def test_update(self): """ Test topics/update. """ # Create a dummy user for testing, log in, and create a topic. username = utils.random_username() password = utils.random_password() user = users.create(username=username, password=password) session = users.login(username=username, password=password) topic = topics.create(session) # Try updating the topic. updated_topic = topics.update(session, topic['id'], name="bike", active=False) self.assertEqual(updated_topic['name'], "bike") self.assertEqual(updated_topic['active'], False) # Finally, log in as a second user and make sure we can't update the # topic for the first user. username = utils.random_username() password = utils.random_password() user = users.create(username=username, password=password) session = users.login(username=username, password=password) with self.assertRaises(UnauthorizedException): updated_topic = topics.update(session, topic['id'], name="car")
def test_create(self): """ Test topics/create. """ # Create a dummy user for testing, and log in. username = utils.random_username() password = utils.random_password() user = users.create(username=username, password=password) session = users.login(username=username, password=password) # Create a new topic without a name. The topic API should allocate a # random name for this topic. topic = topics.create(session) self.assertTrue(topic['user_id'] == user['id']) self.assertTrue(topic['name'] not in [None, ""]) self.assertTrue(topic['active'] == True) self.assertTrue(topic['default'] == False) self.assertTrue(topic['num_views'] == 0) self.assertTrue(topic['num_conversations'] == 0) # Create a named topic. topic = topics.create(session, topic_name="bike") self.assertTrue(topic['name'] == "bike") # Finally, make sure we can't create a second topic with the same name. with self.assertRaises(DuplicateTopicNameException): topic = topics.create(session, topic_name="bike")
def test_update(self): """ Test users/update. """ # Create an ad hoc user, and log in as that user. user = users.create() session_token = users.login(user_id=user['id']) # Update the ad hoc user, and make sure the user is no longer ad hoc. updated_user = users.update(session_token, username=utils.random_username(), password=utils.random_password()) self.assertFalse(updated_user['ad_hoc']) # Create a random user with a username and password, and log in as that # user. username_1 = utils.random_username() password_1 = utils.random_password() user = users.create(username=username_1, password=password_1) session_token = users.login(username=username_1, password=password_1) # Now try updating this user's details. username_2 = utils.random_username() password_2 = utils.random_password() updated_user = users.update(session_token, username=username_2, password=password_2, phone_number=PHONE_NUMBER) # Finally, check that the update worked. self.assertItemsEqual(updated_user.keys(), ["id", "ad_hoc", "username", "phone_number", "verified", "created_at", "updated_at"]) self.assertEqual(updated_user['username'], username_2)
def test_profiles(self): """ Test the various api.profiles functions. """ # Create a dummy user with a random username and password. This should # also create a dummy identity within the 3taps identity API. username = utils.random_username() password = utils.random_password() user = users.create(username=username, password=password) # Attempt to log in as this user. session_token = users.login(username=username, password=password) sessionHandler.validate(session_token) # Retrieve the new user's profile, and make sure that it is empty. profile = profiles.get(session_token) self.assertItemsEqual(profile.keys(), []) # Set the user's profile, including uploading a photo. photo_file = file(os.path.join(os.path.dirname(__file__), "data", "photo.jpg"), "rb") ignore = profiles.update(session_token, photo=photo_file, name="Test User", email="*****@*****.**") # Check that the profile has been updated. profile = profiles.get(session_token) self.assertItemsEqual(profile.keys(), ["photo_url_48x48", "photo_url_72x72", "photo_url_128x128", "name", "email"]) # Finally, log out again. users.logout(session_token)
def test_increment_num_views(self): """ Test topics/increment_num_views. """ # Create a dummy user for testing, log in, and create a topic. username = utils.random_username() password = utils.random_password() user = users.create(username=username, password=password) session = users.login(username=username, password=password) topic_id = topics.create(session)['id'] topic = Topic.objects.get(id=topic_id) self.assertEqual(topic.num_views, 0) topics.increment_num_views(topic_id) topic = Topic.objects.get(id=topic_id) self.assertEqual(topic.num_views, 1)
