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python-telegram-bot/tests/test_bot.py

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#!/usr/bin/env python
#
# A library that provides a Python interface to the Telegram Bot API
# Copyright (C) 2015-2022
# Leandro Toledo de Souza <devs@python-telegram-bot.org>
#
# 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 datetime as dtm
import inspect
import logging
import pickle
import socket
import time
from collections import defaultdict
import pytest
import pytz
from flaky import flaky
from telegram import (
Bot,
BotCommand,
BotCommandScopeChat,
CallbackQuery,
Chat,
ChatAdministratorRights,
ChatPermissions,
Dice,
File,
InlineKeyboardButton,
InlineKeyboardMarkup,
InlineQueryResultArticle,
InlineQueryResultDocument,
InlineQueryResultVoice,
InputMedia,
InputTextMessageContent,
LabeledPrice,
MenuButton,
MenuButtonCommands,
MenuButtonDefault,
MenuButtonWebApp,
Message,
MessageEntity,
Poll,
PollOption,
SentWebAppMessage,
ShippingOption,
Update,
User,
WebAppInfo,
)
from telegram._utils.datetime import from_timestamp, to_timestamp
from telegram._utils.defaultvalue import DefaultValue
from telegram.constants import ChatAction, InlineQueryLimit, MenuButtonType, ParseMode
from telegram.error import BadRequest, InvalidToken, NetworkError
from telegram.ext import ExtBot, InvalidCallbackData
from telegram.helpers import escape_markdown
from telegram.request import BaseRequest, HTTPXRequest, RequestData
from tests.bots import FALLBACKS
from tests.conftest import (
GITHUB_ACTION,
build_kwargs,
check_defaults_handling,
data_file,
expect_bad_request,
make_bot,
)
def to_camel_case(snake_str):
"""https://stackoverflow.com/a/19053800"""
components = snake_str.split("_")
# We capitalize the first letter of each component except the first one
# with the 'title' method and join them together.
return components[0] + "".join(x.title() for x in components[1:])
@pytest.fixture(scope="class")
async def message(bot, chat_id):
to_reply_to = await bot.send_message(
chat_id, "Text", disable_web_page_preview=True, disable_notification=True
)
return await bot.send_message(
chat_id,
"Text",
reply_to_message_id=to_reply_to.message_id,
disable_web_page_preview=True,
disable_notification=True,
)
@pytest.fixture(scope="class")
async def media_message(bot, chat_id):
with data_file("telegram.ogg").open("rb") as f:
return await bot.send_voice(chat_id, voice=f, caption="my caption", read_timeout=10)
@pytest.fixture(scope="class")
def chat_permissions():
return ChatPermissions(can_send_messages=False, can_change_info=False, can_invite_users=False)
def inline_results_callback(page=None):
if not page:
return [InlineQueryResultArticle(i, str(i), None) for i in range(1, 254)]
if page <= 5:
return [
InlineQueryResultArticle(i, str(i), None)
for i in range(page * 5 + 1, (page + 1) * 5 + 1)
]
return None
@pytest.fixture(scope="class")
def inline_results():
return inline_results_callback()
BASE_GAME_SCORE = 60 # Base game score for game tests
xfail = pytest.mark.xfail(
bool(GITHUB_ACTION), # This condition is only relevant for github actions game tests.
reason="Can fail due to race conditions when multiple test suites "
"with the same bot token are run at the same time",
)
def bot_methods(ext_bot=True):
arg_values = []
ids = []
non_api_methods = [
"de_json",
"de_list",
"to_dict",
"to_json",
"parse_data",
"get_bot",
"set_bot",
"initialize",
"shutdown",
"insert_callback_data",
]
classes = (Bot, ExtBot) if ext_bot else (Bot,)
for cls in classes:
for name, attribute in inspect.getmembers(cls, predicate=inspect.isfunction):
if name.startswith("_") or name in non_api_methods:
continue
arg_values.append((cls, name, attribute))
ids.append(f"{cls.__name__}.{name}")
return pytest.mark.parametrize(
argnames="bot_class, bot_method_name,bot_method", argvalues=arg_values, ids=ids
)
class TestBot:
"""
Most are executed on tg.ext.ExtBot, as that class only extends the functionality of tg.bot
"""
test_flag = None
@pytest.fixture(scope="function", autouse=True)
def reset(self):
self.test_flag = None
@pytest.mark.parametrize("bot_class", [Bot, ExtBot])
def test_slot_behaviour(self, bot_class, bot, mro_slots):
inst = bot_class(bot.token)
for attr in inst.__slots__:
assert getattr(inst, attr, "err") != "err", f"got extra slot '{attr}'"
assert len(mro_slots(inst)) == len(set(mro_slots(inst))), "duplicate slot"
@pytest.mark.parametrize(
"token",
argvalues=[
"123",
"12a:abcd1234",
"12:abcd1234",
"1234:abcd1234\n",
" 1234:abcd1234",
" 1234:abcd1234\r",
"1234:abcd 1234",
],
)
async def test_invalid_token(self, token):
with pytest.raises(InvalidToken, match="Invalid token"):
Bot(token)
async def test_initialize_and_shutdown(self, bot, monkeypatch):
async def initialize(*args, **kwargs):
self.test_flag = ["initialize"]
async def stop(*args, **kwargs):
self.test_flag.append("stop")
temp_bot = Bot(token=bot.token)
orig_stop = temp_bot.request.shutdown
try:
monkeypatch.setattr(temp_bot.request, "initialize", initialize)
monkeypatch.setattr(temp_bot.request, "shutdown", stop)
await temp_bot.initialize()
assert self.test_flag == ["initialize"]
assert temp_bot.bot == bot.bot
await temp_bot.shutdown()
assert self.test_flag == ["initialize", "stop"]
finally:
await orig_stop()
async def test_multiple_inits_and_shutdowns(self, bot, monkeypatch):
self.received = defaultdict(int)
async def initialize(*args, **kwargs):
self.received["init"] += 1
async def shutdown(*args, **kwargs):
self.received["shutdown"] += 1
monkeypatch.setattr(HTTPXRequest, "initialize", initialize)
monkeypatch.setattr(HTTPXRequest, "shutdown", shutdown)
test_bot = Bot(bot.token)
await test_bot.initialize()
await test_bot.initialize()
await test_bot.initialize()
await test_bot.shutdown()
await test_bot.shutdown()
await test_bot.shutdown()
# 2 instead of 1 since we have to request objects for each bot
assert self.received["init"] == 2
assert self.received["shutdown"] == 2
async def test_multiple_init_cycles(self, bot):
# nothing really to assert - this should just not fail
test_bot = Bot(bot.token)
async with test_bot:
await test_bot.get_me()
async with test_bot:
await test_bot.get_me()
async def test_context_manager(self, monkeypatch, bot):
async def initialize():
self.test_flag = ["initialize"]
async def shutdown(*args):
self.test_flag.append("stop")
monkeypatch.setattr(bot, "initialize", initialize)
monkeypatch.setattr(bot, "shutdown", shutdown)
async with bot:
pass
assert self.test_flag == ["initialize", "stop"]
async def test_context_manager_exception_on_init(self, monkeypatch, bot):
async def initialize():
raise RuntimeError("initialize")
async def shutdown():
self.test_flag = "stop"
monkeypatch.setattr(bot, "initialize", initialize)
monkeypatch.setattr(bot, "shutdown", shutdown)
with pytest.raises(RuntimeError, match="initialize"):
async with bot:
pass
assert self.test_flag == "stop"
async def test_log_decorator(self, bot, caplog):
# Second argument makes sure that we ignore logs from e.g. httpx
with caplog.at_level(logging.DEBUG, logger="telegram"):
await bot.get_me()
# Only for stabilizing this test-
if len(caplog.records) == 4:
for idx, record in enumerate(caplog.records):
print(record)
if record.getMessage().startswith("Task was destroyed but it is pending"):
caplog.records.pop(idx)
assert len(caplog.records) == 3
assert caplog.records[0].getMessage().startswith("Entering: get_me")
assert caplog.records[-1].getMessage().startswith("Exiting: get_me")
@pytest.mark.parametrize(
"acd_in,maxsize,acd",
[(True, 1024, True), (False, 1024, False), (0, 0, True), (None, None, True)],
)
async def test_callback_data_maxsize(self, bot, acd_in, maxsize, acd):
async with ExtBot(bot.token, arbitrary_callback_data=acd_in) as acd_bot:
assert acd_bot.arbitrary_callback_data == acd
assert acd_bot.callback_data_cache.maxsize == maxsize
@flaky(3, 1)
async def test_invalid_token_server_response(self, monkeypatch):
monkeypatch.setattr("telegram.Bot._validate_token", lambda x, y: "")
with pytest.raises(InvalidToken):
async with make_bot(token="12") as bot:
await bot.get_me()
async def test_unknown_kwargs(self, bot, monkeypatch):
async def post(url, request_data: RequestData, *args, **kwargs):
data = request_data.json_parameters
if not all([data["unknown_kwarg_1"] == "7", data["unknown_kwarg_2"] == "5"]):
pytest.fail("got wrong parameters")
return True
monkeypatch.setattr(bot.request, "post", post)
await bot.send_message(
123, "text", api_kwargs={"unknown_kwarg_1": 7, "unknown_kwarg_2": 5}
)
@flaky(3, 1)
async def test_get_me_and_properties(self, bot: Bot):
get_me_bot = await bot.get_me()
assert isinstance(get_me_bot, User)
assert get_me_bot.id == bot.id
assert get_me_bot.username == bot.username
assert get_me_bot.first_name == bot.first_name
assert get_me_bot.last_name == bot.last_name
assert get_me_bot.name == bot.name
assert get_me_bot.can_join_groups == bot.can_join_groups
assert get_me_bot.can_read_all_group_messages == bot.can_read_all_group_messages
assert get_me_bot.supports_inline_queries == bot.supports_inline_queries
assert f"https://t.me/{get_me_bot.username}" == bot.link
@pytest.mark.parametrize(
"attribute",
[
"id",
"username",
"first_name",
"last_name",
"name",
"can_join_groups",
"can_read_all_group_messages",
"supports_inline_queries",
"link",
],
)
async def test_get_me_and_properties_not_initialized(self, bot: Bot, attribute):
bot = Bot(token=bot.token)
try:
with pytest.raises(RuntimeError, match="not properly initialized"):
bot[attribute]
finally:
await bot.shutdown()
async def test_equality(self):
async with make_bot(token=FALLBACKS[0]["token"]) as a, make_bot(
token=FALLBACKS[0]["token"]
) as b, make_bot(token=FALLBACKS[1]["token"]) as c:
d = Update(123456789)
assert a == b
assert hash(a) == hash(b)
assert a is not b
assert a != c
assert hash(a) != hash(c)
assert a != d
assert hash(a) != hash(d)
@flaky(3, 1)
async def test_to_dict(self, bot):
to_dict_bot = bot.to_dict()
assert isinstance(to_dict_bot, dict)
assert to_dict_bot["id"] == bot.id
assert to_dict_bot["username"] == bot.username
assert to_dict_bot["first_name"] == bot.first_name
if bot.last_name:
assert to_dict_bot["last_name"] == bot.last_name
def test_bot_pickling_error(self, bot):
with pytest.raises(pickle.PicklingError, match="Bot objects cannot be pickled"):
pickle.dumps(bot)
@bot_methods(ext_bot=False)
async def test_defaults_handling(
self, bot_class, bot_method_name, bot_method, bot, raw_bot, monkeypatch
):
"""
Here we check that the bot methods handle tg.ext.Defaults correctly. This has two parts:
1. Check that ExtBot actually inserts the defaults values correctly
2. Check that tg.Bot just replaces `DefaultValue(obj)` with `obj`, i.e. that it doesn't
pass any `DefaultValue` instances to Request. See the docstring of
tg.Bot._insert_defaults for details on why we need that
As for most defaults,
we can't really check the effect, we just check if we're passing the correct kwargs to
Request.post. As bot method tests a scattered across the different test files, we do
this here in one place.
The same test is also run for all the shortcuts (Message.reply_text) etc in the
corresponding tests.
Finally, there are some tests for Defaults.{parse_mode, quote, allow_sending_without_reply}
at the appropriate places, as those are the only things we can actually check.
