"""This module contains all non-cipher related data extraction logic.""" import logging import urllib.parse import re from collections import OrderedDict from datetime import datetime from typing import Any, Dict, List, Optional, Tuple from urllib.parse import parse_qs, quote, urlencode, urlparse from pytubefix.cipher import Cipher from pytubefix.exceptions import HTMLParseError, LiveStreamError, RegexMatchError from pytubefix.helpers import regex_search from pytubefix.metadata import YouTubeMetadata from pytubefix.parser import parse_for_object, parse_for_all_objects logger = logging.getLogger(__name__) def publish_date(watch_html: str): """Extract publish date and return it as a datetime object :param str watch_html: The html contents of the watch page. :rtype: datetime :returns: Publish date of the video as a datetime object with timezone. """ try: result = re.search( r"(?<=itemprop=\"datePublished\" content=\")\d{4}-\d{2}-\d{2}T\d{2}:\d{2}:\d{2}[+-]\d{2}:\d{2}", watch_html ) if result: return datetime.fromisoformat(result.group(0)) except AttributeError: return None def recording_available(watch_html): """Check if live stream recording is available. :param str watch_html: The html contents of the watch page. :rtype: bool :returns: Whether or not the content is private. """ unavailable_strings = [ 'This live stream recording is not available.' ] for string in unavailable_strings: if string in watch_html: return False return True def is_private(watch_html): """Check if content is private. :param str watch_html: The html contents of the watch page. :rtype: bool :returns: Whether or not the content is private. """ private_strings = [ "This is a private video. Please sign in to verify that you may see it.", "\"simpleText\":\"Private video\"", "This video is private." ] for string in private_strings: if string in watch_html: return True return False def is_age_restricted(watch_html: str) -> bool: """Check if content is age restricted. :param str watch_html: The html contents of the watch page. :rtype: bool :returns: Whether or not the content is age restricted. """ try: regex_search(r"og:restrictions:age", watch_html, group=0) except RegexMatchError: return False return True def playability_status(player_response: dict) -> Tuple[Any, Any]: """Return the playability status and status explanation of a video. For example, a video may have a status of LOGIN_REQUIRED, and an explanation of "This is a private video. Please sign in to verify that you may see it." This explanation is what gets incorporated into the media player overlay. :param str player_response: Content of the player's response. :rtype: bool :returns: Playability status and reason of the video. """ status_dict = player_response.get('playabilityStatus', {}) # if 'liveStreamability' in status_dict: # We used liveStreamability to know if the video was live, # however some clients still return this parameter even if the video is already available if 'videoDetails' in player_response: # Private videos do not contain videoDetails if 'isLive' in player_response['videoDetails']: return 'LIVE_STREAM', 'Video is a live stream.' if 'status' in status_dict: if 'reason' in status_dict: return status_dict['status'], [status_dict['reason']] if 'messages' in status_dict: return status_dict['status'], status_dict['messages'] return None, [None] def signature_timestamp(js: str) -> str: return regex_search(r"signatureTimestamp:(\d*)", js, group=1) def visitor_data(response_context: str) -> str: return regex_search(r"visitor_data[',\"\s]+value['\"]:\s?['\"]([a-zA-Z0-9_%-]+)['\"]", response_context, group=1) def video_id(url: str) -> str: """Extract the ``video_id`` from a YouTube url. This function supports the following patterns: - :samp:`https://youtube.com/watch?v={video_id}` - :samp:`https://youtube.com/embed/{video_id}` - :samp:`https://youtu.be/{video_id}` :param str url: A YouTube url containing a video id. :rtype: str :returns: YouTube video id. """ return regex_search(r"(?:v=|\/)([0-9A-Za-z_-]{11}).