Require rebase after creating feature branch

Merge pull request 'feat: add strategy/playbook Pydantic models (issue #79 )' (#99 ) from feature/issue-79-strategy-models into main
feat: add strategy/playbook Pydantic models (issue #79 )
2026-02-08 16:03:41 +09:00 · 2026-02-08 02:19:48 +09:00 · 2026-02-08 02:06:16 +09:00 · 2026-02-08 02:04:23 +09:00 · 2026-02-08 01:58:09 +09:00 · 2026-02-06 07:43:54 +09:00
36 changed files with 7334 additions and 212 deletions
--- a/.env.example
+++ b/.env.example
@@ -16,8 +16,9 @@ CONFIDENCE_THRESHOLD=80
 # Database
 DB_PATH=data/trade_logs.db
-# Rate Limiting
+# Rate Limiting (requests per second for KIS API)
-RATE_LIMIT_RPS=10.0
+# Reduced to 5.0 to avoid "초당 거래건수 초과" errors (EGW00201)
 RATE_LIMIT_RPS=5.0
 # Trading Mode (paper / live)
 MODE=paper
@@ -26,3 +27,10 @@ MODE=paper
 # NEWS_API_KEY=your_news_api_key_here
 # NEWS_API_PROVIDER=alphavantage
 # MARKET_DATA_API_KEY=your_market_data_key_here
 # Telegram Notifications (optional)
 # Get bot token from @BotFather on Telegram
 # Get chat ID from @userinfobot or your chat
 # TELEGRAM_BOT_TOKEN=1234567890:ABCdefGHIjklMNOpqrsTUVwxyz
 # TELEGRAM_CHAT_ID=123456789
 # TELEGRAM_ENABLED=true
--- a/CLAUDE.md
+++ b/CLAUDE.md
@@ -17,6 +17,67 @@ pytest -v --cov=src
 python -m src.main --mode=paper
 ```
 ## Telegram Notifications (Optional)
 Get real-time alerts for trades, circuit breakers, and system events via Telegram.
 ### Quick Setup
 1. **Create bot**: Message [@BotFather](https://t.me/BotFather) on Telegram → `/newbot`
 2. **Get chat ID**: Message [@userinfobot](https://t.me/userinfobot) → `/start`
 3. **Configure**: Add to `.env`:
   ```bash
   TELEGRAM_BOT_TOKEN=1234567890:ABCdefGHIjklMNOpqrsTUVwxyz
   TELEGRAM_CHAT_ID=123456789
   TELEGRAM_ENABLED=true
   ```
 4. **Test**: Start bot conversation (`/start`), then run the agent
 **Full documentation**: [src/notifications/README.md](src/notifications/README.md)
 ### What You'll Get
 - 🟢 Trade execution alerts (BUY/SELL with confidence)
 - 🚨 Circuit breaker trips (automatic trading halt)
 - ⚠️ Fat-finger rejections (oversized orders blocked)
 - ℹ️ Market open/close notifications
 - 📝 System startup/shutdown status
 **Fail-safe**: Notifications never crash the trading system. Missing credentials or API errors are logged but trading continues normally.
 ## Smart Volatility Scanner (Optional)
 Python-first filtering pipeline that reduces Gemini API calls by pre-filtering stocks using technical indicators.
 ### How It Works
 1. **Fetch Rankings** — KIS API volume surge rankings (top 30 stocks)
 2. **Python Filter** — RSI + volume ratio calculations (no AI)
   - Volume > 200% of previous day
   - RSI(14) < 30 (oversold) OR RSI(14) > 70 (momentum)
 3. **AI Judgment** — Only qualified candidates (1-3 stocks) sent to Gemini
 ### Configuration
 Add to `.env` (optional, has sensible defaults):
 ```bash
 RSI_OVERSOLD_THRESHOLD=30    # 0-50, default 30
 RSI_MOMENTUM_THRESHOLD=70    # 50-100, default 70
 VOL_MULTIPLIER=2.0           # Volume threshold (2.0 = 200%)
 SCANNER_TOP_N=3              # Max candidates per scan
 ```
 ### Benefits
 - **Reduces API costs** — Process 1-3 stocks instead of 20-30
 - **Python-based filtering** — Fast technical analysis before AI
 - **Evolution-ready** — Selection context logged for strategy optimization
 - **Fault-tolerant** — Falls back to static watchlist on API failure
 ### Realtime Mode Only
 Smart Scanner runs in `TRADE_MODE=realtime` only. Daily mode uses static watchlists for batch efficiency.
 ## Documentation
 - **[Workflow Guide](docs/workflow.md)** — Git workflow policy and agent-based development
@@ -25,6 +86,7 @@ python -m src.main --mode=paper
 - **[Context Tree](docs/context-tree.md)** — L1-L7 hierarchical memory system
 - **[Testing](docs/testing.md)** — Test structure, coverage requirements, writing tests
 - **[Agent Policies](docs/agents.md)** — Prime directives, constraints, prohibited actions
 - **[Requirements Log](docs/requirements-log.md)** — User requirements and feedback tracking
 ## Core Principles
@@ -33,20 +95,31 @@ python -m src.main --mode=paper
 3. **Issue-Driven Development** — All work goes through Gitea issues → feature branches → PRs
 4. **Agent Specialization** — Use dedicated agents for design, coding, testing, docs, review
 ## Requirements Management
 User requirements and feedback are tracked in [docs/requirements-log.md](docs/requirements-log.md):
 - New requirements are added chronologically with dates
 - Code changes should reference related requirements
 - Helps maintain project evolution aligned with user needs
 - Preserves context across conversations and development cycles
 ## Project Structure
 ```
 src/
 ├── analysis/        # Technical analysis (RSI, volatility, smart scanner)
 ├── broker/          # KIS API client (domestic + overseas)
 ├── brain/           # Gemini AI decision engine
 ├── core/            # Risk manager (READ-ONLY)
 ├── evolution/       # Self-improvement optimizer
 ├── markets/         # Market schedules and timezone handling
 ├── notifications/   # Telegram real-time alerts
 ├── db.py            # SQLite trade logging
 ├── main.py          # Trading loop orchestrator
 └── config.py        # Settings (from .env)
-tests/               # 54 tests across 4 files
+tests/               # 343 tests across 14 files
 docs/                # Extended documentation
 ```
--- a/README.md
+++ b/README.md
@@ -29,6 +29,7 @@ KIS(한국투자증권) API로 매매하고, Google Gemini로 판단하며, 자
 | 브로커 | `src/broker/kis_api.py` | KIS API 비동기 래퍼 (토큰 갱신, 레이트 리미터, 해시키) |
 | 두뇌 | `src/brain/gemini_client.py` | Gemini 프롬프트 구성 및 JSON 응답 파싱 |
 | 방패 | `src/core/risk_manager.py` | 서킷 브레이커 + 팻 핑거 체크 |
 | 알림 | `src/notifications/telegram_client.py` | 텔레그램 실시간 거래 알림 (선택사항) |
 | 진화 | `src/evolution/optimizer.py` | 실패 패턴 분석 → 새 전략 생성 → 테스트 → PR |
 | DB | `src/db.py` | SQLite 거래 로그 기록 |
@@ -75,6 +76,34 @@ python -m src.main --mode=paper
 docker compose up -d ouroboros
 ```
 ## 텔레그램 알림 (선택사항)
 거래 실행, 서킷 브레이커 발동, 시스템 상태 등을 텔레그램으로 실시간 알림 받을 수 있습니다.
 ### 빠른 설정
 1. **봇 생성**: 텔레그램에서 [@BotFather](https://t.me/BotFather) 메시지 → `/newbot` 명령
 2. **채팅 ID 확인**: [@userinfobot](https://t.me/userinfobot) 메시지 → `/start` 명령
 3. **환경변수 설정**: `.env` 파일에 추가
   ```bash
   TELEGRAM_BOT_TOKEN=1234567890:ABCdefGHIjklMNOpqrsTUVwxyz
   TELEGRAM_CHAT_ID=123456789
   TELEGRAM_ENABLED=true
   ```
 4. **테스트**: 봇과 대화 시작 (`/start` 전송) 후 에이전트 실행
 **상세 문서**: [src/notifications/README.md](src/notifications/README.md)
 ### 알림 종류
 - 🟢 거래 체결 알림 (BUY/SELL + 신뢰도)
 - 🚨 서킷 브레이커 발동 (자동 거래 중단)
 - ⚠️ 팻 핑거 차단 (과도한 주문 차단)
 - ℹ️ 장 시작/종료 알림
 - 📝 시스템 시작/종료 상태
 **안전장치**: 알림 실패해도 거래는 계속 진행됩니다. 텔레그램 API 오류나 설정 누락이 있어도 거래 시스템은 정상 작동합니다.
 ## 테스트
 35개 테스트가 TDD 방식으로 구현 전에 먼저 작성되었습니다.
@@ -111,6 +140,7 @@ The-Ouroboros/
 │   ├── broker/kis_api.py              # KIS API 클라이언트
 │   ├── brain/gemini_client.py         # Gemini 의사결정 엔진
 │   ├── core/risk_manager.py           # 리스크 관리
 │   ├── notifications/telegram_client.py # 텔레그램 알림
 │   ├── evolution/optimizer.py         # 전략 진화 엔진
 │   └── strategies/base.py             # 전략 베이스 클래스
 ├── tests/                       # TDD 테스트 스위트
--- a/docs/architecture.md
+++ b/docs/architecture.md
@@ -2,7 +2,42 @@
 ## Overview
-Self-evolving AI trading agent for global stock markets via KIS (Korea Investment & Securities) API. The main loop in `src/main.py` orchestrates four components in a 60-second cycle per stock across multiple markets.
+Self-evolving AI trading agent for global stock markets via KIS (Korea Investment & Securities) API. The main loop in `src/main.py` orchestrates four components across multiple markets with two trading modes: daily (batch API calls) or realtime (per-stock decisions).
 ## Trading Modes
 The system supports two trading frequency modes controlled by the `TRADE_MODE` environment variable:
 ### Daily Mode (default)
 Optimized for Gemini Free tier API limits (20 calls/day):
 - **Batch decisions**: 1 API call per market per session
 - **Fixed schedule**: 4 sessions per day at 6-hour intervals (configurable)
 - **API efficiency**: Processes all stocks in a market simultaneously
 - **Use case**: Free tier users, cost-conscious deployments
 - **Configuration**:
  ```bash
  TRADE_MODE=daily
  DAILY_SESSIONS=4        # Sessions per day (1-10)
  SESSION_INTERVAL_HOURS=6  # Hours between sessions (1-24)
  ```
 **Example**: With 2 markets (US, KR) and 4 sessions/day = 8 API calls/day (within 20 call limit)
 ### Realtime Mode
 High-frequency trading with individual stock analysis:
 - **Per-stock decisions**: 1 API call per stock per cycle
 - **60-second interval**: Continuous monitoring
 - **Use case**: Production deployments with Gemini paid tier
 - **Configuration**:
  ```bash
  TRADE_MODE=realtime
  ```
 **Note**: Realtime mode requires Gemini API subscription due to high call volume.
 ## Core Components
@@ -29,7 +64,39 @@ Self-evolving AI trading agent for global stock markets via KIS (Korea Investmen
 - `get_open_markets()` returns currently active markets
 - `get_next_market_open()` finds next market to open and when
-### 2. Brain (`src/brain/gemini_client.py`)
+**New API Methods** (added in v0.9.0):
 - `fetch_market_rankings()` — Fetch volume surge rankings from KIS API
 - `get_daily_prices()` — Fetch OHLCV history for technical analysis
 ### 2. Analysis (`src/analysis/`)
 **VolatilityAnalyzer** (`volatility.py`) — Technical indicator calculations
 - ATR (Average True Range) for volatility measurement
 - RSI (Relative Strength Index) using Wilder's smoothing method
 - Price change percentages across multiple timeframes
 - Volume surge ratios and price-volume divergence
 - Momentum scoring (0-100 scale)
 - Breakout/breakdown pattern detection
 **SmartVolatilityScanner** (`smart_scanner.py`) — Python-first filtering pipeline
 - **Step 1**: Fetch volume rankings from KIS API (top 30 stocks)
 - **Step 2**: Calculate RSI and volume ratio for each stock
 - **Step 3**: Apply filters:
  - Volume ratio >= `VOL_MULTIPLIER` (default 2.0x previous day)
  - RSI < `RSI_OVERSOLD_THRESHOLD` (30) OR RSI > `RSI_MOMENTUM_THRESHOLD` (70)
 - **Step 4**: Score candidates by RSI extremity (60%) + volume surge (40%)
 - **Step 5**: Return top N candidates (default 3) for AI analysis
 - **Fallback**: Uses static watchlist if ranking API unavailable
 - **Realtime mode only**: Daily mode uses batch processing for API efficiency
 **Benefits:**
 - Reduces Gemini API calls from 20-30 stocks to 1-3 qualified candidates
 - Fast Python-based filtering before expensive AI judgment
 - Logs selection context (RSI, volume_ratio, signal, score) for Evolution system
 ### 3. Brain (`src/brain/gemini_client.py`)
 **GeminiClient** — AI decision engine powered by Google Gemini
@@ -39,7 +106,7 @@ Self-evolving AI trading agent for global stock markets via KIS (Korea Investmen
 - Falls back to safe HOLD on any parse/API error
 - Handles markdown-wrapped JSON, malformed responses, invalid actions
-### 3. Risk Manager (`src/core/risk_manager.py`)
+### 4. Risk Manager (`src/core/risk_manager.py`)
 **RiskManager** — Safety circuit breaker and order validation
@@ -51,7 +118,26 @@ Self-evolving AI trading agent for global stock markets via KIS (Korea Investmen
 - **Fat-Finger Protection**: Rejects orders exceeding 30% of available cash
  - Must always be enforced, cannot be disabled
-### 4. Evolution (`src/evolution/optimizer.py`)
+### 5. Notifications (`src/notifications/telegram_client.py`)
 **TelegramClient** — Real-time event notifications via Telegram Bot API
 - Sends alerts for trades, circuit breakers, fat-finger rejections, system events
 - Non-blocking: failures are logged but never crash trading
 - Rate-limited: 1 message/second default to respect Telegram API limits
 - Auto-disabled when credentials missing
 - Gracefully handles API errors, network timeouts, invalid tokens
 **Notification Types:**
 - Trade execution (BUY/SELL with confidence)
 - Circuit breaker trips (critical alert)
 - Fat-finger protection triggers (order rejection)
 - Market open/close events
 - System startup/shutdown status
 **Setup:** See [src/notifications/README.md](../src/notifications/README.md) for bot creation and configuration.
 ### 6. Evolution (`src/evolution/optimizer.py`)
 **StrategyOptimizer** — Self-improvement loop
@@ -63,9 +149,11 @@ Self-evolving AI trading agent for global stock markets via KIS (Korea Investmen
 ## Data Flow
 ### Realtime Mode (with Smart Scanner)
 ```
 ┌─────────────────────────────────────────────────────────────┐
-│ Main Loop (60s cycle per stock, per market)                │
+│ Main Loop (60s cycle per market)                           │
 └─────────────────────────────────────────────────────────────┘
                           │
                           ▼
@@ -78,6 +166,21 @@ Self-evolving AI trading agent for global stock markets via KIS (Korea Investmen
                           │
                           ▼
        ┌──────────────────────────────────┐
        │ Smart Scanner (Python-first)      │
        │ - Fetch volume rankings (KIS)    │
        │ - Get 20d price history per stock│
        │ - Calculate RSI(14) + vol ratio  │
        │ - Filter: vol>2x AND RSI extreme │
        │ - Return top 3 qualified stocks  │
        └──────────────────┬────────────────┘
                           │
                           ▼
        ┌──────────────────────────────────┐
        │ For Each Qualified Candidate      │
        └──────────────────┬────────────────┘
                           │
                           ▼
        ┌──────────────────────────────────┐
        │ Broker: Fetch Market Data        │
        │ - Domestic: orderbook + balance  │
        │ - Overseas: price + balance      │
@@ -91,7 +194,7 @@ Self-evolving AI trading agent for global stock markets via KIS (Korea Investmen
                           │
                           ▼
        ┌──────────────────────────────────┐
-        │ Brain: Get Decision               │
+        │ Brain: Get Decision (AI)          │
        │ - Build prompt with market data   │
        │ - Call Gemini API                 │
        │ - Parse JSON response             │
@@ -115,10 +218,21 @@ Self-evolving AI trading agent for global stock markets via KIS (Korea Investmen
                           │
                           ▼
        ┌──────────────────────────────────┐
        │ Notifications: Send Alert         │
        │ - Trade execution notification    │
        │ - Non-blocking (errors logged)    │
        │ - Rate-limited to 1/sec           │
        └──────────────────┬────────────────┘
                           │
                           ▼
        ┌──────────────────────────────────┐
        │ Database: Log Trade               │
        │ - SQLite (data/trades.db)         │
        │ - Track: action, confidence,      │
        │   rationale, market, exchange     │
        │ - NEW: selection_context (JSON)   │
        │   - RSI, volume_ratio, signal     │
        │   - For Evolution optimization    │
        └───────────────────────────────────┘
 ```
@@ -138,11 +252,24 @@ CREATE TABLE trades (
    price REAL,
    pnl REAL DEFAULT 0.0,
    market TEXT DEFAULT 'KR',       -- KR | US_NASDAQ | JP | etc.
-    exchange_code TEXT DEFAULT 'KRX' -- KRX | NASD | NYSE | etc.
+    exchange_code TEXT DEFAULT 'KRX', -- KRX | NASD | NYSE | etc.
    selection_context TEXT          -- JSON: {rsi, volume_ratio, signal, score}
 );
 ```
-Auto-migration: Adds `market` and `exchange_code` columns if missing for backward compatibility.
+**Selection Context** (new in v0.9.0): Stores scanner selection criteria as JSON:
 ```json
 {
  "rsi": 28.5,
  "volume_ratio": 2.7,
  "signal": "oversold",
  "score": 85.2
 }
 ```
 Enables Evolution system to analyze correlation between selection criteria and trade outcomes.
 Auto-migration: Adds `market`, `exchange_code`, and `selection_context` columns if missing for backward compatibility.
 ## Configuration
@@ -164,6 +291,22 @@ CONFIDENCE_THRESHOLD=80
 MAX_LOSS_PCT=3.0
 MAX_ORDER_PCT=30.0
 ENABLED_MARKETS=KR,US_NASDAQ  # Comma-separated market codes
 # Trading Mode (API efficiency)
 TRADE_MODE=daily              # daily | realtime
 DAILY_SESSIONS=4              # Sessions per day (daily mode only)
 SESSION_INTERVAL_HOURS=6      # Hours between sessions (daily mode only)
 # Telegram Notifications (optional)
 TELEGRAM_BOT_TOKEN=1234567890:ABCdefGHIjklMNOpqrsTUVwxyz
 TELEGRAM_CHAT_ID=123456789
 TELEGRAM_ENABLED=true
 # Smart Scanner (optional, realtime mode only)
 RSI_OVERSOLD_THRESHOLD=30    # 0-50, oversold threshold
 RSI_MOMENTUM_THRESHOLD=70    # 50-100, momentum threshold
 VOL_MULTIPLIER=2.0           # Minimum volume ratio (2.0 = 200%)
 SCANNER_TOP_N=3              # Max qualified candidates per scan
 ```
 Tests use in-memory SQLite (`DB_PATH=":memory:"`) and dummy credentials via `tests/conftest.py`.
@@ -189,3 +332,12 @@ Tests use in-memory SQLite (`DB_PATH=":memory:"`) and dummy credentials via `tes
 - Wait until next market opens
 - Use `get_next_market_open()` to calculate wait time
 - Sleep until market open time
 ### Telegram API Errors
 - Log warning but continue trading
 - Missing credentials → auto-disable notifications
 - Network timeout → skip notification, no retry
 - Invalid token → log error, trading unaffected
 - Rate limit exceeded → queued via rate limiter
 **Guarantee**: Notification failures never interrupt trading operations.
--- a/docs/disaster_recovery.md
+++ b/docs/disaster_recovery.md
@@ -0,0 +1,348 @@
 # Disaster Recovery Guide
 Complete guide for backing up and restoring The Ouroboros trading system.
 ## Table of Contents
 - [Backup Strategy](#backup-strategy)
 - [Creating Backups](#creating-backups)
 - [Restoring from Backup](#restoring-from-backup)
 - [Health Monitoring](#health-monitoring)
 - [Export Formats](#export-formats)
 - [RTO/RPO](#rtorpo)
 - [Testing Recovery](#testing-recovery)
 ## Backup Strategy
 The system implements a 3-tier backup retention policy:
 | Policy | Frequency | Retention | Purpose |
 |--------|-----------|-----------|---------|
 | **Daily** | Every day | 30 days | Quick recovery from recent issues |
 | **Weekly** | Sunday | 1 year | Medium-term historical analysis |
 | **Monthly** | 1st of month | Forever | Long-term archival |
 ### Storage Structure
 ```
 data/backups/
 ├── daily/          # Last 30 days
 ├── weekly/         # Last 52 weeks
 └── monthly/        # Forever (cold storage)
 ```
 ## Creating Backups
 ### Automated Backups (Recommended)
 Set up a cron job to run daily:
 ```bash
 # Edit crontab
 crontab -e
 # Run backup at 2 AM every day
 0 2 * * * cd /path/to/The-Ouroboros && ./scripts/backup.sh >> logs/backup.log 2>&1
 ```
 ### Manual Backups
 ```bash
 # Run backup script
 ./scripts/backup.sh
 # Or use Python directly
 python3 -c "
 from pathlib import Path
 from src.backup.scheduler import BackupScheduler, BackupPolicy
 scheduler = BackupScheduler('data/trade_logs.db', Path('data/backups'))
 metadata = scheduler.create_backup(BackupPolicy.DAILY, verify=True)
 print(f'Backup created: {metadata.file_path}')
 "
 ```
 ### Export to Other Formats
 ```bash
 python3 -c "
 from pathlib import Path
 from src.backup.exporter import BackupExporter, ExportFormat
 exporter = BackupExporter('data/trade_logs.db')
 results = exporter.export_all(
    Path('exports'),
    formats=[ExportFormat.JSON, ExportFormat.CSV],
    compress=True
 )
 "
 ```
 ## Restoring from Backup
 ### Interactive Restoration
 ```bash
 ./scripts/restore.sh
 ```
 The script will:
 1. List available backups
 2. Ask you to select one
 3. Create a safety backup of current database
 4. Restore the selected backup
 5. Verify database integrity
 ### Manual Restoration
 ```python
 from pathlib import Path
 from src.backup.scheduler import BackupScheduler
 scheduler = BackupScheduler('data/trade_logs.db', Path('data/backups'))
 # List backups
 backups = scheduler.list_backups()
 for backup in backups:
    print(f"{backup.timestamp}: {backup.file_path}")
 # Restore specific backup
 scheduler.restore_backup(backups[0], verify=True)
 ```
 ## Health Monitoring
 ### Check System Health
 ```python
 from pathlib import Path
 from src.backup.health_monitor import HealthMonitor
 monitor = HealthMonitor('data/trade_logs.db', Path('data/backups'))
 # Run all checks
 report = monitor.get_health_report()
 print(f"Overall status: {report['overall_status']}")
 # Individual checks
 checks = monitor.run_all_checks()
 for name, result in checks.items():
    print(f"{name}: {result.status.value} - {result.message}")
 ```
 ### Health Checks
 The system monitors:
 - **Database Health**: Accessibility, integrity, size
 - **Disk Space**: Available storage (alerts if < 10 GB)
 - **Backup Recency**: Ensures backups are < 25 hours old
 ### Health Status Levels
 - **HEALTHY**: All systems operational
 - **DEGRADED**: Warning condition (e.g., low disk space)
 - **UNHEALTHY**: Critical issue (e.g., database corrupted, no backups)
 ## Export Formats
 ### JSON (Human-Readable)
 ```json
 {
  "export_timestamp": "2024-01-15T10:30:00Z",
  "record_count": 150,
  "trades": [
    {
      "timestamp": "2024-01-15T09:00:00Z",
      "stock_code": "005930",
      "action": "BUY",
      "quantity": 10,
      "price": 70000.0,
      "confidence": 85,
      "rationale": "Strong momentum",
      "pnl": 0.0
    }
  ]
 }
 ```
 ### CSV (Analysis Tools)
 Compatible with Excel, pandas, R:
 ```csv
 timestamp,stock_code,action,quantity,price,confidence,rationale,pnl
 2024-01-15T09:00:00Z,005930,BUY,10,70000.0,85,Strong momentum,0.0
 ```
 ### Parquet (Big Data)
 Columnar format for Spark, DuckDB:
 ```python
 import pandas as pd
 df = pd.read_parquet('exports/trades_20240115.parquet')
 ```
 ## RTO/RPO
 ### Recovery Time Objective (RTO)
 **Target: < 5 minutes**
 Time to restore trading operations:
 1. Identify backup to restore (1 min)
 2. Run restore script (2 min)
 3. Verify database integrity (1 min)
 4. Restart trading system (1 min)
 ### Recovery Point Objective (RPO)
 **Target: < 24 hours**
 Maximum acceptable data loss:
 - Daily backups ensure ≤ 24-hour data loss
 - For critical periods, run backups more frequently
 ## Testing Recovery
 ### Quarterly Recovery Test
 Perform full disaster recovery test every quarter:
 1. **Create test backup**
   ```bash
   ./scripts/backup.sh
   ```
 2. **Simulate disaster** (use test database)
   ```bash
   cp data/trade_logs.db data/trade_logs_test.db
   rm data/trade_logs_test.db  # Simulate data loss
   ```
 3. **Restore from backup**
   ```bash
   DB_PATH=data/trade_logs_test.db ./scripts/restore.sh
   ```
 4. **Verify data integrity**
   ```python
   import sqlite3
   conn = sqlite3.connect('data/trade_logs_test.db')
   cursor = conn.execute('SELECT COUNT(*) FROM trades')
   print(f"Restored {cursor.fetchone()[0]} trades")
   ```
 5. **Document results** in `logs/recovery_test_YYYYMMDD.md`
 ### Backup Verification
 Always verify backups after creation:
 ```python
 from pathlib import Path
 from src.backup.scheduler import BackupScheduler
 scheduler = BackupScheduler('data/trade_logs.db', Path('data/backups'))
 # Create and verify
 metadata = scheduler.create_backup(BackupPolicy.DAILY, verify=True)
 print(f"Checksum: {metadata.checksum}")  # Should not be None
 ```
 ## Emergency Procedures
 ### Database Corrupted
 1. Stop trading system immediately
 2. Check most recent backup age: `ls -lht data/backups/daily/`
 3. Restore: `./scripts/restore.sh`
 4. Verify: Run health check
 5. Resume trading
 ### Disk Full
 1. Check disk space: `df -h`
 2. Clean old backups: Run cleanup manually
   ```python
   from pathlib import Path
   from src.backup.scheduler import BackupScheduler
   scheduler = BackupScheduler('data/trade_logs.db', Path('data/backups'))
   scheduler.cleanup_old_backups()
   ```
 3. Consider archiving old monthly backups to external storage
 4. Increase disk space if needed
 ### Lost All Backups
 If local backups are lost:
 1. Check if exports exist in `exports/` directory
 2. Reconstruct database from CSV/JSON exports
 3. If no exports: Check broker API for trade history
 4. Manual reconstruction as last resort
 ## Best Practices
 1. **Test Restores Regularly**: Don't wait for disaster
 2. **Monitor Disk Space**: Set up alerts at 80% usage
 3. **Keep Multiple Generations**: Never delete all backups at once
 4. **Verify Checksums**: Always verify backup integrity
 5. **Document Changes**: Update this guide when backup strategy changes
 6. **Off-Site Storage**: Consider external backup for monthly archives
 ## Troubleshooting
 ### Backup Script Fails
 ```bash
 # Check database file permissions
 ls -l data/trade_logs.db
 # Check disk space
 df -h data/
 # Run backup manually with debug
 python3 -c "
 import logging
 logging.basicConfig(level=logging.DEBUG)
 from pathlib import Path
 from src.backup.scheduler import BackupScheduler, BackupPolicy
 scheduler = BackupScheduler('data/trade_logs.db', Path('data/backups'))
 scheduler.create_backup(BackupPolicy.DAILY, verify=True)
 "
 ```
 ### Restore Fails Verification
 ```bash
 # Check backup file integrity
 python3 -c "
 import sqlite3
 conn = sqlite3.connect('data/backups/daily/trade_logs_daily_20240115.db')
 cursor = conn.execute('PRAGMA integrity_check')
 print(cursor.fetchone()[0])
 "
 ```
 ### Health Check Fails
 ```python
 from pathlib import Path
 from src.backup.health_monitor import HealthMonitor
 monitor = HealthMonitor('data/trade_logs.db', Path('data/backups'))
 # Check each component individually
 print("Database:", monitor.check_database_health())
 print("Disk Space:", monitor.check_disk_space())
 print("Backup Recency:", monitor.check_backup_recency())
 ```
 ## Contact
 For backup/recovery issues:
 - Check logs: `logs/backup.log`
 - Review health status: Run health monitor
 - Raise issue on GitHub if automated recovery fails
--- a/docs/requirements-log.md
+++ b/docs/requirements-log.md
@@ -0,0 +1,66 @@
 # Requirements Log
 프로젝트 진화를 위한 사용자 요구사항 기록.
 이 문서는 시간순으로 사용자와의 대화에서 나온 요구사항과 피드백을 기록합니다.
 새로운 요구사항이 있으면 날짜와 함께 추가하세요.