"""
if bot_method_name.lower().replace("_", "") == "getupdates":
return
try:
# Check that ExtBot does the right thing
bot_method = getattr(bot, bot_method_name)
assert await check_defaults_handling(bot_method, bot)
# check that tg.Bot does the right thing
# make_assertion basically checks everything that happens in
# Bot._insert_defaults and Bot._insert_defaults_for_ilq_results
async def make_assertion(url, request_data: RequestData, *args, **kwargs):
json_data = request_data.parameters
# Check regular kwargs
for k, v in json_data.items():
if isinstance(v, DefaultValue):
pytest.fail(f"Parameter {k} was passed as DefaultValue to request")
elif isinstance(v, InputMedia) and isinstance(v.parse_mode, DefaultValue):
pytest.fail(f"Parameter {k} has a DefaultValue parse_mode")
# Check InputMedia
elif k == "media" and isinstance(v, list):
if any(isinstance(med.get("parse_mode"), DefaultValue) for med in v):
pytest.fail("One of the media items has a DefaultValue parse_mode")
# Check inline query results
if bot_method_name.lower().replace("_", "") == "answerinlinequery":
for result_dict in json_data["results"]:
if isinstance(result_dict.get("parse_mode"), DefaultValue):
pytest.fail("InlineQueryResult has DefaultValue parse_mode")
imc = result_dict.get("input_message_content")
if imc and isinstance(imc.get("parse_mode"), DefaultValue):
pytest.fail(
"InlineQueryResult is InputMessageContext with DefaultValue "
"parse_mode "
)
if imc and isinstance(imc.get("disable_web_page_preview"), DefaultValue):
pytest.fail(
"InlineQueryResult is InputMessageContext with DefaultValue "
"disable_web_page_preview "
)
# Check datetime conversion
until_date = json_data.pop("until_date", None)
if until_date and until_date != 946684800:
pytest.fail("Naive until_date was not interpreted as UTC")
if bot_method_name in ["get_file", "getFile"]:
# The get_file methods try to check if the result is a local file
return File(file_id="result", file_unique_id="result").to_dict()
method = getattr(raw_bot, bot_method_name)
signature = inspect.signature(method)
kwargs_need_default = [
kwarg
for kwarg, value in signature.parameters.items()
if isinstance(value.default, DefaultValue)
]
monkeypatch.setattr(raw_bot.request, "post", make_assertion)
await method(**build_kwargs(inspect.signature(method), kwargs_need_default))
finally:
await bot.get_me() # because running the mock-get_me messages with bot.bot & friends
method = getattr(raw_bot, bot_method_name)
signature = inspect.signature(method)
kwargs_need_default = [
kwarg
for kwarg, value in signature.parameters.items()
if isinstance(value.default, DefaultValue)
]
monkeypatch.setattr(raw_bot.request, "post", make_assertion)
await method(**build_kwargs(inspect.signature(method), kwargs_need_default))
def test_ext_bot_signature(self):
"""
Here we make sure that all methods of ext.ExtBot have the same signature as the
corresponding methods of tg.Bot.
"""
# Some methods of ext.ExtBot
global_extra_args = set()
extra_args_per_method = defaultdict(
set, {"__init__": {"arbitrary_callback_data", "defaults"}}
)
different_hints_per_method = defaultdict(set, {"__setattr__": {"ext_bot"}})
for name, method in inspect.getmembers(Bot, predicate=inspect.isfunction):
signature = inspect.signature(method)
ext_signature = inspect.signature(getattr(ExtBot, name))
assert (
ext_signature.return_annotation == signature.return_annotation
), f"Wrong return annotation for method {name}"
assert (
set(signature.parameters)
== set(ext_signature.parameters) - global_extra_args - extra_args_per_method[name]
), f"Wrong set of parameters for method {name}"
for param_name, param in signature.parameters.items():
if param_name in different_hints_per_method[name]:
continue
assert (
param.annotation == ext_signature.parameters[param_name].annotation
), f"Wrong annotation for parameter {param_name} of method {name}"
assert (
param.default == ext_signature.parameters[param_name].default
), f"Wrong default value for parameter {param_name} of method {name}"
assert (
param.kind == ext_signature.parameters[param_name].kind
), f"Wrong parameter kind for parameter {param_name} of method {name}"
@flaky(3, 1)
async def test_forward_message(self, bot, chat_id, message):
forward_message = await bot.forward_message(
chat_id, from_chat_id=chat_id, message_id=message.message_id
)
assert forward_message.text == message.text
assert forward_message.forward_from.username == message.from_user.username
assert isinstance(forward_message.forward_date, dtm.datetime)
async def test_forward_protected_message(self, bot, message, chat_id):
to_forward_protected = await bot.send_message(
chat_id, "cant forward me", protect_content=True
)
assert to_forward_protected.has_protected_content
with pytest.raises(BadRequest, match="can't be forwarded"):
await to_forward_protected.forward(chat_id)
to_forward_unprotected = await bot.send_message(
chat_id, "forward me", protect_content=False
)
assert not to_forward_unprotected.has_protected_content
forwarded_but_now_protected = await to_forward_unprotected.forward(
chat_id, protect_content=True
)
assert forwarded_but_now_protected.has_protected_content
with pytest.raises(BadRequest, match="can't be forwarded"):
await forwarded_but_now_protected.forward(chat_id)
@flaky(3, 1)
async def test_delete_message(self, bot, chat_id):
message = await bot.send_message(chat_id, text="will be deleted")
await asyncio.sleep(2)
assert await bot.delete_message(chat_id=chat_id, message_id=message.message_id) is True
@flaky(3, 1)
async def test_delete_message_old_message(self, bot, chat_id):
with pytest.raises(BadRequest):
# Considering that the first message is old enough
await bot.delete_message(chat_id=chat_id, message_id=1)
# send_photo, send_audio, send_document, send_sticker, send_video, send_voice, send_video_note,
# send_media_group and send_animation are tested in their respective test modules. No need to
# duplicate here.
@flaky(3, 1)
async def test_send_venue(self, bot, chat_id):
longitude = -46.788279
latitude = -23.691288
title = "title"
address = "address"
foursquare_id = "foursquare id"
foursquare_type = "foursquare type"
google_place_id = "google_place id"
google_place_type = "google_place type"
message = await bot.send_venue(
chat_id=chat_id,
title=title,
address=address,
latitude=latitude,
longitude=longitude,
foursquare_id=foursquare_id,
foursquare_type=foursquare_type,
protect_content=True,
)
assert message.venue
assert message.venue.title == title
assert message.venue.address == address
assert message.venue.location.latitude == latitude
assert message.venue.location.longitude == longitude
assert message.venue.foursquare_id == foursquare_id
assert message.venue.foursquare_type == foursquare_type
assert message.venue.google_place_id is None
assert message.venue.google_place_type is None
assert message.has_protected_content
message = await bot.send_venue(
chat_id=chat_id,
title=title,
address=address,
latitude=latitude,
longitude=longitude,
google_place_id=google_place_id,
google_place_type=google_place_type,
protect_content=True,
)
assert message.venue
assert message.venue.title == title
assert message.venue.address == address
assert message.venue.location.latitude == latitude
assert message.venue.location.longitude == longitude
assert message.venue.google_place_id == google_place_id
assert message.venue.google_place_type == google_place_type
assert message.venue.foursquare_id is None
assert message.venue.foursquare_type is None
assert message.has_protected_content
@flaky(3, 1)
async def test_send_contact(self, bot, chat_id):
phone_number = "+11234567890"
first_name = "Leandro"
last_name = "Toledo"
message = await bot.send_contact(
chat_id=chat_id,
phone_number=phone_number,
first_name=first_name,
last_name=last_name,
protect_content=True,
)
assert message.contact
assert message.contact.phone_number == phone_number
assert message.contact.first_name == first_name
assert message.contact.last_name == last_name
assert message.has_protected_content
# TODO: Add bot to group to test polls too
@flaky(3, 1)
@pytest.mark.parametrize(
"reply_markup",
[
None,
InlineKeyboardMarkup.from_button(
InlineKeyboardButton(text="text", callback_data="data")
),
InlineKeyboardMarkup.from_button(
InlineKeyboardButton(text="text", callback_data="data")
).to_dict(),
],
)
async def test_send_and_stop_poll(self, bot, super_group_id, reply_markup):
question = "Is this a test?"
answers = ["Yes", "No", "Maybe"]
message = await bot.send_poll(
chat_id=super_group_id,
question=question,
options=answers,
is_anonymous=False,
allows_multiple_answers=True,
read_timeout=60,
protect_content=True,
)
assert message.poll
assert message.poll.question == question
assert message.poll.options[0].text == answers[0]
assert message.poll.options[1].text == answers[1]
assert message.poll.options[2].text == answers[2]
assert not message.poll.is_anonymous
assert message.poll.allows_multiple_answers
assert not message.poll.is_closed
assert message.poll.type == Poll.REGULAR
assert message.has_protected_content
# Since only the poll and not the complete message is returned, we can't check that the
# reply_markup is correct. So we just test that sending doesn't give an error.
poll = await bot.stop_poll(
chat_id=super_group_id,
message_id=message.message_id,
reply_markup=reply_markup,
read_timeout=60,
)
assert isinstance(poll, Poll)
assert poll.is_closed
assert poll.options[0].text == answers[0]
assert poll.options[0].voter_count == 0
assert poll.options[1].text == answers[1]
assert poll.options[1].voter_count == 0
assert poll.options[2].text == answers[2]
assert poll.options[2].voter_count == 0
assert poll.question == question
assert poll.total_voter_count == 0
explanation = "[Here is a link](https://google.com)"
explanation_entities = [
MessageEntity(MessageEntity.TEXT_LINK, 0, 14, url="https://google.com")
]
message_quiz = await bot.send_poll(
chat_id=super_group_id,
question=question,
options=answers,
type=Poll.QUIZ,
correct_option_id=2,
is_closed=True,
explanation=explanation,
explanation_parse_mode=ParseMode.MARKDOWN_V2,
)
assert message_quiz.poll.correct_option_id == 2
assert message_quiz.poll.type == Poll.QUIZ
assert message_quiz.poll.is_closed
assert message_quiz.poll.explanation == "Here is a link"
assert message_quiz.poll.explanation_entities == explanation_entities
@flaky(3, 1)
@pytest.mark.parametrize(
["open_period", "close_date"], [(5, None), (None, True)], ids=["open_period", "close_date"]
)
async def test_send_open_period(self, bot, super_group_id, open_period, close_date):
question = "Is this a test?"
answers = ["Yes", "No", "Maybe"]
reply_markup = InlineKeyboardMarkup.from_button(
InlineKeyboardButton(text="text", callback_data="data")
)
if close_date:
close_date = dtm.datetime.utcnow() + dtm.timedelta(seconds=5.05)
message = await bot.send_poll(
chat_id=super_group_id,
question=question,
options=answers,
is_anonymous=False,
allows_multiple_answers=True,
read_timeout=60,
open_period=open_period,
close_date=close_date,
)
await asyncio.sleep(5.1)
new_message = await bot.edit_message_reply_markup(
chat_id=super_group_id,
message_id=message.message_id,
reply_markup=reply_markup,
read_timeout=60,
)
assert new_message.poll.id == message.poll.id
assert new_message.poll.is_closed
@flaky(3, 1)
async def test_send_close_date_default_tz(self, tz_bot, super_group_id):
question = "Is this a test?"
answers = ["Yes", "No", "Maybe"]
reply_markup = InlineKeyboardMarkup.from_button(
InlineKeyboardButton(text="text", callback_data="data")
)
aware_close_date = dtm.datetime.now(tz=tz_bot.defaults.tzinfo) + dtm.timedelta(seconds=5)
close_date = aware_close_date.replace(tzinfo=None)
msg = await tz_bot.send_poll( # The timezone returned from this is always converted to UTC
chat_id=super_group_id,
question=question,
options=answers,
close_date=close_date,
read_timeout=60,
)
# Sometimes there can be a few seconds delay, so don't let the test fail due to that-
msg.poll.close_date = msg.poll.close_date.astimezone(aware_close_date.tzinfo)
assert abs(msg.poll.close_date - aware_close_date) <= dtm.timedelta(seconds=5)
await asyncio.sleep(5.1)
new_message = await tz_bot.edit_message_reply_markup(
chat_id=super_group_id,
message_id=msg.message_id,
reply_markup=reply_markup,
read_timeout=60,
)
assert new_message.poll.id == msg.poll.id
assert new_message.poll.is_closed
@flaky(3, 1)
async def test_send_poll_explanation_entities(self, bot, chat_id):
test_string = "Italic Bold Code"
entities = [
MessageEntity(MessageEntity.ITALIC, 0, 6),
MessageEntity(MessageEntity.ITALIC, 7, 4),
MessageEntity(MessageEntity.ITALIC, 12, 4),
]
message = await bot.send_poll(
chat_id,
"question",
options=["a", "b"],
correct_option_id=0,
type=Poll.QUIZ,
explanation=test_string,
explanation_entities=entities,
)
assert message.poll.explanation == test_string
assert message.poll.explanation_entities == entities
@flaky(3, 1)
@pytest.mark.parametrize("default_bot", [{"parse_mode": "Markdown"}], indirect=True)
async def test_send_poll_default_parse_mode(self, default_bot, super_group_id):
explanation = "Italic Bold Code"
explanation_markdown = "_Italic_ *Bold* `Code`"
question = "Is this a test?"
