import logging import os import threading from datetime import timedelta, datetime from hashlib import md5 from io import BytesIO from threading import Lock from time import sleep from . import helpers as utils from .crypto import rsa, CdnDecrypter from .errors import ( RPCError, BrokenAuthKeyError, FloodWaitError, FileMigrateError, TypeNotFoundError, UnauthorizedError, PhoneMigrateError, NetworkMigrateError, UserMigrateError ) from .network import authenticator, MtProtoSender, Connection, ConnectionMode from .tl import TLObject, Session from .tl.all_tlobjects import LAYER from .tl.functions import ( InitConnectionRequest, InvokeWithLayerRequest, PingRequest ) from .tl.functions.auth import ( ImportAuthorizationRequest, ExportAuthorizationRequest ) from .tl.functions.help import ( GetCdnConfigRequest, GetConfigRequest ) from .tl.functions.updates import GetStateRequest from .tl.functions.upload import ( GetFileRequest, SaveBigFilePartRequest, SaveFilePartRequest ) from .tl.types import InputFile, InputFileBig from .tl.types.upload import FileCdnRedirect from .update_state import UpdateState from .utils import get_appropriated_part_size class TelegramBareClient: """Bare Telegram Client with just the minimum - The reason to distinguish between a MtProtoSender and a TelegramClient itself is because the sender is just that, a sender, which should know nothing about Telegram but rather how to handle this specific connection. The TelegramClient itself should know how to initialize a proper connection to the servers, as well as other basic methods such as disconnection and reconnection. This distinction between a bare client and a full client makes it possible to create clones of the bare version (by using the same session, IP address and port) to be able to execute queries on either, without the additional cost that would involve having the methods for signing in, logging out, and such. """ # Current TelegramClient version __version__ = '0.14.2' # TODO Make this thread-safe, all connections share the same DC _dc_options = None # region Initialization def __init__(self, session, api_id, api_hash, connection_mode=ConnectionMode.TCP_FULL, proxy=None, update_workers=None, spawn_read_thread=False, timeout=timedelta(seconds=5), **kwargs): """Refer to TelegramClient.__init__ for docs on this method""" if not api_id or not api_hash: raise PermissionError( "Your API ID or Hash cannot be empty or None. " "Refer to Telethon's README.rst for more information.") # Determine what session object we have if isinstance(session, str) or session is None: session = Session.try_load_or_create_new(session) elif not isinstance(session, Session): raise ValueError( 'The given session must be a str or a Session instance.' ) self.session = session self.api_id = int(api_id) self.api_hash = api_hash if self.api_id < 20: # official apps must use obfuscated connection_mode = ConnectionMode.TCP_OBFUSCATED # This is the main sender, which will be used from the thread # that calls .connect(). Every other thread will spawn a new # temporary connection. The connection on this one is always # kept open so Telegram can send us updates. self._sender = MtProtoSender(self.session, Connection( self.session.server_address, self.session.port, mode=connection_mode, proxy=proxy, timeout=timeout )) self._logger = logging.getLogger(__name__) # Two threads may be calling reconnect() when the connection is lost, # we only want one to actually perform the reconnection. self._reconnect_lock = Lock() # Cache "exported" sessions as 'dc_id: Session' not to recreate # them all the time since generating a new key is a relatively # expensive operation. self._exported_sessions = {} # This member will process updates if enabled. # One may change self.updates.enabled at any later point. self.updates = UpdateState(workers=update_workers) # Used on connection - the user may modify these and reconnect kwargs['app_version'] = kwargs.get('app_version', self.__version__) for name, value in kwargs.items(): if hasattr(self.session, name): setattr(self.session, name, value) # Despite the state of the real connection, keep track of whether # the user has explicitly called .connect() or .disconnect() here. # This information is required by the read thread, who will be the # one attempting to reconnect on the background *while* the user # doesn't explicitly call .disconnect(), thus telling it to stop # retrying. The main thread, knowing there is a background thread # attempting reconnection as soon as it happens, will just sleep. self._user_connected = False # Save whether the user is authorized here (a.k.a. logged in) self._authorized = False # Uploaded files cache so