trading/tests/integration/test_trading_flow.py

"""Integration test: signal generator -> trade executor flow.

Publishes a mock TradeSignal to the ``signals:generated`` Redis stream
and verifies that a TradeExecution appears on ``trades:executed``.

Requires a running Redis instance (from docker-compose).
The Alpaca broker is mocked.

Run with:
    pytest tests/integration/test_trading_flow.py -v -m integration
"""

from __future__ import annotations

import json
import uuid
from datetime import datetime, timezone
from unittest.mock import AsyncMock, patch

import pytest
from redis.asyncio import Redis

from shared.redis_streams import StreamPublisher
from shared.schemas.trading import (
    AccountInfo,
    OrderResult,
    OrderSide,
    OrderStatus,
    PositionInfo,
    SignalDirection,
    TradeExecution,
    TradeSignal,
)
from services.trade_executor.config import TradeExecutorConfig
from services.trade_executor.main import process_signal
from services.trade_executor.risk_manager import RiskManager

# ---------------------------------------------------------------------------
# Fixtures
# ---------------------------------------------------------------------------

REDIS_URL = "redis://localhost:6379/1"  # Use DB 1 to avoid conflicts

SIGNALS_STREAM = "test:signals:generated"
TRADES_STREAM = "test:trades:executed"


@pytest.fixture
async def redis_client():
    """Provide a clean Redis connection on DB 1 and clean up streams after."""
    client = Redis.from_url(REDIS_URL, decode_responses=False)
    await client.delete(SIGNALS_STREAM, TRADES_STREAM)
    yield client
    await client.delete(SIGNALS_STREAM, TRADES_STREAM)
    await client.aclose()


@pytest.fixture
def sample_signal() -> TradeSignal:
    """Return a sample trade signal for AAPL."""
    return TradeSignal(
        ticker="AAPL",
        direction=SignalDirection.LONG,
        strength=0.8,
        strategy_sources=["momentum", "news_driven"],
        sentiment_context={"avg_score": 0.85, "current_price": 190.50},
        timestamp=datetime.now(timezone.utc),
    )


@pytest.fixture
def mock_account() -> AccountInfo:
    """Return a mock account with 100k equity."""
    return AccountInfo(
        equity=100_000.0,
        cash=50_000.0,
        buying_power=100_000.0,
        portfolio_value=100_000.0,
    )


@pytest.fixture
def mock_order_result() -> OrderResult:
    """Return a mock filled order result."""
    return OrderResult(
        order_id="test-order-001",
        ticker="AAPL",
        side=OrderSide.BUY,
        qty=20.0,
        filled_price=190.50,
        status=OrderStatus.FILLED,
        timestamp=datetime.now(timezone.utc),
    )


# ---------------------------------------------------------------------------
# Mock counters
# ---------------------------------------------------------------------------


class _FakeCounter:
    def __init__(self):
        self.total = 0
        self.attrs: list[dict] = []

    def add(self, amount: int = 1, attributes: dict | None = None):
        self.total += amount
        if attributes:
            self.attrs.append(attributes)


class _FakeHistogram:
    def __init__(self):
        self.values: list[float] = []

    def record(self, value: float, attributes: dict | None = None):
        self.values.append(value)


def _make_counters() -> dict:
    return {
        "trades_executed": _FakeCounter(),
        "rejections": _FakeCounter(),
        "fill_latency": _FakeHistogram(),
    }


# ---------------------------------------------------------------------------
# Tests
# ---------------------------------------------------------------------------


@pytest.mark.integration
@pytest.mark.asyncio
async def test_signal_produces_trade_execution(
    redis_client: Redis,
    sample_signal: TradeSignal,
    mock_account: AccountInfo,
    mock_order_result: OrderResult,
):
    """Process a trade signal through the executor and verify a
    TradeExecution is published to the trades:executed stream.
    """
    publisher = StreamPublisher(redis_client, TRADES_STREAM)
    counters = _make_counters()

