import itertools import os import time from collections import OrderedDict from datetime import datetime, timedelta from mimetypes import guess_type try: import socks except ImportError: socks = None from . import TelegramBareClient from . import helpers, utils from .errors import ( RPCError, UnauthorizedError, InvalidParameterError, PhoneCodeEmptyError, PhoneCodeExpiredError, PhoneCodeHashEmptyError, PhoneCodeInvalidError ) from .network import ConnectionMode from .tl import TLObject from .tl.custom import Draft, Dialog from .tl.entity_database import EntityDatabase from .tl.functions.account import ( GetPasswordRequest ) from .tl.functions.auth import ( CheckPasswordRequest, LogOutRequest, SendCodeRequest, SignInRequest, SignUpRequest, ResendCodeRequest, ImportBotAuthorizationRequest ) from .tl.functions.contacts import ( GetContactsRequest, ResolveUsernameRequest ) from .tl.functions.messages import ( GetDialogsRequest, GetHistoryRequest, ReadHistoryRequest, SendMediaRequest, SendMessageRequest, GetChatsRequest, GetAllDraftsRequest, CheckChatInviteRequest ) from .tl.functions import channels from .tl.functions import messages from .tl.functions.users import ( GetUsersRequest ) from .tl.functions.channels import ( GetChannelsRequest ) from .tl.types import ( DocumentAttributeAudio, DocumentAttributeFilename, InputDocumentFileLocation, InputFileLocation, InputMediaUploadedDocument, InputMediaUploadedPhoto, InputPeerEmpty, Message, MessageMediaContact, MessageMediaDocument, MessageMediaPhoto, InputUserSelf, UserProfilePhoto, ChatPhoto, UpdateMessageID, UpdateNewChannelMessage, UpdateNewMessage, UpdateShortSentMessage, PeerUser, InputPeerUser, InputPeerChat, InputPeerChannel, MessageEmpty, ChatInvite, ChatInviteAlready, PeerChannel ) from .tl.types.messages import DialogsSlice from .extensions import markdown class TelegramClient(TelegramBareClient): """Full featured TelegramClient meant to extend the basic functionality - As opposed to the TelegramBareClient, this one features downloading media from different data centers, starting a second thread to handle updates, and some very common functionality. """ # region Initialization def __init__(self, session, api_id, api_hash, connection_mode=ConnectionMode.TCP_FULL, use_ipv6=False, proxy=None, update_workers=None, timeout=timedelta(seconds=5), spawn_read_thread=True, **kwargs): """Initializes the Telegram client with the specified API ID and Hash. Session can either be a `str` object (filename for the .session) or it can be a `Session` instance (in which case list_sessions() would probably not work). Pass 'None' for it to be a temporary session - remember to '.log_out()'! The 'connection_mode' should be any value under ConnectionMode. This will only affect how messages are sent over the network and how much processing is required before sending them. The integer 'update_workers' represents depending on its value: is None: Updates will *not* be stored in memory. = 0: Another thread is responsible for calling self.updates.poll() > 0: 'update_workers' background threads will be spawned, any any of them will invoke all the self.updates.handlers. If 'spawn_read_thread', a background thread will be started once an authorized user has been logged in to Telegram to read items (such as updates and responses) from the network as soon as they occur, which will speed things up. If you don't want to spawn any additional threads, pending updates will be read and processed accordingly after invoking a request and not immediately. This is useful if you don't care about updates at all and have set 'update_workers=None'. If more named arguments are provided as **kwargs, they will be used to update the Session instance. Most common settings are: device_model = platform.node() system_version = platform.system() app_version = TelegramClient.__version__ lang_code = 'en' system_lang_code = lang_code report_errors = True """ super().__init__( session, api_id, api_hash, connection_mode=connection_mode, use_ipv6=use_ipv6, proxy=proxy, update_workers=update_workers, spawn_read_thread=spawn_read_thread, timeout=timeout, **kwargs ) # Some fields to easy signing in self._phone_code_hash = None self._phone = None # endregion # region Telegram requests functions # region Authorization requests def send_code_request(self, phone, force_sms=False): """Sends a code request to the specified phone number. :param str | int phone: The phone to which the code will be sent. :param bool force_sms: Whether to force sending as SMS. :return auth.SentCode: Information about the result of the request. """ phone = EntityDatabase.parse_phone(phone) or