subsequent calls are instant self._upload_cache = {} # Constantly read for results and updates from within the main client, # if the user has left enabled such option. self._spawn_read_thread = spawn_read_thread self._recv_thread = None # Identifier of the main thread (the one that called .connect()). # This will be used to create new connections from any other thread, # so that requests can be sent in parallel. self._main_thread_ident = None # Default PingRequest delay self._last_ping = datetime.now() self._ping_delay = timedelta(minutes=1) # endregion # region Connecting def connect(self, _exported_auth=None, _sync_updates=True, _cdn=False): """Connects to the Telegram servers, executing authentication if required. Note that authenticating to the Telegram servers is not the same as authenticating the desired user itself, which may require a call (or several) to 'sign_in' for the first time. Note that the optional parameters are meant for internal use. If '_exported_auth' is not None, it will be used instead to determine the authorization key for the current session. If '_sync_updates', sync_updates() will be called and a second thread will be started if necessary. Note that this will FAIL if the client is not connected to the user's native data center, raising a "UserMigrateError", and calling .disconnect() in the process. If '_cdn' is False, methods that are not allowed on such data centers won't be invoked. """ self._main_thread_ident = threading.get_ident() try: self._sender.connect() if not self.session.auth_key: # New key, we need to tell the server we're going to use # the latest layer try: self.session.auth_key, self.session.time_offset = \ authenticator.do_authentication(self._sender.connection) except BrokenAuthKeyError: return False self.session.layer = LAYER self.session.save() init_connection = True else: init_connection = self.session.layer != LAYER if init_connection: if _exported_auth is not None: self._init_connection(ImportAuthorizationRequest( _exported_auth.id, _exported_auth.bytes )) elif not _cdn: TelegramBareClient._dc_options = \ self._init_connection(GetConfigRequest()).dc_options elif _exported_auth is not None: self(ImportAuthorizationRequest( _exported_auth.id, _exported_auth.bytes )) if TelegramBareClient._dc_options is None and not _cdn: TelegramBareClient._dc_options = \ self(GetConfigRequest()).dc_options # Connection was successful! Try syncing the update state # UNLESS '_sync_updates' is False (we probably are in # another data center and this would raise UserMigrateError) # to also assert whether the user is logged in or not. self._user_connected = True if _sync_updates and not _cdn: try: self.sync_updates() self._set_connected_and_authorized() except UnauthorizedError: self._authorized = False return True except TypeNotFoundError as e: # This is fine, probably layer migration self._logger.debug('Found invalid item, probably migrating', e) self.disconnect() return self.connect( _exported_auth=_exported_auth, _sync_updates=_sync_updates, _cdn=_cdn ) except (RPCError, ConnectionError) as error: # Probably errors from the previous session, ignore them self.disconnect() self._logger.debug( 'Could not stabilise initial connection: {}'.format(error) ) return False def is_connected(self): return self._sender.is_connected() def _init_connection(self, query=None): result = self(InvokeWithLayerRequest(LAYER, InitConnectionRequest( api_id=self.api_id, device_model=self.session.device_model, system_version=self.session.system_version, app_version=self.session.app_version, lang_code=self.session.lang_code, system_lang_code=self.session.system_lang_code, lang_pack='', # "langPacks are for official apps only" query=query ))) self.session.layer = LAYER self.session.save() return result def disconnect(self): """Disconnects from the Telegram server and stops all the spawned threads""" self._user_connected = False self._recv_thread = None # This will trigger a "ConnectionResetError", for subsequent calls # to read or send (from another thread) and usually, the background # thread would try restarting the connection but since the # ._recv_thread = None, it knows it doesn't have to. self._sender.disconnect() # TODO Shall we clear the _exported_sessions, or may be reused? pass def _reconnect(self, new_dc=None): """If 'new_dc' is not set, only a call to .connect() will be made since it's assumed that the connection has been lost and the library is reconnecting. If 'new_dc' is set, the client is first disconnected from the current data center, clears the auth key for the old DC, and connects to the new data center. """ if new_dc is None: # Assume we are disconnected due to some error, so