def test_published_expired(self, client):
"""
test bot.get_unread_bulletins return only published bulletins
where publish_at <= now < publish_at + expire_hours
"""
(user, account) = self.create_user_account()
dates = (self.utcnow - datetime.timedelta(hours=4),
self.utcnow - datetime.timedelta(hours=1),
self.utcnow + datetime.timedelta(hours=2))
for i in range(3):
bulletin = self.create_bulletin(
account,
title='bulletin-%d' % i,
publish_at=dates[i].strftime('%m/%d/%Y %H:%M'),
is_published=True,
expire_hours=2)
user.read_bulletins = []
user.save()
bot = TelegramBot(str(account.id))
bulletins = bot.get_unread_bulletins(user)
assert len(bulletins) == 1
assert bulletins[0].title == 'bulletin-1'
def test_start_bulletin_reading_with_bulletin_id(self, client):
(_, account) = self.create_user_account()
bulletin1 = self.create_bulletin(account, is_published=True)
story1 = self.create_story(bulletin1, lead='story1')
self.create_fragment_answer(story1, action='n', text='next1')
self.create_fragment_paragraph(story1, text='paragraph1')
bulletin2 = self.create_bulletin(account, title='bulletin2', is_published=True)
story2 = self.create_story(bulletin2, lead='story2')
self.create_fragment_answer(story2, action='n', text='next2')
self.create_fragment_paragraph(story2, text='paragraph2')
bot = TelegramBot(account.id)
bot.bot = Mock()
chat_user = self.create_chat_user(account)
bot.start_bulletin_reading(
chat_user, chat_user.chat_id,
disable_no_content=True,
bulletin_id=bulletin2.id
)
chat_user.reload()
assert chat_user.current_bulletin == bulletin2
assert chat_user.state == ChatUser.STATE_WAITING_ANSWER
def test_bot_process_user(self, client):
(_, account) = self.create_user_account()
bot = TelegramBot(account.id)
bot.bot = Mock()
chat_id = 1234
bot.handle_message(self.get_telegram_message(chat_id=chat_id))
assert ChatUser.objects.count() == 1
chat_user = ChatUser.objects.get(chat_id=chat_id, account_id=account.id)
assert chat_user.name == 'John Smith'
assert chat_user.state == ChatUser.STATE_INITIAL_STAGE2
assert chat_user.account_id == account
def __init__(self, _connection_string, token, chat_id, proxy, debug):
self._vehicle = None
self.connection_string = _connection_string
# Params of info-messages
self.bot = TelegramBot(token, chat_id, proxy, debug, self)
self.debug_message = self.bot.debug_message
# Params of auto-missions
self._mission_created = False
self._goto_location = None
self._work_alt = 20
self._need_hover = True
# Params of states machine
self.current_state = States.INIT
self.stop_state = False
self.next_state = States.IDLE
def main():
rasa_server = "http://127.0.0.1:5005/webhooks/rest/webhook"
bot = TelegramBot("1387499885:AAGiqlocFqKvldZtOptrltLbdOWHIAHNlVA")
res = bot.get_me()
#name = res["result"]["first_name"]
print(res)
print("Bot Ready...")
while True:
messages = bot.get_update()
if messages:
for msg in messages:
print(msg.message)
print(msg.chat_id)
print(msg.user)
res = requests.post(rasa_server,
json={
"message": msg.message,
"sender": msg.chat_id
}).json()
print(res)
if (res):
print(res[0]["text"])
bot.send_message(f"{res[0]['text']}", msg.chat_id)
print("==" * 5 + "**" + "==" * 5)
print(" - - - - - - -")
print("")
print("- -")
time.sleep(1)
def test_bot_blocked_by_user(self, client):
(_, account) = self.create_user_account()
chat_user = self.create_chat_user(account)
# monkey-patch start_next_question method
# simulate blocked msg response
def mock_switch_next_profile_story(user, chat_id, disable_no_content=False):
raise BotWasBlockedError('Forbidden: bot was blocked by the user', 403,
{
'error_code': 403, 'ok': False,
'description': 'Forbidden: bot was blocked by the user'
}
)
bot = TelegramBot(account.id)
bot.bot = Mock()
bot.switch_next_profile_story = mock_switch_next_profile_story
today = datetime.utcnow().date()
stats = AccountStats.objects.get(date=today, account=account)
assert stats.new_users == 1
assert stats.dropped_users == 0
bot.handle_message(self.get_telegram_message(
text=account.welcome_answer_2_option_1)
)
stats.reload()
chat_user.reload()
assert stats.new_users == 1
assert stats.dropped_users == 1
assert chat_user.disabled == 1
def test_new_users_account_stats(self, client):
(_, account) = self.create_user_account()
bot = TelegramBot(account.id)
bot.bot = Mock()
today = datetime.utcnow().date()
assert AccountStats.objects(date=today, account=account).count() == 0
# new chat user created
bot.get_or_create_user(name='test_user', chat_id='1521512')
assert AccountStats.objects(date=today, account=account).count() == 1
stats = AccountStats.objects.get(date=today, account=account)
assert stats.new_users == 1
# user already exists
bot.get_or_create_user(name='test_user', chat_id='1521512')
stats.reload()
assert AccountStats.objects(date=today, account=account).count() == 1
assert stats.new_users == 1
# new chat user created
bot.get_or_create_user(name='test_user2', chat_id='2142141')
stats.reload()
assert AccountStats.objects(date=today, account=account).count() == 1
assert stats.new_users == 2
def test_bot_conversation(self, client):
(_, account) = self.create_user_account()
bulletin = self.create_bulletin(account, is_published=True)
story = self.create_story(bulletin, lead='IT')
self.create_fragment_answer(story, text='ok')
self.create_fragment_paragraph(story, text='ML is cool!!!')
bot = TelegramBot(account.id)
bot.bot = Mock()
self.create_chat_user(account)
bot.handle_message(self.get_telegram_message(text=account.welcome_answer_2_option_1))
assert bot.bot.sendMessage.call_args[0][1] == 'IT'
bot.bot.reset_mock()
bot.handle_message(self.get_telegram_message(text='ok'))
assert bot.bot.sendMessage.call_args_list[0][0][1] == 'ML is cool!!!'