*", url, group=1) def playlist_id(url: str) -> str: """Extract the ``playlist_id`` from a YouTube url. This function supports the following patterns: - :samp:`https://youtube.com/playlist?list={playlist_id}` - :samp:`https://youtube.com/watch?v={video_id}&list={playlist_id}` :param str url: A YouTube url containing a playlist id. :rtype: str :returns: YouTube playlist id. """ parsed = urllib.parse.urlparse(url) return parse_qs(parsed.query)['list'][0] def channel_name(url: str) -> str: """Extract the ``channel_name`` or ``channel_id`` from a YouTube url. This function supports the following patterns: - :samp:`https://youtube.com/c/{channel_name}/*` - :samp:`https://youtube.com/channel/{channel_id}/* - :samp:`https://youtube.com/u/{channel_name}/*` - :samp:`https://youtube.com/user/{channel_id}/* - :samp:`https://youtube.com/@{channel_id}/* :param str url: A YouTube url containing a channel name. :rtype: str :returns: YouTube channel name. """ patterns = [ r"(?:\/(c)\/([%\d\w_\-]+)(\/.*)?)", r"(?:\/(channel)\/([%\w\d_\-]+)(\/.*)?)", r"(?:\/(u)\/([%\d\w_\-]+)(\/.*)?)", r"(?:\/(user)\/([%\w\d_\-]+)(\/.*)?)", r"(?:\/(\@)([%\d\w_\-\.]+)(\/.*)?)" ] for pattern in patterns: regex = re.compile(pattern) function_match = regex.search(url) if function_match: logger.debug("finished regex search, matched: %s", pattern) uri_style = function_match.group(1) uri_identifier = function_match.group(2) return f'/{uri_style}/{uri_identifier}' if uri_style != '@' else f'/{uri_style}{uri_identifier}' raise RegexMatchError( caller="channel_name", pattern="patterns" ) def video_info_url(video_id: str, watch_url: str) -> str: """Construct the video_info url. :param str video_id: A YouTube video identifier. :param str watch_url: A YouTube watch url. :rtype: str :returns: :samp:`https://youtube.com/get_video_info` with necessary GET parameters. """ params = OrderedDict( [ ("video_id", video_id), ("ps", "default"), ("eurl", quote(watch_url)), ("hl", "en_US"), ("html5", "1"), ("c", "TVHTML5"), ("cver", "7.20201028"), ] ) return _video_info_url(params) def video_info_url_age_restricted(video_id: str, embed_html: str) -> str: """Construct the video_info url. :param str video_id: A YouTube video identifier. :param str embed_html: The html contents of the embed page (for age restricted videos). :rtype: str :returns: :samp:`https://youtube.com/get_video_info` with necessary GET parameters. """ try: sts = regex_search(r'"sts"\s*:\s*(\d+)', embed_html, group=1) except RegexMatchError: sts = "" # Here we use ``OrderedDict`` so that the output is consistent between # Python 2.7+. eurl = f"https://youtube.googleapis.com/v/{video_id}" params = OrderedDict( [ ("video_id", video_id), ("eurl", eurl), ("sts", sts), ("html5", "1"), ("c", "TVHTML5"), ("cver", "7.20201028"), ] ) return _video_info_url(params) def _video_info_url(params: OrderedDict) -> str: return f"https://www.youtube.com/get_video_info?{urlencode(params)}" def js_url(html: str) -> str: """Get the base JavaScript url. Construct the base JavaScript url, which contains the decipher "transforms". :param str html: The html contents of the watch page. """ try: base_js = get_ytplayer_config(html)['assets']['js'] except (KeyError, RegexMatchError): base_js = get_ytplayer_js(html) return f"https://youtube.com{base_js}" def mime_type_codec(mime_type_codec: str) -> Tuple[str, List[str]]: """Parse the type data. Breaks up the data in the ``type`` key of the manifest, which contains the mime type and codecs serialized together, and splits them into separate elements. **Example**: mime_type_codec('audio/webm; codecs="opus"') -> ('audio/webm', ['opus']) :param str mime_type_codec: String containing mime type and codecs. :rtype: tuple :returns: The mime type and a list of codecs. """ pattern = r"(\w+\/\w+)\;\scodecs=\"([a-zA-Z-0-9.,\s]*)\"" regex = re.compile(pattern) results = regex.search(mime_type_codec) if not results: raise RegexMatchError(caller="mime_type_codec", pattern=pattern) mime_type, codecs = results.groups() return mime_type, [c.strip() for c in codecs.split(",")] def get_ytplayer_js(html: str) -> Any: """Get the YouTube player base JavaScript path. :param str html The html contents of the watch page. :rtype: str :returns: Path to YouTube's base.js file. """ js_url_patterns = [ r"(/s/player/[\w\d]+/[\w\d_/.]