# Pyrogram - Telegram MTProto API Client Library for Python # Copyright (C) 2017-2018 Dan Tès # # This file is part of Pyrogram. # # Pyrogram is free software: you can redistribute it and/or modify # it under the terms of the GNU Lesser General Public License as published # by the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # Pyrogram is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU Lesser General Public License for more details. # # You should have received a copy of the GNU Lesser General Public License # along with Pyrogram. If not, see . import base64 import binascii import getpass import json import logging import math import mimetypes import os import re import shutil import struct import tempfile import threading import time from configparser import ConfigParser from datetime import datetime from hashlib import sha256, md5 from signal import signal, SIGINT, SIGTERM, SIGABRT from threading import Thread from pyrogram.api import functions, types from pyrogram.api.core import Object from pyrogram.api.errors import ( PhoneMigrate, NetworkMigrate, PhoneNumberInvalid, PhoneNumberUnoccupied, PhoneCodeInvalid, PhoneCodeHashEmpty, PhoneCodeExpired, PhoneCodeEmpty, SessionPasswordNeeded, PasswordHashInvalid, FloodWait, PeerIdInvalid, FirstnameInvalid, PhoneNumberBanned, VolumeLocNotFound, UserMigrate, FileIdInvalid) from pyrogram.client.handlers import DisconnectHandler from pyrogram.crypto import AES from pyrogram.session import Auth, Session from .dispatcher import Dispatcher from .ext import utils, Syncer, BaseClient from .methods import Methods log = logging.getLogger(__name__) class Client(Methods, BaseClient): """This class represents a Client, the main mean for interacting with Telegram. It exposes bot-like methods for an easy access to the API as well as a simple way to invoke every single Telegram API method available. Args: session_name (``str``): Name to uniquely identify a session of either a User or a Bot. For Users: pass a string of your choice, e.g.: "my_main_account". For Bots: pass your Bot API token, e.g.: "123456:ABC-DEF1234ghIkl-zyx57W2v1u123ew11" Note: as long as a valid User session file exists, Pyrogram won't ask you again to input your phone number. api_id (``int``, *optional*): The *api_id* part of your Telegram API Key, as integer. E.g.: 12345 This is an alternative way to pass it if you don't want to use the *config.ini* file. api_hash (``str``, *optional*): The *api_hash* part of your Telegram API Key, as string. E.g.: "0123456789abcdef0123456789abcdef" This is an alternative way to pass it if you don't want to use the *config.ini* file. app_version (``str``, *optional*): Application version. Defaults to "Pyrogram \U0001f525 vX.Y.Z" This is an alternative way to set it if you don't want to use the *config.ini* file. device_model (``str``, *optional*): Device model. Defaults to *platform.python_implementation() + " " + platform.python_version()* This is an alternative way to set it if you don't want to use the *config.ini* file. system_version (``str``, *optional*): Operating System version. Defaults to *platform.system() + " " + platform.release()* This is an alternative way to set it if you don't want to use the *config.ini* file. lang_code (``str``, *optional*): Code of the language used on the client, in ISO 639-1 standard. Defaults to "en". This is an alternative way to set it if you don't want to use the *config.ini* file. proxy (``dict``, *optional*): Your SOCKS5 Proxy settings as dict, e.g.: *dict(hostname="11.22.33.44", port=1080, username="user", password="pass")*. *username* and *password* can be omitted if your proxy doesn't require authorization. This is an alternative way to setup a proxy if you don't want to use the *config.ini* file. test_mode (``bool``, *optional*): Enable or disable log-in to testing servers. Defaults to False. Only