Exemplo n.º 1
0
    def test_config_risk_engine(self):
        # Arrange
        self.msgbus.deregister("RiskEngine.execute", self.risk_engine.execute)

        config = RiskEngineConfig(
            bypass=True,  # <-- bypassing pre-trade risk checks for backtest
            max_order_rate="5/00:00:01",
            max_notional_per_order={"GBP/USD.SIM": 2_000_000},
        )

        # Act
        risk_engine = RiskEngine(
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
            config=config,
        )

        # Assert
        assert risk_engine.max_order_rate() == (5, timedelta(seconds=1))
        assert risk_engine.max_notionals_per_order() == {
            GBPUSD_SIM.id: Decimal("2000000")
        }
        assert risk_engine.max_notional_per_order(GBPUSD_SIM.id) == 2_000_000
Exemplo n.º 2
0
    def setup(self):
        # Fixture Setup
        self.clock = TestClock()
        self.uuid_factory = UUIDFactory()
        self.logger = Logger(
            clock=self.clock,
            level_stdout=LogLevel.DEBUG,
        )

        self.trader_id = TestStubs.trader_id()
        self.account_id = TestStubs.account_id()
        self.venue = Venue("SIM")

        self.msgbus = MessageBus(
            trader_id=self.trader_id,
            clock=self.clock,
            logger=self.logger,
        )

        self.cache = TestStubs.cache()

        self.portfolio = Portfolio(
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.exec_engine = ExecutionEngine(
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.risk_engine = RiskEngine(
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.exec_client = MockExecutionClient(
            client_id=ClientId(self.venue.value),
            venue_type=VenueType.ECN,
            account_id=self.account_id,
            account_type=AccountType.MARGIN,
            base_currency=USD,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )
        self.portfolio.update_account(TestStubs.event_margin_account_state())
        self.exec_engine.register_client(self.exec_client)

        # Prepare data
        self.cache.add_instrument(AUDUSD_SIM)
Exemplo n.º 3
0
    def setup(self):
        # Fixture Setup
        self.clock = TestClock()
        self.uuid_factory = UUIDFactory()
        self.logger = Logger(self.clock)

        self.trader_id = TraderId("TESTER-000")
        self.account_id = TestStubs.account_id()
        self.venue = Venue("SIM")

        self.portfolio = Portfolio(
            cache=TestStubs.cache(),
            clock=self.clock,
            logger=self.logger,
        )

        self.exec_engine = ExecutionEngine(
            portfolio=self.portfolio,
            cache=TestStubs.cache(),
            clock=self.clock,
            logger=self.logger,
        )

        self.risk_engine = RiskEngine(
            exec_engine=self.exec_engine,
            portfolio=self.portfolio,
            cache=TestStubs.cache(),
            clock=self.clock,
            logger=self.logger,
            config={},
        )

        self.exec_client = MockExecutionClient(
            client_id=ClientId(self.venue.value),
            venue_type=VenueType.ECN,
            account_id=self.account_id,
            account_type=AccountType.MARGIN,
            base_currency=USD,
            engine=self.exec_engine,
            clock=self.clock,
            logger=self.logger,
        )

        # Wire up components
        self.exec_engine.register_risk_engine(self.risk_engine)
        self.exec_engine.register_client(self.exec_client)

        # Prepare data
        self.exec_engine.cache.add_instrument(AUDUSD_SIM)
    def setup(self):
        # Fixture Setup
        self.clock = TestClock()
        self.logger = Logger(self.clock)

        self.trader_id = TestStubs.trader_id()
        self.account_id = TestStubs.account_id()

        self.msgbus = MessageBus(
            trader_id=self.trader_id,
            clock=self.clock,
            logger=self.logger,
        )

        self.cache = Cache(
            database=None,
            logger=self.logger,
        )

        self.portfolio = Portfolio(
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.data_engine = DataEngine(
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.exec_engine = ExecutionEngine(
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.risk_engine = RiskEngine(
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.strategy = TradingStrategy()
        self.strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )
Exemplo n.º 5
0
    def setup(self):
        # Fixture Setup
        self.clock = TestClock()
        self.uuid_factory = UUIDFactory()
        self.logger = Logger(self.clock)

        self.trader_id = TraderId("TESTER", "000")
        self.account_id = TestStubs.account_id()
        self.venue = Venue("SIM")

        self.portfolio = Portfolio(
            clock=self.clock,
            logger=self.logger,
        )
        self.portfolio.register_cache(DataCache(self.logger))

        self.database = MockExecutionDatabase(trader_id=self.trader_id,
                                              logger=self.logger)
        self.exec_engine = ExecutionEngine(
            database=self.database,
            portfolio=self.portfolio,
            clock=self.clock,
            logger=self.logger,
        )

        self.exec_client = MockExecutionClient(
            ClientId(self.venue.value),
            self.account_id,
            self.exec_engine,
            self.clock,
            self.logger,
        )

        self.risk_engine = RiskEngine(
            exec_engine=self.exec_engine,
            portfolio=self.portfolio,
            clock=self.clock,
            logger=self.logger,
            config={},
        )

        self.exec_engine.register_client(self.exec_client)
        self.exec_engine.register_risk_engine(self.risk_engine)
Exemplo n.º 6
0
    def setUp(self):
        # Fixture Setup
        clock = TestClock()
        logger = Logger(clock, level_stdout=LogLevel.DEBUG)
        trader_id = TraderId("TESTER-000")

        self.order_factory = OrderFactory(
            trader_id=trader_id,
            strategy_id=StrategyId("S-001"),
            clock=TestClock(),
        )

        cache_db = BypassCacheDatabase(
            trader_id=trader_id,
            logger=logger,
        )

        self.cache = Cache(
            database=cache_db,
            logger=logger,
        )

        self.portfolio = Portfolio(
            cache=self.cache,
            clock=clock,
            logger=logger,
        )

        self.exec_engine = ExecutionEngine(
            portfolio=self.portfolio,
            cache=self.cache,
            clock=clock,
            logger=logger,
        )

        self.risk_engine = RiskEngine(
            exec_engine=self.exec_engine,
            portfolio=self.portfolio,
            cache=self.cache,
            clock=clock,
            logger=logger,
        )

        # Wire up components
        self.exec_engine.register_risk_engine(self.risk_engine)

        # Prepare components
        self.cache.add_instrument(AUDUSD_SIM)
        self.cache.add_instrument(GBPUSD_SIM)
        self.cache.add_instrument(BTCUSDT_BINANCE)
        self.cache.add_instrument(BTCUSD_BITMEX)
        self.cache.add_instrument(ETHUSD_BITMEX)
Exemplo n.º 7
0
    def setUp(self):
        # Fixture Setup
        clock = TestClock()
        logger = Logger(clock)

        trader_id = TraderId("TESTER-000")
        account_id = TestStubs.account_id()

        self.cache = TestStubs.cache()

        self.portfolio = Portfolio(
            cache=self.cache,
            clock=clock,
            logger=logger,
        )

        self.data_engine = DataEngine(
            portfolio=self.portfolio,
            cache=self.cache,
            clock=clock,
            logger=logger,
            config={"use_previous_close": False},
        )

        self.data_engine.process(USDJPY_SIM)

        self.exec_engine = ExecutionEngine(
            portfolio=self.portfolio,
            cache=self.cache,
            clock=clock,
            logger=logger,
        )

        self.exchange = SimulatedExchange(
            venue=Venue("SIM"),
            venue_type=VenueType.ECN,
            oms_type=OMSType.HEDGING,
            account_type=AccountType.MARGIN,
            base_currency=USD,
            starting_balances=[Money(1_000_000, USD)],
            is_frozen_account=False,
            cache=self.exec_engine.cache,
            instruments=[USDJPY_SIM],
            modules=[],
            fill_model=FillModel(),
            clock=clock,
            logger=logger,
        )

        self.data_client = BacktestMarketDataClient(
            client_id=ClientId("SIM"),
            engine=self.data_engine,
            clock=clock,
            logger=logger,
        )

        self.exec_client = BacktestExecClient(
            exchange=self.exchange,
            account_id=account_id,
            account_type=AccountType.MARGIN,
            base_currency=USD,
            engine=self.exec_engine,
            clock=clock,
            logger=logger,
        )

        self.risk_engine = RiskEngine(
            exec_engine=self.exec_engine,
            portfolio=self.portfolio,
            cache=self.cache,
            clock=clock,
            logger=logger,
        )