self._phone if not self._phone_code_hash: result = self(SendCodeRequest(phone, self.api_id, self.api_hash)) self._phone_code_hash = result.phone_code_hash else: force_sms = True self._phone = phone if force_sms: result = self(ResendCodeRequest(phone, self._phone_code_hash)) self._phone_code_hash = result.phone_code_hash return result def sign_in(self, phone=None, code=None, password=None, bot_token=None, phone_code_hash=None): """ Starts or completes the sign in process with the given phone number or code that Telegram sent. :param str | int phone: The phone to send the code to if no code was provided, or to override the phone that was previously used with these requests. :param str | int code: The code that Telegram sent. :param str password: 2FA password, should be used if a previous call raised SessionPasswordNeededError. :param str bot_token: Used to sign in as a bot. Not all requests will be available. This should be the hash the @BotFather gave you. :param str phone_code_hash: The hash returned by .send_code_request. This can be set to None to use the last hash known. :return auth.SentCode | User: The signed in user, or the information about .send_code_request(). """ if phone and not code: return self.send_code_request(phone) elif code: phone = EntityDatabase.parse_phone(phone) or self._phone phone_code_hash = phone_code_hash or self._phone_code_hash if not phone: raise ValueError( 'Please make sure to call send_code_request first.' ) if not phone_code_hash: raise ValueError('You also need to provide a phone_code_hash.') try: if isinstance(code, int): code = str(code) result = self(SignInRequest(phone, phone_code_hash, code)) except (PhoneCodeEmptyError, PhoneCodeExpiredError, PhoneCodeHashEmptyError, PhoneCodeInvalidError): return None elif password: salt = self(GetPasswordRequest()).current_salt result = self(CheckPasswordRequest( helpers.get_password_hash(password, salt) )) elif bot_token: result = self(ImportBotAuthorizationRequest( flags=0, bot_auth_token=bot_token, api_id=self.api_id, api_hash=self.api_hash )) else: raise ValueError( 'You must provide a phone and a code the first time, ' 'and a password only if an RPCError was raised before.' ) self._set_connected_and_authorized() return result.user def sign_up(self, code, first_name, last_name=''): """ Signs up to Telegram if you don't have an account yet. You must call .send_code_request(phone) first. :param str | int code: The code sent by Telegram :param str first_name: The first name to be used by the new account. :param str last_name: Optional last name. :return User: The new created user. """ result = self(SignUpRequest( phone_number=self._phone, phone_code_hash=self._phone_code_hash, phone_code=code, first_name=first_name, last_name=last_name )) self._set_connected_and_authorized() return result.user def log_out(self): """Logs out Telegram and deletes the current *.session file. :return bool: True if the operation was successful. """ try: self(LogOutRequest()) except RPCError: return False self.disconnect() self.session.delete() self.session = None return True def get_me(self): """ Gets "me" (the self user) which is currently authenticated, or None if the request fails (hence, not authenticated). :return User: Your own user. """ try: return self(GetUsersRequest([InputUserSelf()]))[0] except UnauthorizedError: return None # endregion # region Dialogs ("chats") requests def get_dialogs(self, limit=10, offset_date=None, offset_id=0, offset_peer=InputPeerEmpty()): """ Gets N "dialogs" (open "chats" or conversations with other people). :param limit: How many dialogs to be retrieved as maximum. Can be set to None to retrieve all dialogs. Note that this may take whole minutes if you have hundreds of dialogs, as Telegram will tell the library to slow down through a FloodWaitError. :param offset_date: The offset date to be used. :param offset_id: The message ID to be used as an offset. :param offset_peer: The peer to be used as an offset. :return List[telethon.tl.custom.Dialog]: A list dialogs. """ limit = float('inf') if limit is None else int(limit) if limit == 0: return [], [] dialogs = OrderedDict() # Use peer id as identifier to avoid dupes while len(dialogs) < limit: real_limit = min(limit - len(dialogs), 100) r = self(GetDialogsRequest( offset_date=offset_date, offset_id=offset_id, offset_peer=offset_peer, limit=real_limit )) messages = {m.id: m for m in r.messages} entities = {utils.get_peer_id(x, add_mark=True): x for x in itertools.chain(r.users, r.chats)} for d in r.dialogs: dialogs[utils.get_peer_id(d.peer, add_mark=True)] = \ Dialog(self, d, entities, messages) if len(r.dialogs) < real_limit