import random from datetime import datetime from decimal import Decimal from unittest.mock import patch from decouple import config from django.contrib.auth.models import User from django.urls import reverse from api.management.commands.follow_invoices import Command as FollowInvoices from api.models import Currency, Order from api.tasks import cache_market, follow_send_payment from control.models import BalanceLog from control.tasks import compute_node_balance from tests.node_utils import ( add_invoice, create_address, pay_invoice, set_up_regtest_network, ) from tests.pgp_utils import sign_message from tests.test_api import BaseAPITestCase def read_file(file_path): """ Read a file and return its content. """ with open(file_path, "r") as file: return file.read() class TradeTest(BaseAPITestCase): su_pass = "12345678" su_name = config("ESCROW_USERNAME", cast=str, default="admin") maker_form_buy_with_range = { "type": Order.Types.BUY, "currency": 1, "has_range": True, "min_amount": 21, "max_amount": 101.7, "payment_method": "Advcash Cash F2F", "is_explicit": False, "premium": 3.34, "public_duration": 69360, "escrow_duration": 8700, "bond_size": 3.5, "latitude": 34.7455, "longitude": 135.503, } @classmethod def setUpTestData(cls): """ Set up initial data for the test case. """ # Create super user User.objects.create_superuser(cls.su_name, "super@user.com", cls.su_pass) # Fetch currency prices from external APIs cache_market() # Initialize bitcoin core, mine some blocks, connect nodes, open channel set_up_regtest_network() # Take the first node balances snapshot compute_node_balance() def test_login_superuser(self): """ Test the login functionality for the superuser. """ path = reverse("admin:login") data = {"username": self.su_name, "password": self.su_pass} response = self.client.post(path, data) self.assertEqual(response.status_code, 302) self.assertResponse( response ) # should skip given that /coordinator/login is not documented def test_cache_market(self): """ Test if the cache_market() call during test setup worked """ usd = Currency.objects.get(id=1) self.assertIsInstance( usd.exchange_rate, Decimal, f"Exchange rate is not a Decimal. Got {type(usd.exchange_rate)}", ) self.assertGreater( usd.exchange_rate, 0, "Exchange rate is not higher than zero" ) self.assertIsInstance( usd.timestamp, datetime, "External price timestamp is not a datetime" ) def test_initial_balance_log(self): """ Test if the initial node BalanceLog is correct. One channel should exist with 0.5BTC in local. No onchain balance should exist. """ balance_log = BalanceLog.objects.latest() self.assertIsInstance(balance_log.time, datetime) self.assertTrue(balance_log.total > 0) self.assertTrue(balance_log.ln_local > 0) self.assertTrue(balance_log.ln_local_unsettled >= 0) self.assertTrue(balance_log.ln_remote > 0) self.assertEqual(balance_log.ln_remote_unsettled, 0) self.assertTrue(balance_log.onchain_total > 0) self.assertTrue(balance_log.onchain_confirmed > 0) self.assertEqual(balance_log.onchain_unconfirmed, 0) self.assertTrue(balance_log.onchain_fraction > 0) def get_robot_auth(self, robot_index, first_encounter=False): """ Create an AUTH header that embeds token, pub_key, and enc_priv_key into a single string as requested by the robosats token middleware. """ b91_token = read_file(f"tests/robots/{robot_index}/b91_token") pub_key = read_file(f"tests/robots/{robot_index}/pub_key") enc_priv_key = read_file(f"tests/robots/{robot_index}/enc_priv_key") # First time a robot authenticated, it is registered by the backend, so pub_key and enc_priv_key is needed if first_encounter: headers = { "HTTP_AUTHORIZATION": f"Token {b91_token} | Public {pub_key} | Private {enc_priv_key}" } else: headers = {"HTTP_AUTHORIZATION": f"Token {b91_token}"} return headers def assert_robot(self, response, robot_index): """ Assert that the robot is created correctly. """ nickname = read_file(f"tests/robots/{robot_index}/nickname") pub_key = read_file(f"tests/robots/{robot_index}/pub_key") enc_priv_key = read_file(f"tests/robots/{robot_index}/enc_priv_key") data = response.json() self.assertEqual(response.status_code, 200) self.assertResponse(response) self.assertEqual( data["nickname"], nickname, f"Robot created nickname is not {nickname}", ) self.assertEqual( data["public_key"], pub_key, "Returned public Kky does not match" ) self.assertEqual( data["encrypted_private_key"], enc_priv_key, "Returned encrypted private key does not match", ) self.assertEqual( len(data["tg_token"]), 