        # Wire up components
        self.data_engine.register_client(self.data_client)
        self.exec_engine.register_risk_engine(self.risk_engine)
        self.exec_engine.register_client(self.exec_client)

        strategies = [
            TradingStrategy("001"),
            TradingStrategy("002"),
        ]

        self.trader = Trader(
            trader_id=trader_id,
            strategies=strategies,
            portfolio=self.portfolio,
            data_engine=self.data_engine,
            risk_engine=self.risk_engine,
            exec_engine=self.exec_engine,
            clock=clock,
            logger=logger,
        )
Exemplo n.º 8
0
    def setup(self):
        # Fixture Setup
        self.clock = TestClock()
        self.uuid_factory = UUIDFactory()
        self.logger = Logger(
            clock=self.clock,
            level_stdout=LogLevel.INFO,
        )

        self.trader_id = TestIdStubs.trader_id()

        self.msgbus = MessageBus(
            trader_id=self.trader_id,
            clock=self.clock,
            logger=self.logger,
        )

        self.cache = TestComponentStubs.cache()

        self.portfolio = Portfolio(
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.data_engine = DataEngine(
            msgbus=self.msgbus,
            clock=self.clock,
            cache=self.cache,
            logger=self.logger,
        )

        self.exec_engine = ExecutionEngine(
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.risk_engine = RiskEngine(
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.exchange = SimulatedExchange(
            venue=FTX,
            oms_type=OMSType.NETTING,
            account_type=AccountType.MARGIN,
            base_currency=None,  # Multi-asset wallet
            starting_balances=[Money(200, ETH),
                               Money(1_000_000, USD)],
            default_leverage=Decimal(100),
            leverages={},
            is_frozen_account=False,
            instruments=[ETHUSD_FTX],
            modules=[],
            fill_model=FillModel(),
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
            latency_model=LatencyModel(0),
        )

        self.exec_client = BacktestExecClient(
            exchange=self.exchange,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        # Wire up components
        self.exec_engine.register_client(self.exec_client)
        self.exchange.register_client(self.exec_client)

        self.cache.add_instrument(ETHUSD_FTX)

        # Create mock strategy
        self.strategy = MockStrategy(
            bar_type=TestDataStubs.bartype_usdjpy_1min_bid())
        self.strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        # Start components
        self.exchange.reset()
        self.data_engine.start()
        self.exec_engine.start()
        self.strategy.start()
    def setup(self):
        # Fixture Setup
        self.clock = TestClock()
        self.uuid_factory = UUIDFactory()
        self.logger = Logger(
            clock=self.clock,
            level_stdout=LogLevel.DEBUG,
        )

        self.trader_id = TestStubs.trader_id()
        self.account_id = TestStubs.account_id()

        self.msgbus = MessageBus(
            trader_id=self.trader_id,
            clock=self.clock,
            logger=self.logger,
        )

        self.cache = TestStubs.cache()

        self.portfolio = Portfolio(
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.data_engine = DataEngine(
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.exec_engine = ExecutionEngine(
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.risk_engine = RiskEngine(
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.exchange = SimulatedExchange(
            venue=Venue("SIM"),
            venue_type=VenueType.ECN,
            oms_type=OMSType.HEDGING,
            account_type=AccountType.MARGIN,
            base_currency=USD,
            starting_balances=[Money(1_000_000, USD)],
            default_leverage=Decimal(50),
            leverages={},
            is_frozen_account=False,
            cache=self.cache,
            instruments=[USDJPY_SIM],
            modules=[],
            fill_model=FillModel(),
            clock=self.clock,
            logger=self.logger,
            latency_model=LatencyModel(0),
        )

        self.data_client = BacktestMarketDataClient(
            client_id=ClientId("SIM"),
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.exec_client = BacktestExecClient(
            exchange=self.exchange,
            account_id=self.account_id,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        # Wire up components
        self.exchange.register_client(self.exec_client)
        self.data_engine.register_client(self.data_client)
        self.exec_engine.register_client(self.exec_client)
        self.exchange.reset()

        # Add instruments
        self.data_engine.process(AUDUSD_SIM)
        self.data_engine.process(GBPUSD_SIM)
        self.data_engine.process(USDJPY_SIM)
        self.cache.add_instrument(AUDUSD_SIM)
        self.cache.add_instrument(GBPUSD_SIM)
        self.cache.add_instrument(USDJPY_SIM)

        self.exchange.process_tick(TestStubs.quote_tick_3decimal(
            USDJPY_SIM.id))  # Prepare market

        self.data_engine.start()
        self.exec_engine.start()
Exemplo n.º 10
0
class TestRiskEngine:
    def setup(self):
        # Fixture Setup
        self.clock = TestClock()
        self.uuid_factory = UUIDFactory()
        self.logger = Logger(self.clock)

        self.trader_id = TraderId("TESTER-000")
        self.account_id = TestStubs.account_id()
        self.venue = Venue("SIM")

        self.portfolio = Portfolio(
            cache=TestStubs.cache(),
            clock=self.clock,
            logger=self.logger,
        )

        self.exec_engine = ExecutionEngine(
            portfolio=self.portfolio,
            cache=TestStubs.cache(),
            clock=self.clock,
            logger=self.logger,
        )

        self.risk_engine = RiskEngine(
            exec_engine=self.exec_engine,
            portfolio=self.portfolio,
            cache=TestStubs.cache(),
            clock=self.clock,
            logger=self.logger,
            config={},
        )

        self.exec_client = MockExecutionClient(
            client_id=ClientId(self.venue.value),
            venue_type=VenueType.ECN,
            account_id=self.account_id,
            account_type=AccountType.MARGIN,
            base_currency=USD,
            engine=self.exec_engine,
            clock=self.clock,
            logger=self.logger,
        )

        # Wire up components
        self.exec_engine.register_risk_engine(self.risk_engine)
        self.exec_engine.register_client(self.exec_client)

        # Prepare data
        self.exec_engine.cache.add_instrument(AUDUSD_SIM)

    def test_set_block_all_orders_changes_flag_value(self):
        # Arrange
        # Act
        self.risk_engine.set_block_all_orders()

        # Assert
        assert self.risk_engine.block_all_orders

    def test_given_random_command_logs_and_continues(self):
        # Arrange
        random = TradingCommand(
            self.trader_id,
            StrategyId("SCALPER-001"),
            AUDUSD_SIM.id,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        self.risk_engine.execute(random)

    def test_given_random_event_logs_and_continues(self):
        # Arrange
        random = Event(
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        self.exec_engine.process(random)

    def test_submit_order_with_default_settings_sends_to_client(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy(order_id_tag="001")
        strategy.register_trader(
            TraderId("TESTER-000"),
            self.clock,
            self.logger,
        )

        self.exec_engine.register_strategy(strategy)

        order = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
        )

        submit_order = SubmitOrder(
            self.trader_id,
            strategy.id,
            PositionId.null(),
            order,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        # Act
        self.risk_engine.execute(submit_order)

        # Assert
        assert self.exec_client.calls == ["connect", "submit_order"]

    def test_submit_bracket_with_default_settings_sends_to_client(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy(order_id_tag="001")
        strategy.register_trader(
            TraderId("TESTER-000"),
            self.clock,
            self.logger,
        )

        self.exec_engine.register_strategy(strategy)

        entry = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
        )

        bracket = strategy.order_factory.bracket(
            entry_order=entry,
            stop_loss=Price.from_str("1.00000"),
            take_profit=Price.from_str("1.00010"),
        )

        submit_bracket = SubmitBracketOrder(
            self.trader_id,
            strategy.id,
            bracket,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        # Act
        self.risk_engine.execute(submit_bracket)