assert bot.bot.sendMessage.call_args_list[1][0][1] == account.up_to_date_message
def test_bot_sending_published_bulletins(self, client):
" sending_published_bulletins -> start_bulletin_reading "
(_, account) = self.create_user_account()
chat_user = self.create_chat_user(account)
bot = TelegramBot(account.id)
bot.bot = Mock()
bot.handle_message(self.get_telegram_message(text=account.welcome_answer_2_option_1))
assert bot.bot.sendMessage.call_args[0][1] == account.up_to_date_message
bulletin = self.create_bulletin(account, is_published=True)
story = self.create_story(bulletin, lead='start-story')
self.create_fragment_answer(story, action='c', text='read it')
bot.bot.reset_mock()
bot.sending_published_bulletins()
assert bot.bot.sendMessage.call_args[0][1] == 'start-story'
assert bot.bot.sendMessage.call_args[1]['reply_markup']['keyboard'] == [['read it']]
chat_user.reload()
chat_user.state == ChatUser.STATE_WAITING_ANSWER
ignored_tags_artist = user.get('ignored-tags', [])
size = user.get('size', 30)
a = Artist(
user['id'],
basedir,
client,
size=size,
subdir=user.get('subdir', None),
ignored_tags=ignored_tags + ignored_tags_artist,
)
artists.append(a)
# set bot
bot_config = config['bot']
tg_bot = TelegramBot(bot_config['token'], bot_config['chatid'])
return (artists, client, username, password, tg_bot)
def start():
artists, client, username, password, tg_bot = init()
for a in artists:
arts = None
try:
arts = a.download()
except errors.BadApiResponse:
logging.warning("download failed. wait for 20 seconds, and retry")
time.sleep(20)
update.message.reply_text(message)
def main():
if not et.login(settings.everytime['id'], settings.everytime['password']):
tb.send_message('로그인 실패! 아이디와 비밀번호를 확인해 주세요.')
return
load_datas()
thread_loop = threading.Thread(target=loop)
thread_loop.daemon = True
thread_loop.start()
tb.send_message('로그인 성공! 주기적으로 게시글을 키워드로 감지해 알림을 보내드리도록 하겠습니다.')
tb.add_command_handler('help', handle_help)
tb.add_command_handler('add', handle_add)
tb.add_command_handler('remove', handle_remove)
tb.add_command_handler('show', handle_show)
tb.start()
if __name__ == '__main__':
et = Everytime()
tb = TelegramBot(settings.telegram_bot['token'],
settings.telegram_bot['chat_id'])
# Start
main()
from flask import Flask, request, jsonify
from telegrambot import TelegramBot
from config import *
from pyngrok import ngrok
from util import sess, facts
# Iniitialize essentials
app = Flask(__name__)
bot = TelegramBot(TELEGRAM_INIT_WEBHOOK_URL)
@app.route("/webhook", methods=['POST'])
def webhook():
"""
runs whenever there is a new message on telegram
"""
req = request.get_json()
success = bot.parse_webhook_data(req)
return jsonify(success=success)
@app.route("/close")
def close():
"""
Shuts down the flask server
"""
func = request.environ.get("werkzeug.server.shutdown")
if func is not None: func()
if __name__ == "__main__":
app.run(port=PORT)
# Cleanup
def test_bot_poll(self, client):
(_, account) = self.create_user_account()
bulletin = self.create_bulletin(account, is_published=True)
story = self.create_story(bulletin)
self.create_fragment_answer(story)
poll_1 = self.create_fragment_poll(story, text='poll1')
paragraph_1 = self.create_fragment_paragraph(story, text='paragraph1')
poll_2 = self.create_fragment_poll(story, text='poll2')
paragraph_2 = self.create_fragment_paragraph(story, text='paragraph2')
self.create_fragment_answer(story, text='finish answer')
bot = TelegramBot(account.id)
bot.bot = Mock()
self.create_chat_user(account)
bot.handle_message(self.get_telegram_message(text=account.welcome_answer_2_option_1))
assert bot.bot.sendMessage.call_args[0][1] == 'lead1'
bot.bot.reset_mock()
bot.handle_message(self.get_telegram_message(text='continue'))
assert bot.bot.sendMessage.call_args_list[0][0][1] == 'poll1'
assert bot.bot.sendMessage.call_args_list[0][1]['reply_markup'][0][0][0][0] == 'answer1'
assert bot.bot.sendMessage.call_args_list[0][1]['reply_markup'][0][1][0][0] == 'answer2'
answer1_poll1 = PollQuestions.objects.get(fragment=poll_1, text='answer1')
# user sent custom message, poll must be resent
bot.bot.reset_mock()
bot.handle_message(self.get_telegram_message(text='say something'))
print(bot.bot.sendMessage.call_args_list)
assert bot.bot.sendMessage.call_args_list[0][0][1] == 'poll1'
assert bot.bot.sendMessage.call_args_list[0][1]['reply_markup'][0][0][0][0] == 'answer1'
assert bot.bot.sendMessage.call_args_list[0][1]['reply_markup'][0][1][0][0] == 'answer2'
data = str(poll_1.id) + ',' + str(answer1_poll1.id)
bot.bot.reset_mock()
bot.handle_callback_query(self.get_telegram_callback_query(data=data))
answer1_poll1.reload()
assert self.default_chat_id in answer1_poll1.users
assert self.default_chat_id not in PollQuestions.objects.get(fragment=poll_1, text='answer2').users
# send paragraph#1 and poll#2 after poll was answered
answer2_poll2 = PollQuestions.objects.get(fragment=poll_2, text='answer2')
assert bot.bot.sendMessage.call_args_list[0][0][1] == 'paragraph1'
assert bot.bot.sendMessage.call_args_list[1][0][1] == 'poll2'
assert bot.bot.sendMessage.call_args_list[1][1]['reply_markup'][0][0][0][0] == 'answer1'
assert bot.bot.sendMessage.call_args_list[1][1]['reply_markup'][0][1][0][0] == 'answer2'
data = str(poll_2.id) + ',' + str(answer2_poll2.id)
bot.bot.reset_mock()
bot.handle_callback_query(self.get_telegram_callback_query(data=data))
# send paragraph2 and answer after poll
assert bot.bot.sendMessage.call_args_list[0][0][1] == 'paragraph2'
assert 'finish answer' in bot.bot.sendMessage.call_args[1]['reply_markup']['keyboard'][0]
bot.bot.reset_mock()
bot.handle_message(self.get_telegram_message(text='finish answer'))
assert bot.bot.sendMessage.call_args_list[0][0][1] == 'You are up to date!'
