fix: correct TR_ID, path, and params for fetch_market_rankings (#155 )

Three bugs found by comparing against KIS official GitHub examples: 1. FID_COND_SCR_DIV_CODE: "20001" → "20171" (volume-rank screen code) 2. FID_TRGT_EXLS_CLS_CODE: "000000" (6-digit) → "0000000000" (10-digit) 3. fluctuation ranking: - TR_ID: "FHPST01710100" (invalid) → "FHPST01700000" - path: /quotations/volume-rank → /ranking/fluctuation - params: volume-rank params → lowercase fluctuation-specific params (fid_rank_sort_cls_code, fid_input_cnt_1, fid_prc_cls_code, fid_rsfl_rate1, fid_rsfl_rate2, etc.) Note: VTS (paper trading) does not return data from ranking APIs regardless of parameter correctness — this is a KIS policy restriction, not a code bug. These fixes ensure correct behavior when switching to a live account. Tests: TestFetchMarketRankings (3 tests) added to test_broker.py Closes #155 Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
Merge pull request 'fix: overseas order rt_cd check + limit price premium + paper cash fallback (#151 )' (#152 ) from feature/issue-151-overseas-order-fixes into main
2026-02-19 10:25:38 +09:00 · 2026-02-19 06:01:54 +09:00 · 2026-02-19 05:58:15 +09:00 · 2026-02-19 05:50:31 +09:00 · 2026-02-19 05:49:38 +09:00 · 2026-02-18 23:54:18 +09:00
20 changed files with 2701 additions and 349 deletions
--- a/docs/architecture.md
+++ b/docs/architecture.md
@@ -69,6 +69,10 @@ High-frequency trading with individual stock analysis:
 - `get_next_market_open()` finds next market to open and when
 - 10 global markets defined (KR, US_NASDAQ, US_NYSE, US_AMEX, JP, HK, CN_SHA, CN_SZA, VN_HNX, VN_HSX)
 **Overseas Ranking API Methods** (added in v0.10.x):
 - `fetch_overseas_rankings()` — Fetch overseas ranking universe (fluctuation / volume)
 - Ranking endpoint paths and TR_IDs are configurable via environment variables
 ### 2. Analysis (`src/analysis/`)
 **VolatilityAnalyzer** (`volatility.py`) — Technical indicator calculations
@@ -82,16 +86,25 @@ High-frequency trading with individual stock analysis:
 **SmartVolatilityScanner** (`smart_scanner.py`) — Python-first filtering pipeline
- **Step 1**: Fetch volume rankings from KIS API (top 30 stocks)
+- **Domestic (KR)**:
- **Step 2**: Calculate RSI and volume ratio for each stock
+  - **Step 1**: Fetch domestic fluctuation ranking as primary universe
- **Step 3**: Apply filters:
+  - **Step 2**: Fetch domestic volume ranking for liquidity bonus
-  - Volume ratio >= `VOL_MULTIPLIER` (default 2.0x previous day)
+  - **Step 3**: Compute volatility-first score (max of daily change% and intraday range%)
-  - RSI < `RSI_OVERSOLD_THRESHOLD` (30) OR RSI > `RSI_MOMENTUM_THRESHOLD` (70)
+  - **Step 4**: Apply liquidity bonus and return top N candidates
- **Step 4**: Score candidates by RSI extremity (60%) + volume surge (40%)
+- **Overseas (US/JP/HK/CN/VN)**:
- **Step 5**: Return top N candidates (default 3) for AI analysis
+  - **Step 1**: Fetch overseas ranking universe (fluctuation rank + volume rank bonus)
- **Fallback**: Uses static watchlist if ranking API unavailable
+  - **Step 2**: Compute volatility-first score (max of daily change% and intraday range%)
  - **Step 3**: Apply liquidity bonus from volume ranking
  - **Step 4**: Return top N candidates (default 3)
 - **Fallback (overseas only)**: If ranking API is unavailable, uses dynamic universe
  from runtime active symbols + recent traded symbols + current holdings (no static watchlist)
 - **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-compatible proxy, volume_ratio, signal, score) for Evolution system
 ### 3. Brain (`src/brain/`)
 **GeminiClient** (`gemini_client.py`) — AI decision engine powered by Google Gemini
@@ -363,11 +376,13 @@ High-frequency trading with individual stock analysis:
                           │
                           ▼
        ┌──────────────────────────────────┐
-        │ Smart Scanner (Python-first)     │
+        │ Smart Scanner (Python-first)      │
-        │ - Fetch volume rankings (KIS)    │
+        │ - Domestic: fluctuation rank     │
-        │ - Get 20d price history per stock│
+        │   + volume rank bonus            │
-        │ - Calculate RSI(14) + vol ratio  │
+        │   + volatility-first scoring     │
-        │ - Filter: vol>2x AND RSI extreme │
+        │ - Overseas: ranking universe     │
        │   + volatility-first scoring     │
        │ - Fallback: dynamic universe     │
        │ - Return top 3 qualified stocks  │
        └──────────────────┬───────────────┘
                           │
@@ -568,6 +583,25 @@ S3_REGION=...
 NEWS_API_KEY=...
 NEWS_API_PROVIDER=...
 MARKET_DATA_API_KEY=...
 # Position Sizing (optional)
 POSITION_SIZING_ENABLED=true
 POSITION_BASE_ALLOCATION_PCT=5.0
 POSITION_MIN_ALLOCATION_PCT=1.0
 POSITION_MAX_ALLOCATION_PCT=10.0
 POSITION_VOLATILITY_TARGET_SCORE=50.0
 # Legacy/compat scanner thresholds (kept for backward compatibility)
 RSI_OVERSOLD_THRESHOLD=30
 RSI_MOMENTUM_THRESHOLD=70
 VOL_MULTIPLIER=2.0
 # Overseas Ranking API (optional override; account-dependent)
 OVERSEAS_RANKING_ENABLED=true
 OVERSEAS_RANKING_FLUCT_TR_ID=HHDFS76200100
 OVERSEAS_RANKING_VOLUME_TR_ID=HHDFS76200200
 OVERSEAS_RANKING_FLUCT_PATH=/uapi/overseas-price/v1/quotations/inquire-updown-rank
 OVERSEAS_RANKING_VOLUME_PATH=/uapi/overseas-price/v1/quotations/inquire-volume-rank
 ```
 Tests use in-memory SQLite (`DB_PATH=":memory:"`) and dummy credentials via `tests/conftest.py`.
--- a/docs/requirements-log.md
+++ b/docs/requirements-log.md
@@ -111,3 +111,158 @@
 - 이전 시도(2개 커밋)는 기존 내용을 과도하게 삭제하여 폐기, main 기준으로 재작업
 **이슈/PR:** #131, PR #134
 ### 해외 스캐너 개선: 랭킹 연동 + 변동성 우선 선별
 **배경:**
 - `run_overnight` 실운영에서 미국장 동안 거래가 0건 지속
 - 원인: 해외 시장에서도 국내 랭킹/일봉 API 경로를 사용하던 구조적 불일치
 **요구사항:**
 1. 해외 시장도 랭킹 API 기반 유니버스 탐색 지원
 2. 단순 상승률/거래대금 상위가 아니라, **변동성이 큰 종목**을 우선 선별
 3. 고정 티커 fallback 금지
 **구현 결과:**
 - `src/broker/overseas.py`
  - `fetch_overseas_rankings()` 추가 (fluctuation / volume)
  - 해외 랭킹 API 경로/TR_ID를 설정값으로 오버라이드 가능하게 구현
 - `src/analysis/smart_scanner.py`
  - market-aware 스캔(국내/해외 분리)
  - 해외: 랭킹 API 유니버스 + 변동성 우선 점수(일변동률 vs 장중 고저폭)
  - 거래대금/거래량 랭킹은 유동성 보정 점수로 활용
  - 랭킹 실패 시에는 동적 유니버스(active/recent/holdings)만 사용
 - `src/config.py`
  - `OVERSEAS_RANKING_*` 설정 추가
 **효과:**
 - 해외 시장에서 스캐너 후보 0개로 정지되는 상황 완화
 - 종목 선정 기준이 단순 상승률 중심에서 변동성 중심으로 개선
 - 고정 티커 없이도 시장 주도 변동 종목 탐지 가능
 ### 국내 스캐너/주문수량 정렬: 변동성 우선 + 리스크 타기팅
 **배경:**
 - 해외만 변동성 우선으로 동작하고, 국내는 RSI/거래량 필터 중심으로 동작해 시장 간 전략 일관성이 낮았음
 - 매수 수량이 고정 1주라서 변동성 구간별 익스포저 관리가 어려웠음
 **요구사항:**
 1. 국내 스캐너도 변동성 우선 선별로 해외와 통일
 2. 고변동 종목일수록 포지션 크기를 줄이는 수량 산식 적용
 **구현 결과:**
 - `src/analysis/smart_scanner.py`
  - 국내: `fluctuation ranking + volume ranking bonus` 기반 점수화로 전환
  - 점수는 `max(abs(change_rate), intraday_range_pct)` 중심으로 계산
  - 국내 랭킹 응답 스키마 키(`price`, `change_rate`, `volume`) 파싱 보강
 - `src/main.py`
  - `_determine_order_quantity()` 추가
  - BUY 시 변동성 점수 기반 동적 수량 산정 적용
  - `trading_cycle`, `run_daily_session` 경로 모두 동일 수량 로직 사용
 - `src/config.py`
  - `POSITION_SIZING_*` 설정 추가
 **효과:**
 - 국내/해외 스캐너 기준이 변동성 중심으로 일관화
 - 고변동 구간에서 자동 익스포저 축소, 저변동 구간에서 과소진입 완화