15, "String is not exactly 15 characters long" ) self.assertEqual( data["tg_bot_name"], config( "TELEGRAM_BOT_NAME", cast=str, default="RoboCoordinatorNotificationBot" ), "Telegram bot name is not correct", ) self.assertFalse( data["tg_enabled"], "The new robot's telegram seems to be enabled" ) self.assertEqual(data["earned_rewards"], 0, "The new robot's rewards are not 0") def create_robot(self, robot_index): """ Creates the robots in /tests/robots/{robot_index} """ path = reverse("robot") headers = self.get_robot_auth(robot_index, True) return self.client.get(path, **headers) def test_create_robots(self): """ Test the creation of two robots to be used in the trade tests """ for robot_index in [1, 2]: response = self.create_robot(robot_index) self.assert_robot(response, robot_index) def make_order(self, maker_form, robot_index=1): """ Create an order for the test. """ path = reverse("make") # Get valid robot auth headers headers = self.get_robot_auth(robot_index, True) response = self.client.post(path, maker_form, **headers) return response def test_make_order(self): """ Test the creation of an order. """ maker_form = self.maker_form_buy_with_range response = self.make_order(maker_form, robot_index=1) data = response.json() # Checks self.assertResponse(response) self.assertIsInstance(data["id"], int, "Order ID is not an integer") self.assertEqual( data["status"], Order.Status.WFB, "Newly created order status is not 'Waiting for maker bond'", ) self.assertIsInstance( datetime.fromisoformat(data["created_at"]), datetime, "Order creation timestamp is not datetime", ) self.assertIsInstance( datetime.fromisoformat(data["expires_at"]), datetime, "Order expiry time is not datetime", ) self.assertEqual( data["type"], Order.Types.BUY, "Buy order is not of type value BUY" ) self.assertEqual(data["currency"], 1, "Order for USD is not of currency USD") self.assertIsNone( data["amount"], "Order with range has a non-null simple amount" ) self.assertTrue(data["has_range"], "Order with range has a False has_range") self.assertAlmostEqual( float(data["min_amount"]), maker_form["min_amount"], "Order min amount does not match", ) self.assertAlmostEqual( float(data["max_amount"]), maker_form["max_amount"], "Order max amount does not match", ) self.assertEqual( data["payment_method"], maker_form["payment_method"], "Order payment method does not match", ) self.assertEqual( data["escrow_duration"], maker_form["escrow_duration"], "Order escrow duration does not match", ) self.assertAlmostEqual( float(data["bond_size"]), maker_form["bond_size"], "Order bond size does not match", ) self.assertAlmostEqual( float(data["latitude"]), maker_form["latitude"], "Order latitude does not match", ) self.assertAlmostEqual( float(data["longitude"]), maker_form["longitude"], "Order longitude does not match", ) self.assertAlmostEqual( float(data["premium"]), maker_form["premium"], "Order premium does not match", ) self.assertFalse( data["is_explicit"], "Relative pricing order has True is_explicit" ) self.assertIsNone( data["satoshis"], "Relative pricing order has non-null Satoshis" ) self.assertIsNone(data["taker"], "New order's taker is not null") return data def get_order(self, order_id, robot_index=1, first_encounter=False): path = reverse("order") params = f"?order_id={order_id}" headers = self.get_robot_auth(robot_index, first_encounter) response = self.client.get(path + params, **headers) return response def cancel_order(self, order_id, robot_index=1): path = reverse("order") params = f"?order_id={order_id}" headers = self.get_robot_auth(robot_index) body = {"action": "cancel"} response = self.client.post(path + params, body, **headers) return response def pause_order(self, order_id, robot_index=1): path = reverse("order") params = f"?order_id={order_id}" headers = self.get_robot_auth(robot_index) body = {"action": "pause"} response = self.client.post(path + params, body, **headers) return response def test_get_order_created(self): """ Tests the creation of an order and the first request to see details, including, the creation of the maker bond invoice. """ maker_form = self.maker_form_buy_with_range robot_index = 1 order_made_response = self.make_order(maker_form, robot_index) order_made_data = order_made_response.json() # Maker's first order fetch. Should trigger maker bond hold invoice generation. response = self.get_order(order_made_data["id"]) data = response.json() self.assertEqual(response.status_code, 