#!/usr/bin/env python # # A library that provides a Python interface to the Telegram Bot API # Copyright (C) 2015-2022 # Leandro Toledo de Souza # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU Lesser Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program 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 Public License for more details. # # You should have received a copy of the GNU Lesser Public License # along with this program. If not, see [http://www.gnu.org/licenses/]. import asyncio import logging import os from collections import defaultdict from http import HTTPStatus from pathlib import Path from random import randrange import pytest from telegram import Bot, InlineKeyboardButton, InlineKeyboardMarkup, Update from telegram._utils.defaultvalue import DEFAULT_NONE from telegram.error import InvalidToken, RetryAfter, TelegramError, TimedOut from telegram.ext import ExtBot, InvalidCallbackData, Updater from telegram.request import HTTPXRequest from tests.conftest import ( DictBot, data_file, env_var_2_bool, make_bot, make_message, make_message_update, send_webhook_message, ) TEST_WITH_OPT_DEPS = env_var_2_bool(os.getenv("TEST_WITH_OPT_DEPS", True)) if TEST_WITH_OPT_DEPS: from telegram.ext._utils.webhookhandler import WebhookServer @pytest.mark.skipif( TEST_WITH_OPT_DEPS, reason="Only relevant if the optional dependency is not installed" ) class TestNoWebhooks: async def test_no_webhooks(self, bot): with pytest.raises(RuntimeError, match=r"python-telegram-bot\[webhooks\]"): async with Updater(bot=bot, update_queue=asyncio.Queue()) as updater: await updater.start_webhook() @pytest.mark.skipif( not TEST_WITH_OPT_DEPS, reason="Only relevant if the optional dependency is installed", ) class TestUpdater: message_count = 0 received = None attempts = 0 err_handler_called = None cb_handler_called = None offset = 0 test_flag = False @pytest.fixture(autouse=True) def reset(self): self.message_count = 0 self.received = None self.attempts = 0 self.err_handler_called = None self.cb_handler_called = None self.test_flag = False def error_callback(self, error): self.received = error self.err_handler_called.set() def callback(self, update, context): self.received = update.message.text self.cb_handler_called.set() async def test_slot_behaviour(self, updater, mro_slots): async with updater: for at in updater.__slots__: at = f"_Updater{at}" if at.startswith("__") and not at.endswith("__") else at assert getattr(updater, at, "err") != "err", f"got extra slot '{at}'" assert len(mro_slots(updater)) == len(set(mro_slots(updater))), "duplicate slot" def test_init(self, bot): queue = asyncio.Queue() updater = Updater(bot=bot, update_queue=queue) assert updater.bot is bot assert updater.update_queue is queue async def test_initialize(self, bot, monkeypatch): async def initialize_bot(*args, **kwargs): self.test_flag = True async with make_bot(token=bot.token) as test_bot: monkeypatch.setattr(test_bot, "initialize", initialize_bot) updater = Updater(bot=test_bot, update_queue=asyncio.Queue()) await updater.initialize() assert self.test_flag async def test_shutdown(self, bot, monkeypatch): async def shutdown_bot(*args, **kwargs): self.test_flag = True async with make_bot(token=bot.token) as test_bot: monkeypatch.setattr(test_bot, "shutdown", shutdown_bot) updater = Updater(bot=test_bot, update_queue=asyncio.Queue()) await updater.initialize() await updater.shutdown() assert self.test_flag async def test_multiple_inits_and_shutdowns(self, updater, monkeypatch): self.test_flag = defaultdict(int) async def initialize(*args, **kargs): self.test_flag["init"] += 1 async def shutdown(*args, **kwargs): self.test_flag["shutdown"] += 1 monkeypatch.setattr(updater.bot, "initialize", initialize) monkeypatch.setattr(updater.bot, "shutdown", shutdown) await updater.initialize() await updater.initialize() await updater.initialize() await updater.shutdown() await updater.shutdown() await updater.shutdown() assert