def test_phone_number_exists(self): """ Test users/phone_number_exists. """ # Create a user with a phone number. username = utils.random_username() password = utils.random_password() formatted_number = utils.format_phone_number(PHONE_NUMBER) User.objects.filter(phone_number=formatted_number).delete() user = users.create(phone_number=PHONE_NUMBER) # Check that the phone number can be found. self.assertTrue(users.phone_number_exists(PHONE_NUMBER)) # Check that a different phone number can't be found. self.assertFalse(users.phone_number_exists(PHONE_NUMBER+"123"))
def test_list(self): """ Test topics/list. """ # Create a dummy user for testing, log in, and create a randomly-named # topic for that user. username = utils.random_username() password = utils.random_password() user = users.create(username=username, password=password) session = users.login(username=username, password=password) topic = topics.create(session) # Get the list of topics for this user. topic_list = topics.list(session) # Finally, check that we have two topics: the default one, and the one # we created. self.assertTrue(len(topic_list) == 2)
def test_get(self): """ Test users/get. """ # Create a random user, and log in. username = utils.random_username() password = utils.random_password() user = users.create(username=username, password=password) session_token = users.login(username=username, password=password) # Make sure we can get the details of the logged-in user. user_2 = users.get(session=session_token) self.assertEqual(user, user_2) # Log out, and make sure we can't get the user's details any more. users.logout(session_token) with self.assertRaises(InvalidSessionException): user_2 = users.get(session=session_token)
def test_logout(self): """ Test users/logout. """ # Create a random user, and log in. username = utils.random_username() password = utils.random_password() user = users.create(username=username, password=password) session_token = users.login(username=username, password=password) # Check that we are indeed logged in. sessionHandler.validate(session_token) # Now log out. users.logout(session_token) # Finally, check that we are indeed logged out. with self.assertRaises(InvalidSessionException): sessionHandler.validate(session_token)
def test_delete(self): """ Test users/delete. """ # Create a test user, and log in as that user. username = utils.random_username() password = utils.random_password() user = users.create(username=username, password=password) session = users.login(username=username, password=password) # Delete that user. users.delete(session) # Finally, check that the user has been deleted from our local # database. try: user = User.objects.get(username=username) except User.DoesNotExist: user = None self.assertEqual(user, None)
def test_merge(self): """ Test users/merge. """ # Create a user who will be the recipient of our test conversation. username = utils.random_username() password = utils.random_password() user_1 = users.create(username=username, password=password) session_1 = users.login(username=username, password=password) # Get the default topic for this user. topic = topics.list(session_1)[0] # Create a second, ad hoc user. user_2 = users.create() session_2 = users.login(user_id=user_2['id']) # Create a third, non-ad hoc user. This will be the user we merge the # ad hoc user into. username = utils.random_username() password = utils.random_password() user_3 = users.create(username=username, password=password) session_3 = users.login(username=username, password=password) # Send a test message from the 'user_2' to 'user_1's default topic. # This will create a conversation between these two users. messages.send(session_2, topic_id=topic['id'], message="Test Message 1") # Get the conversation we've created. try: conversation_2_to_1 = \ Conversation.objects.get(user_1=user_1['id'], user_2=user_2['id']) except Conversation.DoesNotExist: conversation_2_to_1 = \ Conversation.objects.get(user_1=user_2['id'], user_2=user_1['id']) # Get the message for this conversation. message_2_to_1 = Message.objects.get(conversation=conversation_2_to_1) # Send a test message from 'user_3' to 'user_1's default topic. This # will create a conversation between these two users. messages.send(session_3, topic_id=topic['id'], message="Test Message 2") # Get the conversation we've created. try: conversation_3_to_1 = \ Conversation.objects.get(user_1=user_1['id'], user_2=user_3['id']) except Conversation.DoesNotExist: conversation_3_to_1 = \ Conversation.objects.get(user_1=user_3['id'], user_2=user_1['id']) # Get the message for this conversation. message_3_to_1 = Message.objects.get(conversation=conversation_3_to_1) # It's now time to pretend that the ad hoc user has identified # themselves as actually being the third user. We merge 'user_2' into # 'user_3'. users.merge(session_2, session_3) # Check that the conversation between user_2 and user_1 no longer # exists. n = Conversation.objects.filter(user_1=user_1['id'], user_2=user_2['id']).count() n = n + Conversation.objects.filter(user_1=user_2['id'], user_2=user_1['id']).count() self.assertEqual(n, 0) # Check that we have exactly one conversation between user_3 and # user_1. n = Conversation.objects.filter(user_1=user_1['id'], user_2=user_3['id']).count() n = n + Conversation.objects.filter(user_1=user_3['id'], user_2=user_1['id']).count() self.assertEqual(n, 1) # Get the conversation between user_3 and user_1. Note that this might # have changed due to the merge -- we don't assume that the same # conversation record is used. try: conversation_3_to_1 = \ Conversation.objects.get(user_1=user_1['id'], user_2=user_3['id']) except Conversation.DoesNotExist: conversation_3_to_1 = \ Conversation.objects.get(user_1=user_3['id'], user_2=user_1['id']) # Finally, check that the message that was part of conversation_2_to_1 # is now part of conversation_3_to_1. updated_message = Message.objects.get(id=message_2_to_1.id) self.assertEqual(updated_message.conversation, conversation_3_to_1)
def test_create(self): """ Test users/create. """ # Test the process of creating a user without any details. user = users.create() self.assertItemsEqual(user.keys(), ["id", "ad_hoc", "verified", "created_at", "updated_at"]) self.assertTrue(user['ad_hoc']) # Test the process of creating a user with a username and password. user = users.create(username=utils.random_username(), password=utils.random_password()) self.assertItemsEqual(user.keys(), ["id", "ad_hoc", "username", "verified", "created_at", "updated_at"]) self.assertFalse(user['ad_hoc']) # Check that a default topic has been created for the new user. has_default_topic = False for topic in Topic.objects.filter(user_id=user['id']): if topic.default: has_default_topic = True break self.assertTrue(has_default_topic) # Check that we can't create a user with an invalid username. with self.assertRaises(InvalidUsernameException): user = users.create(username="******", password="******") # Check that we can't create a user with an invalid password. with self.assertRaises(InvalidPasswordException): user = users.create(username=utils.random_username(), password="******") # Check that we can't create a user with a username but no password. with self.assertRaises(InvalidParametersException): user = users.create(username=utils.random_username(), password=None) # Check that we can't create a user with a password but not username. with self.assertRaises(InvalidParametersException): user = users.create(username=None, password=utils.random_password()) # Check that we can create a user with a valid phone number, and that # the phone number is converted to E.164 standard. formatted_number = utils.format_phone_number(PHONE_NUMBER) User.objects.filter(phone_number=formatted_number).delete() user = users.create(phone_number=PHONE_NUMBER) self.assertEqual(user['phone_number'], formatted_number) # Check that we can't create a second user with the same number. with self.assertRaises(DuplicatePhoneNumberException): user = users.create(phone_number=PHONE_NUMBER) # Check that we can't create a user with an invalid phone number. with self.assertRaises(InvalidPhoneNumberException): user = users.create(phone_number="INVALID") # Check that we can't create two users with the same username. username = utils.random_username() password = utils.random_password() user1 = users.create(username=username, password=password) with self.assertRaises(DuplicateUsernameException): user2 = users.create(username=username, password=password)
def test_receive(self): """ Test messages/receive. """ # Create the two users we'll need for our test. user_1_username = utils.random_username() user_1_password = utils.random_password() user_1_id = users.create(username=user_1_username, password=user_1_password, phone_number=PHONE_NUMBER)['id'] user_2_id = users.create(phone_number=PHONE_NUMBER_2)['id'] user_1 = User.objects.get(id=user_1_id) user_2 = User.objects.get(id=user_2_id) # Verify user 1's phone number, so that replies will be forwarded to # that number. user_1.verified = True user_1.save() # Log in as user 1, and create a topic for this user. We'll need this # topic for our pseudo-conversation. session = users.login(username=user_1_username, password=user_1_password) topic_id = topics.create(session, topic_name=None)['id'] topic = Topic.objects.get(id=topic_id) # Create our pseudo-conversation. conversation = Conversation() conversation.user_1 = user_1 conversation.user_2 = user_2 conversation.topic = topic conversation.save() # Ask the twilio gateway to calculate the phone number to use for # sending SMS messages to user 2. This opens up an SMS channel for the # conversation we're pretending to have. sending_phone_number = \ twilio_gateway.calc_sending_phone_number(conversation, user_2) # Set up a signal listener to