connect again with self._reconnect_lock: # Another thread may have connected again, so check that first if not self.is_connected(): return self.connect() else: return True else: self.disconnect() self.session.auth_key = None # Force creating new auth_key dc = self._get_dc(new_dc) ip = dc.ip_address self._sender.connection.ip = self.session.server_address = ip self._sender.connection.port = self.session.port = dc.port self.session.save() return self.connect() # endregion # region Working with different connections/Data Centers def _on_read_thread(self): return self._recv_thread is not None and \ threading.get_ident() == self._recv_thread.ident def _get_dc(self, dc_id, ipv6=False, cdn=False): """Gets the Data Center (DC) associated to 'dc_id'""" if TelegramBareClient._dc_options is None: raise ConnectionError( 'Cannot determine the required data center IP address. ' 'Stabilise a successful initial connection first.') try: if cdn: # Ensure we have the latest keys for the CDNs for pk in self(GetCdnConfigRequest()).public_keys: rsa.add_key(pk.public_key) return next( dc for dc in TelegramBareClient._dc_options if dc.id == dc_id and bool(dc.ipv6) == ipv6 and bool(dc.cdn) == cdn ) except StopIteration: if not cdn: raise # New configuration, perhaps a new CDN was added? TelegramBareClient._dc_options = self(GetConfigRequest()).dc_options return self._get_dc(dc_id, ipv6=ipv6, cdn=cdn) def _get_exported_client(self, dc_id): """Creates and connects a new TelegramBareClient for the desired DC. If it's the first time calling the method with a given dc_id, a new session will be first created, and its auth key generated. Exporting/Importing the authorization will also be done so that the auth is bound with the key. """ # Thanks badoualy/kotlogram on /telegram/api/DefaultTelegramClient.kt # for clearly showing how to export the authorization! ^^ session = self._exported_sessions.get(dc_id) if session: export_auth = None # Already bound with the auth key else: # TODO Add a lock, don't allow two threads to create an auth key # (when calling .connect() if there wasn't a previous session). # for the same data center. dc = self._get_dc(dc_id) # Export the current authorization to the new DC. export_auth = self(ExportAuthorizationRequest(dc_id)) # Create a temporary session for this IP address, which needs # to be different because each auth_key is unique per DC. # # Construct this session with the connection parameters # (system version, device model...) from the current one. session = Session(self.session) session.server_address = dc.ip_address session.port = dc.port self._exported_sessions[dc_id] = session client = TelegramBareClient( session, self.api_id, self.api_hash, proxy=self._sender.connection.conn.proxy, timeout=self._sender.connection.get_timeout() ) client.connect(_exported_auth=export_auth, _sync_updates=False) client._authorized = True # We exported the auth, so we got auth return client def _get_cdn_client(self, cdn_redirect): """Similar to ._get_exported_client, but for CDNs""" session = self._exported_sessions.get(cdn_redirect.dc_id) if not session: dc = self._get_dc(cdn_redirect.dc_id, cdn=True) session = Session(self.session) session.server_address = dc.ip_address session.port = dc.port self._exported_sessions[cdn_redirect.dc_id] = session client = TelegramBareClient( session, self.api_id, self.api_hash, proxy=self._sender.connection.conn.proxy, timeout=self._sender.connection.get_timeout() ) # This will make use of the new RSA keys for this specific CDN. # # This relies on the fact that TelegramBareClient._dc_options is # static and it won't be called from this DC (it would fail). client.connect(_cdn=True) # Avoid invoking non-CDN specific methods client._authorized = self._authorized return client # endregion # region Invoking Telegram requests def invoke(self, *requests, retries=5): """Invokes (sends) a MTProtoRequest and returns (receives) its result. The invoke will be retried up to 'retries' times before raising ValueError(). """ if not all(isinstance(x, TLObject) and x.content_related for x in requests): raise ValueError('You can only invoke requests, not types!') # Determine the sender to be used (main or a new connection) on_main_thread = threading.get_ident() == self._main_thread_ident if on_main_thread or self._on_read_thread(): sender = self._sender else: sender = self._sender.clone() sender.connect() # We should call receive from this thread if there's no background # thread reading or if the server disconnected us and we're trying # to reconnect. This is because the read thread may either be # locked also trying to reconnect or we may be said thread already. call_receive = not