zulip/zerver/tests/test_service_bot_system.py

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from typing import Any, Mapping, Union
from unittest import mock
import orjson
from django.conf import settings
from django.test import override_settings
from zerver.lib.actions import do_create_user, get_service_bot_events
from zerver.lib.bot_config import ConfigError, load_bot_config_template, set_bot_config
from zerver.lib.bot_lib import EmbeddedBotEmptyRecipientsList, EmbeddedBotHandler, StateHandler
from zerver.lib.bot_storage import StateError
from zerver.lib.test_classes import ZulipTestCase
from zerver.lib.validator import check_string
from zerver.models import Recipient, UserProfile, get_realm
BOT_TYPE_TO_QUEUE_NAME = {
UserProfile.OUTGOING_WEBHOOK_BOT: 'outgoing_webhooks',
UserProfile.EMBEDDED_BOT: 'embedded_bots',
}
class TestServiceBotBasics(ZulipTestCase):
def _get_outgoing_bot(self) -> UserProfile:
outgoing_bot = do_create_user(
email="bar-bot@zulip.com",
password="test",
realm=get_realm("zulip"),
full_name="BarBot",
bot_type=UserProfile.OUTGOING_WEBHOOK_BOT,
bot_owner=self.example_user('cordelia'),
)
return outgoing_bot
def test_service_events_for_pms(self) -> None:
sender = self.example_user('hamlet')
assert(not sender.is_bot)
outgoing_bot = self._get_outgoing_bot()
assert outgoing_bot.bot_type is not None
event_dict = get_service_bot_events(
sender=sender,
service_bot_tuples=[
(outgoing_bot.id, outgoing_bot.bot_type),
],
active_user_ids={outgoing_bot.id},
mentioned_user_ids=set(),
recipient_type=Recipient.PERSONAL,
)
expected = dict(
outgoing_webhooks=[
dict(trigger='private_message', user_profile_id=outgoing_bot.id),
],
)
self.assertEqual(event_dict, expected)
def test_spurious_mentions(self) -> None:
sender = self.example_user('hamlet')
assert(not sender.is_bot)
outgoing_bot = self._get_outgoing_bot()
assert outgoing_bot.bot_type is not None
# If outgoing_bot is not in mentioned_user_ids,
# we will skip over it. This tests an anomaly
# of the code that our query for bots can include
# bots that may not actually be mentioned, and it's
# easiest to just filter them in get_service_bot_events.
event_dict = get_service_bot_events(
sender=sender,
service_bot_tuples=[
(outgoing_bot.id, outgoing_bot.bot_type),
],
active_user_ids={outgoing_bot.id},
mentioned_user_ids=set(),
recipient_type=Recipient.STREAM,
)
self.assertEqual(len(event_dict), 0)
def test_service_events_for_stream_mentions(self) -> None:
sender = self.example_user('hamlet')
assert(not sender.is_bot)
outgoing_bot = self._get_outgoing_bot()
assert outgoing_bot.bot_type is not None
cordelia = self.example_user('cordelia')
red_herring_bot = self.create_test_bot(
short_name='whatever',
user_profile=cordelia,
)
event_dict = get_service_bot_events(
sender=sender,
service_bot_tuples=[
(outgoing_bot.id, outgoing_bot.bot_type),
(red_herring_bot.id, UserProfile.OUTGOING_WEBHOOK_BOT),
],
active_user_ids=set(),
mentioned_user_ids={outgoing_bot.id},
recipient_type=Recipient.STREAM,
)
expected = dict(
outgoing_webhooks=[
dict(trigger='mention', user_profile_id=outgoing_bot.id),
],
)
self.assertEqual(event_dict, expected)
def test_service_events_for_private_mentions(self) -> None:
"""Service bots should not get access to mentions if they aren't a
direct recipient."""