self.test_flag["init"] == 1 assert self.test_flag["shutdown"] == 1 async def test_multiple_init_cycles(self, updater): # nothing really to assert - this should just not fail async with updater: await updater.bot.get_me() async with updater: await updater.bot.get_me() @pytest.mark.parametrize("method", ["start_polling", "start_webhook"]) async def test_start_without_initialize(self, updater, method): with pytest.raises(RuntimeError, match="not initialized"): await getattr(updater, method)() @pytest.mark.parametrize("method", ["start_polling", "start_webhook"]) async def test_shutdown_while_running(self, updater, method, monkeypatch): async def set_webhook(*args, **kwargs): return True monkeypatch.setattr(updater.bot, "set_webhook", set_webhook) ip = "127.0.0.1" port = randrange(1024, 49152) # Select random port async with updater: if "webhook" in method: await getattr(updater, method)( ip_address=ip, port=port, ) else: await getattr(updater, method)() with pytest.raises(RuntimeError, match="still running"): await updater.shutdown() await updater.stop() async def test_context_manager(self, monkeypatch, updater): async def initialize(*args, **kwargs): self.test_flag = ["initialize"] async def shutdown(*args, **kwargs): self.test_flag.append("stop") monkeypatch.setattr(Updater, "initialize", initialize) monkeypatch.setattr(Updater, "shutdown", shutdown) async with updater: pass assert self.test_flag == ["initialize", "stop"] async def test_context_manager_exception_on_init(self, monkeypatch, updater): async def initialize(*args, **kwargs): raise RuntimeError("initialize") async def shutdown(*args): self.test_flag = "stop" monkeypatch.setattr(Updater, "initialize", initialize) monkeypatch.setattr(Updater, "shutdown", shutdown) with pytest.raises(RuntimeError, match="initialize"): async with updater: pass assert self.test_flag == "stop" @pytest.mark.parametrize("drop_pending_updates", (True, False)) async def test_polling_basic(self, monkeypatch, updater, drop_pending_updates): updates = asyncio.Queue() await updates.put(Update(update_id=1)) await updates.put(Update(update_id=2)) async def get_updates(*args, **kwargs): next_update = await updates.get() updates.task_done() return [next_update] orig_del_webhook = updater.bot.delete_webhook async def delete_webhook(*args, **kwargs): # Dropping pending updates is done by passing the parameter to delete_webhook if kwargs.get("drop_pending_updates"): self.message_count += 1 return await orig_del_webhook(*args, **kwargs) monkeypatch.setattr(updater.bot, "get_updates", get_updates) monkeypatch.setattr(updater.bot, "delete_webhook", delete_webhook) async with updater: return_value = await updater.start_polling(drop_pending_updates=drop_pending_updates) assert return_value is updater.update_queue assert updater.running await updates.join() await updater.stop() assert not updater.running assert not (await updater.bot.get_webhook_info()).url if drop_pending_updates: assert self.message_count == 1 else: assert self.message_count == 0 await updates.put(Update(update_id=3)) await updates.put(Update(update_id=4)) # We call the same logic twice to make sure that restarting the updater works as well await updater.start_polling(drop_pending_updates=drop_pending_updates) assert updater.running await updates.join() await updater.stop() assert not updater.running assert not (await updater.bot.get_webhook_info()).url self.received = [] self.message_count = 0 while not updater.update_queue.empty(): update = updater.update_queue.get_nowait() self.message_count += 1 self.received.append(update.update_id) assert self.message_count == 4 assert self.received == [1, 2, 3, 4] async def test_start_polling_already_running(self, updater): async with updater: await updater.start_polling() task = asyncio.create_task(updater.start_polling()) with pytest.raises(RuntimeError, match="already running"): await task await updater.stop() with pytest.raises(RuntimeError, match="not