on_main_thread or self._recv_thread is None \ or self._reconnect_lock.locked() try: for _ in range(retries): result = self._invoke(sender, call_receive, *requests) if result: return result raise ValueError('Number of retries reached 0.') finally: if sender != self._sender: sender.disconnect() # Close temporary connections def _invoke(self, sender, call_receive, *requests): try: # Ensure that we start with no previous errors (i.e. resending) for x in requests: x.confirm_received.clear() x.rpc_error = None sender.send(*requests) if not call_receive: # TODO This will be slightly troublesome if we allow # switching between constant read or not on the fly. # Must also watch out for calling .read() from two places, # in which case a Lock would be required for .receive(). for x in requests: x.confirm_received.wait( sender.connection.get_timeout() ) else: while not all(x.confirm_received.is_set() for x in requests): sender.receive(update_state=self.updates) except (PhoneMigrateError, NetworkMigrateError, UserMigrateError) as e: self._logger.debug( 'DC error when invoking request, ' 'attempting to reconnect at DC {}'.format(e.new_dc) ) # TODO What happens with the background thread here? # For normal use cases, this won't happen, because this will only # be on the very first connection (not authorized, not running), # but may be an issue for people who actually travel? self._reconnect(new_dc=e.new_dc) return self._invoke(sender, call_receive, *requests) except TimeoutError: pass # We will just retry except ConnectionResetError: if not self._authorized or self._reconnect_lock.locked(): # Only attempt reconnecting if we're authorized and not # reconnecting already. raise self._logger.debug('Server disconnected us. Reconnecting and ' 'resending request...') if sender != self._sender: # TODO Try reconnecting forever too? sender.connect() else: while self._user_connected and not self._reconnect(): sleep(0.1) # Retry forever until we can send the request except FloodWaitError: sender.disconnect() self.disconnect() raise finally: if sender != self._sender: sender.disconnect() try: raise next(x.rpc_error for x in requests if x.rpc_error) except StopIteration: if any(x.result is None for x in requests): # "A container may only be accepted or # rejected by the other party as a whole." return None elif len(requests) == 1: return requests[0].result else: return [x.result for x in requests] # Let people use client(SomeRequest()) instead client.invoke(...) __call__ = invoke # Some really basic functionality def is_user_authorized(self): """Has the user been authorized yet (code request sent and confirmed)?""" return self._authorized # endregion # region Uploading media def upload_file(self, file, part_size_kb=None, file_name=None, progress_callback=None): """Uploads the specified file and returns a handle (an instance of InputFile or InputFileBig, as required) which can be later used. Uploading a file will simply return a "handle" to the file stored remotely in the Telegram servers, which can be later used on. This will NOT upload the file to your own chat. 'file' may be either a file path, a byte array, or a stream. Note that if the file is a stream it will need to be read entirely into memory to tell its size first. If 'progress_callback' is not None, it should be a function that takes two parameters, (bytes_uploaded, total_bytes). Default values for the optional parameters if left as None are: part_size_kb = get_appropriated_part_size(file_size) file_name = os.path.basename(file_path) """ if isinstance(file, str): file_size = os.path.getsize(file) elif isinstance(file, bytes): file_size = len(file) else: file = file.read() file_size = len(file) if not part_size_kb: part_size_kb = get_appropriated_part_size(file_size) if part_size_kb > 512: raise ValueError('The part size must be less or equal to 512KB') part_size = int(part_size_kb * 1024) if part_size % 1024 != 0: raise ValueError('The part size must be evenly divisible by 1024') # Determine whether the file is too big (over 10MB) or not # Telegram does make a distinction between smaller or larger files is_large = file_size > 10 * 1024 * 1024 part_count = (file_size + part_size - 1) // part_size file_id = utils.generate_random_long() hash_md5 = md5() stream = open(file, 'rb') if isinstance(file, str) else BytesIO(file) try: for part_index in range(part_count): # Read the file by in chunks of size part_size part = stream.read(part_size) # The SavePartRequest is different depending on whether # the file is too large or not (over or less than 10MB) if is_large: request = SaveBigFilePartRequest(file_id, part_index, part_count, part) else: request = SaveFilePartRequest(file_id, part_index, part) result = self(request) if result: if not is_large: # No need to update the hash if it's a large file hash_md5.update(part) if progress_callback: progress_callback(stream.tell(), file_size) else: raise ValueError('Failed to upload file part {}.' .format(part_index)) finally: stream.close() # Set a default file name if None was specified if not file_name: if isinstance(file, str): file_name = os.path.basename(file) else: file_name = str(file_id) if is_large: return InputFileBig(file_id, part_count, file_name) else: return InputFile(file_id, part_count, file_name, md5_checksum=hash_md5.hexdigest()) # endregion # region Downloading media def download_file(self, input_location, file, part_size_kb=None, file_size=None, progress_callback=None): """Downloads the given InputFileLocation to file (a stream or str). If 'progress_callback' is not None, it should be a function that takes two parameters, (bytes_downloaded, total_bytes). Note that 'total_bytes' simply equals 'file_size', and may be None. """ if not part_size_kb: if not file_size: part_size_kb = 64 # Reasonable default else: part_size_kb = get_appropriated_part_size(file_size) part_size = int(part_size_kb * 1024) # https://core.telegram.org/api/files says: # > part_size % 1024 = 0 (divisible by 1KB) # # But https://core.telegram.org/cdn (more recent) says: # > limit must be divisible by 4096 bytes # So we just stick to the 4096 limit. if part_size % 4096 != 0: raise ValueError('The part size must be evenly divisible by 4096.') if isinstance(file, str): # Ensure that we'll be able to download the media utils.ensure_parent_dir_exists(file) f = open(file, 'wb') else: f = file # The used client will change if FileMigrateError occurs client = self cdn_decrypter = None try: offset_index = 0 while True: offset = offset_index * part_size try: if cdn_decrypter: result = cdn_decrypter.get_file() else: result = client(GetFileRequest( input_location, offset, part_size )) if isinstance(result, FileCdnRedirect): cdn_decrypter, result = \ CdnDecrypter.prepare_decrypter( client, self._get_cdn_client(result), result ) except FileMigrateError as e: client = self._get_exported_client(e.new_dc) continue 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 some extra information, unless it's a CDN file return getattr(result, 'type', '') f.write(result.bytes) if progress_callback: progress_callback(f.tell(), file_size) finally: if client != self: client.disconnect() if cdn_decrypter: try: cdn_decrypter.client.disconnect() except: pass if isinstance(file, str): f.close() # endregion # region Updates handling def sync_updates(self): """Synchronizes self.updates to their initial state. Will be called automatically on connection if self.updates.enabled = True, otherwise it should be called manually after enabling updates. """ self.updates.process(self(GetStateRequest())) 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""" sync = not self.updates.handlers self.updates.handlers.append(handler) if sync: self.sync_updates() def remove_update_handler(self, handler): self.updates.handlers.remove(handler) def list_update_handlers(self): return self.updates.handlers[:] # endregion # Constant read def _set_connected_and_authorized(self): self._authorized = True if self._spawn_read_thread and self._recv_thread is None: self._recv_thread = threading.Thread( name='ReadThread', daemon=True, target=self._recv_thread_impl ) self._recv_thread.start() # By using this approach, another thread will be # created and started upon connection to constantly read # from the other end. Otherwise, manual calls to .receive() # must be performed. The MtProtoSender cannot be connected, # or an error will be thrown. # # This way, sending and receiving will be completely independent. def _recv_thread_impl(self): while self._user_connected: try: if datetime.now() > self._last_ping + self._ping_delay: self._sender.send(PingRequest( int.from_bytes(os.urandom(8), 'big', signed=True) )) self._last_ping = datetime.now() self._sender.receive(update_state=self.updates) except TimeoutError: # No problem. pass except ConnectionResetError: self._logger.debug('Server disconnected us. Reconnecting...') while self._user_connected and not self._reconnect(): sleep(0.1) # Retry forever, this is instant messaging except Exception as error: # Unknown exception, pass it to the main thread self._logger.debug( '[ERROR] Unknown error on the read thread, please report', error ) # If something strange happens we don't want to enter an # infinite loop where all we do is raise an exception, so # add a little sleep to avoid the CPU usage going mad. sleep(0.1) break self._recv_thread = None # endregion