 ## 2026-02-18
 ### KIS 해외 랭킹 API 404 에러 수정
 **배경:**
 - KIS 해외주식 랭킹 API(`fetch_overseas_rankings`)가 모든 거래소에서 HTTP 404를 반환
 - Smart Scanner가 해외 시장 후보 종목을 찾지 못해 거래가 전혀 실행되지 않음
 **근본 원인:**
 - TR_ID, API 경로, 거래소 코드가 모두 KIS 공식 문서와 불일치
 **구현 결과:**
 - `src/config.py`: TR_ID/Path 기본값을 KIS 공식 스펙으로 수정
 - `src/broker/overseas.py`: 랭킹 API 전용 거래소 코드 매핑 추가 (NASD→NAS, NYSE→NYS, AMEX→AMS), 올바른 API 파라미터 사용
 - `tests/test_overseas_broker.py`: 19개 단위 테스트 추가
 **효과:**
 - 해외 시장 랭킹 스캔이 정상 동작하여 Smart Scanner가 후보 종목 탐지 가능
 ### Gemini prompt_override 미적용 버그 수정
 **배경:**
 - `run_overnight` 실행 시 모든 시장에서 Playbook 생성 실패 (`JSONDecodeError`)
 - defensive playbook으로 폴백되어 모든 종목이 HOLD 처리
 **근본 원인:**
 - `pre_market_planner.py`가 `market_data["prompt_override"]`에 Playbook 전용 프롬프트를 넣어 `gemini.decide()` 호출
 - `gemini_client.py`의 `decide()` 메서드가 `prompt_override` 키를 전혀 확인하지 않고 항상 일반 트레이드 결정 프롬프트 생성
 - Gemini가 Playbook JSON 대신 일반 트레이드 결정을 반환하여 파싱 실패
 **구현 결과:**
 - `src/brain/gemini_client.py`: `decide()` 메서드에서 `prompt_override` 우선 사용 로직 추가
 - `tests/test_brain.py`: 3개 테스트 추가 (override 전달, optimization 우회, 미지정 시 기존 동작 유지)
 **이슈/PR:** #143
 ### 미국장 거래 미실행 근본 원인 분석 및 수정 (자율 실행 세션)
 **배경:**
 - 사용자 요청: "미국장 열면 프로그램 돌려서 거래 한 번도 못 한 거 꼭 원인 찾아서 해결해줘"
 - 프로그램을 미국장 개장(9:30 AM EST) 전부터 실행하여 실시간 로그를 분석
 **발견된 근본 원인 #1: Defensive Playbook — BUY 조건 없음**
 - Gemini free tier (20 RPD) 소진 → `generate_playbook()` 실패 → `_defensive_playbook()` 폴백
 - Defensive playbook은 `price_change_pct_below: -3.0 → SELL` 조건만 존재, BUY 조건 없음
 - ScenarioEngine이 항상 HOLD 반환 → 거래 0건
 **수정 #1 (PR #146, Issue #145):**
 - `src/strategy/pre_market_planner.py`: `_smart_fallback_playbook()` 메서드 추가
  - 스캐너 signal 기반 BUY 조건 생성: `momentum → volume_ratio_above`, `oversold → rsi_below`
  - 기존 defensive stop-loss SELL 조건 유지
 - Gemini 실패 시 defensive → smart fallback으로 전환
 - 테스트 10개 추가
 **발견된 근본 원인 #2: 가격 API 거래소 코드 불일치 + VTS 잔고 API 오류**
 실제 로그:
 ```
 Scenario matched for MRNX: BUY (confidence=80)  ✓
 Decision for EWUS (NYSE American): BUY (confidence=80)  ✓
 Skip BUY APLZ (NYSE American): no affordable quantity (cash=0.00, price=0.00)  ✗
 ```
 - `get_overseas_price()`: `NASD`/`NYSE`/`AMEX` 전송 → API가 `NAS`/`NYS`/`AMS` 기대 → 빈 응답 → `price=0`
 - `VTTS3012R` 잔고 API: "ERROR : INPUT INVALID_CHECK_ACNO" → `total_cash=0`
 - 결과: `_determine_order_quantity()` 가 0 반환 → 주문 건너뜀
 **수정 #2 (PR #148, Issue #147):**
 - `src/broker/overseas.py`: `_PRICE_EXCHANGE_MAP = _RANKING_EXCHANGE_MAP` 추가, 가격 API에 매핑 적용
 - `src/config.py`: `PAPER_OVERSEAS_CASH: float = Field(default=50000.0)` — paper 모드 시뮬레이션 잔고
 - `src/main.py`: 잔고 0일 때 PAPER_OVERSEAS_CASH 폴백, 가격 0일 때 candidate.price 폴백
 - 테스트 8개 추가
 **효과:**
 - BUY 결정 → 실제 주문 전송까지의 파이프라인이 완전히 동작
 - Paper 모드에서 KIS VTS 해외 잔고 API 오류에 관계없이 시뮬레이션 거래 가능
 **이슈/PR:** #145, #146, #147, #148
 ### 해외주식 시장가 주문 거부 수정 (Fix #3, 연속 발견)
 **배경:**
 - Fix #147 적용 후 주문 전송 시작 → KIS VTS가 거부: "지정가만 가능한 상품입니다"
 **근본 원인:**
 - `trading_cycle()`, `run_daily_session()` 양쪽에서 `send_overseas_order(price=0.0)` 하드코딩
 - `price=0` → `ORD_DVSN="01"` (시장가) 전송 → KIS VTS 거부
 - Fix #147에서 이미 `current_price`를 올바르게 계산했으나 주문 시 미사용
 **구현 결과:**
 - `src/main.py`: 두 곳에서 `price=0.0` → `price=current_price`/`price=stock_data["current_price"]`
 - `tests/test_main.py`: 회귀 테스트 `test_overseas_buy_order_uses_limit_price` 추가
 **최종 확인 로그:**
 ```
 Order result: 모의투자 매수주문이 완료 되었습니다.  ✓
 ```
 **이슈/PR:** #149, #150
--- a/scripts/morning_report.sh
+++ b/scripts/morning_report.sh
@@ -0,0 +1,54 @@
 #!/usr/bin/env bash
 # Morning summary for overnight run logs.
 set -euo pipefail
 LOG_DIR="${LOG_DIR:-data/overnight}"
 if [ ! -d "$LOG_DIR" ]; then
    echo "로그 디렉터리가 없습니다: $LOG_DIR"
    exit 1
 fi
 latest_run="$(ls -1t "$LOG_DIR"/run_*.log 2>/dev/null | head -n 1 || true)"
 latest_watchdog="$(ls -1t "$LOG_DIR"/watchdog_*.log 2>/dev/null | head -n 1 || true)"
 if [ -z "$latest_run" ]; then
    echo "run 로그가 없습니다: $LOG_DIR/run_*.log"
    exit 1
 fi
 echo "Overnight report"
 echo "- run log: $latest_run"
 if [ -n "$latest_watchdog" ]; then
    echo "- watchdog log: $latest_watchdog"
 fi
 start_line="$(head -n 1 "$latest_run" || true)"
 end_line="$(tail -n 1 "$latest_run" || true)"
 info_count="$(rg -c '"level": "INFO"' "$latest_run" || true)"
 warn_count="$(rg -c '"level": "WARNING"' "$latest_run" || true)"
 error_count="$(rg -c '"level": "ERROR"' "$latest_run" || true)"
 critical_count="$(rg -c '"level": "CRITICAL"' "$latest_run" || true)"
 traceback_count="$(rg -c 'Traceback' "$latest_run" || true)"
 echo "- start: ${start_line:-N/A}"
 echo "- end:   ${end_line:-N/A}"
 echo "- INFO: ${info_count:-0}"
 echo "- WARNING: ${warn_count:-0}"
 echo "- ERROR: ${error_count:-0}"
 echo "- CRITICAL: ${critical_count:-0}"
 echo "- Traceback: ${traceback_count:-0}"
 if [ -n "$latest_watchdog" ]; then
    watchdog_errors="$(rg -c '\[ERROR\]' "$latest_watchdog" || true)"
    echo "- watchdog ERROR: ${watchdog_errors:-0}"
    echo ""
    echo "최근 watchdog 로그:"
    tail -n 5 "$latest_watchdog" || true
 fi
 echo ""
 echo "최근 앱 로그:"
 tail -n 20 "$latest_run" || true
--- a/scripts/run_overnight.sh
+++ b/scripts/run_overnight.sh
@@ -0,0 +1,87 @@
 #!/usr/bin/env bash
 # Start The Ouroboros overnight with logs and watchdog.
 set -euo pipefail
 LOG_DIR="${LOG_DIR:-data/overnight}"
 CHECK_INTERVAL="${CHECK_INTERVAL:-30}"
 TMUX_AUTO="${TMUX_AUTO:-true}"
 TMUX_ATTACH="${TMUX_ATTACH:-true}"
 TMUX_SESSION_PREFIX="${TMUX_SESSION_PREFIX:-ouroboros_overnight}"
 if [ -z "${APP_CMD:-}" ]; then
    if [ -x ".venv/bin/python" ]; then
        PYTHON_BIN=".venv/bin/python"
    elif command -v python3 >/dev/null 2>&1; then
        PYTHON_BIN="python3"
    elif command -v python >/dev/null 2>&1; then
        PYTHON_BIN="python"
    else
        echo ".venv/bin/python 또는 python3/python 실행 파일을 찾을 수 없습니다."
        exit 1
    fi
    dashboard_port="${DASHBOARD_PORT:-8080}"
    APP_CMD="DASHBOARD_PORT=$dashboard_port $PYTHON_BIN -m src.main --mode=paper --dashboard"
 fi
 mkdir -p "$LOG_DIR"
 timestamp="$(date +"%Y%m%d_%H%M%S")"
 RUN_LOG="$LOG_DIR/run_${timestamp}.log"
 WATCHDOG_LOG="$LOG_DIR/watchdog_${timestamp}.log"
 PID_FILE="$LOG_DIR/app.pid"
 WATCHDOG_PID_FILE="$LOG_DIR/watchdog.pid"
 if [ -f "$PID_FILE" ]; then
    old_pid="$(cat "$PID_FILE" || true)"
    if [ -n "$old_pid" ] && kill -0 "$old_pid" 2>/dev/null; then
        echo "앱이 이미 실행 중입니다. pid=$old_pid"
        exit 1
    fi
 fi
 echo "[$(date -u +"%Y-%m-%dT%H:%M:%SZ")] starting: $APP_CMD" | tee -a "$RUN_LOG"
 nohup bash -lc "$APP_CMD" >>"$RUN_LOG" 2>&1 &
 app_pid=$!
 echo "$app_pid" > "$PID_FILE"
 echo "[$(date -u +"%Y-%m-%dT%H:%M:%SZ")] app pid=$app_pid" | tee -a "$RUN_LOG"
 nohup env PID_FILE="$PID_FILE" LOG_FILE="$WATCHDOG_LOG" CHECK_INTERVAL="$CHECK_INTERVAL" \
    bash scripts/watchdog.sh >/dev/null 2>&1 &
 watchdog_pid=$!
 echo "$watchdog_pid" > "$WATCHDOG_PID_FILE"
 cat <<EOF
 시작 완료
 - app pid: $app_pid
 - watchdog pid: $watchdog_pid
 - app log: $RUN_LOG
 - watchdog log: $WATCHDOG_LOG
 실시간 확인:
 tail -f "$RUN_LOG"
 tail -f "$WATCHDOG_LOG"
 EOF
 if [ "$TMUX_AUTO" = "true" ]; then
    if ! command -v tmux >/dev/null 2>&1; then
        echo "tmux를 찾지 못해 자동 세션 생성은 건너뜁니다."