applicable for new sessions and will be ignored in case previously created sessions are loaded. phone_number (``str``, *optional*): Pass your phone number (with your Country Code prefix included) to avoid entering it manually. Only applicable for new sessions. phone_code (``str`` | ``callable``, *optional*): Pass the phone code as string (for test numbers only), or pass a callback function which accepts a single positional argument *(phone_number)* and must return the correct phone code (e.g., "12345"). Only applicable for new sessions. password (``str``, *optional*): Pass your Two-Step Verification password (if you have one) to avoid entering it manually. Only applicable for new sessions. force_sms (``str``, *optional*): Pass True to force Telegram sending the authorization code via SMS. Only applicable for new sessions. first_name (``str``, *optional*): Pass a First Name to avoid entering it manually. It will be used to automatically create a new Telegram account in case the phone number you passed is not registered yet. Only applicable for new sessions. last_name (``str``, *optional*): Same purpose as *first_name*; pass a Last Name to avoid entering it manually. It can be an empty string: "". Only applicable for new sessions. workers (``int``, *optional*): Thread pool size for handling incoming updates. Defaults to 4. workdir (``str``, *optional*): Define a custom working directory. The working directory is the location in your filesystem where Pyrogram will store your session files. Defaults to "." (current directory). config_file (``str``, *optional*): Path of the configuration file. Defaults to ./config.ini """ def __init__(self, session_name: str, api_id: int or str = None, api_hash: str = None, app_version: str = None, device_model: str = None, system_version: str = None, lang_code: str = None, proxy: dict = None, test_mode: bool = False, phone_number: str = None, phone_code: str or callable = None, password: str = None, force_sms: bool = False, first_name: str = None, last_name: str = None, workers: int = 4, workdir: str = ".", config_file: str = "./config.ini"): super().__init__() self.session_name = session_name self.api_id = int(api_id) if api_id else None self.api_hash = api_hash self.app_version = app_version self.device_model = device_model self.system_version = system_version self.lang_code = lang_code # TODO: Make code consistent, use underscore for private/protected fields self._proxy = proxy self.test_mode = test_mode self.phone_number = phone_number self.phone_code = phone_code self.password = password self.force_sms = force_sms self.first_name = first_name self.last_name = last_name self.workers = workers self.workdir = workdir self.config_file = config_file self.dispatcher = Dispatcher(self, workers) @property def proxy(self): return self._proxy @proxy.setter def proxy(self, value): self._proxy["enabled"] = True self._proxy.update(value) def start(self): """Use this method to start the Client after creating it. Requires no parameters. Raises: :class:`Error ` """ if self.is_started: raise ConnectionError("Client has already been started") if self.BOT_TOKEN_RE.match(self.session_name): self.token = self.session_name self.session_name = self.session_name.split(":")[0] self.load_config() self.load_session() self.session = Session( self, self.dc_id, self.auth_key ) self.session.start() self.is_started = True if self.user_id is None: if self.token is None: self.authorize_user() else: self.authorize_bot() self.save_session() if self.token is None: now = time.time() if abs(now - self.date) > Client.OFFLINE_SLEEP: self.peers_by_username = {} self.peers_by_phone = {} self.get_initial_dialogs() self.get_contacts() else: self.send(functions.messages.GetPinnedDialogs()) self.get_initial_dialogs_chunk() else: self.send(functions.updates.GetState()) for i in