import base64 import binascii import datetime as dt import hashlib import hmac import json import os import re import urllib.parse from .common import InfoExtractor from ..utils import ( ExtractorError, int_or_none, js_to_json, remove_end, traverse_obj, ) class GoPlayIE(InfoExtractor): _VALID_URL = r'https?://(www\.)?goplay\.be/video/([^/?#]+/[^/?#]+/|)(?P[^/#]+)' _NETRC_MACHINE = 'goplay' _TESTS = [{ 'url': 'https://www.goplay.be/video/de-slimste-mens-ter-wereld/de-slimste-mens-ter-wereld-s22/de-slimste-mens-ter-wereld-s22-aflevering-1', 'info_dict': { 'id': '2baa4560-87a0-421b-bffc-359914e3c387', 'ext': 'mp4', 'title': 'S22 - Aflevering 1', 'description': r're:In aflevering 1 nemen Daan Alferink, Tess Elst en Xander De Rycke .{66}', 'series': 'De Slimste Mens ter Wereld', 'episode': 'Episode 1', 'season_number': 22, 'episode_number': 1, 'season': 'Season 22', }, 'params': {'skip_download': True}, 'skip': 'This video is only available for registered users', }, { 'url': 'https://www.goplay.be/video/1917', 'info_dict': { 'id': '40cac41d-8d29-4ef5-aa11-75047b9f0907', 'ext': 'mp4', 'title': '1917', 'description': r're:Op het hoogtepunt van de Eerste Wereldoorlog krijgen twee jonge .{94}', }, 'params': {'skip_download': True}, 'skip': 'This video is only available for registered users', }, { 'url': 'https://www.goplay.be/video/de-mol/de-mol-s11/de-mol-s11-aflevering-1#autoplay', 'info_dict': { 'id': 'ecb79672-92b9-4cd9-a0d7-e2f0250681ee', 'ext': 'mp4', 'title': 'S11 - Aflevering 1', 'description': r're:Tien kandidaten beginnen aan hun verovering van Amerika en ontmoeten .{102}', 'episode': 'Episode 1', 'series': 'De Mol', 'season_number': 11, 'episode_number': 1, 'season': 'Season 11', }, 'params': {'skip_download': True}, 'skip': 'This video is only available for registered users', }] _id_token = None def _perform_login(self, username, password): self.report_login() aws = AwsIdp(ie=self, pool_id='eu-west-1_dViSsKM5Y', client_id='6s1h851s8uplco5h6mqh1jac8m') self._id_token, _ = aws.authenticate(username=username, password=password) def _real_initialize(self): if not self._id_token: raise self.raise_login_required(method='password') def _find_json(self, s): return self._search_json( r'\w+\s*:\s*', s, 'next js data', None, contains_pattern=r'\[(?s:.+)\]', default=None) def _real_extract(self, url): display_id = self._match_id(url) webpage = self._download_webpage(url, display_id) nextjs_data = traverse_obj( re.findall(r']*>\s*self\.__next_f\.push\(\s*(\[.+?\])\s*\);?\s*', webpage), (..., {js_to_json}, {json.loads}, ..., {self._find_json}, ...)) meta = traverse_obj(nextjs_data, ( ..., lambda _, v: v['meta']['path'] == urllib.parse.urlparse(url).path, 'meta', any)) video_id = meta['uuid'] info_dict = traverse_obj(meta, { 'title': ('title', {str}), 'description': ('description', {str.strip}), }) if traverse_obj(meta, ('program', 'subtype')) != 'movie': for season_data in traverse_obj(nextjs_data, (..., 'children', ..., 'playlists', ...)): episode_data = traverse_obj( season_data, ('videos', lambda _, v: v['videoId'] == video_id, any)) if not episode_data: continue episode_title = traverse_obj( episode_data, 'contextualTitle', 'episodeTitle', expected_type=str) info_dict.update({ 'title': episode_title or info_dict.get('title'), 'series': remove_end(info_dict.get('title'), f' - {episode_title}'), 'season_number': traverse_obj(season_data, ('season', {int_or_none})), 'episode_number': traverse_obj(episode_data, ('episodeNumber', {int_or_none})), }) break api = self._download_json( f'https://api.goplay.be/web/v1/videos/long-form/{video_id}', video_id, headers={ 'Authorization': f'Bearer {self._id_token}', **self.geo_verification_headers(), }) if 'manifestUrls' in api: formats, subtitles = self._extract_m3u8_formats_and_subtitles( api['manifestUrls']['hls'], video_id, ext='mp4', m3u8_id='HLS') else: if 'ssai' not in api: raise ExtractorError('expecting Google SSAI stream') ssai_content_source_id = api['ssai']['contentSourceID'] ssai_video_id = api['ssai']['videoID'] dai = self._download_json( f'https://dai.google.com/ondemand/dash/content/{ssai_content_source_id}/vid/{ssai_video_id}/streams', video_id, data=b'{"api-key":"null"}', headers={'content-type': 'application/json'}) periods = self._extract_mpd_periods(dai['stream_manifest'], video_id) # skip pre-roll and mid-roll ads periods = [p for p in periods if '-ad-' not in p['id']] formats, subtitles = self._merge_mpd_periods(periods) info_dict.update({ 'id': video_id, 'formats': formats, 'subtitles': subtitles, }) return info_dict # Taken from https://github.com/add-ons/plugin.video.viervijfzes/blob/master/resources/lib/viervijfzes/auth_awsidp.py # Released into Public domain by https://github.com/michaelarnauts class InvalidLoginException(ExtractorError): """ The login credentials are invalid """ class AuthenticationException(ExtractorError): """ Something went wrong while logging in """ class AwsIdp: """ AWS Identity Provider """ def __init__(self, ie, pool_id, client_id): """ :param InfoExtrator ie: The extractor that instantiated this class. :param str pool_id: The AWS user pool to connect to (format: _). E.g.: eu-west-1_aLkOfYN3T :param str client_id: The client application ID (the ID of the application connecting) """ self.ie = ie self.pool_id = pool_id if '_' not in self.pool_id: raise ValueError('Invalid pool_id format. Should be _.') self.client_id = client_id self.region = self.pool_id.split('_')[0] self.url = f'https://cognito-idp.{self.region}.amazonaws.com/' # Initialize the values # https://github.com/aws/amazon-cognito-identity-js/blob/master/src/AuthenticationHelper.js#L22 self.n_hex = ( 'FFFFFFFFFFFFFFFFC90FDAA22168C234C4C6628B80DC1CD1' '29024E088A67CC74020BBEA63B139B22514A08798E3404DD' 'EF9519B3CD3A431B302B0A6DF25F14374FE1356D6D51C245' 'E485B576625E7EC6F44C42E9A637ED6B0BFF5CB6F406B7ED' 'EE386BFB5A899FA5AE9F24117C4B1FE649286651ECE45B3D' 'C2007CB8A163BF0598DA48361C55D39A69163FA8FD24CF5F' '83655D23DCA3AD961C62F356208552BB9ED529077096966D' '670C354E4ABC9804F1746C08CA18217C32905E462E36CE3B' 'E39E772C180E86039B2783A2EC07A28FB5C55DF06F4C52C9' 'DE2BCBF6955817183995497CEA956AE515D2261898FA0510' '15728E5A8AAAC42DAD33170D04507A33A85521ABDF1CBA64' 'ECFB850458DBEF0A8AEA71575D060C7DB3970F85A6E1E4C7' 'ABF5AE8CDB0933D71E8C94E04A25619DCEE3D2261AD2EE6B' 'F12FFA06D98A0864D87602733EC86A64521F2B18177B200C' 'BBE117577A615D6C770988C0BAD946E208E24FA074E5AB31' '43DB5BFCE0FD108E4B82D120A93AD2CAFFFFFFFFFFFFFFFF') # https://github.com/aws/amazon-cognito-identity-js/blob/master/src/AuthenticationHelper.js#L49 self.g_hex = '2' self.info_bits = bytearray('Caldera Derived Key', 'utf-8') self.big_n = self.__hex_to_long(self.n_hex) self.g = self.__hex_to_long(self.g_hex) self.k = self.__hex_to_long(self.__hex_hash('00' + self.n_hex + '0' + self.g_hex)) self.small_a_value = self.__generate_random_small_a() self.large_a_value = self.__calculate_a() def authenticate(self, username, password): """ Authenticate with a username and password. """ # Step 1: First initiate an authentication request auth_data_dict = self.