check that the reply was forwarded via # Twilio. self.twilio_messages = [] def twilio_signal_handler(sender, **kwargs): self.twilio_messages.append(kwargs.get("message")) signals.twilio_sms_sent.connect(twilio_signal_handler) # Set up a signal listener to check that the reply was forwarded via # PubNub. self.pubnub_notification_sent = False # initially. self.pubnub_message = None # ditto. def pubnub_signal_handler(sender, **kwargs): self.pubnub_notification_sent = True self.pubnub_message = kwargs.get("message") signals.pubnub_notification_sent.connect(pubnub_signal_handler) # Simulate an incoming SMS reply being received from user 2. Note that # we disable Twilio and PubNub so that the SMS reply isn't actually # sent out to the original sender. with self.settings(ENABLE_TWILIO=False, ENABLE_PUBNUB=False): response = messages.receive(To=sending_phone_number, From=user_2.phone_number, Body=REPLY_BODY) # Check that the response is what we expect. self.assertEqual(response.status_code, 201) self.assertEqual(response['Content-Type'], "text/xml") # Check that the Twilio gateway sent the message. if len(self.twilio_messages) == 0: # Whoops! The reply wasn't forwarded, which means that something # went seriously wrong. Print out the response so we can see the # XML message sent back to Twilio. print "Error response sent to Twilio:" print response.content self.fail("Reply not forwarded -> something went wrong.") # Check that the PubNub gateway sent the notification. self.assertTrue(self.pubnub_notification_sent) self.assertEqual(self.pubnub_message.body, REPLY_BODY) self.assertEqual(self.pubnub_message.conversation.topic.id, topic_id) # Finally, clean everything up. signals.twilio_sms_sent.disconnect(twilio_signal_handler) signals.pubnub_notification_sent.disconnect(pubnub_signal_handler)
def test_send(self): """ Test messages/send. """ # Create the sender and recipient users, giving the recipient a phone # number so it can receive messages. sender_username = utils.random_username() sender_password = utils.random_password() sender = users.create(username=sender_username, password=sender_password) recipient_username = utils.random_username() recipient_password = utils.random_password() recipient = users.create(username=recipient_username, password=recipient_password, phone_number=PHONE_NUMBER) # Verify the recipient's phone number. recipient_obj = User.objects.get(id=recipient['id']) recipient_obj.verified = True recipient_obj.save() # Log in as the recipient, and create a dummy topic for this user. session = users.login(username=recipient_username, password=recipient_password) topic = topics.create(session, topic_name=None) # Set up a signal listener to check that the message is being sent via # Twilio. self.twilio_messages = [] def twilio_signal_handler(sender, **kwargs): self.twilio_messages.append(kwargs.get("message")) signals.twilio_sms_sent.connect(twilio_signal_handler) # Set up a signal listener to check that the message is being sent via # PubNub. self.pubnub_notification_sent = False # initially. self.pubnub_message = None # ditto. def pubnub_signal_handler(sender, **kwargs): self.pubnub_notification_sent = True self.pubnub_message = kwargs.get("message") signals.pubnub_notification_sent.connect(pubnub_signal_handler) # Log in as the sender, and send a test message to the topic. Note # that we disable Twilio and PubNub so no actual notifications will get # sent out. session = users.login(username=sender_username, password=sender_password) with self.settings(ENABLE_TWILIO=False, ENABLE_PUBNUB=False): message = messages.send(session, topic_id=topic['id'], sender_name="SENDER", message=MESSAGE_BODY) # Check that the Twilio gateway sent the message. self.assertEqual(len(self.twilio_messages), 1) # Check that the PubNub gateway sent the notification. self.assertTrue(self.pubnub_notification_sent) self.assertEqual(self.pubnub_message.body, MESSAGE_BODY) self.assertEqual(self.pubnub_message.conversation.topic.id, topic['id']) # Finally, clean everything up. signals.twilio_sms_sent.disconnect(twilio_signal_handler) signals.pubnub_notification_sent.disconnect(pubnub_signal_handler)