range(self.UPDATES_WORKERS): self.updates_workers_list.append( Thread( target=self.updates_worker, name="UpdatesWorker#{}".format(i + 1) ) ) self.updates_workers_list[-1].start() for i in range(self.DOWNLOAD_WORKERS): self.download_workers_list.append( Thread( target=self.download_worker, name="DownloadWorker#{}".format(i + 1) ) ) self.download_workers_list[-1].start() self.dispatcher.start() mimetypes.init() Syncer.add(self) def stop(self): """Use this method to manually stop the Client. Requires no parameters. """ if not self.is_started: raise ConnectionError("Client is already stopped") Syncer.remove(self) self.dispatcher.stop() for _ in range(self.DOWNLOAD_WORKERS): self.download_queue.put(None) for i in self.download_workers_list: i.join() self.download_workers_list.clear() for _ in range(self.UPDATES_WORKERS): self.updates_queue.put(None) for i in self.updates_workers_list: i.join() self.updates_workers_list.clear() for i in self.media_sessions.values(): i.stop() self.media_sessions.clear() self.is_started = False self.session.stop() def idle(self, stop_signals: tuple = (SIGINT, SIGTERM, SIGABRT)): """Blocks the program execution until one of the signals are received, then gently stop the Client by closing the underlying connection. Args: stop_signals (``tuple``, *optional*): Iterable containing signals the signal handler will listen to. Defaults to (SIGINT, SIGTERM, SIGABRT). """ def signal_handler(*args): self.is_idle = False for s in stop_signals: signal(s, signal_handler) self.is_idle = True while self.is_idle: time.sleep(1) self.stop() def run(self): """Use this method to automatically start and idle a Client. Requires no parameters. Raises: :class:`Error ` """ self.start() self.idle() def add_handler(self, handler, group: int = 0): """Use this method to register an update handler. You can register multiple handlers, but at most one handler within a group will be used for a single update. To handle the same update more than once, register your handler using a different group id (lower group id == higher priority). Args: handler (``Handler``): The handler to be registered. group (``int``, *optional*): The group identifier, defaults to 0. Returns: A tuple of (handler, group) """ if isinstance(handler, DisconnectHandler): self.disconnect_handler = handler.callback else: self.dispatcher.add_handler(handler, group) return handler, group def remove_handler(self, handler, group: int = 0): """Removes a previously-added update handler. Make sure to provide the right group that the handler was added in. You can use the return value of the :meth:`add_handler` method, a tuple of (handler, group), and pass it directly. Args: handler (``Handler``): The handler to be removed. group (``int``, *optional*): The group identifier, defaults to 0. """ if isinstance(handler, DisconnectHandler): self.disconnect_handler = None else: self.dispatcher.remove_handler(handler, group) def authorize_bot(self): try: r = self.send( functions.auth.ImportBotAuthorization( flags=0, api_id=self.api_id, api_hash=self.api_hash, bot_auth_token=self.token ) ) except UserMigrate as e: self.session.stop() self.dc_id = e.x self.auth_key = Auth(self.dc_id, self.test_mode, self._proxy).create() self.session = Session( self, self.dc_id, self.auth_key ) self.session.start() self.authorize_bot() else: self.user_id = r.user.id def authorize_user(self): phone_number_invalid_raises = self.phone_number is not None phone_code_invalid_raises = self.phone_code is not None password_hash_invalid_raises = self.password is not None first_name_invalid_raises = self.first_name is not None while True: if self.phone_number is None: self.phone_number = input("Enter phone number: ") while True: confirm = input("Is \"{}\" correct? (y/n): ".format(self.phone_number)) if confirm in ("y", "1"): break elif confirm in ("n", "2"): self.phone_number = input("Enter