or not isinstance(r, DialogsSlice): # Less than we requested means we reached the end, or # we didn't get a DialogsSlice which means we got all. break offset_date = r.messages[-1].date offset_peer = utils.find_user_or_chat( r.dialogs[-1].peer, entities, entities ) offset_id = r.messages[-1].id & 4294967296 # Telegram/danog magic dialogs = list(dialogs.values()) return dialogs[:limit] if limit < float('inf') else dialogs def get_drafts(self): # TODO: Ability to provide a `filter` """ Gets all open draft messages. Returns a list of custom `Draft` objects that are easy to work with: You can call `draft.set_message('text')` to change the message, or delete it through `draft.delete()`. :return List[telethon.tl.custom.Draft]: A list of open drafts """ response = self(GetAllDraftsRequest()) self.session.process_entities(response) self.session.generate_sequence(response.seq) drafts = [Draft._from_update(self, u) for u in response.updates] return drafts def send_message(self, entity, message, reply_to=None, parse_mode=None, link_preview=True): """ Sends the given message to the specified entity (user/chat/channel). :param str | int | User | Chat | Channel entity: To who will it be sent. :param str message: The message to be sent. :param int | Message reply_to: Whether to reply to a message or not. :param str parse_mode: Can be 'md' or 'markdown' for markdown-like parsing, in a similar fashion how official clients work. :param link_preview: Should the link preview be shown? :return Message: the sent message """ entity = self.get_input_entity(entity) if parse_mode: parse_mode = parse_mode.lower() if parse_mode in {'md', 'markdown'}: message, msg_entities = markdown.parse(message) else: raise ValueError('Unknown parsing mode', parse_mode) else: msg_entities = [] request = SendMessageRequest( peer=entity, message=message, entities=msg_entities, no_webpage=not link_preview, reply_to_msg_id=self._get_reply_to(reply_to) ) result = self(request) if isinstance(result, UpdateShortSentMessage): return Message( id=result.id, to_id=entity, message=message, date=result.date, out=result.out, media=result.media, entities=result.entities ) # Telegram seems to send updateMessageID first, then updateNewMessage, # however let's not rely on that just in case. msg_id = None for update in result.updates: if isinstance(update, UpdateMessageID): if update.random_id == request.random_id: msg_id = update.id break for update in result.updates: if isinstance(update, (UpdateNewChannelMessage, UpdateNewMessage)): if update.message.id == msg_id: return update.message return None # Should not happen def delete_messages(self, entity, message_ids, revoke=True): """ Deletes a message from a chat, optionally "for everyone" with argument `revoke` set to `True`. The `revoke` argument has no effect for Channels and Megagroups, where it inherently behaves as being `True`. Note: The `entity` argument can be `None` for normal chats, but it's mandatory to delete messages from Channels and Megagroups. It is also possible to supply a chat_id which will be automatically resolved to the right type of InputPeer. :param entity: ID or Entity of the chat :param list message_ids: ID(s) or `Message` object(s) of the message(s) to delete :param revoke: Delete the message for everyone or just this client :returns .messages.AffectedMessages: Messages affected by deletion. """ if not isinstance(message_ids, list): message_ids = [message_ids] message_ids = [m.id if isinstance(m, Message) else int(m) for m in message_ids] if entity is None: return self(messages.DeleteMessagesRequest(message_ids, revoke=revoke)) entity = self.get_input_entity(entity) if isinstance(entity, InputPeerChannel): return self(channels.DeleteMessagesRequest(entity, message_ids)) else: return self(messages.DeleteMessagesRequest(message_ids, revoke=revoke)) def get_message_history(self, entity, limit=20, offset_date=None, offset_id=0, max_id=0, min_id=0, add_offset=0): """ Gets the message history for the specified entity :param entity: The entity from whom to retrieve the message history. :param limit: Number of messages to be retrieved. Due to limitations with the API retrieving more than 3000 messages will take longer than half a minute (or even more based on previous calls). The limit may also be None, which would eventually return the whole history. :param offset_date: Offset date (messages *previous* to this date will be retrieved). :param offset_id: Offset message ID (only messages *previous* to the given ID will be retrieved). :param max_id: All the messages with a higher (newer) ID or equal to this will be excluded :param min_id: All the