answers = ["Yes", "No", "Maybe"]
message = await default_bot.send_poll(
chat_id=super_group_id,
question=question,
options=answers,
type=Poll.QUIZ,
correct_option_id=2,
is_closed=True,
explanation=explanation_markdown,
)
assert message.poll.explanation == explanation
assert message.poll.explanation_entities == [
MessageEntity(MessageEntity.ITALIC, 0, 6),
MessageEntity(MessageEntity.BOLD, 7, 4),
MessageEntity(MessageEntity.CODE, 12, 4),
]
message = await default_bot.send_poll(
chat_id=super_group_id,
question=question,
options=answers,
type=Poll.QUIZ,
correct_option_id=2,
is_closed=True,
explanation=explanation_markdown,
explanation_parse_mode=None,
)
assert message.poll.explanation == explanation_markdown
assert message.poll.explanation_entities == []
message = await default_bot.send_poll(
chat_id=super_group_id,
question=question,
options=answers,
type=Poll.QUIZ,
correct_option_id=2,
is_closed=True,
explanation=explanation_markdown,
explanation_parse_mode="HTML",
)
assert message.poll.explanation == explanation_markdown
assert message.poll.explanation_entities == []
@flaky(3, 1)
@pytest.mark.parametrize(
"default_bot,custom",
[
({"allow_sending_without_reply": True}, None),
({"allow_sending_without_reply": False}, None),
({"allow_sending_without_reply": False}, True),
],
indirect=["default_bot"],
)
async def test_send_poll_default_allow_sending_without_reply(
self, default_bot, chat_id, custom
):
question = "Is this a test?"
answers = ["Yes", "No", "Maybe"]
reply_to_message = await default_bot.send_message(chat_id, "test")
await reply_to_message.delete()
if custom is not None:
message = await default_bot.send_poll(
chat_id,
question=question,
options=answers,
allow_sending_without_reply=custom,
reply_to_message_id=reply_to_message.message_id,
)
assert message.reply_to_message is None
elif default_bot.defaults.allow_sending_without_reply:
message = await default_bot.send_poll(
chat_id,
question=question,
options=answers,
reply_to_message_id=reply_to_message.message_id,
)
assert message.reply_to_message is None
else:
with pytest.raises(BadRequest, match="message not found"):
await default_bot.send_poll(
chat_id,
question=question,
options=answers,
reply_to_message_id=reply_to_message.message_id,
)
@flaky(3, 1)
@pytest.mark.parametrize("default_bot", [{"protect_content": True}], indirect=True)
async def test_send_poll_default_protect_content(self, chat_id, default_bot):
protected_poll = await default_bot.send_poll(chat_id, "Test", ["1", "2"])
assert protected_poll.has_protected_content
unprotect_poll = await default_bot.send_poll(
chat_id, "test", ["1", "2"], protect_content=False
)
assert not unprotect_poll.has_protected_content
@flaky(3, 1)
@pytest.mark.parametrize("emoji", Dice.ALL_EMOJI + [None])
async def test_send_dice(self, bot, chat_id, emoji):
message = await bot.send_dice(chat_id, emoji=emoji, protect_content=True)
assert message.dice
assert message.has_protected_content
if emoji is None:
assert message.dice.emoji == Dice.DICE
else:
assert message.dice.emoji == emoji
@flaky(3, 1)
@pytest.mark.parametrize(
"default_bot,custom",
[
({"allow_sending_without_reply": True}, None),
({"allow_sending_without_reply": False}, None),
({"allow_sending_without_reply": False}, True),
],
indirect=["default_bot"],
)
async def test_send_dice_default_allow_sending_without_reply(
self, default_bot, chat_id, custom
):
reply_to_message = await default_bot.send_message(chat_id, "test")
await reply_to_message.delete()
if custom is not None:
message = await default_bot.send_dice(
chat_id,
allow_sending_without_reply=custom,
reply_to_message_id=reply_to_message.message_id,
)
assert message.reply_to_message is None
elif default_bot.defaults.allow_sending_without_reply:
message = await default_bot.send_dice(
chat_id,
reply_to_message_id=reply_to_message.message_id,
)
assert message.reply_to_message is None
else:
with pytest.raises(BadRequest, match="message not found"):
await default_bot.send_dice(
chat_id, reply_to_message_id=reply_to_message.message_id
)
@flaky(3, 1)
@pytest.mark.parametrize("default_bot", [{"protect_content": True}], indirect=True)
async def test_send_dice_default_protect_content(self, chat_id, default_bot):
protected_dice = await default_bot.send_dice(chat_id)
assert protected_dice.has_protected_content
unprotected_dice = await default_bot.send_dice(chat_id, protect_content=False)
assert not unprotected_dice.has_protected_content
@flaky(3, 1)
@pytest.mark.parametrize("chat_action", list(ChatAction))
async def test_send_chat_action(self, bot, chat_id, chat_action):
assert await bot.send_chat_action(chat_id, chat_action)
async def test_wrong_chat_action(self, bot, chat_id):
with pytest.raises(BadRequest, match="Wrong parameter action"):
await bot.send_chat_action(chat_id, "unknown action")
@pytest.mark.asyncio
async def test_answer_web_app_query(self, bot, monkeypatch):
params = False
# For now just test that our internals pass the correct data
async def make_assertion(url, request_data: RequestData, *args, **kwargs):
nonlocal params
params = request_data.parameters == {
"web_app_query_id": "12345",
"result": result.to_dict(),
}
web_app_msg = SentWebAppMessage("321").to_dict()
return web_app_msg
monkeypatch.setattr(bot.request, "post", make_assertion)
result = InlineQueryResultArticle("1", "title", InputTextMessageContent("text"))
web_app_msg = await bot.answer_web_app_query("12345", result)
assert params, "something went wrong with passing arguments to the request"
assert isinstance(web_app_msg, SentWebAppMessage)
assert web_app_msg.inline_message_id == "321"
# TODO: Needs improvement. We need incoming inline query to test answer.
async def test_answer_inline_query(self, monkeypatch, bot):
# For now just test that our internals pass the correct data
async def make_assertion(url, request_data: RequestData, *args, **kwargs):
return request_data.parameters == {
"cache_time": 300,
"results": [
{
"title": "first",
"id": "11",
"type": "article",
"input_message_content": {"message_text": "first"},
},
{
"title": "second",
"id": "12",
"type": "article",
"input_message_content": {"message_text": "second"},
},
],
"next_offset": "42",
"switch_pm_parameter": "start_pm",
"inline_query_id": 1234,
"is_personal": True,
"switch_pm_text": "switch pm",
}
monkeypatch.setattr(bot.request, "post", make_assertion)
results = [
InlineQueryResultArticle("11", "first", InputTextMessageContent("first")),
InlineQueryResultArticle("12", "second", InputTextMessageContent("second")),
]
assert await bot.answer_inline_query(
1234,
results=results,
cache_time=300,
is_personal=True,
next_offset="42",
switch_pm_text="switch pm",
switch_pm_parameter="start_pm",
)
monkeypatch.delattr(bot.request, "post")
async def test_answer_inline_query_no_default_parse_mode(self, monkeypatch, bot):
async def make_assertion(url, request_data: RequestData, *args, **kwargs):
return request_data.parameters == {
"cache_time": 300,
"results": [
{
"title": "test_result",
"id": "123",
"type": "document",
"document_url": "https://raw.githubusercontent.com/"
"python-telegram-bot/logos/master/logo/png/"
"ptb-logo_240.png",
"mime_type": "image/png",
"caption": "ptb_logo",
}
],
"next_offset": "42",
"switch_pm_parameter": "start_pm",
"inline_query_id": 1234,
"is_personal": True,
"switch_pm_text": "switch pm",
}
monkeypatch.setattr(bot.request, "post", make_assertion)
results = [
InlineQueryResultDocument(
id="123",
document_url="https://raw.githubusercontent.com/python-telegram-bot/logos/master/"
"logo/png/ptb-logo_240.png",
title="test_result",
mime_type="image/png",
caption="ptb_logo",
)
]
assert await bot.answer_inline_query(
1234,
results=results,
cache_time=300,
is_personal=True,
next_offset="42",
switch_pm_text="switch pm",
switch_pm_parameter="start_pm",
)
@pytest.mark.parametrize("default_bot", [{"parse_mode": "Markdown"}], indirect=True)
async def test_answer_inline_query_default_parse_mode(self, monkeypatch, default_bot):
async def make_assertion(url, request_data: RequestData, *args, **kwargs):
return request_data.parameters == {
"cache_time": 300,
"results": [
{
"title": "test_result",
"id": "123",
"type": "document",
"document_url": "https://raw.githubusercontent.com/"
"python-telegram-bot/logos/master/logo/png/"
"ptb-logo_240.png",
"mime_type": "image/png",
"caption": "ptb_logo",
"parse_mode": "Markdown",
}
],
"next_offset": "42",
"switch_pm_parameter": "start_pm",
"inline_query_id": 1234,
"is_personal": True,
"switch_pm_text": "switch pm",
}
monkeypatch.setattr(default_bot.request, "post", make_assertion)
results = [
InlineQueryResultDocument(
id="123",
document_url="https://raw.githubusercontent.com/python-telegram-bot/logos/master/"
"logo/png/ptb-logo_240.png",
title="test_result",
mime_type="image/png",
caption="ptb_logo",
)
]
assert await default_bot.answer_inline_query(
1234,
results=results,
cache_time=300,
is_personal=True,
next_offset="42",
switch_pm_text="switch pm",
switch_pm_parameter="start_pm",
)
async def test_answer_inline_query_current_offset_error(self, bot, inline_results):
with pytest.raises(ValueError, match=("`current_offset` and `next_offset`")):
await bot.answer_inline_query(
1234, results=inline_results, next_offset=42, current_offset=51
)
@pytest.mark.parametrize(
"current_offset,num_results,id_offset,expected_next_offset",
[
("", InlineQueryLimit.RESULTS, 1, 1),
(1, InlineQueryLimit.RESULTS, 51, 2),
(5, 3, 251, ""),
],
)
async def test_answer_inline_query_current_offset_1(
self,
monkeypatch,
bot,
inline_results,
current_offset,
num_results,
id_offset,
expected_next_offset,
):
# For now just test that our internals pass the correct data
async def make_assertion(url, request_data: RequestData, *args, **kwargs):
data = request_data.parameters
results = data["results"]
length_matches = len(results) == num_results
ids_match = all(int(res["id"]) == id_offset + i for i, res in enumerate(results))
next_offset_matches = data["next_offset"] == str(expected_next_offset)
return length_matches and ids_match and next_offset_matches
monkeypatch.setattr(bot.request, "post", make_assertion)
assert await bot.answer_inline_query(
1234, results=inline_results, current_offset=current_offset
)
async def test_answer_inline_query_current_offset_2(self, monkeypatch, bot, inline_results):
# For now just test that our internals pass the correct data
async def make_assertion(url, request_data: RequestData, *args, **kwargs):
data = request_data.parameters
results = data["results"]
length_matches = len(results) == InlineQueryLimit.RESULTS
ids_match = all(int(res["id"]) == 1 + i for i, res in enumerate(results))
next_offset_matches = data["next_offset"] == "1"
return length_matches and ids_match and next_offset_matches
monkeypatch.setattr(bot.request, "post", make_assertion)
assert await bot.answer_inline_query(1234, results=inline_results, current_offset=0)
inline_results = inline_results[:30]
async def make_assertion(url, request_data: RequestData, *args, **kwargs):
data = request_data.parameters
results = data["results"]
length_matches = len(results) == 30
ids_match = all(int(res["id"]) == 1 + i for i, res in enumerate(results))
next_offset_matches = data["next_offset"] == ""
return length_matches and ids_match and next_offset_matches
monkeypatch.setattr(bot.request, "post", make_assertion)
assert await bot.answer_inline_query(1234, results=inline_results, current_offset=0)
async def test_answer_inline_query_current_offset_callback(self, monkeypatch, bot, caplog):
# For now just test that our internals pass the correct data
async def make_assertion(url, request_data: RequestData, *args, **kwargs):
data = request_data.parameters
results = data["results"]
length = len(results) == 5
ids = all(int(res["id"]) == 6 + i for i, res in enumerate(results))
next_offset = data["next_offset"] == "2"
return length and ids and next_offset
monkeypatch.setattr(bot.request, "post", make_assertion)
assert await bot.answer_inline_query(
1234, results=inline_results_callback, current_offset=1
)
async def make_assertion(url, request_data: RequestData, *args, **kwargs):
data = request_data.parameters
results = data["results"]
length = results == []
next_offset = data["next_offset"] == ""
return length and next_offset
monkeypatch.setattr(bot.request, "post", make_assertion)
assert await bot.answer_inline_query(
1234, results=inline_results_callback, current_offset=6
)
@flaky(3, 1)
async def test_get_user_profile_photos(self, bot, chat_id):
user_profile_photos = await bot.get_user_profile_photos(chat_id)
assert user_profile_photos.photos[0][0].file_size == 5403
@flaky(3, 1)
async def test_get_one_user_profile_photo(self, bot, chat_id):
user_profile_photos = await bot.get_user_profile_photos(chat_id, offset=0, limit=1)