phone number: ") self.phone_number = self.phone_number.strip("+") try: r = self.send( functions.auth.SendCode( self.phone_number, self.api_id, self.api_hash ) ) except (PhoneMigrate, NetworkMigrate) as e: self.session.stop() self.dc_id = e.x self.auth_key = Auth(self.dc_id, self.test_mode, self._proxy).create() self.session = Session( self, self.dc_id, self.auth_key ) self.session.start() r = self.send( functions.auth.SendCode( self.phone_number, self.api_id, self.api_hash ) ) break except (PhoneNumberInvalid, PhoneNumberBanned) as e: if phone_number_invalid_raises: raise else: print(e.MESSAGE) self.phone_number = None except FloodWait as e: if phone_number_invalid_raises: raise else: print(e.MESSAGE.format(x=e.x)) time.sleep(e.x) except Exception as e: log.error(e, exc_info=True) else: break phone_registered = r.phone_registered phone_code_hash = r.phone_code_hash terms_of_service = r.terms_of_service if terms_of_service: print("\n" + terms_of_service.text + "\n") if self.force_sms: self.send( functions.auth.ResendCode( phone_number=self.phone_number, phone_code_hash=phone_code_hash ) ) while True: self.phone_code = ( input("Enter phone code: ") if self.phone_code is None else self.phone_code if type(self.phone_code) is str else str(self.phone_code(self.phone_number)) ) try: if phone_registered: r = self.send( functions.auth.SignIn( self.phone_number, phone_code_hash, self.phone_code ) ) else: try: self.send( functions.auth.SignIn( self.phone_number, phone_code_hash, self.phone_code ) ) except PhoneNumberUnoccupied: pass self.first_name = self.first_name if self.first_name is not None else input("First name: ") self.last_name = self.last_name if self.last_name is not None else input("Last name: ") r = self.send( functions.auth.SignUp( self.phone_number, phone_code_hash, self.phone_code, self.first_name, self.last_name ) ) except (PhoneCodeInvalid, PhoneCodeEmpty, PhoneCodeExpired, PhoneCodeHashEmpty) as e: if phone_code_invalid_raises: raise else: print(e.MESSAGE) self.phone_code = None except FirstnameInvalid as e: if first_name_invalid_raises: raise else: print(e.MESSAGE) self.first_name = None except SessionPasswordNeeded as e: print(e.MESSAGE) r = self.send(functions.account.GetPassword()) while True: try: if self.password is None: print("Hint: {}".format(r.hint)) self.password = getpass.getpass("Enter password: ") if type(self.password) is str: self.password = r.current_salt + self.password.encode() + r.current_salt password_hash = sha256(self.password).digest() r = self.send(functions.auth.CheckPassword(password_hash)) except PasswordHashInvalid as e: if password_hash_invalid_raises: raise else: print(e.MESSAGE) self.password = None except FloodWait as e: if password_hash_invalid_raises: raise else: print(e.MESSAGE.format(x=e.x)) time.sleep(e.x) except Exception as e: log.error(e, exc_info=True) else: break break except FloodWait as e: if phone_code_invalid_raises or first_name_invalid_raises: raise else: print(e.MESSAGE.format(x=e.x)) time.sleep(e.x) except Exception as e: log.error(e, exc_info=True) else: break if terms_of_service: assert self.send(functions.help.AcceptTermsOfService(terms_of_service.id)) self.password = None self.user_id = r.user.id print("Login successful") def fetch_peers(self, entities: list): for entity in entities: if isinstance(entity, types.User): user_id = entity.id access_hash = entity.access_hash if access_hash is None: continue username = entity.username phone = entity.phone input_peer = types.InputPeerUser( user_id=user_id, access_hash=access_hash ) self.peers_by_id[user_id] = input_peer if username is not None: self.peers_by_username[username.lower()] = input_peer if phone is not None: self.peers_by_phone[phone] = input_peer if isinstance(entity, types.Chat): chat_id = entity.id peer_id = -chat_id input_peer = types.InputPeerChat( chat_id=chat_id ) self.peers_by_id[peer_id] = input_peer if isinstance(entity, types.Channel): channel_id = entity.id peer_id = int("-100" + str(channel_id)) access_hash = entity.access_hash if access_hash is None: continue username = entity.username input_peer = types.InputPeerChannel( channel_id=channel_id, access_hash=access_hash ) self.peers_by_id[peer_id] = input_peer if username is not None: self.peers_by_username[username.lower()] = input_peer def download_worker(self): name = threading.current_thread().name log.debug("{} started".format(name)) while True: media = self.download_queue.get() if media is None: break temp_file_path = "" final_file_path = "" try: media, file_name, done, progress, progress_args, path = media file_id = media.file_id size = media.file_size directory, file_name = os.path.split(file_name) directory = directory or "downloads" try: decoded = utils.decode(file_id) fmt = " 24 else " 24: volume_id = unpacked[4] secret = unpacked[5] local_id = unpacked[6] media_type_str = Client.MEDIA_TYPE_ID.get(media_type, None) if media_type_str is None: raise FileIdInvalid("Unknown media type: {}".format(unpacked[0])) file_name = file_name or getattr(media, "file_name", None) if not file_name: if media_type == 3: extension = ".ogg" elif media_type in (4, 10, 13): extension = mimetypes.guess_extension(media.mime_type) or ".mp4" elif media_type == 5: extension = mimetypes.guess_extension(media.mime_type) or ".unknown" elif media_type == 8: extension = ".webp" elif media_type == 9: extension = mimetypes.guess_extension(media.mime_type) or ".mp3" elif media_type in (0, 1, 2): extension = ".jpg" else: continue file_name = "{}_{}_{}{}".format( media_type_str, datetime.fromtimestamp( getattr(media, "date", None) or time.time() ).strftime("%Y-%m-%d_%H-%M-%S"), self.rnd_id(), extension ) temp_file_path = self.get_file( dc_id=dc_id, id=id, access_hash=access_hash, volume_id=volume_id, local_id=local_id, secret=secret, size=size, progress=progress, progress_args=progress_args ) if temp_file_path: final_file_path = os.path.abspath(re.sub("\\\\", "/", os.path.join(directory, file_name))) os.makedirs(directory, exist_ok=True) shutil.move(temp_file_path, final_file_path) except Exception as e: log.error(e, exc_info=True) try: os.remove(temp_file_path) except OSError: pass else: # TODO: "" or None for faulty download, which is better? # os.path methods return "" in case something does not exist, I prefer this. # For now let's keep None path[0] = final_file_path or None finally: done.set() log.debug("{} stopped".format(name)) def updates_worker(self): name = threading.current_thread().name log.debug("{} started".format(name)) while True: updates = self.updates_queue.get() if updates is None: break try: if isinstance(updates, (types.Update, types.UpdatesCombined)): self.fetch_peers(updates.users) self.fetch_peers(updates.chats) for update in updates.updates: channel_id = getattr( getattr( getattr( update, "message", None ), "to_id", None ), "channel_id", None ) or getattr(update, "channel_id", None) pts = getattr(update, "pts", None) pts_count = getattr(update, "pts_count", None) if isinstance(update, types.UpdateChannelTooLong): log.warning(update) if isinstance(update, types.UpdateNewChannelMessage): message = update.message if not isinstance(message, types.MessageEmpty): diff = self.send( functions.updates.GetChannelDifference( channel=self.resolve_peer(int("-100" + str(channel_id))), filter=types.ChannelMessagesFilter( ranges=[types.MessageRange( min_id=update.message.id, max_id=update.message.id )] ), pts=pts - pts_count, limit=pts ) ) if not isinstance(diff, types.updates.ChannelDifferenceEmpty): updates.users += diff.users updates.chats += diff.chats if channel_id and pts: if channel_id not in self.channels_pts: self.channels_pts[channel_id] = [] if pts in self.channels_pts[channel_id]: continue