answer2_poll2.reload()
assert self.default_chat_id in answer2_poll2.users
assert self.default_chat_id not in PollQuestions.objects.get(fragment=poll_2, text='answer1').users
def __init__(self, token, channel, nickname, server, port=6667):
irc.bot.SingleServerIRCBot.__init__(self, [(server, port)], nickname,
nickname)
self.channel = channel
self.telegram = TelegramBot(token, self)
def test_bot_init_conversation(self, client):
(_, account) = self.create_user_account()
bot = TelegramBot(account.id)
bot.bot = Mock()
chat_id = 1234
bot.handle_message(self.get_telegram_message(chat_id=chat_id))
sendMessage_args = bot.bot.sendMessage.call_args_list
assert sendMessage_args[0][0] == (chat_id, account.welcome_message_1)
assert sendMessage_args[1][0][1] == account.welcome_message_2
assert sendMessage_args[1][1]['reply_markup']['keyboard'] == [['Answer 1']]
bot.bot.reset_mock()
bot.handle_message(self.get_telegram_message(chat_id=chat_id))
sendMessage_args = bot.bot.sendMessage.call_args
assert sendMessage_args[0][1] == account.welcome_message_3
assert sendMessage_args[1]['reply_markup']['keyboard'][0][0] == account.welcome_answer_2_option_1
assert sendMessage_args[1]['reply_markup']['keyboard'][0][1] == account.welcome_answer_2_option_2
bot.bot.reset_mock()
bot.handle_message(self.get_telegram_message(text='wrong', chat_id=chat_id))
assert bot.bot.method_calls == []
bot.bot.reset_mock()
msg = self.get_telegram_message(account.welcome_answer_2_option_1, chat_id=chat_id)
bot.handle_message(msg)
assert bot.bot.sendMessage.call_args[0][1] == account.up_to_date_message
assert bot.bot.sendMessage.call_args[1]['reply_markup']['hide_keyboard'] == True
def test_account_stats(self, client):
def upd_enabled_users():
AccountStats.update_enabled_users(Account.objects())
(_, account) = self.create_user_account()
upd_enabled_users()
bot = TelegramBot(account.id)
bot.bot = Mock()
# testing enabled_users
stats = AccountStats.objects().first()
assert stats.enabled_users == 0
assert stats.date.date() == datetime.utcnow().date()
assert stats.account == account
# testing active_users, new_users
chat_user = self.create_chat_user(account)
upd_enabled_users()
stats.reload()
assert stats.enabled_users == 1
assert stats.active_users == 1
assert stats.new_users == 1
assert stats.date.date() == datetime.utcnow().date()
assert stats.account == account
# testing messages_received
bot.handle_message(self.get_telegram_message(text='hi'))
bot.handle_message(self.get_telegram_message(text='hi'))
bot.handle_message(self.get_telegram_message(text='hi'))
stats.reload()
assert stats.enabled_users == 1
assert stats.active_users == 1
assert stats.new_users == 1
assert stats.messages_received == 3
# testing dropped_users
chat_user.disabled = 1
chat_user.save()
stats.reload()
assert stats.dropped_users == 1
# test with 2 differrent accounts
self.register_data['email'] = '*****@*****.**'
(_, account2) = self.create_user_account()
self.default_chat_id = 56789
chat_user2 = self.create_chat_user(account2)
upd_enabled_users()
stats2 = AccountStats.objects.get(account=account2)
stats.reload()
assert stats.enabled_users == 0
assert stats.active_users == 1
assert stats.new_users == 1
assert stats.messages_received == 3
assert stats.dropped_users == 1
assert stats2.enabled_users == 1
assert stats2.active_users == 1
assert stats2.new_users == 1
assert stats2.messages_received == 0
bot2 = TelegramBot(account2.id)
bot2.bot = Mock()
bot2.handle_message(self.get_telegram_message(
text='hi', chat_id=self.default_chat_id
))
stats2.reload()
assert stats2.messages_received == 1
# test if stats removed with account
account.delete()
assert AccountStats.objects(account=account).count() == 0
def test_bot_new_questions(self, client):
(_, account) = self.create_user_account()
chat_user = self.create_chat_user(account)
bot = TelegramBot(account.id)
bot.bot = Mock()
# finishing onboarding process
chat_user.state = ChatUser.STATE_WAITING_READY
bot.handle_message(
self.get_telegram_message(
text=account.welcome_answer_2_option_1
)
)
attr1 = self.create_chat_user_attribute(account, 'attr1', 'int', 'bars', [])
story1 = self.create_profile_story('story#1', account)
question1 = self.create_question_fragment(attr1, 'question#1', story1)
self.add_question_fragment(story1, question1)
# question_1 should not be sended
# only when UP_TO_DATE reached
bot.handle_message(
self.get_telegram_message(text='hello')
)
chat_user.reload()
assert chat_user.onboarding == False
assert chat_user.current_profile_story == None
assert chat_user.state == ChatUser.STATE_READY_RECEIVED
left_no_content_msgs = QUESTION_INTERVAL -\
chat_user.up_to_date_counter
# receive QUESTION_INTERVAL no content msgs
for i in range(left_no_content_msgs):
bot.handle_message(self.get_telegram_message(text='hello'))
chat_user.reload()
assert chat_user.current_profile_story == None
assert chat_user.state == ChatUser.STATE_READY_RECEIVED
assert len(chat_user.question_answers) == 0
bot.handle_message(self.get_telegram_message(text='hello'))
bot.handle_message(self.get_telegram_message(text='continue'))
chat_user.reload()
# question_1 sended
assert chat_user.onboarding == False
assert chat_user.current_profile_story == story1
assert chat_user.state == ChatUser.STATE_WAITING_PROFILE_QUESTION
def test_bot_sending_published_bulletins2(self, client):
" sending_published_bulletins -> switch_next_bulletin "
(_, account) = self.create_user_account()
bulletin1 = self.create_bulletin(account, title='bulletin1', is_published=True)
story1 = self.create_story(bulletin1, lead='story1')
self.create_fragment_answer(story1, action='n', text='next')
self.create_fragment_paragraph(story1, text='paragraph1')
story2 = self.create_story(bulletin1, lead='story2')
self.create_fragment_answer(story2, action='n', text='next')
self.create_fragment_paragraph(story2, text='paragraph2')
bulletin2 = self.create_bulletin(account, title='bulletin2', is_published=True)
story3 = self.create_story(bulletin2, lead='story3')
self.create_fragment_answer(story3, action='n', text='next')
self.create_fragment_paragraph(story3, text='paragraph3')
self.create_chat_user(account)
bot = TelegramBot(account.id)
bot.bot = Mock()
bot.handle_message(self.get_telegram_message(text=account.welcome_answer_2_option_1))
assert bot.bot.sendMessage.call_args[0][1] == 'story1'
bot.bot.reset_mock()
bot.sending_published_bulletins()
assert bot.bot.sendMessage.call_args is None
bot.sending_published_bulletins()
assert bot.bot.sendMessage.call_args is None
bot.sending_published_bulletins()
assert bot.bot.sendMessage.call_args is None
bot.sending_published_bulletins()
assert bot.bot.sendMessage.call_args[0][1] == 'story3'
def test_bot_profile_story_questions(self, client):
(_, account) = self.create_user_account()
attr1 = self.create_chat_user_attribute(
account, 'attr1', 'text', 'bars',