        # Assert
        assert self.exec_client.calls == ["connect", "submit_bracket_order"]

    def test_submit_order_when_block_all_orders_true_then_denies_order(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy(order_id_tag="001")
        strategy.register_trader(
            TraderId("TESTER-000"),
            self.clock,
            self.logger,
        )

        self.exec_engine.register_strategy(strategy)

        order = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
        )

        submit_order = SubmitOrder(
            self.trader_id,
            strategy.id,
            PositionId.null(),
            order,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        self.risk_engine.set_block_all_orders()

        # Act
        self.risk_engine.execute(submit_order)

        # Assert
        assert self.exec_client.calls == ["connect"]
        assert self.risk_engine.command_count == 1

    def test_update_order_with_default_settings_sends_to_client(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy(order_id_tag="001")
        strategy.register_trader(
            TraderId("TESTER-000"),
            self.clock,
            self.logger,
        )

        self.exec_engine.register_strategy(strategy)

        order = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
        )

        submit = SubmitOrder(
            self.trader_id,
            strategy.id,
            PositionId.null(),
            order,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        update = UpdateOrder(
            self.trader_id,
            strategy.id,
            order.instrument_id,
            order.client_order_id,
            order.venue_order_id,
            order.quantity,
            Price.from_str("1.00010"),
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        self.risk_engine.execute(submit)

        # Act
        self.risk_engine.execute(update)

        # Assert
        assert self.exec_client.calls == [
            "connect", "submit_order", "update_order"
        ]
        assert self.risk_engine.command_count == 2
        assert self.exec_engine.command_count == 2

    def test_cancel_order_with_default_settings_sends_to_client(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy(order_id_tag="001")
        strategy.register_trader(
            TraderId("TESTER-000"),
            self.clock,
            self.logger,
        )

        self.exec_engine.register_strategy(strategy)

        order = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
        )

        submit = SubmitOrder(
            self.trader_id,
            strategy.id,
            PositionId.null(),
            order,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        cancel = CancelOrder(
            self.trader_id,
            strategy.id,
            order.instrument_id,
            order.client_order_id,
            order.venue_order_id,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        self.risk_engine.execute(submit)

        # Act
        self.risk_engine.execute(cancel)

        # Assert
        assert self.exec_client.calls == [
            "connect", "submit_order", "cancel_order"
        ]
        assert self.risk_engine.command_count == 2
        assert self.exec_engine.command_count == 2

    def test_submit_bracket_when_block_all_orders_true_then_denies_order(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy(order_id_tag="001")
        strategy.register_trader(
            TraderId("TESTER-000"),
            self.clock,
            self.logger,
        )

        self.exec_engine.register_strategy(strategy)

        entry = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
        )

        bracket = strategy.order_factory.bracket(
            entry_order=entry,
            stop_loss=Price.from_str("1.00000"),
            take_profit=Price.from_str("1.00010"),
        )

        submit_bracket = SubmitBracketOrder(
            self.trader_id,
            strategy.id,
            bracket,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        self.risk_engine.set_block_all_orders()

        # Act
        self.risk_engine.execute(submit_bracket)

        # Assert
        assert self.exec_client.calls == ["connect"]
        assert self.risk_engine.command_count == 1
        assert self.exec_engine.event_count == 3
    def setup(self):
        # Fixture Setup
        self.clock = TestClock()
        self.uuid_factory = UUIDFactory()
        self.logger = Logger(
            clock=self.clock,
            level_stdout=LogLevel.DEBUG,
        )

        self.trader_id = TestIdStubs.trader_id()
        self.account_id = TestIdStubs.account_id()
        self.venue = Venue("SIM")

        self.msgbus = MessageBus(
            trader_id=self.trader_id,
            clock=self.clock,
            logger=self.logger,
        )

        self.cache = TestComponentStubs.cache()

        self.portfolio = Portfolio(
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        config = ExecEngineConfig()
        config.allow_cash_positions = True  # Retain original behaviour for now
        self.exec_engine = ExecutionEngine(
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
            config=config,
        )

        self.risk_engine = RiskEngine(
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.exec_client = MockExecutionClient(
            client_id=ClientId(self.venue.value),
            venue=self.venue,
            account_type=AccountType.MARGIN,
            base_currency=USD,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )
        self.portfolio.update_account(TestEventStubs.margin_account_state())
        self.exec_engine.register_client(self.exec_client)

        # Prepare data
        self.cache.add_instrument(AUDUSD_SIM)
class TestRiskEngine:
    def setup(self):
        # Fixture Setup
        self.clock = TestClock()
        self.uuid_factory = UUIDFactory()
        self.logger = Logger(
            clock=self.clock,
            level_stdout=LogLevel.DEBUG,
        )

        self.trader_id = TestIdStubs.trader_id()
        self.account_id = TestIdStubs.account_id()
        self.venue = Venue("SIM")

        self.msgbus = MessageBus(
            trader_id=self.trader_id,
            clock=self.clock,
            logger=self.logger,
        )

        self.cache = TestComponentStubs.cache()

        self.portfolio = Portfolio(
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        config = ExecEngineConfig()
        config.allow_cash_positions = True  # Retain original behaviour for now
        self.exec_engine = ExecutionEngine(
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
            config=config,
        )

        self.risk_engine = RiskEngine(
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.exec_client = MockExecutionClient(
            client_id=ClientId(self.venue.value),
            venue=self.venue,
            account_type=AccountType.MARGIN,
            base_currency=USD,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )
        self.portfolio.update_account(TestEventStubs.margin_account_state())
        self.exec_engine.register_client(self.exec_client)

        # Prepare data
        self.cache.add_instrument(AUDUSD_SIM)

    def test_config_risk_engine(self):
        # Arrange
        self.msgbus.deregister("RiskEngine.execute", self.risk_engine.execute)

        config = RiskEngineConfig(
            bypass=True,  # <-- bypassing pre-trade risk checks for backtest
            max_order_rate="5/00:00:01",
            max_notional_per_order={"GBP/USD.SIM": 2_000_000},
        )

        # Act
        risk_engine = RiskEngine(
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
            config=config,
        )

        # Assert
        assert risk_engine.max_order_rate() == (5, timedelta(seconds=1))
        assert risk_engine.max_notionals_per_order() == {GBPUSD_SIM.id: Decimal("2000000")}
        assert risk_engine.max_notional_per_order(GBPUSD_SIM.id) == 2_000_000

    def test_risk_engine_on_stop(self):
        # Arrange, Act
        self.risk_engine.start()
        self.risk_engine.stop()

        # Assert
        assert self.risk_engine.is_stopped

    def test_process_event_then_handles(self):
        # Arrange
        event = Event(
            event_id=self.uuid_factory.generate(),
            ts_event=self.clock.timestamp_ns(),
            ts_init=self.clock.timestamp_ns(),
        )

        # Act
        self.risk_engine.process(event)

        # Assert
        assert self.risk_engine.event_count == 1

    def test_trading_state_after_instantiation_returns_active(self):
        # Arrange, Act
        result = self.risk_engine.trading_state

        # Assert
        assert result == TradingState.ACTIVE

    def test_set_trading_state_when_no_change_logs_warning(self):
        # Arrange, Act
        self.risk_engine.set_trading_state(TradingState.ACTIVE)

        # Assert
        assert self.risk_engine.trading_state == TradingState.ACTIVE

    def test_set_trading_state_changes_value_and_publishes_event(self):
        # Arrange
        handler = []
        self.msgbus.subscribe(topic="events.risk*", handler=handler.append)