assert user_profile_photos.photos[0][0].file_size == 5403
# get_file is tested multiple times in the test_*media* modules.
# Here we only test the behaviour for bot apis in local mode
async def test_get_file_local_mode(self, bot, monkeypatch):
path = str(data_file("game.gif"))
async def _post(*args, **kwargs):
return {
"file_id": None,
"file_unique_id": None,
"file_size": None,
"file_path": path,
}
monkeypatch.setattr(bot, "_post", _post)
resulting_path = (await bot.get_file("file_id")).file_path
assert bot.token not in resulting_path
assert resulting_path == path
monkeypatch.delattr(bot, "_post")
# TODO: Needs improvement. No feasible way to test until bots can add members.
async def test_ban_chat_member(self, monkeypatch, bot):
async def make_assertion(url, request_data: RequestData, *args, **kwargs):
data = request_data.json_parameters
chat_id = data["chat_id"] == "2"
user_id = data["user_id"] == "32"
until_date = data.get("until_date", "1577887200") == "1577887200"
revoke_msgs = data.get("revoke_messages", "true") == "true"
return chat_id and user_id and until_date and revoke_msgs
monkeypatch.setattr(bot.request, "post", make_assertion)
until = from_timestamp(1577887200)
assert await bot.ban_chat_member(2, 32)
assert await bot.ban_chat_member(2, 32, until_date=until)
assert await bot.ban_chat_member(2, 32, until_date=1577887200)
assert await bot.ban_chat_member(2, 32, revoke_messages=True)
monkeypatch.delattr(bot.request, "post")
async def test_ban_chat_member_default_tz(self, monkeypatch, tz_bot):
until = dtm.datetime(2020, 1, 11, 16, 13)
until_timestamp = to_timestamp(until, tzinfo=tz_bot.defaults.tzinfo)
async def make_assertion(url, request_data: RequestData, *args, **kwargs):
data = request_data.parameters
chat_id = data["chat_id"] == 2
user_id = data["user_id"] == 32
until_date = data.get("until_date", until_timestamp) == until_timestamp
return chat_id and user_id and until_date
monkeypatch.setattr(tz_bot.request, "post", make_assertion)
assert await tz_bot.ban_chat_member(2, 32)
assert await tz_bot.ban_chat_member(2, 32, until_date=until)
assert await tz_bot.ban_chat_member(2, 32, until_date=until_timestamp)
async def test_ban_chat_sender_chat(self, monkeypatch, bot):
# For now, we just test that we pass the correct data to TG
async def make_assertion(url, request_data: RequestData, *args, **kwargs):
data = request_data.parameters
chat_id = data["chat_id"] == 2
sender_chat_id = data["sender_chat_id"] == 32
return chat_id and sender_chat_id
monkeypatch.setattr(bot.request, "post", make_assertion)
assert await bot.ban_chat_sender_chat(2, 32)
monkeypatch.delattr(bot.request, "post")
# TODO: Needs improvement.
@pytest.mark.parametrize("only_if_banned", [True, False, None])
async def test_unban_chat_member(self, monkeypatch, bot, only_if_banned):
async def make_assertion(url, request_data: RequestData, *args, **kwargs):
data = request_data.parameters
chat_id = data["chat_id"] == 2
user_id = data["user_id"] == 32
o_i_b = data.get("only_if_banned", None) == only_if_banned
return chat_id and user_id and o_i_b
monkeypatch.setattr(bot.request, "post", make_assertion)
assert await bot.unban_chat_member(2, 32, only_if_banned=only_if_banned)
async def test_unban_chat_sender_chat(self, monkeypatch, bot):
async def make_assertion(url, request_data: RequestData, *args, **kwargs):
data = request_data.json_parameters
chat_id = data["chat_id"] == "2"
sender_chat_id = data["sender_chat_id"] == "32"
return chat_id and sender_chat_id
monkeypatch.setattr(bot.request, "post", make_assertion)
assert await bot.unban_chat_sender_chat(2, 32)
async def test_set_chat_permissions(self, monkeypatch, bot, chat_permissions):
async def make_assertion(url, request_data: RequestData, *args, **kwargs):
data = request_data.json_parameters
chat_id = data["chat_id"] == "2"
permissions = data["permissions"] == chat_permissions.to_json()
return chat_id and permissions
monkeypatch.setattr(bot.request, "post", make_assertion)
assert await bot.set_chat_permissions(2, chat_permissions)
async def test_set_chat_administrator_custom_title(self, monkeypatch, bot):
async def make_assertion(url, request_data: RequestData, *args, **kwargs):
data = request_data.parameters
chat_id = data["chat_id"] == 2
user_id = data["user_id"] == 32
custom_title = data["custom_title"] == "custom_title"
return chat_id and user_id and custom_title
monkeypatch.setattr(bot.request, "post", make_assertion)
assert await bot.set_chat_administrator_custom_title(2, 32, "custom_title")
# TODO: Needs improvement. Need an incoming callbackquery to test
async def test_answer_callback_query(self, monkeypatch, bot):
# For now just test that our internals pass the correct data
async def make_assertion(url, request_data: RequestData, *args, **kwargs):
return request_data.parameters == {
"callback_query_id": 23,
"show_alert": True,
"url": "no_url",
"cache_time": 1,
"text": "answer",
}
monkeypatch.setattr(bot.request, "post", make_assertion)
assert await bot.answer_callback_query(
23, text="answer", show_alert=True, url="no_url", cache_time=1
)
@flaky(3, 1)
async def test_edit_message_text(self, bot, message):
message = await bot.edit_message_text(
text="new_text",
chat_id=message.chat_id,
message_id=message.message_id,
parse_mode="HTML",
disable_web_page_preview=True,
)
assert message.text == "new_text"
@flaky(3, 1)
async def test_edit_message_text_entities(self, bot, message):
test_string = "Italic Bold Code"
entities = [
MessageEntity(MessageEntity.ITALIC, 0, 6),
MessageEntity(MessageEntity.ITALIC, 7, 4),
MessageEntity(MessageEntity.ITALIC, 12, 4),
]
message = await bot.edit_message_text(
text=test_string,
chat_id=message.chat_id,
message_id=message.message_id,
entities=entities,
)
assert message.text == test_string
assert message.entities == entities
@flaky(3, 1)
@pytest.mark.parametrize("default_bot", [{"parse_mode": "Markdown"}], indirect=True)
async def test_edit_message_text_default_parse_mode(self, default_bot, message):
test_string = "Italic Bold Code"
test_markdown_string = "_Italic_ *Bold* `Code`"
message = await default_bot.edit_message_text(
text=test_markdown_string,
chat_id=message.chat_id,
message_id=message.message_id,
disable_web_page_preview=True,
)
assert message.text_markdown == test_markdown_string
assert message.text == test_string
message = await default_bot.edit_message_text(
text=test_markdown_string,
chat_id=message.chat_id,
message_id=message.message_id,
parse_mode=None,
disable_web_page_preview=True,
)
assert message.text == test_markdown_string
assert message.text_markdown == escape_markdown(test_markdown_string)
message = await default_bot.edit_message_text(
text=test_markdown_string,
chat_id=message.chat_id,
message_id=message.message_id,
disable_web_page_preview=True,
)
message = await default_bot.edit_message_text(
text=test_markdown_string,
chat_id=message.chat_id,
message_id=message.message_id,
parse_mode="HTML",
disable_web_page_preview=True,
)
assert message.text == test_markdown_string
assert message.text_markdown == escape_markdown(test_markdown_string)
@pytest.mark.skip(reason="need reference to an inline message")
async def test_edit_message_text_inline(self):
pass
@flaky(3, 1)
async def test_edit_message_caption(self, bot, media_message):
message = await bot.edit_message_caption(
caption="new_caption",
chat_id=media_message.chat_id,
message_id=media_message.message_id,
)
assert message.caption == "new_caption"
@flaky(3, 1)
async def test_edit_message_caption_entities(self, bot, media_message):
test_string = "Italic Bold Code"
entities = [
MessageEntity(MessageEntity.ITALIC, 0, 6),
MessageEntity(MessageEntity.ITALIC, 7, 4),
MessageEntity(MessageEntity.ITALIC, 12, 4),
]
message = await bot.edit_message_caption(
caption=test_string,
chat_id=media_message.chat_id,
message_id=media_message.message_id,
caption_entities=entities,
)
assert message.caption == test_string
assert message.caption_entities == entities
# edit_message_media is tested in test_inputmedia
@flaky(3, 1)
@pytest.mark.parametrize("default_bot", [{"parse_mode": "Markdown"}], indirect=True)
async def test_edit_message_caption_default_parse_mode(self, default_bot, media_message):
test_string = "Italic Bold Code"
test_markdown_string = "_Italic_ *Bold* `Code`"
message = await default_bot.edit_message_caption(
caption=test_markdown_string,
chat_id=media_message.chat_id,
message_id=media_message.message_id,
)
assert message.caption_markdown == test_markdown_string
assert message.caption == test_string
message = await default_bot.edit_message_caption(
caption=test_markdown_string,
chat_id=media_message.chat_id,
message_id=media_message.message_id,
parse_mode=None,
)
assert message.caption == test_markdown_string
assert message.caption_markdown == escape_markdown(test_markdown_string)
message = await default_bot.edit_message_caption(
caption=test_markdown_string,
chat_id=media_message.chat_id,
message_id=media_message.message_id,
)
message = await default_bot.edit_message_caption(
caption=test_markdown_string,
chat_id=media_message.chat_id,
message_id=media_message.message_id,
parse_mode="HTML",
)
assert message.caption == test_markdown_string
assert message.caption_markdown == escape_markdown(test_markdown_string)
@flaky(3, 1)
async def test_edit_message_caption_with_parse_mode(self, bot, media_message):
message = await bot.edit_message_caption(
caption="new *caption*",
parse_mode="Markdown",
chat_id=media_message.chat_id,
message_id=media_message.message_id,
)
assert message.caption == "new caption"
@pytest.mark.skip(reason="need reference to an inline message")
async def test_edit_message_caption_inline(self):
pass
@flaky(3, 1)
async def test_edit_reply_markup(self, bot, message):
new_markup = InlineKeyboardMarkup([[InlineKeyboardButton(text="test", callback_data="1")]])
message = await bot.edit_message_reply_markup(
chat_id=message.chat_id, message_id=message.message_id, reply_markup=new_markup
)
assert message is not True
@pytest.mark.skip(reason="need reference to an inline message")
async def test_edit_reply_markup_inline(self):
pass
# TODO: Actually send updates to the test bot so this can be tested properly
@flaky(3, 1)
async def test_get_updates(self, bot):
await bot.delete_webhook() # make sure there is no webhook set if webhook tests failed
updates = await bot.get_updates(timeout=1)
assert isinstance(updates, list)
if updates:
assert isinstance(updates[0], Update)
async def test_get_updates_invalid_callback_data(self, bot, monkeypatch):
async def post(*args, **kwargs):
return [
Update(
17,
callback_query=CallbackQuery(
id=1,
from_user=None,
chat_instance=123,
data="invalid data",
message=Message(
1,
from_user=User(1, "", False),
date=None,
chat=Chat(1, ""),
text="Webhook",
),
),
).to_dict()
]
bot.arbitrary_callback_data = True
try:
await bot.delete_webhook() # make sure there is no webhook set if webhook tests failed
monkeypatch.setattr(BaseRequest, "post", post)
updates = await bot.get_updates(timeout=1)
assert isinstance(updates, list)
assert len(updates) == 1
assert isinstance(updates[0].callback_query.data, InvalidCallbackData)
finally:
# Reset b/c bots scope is session
bot.arbitrary_callback_data = False
@flaky(3, 1)
@pytest.mark.parametrize("use_ip", [True, False])