 ---
 ## 2026-02-05
 ### API 효율화
 - Gemini API는 귀중한 자원. 종목별 개별 호출 대신 배치 호출 필요
 - Free tier 한도(20 calls/day) 고려하여 일일 몇 차례 거래 모드로 전환
 - 배치 API 호출로 여러 종목을 한 번에 분석
 ### 거래 모드
 - **Daily Mode**: 하루 4회 거래 세션 (6시간 간격) - Free tier 호환
 - **Realtime Mode**: 60초 간격 실시간 거래 - 유료 구독 필요
 - `TRADE_MODE` 환경변수로 모드 선택
 ### 진화 시스템
 - 사용자 대화 내용을 문서로 기록하여 향후에도 의도 반영
 - 프롬프트 품질 검증은 별도 이슈로 다룰 예정
 ### 문서화
 - 시스템 구조, 기능별 설명 등 코드 문서화 항상 신경쓸 것
 - 새로운 기능 추가 시 관련 문서 업데이트 필수
 ---
 ## 2026-02-06
 ### Smart Volatility Scanner (Python-First, AI-Last 파이프라인)
 **배경:**
 - 정적 종목 리스트를 순회하는 방식은 비효율적
 - KIS API 거래량 순위를 통해 시장 주도주를 자동 탐지해야 함
 - Gemini API 호출 전에 Python 기반 기술적 분석으로 필터링 필요
 **요구사항:**
 1. KIS API 거래량 순위 API 통합 (`fetch_market_rankings`)
 2. 일별 가격 히스토리 API 추가 (`get_daily_prices`)
 3. RSI(14) 계산 기능 구현 (Wilder's smoothing method)
 4. 필터 조건:
   - 거래량 > 전일 대비 200% (VOL_MULTIPLIER)
   - RSI < 30 (과매도) OR RSI > 70 (모멘텀)
 5. 상위 1-3개 적격 종목만 Gemini에 전달
 6. 종목 선정 배경(RSI, volume_ratio, signal, score) 데이터베이스 기록
 **구현 결과:**
 - `src/analysis/smart_scanner.py`: SmartVolatilityScanner 클래스
 - `src/analysis/volatility.py`: calculate_rsi() 메서드 추가
 - `src/broker/kis_api.py`: 2개 신규 API 메서드
 - `src/db.py`: selection_context 컬럼 추가
 - 설정 가능한 임계값: RSI_OVERSOLD_THRESHOLD, RSI_MOMENTUM_THRESHOLD, VOL_MULTIPLIER, SCANNER_TOP_N
 **효과:**
 - Gemini API 호출 20-30개 → 1-3개로 감소
 - Python 기반 빠른 필터링 → 비용 절감
 - 선정 기준 추적 → Evolution 시스템 최적화 가능
 - API 장애 시 정적 watchlist로 자동 전환
 **참고:** Realtime 모드 전용. Daily 모드는 배치 효율성을 위해 정적 watchlist 사용.
 **이슈/PR:** #76, #77
--- a/docs/workflow.md
+++ b/docs/workflow.md
@@ -6,6 +6,7 @@
 1. **Create Gitea Issue First** — All features, bug fixes, and policy changes require a Gitea issue before any code is written
 2. **Create Feature Branch** — Branch from `main` using format `feature/issue-{N}-{short-description}`
   - After creating the branch, run `git pull origin main` and rebase to ensure the branch is up to date
 3. **Implement Changes** — Write code, tests, and documentation on the feature branch
 4. **Create Pull Request** — Submit PR to `main` branch referencing the issue number
 5. **Review & Merge** — After approval, merge via PR (squash or merge commit)
--- a/scripts/backup.sh
+++ b/scripts/backup.sh
@@ -0,0 +1,96 @@
 #!/usr/bin/env bash
 # Automated backup script for The Ouroboros trading system
 # Runs daily/weekly/monthly backups
 set -euo pipefail
 # Configuration
 DB_PATH="${DB_PATH:-data/trade_logs.db}"
 BACKUP_DIR="${BACKUP_DIR:-data/backups}"
 PYTHON="${PYTHON:-python3}"
 # Colors for output
 GREEN='\033[0;32m'
 YELLOW='\033[1;33m'
 RED='\033[0;31m'
 NC='\033[0m' # No Color
 log_info() {
    echo -e "${GREEN}[INFO]${NC} $1"
 }
 log_warn() {
    echo -e "${YELLOW}[WARN]${NC} $1"
 }
 log_error() {
    echo -e "${RED}[ERROR]${NC} $1"
 }
 # Check if database exists
 if [ ! -f "$DB_PATH" ]; then
    log_error "Database not found: $DB_PATH"
    exit 1
 fi
 # Create backup directory
 mkdir -p "$BACKUP_DIR"
 log_info "Starting backup process..."
 log_info "Database: $DB_PATH"
 log_info "Backup directory: $BACKUP_DIR"
 # Determine backup policy based on day of week and month
 DAY_OF_WEEK=$(date +%u)  # 1-7 (Monday-Sunday)
 DAY_OF_MONTH=$(date +%d)
 if [ "$DAY_OF_MONTH" == "01" ]; then
    POLICY="monthly"
    log_info "Running MONTHLY backup (first day of month)"
 elif [ "$DAY_OF_WEEK" == "7" ]; then
    POLICY="weekly"
    log_info "Running WEEKLY backup (Sunday)"
 else
    POLICY="daily"
    log_info "Running DAILY backup"
 fi
 # Run Python backup script
 $PYTHON -c "
 from pathlib import Path
 from src.backup.scheduler import BackupScheduler, BackupPolicy
 from src.backup.health_monitor import HealthMonitor
 # Create scheduler
 scheduler = BackupScheduler(
    db_path='$DB_PATH',
    backup_dir=Path('$BACKUP_DIR')
 )
 # Create backup
 policy = BackupPolicy.$POLICY.upper()
 metadata = scheduler.create_backup(policy, verify=True)
 print(f'Backup created: {metadata.file_path}')
 print(f'Size: {metadata.size_bytes / 1024 / 1024:.2f} MB')
 print(f'Checksum: {metadata.checksum}')
 # Cleanup old backups
 removed = scheduler.cleanup_old_backups()
 total_removed = sum(removed.values())
 if total_removed > 0:
    print(f'Removed {total_removed} old backup(s)')
 # Health check
 monitor = HealthMonitor('$DB_PATH', Path('$BACKUP_DIR'))
 status = monitor.get_overall_status()
 print(f'System health: {status.value}')
 "
 if [ $? -eq 0 ]; then
    log_info "Backup completed successfully"
 else
    log_error "Backup failed"
    exit 1
 fi
 log_info "Backup process finished"
--- a/scripts/restore.sh
+++ b/scripts/restore.sh
@@ -0,0 +1,111 @@
 #!/usr/bin/env bash
 # Restore script for The Ouroboros trading system
 # Restores database from a backup file
 set -euo pipefail
 # Configuration
 DB_PATH="${DB_PATH:-data/trade_logs.db}"
 BACKUP_DIR="${BACKUP_DIR:-data/backups}"
 PYTHON="${PYTHON:-python3}"
 # Colors for output
 GREEN='\033[0;32m'
 YELLOW='\033[1;33m'
 RED='\033[0;31m'
 NC='\033[0m' # No Color
 log_info() {
    echo -e "${GREEN}[INFO]${NC} $1"
 }
 log_warn() {
    echo -e "${YELLOW}[WARN]${NC} $1"
 }
 log_error() {
    echo -e "${RED}[ERROR]${NC} $1"
 }
 # Check if backup directory exists
 if [ ! -d "$BACKUP_DIR" ]; then
    log_error "Backup directory not found: $BACKUP_DIR"
    exit 1
 fi
 log_info "Available backups:"
 log_info "=================="
 # List available backups
 $PYTHON -c "
 from pathlib import Path
 from src.backup.scheduler import BackupScheduler
 scheduler = BackupScheduler(
    db_path='$DB_PATH',
    backup_dir=Path('$BACKUP_DIR')
 )
 backups = scheduler.list_backups()
 if not backups:
    print('No backups found.')
    exit(1)
 for i, backup in enumerate(backups, 1):
    size_mb = backup.size_bytes / 1024 / 1024
    print(f'{i}. [{backup.policy.value.upper()}] {backup.file_path.name}')
    print(f'   Date: {backup.timestamp.strftime(\"%Y-%m-%d %H:%M:%S UTC\")}')
    print(f'   Size: {size_mb:.2f} MB')
    print()
 "
 # Ask user to select backup
 echo ""
 read -p "Enter backup number to restore (or 'q' to quit): " BACKUP_NUM
 if [ "$BACKUP_NUM" == "q" ]; then
    log_info "Restore cancelled"
    exit 0
 fi
 # Confirm restoration
 log_warn "WARNING: This will replace the current database!"
 log_warn "Current database will be backed up to: ${DB_PATH}.before_restore"
 read -p "Are you sure you want to continue? (yes/no): " CONFIRM
 if [ "$CONFIRM" != "yes" ]; then
    log_info "Restore cancelled"
    exit 0
 fi
 # Perform restoration
 $PYTHON -c "
 from pathlib import Path
 from src.backup.scheduler import BackupScheduler
 scheduler = BackupScheduler(
    db_path='$DB_PATH',
    backup_dir=Path('$BACKUP_DIR')
 )
 backups = scheduler.list_backups()
 backup_index = int('$BACKUP_NUM') - 1
 if backup_index < 0 or backup_index >= len(backups):
    print('Invalid backup number')
    exit(1)
 selected = backups[backup_index]
 print(f'Restoring: {selected.file_path.name}')
 scheduler.restore_backup(selected, verify=True)
 print('Restore completed successfully')
 "
 if [ $? -eq 0 ]; then
    log_info "Database restored successfully"
 else
    log_error "Restore failed"
    exit 1
 fi
--- a/src/analysis/init.py
+++ b/src/analysis/init.py
@@ -3,6 +3,7 @@
 from __future__ import annotations
 from src.analysis.scanner import MarketScanner
 from src.analysis.smart_scanner import ScanCandidate, SmartVolatilityScanner
 from src.analysis.volatility import VolatilityAnalyzer
-__all__ = ["VolatilityAnalyzer", "MarketScanner"]
+__all__ = ["VolatilityAnalyzer", "MarketScanner", "SmartVolatilityScanner", "ScanCandidate"]
--- a/src/analysis/scanner.py
+++ b/src/analysis/scanner.py
@@ -42,6 +42,7 @@ class MarketScanner:
        volatility_analyzer: VolatilityAnalyzer,
        context_store: ContextStore,
        top_n: int = 5,
        max_concurrent_scans: int = 1,
    ) -> None:
        """Initialize the market scanner.
@@ -51,12 +52,14 @@ class MarketScanner:
            volatility_analyzer: Volatility analyzer instance
            context_store: Context store for L7 real-time data
            top_n: Number of top movers to return per market (default 5)
            max_concurrent_scans: Max concurrent stock scans (default 1, fully serialized)
        """
        self.broker = broker
        self.overseas_broker = overseas_broker
        self.analyzer = volatility_analyzer
        self.context_store = context_store
        self.top_n = top_n
        self._scan_semaphore = asyncio.Semaphore(max_concurrent_scans)
    async def scan_stock(
        self,
@@ -83,8 +86,8 @@ class MarketScanner:
                # Convert to orderbook-like structure
                orderbook = {
                    "output1": {
-                        "stck_prpr": price_data.get("output", {}).get("last", "0"),
+                        "stck_prpr": price_data.get("output", {}).get("last", "0") or "0",
-                        "acml_vol": price_data.get("output", {}).get("tvol", "0"),
+                        "acml_vol": price_data.get("output", {}).get("tvol", "0") or "0",
                    }
                }
@@ -139,8 +142,12 @@ class MarketScanner:
        logger.info("Scanning %s market (%d stocks)", market.name, len(stock_codes))
-        # Scan all stocks concurrently (with rate limiting handled by broker)
+        # Scan stocks with bounded concurrency to prevent API rate limit burst
-        tasks = [self.scan_stock(code, market) for code in stock_codes]
+        async def _bounded_scan(code: str) -> VolatilityMetrics | None:
            async with self._scan_semaphore:
                return await self.scan_stock(code, market)
        tasks = [_bounded_scan(code) for code in stock_codes]
        results = await asyncio.gather(*tasks)
        # Filter out failures and sort by momentum score
--- a/src/analysis/smart_scanner.py
+++ b/src/analysis/smart_scanner.py
@@ -0,0 +1,192 @@
 """Smart Volatility Scanner with RSI and volume filters.
 Fetches market rankings from KIS API and applies technical filters
 to identify high-probability trading candidates.
 """
 from __future__ import annotations
 import logging
 from dataclasses import dataclass
 from typing import Any
 from src.analysis.volatility import VolatilityAnalyzer
 from src.broker.kis_api import KISBroker
 from src.config import Settings
 logger = logging.getLogger(__name__)
@dataclass
 class ScanCandidate:
    """A qualified candidate from the smart scanner."""
    stock_code: str
    name: str
    price: float
    volume: float
    volume_ratio: float  # Current volume / previous day volume
    rsi: float
    signal: str  # "oversold" or "momentum"
    score: float  # Composite score for ranking
 class SmartVolatilityScanner:
    """Scans market rankings and applies RSI/volume filters.
    Flow:
    1. Fetch volume rankings from KIS API
    2. For each ranked stock, fetch daily prices
    3. Calculate RSI and volume ratio
    4. Apply filters: volume > VOL_MULTIPLIER AND (RSI < 30 OR RSI > 70)
    5. Return top N qualified candidates
    """
    def __init__(
        self,
        broker: KISBroker,
        volatility_analyzer: VolatilityAnalyzer,
        settings: Settings,
    ) -> None:
        """Initialize the smart scanner.
        Args:
            broker: KIS broker for API calls
            volatility_analyzer: Analyzer for RSI calculation
            settings: Application settings
        """
        self.broker = broker
        self.analyzer = volatility_analyzer
        self.settings = settings
        # Extract scanner settings
        self.rsi_oversold = settings.RSI_OVERSOLD_THRESHOLD
        self.rsi_momentum = settings.RSI_MOMENTUM_THRESHOLD
        self.vol_multiplier = settings.VOL_MULTIPLIER
        self.top_n = settings.SCANNER_TOP_N
    async def scan(
        self,
        fallback_stocks: list[str] | None = None,
    ) -> list[ScanCandidate]:
        """Execute smart scan and return qualified candidates.
        Args:
            fallback_stocks: Stock codes to use if ranking API fails
        Returns:
            List of ScanCandidate, sorted by score, up to top_n items
        """
        # Step 1: Fetch rankings
        try:
            rankings = await self.broker.fetch_market_rankings(
                ranking_type="volume",
                limit=30,  # Fetch more than needed for filtering
            )
            logger.info("Fetched %d stocks from volume rankings", len(rankings))
        except ConnectionError as exc:
            logger.warning("Ranking API failed, using fallback: %s", exc)
            if fallback_stocks:
                # Create minimal ranking data for fallback
                rankings = [
                    {
                        "stock_code": code,
                        "name": code,
                        "price": 0,
                        "volume": 0,
                        "change_rate": 0,
                        "volume_increase_rate": 0,
                    }
                    for code in fallback_stocks
                ]
            else:
                return []
        # Step 2: Analyze each stock
        candidates: list[ScanCandidate] = []
        for stock in rankings:
            stock_code = stock["stock_code"]
            if not stock_code:
                continue
            try:
                # Fetch daily prices for RSI calculation
                daily_prices = await self.broker.get_daily_prices(stock_code, days=20)
                if len(daily_prices) < 15:  # Need at least 14+1 for RSI
                    logger.debug("Insufficient price history for %s", stock_code)
                    continue
                # Calculate RSI
                close_prices = [p["close"] for p in daily_prices]
                rsi = self.analyzer.calculate_rsi(close_prices, period=14)
                # Calculate volume ratio (today vs previous day avg)
                if len(daily_prices) >= 2:
                    prev_day_volume = daily_prices[-2]["volume"]
                    current_volume = stock.get("volume", 0) or daily_prices[-1]["volume"]
                    volume_ratio = (
                        current_volume / prev_day_volume if prev_day_volume > 0 else 1.0
                    )
                else:
                    volume_ratio = stock.get("volume_increase_rate", 0) / 100 + 1  # Fallback
                # Apply filters
                volume_qualified = volume_ratio >= self.vol_multiplier
                rsi_oversold = rsi < self.rsi_oversold
                rsi_momentum = rsi > self.rsi_momentum
                if volume_qualified and (rsi_oversold or rsi_momentum):
                    signal = "oversold" if rsi_oversold else "momentum"
                    # Calculate composite score
                    # Higher score for: extreme RSI + high volume
                    rsi_extremity = abs(rsi - 50) / 50  # 0-1 scale
                    volume_score = min(volume_ratio / 5, 1.0)  # Cap at 5x
                    score = (rsi_extremity * 0.6 + volume_score * 0.4) * 100
                    candidates.append(
                        ScanCandidate(
                            stock_code=stock_code,
                            name=stock.get("name", stock_code),
                            price=stock.get("price", daily_prices[-1]["close"]),
                            volume=current_volume,
                            volume_ratio=volume_ratio,
                            rsi=rsi,
                            signal=signal,
                            score=score,
                        )
                    )
                    logger.info(
                        "Qualified: %s (%s) RSI=%.1f vol=%.1fx signal=%s score=%.1f",
                        stock_code,
                        stock.get("name", ""),
                        rsi,
                        volume_ratio,
                        signal,
                        score,
                    )
            except ConnectionError as exc:
                logger.warning("Failed to analyze %s: %s", stock_code, exc)
                continue
            except Exception as exc:
                logger.error("Unexpected error analyzing %s: %s", stock_code, exc)
                continue
        # Sort by score and return top N
        candidates.sort(key=lambda c: c.score, reverse=True)
        return candidates[: self.top_n]
    def get_stock_codes(self, candidates: list[ScanCandidate]) -> list[str]:
        """Extract stock codes from candidates for watchlist update.
        Args:
            candidates: List of scan candidates
        Returns:
            List of stock codes
        """
        return [c.stock_code for c in candidates]
--- a/src/analysis/volatility.py
+++ b/src/analysis/volatility.py
@@ -124,6 +124,54 @@ class VolatilityAnalyzer:
            return 1.0
        return current_volume / avg_volume
    def calculate_rsi(
        self,
        close_prices: list[float],
        period: int = 14,
    ) -> float:
        """Calculate Relative Strength Index (RSI) using Wilder's smoothing.
        Args:
            close_prices: List of closing prices (oldest to newest, minimum period+1 values)
            period: RSI period (default 14)
        Returns:
            RSI value between 0 and 100, or 50.0 (neutral) if insufficient data
        Examples:
            >>> analyzer = VolatilityAnalyzer()
            >>> prices = [100 - i * 0.5 for i in range(20)]  # Downtrend
            >>> rsi = analyzer.calculate_rsi(prices)
            >>> assert rsi < 50  # Oversold territory
        """
        if len(close_prices) < period + 1:
            return 50.0  # Neutral RSI if insufficient data
        # Calculate price changes
        changes = [close_prices[i] - close_prices[i - 1] for i in range(1, len(close_prices))]
        # Separate gains and losses
        gains = [max(0.0, change) for change in changes]
        losses = [max(0.0, -change) for change in changes]
        # Calculate initial average gain/loss (simple average for first period)
        avg_gain = sum(gains[:period]) / period
        avg_loss = sum(losses[:period]) / period
        # Apply Wilder's smoothing for remaining periods
        for i in range(period, len(changes)):
            avg_gain = (avg_gain * (period - 1) + gains[i]) / period
            avg_loss = (avg_loss * (period - 1) + losses[i]) / period
        # Calculate RS and RSI
        if avg_loss == 0:
            return 100.0  # All gains, maximum RSI
        rs = avg_gain / avg_loss
        rsi = 100 - (100 / (1 + rs))
        return rsi
    def calculate_pv_divergence(
        self,
        price_change: float,
--- a/src/backup/init.py
+++ b/src/backup/init.py
@@ -0,0 +1,21 @@
 """Backup and disaster recovery system for long-term sustainability.
 This module provides:
 - Automated database backups (daily, weekly, monthly)
 - Multi-format exports (JSON, CSV, Parquet)
 - Cloud storage integration (S3-compatible)
 - Health monitoring and alerts
 """
 from src.backup.exporter import BackupExporter, ExportFormat
 from src.backup.scheduler import BackupScheduler, BackupPolicy
 from src.backup.cloud_storage import CloudStorage, S3Config
 __all__ = [
    "BackupExporter",
    "ExportFormat",
    "BackupScheduler",
    "BackupPolicy",
    "CloudStorage",
    "S3Config",
 ]
--- a/src/backup/cloud_storage.py
+++ b/src/backup/cloud_storage.py
@@ -0,0 +1,274 @@
 """Cloud storage integration for off-site backups.
 Supports S3-compatible storage providers:
 - AWS S3
 - MinIO
 - Backblaze B2
 - DigitalOcean Spaces
 - Cloudflare R2
 """
 from __future__ import annotations
 import logging
 from dataclasses import dataclass
 from pathlib import Path
 from typing import Any
 logger = logging.getLogger(__name__)
@dataclass
 class S3Config:
    """Configuration for S3-compatible storage."""
    endpoint_url: str | None  # None for AWS S3, custom URL for others
    access_key: str
    secret_key: str
    bucket_name: str
    region: str = "us-east-1"
    use_ssl: bool = True
 class CloudStorage:
    """Upload backups to S3-compatible cloud storage."""
    def __init__(self, config: S3Config) -> None:
        """Initialize cloud storage client.
        Args:
            config: S3 configuration
        Raises:
            ImportError: If boto3 is not installed
        """
        try:
            import boto3
        except ImportError:
            raise ImportError(
                "boto3 is required for cloud storage. Install with: pip install boto3"
            )
        self.config = config
        self.client = boto3.client(
            "s3",
            endpoint_url=config.endpoint_url,
            aws_access_key_id=config.access_key,
            aws_secret_access_key=config.secret_key,
            region_name=config.region,
            use_ssl=config.use_ssl,
        )
    def upload_file(
        self,
        file_path: Path,
        object_key: str | None = None,
        metadata: dict[str, str] | None = None,
    ) -> str:
        """Upload a file to cloud storage.
        Args:
            file_path: Local file to upload
            object_key: S3 object key (default: filename)
            metadata: Optional metadata to attach
        Returns:
            S3 object key
        Raises:
            FileNotFoundError: If file doesn't exist
            Exception: If upload fails
        """
        if not file_path.exists():
            raise FileNotFoundError(f"File not found: {file_path}")
        if object_key is None:
            object_key = file_path.name
        extra_args: dict[str, Any] = {}
        # Add server-side encryption
        extra_args["ServerSideEncryption"] = "AES256"
        # Add metadata if provided
        if metadata:
            extra_args["Metadata"] = metadata
        logger.info("Uploading %s to s3://%s/%s", file_path.name, self.config.bucket_name, object_key)
        try:
            self.client.upload_file(
                str(file_path),
                self.config.bucket_name,
                object_key,
                ExtraArgs=extra_args,
            )
            logger.info("Upload successful: %s", object_key)
            return object_key
        except Exception as exc:
            logger.error("Upload failed: %s", exc)
            raise
    def download_file(self, object_key: str, local_path: Path) -> Path:
        """Download a file from cloud storage.
        Args:
            object_key: S3 object key
            local_path: Local destination path
        Returns:
            Path to downloaded file
        Raises:
            Exception: If download fails
        """
        local_path.parent.mkdir(parents=True, exist_ok=True)
        logger.info("Downloading s3://%s/%s to %s", self.config.bucket_name, object_key, local_path)
        try:
            self.client.download_file(
                self.config.bucket_name,
                object_key,
                str(local_path),
            )
            logger.info("Download successful: %s", local_path)
            return local_path
        except Exception as exc:
            logger.error("Download failed: %s", exc)
            raise
    def list_files(self, prefix: str = "") -> list[dict[str, Any]]:
        """List files in cloud storage.
        Args:
            prefix: Filter by object key prefix
        Returns:
            List of file metadata dictionaries
        """
        try:
            response = self.client.list_objects_v2(
                Bucket=self.config.bucket_name,
                Prefix=prefix,
            )
            if "Contents" not in response:
                return []
            files = []
            for obj in response["Contents"]:
                files.append(
                    {
                        "key": obj["Key"],
                        "size_bytes": obj["Size"],
                        "last_modified": obj["LastModified"],
                        "etag": obj["ETag"],
                    }
                )
            return files
        except Exception as exc:
            logger.error("Failed to list files: %s", exc)
            raise
    def delete_file(self, object_key: str) -> None:
        """Delete a file from cloud storage.
        Args:
            object_key: S3 object key
        Raises:
            Exception: If deletion fails
        """
        logger.info("Deleting s3://%s/%s", self.config.bucket_name, object_key)
        try:
            self.client.delete_object(
                Bucket=self.config.bucket_name,
                Key=object_key,
            )
            logger.info("Deletion successful: %s", object_key)
        except Exception as exc:
            logger.error("Deletion failed: %s", exc)
            raise
    def get_storage_stats(self) -> dict[str, Any]:
        """Get cloud storage statistics.
        Returns:
            Dictionary with storage stats
        """
        try:
            files = self.list_files()
            total_size = sum(f["size_bytes"] for f in files)
            total_count = len(files)
            return {
                "total_files": total_count,
                "total_size_bytes": total_size,
                "total_size_mb": total_size / 1024 / 1024,
                "total_size_gb": total_size / 1024 / 1024 / 1024,
            }
        except Exception as exc:
            logger.error("Failed to get storage stats: %s", exc)
            return {
                "error": str(exc),
                "total_files": 0,
                "total_size_bytes": 0,
            }
    def verify_connection(self) -> bool:
        """Verify connection to cloud storage.
        Returns:
            True if connection is successful
        """
        try:
            self.client.head_bucket(Bucket=self.config.bucket_name)
            logger.info("Cloud storage connection verified")
            return True
        except Exception as exc:
            logger.error("Cloud storage connection failed: %s", exc)
            return False
    def create_bucket_if_not_exists(self) -> None:
        """Create storage bucket if it doesn't exist.
        Raises:
            Exception: If bucket creation fails
        """
        try:
            self.client.head_bucket(Bucket=self.config.bucket_name)
            logger.info("Bucket already exists: %s", self.config.bucket_name)
        except self.client.exceptions.NoSuchBucket:
            logger.info("Creating bucket: %s", self.config.bucket_name)
            if self.config.region == "us-east-1":
                # us-east-1 requires special handling
                self.client.create_bucket(Bucket=self.config.bucket_name)
            else:
                self.client.create_bucket(
                    Bucket=self.config.bucket_name,
                    CreateBucketConfiguration={"LocationConstraint": self.config.region},
                )
            logger.info("Bucket created successfully")
        except Exception as exc:
            logger.error("Failed to verify/create bucket: %s", exc)
            raise
    def enable_versioning(self) -> None:
        """Enable versioning on the bucket.
        Raises:
            Exception: If versioning enablement fails
        """
        try:
            self.client.put_bucket_versioning(
                Bucket=self.config.bucket_name,
                VersioningConfiguration={"Status": "Enabled"},
            )
            logger.info("Versioning enabled for bucket: %s", self.config.bucket_name)
        except Exception as exc:
            logger.error("Failed to enable versioning: %s", exc)
            raise
--- a/src/backup/exporter.py
+++ b/src/backup/exporter.py
@@ -0,0 +1,326 @@
 """Multi-format database exporter for backups.
 Supports JSON, CSV, and Parquet formats for different use cases:
 - JSON: Human-readable, easy to inspect
 - CSV: Analysis tools (Excel, pandas)
 - Parquet: Big data tools (Spark, DuckDB)
 """
 from __future__ import annotations
 import csv
 import gzip
 import json
 import logging
 import sqlite3
 from datetime import UTC, datetime
 from enum import Enum
 from pathlib import Path
 from typing import Any
 logger = logging.getLogger(__name__)
 class ExportFormat(str, Enum):
    """Supported export formats."""
    JSON = "json"
    CSV = "csv"
    PARQUET = "parquet"
 class BackupExporter:
    """Export database to multiple formats."""
    def __init__(self, db_path: str) -> None:
        """Initialize the exporter.
        Args:
            db_path: Path to SQLite database
        """
        self.db_path = db_path
    def export_all(
        self,
        output_dir: Path,
        formats: list[ExportFormat] | None = None,
        compress: bool = True,
        incremental_since: datetime | None = None,
    ) -> dict[ExportFormat, Path]:
        """Export database to multiple formats.
        Args:
            output_dir: Directory to write export files
            formats: List of formats to export (default: all)
            compress: Whether to gzip compress exports
            incremental_since: Only export records after this timestamp
        Returns:
            Dictionary mapping format to output file path
        """
        if formats is None:
            formats = [ExportFormat.JSON, ExportFormat.CSV, ExportFormat.PARQUET]
        output_dir.mkdir(parents=True, exist_ok=True)
        timestamp = datetime.now(UTC).strftime("%Y%m%d_%H%M%S")
        results: dict[ExportFormat, Path] = {}
        for fmt in formats:
            try:
                output_file = self._export_format(
                    fmt, output_dir, timestamp, compress, incremental_since
                )
                results[fmt] = output_file
                logger.info("Exported to %s: %s", fmt.value, output_file)
            except Exception as exc:
                logger.error("Failed to export to %s: %s", fmt.value, exc)
        return results
    def _export_format(
        self,
        fmt: ExportFormat,
        output_dir: Path,
        timestamp: str,
        compress: bool,
        incremental_since: datetime | None,
    ) -> Path:
        """Export to a specific format.
        Args:
            fmt: Export format
            output_dir: Output directory
            timestamp: Timestamp string for filename
            compress: Whether to compress
            incremental_since: Incremental export cutoff
        Returns:
            Path to output file
        """
        if fmt == ExportFormat.JSON:
            return self._export_json(output_dir, timestamp, compress, incremental_since)
        elif fmt == ExportFormat.CSV:
            return self._export_csv(output_dir, timestamp, compress, incremental_since)
        elif fmt == ExportFormat.PARQUET:
            return self._export_parquet(
                output_dir, timestamp, compress, incremental_since
            )
        else:
            raise ValueError(f"Unsupported format: {fmt}")
    def _get_trades(
        self, incremental_since: datetime | None = None
    ) -> list[dict[str, Any]]:
        """Fetch trades from database.
        Args:
            incremental_since: Only fetch trades after this timestamp
        Returns:
            List of trade records
        """
        conn = sqlite3.connect(self.db_path)
        conn.row_factory = sqlite3.Row
        if incremental_since:
            cursor = conn.execute(
                "SELECT * FROM trades WHERE timestamp > ?",
                (incremental_since.isoformat(),),
            )
        else:
            cursor = conn.execute("SELECT * FROM trades")
        trades = [dict(row) for row in cursor.fetchall()]
        conn.close()
        return trades
    def _export_json(
        self,
        output_dir: Path,
        timestamp: str,
        compress: bool,
        incremental_since: datetime | None,
    ) -> Path:
        """Export to JSON format.
        Args:
            output_dir: Output directory
            timestamp: Timestamp for filename
            compress: Whether to gzip
            incremental_since: Incremental cutoff
        Returns:
            Path to output file
        """
        trades = self._get_trades(incremental_since)
        filename = f"trades_{timestamp}.json"
        if compress:
            filename += ".gz"
        output_file = output_dir / filename
        data = {
            "export_timestamp": datetime.now(UTC).isoformat(),
            "incremental_since": (
                incremental_since.isoformat() if incremental_since else None
            ),
            "record_count": len(trades),
            "trades": trades,
        }
        if compress:
            with gzip.open(output_file, "wt", encoding="utf-8") as f:
                json.dump(data, f, indent=2, ensure_ascii=False)
        else:
            with open(output_file, "w", encoding="utf-8") as f:
                json.dump(data, f, indent=2, ensure_ascii=False)
        return output_file
    def _export_csv(
        self,
        output_dir: Path,
        timestamp: str,
        compress: bool,
        incremental_since: datetime | None,
    ) -> Path:
        """Export to CSV format.