self.channels_pts[channel_id].append(pts) if len(self.channels_pts[channel_id]) > 50: self.channels_pts[channel_id] = self.channels_pts[channel_id][25:] self.dispatcher.updates.put((update, updates.users, updates.chats)) elif isinstance(updates, (types.UpdateShortMessage, types.UpdateShortChatMessage)): diff = self.send( functions.updates.GetDifference( pts=updates.pts - updates.pts_count, date=updates.date, qts=-1 ) ) if diff.new_messages: self.dispatcher.updates.put(( types.UpdateNewMessage( message=diff.new_messages[0], pts=updates.pts, pts_count=updates.pts_count ), diff.users, diff.chats )) else: self.dispatcher.updates.put((diff.other_updates[0], [], [])) elif isinstance(updates, types.UpdateShort): self.dispatcher.updates.put((updates.update, [], [])) elif isinstance(updates, types.UpdatesTooLong): log.warning(updates) except Exception as e: log.error(e, exc_info=True) log.debug("{} stopped".format(name)) def send(self, data: Object, retries: int = Session.MAX_RETRIES, timeout: float = Session.WAIT_TIMEOUT): """Use this method to send Raw Function queries. This method makes possible to manually call every single Telegram API method in a low-level manner. Available functions are listed in the :obj:`functions ` package and may accept compound data types from :obj:`types ` as well as bare types such as ``int``, ``str``, etc... Args: data (``Object``): The API Scheme function filled with proper arguments. retries (``int``): Number of retries. timeout (``float``): Timeout in seconds. Raises: :class:`Error ` """ if not self.is_started: raise ConnectionError("Client has not been started") r = self.session.send(data, retries, timeout) self.fetch_peers(getattr(r, "users", [])) self.fetch_peers(getattr(r, "chats", [])) return r def load_config(self): parser = ConfigParser() parser.read(self.config_file) if self.api_id and self.api_hash: pass else: if parser.has_section("pyrogram"): self.api_id = parser.getint("pyrogram", "api_id") self.api_hash = parser.get("pyrogram", "api_hash") else: raise AttributeError( "No API Key found. " "More info: https://docs.pyrogram.ml/start/ProjectSetup#configuration" ) for option in {"app_version", "device_model", "system_version", "lang_code"}: if getattr(self, option): pass else: setattr(self, option, Client.APP_VERSION) if parser.has_section("pyrogram"): setattr(self, option, parser.get( "pyrogram", option, fallback=getattr(Client, option.upper()) )) if self.lang_code: pass else: self.lang_code = Client.LANG_CODE if parser.has_section("pyrogram"): self.lang_code = parser.get( "pyrogram", "lang_code", fallback=Client.LANG_CODE ) if self._proxy: self._proxy["enabled"] = True else: self._proxy = {} if parser.has_section("proxy"): self._proxy["enabled"] = parser.getboolean("proxy", "enabled") self._proxy["hostname"] = parser.get("proxy", "hostname") self._proxy["port"] = parser.getint("proxy", "port") self._proxy["username"] = parser.get("proxy", "username", fallback=None) or None self._proxy["password"] = parser.get("proxy", "password", fallback=None) or None def load_session(self): try: with open(os.path.join(self.workdir, "{}.session".format(self.session_name)), encoding="utf-8") as f: s = json.load(f) except FileNotFoundError: self.dc_id = 1 self.date = 0 self.auth_key = Auth(self.dc_id, self.test_mode, self._proxy).create() else: self.dc_id = s["dc_id"] self.test_mode = s["test_mode"] self.auth_key = base64.b64decode("".join(s["auth_key"])) self.user_id = s["user_id"] self.date = s.get("date", 0) for k, v in s.get("peers_by_id", {}).items(): self.peers_by_id[int(k)] = utils.get_input_peer(int(k), v) for k, v in s.get("peers_by_username", {}).items(): peer = self.peers_by_id.get(v, None) if peer: self.peers_by_username[k] = peer for k, v in s.get("peers_by_phone", {}).items(): peer = self.peers_by_id.get(v, None) if peer: self.peers_by_phone[k] = peer def