        exit 0
    fi
    session_name="${TMUX_SESSION_PREFIX}_${timestamp}"
    window_name="overnight"
    tmux new-session -d -s "$session_name" -n "$window_name" "tail -f '$RUN_LOG'"
    tmux split-window -t "${session_name}:${window_name}" -v "tail -f '$WATCHDOG_LOG'"
    tmux select-layout -t "${session_name}:${window_name}" even-vertical
    echo "tmux session 생성: $session_name"
    echo "수동 접속: tmux attach -t $session_name"
    if [ -z "${TMUX:-}" ] && [ "$TMUX_ATTACH" = "true" ]; then
        tmux attach -t "$session_name"
    fi
 fi
--- a/scripts/stop_overnight.sh
+++ b/scripts/stop_overnight.sh
@@ -0,0 +1,76 @@
 #!/usr/bin/env bash
 # Stop The Ouroboros overnight app/watchdog/tmux session.
 set -euo pipefail
 LOG_DIR="${LOG_DIR:-data/overnight}"
 PID_FILE="$LOG_DIR/app.pid"
 WATCHDOG_PID_FILE="$LOG_DIR/watchdog.pid"
 TMUX_SESSION_PREFIX="${TMUX_SESSION_PREFIX:-ouroboros_overnight}"
 KILL_TIMEOUT="${KILL_TIMEOUT:-5}"
 stop_pid() {
    local name="$1"
    local pid="$2"
    if [ -z "$pid" ]; then
        echo "$name PID가 비어 있습니다."
        return 1
    fi
    if ! kill -0 "$pid" 2>/dev/null; then
        echo "$name 프로세스가 이미 종료됨 (pid=$pid)"
        return 0
    fi
    kill "$pid" 2>/dev/null || true
    for _ in $(seq 1 "$KILL_TIMEOUT"); do
        if ! kill -0 "$pid" 2>/dev/null; then
            echo "$name 종료됨 (pid=$pid)"
            return 0
        fi
        sleep 1
    done
    kill -9 "$pid" 2>/dev/null || true
    if ! kill -0 "$pid" 2>/dev/null; then
        echo "$name 강제 종료됨 (pid=$pid)"
        return 0
    fi
    echo "$name 종료 실패 (pid=$pid)"
    return 1
 }
 status=0
 if [ -f "$WATCHDOG_PID_FILE" ]; then
    watchdog_pid="$(cat "$WATCHDOG_PID_FILE" || true)"
    stop_pid "watchdog" "$watchdog_pid" || status=1
    rm -f "$WATCHDOG_PID_FILE"
 else
    echo "watchdog pid 파일 없음: $WATCHDOG_PID_FILE"
 fi
 if [ -f "$PID_FILE" ]; then
    app_pid="$(cat "$PID_FILE" || true)"
    stop_pid "app" "$app_pid" || status=1
    rm -f "$PID_FILE"
 else
    echo "app pid 파일 없음: $PID_FILE"
 fi
 if command -v tmux >/dev/null 2>&1; then
    sessions="$(tmux ls 2>/dev/null | awk -F: -v p="$TMUX_SESSION_PREFIX" '$1 ~ "^" p "_" {print $1}')"
    if [ -n "$sessions" ]; then
        while IFS= read -r s; do
            [ -z "$s" ] && continue
            tmux kill-session -t "$s" 2>/dev/null || true
            echo "tmux 세션 종료: $s"
        done <<< "$sessions"
    else
        echo "종료할 tmux 세션 없음 (prefix=${TMUX_SESSION_PREFIX}_)"
    fi
 fi
 exit "$status"
--- a/scripts/watchdog.sh
+++ b/scripts/watchdog.sh
@@ -0,0 +1,42 @@
 #!/usr/bin/env bash
 # Simple watchdog for The Ouroboros process.
 set -euo pipefail
 PID_FILE="${PID_FILE:-data/overnight/app.pid}"
 LOG_FILE="${LOG_FILE:-data/overnight/watchdog.log}"
 CHECK_INTERVAL="${CHECK_INTERVAL:-30}"
 STATUS_EVERY="${STATUS_EVERY:-10}"
 mkdir -p "$(dirname "$LOG_FILE")"
 log() {
    printf '%s %s\n' "$(date -u +"%Y-%m-%dT%H:%M:%SZ")" "$1" | tee -a "$LOG_FILE"
 }
 if [ ! -f "$PID_FILE" ]; then
    log "[ERROR] pid file not found: $PID_FILE"
    exit 1
 fi
 PID="$(cat "$PID_FILE")"
 if [ -z "$PID" ]; then
    log "[ERROR] pid file is empty: $PID_FILE"
    exit 1
 fi
 log "[INFO] watchdog started (pid=$PID, interval=${CHECK_INTERVAL}s)"
 count=0
 while true; do
    if kill -0 "$PID" 2>/dev/null; then
        count=$((count + 1))
        if [ $((count % STATUS_EVERY)) -eq 0 ]; then
            log "[INFO] process alive (pid=$PID)"
        fi
    else
        log "[ERROR] process stopped (pid=$PID)"
        exit 1
    fi
    sleep "$CHECK_INTERVAL"
 done
--- a/src/analysis/smart_scanner.py
+++ b/src/analysis/smart_scanner.py
@@ -1,8 +1,4 @@
-"""Smart Volatility Scanner with RSI and volume filters.
+"""Smart Volatility Scanner with volatility-first market ranking logic."""
 Fetches market rankings from KIS API and applies technical filters
 to identify high-probability trading candidates.
 """
 from __future__ import annotations
@@ -12,7 +8,9 @@ from typing import Any
 from src.analysis.volatility import VolatilityAnalyzer
 from src.broker.kis_api import KISBroker
 from src.broker.overseas import OverseasBroker
 from src.config import Settings
 from src.markets.schedule import MarketInfo
 logger = logging.getLogger(__name__)
@@ -32,19 +30,19 @@ class ScanCandidate:
 class SmartVolatilityScanner:
-    """Scans market rankings and applies RSI/volume filters.
+    """Scans market rankings and applies volatility-first filters.
    Flow:
-    1. Fetch volume rankings from KIS API
+    1. Fetch fluctuation rankings as primary universe
-    2. For each ranked stock, fetch daily prices
+    2. Fetch volume rankings for liquidity bonus
-    3. Calculate RSI and volume ratio
+    3. Score by volatility first, liquidity second
-    4. Apply filters: volume > VOL_MULTIPLIER AND (RSI < 30 OR RSI > 70)
+    4. Return top N qualified candidates
    5. Return top N qualified candidates
    """
    def __init__(
        self,
        broker: KISBroker,
        overseas_broker: OverseasBroker | None,
        volatility_analyzer: VolatilityAnalyzer,
        settings: Settings,
    ) -> None:
@@ -56,6 +54,7 @@ class SmartVolatilityScanner:
            settings: Application settings
        """
        self.broker = broker
        self.overseas_broker = overseas_broker
        self.analyzer = volatility_analyzer
        self.settings = settings
@@ -67,107 +66,129 @@ class SmartVolatilityScanner:
    async def scan(
        self,
        market: MarketInfo | None = None,
        fallback_stocks: list[str] | None = None,
    ) -> list[ScanCandidate]:
        """Execute smart scan and return qualified candidates.
        Args:
            market: Target market info (domestic vs overseas behavior)
            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
+        if market and not market.is_domestic:
            return await self._scan_overseas(market, fallback_stocks)
        return await self._scan_domestic(fallback_stocks)
    async def _scan_domestic(
        self,
        fallback_stocks: list[str] | None = None,
    ) -> list[ScanCandidate]:
        """Scan domestic market using volatility-first ranking + liquidity bonus."""
        # 1) Primary universe from fluctuation ranking.
        try:
-            rankings = await self.broker.fetch_market_rankings(
+            fluct_rows = await self.broker.fetch_market_rankings(
-                ranking_type="volume",
+                ranking_type="fluctuation",
-                limit=30,  # Fetch more than needed for filtering
+                limit=50,
            )
            logger.info("Fetched %d stocks from volume rankings", len(rankings))
        except ConnectionError as exc:
-            logger.warning("Ranking API failed, using fallback: %s", exc)
+            logger.warning("Domestic fluctuation ranking failed: %s", exc)
-            if fallback_stocks:
+            fluct_rows = []
-                # Create minimal ranking data for fallback
+
-                rankings = [
+        # 2) Liquidity bonus from volume ranking.
-                    {
+        try:
-                        "stock_code": code,
+            volume_rows = await self.broker.fetch_market_rankings(
-                        "name": code,
+                ranking_type="volume",
-                        "price": 0,
+                limit=50,
-                        "volume": 0,
+            )
-                        "change_rate": 0,
+        except ConnectionError as exc:
-                        "volume_increase_rate": 0,
+            logger.warning("Domestic volume ranking failed: %s", exc)
-                    }
+            volume_rows = []
-                    for code in fallback_stocks
+
-                ]
+        if not fluct_rows and fallback_stocks:
-            else:
+            logger.info(
-                return []
+                "Domestic ranking unavailable; using fallback symbols (%d)",
                len(fallback_stocks),
            )
            fluct_rows = [
                {
                    "stock_code": code,
                    "name": code,
                    "price": 0.0,
                    "volume": 0.0,
                    "change_rate": 0.0,
                    "volume_increase_rate": 0.0,
                }
                for code in fallback_stocks
            ]
        if not fluct_rows:
            return []
        volume_rank_bonus: dict[str, float] = {}
        for idx, row in enumerate(volume_rows):
            code = _extract_stock_code(row)
            if not code:
                continue
            volume_rank_bonus[code] = max(0.0, 15.0 - idx * 0.3)
        # Step 2: Analyze each stock
        candidates: list[ScanCandidate] = []
-
+        for stock in fluct_rows:
-        for stock in rankings:
+            stock_code = _extract_stock_code(stock)
            stock_code = stock["stock_code"]
            if not stock_code:
                continue
            try:
-                # Fetch daily prices for RSI calculation
+                price = _extract_last_price(stock)
-                daily_prices = await self.broker.get_daily_prices(stock_code, days=20)
+                change_rate = _extract_change_rate_pct(stock)
                volume = _extract_volume(stock)
-                if len(daily_prices) < 15:  # Need at least 14+1 for RSI
+                intraday_range_pct = 0.0
-                    logger.debug("Insufficient price history for %s", stock_code)
+                volume_ratio = _safe_float(stock.get("volume_increase_rate"), 0.0) / 100.0 + 1.0