200) self.assertResponse(response) self.assertEqual(data["id"], order_made_data["id"]) self.assertIsInstance(datetime.fromisoformat(data["created_at"]), datetime) self.assertIsInstance(datetime.fromisoformat(data["expires_at"]), datetime) self.assertTrue(data["is_maker"]) self.assertTrue(data["is_participant"]) self.assertTrue(data["is_buyer"]) self.assertFalse(data["is_seller"]) self.assertEqual(data["maker_status"], "Active") self.assertEqual(data["status_message"], Order.Status(Order.Status.WFB).label) self.assertFalse(data["is_fiat_sent"]) self.assertFalse(data["is_disputed"]) self.assertEqual( data["ur_nick"], read_file(f"tests/robots/{robot_index}/nickname") ) self.assertIsInstance(data["satoshis_now"], int) self.assertFalse(data["maker_locked"]) self.assertFalse(data["taker_locked"]) self.assertFalse(data["escrow_locked"]) self.assertIsInstance(data["bond_satoshis"], int) # Cancel order to avoid leaving pending HTLCs after a successful test self.cancel_order(data["id"]) def follow_hold_invoices(self): # A background thread checks every 5 second the status of invoices. We invoke directly during test. follow_invoices = FollowInvoices() follow_invoices.follow_hold_invoices() def send_payments(self): # A background thread checks every 5 second whether there are outgoing payments. We invoke directly during test. follow_invoices = FollowInvoices() follow_invoices.send_payments() def make_and_publish_order(self, maker_form, robot_index=1): # Make an order order_made_response = self.make_order(maker_form, robot_index) order_made_data = order_made_response.json() # Maker's first order fetch. Should trigger maker bond hold invoice generation. response = self.get_order(order_made_data["id"]) invoice = response.json()["bond_invoice"] # Lock the invoice from the robot's node pay_invoice("robot", invoice) # Check for invoice locked (the mocked LND will return ACCEPTED) self.follow_hold_invoices() # Get order response = self.get_order(order_made_data["id"]) return response def test_publish_order(self): """ Tests a trade from order creation to published (maker bond locked). """ maker_form = self.maker_form_buy_with_range # Get order response = self.make_and_publish_order(maker_form) data = response.json() self.assertEqual(response.status_code, 200) self.assertResponse(response) self.assertEqual(data["id"], data["id"]) self.assertEqual(data["status_message"], Order.Status(Order.Status.PUB).label) self.assertTrue(data["maker_locked"]) self.assertFalse(data["taker_locked"]) self.assertFalse(data["escrow_locked"]) # Test what we can see with newly created robot 2 (only for public status) public_response = self.get_order( data["id"], robot_index=2, first_encounter=True ) public_data = public_response.json() self.assertFalse(public_data["is_participant"]) self.assertIsInstance(public_data["price_now"], float) self.assertIsInstance(data["satoshis_now"], int) # Cancel order to avoid leaving pending HTLCs after a successful test self.cancel_order(data["id"]) def test_pause_unpause_order(self): """ Tests pausing and unpausing a public order """ maker_form = self.maker_form_buy_with_range # Get order response = self.make_and_publish_order(maker_form) # PAUSE response = self.pause_order(response.json()["id"]) data = response.json() self.assertResponse(response) self.assertEqual(data["status_message"], Order.Status(Order.Status.PAU).label) # UNPAUSE response = self.pause_order(response.json()["id"]) data = response.json() self.assertResponse(response) self.assertEqual(data["status_message"], Order.Status(Order.Status.PUB).label) # Cancel order to avoid leaving pending HTLCs after a successful test self.cancel_order(data["id"]) def take_order(self, order_id, amount, robot_index=2): path = reverse("order") params = f"?order_id={order_id}" headers = self.get_robot_auth(robot_index, first_encounter=True) body = {"action": "take", "amount": amount} response = self.client.post(path + params, body, **headers) return response def make_and_take_order( self, maker_form, take_amount=80, maker_index=1, taker_index=2 ): response_published = self.make_and_publish_order(maker_form, maker_index) data_publised = response_published.json() response = self.take_order(data_publised["id"], take_amount, taker_index) return response def test_make_and_take_order(self): """ Tests a trade from order creation to taken. """ maker_index = 1 taker_index = 2 maker_form = self.maker_form_buy_with_range response = self.make_and_take_order(maker_form, 80, maker_index, taker_index) data = response.json() self.assertEqual(response.status_code, 200) self.assertResponse(response) self.assertEqual(data["status_message"], Order.Status(Order.Status.TAK).label) self.assertEqual( data["ur_nick"], read_file(f"tests/robots/{taker_index}/nickname") ) self.assertEqual( data["taker_nick"], read_file(f"tests/robots/{taker_index}/nickname") ) self.assertEqual( data["maker_nick"], read_file(f"tests/robots/{maker_index}/nickname") ) self.assertEqual(data["maker_status"], "Active") self.assertEqual(data["taker_status"], "Active") self.assertFalse(data["is_maker"]) self.assertFalse(data["is_buyer"]) self.assertTrue(data["is_seller"]) self.assertTrue(data["is_taker"]) self.assertTrue(data["is_participant"]) self.assertTrue(data["maker_locked"]) self.assertFalse(data["taker_locked"]) self.assertFalse(data["escrow_locked"]) # Cancel order to avoid leaving pending HTLCs after a successful test self.cancel_order(data["id"]) def make_and_lock_contract( self, maker_form, take_amount=80, maker_index=1, taker_index=2 ): # Make an order order_taken_response = self.make_and_take_order( maker_form, take_amount, maker_index, taker_index ) order_taken_data = order_taken_response.json() # Maker's first order fetch. Should trigger maker bond hold invoice generation. response = self.get_order(order_taken_data["id"], taker_index) invoice = response.json()["bond_invoice"] # Lock the invoice from the robot's node pay_invoice("robot", invoice) # Check for invoice locked (the mocked LND will return ACCEPTED) self.follow_hold_invoices() # Get order response = self.get_order(order_taken_data["id"], taker_index) return response def test_make_and_lock_contract(self): """ Tests a trade from order creation to taker bond locked. """ maker_index = 1 taker_index = 2 maker_form = self.maker_form_buy_with_range # Taker GET response = self.make_and_lock_contract(maker_form, 80, maker_index, taker_index) data = response.json() self.assertEqual(response.status_code, 200) self.assertResponse(response) self.assertEqual(data["status_message"], Order.Status(Order.Status.WF2).label) self.assertEqual(data["maker_status"], "Active") self.assertEqual(data["taker_status"], "Active") self.assertTrue(data["is_participant"]) self.assertTrue(data["maker_locked"]) self.assertTrue(data["taker_locked"]) self.assertFalse(data["escrow_locked"]) # Maker GET response = self.get_order(data["id"], maker_index) data = response.json() self.assertEqual(response.status_code, 200) self.assertResponse(response) self.assertEqual(data["status_message"], Order.Status(Order.Status.WF2).label) self.assertTrue(data["swap_allowed"]) self.assertIsInstance(data["suggested_mining_fee_rate"], float) self.assertIsInstance(data["swap_fee_rate"], float) self.assertTrue(data["suggested_mining_fee_rate"] > 0) self.assertTrue(data["swap_fee_rate"] > 0) self.assertEqual(data["maker_status"], "Active") self.assertEqual(data["taker_status"], "Active") self.assertTrue(data["is_participant"]) self.assertTrue(data["maker_locked"]) self.assertTrue(data["taker_locked"]) self.assertFalse(data["escrow_locked"]) # Cancel order to avoid leaving pending HTLCs after a successful test self.cancel_order(data["id"]) def trade_to_locked_escrow( self, maker_form, take_amount=80, maker_index=1, taker_index=2 ): # Make an order locked_taker_response = self.make_and_lock_contract( maker_form, take_amount, maker_index, taker_index ) locked_taker_response_data = locked_taker_response.json() # Maker's first order fetch. Should trigger maker bond hold invoice generation. response = self.get_order(locked_taker_response_data["id"], taker_index) invoice = response.json()["escrow_invoice"] # Lock the invoice from the robot's node pay_invoice("robot", invoice) # Check for invoice locked (the mocked LND will return ACCEPTED) self.follow_hold_invoices() # Get order response = self.get_order(locked_taker_response_data["id"], taker_index) return response def test_trade_to_locked_escrow(self): """ Tests a trade from order creation until escrow locked, before invoice/address is submitted by buyer. """ maker_index = 1 taker_index = 2 maker_form = self.maker_form_buy_with_range response = self.trade_to_locked_escrow(maker_form, 80, maker_index, taker_index) data = response.json() self.assertEqual(response.status_code, 200) self.assertResponse(response) self.assertEqual(data["status_message"], Order.Status(Order.Status.WFI).label) self.assertTrue(data["maker_locked"]) self.assertTrue(data["taker_locked"]) self.assertTrue(data["escrow_locked"]) # Cancel order to