async def test_set_webhook_get_webhook_info_and_delete_webhook(self, bot, use_ip):
url = "https://python-telegram-bot.org/test/webhook"
# Get the ip address of the website - dynamically just in case it ever changes
ip = socket.gethostbyname("python-telegram-bot.org")
max_connections = 7
allowed_updates = ["message"]
await bot.set_webhook(
url,
max_connections=max_connections,
allowed_updates=allowed_updates,
ip_address=ip if use_ip else None,
certificate=data_file("sslcert.pem").read_bytes() if use_ip else None,
)
await asyncio.sleep(1)
live_info = await bot.get_webhook_info()
assert live_info.url == url
assert live_info.max_connections == max_connections
assert live_info.allowed_updates == allowed_updates
assert live_info.ip_address == ip
assert live_info.has_custom_certificate == use_ip
await bot.delete_webhook()
await asyncio.sleep(1)
info = await bot.get_webhook_info()
assert info.url == ""
assert info.ip_address is None
assert info.has_custom_certificate is False
@pytest.mark.parametrize("drop_pending_updates", [True, False])
async def test_set_webhook_delete_webhook_drop_pending_updates(
self, bot, drop_pending_updates, monkeypatch
):
async def make_assertion(url, request_data: RequestData, *args, **kwargs):
data = request_data.json_parameters
return bool(data.get("drop_pending_updates")) == drop_pending_updates
monkeypatch.setattr(bot.request, "post", make_assertion)
assert await bot.set_webhook("", drop_pending_updates=drop_pending_updates)
assert await bot.delete_webhook(drop_pending_updates=drop_pending_updates)
async def test_set_webhook_params(self, bot, monkeypatch):
# actually making calls to TG is done in
# test_set_webhook_get_webhook_info_and_delete_webhook. Sadly secret_token can't be tested
# there so we have this function \o/
async def make_assertion(*args, **_):
kwargs = args[1]
return (
kwargs["url"] == "example.com"
and kwargs["certificate"].input_file_content
== data_file("sslcert.pem").read_bytes()
and kwargs["max_connections"] == 7
and kwargs["allowed_updates"] == ["messages"]
and kwargs["ip_address"] == "127.0.0.1"
and kwargs["drop_pending_updates"]
and kwargs["secret_token"] == "SoSecretToken"
)
monkeypatch.setattr(bot, "_post", make_assertion)
assert await bot.set_webhook(
"example.com",
data_file("sslcert.pem").read_bytes(),
7,
["messages"],
"127.0.0.1",
True,
"SoSecretToken",
)
@flaky(3, 1)
async def test_leave_chat(self, bot):
with pytest.raises(BadRequest, match="Chat not found"):
await bot.leave_chat(-123456)
with pytest.raises(NetworkError, match="Chat not found"):
await bot.leave_chat(-123456)
@flaky(3, 1)
async def test_get_chat(self, bot, super_group_id):
chat = await bot.get_chat(super_group_id)
assert chat.type == "supergroup"
assert chat.title == f">>> telegram.Bot(test) @{bot.username}"
assert chat.id == int(super_group_id)
@flaky(3, 1)
async def test_get_chat_administrators(self, bot, channel_id):
admins = await bot.get_chat_administrators(channel_id)
assert isinstance(admins, list)
for a in admins:
assert a.status in ("administrator", "creator")
@flaky(3, 1)
async def test_get_chat_member_count(self, bot, channel_id):
count = await bot.get_chat_member_count(channel_id)
assert isinstance(count, int)
assert count > 3
@flaky(3, 1)
async def test_get_chat_member(self, bot, channel_id, chat_id):
chat_member = await bot.get_chat_member(channel_id, chat_id)
assert chat_member.status == "administrator"
assert chat_member.user.first_name == "PTB"
assert chat_member.user.last_name == "Test user"
@pytest.mark.skip(reason="Not implemented since we need a supergroup with many members")
async def test_set_chat_sticker_set(self):
pass
@pytest.mark.skip(reason="Not implemented since we need a supergroup with many members")
async def test_delete_chat_sticker_set(self):
pass
@flaky(3, 1)
async def test_send_game(self, bot, chat_id):
game_short_name = "test_game"
message = await bot.send_game(chat_id, game_short_name, protect_content=True)
assert message.game
assert message.game.description == (
"A no-op test game, for python-telegram-bot bot framework testing."
)
assert message.game.animation.file_id != ""
# We added some test bots later and for some reason the file size is not the same for them
# so we accept three different sizes here. Shouldn't be too much of
assert message.game.photo[0].file_size in [851, 4928, 850]
assert message.has_protected_content
@flaky(3, 1)
@pytest.mark.parametrize(
"default_bot,custom",
[
({"allow_sending_without_reply": True}, None),
({"allow_sending_without_reply": False}, None),
({"allow_sending_without_reply": False}, True),
],
indirect=["default_bot"],
)
async def test_send_game_default_allow_sending_without_reply(
self, default_bot, chat_id, custom
):
game_short_name = "test_game"
reply_to_message = await default_bot.send_message(chat_id, "test")
await reply_to_message.delete()
if custom is not None:
message = await default_bot.send_game(
chat_id,
game_short_name,
allow_sending_without_reply=custom,
reply_to_message_id=reply_to_message.message_id,
)
assert message.reply_to_message is None
elif default_bot.defaults.allow_sending_without_reply:
message = await default_bot.send_game(
chat_id,
game_short_name,
reply_to_message_id=reply_to_message.message_id,
)
assert message.reply_to_message is None
else:
with pytest.raises(BadRequest, match="message not found"):
await default_bot.send_game(
chat_id, game_short_name, reply_to_message_id=reply_to_message.message_id
)
@flaky(3, 1)
@pytest.mark.parametrize(
"default_bot,val",
[({"protect_content": True}, True), ({"protect_content": False}, None)],
indirect=["default_bot"],
)
async def test_send_game_default_protect_content(self, default_bot, chat_id, val):
protected = await default_bot.send_game(chat_id, "test_game", protect_content=val)
assert protected.has_protected_content is val
@xfail
async def test_set_game_score_1(self, bot, chat_id):
# NOTE: numbering of methods assures proper order between test_set_game_scoreX methods
# First, test setting a score.
game_short_name = "test_game"
game = await bot.send_game(chat_id, game_short_name)
message = await bot.set_game_score(
user_id=chat_id,
score=BASE_GAME_SCORE, # Score value is relevant for other set_game_score_* tests!
chat_id=game.chat_id,
message_id=game.message_id,
)
assert message.game.description == game.game.description
assert message.game.photo[0].file_size == game.game.photo[0].file_size
assert message.game.animation.file_unique_id == game.game.animation.file_unique_id
assert message.game.text != game.game.text
@xfail
async def test_set_game_score_2(self, bot, chat_id):
# NOTE: numbering of methods assures proper order between test_set_game_scoreX methods
# Test setting a score higher than previous
game_short_name = "test_game"
game = await bot.send_game(chat_id, game_short_name)
score = BASE_GAME_SCORE + 1
message = await bot.set_game_score(
user_id=chat_id,
score=score,
chat_id=game.chat_id,
message_id=game.message_id,
disable_edit_message=True,
)
assert message.game.description == game.game.description
assert message.game.photo[0].file_size == game.game.photo[0].file_size
assert message.game.animation.file_unique_id == game.game.animation.file_unique_id
assert message.game.text == game.game.text
@xfail
async def test_set_game_score_3(self, bot, chat_id):
# NOTE: numbering of methods assures proper order between test_set_game_scoreX methods
# Test setting a score lower than previous (should raise error)
game_short_name = "test_game"
game = await bot.send_game(chat_id, game_short_name)
score = BASE_GAME_SCORE # Even a score equal to previous raises an error.
with pytest.raises(BadRequest, match="Bot_score_not_modified"):
await bot.set_game_score(
user_id=chat_id, score=score, chat_id=game.chat_id, message_id=game.message_id
)
@xfail
async def test_set_game_score_4(self, bot, chat_id):
# NOTE: numbering of methods assures proper order between test_set_game_scoreX methods
# Test force setting a lower score
game_short_name = "test_game"
game = await bot.send_game(chat_id, game_short_name)
await asyncio.sleep(1.5)
score = BASE_GAME_SCORE - 10
message = await bot.set_game_score(
user_id=chat_id,
score=score,
chat_id=game.chat_id,
message_id=game.message_id,
force=True,
)
assert message.game.description == game.game.description
assert message.game.photo[0].file_size == game.game.photo[0].file_size
assert message.game.animation.file_unique_id == game.game.animation.file_unique_id
# For some reason the returned message doesn't contain the updated score. need to fetch
# the game again... (the service message is also absent when running the test suite)
game2 = await bot.send_game(chat_id, game_short_name)
assert str(score) in game2.game.text
@xfail
async def test_get_game_high_scores(self, bot, chat_id):
# We need a game to get the scores for
game_short_name = "test_game"
game = await bot.send_game(chat_id, game_short_name)
high_scores = await bot.get_game_high_scores(chat_id, game.chat_id, game.message_id)
# We assume that the other game score tests ran within 20 sec
assert high_scores[0].score == BASE_GAME_SCORE - 10
# send_invoice and create_invoice_link is tested in test_invoice
# TODO: Needs improvement. Need incoming shipping queries to test
async def test_answer_shipping_query_ok(self, monkeypatch, bot):
# For now just test that our internals pass the correct data
async def make_assertion(url, request_data: RequestData, *args, **kwargs):
return request_data.parameters == {
"shipping_query_id": 1,
"ok": True,
"shipping_options": [
{"title": "option1", "prices": [{"label": "price", "amount": 100}], "id": 1}
],
}
monkeypatch.setattr(bot.request, "post", make_assertion)
shipping_options = ShippingOption(1, "option1", [LabeledPrice("price", 100)])
assert await bot.answer_shipping_query(1, True, shipping_options=[shipping_options])
async def test_answer_shipping_query_error_message(self, monkeypatch, bot):
# For now just test that our internals pass the correct data
async def make_assertion(url, request_data: RequestData, *args, **kwargs):
return request_data.parameters == {
"shipping_query_id": 1,
"error_message": "Not enough fish",
"ok": False,
}
monkeypatch.setattr(bot.request, "post", make_assertion)
assert await bot.answer_shipping_query(1, False, error_message="Not enough fish")
# TODO: Needs improvement. Need incoming pre checkout queries to test
async def test_answer_pre_checkout_query_ok(self, monkeypatch, bot):
# For now just test that our internals pass the correct data
async def make_assertion(url, request_data: RequestData, *args, **kwargs):
return request_data.parameters == {"pre_checkout_query_id": 1, "ok": True}
monkeypatch.setattr(bot.request, "post", make_assertion)
assert await bot.answer_pre_checkout_query(1, True)
async def test_answer_pre_checkout_query_error_message(self, monkeypatch, bot):
# For now just test that our internals pass the correct data
async def make_assertion(url, request_data: RequestData, *args, **kwargs):
return request_data.parameters == {
"pre_checkout_query_id": 1,
"error_message": "Not enough fish",
"ok": False,
}
monkeypatch.setattr(bot.request, "post", make_assertion)
assert await bot.answer_pre_checkout_query(1, False, error_message="Not enough fish")
@flaky(3, 1)
async def test_restrict_chat_member(self, bot, channel_id, chat_permissions):