                # Use daily chart to refine range/volume when available.
                daily_prices = await self.broker.get_daily_prices(stock_code, days=2)
                if daily_prices:
                    latest = daily_prices[-1]
                    latest_close = _safe_float(latest.get("close"), default=price)
                    if price <= 0:
                        price = latest_close
                    latest_high = _safe_float(latest.get("high"))
                    latest_low = _safe_float(latest.get("low"))
                    if latest_close > 0 and latest_high > 0 and latest_low > 0 and latest_high >= latest_low:
                        intraday_range_pct = (latest_high - latest_low) / latest_close * 100.0
                    if volume <= 0:
                        volume = _safe_float(latest.get("volume"))
                    if len(daily_prices) >= 2:
                        prev_day_volume = _safe_float(daily_prices[-2].get("volume"))
                        if prev_day_volume > 0:
                            volume_ratio = max(volume_ratio, volume / prev_day_volume)
                volatility_pct = max(abs(change_rate), intraday_range_pct)
                if price <= 0 or volatility_pct < 0.8:
                    continue
-                # Calculate RSI
+                volatility_score = min(volatility_pct / 10.0, 1.0) * 85.0
-                close_prices = [p["close"] for p in daily_prices]
+                liquidity_score = volume_rank_bonus.get(stock_code, 0.0)
-                rsi = self.analyzer.calculate_rsi(close_prices, period=14)
+                score = min(100.0, volatility_score + liquidity_score)
                signal = "momentum" if change_rate >= 0 else "oversold"
                implied_rsi = max(0.0, min(100.0, 50.0 + (change_rate * 4.0)))
-                # Calculate volume ratio (today vs previous day avg)
+                candidates.append(
-                if len(daily_prices) >= 2:
+                    ScanCandidate(
-                    prev_day_volume = daily_prices[-2]["volume"]
+                        stock_code=stock_code,
-                    current_volume = stock.get("volume", 0) or daily_prices[-1]["volume"]
+                        name=stock.get("name", stock_code),
-                    volume_ratio = (
+                        price=price,
-                        current_volume / prev_day_volume if prev_day_volume > 0 else 1.0
+                        volume=volume,
-                    )
+                        volume_ratio=max(1.0, volume_ratio, volatility_pct / 2.0),
-                else:
+                        rsi=implied_rsi,
-                    volume_ratio = stock.get("volume_increase_rate", 0) / 100 + 1  # Fallback
+                        signal=signal,
-
+                        score=score,
                # 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)
@@ -176,10 +197,171 @@ class SmartVolatilityScanner:
                logger.error("Unexpected error analyzing %s: %s", stock_code, exc)
                continue
-        # Sort by score and return top N
+        logger.info("Domestic ranking scan found %d candidates", len(candidates))
        candidates.sort(key=lambda c: c.score, reverse=True)
        return candidates[: self.top_n]
    async def _scan_overseas(
        self,
        market: MarketInfo,
        fallback_stocks: list[str] | None = None,
    ) -> list[ScanCandidate]:
        """Scan overseas symbols using ranking API first, then fallback universe."""
        if self.overseas_broker is None:
            logger.warning(
                "Overseas scanner unavailable for %s: overseas broker not configured",
                market.name,
            )
            return []
        candidates = await self._scan_overseas_from_rankings(market)
        if not candidates:
            candidates = await self._scan_overseas_from_symbols(market, fallback_stocks)
        candidates.sort(key=lambda c: c.score, reverse=True)
        return candidates[: self.top_n]
    async def _scan_overseas_from_rankings(
        self,
        market: MarketInfo,
    ) -> list[ScanCandidate]:
        """Build overseas candidates from ranking APIs using volatility-first scoring."""
        assert self.overseas_broker is not None
        try:
            fluct_rows = await self.overseas_broker.fetch_overseas_rankings(
                exchange_code=market.exchange_code,
                ranking_type="fluctuation",
                limit=50,
            )
        except Exception as exc:
            logger.warning(
                "Overseas fluctuation ranking failed for %s: %s", market.code, exc
            )
            fluct_rows = []
        if not fluct_rows:
            return []
        volume_rank_bonus: dict[str, float] = {}
        try:
            volume_rows = await self.overseas_broker.fetch_overseas_rankings(
                exchange_code=market.exchange_code,
                ranking_type="volume",
                limit=50,
            )
        except Exception as exc:
            logger.warning(
                "Overseas volume ranking failed for %s: %s", market.code, exc
            )
            volume_rows = []
        for idx, row in enumerate(volume_rows):
            code = _extract_stock_code(row)
            if not code:
                continue
            # Top-ranked by traded value/volume gets higher liquidity bonus.
            volume_rank_bonus[code] = max(0.0, 15.0 - idx * 0.3)
        candidates: list[ScanCandidate] = []
        for row in fluct_rows:
            stock_code = _extract_stock_code(row)
            if not stock_code:
                continue
            price = _extract_last_price(row)
            change_rate = _extract_change_rate_pct(row)
            volume = _extract_volume(row)
            intraday_range_pct = _extract_intraday_range_pct(row, price)
            volatility_pct = max(abs(change_rate), intraday_range_pct)
            # Volatility-first filter (not simple gainers/value ranking).
            if price <= 0 or volatility_pct < 0.8:
                continue
            volatility_score = min(volatility_pct / 10.0, 1.0) * 85.0
            liquidity_score = volume_rank_bonus.get(stock_code, 0.0)
            score = min(100.0, volatility_score + liquidity_score)
            signal = "momentum" if change_rate >= 0 else "oversold"
            implied_rsi = max(0.0, min(100.0, 50.0 + (change_rate * 4.0)))
            candidates.append(
                ScanCandidate(
                    stock_code=stock_code,
                    name=str(row.get("name") or row.get("ovrs_item_name") or stock_code),
                    price=price,
                    volume=volume,
                    volume_ratio=max(1.0, volatility_pct / 2.0),
                    rsi=implied_rsi,
                    signal=signal,
                    score=score,
                )
            )
        if candidates:
            logger.info(
                "Overseas ranking scan found %d candidates for %s",
                len(candidates),
                market.name,
            )
        return candidates
    async def _scan_overseas_from_symbols(
        self,
        market: MarketInfo,
        symbols: list[str] | None,
    ) -> list[ScanCandidate]:
        """Fallback overseas scan from dynamic symbol universe."""
        assert self.overseas_broker is not None
        if not symbols:
            logger.info("Overseas scanner: no symbol universe for %s", market.name)
            return []
        logger.info(
            "Overseas scanner: scanning %d fallback symbols for %s",
            len(symbols),
            market.name,
        )
        candidates: list[ScanCandidate] = []
        for stock_code in symbols:
            try:
                price_data = await self.overseas_broker.get_overseas_price(
                    market.exchange_code, stock_code
                )
                output = price_data.get("output", {})
                price = _extract_last_price(output)
                change_rate = _extract_change_rate_pct(output)
                volume = _extract_volume(output)
                intraday_range_pct = _extract_intraday_range_pct(output, price)
                volatility_pct = max(abs(change_rate), intraday_range_pct)
                if price <= 0 or volatility_pct < 0.8:
                    continue
                score = min(volatility_pct / 10.0, 1.0) * 100.0
                signal = "momentum" if change_rate >= 0 else "oversold"
                implied_rsi = max(0.0, min(100.0, 50.0 + (change_rate * 4.0)))
                candidates.append(
                    ScanCandidate(
                        stock_code=stock_code,
                        name=stock_code,
                        price=price,
                        volume=volume,
                        volume_ratio=max(1.0, volatility_pct / 2.0),
                        rsi=implied_rsi,
                        signal=signal,
                        score=score,
                    )
                )
            except ConnectionError as exc:
                logger.warning("Failed to analyze overseas %s: %s", stock_code, exc)
            except Exception as exc:
                logger.error("Unexpected error analyzing overseas %s: %s", stock_code, exc)
        logger.info(
            "Overseas symbol fallback scan found %d candidates for %s",
            len(candidates),
            market.name,
        )
        return candidates
    def get_stock_codes(self, candidates: list[ScanCandidate]) -> list[str]:
        """Extract stock codes from candidates for watchlist update.
@@ -190,3 +372,78 @@ class SmartVolatilityScanner:
            List of stock codes
        """
        return [c.stock_code for c in candidates]
 def _safe_float(value: Any, default: float = 0.0) -> float:
    """Convert arbitrary values to float safely."""
    if value in (None, ""):
        return default
    try:
        return float(value)
    except (TypeError, ValueError):
        return default
 def _extract_stock_code(row: dict[str, Any]) -> str:
    """Extract normalized stock code from various API schemas."""
    return (
        str(
            row.get("symb")
            or row.get("ovrs_pdno")
            or row.get("stock_code")
            or row.get("pdno")
            or ""
        )
        .strip()
        .upper()
    )
 def _extract_last_price(row: dict[str, Any]) -> float:
    """Extract last/close-like price from API schema variants."""
    return _safe_float(
        row.get("last")
        or row.get("ovrs_nmix_prpr")
        or row.get("stck_prpr")
        or row.get("price")
        or row.get("close")
    )
 def _extract_change_rate_pct(row: dict[str, Any]) -> float:
    """Extract daily change rate (%) from API schema variants."""
    return _safe_float(
        row.get("rate")
        or row.get("change_rate")
        or row.get("prdy_ctrt")
        or row.get("evlu_pfls_rt")
        or row.get("chg_rt")
    )
 def _extract_volume(row: dict[str, Any]) -> float:
    """Extract volume/traded-amount proxy from schema variants."""
    return _safe_float(
        row.get("tvol") or row.get("acml_vol") or row.get("vol") or row.get("volume")
    )
 def _extract_intraday_range_pct(row: dict[str, Any], price: float) -> float:
    """Estimate intraday range percentage from high/low fields."""
    if price <= 0:
        return 0.0
    high = _safe_float(
        row.get("high")
        or row.get("ovrs_hgpr")
        or row.get("stck_hgpr")
        or row.get("day_hgpr")
    )
    low = _safe_float(
        row.get("low")
        or row.get("ovrs_lwpr")
        or row.get("stck_lwpr")
        or row.get("day_lwpr")
    )
    if high <= 0 or low <= 0 or high < low:
        return 0.0
    return (high - low) / price * 100.0
--- a/src/brain/gemini_client.py
+++ b/src/brain/gemini_client.py
@@ -410,8 +410,10 @@ class GeminiClient:
                    cached=True,
                )
-        # Build optimized prompt
+        # Build prompt (prompt_override takes priority for callers like pre_market_planner)
-        if self._enable_optimization:
+        if "prompt_override" in market_data:
            prompt = market_data["prompt_override"]
        elif self._enable_optimization:
            prompt = self._optimizer.build_compressed_prompt(market_data)
        else:
            prompt = await self.build_prompt(market_data, news_sentiment)
--- a/src/broker/kis_api.py
+++ b/src/broker/kis_api.py
@@ -104,12 +104,14 @@ class KISBroker:
            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 = (
+                # Do not fail fast here. If token is unavailable, upstream calls
-                    f"Token refresh on cooldown. "
+                # will all fail for up to a minute and scanning returns no trades.