[
{'text': 'opt1', 'value': 'val1'},
{'text': 'opt2', 'value': 'val2'}
]
)
attr2 = self.create_chat_user_attribute(account, 'attr1', 'int', 'bars', [])
story1 = self.create_profile_story('story#1', account, active=False)
question1 = self.create_question_fragment(attr1, 'question#1', story1)
self.add_question_fragment(story1, question1)
story2 = self.create_profile_story('story#2', account)
question2 = self.create_question_fragment(attr2, 'question#2', story2)
self.add_question_fragment(story2, question2)
story3 = self.create_profile_story('story#3', account)
question3 = self.create_question_fragment(attr1, 'question#3', story3)
self.add_question_fragment(story3, question3)
story4 = self.create_profile_story('story#4', account)
question4 = self.create_question_fragment(attr2, 'question#4', story4)
self.add_question_fragment(story4, question4)
bulletin = self.create_bulletin(account, is_published=True)
story = self.create_story(bulletin)
self.create_fragment_answer(story, action='c', text='continue')
self.create_fragment_paragraph(story)
chat_user = self.create_chat_user(account)
bot = TelegramBot(account.id)
bot.bot = Mock()
# finishing onboarding process and send 1st question
chat_user.state = ChatUser.STATE_WAITING_READY
bot.handle_message(
self.get_telegram_message(
text=account.welcome_answer_2_option_1
)
)
# story2 sended
chat_user.reload()
assert chat_user.onboarding == True
assert chat_user.current_profile_story == story2
assert chat_user.state == ChatUser.STATE_WAITING_PROFILE_ANSWER
# select continue story2
bot.handle_message(self.get_telegram_message(text='continue'))
chat_user.reload()
assert chat_user.state == ChatUser.STATE_WAITING_PROFILE_QUESTION
# answer question2
bot.handle_message(self.get_telegram_message(text='val3'))
chat_user.reload()
# answer not int type, send current question again
assert chat_user.current_profile_story == story2
assert chat_user.state == ChatUser.STATE_WAITING_PROFILE_QUESTION
assert len(chat_user.question_answers) == 0
# answer question2, and story2 sended
bot.handle_message(self.get_telegram_message(text='10'))
# select continue story3
bot.handle_message(self.get_telegram_message(text='continue'))
chat_user.reload()
assert chat_user.onboarding == True
assert chat_user.current_profile_story == story3
assert chat_user.current_profile_fragment_order == 3
assert chat_user.state == ChatUser.STATE_WAITING_PROFILE_QUESTION
assert question2 in [answer.question for answer in chat_user.question_answers]
assert len(chat_user.question_answers) == 1
# answer question3
bot.handle_message(self.get_telegram_message(text='opt3'))
chat_user.reload()
# answer not in options, send current question again
assert chat_user.current_profile_story == story3
assert chat_user.current_profile_fragment_order == 3
assert chat_user.state == ChatUser.STATE_WAITING_PROFILE_QUESTION
assert len(chat_user.question_answers) == 1
# answer question3, and story4 sended
bot.handle_message(self.get_telegram_message(text='opt2'))
# select continue story4
bot.handle_message(self.get_telegram_message(text='continue'))
chat_user.reload()
assert chat_user.current_profile_story == story4
assert chat_user.current_profile_fragment_order == 3
assert chat_user.state == ChatUser.STATE_WAITING_PROFILE_QUESTION
assert question3 in [answer.question for answer in chat_user.question_answers]
assert len(chat_user.question_answers) == 2
# answer question4
# bulletin sended after onboarding questions
bot.handle_message(self.get_telegram_message(text='20'))
chat_user.reload()
assert chat_user.onboarding == False
assert chat_user.current_bulletin == bulletin
assert not chat_user.current_profile_story
assert chat_user.state == ChatUser.STATE_WAITING_ANSWER
assert question4 in [answer.question for answer in chat_user.question_answers]
assert len(chat_user.question_answers) == 3
bot.handle_message(self.get_telegram_message(text='continue'))
chat_user.reload()
assert not chat_user.current_bulletin
assert chat_user.state == ChatUser.STATE_READY_RECEIVED
story1.active = True
story1.save()
left_no_content_msgs = QUESTION_INTERVAL -\
chat_user.up_to_date_counter
# receive QUESTION_INTERVAL no content msgs
for i in range(left_no_content_msgs):
bot.handle_message(self.get_telegram_message(text='hello'))
chat_user.reload()
assert not chat_user.current_profile_story
assert chat_user.state == ChatUser.STATE_READY_RECEIVED
assert len(chat_user.question_answers) == 3
# story1 sended
bot.handle_message(self.get_telegram_message(text='hello'))
bot.handle_message(self.get_telegram_message(text='continue'))
chat_user.reload()
# question1 sended
assert chat_user.onboarding == False
assert chat_user.current_profile_story == story1
assert chat_user.state == ChatUser.STATE_WAITING_PROFILE_QUESTION
assert len(chat_user.question_answers) == 3
assert chat_user.up_to_date_counter == 0
# answer question1
bot.handle_message(self.get_telegram_message(text='opt1'))
chat_user.reload()
assert not chat_user.current_profile_story
assert chat_user.state == ChatUser.STATE_READY_RECEIVED
assert question1 in [answer.question for answer in chat_user.question_answers]
assert len(chat_user.question_answers) == 4
from flask import Flask, request, jsonify
from telegrambot import TelegramBot
from config import TELEGRAM_INIT_WEBHOOK_URL
import requests
import threading
wrapper = Flask(__name__)
# the post message
requests.get(TELEGRAM_INIT_WEBHOOK_URL)
bot = TelegramBot()
@wrapper.route('/webhook', methods=['POST'])
def index():
req = request.get_json()
bot.parse_webhook_data(req)
success = bot.replay()
return jsonify(success=success)
if __name__ == '__main__':
# auto massaging thread
t1 = threading.Thread(target=bot.auto_send, daemon=True).start()
print("start listening") # the main thread
wrapper.run(port=2000)
def test_bot_answers_next(self, client):
(_, account) = self.create_user_account()
bulletin1 = self.create_bulletin(account, is_published=True)
story1 = self.create_story(bulletin1, lead='story1')
self.create_fragment_answer(story1, action='n', text='next1')
self.create_fragment_paragraph(story1, text='paragraph1')
story2 = self.create_story(bulletin1, lead='story2')
self.create_fragment_answer(story2, action='n', text='next2')
self.create_fragment_paragraph(story2, text='paragraph2')
story3 = self.create_story(self.create_bulletin(account, is_published=True), lead='story3')
self.create_fragment_answer(story3, action='n', text='next3')
self.create_fragment_paragraph(story3, text='paragraph3')
bot = TelegramBot(account.id)
bot.bot = Mock()
self.create_chat_user(account)
bot.handle_message(self.get_telegram_message(text=account.welcome_answer_2_option_1))
assert bot.bot.sendMessage.call_args[0][1] == 'story1'
bot.bot.reset_mock()
bot.handle_message(self.get_telegram_message(text='next'))
assert bot.bot.sendMessage.call_args[0][1] == account.unknown_answer_message