        Args:
            output_dir: Output directory
            timestamp: Timestamp for filename
            compress: Whether to gzip
            incremental_since: Incremental cutoff
        Returns:
            Path to output file
        """
        trades = self._get_trades(incremental_since)
        filename = f"trades_{timestamp}.csv"
        if compress:
            filename += ".gz"
        output_file = output_dir / filename
        if not trades:
            # Write empty CSV with headers
            if compress:
                with gzip.open(output_file, "wt", encoding="utf-8", newline="") as f:
                    writer = csv.writer(f)
                    writer.writerow(
                        [
                            "timestamp",
                            "stock_code",
                            "action",
                            "quantity",
                            "price",
                            "confidence",
                            "rationale",
                            "pnl",
                        ]
                    )
            else:
                with open(output_file, "w", encoding="utf-8", newline="") as f:
                    writer = csv.writer(f)
                    writer.writerow(
                        [
                            "timestamp",
                            "stock_code",
                            "action",
                            "quantity",
                            "price",
                            "confidence",
                            "rationale",
                            "pnl",
                        ]
                    )
            return output_file
        # Get column names from first trade
        fieldnames = list(trades[0].keys())
        if compress:
            with gzip.open(output_file, "wt", encoding="utf-8", newline="") as f:
                writer = csv.DictWriter(f, fieldnames=fieldnames)
                writer.writeheader()
                writer.writerows(trades)
        else:
            with open(output_file, "w", encoding="utf-8", newline="") as f:
                writer = csv.DictWriter(f, fieldnames=fieldnames)
                writer.writeheader()
                writer.writerows(trades)
        return output_file
    def _export_parquet(
        self,
        output_dir: Path,
        timestamp: str,
        compress: bool,
        incremental_since: datetime | None,
    ) -> Path:
        """Export to Parquet format.
        Args:
            output_dir: Output directory
            timestamp: Timestamp for filename
            compress: Whether to compress (Parquet has built-in compression)
            incremental_since: Incremental cutoff
        Returns:
            Path to output file
        """
        trades = self._get_trades(incremental_since)
        filename = f"trades_{timestamp}.parquet"
        output_file = output_dir / filename
        try:
            import pyarrow as pa
            import pyarrow.parquet as pq
        except ImportError:
            raise ImportError(
                "pyarrow is required for Parquet export. "
                "Install with: pip install pyarrow"
            )
        # Convert to pyarrow table
        table = pa.Table.from_pylist(trades)
        # Write with compression
        compression = "gzip" if compress else "none"
        pq.write_table(table, output_file, compression=compression)
        return output_file
    def get_export_stats(self) -> dict[str, Any]:
        """Get statistics about exportable data.
        Returns:
            Dictionary with data statistics
        """
        conn = sqlite3.connect(self.db_path)
        cursor = conn.cursor()
        stats = {}
        # Total trades
        cursor.execute("SELECT COUNT(*) FROM trades")
        stats["total_trades"] = cursor.fetchone()[0]
        # Date range
        cursor.execute("SELECT MIN(timestamp), MAX(timestamp) FROM trades")
        min_date, max_date = cursor.fetchone()
        stats["date_range"] = {"earliest": min_date, "latest": max_date}
        # Database size
        cursor.execute("SELECT page_count * page_size FROM pragma_page_count(), pragma_page_size()")
        stats["db_size_bytes"] = cursor.fetchone()[0]
        conn.close()
        return stats
--- a/src/backup/health_monitor.py
+++ b/src/backup/health_monitor.py
@@ -0,0 +1,282 @@
 """Health monitoring for backup system.
 Checks:
 - Database accessibility and integrity
 - Disk space availability
 - Backup success/failure tracking
 - Self-healing capabilities
 """
 from __future__ import annotations
 import logging
 import shutil
 import sqlite3
 from dataclasses import dataclass
 from datetime import UTC, datetime, timedelta
 from enum import Enum
 from pathlib import Path
 from typing import Any
 logger = logging.getLogger(__name__)
 class HealthStatus(str, Enum):
    """Health check status."""
    HEALTHY = "healthy"
    DEGRADED = "degraded"
    UNHEALTHY = "unhealthy"
@dataclass
 class HealthCheckResult:
    """Result of a health check."""
    status: HealthStatus
    message: str
    details: dict[str, Any] | None = None
    timestamp: datetime | None = None
    def __post_init__(self) -> None:
        if self.timestamp is None:
            self.timestamp = datetime.now(UTC)
 class HealthMonitor:
    """Monitor system health and backup status."""
    def __init__(
        self,
        db_path: str,
        backup_dir: Path,
        min_disk_space_gb: float = 10.0,
        max_backup_age_hours: int = 25,  # Daily backups should be < 25 hours old
    ) -> None:
        """Initialize health monitor.
        Args:
            db_path: Path to SQLite database
            backup_dir: Backup directory
            min_disk_space_gb: Minimum required disk space in GB
            max_backup_age_hours: Maximum acceptable backup age in hours
        """
        self.db_path = Path(db_path)
        self.backup_dir = backup_dir
        self.min_disk_space_bytes = int(min_disk_space_gb * 1024 * 1024 * 1024)
        self.max_backup_age = timedelta(hours=max_backup_age_hours)
    def check_database_health(self) -> HealthCheckResult:
        """Check database accessibility and integrity.
        Returns:
            HealthCheckResult
        """
        # Check if database exists
        if not self.db_path.exists():
            return HealthCheckResult(
                status=HealthStatus.UNHEALTHY,
                message=f"Database not found: {self.db_path}",
            )
        # Check if database is accessible
        try:
            conn = sqlite3.connect(str(self.db_path))
            cursor = conn.cursor()
            # Run integrity check
            cursor.execute("PRAGMA integrity_check")
            result = cursor.fetchone()[0]
            if result != "ok":
                conn.close()
                return HealthCheckResult(
                    status=HealthStatus.UNHEALTHY,
                    message=f"Database integrity check failed: {result}",
                )
            # Get database size
            cursor.execute(
                "SELECT page_count * page_size FROM pragma_page_count(), pragma_page_size()"
            )
            db_size = cursor.fetchone()[0]
            # Get row counts
            cursor.execute("SELECT COUNT(*) FROM trades")
            trade_count = cursor.fetchone()[0]
            conn.close()
            return HealthCheckResult(
                status=HealthStatus.HEALTHY,
                message="Database is healthy",
                details={
                    "size_bytes": db_size,
                    "size_mb": db_size / 1024 / 1024,
                    "trade_count": trade_count,
                },
            )
        except sqlite3.Error as exc:
            return HealthCheckResult(
                status=HealthStatus.UNHEALTHY,
                message=f"Database access error: {exc}",
            )
    def check_disk_space(self) -> HealthCheckResult:
        """Check available disk space.
        Returns:
            HealthCheckResult
        """
        try:
            stat = shutil.disk_usage(self.backup_dir)
            free_gb = stat.free / 1024 / 1024 / 1024
            total_gb = stat.total / 1024 / 1024 / 1024
            used_percent = (stat.used / stat.total) * 100
            if stat.free < self.min_disk_space_bytes:
                return HealthCheckResult(
                    status=HealthStatus.UNHEALTHY,
                    message=f"Low disk space: {free_gb:.2f} GB free (minimum: {self.min_disk_space_bytes / 1024 / 1024 / 1024:.2f} GB)",
                    details={
                        "free_gb": free_gb,
                        "total_gb": total_gb,
                        "used_percent": used_percent,
                    },
                )
            elif stat.free < self.min_disk_space_bytes * 2:
                return HealthCheckResult(
                    status=HealthStatus.DEGRADED,
                    message=f"Disk space low: {free_gb:.2f} GB free",
                    details={
                        "free_gb": free_gb,
                        "total_gb": total_gb,
                        "used_percent": used_percent,
                    },
                )
            else:
                return HealthCheckResult(
                    status=HealthStatus.HEALTHY,
                    message=f"Disk space healthy: {free_gb:.2f} GB free",
                    details={
                        "free_gb": free_gb,
                        "total_gb": total_gb,
                        "used_percent": used_percent,
                    },
                )
        except Exception as exc:
            return HealthCheckResult(
                status=HealthStatus.UNHEALTHY,
                message=f"Failed to check disk space: {exc}",
            )
    def check_backup_recency(self) -> HealthCheckResult:
        """Check if backups are recent enough.
        Returns:
            HealthCheckResult
        """
        daily_dir = self.backup_dir / "daily"
        if not daily_dir.exists():
            return HealthCheckResult(
                status=HealthStatus.DEGRADED,
                message="Daily backup directory not found",
            )
        # Find most recent backup
        backups = sorted(daily_dir.glob("*.db"), key=lambda p: p.stat().st_mtime, reverse=True)
        if not backups:
            return HealthCheckResult(
                status=HealthStatus.UNHEALTHY,
                message="No daily backups found",
            )
        most_recent = backups[0]
        mtime = datetime.fromtimestamp(most_recent.stat().st_mtime, tz=UTC)
        age = datetime.now(UTC) - mtime
        if age > self.max_backup_age:
            return HealthCheckResult(
                status=HealthStatus.DEGRADED,
                message=f"Most recent backup is {age.total_seconds() / 3600:.1f} hours old",
                details={
                    "backup_file": most_recent.name,
                    "age_hours": age.total_seconds() / 3600,
                    "threshold_hours": self.max_backup_age.total_seconds() / 3600,
                },
            )
        else:
            return HealthCheckResult(
                status=HealthStatus.HEALTHY,
                message=f"Recent backup found ({age.total_seconds() / 3600:.1f} hours old)",
                details={
                    "backup_file": most_recent.name,
                    "age_hours": age.total_seconds() / 3600,
                },
            )
    def run_all_checks(self) -> dict[str, HealthCheckResult]:
        """Run all health checks.
        Returns:
            Dictionary mapping check name to result
        """
        checks = {
            "database": self.check_database_health(),
            "disk_space": self.check_disk_space(),
            "backup_recency": self.check_backup_recency(),
        }
        # Log results
        for check_name, result in checks.items():
            if result.status == HealthStatus.UNHEALTHY:
                logger.error("[%s] %s: %s", check_name, result.status.value, result.message)
            elif result.status == HealthStatus.DEGRADED:
                logger.warning("[%s] %s: %s", check_name, result.status.value, result.message)
            else:
                logger.info("[%s] %s: %s", check_name, result.status.value, result.message)
        return checks
    def get_overall_status(self) -> HealthStatus:
        """Get overall system health status.
        Returns:
            HealthStatus (worst status from all checks)
        """
        checks = self.run_all_checks()
        # Return worst status
        if any(c.status == HealthStatus.UNHEALTHY for c in checks.values()):
            return HealthStatus.UNHEALTHY
        elif any(c.status == HealthStatus.DEGRADED for c in checks.values()):
            return HealthStatus.DEGRADED
        else:
            return HealthStatus.HEALTHY
    def get_health_report(self) -> dict[str, Any]:
        """Get comprehensive health report.
        Returns:
            Dictionary with health report
        """
        checks = self.run_all_checks()
        overall = self.get_overall_status()
        return {
            "overall_status": overall.value,
            "timestamp": datetime.now(UTC).isoformat(),
            "checks": {
                name: {
                    "status": result.status.value,
                    "message": result.message,
                    "details": result.details,
                }
                for name, result in checks.items()
            },
        }
--- a/src/backup/scheduler.py
+++ b/src/backup/scheduler.py
@@ -0,0 +1,336 @@
 """Backup scheduler for automated database backups.
 Implements backup policies:
 - Daily: Keep for 30 days (hot storage)
 - Weekly: Keep for 1 year (warm storage)
 - Monthly: Keep forever (cold storage)
 """
 from __future__ import annotations
 import logging
 import shutil
 from dataclasses import dataclass
 from datetime import UTC, datetime, timedelta
 from enum import Enum
 from pathlib import Path
 from typing import Any
 logger = logging.getLogger(__name__)
 class BackupPolicy(str, Enum):
    """Backup retention policies."""
    DAILY = "daily"
    WEEKLY = "weekly"
    MONTHLY = "monthly"
@dataclass
 class BackupMetadata:
    """Metadata for a backup."""
    timestamp: datetime
    policy: BackupPolicy
    file_path: Path
    size_bytes: int
    checksum: str | None = None
 class BackupScheduler:
    """Manage automated database backups with retention policies."""
    def __init__(
        self,
        db_path: str,
        backup_dir: Path,
        daily_retention_days: int = 30,
        weekly_retention_days: int = 365,
    ) -> None:
        """Initialize the backup scheduler.
        Args:
            db_path: Path to SQLite database
            backup_dir: Root directory for backups
            daily_retention_days: Days to keep daily backups
            weekly_retention_days: Days to keep weekly backups
        """
        self.db_path = Path(db_path)
        self.backup_dir = backup_dir
        self.daily_retention = timedelta(days=daily_retention_days)
        self.weekly_retention = timedelta(days=weekly_retention_days)
        # Create policy-specific directories
        self.daily_dir = backup_dir / "daily"
        self.weekly_dir = backup_dir / "weekly"
        self.monthly_dir = backup_dir / "monthly"
        for d in [self.daily_dir, self.weekly_dir, self.monthly_dir]:
            d.mkdir(parents=True, exist_ok=True)
    def create_backup(
        self, policy: BackupPolicy, verify: bool = True
    ) -> BackupMetadata:
        """Create a database backup.
        Args:
            policy: Backup policy (daily/weekly/monthly)
            verify: Whether to verify backup integrity
        Returns:
            BackupMetadata object
        Raises:
            FileNotFoundError: If database doesn't exist
            OSError: If backup fails
        """
        if not self.db_path.exists():
            raise FileNotFoundError(f"Database not found: {self.db_path}")
        timestamp = datetime.now(UTC)
        backup_filename = self._get_backup_filename(timestamp, policy)
        # Determine output directory
        if policy == BackupPolicy.DAILY:
            output_dir = self.daily_dir
        elif policy == BackupPolicy.WEEKLY:
            output_dir = self.weekly_dir
        else:  # MONTHLY
            output_dir = self.monthly_dir
        backup_path = output_dir / backup_filename
        # Create backup (copy database file)
        logger.info("Creating %s backup: %s", policy.value, backup_path)
        shutil.copy2(self.db_path, backup_path)
        # Get file size
        size_bytes = backup_path.stat().st_size
        # Verify backup if requested
        checksum = None
        if verify:
            checksum = self._verify_backup(backup_path)
        metadata = BackupMetadata(
            timestamp=timestamp,
            policy=policy,
            file_path=backup_path,
            size_bytes=size_bytes,
            checksum=checksum,
        )
        logger.info(
            "Backup created: %s (%.2f MB)",
            backup_path.name,
            size_bytes / 1024 / 1024,
        )
        return metadata
    def _get_backup_filename(self, timestamp: datetime, policy: BackupPolicy) -> str:
        """Generate backup filename.
        Args:
            timestamp: Backup timestamp
            policy: Backup policy
        Returns:
            Filename string
        """
        ts_str = timestamp.strftime("%Y%m%d_%H%M%S")
        return f"trade_logs_{policy.value}_{ts_str}.db"
    def _verify_backup(self, backup_path: Path) -> str:
        """Verify backup integrity using SQLite integrity check.
        Args:
            backup_path: Path to backup file
        Returns:
            Checksum string (MD5 hash)
        Raises:
            RuntimeError: If integrity check fails
        """
        import hashlib
        import sqlite3
        # Integrity check
        try:
            conn = sqlite3.connect(str(backup_path))
            cursor = conn.cursor()
            cursor.execute("PRAGMA integrity_check")
            result = cursor.fetchone()[0]
            conn.close()
            if result != "ok":
                raise RuntimeError(f"Integrity check failed: {result}")
        except sqlite3.Error as exc:
            raise RuntimeError(f"Failed to verify backup: {exc}")
        # Calculate MD5 checksum
        md5 = hashlib.md5()
        with open(backup_path, "rb") as f:
            for chunk in iter(lambda: f.read(8192), b""):
                md5.update(chunk)
        return md5.hexdigest()
    def cleanup_old_backups(self) -> dict[BackupPolicy, int]:
        """Remove backups older than retention policies.
        Returns:
            Dictionary mapping policy to number of backups removed
        """
        now = datetime.now(UTC)
        removed_counts: dict[BackupPolicy, int] = {}
        # Daily backups: remove older than retention
        removed_counts[BackupPolicy.DAILY] = self._cleanup_directory(
            self.daily_dir, now - self.daily_retention
        )
        # Weekly backups: remove older than retention
        removed_counts[BackupPolicy.WEEKLY] = self._cleanup_directory(
            self.weekly_dir, now - self.weekly_retention
        )
        # Monthly backups: never remove (kept forever)
        removed_counts[BackupPolicy.MONTHLY] = 0
        total = sum(removed_counts.values())
        if total > 0:
            logger.info("Cleaned up %d old backup(s)", total)
        return removed_counts
    def _cleanup_directory(self, directory: Path, cutoff: datetime) -> int:
        """Remove backups older than cutoff date.
        Args:
            directory: Directory to clean
            cutoff: Remove files older than this
        Returns:
            Number of files removed
        """
        removed = 0
        for backup_file in directory.glob("*.db"):
            # Get file modification time
            mtime = datetime.fromtimestamp(backup_file.stat().st_mtime, tz=UTC)
            if mtime < cutoff:
                logger.debug("Removing old backup: %s", backup_file.name)
                backup_file.unlink()
                removed += 1
        return removed
    def list_backups(
        self, policy: BackupPolicy | None = None
    ) -> list[BackupMetadata]:
        """List available backups.
        Args:
            policy: Filter by policy (None for all)
        Returns:
            List of BackupMetadata objects
        """
        backups: list[BackupMetadata] = []
        policies_to_check = (
            [policy] if policy else [BackupPolicy.DAILY, BackupPolicy.WEEKLY, BackupPolicy.MONTHLY]
        )
        for pol in policies_to_check:
            if pol == BackupPolicy.DAILY:
                directory = self.daily_dir
            elif pol == BackupPolicy.WEEKLY:
                directory = self.weekly_dir
            else:
                directory = self.monthly_dir
            for backup_file in sorted(directory.glob("*.db")):
                mtime = datetime.fromtimestamp(backup_file.stat().st_mtime, tz=UTC)
                size = backup_file.stat().st_size
                backups.append(
                    BackupMetadata(
                        timestamp=mtime,
                        policy=pol,
                        file_path=backup_file,
                        size_bytes=size,
                    )
                )
        # Sort by timestamp (newest first)
        backups.sort(key=lambda b: b.timestamp, reverse=True)
        return backups
    def get_backup_stats(self) -> dict[str, Any]:
        """Get backup statistics.
        Returns:
            Dictionary with backup stats
        """
        stats: dict[str, Any] = {}
        for policy in BackupPolicy:
            if policy == BackupPolicy.DAILY:
                directory = self.daily_dir
            elif policy == BackupPolicy.WEEKLY:
                directory = self.weekly_dir
            else:
                directory = self.monthly_dir
            backups = list(directory.glob("*.db"))
            total_size = sum(b.stat().st_size for b in backups)
            stats[policy.value] = {
                "count": len(backups),
                "total_size_bytes": total_size,
                "total_size_mb": total_size / 1024 / 1024,
            }
        return stats
    def restore_backup(self, backup_metadata: BackupMetadata, verify: bool = True) -> None:
        """Restore database from backup.
        Args:
            backup_metadata: Backup to restore
            verify: Whether to verify restored database
        Raises:
            FileNotFoundError: If backup file doesn't exist
            RuntimeError: If verification fails
        """
        if not backup_metadata.file_path.exists():
            raise FileNotFoundError(f"Backup not found: {backup_metadata.file_path}")
        # Create backup of current database
        if self.db_path.exists():
            backup_current = self.db_path.with_suffix(".db.before_restore")
            logger.info("Backing up current database to: %s", backup_current)
            shutil.copy2(self.db_path, backup_current)
        # Restore backup
        logger.info("Restoring backup: %s", backup_metadata.file_path.name)
        shutil.copy2(backup_metadata.file_path, self.db_path)
        # Verify restored database
        if verify:
            try:
                self._verify_backup(self.db_path)
                logger.info("Backup restored and verified successfully")
            except RuntimeError as exc:
                # Restore failed, revert to backup
                if backup_current.exists():
                    logger.error("Restore verification failed, reverting: %s", exc)
                    shutil.copy2(backup_current, self.db_path)
                raise
--- a/src/brain/gemini_client.py
+++ b/src/brain/gemini_client.py
@@ -525,3 +525,233 @@ class GeminiClient:
            DecisionCache instance or None if caching disabled
        """
        return self._cache
    # ------------------------------------------------------------------
    # Batch Decision Making (for daily trading mode)
    # ------------------------------------------------------------------
    async def decide_batch(
        self, stocks_data: list[dict[str, Any]]
    ) -> dict[str, TradeDecision]:
        """Make decisions for multiple stocks in a single API call.
        This is designed for daily trading mode to minimize API usage
        when working with Gemini Free tier (20 calls/day limit).
        Args:
            stocks_data: List of market data dictionaries, each with:
                - stock_code: Stock ticker
                - current_price: Current price
                - market_name: Market name (optional)
                - foreigner_net: Foreigner net buy/sell (optional)
        Returns:
            Dictionary mapping stock_code to TradeDecision
        Example:
            >>> stocks_data = [
            ...     {"stock_code": "AAPL", "current_price": 185.5},
            ...     {"stock_code": "MSFT", "current_price": 420.0},
            ... ]
            >>> decisions = await client.decide_batch(stocks_data)
            >>> decisions["AAPL"].action
            'BUY'
        """
        if not stocks_data:
            return {}
        # Build compressed batch prompt
        market_name = stocks_data[0].get("market_name", "stock market")
        # Format stock data as compact JSON array
        compact_stocks = []
        for stock in stocks_data:
            compact = {
                "code": stock["stock_code"],
                "price": stock["current_price"],
            }
            if stock.get("foreigner_net", 0) != 0:
                compact["frgn"] = stock["foreigner_net"]
            compact_stocks.append(compact)
        data_str = json.dumps(compact_stocks, ensure_ascii=False)
        prompt = (
            f"You are a professional {market_name} trading analyst.\n"
            "Analyze the following stocks and decide whether to BUY, SELL, or HOLD each one.\n\n"
            f"Stock Data: {data_str}\n\n"
            "You MUST respond with ONLY a valid JSON array in this format:\n"
            '[{"code": "AAPL", "action": "BUY", "confidence": 85, "rationale": "..."},\n'
            ' {"code": "MSFT", "action": "HOLD", "confidence": 50, "rationale": "..."}, ...]\n\n'
            "Rules:\n"
            "- Return one decision object per stock\n"
            "- action must be exactly: BUY, SELL, or HOLD\n"
            "- confidence must be 0-100\n"
            "- rationale should be concise (1-2 sentences)\n"
            "- Do NOT wrap JSON in markdown code blocks\n"
        )
        # Estimate tokens
        token_count = self._optimizer.estimate_tokens(prompt)
        self._total_tokens_used += token_count
        logger.info(
            "Requesting batch decision for %d stocks from Gemini",
            len(stocks_data),
            extra={"estimated_tokens": token_count},
        )
        try:
            response = await self._client.aio.models.generate_content(
                model=self._model_name,
                contents=prompt,
            )
            raw = response.text
        except Exception as exc:
            logger.error("Gemini API error in batch decision: %s", exc)
            # Return HOLD for all stocks on API error
            return {
                stock["stock_code"]: TradeDecision(
                    action="HOLD",
                    confidence=0,
                    rationale=f"API error: {exc}",
                    token_count=token_count,
                    cached=False,
                )
                for stock in stocks_data
            }
        # Parse batch response
        return self._parse_batch_response(raw, stocks_data, token_count)
    def _parse_batch_response(
        self, raw: str, stocks_data: list[dict[str, Any]], token_count: int
    ) -> dict[str, TradeDecision]:
        """Parse batch response into a dictionary of decisions.
        Args:
            raw: Raw response from Gemini
            stocks_data: Original stock data list
            token_count: Token count for the request
        Returns:
            Dictionary mapping stock_code to TradeDecision
        """
        if not raw or not raw.strip():
            logger.warning("Empty batch response from Gemini — defaulting all to HOLD")
            return {
                stock["stock_code"]: TradeDecision(
                    action="HOLD",
                    confidence=0,
                    rationale="Empty response",
                    token_count=0,
                    cached=False,
                )
                for stock in stocks_data
            }
        # Strip markdown code fences if present
        cleaned = raw.strip()
        match = re.search(r"```(?:json)?\s*\n?(.*?)\n?```", cleaned, re.DOTALL)
        if match:
            cleaned = match.group(1).strip()
        try:
            data = json.loads(cleaned)
        except json.JSONDecodeError:
            logger.warning("Malformed JSON in batch response — defaulting all to HOLD")
            return {
                stock["stock_code"]: TradeDecision(
                    action="HOLD",
                    confidence=0,
                    rationale="Malformed JSON response",
                    token_count=0,
                    cached=False,
                )
                for stock in stocks_data
            }
        if not isinstance(data, list):
            logger.warning("Batch response is not a JSON array — defaulting all to HOLD")
            return {
                stock["stock_code"]: TradeDecision(
                    action="HOLD",
                    confidence=0,
                    rationale="Invalid response format",
                    token_count=0,
                    cached=False,
                )
                for stock in stocks_data
            }
        # Build decision map
        decisions: dict[str, TradeDecision] = {}
        stock_codes = {stock["stock_code"] for stock in stocks_data}
        for item in data:
            if not isinstance(item, dict):
                continue
            code = item.get("code")
            if not code or code not in stock_codes:
                continue
            # Validate required fields
            if not all(k in item for k in ("action", "confidence", "rationale")):
                logger.warning("Missing fields for %s — using HOLD", code)
                decisions[code] = TradeDecision(
                    action="HOLD",
                    confidence=0,
                    rationale="Missing required fields",
                    token_count=0,
                    cached=False,
                )
                continue
            action = str(item["action"]).upper()
            if action not in VALID_ACTIONS:
                logger.warning("Invalid action '%s' for %s — forcing HOLD", action, code)
                action = "HOLD"
            confidence = int(item["confidence"])
            rationale = str(item["rationale"])
            # Enforce confidence threshold
            if confidence < self._confidence_threshold:
                logger.info(
                    "Confidence %d < threshold %d for %s — forcing HOLD",
                    confidence,
                    self._confidence_threshold,
                    code,
                )
                action = "HOLD"
            decisions[code] = TradeDecision(
                action=action,
                confidence=confidence,
                rationale=rationale,
                token_count=token_count // len(stocks_data),  # Split token cost
                cached=False,
            )
            self._total_decisions += 1
        # Fill in missing stocks with HOLD
        for stock in stocks_data:
            code = stock["stock_code"]
            if code not in decisions:
                logger.warning("No decision for %s in batch response — using HOLD", code)
                decisions[code] = TradeDecision(
                    action="HOLD",
                    confidence=0,
                    rationale="Not found in batch response",
                    token_count=0,
                    cached=False,
                )
        logger.info(
            "Batch decision completed for %d stocks",
            len(decisions),
            extra={"tokens": token_count},
        )
        return decisions
--- a/src/broker/kis_api.py
+++ b/src/broker/kis_api.py
@@ -55,6 +55,9 @@ class KISBroker:
        self._session: aiohttp.ClientSession | None = None
        self._access_token: str | None = None
        self._token_expires_at: float = 0.0
        self._token_lock = asyncio.Lock()
        self._last_refresh_attempt: float = 0.0
        self._refresh_cooldown: float = 60.0  # Seconds (matches KIS 1/minute limit)
        self._rate_limiter = LeakyBucket(settings.RATE_LIMIT_RPS)
    def _get_session(self) -> aiohttp.ClientSession:
@@ -80,12 +83,36 @@ class KISBroker:
    # ------------------------------------------------------------------
    async def _ensure_token(self) -> str:
-        """Return a valid access token, refreshing if expired."""
+        """Return a valid access token, refreshing if expired.
        Uses a lock to prevent concurrent token refresh attempts that would
        hit the API's 1-per-minute rate limit (EGW00133).
        """
        # Fast path: check without lock
        now = asyncio.get_event_loop().time()
        if self._access_token and now < self._token_expires_at:
            return self._access_token
        # Slow path: acquire lock and refresh
        async with self._token_lock:
            # Re-check after acquiring lock (another coroutine may have refreshed)
            now = asyncio.get_event_loop().time()
            if self._access_token and now < self._token_expires_at:
                return self._access_token
            # Check cooldown period (prevents hitting EGW00133: 1/minute limit)
            time_since_last_attempt = now - self._last_refresh_attempt
            if time_since_last_attempt < self._refresh_cooldown:
                remaining = self._refresh_cooldown - time_since_last_attempt
                error_msg = (
                    f"Token refresh on cooldown. "
                    f"Retry in {remaining:.1f}s (KIS allows 1/minute)"
                )
                logger.warning(error_msg)
                raise ConnectionError(error_msg)
            logger.info("Refreshing KIS access token")
            self._last_refresh_attempt = now
            session = self._get_session()
            url = f"{self._base_url}/oauth2/tokenP"
            body = {
@@ -111,6 +138,7 @@ class KISBroker:
    async def _get_hash_key(self, body: dict[str, Any]) -> str:
        """Request a hash key from KIS for POST request body signing."""
        await self._rate_limiter.acquire()
        session = self._get_session()
        url = f"{self._base_url}/uapi/hashkey"
        headers = {
@@ -252,3 +280,153 @@ class KISBroker:
                return data
        except (TimeoutError, aiohttp.ClientError) as exc:
            raise ConnectionError(f"Network error sending order: {exc}") from exc
    async def fetch_market_rankings(
        self,
        ranking_type: str = "volume",
        limit: int = 30,
    ) -> list[dict[str, Any]]:
        """Fetch market rankings from KIS API.
