# Pyrogram - Telegram MTProto API Client Library for Python # Copyright (C) 2017-present Dan # # 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 asyncio import logging import os import time from datetime import datetime, timedelta from hashlib import sha1 from io import BytesIO import pyrogram from pyrogram import raw from pyrogram.connection import Connection from pyrogram.crypto import mtproto from pyrogram.errors import ( RPCError, InternalServerError, AuthKeyDuplicated, FloodWait, ServiceUnavailable, BadMsgNotification, SecurityCheckMismatch ) from pyrogram.raw.all import layer from pyrogram.raw.core import TLObject, MsgContainer, Int, FutureSalt, FutureSalts from .internals import MsgId, MsgFactory log = logging.getLogger(__name__) class Result: def __init__(self): self.value = None self.event = asyncio.Event() class Session: START_TIMEOUT = 1 WAIT_TIMEOUT = 15 SLEEP_THRESHOLD = 10 MAX_RETRIES = 5 ACKS_THRESHOLD = 8 PING_INTERVAL = 5 def __init__( self, client: "pyrogram.Client", dc_id: int, auth_key: bytes, test_mode: bool, is_media: bool = False, is_cdn: bool = False ): self.client = client self.dc_id = dc_id self.auth_key = auth_key self.test_mode = test_mode self.is_media = is_media self.is_cdn = is_cdn self.connection = None self.auth_key_id = sha1(auth_key).digest()[-8:] self.session_id = os.urandom(8) self.msg_factory = MsgFactory() self.current_salt = None self.pending_acks = set() self.results = {} self.stored_msg_ids = [] self.ping_task = None self.ping_task_event = asyncio.Event() self.next_salt_task = None self.next_salt_task_event = asyncio.Event() self.network_task = None self.is_connected = asyncio.Event() self.loop = asyncio.get_event_loop() async def start(self): while True: self.connection = Connection( self.dc_id, self.test_mode, self.client.ipv6, self.client.proxy, self.is_media ) try: await self.connection.connect() self.network_task = self.loop.create_task(self.network_worker()) self.current_salt = FutureSalt(0, 0, 0) self.current_salt = FutureSalt( 0, 0, (await self._send( raw.functions.Ping(ping_id=0), timeout=self.START_TIMEOUT )).new_server_salt ) self.current_salt = (await self._send( raw.functions.GetFutureSalts(num=1), timeout=self.START_TIMEOUT)).salts[0] self.next_salt_task = self.loop.create_task(self.next_salt_worker()) if not self.is_cdn: await self._send( raw.functions.InvokeWithLayer( layer=layer, query=raw.functions.InitConnection( api_id=self.client.api_id, app_version=self.client.app_version, device_model=self.client.device_model, system_version=self.client.system_version, system_lang_code=self.client.lang_code, lang_code=self.client.lang_code, lang_pack="", query=raw.functions.help.GetConfig(), ) ), timeout=self.START_TIMEOUT ) self.ping_task = self.loop.create_task(self.ping_worker()) log.info(f"Session initialized: Layer {layer}") log.info(f"Device: {self.client.device_model} - {self.client.app_version}") log.info(f"System: {self.client.system_version} ({self.client.lang_code.upper()})") except AuthKeyDuplicated as e: await self.stop() raise e except (OSError, TimeoutError, RPCError): await self.stop() except Exception as e: await self.stop() raise e else: break self.is_connected.set() log.info("Session started") async def stop(self): self.is_connected.clear() self.ping_task_event.set() self.next_salt_task_event.set() if self.ping_task is not None: await self.ping_task if self.next_salt_task is not None: await self.next_salt_task self.ping_task_event.clear() self.next_salt_task_event.clear() self.connection.close() if self.network_task: await self.network_task for i in self.results.values(): i.event.set() if not self.is_media and callable(self.client.disconnect_handler): try: await self.client.disconnect_handler(self.client) except Exception as e: log.error(e, exc_info=True) log.info("Session stopped") async def restart(self): await self.stop() await self.start() async def handle_packet(self, packet): try: data = await self.loop.run_in_executor( pyrogram.crypto_executor, mtproto.unpack, BytesIO(packet), self.session_id, self.auth_key, self.auth_key_id, self.stored_msg_ids ) except SecurityCheckMismatch: self.connection.close() return messages = ( data.body.messages if isinstance(data.body, MsgContainer) else [data] ) # Call log.debug twice because calling it once by appending "data" to the previous string (i.e. f"Kind: {data}") # will cause "data" to be evaluated as string every time instead of only when debug is actually enabled. log.debug("Received:") log.debug(data) for msg in messages: if msg.seq_no == 0: MsgId.set_server_time(msg.msg_id / (2 ** 32)) if msg.seq_no % 2 != 0: if msg.msg_id not in self.pending_acks: self.pending_acks.add(msg.msg_id) if