# This file structure is based on TLSharp # https://github.com/sochix/TLSharp/blob/master/TLSharp.Core/TelegramClient.cs import platform from datetime import datetime from hashlib import md5 from os import path import utils import network.authenticator from errors import * from network import MtProtoSender, TcpTransport from parser.markdown_parser import parse_message_entities # For sending and receiving requests from tl import MTProtoRequest from tl import Session # The Requests and types that we'll be using from tl.types import \ PeerUser, PeerChat, PeerChannel, \ InputPeerUser, InputPeerChat, InputPeerChannel, InputPeerEmpty, \ InputFile, InputFileLocation, InputMediaUploadedPhoto from tl.functions import InvokeWithLayerRequest, InitConnectionRequest from tl.functions.help import GetConfigRequest from tl.functions.auth import SendCodeRequest, SignInRequest from tl.functions.upload import SaveFilePartRequest, GetFileRequest from tl.functions.messages import GetDialogsRequest, GetHistoryRequest, SendMessageRequest, SendMediaRequest class TelegramClient: # region Initialization def __init__(self, session_user_id, layer, api_id=None, api_hash=None): if api_id is None or api_hash is None: raise PermissionError('Your API ID or Hash are invalid. Please read "Requirements" on README.md') self.api_id = api_id self.api_hash = api_hash self.layer = layer self.session = Session.try_load_or_create_new(session_user_id) self.transport = TcpTransport(self.session.server_address, self.session.port) # These will be set later self.dc_options = None self.sender = None self.phone_code_hashes = {} # endregion # region Connecting def connect(self, reconnect=False): """Connects to the Telegram servers, executing authentication if required. Note that authenticating to the Telegram servers is not the same as authenticating the app, which requires to send a code first.""" try: if not self.session.auth_key or reconnect: self.session.auth_key, self.session.time_offset = \ network.authenticator.do_authentication(self.transport) self.session.save() self.sender = MtProtoSender(self.transport, self.session) # Now it's time to send an InitConnectionRequest # This must always be invoked with the layer we'll be using query = InitConnectionRequest(api_id=self.api_id, device_model=platform.node(), system_version=platform.system(), app_version='0.3', lang_code='en', query=GetConfigRequest()) result = self.invoke(InvokeWithLayerRequest(layer=self.layer, query=query)) # We're only interested in the DC options, # although many other options are available! self.dc_options = result.dc_options return True except RPCError as error: print('Could not stabilise initial connection: {}'.format(error)) return False def reconnect_to_dc(self, dc_id): """Reconnects to the specified DC ID. This is automatically called after an InvalidDCError is raised""" if self.dc_options is None or not self.dc_options: raise ConnectionError("Can't reconnect. Stabilise an initial connection first.") dc = next(dc for dc in self.dc_options if dc.id == dc_id) self.transport.close() self.transport = TcpTransport(dc.ip_address, dc.port) self.session.server_address = dc.ip_address self.session.port = dc.port self.session.save() self.connect(reconnect=True) def disconnect(self): """Disconnects from the Telegram server **and pauses all the spawned threads**""" if self.sender: self.sender.disconnect() # endregion # region Telegram requests functions def invoke(self, request): """Invokes a MTProtoRequest (sends and receives it) and returns its result""" if not issubclass(type(request), MTProtoRequest): raise ValueError('You can only invoke MtProtoRequests') self.sender.send(request) self.sender.receive(request) return request.result # region Authorization requests def is_user_authorized(self): """Has the user been authorized yet (code request sent and confirmed)? Note that this will NOT yield the correct result if the session was revoked by another client!""" return self.session.user is not None def send_code_request(self, phone_number): """Sends a code request to the specified phone number""" request = SendCodeRequest(phone_number, self.api_id, self.api_hash) completed = False while not completed: try: result = self.invoke(request) self.phone_code_hashes[phone_number] = result.phone_code_hash completed = True except InvalidDCError as error: self.reconnect_to_dc(error.new_dc) def make_auth(self, phone_number, code): """Completes the authorization of a phone number by providing the received code""" if phone_number not in self.phone_code_hashes: raise ValueError('Please make sure you have called send_code_request first.') # TODO Handle invalid code request = SignInRequest(phone_number, self.phone_code_hashes[phone_number], code) self.sender.send(request) self.sender.receive(request) # Result is an Auth.Authorization TLObject self.session.user = request.result.user self.session.save() # Now that we're authorized, we can listen for incoming updates self.sender.set_listen_for_updates(True) return self.session.user # endregion # region Dialogs ("chats") requests def get_dialogs(self, count=10, offset_date=None, offset_id=0, offset_peer=InputPeerEmpty()): """Returns a tuple of lists ([dialogs], [displays], [input_peers]) with 'count' items each""" r = self.invoke(GetDialogsRequest(offset_date=offset_date, offset_id=offset_id, offset_peer=offset_peer, limit=count)) return (r.dialogs, [self.find_display_name(d.peer, r.users, r.chats) for d in r.dialogs], [self.find_input_peer(d.peer, r.users, r.chats) for d in r.dialogs]) # endregion # region Message requests def send_message(self, input_peer, message, markdown=False, no_web_page=False): """Sends a message to the given input peer""" if markdown: msg, entities = parse_message_entities(message) else: msg, entities = message, [] self.invoke(SendMessageRequest(peer=input_peer, message=msg, random_id=utils.generate_random_long(), entities=entities, no_webpage=no_web_page)) def