import json import os import platform import sqlite3 import struct import time from base64 import b64decode from os.path import isfile as file_exists from threading import Lock from .. import utils, helpers from ..tl import TLObject from ..tl.types import ( PeerUser, PeerChat, PeerChannel, InputPeerUser, InputPeerChat, InputPeerChannel ) EXTENSION = '.session' CURRENT_VERSION = 1 # database version class Session: """This session contains the required information to login into your Telegram account. NEVER give the saved JSON file to anyone, since they would gain instant access to all your messages and contacts. If you think the session has been compromised, close all the sessions through an official Telegram client to revoke the authorization. """ def __init__(self, session_id): """session_user_id should either be a string or another Session. Note that if another session is given, only parameters like those required to init a connection will be copied. """ # These values will NOT be saved self.filename = ':memory:' # For connection purposes if isinstance(session_id, Session): self.device_model = session_id.device_model self.system_version = session_id.system_version self.app_version = session_id.app_version self.lang_code = session_id.lang_code self.system_lang_code = session_id.system_lang_code self.lang_pack = session_id.lang_pack self.report_errors = session_id.report_errors self.save_entities = session_id.save_entities self.flood_sleep_threshold = session_id.flood_sleep_threshold else: # str / None if session_id: self.filename = session_id if not self.filename.endswith(EXTENSION): self.filename += EXTENSION system = platform.uname() self.device_model = system.system or 'Unknown' self.system_version = system.release or '1.0' self.app_version = '1.0' # '0' will provoke error self.lang_code = 'en' self.system_lang_code = self.lang_code self.lang_pack = '' self.report_errors = True self.save_entities = True self.flood_sleep_threshold = 60 self.id = helpers.generate_random_long(signed=True) self._sequence = 0 self.time_offset = 0 self._last_msg_id = 0 # Long self.salt = 0 # Long # Cross-thread safety self._seq_no_lock = Lock() self._msg_id_lock = Lock() self._db_lock = Lock() # These values will be saved self._dc_id = 0 self._server_address = None self._port = None self._auth_key = None # Migrating from .json -> SQL entities = self._check_migrate_json() self._conn = sqlite3.connect(self.filename, check_same_thread=False) c = self._conn.cursor() c.execute("select name from sqlite_master " "where type='table' and name='version'") if c.fetchone(): # Tables already exist, check for the version c.execute("select version from version") version = c.fetchone()[0] if version != CURRENT_VERSION: self._upgrade_database(old=version) self.save() # These values will be saved c.execute('select * from sessions') tuple_ = c.fetchone() if tuple_: self._dc_id, self._server_address, self._port, key, = tuple_ from ..crypto import AuthKey self._auth_key = AuthKey(data=key) c.close() else: # Tables don't exist, create new ones c.execute("create table version (version integer)") c.execute( """create table sessions ( dc_id integer primary key, server_address text, port integer, auth_key blob ) without rowid""" ) c.execute( """create table entities ( id integer primary key, hash integer not null, username text, phone integer, name text ) without rowid""" ) c.execute("insert into version values (1)") # Migrating from JSON -> new table and may have entities if entities: c.executemany( 'insert or replace into entities values (?,?,?,?,?)', entities ) c.close() self.save() def _check_migrate_json(self): if file_exists(self.filename): try: with open(self.filename, encoding='utf-8') as f: data = json.load(f) self.delete() # Delete JSON file to create database self._port = data.get('port', self._port) self._server_address = \ data.get('server_address', self._server_address) from ..crypto import AuthKey if data.get('auth_key_data', None) is not None: key = b64decode(data['auth_key_data']) self._auth_key = AuthKey(data=key) rows = [] for p_id, p_hash in data.get('entities', []): rows.append((p_id, p_hash, None, None, None)) return rows except UnicodeDecodeError: return [] # No entities def _upgrade_database(self, old): pass # Data from sessions should be kept as properties # not to fetch the database every time we need it def set_dc(self, dc_id, server_address, port): self._dc_id = dc_id self._server_address = server_address self._port = port self._update_session_table() @property def server_address(self): return self._server_address @property def port(self): return self._port @property def auth_key(self): return