__get_authentication_request(username) auth_data = json.dumps(auth_data_dict).encode() auth_headers = { 'X-Amz-Target': 'AWSCognitoIdentityProviderService.InitiateAuth', 'Accept-Encoding': 'identity', 'Content-Type': 'application/x-amz-json-1.1', } auth_response_json = self.ie._download_json( self.url, None, data=auth_data, headers=auth_headers, note='Authenticating username', errnote='Invalid username') challenge_parameters = auth_response_json.get('ChallengeParameters') if auth_response_json.get('ChallengeName') != 'PASSWORD_VERIFIER': raise AuthenticationException(auth_response_json['message']) # Step 2: Respond to the Challenge with a valid ChallengeResponse challenge_request = self.__get_challenge_response_request(challenge_parameters, password) challenge_data = json.dumps(challenge_request).encode() challenge_headers = { 'X-Amz-Target': 'AWSCognitoIdentityProviderService.RespondToAuthChallenge', 'Content-Type': 'application/x-amz-json-1.1', } auth_response_json = self.ie._download_json( self.url, None, data=challenge_data, headers=challenge_headers, note='Authenticating password', errnote='Invalid password') if 'message' in auth_response_json: raise InvalidLoginException(auth_response_json['message']) return ( auth_response_json['AuthenticationResult']['IdToken'], auth_response_json['AuthenticationResult']['RefreshToken'], ) def __get_authentication_request(self, username): """ :param str username: The username to use :return: A full Authorization request. :rtype: dict """ return { 'AuthParameters': { 'USERNAME': username, 'SRP_A': self.__long_to_hex(self.large_a_value), }, 'AuthFlow': 'USER_SRP_AUTH', 'ClientId': self.client_id, } def __get_challenge_response_request(self, challenge_parameters, password): """ Create a Challenge Response Request object. :param dict[str,str|imt] challenge_parameters: The parameters for the challenge. :param str password: The password. :return: A valid and full request data object to use as a response for a challenge. :rtype: dict """ user_id = challenge_parameters['USERNAME'] user_id_for_srp = challenge_parameters['USER_ID_FOR_SRP'] srp_b = challenge_parameters['SRP_B'] salt = challenge_parameters['SALT'] secret_block = challenge_parameters['SECRET_BLOCK'] timestamp = self.__get_current_timestamp() # Get a HKDF key for the password, SrpB and the Salt hkdf = self.__get_hkdf_key_for_password( user_id_for_srp, password, self.__hex_to_long(srp_b), salt, ) secret_block_bytes = base64.standard_b64decode(secret_block) # the message is a combo of the pool_id, provided SRP userId, the Secret and Timestamp msg = \ bytearray(self.pool_id.split('_')[1], 'utf-8') + \ bytearray(user_id_for_srp, 'utf-8') + \ bytearray(secret_block_bytes) + \ bytearray(timestamp, 'utf-8') hmac_obj = hmac.new(hkdf, msg, digestmod=hashlib.sha256) signature_string = base64.standard_b64encode(hmac_obj.digest()).decode('utf-8') return { 'ChallengeResponses': { 'USERNAME': user_id, 'TIMESTAMP': timestamp, 'PASSWORD_CLAIM_SECRET_BLOCK': secret_block, 'PASSWORD_CLAIM_SIGNATURE': signature_string, }, 'ChallengeName': 'PASSWORD_VERIFIER', 'ClientId': self.client_id, } def __get_hkdf_key_for_password(self, username, password, server_b_value, salt): """ Calculates the final hkdf based on computed S value, and computed U value and the key. :param str username: Username. :param str password: Password. :param int server_b_value: Server B value. :param int salt: Generated salt. :return Computed HKDF value. :rtype: object """ u_value = self.