        # Act
        self.risk_engine.set_trading_state(TradingState.HALTED)

        # Assert
        assert type(handler[0]) == TradingStateChanged
        assert self.risk_engine.trading_state == TradingState.HALTED

    def test_max_order_rate_when_no_risk_config_returns_100_per_second(self):
        # Arrange, Act
        result = self.risk_engine.max_order_rate()

        assert result == (100, timedelta(seconds=1))

    def test_max_notionals_per_order_when_no_risk_config_returns_empty_dict(self):
        # Arrange, Act
        result = self.risk_engine.max_notionals_per_order()

        assert result == {}

    def test_max_notional_per_order_when_no_risk_config_returns_none(self):
        # Arrange, Act
        result = self.risk_engine.max_notional_per_order(AUDUSD_SIM.id)

        assert result is None

    def test_set_max_notional_per_order_changes_setting(self):
        # Arrange, Act
        self.risk_engine.set_max_notional_per_order(AUDUSD_SIM.id, 1_000_000)

        max_notionals = self.risk_engine.max_notionals_per_order()
        max_notional = self.risk_engine.max_notional_per_order(AUDUSD_SIM.id)

        # Assert
        assert max_notionals == {AUDUSD_SIM.id: Decimal("1000000")}
        assert max_notional == Decimal(1_000_000)

    def test_given_random_command_then_logs_and_continues(self):
        # Arrange
        random = TradingCommand(
            client_id=None,
            trader_id=self.trader_id,
            strategy_id=StrategyId("SCALPER-001"),
            instrument_id=AUDUSD_SIM.id,
            command_id=self.uuid_factory.generate(),
            ts_init=self.clock.timestamp_ns(),
        )

        self.risk_engine.execute(random)

    def test_given_random_event_then_logs_and_continues(self):
        # Arrange
        random = Event(
            event_id=self.uuid_factory.generate(),
            ts_event=self.clock.timestamp_ns(),
            ts_init=self.clock.timestamp_ns(),
        )

        self.risk_engine.process(random)

    # -- SUBMIT ORDER TESTS ------------------------------------------------------------------------

    def test_submit_order_with_default_settings_then_sends_to_client(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy()
        strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        order = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
        )

        submit_order = SubmitOrder(
            self.trader_id,
            strategy.id,
            None,
            order,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        # Act
        self.risk_engine.execute(submit_order)

        # Assert
        assert self.exec_engine.command_count == 1
        assert self.exec_client.calls == ["_start", "submit_order"]

    def test_submit_order_when_duplicate_id_then_denies(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy()
        strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        order = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
        )

        submit_order = SubmitOrder(
            self.trader_id,
            strategy.id,
            None,
            order,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        self.risk_engine.execute(submit_order)

        # Act
        self.risk_engine.execute(submit_order)

        # Assert
        assert self.exec_engine.command_count == 1
        assert self.exec_client.calls == ["_start", "submit_order"]

    def test_submit_order_when_risk_bypassed_sends_to_execution_engine(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy()
        strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        order = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
        )

        submit_order = SubmitOrder(
            trader_id=self.trader_id,
            strategy_id=strategy.id,
            position_id=None,
            order=order,
            command_id=self.uuid_factory.generate(),
            ts_init=self.clock.timestamp_ns(),
        )

        # Act
        self.risk_engine.execute(submit_order)

        # Assert
        assert self.exec_engine.command_count == 1  # <-- initial account event
        assert self.exec_client.calls == ["_start", "submit_order"]

    def test_submit_order_when_position_already_closed_then_denies(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy()
        strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        order1 = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
        )

        order2 = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.SELL,
            Quantity.from_int(100000),
        )

        order3 = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
        )

        submit_order1 = SubmitOrder(
            trader_id=self.trader_id,
            strategy_id=strategy.id,
            position_id=None,
            order=order1,
            command_id=self.uuid_factory.generate(),
            ts_init=self.clock.timestamp_ns(),
        )

        self.risk_engine.execute(submit_order1)
        self.exec_engine.process(TestEventStubs.order_submitted(order1))
        self.exec_engine.process(TestEventStubs.order_accepted(order1))
        self.exec_engine.process(TestEventStubs.order_filled(order1, AUDUSD_SIM))

        submit_order2 = SubmitOrder(
            trader_id=self.trader_id,
            strategy_id=strategy.id,
            position_id=PositionId("P-19700101-000000-000-000-1"),
            order=order2,
            command_id=self.uuid_factory.generate(),
            ts_init=self.clock.timestamp_ns(),
        )

        self.risk_engine.execute(submit_order2)
        self.exec_engine.process(TestEventStubs.order_submitted(order2))
        self.exec_engine.process(TestEventStubs.order_accepted(order2))
        self.exec_engine.process(TestEventStubs.order_filled(order2, AUDUSD_SIM))

        submit_order3 = SubmitOrder(
            trader_id=self.trader_id,
            strategy_id=strategy.id,
            position_id=PositionId("P-19700101-000000-000-000-1"),
            order=order3,
            command_id=self.uuid_factory.generate(),
            ts_init=self.clock.timestamp_ns(),
        )

        # Act
        self.risk_engine.execute(submit_order3)

        # Assert
        assert self.exec_engine.command_count == 2
        assert self.exec_client.calls == ["_start", "submit_order", "submit_order"]

    def test_submit_order_when_position_id_not_in_cache_then_denies(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy()
        strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        order = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
        )

        submit_order = SubmitOrder(
            self.trader_id,
            strategy.id,
            PositionId("009"),  # <-- not in the cache
            order,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        # Act
        self.risk_engine.execute(submit_order)

        # Assert
        assert self.exec_engine.command_count == 0

    def test_submit_order_when_instrument_not_in_cache_then_denies(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy()
        strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        order = strategy.order_factory.market(
            GBPUSD_SIM.id,  # <-- not in the cache
            OrderSide.BUY,
            Quantity.from_int(100000),
        )

        submit_order = SubmitOrder(
            self.trader_id,
            strategy.id,
            None,
            order,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        # Act
        self.risk_engine.execute(submit_order)

        # Assert
        assert self.exec_engine.command_count == 0  # <-- command never reaches engine

    def test_submit_order_when_invalid_price_precision_then_denies(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy()
        strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        order = strategy.order_factory.limit(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
            Price.from_str("0.9999999999999999"),  # <- invalid price
        )

        submit_order = SubmitOrder(
            self.trader_id,
            strategy.id,
            None,
            order,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        # Act
        self.risk_engine.execute(submit_order)

        # Assert
        assert self.exec_engine.command_count == 0  # <-- command never reaches engine

    def test_submit_order_when_invalid_negative_price_and_not_option_then_denies(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy()
        strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        order = strategy.order_factory.limit(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
            Price.from_str("-1.0"),  # <- invalid price
        )

        submit_order = SubmitOrder(
            self.trader_id,
            strategy.id,
            None,
            order,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        # Act
        self.risk_engine.execute(submit_order)

        # Assert
        assert self.exec_engine.command_count == 0  # <-- command never reaches engine

    def test_submit_order_when_invalid_trigger_price_then_denies(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy()
        strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        order = strategy.order_factory.stop_limit(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
            Price.from_str("1.00000"),
            Price.from_str("0.999999999999999"),  # <- invalid trigger
        )

        submit_order = SubmitOrder(
            self.trader_id,
            strategy.id,
            None,
            order,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        # Act
        self.risk_engine.execute(submit_order)

        # Assert
        assert self.exec_engine.command_count == 0  # <-- command never reaches engine

    def test_submit_order_when_invalid_quantity_precision_then_denies(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy()
        strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        order = strategy.order_factory.limit(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_str("1.111111111111111111"),  # <- invalid quantity
            Price.from_str("1.00000"),
        )

        submit_order = SubmitOrder(
            self.trader_id,
            strategy.id,
            None,
            order,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        # Act
        self.risk_engine.execute(submit_order)