# TODO: Add bot to supergroup so this can be tested properly
with pytest.raises(BadRequest, match="Method is available only for supergroups"):
assert await bot.restrict_chat_member(
channel_id, 95205500, chat_permissions, until_date=dtm.datetime.utcnow()
)
async def test_restrict_chat_member_default_tz(
self, monkeypatch, tz_bot, channel_id, chat_permissions
):
until = dtm.datetime(2020, 1, 11, 16, 13)
until_timestamp = to_timestamp(until, tzinfo=tz_bot.defaults.tzinfo)
async def make_assertion(url, request_data: RequestData, *args, **kwargs):
return request_data.parameters.get("until_date", until_timestamp) == until_timestamp
monkeypatch.setattr(tz_bot.request, "post", make_assertion)
assert await tz_bot.restrict_chat_member(channel_id, 95205500, chat_permissions)
assert await tz_bot.restrict_chat_member(
channel_id, 95205500, chat_permissions, until_date=until
)
assert await tz_bot.restrict_chat_member(
channel_id, 95205500, chat_permissions, until_date=until_timestamp
)
@flaky(3, 1)
async def test_promote_chat_member(self, bot, channel_id, monkeypatch):
# TODO: Add bot to supergroup so this can be tested properly / give bot perms
with pytest.raises(BadRequest, match="Not enough rights"):
assert await bot.promote_chat_member(
channel_id,
95205500,
is_anonymous=True,
can_change_info=True,
can_post_messages=True,
can_edit_messages=True,
can_delete_messages=True,
can_invite_users=True,
can_restrict_members=True,
can_pin_messages=True,
can_promote_members=True,
can_manage_chat=True,
can_manage_video_chats=True,
)
# Test that we pass the correct params to TG
async def make_assertion(*args, **_):
data = args[1]
return (
data.get("chat_id") == channel_id
and data.get("user_id") == 95205500
and data.get("is_anonymous") == 1
and data.get("can_change_info") == 2
and data.get("can_post_messages") == 3
and data.get("can_edit_messages") == 4
and data.get("can_delete_messages") == 5
and data.get("can_invite_users") == 6
and data.get("can_restrict_members") == 7
and data.get("can_pin_messages") == 8
and data.get("can_promote_members") == 9
and data.get("can_manage_chat") == 10
and data.get("can_manage_video_chats") == 11
)
monkeypatch.setattr(bot, "_post", make_assertion)
assert await bot.promote_chat_member(
channel_id,
95205500,
is_anonymous=1,
can_change_info=2,
can_post_messages=3,
can_edit_messages=4,
can_delete_messages=5,
can_invite_users=6,
can_restrict_members=7,
can_pin_messages=8,
can_promote_members=9,
can_manage_chat=10,
can_manage_video_chats=11,
)
@flaky(3, 1)
async def test_export_chat_invite_link(self, bot, channel_id):
# Each link is unique apparently
invite_link = await bot.export_chat_invite_link(channel_id)
assert isinstance(invite_link, str)
assert invite_link != ""
@flaky(3, 1)
async def test_edit_revoke_chat_invite_link_passing_link_objects(self, bot, channel_id):
invite_link = await bot.create_chat_invite_link(chat_id=channel_id)
assert invite_link.name is None
edited_link = await bot.edit_chat_invite_link(
chat_id=channel_id, invite_link=invite_link, name="some_name"
)
assert edited_link == invite_link
assert edited_link.name == "some_name"
revoked_link = await bot.revoke_chat_invite_link(
chat_id=channel_id, invite_link=edited_link
)
assert revoked_link.invite_link == edited_link.invite_link
assert revoked_link.is_revoked is True
assert revoked_link.name == "some_name"
@flaky(3, 1)
@pytest.mark.parametrize("creates_join_request", [True, False])
@pytest.mark.parametrize("name", [None, "name"])
async def test_create_chat_invite_link_basics(
self, bot, creates_join_request, name, channel_id
):
data = {}
if creates_join_request:
data["creates_join_request"] = True
if name:
data["name"] = name
invite_link = await bot.create_chat_invite_link(chat_id=channel_id, **data)
assert invite_link.member_limit is None
assert invite_link.expire_date is None
assert invite_link.creates_join_request == creates_join_request
assert invite_link.name == name
revoked_link = await bot.revoke_chat_invite_link(
chat_id=channel_id, invite_link=invite_link.invite_link
)
assert revoked_link.is_revoked
@flaky(3, 1)
@pytest.mark.parametrize("datetime", argvalues=[True, False], ids=["datetime", "integer"])
async def test_advanced_chat_invite_links(self, bot, channel_id, datetime):
# we are testing this all in one function in order to save api calls
timestamp = dtm.datetime.utcnow()
add_seconds = dtm.timedelta(0, 70)
time_in_future = timestamp + add_seconds
expire_time = time_in_future if datetime else to_timestamp(time_in_future)
aware_time_in_future = pytz.UTC.localize(time_in_future)
invite_link = await bot.create_chat_invite_link(
channel_id, expire_date=expire_time, member_limit=10
)
assert invite_link.invite_link != ""
assert not invite_link.invite_link.endswith("...")
assert abs(invite_link.expire_date - aware_time_in_future) < dtm.timedelta(seconds=1)
assert invite_link.member_limit == 10
add_seconds = dtm.timedelta(0, 80)
time_in_future = timestamp + add_seconds
expire_time = time_in_future if datetime else to_timestamp(time_in_future)
aware_time_in_future = pytz.UTC.localize(time_in_future)
edited_invite_link = await bot.edit_chat_invite_link(
channel_id,
invite_link.invite_link,
expire_date=expire_time,
member_limit=20,
name="NewName",
)
assert edited_invite_link.invite_link == invite_link.invite_link
assert abs(edited_invite_link.expire_date - aware_time_in_future) < dtm.timedelta(
seconds=1
)
assert edited_invite_link.name == "NewName"
assert edited_invite_link.member_limit == 20
edited_invite_link = await bot.edit_chat_invite_link(
channel_id,
invite_link.invite_link,
name="EvenNewerName",
creates_join_request=True,
)
assert edited_invite_link.invite_link == invite_link.invite_link
assert not edited_invite_link.expire_date
assert edited_invite_link.name == "EvenNewerName"
assert edited_invite_link.creates_join_request
assert edited_invite_link.member_limit is None
revoked_invite_link = await bot.revoke_chat_invite_link(
channel_id, invite_link.invite_link
)
assert revoked_invite_link.invite_link == invite_link.invite_link
assert revoked_invite_link.is_revoked
@flaky(3, 1)
async def test_advanced_chat_invite_links_default_tzinfo(self, tz_bot, channel_id):
# we are testing this all in one function in order to save api calls
add_seconds = dtm.timedelta(0, 70)
aware_expire_date = dtm.datetime.now(tz=tz_bot.defaults.tzinfo) + add_seconds
time_in_future = aware_expire_date.replace(tzinfo=None)
invite_link = await tz_bot.create_chat_invite_link(
channel_id, expire_date=time_in_future, member_limit=10
)
assert invite_link.invite_link != ""
assert not invite_link.invite_link.endswith("...")
assert abs(invite_link.expire_date - aware_expire_date) < dtm.timedelta(seconds=1)
assert invite_link.member_limit == 10
add_seconds = dtm.timedelta(0, 80)
aware_expire_date += add_seconds
time_in_future = aware_expire_date.replace(tzinfo=None)
edited_invite_link = await tz_bot.edit_chat_invite_link(
channel_id,
invite_link.invite_link,
expire_date=time_in_future,
member_limit=20,
name="NewName",
)
assert edited_invite_link.invite_link == invite_link.invite_link
assert abs(edited_invite_link.expire_date - aware_expire_date) < dtm.timedelta(seconds=1)
assert edited_invite_link.name == "NewName"
assert edited_invite_link.member_limit == 20
edited_invite_link = await tz_bot.edit_chat_invite_link(
channel_id,
invite_link.invite_link,
name="EvenNewerName",
creates_join_request=True,
)
assert edited_invite_link.invite_link == invite_link.invite_link
assert not edited_invite_link.expire_date
assert edited_invite_link.name == "EvenNewerName"
assert edited_invite_link.creates_join_request
assert edited_invite_link.member_limit is None
revoked_invite_link = await tz_bot.revoke_chat_invite_link(
channel_id, invite_link.invite_link
)
assert revoked_invite_link.invite_link == invite_link.invite_link
assert revoked_invite_link.is_revoked
@flaky(3, 1)
async def test_approve_chat_join_request(self, bot, chat_id, channel_id):
# TODO: Need incoming join request to properly test
# Since we can't create join requests on the fly, we just tests the call to TG
# by checking that it complains about approving a user who is already in the chat
with pytest.raises(BadRequest, match="User_already_participant"):
await bot.approve_chat_join_request(chat_id=channel_id, user_id=chat_id)
@flaky(3, 1)
async def test_decline_chat_join_request(self, bot, chat_id, channel_id):
# TODO: Need incoming join request to properly test
# Since we can't create join requests on the fly, we just tests the call to TG
# by checking that it complains about declining a user who is already in the chat
#
# The error message Hide_requester_missing started showing up instead of
# User_already_participant. Don't know why …
with pytest.raises(BadRequest, match="User_already_participant|Hide_requester_missing"):
await bot.decline_chat_join_request(chat_id=channel_id, user_id=chat_id)
@flaky(3, 1)
async def test_set_chat_photo(self, bot, channel_id):
async def func():
assert await bot.set_chat_photo(channel_id, f)
with data_file("telegram_test_channel.jpg").open("rb") as f:
await expect_bad_request(
func, "Type of file mismatch", "Telegram did not accept the file."
)
async def test_set_chat_photo_local_files(self, monkeypatch, bot, chat_id):
# For just test that the correct paths are passed as we have no local bot API set up
test_flag = False
file = data_file("telegram.jpg")
expected = file.as_uri()
async def make_assertion(_, data, *args, **kwargs):
nonlocal test_flag
test_flag = data.get("photo") == expected
monkeypatch.setattr(bot, "_post", make_assertion)
await bot.set_chat_photo(chat_id, file)
assert test_flag
@flaky(3, 1)
async def test_delete_chat_photo(self, bot, channel_id):
async def func():
assert await bot.delete_chat_photo(channel_id)
await expect_bad_request(func, "Chat_not_modified", "Chat photo was not set.")
@flaky(3, 1)
async def test_set_chat_title(self, bot, channel_id):
assert await bot.set_chat_title(channel_id, ">>> telegram.Bot() - Tests")
@flaky(3, 1)
async def test_set_chat_description(self, bot, channel_id):
assert await bot.set_chat_description(channel_id, "Time: " + str(time.time()))
@flaky(3, 1)
async def test_pin_and_unpin_message(self, bot, super_group_id):
message1 = await bot.send_message(super_group_id, text="test_pin_message_1")
message2 = await bot.send_message(super_group_id, text="test_pin_message_2")
message3 = await bot.send_message(super_group_id, text="test_pin_message_3")
assert await bot.pin_chat_message(
chat_id=super_group_id,
message_id=message1.message_id,
disable_notification=True,
read_timeout=10,
)
await asyncio.sleep(1)
await bot.pin_chat_message(
chat_id=super_group_id,
message_id=message2.message_id,
disable_notification=True,
read_timeout=10,
)
await bot.pin_chat_message(
chat_id=super_group_id,
message_id=message3.message_id,
disable_notification=True,
read_timeout=10,
)
await asyncio.sleep(1)
chat = await bot.get_chat(super_group_id)
assert chat.pinned_message == message3
assert await bot.unpin_chat_message(
super_group_id,
message_id=message2.message_id,
read_timeout=10,
)
assert await bot.unpin_chat_message(
super_group_id,
read_timeout=10,
)
assert await bot.unpin_all_chat_messages(
super_group_id,
read_timeout=10,
)