bot.bot.reset_mock()
bot.handle_message(self.get_telegram_message(text='next1'))
assert bot.bot.sendMessage.call_args[0][1] == 'story2'
bot.bot.reset_mock()
bot.handle_message(self.get_telegram_message(text='next'))
assert bot.bot.sendMessage.call_args[0][1] == account.unknown_answer_message
bot.bot.reset_mock()
bot.handle_message(self.get_telegram_message(text='next2'))
assert bot.bot.sendMessage.call_args[0][1] == 'story3'
bot.bot.reset_mock()
bot.handle_message(self.get_telegram_message(text='next'))
assert bot.bot.sendMessage.call_args[0][1] == account.unknown_answer_message
bot.bot.reset_mock()
bot.handle_message(self.get_telegram_message(text='next3'))
assert bot.bot.sendMessage.call_args[0][1] == account.up_to_date_message
self.itemy.pop(1)
if len(self.itemx)> 6:
ret = self.patterndb.check(self.itemy, self.itemx)
if ret:
print ret
self.telecobj.sendmsg(text = "New pattern found in BTC ")
def connect_handler(self, data):
channel = self.pusher.subscribe('live_trades')
channel.bind('trade', self.callback)
if __name__ == "__main__":
#Message bot handler
bot = TelegramBot(token = "", dbname = "btc_telegram.db")
bot.start()
# Add a logging handler so we can see the raw communication data
import logging
root = logging.getLogger()
root.setLevel(logging.INFO)
ch = logging.StreamHandler(sys.stdout)
root.addHandler(ch)
pu = Pusher()
try:
while True:
time.sleep(1)
except:
def test_bot_conversation2(self, client):
(_, account) = self.create_user_account()
bulletin = self.create_bulletin(account, is_published=True)
story1 = self.create_story(bulletin, lead='story1')
self.create_fragment_answer(story1, action='c', text='continue')
self.create_fragment_answer(story1, action='n', text='next')
poll = self.create_fragment_poll(story1, text='poll')
self.create_fragment_paragraph(story1, text='paragraph1')
story2 = self.create_story(bulletin, lead='story2')
self.create_fragment_answer(story2, action='c', text='continue')
self.create_fragment_answer(story2, action='n', text='next')
self.create_fragment_paragraph(story2, text='paragraph2')
self.create_fragment_answer(story2, action='c', text='continue')
self.create_fragment_answer(story2, action='n', text='next')
bot = TelegramBot(account.id)
bot.bot = Mock()
self.create_chat_user(account)
bot.handle_message(self.get_telegram_message(text=account.welcome_answer_2_option_1))
assert bot.bot.sendMessage.call_args[0][1] == 'story1'
bot.bot.reset_mock()
bot.handle_message(self.get_telegram_message(text='continue'))
assert bot.bot.sendMessage.call_args[0][1] == 'poll'
answer1_poll = PollQuestions.objects.get(fragment=poll, text='answer1')
data = str(poll.id) + ',' + str(answer1_poll.id)
bot.bot.reset_mock()
bot.handle_callback_query(self.get_telegram_callback_query(data=data))
assert bot.bot.sendMessage.call_args_list[0][0][1] == 'paragraph1'
assert bot.bot.sendMessage.call_args_list[1][0][1] == 'story2'
bot.bot.reset_mock()
bot.handle_message(self.get_telegram_message(text='continue'))
assert bot.bot.sendMessage.call_args[0][1] == 'paragraph2'
class Autocopter(object):
"""
This class consists of logic for states (methods 'do_*' & dependencies) and method 'new_command'
"""
def __init__(self, _connection_string, token, chat_id, proxy, debug):
self._vehicle = None
self.connection_string = _connection_string
# Params of info-messages
self.bot = TelegramBot(token, chat_id, proxy, debug, self)
self.debug_message = self.bot.debug_message
# Params of auto-missions
self._mission_created = False
self._goto_location = None
self._work_alt = 20
self._need_hover = True
# Params of states machine
self.current_state = States.INIT
self.stop_state = False
self.next_state = States.IDLE
def _create_mission(self, lat, lon):
self._mission_created = False
# exeption https://pythonworld.ru/tipy-dannyx-v-python/isklyucheniya-v-python-konstrukciya-try-except-dlya-obrabotki-isklyuchenij.html
try:
self._goto_location = LocationGlobalRelative(
lat, lon, self._work_alt)
# print 'Create a new mission (for current location)'
self._adds_square_mission(
self._vehicle.location.global_relative_frame, 6)
self._mission_created = True
return "Миссия успешно построена!"
except Exception as ex:
self._mission_created = False
return "Произошла ошибка при построении миссии\n" + ex.message + "\n" + traceback.format_exc(
)
finally:
pass
def new_state(self, new_state):
self.stop_state = True
self.next_state = new_state
@property
def get_location():
return self._vehicle.location.global_frame.lat, self._vehicle.location.global_frame.lon
@property
def _status_of_connect(self):
if self._vehicle != None:
return True
else:
raise Exception("Не удалось подключиться к APM")
def disconnect(self):
'''
Close vehicle object before exiting script
:return:
'''
if self._vehicle != None:
self._vehicle.close()
print "Successful disconnect APM"
@property
def get_status(self):
buf = "\nGPS: %s" % self._vehicle.gps_0 + \
"\nBattery: %s" % self._vehicle.battery + \
"\nLast Heartbeat: %s" % self._vehicle.last_heartbeat + \
"\nIs Armable?: %s" % self._is_armable + \
"\nSystem status: %s" % self._vehicle.system_status.state + \
"\nMode: %s" % self._vehicle.mode.name + \
"\nGlobal Location: %s" % self._vehicle.location.global_frame + \
"\nGlobal Relative Location: %s" % self._vehicle.location.global_relative_frame + \
"\nLocal Location: %s" % self._vehicle.location.local_frame + \
"\nAttitude: %s" % self._vehicle.attitude + \
"\nHeading: %s" % self._vehicle.heading + \
"\nGroundspeed: %s" % self._vehicle.groundspeed + \
"\nAirspeed: %s" % self._vehicle.airspeed
return buf
@property
def _distance_to_current_waypoint(self):
"""
Gets distance in metres to the current waypoint.
It returns None for the first waypoint (Home location).
"""
nextwaypoint = self._vehicle.commands.next
if nextwaypoint == 0:
return None
missionitem = self._vehicle.commands[nextwaypoint -
1] # commands are zero indexed
lat = missionitem.x
lon = missionitem.y
alt = missionitem.z
targetWaypointLocation = LocationGlobalRelative(lat, lon, alt)
distancetopoint = get_distance_metres(
self._vehicle.location.global_frame, targetWaypointLocation)
return distancetopoint
def download_mission(self):
"""
Download the current mission from the vehicle.
"""
cmds = self._vehicle.commands
cmds.download()
cmds.wait_ready() # wait until download is complete.
def _adds_square_mission(self, aLocation, aSize):
"""
Adds a takeoff command and four waypoint commands to the current mission.
The waypoints are positioned to form a square of side length 2*aSize around the specified LocationGlobal (aLocation).
The function assumes vehicle.commands matches the vehicle mission state
(you must have called download at least once in the session and after clearing the mission)
"""
cmds = self._vehicle.commands
print "Clear any existing commands"
cmds.clear()
print "Define/add new commands."