    # Create mock broker
    mock_broker = AsyncMock()
    mock_broker.get_account = AsyncMock(return_value=mock_account)
    mock_broker.get_positions = AsyncMock(return_value=[])
    mock_broker.submit_order = AsyncMock(return_value=mock_order_result)

    # Create risk manager with the mock broker, patching market hours check
    config = TradeExecutorConfig()
    risk_manager = RiskManager(config, mock_broker)

    # Patch _is_market_hours to always return True
    with patch.object(RiskManager, "_is_market_hours", return_value=True):
        await process_signal(
            sample_signal,
            risk_manager,
            mock_broker,
            publisher,
            counters,
        )

    # Verify the broker was called
    mock_broker.submit_order.assert_called_once()
    order_arg = mock_broker.submit_order.call_args[0][0]
    assert order_arg.ticker == "AAPL"
    assert order_arg.side == OrderSide.BUY

    # Verify a TradeExecution was published
    messages = await redis_client.xrange(TRADES_STREAM)
    assert len(messages) == 1

    _msg_id, fields = messages[0]
    data = json.loads(fields[b"data"])
    execution = TradeExecution.model_validate(data)

    assert execution.ticker == "AAPL"
    assert execution.side == OrderSide.BUY
    assert execution.qty == 20.0
    assert execution.price == 190.50
    assert execution.status == OrderStatus.FILLED

    # Counter checks
    assert counters["trades_executed"].total == 1
    assert len(counters["fill_latency"].values) == 1


@pytest.mark.integration
@pytest.mark.asyncio
async def test_short_signal_produces_sell_execution(
    redis_client: Redis,
    mock_account: AccountInfo,
):
    """A SHORT signal should produce a SELL order."""
    short_signal = TradeSignal(
        ticker="TSLA",
        direction=SignalDirection.SHORT,
        strength=0.7,
        strategy_sources=["mean_reversion"],
        sentiment_context={"avg_score": -0.6, "current_price": 250.00},
        timestamp=datetime.now(timezone.utc),
    )

    sell_result = OrderResult(
        order_id="test-order-002",
        ticker="TSLA",
        side=OrderSide.SELL,
        qty=14.0,
        filled_price=250.00,
        status=OrderStatus.FILLED,
        timestamp=datetime.now(timezone.utc),
    )

    publisher = StreamPublisher(redis_client, TRADES_STREAM)
    counters = _make_counters()

    mock_broker = AsyncMock()
    mock_broker.get_account = AsyncMock(return_value=mock_account)
    mock_broker.get_positions = AsyncMock(return_value=[])
    mock_broker.submit_order = AsyncMock(return_value=sell_result)

    config = TradeExecutorConfig()
    risk_manager = RiskManager(config, mock_broker)

    with patch.object(RiskManager, "_is_market_hours", return_value=True):
        await process_signal(
            short_signal,
            risk_manager,
            mock_broker,
            publisher,
            counters,
        )

    messages = await redis_client.xrange(TRADES_STREAM)
    assert len(messages) == 1

    _msg_id, fields = messages[0]
    data = json.loads(fields[b"data"])
    execution = TradeExecution.model_validate(data)

    assert execution.ticker == "TSLA"
    assert execution.side == OrderSide.SELL
    assert execution.status == OrderStatus.FILLED


@pytest.mark.integration
@pytest.mark.asyncio
async def test_risk_rejection_does_not_publish(
    redis_client: Redis,
    sample_signal: TradeSignal,
    mock_account: AccountInfo,
):
    """When risk checks fail (outside market hours), no TradeExecution
    should be published.
    """
    publisher = StreamPublisher(redis_client, TRADES_STREAM)
    counters = _make_counters()

    mock_broker = AsyncMock()
    mock_broker.get_account = AsyncMock(return_value=mock_account)
    mock_broker.get_positions = AsyncMock(return_value=[])

    config = TradeExecutorConfig()
    risk_manager = RiskManager(config, mock_broker)