messages with a lower (older) ID or equal to this will be excluded. :param add_offset: Additional message offset (all of the specified offsets + this offset = older messages). :return: A tuple containing total message count and two more lists ([messages], [senders]). Note that the sender can be null if it was not found! """ entity = self.get_input_entity(entity) limit = float('inf') if limit is None else int(limit) if limit == 0: # No messages, but we still need to know the total message count result = self(GetHistoryRequest( peer=entity, limit=1, offset_date=None, offset_id=0, max_id=0, min_id=0, add_offset=0 )) return getattr(result, 'count', len(result.messages)), [], [] total_messages = 0 messages = [] entities = {} while len(messages) < limit: # Telegram has a hard limit of 100 real_limit = min(limit - len(messages), 100) result = self(GetHistoryRequest( peer=entity, limit=real_limit, offset_date=offset_date, offset_id=offset_id, max_id=max_id, min_id=min_id, add_offset=add_offset )) messages.extend( m for m in result.messages if not isinstance(m, MessageEmpty) ) total_messages = getattr(result, 'count', len(result.messages)) # TODO We can potentially use self.session.database, but since # it might be disabled, use a local dictionary. for u in result.users: entities[utils.get_peer_id(u, add_mark=True)] = u for c in result.chats: entities[utils.get_peer_id(c, add_mark=True)] = c if len(result.messages) < real_limit: break offset_id = result.messages[-1].id offset_date = result.messages[-1].date # Telegram limit seems to be 3000 messages within 30 seconds in # batches of 100 messages each request (since the FloodWait was # of 30 seconds). If the limit is greater than that, we will # sleep 1s between each request. if limit > 3000: time.sleep(1) # In a new list with the same length as the messages append # their senders, so people can zip(messages, senders). senders = [] for m in messages: if m.from_id: who = entities[utils.get_peer_id(m.from_id, add_mark=True)] elif getattr(m, 'fwd_from', None): # .from_id is optional, so this is the sanest fallback. who = entities[utils.get_peer_id( m.fwd_from.from_id or PeerChannel(m.fwd_from.channel_id), add_mark=True )] else: # If there's not even a FwdHeader, fallback to the sender # being where the message was sent. who = entities[utils.get_peer_id(m.to_id, add_mark=True)] senders.append(who) return total_messages, messages, senders def send_read_acknowledge(self, entity, message=None, max_id=None): """ Sends a "read acknowledge" (i.e., notifying the given peer that we've read their messages, also known as the "double check"). :param entity: The chat where these messages are located. :param message: Either a list of messages or a single message. :param max_id: Overrides messages, until which message should the acknowledge should be sent. :return: """ if max_id is None: if not messages: raise InvalidParameterError( 'Either a message list or a max_id must be provided.') if hasattr(message, '__iter__'): max_id = max(msg.id for msg in message) else: max_id = message.id entity = self.get_input_entity(entity) if entity == InputPeerChannel: return self(channels.ReadHistoryRequest(entity, max_id=max_id)) else: return self(messages.ReadHistoryRequest(entity, max_id=max_id)) @staticmethod def _get_reply_to(reply_to): """Sanitizes the 'reply_to' parameter a user may send""" if reply_to is None: return None if isinstance(reply_to, int): return reply_to if isinstance(reply_to, TLObject) and \ type(reply_to).SUBCLASS_OF_ID == 0x790009e3: # hex(crc32(b'Message')) = 0x790009e3 return reply_to.id raise ValueError('Invalid reply_to type: ', type(reply_to)) # endregion # region Uploading files def send_file(self, entity, file, caption='', force_document=False, progress_callback=None, reply_to=None, attributes=None, **kwargs): """ Sends a file to the specified entity. :param entity: Who will receive the file. :param file: The path of the file, byte array, or stream that will be sent. Note that if a byte array or a stream is given, a filename or its type won't be inferred, and it will be sent as an "unnamed application/octet-stream". Subsequent calls with the very same file will result in immediate uploads, unless .clear_file_cache() is called. :param caption: Optional caption for the sent media message. :param force_document: If left to False and the file is a path that ends with .png, .jpg and such, the file will be sent as a photo. Otherwise always as a document. :param progress_callback: A callback function accepting two parameters: (sent bytes, total) :param reply_to: Same as reply_to from .send_message(). :param attributes: Optional attributes that override the inferred ones, like DocumentAttributeFilename and so on. :param kwargs: If "is_voice_note" in kwargs, despite its value, and the file is sent as a document, it will be sent as a voice note. :return: """ as_photo = False if isinstance(file, str): lowercase_file = file.lower() as_photo = any( lowercase_file.endswith(ext) for ext in ('.png', '.jpg', '.gif', '.jpeg') ) file_hash = hash(file) if file_hash in self._upload_cache: file_handle = self._upload_cache[file_hash] else: self._upload_cache[file_hash] = file_handle = self.upload_file( file, progress_callback=progress_callback ) if as_photo and not force_document: media = InputMediaUploadedPhoto(file_handle, caption) else: mime_type = None if isinstance(file, str): # Determine mime-type and attributes # Take the first element by using [0] since it returns a tuple mime_type = guess_type(file)[0] attr_dict = { DocumentAttributeFilename: DocumentAttributeFilename(os.path.basename(file)) # TODO If the input file is an audio, find out: # Performer and song title and add DocumentAttributeAudio } else: attr_dict = { DocumentAttributeFilename: DocumentAttributeFilename('unnamed') } if 'is_voice_note' in kwargs: attr_dict[DocumentAttributeAudio] = \ DocumentAttributeAudio(0, voice=True) # Now override the attributes if any. As we have a dict of # {cls: instance}, we can override any class with the list # of attributes provided by the user easily. if attributes: for a in attributes: attr_dict[type(a)] = a # Ensure we have a mime type, any; but it cannot be None # 'The "octet-stream" subtype is used to indicate that a body # contains arbitrary binary data.' if not mime_type: mime_type = 'application/octet-stream' media = InputMediaUploadedDocument( file=file_handle, mime_type=mime_type, attributes=list(attr_dict.values()), caption=caption ) # Once the media type is properly specified and the file uploaded, # send the media message to the desired entity. self(SendMediaRequest( peer=self.get_input_entity(entity), media=media, reply_to_msg_id=self._get_reply_to(reply_to) )) def send_voice_note(self, entity, file, caption='', upload_progress=None, reply_to=None): """Wrapper method around .send_file() with is_voice_note=()""" return self.send_file(entity, file, caption, upload_progress=upload_progress, reply_to=reply_to, is_voice_note=()) # empty tuple is enough def clear_file_cache(self): """Calls to .send_file() will cache the remote location of the uploaded files so that subsequent files can be immediate, so uploading the same file path will result in using the cached version. To avoid this a call to this method should be made. """ self._upload_cache.clear() # endregion # region Downloading media requests def download_profile_photo(self, entity, file=None, download_big=True): """ Downloads the profile photo of the given entity (user/chat/channel). :param entity: From who the photo will be downloaded. :param file: The output file path, directory, or stream-like object. If the path exists and is a file, it will be overwritten. :param download_big: Whether to use the big version of the available photos. :return: None if no photo was provided, or if it was Empty. On success the file path is returned since it may differ from the one given. """ possible_names = [] if not isinstance(entity, TLObject) or type(entity).SUBCLASS_OF_ID in ( 0x2da17977, 0xc5af5d94, 0x1f4661b9, 0xd49a2697 ): # Maybe it is an user or a chat? Or their full versions? # # The hexadecimal numbers above are simply: # hex(crc32(x.encode('ascii'))) for x in # ('User', 'Chat', 'UserFull', 'ChatFull') entity = self.get_entity(entity) if not hasattr(entity, 'photo'): # Special case: may be a ChatFull with photo:Photo # This is different from a normal UserProfilePhoto and Chat if hasattr(entity, 'chat_photo'): return self._download_photo( entity.chat_photo, file, date=None, progress_callback=None ) else: # Give up return None for attr in ('username', 'first_name', 'title'): possible_names.append(getattr(entity, attr, None)) entity = entity.photo if not isinstance(entity, UserProfilePhoto) and \ not isinstance(entity, ChatPhoto): return None if download_big: photo_location = entity.photo_big else: photo_location = entity.photo_small file = self._get_proper_filename( file, 'profile_photo', '.jpg', possible_names=possible_names ) # Download the media with the largest size input file location self.download_file( InputFileLocation( volume_id=photo_location.volume_id, local_id=photo_location.local_id, secret=photo_location.secret ), file ) return file def download_media(self, message, file=None, progress_callback=None): """ Downloads