# get_sticker_set, upload_sticker_file, create_new_sticker_set, add_sticker_to_set,
# set_sticker_position_in_set and delete_sticker_from_set are tested in the
# test_sticker module.
async def test_timeout_propagation_explicit(self, monkeypatch, bot, chat_id):
# Use BaseException that's not a subclass of Exception such that
# OkException should not be caught anywhere
class OkException(BaseException):
pass
timeout = 42
async def do_request(*args, **kwargs):
obj = kwargs.get("read_timeout")
if obj == timeout:
raise OkException
return 200, b'{"ok": true, "result": []}'
monkeypatch.setattr(bot.request, "do_request", do_request)
# Test file uploading
with pytest.raises(OkException):
await bot.send_photo(
chat_id, data_file("telegram.jpg").open("rb"), read_timeout=timeout
)
# Test JSON submission
with pytest.raises(OkException):
await bot.get_chat_administrators(chat_id, read_timeout=timeout)
async def test_timeout_propagation_implicit(self, monkeypatch, bot, chat_id):
# Use BaseException that's not a subclass of Exception such that
# OkException should not be caught anywhere
class OkException(BaseException):
pass
async def do_request(*args, **kwargs):
obj = kwargs.get("write_timeout")
if obj == 20:
raise OkException
return 200, b'{"ok": true, "result": []}'
monkeypatch.setattr(bot.request, "do_request", do_request)
# Test file uploading
with pytest.raises(OkException):
await bot.send_photo(chat_id, data_file("telegram.jpg").open("rb"))
@flaky(3, 1)
async def test_send_message_entities(self, bot, chat_id):
test_string = "Italic Bold Code Spoiler"
entities = [
MessageEntity(MessageEntity.ITALIC, 0, 6),
MessageEntity(MessageEntity.ITALIC, 7, 4),
MessageEntity(MessageEntity.ITALIC, 12, 4),
MessageEntity(MessageEntity.SPOILER, 17, 7),
]
message = await bot.send_message(chat_id=chat_id, text=test_string, entities=entities)
assert message.text == test_string
assert message.entities == entities
@flaky(3, 1)
@pytest.mark.parametrize("default_bot", [{"parse_mode": "Markdown"}], indirect=True)
async def test_send_message_default_parse_mode(self, default_bot, chat_id):
test_string = "Italic Bold Code"
test_markdown_string = "_Italic_ *Bold* `Code`"
message = await default_bot.send_message(chat_id, test_markdown_string)
assert message.text_markdown == test_markdown_string
assert message.text == test_string
message = await default_bot.send_message(chat_id, test_markdown_string, parse_mode=None)
assert message.text == test_markdown_string
assert message.text_markdown == escape_markdown(test_markdown_string)
message = await default_bot.send_message(chat_id, test_markdown_string, parse_mode="HTML")
assert message.text == test_markdown_string
assert message.text_markdown == escape_markdown(test_markdown_string)
@flaky(3, 1)
@pytest.mark.parametrize("default_bot", [{"protect_content": True}], indirect=True)
async def test_send_message_default_protect_content(self, default_bot, chat_id):
to_check = await default_bot.send_message(chat_id, "test")
assert to_check.has_protected_content
no_protect = await default_bot.send_message(chat_id, "test", protect_content=False)
assert not no_protect.has_protected_content
@flaky(3, 1)
@pytest.mark.parametrize(
"default_bot,custom",
[
({"allow_sending_without_reply": True}, None),
({"allow_sending_without_reply": False}, None),
({"allow_sending_without_reply": False}, True),
],
indirect=["default_bot"],
)
async def test_send_message_default_allow_sending_without_reply(
self, default_bot, chat_id, custom
):
reply_to_message = await default_bot.send_message(chat_id, "test")
await reply_to_message.delete()
if custom is not None:
message = await default_bot.send_message(
chat_id,
"test",
allow_sending_without_reply=custom,
reply_to_message_id=reply_to_message.message_id,
)
assert message.reply_to_message is None
elif default_bot.defaults.allow_sending_without_reply:
message = await default_bot.send_message(
chat_id, "test", reply_to_message_id=reply_to_message.message_id
)
assert message.reply_to_message is None
else:
with pytest.raises(BadRequest, match="message not found"):
await default_bot.send_message(
chat_id, "test", reply_to_message_id=reply_to_message.message_id
)
@pytest.mark.asyncio
async def test_get_set_my_default_administrator_rights(self, bot):
# Test that my default administrator rights for group are as all False
await bot.set_my_default_administrator_rights()
my_admin_rights_grp = await bot.get_my_default_administrator_rights()
assert isinstance(my_admin_rights_grp, ChatAdministratorRights)
assert all(not getattr(my_admin_rights_grp, at) for at in my_admin_rights_grp.__slots__)
# Test setting my default admin rights for channel
my_rights = ChatAdministratorRights.all_rights()
await bot.set_my_default_administrator_rights(my_rights, for_channels=True)
my_admin_rights_ch = await bot.get_my_default_administrator_rights(for_channels=True)
assert my_admin_rights_ch.can_invite_users is my_rights.can_invite_users
# tg bug? is_anonymous is False despite setting it True for channels:
assert my_admin_rights_ch.is_anonymous is not my_rights.is_anonymous
assert my_admin_rights_ch.can_manage_chat is my_rights.can_manage_chat
assert my_admin_rights_ch.can_delete_messages is my_rights.can_delete_messages
assert my_admin_rights_ch.can_edit_messages is my_rights.can_edit_messages
assert my_admin_rights_ch.can_post_messages is my_rights.can_post_messages
assert my_admin_rights_ch.can_change_info is my_rights.can_change_info
assert my_admin_rights_ch.can_promote_members is my_rights.can_promote_members
assert my_admin_rights_ch.can_restrict_members is my_rights.can_restrict_members
assert my_admin_rights_ch.can_pin_messages is None # Not returned for channels
@pytest.mark.asyncio
async def test_get_set_chat_menu_button(self, bot, chat_id):
# Test our chat menu button is commands-
menu_button = await bot.get_chat_menu_button()
assert isinstance(menu_button, MenuButton)
assert isinstance(menu_button, MenuButtonCommands)
assert menu_button.type == MenuButtonType.COMMANDS
# Test setting our chat menu button to Webapp.
my_menu = MenuButtonWebApp("click me!", WebAppInfo("https://telegram.org/"))
await bot.set_chat_menu_button(chat_id=chat_id, menu_button=my_menu)
menu_button = await bot.get_chat_menu_button(chat_id)
assert isinstance(menu_button, MenuButtonWebApp)
assert menu_button.type == MenuButtonType.WEB_APP
assert menu_button.text == my_menu.text
assert menu_button.web_app.url == my_menu.web_app.url
await bot.set_chat_menu_button(chat_id=chat_id, menu_button=MenuButtonDefault())
menu_button = await bot.get_chat_menu_button(chat_id=chat_id)
assert isinstance(menu_button, MenuButtonDefault)
@flaky(3, 1)
async def test_set_and_get_my_commands(self, bot):
commands = [BotCommand("cmd1", "descr1"), ["cmd2", "descr2"]]
await bot.set_my_commands([])
assert await bot.get_my_commands() == []
assert await bot.set_my_commands(commands)
for i, bc in enumerate(await bot.get_my_commands()):
assert bc.command == f"cmd{i+1}"
assert bc.description == f"descr{i+1}"
@flaky(3, 1)
async def test_get_set_delete_my_commands_with_scope(self, bot, super_group_id, chat_id):
group_cmds = [BotCommand("group_cmd", "visible to this supergroup only")]
private_cmds = [BotCommand("private_cmd", "visible to this private chat only")]
group_scope = BotCommandScopeChat(super_group_id)
private_scope = BotCommandScopeChat(chat_id)
# Set supergroup command list with lang code and check if the same can be returned from api
await bot.set_my_commands(group_cmds, scope=group_scope, language_code="en")
gotten_group_cmds = await bot.get_my_commands(scope=group_scope, language_code="en")
assert len(gotten_group_cmds) == len(group_cmds)
assert gotten_group_cmds[0].command == group_cmds[0].command
# Set private command list and check if same can be returned from the api
await bot.set_my_commands(private_cmds, scope=private_scope)
gotten_private_cmd = await bot.get_my_commands(scope=private_scope)
assert len(gotten_private_cmd) == len(private_cmds)
assert gotten_private_cmd[0].command == private_cmds[0].command
# Delete command list from that supergroup and private chat-
await bot.delete_my_commands(private_scope)
await bot.delete_my_commands(group_scope, "en")
# Check if its been deleted-
deleted_priv_cmds = await bot.get_my_commands(scope=private_scope)
deleted_grp_cmds = await bot.get_my_commands(scope=group_scope, language_code="en")
assert len(deleted_grp_cmds) == 0 == len(group_cmds) - 1
assert len(deleted_priv_cmds) == 0 == len(private_cmds) - 1
await bot.delete_my_commands() # Delete commands from default scope
assert len(await bot.get_my_commands()) == 0
async def test_log_out(self, monkeypatch, bot):
# We don't actually make a request as to not break the test setup
async def assertion(url, request_data: RequestData, *args, **kwargs):
return request_data.json_parameters == {} and url.split("/")[-1] == "logOut"
monkeypatch.setattr(bot.request, "post", assertion)
assert await bot.log_out()
async def test_close(self, monkeypatch, bot):
# We don't actually make a request as to not break the test setup
async def assertion(url, request_data: RequestData, *args, **kwargs):
return request_data.json_parameters == {} and url.split("/")[-1] == "close"
monkeypatch.setattr(bot.request, "post", assertion)
assert await bot.close()
@flaky(3, 1)
@pytest.mark.parametrize("json_keyboard", [True, False])
@pytest.mark.parametrize("caption", ["<b>Test</b>", "", None])
async def test_copy_message(
self, monkeypatch, bot, chat_id, media_message, json_keyboard, caption
):
keyboard = InlineKeyboardMarkup(
[[InlineKeyboardButton(text="test", callback_data="test2")]]
)
async def post(url, request_data: RequestData, *args, **kwargs):
data = request_data.parameters
if not all(
[
data["chat_id"] == chat_id,
data["from_chat_id"] == chat_id,
data["message_id"] == media_message.message_id,
data.get("caption") == caption,
data["parse_mode"] == ParseMode.HTML,
data["reply_to_message_id"] == media_message.message_id,
data["reply_markup"] == keyboard.to_json()
if json_keyboard
else keyboard.to_dict(),
data["disable_notification"] is True,
data["caption_entities"]
== [MessageEntity(MessageEntity.BOLD, 0, 4).to_dict()],
data["protect_content"] is True,
]
):
pytest.fail("I got wrong parameters in post")
return data
monkeypatch.setattr(bot.request, "post", post)
await bot.copy_message(
chat_id,
from_chat_id=chat_id,
message_id=media_message.message_id,
caption=caption,
caption_entities=[MessageEntity(MessageEntity.BOLD, 0, 4)],
parse_mode=ParseMode.HTML,
reply_to_message_id=media_message.message_id,
reply_markup=keyboard.to_json() if json_keyboard else keyboard,
disable_notification=True,
protect_content=True,
)
@flaky(3, 1)
async def test_copy_message_without_reply(self, bot, chat_id, media_message):
keyboard = InlineKeyboardMarkup(
[[InlineKeyboardButton(text="test", callback_data="test2")]]
)
returned = await bot.copy_message(
chat_id,
from_chat_id=chat_id,
message_id=media_message.message_id,
caption="<b>Test</b>",
parse_mode=ParseMode.HTML,
reply_to_message_id=media_message.message_id,
reply_markup=keyboard,
)
# we send a temp message which replies to the returned message id in order to get a
# message object
temp_message = await bot.send_message(
chat_id, "test", reply_to_message_id=returned.message_id
)
message = temp_message.reply_to_message
assert message.chat_id == int(chat_id)
assert message.caption == "Test"
assert len(message.caption_entities) == 1
assert message.reply_markup == keyboard
@flaky(3, 1)
@pytest.mark.parametrize(
"default_bot",
[
({"parse_mode": ParseMode.HTML, "allow_sending_without_reply": True}),
({"parse_mode": None, "allow_sending_without_reply": True}),
({"parse_mode": None, "allow_sending_without_reply": False}),
],
indirect=["default_bot"],
)
async def test_copy_message_with_default(self, default_bot, chat_id, media_message):
reply_to_message = await default_bot.send_message(chat_id, "test")
await reply_to_message.delete()
if not default_bot.defaults.allow_sending_without_reply:
with pytest.raises(BadRequest, match="not found"):
await default_bot.copy_message(
chat_id,
from_chat_id=chat_id,
message_id=media_message.message_id,
caption="<b>Test</b>",
reply_to_message_id=reply_to_message.message_id,
)
return
returned = await default_bot.copy_message(
chat_id,
from_chat_id=chat_id,
message_id=media_message.message_id,
caption="<b>Test</b>",
reply_to_message_id=reply_to_message.message_id,
)
# we send a temp message which replies to the returned message id in order to get a
# message object
temp_message = await default_bot.send_message(
chat_id, "test", reply_to_message_id=returned.message_id
)
message = temp_message.reply_to_message
if default_bot.defaults.parse_mode:
assert len(message.caption_entities) == 1
else:
assert len(message.caption_entities) == 0
async def test_replace_callback_data_send_message(self, bot, chat_id):
try:
bot.arbitrary_callback_data = True
replace_button = InlineKeyboardButton(text="replace", callback_data="replace_test")
no_replace_button = InlineKeyboardButton(
text="no_replace", url="http://python-telegram-bot.org/"
)
reply_markup = InlineKeyboardMarkup.from_row(
[
replace_button,
no_replace_button,
]
)
message = await bot.send_message(
chat_id=chat_id, text="test", reply_markup=reply_markup
)
inline_keyboard = message.reply_markup.inline_keyboard
assert inline_keyboard[0][1] == no_replace_button
assert inline_keyboard[0][0] == replace_button
keyboard = list(bot.callback_data_cache._keyboard_data)[0]
data = list(bot.callback_data_cache._keyboard_data[keyboard].button_data.values())[0]
assert data == "replace_test"
finally:
bot.arbitrary_callback_data = False
bot.callback_data_cache.clear_callback_data()
bot.callback_data_cache.clear_callback_queries()
async def test_replace_callback_data_stop_poll_and_repl_to_message(self, bot, chat_id):
poll_message = await bot.send_poll(chat_id=chat_id, question="test", options=["1", "2"])
try:
bot.arbitrary_callback_data = True
replace_button = InlineKeyboardButton(text="replace", callback_data="replace_test")
no_replace_button = InlineKeyboardButton(
text="no_replace", url="http://python-telegram-bot.org/"
)
reply_markup = InlineKeyboardMarkup.from_row(
[
replace_button,
no_replace_button,
]
)
await poll_message.stop_poll(reply_markup=reply_markup)
helper_message = await poll_message.reply_text("temp", quote=True)
message = helper_message.reply_to_message
inline_keyboard = message.reply_markup.inline_keyboard
assert inline_keyboard[0][1] == no_replace_button
assert inline_keyboard[0][0] == replace_button
keyboard = list(bot.callback_data_cache._keyboard_data)[0]
data = list(bot.callback_data_cache._keyboard_data[keyboard].button_data.values())[0]
assert data == "replace_test"
finally:
bot.arbitrary_callback_data = False
bot.callback_data_cache.clear_callback_data()
bot.callback_data_cache.clear_callback_queries()
async def test_replace_callback_data_copy_message(self, bot, chat_id):
"""This also tests that data is inserted into the buttons of message.reply_to_message
where message is the return value of a bot method"""
original_message = await bot.send_message(chat_id=chat_id, text="original")
try:
bot.arbitrary_callback_data = True
replace_button = InlineKeyboardButton(text="replace", callback_data="replace_test")
no_replace_button = InlineKeyboardButton(
text="no_replace", url="http://python-telegram-bot.org/"
)
reply_markup = InlineKeyboardMarkup.from_row(
[
replace_button,
no_replace_button,
]
)
message_id = await original_message.copy(chat_id=chat_id, reply_markup=reply_markup)
helper_message = await bot.send_message(
chat_id=chat_id, reply_to_message_id=message_id.message_id, text="temp"
)
message = helper_message.reply_to_message
inline_keyboard = message.reply_markup.inline_keyboard
assert inline_keyboard[0][1] == no_replace_button
assert inline_keyboard[0][0] == replace_button
keyboard = list(bot.callback_data_cache._keyboard_data)[0]
data = list(bot.callback_data_cache._keyboard_data[keyboard].button_data.values())[0]
assert data == "replace_test"
finally:
bot.arbitrary_callback_data = False
bot.callback_data_cache.clear_callback_data()
bot.callback_data_cache.clear_callback_queries()