running"): await updater.stop() async def test_start_polling_get_updates_parameters(self, updater, monkeypatch): update_queue = asyncio.Queue() await update_queue.put(Update(update_id=1)) expected = dict( timeout=10, read_timeout=2, write_timeout=DEFAULT_NONE, connect_timeout=DEFAULT_NONE, pool_timeout=DEFAULT_NONE, allowed_updates=None, api_kwargs=None, ) async def get_updates(*args, **kwargs): for key, value in expected.items(): assert kwargs.pop(key, None) == value offset = kwargs.pop("offset", None) # Check that we don't get any unexpected kwargs assert kwargs == {} if offset is not None and self.message_count != 0: assert offset == self.message_count + 1, "get_updates got wrong `offset` parameter" update = await update_queue.get() self.message_count = update.update_id update_queue.task_done() return [update] monkeypatch.setattr(updater.bot, "get_updates", get_updates) async with updater: await updater.start_polling() await update_queue.join() await updater.stop() expected = dict( timeout=42, read_timeout=43, write_timeout=44, connect_timeout=45, pool_timeout=46, allowed_updates=["message"], api_kwargs=None, ) await update_queue.put(Update(update_id=2)) await updater.start_polling( timeout=42, read_timeout=43, write_timeout=44, connect_timeout=45, pool_timeout=46, allowed_updates=["message"], ) await update_queue.join() await updater.stop() @pytest.mark.parametrize("exception_class", (InvalidToken, TelegramError)) @pytest.mark.parametrize("retries", (3, 0)) async def test_start_polling_bootstrap_retries( self, updater, monkeypatch, exception_class, retries ): async def do_request(*args, **kwargs): self.message_count += 1 raise exception_class(str(self.message_count)) async with updater: # Patch within the context so that updater.bot.initialize can still be called # by the context manager monkeypatch.setattr(HTTPXRequest, "do_request", do_request) if exception_class == InvalidToken: with pytest.raises(InvalidToken, match="1"): await updater.start_polling(bootstrap_retries=retries) else: with pytest.raises(TelegramError, match=str(retries + 1)): await updater.start_polling(bootstrap_retries=retries) @pytest.mark.parametrize( "error,callback_should_be_called", argvalues=[ (TelegramError("TestMessage"), True), (RetryAfter(1), False), (TimedOut("TestMessage"), False), ], ids=("TelegramError", "RetryAfter", "TimedOut"), ) @pytest.mark.parametrize("custom_error_callback", [True, False]) async def test_start_polling_exceptions_and_error_callback( self, monkeypatch, updater, error, callback_should_be_called, custom_error_callback, caplog ): get_updates_event = asyncio.Event() async def get_updates(*args, **kwargs): # So that the main task has a chance to be called await asyncio.sleep(0) get_updates_event.set() raise error monkeypatch.setattr(updater.bot, "get_updates", get_updates) monkeypatch.setattr(updater.bot, "set_webhook", lambda *args, **kwargs: True) with pytest.raises(TypeError, match="`error_callback` must not be a coroutine function"): await updater.start_polling(error_callback=get_updates) async with updater: self.err_handler_called = asyncio.Event() with caplog.at_level(logging.ERROR): if custom_error_callback: await updater.start_polling(error_callback=self.error_callback) else: await updater.start_polling() # Also makes sure that the error handler was called await get_updates_event.wait() if callback_should_be_called: # Make sure that the error handler was called if custom_error_callback: assert self.received == error else: assert len(caplog.records) > 0 records = (record.getMessage() for record in caplog.records) assert "Error while getting Updates: TestMessage" in records # Make sure that get_updates was called assert get_updates_event.is_set() # Make sure that Updater polling keeps running self.err_handler_called.clear() get_updates_event.clear() caplog.clear() # Also makes sure that the error handler was called await get_updates_event.wait() if callback_should_be_called: if callback_should_be_called: if custom_error_callback: assert self.received == error else: assert len(caplog.records) > 0 records = (record.getMessage() for record in caplog.records) assert "Error while getting Updates: TestMessage" in records await updater.stop() async def test_start_polling_unexpected_shutdown(self, updater, monkeypatch, caplog): update_queue = asyncio.Queue() await update_queue.put(Update(update_id=1)) await update_queue.put(Update(update_id=2)) first_update_event = asyncio.Event() second_update_event = asyncio.Event() async def get_updates(*args, **kwargs): self.message_count = kwargs.get("offset") update = await update_queue.get() if update.update_id == 1: first_update_event.set() else: await second_update_event.wait() return [update] monkeypatch.setattr(updater.bot, "get_updates", get_updates) async with updater: with caplog.at_level(logging.ERROR): await updater.start_polling() await first_update_event.wait() # Unfortunately we need to use the private attribute here to produce the problem updater._running = False second_update_event.set() await asyncio.sleep(0.1) assert caplog.records records = (record.getMessage() for record in caplog.records) assert any("Updater stopped unexpectedly." in record for record in records) # Make sure that the update_id offset wasn't increased assert self.message_count == 2 async def test_start_polling_not_running_after_failure(self, updater, monkeypatch): # Unfortunately we have to use some internal logic to trigger an exception async def _start_polling(*args, **kwargs): raise Exception("Test Exception") monkeypatch.setattr(Updater, "_start_polling", _start_polling) async with updater: with pytest.raises(Exception, match="Test Exception"): await updater.start_polling() assert updater.running is False async def test_polling_update_de_json_fails(self, monkeypatch, updater, caplog): updates = asyncio.Queue() raise_exception = True await updates.put(Update(update_id=1)) async def get_updates(*args, **kwargs): if raise_exception: await asyncio.sleep(0.01) raise TypeError("Invalid Data") next_update = await updates.get() updates.task_done() return [next_update] orig_del_webhook = updater.bot.delete_webhook async def delete_webhook(*args, **kwargs): # Dropping pending updates is done by passing the parameter to delete_webhook if kwargs.get("drop_pending_updates"): self.message_count += 1 return await orig_del_webhook(*args, **kwargs) monkeypatch.setattr(updater.bot, "get_updates", get_updates) monkeypatch.setattr(updater.bot, "delete_webhook", delete_webhook) async with updater: with caplog.at_level(logging.CRITICAL): await updater.start_polling() assert updater.running await asyncio.sleep(1) assert len(caplog.records) > 0 for record in caplog.records: assert record.getMessage().startswith("Something went wrong processing") # Make sure that everything works fine again when receiving proper updates raise_exception = False await asyncio.sleep(0.5) caplog.clear() with caplog.at_level(logging.CRITICAL): await updates.join() assert len(caplog.records) == 0 await updater.stop() assert not updater.running @pytest.mark.parametrize("ext_bot", [True, False]) @pytest.mark.parametrize("drop_pending_updates", (True, False)) @pytest.mark.parametrize("secret_token", ["SecretToken", None]) async def test_webhook_basic( self, monkeypatch, updater, drop_pending_updates, ext_bot, secret_token ): # Testing with both ExtBot and Bot to make sure any logic in WebhookHandler # that depends on this distinction works if ext_bot and not isinstance(updater.bot, ExtBot): updater.bot = ExtBot(updater.bot.token) if not ext_bot and not type(updater.bot) is Bot: updater.bot = DictBot(updater.bot.token) async def delete_webhook(*args, **kwargs): # Dropping pending updates is done by passing the parameter to delete_webhook if kwargs.get("drop_pending_updates"): self.message_count += 1 return True async def set_webhook(*args, **kwargs): return True