        # Assert
        assert self.exec_engine.command_count == 0  # <-- command never reaches engine

    def test_submit_order_when_invalid_quantity_exceeds_maximum_then_denies(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy()
        strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        order = strategy.order_factory.limit(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(1_000_000_000),  # <- invalid quantity fat finger!
            Price.from_str("1.00000"),
        )

        submit_order = SubmitOrder(
            self.trader_id,
            strategy.id,
            None,
            order,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        # Act
        self.risk_engine.execute(submit_order)

        # Assert
        assert self.exec_engine.command_count == 0  # <-- command never reaches engine

    def test_submit_order_when_invalid_quantity_less_than_minimum_then_denies(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy()
        strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        order = strategy.order_factory.limit(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(1),  # <- invalid quantity
            Price.from_str("1.00000"),
        )

        submit_order = SubmitOrder(
            self.trader_id,
            strategy.id,
            None,
            order,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        # Act
        self.risk_engine.execute(submit_order)

        # Assert
        assert self.exec_engine.command_count == 0  # <-- command never reaches engine

    def test_submit_order_when_market_order_and_no_market_then_logs_warning(self):
        # Arrange
        self.risk_engine.set_max_notional_per_order(AUDUSD_SIM.id, 1_000_000)

        self.exec_engine.start()

        strategy = TradingStrategy()
        strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        order = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(10000000),
        )

        submit_order = SubmitOrder(
            self.trader_id,
            strategy.id,
            None,
            order,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        # Act
        self.risk_engine.execute(submit_order)

        # Assert
        assert self.exec_engine.command_count == 1  # <-- command reaches engine with warning

    def test_submit_order_when_market_order_and_over_max_notional_then_denies(self):
        # Arrange
        self.risk_engine.set_max_notional_per_order(AUDUSD_SIM.id, 1_000_000)

        # Initialize market
        quote = TestDataStubs.quote_tick_5decimal(AUDUSD_SIM.id)
        self.cache.add_quote_tick(quote)

        self.exec_engine.start()

        strategy = TradingStrategy()
        strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        order = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(10000000),
        )

        submit_order = SubmitOrder(
            self.trader_id,
            strategy.id,
            None,
            order,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        # Act
        self.risk_engine.execute(submit_order)

        # Assert
        assert self.exec_engine.command_count == 0  # <-- command never reaches engine

    def test_submit_order_when_reducing_and_buy_order_adds_then_denies(self):
        # Arrange
        self.risk_engine.set_max_notional_per_order(AUDUSD_SIM.id, 1_000_000)

        # Initialize market
        quote = TestDataStubs.quote_tick_5decimal(AUDUSD_SIM.id)
        self.cache.add_quote_tick(quote)

        self.exec_engine.start()

        strategy = TradingStrategy()
        strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        order1 = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
        )

        submit_order1 = SubmitOrder(
            self.trader_id,
            strategy.id,
            None,
            order1,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        self.risk_engine.execute(submit_order1)
        self.risk_engine.set_trading_state(TradingState.REDUCING)  # <-- allow reducing orders only

        order2 = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
        )

        submit_order2 = SubmitOrder(
            self.trader_id,
            strategy.id,
            None,
            order2,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        self.exec_engine.process(TestEventStubs.order_submitted(order1))
        self.exec_engine.process(TestEventStubs.order_accepted(order1))
        self.exec_engine.process(TestEventStubs.order_filled(order1, AUDUSD_SIM))

        # Act
        self.risk_engine.execute(submit_order2)

        # Assert
        assert self.portfolio.is_net_long(AUDUSD_SIM.id)
        assert self.exec_engine.command_count == 1  # <-- command never reaches engine

    def test_submit_order_when_reducing_and_sell_order_adds_then_denies(self):
        # Arrange
        self.risk_engine.set_max_notional_per_order(AUDUSD_SIM.id, 1_000_000)

        # Initialize market
        quote = TestDataStubs.quote_tick_5decimal(AUDUSD_SIM.id)
        self.cache.add_quote_tick(quote)

        self.exec_engine.start()

        strategy = TradingStrategy()
        strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        order1 = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.SELL,
            Quantity.from_int(100000),
        )

        submit_order1 = SubmitOrder(
            self.trader_id,
            strategy.id,
            None,
            order1,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        self.risk_engine.execute(submit_order1)
        self.risk_engine.set_trading_state(TradingState.REDUCING)  # <-- allow reducing orders only

        order2 = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.SELL,
            Quantity.from_int(100000),
        )

        submit_order2 = SubmitOrder(
            self.trader_id,
            strategy.id,
            None,
            order2,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        self.exec_engine.process(TestEventStubs.order_submitted(order1))
        self.exec_engine.process(TestEventStubs.order_accepted(order1))
        self.exec_engine.process(TestEventStubs.order_filled(order1, AUDUSD_SIM))

        # Act
        self.risk_engine.execute(submit_order2)

        # Assert
        assert self.portfolio.is_net_short(AUDUSD_SIM.id)
        assert self.exec_engine.command_count == 1  # <-- command never reaches engine

    def test_submit_order_when_trading_halted_then_denies_order(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy()
        strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        order = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
        )

        submit_order = SubmitOrder(
            self.trader_id,
            strategy.id,
            None,
            order,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        # Halt trading
        self.risk_engine.set_trading_state(TradingState.HALTED)

        # Act
        self.risk_engine.execute(submit_order)

        # Assert
        assert self.risk_engine.command_count == 1  # <-- command never reaches engine

    def test_submit_order_list_when_trading_halted_then_denies_orders(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy()
        strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        entry = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
        )

        stop_loss = strategy.order_factory.stop_market(  # <-- duplicate
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
            Price.from_str("1.00000"),
        )

        take_profit = strategy.order_factory.limit(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
            Price.from_str("1.10000"),
        )

        bracket = OrderList(
            list_id=OrderListId("1"),
            orders=[entry, stop_loss, take_profit],
        )

        submit_bracket = SubmitOrderList(
            self.trader_id,
            strategy.id,
            bracket,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        # Halt trading
        self.risk_engine.set_trading_state(TradingState.HALTED)

        # Act
        self.risk_engine.execute(submit_bracket)

        # Assert
        assert self.risk_engine.command_count == 1  # <-- command never reaches engine

    # -- SUBMIT BRACKET ORDER TESTS ----------------------------------------------------------------

    def test_submit_bracket_with_default_settings_sends_to_client(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy()
        strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        bracket = strategy.order_factory.bracket_market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
            stop_loss=Price.from_str("1.00000"),
            take_profit=Price.from_str("1.00010"),
        )

        submit_bracket = SubmitOrderList(
            self.trader_id,
            strategy.id,
            bracket,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        # Act
        self.risk_engine.execute(submit_bracket)

        # Assert
        assert self.exec_engine.command_count == 1
        assert self.exec_client.calls == ["_start", "submit_order_list"]

    def test_submit_bracket_order_with_duplicate_entry_id_then_denies(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy()
        strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        bracket = strategy.order_factory.bracket_market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
            stop_loss=Price.from_str("1.00000"),
            take_profit=Price.from_str("1.00010"),
        )

        submit_bracket = SubmitOrderList(
            self.trader_id,
            strategy.id,
            bracket,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        self.risk_engine.execute(submit_bracket)

        # Act
        self.risk_engine.execute(submit_bracket)

        # Assert
        assert self.exec_engine.command_count == 1  # <-- command never reaches engine

    def test_submit_bracket_order_with_duplicate_stop_loss_id_then_denies(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy()
        strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        entry1 = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
        )

        stop_loss = strategy.order_factory.stop_market(  # <-- duplicate
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
            Price.from_str("1.00000"),
        )

        take_profit1 = strategy.order_factory.limit(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
            Price.from_str("1.10000"),
        )

        entry2 = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
        )

        take_profit2 = strategy.order_factory.limit(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
            Price.from_str("1.10000"),
        )

        bracket1 = OrderList(
            list_id=OrderListId("1"),
            orders=[entry1, stop_loss, take_profit1],
        )

        bracket2 = OrderList(
            list_id=OrderListId("1"),
            orders=[entry2, stop_loss, take_profit2],
        )

        submit_bracket1 = SubmitOrderList(
            self.trader_id,
            strategy.id,
            bracket1,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        submit_bracket2 = SubmitOrderList(
            self.trader_id,
            strategy.id,
            bracket2,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        self.risk_engine.execute(submit_bracket1)