# Add new commands. The meaning/order of the parameters is documented in the Command class.
# Add MAV_CMD_NAV_TAKEOFF command. This is ignored if the vehicle is already in the air.
cmds.add(
Command(0, 0, 0, mavutil.mavlink.MAV_FRAME_GLOBAL_RELATIVE_ALT,
mavutil.mavlink.MAV_CMD_NAV_TAKEOFF, 0, 0, 0, 0, 0, 0, 0,
0, 10))
# Define the four MAV_CMD_NAV_WAYPOINT locations and add the commands
point1 = get_location_metres(aLocation, aSize, -aSize)
point2 = get_location_metres(aLocation, aSize, aSize)
point3 = get_location_metres(aLocation, -aSize, aSize)
point4 = get_location_metres(aLocation, -aSize, -aSize)
cmds.add(
Command(0, 0, 0, mavutil.mavlink.MAV_FRAME_GLOBAL_RELATIVE_ALT,
mavutil.mavlink.MAV_CMD_NAV_WAYPOINT, 0, 0, 0, 0, 0, 0,
point1.lat, point1.lon, 11))
cmds.add(
Command(0, 0, 0, mavutil.mavlink.MAV_FRAME_GLOBAL_RELATIVE_ALT,
mavutil.mavlink.MAV_CMD_NAV_WAYPOINT, 0, 0, 0, 0, 0, 0,
point2.lat, point2.lon, 12))
cmds.add(
Command(0, 0, 0, mavutil.mavlink.MAV_FRAME_GLOBAL_RELATIVE_ALT,
mavutil.mavlink.MAV_CMD_NAV_WAYPOINT, 0, 0, 0, 0, 0, 0,
point3.lat, point3.lon, 13))
cmds.add(
Command(0, 0, 0, mavutil.mavlink.MAV_FRAME_GLOBAL_RELATIVE_ALT,
mavutil.mavlink.MAV_CMD_NAV_WAYPOINT, 0, 0, 0, 0, 0, 0,
point4.lat, point4.lon, 14))
# add dummy waypoint "5" at point 4 (lets us know when have reached destination)
cmds.add(
Command(0, 0, 0, mavutil.mavlink.MAV_FRAME_GLOBAL_RELATIVE_ALT,
mavutil.mavlink.MAV_CMD_NAV_WAYPOINT, 0, 0, 0, 0, 0, 0,
point4.lat, point4.lon, 14))
print "Upload new commands to vehicle"
cmds.upload()
@property
def onLand(self):
return self._vehicle.system_status.state == 'STANDBY'
def do_INIT(self):
self.current_state = States.INIT
wait_internet()
print "Try send message..."
self.debug_message("Autocopter is online: %s" % get_ip())
self.debug_message("STATE = %s" % self.current_state)
self.bot.start_handler()
time.sleep(
1.5) # время на ответ сообщений пришедших в выключенный период
while True:
try:
self.debug_message("Connecting to APM ...")
# http://python.dronekit.io/automodule.html#dronekit.connect
# функция долгая (пишет через функцию status_printer)
self._vehicle = connect(self.connection_string,
wait_ready=True,
status_printer=self.debug_message)
if self._status_of_connect:
self.debug_message("Connect successful!")
next_state = States.IDLE
self.debug_message("Успешное завершение состояния %s" %
self.current_state +
" переключение в состояние %s" %
next_state)
self.current_state = next_state
break
except Exception as ex:
#self.debug_message("Ошибка в состоянии %s" % self.current_state + ":\n" + ex.message + "\n" + traceback.format_exc() + "\n")
self.debug_message("Connection failed!")
self.debug_message("Timeout 10s")
time.sleep(10)
def do_LAND(self):
self.current_state = States.LAND
self.debug_message('STATE = ' + self.current_state)
self.stop_state = False
self.next_state = States.IDLE
# http://ardupilot.org/copter/docs/land-mode.html
self._vehicle.mode = VehicleMode("LAND")
while not self.onLand:
if not self.stop_state:
#self.debug_message('Waiting for ' + self.current_state)
time.sleep(1)
else:
self.debug_message(
"Прерывание состояния %s" % self.current_state +
" переключение в состояние %s" % self.next_state)
return self.next_state
self.debug_message("Успешное завершение состояния %s" %
self.current_state +
" переключение в состояние %s" % self.next_state)
return self.next_state
def do_IDLE(self):
self.current_state = States.IDLE
self.debug_message("STATE = %s" % self.current_state)
self.stop_state = False
self.next_state = States.IDLE
# http://ardupilot.org/copter/docs/ac2_guidedmode.html
# http://python.dronekit.io/examples/guided-set-speed-yaw-demo.html
self._vehicle.armed = False
self._vehicle.mode = VehicleMode("GUIDED")
while True:
if not self.stop_state:
#self.debug_message('I\'m in '+self.current_state)
time.sleep(1)
else:
self.debug_message(
"Прерывание состояния %s" % self.current_state +
" переключение в состояние %s" % self.next_state)
return self.next_state
self.debug_message("Успешное завершение состояния %s" %
self.current_state +
" переключение в состояние %s" % self.next_state)
return self.next_state
def _simple_goto_wrapper(self, lat, lon, alt=20, groundspeed=7.5):
# Задаем координаты нужной точки
a_location = LocationGlobalRelative(lat, lon, alt)
# полетели
self._vehicle.simple_goto(a_location)
# Путевая скорость, м/с
self._vehicle.groundspeed = groundspeed
def do_HOVER(self):
self.current_state = States.HOVER
self.debug_message("STATE = %s" % self.current_state)
self.stop_state = False
self.next_state = States.HOVER
self._vehicle.mode = VehicleMode("GUIDED")
if self._need_hover:
self._simple_goto_wrapper(
self._vehicle.location.global_relative_frame.lat,
self._vehicle.location.global_relative_frame.lon,
self._vehicle.location.global_relative_frame.alt)
self._need_hover = True #сброс
while True:
if not self.stop_state:
#self.debug_message('I\'m in '+self.current_state)
time.sleep(1)
else:
self.debug_message(
"Прерывание состояния %s" % self.current_state +
" переключение в состояние %s" % self.next_state)
return self.next_state
self.debug_message("Успешное завершение состояния %s" %
self.current_state +
" переключение в состояние %s" % self.next_state)
return self.next_state
def do_RTL(self):
self.current_state = States.RTL
self.debug_message("STATE = %s" % self.current_state)
self.stop_state = False
self.next_state = States.IDLE
# http://ardupilot.org/copter/docs/rtl-mode.html
self._vehicle.mode = VehicleMode("RTL")
while not self.onLand:
if not self.stop_state:
#self.debug_message('Waiting for ' + self.current_state)
time.sleep(1)
else:
self.debug_message(
"Прерывание состояния %s" % self.current_state +
" переключение в состояние %s" % self.next_state)
return self.next_state
self.debug_message("Успешное завершение состояния %s" %
self.current_state +
" переключение в состояние %s" % self.next_state)
return self.next_state
@property
def _is_armable(self):
"""
Returns `True` if the vehicle is ready to arm, false otherwise (``Boolean``).
This attribute wraps a number of pre-arm checks, ensuring that the vehicle has booted,
has a good GPS fix, and that the EKF pre-arm is complete.
"""
# check that mode is not INITIALSING
# check that we have a GPS fix
# check that EKF pre-arm is complete
return self._vehicle.mode != 'INITIALISING' and self._vehicle.gps_0.fix_type > 1 # and self.vehicle._ekf_predposhorizabs #отключена проверка ekf
def do_TAKEOFF(self):
aTargetAltitude = self._work_alt
self.current_state = States.TAKEOFF
self.debug_message("STATE = %s" % self.current_state)
self.stop_state = False
self.next_state = States.GOTO
"""
Arms vehicle and fly to aTargetAltitude.