monkeypatch.setattr(updater.bot, "set_webhook", set_webhook) monkeypatch.setattr(updater.bot, "delete_webhook", delete_webhook) ip = "127.0.0.1" port = randrange(1024, 49152) # Select random port async with updater: return_value = await updater.start_webhook( drop_pending_updates=drop_pending_updates, ip_address=ip, port=port, url_path="TOKEN", secret_token=secret_token, ) assert return_value is updater.update_queue assert updater.running # Now, we send an update to the server update = make_message_update("Webhook") await send_webhook_message( ip, port, update.to_json(), "TOKEN", secret_token=secret_token ) assert (await updater.update_queue.get()).to_dict() == update.to_dict() # Returns Not Found if path is incorrect response = await send_webhook_message(ip, port, "123456", "webhook_handler.py") assert response.status_code == HTTPStatus.NOT_FOUND # Returns METHOD_NOT_ALLOWED if method is not allowed response = await send_webhook_message(ip, port, None, "TOKEN", get_method="HEAD") assert response.status_code == HTTPStatus.METHOD_NOT_ALLOWED if secret_token: # Returns Forbidden if no secret token is set response_text = "403: {0}403: {0}" response = await send_webhook_message(ip, port, update.to_json(), "TOKEN") assert response.status_code == HTTPStatus.FORBIDDEN assert response.text == response_text.format( "Request did not include the secret token" ) # Returns Forbidden if the secret token is wrong response = await send_webhook_message( ip, port, update.to_json(), "TOKEN", secret_token="NotTheSecretToken" ) assert response.status_code == HTTPStatus.FORBIDDEN assert response.text == response_text.format("Request had the wrong secret token") await updater.stop() assert not updater.running if drop_pending_updates: assert self.message_count == 1 else: assert self.message_count == 0 # We call the same logic twice to make sure that restarting the updater works as well await updater.start_webhook( drop_pending_updates=drop_pending_updates, ip_address=ip, port=port, url_path="TOKEN", ) assert updater.running update = make_message_update("Webhook") await send_webhook_message(ip, port, update.to_json(), "TOKEN") assert (await updater.update_queue.get()).to_dict() == update.to_dict() await updater.stop() assert not updater.running async def test_start_webhook_already_running(self, updater, monkeypatch): async def return_true(*args, **kwargs): return True monkeypatch.setattr(updater.bot, "set_webhook", return_true) monkeypatch.setattr(updater.bot, "delete_webhook", return_true) ip = "127.0.0.1" port = randrange(1024, 49152) # Select random port async with updater: await updater.start_webhook(ip, port, url_path="TOKEN") task = asyncio.create_task(updater.start_webhook(ip, port, url_path="TOKEN")) with pytest.raises(RuntimeError, match="already running"): await task await updater.stop() with pytest.raises(RuntimeError, match="not running"): await updater.stop() async def test_start_webhook_parameters_passing(self, updater, monkeypatch): expected_delete_webhook = dict( drop_pending_updates=None, ) expected_set_webhook = dict( certificate=None, max_connections=40, allowed_updates=None, ip_address=None, secret_token=None, **expected_delete_webhook, ) async def set_webhook(*args, **kwargs): for key, value in expected_set_webhook.items(): assert kwargs.pop(key, None) == value, f"set, {key}, {value}" assert kwargs in ( {"url": "http://127.0.0.1:80/"}, {"url": "http://listen:80/"}, {"url": "https://listen-ssl:42/ssl-path"}, ) return True async def delete_webhook(*args, **kwargs): for key, value in expected_delete_webhook.items(): assert kwargs.pop(key, None) == value, f"delete, {key}, {value}" assert kwargs == {} return True async def serve_forever(*args, **kwargs): kwargs.get("ready").set() monkeypatch.setattr(updater.bot, "set_webhook", set_webhook) monkeypatch.setattr(updater.bot, "delete_webhook", delete_webhook) monkeypatch.setattr(WebhookServer, "serve_forever", serve_forever) async with updater: await updater.start_webhook() await