+/base\.js)" ] for pattern in js_url_patterns: regex = re.compile(pattern) function_match = regex.search(html) if function_match: logger.debug("finished regex search, matched: %s", pattern) yt_player_js = function_match.group(1) logger.debug("player JS: " + yt_player_js) return yt_player_js raise RegexMatchError( caller="get_ytplayer_js", pattern="js_url_patterns" ) def get_ytplayer_config(html: str) -> Any: """Get the YouTube player configuration data from the watch html. Extract the ``ytplayer_config``, which is json data embedded within the watch html and serves as the primary source of obtaining the stream manifest data. :param str html: The html contents of the watch page. :rtype: str :returns: Substring of the html containing the encoded manifest data. """ logger.debug("finding initial function name") config_patterns = [ r"ytplayer\.config\s*=\s*", r"ytInitialPlayerResponse\s*=\s*" ] for pattern in config_patterns: # Try each pattern consecutively if they don't find a match try: return parse_for_object(html, pattern) except HTMLParseError as e: logger.debug(f'Pattern failed: {pattern}') logger.debug(e) continue # setConfig() needs to be handled a little differently. # We want to parse the entire argument to setConfig() # and use then load that as json to find PLAYER_CONFIG # inside of it. setconfig_patterns = [ r"yt\.setConfig\(.*['\"]PLAYER_CONFIG['\"]:\s*" ] for pattern in setconfig_patterns: # Try each pattern consecutively if they don't find a match try: return parse_for_object(html, pattern) except HTMLParseError: continue raise RegexMatchError( caller="get_ytplayer_config", pattern="config_patterns, setconfig_patterns" ) def get_ytcfg(html: str) -> str: """Get the entirety of the ytcfg object. This is built over multiple pieces, so we have to find all matches and combine the dicts together. :param str html: The html contents of the watch page. :rtype: str :returns: Substring of the html containing the encoded manifest data. """ ytcfg = {} ytcfg_patterns = [ r"ytcfg\s=\s", r"ytcfg\.set\(" ] for pattern in ytcfg_patterns: # Try each pattern consecutively and try to build a cohesive object try: found_objects = parse_for_all_objects(html, pattern) for obj in found_objects: ytcfg.update(obj) except HTMLParseError: continue if ytcfg: # there is at least one item return ytcfg raise RegexMatchError( caller="get_ytcfg", pattern="ytcfg_pattenrs" ) def apply_po_token(stream_manifest: Dict, vid_info: Dict, po_token: str) -> None: """Apply the proof of origin token to the stream manifest :param dict stream_manifest: Details of the media streams available. :param str po_token: Proof of Origin Token. """ logger.debug(f'Applying poToken') for i, stream in enumerate(stream_manifest): try: url: str = stream["url"] except KeyError: live_stream = ( vid_info.get("playabilityStatus", {}, ) .get("liveStreamability") ) if live_stream: raise LiveStreamError("UNKNOWN") parsed_url = urlparse(url) # Convert query params off url to dict query_params = parse_qs(urlparse(url).query) query_params = { k: v[0] for k, v in query_params.items() } query_params['pot'] = po_token url = f'{parsed_url.scheme}://{parsed_url.netloc}{parsed_url.path}?{urlencode(query_params)}' stream_manifest[i]["url"] = url def apply_signature(stream_manifest: Dict, vid_info: Dict, js: str, url_js: str) -> None: """Apply the decrypted signature to the stream manifest. :param dict stream_manifest: Details of the media streams available. :param str js: The contents of the base.js asset file. :param str url_js: Full base.js url """ cipher = Cipher(js=js, js_url=url_js) discovered_n = dict() for i, stream in enumerate(stream_manifest): try: url: str = stream["url"] except KeyError: live_stream = ( vid_info.get("playabilityStatus", {}, ) .get("liveStreamability") ) if live_stream: raise LiveStreamError("UNKNOWN") parsed_url = urlparse(url) # Convert query params off url to dict query_params = parse_qs(urlparse(url).query) query_params = { k: v[0] for k, v in query_params.items() } # 403 Forbidden fix. if "signature" in url or ( "s" not in stream and ("&sig=" in url or "&lsig=" in url) ): # For certain videos, YouTube will just provide them pre-signed, in # which case there's no real magic to download them and we can skip # the whole signature descrambling entirely. logger.debug("signature found, skip decipher") else: signature = cipher.get_signature(ciphered_signature=stream["s"]) logger.debug( "finished descrambling signature for itag=%s", stream["itag"] ) query_params['sig'] = signature if 'n' in query_params.keys(): # For WEB-based clients, YouTube sends an "n" parameter that throttles download speed. # To decipher the value of "n", we must interpret the player's JavaScript. initial_n = query_params['n'] logger.debug(f'Parameter n is: {initial_n}') # Check if any previous stream decrypted the parameter if initial_n not in discovered_n: discovered_n[initial_n] = cipher.get_throttling(initial_n) else: logger.debug('Parameter n found skipping decryption') new_n = discovered_n[initial_n] query_params['n'] = new_n logger.debug(f'Parameter n deciphered: {new_n}') url = f'{parsed_url.scheme}://{parsed_url.netloc}{parsed_url.path}?