__calculate_u(self.large_a_value, server_b_value) if u_value == 0: raise ValueError('U cannot be zero.') username_password = '{}{}:{}'.format(self.pool_id.split('_')[1], username, password) username_password_hash = self.__hash_sha256(username_password.encode()) x_value = self.__hex_to_long(self.__hex_hash(self.__pad_hex(salt) + username_password_hash)) g_mod_pow_xn = pow(self.g, x_value, self.big_n) int_value2 = server_b_value - self.k * g_mod_pow_xn s_value = pow(int_value2, self.small_a_value + u_value * x_value, self.big_n) return self.__compute_hkdf( bytearray.fromhex(self.__pad_hex(s_value)), bytearray.fromhex(self.__pad_hex(self.__long_to_hex(u_value))), ) def __compute_hkdf(self, ikm, salt): """ Standard hkdf algorithm :param {Buffer} ikm Input key material. :param {Buffer} salt Salt value. :return {Buffer} Strong key material. """ prk = hmac.new(salt, ikm, hashlib.sha256).digest() info_bits_update = self.info_bits + bytearray(chr(1), 'utf-8') hmac_hash = hmac.new(prk, info_bits_update, hashlib.sha256).digest() return hmac_hash[:16] def __calculate_u(self, big_a, big_b): """ Calculate the client's value U which is the hash of A and B :param int big_a: Large A value. :param int big_b: Server B value. :return Computed U value. :rtype: int """ u_hex_hash = self.__hex_hash(self.__pad_hex(big_a) + self.__pad_hex(big_b)) return self.__hex_to_long(u_hex_hash) def __generate_random_small_a(self): """ Helper function to generate a random big integer :return a random value. :rtype: int """ random_long_int = self.__get_random(128) return random_long_int % self.big_n def __calculate_a(self): """ Calculate the client's public value A = g^a%N with the generated random number a :return Computed large A. :rtype: int """ big_a = pow(self.g, self.small_a_value, self.big_n) # safety check if (big_a % self.big_n) == 0: raise ValueError('Safety check for A failed') return big_a @staticmethod def __long_to_hex(long_num): return f'{long_num:x}' @staticmethod def __hex_to_long(hex_string): return int(hex_string, 16) @staticmethod def __hex_hash(hex_string): return AwsIdp.__hash_sha256(bytearray.fromhex(hex_string)) @staticmethod def __hash_sha256(buf): """AuthenticationHelper.hash""" digest = hashlib.sha256(buf).hexdigest() return (64 - len(digest)) * '0' + digest @staticmethod def __pad_hex(long_int): """ Converts a Long integer (or hex string) to hex format padded with zeroes for hashing :param int|str long_int: Number or string to pad. :return Padded hex string. :rtype: str """ if not isinstance(long_int, str): hash_str = AwsIdp.__long_to_hex(long_int) else: hash_str = long_int if len(hash_str) % 2 == 1: hash_str = f'0{hash_str}' elif hash_str[0] in '89ABCDEFabcdef': hash_str = f'00{hash_str}' return hash_str @staticmethod def __get_random(nbytes): random_hex = binascii.hexlify(os.urandom(nbytes)) return AwsIdp.__hex_to_long(random_hex) @staticmethod def __get_current_timestamp(): """ Creates a timestamp with the correct English format. :return: timestamp in format 'Sun Jan 27 19:00:04 UTC 2019' :rtype: str """ # We need US only data, so we cannot just do a strftime: # Sun Jan 27 19:00:04 UTC 2019 months = [None, 'Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec'] days = ['Mon', 'Tue', 'Wed', 'Thu', 'Fri', 'Sat', 'Sun'] time_now = dt.datetime.now(dt.timezone.utc) format_string = f'{days[time_now.weekday()]} {months[time_now.month]} {time_now.day} %H:%M:%S UTC %Y' return time_now.strftime(format_string) def __str__(self): return 'AWS IDP Client for:\nRegion: {}\nPoolId: {}\nAppId: {}'.format( self.region, self.pool_id.split('_')[1], self.client_id, )