        Args:
            ranking_type: Type of ranking ("volume" or "fluctuation")
            limit: Maximum number of results to return
        Returns:
            List of stock data dicts with keys: stock_code, name, price, volume,
            change_rate, volume_increase_rate
        Raises:
            ConnectionError: If API request fails
        """
        await self._rate_limiter.acquire()
        session = self._get_session()
        # TR_ID for volume ranking
        tr_id = "FHPST01710000" if ranking_type == "volume" else "FHPST01710100"
        headers = await self._auth_headers(tr_id)
        params = {
            "FID_COND_MRKT_DIV_CODE": "J",  # Stock/ETF/ETN
            "FID_COND_SCR_DIV_CODE": "20001",  # Volume surge
            "FID_INPUT_ISCD": "0000",  # All stocks
            "FID_DIV_CLS_CODE": "0",  # All types
            "FID_BLNG_CLS_CODE": "0",
            "FID_TRGT_CLS_CODE": "111111111",
            "FID_TRGT_EXLS_CLS_CODE": "000000",
            "FID_INPUT_PRICE_1": "0",
            "FID_INPUT_PRICE_2": "0",
            "FID_VOL_CNT": "0",
            "FID_INPUT_DATE_1": "",
        }
        url = f"{self._base_url}/uapi/domestic-stock/v1/quotations/volume-rank"
        try:
            async with session.get(url, headers=headers, params=params) as resp:
                if resp.status != 200:
                    text = await resp.text()
                    raise ConnectionError(
                        f"fetch_market_rankings failed ({resp.status}): {text}"
                    )
                data = await resp.json()
            # Parse response - output is a list of ranked stocks
            def _safe_float(value: str | float | None, default: float = 0.0) -> float:
                if value is None or value == "":
                    return default
                try:
                    return float(value)
                except (ValueError, TypeError):
                    return default
            rankings = []
            for item in data.get("output", [])[:limit]:
                rankings.append({
                    "stock_code": item.get("mksc_shrn_iscd", ""),
                    "name": item.get("hts_kor_isnm", ""),
                    "price": _safe_float(item.get("stck_prpr", "0")),
                    "volume": _safe_float(item.get("acml_vol", "0")),
                    "change_rate": _safe_float(item.get("prdy_ctrt", "0")),
                    "volume_increase_rate": _safe_float(item.get("vol_inrt", "0")),
                })
            return rankings
        except (TimeoutError, aiohttp.ClientError) as exc:
            raise ConnectionError(f"Network error fetching rankings: {exc}") from exc
    async def get_daily_prices(
        self,
        stock_code: str,
        days: int = 20,
    ) -> list[dict[str, Any]]:
        """Fetch daily OHLCV price history for a stock.
        Args:
            stock_code: 6-digit stock code
            days: Number of trading days to fetch (default 20 for RSI calculation)
        Returns:
            List of daily price dicts with keys: date, open, high, low, close, volume
            Sorted oldest to newest
        Raises:
            ConnectionError: If API request fails
        """
        await self._rate_limiter.acquire()
        session = self._get_session()
        headers = await self._auth_headers("FHKST03010100")
        # Calculate date range (today and N days ago)
        from datetime import datetime, timedelta
        end_date = datetime.now().strftime("%Y%m%d")
        start_date = (datetime.now() - timedelta(days=days + 10)).strftime("%Y%m%d")
        params = {
            "FID_COND_MRKT_DIV_CODE": "J",
            "FID_INPUT_ISCD": stock_code,
            "FID_INPUT_DATE_1": start_date,
            "FID_INPUT_DATE_2": end_date,
            "FID_PERIOD_DIV_CODE": "D",  # Daily
            "FID_ORG_ADJ_PRC": "0",  # Adjusted price
        }
        url = f"{self._base_url}/uapi/domestic-stock/v1/quotations/inquire-daily-itemchartprice"
        try:
            async with session.get(url, headers=headers, params=params) as resp:
                if resp.status != 200:
                    text = await resp.text()
                    raise ConnectionError(
                        f"get_daily_prices failed ({resp.status}): {text}"
                    )
                data = await resp.json()
            # Parse response
            def _safe_float(value: str | float | None, default: float = 0.0) -> float:
                if value is None or value == "":
                    return default
                try:
                    return float(value)
                except (ValueError, TypeError):
                    return default
            prices = []
            for item in data.get("output2", []):
                prices.append({
                    "date": item.get("stck_bsop_date", ""),
                    "open": _safe_float(item.get("stck_oprc", "0")),
                    "high": _safe_float(item.get("stck_hgpr", "0")),
                    "low": _safe_float(item.get("stck_lwpr", "0")),
                    "close": _safe_float(item.get("stck_clpr", "0")),
                    "volume": _safe_float(item.get("acml_vol", "0")),
                })
            # Sort oldest to newest (KIS returns newest first)
            prices.reverse()
            return prices[:days]  # Return only requested number of days
        except (TimeoutError, aiohttp.ClientError) as exc:
            raise ConnectionError(f"Network error fetching daily prices: {exc}") from exc
--- a/src/config.py
+++ b/src/config.py
@@ -33,17 +33,55 @@ class Settings(BaseSettings):
    FAT_FINGER_PCT: float = Field(default=30.0, gt=0.0, le=100.0)
    CONFIDENCE_THRESHOLD: int = Field(default=80, ge=0, le=100)
    # Smart Scanner Configuration
    RSI_OVERSOLD_THRESHOLD: int = Field(default=30, ge=0, le=50)
    RSI_MOMENTUM_THRESHOLD: int = Field(default=70, ge=50, le=100)
    VOL_MULTIPLIER: float = Field(default=2.0, gt=1.0, le=10.0)
    SCANNER_TOP_N: int = Field(default=3, ge=1, le=10)
    # Database
    DB_PATH: str = "data/trade_logs.db"
    # Rate Limiting (requests per second for KIS API)
-    RATE_LIMIT_RPS: float = 10.0
+    # Conservative limit to avoid EGW00201 "초당 거래건수 초과" errors.
    # KIS API real limit is ~2 RPS; 2.0 provides maximum safety.
    RATE_LIMIT_RPS: float = 2.0
    # Trading mode
    MODE: str = Field(default="paper", pattern="^(paper|live)$")
    # Trading frequency mode (daily = batch API calls, realtime = per-stock calls)
    TRADE_MODE: str = Field(default="daily", pattern="^(daily|realtime)$")
    DAILY_SESSIONS: int = Field(default=4, ge=1, le=10)
    SESSION_INTERVAL_HOURS: int = Field(default=6, ge=1, le=24)
    # Pre-Market Planner
    PRE_MARKET_MINUTES: int = Field(default=30, ge=10, le=120)
    MAX_SCENARIOS_PER_STOCK: int = Field(default=5, ge=1, le=10)
    PLANNER_TIMEOUT_SECONDS: int = Field(default=60, ge=10, le=300)
    DEFENSIVE_PLAYBOOK_ON_FAILURE: bool = True
    RESCAN_INTERVAL_SECONDS: int = Field(default=300, ge=60, le=900)
    # Market selection (comma-separated market codes)
-    ENABLED_MARKETS: str = "KR"
+    ENABLED_MARKETS: str = "KR,US"
    # Backup and Disaster Recovery (optional)
    BACKUP_ENABLED: bool = True
    BACKUP_DIR: str = "data/backups"
    S3_ENDPOINT_URL: str | None = None  # For MinIO, Backblaze B2, etc.
    S3_ACCESS_KEY: str | None = None
    S3_SECRET_KEY: str | None = None
    S3_BUCKET_NAME: str | None = None
    S3_REGION: str = "us-east-1"
    # Telegram Notifications (optional)
    TELEGRAM_BOT_TOKEN: str | None = None
    TELEGRAM_CHAT_ID: str | None = None
    TELEGRAM_ENABLED: bool = True
    # Telegram Commands (optional)
    TELEGRAM_COMMANDS_ENABLED: bool = True
    TELEGRAM_POLLING_INTERVAL: float = 1.0  # seconds
    model_config = {"env_file": ".env", "env_file_encoding": "utf-8"}
--- a/src/db.py
+++ b/src/db.py
@@ -2,6 +2,7 @@
 from __future__ import annotations
 import json
 import sqlite3
 from datetime import UTC, datetime
 from pathlib import Path
@@ -38,6 +39,8 @@ def init_db(db_path: str) -> sqlite3.Connection:
        conn.execute("ALTER TABLE trades ADD COLUMN market TEXT DEFAULT 'KR'")
    if "exchange_code" not in columns:
        conn.execute("ALTER TABLE trades ADD COLUMN exchange_code TEXT DEFAULT 'KRX'")
    if "selection_context" not in columns:
        conn.execute("ALTER TABLE trades ADD COLUMN selection_context TEXT")
    # Context tree tables for multi-layered memory management
    conn.execute(
@@ -118,15 +121,33 @@ def log_trade(
    pnl: float = 0.0,
    market: str = "KR",
    exchange_code: str = "KRX",
    selection_context: dict[str, any] | None = None,
 ) -> None:
-    """Insert a trade record into the database."""
+    """Insert a trade record into the database.
    Args:
        conn: Database connection
        stock_code: Stock code
        action: Trade action (BUY/SELL/HOLD)
        confidence: Confidence level (0-100)
        rationale: AI decision rationale
        quantity: Number of shares
        price: Trade price
        pnl: Profit/loss
        market: Market code
        exchange_code: Exchange code
        selection_context: Scanner selection data (RSI, volume_ratio, signal, score)
    """
    # Serialize selection context to JSON
    context_json = json.dumps(selection_context) if selection_context else None
    conn.execute(
        """
        INSERT INTO trades (
            timestamp, stock_code, action, confidence, rationale,
-            quantity, price, pnl, market, exchange_code
+            quantity, price, pnl, market, exchange_code, selection_context
        )
-        VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?, ?)
+        VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?)
        """,
        (
            datetime.now(UTC).isoformat(),
@@ -139,6 +160,7 @@ def log_trade(
            pnl,
            market,
            exchange_code,
            context_json,
        ),
    )
    conn.commit()
--- a/src/main.py
+++ b/src/main.py
@@ -10,10 +10,12 @@ import argparse
 import asyncio
 import logging
 import signal
 import sys
 from datetime import UTC, datetime
 from typing import Any
 from src.analysis.scanner import MarketScanner
 from src.analysis.smart_scanner import ScanCandidate, SmartVolatilityScanner
 from src.analysis.volatility import VolatilityAnalyzer
 from src.brain.gemini_client import GeminiClient
 from src.broker.kis_api import KISBroker
@@ -23,34 +25,51 @@ from src.context.layer import ContextLayer
 from src.context.store import ContextStore
 from src.core.criticality import CriticalityAssessor
 from src.core.priority_queue import PriorityTaskQueue
-from src.core.risk_manager import CircuitBreakerTripped, RiskManager
+from src.core.risk_manager import CircuitBreakerTripped, FatFingerRejected, RiskManager
 from src.db import init_db, log_trade
 from src.logging.decision_logger import DecisionLogger
 from src.logging_config import setup_logging
 from src.markets.schedule import MarketInfo, get_next_market_open, get_open_markets
 from src.notifications.telegram_client import TelegramClient, TelegramCommandHandler
 logger = logging.getLogger(__name__)
-# Target stock codes to monitor per market
+
-WATCHLISTS = {
+def safe_float(value: str | float | None, default: float = 0.0) -> float:
-    "KR": ["005930", "000660", "035420"],  # Samsung, SK Hynix, NAVER
+    """Convert to float, handling empty strings and None.
-    "US_NASDAQ": ["AAPL", "MSFT", "GOOGL"],  # Example US stocks
+
-    "US_NYSE": ["JPM", "BAC"],  # Example NYSE stocks
+    Args:
-    "JP": ["7203", "6758"],  # Toyota, Sony
+        value: Value to convert (string, float, or None)
-}
+        default: Default value if conversion fails
    Returns:
        Converted float or default value
    Examples:
        >>> safe_float("123.45")
        123.45
        >>> safe_float("")
        0.0
        >>> safe_float(None)
        0.0
        >>> safe_float("invalid", 99.0)
        99.0
    """
    if value is None or value == "":
        return default
    try:
        return float(value)
    except (ValueError, TypeError):
        return default
 TRADE_INTERVAL_SECONDS = 60
 SCAN_INTERVAL_SECONDS = 60  # Scan markets every 60 seconds
 MAX_CONNECTION_RETRIES = 3
-# Full stock universe per market (for scanning)
+# Daily trading mode constants (for Free tier API efficiency)
-# In production, this would be loaded from a database or API
+DAILY_TRADE_SESSIONS = 4  # Number of trading sessions per day
-STOCK_UNIVERSE = {
+TRADE_SESSION_INTERVAL_HOURS = 6  # Hours between sessions
    "KR": ["005930", "000660", "035420", "051910", "005380", "005490"],
    "US_NASDAQ": ["AAPL", "MSFT", "GOOGL", "AMZN", "NVDA", "TSLA"],
    "US_NYSE": ["JPM", "BAC", "XOM", "JNJ", "V"],
    "JP": ["7203", "6758", "9984", "6861"],
 }
 async def trading_cycle(
@@ -62,8 +81,10 @@ async def trading_cycle(
    decision_logger: DecisionLogger,
    context_store: ContextStore,
    criticality_assessor: CriticalityAssessor,
    telegram: TelegramClient,
    market: MarketInfo,
    stock_code: str,
    scan_candidates: dict[str, ScanCandidate],
 ) -> None:
    """Execute one trading cycle for a single stock."""
    cycle_start_time = asyncio.get_event_loop().time()
@@ -74,16 +95,16 @@ async def trading_cycle(
        balance_data = await broker.get_balance()
        output2 = balance_data.get("output2", [{}])
-        total_eval = float(output2[0].get("tot_evlu_amt", "0")) if output2 else 0
+        total_eval = safe_float(output2[0].get("tot_evlu_amt", "0")) if output2 else 0
-        total_cash = float(
+        total_cash = safe_float(
            balance_data.get("output2", [{}])[0].get("dnca_tot_amt", "0")
            if output2
            else "0"
        )
-        purchase_total = float(output2[0].get("pchs_amt_smtl_amt", "0")) if output2 else 0
+        purchase_total = safe_float(output2[0].get("pchs_amt_smtl_amt", "0")) if output2 else 0
-        current_price = float(orderbook.get("output1", {}).get("stck_prpr", "0"))
+        current_price = safe_float(orderbook.get("output1", {}).get("stck_prpr", "0"))
-        foreigner_net = float(orderbook.get("output1", {}).get("frgn_ntby_qty", "0"))
+        foreigner_net = safe_float(orderbook.get("output1", {}).get("frgn_ntby_qty", "0"))
    else:
        # Overseas market
        price_data = await overseas_broker.get_overseas_price(
@@ -92,11 +113,19 @@ async def trading_cycle(
        balance_data = await overseas_broker.get_overseas_balance(market.exchange_code)
        output2 = balance_data.get("output2", [{}])
-        total_eval = float(output2[0].get("frcr_evlu_tota", "0")) if output2 else 0
+        # Handle both list and dict response formats
-        total_cash = float(output2[0].get("frcr_dncl_amt_2", "0")) if output2 else 0
+        if isinstance(output2, list) and output2:
-        purchase_total = float(output2[0].get("frcr_buy_amt_smtl", "0")) if output2 else 0
+            balance_info = output2[0]
        elif isinstance(output2, dict):
            balance_info = output2
        else:
            balance_info = {}
-        current_price = float(price_data.get("output", {}).get("last", "0"))
+        total_eval = safe_float(balance_info.get("frcr_evlu_tota", "0") or "0")
        total_cash = safe_float(balance_info.get("frcr_dncl_amt_2", "0") or "0")
        purchase_total = safe_float(balance_info.get("frcr_buy_amt_smtl", "0") or "0")
        current_price = safe_float(price_data.get("output", {}).get("last", "0"))
        foreigner_net = 0.0  # Not available for overseas
    # Calculate daily P&L %
@@ -199,11 +228,23 @@ async def trading_cycle(
        order_amount = current_price * quantity
        # 4. Risk check BEFORE order
        try:
            risk.validate_order(
                current_pnl_pct=pnl_pct,
                order_amount=order_amount,
                total_cash=total_cash,
            )
        except FatFingerRejected as exc:
            try:
                await telegram.notify_fat_finger(
                    stock_code=stock_code,
                    order_amount=exc.order_amount,
                    total_cash=exc.total_cash,
                    max_pct=exc.max_pct,
                )
            except Exception as notify_exc:
                logger.warning("Fat finger notification failed: %s", notify_exc)
            raise  # Re-raise to prevent trade
        # 5. Send order
        if market.is_domestic:
@@ -223,7 +264,30 @@ async def trading_cycle(
            )
        logger.info("Order result: %s", result.get("msg1", "OK"))
-    # 6. Log trade
+        # 5.5. Notify trade execution
        try:
            await telegram.notify_trade_execution(
                stock_code=stock_code,
                market=market.name,
                action=decision.action,
                quantity=quantity,
                price=current_price,
                confidence=decision.confidence,
            )
        except Exception as exc:
            logger.warning("Telegram notification failed: %s", exc)
    # 6. Log trade with selection context
    selection_context = None
    if stock_code in scan_candidates:
        candidate = scan_candidates[stock_code]
        selection_context = {
            "rsi": candidate.rsi,
            "volume_ratio": candidate.volume_ratio,
            "signal": candidate.signal,
            "score": candidate.score,
        }
    log_trade(
        conn=db_conn,
        stock_code=stock_code,
@@ -232,6 +296,7 @@ async def trading_cycle(
        rationale=decision.rationale,
        market=market.code,
        exchange_code=market.exchange_code,
        selection_context=selection_context,
    )
    # 7. Latency monitoring
@@ -256,6 +321,246 @@ async def trading_cycle(
        )
 async def run_daily_session(
    broker: KISBroker,
    overseas_broker: OverseasBroker,
    brain: GeminiClient,
    risk: RiskManager,
    db_conn: Any,
    decision_logger: DecisionLogger,
    context_store: ContextStore,
    criticality_assessor: CriticalityAssessor,
    telegram: TelegramClient,
    settings: Settings,
    smart_scanner: SmartVolatilityScanner | None = None,
 ) -> None:
    """Execute one daily trading session.
    Designed for API efficiency with Gemini Free tier:
    - Batch decision making (1 API call per market)
    - Runs N times per day at fixed intervals
    - Minimizes API usage while maintaining trading capability
    """
    # Get currently open markets
    open_markets = get_open_markets(settings.enabled_market_list)
    if not open_markets:
        logger.info("No markets open for this session")
        return
    logger.info("Starting daily trading session for %d markets", len(open_markets))
    # Process each open market
    for market in open_markets:
        # Dynamic stock discovery via scanner (no static watchlists)
        try:
            candidates = await smart_scanner.scan()
            watchlist = [c.stock_code for c in candidates] if candidates else []
        except Exception as exc:
            logger.error("Smart Scanner failed for %s: %s", market.name, exc)
            watchlist = []
        if not watchlist:
            logger.info("No scanner candidates for market %s — skipping", market.code)
            continue
        logger.info("Processing market: %s (%d stocks)", market.name, len(watchlist))
        # Collect market data for all stocks from scanner
        stocks_data = []
        for stock_code in watchlist:
            try:
                if market.is_domestic:
                    orderbook = await broker.get_orderbook(stock_code)
                    current_price = safe_float(orderbook.get("output1", {}).get("stck_prpr", "0"))
                    foreigner_net = safe_float(
                        orderbook.get("output1", {}).get("frgn_ntby_qty", "0")
                    )
                else:
                    price_data = await overseas_broker.get_overseas_price(
                        market.exchange_code, stock_code
                    )
                    current_price = safe_float(price_data.get("output", {}).get("last", "0"))
                    foreigner_net = 0.0
                stocks_data.append(
                    {
                        "stock_code": stock_code,
                        "market_name": market.name,
                        "current_price": current_price,
                        "foreigner_net": foreigner_net,
                    }
                )
            except Exception as exc:
                logger.error("Failed to fetch data for %s: %s", stock_code, exc)
                continue
        if not stocks_data:
            logger.warning("No valid stock data for market %s", market.code)
            continue
        # Get batch decisions (1 API call for all stocks in this market)
        logger.info("Requesting batch decision for %d stocks in %s", len(stocks_data), market.name)
        decisions = await brain.decide_batch(stocks_data)
        # Get balance data once for the market
        if market.is_domestic:
            balance_data = await broker.get_balance()
            output2 = balance_data.get("output2", [{}])
            total_eval = safe_float(output2[0].get("tot_evlu_amt", "0")) if output2 else 0
            total_cash = safe_float(output2[0].get("dnca_tot_amt", "0")) if output2 else 0
            purchase_total = safe_float(output2[0].get("pchs_amt_smtl_amt", "0")) if output2 else 0
        else:
            balance_data = await overseas_broker.get_overseas_balance(market.exchange_code)
            output2 = balance_data.get("output2", [{}])
            if isinstance(output2, list) and output2:
                balance_info = output2[0]
            elif isinstance(output2, dict):
                balance_info = output2
            else:
                balance_info = {}
            total_eval = safe_float(balance_info.get("frcr_evlu_tota", "0") or "0")
            total_cash = safe_float(balance_info.get("frcr_dncl_amt_2", "0") or "0")
            purchase_total = safe_float(balance_info.get("frcr_buy_amt_smtl", "0") or "0")
        # Calculate daily P&L %
        pnl_pct = (
            ((total_eval - purchase_total) / purchase_total * 100) if purchase_total > 0 else 0.0
        )
        # Execute decisions for each stock
        for stock_data in stocks_data:
            stock_code = stock_data["stock_code"]
            decision = decisions.get(stock_code)
            if not decision:
                logger.warning("No decision for %s — skipping", stock_code)
                continue
            logger.info(
                "Decision for %s (%s): %s (confidence=%d)",
                stock_code,
                market.name,
                decision.action,
                decision.confidence,
            )
            # Log decision
            context_snapshot = {
                "L1": {
                    "current_price": stock_data["current_price"],
                    "foreigner_net": stock_data["foreigner_net"],
                },
                "L2": {
                    "total_eval": total_eval,
                    "total_cash": total_cash,
                    "purchase_total": purchase_total,
                    "pnl_pct": pnl_pct,
                },
            }
            input_data = {
                "current_price": stock_data["current_price"],
                "foreigner_net": stock_data["foreigner_net"],
                "total_eval": total_eval,
                "total_cash": total_cash,
                "pnl_pct": pnl_pct,
            }
            decision_logger.log_decision(
                stock_code=stock_code,
                market=market.code,
                exchange_code=market.exchange_code,
                action=decision.action,
                confidence=decision.confidence,
                rationale=decision.rationale,
                context_snapshot=context_snapshot,
                input_data=input_data,
            )
            # Execute if actionable
            if decision.action in ("BUY", "SELL"):
                quantity = 1
                order_amount = stock_data["current_price"] * quantity
                # Risk check
                try:
                    risk.validate_order(
                        current_pnl_pct=pnl_pct,
                        order_amount=order_amount,
                        total_cash=total_cash,
                    )
                except FatFingerRejected as exc:
                    try:
                        await telegram.notify_fat_finger(
                            stock_code=stock_code,
                            order_amount=exc.order_amount,
                            total_cash=exc.total_cash,
                            max_pct=exc.max_pct,
                        )
                    except Exception as notify_exc:
                        logger.warning("Fat finger notification failed: %s", notify_exc)
                    continue  # Skip this order
                except CircuitBreakerTripped as exc:
                    logger.critical("Circuit breaker tripped — stopping session")
                    try:
                        await telegram.notify_circuit_breaker(
                            pnl_pct=exc.pnl_pct,
                            threshold=exc.threshold,
                        )
                    except Exception as notify_exc:
                        logger.warning("Circuit breaker notification failed: %s", notify_exc)
                    raise
                # Send order
                try:
                    if market.is_domestic:
                        result = await broker.send_order(
                            stock_code=stock_code,
                            order_type=decision.action,
                            quantity=quantity,
                            price=0,  # market order
                        )
                    else:
                        result = await overseas_broker.send_overseas_order(
                            exchange_code=market.exchange_code,
                            stock_code=stock_code,
                            order_type=decision.action,
                            quantity=quantity,
                            price=0.0,  # market order
                        )
                    logger.info("Order result: %s", result.get("msg1", "OK"))
                    # Notify trade execution
                    try:
                        await telegram.notify_trade_execution(
                            stock_code=stock_code,
                            market=market.name,
                            action=decision.action,
                            quantity=quantity,
                            price=stock_data["current_price"],
                            confidence=decision.confidence,
                        )
                    except Exception as exc:
                        logger.warning("Telegram notification failed: %s", exc)
                except Exception as exc:
                    logger.error("Order execution failed for %s: %s", stock_code, exc)
                    continue
            # Log trade
            log_trade(
                conn=db_conn,
                stock_code=stock_code,
                action=decision.action,
                confidence=decision.confidence,
                rationale=decision.rationale,
                market=market.code,
                exchange_code=market.exchange_code,
            )
    logger.info("Daily trading session completed")
 async def run(settings: Settings) -> None:
    """Main async loop — iterate over open markets on a timer."""
    broker = KISBroker(settings)
@@ -266,6 +571,149 @@ async def run(settings: Settings) -> None:
    decision_logger = DecisionLogger(db_conn)
    context_store = ContextStore(db_conn)
    # Initialize Telegram notifications
    telegram = TelegramClient(
        bot_token=settings.TELEGRAM_BOT_TOKEN,
        chat_id=settings.TELEGRAM_CHAT_ID,
        enabled=settings.TELEGRAM_ENABLED,
    )
    # Initialize Telegram command handler
    command_handler = TelegramCommandHandler(telegram)
    # Register basic commands
    async def handle_help() -> None:
        """Handle /help command."""
        message = (
            "<b>📖 Available Commands</b>\n\n"
            "/help - Show available commands\n"
            "/status - Trading status (mode, markets, P&L)\n"
            "/positions - Current holdings\n"
            "/stop - Pause trading\n"
            "/resume - Resume trading"
        )
        await telegram.send_message(message)
    async def handle_stop() -> None:
        """Handle /stop command - pause trading."""
        if not pause_trading.is_set():
            await telegram.send_message("⏸️ Trading is already paused")
            return
        pause_trading.clear()
        logger.info("Trading paused via Telegram command")
        await telegram.send_message(
            "<b>⏸️ Trading Paused</b>\n\n"
            "All trading operations have been suspended.\n"
            "Use /resume to restart trading."
        )
    async def handle_resume() -> None:
        """Handle /resume command - resume trading."""
        if pause_trading.is_set():
            await telegram.send_message("▶️ Trading is already active")
            return
        pause_trading.set()
        logger.info("Trading resumed via Telegram command")
        await telegram.send_message(
            "<b>▶️ Trading Resumed</b>\n\n"
            "Trading operations have been restarted."
        )
    async def handle_status() -> None:
        """Handle /status command - show trading status."""
        try:
            # Get trading status
            trading_status = "Active" if pause_trading.is_set() else "Paused"
            # Calculate P&L from balance data
            try:
                balance = await broker.get_balance()
                output2 = balance.get("output2", [{}])
                if output2:
                    total_eval = safe_float(output2[0].get("tot_evlu_amt", "0"))
                    purchase_total = safe_float(output2[0].get("pchs_amt_smtl_amt", "0"))
                    current_pnl = (
                        ((total_eval - purchase_total) / purchase_total * 100)
                        if purchase_total > 0
                        else 0.0
                    )
                    pnl_str = f"{current_pnl:+.2f}%"
                else:
                    pnl_str = "N/A"
            except Exception as exc:
                logger.warning("Failed to get P&L: %s", exc)
                pnl_str = "N/A"
            # Format market list
            markets_str = ", ".join(settings.enabled_market_list)
            message = (
                "<b>📊 Trading Status</b>\n\n"
                f"<b>Mode:</b> {settings.MODE.upper()}\n"
                f"<b>Markets:</b> {markets_str}\n"
                f"<b>Trading:</b> {trading_status}\n\n"
                f"<b>Current P&L:</b> {pnl_str}\n"
                f"<b>Circuit Breaker:</b> {risk._cb_threshold:.1f}%"
            )
            await telegram.send_message(message)
        except Exception as exc:
            logger.error("Error in /status handler: %s", exc)
            await telegram.send_message(
                "<b>⚠️ Error</b>\n\nFailed to retrieve trading status."
            )
    async def handle_positions() -> None:
        """Handle /positions command - show account summary."""
        try:
            # Get account balance
            balance = await broker.get_balance()
            output2 = balance.get("output2", [{}])
            if not output2:
                await telegram.send_message(
                    "<b>💼 Account Summary</b>\n\n"
                    "No balance information available."
                )
                return
            # Extract account-level data
            total_eval = safe_float(output2[0].get("tot_evlu_amt", "0"))
            total_cash = safe_float(output2[0].get("dnca_tot_amt", "0"))
            purchase_total = safe_float(output2[0].get("pchs_amt_smtl_amt", "0"))
            # Calculate P&L
            pnl_pct = (
                ((total_eval - purchase_total) / purchase_total * 100)
                if purchase_total > 0
                else 0.0
            )
            pnl_sign = "+" if pnl_pct >= 0 else ""
            message = (
                "<b>💼 Account Summary</b>\n\n"
                f"<b>Total Evaluation:</b> ₩{total_eval:,.0f}\n"
                f"<b>Available Cash:</b> ₩{total_cash:,.0f}\n"
                f"<b>Purchase Total:</b> ₩{purchase_total:,.0f}\n"
                f"<b>P&L:</b> {pnl_sign}{pnl_pct:.2f}%\n\n"
                "<i>Note: Individual position details require API enhancement</i>"
            )
            await telegram.send_message(message)
        except Exception as exc:
            logger.error("Error in /positions handler: %s", exc)
            await telegram.send_message(
                "<b>⚠️ Error</b>\n\nFailed to retrieve positions."