    # Market is closed -> risk check fails
    with patch.object(RiskManager, "_is_market_hours", return_value=False):
        await process_signal(
            sample_signal,
            risk_manager,
            mock_broker,
            publisher,
            counters,
        )

    # No order should have been submitted
    mock_broker.submit_order.assert_not_called()

    # No messages on the trades stream
    messages = await redis_client.xrange(TRADES_STREAM)
    assert len(messages) == 0

    # Rejection counter should be incremented
    assert counters["rejections"].total == 1


@pytest.mark.integration
@pytest.mark.asyncio
async def test_max_positions_rejection(
    redis_client: Redis,
    sample_signal: TradeSignal,
    mock_account: AccountInfo,
):
    """When the maximum number of positions is reached, the signal
    should be rejected.
    """
    publisher = StreamPublisher(redis_client, TRADES_STREAM)
    counters = _make_counters()

    # Create enough mock positions to exceed the limit
    existing_positions = [
        PositionInfo(
            ticker=f"STOCK{i}",
            qty=10.0,
            avg_entry=100.0,
            current_price=105.0,
            unrealized_pnl=50.0,
            market_value=1050.0,
        )
        for i in range(25)  # Default max is 20
    ]

    mock_broker = AsyncMock()
    mock_broker.get_account = AsyncMock(return_value=mock_account)
    mock_broker.get_positions = AsyncMock(return_value=existing_positions)

    config = TradeExecutorConfig()
    risk_manager = RiskManager(config, mock_broker)

    with patch.object(RiskManager, "_is_market_hours", return_value=True):
        await process_signal(
            sample_signal,
            risk_manager,
            mock_broker,
            publisher,
            counters,
        )

    mock_broker.submit_order.assert_not_called()

    messages = await redis_client.xrange(TRADES_STREAM)
    assert len(messages) == 0

    assert counters["rejections"].total == 1


@pytest.mark.integration
@pytest.mark.asyncio
async def test_publish_signal_and_consume_execution_roundtrip(
    redis_client: Redis,
    sample_signal: TradeSignal,
    mock_account: AccountInfo,
    mock_order_result: OrderResult,
):
    """End-to-end: publish a signal to the signals stream, process it,
    and verify the execution can be read back from the trades stream.
    """
    # Publish the signal to the signals stream
    signal_publisher = StreamPublisher(redis_client, SIGNALS_STREAM)
    await signal_publisher.publish(sample_signal.model_dump(mode="json"))

    # Verify the signal is on the stream
    signal_messages = await redis_client.xrange(SIGNALS_STREAM)
    assert len(signal_messages) == 1

    # Parse it back to verify serialization
    _msg_id, fields = signal_messages[0]
    data = json.loads(fields[b"data"])
    parsed_signal = TradeSignal.model_validate(data)
    assert parsed_signal.ticker == "AAPL"
    assert parsed_signal.direction == SignalDirection.LONG

    # Process the signal through the executor
    trades_publisher = StreamPublisher(redis_client, TRADES_STREAM)
    counters = _make_counters()

    mock_broker = AsyncMock()
    mock_broker.get_account = AsyncMock(return_value=mock_account)
    mock_broker.get_positions = AsyncMock(return_value=[])
    mock_broker.submit_order = AsyncMock(return_value=mock_order_result)

    config = TradeExecutorConfig()
    risk_manager = RiskManager(config, mock_broker)

    with patch.object(RiskManager, "_is_market_hours", return_value=True):
        await process_signal(
            parsed_signal,
            risk_manager,
            mock_broker,
            trades_publisher,
            counters,
        )

    # Read the execution from the trades stream
    trade_messages = await redis_client.xrange(TRADES_STREAM)
    assert len(trade_messages) == 1

    _msg_id, fields = trade_messages[0]
    data = json.loads(fields[b"data"])
    execution = TradeExecution.model_validate(data)

    assert execution.ticker == "AAPL"
    assert execution.side == OrderSide.BUY
    assert execution.status == OrderStatus.FILLED
    assert execution.price == 190.50