sender = self.example_user('hamlet')
assert(not sender.is_bot)
outgoing_bot = self._get_outgoing_bot()
assert outgoing_bot.bot_type is not None
event_dict = get_service_bot_events(
sender=sender,
service_bot_tuples=[
(outgoing_bot.id, outgoing_bot.bot_type),
],
active_user_ids=set(),
mentioned_user_ids={outgoing_bot.id},
recipient_type=Recipient.PERSONAL,
)
self.assertEqual(len(event_dict), 0)
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def test_service_events_with_unexpected_bot_type(self) -> None:
hamlet = self.example_user('hamlet')
cordelia = self.example_user('cordelia')
bot = self.create_test_bot(
short_name='whatever',
user_profile=cordelia,
)
wrong_bot_type = UserProfile.INCOMING_WEBHOOK_BOT
bot.bot_type = wrong_bot_type
bot.save()
with mock.patch('logging.error') as log_mock:
event_dict = get_service_bot_events(
sender=hamlet,
service_bot_tuples=[
(bot.id, wrong_bot_type),
],
active_user_ids=set(),
mentioned_user_ids={bot.id},
recipient_type=Recipient.PERSONAL,
)
self.assertEqual(len(event_dict), 0)
arg = log_mock.call_args_list[0][0][0]
self.assertIn('Unexpected bot_type', arg)
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class TestServiceBotStateHandler(ZulipTestCase):
def setUp(self) -> None:
super().setUp()
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self.user_profile = self.example_user("othello")
self.bot_profile = do_create_user(email="embedded-bot-1@zulip.com",
password="test",
realm=get_realm("zulip"),
full_name="EmbeddedBo1",
bot_type=UserProfile.EMBEDDED_BOT,
bot_owner=self.user_profile)
self.second_bot_profile = do_create_user(email="embedded-bot-2@zulip.com",
password="test",
realm=get_realm("zulip"),
full_name="EmbeddedBot2",
bot_type=UserProfile.EMBEDDED_BOT,
bot_owner=self.user_profile)
def test_basic_storage_and_retrieval(self) -> None:
storage = StateHandler(self.bot_profile)
storage.put('some key', 'some value')
storage.put('some other key', 'some other value')
self.assertEqual(storage.get('some key'), 'some value')
self.assertEqual(storage.get('some other key'), 'some other value')
self.assertTrue(storage.contains('some key'))
self.assertFalse(storage.contains('nonexistent key'))
self.assertRaisesMessage(StateError,
"Key does not exist.",
lambda: storage.get('nonexistent key'))
storage.put('some key', 'a new value')
self.assertEqual(storage.get('some key'), 'a new value')
second_storage = StateHandler(self.second_bot_profile)
self.assertRaises(StateError, lambda: second_storage.get('some key'))
second_storage.put('some key', 'yet another value')
self.assertEqual(storage.get('some key'), 'a new value')
self.assertEqual(second_storage.get('some key'), 'yet another value')
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def test_marshaling(self) -> None:
storage = StateHandler(self.bot_profile)
serializable_obj = {'foo': 'bar', 'baz': [42, 'cux']}
storage.put('some key', serializable_obj)
self.assertEqual(storage.get('some key'), serializable_obj)
# Reduce maximal storage size for faster test string construction.
@override_settings(USER_STATE_SIZE_LIMIT=100)
def test_storage_limit(self) -> None:
storage = StateHandler(self.bot_profile)
# Disable marshaling for storing a string whose size is
# equivalent to the size of the stored object.
storage.marshal = lambda obj: check_string("obj", obj)
storage.demarshal = lambda obj: obj
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key = 'capacity-filling entry'
storage.put(key, 'x' * (settings.USER_STATE_SIZE_LIMIT - len(key)))
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with self.assertRaisesMessage(StateError, "Request exceeds storage limit by 32 characters. "
"The limit is 100 characters."):
storage.put('too much data', 'a few bits too long')
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second_storage = StateHandler(self.second_bot_profile)
second_storage.put('another big entry', 'x' * (settings.USER_STATE_SIZE_LIMIT - 40))
second_storage.put('normal entry', 'abcd')
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def test_entry_removal(self) -> None:
storage = StateHandler(self.bot_profile)
storage.put('some key', 'some value')
storage.put('another key', 'some value')
self.assertTrue(storage.contains('some key'))
self.assertTrue(storage.contains('another key'))
storage.remove('some key')
self.assertFalse(storage.contains('some key'))
self.assertTrue(storage.contains('another key'))
self.assertRaises(StateError, lambda: storage.remove('some key'))
def test_internal_endpoint(self) -> None:
self.login_user(self.user_profile)