def test_stop_via_sms(self): """ Test the stopping of a conversation via sms message. """ # Create two users, giving them a phone number so they can receive # messages. username_1 = utils.random_username() password_1 = utils.random_password() username_2 = utils.random_username() password_2 = utils.random_password() user_1 = users.create(username=username_1, password=password_2, phone_number=PHONE_NUMBER) user_2 = users.create(username=username_2, password=password_2, phone_number=PHONE_NUMBER_2) # Verify both phone numbers. user = User.objects.get(id=user_1['id']) user.verified = True user.save() user = User.objects.get(id=user_2['id']) user.verified = True user.save() # Log in as user 2, and create a dummy topic for this user. session = users.login(username=username_2, password=password_2) topic = topics.create(session, topic_name=None) # Log in as user 1, and send a test message to the topic. This # creates a conversation between the two users. session = users.login(username=username_1, password=password_1) with self.settings(ENABLE_TWILIO=False, ENABLE_PUBNUB=False): message = messages.send(session, topic_id=topic['id'], message=MESSAGE_BODY) # Get the created conversation. conversation = conversationHandler.get(user_1['id'], user_2['id'], topic['id']) # Set up a signal listener to check that the "conversation has stopped" # messages were sent out. self.twilio_sms_messages = [] def twilio_signal_handler(sender, **kwargs): self.twilio_sms_messages.append(kwargs.get("message")) signals.twilio_sms_sent.connect(twilio_signal_handler) # Ask the twilio gateway to calculate the phone number to use for # sending SMS messages to user 2. This opens up an SMS channel for the # conversation we're pretending to have. sending_phone_number = \ twilio_gateway.calc_sending_phone_number(conversation, user_2) # Simulate an incoming SMS reply being received from user 2, containing # the word "stop". Note that we disable Twilio and PubNub so that # nothing will actually get sent out. with self.settings(ENABLE_TWILIO=False, ENABLE_PUBNUB=False): response = messages.receive(To=sending_phone_number, From=user_2.phone_number, Body="stop") # Check that the Twilio gateway sent the "conversation has been # stopped" message to both parties. self.assertEqual(len(twilio_sms_messages), 2) # Finally, clean everything up. signals.twilio_sms_sent.disconnect(twilio_signal_handler)
def test_login(self): """ Test users/login. """ # Try logging in without any parameters. This should create a new ad # hoc user on-the-fly. session_token = users.login() self.assertTrue(users.get(session_token)['ad_hoc']) # Create an ad-hoc user, and log in using the user ID. user_id = users.create()['id'] session_token = users.login(user_id=user_id) # Create a user with a username, password and phone number, for testing. username = utils.random_username() password = utils.random_password() formatted_number = utils.format_phone_number(PHONE_NUMBER) User.objects.filter(phone_number=formatted_number).delete() user_id = users.create(username=username, password=password, phone_number=PHONE_NUMBER)['id'] # Create two random verification codes, making sure they're different. while True: code_1 = utils.random_letters(min_length=4, max_length=4) code_2 = utils.random_letters(min_length=4, max_length=4) if code_1 != code_2: break else: continue # Store the first verification code into the User object. user = User.objects.get(id=user_id) user.verification_code = code_1 user.verified = False user.save() # Attempt to log in using the supplied phone number and verification # code, deliberately using the wrong code. This should fail. with self.assertRaises(LoginRejectedException): session_token = users.login(phone_number=PHONE_NUMBER, verification_code=code_2) # Attempt to log in using the username and an incorrect password. Once # again, this should fail. with self.assertRaises(LoginRejectedException): session_token = users.login(username=username, password=password+"X") # Now try logging in with the correct username and password. This # should succeed. session_token = users.login(username=username, password=password) sessionHandler.validate(session_token) # Finally, try logging in again using the phone number and verification # code. This should not only log the user it, but also verify the # phone number. session_token = users.login(phone_number=PHONE_NUMBER, verification_code=code_1) sessionHandler.validate(session_token) user = User.objects.get(id=user_id) self.assertEqual(user.verified, True)
def test_close_old_conversations(self): """ Test the "close_old_conversations" management command. """ # Create three random users for testing. username_1 = utils.random_username() password_1 = utils.random_password() user_1 = users.create(username=username_1, password=password_1) username_2 = utils.random_username() password_2 = utils.random_password() user_2 = users.create(username=username_2, password=password_2) username_3 = utils.random_username() password_3 = utils.random_password() user_3 = users.create(username=username_3, password=password_3) # Create a dummy topic for user 1. session = users.login(username=username_1, password=password_1) topic = topics.create(session) # Create a conversation between user 2 and user 1, about the dummy # topic. This conversation will have a message twelve days old, and a # second message just two days old. conversation_1 = Conversation() conversation_1.user_1_id = user_1['id'] conversation_1.user_2_id = user_2['id'] conversation_1.stopped = False