isinstance(msg.body, (raw.types.MsgDetailedInfo, raw.types.MsgNewDetailedInfo)): self.pending_acks.add(msg.body.answer_msg_id) continue if isinstance(msg.body, raw.types.NewSessionCreated): continue msg_id = None if isinstance(msg.body, (raw.types.BadMsgNotification, raw.types.BadServerSalt)): msg_id = msg.body.bad_msg_id elif isinstance(msg.body, (FutureSalts, raw.types.RpcResult)): msg_id = msg.body.req_msg_id elif isinstance(msg.body, raw.types.Pong): msg_id = msg.body.msg_id else: if self.client is not None: self.loop.create_task(self.client.handle_updates(msg.body)) if msg_id in self.results: self.results[msg_id].value = getattr(msg.body, "result", msg.body) self.results[msg_id].event.set() if len(self.pending_acks) >= self.ACKS_THRESHOLD: log.debug(f"Send {len(self.pending_acks)} acks") try: await self._send(raw.types.MsgsAck(msg_ids=list(self.pending_acks)), False) except (OSError, TimeoutError): pass else: self.pending_acks.clear() async def ping_worker(self): log.info("PingTask started") while True: try: await asyncio.wait_for(self.ping_task_event.wait(), self.PING_INTERVAL) except asyncio.TimeoutError: pass else: break try: await self._send( raw.functions.PingDelayDisconnect( ping_id=0, disconnect_delay=self.WAIT_TIMEOUT + 10 ), False ) except (OSError, TimeoutError, RPCError): pass log.info("PingTask stopped") async def next_salt_worker(self): log.info("NextSaltTask started") while True: now = datetime.fromtimestamp(time.perf_counter() - MsgId.reference_clock + MsgId.server_time) # Seconds to wait until middle-overlap, which is # 15 minutes before/after the current/next salt end/start time valid_until = datetime.fromtimestamp(self.current_salt.valid_until) dt = (valid_until - now).total_seconds() - 900 minutes, seconds = divmod(int(dt), 60) log.info(f"Next salt in {minutes:.0f}m {seconds:.0f}s (at {now + timedelta(seconds=dt)})") try: await asyncio.wait_for(self.next_salt_task_event.wait(), dt) except asyncio.TimeoutError: pass else: break try: self.current_salt = (await self._send(raw.functions.GetFutureSalts(num=1))).salts[0] except (OSError, TimeoutError, RPCError): self.connection.close() break log.info("NextSaltTask stopped") async def network_worker(self): log.info("NetworkTask started") while True: packet = await self.connection.recv() if packet is None or len(packet) == 4: if packet: log.warning(f'Server sent "{Int.read(BytesIO(packet))}"') if self.is_connected.is_set(): self.loop.create_task(self.restart()) break self.loop.create_task(self.handle_packet(packet)) log.info("NetworkTask stopped") async def _send(self, data: TLObject, wait_response: bool = True, timeout: float = WAIT_TIMEOUT): message = self.msg_factory(data) msg_id = message.msg_id if wait_response: self.results[msg_id] = Result() # Call log.debug twice because calling it once by appending "data" to the previous string (i.e. f"Kind: {data}") # will cause "data" to be evaluated as string every time instead of only when debug is actually enabled. log.debug(f"Sent:") log.debug(message) payload = await self.loop.run_in_executor( pyrogram.crypto_executor, mtproto.pack, message, self.current_salt.salt, self.session_id, self.auth_key, self.auth_key_id ) try: await self.connection.send(payload) except OSError as e: self.results.pop(msg_id, None) raise e if wait_response: try: await asyncio.wait_for(self.results[msg_id].event.wait(), timeout) except asyncio.TimeoutError: pass finally: result = self.results.pop(msg_id).value if result is None: raise TimeoutError elif isinstance(result, raw.types.RpcError): if isinstance(data, (raw.functions.InvokeWithoutUpdates, raw.functions.InvokeWithTakeout)): data = data.query RPCError.raise_it(result, type(data)) elif isinstance(result, raw.types.BadMsgNotification): raise BadMsgNotification(result.error_code) else: return result async def send( self, data: TLObject, retries: int = MAX_RETRIES, timeout: float = WAIT_TIMEOUT, sleep_threshold: float = SLEEP_THRESHOLD ): try: await asyncio.wait_for(self.is_connected.wait(), self.WAIT_TIMEOUT) except asyncio.TimeoutError: pass if isinstance(data, (raw.functions.InvokeWithoutUpdates, raw.functions.InvokeWithTakeout)): query = data.query else: query = data query = ".".join(query.QUALNAME.split(".")[1:]) while True: try: return await self._send(data, timeout=timeout) except FloodWait as e: amount = e.x if amount > sleep_threshold >= 0: raise log.warning(f'[{self.client.session_name}] Sleeping for {amount}s (required by "{query}")') await asyncio.sleep(amount) except (OSError, TimeoutError, InternalServerError, ServiceUnavailable) as e: if retries == 0: raise e from None (log.warning if retries < 2 else log.info)( f'[{Session.MAX_RETRIES - retries + 1}] Retrying "{query}" due to {str(e) or repr(e)}') await asyncio.sleep(0.5) return await self.send(data, retries - 1, timeout)