# Store some data.
initial_dict = {'key 1': 'value 1', 'key 2': 'value 2', 'key 3': 'value 3'}
params = {
'storage': orjson.dumps(initial_dict).decode(),
}
result = self.client_put('/json/bot_storage', params)
self.assert_json_success(result)
# Assert the stored data for some keys.
params = {
'keys': orjson.dumps(['key 1', 'key 3']).decode(),
}
result = self.client_get('/json/bot_storage', params)
self.assert_json_success(result)
self.assertEqual(result.json()['storage'], {'key 3': 'value 3', 'key 1': 'value 1'})
# Assert the stored data for all keys.
result = self.client_get('/json/bot_storage')
self.assert_json_success(result)
self.assertEqual(result.json()['storage'], initial_dict)
# Store some more data; update an entry and store a new entry
dict_update = {'key 1': 'new value', 'key 4': 'value 4'}
params = {
'storage': orjson.dumps(dict_update).decode(),
}
result = self.client_put('/json/bot_storage', params)
self.assert_json_success(result)
# Assert the data was updated.
updated_dict = initial_dict.copy()
updated_dict.update(dict_update)
result = self.client_get('/json/bot_storage')
self.assert_json_success(result)
self.assertEqual(result.json()['storage'], updated_dict)
# Assert errors on invalid requests.
invalid_params = {
'keys': ["This is a list, but should be a serialized string."],
}
result = self.client_get('/json/bot_storage', invalid_params)
self.assert_json_error(result, 'Argument "keys" is not valid JSON.')
params = {
'keys': orjson.dumps(["key 1", "nonexistent key"]).decode(),
}
result = self.client_get('/json/bot_storage', params)
self.assert_json_error(result, "Key does not exist.")
params = {
'storage': orjson.dumps({'foo': [1, 2, 3]}).decode(),
}
result = self.client_put('/json/bot_storage', params)
self.assert_json_error(result, "storage contains a value that is not a string")
# Remove some entries.
keys_to_remove = ['key 1', 'key 2']
params = {
'keys': orjson.dumps(keys_to_remove).decode(),
}
result = self.client_delete('/json/bot_storage', params)
self.assert_json_success(result)
# Assert the entries were removed.
for key in keys_to_remove:
updated_dict.pop(key)
result = self.client_get('/json/bot_storage')
self.assert_json_success(result)
self.assertEqual(result.json()['storage'], updated_dict)
# Try to remove an existing and a nonexistent key.
params = {
'keys': orjson.dumps(['key 3', 'nonexistent key']).decode(),
}
result = self.client_delete('/json/bot_storage', params)
self.assert_json_error(result, "Key does not exist.")
# Assert an error has been thrown and no entries were removed.
result = self.client_get('/json/bot_storage')
self.assert_json_success(result)
self.assertEqual(result.json()['storage'], updated_dict)
# Remove the entire storage.
result = self.client_delete('/json/bot_storage')
self.assert_json_success(result)