avoid leaving pending HTLCs after a successful test self.cancel_order(data["id"], 2) def submit_payout_address(self, order_id, robot_index=1): path = reverse("order") params = f"?order_id={order_id}" headers = self.get_robot_auth(robot_index) payout_address = create_address("robot") signed_payout_address = sign_message( payout_address, passphrase_path=f"tests/robots/{robot_index}/token", private_key_path=f"tests/robots/{robot_index}/enc_priv_key", ) body = { "action": "update_address", "address": signed_payout_address, "mining_fee_rate": 50, } response = self.client.post(path + params, body, **headers) return response def trade_to_submitted_address( self, maker_form, take_amount=80, maker_index=1, taker_index=2 ): response_escrow_locked = self.trade_to_locked_escrow( maker_form, take_amount, maker_index, taker_index ) response = self.submit_payout_address( response_escrow_locked.json()["id"], maker_index ) return response def test_trade_to_submitted_address(self): """ Tests a trade from order creation until escrow locked and address is submitted by buyer. """ maker_index = 1 taker_index = 2 maker_form = self.maker_form_buy_with_range take_amount = round( random.uniform(maker_form["min_amount"], maker_form["max_amount"]), 2 ) response = self.trade_to_submitted_address( maker_form, take_amount, maker_index, taker_index ) data = response.json() self.assertEqual(response.status_code, 200) self.assertResponse(response) self.assertEqual(data["status_message"], Order.Status(Order.Status.CHA).label) self.assertFalse(data["is_fiat_sent"]) # Cancel order to avoid leaving pending HTLCs after a successful test self.cancel_order(data["id"]) def submit_payout_invoice( self, order_id, num_satoshis, routing_budget, robot_index=1 ): path = reverse("order") params = f"?order_id={order_id}" headers = self.get_robot_auth(robot_index) payout_invoice = add_invoice("robot", num_satoshis) signed_payout_invoice = sign_message( payout_invoice, passphrase_path=f"tests/robots/{robot_index}/token", private_key_path=f"tests/robots/{robot_index}/enc_priv_key", ) body = { "action": "update_invoice", "invoice": signed_payout_invoice, "routing_budget_ppm": routing_budget, } response = self.client.post(path + params, body, **headers) return response def trade_to_submitted_invoice( self, maker_form, take_amount=80, maker_index=1, taker_index=2 ): response_escrow_locked = self.trade_to_locked_escrow( maker_form, take_amount, maker_index, taker_index ) response_get = self.get_order(response_escrow_locked.json()["id"], maker_index) response = self.submit_payout_invoice( response_escrow_locked.json()["id"], response_get.json()["trade_satoshis"], 0, maker_index, ) return response def test_trade_to_submitted_invoice(self): """ Tests a trade from order creation until escrow locked and invoice is submitted by buyer. """ maker_index = 1 taker_index = 2 maker_form = self.maker_form_buy_with_range take_amount = round( random.uniform(maker_form["min_amount"], maker_form["max_amount"]), 2 ) response = self.trade_to_submitted_invoice( maker_form, take_amount, maker_index, taker_index ) data = response.json() self.assertEqual(response.status_code, 200) self.assertResponse(response) self.assertEqual(data["status_message"], Order.Status(Order.Status.CHA).label) self.assertFalse(data["is_fiat_sent"]) # Cancel order to avoid leaving pending HTLCs after a successful test self.cancel_order(data["id"]) def confirm_fiat(self, order_id, robot_index=1): path = reverse("order") params = f"?order_id={order_id}" headers = self.get_robot_auth(robot_index) body = {"action": "confirm"} response = self.client.post(path + params, body, **headers) return response def trade_to_confirm_fiat_sent_LN( self, maker_form, take_amount=80, maker_index=1, taker_index=2 ): response_submitted_invoice = self.trade_to_submitted_invoice( maker_form, take_amount, maker_index, taker_index ) response = self.confirm_fiat( response_submitted_invoice.json()["id"], maker_index ) return response def test_trade_to_confirm_fiat_sent_LN(self): """ Tests a trade from order creation until fiat sent confirmed """ maker_index = 1 taker_index = 2 maker_form = self.maker_form_buy_with_range take_amount = round( random.uniform(maker_form["min_amount"], maker_form["max_amount"]), 2 ) response = self.trade_to_confirm_fiat_sent_LN( maker_form, take_amount, maker_index, taker_index ) data = response.json() self.assertEqual(response.status_code, 200) self.assertResponse(response) self.assertEqual(data["status_message"], Order.Status(Order.Status.FSE).label) self.assertTrue(data["is_fiat_sent"]) # Cancel