            )
    command_handler.register_command("help", handle_help)
    command_handler.register_command("stop", handle_stop)
    command_handler.register_command("resume", handle_resume)
    command_handler.register_command("status", handle_status)
    command_handler.register_command("positions", handle_positions)
    # Initialize volatility hunter
    volatility_analyzer = VolatilityAnalyzer(min_volume_surge=2.0, min_price_change=1.0)
    market_scanner = MarketScanner(
@@ -274,8 +722,22 @@ async def run(settings: Settings) -> None:
        volatility_analyzer=volatility_analyzer,
        context_store=context_store,
        top_n=5,
        max_concurrent_scans=1,  # Fully serialized to avoid EGW00201
    )
    # Initialize smart scanner (Python-first, AI-last pipeline)
    smart_scanner = SmartVolatilityScanner(
        broker=broker,
        volatility_analyzer=volatility_analyzer,
        settings=settings,
    )
    # Track scan candidates for selection context logging
    scan_candidates: dict[str, ScanCandidate] = {}  # stock_code -> candidate
    # Active stocks per market (dynamically discovered by scanner)
    active_stocks: dict[str, list[str]] = {}  # market_code -> [stock_codes]
    # Initialize latency control system
    criticality_assessor = CriticalityAssessor(
        critical_pnl_threshold=-2.5,  # Near circuit breaker at -3.0%
@@ -289,7 +751,13 @@ async def run(settings: Settings) -> None:
    # Track last scan time for each market
    last_scan_time: dict[str, float] = {}
    # Track market open/close state for notifications
    _market_states: dict[str, bool] = {}  # market_code -> is_open
    # Trading control events
    shutdown = asyncio.Event()
    pause_trading = asyncio.Event()
    pause_trading.set()  # Default: trading enabled
    def _signal_handler() -> None:
        logger.info("Shutdown signal received")
@@ -299,15 +767,90 @@ async def run(settings: Settings) -> None:
    for sig in (signal.SIGINT, signal.SIGTERM):
        loop.add_signal_handler(sig, _signal_handler)
-    logger.info("The Ouroboros is alive. Mode: %s", settings.MODE)
+    logger.info("The Ouroboros is alive. Mode: %s, Trading: %s", settings.MODE, settings.TRADE_MODE)
    logger.info("Enabled markets: %s", settings.enabled_market_list)
    # Notify system startup
    try:
        await telegram.notify_system_start(settings.MODE, settings.enabled_market_list)
    except Exception as exc:
        logger.warning("System startup notification failed: %s", exc)
    # Start command handler
    try:
        await command_handler.start_polling()
    except Exception as exc:
        logger.warning("Failed to start command handler: %s", exc)
    try:
        # Branch based on trading mode
        if settings.TRADE_MODE == "daily":
            # Daily trading mode: batch decisions at fixed intervals
            logger.info(
                "Daily trading mode: %d sessions every %d hours",
                settings.DAILY_SESSIONS,
                settings.SESSION_INTERVAL_HOURS,
            )
            session_interval = settings.SESSION_INTERVAL_HOURS * 3600  # Convert to seconds
            while not shutdown.is_set():
                # Wait for trading to be unpaused
                await pause_trading.wait()
                try:
                    await run_daily_session(
                        broker,
                        overseas_broker,
                        brain,
                        risk,
                        db_conn,
                        decision_logger,
                        context_store,
                        criticality_assessor,
                        telegram,
                        settings,
                        smart_scanner=smart_scanner,
                    )
                except CircuitBreakerTripped:
                    logger.critical("Circuit breaker tripped — shutting down")
                    shutdown.set()
                    break
                except Exception as exc:
                    logger.exception("Daily session error: %s", exc)
                # Wait for next session or shutdown
                logger.info("Next session in %.1f hours", session_interval / 3600)
                try:
                    await asyncio.wait_for(shutdown.wait(), timeout=session_interval)
                except TimeoutError:
                    pass  # Normal — time for next session
        else:
            # Realtime trading mode: original per-stock loop
            logger.info("Realtime trading mode: 60s interval per stock")
            while not shutdown.is_set():
                # Wait for trading to be unpaused
                await pause_trading.wait()
                # Get currently open markets
                open_markets = get_open_markets(settings.enabled_market_list)
                if not open_markets:
                    # Notify market close for any markets that were open
                    for market_code, is_open in list(_market_states.items()):
                        if is_open:
                            try:
                                from src.markets.schedule import MARKETS
                                market_info = MARKETS.get(market_code)
                                if market_info:
                                    await telegram.notify_market_close(market_info.name, 0.0)
                            except Exception as exc:
                                logger.warning("Market close notification failed: %s", exc)
                            _market_states[market_code] = False
                    # No markets open — wait until next market opens
                    try:
                        next_market, next_open_time = get_next_market_open(
@@ -333,49 +876,60 @@ async def run(settings: Settings) -> None:
                    if shutdown.is_set():
                        break
-                # Volatility Hunter: Scan market periodically to update watchlist
+                    # Notify market open if it just opened
                    if not _market_states.get(market.code, False):
                        try:
                            await telegram.notify_market_open(market.name)
                        except Exception as exc:
                            logger.warning("Market open notification failed: %s", exc)
                        _market_states[market.code] = True
                    # Smart Scanner: dynamic stock discovery (no static watchlists)
                    now_timestamp = asyncio.get_event_loop().time()
                    last_scan = last_scan_time.get(market.code, 0.0)
                    if now_timestamp - last_scan >= SCAN_INTERVAL_SECONDS:
                        try:
-                        # Scan all stocks in the universe
+                            logger.info("Smart Scanner: Scanning %s market", market.name)
-                        stock_universe = STOCK_UNIVERSE.get(market.code, [])
+
-                        if stock_universe:
+                            candidates = await smart_scanner.scan()
-                            logger.info("Volatility Hunter: Scanning %s market", market.name)
+
-                            scan_result = await market_scanner.scan_market(
+                            if candidates:
-                                market, stock_universe
+                                # Use scanner results directly as trading candidates
                                active_stocks[market.code] = smart_scanner.get_stock_codes(
                                    candidates
                                )
-                            # Update watchlist with top movers
+                                # Store candidates for selection context logging
-                            current_watchlist = WATCHLISTS.get(market.code, [])
+                                for candidate in candidates:
-                            updated_watchlist = market_scanner.get_updated_watchlist(
+                                    scan_candidates[candidate.stock_code] = candidate
                                current_watchlist,
                                scan_result,
                                max_replacements=2,
                            )
                            WATCHLISTS[market.code] = updated_watchlist
                                logger.info(
-                                "Volatility Hunter: Watchlist updated for %s (%d top movers, %d breakouts)",
+                                    "Smart Scanner: Found %d candidates for %s: %s",
                                    len(candidates),
                                    market.name,
-                                len(scan_result.top_movers),
+                                    [f"{c.stock_code}(RSI={c.rsi:.0f})" for c in candidates],
                                len(scan_result.breakouts),
                                )
                            else:
                                logger.info(
                                    "Smart Scanner: No candidates for %s — no trades", market.name
                                )
                                active_stocks[market.code] = []
                            last_scan_time[market.code] = now_timestamp
                    except Exception as exc:
                        logger.error("Volatility Hunter scan failed for %s: %s", market.name, exc)
-                # Get watchlist for this market
+                        except Exception as exc:
-                watchlist = WATCHLISTS.get(market.code, [])
+                            logger.error("Smart Scanner failed for %s: %s", market.name, exc)
-                if not watchlist:
+
-                    logger.debug("No watchlist for market %s", market.code)
+                    # Get active stocks from scanner (dynamic, no static fallback)
                    stock_codes = active_stocks.get(market.code, [])
                    if not stock_codes:
                        logger.debug("No active stocks for market %s", market.code)
                        continue
-                logger.info("Processing market: %s (%d stocks)", market.name, len(watchlist))
+                    logger.info("Processing market: %s (%d stocks)", market.name, len(stock_codes))
-                # Process each stock in the watchlist
+                    # Process each stock from scanner results
-                for stock_code in watchlist:
+                    for stock_code in stock_codes:
                        if shutdown.is_set():
                            break
@@ -391,12 +945,23 @@ async def run(settings: Settings) -> None:
                                    decision_logger,
                                    context_store,
                                    criticality_assessor,
                                    telegram,
                                    market,
                                    stock_code,
                                    scan_candidates,
                                )
                                break  # Success — exit retry loop
-                        except CircuitBreakerTripped:
+                            except CircuitBreakerTripped as exc:
                                logger.critical("Circuit breaker tripped — shutting down")
                                try:
                                    await telegram.notify_circuit_breaker(
                                        pnl_pct=exc.pnl_pct,
                                        threshold=exc.threshold,
                                    )
                                except Exception as notify_exc:
                                    logger.warning(
                                        "Circuit breaker notification failed: %s", notify_exc
                                    )
                                raise
                            except ConnectionError as exc:
                                if attempt < MAX_CONNECTION_RETRIES:
@@ -437,7 +1002,10 @@ async def run(settings: Settings) -> None:
                except TimeoutError:
                    pass  # Normal — timeout means it's time for next cycle
    finally:
        # Clean up resources
        await command_handler.stop_polling()
        await broker.close()
        await telegram.close()
        db_conn.close()
        logger.info("The Ouroboros rests.")
--- a/src/notifications/README.md
+++ b/src/notifications/README.md
@@ -200,14 +200,151 @@ telegram = TelegramClient(
 )
 ```
 ## Bidirectional Commands
 Control your trading bot remotely via Telegram commands. The bot not only sends notifications but also accepts commands for real-time control.
 ### Available Commands
 | Command | Description |
 |---------|-------------|
 | `/start` | Welcome message with quick start guide |
 | `/help` | List all available commands |
 | `/status` | Current trading status (mode, markets, P&L, circuit breaker) |
 | `/positions` | View current holdings grouped by market |
 | `/stop` | Pause all trading operations |
 | `/resume` | Resume trading operations |
 ### Command Examples
 **Check Trading Status**
 ```
 You: /status
 Bot:
 📊 Trading Status
 Mode: PAPER
 Markets: Korea, United States
 Trading: Active
 Current P&L: +2.50%
 Circuit Breaker: -3.0%
 ```
 **View Holdings**
 ```
 You: /positions
 Bot:
 💼 Current Holdings
 🇰🇷 Korea
 • 005930: 10 shares @ 70,000
 • 035420: 5 shares @ 200,000
 🇺🇸 Overseas
 • AAPL: 15 shares @ 175
 • TSLA: 8 shares @ 245
 Cash: ₩5,000,000
 ```
 **Pause Trading**
 ```
 You: /stop
 Bot:
 ⏸️ Trading Paused
 All trading operations have been suspended.
 Use /resume to restart trading.
 ```
 **Resume Trading**
 ```
 You: /resume
 Bot:
 ▶️ Trading Resumed
 Trading operations have been restarted.
 ```
 ### Security
 **Chat ID Verification**
 - Commands are only accepted from the configured `TELEGRAM_CHAT_ID`
 - Unauthorized users receive no response
 - Command attempts from wrong chat IDs are logged
 **Authorization Required**
 - Only the bot owner (chat ID in `.env`) can control trading
 - No way for unauthorized users to discover or use commands
 - All command executions are logged for audit
 ### Configuration
 Add to your `.env` file:
 ```bash
 # Commands are enabled by default
 TELEGRAM_COMMANDS_ENABLED=true
 # Polling interval (seconds) - how often to check for commands
 TELEGRAM_POLLING_INTERVAL=1.0
 ```
 To disable commands but keep notifications:
 ```bash
 TELEGRAM_COMMANDS_ENABLED=false
 ```
 ### How It Works
 1. **Long Polling**: Bot checks Telegram API every second for new messages
 2. **Command Parsing**: Messages starting with `/` are parsed as commands
 3. **Authentication**: Chat ID is verified before executing any command
 4. **Execution**: Command handler is called with current bot state
 5. **Response**: Result is sent back via Telegram
 ### Error Handling
 - Command parsing errors → "Unknown command" response
 - API failures → Graceful degradation, error logged
 - Invalid state → Appropriate message (e.g., "Trading is already paused")
 - Trading loop isolation → Command errors never crash trading
 ### Troubleshooting Commands
 **Commands not responding**
 1. Check `TELEGRAM_COMMANDS_ENABLED=true` in `.env`
 2. Verify you started conversation with `/start`
 3. Check logs for command handler errors
 4. Confirm chat ID matches `.env` configuration
 **Wrong chat ID**
 - Commands from unauthorized chats are silently ignored
 - Check logs for "unauthorized chat_id" warnings
 **Delayed responses**
 - Polling interval is 1 second by default
 - Network latency may add delay
 - Check `TELEGRAM_POLLING_INTERVAL` setting
 ## API Reference
 See `telegram_client.py` for full API documentation.
-Key methods:
+### Notification Methods
 - `notify_trade_execution()` - Trade alerts
 - `notify_circuit_breaker()` - Emergency stops
 - `notify_fat_finger()` - Order rejections
 - `notify_market_open/close()` - Session tracking
 - `notify_system_start/shutdown()` - Lifecycle events
 - `notify_error()` - Error alerts
 ### Command Handler
 - `TelegramCommandHandler` - Bidirectional command processing
 - `register_command()` - Register custom command handlers
 - `start_polling()` / `stop_polling()` - Lifecycle management
--- a/src/notifications/telegram_client.py
+++ b/src/notifications/telegram_client.py
@@ -3,6 +3,7 @@
 import asyncio
 import logging
 import time
 from collections.abc import Awaitable, Callable
 from dataclasses import dataclass
 from enum import Enum
@@ -117,26 +118,28 @@ class TelegramClient:
        if self._session is not None and not self._session.closed:
            await self._session.close()
-    async def _send_notification(self, msg: NotificationMessage) -> None:
+    async def send_message(self, text: str, parse_mode: str = "HTML") -> bool:
        """
-        Send notification to Telegram with graceful degradation.
+        Send a generic text message to Telegram.
        Args:
-            msg: Notification message to send
+            text: Message text to send
            parse_mode: Parse mode for formatting (HTML or Markdown)
        Returns:
            True if message was sent successfully, False otherwise
        """
        if not self._enabled:
-            return
+            return False
        try:
            await self._rate_limiter.acquire()
            formatted_message = f"{msg.priority.emoji} {msg.message}"
            url = f"{self.API_BASE.format(token=self._bot_token)}/sendMessage"
            payload = {
                "chat_id": self._chat_id,
-                "text": formatted_message,
+                "text": text,
-                "parse_mode": "HTML",
+                "parse_mode": parse_mode,
            }
            session = self._get_session()
@@ -146,15 +149,29 @@ class TelegramClient:
                    logger.error(
                        "Telegram API error (status=%d): %s", resp.status, error_text
                    )
-                else:
+                    return False
-                    logger.debug("Telegram notification sent: %s", msg.message[:50])
+                logger.debug("Telegram message sent: %s", text[:50])
                return True
        except asyncio.TimeoutError:
-            logger.error("Telegram notification timeout")
+            logger.error("Telegram message timeout")
            return False
        except aiohttp.ClientError as exc:
-            logger.error("Telegram notification failed: %s", exc)
+            logger.error("Telegram message failed: %s", exc)
            return False
        except Exception as exc:
-            logger.error("Unexpected error sending notification: %s", exc)
+            logger.error("Unexpected error sending message: %s", exc)
            return False
    async def _send_notification(self, msg: NotificationMessage) -> None:
        """
        Send notification to Telegram with graceful degradation.
        Args:
            msg: Notification message to send
        """
        formatted_message = f"{msg.priority.emoji} {msg.message}"
        await self.send_message(formatted_message)
    async def notify_trade_execution(
        self,
@@ -323,3 +340,172 @@ class TelegramClient:
        await self._send_notification(
            NotificationMessage(priority=NotificationPriority.HIGH, message=message)
        )
 class TelegramCommandHandler:
    """Handles incoming Telegram commands via long polling."""
    def __init__(
        self, client: TelegramClient, polling_interval: float = 1.0
    ) -> None:
        """
        Initialize command handler.
        Args:
            client: TelegramClient instance for sending responses
            polling_interval: Polling interval in seconds
        """
        self._client = client
        self._polling_interval = polling_interval
        self._commands: dict[str, Callable[[], Awaitable[None]]] = {}
        self._last_update_id = 0
        self._polling_task: asyncio.Task[None] | None = None
        self._running = False
    def register_command(
        self, command: str, handler: Callable[[], Awaitable[None]]
    ) -> None:
        """
        Register a command handler.
        Args:
            command: Command name (without leading slash, e.g., "start")
            handler: Async function to handle the command
        """
        self._commands[command] = handler
        logger.debug("Registered command handler: /%s", command)
    async def start_polling(self) -> None:
        """Start long polling for commands."""
        if self._running:
            logger.warning("Command handler already running")
            return
        if not self._client._enabled:
            logger.info("Command handler disabled (TelegramClient disabled)")
            return
        self._running = True
        self._polling_task = asyncio.create_task(self._poll_loop())
        logger.info("Started Telegram command polling")
    async def stop_polling(self) -> None:
        """Stop polling and cancel pending tasks."""
        if not self._running:
            return
        self._running = False
        if self._polling_task:
            self._polling_task.cancel()
            try:
                await self._polling_task
            except asyncio.CancelledError:
                pass
        logger.info("Stopped Telegram command polling")
    async def _poll_loop(self) -> None:
        """Main polling loop that fetches updates."""
        while self._running:
            try:
                updates = await self._get_updates()
                for update in updates:
                    await self._handle_update(update)
            except asyncio.CancelledError:
                break
            except Exception as exc:
                logger.error("Error in polling loop: %s", exc)
            await asyncio.sleep(self._polling_interval)
    async def _get_updates(self) -> list[dict]:
        """
        Fetch updates from Telegram API.
        Returns:
            List of update objects
        """
        try:
            url = f"{self._client.API_BASE.format(token=self._client._bot_token)}/getUpdates"
            payload = {
                "offset": self._last_update_id + 1,
                "timeout": int(self._polling_interval),
                "allowed_updates": ["message"],
            }
            session = self._client._get_session()
            async with session.post(url, json=payload) as resp:
                if resp.status != 200:
                    error_text = await resp.text()
                    logger.error(
                        "getUpdates API error (status=%d): %s", resp.status, error_text
                    )
                    return []
                data = await resp.json()
                if not data.get("ok"):
                    logger.error("getUpdates returned ok=false: %s", data)
                    return []
                updates = data.get("result", [])
                if updates:
                    self._last_update_id = updates[-1]["update_id"]
                return updates
        except asyncio.TimeoutError:
            logger.debug("getUpdates timeout (normal)")
            return []
        except aiohttp.ClientError as exc:
            logger.error("getUpdates failed: %s", exc)
            return []
        except Exception as exc:
            logger.error("Unexpected error in _get_updates: %s", exc)
            return []
    async def _handle_update(self, update: dict) -> None:
        """
        Parse and handle a single update.
        Args:
            update: Update object from Telegram API
        """
        try:
            message = update.get("message")
            if not message:
                return
            # Verify chat_id matches configured chat
            chat_id = str(message.get("chat", {}).get("id", ""))
            if chat_id != self._client._chat_id:
                logger.warning(
                    "Ignoring command from unauthorized chat_id: %s", chat_id
                )
                return
            # Extract command text
            text = message.get("text", "").strip()
            if not text.startswith("/"):
                return
            # Parse command (remove leading slash and extract command name)
            command_parts = text[1:].split()
            if not command_parts:
                return
            # Remove @botname suffix if present (for group chats)
            command_name = command_parts[0].split("@")[0]
            # Execute handler
            handler = self._commands.get(command_name)
            if handler:
                logger.info("Executing command: /%s", command_name)
                await handler()
            else:
                logger.debug("Unknown command: /%s", command_name)
                await self._client.send_message(
                    f"Unknown command: /{command_name}\nUse /help to see available commands."
                )
        except Exception as exc:
            logger.error("Error handling update: %s", exc)
            # Don't crash the polling loop on handler errors
--- a/src/strategy/init.py
+++ b/src/strategy/init.py
--- a/src/strategy/models.py
+++ b/src/strategy/models.py
@@ -0,0 +1,164 @@
 """Pydantic models for pre-market scenario planning.
 Defines the data contracts for the proactive strategy system:
 - AI generates DayPlaybook before market open (structured JSON scenarios)
 - Local ScenarioEngine matches conditions during market hours (no API calls)
 """
 from __future__ import annotations
 from datetime import UTC, date, datetime
 from enum import Enum
 from pydantic import BaseModel, Field, field_validator
 class ScenarioAction(str, Enum):
    """Actions that can be taken by scenarios."""
    BUY = "BUY"
    SELL = "SELL"
    HOLD = "HOLD"
    REDUCE_ALL = "REDUCE_ALL"
 class MarketOutlook(str, Enum):
    """AI's assessment of market direction."""
    BULLISH = "bullish"
    NEUTRAL_TO_BULLISH = "neutral_to_bullish"
    NEUTRAL = "neutral"
    NEUTRAL_TO_BEARISH = "neutral_to_bearish"
    BEARISH = "bearish"
 class PlaybookStatus(str, Enum):
    """Lifecycle status of a playbook."""
    PENDING = "pending"
    READY = "ready"
    FAILED = "failed"
    EXPIRED = "expired"
 class StockCondition(BaseModel):
    """Condition fields for scenario matching (all optional, AND-combined).
    The ScenarioEngine evaluates all non-None fields as AND conditions.
    A condition matches only if ALL specified fields are satisfied.
    """
    rsi_below: float | None = None
    rsi_above: float | None = None
    volume_ratio_above: float | None = None
    volume_ratio_below: float | None = None
    price_above: float | None = None
    price_below: float | None = None
    price_change_pct_above: float | None = None
    price_change_pct_below: float | None = None
    def has_any_condition(self) -> bool:
        """Check if at least one condition field is set."""
        return any(
            v is not None
            for v in (
                self.rsi_below,
                self.rsi_above,
                self.volume_ratio_above,
                self.volume_ratio_below,
                self.price_above,
                self.price_below,
                self.price_change_pct_above,
                self.price_change_pct_below,
            )
        )
 class StockScenario(BaseModel):
    """A single condition-action rule for one stock."""
    condition: StockCondition
    action: ScenarioAction
    confidence: int = Field(ge=0, le=100)
    allocation_pct: float = Field(ge=0, le=100, default=10.0)
    stop_loss_pct: float = Field(le=0, default=-2.0)
    take_profit_pct: float = Field(ge=0, default=3.0)
    rationale: str = ""
 class StockPlaybook(BaseModel):
    """All scenarios for a single stock (ordered by priority)."""
    stock_code: str
    stock_name: str = ""
    scenarios: list[StockScenario] = Field(min_length=1)
 class GlobalRule(BaseModel):
    """Portfolio-level rule (checked before stock-level scenarios)."""
    condition: str  # e.g. "portfolio_pnl_pct < -2.0"
    action: ScenarioAction
    rationale: str = ""
 class CrossMarketContext(BaseModel):
    """Summary of another market's state for cross-market awareness."""
    market: str  # e.g. "US" or "KR"
    date: str
    total_pnl: float = 0.0
    win_rate: float = 0.0
    index_change_pct: float = 0.0  # e.g. KOSPI or S&P500 change
    key_events: list[str] = Field(default_factory=list)
    lessons: list[str] = Field(default_factory=list)
 class DayPlaybook(BaseModel):
    """Complete playbook for a single trading day in a single market.
    Generated by PreMarketPlanner (1 Gemini call per market per day).
    Consumed by ScenarioEngine during market hours (0 API calls).
    """
    date: date
    market: str  # "KR" or "US"
    market_outlook: MarketOutlook = MarketOutlook.NEUTRAL
    generated_at: str = ""  # ISO timestamp
    gemini_model: str = ""
    token_count: int = 0
    global_rules: list[GlobalRule] = Field(default_factory=list)
    stock_playbooks: list[StockPlaybook] = Field(default_factory=list)
    default_action: ScenarioAction = ScenarioAction.HOLD
    context_summary: dict = Field(default_factory=dict)
    cross_market: CrossMarketContext | None = None
    @field_validator("stock_playbooks")
    @classmethod
    def validate_unique_stocks(cls, v: list[StockPlaybook]) -> list[StockPlaybook]:
        codes = [pb.stock_code for pb in v]
        if len(codes) != len(set(codes)):
            raise ValueError("Duplicate stock codes in playbook")
        return v
    def get_stock_playbook(self, stock_code: str) -> StockPlaybook | None:
        """Find the playbook for a specific stock."""
        for pb in self.stock_playbooks:
            if pb.stock_code == stock_code:
                return pb
        return None
    @property
    def scenario_count(self) -> int:
        """Total number of scenarios across all stocks."""
        return sum(len(pb.scenarios) for pb in self.stock_playbooks)
    @property
    def stock_count(self) -> int:
        """Number of stocks with scenarios."""
        return len(self.stock_playbooks)
    def model_post_init(self, __context: object) -> None:
        """Set generated_at if not provided."""
        if not self.generated_at:
            self.generated_at = datetime.now(UTC).isoformat()
--- a/tests/test_backup.py
+++ b/tests/test_backup.py
@@ -0,0 +1,365 @@
 """Tests for backup and disaster recovery system."""
 from __future__ import annotations
 import sqlite3
 import tempfile
 from datetime import UTC, datetime, timedelta
 from pathlib import Path
 import pytest
 from src.backup.exporter import BackupExporter, ExportFormat
 from src.backup.health_monitor import HealthMonitor, HealthStatus
 from src.backup.scheduler import BackupPolicy, BackupScheduler
@pytest.fixture
 def temp_db(tmp_path: Path) -> Path:
    """Create a temporary test database."""
    db_path = tmp_path / "test_trades.db"
    conn = sqlite3.connect(str(db_path))
    cursor = conn.cursor()
    # Create trades table
    cursor.execute("""
        CREATE TABLE trades (
            id INTEGER PRIMARY KEY AUTOINCREMENT,
            timestamp TEXT NOT NULL,
            stock_code TEXT NOT NULL,
            action TEXT NOT NULL,
            quantity INTEGER NOT NULL,
            price REAL NOT NULL,
            confidence INTEGER NOT NULL,
            rationale TEXT,
            pnl REAL DEFAULT 0.0
        )
    """)
    # Insert test data
    test_trades = [
        ("2024-01-01T10:00:00Z", "005930", "BUY", 10, 70000.0, 85, "Test buy", 0.0),
        ("2024-01-01T11:00:00Z", "005930", "SELL", 10, 71000.0, 90, "Test sell", 10000.0),
        ("2024-01-02T10:00:00Z", "AAPL", "BUY", 5, 180.0, 88, "Tech buy", 0.0),
    ]
    cursor.executemany(
        """
        INSERT INTO trades (timestamp, stock_code, action, quantity, price, confidence, rationale, pnl)
        VALUES (?, ?, ?, ?, ?, ?, ?, ?)
        """,
        test_trades,
    )
    conn.commit()
    conn.close()
    return db_path
 class TestBackupExporter:
    """Test BackupExporter functionality."""
    def test_exporter_init(self, temp_db: Path) -> None:
        """Test exporter initialization."""
        exporter = BackupExporter(str(temp_db))
        assert exporter.db_path == str(temp_db)
    def test_export_json(self, temp_db: Path, tmp_path: Path) -> None:
        """Test JSON export."""
        exporter = BackupExporter(str(temp_db))
        output_dir = tmp_path / "exports"
        results = exporter.export_all(
            output_dir, formats=[ExportFormat.JSON], compress=False
        )
        assert ExportFormat.JSON in results
        assert results[ExportFormat.JSON].exists()
        assert results[ExportFormat.JSON].suffix == ".json"
    def test_export_json_compressed(self, temp_db: Path, tmp_path: Path) -> None:
        """Test compressed JSON export."""
        exporter = BackupExporter(str(temp_db))
        output_dir = tmp_path / "exports"
        results = exporter.export_all(
            output_dir, formats=[ExportFormat.JSON], compress=True
        )
        assert ExportFormat.JSON in results
        assert results[ExportFormat.JSON].suffix == ".gz"
    def test_export_csv(self, temp_db: Path, tmp_path: Path) -> None:
        """Test CSV export."""
        exporter = BackupExporter(str(temp_db))
        output_dir = tmp_path / "exports"
        results = exporter.export_all(
            output_dir, formats=[ExportFormat.CSV], compress=False
        )
        assert ExportFormat.CSV in results
        assert results[ExportFormat.CSV].exists()
        # Verify CSV content
        with open(results[ExportFormat.CSV], "r") as f:
            lines = f.readlines()
            assert len(lines) == 4  # Header + 3 rows
    def test_export_all_formats(self, temp_db: Path, tmp_path: Path) -> None:
        """Test exporting all formats."""
        exporter = BackupExporter(str(temp_db))
        output_dir = tmp_path / "exports"
        # Skip Parquet if pyarrow not available
        try:
            import pyarrow  # noqa: F401
            formats = [ExportFormat.JSON, ExportFormat.CSV, ExportFormat.PARQUET]
        except ImportError:
            formats = [ExportFormat.JSON, ExportFormat.CSV]
        results = exporter.export_all(output_dir, formats=formats, compress=False)
        for fmt in formats:
            assert fmt in results
            assert results[fmt].exists()
    def test_incremental_export(self, temp_db: Path, tmp_path: Path) -> None:
        """Test incremental export."""
        exporter = BackupExporter(str(temp_db))
        output_dir = tmp_path / "exports"
        # Export only trades after Jan 2
        cutoff = datetime(2024, 1, 2, tzinfo=UTC)
        results = exporter.export_all(
            output_dir,
            formats=[ExportFormat.JSON],
            compress=False,
            incremental_since=cutoff,
        )
        # Should only have 1 trade (AAPL on Jan 2)
        import json
        with open(results[ExportFormat.JSON], "r") as f:
            data = json.load(f)
            assert data["record_count"] == 1
            assert data["trades"][0]["stock_code"] == "AAPL"
    def test_get_export_stats(self, temp_db: Path) -> None:
        """Test export statistics."""
        exporter = BackupExporter(str(temp_db))
        stats = exporter.get_export_stats()
        assert stats["total_trades"] == 3
        assert "date_range" in stats
        assert "db_size_bytes" in stats
 class TestBackupScheduler:
    """Test BackupScheduler functionality."""
    def test_scheduler_init(self, temp_db: Path, tmp_path: Path) -> None:
        """Test scheduler initialization."""
        backup_dir = tmp_path / "backups"
        scheduler = BackupScheduler(str(temp_db), backup_dir)
        assert scheduler.db_path == temp_db
        assert (backup_dir / "daily").exists()
        assert (backup_dir / "weekly").exists()
        assert (backup_dir / "monthly").exists()
    def test_create_daily_backup(self, temp_db: Path, tmp_path: Path) -> None:
        """Test daily backup creation."""
        backup_dir = tmp_path / "backups"
        scheduler = BackupScheduler(str(temp_db), backup_dir)
        metadata = scheduler.create_backup(BackupPolicy.DAILY, verify=True)
        assert metadata.policy == BackupPolicy.DAILY
        assert metadata.file_path.exists()
        assert metadata.size_bytes > 0
        assert metadata.checksum is not None
    def test_create_weekly_backup(self, temp_db: Path, tmp_path: Path) -> None:
        """Test weekly backup creation."""
        backup_dir = tmp_path / "backups"
        scheduler = BackupScheduler(str(temp_db), backup_dir)
        metadata = scheduler.create_backup(BackupPolicy.WEEKLY, verify=False)
        assert metadata.policy == BackupPolicy.WEEKLY
        assert metadata.file_path.exists()
        assert metadata.checksum is None  # verify=False
    def test_list_backups(self, temp_db: Path, tmp_path: Path) -> None:
        """Test listing backups."""