self._auth_key @auth_key.setter def auth_key(self, value): self._auth_key = value self._update_session_table() def _update_session_table(self): with self._db_lock: c = self._conn.cursor() c.execute('delete from sessions') c.execute('insert into sessions values (?,?,?,?)', ( self._dc_id, self._server_address, self._port, self._auth_key.key if self._auth_key else b'' )) c.close() def save(self): """Saves the current session object as session_user_id.session""" with self._db_lock: self._conn.commit() def delete(self): """Deletes the current session file""" if self.filename == ':memory:': return True try: os.remove(self.filename) return True except OSError: return False @staticmethod def list_sessions(): """Lists all the sessions of the users who have ever connected using this client and never logged out """ return [os.path.splitext(os.path.basename(f))[0] for f in os.listdir('.') if f.endswith(EXTENSION)] def generate_sequence(self, content_related): """Thread safe method to generates the next sequence number, based on whether it was confirmed yet or not. Note that if confirmed=True, the sequence number will be increased by one too """ with self._seq_no_lock: if content_related: result = self._sequence * 2 + 1 self._sequence += 1 return result else: return self._sequence * 2 def get_new_msg_id(self): """Generates a new unique message ID based on the current time (in ms) since epoch""" # Refer to mtproto_plain_sender.py for the original method now = time.time() nanoseconds = int((now - int(now)) * 1e+9) # "message identifiers are divisible by 4" new_msg_id = (int(now) << 32) | (nanoseconds << 2) with self._msg_id_lock: if self._last_msg_id >= new_msg_id: new_msg_id = self._last_msg_id + 4 self._last_msg_id = new_msg_id return new_msg_id def update_time_offset(self, correct_msg_id): """Updates the time offset based on a known correct message ID""" now = int(time.time()) correct = correct_msg_id >> 32 self.time_offset = correct - now # Entity processing def process_entities(self, tlo): """Processes all the found entities on the given TLObject, unless .enabled is False. Returns True if new input entities were added. """ if not self.save_entities: return if not isinstance(tlo, TLObject) and hasattr(tlo, '__iter__'): # This may be a list of users already for instance entities = tlo else: entities = [] if hasattr(tlo, 'chats') and hasattr(tlo.chats, '__iter__'): entities.extend(tlo.chats) if hasattr(tlo, 'users') and hasattr(tlo.users, '__iter__'): entities.extend(tlo.users) if not entities: return rows = [] # Rows to add (id, hash, username, phone, name) for e in entities: if not isinstance(e, TLObject): continue try: p = utils.get_input_peer(e, allow_self=False) marked_id = utils.get_peer_id(p) except ValueError: continue p_hash = getattr(p, 'access_hash', 0) if p_hash is None: # Some users and channels seem to be returned without # an 'access_hash', meaning Telegram doesn't want you # to access them. This is the reason behind ensuring # that the 'access_hash' is non-zero. See issue #354. continue username = getattr(e, 'username', None) or None if username is not None: username = username.lower() phone = getattr(e, 'phone', None) name = utils.get_display_name(e) or None rows.append((marked_id, p_hash, username, phone, name)) if not rows: return with self._db_lock: self._conn.executemany( 'insert or replace into entities values (?,?,?,?,?)', rows ) self.save() def get_input_entity(self, key): """Parses the given string, integer or TLObject key into a marked entity ID, which is then used to fetch the hash from the database. If a callable key is given, every row will be fetched, and passed as a tuple to a function, that should return a true-like value when the desired row is found. Raises ValueError if it cannot be found. """ if isinstance(key, TLObject): key = utils.get_input_peer(key) if type(key).SUBCLASS_OF_ID == 0xc91c90b6: # crc32(b'InputPeer') return key key = utils.get_peer_id(key) c = self._conn.cursor() if isinstance(key, str): phone = utils.parse_phone(key) if phone: c.execute('select id, hash from entities where phone=?', (phone,)) else: username, _ = utils.parse_username(key) c.execute('select id, hash from entities where username=?', (username,)) if isinstance(key, int): c.execute('select id, hash from entities where id=?', (key,)) result = c.fetchone() c.close() if result: i, h = result # unpack resulting tuple i, k = utils.resolve_id(i) # removes the mark and returns kind if k == PeerUser: return InputPeerUser(i, h) elif k == PeerChat: return InputPeerChat(i) elif k == PeerChannel: return InputPeerChannel(i, h) else: raise ValueError('Could not find input entity with key ', key)