get_message_history(self, input_peer, limit=20, offset_date=None, offset_id=0, max_id=0, min_id=0, add_offset=0): """ Gets the message history for the specified InputPeer :param input_peer: The InputPeer from whom to retrieve the message history :param limit: Number of messages to be retrieved :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! """ result = self.invoke(GetHistoryRequest(input_peer, limit=limit, offset_date=offset_date, offset_id=offset_id, max_id=max_id, min_id=min_id, add_offset=add_offset)) # The result may be a messages slice (not all messages were retrieved) or # simply a messages TLObject. In the later case, no "count" attribute is specified: # the total messages count is retrieved by counting all the retrieved messages total_messages = getattr(result, 'count', len(result.messages)) return (total_messages, result.messages, [usr # Create a list with the users... if usr.id == msg.from_id else None # ...whose ID equals the current message ID... for msg in result.messages # ...from all the messages... for usr in result.users]) # ...from all of the available users # endregion # region Uploading/downloading media requests # TODO Handle media downloading/uploading in a different session? # "It is recommended that large queries (upload.getFile, upload.saveFilePart) # be handled through a separate session and a separate connection" def upload_file(self, file_path, part_size_kb=64, file_name=None): """Uploads the specified media with the given chunk (part) size, in KB. If no custom file name is specified, the real file name will be used. This method will fail when trying to upload files larger than 10MB!""" part_size = int(part_size_kb * 1024) if part_size % 1024 != 0: raise ValueError('The part size must be evenly divisible by 1024') # Multiply the datetime timestamp by 10^6 to get the ticks # This is high likely going to be unique file_id = int(datetime.now().timestamp() * (10 ** 6)) part_index = 0 hash_md5 = md5() with open(file_path, 'rb') as file: while True: # Read the file by in chunks of size part_size part = file.read(part_size) # If we have read no data (0 bytes), the file is over # So there is nothing left to upload if not part: break # Invoke the file upload and increment both the part index and MD5 checksum result = self.invoke(SaveFilePartRequest(file_id, part_index, part)) if result: part_index += 1 hash_md5.update(part) else: raise ValueError('Could not upload file part #{}'.format(part_index)) # Set a default file name if None was specified if not file_name: file_name = path.basename(file_path) # After the file has been uploaded, we can return a handle pointing to it return InputFile(id=file_id, parts=part_index, name=file_name, md5_checksum=hash_md5.hexdigest()) def send_photo_file(self, input_file, input_peer, caption=''): """Sends a previously uploaded input_file (which should be a photo) to an input_peer""" self.send_media_file( InputMediaUploadedPhoto(input_file, caption), input_peer) def send_media_file(self, input_media, input_peer): """Sends any input_media (contact, document, photo...) to an input_peer""" self.invoke(SendMediaRequest(peer=input_peer, media=input_media, random_id=utils.generate_random_long())) def download_photo(self, message_media_photo, file_path): """Downloads a message_media_photo largest size into the desired file_path""" # Determine the photo and its largest size photo = message_media_photo.photo largest_size = photo.sizes[-1].location # Download the media with the largest size input file location self.download_media(InputFileLocation(volume_id=largest_size.volume_id, local_id=largest_size.local_id, secret=largest_size.secret), file_path) def download_media(self, input_file_location, file_path, part_size_kb=64): """Downloads media from the given input_file_location to the specified file_path""" part_size = int(part_size_kb * 1024) if part_size % 1024 != 0: raise ValueError('The part size must be evenly divisible by 1024') # Start with an offset index of 0 offset_index = 0 with open(file_path, 'wb') as file: while True: # The current offset equals the offset_index multiplied by the part size offset = offset_index * part_size result = self.invoke(GetFileRequest(input_file_location, offset, part_size)) offset_index += 1 # If we have received no data (0 bytes), the file is over # So there is nothing left to download and write if not result.bytes: return result.type # Return some extra information file.write(result.bytes) # endregion # endregion # region Utilities @staticmethod def find_display_name(peer, users, chats): """Searches the display name for peer in both users and chats. Returns None if it was not found""" try: if type(peer) is PeerUser: user = next(u for u in users if u.id == peer.user_id) if user.last_name is not None: return '{} {}'.format(user.first_name, user.last_name) return user.first_name elif type(peer) is PeerChat: return next(c for c in chats if c.id == peer.chat_id).title elif type(peer) is PeerChannel: return next(c for c in chats if c.id == peer.channel_id).title except StopIteration: pass return None @staticmethod def find_input_peer(peer, users, chats): """Searches the given peer in both users and chats and returns an InputPeer for it. Returns None if it was not found""" try: if type(peer) is PeerUser: user = next(u for u in users if u.id == peer.user_id) return InputPeerUser(user.id, user.access_hash) elif type(peer) is PeerChat: chat = next(c for c in chats if c.id == peer.chat_id) return InputPeerChat(chat.id) elif type(peer) is PeerChannel: channel = next(c for c in chats if c.id == peer.channel_id) return InputPeerChannel(channel.id, channel.access_hash) except StopIteration: return None # endregion # region Updates handling def add_update_handler(self, handler): """Adds an update handler (a function which takes a TLObject, an update, as its parameter) and listens for updates""" self.sender.add_update_handler(handler) def remove_update_handler(self, handler): self.sender.remove_update_handler(handler) # endregion