-                    f"Retry in {remaining:.1f}s (KIS allows 1/minute)"
+                logger.warning(
                    "Token refresh on cooldown. Waiting %.1fs before retry (KIS allows 1/minute)",
                    remaining,
                )
-                logger.warning(error_msg)
+                await asyncio.sleep(remaining)
-                raise ConnectionError(error_msg)
+                now = asyncio.get_event_loop().time()
            logger.info("Refreshing KIS access token")
            self._last_refresh_attempt = now
@@ -302,26 +304,46 @@ class KISBroker:
        await self._rate_limiter.acquire()
        session = self._get_session()
-        # TR_ID for volume ranking
+        if ranking_type == "volume":
-        tr_id = "FHPST01710000" if ranking_type == "volume" else "FHPST01710100"
+            # 거래량순위: FHPST01710000 / /quotations/volume-rank
            tr_id = "FHPST01710000"
            url = f"{self._base_url}/uapi/domestic-stock/v1/quotations/volume-rank"
            params: dict[str, str] = {
                "FID_COND_MRKT_DIV_CODE": "J",
                "FID_COND_SCR_DIV_CODE": "20171",
                "FID_INPUT_ISCD": "0000",
                "FID_DIV_CLS_CODE": "0",
                "FID_BLNG_CLS_CODE": "0",
                "FID_TRGT_CLS_CODE": "111111111",
                "FID_TRGT_EXLS_CLS_CODE": "0000000000",
                "FID_INPUT_PRICE_1": "0",
                "FID_INPUT_PRICE_2": "0",
                "FID_VOL_CNT": "0",
                "FID_INPUT_DATE_1": "",
            }
        else:
            # 등락률순위: FHPST01700000 / /ranking/fluctuation (소문자 파라미터)
            tr_id = "FHPST01700000"
            url = f"{self._base_url}/uapi/domestic-stock/v1/ranking/fluctuation"
            params = {
                "fid_cond_mrkt_div_code": "J",
                "fid_cond_scr_div_code": "20170",
                "fid_input_iscd": "0000",
                "fid_rank_sort_cls_code": "0000",
                "fid_input_cnt_1": str(limit),
                "fid_prc_cls_code": "0",
                "fid_input_price_1": "0",
                "fid_input_price_2": "0",
                "fid_vol_cnt": "0",
                "fid_trgt_cls_code": "0",
                "fid_trgt_exls_cls_code": "0",
                "fid_div_cls_code": "0",
                "fid_rsfl_rate1": "0",
                "fid_rsfl_rate2": "0",
            }
        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:
--- a/src/broker/overseas.py
+++ b/src/broker/overseas.py
@@ -12,6 +12,24 @@ from src.broker.kis_api import KISBroker
 logger = logging.getLogger(__name__)
 # Ranking API uses different exchange codes than order/quote APIs.
 _RANKING_EXCHANGE_MAP: dict[str, str] = {
    "NASD": "NAS",
    "NYSE": "NYS",
    "AMEX": "AMS",
    "SEHK": "HKS",
    "SHAA": "SHS",
    "SZAA": "SZS",
    "HSX": "HSX",
    "HNX": "HNX",
    "TSE": "TSE",
 }
 # Price inquiry API (HHDFS00000300) uses the same short exchange codes as rankings.
 # NASD → NAS, NYSE → NYS, AMEX → AMS (confirmed: AMEX returns empty, AMS returns price).
 _PRICE_EXCHANGE_MAP: dict[str, str] = _RANKING_EXCHANGE_MAP
 class OverseasBroker:
    """KIS Overseas Stock API wrapper that reuses KISBroker infrastructure."""
@@ -44,9 +62,11 @@ class OverseasBroker:
        session = self._broker._get_session()
        headers = await self._broker._auth_headers("HHDFS00000300")
        # Map internal exchange codes to the short form expected by the price API.
        price_excd = _PRICE_EXCHANGE_MAP.get(exchange_code, exchange_code)
        params = {
            "AUTH": "",
-            "EXCD": exchange_code,
+            "EXCD": price_excd,
            "SYMB": stock_code,
        }
        url = f"{self._broker._base_url}/uapi/overseas-price/v1/quotations/price"
@@ -64,6 +84,81 @@ class OverseasBroker:
                f"Network error fetching overseas price: {exc}"
            ) from exc
    async def fetch_overseas_rankings(
        self,
        exchange_code: str,
        ranking_type: str = "fluctuation",
        limit: int = 30,
    ) -> list[dict[str, Any]]:
        """Fetch overseas rankings (price change or volume surge).
        Ranking API specs may differ by account/product. Endpoint paths and
        TR_IDs are configurable via settings and can be overridden in .env.
        """
        if not self._broker._settings.OVERSEAS_RANKING_ENABLED:
            return []
        await self._broker._rate_limiter.acquire()
        session = self._broker._get_session()
        ranking_excd = _RANKING_EXCHANGE_MAP.get(exchange_code, exchange_code)
        if ranking_type == "volume":
            tr_id = self._broker._settings.OVERSEAS_RANKING_VOLUME_TR_ID
            path = self._broker._settings.OVERSEAS_RANKING_VOLUME_PATH
            params: dict[str, str] = {
                "AUTH": "",
                "EXCD": ranking_excd,
                "MIXN": "0",
                "VOL_RANG": "0",
            }
        else:
            tr_id = self._broker._settings.OVERSEAS_RANKING_FLUCT_TR_ID
            path = self._broker._settings.OVERSEAS_RANKING_FLUCT_PATH
            params = {
                "AUTH": "",
                "EXCD": ranking_excd,
                "NDAY": "0",
                "GUBN": "1",
                "VOL_RANG": "0",
            }
        headers = await self._broker._auth_headers(tr_id)
        url = f"{self._broker._base_url}{path}"
        try:
            async with session.get(url, headers=headers, params=params) as resp:
                if resp.status != 200:
                    text = await resp.text()
                    if resp.status == 404:
                        logger.warning(
                            "Overseas ranking endpoint unavailable (404) for %s/%s; "
                            "using symbol fallback scan",
                            exchange_code,
                            ranking_type,
                        )
                        return []
                    raise ConnectionError(
                        f"fetch_overseas_rankings failed ({resp.status}): {text}"
                    )
                data = await resp.json()
                rows = self._extract_ranking_rows(data)
                if rows:
                    return rows[:limit]
                logger.debug(
                    "Overseas ranking returned empty for %s/%s (keys=%s)",
                    exchange_code,
                    ranking_type,
                    list(data.keys()),
                )
                return []
        except (TimeoutError, aiohttp.ClientError) as exc:
            raise ConnectionError(
                f"Network error fetching overseas rankings: {exc}"
            ) from exc
    async def get_overseas_balance(self, exchange_code: str) -> dict[str, Any]:
        """
        Fetch overseas account balance.
@@ -162,14 +257,27 @@ class OverseasBroker:
                        f"send_overseas_order failed ({resp.status}): {text}"
                    )
                data = await resp.json()
-                logger.info(
+                rt_cd = data.get("rt_cd", "")
-                    "Overseas order submitted",
+                msg1 = data.get("msg1", "")
-                    extra={
+                if rt_cd == "0":
-                        "exchange": exchange_code,
+                    logger.info(
-                        "stock_code": stock_code,
+                        "Overseas order submitted",
-                        "action": order_type,
+                        extra={
-                    },
+                            "exchange": exchange_code,
-                )
+                            "stock_code": stock_code,
                            "action": order_type,
                        },
                    )
                else:
                    logger.warning(
                        "Overseas order rejected (rt_cd=%s): %s [%s %s %s qty=%d]",
                        rt_cd,
                        msg1,
                        order_type,
                        stock_code,
                        exchange_code,
                        quantity,
                    )
                return data
        except (TimeoutError, aiohttp.ClientError) as exc:
            raise ConnectionError(
@@ -198,3 +306,11 @@ class OverseasBroker:
            "HSX": "VND",
        }
        return currency_map.get(exchange_code, "USD")
    def _extract_ranking_rows(self, data: dict[str, Any]) -> list[dict[str, Any]]:
        """Extract list rows from ranking response across schema variants."""
        candidates = [data.get("output"), data.get("output1"), data.get("output2")]
        for value in candidates:
            if isinstance(value, list):
                return [row for row in value if isinstance(row, dict)]
        return []
--- a/src/config.py
+++ b/src/config.py
@@ -38,6 +38,11 @@ class Settings(BaseSettings):
    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)
    POSITION_SIZING_ENABLED: bool = True
    POSITION_BASE_ALLOCATION_PCT: float = Field(default=5.0, gt=0.0, le=30.0)
    POSITION_MIN_ALLOCATION_PCT: float = Field(default=1.0, gt=0.0, le=20.0)
    POSITION_MAX_ALLOCATION_PCT: float = Field(default=10.0, gt=0.0, le=50.0)
    POSITION_VOLATILITY_TARGET_SCORE: float = Field(default=50.0, gt=0.0, le=100.0)
    # Database
    DB_PATH: str = "data/trade_logs.db"
@@ -50,6 +55,11 @@ class Settings(BaseSettings):
    # Trading mode
    MODE: str = Field(default="paper", pattern="^(paper|live)$")
    # Simulated USD cash for VTS (paper) overseas trading.
    # KIS VTS overseas balance API returns errors for most accounts.
    # This value is used as a fallback when the balance API returns 0 in paper mode.
    PAPER_OVERSEAS_CASH: float = Field(default=50000.0, ge=0.0)
    # Trading frequency mode (daily = batch API calls, realtime = per-stock calls)
    TRADE_MODE: str = Field(default="daily", pattern="^(daily|realtime)$")
    DAILY_SESSIONS: int = Field(default=4, ge=1, le=10)
@@ -83,6 +93,18 @@ class Settings(BaseSettings):
    TELEGRAM_COMMANDS_ENABLED: bool = True
    TELEGRAM_POLLING_INTERVAL: float = 1.0  # seconds
    # Overseas ranking API (KIS endpoint/TR_ID may vary by account/product)
    # Override these from .env if your account uses different specs.
    OVERSEAS_RANKING_ENABLED: bool = True
    OVERSEAS_RANKING_FLUCT_TR_ID: str = "HHDFS76290000"
    OVERSEAS_RANKING_VOLUME_TR_ID: str = "HHDFS76270000"
    OVERSEAS_RANKING_FLUCT_PATH: str = (
        "/uapi/overseas-stock/v1/ranking/updown-rate"
    )
    OVERSEAS_RANKING_VOLUME_PATH: str = (
        "/uapi/overseas-stock/v1/ranking/volume-surge"
    )
    # Dashboard (optional)
    DASHBOARD_ENABLED: bool = False
    DASHBOARD_HOST: str = "127.0.0.1"
--- a/src/db.py
+++ b/src/db.py
@@ -235,3 +235,21 @@ def get_open_position(
    if not row or row[0] != "BUY":
        return None
    return {"decision_id": row[1], "price": row[2], "quantity": row[3]}
 def get_recent_symbols(
    conn: sqlite3.Connection, market: str, limit: int = 30
 ) -> list[str]:
    """Return recent unique symbols for a market, newest first."""
    cursor = conn.execute(
        """
        SELECT stock_code, MAX(timestamp) AS last_ts
        FROM trades
        WHERE market = ?