# TODO: Needs improvement. We need incoming inline query to test answer.
async def test_replace_callback_data_answer_inline_query(self, monkeypatch, bot, chat_id):
# For now just test that our internals pass the correct data
async def make_assertion(
endpoint,
data=None,
*args,
**kwargs,
):
inline_keyboard = data["results"][0]["reply_markup"].inline_keyboard
assertion_1 = inline_keyboard[0][1] == no_replace_button
assertion_2 = inline_keyboard[0][0] != replace_button
keyboard, button = (
inline_keyboard[0][0].callback_data[:32],
inline_keyboard[0][0].callback_data[32:],
)
assertion_3 = (
bot.callback_data_cache._keyboard_data[keyboard].button_data[button]
== "replace_test"
)
assertion_4 = data["results"][1].reply_markup is None
return assertion_1 and assertion_2 and assertion_3 and assertion_4
try:
bot.arbitrary_callback_data = True
replace_button = InlineKeyboardButton(text="replace", callback_data="replace_test")
no_replace_button = InlineKeyboardButton(
text="no_replace", url="http://python-telegram-bot.org/"
)
reply_markup = InlineKeyboardMarkup.from_row(
[
replace_button,
no_replace_button,
]
)
bot.username # call this here so `bot.get_me()` won't be called after mocking
monkeypatch.setattr(bot, "_post", make_assertion)
results = [
InlineQueryResultArticle(
"11", "first", InputTextMessageContent("first"), reply_markup=reply_markup
),
InlineQueryResultVoice(
"22",
"https://python-telegram-bot.org/static/testfiles/telegram.ogg",
title="second",
),
]
assert await bot.answer_inline_query(chat_id, results=results)
finally:
bot.arbitrary_callback_data = False
bot.callback_data_cache.clear_callback_data()
bot.callback_data_cache.clear_callback_queries()
async def test_get_chat_arbitrary_callback_data(self, super_group_id, bot):
try:
bot.arbitrary_callback_data = True
reply_markup = InlineKeyboardMarkup.from_button(
InlineKeyboardButton(text="text", callback_data="callback_data")
)
message = await bot.send_message(
super_group_id, text="get_chat_arbitrary_callback_data", reply_markup=reply_markup
)
await message.pin()
keyboard = list(bot.callback_data_cache._keyboard_data)[0]
data = list(bot.callback_data_cache._keyboard_data[keyboard].button_data.values())[0]
assert data == "callback_data"
chat = await bot.get_chat(super_group_id)
assert chat.pinned_message == message
assert chat.pinned_message.reply_markup == reply_markup
finally:
bot.arbitrary_callback_data = False
bot.callback_data_cache.clear_callback_data()
bot.callback_data_cache.clear_callback_queries()
await bot.unpin_all_chat_messages(super_group_id)
# In the following tests we check that get_updates inserts callback data correctly if necessary
# The same must be done in the webhook updater. This is tested over at test_updater.py, but
# here we test more extensively.
async def test_arbitrary_callback_data_no_insert(self, monkeypatch, bot):
"""Updates that don't need insertion shouldn.t fail obviously"""
async def post(*args, **kwargs):
update = Update(
17,
poll=Poll(
"42",
"question",
options=[PollOption("option", 0)],
total_voter_count=0,
is_closed=False,
is_anonymous=True,
type=Poll.REGULAR,
allows_multiple_answers=False,
),
)
return [update.to_dict()]
try:
bot.arbitrary_callback_data = True
monkeypatch.setattr(BaseRequest, "post", post)
await bot.delete_webhook() # make sure there is no webhook set if webhook tests failed
updates = await bot.get_updates(timeout=1)
assert len(updates) == 1
assert updates[0].update_id == 17
assert updates[0].poll.id == "42"
finally:
bot.arbitrary_callback_data = False
@pytest.mark.parametrize(
"message_type", ["channel_post", "edited_channel_post", "message", "edited_message"]
)
async def test_arbitrary_callback_data_pinned_message_reply_to_message(
self, super_group_id, bot, monkeypatch, message_type
):
bot.arbitrary_callback_data = True
reply_markup = InlineKeyboardMarkup.from_button(
InlineKeyboardButton(text="text", callback_data="callback_data")
)
message = Message(
1, None, None, reply_markup=bot.callback_data_cache.process_keyboard(reply_markup)
)
# We do to_dict -> de_json to make sure those aren't the same objects
message.pinned_message = Message.de_json(message.to_dict(), bot)
async def post(*args, **kwargs):
update = Update(
17,
**{
message_type: Message(
1,
None,
None,
pinned_message=message,
reply_to_message=Message.de_json(message.to_dict(), bot),
)
},
)
return [update.to_dict()]
try:
monkeypatch.setattr(BaseRequest, "post", post)
await bot.delete_webhook() # make sure there is no webhook set if webhook tests failed
updates = await bot.get_updates(timeout=1)
assert isinstance(updates, list)
assert len(updates) == 1
effective_message = updates[0][message_type]
assert (
effective_message.reply_to_message.reply_markup.inline_keyboard[0][0].callback_data
== "callback_data"
)
assert (
effective_message.pinned_message.reply_markup.inline_keyboard[0][0].callback_data
== "callback_data"
)
pinned_message = effective_message.reply_to_message.pinned_message
assert (
pinned_message.reply_markup.inline_keyboard[0][0].callback_data == "callback_data"
)
finally:
bot.arbitrary_callback_data = False
bot.callback_data_cache.clear_callback_data()
bot.callback_data_cache.clear_callback_queries()
async def test_arbitrary_callback_data_get_chat_no_pinned_message(self, super_group_id, bot):
bot.arbitrary_callback_data = True
await bot.unpin_all_chat_messages(super_group_id)
try:
chat = await bot.get_chat(super_group_id)
assert isinstance(chat, Chat)
assert int(chat.id) == int(super_group_id)
assert chat.pinned_message is None
finally:
bot.arbitrary_callback_data = False
@pytest.mark.parametrize(
"message_type", ["channel_post", "edited_channel_post", "message", "edited_message"]
)
@pytest.mark.parametrize("self_sender", [True, False])
async def test_arbitrary_callback_data_via_bot(
self, super_group_id, bot, monkeypatch, self_sender, message_type
):
bot.arbitrary_callback_data = True
reply_markup = InlineKeyboardMarkup.from_button(
InlineKeyboardButton(text="text", callback_data="callback_data")
)
reply_markup = bot.callback_data_cache.process_keyboard(reply_markup)
message = Message(
1,
None,
None,
reply_markup=reply_markup,
via_bot=bot.bot if self_sender else User(1, "first", False),
)
async def post(*args, **kwargs):
return [Update(17, **{message_type: message}).to_dict()]
try:
monkeypatch.setattr(BaseRequest, "post", post)
await bot.delete_webhook() # make sure there is no webhook set if webhook tests failed
updates = await bot.get_updates(timeout=1)
assert isinstance(updates, list)
assert len(updates) == 1
message = updates[0][message_type]
if self_sender:
assert message.reply_markup.inline_keyboard[0][0].callback_data == "callback_data"
else:
assert (
message.reply_markup.inline_keyboard[0][0].callback_data
== reply_markup.inline_keyboard[0][0].callback_data
)
finally:
bot.arbitrary_callback_data = False
bot.callback_data_cache.clear_callback_data()
bot.callback_data_cache.clear_callback_queries()
@bot_methods()
def test_camel_case_aliases(self, bot_class, bot_method_name, bot_method):
camel_case_name = to_camel_case(bot_method_name)
camel_case_function = getattr(bot_class, camel_case_name, False)
assert camel_case_function is not False, f"{camel_case_name} not found"
assert camel_case_function is bot_method, f"{camel_case_name} is not {bot_method}"
@bot_methods()
def test_coroutine_functions(self, bot_class, bot_method_name, bot_method):
"""Check that all bot methods are defined as async def ..."""
# not islower() skips the camelcase aliases
if not bot_method_name.islower():
return
# unfortunately `inspect.iscoroutinefunction` doesn't do the trick directly,
# as the @_log decorator interferes
source = "".join(inspect.getsourcelines(bot_method)[0])
assert (
f"async def {bot_method_name}" in source
), f"{bot_method_name} should be a coroutine function"
@bot_methods()
def test_api_kwargs_and_timeouts_present(self, bot_class, bot_method_name, bot_method):
"""Check that all bot methods have `api_kwargs` and timeout params."""
param_names = inspect.signature(bot_method).parameters.keys()
assert (
"pool_timeout" in param_names
), f"{bot_method_name} is missing the parameter `pool_timeout`"
assert (
"read_timeout" in param_names
), f"{bot_method_name} is missing the parameter `read_timeout`"
assert (
"connect_timeout" in param_names
), f"{bot_method_name} is missing the parameter `connect_timeout`"
assert (
"write_timeout" in param_names
), f"{bot_method_name} is missing the parameter `write_timeout`"
assert (
"api_kwargs" in param_names
), f"{bot_method_name} is missing the parameter `api_kwargs`"
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