# Assert the entire storage has been removed.
result = self.client_get('/json/bot_storage')
self.assert_json_success(result)
self.assertEqual(result.json()['storage'], {})
class TestServiceBotConfigHandler(ZulipTestCase):
def setUp(self) -> None:
super().setUp()
self.user_profile = self.example_user("othello")
self.bot_profile = self.create_test_bot('embedded', self.user_profile,
full_name='Embedded bot',
bot_type=UserProfile.EMBEDDED_BOT,
service_name='helloworld')
self.bot_handler = EmbeddedBotHandler(self.bot_profile)
def test_basic_storage_and_retrieval(self) -> None:
with self.assertRaises(ConfigError):
self.bot_handler.get_config_info('foo')
self.assertEqual(self.bot_handler.get_config_info('foo', optional=True), dict())
config_dict = {"entry 1": "value 1", "entry 2": "value 2"}
for key, value in config_dict.items():
set_bot_config(self.bot_profile, key, value)
self.assertEqual(self.bot_handler.get_config_info('foo'), config_dict)
config_update = {"entry 2": "new value", "entry 3": "value 3"}
for key, value in config_update.items():
set_bot_config(self.bot_profile, key, value)
config_dict.update(config_update)
self.assertEqual(self.bot_handler.get_config_info('foo'), config_dict)
@override_settings(BOT_CONFIG_SIZE_LIMIT=100)
def test_config_entry_limit(self) -> None:
set_bot_config(self.bot_profile, "some key", 'x' * (settings.BOT_CONFIG_SIZE_LIMIT-8))
self.assertRaisesMessage(ConfigError,
"Cannot store configuration. Request would require 101 characters. "
"The current configuration size limit is 100 characters.",
lambda: set_bot_config(self.bot_profile, "some key", 'x' * (settings.BOT_CONFIG_SIZE_LIMIT-8+1)))
set_bot_config(self.bot_profile, "some key", 'x' * (settings.BOT_CONFIG_SIZE_LIMIT-20))
set_bot_config(self.bot_profile, "another key", 'x')
self.assertRaisesMessage(ConfigError,
"Cannot store configuration. Request would require 116 characters. "
"The current configuration size limit is 100 characters.",
lambda: set_bot_config(self.bot_profile, "yet another key", 'x'))
def test_load_bot_config_template(self) -> None:
bot_config = load_bot_config_template('giphy')
self.assertTrue(isinstance(bot_config, dict))
self.assertEqual(len(bot_config), 1)
def test_load_bot_config_template_for_bot_without_config_data(self) -> None:
bot_config = load_bot_config_template('converter')
self.assertTrue(isinstance(bot_config, dict))
self.assertEqual(len(bot_config), 0)
def test_bot_send_pm_with_empty_recipients_list(self) -> None:
with self.assertRaisesRegex(EmbeddedBotEmptyRecipientsList, 'Message must have recipients!'):
self.bot_handler.send_message(message={'type': 'private', 'to': []})
class TestServiceBotEventTriggers(ZulipTestCase):
def setUp(self) -> None:
super().setUp()
self.user_profile = self.example_user("othello")
self.bot_profile = do_create_user(email="foo-bot@zulip.com",
password="test",
realm=get_realm("zulip"),
full_name="FooBot",
bot_type=UserProfile.OUTGOING_WEBHOOK_BOT,
bot_owner=self.user_profile)
self.second_bot_profile = do_create_user(email="bar-bot@zulip.com",
password="test",
realm=get_realm("zulip"),
full_name="BarBot",
bot_type=UserProfile.OUTGOING_WEBHOOK_BOT,
bot_owner=self.user_profile)
@mock.patch('zerver.lib.actions.queue_json_publish')
def test_trigger_on_stream_mention_from_user(self, mock_queue_json_publish: mock.Mock) -> None:
for bot_type, expected_queue_name in BOT_TYPE_TO_QUEUE_NAME.items():
self.bot_profile.bot_type = bot_type
self.bot_profile.save()
content = '@**FooBot** foo bar!!!'
recipient = 'Denmark'
trigger = 'mention'
message_type = Recipient._type_names[Recipient.STREAM]
def check_values_passed(
queue_name: Any,
trigger_event: Union[Mapping[Any, Any], Any],
) -> None:
self.assertEqual(queue_name, expected_queue_name)
self.assertEqual(trigger_event["message"]["content"], content)
self.assertEqual(trigger_event["message"]["display_recipient"], recipient)
self.assertEqual(trigger_event["message"]["sender_email"], self.user_profile.email)
self.assertEqual(trigger_event["message"]["type"], message_type)
self.assertEqual(trigger_event['trigger'], trigger)
self.assertEqual(trigger_event['user_profile_id'], self.bot_profile.id)
mock_queue_json_publish.side_effect = check_values_passed
self.send_stream_message(
self.user_profile,
'Denmark',
content)
self.assertTrue(mock_queue_json_publish.called)
@mock.patch('zerver.lib.actions.queue_json_publish')
def test_no_trigger_on_stream_message_without_mention(self, mock_queue_json_publish: mock.Mock) -> None:
sender = self.user_profile
self.send_stream_message(sender, "Denmark")
self.assertFalse(mock_queue_json_publish.called)
@mock.patch('zerver.lib.actions.queue_json_publish')
def test_no_trigger_on_stream_mention_from_bot(self, mock_queue_json_publish: mock.Mock) -> None:
for bot_type in BOT_TYPE_TO_QUEUE_NAME:
self.bot_profile.bot_type = bot_type
self.bot_profile.save()
self.send_stream_message(
self.second_bot_profile,
'Denmark',
'@**FooBot** foo bar!!!')