        backup_dir = tmp_path / "backups"
        scheduler = BackupScheduler(str(temp_db), backup_dir)
        scheduler.create_backup(BackupPolicy.DAILY)
        scheduler.create_backup(BackupPolicy.WEEKLY)
        backups = scheduler.list_backups()
        assert len(backups) == 2
        daily_backups = scheduler.list_backups(BackupPolicy.DAILY)
        assert len(daily_backups) == 1
        assert daily_backups[0].policy == BackupPolicy.DAILY
    def test_cleanup_old_backups(self, temp_db: Path, tmp_path: Path) -> None:
        """Test cleanup of old backups."""
        backup_dir = tmp_path / "backups"
        scheduler = BackupScheduler(str(temp_db), backup_dir, daily_retention_days=0)
        # Create a backup
        scheduler.create_backup(BackupPolicy.DAILY)
        # Cleanup should remove it (0 day retention)
        removed = scheduler.cleanup_old_backups()
        assert removed[BackupPolicy.DAILY] >= 1
    def test_backup_stats(self, temp_db: Path, tmp_path: Path) -> None:
        """Test backup statistics."""
        backup_dir = tmp_path / "backups"
        scheduler = BackupScheduler(str(temp_db), backup_dir)
        scheduler.create_backup(BackupPolicy.DAILY)
        scheduler.create_backup(BackupPolicy.MONTHLY)
        stats = scheduler.get_backup_stats()
        assert stats["daily"]["count"] == 1
        assert stats["monthly"]["count"] == 1
        assert stats["daily"]["total_size_bytes"] > 0
    def test_restore_backup(self, temp_db: Path, tmp_path: Path) -> None:
        """Test backup restoration."""
        backup_dir = tmp_path / "backups"
        scheduler = BackupScheduler(str(temp_db), backup_dir)
        # Create backup
        metadata = scheduler.create_backup(BackupPolicy.DAILY)
        # Modify database
        conn = sqlite3.connect(str(temp_db))
        conn.execute("DELETE FROM trades")
        conn.commit()
        conn.close()
        # Restore
        scheduler.restore_backup(metadata, verify=True)
        # Verify restoration
        conn = sqlite3.connect(str(temp_db))
        cursor = conn.execute("SELECT COUNT(*) FROM trades")
        count = cursor.fetchone()[0]
        conn.close()
        assert count == 3  # Original 3 trades restored
 class TestHealthMonitor:
    """Test HealthMonitor functionality."""
    def test_monitor_init(self, temp_db: Path, tmp_path: Path) -> None:
        """Test monitor initialization."""
        backup_dir = tmp_path / "backups"
        monitor = HealthMonitor(str(temp_db), backup_dir)
        assert monitor.db_path == temp_db
    def test_check_database_health_ok(self, temp_db: Path, tmp_path: Path) -> None:
        """Test database health check (healthy)."""
        monitor = HealthMonitor(str(temp_db), tmp_path / "backups")
        result = monitor.check_database_health()
        assert result.status == HealthStatus.HEALTHY
        assert "healthy" in result.message.lower()
        assert result.details is not None
        assert result.details["trade_count"] == 3
    def test_check_database_health_missing(self, tmp_path: Path) -> None:
        """Test database health check (missing file)."""
        non_existent = tmp_path / "missing.db"
        monitor = HealthMonitor(str(non_existent), tmp_path / "backups")
        result = monitor.check_database_health()
        assert result.status == HealthStatus.UNHEALTHY
        assert "not found" in result.message.lower()
    def test_check_disk_space(self, temp_db: Path, tmp_path: Path) -> None:
        """Test disk space check."""
        monitor = HealthMonitor(str(temp_db), tmp_path, min_disk_space_gb=0.001)
        result = monitor.check_disk_space()
        # Should be healthy with minimal requirement
        assert result.status in [HealthStatus.HEALTHY, HealthStatus.DEGRADED]
        assert result.details is not None
        assert "free_gb" in result.details
    def test_check_backup_recency_no_backups(self, temp_db: Path, tmp_path: Path) -> None:
        """Test backup recency check (no backups)."""
        backup_dir = tmp_path / "backups"
        backup_dir.mkdir()
        (backup_dir / "daily").mkdir()
        monitor = HealthMonitor(str(temp_db), backup_dir)
        result = monitor.check_backup_recency()
        assert result.status == HealthStatus.UNHEALTHY
        assert "no" in result.message.lower()
    def test_check_backup_recency_recent(self, temp_db: Path, tmp_path: Path) -> None:
        """Test backup recency check (recent backup)."""
        backup_dir = tmp_path / "backups"
        scheduler = BackupScheduler(str(temp_db), backup_dir)
        scheduler.create_backup(BackupPolicy.DAILY)
        monitor = HealthMonitor(str(temp_db), backup_dir)
        result = monitor.check_backup_recency()
        assert result.status == HealthStatus.HEALTHY
        assert "recent" in result.message.lower()
    def test_run_all_checks(self, temp_db: Path, tmp_path: Path) -> None:
        """Test running all health checks."""
        backup_dir = tmp_path / "backups"
        scheduler = BackupScheduler(str(temp_db), backup_dir)
        scheduler.create_backup(BackupPolicy.DAILY)
        monitor = HealthMonitor(str(temp_db), backup_dir, min_disk_space_gb=0.001)
        checks = monitor.run_all_checks()
        assert "database" in checks
        assert "disk_space" in checks
        assert "backup_recency" in checks
        assert checks["database"].status == HealthStatus.HEALTHY
    def test_get_overall_status(self, temp_db: Path, tmp_path: Path) -> None:
        """Test overall health status."""
        backup_dir = tmp_path / "backups"
        scheduler = BackupScheduler(str(temp_db), backup_dir)
        scheduler.create_backup(BackupPolicy.DAILY)
        monitor = HealthMonitor(str(temp_db), backup_dir, min_disk_space_gb=0.001)
        status = monitor.get_overall_status()
        assert status in [HealthStatus.HEALTHY, HealthStatus.DEGRADED]
    def test_get_health_report(self, temp_db: Path, tmp_path: Path) -> None:
        """Test health report generation."""
        backup_dir = tmp_path / "backups"
        scheduler = BackupScheduler(str(temp_db), backup_dir)
        scheduler.create_backup(BackupPolicy.DAILY)
        monitor = HealthMonitor(str(temp_db), backup_dir, min_disk_space_gb=0.001)
        report = monitor.get_health_report()
        assert "overall_status" in report
        assert "timestamp" in report
        assert "checks" in report
        assert len(report["checks"]) == 3
--- a/tests/test_brain.py
+++ b/tests/test_brain.py
@@ -152,3 +152,121 @@ class TestPromptConstruction:
        assert "JSON" in prompt
        assert "action" in prompt
        assert "confidence" in prompt
 # ---------------------------------------------------------------------------
 # Batch Decision Making
 # ---------------------------------------------------------------------------
 class TestBatchDecisionParsing:
    """Batch response parser must handle JSON arrays correctly."""
    def test_parse_valid_batch_response(self, settings):
        client = GeminiClient(settings)
        stocks_data = [
            {"stock_code": "AAPL", "current_price": 185.5},
            {"stock_code": "MSFT", "current_price": 420.0},
        ]
        raw = """[
            {"code": "AAPL", "action": "BUY", "confidence": 85, "rationale": "Strong momentum"},
            {"code": "MSFT", "action": "HOLD", "confidence": 50, "rationale": "Wait for earnings"}
        ]"""
        decisions = client._parse_batch_response(raw, stocks_data, token_count=100)
        assert len(decisions) == 2
        assert decisions["AAPL"].action == "BUY"
        assert decisions["AAPL"].confidence == 85
        assert decisions["MSFT"].action == "HOLD"
        assert decisions["MSFT"].confidence == 50
    def test_parse_batch_with_markdown_wrapper(self, settings):
        client = GeminiClient(settings)
        stocks_data = [{"stock_code": "AAPL", "current_price": 185.5}]
        raw = """```json
 [{"code": "AAPL", "action": "BUY", "confidence": 90, "rationale": "Good"}]
 ```"""
        decisions = client._parse_batch_response(raw, stocks_data, token_count=100)
        assert decisions["AAPL"].action == "BUY"
        assert decisions["AAPL"].confidence == 90
    def test_parse_batch_empty_response_returns_hold_for_all(self, settings):
        client = GeminiClient(settings)
        stocks_data = [
            {"stock_code": "AAPL", "current_price": 185.5},
            {"stock_code": "MSFT", "current_price": 420.0},
        ]
        decisions = client._parse_batch_response("", stocks_data, token_count=100)
        assert len(decisions) == 2
        assert decisions["AAPL"].action == "HOLD"
        assert decisions["AAPL"].confidence == 0
        assert decisions["MSFT"].action == "HOLD"
    def test_parse_batch_malformed_json_returns_hold_for_all(self, settings):
        client = GeminiClient(settings)
        stocks_data = [{"stock_code": "AAPL", "current_price": 185.5}]
        raw = "This is not JSON"
        decisions = client._parse_batch_response(raw, stocks_data, token_count=100)
        assert decisions["AAPL"].action == "HOLD"
        assert decisions["AAPL"].confidence == 0
    def test_parse_batch_not_array_returns_hold_for_all(self, settings):
        client = GeminiClient(settings)
        stocks_data = [{"stock_code": "AAPL", "current_price": 185.5}]
        raw = '{"code": "AAPL", "action": "BUY", "confidence": 90, "rationale": "Good"}'
        decisions = client._parse_batch_response(raw, stocks_data, token_count=100)
        assert decisions["AAPL"].action == "HOLD"
        assert decisions["AAPL"].confidence == 0
    def test_parse_batch_missing_stock_gets_hold(self, settings):
        client = GeminiClient(settings)
        stocks_data = [
            {"stock_code": "AAPL", "current_price": 185.5},
            {"stock_code": "MSFT", "current_price": 420.0},
        ]
        # Response only has AAPL, MSFT is missing
        raw = '[{"code": "AAPL", "action": "BUY", "confidence": 85, "rationale": "Good"}]'
        decisions = client._parse_batch_response(raw, stocks_data, token_count=100)
        assert decisions["AAPL"].action == "BUY"
        assert decisions["MSFT"].action == "HOLD"
        assert decisions["MSFT"].confidence == 0
    def test_parse_batch_invalid_action_becomes_hold(self, settings):
        client = GeminiClient(settings)
        stocks_data = [{"stock_code": "AAPL", "current_price": 185.5}]
        raw = '[{"code": "AAPL", "action": "YOLO", "confidence": 90, "rationale": "Moon"}]'
        decisions = client._parse_batch_response(raw, stocks_data, token_count=100)
        assert decisions["AAPL"].action == "HOLD"
    def test_parse_batch_low_confidence_becomes_hold(self, settings):
        client = GeminiClient(settings)
        stocks_data = [{"stock_code": "AAPL", "current_price": 185.5}]
        raw = '[{"code": "AAPL", "action": "BUY", "confidence": 65, "rationale": "Weak"}]'
        decisions = client._parse_batch_response(raw, stocks_data, token_count=100)
        assert decisions["AAPL"].action == "HOLD"
        assert decisions["AAPL"].confidence == 65
    def test_parse_batch_missing_fields_gets_hold(self, settings):
        client = GeminiClient(settings)
        stocks_data = [{"stock_code": "AAPL", "current_price": 185.5}]
        raw = '[{"code": "AAPL", "action": "BUY"}]'  # Missing confidence and rationale
        decisions = client._parse_batch_response(raw, stocks_data, token_count=100)
        assert decisions["AAPL"].action == "HOLD"
        assert decisions["AAPL"].confidence == 0
--- a/tests/test_broker.py
+++ b/tests/test_broker.py
@@ -49,6 +49,110 @@ class TestTokenManagement:
        await broker.close()
    @pytest.mark.asyncio
    async def test_concurrent_token_refresh_calls_api_once(self, settings):
        """Multiple concurrent token requests should only call API once."""
        broker = KISBroker(settings)
        # Track how many times the mock API is called
        call_count = [0]
        def create_mock_resp():
            call_count[0] += 1
            mock_resp = AsyncMock()
            mock_resp.status = 200
            mock_resp.json = AsyncMock(
                return_value={
                    "access_token": "tok_concurrent",
                    "token_type": "Bearer",
                    "expires_in": 86400,
                }
            )
            mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
            mock_resp.__aexit__ = AsyncMock(return_value=False)
            return mock_resp
        with patch("aiohttp.ClientSession.post", return_value=create_mock_resp()):
            # Launch 5 concurrent token requests
            tokens = await asyncio.gather(
                broker._ensure_token(),
                broker._ensure_token(),
                broker._ensure_token(),
                broker._ensure_token(),
                broker._ensure_token(),
            )
            # All should get the same token
            assert all(t == "tok_concurrent" for t in tokens)
            # API should be called only once (due to lock)
            assert call_count[0] == 1
        await broker.close()
    @pytest.mark.asyncio
    async def test_token_refresh_cooldown_prevents_rapid_retries(self, settings):
        """Token refresh should enforce cooldown after failure (issue #54)."""
        broker = KISBroker(settings)
        broker._refresh_cooldown = 2.0  # Short cooldown for testing
        # First refresh attempt fails with 403 (EGW00133)
        mock_resp_403 = AsyncMock()
        mock_resp_403.status = 403
        mock_resp_403.text = AsyncMock(
            return_value='{"error_code":"EGW00133","error_description":"접근토큰 발급 잠시 후 다시 시도하세요(1분당 1회)"}'
        )
        mock_resp_403.__aenter__ = AsyncMock(return_value=mock_resp_403)
        mock_resp_403.__aexit__ = AsyncMock(return_value=False)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp_403):
            # First attempt should fail with 403
            with pytest.raises(ConnectionError, match="Token refresh failed"):
                await broker._ensure_token()
            # Second attempt within cooldown should fail with cooldown error
            with pytest.raises(ConnectionError, match="Token refresh on cooldown"):
                await broker._ensure_token()
        await broker.close()
    @pytest.mark.asyncio
    async def test_token_refresh_allowed_after_cooldown(self, settings):
        """Token refresh should be allowed after cooldown period expires."""
        broker = KISBroker(settings)
        broker._refresh_cooldown = 0.1  # Very short cooldown for testing
        # First attempt fails
        mock_resp_403 = AsyncMock()
        mock_resp_403.status = 403
        mock_resp_403.text = AsyncMock(return_value='{"error_code":"EGW00133"}')
        mock_resp_403.__aenter__ = AsyncMock(return_value=mock_resp_403)
        mock_resp_403.__aexit__ = AsyncMock(return_value=False)
        # Second attempt succeeds
        mock_resp_200 = AsyncMock()
        mock_resp_200.status = 200
        mock_resp_200.json = AsyncMock(
            return_value={
                "access_token": "tok_after_cooldown",
                "expires_in": 86400,
            }
        )
        mock_resp_200.__aenter__ = AsyncMock(return_value=mock_resp_200)
        mock_resp_200.__aexit__ = AsyncMock(return_value=False)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp_403):
            with pytest.raises(ConnectionError, match="Token refresh failed"):
                await broker._ensure_token()
        # Wait for cooldown to expire
        await asyncio.sleep(0.15)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp_200):
            token = await broker._ensure_token()
            assert token == "tok_after_cooldown"
        await broker.close()
 # ---------------------------------------------------------------------------
 # Network Error Handling
@@ -107,6 +211,38 @@ class TestRateLimiter:
        await broker._rate_limiter.acquire()
        await broker.close()
    @pytest.mark.asyncio
    async def test_send_order_acquires_rate_limiter_twice(self, settings):
        """send_order must acquire rate limiter for both hash key and order call."""
        broker = KISBroker(settings)
        broker._access_token = "tok"
        broker._token_expires_at = asyncio.get_event_loop().time() + 3600
        # Mock hash key response
        mock_hash_resp = AsyncMock()
        mock_hash_resp.status = 200
        mock_hash_resp.json = AsyncMock(return_value={"HASH": "abc123"})
        mock_hash_resp.__aenter__ = AsyncMock(return_value=mock_hash_resp)
        mock_hash_resp.__aexit__ = AsyncMock(return_value=False)
        # Mock order response
        mock_order_resp = AsyncMock()
        mock_order_resp.status = 200
        mock_order_resp.json = AsyncMock(return_value={"rt_cd": "0"})
        mock_order_resp.__aenter__ = AsyncMock(return_value=mock_order_resp)
        mock_order_resp.__aexit__ = AsyncMock(return_value=False)
        with patch(
            "aiohttp.ClientSession.post", side_effect=[mock_hash_resp, mock_order_resp]
        ):
            with patch.object(
                broker._rate_limiter, "acquire", new_callable=AsyncMock
            ) as mock_acquire:
                await broker.send_order("005930", "BUY", 1, 50000)
                assert mock_acquire.call_count == 2
        await broker.close()
 # ---------------------------------------------------------------------------
 # Hash Key Generation
@@ -136,3 +272,27 @@ class TestHashKey:
            assert len(hash_key) > 0
        await broker.close()
    @pytest.mark.asyncio
    async def test_hash_key_acquires_rate_limiter(self, settings):
        """_get_hash_key must go through the rate limiter to prevent burst."""
        broker = KISBroker(settings)
        broker._access_token = "tok"
        broker._token_expires_at = asyncio.get_event_loop().time() + 3600
        body = {"CANO": "12345678", "ACNT_PRDT_CD": "01"}
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.json = AsyncMock(return_value={"HASH": "abc123hash"})
        mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
        mock_resp.__aexit__ = AsyncMock(return_value=False)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp):
            with patch.object(
                broker._rate_limiter, "acquire", new_callable=AsyncMock
            ) as mock_acquire:
                await broker._get_hash_key(body)
                mock_acquire.assert_called_once()
        await broker.close()
--- a/tests/test_main.py
+++ b/tests/test_main.py
@@ -0,0 +1,660 @@
 """Tests for main trading loop telegram integration."""
 import asyncio
 from unittest.mock import AsyncMock, MagicMock, patch
 import pytest
 from src.core.risk_manager import CircuitBreakerTripped, FatFingerRejected
 from src.main import safe_float, trading_cycle
 class TestSafeFloat:
    """Test safe_float() helper function."""
    def test_converts_valid_string(self):
        """Test conversion of valid numeric string."""
        assert safe_float("123.45") == 123.45
        assert safe_float("0") == 0.0
        assert safe_float("-99.9") == -99.9
    def test_handles_empty_string(self):
        """Test empty string returns default."""
        assert safe_float("") == 0.0
        assert safe_float("", 99.0) == 99.0
    def test_handles_none(self):
        """Test None returns default."""
        assert safe_float(None) == 0.0
        assert safe_float(None, 42.0) == 42.0
    def test_handles_invalid_string(self):
        """Test invalid string returns default."""
        assert safe_float("invalid") == 0.0
        assert safe_float("not_a_number", 100.0) == 100.0
        assert safe_float("12.34.56") == 0.0
    def test_handles_float_input(self):
        """Test float input passes through."""
        assert safe_float(123.45) == 123.45
        assert safe_float(0.0) == 0.0
    def test_custom_default(self):
        """Test custom default value."""
        assert safe_float("", -1.0) == -1.0
        assert safe_float(None, 999.0) == 999.0
 class TestTradingCycleTelegramIntegration:
    """Test telegram notifications in trading_cycle function."""
    @pytest.fixture
    def mock_broker(self) -> MagicMock:
        """Create mock broker."""
        broker = MagicMock()
        broker.get_orderbook = AsyncMock(
            return_value={
                "output1": {
                    "stck_prpr": "50000",
                    "frgn_ntby_qty": "100",
                }
            }
        )
        broker.get_balance = AsyncMock(
            return_value={
                "output2": [
                    {
                        "tot_evlu_amt": "10000000",
                        "dnca_tot_amt": "5000000",
                        "pchs_amt_smtl_amt": "5000000",
                    }
                ]
            }
        )
        broker.send_order = AsyncMock(return_value={"msg1": "OK"})
        return broker
    @pytest.fixture
    def mock_overseas_broker(self) -> MagicMock:
        """Create mock overseas broker."""
        broker = MagicMock()
        return broker
    @pytest.fixture
    def mock_brain(self) -> MagicMock:
        """Create mock brain that decides to buy."""
        brain = MagicMock()
        decision = MagicMock()
        decision.action = "BUY"
        decision.confidence = 85
        decision.rationale = "Test buy"
        brain.decide = AsyncMock(return_value=decision)
        return brain
    @pytest.fixture
    def mock_risk(self) -> MagicMock:
        """Create mock risk manager."""
        risk = MagicMock()
        risk.validate_order = MagicMock()
        return risk
    @pytest.fixture
    def mock_db(self) -> MagicMock:
        """Create mock database connection."""
        return MagicMock()
    @pytest.fixture
    def mock_decision_logger(self) -> MagicMock:
        """Create mock decision logger."""
        logger = MagicMock()
        logger.log_decision = MagicMock()
        return logger
    @pytest.fixture
    def mock_context_store(self) -> MagicMock:
        """Create mock context store."""
        store = MagicMock()
        store.get_latest_timeframe = MagicMock(return_value=None)
        return store
    @pytest.fixture
    def mock_criticality_assessor(self) -> MagicMock:
        """Create mock criticality assessor."""
        assessor = MagicMock()
        assessor.assess_market_conditions = MagicMock(
            return_value=MagicMock(value="NORMAL")
        )
        assessor.get_timeout = MagicMock(return_value=5.0)
        return assessor
    @pytest.fixture
    def mock_telegram(self) -> MagicMock:
        """Create mock telegram client."""
        telegram = MagicMock()
        telegram.notify_trade_execution = AsyncMock()
        telegram.notify_fat_finger = AsyncMock()
        telegram.notify_circuit_breaker = AsyncMock()
        return telegram
    @pytest.fixture
    def mock_market(self) -> MagicMock:
        """Create mock market info."""
        market = MagicMock()
        market.name = "Korea"
        market.code = "KR"
        market.exchange_code = "KRX"
        market.is_domestic = True
        return market
    @pytest.mark.asyncio
    async def test_trade_execution_notification_sent(
        self,
        mock_broker: MagicMock,
        mock_overseas_broker: MagicMock,
        mock_brain: MagicMock,
        mock_risk: MagicMock,
        mock_db: MagicMock,
        mock_decision_logger: MagicMock,
        mock_context_store: MagicMock,
        mock_criticality_assessor: MagicMock,
        mock_telegram: MagicMock,
        mock_market: MagicMock,
    ) -> None:
        """Test telegram notification sent on trade execution."""
        with patch("src.main.log_trade"):
            await trading_cycle(
                broker=mock_broker,
                overseas_broker=mock_overseas_broker,
                brain=mock_brain,
                risk=mock_risk,
                db_conn=mock_db,
                decision_logger=mock_decision_logger,
                context_store=mock_context_store,
                criticality_assessor=mock_criticality_assessor,
                telegram=mock_telegram,
                market=mock_market,
                stock_code="005930",
                scan_candidates={},
            )
        # Verify notification was sent
        mock_telegram.notify_trade_execution.assert_called_once()
        call_kwargs = mock_telegram.notify_trade_execution.call_args.kwargs
        assert call_kwargs["stock_code"] == "005930"
        assert call_kwargs["market"] == "Korea"
        assert call_kwargs["action"] == "BUY"
        assert call_kwargs["confidence"] == 85
    @pytest.mark.asyncio
    async def test_trade_execution_notification_failure_doesnt_crash(
        self,
        mock_broker: MagicMock,
        mock_overseas_broker: MagicMock,
        mock_brain: MagicMock,
        mock_risk: MagicMock,
        mock_db: MagicMock,
        mock_decision_logger: MagicMock,
        mock_context_store: MagicMock,
        mock_criticality_assessor: MagicMock,
        mock_telegram: MagicMock,
        mock_market: MagicMock,
    ) -> None:
        """Test trading continues even if notification fails."""
        # Make notification fail
        mock_telegram.notify_trade_execution.side_effect = Exception("API error")
        with patch("src.main.log_trade"):
            # Should not raise exception
            await trading_cycle(
                broker=mock_broker,
                overseas_broker=mock_overseas_broker,
                brain=mock_brain,
                risk=mock_risk,
                db_conn=mock_db,
                decision_logger=mock_decision_logger,
                context_store=mock_context_store,
                criticality_assessor=mock_criticality_assessor,
                telegram=mock_telegram,
                market=mock_market,
                stock_code="005930",
                scan_candidates={},
            )
        # Verify notification was attempted
        mock_telegram.notify_trade_execution.assert_called_once()
    @pytest.mark.asyncio
    async def test_fat_finger_notification_sent(
        self,
        mock_broker: MagicMock,
        mock_overseas_broker: MagicMock,
        mock_brain: MagicMock,
        mock_risk: MagicMock,
        mock_db: MagicMock,
        mock_decision_logger: MagicMock,
        mock_context_store: MagicMock,
        mock_criticality_assessor: MagicMock,
        mock_telegram: MagicMock,
        mock_market: MagicMock,
    ) -> None:
        """Test telegram notification sent on fat finger rejection."""
        # Make risk manager reject the order
        mock_risk.validate_order.side_effect = FatFingerRejected(
            order_amount=2000000,
            total_cash=5000000,
            max_pct=30.0,
        )
        with patch("src.main.log_trade"):
            with pytest.raises(FatFingerRejected):
                await trading_cycle(
                    broker=mock_broker,
                    overseas_broker=mock_overseas_broker,
                    brain=mock_brain,
                    risk=mock_risk,
                    db_conn=mock_db,
                    decision_logger=mock_decision_logger,
                    context_store=mock_context_store,
                    criticality_assessor=mock_criticality_assessor,
                    telegram=mock_telegram,
                    market=mock_market,
                    stock_code="005930",
                    scan_candidates={},
                )
        # Verify notification was sent
        mock_telegram.notify_fat_finger.assert_called_once()
        call_kwargs = mock_telegram.notify_fat_finger.call_args.kwargs
        assert call_kwargs["stock_code"] == "005930"
        assert call_kwargs["order_amount"] == 2000000
        assert call_kwargs["total_cash"] == 5000000
        assert call_kwargs["max_pct"] == 30.0
    @pytest.mark.asyncio
    async def test_fat_finger_notification_failure_still_raises(
        self,
        mock_broker: MagicMock,
        mock_overseas_broker: MagicMock,
        mock_brain: MagicMock,
        mock_risk: MagicMock,
        mock_db: MagicMock,
        mock_decision_logger: MagicMock,
        mock_context_store: MagicMock,
        mock_criticality_assessor: MagicMock,
        mock_telegram: MagicMock,
        mock_market: MagicMock,
    ) -> None:
        """Test fat finger exception still raised even if notification fails."""
        # Make risk manager reject the order
        mock_risk.validate_order.side_effect = FatFingerRejected(
            order_amount=2000000,
            total_cash=5000000,
            max_pct=30.0,
        )
        # Make notification fail
        mock_telegram.notify_fat_finger.side_effect = Exception("API error")
        with patch("src.main.log_trade"):
            with pytest.raises(FatFingerRejected):
                await trading_cycle(
                    broker=mock_broker,
                    overseas_broker=mock_overseas_broker,
                    brain=mock_brain,
                    risk=mock_risk,
                    db_conn=mock_db,
                    decision_logger=mock_decision_logger,
                    context_store=mock_context_store,
                    criticality_assessor=mock_criticality_assessor,
                    telegram=mock_telegram,
                    market=mock_market,
                    stock_code="005930",
                    scan_candidates={},
                )
        # Verify notification was attempted
        mock_telegram.notify_fat_finger.assert_called_once()
    @pytest.mark.asyncio
    async def test_no_notification_on_hold_decision(
        self,
        mock_broker: MagicMock,
        mock_overseas_broker: MagicMock,
        mock_brain: MagicMock,
        mock_risk: MagicMock,
        mock_db: MagicMock,
        mock_decision_logger: MagicMock,
        mock_context_store: MagicMock,
        mock_criticality_assessor: MagicMock,
        mock_telegram: MagicMock,
        mock_market: MagicMock,
    ) -> None:
        """Test no trade notification sent when decision is HOLD."""
        # Change brain decision to HOLD
        decision = MagicMock()
        decision.action = "HOLD"
        decision.confidence = 50
        decision.rationale = "Insufficient signal"
        mock_brain.decide = AsyncMock(return_value=decision)
        with patch("src.main.log_trade"):
            await trading_cycle(
                broker=mock_broker,
                overseas_broker=mock_overseas_broker,
                brain=mock_brain,
                risk=mock_risk,
                db_conn=mock_db,
                decision_logger=mock_decision_logger,
                context_store=mock_context_store,
                criticality_assessor=mock_criticality_assessor,
                telegram=mock_telegram,
                market=mock_market,
                stock_code="005930",
                scan_candidates={},
            )
        # Verify no trade notification sent
        mock_telegram.notify_trade_execution.assert_not_called()
 class TestRunFunctionTelegramIntegration:
    """Test telegram notifications in run function."""
    @pytest.mark.asyncio
    async def test_circuit_breaker_notification_sent(self) -> None:
        """Test telegram notification sent when circuit breaker trips."""
        mock_telegram = MagicMock()
        mock_telegram.notify_circuit_breaker = AsyncMock()
        # Simulate circuit breaker exception
        exc = CircuitBreakerTripped(pnl_pct=-3.5, threshold=-3.0)
        # Test the notification logic
        try:
            await mock_telegram.notify_circuit_breaker(
                pnl_pct=exc.pnl_pct,
                threshold=exc.threshold,
            )
        except Exception:
            pass  # Ignore errors in notification
        # Verify notification was called
        mock_telegram.notify_circuit_breaker.assert_called_once_with(
            pnl_pct=-3.5,
            threshold=-3.0,
        )
 class TestOverseasBalanceParsing:
    """Test overseas balance output2 parsing handles different formats."""