        # Act
        self.risk_engine.execute(submit_bracket2)

        # Assert
        assert self.exec_engine.command_count == 1  # <-- command never reaches engine

    def test_submit_bracket_order_with_duplicate_take_profit_id_then_denies(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy()
        strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        entry1 = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
        )

        stop_loss1 = strategy.order_factory.stop_market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
            Price.from_str("1.00000"),
        )

        take_profit = strategy.order_factory.limit(  # <-- duplicate
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
            Price.from_str("1.10000"),
        )

        entry2 = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
        )

        stop_loss2 = strategy.order_factory.stop_market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
            Price.from_str("1.00000"),
        )

        bracket1 = OrderList(
            list_id=OrderListId("1"),
            orders=[entry1, stop_loss1, take_profit],
        )

        bracket2 = OrderList(
            list_id=OrderListId("1"),
            orders=[entry2, stop_loss2, take_profit],
        )

        submit_bracket1 = SubmitOrderList(
            self.trader_id,
            strategy.id,
            bracket1,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        submit_bracket2 = SubmitOrderList(
            self.trader_id,
            strategy.id,
            bracket2,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        self.risk_engine.execute(submit_bracket1)

        # Act
        self.risk_engine.execute(submit_bracket2)

        # Assert
        assert self.exec_engine.command_count == 1  # <-- command never reaches engine

    def test_submit_bracket_order_when_instrument_not_in_cache_then_denies(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy()
        strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        bracket = strategy.order_factory.bracket_market(
            GBPUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
            stop_loss=Price.from_str("1.00000"),
            take_profit=Price.from_str("1.00010"),
        )

        submit_bracket = SubmitOrderList(
            self.trader_id,
            strategy.id,
            bracket,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        # Act
        self.risk_engine.execute(submit_bracket)

        # Assert
        assert self.exec_engine.command_count == 0  # <-- command never reaches engine

    # -- UPDATE ORDER TESTS ------------------------------------------------------------------------

    def test_update_order_when_no_order_found_denies(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy()
        strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        modify = ModifyOrder(
            self.trader_id,
            strategy.id,
            AUDUSD_SIM.id,
            ClientOrderId("invalid"),
            VenueOrderId("1"),
            Quantity.from_int(100000),
            Price.from_str("1.00010"),
            None,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        # Act
        self.risk_engine.execute(modify)

        # Assert
        assert self.exec_client.calls == ["_start"]
        assert self.risk_engine.command_count == 1
        assert self.exec_engine.command_count == 0

    def test_update_order_when_already_closed_then_denies(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy()
        strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        order = strategy.order_factory.stop_market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
            Price.from_str("1.00010"),
        )

        submit = SubmitOrder(
            self.trader_id,
            strategy.id,
            None,
            order,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        self.risk_engine.execute(submit)

        self.exec_engine.process(TestEventStubs.order_submitted(order))
        self.exec_engine.process(TestEventStubs.order_accepted(order))
        self.exec_engine.process(TestEventStubs.order_filled(order, AUDUSD_SIM))

        modify = ModifyOrder(
            self.trader_id,
            strategy.id,
            order.instrument_id,
            order.client_order_id,
            VenueOrderId("1"),
            order.quantity,
            Price.from_str("1.00010"),
            None,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        # Act
        self.risk_engine.execute(modify)

        # Assert
        assert self.exec_client.calls == ["_start", "submit_order"]
        assert self.risk_engine.command_count == 2
        assert self.exec_engine.command_count == 1

    def test_update_order_when_in_flight_then_denies(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy()
        strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        order = strategy.order_factory.stop_market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
            Price.from_str("1.00010"),
        )

        submit = SubmitOrder(
            self.trader_id,
            strategy.id,
            None,
            order,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        self.risk_engine.execute(submit)

        self.exec_engine.process(TestEventStubs.order_submitted(order))

        modify = ModifyOrder(
            self.trader_id,
            strategy.id,
            order.instrument_id,
            order.client_order_id,
            VenueOrderId("1"),
            order.quantity,
            Price.from_str("1.00010"),
            None,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        # Act
        self.risk_engine.execute(modify)

        # Assert
        assert self.exec_client.calls == ["_start", "submit_order"]
        assert self.risk_engine.command_count == 2
        assert self.exec_engine.command_count == 1

    def test_modify_order_with_default_settings_then_sends_to_client(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy()
        strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        order = strategy.order_factory.stop_market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
            Price.from_str("1.00010"),
        )

        submit = SubmitOrder(
            self.trader_id,
            strategy.id,
            None,
            order,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        modify = ModifyOrder(
            self.trader_id,
            strategy.id,
            order.instrument_id,
            order.client_order_id,
            VenueOrderId("1"),
            order.quantity,
            Price.from_str("1.00010"),
            None,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        self.risk_engine.execute(submit)

        # Act
        self.risk_engine.execute(modify)

        # Assert
        assert self.exec_client.calls == ["_start", "submit_order", "modify_order"]
        assert self.risk_engine.command_count == 2
        assert self.exec_engine.command_count == 2

    # -- CANCEL ORDER TESTS ------------------------------------------------------------------------

    def test_cancel_order_when_order_does_not_exist_then_denies(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy()
        strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        cancel = CancelOrder(
            self.trader_id,
            strategy.id,
            AUDUSD_SIM.id,
            ClientOrderId("1"),
            VenueOrderId("1"),
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        # Act
        self.risk_engine.execute(cancel)

        # Assert
        assert self.exec_client.calls == ["_start"]
        assert self.risk_engine.command_count == 1
        assert self.exec_engine.command_count == 0

    def test_cancel_order_when_already_closed_then_denies(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy()
        strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        order = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
        )

        submit = SubmitOrder(
            self.trader_id,
            strategy.id,
            None,
            order,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        self.risk_engine.execute(submit)
        self.exec_engine.process(TestEventStubs.order_submitted(order))
        self.exec_engine.process(TestEventStubs.order_rejected(order))

        cancel = CancelOrder(
            self.trader_id,
            strategy.id,
            order.instrument_id,
            order.client_order_id,
            VenueOrderId("1"),
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        # Act
        self.risk_engine.execute(cancel)

        # Assert
        assert self.exec_client.calls == ["_start", "submit_order"]
        assert self.risk_engine.command_count == 2
        assert self.exec_engine.command_count == 1

    def test_cancel_order_when_already_pending_cancel_then_denies(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy()
        strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        order = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
        )

        submit = SubmitOrder(
            self.trader_id,
            strategy.id,
            None,
            order,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        cancel = CancelOrder(
            self.trader_id,
            strategy.id,
            order.instrument_id,
            order.client_order_id,
            VenueOrderId("1"),
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        self.risk_engine.execute(submit)
        self.exec_engine.process(TestEventStubs.order_submitted(order))
        self.exec_engine.process(TestEventStubs.order_accepted(order))

        self.risk_engine.execute(cancel)
        self.exec_engine.process(TestEventStubs.order_pending_cancel(order))

        # Act
        self.risk_engine.execute(cancel)

        # Assert
        assert self.exec_client.calls == ["_start", "submit_order", "cancel_order"]
        assert self.risk_engine.command_count == 3
        assert self.exec_engine.command_count == 2

    def test_cancel_order_with_default_settings_then_sends_to_client(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy()
        strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        order = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity.from_int(100000),
        )

        submit = SubmitOrder(
            self.trader_id,
            strategy.id,
            None,
            order,
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        cancel = CancelOrder(
            self.trader_id,
            strategy.id,
            order.instrument_id,
            order.client_order_id,
            VenueOrderId("1"),
            self.uuid_factory.generate(),
            self.clock.timestamp_ns(),
        )

        self.risk_engine.execute(submit)