order to avoid leaving pending HTLCs after a successful test self.cancel_order(data["id"], maker_index) self.cancel_order(data["id"], taker_index) def trade_to_confirm_fiat_received_LN( self, maker_form, take_amount=80, maker_index=1, taker_index=2 ): response_submitted_invoice = self.trade_to_confirm_fiat_sent_LN( maker_form, take_amount, maker_index, taker_index ) response = self.confirm_fiat( response_submitted_invoice.json()["id"], taker_index ) return response def test_trade_to_confirm_fiat_received_LN(self): """ Tests a trade from order creation until fiat received is confirmed by seller/taker """ maker_index = 1 taker_index = 2 maker_form = self.maker_form_buy_with_range take_amount = round( random.uniform(maker_form["min_amount"], maker_form["max_amount"]), 2 ) response = self.trade_to_confirm_fiat_received_LN( maker_form, take_amount, maker_index, taker_index ) data = response.json() self.assertEqual(response.status_code, 200) self.assertResponse(response) self.assertEqual(data["status_message"], Order.Status(Order.Status.PAY).label) self.assertTrue(data["is_fiat_sent"]) self.assertFalse(data["is_disputed"]) self.assertFalse(data["maker_locked"]) self.assertFalse(data["taker_locked"]) self.assertFalse(data["escrow_locked"]) @patch("api.tasks.follow_send_payment.delay", follow_send_payment) def test_successful_LN(self): """ Tests a trade from order creation until Sats sent to buyer """ maker_index = 1 taker_index = 2 maker_form = self.maker_form_buy_with_range take_amount = round( random.uniform(maker_form["min_amount"], maker_form["max_amount"]), 2 ) response = self.trade_to_confirm_fiat_received_LN( maker_form, take_amount, maker_index, taker_index ) # Invoke the background thread that will call the celery-worker to follow_send_payment() self.send_payments() response = self.get_order(response.json()["id"], maker_index) data = response.json() self.assertEqual(response.status_code, 200) self.assertResponse(response) self.assertEqual(data["status_message"], Order.Status(Order.Status.SUC).label) self.assertTrue(data["is_fiat_sent"]) self.assertFalse(data["is_disputed"]) self.assertIsHash(data["maker_summary"]["preimage"]) self.assertIsHash(data["maker_summary"]["payment_hash"]) def test_cancel_public_order(self): """ Tests the cancellation of a public order """ maker_index = 1 maker_form = self.maker_form_buy_with_range response = self.make_and_publish_order(maker_form, maker_index) response = self.cancel_order(response.json()["id"]) data = response.json() self.assertEqual(response.status_code, 400) self.assertResponse(response) self.assertEqual( data["bad_request"], "This order has been cancelled by the maker" ) def test_collaborative_cancel_order_in_chat(self): """ Tests the collaborative cancellation of an order in the chat state """ maker_index = 1 taker_index = 2 maker_form = self.maker_form_buy_with_range take_amount = round( random.uniform(maker_form["min_amount"], maker_form["max_amount"]), 2 ) response = self.trade_to_submitted_invoice( maker_form, take_amount, maker_index, taker_index ) # Maker asks for cancel response = self.cancel_order(response.json()["id"], maker_index) data = response.json() self.assertEqual(response.status_code, 200) self.assertResponse(response) self.assertTrue(data["asked_for_cancel"]) # Taker checks order response = self.get_order(response.json()["id"], taker_index) data = response.json() self.assertEqual(response.status_code, 200) self.assertResponse(response) self.assertTrue(data["pending_cancel"]) # Taker accepts (ask) the cancellation response = self.cancel_order(response.json()["id"], taker_index) data = response.json() self.assertEqual(response.status_code, 400) self.assertResponse(response) self.assertEqual( data["bad_request"], "This order has been cancelled collaborativelly" ) def test_ticks(self): """ Tests the historical ticks serving endpoint after creating a contract """ path = reverse("ticks") params = "?start=01-01-1970&end=01-01-2070" self.make_and_lock_contract(self.maker_form_buy_with_range) response = self.client.get(path + params) data = response.json() self.assertEqual(response.status_code, 200) self.assertResponse(response) self.assertIsInstance(datetime.fromisoformat(data[0]["timestamp"]), datetime) self.assertIsInstance(data[0]["volume"], str) self.assertIsInstance(data[0]["price"], str) self.assertIsInstance(data[0]["premium"], str) self.assertIsInstance(data[0]["fee"], str)