    @pytest.fixture
    def mock_overseas_broker_with_list(self) -> MagicMock:
        """Create mock overseas broker returning list format."""
        broker = MagicMock()
        broker.get_overseas_price = AsyncMock(
            return_value={"output": {"last": "150.50"}}
        )
        broker.get_overseas_balance = AsyncMock(
            return_value={
                "output2": [
                    {
                        "frcr_evlu_tota": "10000.00",
                        "frcr_dncl_amt_2": "5000.00",
                        "frcr_buy_amt_smtl": "4500.00",
                    }
                ]
            }
        )
        return broker
    @pytest.fixture
    def mock_overseas_broker_with_dict(self) -> MagicMock:
        """Create mock overseas broker returning dict format."""
        broker = MagicMock()
        broker.get_overseas_price = AsyncMock(
            return_value={"output": {"last": "150.50"}}
        )
        broker.get_overseas_balance = AsyncMock(
            return_value={
                "output2": {
                    "frcr_evlu_tota": "10000.00",
                    "frcr_dncl_amt_2": "5000.00",
                    "frcr_buy_amt_smtl": "4500.00",
                }
            }
        )
        return broker
    @pytest.fixture
    def mock_overseas_broker_with_empty(self) -> MagicMock:
        """Create mock overseas broker returning empty output2."""
        broker = MagicMock()
        broker.get_overseas_price = AsyncMock(
            return_value={"output": {"last": "150.50"}}
        )
        broker.get_overseas_balance = AsyncMock(return_value={"output2": []})
        return broker
    @pytest.fixture
    def mock_overseas_broker_with_empty_price(self) -> MagicMock:
        """Create mock overseas broker returning empty string for price."""
        broker = MagicMock()
        broker.get_overseas_price = AsyncMock(
            return_value={"output": {"last": ""}}  # Empty string
        )
        broker.get_overseas_balance = AsyncMock(
            return_value={
                "output2": [
                    {
                        "frcr_evlu_tota": "10000.00",
                        "frcr_dncl_amt_2": "5000.00",
                        "frcr_buy_amt_smtl": "4500.00",
                    }
                ]
            }
        )
        return broker
    @pytest.fixture
    def mock_domestic_broker(self) -> MagicMock:
        """Create minimal mock domestic broker."""
        broker = MagicMock()
        return broker
    @pytest.fixture
    def mock_overseas_market(self) -> MagicMock:
        """Create mock overseas market info."""
        market = MagicMock()
        market.name = "NASDAQ"
        market.code = "US_NASDAQ"
        market.exchange_code = "NASD"
        market.is_domestic = False
        return market
    @pytest.fixture
    def mock_brain_hold(self) -> MagicMock:
        """Create mock brain that always holds."""
        brain = MagicMock()
        decision = MagicMock()
        decision.action = "HOLD"
        decision.confidence = 50
        decision.rationale = "Testing balance parsing"
        brain.decide = AsyncMock(return_value=decision)
        return brain
    @pytest.fixture
    def mock_risk(self) -> MagicMock:
        """Create mock risk manager."""
        return MagicMock()
    @pytest.fixture
    def mock_db(self) -> MagicMock:
        """Create mock database."""
        return MagicMock()
    @pytest.fixture
    def mock_decision_logger(self) -> MagicMock:
        """Create mock decision logger."""
        return MagicMock()
    @pytest.fixture
    def mock_context_store(self) -> MagicMock:
        """Create mock context store."""
        store = MagicMock()
        store.get_latest_timeframe = MagicMock(return_value=None)
        return store
    @pytest.fixture
    def mock_criticality_assessor(self) -> MagicMock:
        """Create mock criticality assessor."""
        assessor = MagicMock()
        assessor.assess_market_conditions = MagicMock(
            return_value=MagicMock(value="NORMAL")
        )
        assessor.get_timeout = MagicMock(return_value=5.0)
        return assessor
    @pytest.fixture
    def mock_telegram(self) -> MagicMock:
        """Create mock telegram client."""
        return MagicMock()
    @pytest.mark.asyncio
    async def test_overseas_balance_list_format(
        self,
        mock_domestic_broker: MagicMock,
        mock_overseas_broker_with_list: MagicMock,
        mock_brain_hold: MagicMock,
        mock_risk: MagicMock,
        mock_db: MagicMock,
        mock_decision_logger: MagicMock,
        mock_context_store: MagicMock,
        mock_criticality_assessor: MagicMock,
        mock_telegram: MagicMock,
        mock_overseas_market: MagicMock,
    ) -> None:
        """Test overseas balance parsing with list format (output2=[{...}])."""
        with patch("src.main.log_trade"):
            # Should not raise KeyError
            await trading_cycle(
                broker=mock_domestic_broker,
                overseas_broker=mock_overseas_broker_with_list,
                brain=mock_brain_hold,
                risk=mock_risk,
                db_conn=mock_db,
                decision_logger=mock_decision_logger,
                context_store=mock_context_store,
                criticality_assessor=mock_criticality_assessor,
                telegram=mock_telegram,
                market=mock_overseas_market,
                stock_code="AAPL",
                scan_candidates={},
            )
        # Verify balance API was called
        mock_overseas_broker_with_list.get_overseas_balance.assert_called_once()
    @pytest.mark.asyncio
    async def test_overseas_balance_dict_format(
        self,
        mock_domestic_broker: MagicMock,
        mock_overseas_broker_with_dict: MagicMock,
        mock_brain_hold: MagicMock,
        mock_risk: MagicMock,
        mock_db: MagicMock,
        mock_decision_logger: MagicMock,
        mock_context_store: MagicMock,
        mock_criticality_assessor: MagicMock,
        mock_telegram: MagicMock,
        mock_overseas_market: MagicMock,
    ) -> None:
        """Test overseas balance parsing with dict format (output2={...})."""
        with patch("src.main.log_trade"):
            # Should not raise KeyError
            await trading_cycle(
                broker=mock_domestic_broker,
                overseas_broker=mock_overseas_broker_with_dict,
                brain=mock_brain_hold,
                risk=mock_risk,
                db_conn=mock_db,
                decision_logger=mock_decision_logger,
                context_store=mock_context_store,
                criticality_assessor=mock_criticality_assessor,
                telegram=mock_telegram,
                market=mock_overseas_market,
                stock_code="AAPL",
                scan_candidates={},
            )
        # Verify balance API was called
        mock_overseas_broker_with_dict.get_overseas_balance.assert_called_once()
    @pytest.mark.asyncio
    async def test_overseas_balance_empty_format(
        self,
        mock_domestic_broker: MagicMock,
        mock_overseas_broker_with_empty: MagicMock,
        mock_brain_hold: MagicMock,
        mock_risk: MagicMock,
        mock_db: MagicMock,
        mock_decision_logger: MagicMock,
        mock_context_store: MagicMock,
        mock_criticality_assessor: MagicMock,
        mock_telegram: MagicMock,
        mock_overseas_market: MagicMock,
    ) -> None:
        """Test overseas balance parsing with empty output2."""
        with patch("src.main.log_trade"):
            # Should not raise KeyError, should default to 0
            await trading_cycle(
                broker=mock_domestic_broker,
                overseas_broker=mock_overseas_broker_with_empty,
                brain=mock_brain_hold,
                risk=mock_risk,
                db_conn=mock_db,
                decision_logger=mock_decision_logger,
                context_store=mock_context_store,
                criticality_assessor=mock_criticality_assessor,
                telegram=mock_telegram,
                market=mock_overseas_market,
                stock_code="AAPL",
                scan_candidates={},
            )
        # Verify balance API was called
        mock_overseas_broker_with_empty.get_overseas_balance.assert_called_once()
    @pytest.mark.asyncio
    async def test_overseas_price_empty_string(
        self,
        mock_domestic_broker: MagicMock,
        mock_overseas_broker_with_empty_price: MagicMock,
        mock_brain_hold: MagicMock,
        mock_risk: MagicMock,
        mock_db: MagicMock,
        mock_decision_logger: MagicMock,
        mock_context_store: MagicMock,
        mock_criticality_assessor: MagicMock,
        mock_telegram: MagicMock,
        mock_overseas_market: MagicMock,
    ) -> None:
        """Test overseas price parsing with empty string (issue #49)."""
        with patch("src.main.log_trade"):
            # Should not raise ValueError, should default to 0.0
            await trading_cycle(
                broker=mock_domestic_broker,
                overseas_broker=mock_overseas_broker_with_empty_price,
                brain=mock_brain_hold,
                risk=mock_risk,
                db_conn=mock_db,
                decision_logger=mock_decision_logger,
                context_store=mock_context_store,
                criticality_assessor=mock_criticality_assessor,
                telegram=mock_telegram,
                market=mock_overseas_market,
                stock_code="AAPL",
                scan_candidates={},
            )
        # Verify price API was called
        mock_overseas_broker_with_empty_price.get_overseas_price.assert_called_once()
--- a/tests/test_smart_scanner.py
+++ b/tests/test_smart_scanner.py
@@ -0,0 +1,377 @@
 """Tests for SmartVolatilityScanner."""
 from __future__ import annotations
 import pytest
 from unittest.mock import AsyncMock, MagicMock
 from src.analysis.smart_scanner import ScanCandidate, SmartVolatilityScanner
 from src.analysis.volatility import VolatilityAnalyzer
 from src.broker.kis_api import KISBroker
 from src.config import Settings
@pytest.fixture
 def mock_settings() -> Settings:
    """Create test settings."""
    return Settings(
        KIS_APP_KEY="test",
        KIS_APP_SECRET="test",
        KIS_ACCOUNT_NO="12345678-01",
        GEMINI_API_KEY="test",
        RSI_OVERSOLD_THRESHOLD=30,
        RSI_MOMENTUM_THRESHOLD=70,
        VOL_MULTIPLIER=2.0,
        SCANNER_TOP_N=3,
        DB_PATH=":memory:",
    )
@pytest.fixture
 def mock_broker(mock_settings: Settings) -> MagicMock:
    """Create mock broker."""
    broker = MagicMock(spec=KISBroker)
    broker._settings = mock_settings
    broker.fetch_market_rankings = AsyncMock()
    broker.get_daily_prices = AsyncMock()
    return broker
@pytest.fixture
 def scanner(mock_broker: MagicMock, mock_settings: Settings) -> SmartVolatilityScanner:
    """Create smart scanner instance."""
    analyzer = VolatilityAnalyzer()
    return SmartVolatilityScanner(
        broker=mock_broker,
        volatility_analyzer=analyzer,
        settings=mock_settings,
    )
 class TestSmartVolatilityScanner:
    """Test suite for SmartVolatilityScanner."""
    @pytest.mark.asyncio
    async def test_scan_finds_oversold_candidates(
        self, scanner: SmartVolatilityScanner, mock_broker: MagicMock
    ) -> None:
        """Test that scanner identifies oversold stocks with high volume."""
        # Mock rankings
        mock_broker.fetch_market_rankings.return_value = [
            {
                "stock_code": "005930",
                "name": "Samsung",
                "price": 70000,
                "volume": 5000000,
                "change_rate": -3.5,
                "volume_increase_rate": 250,
            },
        ]
        # Mock daily prices - trending down (oversold)
        prices = []
        for i in range(20):
            prices.append({
                "date": f"2026020{i:02d}",
                "open": 75000 - i * 200,
                "high": 75500 - i * 200,
                "low": 74500 - i * 200,
                "close": 75000 - i * 250,  # Steady decline
                "volume": 2000000,
            })
        mock_broker.get_daily_prices.return_value = prices
        candidates = await scanner.scan()
        # Should find at least one candidate (depending on exact RSI calculation)
        mock_broker.fetch_market_rankings.assert_called_once()
        mock_broker.get_daily_prices.assert_called_once_with("005930", days=20)
        # If qualified, should have oversold signal
        if candidates:
            assert candidates[0].signal in ["oversold", "momentum"]
            assert candidates[0].volume_ratio >= scanner.vol_multiplier
    @pytest.mark.asyncio
    async def test_scan_finds_momentum_candidates(
        self, scanner: SmartVolatilityScanner, mock_broker: MagicMock
    ) -> None:
        """Test that scanner identifies momentum stocks with high volume."""
        mock_broker.fetch_market_rankings.return_value = [
            {
                "stock_code": "035420",
                "name": "NAVER",
                "price": 250000,
                "volume": 3000000,
                "change_rate": 5.0,
                "volume_increase_rate": 300,
            },
        ]
        # Mock daily prices - trending up (momentum)
        prices = []
        for i in range(20):
            prices.append({
                "date": f"2026020{i:02d}",
                "open": 230000 + i * 500,
                "high": 231000 + i * 500,
                "low": 229000 + i * 500,
                "close": 230500 + i * 500,  # Steady rise
                "volume": 1000000,
            })
        mock_broker.get_daily_prices.return_value = prices
        candidates = await scanner.scan()
        mock_broker.fetch_market_rankings.assert_called_once()
    @pytest.mark.asyncio
    async def test_scan_filters_low_volume(
        self, scanner: SmartVolatilityScanner, mock_broker: MagicMock
    ) -> None:
        """Test that stocks with low volume ratio are filtered out."""
        mock_broker.fetch_market_rankings.return_value = [
            {
                "stock_code": "000660",
                "name": "SK Hynix",
                "price": 150000,
                "volume": 500000,
                "change_rate": -5.0,
                "volume_increase_rate": 50,  # Only 50% increase (< 200%)
            },
        ]
        # Low volume
        prices = []
        for i in range(20):
            prices.append({
                "date": f"2026020{i:02d}",
                "open": 150000 - i * 100,
                "high": 151000 - i * 100,
                "low": 149000 - i * 100,
                "close": 150000 - i * 150,  # Declining (would be oversold)
                "volume": 1000000,  # Current 500k < 2x prev day 1M
            })
        mock_broker.get_daily_prices.return_value = prices
        candidates = await scanner.scan()
        # Should be filtered out due to low volume ratio
        assert len(candidates) == 0
    @pytest.mark.asyncio
    async def test_scan_filters_neutral_rsi(
        self, scanner: SmartVolatilityScanner, mock_broker: MagicMock
    ) -> None:
        """Test that stocks with neutral RSI are filtered out."""
        mock_broker.fetch_market_rankings.return_value = [
            {
                "stock_code": "051910",
                "name": "LG Chem",
                "price": 500000,
                "volume": 3000000,
                "change_rate": 0.5,
                "volume_increase_rate": 300,  # High volume
            },
        ]
        # Flat prices (neutral RSI ~50)
        prices = []
        for i in range(20):
            prices.append({
                "date": f"2026020{i:02d}",
                "open": 500000 + (i % 2) * 100,  # Small oscillation
                "high": 500500,
                "low": 499500,
                "close": 500000 + (i % 2) * 50,
                "volume": 1000000,
            })
        mock_broker.get_daily_prices.return_value = prices
        candidates = await scanner.scan()
        # Should be filtered out (RSI ~50, not < 30 or > 70)
        assert len(candidates) == 0
    @pytest.mark.asyncio
    async def test_scan_uses_fallback_on_api_error(
        self, scanner: SmartVolatilityScanner, mock_broker: MagicMock
    ) -> None:
        """Test fallback to static list when ranking API fails."""
        mock_broker.fetch_market_rankings.side_effect = ConnectionError("API unavailable")
        # Fallback stocks should still be analyzed
        prices = []
        for i in range(20):
            prices.append({
                "date": f"2026020{i:02d}",
                "open": 50000 - i * 50,
                "high": 51000 - i * 50,
                "low": 49000 - i * 50,
                "close": 50000 - i * 75,  # Declining
                "volume": 1000000,
            })
        mock_broker.get_daily_prices.return_value = prices
        candidates = await scanner.scan(fallback_stocks=["005930", "000660"])
        # Should not crash
        assert isinstance(candidates, list)
    @pytest.mark.asyncio
    async def test_scan_returns_top_n_only(
        self, scanner: SmartVolatilityScanner, mock_broker: MagicMock
    ) -> None:
        """Test that scan returns at most top_n candidates."""
        # Return many stocks
        mock_broker.fetch_market_rankings.return_value = [
            {
                "stock_code": f"00{i}000",
                "name": f"Stock{i}",
                "price": 10000 * i,
                "volume": 5000000,
                "change_rate": -10,
                "volume_increase_rate": 500,
            }
            for i in range(1, 10)
        ]
        # All oversold with high volume
        def make_prices(code: str) -> list[dict]:
            prices = []
            for i in range(20):
                prices.append({
                    "date": f"2026020{i:02d}",
                    "open": 10000 - i * 100,
                    "high": 10500 - i * 100,
                    "low": 9500 - i * 100,
                    "close": 10000 - i * 150,
                    "volume": 1000000,
                })
            return prices
        mock_broker.get_daily_prices.side_effect = make_prices
        candidates = await scanner.scan()
        # Should respect top_n limit (3)
        assert len(candidates) <= scanner.top_n
    @pytest.mark.asyncio
    async def test_scan_skips_insufficient_price_history(
        self, scanner: SmartVolatilityScanner, mock_broker: MagicMock
    ) -> None:
        """Test that stocks with insufficient history are skipped."""
        mock_broker.fetch_market_rankings.return_value = [
            {
                "stock_code": "005930",
                "name": "Samsung",
                "price": 70000,
                "volume": 5000000,
                "change_rate": -5.0,
                "volume_increase_rate": 300,
            },
        ]
        # Only 5 days of data (need 15+ for RSI)
        mock_broker.get_daily_prices.return_value = [
            {
                "date": f"2026020{i:02d}",
                "open": 70000,
                "high": 71000,
                "low": 69000,
                "close": 70000,
                "volume": 2000000,
            }
            for i in range(5)
        ]
        candidates = await scanner.scan()
        # Should skip due to insufficient data
        assert len(candidates) == 0
    @pytest.mark.asyncio
    async def test_get_stock_codes(
        self, scanner: SmartVolatilityScanner
    ) -> None:
        """Test extraction of stock codes from candidates."""
        candidates = [
            ScanCandidate(
                stock_code="005930",
                name="Samsung",
                price=70000,
                volume=5000000,
                volume_ratio=2.5,
                rsi=28,
                signal="oversold",
                score=85.0,
            ),
            ScanCandidate(
                stock_code="035420",
                name="NAVER",
                price=250000,
                volume=3000000,
                volume_ratio=3.0,
                rsi=75,
                signal="momentum",
                score=88.0,
            ),
        ]
        codes = scanner.get_stock_codes(candidates)
        assert codes == ["005930", "035420"]
 class TestRSICalculation:
    """Test RSI calculation in VolatilityAnalyzer."""
    def test_rsi_oversold(self) -> None:
        """Test RSI calculation for downtrending prices."""
        analyzer = VolatilityAnalyzer()
        # Steadily declining prices
        prices = [100 - i * 0.5 for i in range(20)]
        rsi = analyzer.calculate_rsi(prices, period=14)
        assert rsi < 50  # Should be oversold territory
    def test_rsi_overbought(self) -> None:
        """Test RSI calculation for uptrending prices."""
        analyzer = VolatilityAnalyzer()
        # Steadily rising prices
        prices = [100 + i * 0.5 for i in range(20)]
        rsi = analyzer.calculate_rsi(prices, period=14)
        assert rsi > 50  # Should be overbought territory
    def test_rsi_neutral(self) -> None:
        """Test RSI calculation for flat prices."""
        analyzer = VolatilityAnalyzer()
        # Flat prices with small oscillation
        prices = [100 + (i % 2) * 0.1 for i in range(20)]
        rsi = analyzer.calculate_rsi(prices, period=14)
        assert 40 < rsi < 60  # Should be near neutral
    def test_rsi_insufficient_data(self) -> None:
        """Test RSI returns neutral when insufficient data."""
        analyzer = VolatilityAnalyzer()
        prices = [100, 101, 102]  # Only 3 prices, need 15+
        rsi = analyzer.calculate_rsi(prices, period=14)
        assert rsi == 50.0  # Default neutral
    def test_rsi_all_gains(self) -> None:
        """Test RSI returns 100 when all gains (no losses)."""
        analyzer = VolatilityAnalyzer()
        # Monotonic increase
        prices = [100 + i for i in range(20)]
        rsi = analyzer.calculate_rsi(prices, period=14)
        assert rsi == 100.0  # Maximum RSI
--- a/tests/test_strategy_models.py
+++ b/tests/test_strategy_models.py
@@ -0,0 +1,366 @@
 """Tests for strategy/playbook Pydantic models."""
 from __future__ import annotations
 from datetime import date
 import pytest
 from pydantic import ValidationError
 from src.strategy.models import (
    CrossMarketContext,
    DayPlaybook,
    GlobalRule,
    MarketOutlook,
    PlaybookStatus,
    ScenarioAction,
    StockCondition,
    StockPlaybook,
    StockScenario,
 )
 # ---------------------------------------------------------------------------
 # StockCondition
 # ---------------------------------------------------------------------------
 class TestStockCondition:
    def test_empty_condition(self) -> None:
        cond = StockCondition()
        assert not cond.has_any_condition()
    def test_single_field(self) -> None:
        cond = StockCondition(rsi_below=30.0)
        assert cond.has_any_condition()
    def test_multiple_fields(self) -> None:
        cond = StockCondition(rsi_below=25.0, volume_ratio_above=3.0)
        assert cond.has_any_condition()
    def test_all_fields(self) -> None:
        cond = StockCondition(
            rsi_below=30,
            rsi_above=10,
            volume_ratio_above=2.0,
            volume_ratio_below=10.0,
            price_above=1000,
            price_below=50000,
            price_change_pct_above=-5.0,
            price_change_pct_below=5.0,
        )
        assert cond.has_any_condition()
 # ---------------------------------------------------------------------------
 # StockScenario
 # ---------------------------------------------------------------------------
 class TestStockScenario:
    def test_valid_scenario(self) -> None:
        s = StockScenario(
            condition=StockCondition(rsi_below=25.0),
            action=ScenarioAction.BUY,
            confidence=85,
            allocation_pct=15.0,
            stop_loss_pct=-2.0,
            take_profit_pct=3.0,
            rationale="Oversold bounce expected",
        )
        assert s.action == ScenarioAction.BUY
        assert s.confidence == 85
    def test_confidence_too_high(self) -> None:
        with pytest.raises(ValidationError):
            StockScenario(
                condition=StockCondition(),
                action=ScenarioAction.BUY,
                confidence=101,
            )
    def test_confidence_too_low(self) -> None:
        with pytest.raises(ValidationError):
            StockScenario(
                condition=StockCondition(),
                action=ScenarioAction.BUY,
                confidence=-1,
            )
    def test_allocation_too_high(self) -> None:
        with pytest.raises(ValidationError):
            StockScenario(
                condition=StockCondition(),
                action=ScenarioAction.BUY,
                confidence=80,
                allocation_pct=101.0,
            )
    def test_stop_loss_must_be_negative(self) -> None:
        with pytest.raises(ValidationError):
            StockScenario(
                condition=StockCondition(),
                action=ScenarioAction.BUY,
                confidence=80,
                stop_loss_pct=1.0,
            )
    def test_take_profit_must_be_positive(self) -> None:
        with pytest.raises(ValidationError):
            StockScenario(
                condition=StockCondition(),
                action=ScenarioAction.BUY,
                confidence=80,
                take_profit_pct=-1.0,
            )
    def test_defaults(self) -> None:
        s = StockScenario(
            condition=StockCondition(),
            action=ScenarioAction.HOLD,
            confidence=50,
        )
        assert s.allocation_pct == 10.0
        assert s.stop_loss_pct == -2.0
        assert s.take_profit_pct == 3.0
        assert s.rationale == ""
 # ---------------------------------------------------------------------------
 # StockPlaybook
 # ---------------------------------------------------------------------------
 class TestStockPlaybook:
    def test_valid_playbook(self) -> None:
        pb = StockPlaybook(
            stock_code="005930",
            stock_name="Samsung Electronics",
            scenarios=[
                StockScenario(
                    condition=StockCondition(rsi_below=25.0),
                    action=ScenarioAction.BUY,
                    confidence=85,
                ),
            ],
        )
        assert pb.stock_code == "005930"
        assert len(pb.scenarios) == 1
    def test_empty_scenarios_rejected(self) -> None:
        with pytest.raises(ValidationError):
            StockPlaybook(
                stock_code="005930",
                scenarios=[],
            )
    def test_multiple_scenarios(self) -> None:
        pb = StockPlaybook(
            stock_code="AAPL",
            scenarios=[
                StockScenario(
                    condition=StockCondition(rsi_below=25.0),
                    action=ScenarioAction.BUY,
                    confidence=85,
                ),
                StockScenario(
                    condition=StockCondition(rsi_above=75.0),
                    action=ScenarioAction.SELL,
                    confidence=80,
                ),
            ],
        )
        assert len(pb.scenarios) == 2
 # ---------------------------------------------------------------------------
 # GlobalRule
 # ---------------------------------------------------------------------------
 class TestGlobalRule:
    def test_valid_rule(self) -> None:
        rule = GlobalRule(
            condition="portfolio_pnl_pct < -2.0",
            action=ScenarioAction.REDUCE_ALL,
            rationale="Risk limit approaching",
        )
        assert rule.action == ScenarioAction.REDUCE_ALL
    def test_hold_rule(self) -> None:
        rule = GlobalRule(
            condition="volatility_index > 30",
            action=ScenarioAction.HOLD,
        )
        assert rule.rationale == ""
 # ---------------------------------------------------------------------------
 # CrossMarketContext
 # ---------------------------------------------------------------------------
 class TestCrossMarketContext:
    def test_valid_context(self) -> None:
        ctx = CrossMarketContext(
            market="US",
            date="2026-02-07",
            total_pnl=-1.5,
            win_rate=40.0,
            index_change_pct=-2.3,
            key_events=["Fed rate decision"],
            lessons=["Avoid tech sector on rate hike days"],
        )
        assert ctx.market == "US"
        assert len(ctx.key_events) == 1
    def test_defaults(self) -> None:
        ctx = CrossMarketContext(market="KR", date="2026-02-07")
        assert ctx.total_pnl == 0.0
        assert ctx.key_events == []
        assert ctx.lessons == []
 # ---------------------------------------------------------------------------
 # DayPlaybook
 # ---------------------------------------------------------------------------
 def _make_scenario(rsi_below: float = 25.0) -> StockScenario:
    return StockScenario(
        condition=StockCondition(rsi_below=rsi_below),
        action=ScenarioAction.BUY,
        confidence=85,
    )
 def _make_playbook(**kwargs) -> DayPlaybook:
    defaults = {
        "date": date(2026, 2, 7),
        "market": "KR",
        "stock_playbooks": [
            StockPlaybook(stock_code="005930", scenarios=[_make_scenario()]),
        ],
    }
    defaults.update(kwargs)
    return DayPlaybook(**defaults)
 class TestDayPlaybook:
    def test_valid_playbook(self) -> None:
        pb = _make_playbook()
        assert pb.market == "KR"
        assert pb.date == date(2026, 2, 7)
        assert pb.default_action == ScenarioAction.HOLD
        assert pb.scenario_count == 1
        assert pb.stock_count == 1
    def test_generated_at_auto_set(self) -> None:
        pb = _make_playbook()
        assert pb.generated_at != ""
    def test_explicit_generated_at(self) -> None:
        pb = _make_playbook(generated_at="2026-02-07T08:30:00")
        assert pb.generated_at == "2026-02-07T08:30:00"
    def test_duplicate_stocks_rejected(self) -> None:
        with pytest.raises(ValidationError):
            DayPlaybook(
                date=date(2026, 2, 7),
                market="KR",
                stock_playbooks=[
                    StockPlaybook(stock_code="005930", scenarios=[_make_scenario()]),
                    StockPlaybook(stock_code="005930", scenarios=[_make_scenario(30)]),
                ],
            )
    def test_empty_stock_playbooks_allowed(self) -> None:
        pb = DayPlaybook(
            date=date(2026, 2, 7),
            market="KR",
            stock_playbooks=[],
        )
        assert pb.stock_count == 0
        assert pb.scenario_count == 0
    def test_get_stock_playbook_found(self) -> None:
        pb = _make_playbook()
        result = pb.get_stock_playbook("005930")
        assert result is not None
        assert result.stock_code == "005930"
    def test_get_stock_playbook_not_found(self) -> None:
        pb = _make_playbook()
        result = pb.get_stock_playbook("AAPL")
        assert result is None
    def test_with_global_rules(self) -> None:
        pb = _make_playbook(
            global_rules=[
                GlobalRule(
                    condition="portfolio_pnl_pct < -2.0",
                    action=ScenarioAction.REDUCE_ALL,
                ),
            ],
        )
        assert len(pb.global_rules) == 1
    def test_with_cross_market_context(self) -> None:
        ctx = CrossMarketContext(market="US", date="2026-02-07", total_pnl=-1.5)
        pb = _make_playbook(cross_market=ctx)
        assert pb.cross_market is not None
        assert pb.cross_market.market == "US"
    def test_market_outlook(self) -> None:
        pb = _make_playbook(market_outlook=MarketOutlook.BEARISH)
        assert pb.market_outlook == MarketOutlook.BEARISH
    def test_multiple_stocks_multiple_scenarios(self) -> None:
        pb = DayPlaybook(
            date=date(2026, 2, 7),
            market="US",
            stock_playbooks=[
                StockPlaybook(
                    stock_code="AAPL",
                    scenarios=[_make_scenario(), _make_scenario(30)],
                ),
                StockPlaybook(
                    stock_code="MSFT",
                    scenarios=[_make_scenario()],
                ),
            ],
        )
        assert pb.stock_count == 2
        assert pb.scenario_count == 3
    def test_serialization_roundtrip(self) -> None:
        pb = _make_playbook(
            market_outlook=MarketOutlook.BULLISH,
            cross_market=CrossMarketContext(market="US", date="2026-02-07"),
        )
        json_str = pb.model_dump_json()
        restored = DayPlaybook.model_validate_json(json_str)
        assert restored.market == pb.market
        assert restored.date == pb.date
        assert restored.scenario_count == pb.scenario_count
        assert restored.cross_market is not None
 # ---------------------------------------------------------------------------
 # Enums
 # ---------------------------------------------------------------------------
 class TestEnums:
    def test_scenario_action_values(self) -> None:
        assert ScenarioAction.BUY.value == "BUY"
        assert ScenarioAction.SELL.value == "SELL"
        assert ScenarioAction.HOLD.value == "HOLD"
        assert ScenarioAction.REDUCE_ALL.value == "REDUCE_ALL"
    def test_market_outlook_values(self) -> None:
        assert len(MarketOutlook) == 5
    def test_playbook_status_values(self) -> None:
        assert PlaybookStatus.READY.value == "ready"
        assert PlaybookStatus.EXPIRED.value == "expired"
--- a/tests/test_telegram.py
+++ b/tests/test_telegram.py
@@ -0,0 +1,339 @@
 """Tests for Telegram notification client."""
 from unittest.mock import AsyncMock, patch
 import aiohttp
 import pytest
 from src.notifications.telegram_client import NotificationPriority, TelegramClient
 class TestTelegramClientInit:
    """Test client initialization scenarios."""
    def test_disabled_via_flag(self) -> None:
        """Client disabled via enabled=False flag."""
        client = TelegramClient(
            bot_token="123:abc", chat_id="456", enabled=False
        )
        assert client._enabled is False
    def test_disabled_missing_token(self) -> None:
        """Client disabled when bot_token is None."""
        client = TelegramClient(bot_token=None, chat_id="456", enabled=True)
        assert client._enabled is False
    def test_disabled_missing_chat_id(self) -> None:
        """Client disabled when chat_id is None."""
        client = TelegramClient(bot_token="123:abc", chat_id=None, enabled=True)
        assert client._enabled is False
    def test_enabled_with_credentials(self) -> None:
        """Client enabled when credentials provided."""
        client = TelegramClient(
            bot_token="123:abc", chat_id="456", enabled=True
        )
        assert client._enabled is True
 class TestNotificationSending:
    """Test notification sending behavior."""