the given media, or the media from a specified Message. :param message: The media or message containing the media that will be downloaded. :param file: The output file path, directory, or stream-like object. If the path exists and is a file, it will be overwritten. :param progress_callback: A callback function accepting two parameters: (recv bytes, total) :return: """ # TODO This won't work for messageService if isinstance(message, Message): date = message.date media = message.media else: date = datetime.now() media = message if isinstance(media, MessageMediaPhoto): return self._download_photo( media, file, date, progress_callback ) elif isinstance(media, MessageMediaDocument): return self._download_document( media, file, date, progress_callback ) elif isinstance(media, MessageMediaContact): return self._download_contact( media, file ) def _download_photo(self, mm_photo, file, date, progress_callback): """Specialized version of .download_media() for photos""" # Determine the photo and its largest size photo = mm_photo.photo largest_size = photo.sizes[-1] file_size = largest_size.size largest_size = largest_size.location file = self._get_proper_filename(file, 'photo', '.jpg', date=date) # Download the media with the largest size input file location self.download_file( InputFileLocation( volume_id=largest_size.volume_id, local_id=largest_size.local_id, secret=largest_size.secret ), file, file_size=file_size, progress_callback=progress_callback ) return file def _download_document(self, mm_doc, file, date, progress_callback): """Specialized version of .download_media() for documents""" document = mm_doc.document file_size = document.size possible_names = [] for attr in document.attributes: if isinstance(attr, DocumentAttributeFilename): possible_names.insert(0, attr.file_name) elif isinstance(attr, DocumentAttributeAudio): possible_names.append('{} - {}'.format( attr.performer, attr.title )) file = self._get_proper_filename( file, 'document', utils.get_extension(mm_doc), date=date, possible_names=possible_names ) self.download_file( InputDocumentFileLocation( id=document.id, access_hash=document.access_hash, version=document.version ), file, file_size=file_size, progress_callback=progress_callback ) return file @staticmethod def _download_contact(mm_contact, file): """Specialized version of .download_media() for contacts. Will make use of the vCard 4.0 format """ first_name = mm_contact.first_name last_name = mm_contact.last_name phone_number = mm_contact.phone_number if isinstance(file, str): file = TelegramClient._get_proper_filename( file, 'contact', '.vcard', possible_names=[first_name, phone_number, last_name] ) f = open(file, 'w', encoding='utf-8') else: f = file try: # Remove these pesky characters first_name = first_name.replace(';', '') last_name = (last_name or '').replace(';', '') f.write('BEGIN:VCARD\n') f.write('VERSION:4.0\n') f.write('N:{};{};;;\n'.format(first_name, last_name)) f.write('FN:{} {}\n'.format(first_name, last_name)) f.write('TEL;TYPE=cell;VALUE=uri:tel:+{}\n'.format(phone_number)) f.write('END:VCARD\n') finally: # Only close the stream if we opened it if isinstance(file, str): f.close() return file @staticmethod def _get_proper_filename(file, kind, extension, date=None, possible_names=None): """Gets a proper filename for 'file', if this is a path. 'kind' should be the kind of the output file (photo, document...) 'extension' should be the extension to be added to the file if the filename doesn't have any yet 'date' should be when this file was originally sent, if known 'possible_names' should be an ordered list of possible names If no modification is made to the path, any existing file will be overwritten. If any modification is made to the path, this method will ensure that no existing file will be overwritten. """ if file is not None and not isinstance(file, str): # Probably a stream-like object, we cannot set a filename here return file if file is None: file = '' elif os.path.isfile(file): # Make no modifications to valid existing paths return file if os.path.isdir(file) or not file: try: name = None if possible_names is None else next( x for x in possible_names if x ) except StopIteration: name = None if not name: if not date: date = datetime.now() name = '{}_{}-{:02}-{:02}_{:02}-{:02}-{:02}'.format( kind, date.year, date.month, date.day, date.hour, date.minute, date.second, ) file = os.path.join(file, name) directory, name = os.path.split(file) name, ext = os.path.splitext(name) if not ext: ext = extension result = os.path.join(directory, name + ext) if not os.path.isfile(result): return result i = 1 while True: result = os.path.join(directory, '{} ({}){}'.format(name, i, ext)) if not os.path.isfile(result): return result i += 1 # endregion # endregion # region Small utilities to make users' life easier def get_entity(self, entity, force_fetch=False): """ Turns the given entity into a valid Telegram user or chat. :param entity: The entity to be transformed. If it's a string which can be converted to an integer or starts with '+' it will be resolved as if it were a phone number. If it doesn't start with '+' or starts with a '@' it will be be resolved from the username. If no exact match is returned, an error will be raised. If the entity is an integer or a Peer, its information will be returned through a call to self.get_input_peer(entity). If the entity is neither, and it's not a TLObject, an error will be raised. :param force_fetch: If True, the entity cache is bypassed and the entity is fetched again with an API call. Defaults to False to avoid unnecessary calls, but since a cached version would be returned, the entity may be out of date. :return: """ if not force_fetch: # Try to use cache unless we want to force a fetch try: return self.session.entities[entity] except KeyError: pass if isinstance(entity, int) or ( isinstance(entity, TLObject) and # crc32(b'InputPeer') and crc32(b'Peer') type(entity).SUBCLASS_OF_ID in (0xc91c90b6, 0x2d45687)): ie = self.get_input_entity(entity) if isinstance(ie, InputPeerUser): self(GetUsersRequest([ie])) elif isinstance(ie, InputPeerChat): self(GetChatsRequest([ie.chat_id])) elif isinstance(ie, InputPeerChannel): self(GetChannelsRequest([ie])) try: # session.process_entities has been called in the MtProtoSender # with the result of these calls, so they should now be on the # entities database. return self.session.entities[ie] except KeyError: pass if isinstance(entity, str): return self._get_entity_from_string(entity) raise ValueError( 'Cannot turn "{}" into any entity (user or chat)'.format(entity) ) def _get_entity_from_string(self, string): """Gets an entity from the given string, which may be a phone or an username, and processes all the found entities on the session. """ phone = EntityDatabase.parse_phone(string) if phone: entity = phone self(GetContactsRequest(0)) else: entity, is_join_chat = EntityDatabase.parse_username(string) if is_join_chat: invite = self(CheckChatInviteRequest(entity)) if isinstance(invite, ChatInvite): # If it's an invite to a chat, the user must join before # for the link to be resolved and work, otherwise raise. if invite.channel: return invite.channel elif isinstance(invite, ChatInviteAlready): return invite.chat else: self(ResolveUsernameRequest(entity)) # MtProtoSender will call .process_entities on the requests made try: return self.session.entities[entity] except KeyError: raise ValueError( 'Could not find user with username {}'.format(entity) ) def get_input_entity(self, peer): """ Turns the given peer into its input entity version. Most requests use this kind of InputUser, InputChat and so on, so this is the most suitable call to make for those cases. :param peer: The integer ID of an user or otherwise either of a PeerUser, PeerChat or PeerChannel, for which to get its Input* version. If this Peer hasn't been seen before by the library, the top dialogs will be loaded and their entities saved to the session file (unless this feature was disabled explicitly). If in the end the access hash required for the peer was not found, a ValueError will be raised. :return: """ try: # First try to get the entity from cache, otherwise figure it out return self.session.entities.get_input_entity(peer) except KeyError: pass if isinstance(peer, str): return utils.get_input_peer(self._get_entity_from_string(peer)) is_peer = False if isinstance(peer, int): peer = PeerUser(peer) is_peer = True elif isinstance(peer, TLObject): is_peer = type(peer).SUBCLASS_OF_ID == 0x2d45687 # crc32(b'Peer') if not is_peer: try: return utils.get_input_peer(peer) except ValueError: pass if not is_peer: raise ValueError( 'Cannot turn "{}" into an input entity.'.format(peer) ) if self.session.save_entities: # Not found, look in the latest dialogs. # This is useful if for instance someone just sent a message but # the updates didn't specify who, as this person or chat should # be in the latest dialogs. self(GetDialogsRequest( offset_date=None, offset_id=0, offset_peer=InputPeerEmpty(), limit=0, exclude_pinned=True )) try: return self.session.entities.get_input_entity(peer) except KeyError: pass raise ValueError( 'Could not find the input entity corresponding to "{}".' 'Make sure you have encountered this peer before.'.format(peer) ) # endregion