"""
self.debug_message("Basic pre-arm checks")
# Don't let the user try to arm until autopilot is ready
self.debug_message("Waiting for vehicle to initialise...")
while not self._is_armable: #проверка не дронкита, а собственная
if not self.stop_state:
#self.debug_message('Waiting for ' + self.current_state)
#self.debug_message('Waiting for vehicle to initialise...')
time.sleep(1)
else:
self.debug_message(
"Прерывание состояния %s" % self.current_state +
" переключение в состояние %s" % self.next_state)
self.debug_message("Stopping takeoff on pre-arm!")
return self.next_state
# Copter should arm in GUIDED mode
self._vehicle.mode = VehicleMode("GUIDED")
self.debug_message("Arming motors")
self._vehicle.armed = True
while not self._vehicle.armed:
if not self.stop_state:
#self.debug_message('Waiting for ' + self.current_state)
#self.debug_message('Waiting for arming...')
time.sleep(1)
else:
self.debug_message(
"Прерывание состояния %s" % self.current_state +
" переключение в состояние %s" % self.next_state)
self.debug_message("Stopping takeoff on arm!")
return self.next_state
self.debug_message("Taking off!")
self._vehicle.simple_takeoff(
aTargetAltitude) # Take off to target altitude
# Wait until the vehicle reaches a safe height before processing the goto (otherwise the command
# after Vehicle.simple_takeoff will execute immediately).
while self._vehicle.location.global_relative_frame.alt < aTargetAltitude * 0.95: # Trigger just below target alt.
if not self.stop_state:
#self.debug_message('Waiting for ' + self.current_state)
self.debug_message(
"Altitude: %s" %
self._vehicle.location.global_relative_frame.alt)
time.sleep(1)
else:
self.debug_message(
"Прерывание состояния %s" % self.current_state +
" переключение в состояние %s" % self.next_state)
self.debug_message("Stopping takeoff on fly!")
return self.next_state
self.debug_message("Успешное завершение состояния %s" %
self.current_state +
" переключение в состояние %s" % self.next_state)
self._need_hover = False
return self.next_state
def _is_arrived(self, lat, lon, alt, precision=0.3):
# функция взята из https://habrahabr.ru/post/281591/
# текущая позиция
veh_loc = self._vehicle.location.global_relative_frame
# получаем данные в метрах
diff_lat_m = (lat - veh_loc.lat) * 1.113195e5
diff_lon_m = (lon - veh_loc.lon) * 1.113195e5
diff_alt_m = alt - veh_loc.alt
# отклонение
dist_xyz = math.sqrt(diff_lat_m**2 + diff_lon_m**2 + diff_alt_m**2)
if dist_xyz < precision:
#print "Прибыли на место"
return True
else:
#print "Еще не долетели"
return False
def do_GOTO(self):
self.next_state = States.HOVER # должен быть только HOVER
if self._mission_created:
self.current_state = States.GOTO
self.debug_message("STATE = %s" % self.current_state)
self.stop_state = False
self.next_state = States.HOVER
self._vehicle.mode = VehicleMode("GUIDED")
self._simple_goto_wrapper(self._goto_location.lat,
self._goto_location.lon,
self._goto_location.alt)
while self._is_arrived(self._goto_location.lat,
self._goto_location.lon,
self._goto_location.alt):
if not self.stop_state:
#self.debug_message('I\'m in '+self.current_state)
self.debug_message("До точки назначения: " +
get_distance_metres(
self._goto_location, self._vehicle.
location.global_relative_frame) +
"м")
time.sleep(1)
else:
self.debug_message(
"Прерывание состояния %s" % self.current_state +
" переключение в состояние %s" % self.next_state)
return self.next_state
self.debug_message(
"Успешное завершение состояния %s" % self.current_state +
" переключение в состояние %s" % self.next_state)
self._need_hover = False
return self.next_state
else:
self.debug_message("Ошибка: Создайте миссию заранее! Сейчас %s" %
self.current_state +
" переключение в состояние %s" %
self.next_state)
return self.next_state
def do_AUTO(self):
self.next_state = self.current_state # должен быть только HOVER
if self._mission_created:
self.current_state = States.AUTO
self.debug_message("STATE = %s" % self.current_state)
self.stop_state = False
self.next_state = States.HOVER
self.debug_message("Starting mission")
# Reset mission set to first (0) waypoint
self._vehicle.commands.next = 0
# Set mode to AUTO to start mission
# http://ardupilot.org/copter/docs/auto-mode.html
self._vehicle.mode = VehicleMode("AUTO")
# Monitor mission.
# Demonstrates getting and setting the command number
# Uses _distance_to_current_waypoint(), a convenience function for finding the
# distance to the next waypoint.
while True:
if not self.stop_state:
nextwaypoint = self._vehicle.commands.next
self.debug_message(
"Distance to waypoint (%s): %sм" %
(nextwaypoint, self._distance_to_current_waypoint))
time.sleep(1)
else:
self.debug_message(
"Прерывание состояния %s" % self.current_state +
" переключение в состояние %s" % self.next_state)
return self.next_state
self.debug_message(
"Успешное завершение состояния %s" % self.current_state +
" переключение в состояние %s" % self.next_state)
# может и не нужна стабилизация но на всякий (вдруг failsafe будет)
# self._need_hover = False
return self.next_state
else:
self.debug_message("Ошибка: Создайте миссию заранее! Сейчас %s" %
self.current_state +
" переключение в состояние %s" %
self.next_state)
return self.next_state
def test_bot_answers_continue(self, client):
(_, account) = self.create_user_account()
story = self.create_story(self.create_bulletin(account, is_published=True))
self.create_fragment_answer(story, action='c', text='continue')
self.create_fragment_answer(story, action='n', text='next')
self.create_fragment_paragraph(story, text='chapter1')
self.create_fragment_answer(story, action='c', text='continue2')
self.create_fragment_answer(story, action='n', text='next2')
self.create_fragment_paragraph(story, text='chapter2')
bot = TelegramBot(account.id)
bot.bot = Mock()
self.create_chat_user(account)
bot.handle_message(self.get_telegram_message(text=account.welcome_answer_2_option_1))
assert bot.bot.sendMessage.call_args[0][1] == 'lead1'
bot.bot.reset_mock()
bot.handle_message(self.get_telegram_message(text='continue'))
call = bot.bot.sendMessage.call_args_list[0]
assert call[0][1] == 'chapter1'
assert call[1]['reply_markup']['keyboard'] == [['continue2'], ['next2']]
bot.bot.reset_mock()
bot.handle_message(self.get_telegram_message(text='continue'))
call = bot.bot.sendMessage.call_args_list[0]
assert call[0][1] == account.unknown_answer_message
assert call[1]['reply_markup']['keyboard'] == [['continue2'], ['next2']]
bot.bot.reset_mock()
bot.handle_message(self.get_telegram_message(text='next'))
call = bot.bot.sendMessage.call_args_list[0]