conversation_1.topic_id = topic['id'] conversation_1.save() message = Message() message.conversation = conversation_1 message.sender_id = user_2['id'] message.body = "The quick brown fox" message.created_at = datetime.datetime.utcnow() \ - datetime.timedelta(days=12) message.updated_at = message.created_at message.save() message = Message() message.conversation = conversation_1 message.sender_id = user_1['id'] message.body = "jumps over the lazy dog" message.created_at = datetime.datetime.utcnow() \ - datetime.timedelta(days=2) message.updated_at = message.created_at message.save() # Create a second conversation between user 3 and user 1. This # conversation will have a message five days old. conversation_2 = Conversation() conversation_2.user_1_id = user_1['id'] conversation_2.user_2_id = user_3['id'] conversation_2.stopped = False conversation_2.topic_id = topic['id'] conversation_2.save() message = Message() message.conversation = conversation_2 message.sender_id = user_3['id'] message.body = "Hello world" message.created_at = datetime.datetime.utcnow() \ - datetime.timedelta(days=5) message.updated_at = message.created_at message.save() # We've now set up the data. Call our management command to close all # conversations older than ten days. call_command("close_old_conversations", 10, silent=True) # Finally, check that the first conversation has been closed, but the # second has not. conversation_1 = Conversation.objects.get(id=conversation_1.id) conversation_2 = Conversation.objects.get(id=conversation_2.id) self.assertEqual(conversation_1.stopped, True) self.assertEqual(conversation_2.stopped, False)
def test_stop_and_restart(self): """ Test conversations/stop and conversations/restart. Note that this is combined into a single unit test because most of the complexity is in setting up the conversation -- it makes sense to test both at once so we don't have to set up the conversation twice. """ # Create two random users for testing. username_1 = utils.random_username() password_1 = utils.random_password() username_2 = utils.random_username() password_2 = utils.random_password() user_1_id = users.create(username=username_1, password=password_1, phone_number=PHONE_NUMBER)['id'] user_2_id = users.create(username=username_2, password=password_2, phone_number=PHONE_NUMBER_2)['id'] # Calculate a verification code for the two users. with self.settings(ENABLE_TWILIO=False): users.send_verification_code(phone_number=PHONE_NUMBER) users.send_verification_code(phone_number=PHONE_NUMBER_2) # Get the underlying User objects. user_1 = User.objects.get(id=user_1_id) user_2 = User.objects.get(id=user_2_id) # Open up two sessions, one for each user. Note that this also # verifies the users' phone numbers. session_1 = users.login(phone_number=PHONE_NUMBER, verification_code=user_1.verification_code) session_2 = users.login(phone_number=PHONE_NUMBER_2, verification_code=user_2.verification_code) # Get the default topic for user 1. We'll use this as the topic for # our conversation. topic_id = topics.list(session_1)[0]['id'] topic = Topic.objects.get(id=topic_id) # Send a message from user_2 to user_1 about the topic. This creates a # conversation between the two users. with self.settings(ENABLE_TWILIO=False, ENABLE_PUBNUB=False): messages.send(session_2, topic_id=topic.id, message="Hello") # Find the Conversation and make sure it isn't stopped. conversation = conversationHandler.get(user_1.id, user_2.id, topic.id) self.assertFalse(conversation.stopped) # Set up a signal listener to check that the "stopped" message is being # sent out via Twilio to both users. self.twilio_messages = [] def twilio_signal_handler(sender, **kwargs): self.twilio_messages.append(kwargs.get("message")) signals.twilio_sms_sent.connect(twilio_signal_handler) # Now try stopping the conversation. This should send an SMS to each # party. with self.settings(ENABLE_TWILIO=False, ENABLE_PUBNUB=False): conversations.stop(session_1, topic_id=topic.id, other_user_id=user_2.id) # Check that the conversation was stopped. conversation = conversationHandler.get(user_1.id, user_2.id, topic.id) self.assertTrue(conversation.stopped) # Check that the two SMS messages were sent. self.assertEqual(len(self.twilio_messages), 2) # Now try restarting the conversation. Once again, this should send # out an SMS message to each party. self.twilio_messages = [] with self.settings(ENABLE_TWILIO=False, ENABLE_PUBNUB=False): conversations.restart(session_1, topic_id=topic.id, other_user_id=user_2.id) # Check that the conversation was restarted. conversation = conversationHandler.get(user_1.id, user_2.id, topic.id) self.assertFalse(conversation.stopped) # Check that the two SMS messages were sent. self.assertEqual(len(self.twilio_messages), 2) # Finally, clean up. signals.twilio_sms_sent.disconnect(twilio_signal_handler)