        # Act
        self.risk_engine.execute(cancel)

        # Assert
        assert self.exec_client.calls == ["_start", "submit_order", "cancel_order"]
        assert self.risk_engine.command_count == 2
        assert self.exec_engine.command_count == 2
Exemplo n.º 13
0
    def setup(self):
        # Fixture Setup
        self.loop = asyncio.get_event_loop()
        self.loop.set_debug(True)

        self.clock = LiveClock()
        self.uuid_factory = UUIDFactory()
        self.logger = Logger(clock=self.clock)

        self.trader_id = TestIdStubs.trader_id()
        self.venue = BINANCE_VENUE
        self.account_id = AccountId(self.venue.value, "001")

        self.msgbus = MessageBus(
            trader_id=self.trader_id,
            clock=self.clock,
            logger=self.logger,
        )

        self.cache = TestComponentStubs.cache()

        self.http_client = BinanceHttpClient(  # noqa: S106 (no hardcoded password)
            loop=asyncio.get_event_loop(),
            clock=self.clock,
            logger=self.logger,
            key="SOME_BINANCE_API_KEY",
            secret="SOME_BINANCE_API_SECRET",
        )

        self.provider = BinanceSpotInstrumentProvider(
            client=self.http_client,
            logger=self.logger,
            config=InstrumentProviderConfig(load_all=True),
        )

        self.portfolio = Portfolio(
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.data_engine = DataEngine(
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.exec_engine = ExecutionEngine(
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.risk_engine = RiskEngine(
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.exec_client = BinanceSpotExecutionClient(
            loop=self.loop,
            client=self.http_client,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
            instrument_provider=self.provider,
            account_type=BinanceAccountType.SPOT,
        )

        self.strategy = TradingStrategy()
        self.strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )
Exemplo n.º 14
0
    def setup(self):
        # Fixture Setup
        self.clock = TestClock()
        self.logger = Logger(self.clock)

        self.trader_id = TestStubs.trader_id()

        self.msgbus = MessageBus(
            trader_id=self.trader_id,
            clock=self.clock,
            logger=self.logger,
        )

        self.cache = TestStubs.cache()

        self.portfolio = Portfolio(
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.data_engine = DataEngine(
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.exec_engine = ExecutionEngine(
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.risk_engine = RiskEngine(
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.strategy = TradingStrategy()
        self.strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.database = RedisCacheDatabase(
            trader_id=self.trader_id,
            logger=self.logger,
            serializer=MsgPackSerializer(timestamps_as_str=True),
        )

        self.test_redis = redis.Redis(host="localhost", port=6379, db=0)
Exemplo n.º 15
0
    def setUp(self):
        # Fixture Setup
        clock = TestClock()
        logger = Logger(clock)

        trader_id = TraderId("TESTER", "000")
        account_id = TestStubs.account_id()

        self.portfolio = Portfolio(
            clock=clock,
            logger=logger,
        )

        self.data_engine = DataEngine(
            portfolio=self.portfolio,
            clock=clock,
            logger=logger,
            config={"use_previous_close": False},
        )

        self.portfolio.register_cache(self.data_engine.cache)
        self.analyzer = PerformanceAnalyzer()

        self.exec_db = BypassExecutionDatabase(
            trader_id=trader_id,
            logger=logger,
        )

        self.exec_engine = ExecutionEngine(
            database=self.exec_db,
            portfolio=self.portfolio,
            clock=clock,
            logger=logger,
        )

        self.exchange = SimulatedExchange(
            venue=Venue("SIM"),
            oms_type=OMSType.HEDGING,
            is_frozen_account=False,
            starting_balances=[Money(1_000_000, USD)],
            exec_cache=self.exec_engine.cache,
            instruments=[USDJPY_SIM],
            modules=[],
            fill_model=FillModel(),
            clock=clock,
            logger=logger,
        )

        self.data_client = BacktestMarketDataClient(
            instruments=[USDJPY_SIM],
            client_id=ClientId("SIM"),
            engine=self.data_engine,
            clock=clock,
            logger=logger,
        )

        self.data_engine.register_client(self.data_client)

        self.exec_client = BacktestExecClient(
            exchange=self.exchange,
            account_id=account_id,
            engine=self.exec_engine,
            clock=clock,
            logger=logger,
        )

        self.risk_engine = RiskEngine(
            exec_engine=self.exec_engine,
            portfolio=self.portfolio,
            clock=clock,
            logger=logger,
        )

        self.exec_engine.register_risk_engine(self.risk_engine)
        self.exec_engine.register_client(self.exec_client)

        strategies = [
            TradingStrategy("001"),
            TradingStrategy("002"),
        ]

        self.trader = Trader(
            trader_id=trader_id,
            strategies=strategies,
            portfolio=self.portfolio,
            data_engine=self.data_engine,
            exec_engine=self.exec_engine,
            risk_engine=self.risk_engine,
            clock=clock,
            logger=logger,
        )
Exemplo n.º 16
0
    def setup(self):
        # Fixture Setup
        self.clock = TestClock()
        self.logger = Logger(self.clock)

        self.trader_id = TestStubs.trader_id()
        self.account_id = TestStubs.account_id()

        self.msgbus = MessageBus(
            trader_id=self.trader_id,
            clock=self.clock,
            logger=self.logger,
        )

        self.cache = TestStubs.cache()

        self.portfolio = Portfolio(
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.data_engine = DataEngine(
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.data_engine.process(USDJPY_SIM)

        self.exec_engine = ExecutionEngine(
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.exchange = SimulatedExchange(
            venue=Venue("SIM"),
            venue_type=VenueType.ECN,
            oms_type=OMSType.HEDGING,
            account_type=AccountType.MARGIN,
            base_currency=USD,
            starting_balances=[Money(1_000_000, USD)],
            default_leverage=Decimal(50),
            leverages={},
            is_frozen_account=False,
            cache=self.cache,
            instruments=[USDJPY_SIM],
            modules=[],
            fill_model=FillModel(),
            clock=self.clock,
            logger=self.logger,
        )

        self.data_client = BacktestMarketDataClient(
            client_id=ClientId("SIM"),
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.exec_client = BacktestExecClient(
            exchange=self.exchange,
            account_id=self.account_id,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.risk_engine = RiskEngine(
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        # Wire up components
        self.data_engine.register_client(self.data_client)
        self.exec_engine.register_client(self.exec_client)

        self.trader = Trader(
            trader_id=self.trader_id,
            msgbus=self.msgbus,
            cache=self.cache,
            portfolio=self.portfolio,
            data_engine=self.data_engine,
            risk_engine=self.risk_engine,
            exec_engine=self.exec_engine,
            clock=self.clock,
            logger=self.logger,
        )
Exemplo n.º 17
0
class TestRiskEngine:

    def setup(self):
        # Fixture Setup
        self.clock = TestClock()
        self.uuid_factory = UUIDFactory()
        self.logger = TestLogger(self.clock)

        self.trader_id = TraderId("TESTER", "000")
        self.account_id = TestStubs.account_id()
        self.venue = Venue("SIM")

        self.portfolio = Portfolio(
            clock=self.clock,
            logger=self.logger,
        )
        self.portfolio.register_cache(DataCache(self.logger))

        self.database = MockExecutionDatabase(trader_id=self.trader_id, logger=self.logger)
        self.exec_engine = ExecutionEngine(
            database=self.database,
            portfolio=self.portfolio,
            clock=self.clock,
            logger=self.logger,
        )

        self.exec_client = MockExecutionClient(
            self.venue,
            self.account_id,
            self.exec_engine,
            self.clock,
            self.logger,
        )

        self.risk_engine = RiskEngine(
            exec_engine=self.exec_engine,
            portfolio=self.portfolio,
            clock=self.clock,
            logger=self.logger,
            config={},
        )

        self.exec_engine.register_client(self.exec_client)
        self.exec_engine.register_risk_engine(self.risk_engine)

    def test_registered_clients_returns_expected_list(self):
        # Arrange
        # Act
        result = self.risk_engine.registered_clients