updater.stop() expected_delete_webhook = dict( drop_pending_updates=True, api_kwargs=None, ) expected_set_webhook = dict( certificate=data_file("sslcert.pem").read_bytes(), max_connections=47, allowed_updates=["message"], ip_address="123.456.789", secret_token=None, **expected_delete_webhook, ) await updater.start_webhook( listen="listen", allowed_updates=["message"], drop_pending_updates=True, ip_address="123.456.789", max_connections=47, cert=str(data_file("sslcert.pem").resolve()), ) await updater.stop() await updater.start_webhook( listen="listen-ssl", port=42, url_path="ssl-path", allowed_updates=["message"], drop_pending_updates=True, ip_address="123.456.789", max_connections=47, cert=data_file("sslcert.pem"), key=data_file("sslcert.key"), ) await updater.stop() @pytest.mark.parametrize("invalid_data", [True, False], ids=("invalid data", "valid data")) async def test_webhook_arbitrary_callback_data( self, monkeypatch, cdc_bot, invalid_data, chat_id ): """Here we only test one simple setup. telegram.ext.ExtBot.insert_callback_data is tested extensively in test_bot.py in conjunction with get_updates.""" updater = Updater(bot=cdc_bot, update_queue=asyncio.Queue()) async def return_true(*args, **kwargs): return True try: monkeypatch.setattr(updater.bot, "set_webhook", return_true) monkeypatch.setattr(updater.bot, "delete_webhook", return_true) ip = "127.0.0.1" port = randrange(1024, 49152) # Select random port async with updater: await updater.start_webhook(ip, port, url_path="TOKEN") # Now, we send an update to the server reply_markup = InlineKeyboardMarkup.from_button( InlineKeyboardButton(text="text", callback_data="callback_data") ) if not invalid_data: reply_markup = updater.bot.callback_data_cache.process_keyboard(reply_markup) update = make_message_update( message="test_webhook_arbitrary_callback_data", message_factory=make_message, reply_markup=reply_markup, user=updater.bot.bot, ) await send_webhook_message(ip, port, update.to_json(), "TOKEN") received_update = await updater.update_queue.get() assert received_update.update_id == update.update_id message_dict = update.message.to_dict() received_dict = received_update.message.to_dict() message_dict.pop("reply_markup") received_dict.pop("reply_markup") assert message_dict == received_dict button = received_update.message.reply_markup.inline_keyboard[0][0] if invalid_data: assert isinstance(button.callback_data, InvalidCallbackData) else: assert button.callback_data == "callback_data" await updater.stop() finally: updater.bot.callback_data_cache.clear_callback_data() updater.bot.callback_data_cache.clear_callback_queries() async def test_webhook_invalid_ssl(self, monkeypatch, updater): async def return_true(*args, **kwargs): return True monkeypatch.setattr(updater.bot, "set_webhook", return_true) monkeypatch.setattr(updater.bot, "delete_webhook", return_true) ip = "127.0.0.1" port = randrange(1024, 49152) # Select random port async with updater: with pytest.raises(TelegramError, match="Invalid SSL"): await updater.start_webhook( ip, port, url_path="TOKEN", cert=Path(__file__).as_posix(), key=Path(__file__).as_posix(), bootstrap_retries=0, drop_pending_updates=False, webhook_url=None, allowed_updates=None, ) assert updater.running is False async def test_webhook_ssl_just_for_telegram(self, monkeypatch, updater): """Here we just test that the SSL info is pased to Telegram, but __not__ to the the webhook server""" async def set_webhook(**kwargs): self.test_flag.append(bool(kwargs.get("certificate"))) return True async def return_true(*args, **kwargs): return True orig_wh_server_init = WebhookServer.__init__ def webhook_server_init(*args, **kwargs): self.test_flag = [kwargs.get("ssl_ctx") is None] orig_wh_server_init(*args, **kwargs) monkeypatch.setattr(updater.bot, "set_webhook", set_webhook) monkeypatch.setattr(updater.bot, "delete_webhook", return_true) monkeypatch.setattr( "telegram.ext._utils.webhookhandler.WebhookServer.