save_session(self): auth_key = base64.b64encode(self.auth_key).decode() auth_key = [auth_key[i: i + 43] for i in range(0, len(auth_key), 43)] os.makedirs(self.workdir, exist_ok=True) with open(os.path.join(self.workdir, "{}.session".format(self.session_name)), "w", encoding="utf-8") as f: json.dump( dict( dc_id=self.dc_id, test_mode=self.test_mode, auth_key=auth_key, user_id=self.user_id, date=self.date ), f, indent=4 ) def get_initial_dialogs_chunk(self, offset_date: int = 0): while True: try: r = self.send( functions.messages.GetDialogs( offset_date=offset_date, offset_id=0, offset_peer=types.InputPeerEmpty(), limit=self.DIALOGS_AT_ONCE, hash=0, exclude_pinned=True ) ) except FloodWait as e: log.warning("get_dialogs flood: waiting {} seconds".format(e.x)) time.sleep(e.x) else: log.info("Total peers: {}".format(len(self.peers_by_id))) return r def get_initial_dialogs(self): self.send(functions.messages.GetPinnedDialogs()) dialogs = self.get_initial_dialogs_chunk() offset_date = utils.get_offset_date(dialogs) while len(dialogs.dialogs) == self.DIALOGS_AT_ONCE: dialogs = self.get_initial_dialogs_chunk(offset_date) offset_date = utils.get_offset_date(dialogs) self.get_initial_dialogs_chunk() def resolve_peer(self, peer_id: int or str): """Use this method to get the *InputPeer* of a known *peer_id*. It is intended to be used when working with Raw Functions (i.e: a Telegram API method you wish to use which is not available yet in the Client class as an easy-to-use method). Args: peer_id (``int`` | ``str`` | ``Peer``): The Peer ID you want to extract the InputPeer from. Can be one of these types: ``int`` (direct ID), ``str`` (@username), :obj:`PeerUser `, :obj:`PeerChat `, :obj:`PeerChannel ` Returns: :obj:`InputPeerUser ` or :obj:`InputPeerChat ` or :obj:`InputPeerChannel ` depending on the *peer_id*. Raises: :class:`Error ` """ if type(peer_id) is str: if peer_id in ("self", "me"): return types.InputPeerSelf() match = self.INVITE_LINK_RE.match(peer_id) try: decoded = base64.b64decode(match.group(1) + "=" * (-len(match.group(1)) % 4), "-_") return self.resolve_peer(struct.unpack(">2iq", decoded)[1]) except (AttributeError, binascii.Error, struct.error): pass peer_id = re.sub(r"[@+\s]", "", peer_id.lower()) try: int(peer_id) except ValueError: try: return self.peers_by_username[peer_id] except KeyError: self.send(functions.contacts.ResolveUsername(peer_id)) return self.peers_by_username[peer_id] else: try: return self.peers_by_phone[peer_id] except KeyError: raise PeerIdInvalid if type(peer_id) is not int: if isinstance(peer_id, types.PeerUser): peer_id = peer_id.user_id elif isinstance(peer_id, types.PeerChat): peer_id = -peer_id.chat_id elif isinstance(peer_id, types.PeerChannel): peer_id = int("-100" + str(peer_id.channel_id)) try: # User return self.peers_by_id[peer_id] except KeyError: try: # Chat return self.peers_by_id[-peer_id] except KeyError: try: # Channel return self.peers_by_id[int("-100" + str(peer_id))] except (KeyError, ValueError): raise PeerIdInvalid def save_file(self, path: str, file_id: int = None, file_part: int = 0, progress: callable = None, progress_args: tuple = ()): part_size = 512 * 1024 file_size = os.path.getsize(path) file_total_parts = int(math.ceil(file_size / part_size)) is_big = True if file_size > 10 * 1024 * 1024 else False is_missing_part = True if file_id is not None else False file_id = file_id or self.rnd_id() md5_sum = md5() if not is_big and not is_missing_part else None session = Session(self, self.dc_id, self.auth_key, is_media=True) session.start() try: with open(path, "rb") as f: f.seek(part_size * file_part) while True: chunk = f.read(part_size) if not chunk: if not is_big: md5_sum = "".join([hex(i)[2:].zfill(2) for i in md5_sum.digest()]) break if is_big: rpc = functions.upload.SaveBigFilePart( file_id=file_id, file_part=file_part, file_total_parts=file_total_parts, bytes=chunk ) else: rpc = functions.upload.SaveFilePart( file_id=file_id, file_part=file_part, bytes=chunk ) assert session.send(rpc), "Couldn't upload file" if is_missing_part: return if not is_big: md5_sum.update(chunk) file_part += 1 if progress: progress(self, min(file_part * part_size, file_size), file_size, *progress_args) except Exception as e: log.error(e, exc_info=True) else: if is_big: return types.InputFileBig( id=file_id, parts=file_total_parts, name=os.path.basename(path), ) else: return types.InputFile( id=file_id, parts=file_total_parts, name=os.path.basename(path), md5_checksum=md5_sum ) finally: session.stop() def get_file(self, dc_id: int, id: int = None, access_hash: int = None, volume_id: int = None, local_id: int = None, secret: int = None, version: int = 0, size: int = None, progress: callable = None, progress_args: tuple = None) -> str: with self.media_sessions_lock: session = self.media_sessions.get(dc_id, None) if session is None: if dc_id != self.dc_id: exported_auth = self.send( functions.auth.ExportAuthorization( dc_id=dc_id ) ) session = Session( self, dc_id, Auth(dc_id, self.test_mode, self._proxy).create(), is_media=True ) session.start() self.media_sessions[dc_id] = session session.send( functions.auth.ImportAuthorization( id=exported_auth.id, bytes=exported_auth.bytes ) ) else: session = Session( self, dc_id, self.auth_key, is_media=True ) session.start() self.media_sessions[dc_id] = session if volume_id: # Photos are accessed by volume_id, local_id, secret location = types.InputFileLocation( volume_id=volume_id, local_id=local_id, secret=secret ) else: # Any other file can be more easily accessed by id and access_hash location = types.InputDocumentFileLocation( id=id, access_hash=access_hash, version=version ) limit = 1024 * 1024 offset = 0 file_name = "" try: r = session.send( functions.upload.GetFile( location=location, offset=offset, limit=limit ) ) if isinstance(r, types.upload.File): with tempfile.NamedTemporaryFile("wb", delete=False) as f: file_name = f.name while True: chunk = r.bytes if not chunk: break f.write(chunk) offset += limit if progress: progress(self, min(offset, size), size, *progress_args) r = session.send( functions.upload.GetFile( location=location, offset=offset, limit=limit ) ) elif isinstance(r, types.upload.FileCdnRedirect): with self.media_sessions_lock: cdn_session = self.media_sessions.get(r.dc_id, None) if cdn_session is None: cdn_session = Session( self, r.dc_id, Auth(r.dc_id, self.test_mode, self._proxy).create(), is_media=True, is_cdn=True ) cdn_session.start() self.media_sessions[r.dc_id] = cdn_session try: with tempfile.NamedTemporaryFile("wb", delete=False) as f: file_name = f.name while True: r2 = cdn_session.send( functions.upload.GetCdnFile( file_token=r.file_token, offset=offset, limit=limit ) ) if isinstance(r2, types.upload.CdnFileReuploadNeeded): try: session.send( functions.upload.ReuploadCdnFile( file_token=r.file_token, request_token=r2.request_token ) ) except VolumeLocNotFound: break else: continue chunk = r2.bytes # https://core.telegram.org/cdn#decrypting-files decrypted_chunk = AES.ctr256_decrypt( chunk, r.encryption_key, bytearray( r.encryption_iv[:-4] + (offset // 16).to_bytes(4, "big") ) ) hashes = session.send( functions.upload.GetCdnFileHashes( r.file_token, offset ) ) # https://core.telegram.org/cdn#verifying-files for i, h in enumerate(hashes): cdn_chunk = decrypted_chunk[h.limit * i: h.limit * (i + 1)] assert h.hash == sha256(cdn_chunk).digest(), "Invalid CDN hash part {}".format(i) f.write(decrypted_chunk) offset += limit if progress: progress(self, min(offset, size), size, *progress_args) if len(chunk) < limit: break except Exception as e: raise e except Exception as e: log.error(e, exc_info=True) try: os.remove(file_name) except OSError: pass return "" else: return file_name