(param) <= 31: schedule_str += f"\nScheduled monthly on the {make_ordinal(int(param))}" if current_time.day == int(param) or ( current_time.day == last_day.day and int(param) > last_day.day): skip_collection = False else: raise ValueError except ValueError: logger.error(f"Schedule Error: monthly {display} must be an integer between 1 and 31") elif run_time.startswith("year"): try: if "/" in param: opt = param.split("/") month = int(opt[0]) day = int(opt[1]) schedule_str += f"\nScheduled yearly on {pretty_months[month]} {make_ordinal(day)}" if current_time.month == month and (current_time.day == day or ( current_time.day == last_day.day and day > last_day.day)): skip_collection = False else: raise ValueError except ValueError: logger.error(f"Schedule Error: yearly {display} must be in the MM/DD format i.e. yearly(11/22)") elif run_time.startswith("range"): match = re.match("^(1[0-2]|0?[1-9])/(3[01]|[12][0-9]|0?[1-9])-(1[0-2]|0?[1-9])/(3[01]|[12][0-9]|0?[1-9])$", param) if not match: logger.error(f"Schedule Error: range {display} must be in the MM/DD-MM/DD format i.e. range(12/01-12/25)") continue month_start, day_start = check_day(int(match.group(1)), int(match.group(2))) month_end, day_end = check_day(int(match.group(3)), int(match.group(4))) month_check, day_check = check_day(current_time.month, current_time.day) check = datetime.strptime(f"{month_check}/{day_check}", "%m/%d") start = datetime.strptime(f"{month_start}/{day_start}", "%m/%d") end = datetime.strptime(f"{month_end}/{day_end}", "%m/%d") range_collection = True schedule_str += f"\nScheduled between {pretty_months[month_start]} {make_ordinal(day_start)} and {pretty_months[month_end]} {make_ordinal(day_end)}" if start <= check <= end if start < end else (check <= end or check >= start): skip_collection = False else: logger.error(f"Schedule Error: {display}") if len(schedule_str) == 0: skip_collection = False if skip_collection and range_collection: raise NotScheduledRange(schedule_str) elif skip_collection: raise NotScheduled(schedule_str) def parse(error, attribute, data, datatype=None, methods=None, parent=None, default=None, options=None, translation=None, minimum=1, maximum=None, regex=None): display = f"{parent + ' ' if parent else ''}{attribute} attribute" if options is None and translation is not None: options = [o for o in translation] value = data[methods[attribute]] if methods and attribute in methods else data if datatype in ["list", "commalist"]: final_list = [] if value: if datatype == "commalist": value = get_list(value) if not isinstance(value, list): value = [value] for v in value: if v: if options is None or (options and v in options): final_list.append(v) elif options: raise Failed(f"{error} Error: {v} is invalid options are: {options}") return final_list elif datatype == "intlist": if value: try: return [int(v) for v in value if v] if isinstance(value, list) else [int(value)] except ValueError: pass return [] elif datatype == "listdict": final_list = [] for dict_data in get_list(value): if isinstance(dict_data, dict): final_list.append(dict_data) else: raise Failed(f"{error} Error: {display} {dict_data} is not a dictionary") return final_list elif datatype in ["dict", "dictlist", "dictdict", "strdict", "dictliststr"]: if isinstance(value, dict): if datatype == "dict": return value elif datatype == "dictlist": return {k: v if isinstance(v, list) else [v] for k, v in value.items()} elif datatype == "dictliststr": return {str(k): [str(y) for y in v] if isinstance(v, list) else [str(v)] for k, v in value.items()} elif datatype == "strdict": return {str(k): str(v) for k, v in value.items()} else: final_dict = {} for dict_key, dict_data in value.items(): if isinstance(dict_data, dict) and dict_data: final_dict[dict_key] = dict_data else: raise Failed(f"{error} Warning: {display} {dict_key} is not a dictionary") return final_dict else: raise Failed(f"{error} Error: {display} {value} is not a dictionary") elif methods and attribute not in methods: message = f"{display} not found" elif value is None: message = f"{display} is blank" elif regex is not None: regex_str, example = regex if re.compile(regex_str).match(str(value)): return str(value) else: message = f"{display}: {value} must match pattern {regex_str} e.g. {example}" elif datatype == "bool": if isinstance(value, bool): return value elif isinstance(value, (int, float)): return value > 0 elif str(value).lower() in ["t", "true"]: return True elif str(value).lower() in ["f", "false"]: return False else: message = f"{display} must be either true or false" elif datatype in ["int", "float"]: try: value = int(str(value)) if datatype == "int" else float(str(value)) if (maximum is None and minimum <= value) or (maximum is not None and minimum <= value <= maximum): return value except ValueError: pass pre = f"{display} {value} must be {'an integer' if datatype == 'int' else 'a number'}" if maximum is None: message = f"{pre} {minimum} or greater" else: message = f"{pre} between {minimum} and {maximum}" elif (translation is not None and str(value).lower() not in translation) or \ (options is not None and translation is None and str(value).lower() not in options): message = f"{display} {value} must be in {', '.join([str(o) for o in options])}" else: return translation[value] if translation is not None else value if default is None: raise Failed(f"{error} Error: {message}") else: logger.warning(f"{error} Warning: {message} using {default} as default") return translation[default] if translation is not None else default def replace_label(_label, _data): replaced = False if isinstance(_data, dict): final_data = {} for sm, sd in _data.items(): try: _new_data, _new_replaced = replace_label(_label, sd) final_data[sm] = _new_data if _new_replaced: replaced = True except Failed: continue elif isinstance(_data, list): final_data = [] for li in _data: try: _new_data, _new_replaced = replace_label(_label, li) final_data.append(_new_data) if _new_replaced: replaced = True except Failed: continue elif "<>" in str(_data): final_data = str(_data).replace("<>", _label) replaced = True else: final_data = _data return final_data, replaced