__init__", webhook_server_init ) ip = "127.0.0.1" port = randrange(1024, 49152) # Select random port async with updater: await updater.start_webhook(ip, port, webhook_url=None, cert=Path(__file__).as_posix()) # Now, we send an update to the server update = make_message_update(message="test_message") await send_webhook_message(ip, port, update.to_json()) assert (await updater.update_queue.get()).to_dict() == update.to_dict() assert self.test_flag == [True, True] await updater.stop() @pytest.mark.parametrize("exception_class", (InvalidToken, TelegramError)) @pytest.mark.parametrize("retries", (3, 0)) async def test_start_webhook_bootstrap_retries( self, updater, monkeypatch, exception_class, retries ): async def do_request(*args, **kwargs): self.message_count += 1 raise exception_class(str(self.message_count)) async with updater: # Patch within the context so that updater.bot.initialize can still be called # by the context manager monkeypatch.setattr(HTTPXRequest, "do_request", do_request) if exception_class == InvalidToken: with pytest.raises(InvalidToken, match="1"): await updater.start_webhook(bootstrap_retries=retries) else: with pytest.raises(TelegramError, match=str(retries + 1)): await updater.start_webhook( bootstrap_retries=retries, ) async def test_webhook_invalid_posts(self, updater, monkeypatch): async def return_true(*args, **kwargs): return True monkeypatch.setattr(updater.bot, "set_webhook", return_true) monkeypatch.setattr(updater.bot, "delete_webhook", return_true) ip = "127.0.0.1" port = randrange(1024, 49152) async with updater: await updater.start_webhook(listen=ip, port=port) response = await send_webhook_message(ip, port, None, content_type="invalid") assert response.status_code == HTTPStatus.FORBIDDEN response = await send_webhook_message( ip, port, payload_str="data", content_type="application/xml", ) assert response.status_code == HTTPStatus.FORBIDDEN response = await send_webhook_message(ip, port, "dummy-payload", content_len=None) assert response.status_code == HTTPStatus.INTERNAL_SERVER_ERROR # httpx already complains about bad content length in _send_webhook_message # before the requests below reach the webhook, but not testing this is probably # okay # response = await send_webhook_message( # ip, port, 'dummy-payload', content_len=-2) # assert response.status_code == HTTPStatus.FORBIDDEN # response = await send_webhook_message( # ip, port, 'dummy-payload', content_len='not-a-number') # assert response.status_code == HTTPStatus.INTERNAL_SERVER_ERROR await updater.stop() async def test_webhook_update_de_json_fails(self, monkeypatch, updater, caplog): async def delete_webhook(*args, **kwargs): return True async def set_webhook(*args, **kwargs): return True def de_json_fails(*args, **kwargs): raise TypeError("Invalid input") monkeypatch.setattr(updater.bot, "set_webhook", set_webhook) monkeypatch.setattr(updater.bot, "delete_webhook", delete_webhook) orig_de_json = Update.de_json monkeypatch.setattr(Update, "de_json", de_json_fails) ip = "127.0.0.1" port = randrange(1024, 49152) # Select random port async with updater: return_value = await updater.start_webhook( ip_address=ip, port=port, url_path="TOKEN", ) assert return_value is updater.update_queue assert updater.running # Now, we send an update to the server update = make_message_update("Webhook") with caplog.at_level(logging.CRITICAL): await send_webhook_message(ip, port, update.to_json(), "TOKEN") assert len(caplog.records) == 1 assert caplog.records[-1].getMessage().startswith("Something went wrong processing") # Make sure that everything works fine again when receiving proper updates caplog.clear() with caplog.at_level(logging.CRITICAL): monkeypatch.setattr(Update, "de_json", orig_de_json) await send_webhook_message(ip, port, update.to_json(), "TOKEN") assert (await updater.update_queue.get()).to_dict() == update.to_dict() assert len(caplog.records) == 0 await updater.stop() assert not updater.running