        # Assert
        assert result == [Venue('SIM')]

    def test_set_block_all_orders_changes_flag_value(self):
        # Arrange
        # Act
        self.risk_engine.set_block_all_orders()

        # Assert
        assert self.risk_engine.block_all_orders

    def test_given_random_command_logs_and_continues(self):
        # Arrange
        random = TradingCommand(
            self.venue,
            self.uuid_factory.generate(),
            self.clock.utc_now(),
        )

        self.risk_engine.execute(random)

    def test_given_random_event_logs_and_continues(self):
        # Arrange
        random = Event(
            self.uuid_factory.generate(),
            self.clock.utc_now(),
        )

        self.exec_engine.process(random)

    def test_submit_order_with_default_settings_sends_to_client(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy(order_id_tag="001")
        strategy.register_trader(
            TraderId("TESTER", "000"),
            self.clock,
            self.logger,
        )

        self.exec_engine.register_strategy(strategy)

        order = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity(100000),
        )

        submit_order = SubmitOrder(
            self.venue,
            self.trader_id,
            self.account_id,
            strategy.id,
            PositionId.null(),
            order,
            self.uuid_factory.generate(),
            self.clock.utc_now(),
        )

        # Act
        self.risk_engine.execute(submit_order)

        # Assert
        assert self.exec_client.calls == ['connect', 'submit_order']

    def test_submit_bracket_with_default_settings_sends_to_client(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy(order_id_tag="001")
        strategy.register_trader(
            TraderId("TESTER", "000"),
            self.clock,
            self.logger,
        )

        self.exec_engine.register_strategy(strategy)

        entry = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity(100000),
        )

        bracket = strategy.order_factory.bracket(
            entry_order=entry,
            stop_loss=Price("1.00000"),
            take_profit=Price("1.00010"),
        )

        submit_bracket = SubmitBracketOrder(
            self.venue,
            self.trader_id,
            self.account_id,
            strategy.id,
            bracket,
            self.uuid_factory.generate(),
            self.clock.utc_now(),
        )

        # Act
        self.risk_engine.execute(submit_bracket)

        # Assert
        assert self.exec_client.calls == ['connect', 'submit_bracket_order']

    def test_submit_order_when_block_all_orders_true_then_denies_order(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy(order_id_tag="001")
        strategy.register_trader(
            TraderId("TESTER", "000"),
            self.clock,
            self.logger,
        )

        self.exec_engine.register_strategy(strategy)

        order = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity(100000),
        )

        submit_order = SubmitOrder(
            self.venue,
            self.trader_id,
            self.account_id,
            strategy.id,
            PositionId.null(),
            order,
            self.uuid_factory.generate(),
            self.clock.utc_now(),
        )

        self.risk_engine.set_block_all_orders()

        # Act
        self.exec_engine.execute(submit_order)

        # Assert
        assert self.exec_client.calls == ['connect']
        assert self.exec_engine.event_count == 1

    def test_amend_order_with_default_settings_sends_to_client(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy(order_id_tag="001")
        strategy.register_trader(
            TraderId("TESTER", "000"),
            self.clock,
            self.logger,
        )

        self.exec_engine.register_strategy(strategy)

        order = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity(100000),
        )

        submit = SubmitOrder(
            self.venue,
            self.trader_id,
            self.account_id,
            strategy.id,
            PositionId.null(),
            order,
            self.uuid_factory.generate(),
            self.clock.utc_now(),
        )

        amend = AmendOrder(
            self.venue,
            self.trader_id,
            self.account_id,
            order.cl_ord_id,
            order.quantity,
            Price("1.00010"),
            self.uuid_factory.generate(),
            self.clock.utc_now(),
        )

        self.risk_engine.execute(submit)

        # Act
        self.risk_engine.execute(amend)

        # Assert
        assert self.exec_client.calls == ['connect', 'submit_order', 'amend_order']

    def test_cancel_order_with_default_settings_sends_to_client(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy(order_id_tag="001")
        strategy.register_trader(
            TraderId("TESTER", "000"),
            self.clock,
            self.logger,
        )

        self.exec_engine.register_strategy(strategy)

        order = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity(100000),
        )

        submit = SubmitOrder(
            self.venue,
            self.trader_id,
            self.account_id,
            strategy.id,
            PositionId.null(),
            order,
            self.uuid_factory.generate(),
            self.clock.utc_now(),
        )

        cancel = CancelOrder(
            self.venue,
            self.trader_id,
            self.account_id,
            order.cl_ord_id,
            order.id,
            self.uuid_factory.generate(),
            self.clock.utc_now(),
        )

        self.risk_engine.execute(submit)

        # Act
        self.risk_engine.execute(cancel)

        # Assert
        assert self.exec_client.calls == ['connect', 'submit_order', 'cancel_order']

    def test_submit_bracket_when_block_all_orders_true_then_denies_order(self):
        # Arrange
        self.exec_engine.start()

        strategy = TradingStrategy(order_id_tag="001")
        strategy.register_trader(
            TraderId("TESTER", "000"),
            self.clock,
            self.logger,
        )

        self.exec_engine.register_strategy(strategy)

        entry = strategy.order_factory.market(
            AUDUSD_SIM.id,
            OrderSide.BUY,
            Quantity(100000),
        )

        bracket = strategy.order_factory.bracket(
            entry_order=entry,
            stop_loss=Price("1.00000"),
            take_profit=Price("1.00010"),
        )

        submit_bracket = SubmitBracketOrder(
            self.venue,
            self.trader_id,
            self.account_id,
            strategy.id,
            bracket,
            self.uuid_factory.generate(),
            self.clock.utc_now(),
        )

        self.risk_engine.set_block_all_orders()

        # Act
        self.exec_engine.execute(submit_bracket)

        # Assert
        assert self.exec_client.calls == ['connect']
        assert self.exec_engine.event_count == 3
Exemplo n.º 18
0
    def setup(self):
        # Fixture Setup
        self.clock = TestClock()
        self.uuid_factory = UUIDFactory()
        self.logger = Logger(
            clock=self.clock,
            level_stdout=LogLevel.DEBUG,
        )

        self.trader_id = TestIdStubs.trader_id()

        self.msgbus = MessageBus(
            trader_id=self.trader_id,
            clock=self.clock,
            logger=self.logger,
        )

        self.cache = TestComponentStubs.cache()

        self.portfolio = Portfolio(
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.data_engine = DataEngine(
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.exec_engine = ExecutionEngine(
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.risk_engine = RiskEngine(
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.exchange = SimulatedExchange(
            venue=SIM,
            oms_type=OMSType.HEDGING,
            account_type=AccountType.MARGIN,
            base_currency=USD,
            starting_balances=[Money(1_000_000, USD)],
            default_leverage=Decimal(50),
            leverages={},
            is_frozen_account=False,
            instruments=[USDJPY_SIM],
            modules=[],
            fill_model=FillModel(),
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
            book_type=BookType.L2_MBP,
            latency_model=LatencyModel(0),
        )

        self.exec_client = BacktestExecClient(
            exchange=self.exchange,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        # Prepare components
        self.cache.add_instrument(USDJPY_SIM)
        self.cache.add_order_book(
            OrderBook.create(
                instrument=USDJPY_SIM,
                book_type=BookType.L2_MBP,
            ))

        self.exec_engine.register_client(self.exec_client)
        self.exchange.register_client(self.exec_client)

        self.strategy = MockStrategy(
            bar_type=TestDataStubs.bartype_usdjpy_1min_bid())
        self.strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.exchange.reset()
        self.data_engine.start()
        self.exec_engine.start()
        self.strategy.start()