        GROUP BY stock_code
        ORDER BY last_ts DESC
        LIMIT ?
        """,
        (market, limit),
    )
    return [row[0] for row in cursor.fetchall() if row and row[0]]
--- a/src/main.py
+++ b/src/main.py
@@ -29,7 +29,13 @@ 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, FatFingerRejected, RiskManager
-from src.db import get_latest_buy_trade, get_open_position, init_db, log_trade
+from src.db import (
    get_latest_buy_trade,
    get_open_position,
    get_recent_symbols,
    init_db,
    log_trade,
 )
 from src.evolution.daily_review import DailyReviewer
 from src.evolution.optimizer import EvolutionOptimizer
 from src.logging.decision_logger import DecisionLogger
@@ -81,6 +87,102 @@ DAILY_TRADE_SESSIONS = 4  # Number of trading sessions per day
 TRADE_SESSION_INTERVAL_HOURS = 6  # Hours between sessions
 def _extract_symbol_from_holding(item: dict[str, Any]) -> str:
    """Extract symbol from overseas holding payload variants."""
    for key in (
        "ovrs_pdno",
        "pdno",
        "ovrs_item_name",
        "prdt_name",
        "symb",
        "symbol",
        "stock_code",
    ):
        value = item.get(key)
        if isinstance(value, str):
            symbol = value.strip().upper()
            if symbol and symbol.replace(".", "").replace("-", "").isalnum():
                return symbol
    return ""
 def _determine_order_quantity(
    *,
    action: str,
    current_price: float,
    total_cash: float,
    candidate: ScanCandidate | None,
    settings: Settings | None,
 ) -> int:
    """Determine order quantity using volatility-aware position sizing."""
    if action != "BUY":
        return 1
    if current_price <= 0 or total_cash <= 0:
        return 0
    if settings is None or not settings.POSITION_SIZING_ENABLED:
        return 1
    target_score = max(1.0, settings.POSITION_VOLATILITY_TARGET_SCORE)
    observed_score = candidate.score if candidate else target_score
    observed_score = max(1.0, min(100.0, observed_score))
    # Higher observed volatility score => smaller allocation.
    scaled_pct = settings.POSITION_BASE_ALLOCATION_PCT * (target_score / observed_score)
    allocation_pct = min(
        settings.POSITION_MAX_ALLOCATION_PCT,
        max(settings.POSITION_MIN_ALLOCATION_PCT, scaled_pct),
    )
    budget = total_cash * (allocation_pct / 100.0)
    quantity = int(budget // current_price)
    if quantity <= 0:
        return 0
    return quantity
 async def build_overseas_symbol_universe(
    db_conn: Any,
    overseas_broker: OverseasBroker,
    market: MarketInfo,
    active_stocks: dict[str, list[str]],
 ) -> list[str]:
    """Build dynamic overseas symbol universe from runtime, DB, and holdings."""
    symbols: list[str] = []
    # 1) Keep current active stocks first to avoid sudden churn between cycles.
    symbols.extend(active_stocks.get(market.code, []))
    # 2) Add recent symbols from own trading history (no fixed list).
    symbols.extend(get_recent_symbols(db_conn, market.code, limit=30))
    # 3) Add current overseas holdings from broker balance if available.
    try:
        balance_data = await overseas_broker.get_overseas_balance(market.exchange_code)
        output1 = balance_data.get("output1", [])
        if isinstance(output1, dict):
            output1 = [output1]
        if isinstance(output1, list):
            for row in output1:
                if not isinstance(row, dict):
                    continue
                symbol = _extract_symbol_from_holding(row)
                if symbol:
                    symbols.append(symbol)
    except Exception as exc:
        logger.warning("Failed to build overseas holdings universe for %s: %s", market.code, exc)
    seen: set[str] = set()
    ordered_unique: list[str] = []
    for symbol in symbols:
        normalized = symbol.strip().upper()
        if not normalized or normalized in seen:
            continue
        seen.add(normalized)
        ordered_unique.append(normalized)
    return ordered_unique
 async def trading_cycle(
    broker: KISBroker,
    overseas_broker: OverseasBroker,
@@ -95,6 +197,7 @@ async def trading_cycle(
    market: MarketInfo,
    stock_code: str,
    scan_candidates: dict[str, dict[str, ScanCandidate]],
    settings: Settings | None = None,
 ) -> None:
    """Execute one trading cycle for a single stock."""
    cycle_start_time = asyncio.get_event_loop().time()
@@ -136,10 +239,43 @@ async def trading_cycle(
        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")
        # Paper mode fallback: VTS overseas balance API often fails for many accounts.
        if total_cash <= 0 and settings and settings.PAPER_OVERSEAS_CASH > 0:
            logger.debug(
                "Overseas cash balance is 0 for %s; using paper fallback %.2f USD",
                market.exchange_code,
                settings.PAPER_OVERSEAS_CASH,
            )
            total_cash = settings.PAPER_OVERSEAS_CASH
        current_price = safe_float(price_data.get("output", {}).get("last", "0"))
        # Fallback: if price API returns 0, use scanner candidate price
        if current_price <= 0:
            market_candidates_lookup = scan_candidates.get(market.code, {})
            cand_lookup = market_candidates_lookup.get(stock_code)
            if cand_lookup and cand_lookup.price > 0:
                logger.debug(
                    "Price API returned 0 for %s; using scanner candidate price %.4f",
                    stock_code,
                    cand_lookup.price,
                )
                current_price = cand_lookup.price
        foreigner_net = 0.0  # Not available for overseas
        price_change_pct = safe_float(price_data.get("output", {}).get("rate", "0"))
        # Price API may return 0/empty for certain VTS exchange codes.
        # Fall back to the scanner candidate's price so order sizing still works.
        if current_price <= 0:
            market_candidates_lookup = scan_candidates.get(market.code, {})
            cand_lookup = market_candidates_lookup.get(stock_code)
            if cand_lookup and cand_lookup.price > 0:
                current_price = cand_lookup.price
                logger.debug(
                    "Price API returned 0 for %s; using scanner price %.4f",
                    stock_code,
                    current_price,
                )
    # Calculate daily P&L %
    pnl_pct = (
        ((total_eval - purchase_total) / purchase_total * 100)
@@ -332,8 +468,23 @@ async def trading_cycle(
    trade_price = current_price
    trade_pnl = 0.0
    if decision.action in ("BUY", "SELL"):
-        # Determine order size (simplified: 1 lot)
+        quantity = _determine_order_quantity(
-        quantity = 1
+            action=decision.action,
            current_price=current_price,
            total_cash=total_cash,
            candidate=candidate,
            settings=settings,
        )
        if quantity <= 0:
            logger.info(
                "Skip %s %s (%s): no affordable quantity (cash=%.2f, price=%.2f)",
                decision.action,
                stock_code,
                market.name,
                total_cash,
                current_price,
            )
            return
        order_amount = current_price * quantity
        # 4. Risk check BEFORE order
@@ -356,6 +507,7 @@ async def trading_cycle(
            raise  # Re-raise to prevent trade
        # 5. Send order
        order_succeeded = True
        if market.is_domestic:
            result = await broker.send_order(
                stock_code=stock_code,
@@ -364,29 +516,48 @@ async def trading_cycle(
                price=0,  # market order
            )
        else:
            # For overseas orders:
            # - KIS VTS only accepts limit orders (지정가만 가능)
            # - BUY: use 0.5% premium over last price to improve fill probability
            #   (ask price is typically slightly above last, and VTS won't fill below ask)
            # - SELL: use last price as the limit
            if decision.action == "BUY":
                order_price = round(current_price * 1.005, 4)
            else:
                order_price = current_price
            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
+                price=order_price,  # limit order — KIS VTS rejects market orders
            )
            # Check if KIS rejected the order (rt_cd != "0")
            if result.get("rt_cd", "") != "0":
                order_succeeded = False
                logger.warning(
                    "Overseas order not accepted for %s: rt_cd=%s msg=%s",
                    stock_code,
                    result.get("rt_cd"),
                    result.get("msg1"),
                )
        logger.info("Order result: %s", result.get("msg1", "OK"))
-        # 5.5. Notify trade execution
+        # 5.5. Notify trade execution (only on success)
-        try:
+        if order_succeeded:
-            await telegram.notify_trade_execution(
+            try:
-                stock_code=stock_code,
+                await telegram.notify_trade_execution(
-                market=market.name,
+                    stock_code=stock_code,
-                action=decision.action,
+                    market=market.name,
-                quantity=quantity,
+                    action=decision.action,
-                price=current_price,
+                    quantity=quantity,
-                confidence=decision.confidence,
+                    price=current_price,
-            )
+                    confidence=decision.confidence,
-        except Exception as exc:
+                )
-            logger.warning("Telegram notification failed: %s", exc)
+            except Exception as exc:
                logger.warning("Telegram notification failed: %s", exc)
-        if decision.action == "SELL":
+        if decision.action == "SELL" and order_succeeded:
            buy_trade = get_latest_buy_trade(db_conn, stock_code, market.code)
            if buy_trade and buy_trade.get("price") is not None:
                buy_price = float(buy_trade["price"])
@@ -398,7 +569,9 @@ async def trading_cycle(
                    accuracy=1 if trade_pnl > 0 else 0,
                )
-    # 6. Log trade with selection context
+    # 6. Log trade with selection context (skip if order was rejected)
    if decision.action in ("BUY", "SELL") and not order_succeeded:
        return
    selection_context = None
    if stock_code in market_candidates:
        candidate = market_candidates[stock_code]
@@ -482,8 +655,28 @@ async def run_daily_session(
        # Dynamic stock discovery via scanner (no static watchlists)
        candidates_list: list[ScanCandidate] = []
        fallback_stocks: list[str] | None = None
        if not market.is_domestic:
            fallback_stocks = await build_overseas_symbol_universe(
                db_conn=db_conn,
                overseas_broker=overseas_broker,
                market=market,
                active_stocks={},
            )
            if not fallback_stocks:
                logger.warning(
                    "No dynamic overseas symbol universe for %s; scanner cannot run",
                    market.code,
                )
        try:
-            candidates_list = await smart_scanner.scan() if smart_scanner else []
+            candidates_list = (
                await smart_scanner.scan(
                    market=market,
                    fallback_stocks=fallback_stocks,
                )
                if smart_scanner
                else []
            )
        except Exception as exc:
            logger.error("Smart Scanner failed for %s: %s", market.name, exc)
@@ -550,10 +743,30 @@ async def run_daily_session(
                    current_price = safe_float(
                        price_data.get("output", {}).get("last", "0")
                    )
                    # Fallback: if price API returns 0, use scanner candidate price
                    if current_price <= 0:
                        cand_lookup = candidate_map.get(stock_code)
                        if cand_lookup and cand_lookup.price > 0:
                            logger.debug(
                                "Price API returned 0 for %s; using scanner candidate price %.4f",
                                stock_code,
                                cand_lookup.price,
                            )
                            current_price = cand_lookup.price
                    foreigner_net = 0.0
                    price_change_pct = safe_float(
                        price_data.get("output", {}).get("rate", "0")
                    )