assert call[0][1] == account.unknown_answer_message
assert call[1]['reply_markup']['keyboard'] == [['continue2'], ['next2']]
bot.bot.reset_mock()
bot.handle_message(self.get_telegram_message(text='continue2'))
assert bot.bot.sendMessage.call_args_list[0][0][1] == 'chapter2'
assert bot.bot.sendMessage.call_args_list[1][0][1] == account.up_to_date_message
class Bot(irc.bot.SingleServerIRCBot):
def __init__(self, token, channel, nickname, server, port=6667):
irc.bot.SingleServerIRCBot.__init__(self, [(server, port)], nickname,
nickname)
self.channel = channel
self.telegram = TelegramBot(token, self)
def on_nicknameinuse(self, c, e):
logger.info('nickname already in use, add an underscore')
c.nick(c.get_nickname() + "_")
def on_welcome(self, c, e):
# server welcome
logger.info('joining channel: {0:s}'.format(self.channel))
c.join(self.channel)
def on_privmsg(self, c, e):
logger.debug('on private message, event: ' + str(e))
logger.info('private msg: {0:s}'.format(e.arguments[0]))
self.telegram.notify_owner(e.arguments[0])
self.do_command(e, e.arguments[0])
def on_pubmsg(self, c, e):
logger.debug('on public message, event: ' + str(e))
nick = e.source.split('!')[0]
msg = e.arguments[0]
current_time = datetime.datetime.now().strftime("%d-%m-%Y %H:%M:%S")
logger.info('[{0:s}] <{1:s}> {2:s}'.format(current_time, nick, msg))
self.telegram.send_msg(nick, msg)
def on_kick(self, c, e):
# arg[0] was kicked by e.source (arg[1])
logger.debug('on kick, event: ' + str(e))
kicked_user = e.arguments[0]
kicked_by = self.get_nick(e.source)
reason = e.arguments[1]
msg = '{0:s} was kicked by {1:s} ({2:s})'.format(
kicked_user, kicked_by, reason)
logger.info('* ' + msg)
self.telegram.send_notification(msg)
def on_join(self, c, e):
# e.source has joined e.target
logger.debug('on join, event: ' + str(e))
joined_user = self.get_nick(e.source)
joined_user_id = self.get_id(e.source)
channel = e.target.replace('#', '')
msg = '{0:s} ({1:s}) has joined {2:s}'.format(joined_user,
joined_user_id, channel)
logger.info('* ' + msg)
# avoid sending telegram users the joined msg when the bot joins the irc channel
if joined_user != c.get_nickname():
self.telegram.send_notification(msg)
def on_quit(self, c, e):
# e.source Quit (arg[0])
logger.debug('on quit, event: ' + str(e))
leaving_user = self.get_nick(e.source)
leaving_user_id = self.get_id(e.source)
quit_msg = e.arguments[0]
msg = '{0:s} ({1:s}) Quit ({2:s})'.format(leaving_user,
leaving_user_id, quit_msg)
logger.info('* ' + msg)
self.telegram.send_notification(msg)
def on_part(self, c, e):
# e.source has left e.target
logger.debug('on part, event: ' + str(e))
leaving_user = self.get_nick(e.source)
leaving_user_id = self.get_id(e.source)
channel = e.target.replace('#', '')
msg = '{0:s} ({1:s}) has left {2:s}'.format(leaving_user,
leaving_user_id, channel)
logger.info('* ' + msg)
self.telegram.send_notification(msg)
def on_topic(self, c, e):
# e.source sets topic arg[0]
logger.debug('on topic, event: ' + str(e))
topic_changer = self.get_nick(e.source)
new_topic = e.arguments[0]
msg = '{0:s} changes topic to \'{1:s}\''.format(
topic_changer, new_topic)
logger.info('* ' + msg)
self.telegram.send_notification(msg)
def on_nick(self, c, e):
# e.source is now known as e.target
logger.debug('on nick, event: ' + str(e))
nick_changer = self.get_nick(e.source)
new_nick = e.target
msg = '{0:s} is now known as {1:s}'.format(nick_changer, new_nick)
logger.info('* ' + msg)
self.telegram.send_notification(msg)
def on_mode(self, c, e):
# e.source sets mode arg[0] arg[1]
logger.debug('on mode, event: ' + str(e))
mode_changer = self.get_nick(e.source)
new_mode = ' '.join(e.arguments)
msg = '{0:s} sets mode: {1:s}'.format(mode_changer, new_mode)
logger.info('* ' + msg)
self.telegram.send_notification(msg)
def on_action(self, c, e):
# no use case for now
logger.debug('on action, event: ' + str(e))
pass
def do_command(self, e, cmd):
nick = e.source.nick
c = self.connection
if cmd == "disconnect":
self.disconnect()
elif cmd == "die":
self.die()
@staticmethod
def get_nick(full_id):
return full_id.split('!')[0]
@staticmethod
def get_id(full_id):
return full_id.split('!')[1]
def get_users(self):
logger.debug('getting channel users')
users = {}
channel_obj = self.channels[self.channel]
users['users'] = sorted(
set(channel_obj.users()) -
set(list(channel_obj.opers()) + list(channel_obj.voiced())),
key=self.user_sort_key)
users['opers'] = sorted(channel_obj.opers(), key=self.user_sort_key)
users['voiced'] = sorted(set(channel_obj.voiced()) -
set(channel_obj.opers()),
key=self.user_sort_key)
return users
def user_sort_key(self, user):
# TODO fix name ordering
return ''.join(c for c in user if c not in '[]{}()<>')
from telegrambot import TelegramBot bot = TelegramBot() bot.start()
from settings import EnvSettings
from database import Database
from telegrambot import TelegramBot
import logging
if __name__ == '__main__':
try:
settings = EnvSettings()
db = Database(
settings.DB_HOST,
settings.DB_NAME,
settings.DB_PORT,
settings.DB_USER,
settings.DB_PASS
)
bot = TelegramBot(settings.TOKEN,
settings.APP_NAME,
settings.PORT,
db,
settings.IS_PROD)
except Exception as e:
logging.exception()
logging_kwargs = {
'format': '%(asctime)s - %(name)s - %(levelname)s - %(message)s',
'level': logging.INFO
}
logging.basicConfig(**logging_kwargs)
def test_bot_last_message_increment(self, client):
(_, account) = self.create_user_account()
bulletin = self.create_bulletin(account, is_published=True)
story1 = self.create_story(bulletin)
self.create_fragment_answer(story1, action='n', text='next')
self.create_fragment_answer(story1, action='c', text='continue')
self.create_fragment_paragraph(story1)
self.create_fragment_answer(story1, action='n', text='next')
self.create_fragment_answer(story1, action='c', text='continue')
self.create_fragment_paragraph(story1)
story2 = self.create_story(bulletin)
self.create_fragment_answer(story2, action='n', text='next')
self.create_fragment_answer(story2, action='c', text='continue')
chat_user = self.create_chat_user(account)
last_message = chat_user.last_message
bot = TelegramBot(account.id)
bot.bot = Mock()
def __check():
nonlocal last_message
chat_user.reload()
assert chat_user.last_message > last_message
last_message = chat_user.last_message
bot.handle_message(self.get_telegram_message(text=account.welcome_answer_2_option_1))
__check()
bot.handle_message(self.get_telegram_message(text='continue'))
__check()
bot.handle_message(self.get_telegram_message(text='next'))
__check()
bot.handle_message(self.get_telegram_message(text='continue'))
__check()