self.assertFalse(mock_queue_json_publish.called)
@mock.patch('zerver.lib.actions.queue_json_publish')
def test_trigger_on_personal_message_from_user(self, mock_queue_json_publish: mock.Mock) -> None:
for bot_type, expected_queue_name in BOT_TYPE_TO_QUEUE_NAME.items():
self.bot_profile.bot_type = bot_type
self.bot_profile.save()
sender = self.user_profile
recipient = self.bot_profile
def check_values_passed(
queue_name: Any,
trigger_event: Union[Mapping[Any, Any], Any],
) -> None:
self.assertEqual(queue_name, expected_queue_name)
self.assertEqual(trigger_event["user_profile_id"], self.bot_profile.id)
self.assertEqual(trigger_event["trigger"], "private_message")
self.assertEqual(trigger_event["message"]["sender_email"], sender.email)
display_recipients = [
trigger_event["message"]["display_recipient"][0]["email"],
trigger_event["message"]["display_recipient"][1]["email"],
]
self.assertTrue(sender.email in display_recipients)
self.assertTrue(recipient.email in display_recipients)
mock_queue_json_publish.side_effect = check_values_passed
self.send_personal_message(sender, recipient, 'test')
self.assertTrue(mock_queue_json_publish.called)
@mock.patch('zerver.lib.actions.queue_json_publish')
def test_no_trigger_on_personal_message_from_bot(self, mock_queue_json_publish: mock.Mock) -> None:
for bot_type in BOT_TYPE_TO_QUEUE_NAME:
self.bot_profile.bot_type = bot_type
self.bot_profile.save()
sender = self.second_bot_profile
recipient = self.bot_profile
self.send_personal_message(sender, recipient)
self.assertFalse(mock_queue_json_publish.called)
@mock.patch('zerver.lib.actions.queue_json_publish')
def test_trigger_on_huddle_message_from_user(self, mock_queue_json_publish: mock.Mock) -> None:
for bot_type, expected_queue_name in BOT_TYPE_TO_QUEUE_NAME.items():
self.bot_profile.bot_type = bot_type
self.bot_profile.save()
self.second_bot_profile.bot_type = bot_type
self.second_bot_profile.save()
sender = self.user_profile
recipients = [self.bot_profile, self.second_bot_profile]
profile_ids = [self.bot_profile.id, self.second_bot_profile.id]
def check_values_passed(
queue_name: Any,
trigger_event: Union[Mapping[Any, Any], Any],
) -> None:
self.assertEqual(queue_name, expected_queue_name)
self.assertIn(trigger_event["user_profile_id"], profile_ids)
profile_ids.remove(trigger_event["user_profile_id"])
self.assertEqual(trigger_event["trigger"], "private_message")
self.assertEqual(trigger_event["message"]["sender_email"], sender.email)
self.assertEqual(trigger_event["message"]["type"], 'private')
mock_queue_json_publish.side_effect = check_values_passed
self.send_huddle_message(sender, recipients, 'test')
self.assertEqual(mock_queue_json_publish.call_count, 2)
mock_queue_json_publish.reset_mock()
@mock.patch('zerver.lib.actions.queue_json_publish')
def test_no_trigger_on_huddle_message_from_bot(self, mock_queue_json_publish: mock.Mock) -> None:
for bot_type in BOT_TYPE_TO_QUEUE_NAME:
self.bot_profile.bot_type = bot_type
self.bot_profile.save()
sender = self.second_bot_profile
recipients = [self.user_profile, self.bot_profile]
self.send_huddle_message(sender, recipients)
self.assertFalse(mock_queue_json_publish.called)