                    # Fall back to scanner candidate price if API returns 0.
                    if current_price <= 0:
                        cand_lookup = candidate_map.get(stock_code)
                        if cand_lookup and cand_lookup.price > 0:
                            current_price = cand_lookup.price
                            logger.debug(
                                "Price API returned 0 for %s; using scanner price %.4f",
                                stock_code,
                                current_price,
                            )
                stock_data: dict[str, Any] = {
                    "stock_code": stock_code,
@@ -604,6 +817,13 @@ async def run_daily_session(
            purchase_total = safe_float(
                balance_info.get("frcr_buy_amt_smtl", "0") or "0"
            )
            # Paper mode fallback: VTS overseas balance API often fails for many accounts.
            if total_cash <= 0 and settings.PAPER_OVERSEAS_CASH > 0:
                total_cash = settings.PAPER_OVERSEAS_CASH
            # VTS overseas balance API often returns 0; use paper fallback.
            if total_cash <= 0 and settings.PAPER_OVERSEAS_CASH > 0:
                total_cash = settings.PAPER_OVERSEAS_CASH
        # Calculate daily P&L %
        pnl_pct = (
@@ -678,8 +898,25 @@ async def run_daily_session(
            quantity = 0
            trade_price = stock_data["current_price"]
            trade_pnl = 0.0
            order_succeeded = True
            if decision.action in ("BUY", "SELL"):
-                quantity = 1
+                quantity = _determine_order_quantity(
                    action=decision.action,
                    current_price=stock_data["current_price"],
                    total_cash=total_cash,
                    candidate=candidate_map.get(stock_code),
                    settings=settings,
                )
                if quantity <= 0:
                    logger.info(
                        "Skip %s %s (%s): no affordable quantity (cash=%.2f, price=%.2f)",
                        decision.action,
                        stock_code,
                        market.name,
                        total_cash,
                        stock_data["current_price"],
                    )
                    continue
                order_amount = stock_data["current_price"] * quantity
                # Risk check
@@ -714,6 +951,7 @@ async def run_daily_session(
                    raise
                # Send order
                order_succeeded = True
                try:
                    if market.is_domestic:
                        result = await broker.send_order(
@@ -723,34 +961,48 @@ async def run_daily_session(
                            price=0,  # market order
                        )
                    else:
                        # KIS VTS only accepts limit orders; use 0.5% premium for BUY
                        if decision.action == "BUY":
                            order_price = round(stock_data["current_price"] * 1.005, 4)
                        else:
                            order_price = stock_data["current_price"]
                        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
+                            price=order_price,  # limit order
                        )
                        if result.get("rt_cd", "") != "0":
                            order_succeeded = False
                            logger.warning(
                                "Overseas order not accepted for %s: rt_cd=%s msg=%s",
                                stock_code,
                                result.get("rt_cd"),
                                result.get("msg1"),
                            )
                    logger.info("Order result: %s", result.get("msg1", "OK"))
-                    # Notify trade execution
+                    # Notify trade execution (only on success)
-                    try:
+                    if order_succeeded:
-                        await telegram.notify_trade_execution(
+                        try:
-                            stock_code=stock_code,
+                            await telegram.notify_trade_execution(
-                            market=market.name,
+                                stock_code=stock_code,
-                            action=decision.action,
+                                market=market.name,
-                            quantity=quantity,
+                                action=decision.action,
-                            price=stock_data["current_price"],
+                                quantity=quantity,
-                            confidence=decision.confidence,
+                                price=stock_data["current_price"],
-                        )
+                                confidence=decision.confidence,
-                    except Exception as exc:
+                            )
-                        logger.warning("Telegram notification failed: %s", exc)
+                        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
-                if decision.action == "SELL":
+                if decision.action == "SELL" and order_succeeded:
                    buy_trade = get_latest_buy_trade(db_conn, stock_code, market.code)
                    if buy_trade and buy_trade.get("price") is not None:
                        buy_price = float(buy_trade["price"])
@@ -762,7 +1014,9 @@ async def run_daily_session(
                            accuracy=1 if trade_pnl > 0 else 0,
                        )
-            # Log trade
+            # Log trade (skip if order was rejected by API)
            if decision.action in ("BUY", "SELL") and not order_succeeded:
                continue
            log_trade(
                conn=db_conn,
                stock_code=stock_code,
@@ -1263,6 +1517,7 @@ async def run(settings: Settings) -> None:
    # Initialize smart scanner (Python-first, AI-last pipeline)
    smart_scanner = SmartVolatilityScanner(
        broker=broker,
        overseas_broker=overseas_broker,
        volatility_analyzer=volatility_analyzer,
        settings=settings,
    )
@@ -1442,7 +1697,25 @@ async def run(settings: Settings) -> None:
                        try:
                            logger.info("Smart Scanner: Scanning %s market", market.name)
-                            candidates = await smart_scanner.scan()
+                            fallback_stocks: list[str] | None = None
                            if not market.is_domestic:
                                fallback_stocks = await build_overseas_symbol_universe(
                                    db_conn=db_conn,
                                    overseas_broker=overseas_broker,
                                    market=market,
                                    active_stocks=active_stocks,
                                )
                                if not fallback_stocks:
                                    logger.warning(
                                        "No dynamic overseas symbol universe for %s;"
                                        " scanner cannot run",
                                        market.code,
                                    )
                            candidates = await smart_scanner.scan(
                                market=market,
                                fallback_stocks=fallback_stocks,
                            )
                            if candidates:
                                # Use scanner results directly as trading candidates
@@ -1566,6 +1839,7 @@ async def run(settings: Settings) -> None:
                                    market,
                                    stock_code,
                                    scan_candidates,
                                    settings,
                                )
                                break  # Success — exit retry loop
                            except CircuitBreakerTripped as exc:
--- a/src/strategy/pre_market_planner.py
+++ b/src/strategy/pre_market_planner.py
@@ -1,7 +1,8 @@
 """Pre-market planner — generates DayPlaybook via Gemini before market open.
 One Gemini API call per market per day. Candidates come from SmartVolatilityScanner.
-On failure, returns a defensive playbook (all HOLD, no trades).
+On failure, returns a smart rule-based fallback playbook that uses scanner signals
 (momentum/oversold) to generate BUY conditions, avoiding the all-HOLD problem.
 """
 from __future__ import annotations
@@ -134,7 +135,7 @@ class PreMarketPlanner:
        except Exception:
            logger.exception("Playbook generation failed for %s", market)
            if self._settings.DEFENSIVE_PLAYBOOK_ON_FAILURE:
-                return self._defensive_playbook(today, market, candidates)
+                return self._smart_fallback_playbook(today, market, candidates, self._settings)
            return self._empty_playbook(today, market)
    def build_cross_market_context(
@@ -470,3 +471,99 @@ class PreMarketPlanner:
                ),
            ],
        )
    @staticmethod
    def _smart_fallback_playbook(
        today: date,
        market: str,
        candidates: list[ScanCandidate],
        settings: Settings,
    ) -> DayPlaybook:
        """Rule-based fallback playbook when Gemini is unavailable.
        Uses scanner signals (RSI, volume_ratio) to generate meaningful BUY
        conditions instead of the all-SELL defensive playbook.  Candidates are
        already pre-qualified by SmartVolatilityScanner, so we trust their
        signals and build actionable scenarios from them.
        Scenario logic per candidate:
        - momentum signal: BUY when volume_ratio exceeds scanner threshold
        - oversold signal: BUY when RSI is below oversold threshold
        - always: SELL stop-loss at -3.0% as guard
        """
        stock_playbooks = []
        for c in candidates:
            scenarios: list[StockScenario] = []
            if c.signal == "momentum":
                scenarios.append(
                    StockScenario(
                        condition=StockCondition(
                            volume_ratio_above=settings.VOL_MULTIPLIER,
                        ),
                        action=ScenarioAction.BUY,
                        confidence=80,
                        allocation_pct=10.0,
                        stop_loss_pct=-3.0,
                        take_profit_pct=5.0,
                        rationale=(
                            f"Rule-based BUY: momentum signal, "
                            f"volume={c.volume_ratio:.1f}x (fallback planner)"
                        ),
                    )
                )
            elif c.signal == "oversold":
                scenarios.append(
                    StockScenario(
                        condition=StockCondition(
                            rsi_below=settings.RSI_OVERSOLD_THRESHOLD,
                        ),
                        action=ScenarioAction.BUY,
                        confidence=80,
                        allocation_pct=10.0,
                        stop_loss_pct=-3.0,
                        take_profit_pct=5.0,
                        rationale=(
                            f"Rule-based BUY: oversold signal, "
                            f"RSI={c.rsi:.0f} (fallback planner)"
                        ),
                    )
                )
            # Always add stop-loss guard
            scenarios.append(
                StockScenario(
                    condition=StockCondition(price_change_pct_below=-3.0),
                    action=ScenarioAction.SELL,
                    confidence=90,
                    stop_loss_pct=-3.0,
                    rationale="Rule-based stop-loss (fallback planner)",
                )
            )
            stock_playbooks.append(
                StockPlaybook(
                    stock_code=c.stock_code,
                    scenarios=scenarios,
                )
            )
        logger.info(
            "Smart fallback playbook for %s: %d stocks with rule-based BUY/SELL conditions",
            market,
            len(stock_playbooks),
        )
        return DayPlaybook(
            date=today,
            market=market,
            market_outlook=MarketOutlook.NEUTRAL,
            default_action=ScenarioAction.HOLD,
            stock_playbooks=stock_playbooks,
            global_rules=[
                GlobalRule(
                    condition="portfolio_pnl_pct < -2.0",
                    action=ScenarioAction.REDUCE_ALL,
                    rationale="Defensive: reduce on loss threshold",
                ),
            ],
        )
--- a/tests/test_brain.py
+++ b/tests/test_brain.py
@@ -2,6 +2,10 @@
 from __future__ import annotations
 from unittest.mock import AsyncMock, MagicMock, patch
 import pytest
 from src.brain.gemini_client import GeminiClient
 # ---------------------------------------------------------------------------
@@ -270,3 +274,97 @@ class TestBatchDecisionParsing:
        assert decisions["AAPL"].action == "HOLD"
        assert decisions["AAPL"].confidence == 0
 # ---------------------------------------------------------------------------
 # Prompt Override (used by pre_market_planner)
 # ---------------------------------------------------------------------------
 class TestPromptOverride:
    """decide() must use prompt_override when present in market_data."""