{urlencode(query_params)}' # noqa:E501 stream_manifest[i]["url"] = url def apply_descrambler(stream_data: Dict) -> Optional[List[Dict]]: """Apply various in-place transforms to YouTube's media stream data. Creates a ``list`` of dictionaries by string splitting on commas, then taking each list item, parsing it as a query string, converting it to a ``dict`` and unquoting the value. :param dict stream_data: Dictionary containing query string encoded values. **Example**: >>> d = {'foo': 'bar=1&var=test,em=5&t=url%20encoded'} >>> apply_descrambler(d, 'foo') >>> print(d) {'foo': [{'bar': '1', 'var': 'test'}, {'em': '5', 't': 'url encoded'}]} """ if 'url' in stream_data: return None # Merge formats and adaptiveFormats into a single list formats: list[Dict] = [] if 'formats' in stream_data.keys(): formats.extend(stream_data['formats']) if 'adaptiveFormats' in stream_data.keys(): formats.extend(stream_data['adaptiveFormats']) # Extract url and s from signatureCiphers as necessary for data in formats: if 'url' not in data and 'signatureCipher' in data: cipher_url = parse_qs(data['signatureCipher']) data['url'] = cipher_url['url'][0] data['s'] = cipher_url['s'][0] data['is_sabr'] = False elif 'url' not in data and 'signatureCipher' not in data: data['url'] = stream_data['serverAbrStreamingUrl'] data['is_sabr'] = True data['is_otf'] = data.get('type') == 'FORMAT_STREAM_TYPE_OTF' logger.debug("applying descrambler") return formats def initial_data(watch_html: str) -> dict: """Extract the ytInitialData json from the watch_html page. This mostly contains metadata necessary for rendering the page on-load, such as video information, copyright notices, etc. @param watch_html: Html of the watch page @return: """ patterns = [ r"window\[['\"]ytInitialData['\"]]\s*=\s*", r"ytInitialData\s*=\s*" ] for pattern in patterns: try: return parse_for_object(watch_html, pattern) except HTMLParseError: pass raise RegexMatchError(caller='initial_data', pattern='initial_data_pattern') def initial_player_response(watch_html: str) -> str: """Extract the ytInitialPlayerResponse json from the watch_html page. This mostly contains metadata necessary for rendering the page on-load, such as video information, copyright notices, etc. @param watch_html: Html of the watch page @return: """ patterns = [ r"window\[['\"]ytInitialPlayerResponse['\"]]\s*=\s*", r"ytInitialPlayerResponse\s*=\s*" ] for pattern in patterns: try: return parse_for_object(watch_html, pattern) except HTMLParseError: pass raise RegexMatchError( caller='initial_player_response', pattern='initial_player_response_pattern' ) def metadata(initial_data) -> Optional[YouTubeMetadata]: """Get the informational metadata for the video. e.g.: [ { 'Song': '강남스타일(Gangnam Style)', 'Artist': 'PSY', 'Album': 'PSY SIX RULES Pt.1', 'Licensed to YouTube by': 'YG Entertainment Inc. [...]' } ] :rtype: YouTubeMetadata """ try: metadata_rows: List = initial_data["contents"]["twoColumnWatchNextResults"][ "results"]["results"]["contents"][1]["videoSecondaryInfoRenderer"][ "metadataRowContainer"]["metadataRowContainerRenderer"]["rows"] except (KeyError, IndexError): # If there's an exception accessing this data, it probably doesn't exist. return YouTubeMetadata([]) # Rows appear to only have "metadataRowRenderer" or "metadataRowHeaderRenderer" # and we only care about the former, so we filter the others metadata_rows = filter( lambda x: "metadataRowRenderer" in x.keys(), metadata_rows ) # We then access the metadataRowRenderer key in each element # and build a metadata object from this new list metadata_rows = [x["metadataRowRenderer"] for x in metadata_rows] return YouTubeMetadata(metadata_rows)