    @pytest.mark.asyncio
    async def test_send_message_success(self) -> None:
        """send_message returns True on successful send."""
        client = TelegramClient(
            bot_token="123:abc", chat_id="456", enabled=True
        )
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
        mock_resp.__aexit__ = AsyncMock(return_value=False)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp) as mock_post:
            result = await client.send_message("Test message")
            assert result is True
            assert mock_post.call_count == 1
            payload = mock_post.call_args.kwargs["json"]
            assert payload["chat_id"] == "456"
            assert payload["text"] == "Test message"
            assert payload["parse_mode"] == "HTML"
    @pytest.mark.asyncio
    async def test_send_message_disabled_client(self) -> None:
        """send_message returns False when client disabled."""
        client = TelegramClient(enabled=False)
        with patch("aiohttp.ClientSession.post") as mock_post:
            result = await client.send_message("Test message")
            assert result is False
            mock_post.assert_not_called()
    @pytest.mark.asyncio
    async def test_send_message_api_error(self) -> None:
        """send_message returns False on API error."""
        client = TelegramClient(
            bot_token="123:abc", chat_id="456", enabled=True
        )
        mock_resp = AsyncMock()
        mock_resp.status = 400
        mock_resp.text = AsyncMock(return_value="Bad Request")
        mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
        mock_resp.__aexit__ = AsyncMock(return_value=False)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp):
            result = await client.send_message("Test message")
            assert result is False
    @pytest.mark.asyncio
    async def test_send_message_with_markdown(self) -> None:
        """send_message supports different parse modes."""
        client = TelegramClient(
            bot_token="123:abc", chat_id="456", enabled=True
        )
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
        mock_resp.__aexit__ = AsyncMock(return_value=False)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp) as mock_post:
            result = await client.send_message("*bold*", parse_mode="Markdown")
            assert result is True
            payload = mock_post.call_args.kwargs["json"]
            assert payload["parse_mode"] == "Markdown"
    @pytest.mark.asyncio
    async def test_no_send_when_disabled(self) -> None:
        """Notifications not sent when client disabled."""
        client = TelegramClient(enabled=False)
        with patch("aiohttp.ClientSession.post") as mock_post:
            await client.notify_trade_execution(
                stock_code="AAPL",
                market="United States",
                action="BUY",
                quantity=10,
                price=150.0,
                confidence=85.0,
            )
            mock_post.assert_not_called()
    @pytest.mark.asyncio
    async def test_trade_execution_format(self) -> None:
        """Trade notification has correct format."""
        client = TelegramClient(
            bot_token="123:abc", chat_id="456", enabled=True
        )
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
        mock_resp.__aexit__ = AsyncMock(return_value=False)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp) as mock_post:
            await client.notify_trade_execution(
                stock_code="TSLA",
                market="United States",
                action="SELL",
                quantity=5,
                price=250.50,
                confidence=92.0,
            )
            # Verify API call was made
            assert mock_post.call_count == 1
            call_args = mock_post.call_args
            # Check payload structure
            payload = call_args.kwargs["json"]
            assert payload["chat_id"] == "456"
            assert "TSLA" in payload["text"]
            assert "SELL" in payload["text"]
            assert "5" in payload["text"]
            assert "250.50" in payload["text"]
            assert "92%" in payload["text"]
    @pytest.mark.asyncio
    async def test_circuit_breaker_priority(self) -> None:
        """Circuit breaker uses CRITICAL priority."""
        client = TelegramClient(
            bot_token="123:abc", chat_id="456", enabled=True
        )
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
        mock_resp.__aexit__ = AsyncMock(return_value=False)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp) as mock_post:
            await client.notify_circuit_breaker(pnl_pct=-3.15, threshold=-3.0)
            payload = mock_post.call_args.kwargs["json"]
            # CRITICAL priority has 🚨 emoji
            assert NotificationPriority.CRITICAL.emoji in payload["text"]
            assert "-3.15%" in payload["text"]
    @pytest.mark.asyncio
    async def test_api_error_handling(self) -> None:
        """API errors logged but don't crash."""
        client = TelegramClient(
            bot_token="123:abc", chat_id="456", enabled=True
        )
        mock_resp = AsyncMock()
        mock_resp.status = 400
        mock_resp.text = AsyncMock(return_value="Bad Request")
        mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
        mock_resp.__aexit__ = AsyncMock(return_value=False)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp):
            # Should not raise exception
            await client.notify_system_start(mode="paper", enabled_markets=["KR"])
    @pytest.mark.asyncio
    async def test_timeout_handling(self) -> None:
        """Timeouts logged but don't crash."""
        client = TelegramClient(
            bot_token="123:abc", chat_id="456", enabled=True
        )
        with patch(
            "aiohttp.ClientSession.post",
            side_effect=aiohttp.ClientError("Connection timeout"),
        ):
            # Should not raise exception
            await client.notify_error(
                error_type="Test Error", error_msg="Test", context="test"
            )
    @pytest.mark.asyncio
    async def test_session_management(self) -> None:
        """Session created and reused correctly."""
        client = TelegramClient(
            bot_token="123:abc", chat_id="456", enabled=True
        )
        # Session should be None initially
        assert client._session is None
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
        mock_resp.__aexit__ = AsyncMock(return_value=False)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp):
            await client.notify_market_open("Korea")
            # Session should be created
            assert client._session is not None
            session1 = client._session
            await client.notify_market_close("Korea", 1.5)
            # Same session should be reused
            assert client._session is session1
 class TestRateLimiting:
    """Test rate limiter behavior."""
    @pytest.mark.asyncio
    async def test_rate_limiter_enforced(self) -> None:
        """Rate limiter delays rapid requests."""
        import time
        client = TelegramClient(
            bot_token="123:abc", chat_id="456", enabled=True, rate_limit=2.0
        )
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
        mock_resp.__aexit__ = AsyncMock(return_value=False)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp):
            start = time.monotonic()
            # Send 3 messages (rate: 2/sec = 0.5s per message)
            await client.notify_market_open("Korea")
            await client.notify_market_open("United States")
            await client.notify_market_open("Japan")
            elapsed = time.monotonic() - start
            # Should take at least 0.4 seconds (3 msgs at 2/sec with some tolerance)
            assert elapsed >= 0.4
 class TestMessagePriorities:
    """Test priority-based messaging."""
    @pytest.mark.asyncio
    async def test_low_priority_uses_info_emoji(self) -> None:
        """LOW priority uses ℹ️ emoji."""
        client = TelegramClient(
            bot_token="123:abc", chat_id="456", enabled=True
        )
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
        mock_resp.__aexit__ = AsyncMock(return_value=False)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp) as mock_post:
            await client.notify_market_open("Korea")
            payload = mock_post.call_args.kwargs["json"]
            assert NotificationPriority.LOW.emoji in payload["text"]
    @pytest.mark.asyncio
    async def test_critical_priority_uses_alarm_emoji(self) -> None:
        """CRITICAL priority uses 🚨 emoji."""
        client = TelegramClient(
            bot_token="123:abc", chat_id="456", enabled=True
        )
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
        mock_resp.__aexit__ = AsyncMock(return_value=False)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp) as mock_post:
            await client.notify_system_shutdown("Circuit breaker tripped")
            payload = mock_post.call_args.kwargs["json"]
            assert NotificationPriority.CRITICAL.emoji in payload["text"]
 class TestClientCleanup:
    """Test client cleanup behavior."""
    @pytest.mark.asyncio
    async def test_close_closes_session(self) -> None:
        """close() closes the HTTP session."""
        client = TelegramClient(
            bot_token="123:abc", chat_id="456", enabled=True
        )
        mock_session = AsyncMock()
        mock_session.closed = False
        mock_session.close = AsyncMock()
        client._session = mock_session
        await client.close()
        mock_session.close.assert_called_once()
    @pytest.mark.asyncio
    async def test_close_handles_no_session(self) -> None:
        """close() handles None session gracefully."""
        client = TelegramClient(
            bot_token="123:abc", chat_id="456", enabled=True
        )
        # Should not raise exception
        await client.close()
--- a/tests/test_telegram_commands.py
+++ b/tests/test_telegram_commands.py
@@ -0,0 +1,777 @@
 """Tests for Telegram command handler."""
 from unittest.mock import AsyncMock, patch
 import pytest
 from src.notifications.telegram_client import TelegramClient, TelegramCommandHandler
 class TestCommandHandlerInit:
    """Test command handler initialization."""
    def test_init_with_client(self) -> None:
        """Handler initializes with TelegramClient."""
        client = TelegramClient(bot_token="123:abc", chat_id="456", enabled=True)
        handler = TelegramCommandHandler(client)
        assert handler._client is client
        assert handler._polling_interval == 1.0
        assert handler._commands == {}
        assert handler._running is False
    def test_custom_polling_interval(self) -> None:
        """Handler accepts custom polling interval."""
        client = TelegramClient(bot_token="123:abc", chat_id="456", enabled=True)
        handler = TelegramCommandHandler(client, polling_interval=2.5)
        assert handler._polling_interval == 2.5
 class TestCommandRegistration:
    """Test command registration."""
    @pytest.mark.asyncio
    async def test_register_command(self) -> None:
        """Commands can be registered."""
        client = TelegramClient(bot_token="123:abc", chat_id="456", enabled=True)
        handler = TelegramCommandHandler(client)
        async def test_handler() -> None:
            pass
        handler.register_command("test", test_handler)
        assert "test" in handler._commands
        assert handler._commands["test"] is test_handler
    @pytest.mark.asyncio
    async def test_register_multiple_commands(self) -> None:
        """Multiple commands can be registered."""
        client = TelegramClient(bot_token="123:abc", chat_id="456", enabled=True)
        handler = TelegramCommandHandler(client)
        async def handler1() -> None:
            pass
        async def handler2() -> None:
            pass
        handler.register_command("start", handler1)
        handler.register_command("help", handler2)
        assert len(handler._commands) == 2
        assert handler._commands["start"] is handler1
        assert handler._commands["help"] is handler2
 class TestPollingLifecycle:
    """Test polling start/stop."""
    @pytest.mark.asyncio
    async def test_start_polling(self) -> None:
        """Polling can be started."""
        client = TelegramClient(bot_token="123:abc", chat_id="456", enabled=True)
        handler = TelegramCommandHandler(client)
        with patch.object(handler, "_poll_loop", new_callable=AsyncMock):
            await handler.start_polling()
            assert handler._running is True
            assert handler._polling_task is not None
        await handler.stop_polling()
    @pytest.mark.asyncio
    async def test_start_polling_disabled_client(self) -> None:
        """Polling not started when client disabled."""
        client = TelegramClient(enabled=False)
        handler = TelegramCommandHandler(client)
        await handler.start_polling()
        assert handler._running is False
        assert handler._polling_task is None
    @pytest.mark.asyncio
    async def test_stop_polling(self) -> None:
        """Polling can be stopped."""
        client = TelegramClient(bot_token="123:abc", chat_id="456", enabled=True)
        handler = TelegramCommandHandler(client)
        with patch.object(handler, "_poll_loop", new_callable=AsyncMock):
            await handler.start_polling()
            await handler.stop_polling()
            assert handler._running is False
    @pytest.mark.asyncio
    async def test_double_start_ignored(self) -> None:
        """Starting already running handler is ignored."""
        client = TelegramClient(bot_token="123:abc", chat_id="456", enabled=True)
        handler = TelegramCommandHandler(client)
        with patch.object(handler, "_poll_loop", new_callable=AsyncMock):
            await handler.start_polling()
            task1 = handler._polling_task
            await handler.start_polling()  # Second start
            task2 = handler._polling_task
            # Should be the same task
            assert task1 is task2
        await handler.stop_polling()
 class TestUpdateHandling:
    """Test update parsing and handling."""
    @pytest.mark.asyncio
    async def test_handle_valid_command(self) -> None:
        """Valid commands are executed."""
        client = TelegramClient(bot_token="123:abc", chat_id="456", enabled=True)
        handler = TelegramCommandHandler(client)
        executed = False
        async def test_command() -> None:
            nonlocal executed
            executed = True
        handler.register_command("test", test_command)
        update = {
            "update_id": 1,
            "message": {
                "chat": {"id": 456},
                "text": "/test",
            },
        }
        await handler._handle_update(update)
        assert executed is True
    @pytest.mark.asyncio
    async def test_handle_unknown_command(self) -> None:
        """Unknown commands send help message."""
        client = TelegramClient(bot_token="123:abc", chat_id="456", enabled=True)
        handler = TelegramCommandHandler(client)
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
        mock_resp.__aexit__ = AsyncMock(return_value=False)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp) as mock_post:
            update = {
                "update_id": 1,
                "message": {
                    "chat": {"id": 456},
                    "text": "/unknown",
                },
            }
            await handler._handle_update(update)
            # Should send error message
            assert mock_post.call_count == 1
            payload = mock_post.call_args.kwargs["json"]
            assert "Unknown command" in payload["text"]
            assert "/unknown" in payload["text"]
    @pytest.mark.asyncio
    async def test_ignore_unauthorized_chat(self) -> None:
        """Commands from unauthorized chats are ignored."""
        client = TelegramClient(bot_token="123:abc", chat_id="456", enabled=True)
        handler = TelegramCommandHandler(client)
        executed = False
        async def test_command() -> None:
            nonlocal executed
            executed = True
        handler.register_command("test", test_command)
        update = {
            "update_id": 1,
            "message": {
                "chat": {"id": 999},  # Wrong chat_id
                "text": "/test",
            },
        }
        await handler._handle_update(update)
        assert executed is False
    @pytest.mark.asyncio
    async def test_ignore_non_command_text(self) -> None:
        """Non-command text is ignored."""
        client = TelegramClient(bot_token="123:abc", chat_id="456", enabled=True)
        handler = TelegramCommandHandler(client)
        executed = False
        async def test_command() -> None:
            nonlocal executed
            executed = True
        handler.register_command("test", test_command)
        update = {
            "update_id": 1,
            "message": {
                "chat": {"id": 456},
                "text": "Hello, not a command",
            },
        }
        await handler._handle_update(update)
        assert executed is False
    @pytest.mark.asyncio
    async def test_handle_command_with_botname(self) -> None:
        """Commands with @botname suffix are handled correctly."""
        client = TelegramClient(bot_token="123:abc", chat_id="456", enabled=True)
        handler = TelegramCommandHandler(client)
        executed = False
        async def test_command() -> None:
            nonlocal executed
            executed = True
        handler.register_command("start", test_command)
        update = {
            "update_id": 1,
            "message": {
                "chat": {"id": 456},
                "text": "/start@mybot",
            },
        }
        await handler._handle_update(update)
        assert executed is True
    @pytest.mark.asyncio
    async def test_handle_update_error_isolation(self) -> None:
        """Errors in handlers don't crash the system."""
        client = TelegramClient(bot_token="123:abc", chat_id="456", enabled=True)
        handler = TelegramCommandHandler(client)
        async def failing_command() -> None:
            raise ValueError("Test error")
        handler.register_command("fail", failing_command)
        update = {
            "update_id": 1,
            "message": {
                "chat": {"id": 456},
                "text": "/fail",
            },
        }
        # Should not raise exception
        await handler._handle_update(update)
 class TestTradingControlCommands:
    """Test trading control commands."""
    @pytest.mark.asyncio
    async def test_stop_command_pauses_trading(self) -> None:
        """Stop command clears pause event."""
        client = TelegramClient(bot_token="123:abc", chat_id="456", enabled=True)
        handler = TelegramCommandHandler(client)
        # Create mock pause event
        import asyncio
        pause_event = asyncio.Event()
        pause_event.set()  # Initially active
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
        mock_resp.__aexit__ = AsyncMock(return_value=False)
        async def mock_stop() -> None:
            """Mock /stop handler."""
            if not pause_event.is_set():
                await client.send_message("⏸️ Trading is already paused")
                return
            pause_event.clear()
            await client.send_message(
                "<b>⏸️ Trading Paused</b>\n\n"
                "All trading operations have been suspended.\n"
                "Use /resume to restart trading."
            )
        handler.register_command("stop", mock_stop)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp) as mock_post:
            update = {
                "update_id": 1,
                "message": {
                    "chat": {"id": 456},
                    "text": "/stop",
                },
            }
            await handler._handle_update(update)
            # Verify pause event was cleared
            assert not pause_event.is_set()
            # Verify message was sent
            assert mock_post.call_count == 1
            payload = mock_post.call_args.kwargs["json"]
            assert "Trading Paused" in payload["text"]
    @pytest.mark.asyncio
    async def test_resume_command_resumes_trading(self) -> None:
        """Resume command sets pause event."""
        client = TelegramClient(bot_token="123:abc", chat_id="456", enabled=True)
        handler = TelegramCommandHandler(client)
        # Create mock pause event (initially paused)
        import asyncio
        pause_event = asyncio.Event()
        pause_event.clear()  # Initially paused
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
        mock_resp.__aexit__ = AsyncMock(return_value=False)
        async def mock_resume() -> None:
            """Mock /resume handler."""
            if pause_event.is_set():
                await client.send_message("▶️ Trading is already active")
                return
            pause_event.set()
            await client.send_message(
                "<b>▶️ Trading Resumed</b>\n\n"
                "Trading operations have been restarted."
            )
        handler.register_command("resume", mock_resume)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp) as mock_post:
            update = {
                "update_id": 1,
                "message": {
                    "chat": {"id": 456},
                    "text": "/resume",
                },
            }
            await handler._handle_update(update)
            # Verify pause event was set
            assert pause_event.is_set()
            # Verify message was sent
            assert mock_post.call_count == 1
            payload = mock_post.call_args.kwargs["json"]
            assert "Trading Resumed" in payload["text"]
    @pytest.mark.asyncio
    async def test_stop_when_already_paused(self) -> None:
        """Stop command when already paused sends appropriate message."""
        client = TelegramClient(bot_token="123:abc", chat_id="456", enabled=True)
        handler = TelegramCommandHandler(client)
        # Create mock pause event (already paused)
        import asyncio
        pause_event = asyncio.Event()
        pause_event.clear()
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
        mock_resp.__aexit__ = AsyncMock(return_value=False)
        async def mock_stop() -> None:
            """Mock /stop handler."""
            if not pause_event.is_set():
                await client.send_message("⏸️ Trading is already paused")
                return
            pause_event.clear()
        handler.register_command("stop", mock_stop)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp) as mock_post:
            update = {
                "update_id": 1,
                "message": {
                    "chat": {"id": 456},
                    "text": "/stop",
                },
            }
            await handler._handle_update(update)
            # Verify message was sent
            payload = mock_post.call_args.kwargs["json"]
            assert "already paused" in payload["text"]
    @pytest.mark.asyncio
    async def test_resume_when_already_active(self) -> None:
        """Resume command when already active sends appropriate message."""
        client = TelegramClient(bot_token="123:abc", chat_id="456", enabled=True)
        handler = TelegramCommandHandler(client)
        # Create mock pause event (already active)
        import asyncio
        pause_event = asyncio.Event()
        pause_event.set()
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
        mock_resp.__aexit__ = AsyncMock(return_value=False)
        async def mock_resume() -> None:
            """Mock /resume handler."""
            if pause_event.is_set():
                await client.send_message("▶️ Trading is already active")
                return
            pause_event.set()
        handler.register_command("resume", mock_resume)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp) as mock_post:
            update = {
                "update_id": 1,
                "message": {
                    "chat": {"id": 456},
                    "text": "/resume",
                },
            }
            await handler._handle_update(update)
            # Verify message was sent
            payload = mock_post.call_args.kwargs["json"]
            assert "already active" in payload["text"]
 class TestStatusCommands:
    """Test status query commands."""
    @pytest.mark.asyncio
    async def test_status_command_shows_trading_info(self) -> None:
        """Status command displays mode, markets, and P&L."""
        client = TelegramClient(bot_token="123:abc", chat_id="456", enabled=True)
        handler = TelegramCommandHandler(client)
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
        mock_resp.__aexit__ = AsyncMock(return_value=False)
        async def mock_status() -> None:
            """Mock /status handler."""
            message = (
                "<b>📊 Trading Status</b>\n\n"
                "<b>Mode:</b> PAPER\n"
                "<b>Markets:</b> Korea, United States\n"
                "<b>Trading:</b> Active\n\n"
                "<b>Current P&L:</b> +2.50%\n"
                "<b>Circuit Breaker:</b> -3.0%"
            )
            await client.send_message(message)
        handler.register_command("status", mock_status)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp) as mock_post:
            update = {
                "update_id": 1,
                "message": {
                    "chat": {"id": 456},
                    "text": "/status",
                },
            }
            await handler._handle_update(update)
            # Verify message was sent
            assert mock_post.call_count == 1
            payload = mock_post.call_args.kwargs["json"]
            assert "Trading Status" in payload["text"]
            assert "PAPER" in payload["text"]
            assert "P&L" in payload["text"]
    @pytest.mark.asyncio
    async def test_status_command_error_handling(self) -> None:
        """Status command handles errors gracefully."""
        client = TelegramClient(bot_token="123:abc", chat_id="456", enabled=True)
        handler = TelegramCommandHandler(client)
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
        mock_resp.__aexit__ = AsyncMock(return_value=False)
        async def mock_status_error() -> None:
            """Mock /status handler with error."""
            await client.send_message(
                "<b>⚠️ Error</b>\n\nFailed to retrieve trading status."
            )
        handler.register_command("status", mock_status_error)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp) as mock_post:
            update = {
                "update_id": 1,
                "message": {
                    "chat": {"id": 456},
                    "text": "/status",
                },
            }
            await handler._handle_update(update)
            # Should send error message
            payload = mock_post.call_args.kwargs["json"]
            assert "Error" in payload["text"]
    @pytest.mark.asyncio
    async def test_positions_command_shows_holdings(self) -> None:
        """Positions command displays account summary."""
        client = TelegramClient(bot_token="123:abc", chat_id="456", enabled=True)
        handler = TelegramCommandHandler(client)
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
        mock_resp.__aexit__ = AsyncMock(return_value=False)
        async def mock_positions() -> None:
            """Mock /positions handler."""
            message = (
                "<b>💼 Account Summary</b>\n\n"
                "<b>Total Evaluation:</b> ₩10,500,000\n"
                "<b>Available Cash:</b> ₩5,000,000\n"
                "<b>Purchase Total:</b> ₩10,000,000\n"
                "<b>P&L:</b> +5.00%\n\n"
                "<i>Note: Individual position details require API enhancement</i>"
            )
            await client.send_message(message)
        handler.register_command("positions", mock_positions)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp) as mock_post:
            update = {
                "update_id": 1,
                "message": {
                    "chat": {"id": 456},
                    "text": "/positions",
                },
            }
            await handler._handle_update(update)
            # Verify message was sent
            assert mock_post.call_count == 1
            payload = mock_post.call_args.kwargs["json"]
            assert "Account Summary" in payload["text"]
            assert "Total Evaluation" in payload["text"]
            assert "P&L" in payload["text"]
    @pytest.mark.asyncio
    async def test_positions_command_empty_holdings(self) -> None:
        """Positions command handles empty portfolio."""
        client = TelegramClient(bot_token="123:abc", chat_id="456", enabled=True)
        handler = TelegramCommandHandler(client)
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
        mock_resp.__aexit__ = AsyncMock(return_value=False)
        async def mock_positions_empty() -> None:
            """Mock /positions handler with no positions."""
            message = (
                "<b>💼 Account Summary</b>\n\n"
                "No balance information available."
            )
            await client.send_message(message)
        handler.register_command("positions", mock_positions_empty)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp) as mock_post:
            update = {
                "update_id": 1,
                "message": {
                    "chat": {"id": 456},
                    "text": "/positions",
                },
            }
            await handler._handle_update(update)
            # Verify message was sent
            payload = mock_post.call_args.kwargs["json"]
            assert "No balance information available" in payload["text"]
    @pytest.mark.asyncio
    async def test_positions_command_error_handling(self) -> None:
        """Positions command handles errors gracefully."""
        client = TelegramClient(bot_token="123:abc", chat_id="456", enabled=True)
        handler = TelegramCommandHandler(client)
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
        mock_resp.__aexit__ = AsyncMock(return_value=False)
        async def mock_positions_error() -> None:
            """Mock /positions handler with error."""
            await client.send_message(
                "<b>⚠️ Error</b>\n\nFailed to retrieve positions."
            )
        handler.register_command("positions", mock_positions_error)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp) as mock_post:
            update = {
                "update_id": 1,
                "message": {
                    "chat": {"id": 456},
                    "text": "/positions",
                },
            }
            await handler._handle_update(update)
            # Should send error message
            payload = mock_post.call_args.kwargs["json"]
            assert "Error" in payload["text"]
 class TestBasicCommands:
    """Test basic command implementations."""
    @pytest.mark.asyncio
    async def test_help_command_content(self) -> None:
        """Help command lists all available commands."""
        client = TelegramClient(bot_token="123:abc", chat_id="456", enabled=True)
        handler = TelegramCommandHandler(client)
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
        mock_resp.__aexit__ = AsyncMock(return_value=False)
        async def mock_help() -> None:
            """Mock /help handler."""
            message = (
                "<b>📖 Available Commands</b>\n\n"
                "/help - Show available commands\n"
                "/status - Trading status (mode, markets, P&L)\n"
                "/positions - Current holdings\n"
                "/stop - Pause trading\n"
                "/resume - Resume trading"
            )
            await client.send_message(message)
        handler.register_command("help", mock_help)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp) as mock_post:
            update = {
                "update_id": 1,
                "message": {
                    "chat": {"id": 456},
                    "text": "/help",
                },
            }
            await handler._handle_update(update)
            # Verify message was sent
            assert mock_post.call_count == 1
            payload = mock_post.call_args.kwargs["json"]
            assert "Available Commands" in payload["text"]
            assert "/help" in payload["text"]
            assert "/status" in payload["text"]
            assert "/positions" in payload["text"]
            assert "/stop" in payload["text"]
            assert "/resume" in payload["text"]
 class TestGetUpdates:
    """Test getUpdates API interaction."""
    @pytest.mark.asyncio
    async def test_get_updates_success(self) -> None:
        """getUpdates fetches and parses updates."""
        client = TelegramClient(bot_token="123:abc", chat_id="456", enabled=True)
        handler = TelegramCommandHandler(client)
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.json = AsyncMock(
            return_value={
                "ok": True,
                "result": [
                    {"update_id": 1, "message": {"text": "/test"}},
                    {"update_id": 2, "message": {"text": "/help"}},
                ],
            }
        )
        mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
        mock_resp.__aexit__ = AsyncMock(return_value=False)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp):
            updates = await handler._get_updates()
            assert len(updates) == 2
            assert updates[0]["update_id"] == 1
            assert updates[1]["update_id"] == 2
            assert handler._last_update_id == 2
    @pytest.mark.asyncio
    async def test_get_updates_api_error(self) -> None:
        """getUpdates handles API errors gracefully."""
        client = TelegramClient(bot_token="123:abc", chat_id="456", enabled=True)
        handler = TelegramCommandHandler(client)
        mock_resp = AsyncMock()
        mock_resp.status = 400
        mock_resp.text = AsyncMock(return_value="Bad Request")
        mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
        mock_resp.__aexit__ = AsyncMock(return_value=False)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp):
            updates = await handler._get_updates()
            assert updates == []
    @pytest.mark.asyncio
    async def test_get_updates_empty_result(self) -> None:
        """getUpdates handles empty results."""
        client = TelegramClient(bot_token="123:abc", chat_id="456", enabled=True)
        handler = TelegramCommandHandler(client)
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.json = AsyncMock(return_value={"ok": True, "result": []})
        mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
        mock_resp.__aexit__ = AsyncMock(return_value=False)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp):
            updates = await handler._get_updates()
            assert updates == []
--- a/tests/test_volatility.py
+++ b/tests/test_volatility.py
@@ -2,6 +2,7 @@
 from __future__ import annotations
 import asyncio
 import sqlite3
 from typing import Any
 from unittest.mock import AsyncMock
@@ -338,6 +339,28 @@ class TestMarketScanner:
        assert metrics.stock_code == "AAPL"
        assert metrics.current_price == 150.50
    @pytest.mark.asyncio
    async def test_scan_stock_overseas_empty_price(
        self,
        scanner: MarketScanner,
        mock_overseas_broker: OverseasBroker,
        context_store: ContextStore,
    ) -> None:
        """Test scanning overseas stock with empty price string (issue #49)."""
        mock_overseas_broker.get_overseas_price.return_value = {
            "output": {
                "last": "",  # Empty string
                "tvol": "",  # Empty string
            }
        }
        market = MARKETS["US_NASDAQ"]
        metrics = await scanner.scan_stock("AAPL", market)
        assert metrics is not None
        assert metrics.stock_code == "AAPL"
        assert metrics.current_price == 0.0  # Should default to 0.0
    @pytest.mark.asyncio
    async def test_scan_stock_error_handling(
        self,
@@ -509,3 +532,45 @@ class TestMarketScanner:
        new_additions = [code for code in updated if code not in current_watchlist]
        assert len(new_additions) <= 1
        assert len(updated) == len(current_watchlist)
    @pytest.mark.asyncio
    async def test_scan_market_respects_concurrency_limit(
        self,
        mock_broker: KISBroker,
        mock_overseas_broker: OverseasBroker,
        volatility_analyzer: VolatilityAnalyzer,
        context_store: ContextStore,
    ) -> None:
        """scan_market should limit concurrent scans to max_concurrent_scans."""
        max_concurrent = 2
        scanner = MarketScanner(
            broker=mock_broker,
            overseas_broker=mock_overseas_broker,
            volatility_analyzer=volatility_analyzer,
            context_store=context_store,
            top_n=5,
            max_concurrent_scans=max_concurrent,
        )
        # Track peak concurrency
        active_count = 0
        peak_count = 0
        original_scan = scanner.scan_stock
        async def tracking_scan(code: str, market: Any) -> VolatilityMetrics:
            nonlocal active_count, peak_count
            active_count += 1
            peak_count = max(peak_count, active_count)
            await asyncio.sleep(0.05)  # Simulate API call duration
            active_count -= 1
            return VolatilityMetrics(code, 50000, 500, 1.0, 1.0, 1.0, 1.0, 10.0, 50.0)
        scanner.scan_stock = tracking_scan  # type: ignore[method-assign]
        market = MARKETS["KR"]
        stock_codes = ["001", "002", "003", "004", "005", "006"]
        await scanner.scan_market(market, stock_codes)
        assert peak_count <= max_concurrent