    @pytest.mark.asyncio
    async def test_prompt_override_is_sent_to_gemini(self, settings):
        """When prompt_override is in market_data, it should be used as the prompt."""
        client = GeminiClient(settings)
        custom_prompt = "You are a playbook generator. Return JSON with scenarios."
        mock_response = MagicMock()
        mock_response.text = '{"action": "HOLD", "confidence": 50, "rationale": "test"}'
        with patch.object(
            client._client.aio.models,
            "generate_content",
            new_callable=AsyncMock,
            return_value=mock_response,
        ) as mock_generate:
            market_data = {
                "stock_code": "PLANNER",
                "current_price": 0,
                "prompt_override": custom_prompt,
            }
            await client.decide(market_data)
            # Verify the custom prompt was sent, not a built prompt
            mock_generate.assert_called_once()
            actual_prompt = mock_generate.call_args[1].get(
                "contents", mock_generate.call_args[0][1] if len(mock_generate.call_args[0]) > 1 else None
            )
            assert actual_prompt == custom_prompt
    @pytest.mark.asyncio
    async def test_prompt_override_skips_optimization(self, settings):
        """prompt_override should bypass prompt optimization."""
        client = GeminiClient(settings)
        client._enable_optimization = True
        custom_prompt = "Custom playbook prompt"
        mock_response = MagicMock()
        mock_response.text = '{"action": "HOLD", "confidence": 50, "rationale": "ok"}'
        with patch.object(
            client._client.aio.models,
            "generate_content",
            new_callable=AsyncMock,
            return_value=mock_response,
        ) as mock_generate:
            market_data = {
                "stock_code": "PLANNER",
                "current_price": 0,
                "prompt_override": custom_prompt,
            }
            await client.decide(market_data)
            actual_prompt = mock_generate.call_args[1].get(
                "contents", mock_generate.call_args[0][1] if len(mock_generate.call_args[0]) > 1 else None
            )
            assert actual_prompt == custom_prompt
    @pytest.mark.asyncio
    async def test_without_prompt_override_uses_build_prompt(self, settings):
        """Without prompt_override, decide() should use build_prompt as before."""
        client = GeminiClient(settings)
        mock_response = MagicMock()
        mock_response.text = '{"action": "HOLD", "confidence": 50, "rationale": "ok"}'
        with patch.object(
            client._client.aio.models,
            "generate_content",
            new_callable=AsyncMock,
            return_value=mock_response,
        ) as mock_generate:
            market_data = {
                "stock_code": "005930",
                "current_price": 72000,
            }
            await client.decide(market_data)
            actual_prompt = mock_generate.call_args[1].get(
                "contents", mock_generate.call_args[0][1] if len(mock_generate.call_args[0]) > 1 else None
            )
            # Should contain stock code from build_prompt, not be a custom override
            assert "005930" in actual_prompt
--- a/tests/test_broker.py
+++ b/tests/test_broker.py
@@ -3,7 +3,7 @@
 from __future__ import annotations
 import asyncio
-from unittest.mock import AsyncMock, patch
+from unittest.mock import AsyncMock, MagicMock, patch
 import pytest
@@ -90,12 +90,12 @@ class TestTokenManagement:
        await broker.close()
    @pytest.mark.asyncio
-    async def test_token_refresh_cooldown_prevents_rapid_retries(self, settings):
+    async def test_token_refresh_cooldown_waits_then_retries(self, settings):
-        """Token refresh should enforce cooldown after failure (issue #54)."""
+        """Token refresh should wait out cooldown then retry (issue #54)."""
        broker = KISBroker(settings)
-        broker._refresh_cooldown = 2.0  # Short cooldown for testing
+        broker._refresh_cooldown = 0.1  # Short cooldown for testing
-        # First refresh attempt fails with 403 (EGW00133)
+        # All attempts fail with 403 (EGW00133)
        mock_resp_403 = AsyncMock()
        mock_resp_403.status = 403
        mock_resp_403.text = AsyncMock(
@@ -109,8 +109,8 @@ class TestTokenManagement:
            with pytest.raises(ConnectionError, match="Token refresh failed"):
                await broker._ensure_token()
-            # Second attempt within cooldown should fail with cooldown error
+            # Second attempt within cooldown should wait then retry (and still get 403)
-            with pytest.raises(ConnectionError, match="Token refresh on cooldown"):
+            with pytest.raises(ConnectionError, match="Token refresh failed"):
                await broker._ensure_token()
        await broker.close()
@@ -296,3 +296,82 @@ class TestHashKey:
                mock_acquire.assert_called_once()
        await broker.close()
 # ---------------------------------------------------------------------------
 # fetch_market_rankings — TR_ID, path, params (issue #155)
 # ---------------------------------------------------------------------------
 def _make_ranking_mock(items: list[dict]) -> AsyncMock:
    """Build a mock HTTP response returning ranking items."""
    mock_resp = AsyncMock()
    mock_resp.status = 200
    mock_resp.json = AsyncMock(return_value={"output": items})
    mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
    mock_resp.__aexit__ = AsyncMock(return_value=False)
    return mock_resp
 class TestFetchMarketRankings:
    """Verify correct TR_ID, API path, and params per ranking_type (issue #155)."""
    @pytest.fixture
    def broker(self, settings) -> KISBroker:
        b = KISBroker(settings)
        b._access_token = "tok"
        b._token_expires_at = float("inf")
        b._rate_limiter.acquire = AsyncMock()
        return b
    @pytest.mark.asyncio
    async def test_volume_uses_correct_tr_id_and_path(self, broker: KISBroker) -> None:
        mock_resp = _make_ranking_mock([])
        with patch("aiohttp.ClientSession.get", return_value=mock_resp) as mock_get:
            await broker.fetch_market_rankings(ranking_type="volume")
        call_kwargs = mock_get.call_args
        url = call_kwargs[0][0] if call_kwargs[0] else call_kwargs[1].get("url", "")
        headers = call_kwargs[1].get("headers", {})
        params = call_kwargs[1].get("params", {})
        assert "volume-rank" in url
        assert headers.get("tr_id") == "FHPST01710000"
        assert params.get("FID_COND_SCR_DIV_CODE") == "20171"
        assert params.get("FID_TRGT_EXLS_CLS_CODE") == "0000000000"
    @pytest.mark.asyncio
    async def test_fluctuation_uses_correct_tr_id_and_path(self, broker: KISBroker) -> None:
        mock_resp = _make_ranking_mock([])
        with patch("aiohttp.ClientSession.get", return_value=mock_resp) as mock_get:
            await broker.fetch_market_rankings(ranking_type="fluctuation")
        call_kwargs = mock_get.call_args
        url = call_kwargs[0][0] if call_kwargs[0] else call_kwargs[1].get("url", "")
        headers = call_kwargs[1].get("headers", {})
        params = call_kwargs[1].get("params", {})
        assert "ranking/fluctuation" in url
        assert headers.get("tr_id") == "FHPST01700000"
        assert params.get("fid_cond_scr_div_code") == "20170"
    @pytest.mark.asyncio
    async def test_volume_returns_parsed_rows(self, broker: KISBroker) -> None:
        items = [
            {
                "mksc_shrn_iscd": "005930",
                "hts_kor_isnm": "삼성전자",
                "stck_prpr": "75000",
                "acml_vol": "10000000",
                "prdy_ctrt": "2.5",
                "vol_inrt": "150",
            }
        ]
        mock_resp = _make_ranking_mock(items)
        with patch("aiohttp.ClientSession.get", return_value=mock_resp):
            result = await broker.fetch_market_rankings(ranking_type="volume")
        assert len(result) == 1
        assert result[0]["stock_code"] == "005930"
        assert result[0]["price"] == 75000.0
        assert result[0]["change_rate"] == 2.5
--- a/tests/test_main.py
+++ b/tests/test_main.py
@@ -738,6 +738,83 @@ class TestOverseasBalanceParsing:
        # Verify price API was called
        mock_overseas_broker_with_empty_price.get_overseas_price.assert_called_once()
    @pytest.fixture
    def mock_overseas_broker_with_buy_scenario(self) -> MagicMock:
        """Create mock overseas broker that returns a valid price for BUY orders."""
        broker = MagicMock()
        broker.get_overseas_price = AsyncMock(
            return_value={"output": {"last": "182.50"}}
        )
        broker.get_overseas_balance = AsyncMock(
            return_value={
                "output2": [
                    {
                        "frcr_evlu_tota": "100000.00",
                        "frcr_dncl_amt_2": "50000.00",
                        "frcr_buy_amt_smtl": "50000.00",
                    }
                ]
            }
        )
        broker.send_overseas_order = AsyncMock(return_value={"msg1": "주문접수"})
        return broker
    @pytest.fixture
    def mock_scenario_engine_buy(self) -> MagicMock:
        """Create mock scenario engine that returns BUY."""
        engine = MagicMock(spec=ScenarioEngine)
        engine.evaluate = MagicMock(return_value=_make_buy_match("AAPL"))
        return engine
    @pytest.mark.asyncio
    async def test_overseas_buy_order_uses_limit_price(
        self,
        mock_domestic_broker: MagicMock,
        mock_overseas_broker_with_buy_scenario: MagicMock,
        mock_scenario_engine_buy: MagicMock,
        mock_playbook: DayPlaybook,
        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:
        """Overseas BUY order must use current_price (limit), not 0 (market).
        KIS VTS rejects market orders for overseas paper trading.
        Regression test for issue #149.
        """
        mock_telegram.notify_trade_execution = AsyncMock()
        with patch("src.main.log_trade"):
            await trading_cycle(
                broker=mock_domestic_broker,
                overseas_broker=mock_overseas_broker_with_buy_scenario,
                scenario_engine=mock_scenario_engine_buy,
                playbook=mock_playbook,
                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 limit order was sent with actual price + 0.5% premium (issue #151), not 0.0
        mock_overseas_broker_with_buy_scenario.send_overseas_order.assert_called_once()
        call_kwargs = mock_overseas_broker_with_buy_scenario.send_overseas_order.call_args
        sent_price = call_kwargs[1].get("price") or call_kwargs[0][4]
        expected_price = round(182.5 * 1.005, 4)  # 0.5% premium for BUY limit orders
        assert sent_price == expected_price, (
            f"Expected limit price {expected_price} (182.5 * 1.005) but got {sent_price}. "
            "KIS VTS only accepts limit orders; BUY uses 0.5% premium to improve fill rate."
        )
 class TestScenarioEngineIntegration:
    """Test scenario engine integration in trading_cycle."""
--- a/tests/test_overseas_broker.py
+++ b/tests/test_overseas_broker.py
@@ -0,0 +1,643 @@
 """Tests for OverseasBroker — rankings, price, balance, order, and helpers."""
 from __future__ import annotations
 from unittest.mock import AsyncMock, MagicMock
 import aiohttp
 import pytest
 from src.broker.kis_api import KISBroker
 from src.broker.overseas import OverseasBroker, _PRICE_EXCHANGE_MAP, _RANKING_EXCHANGE_MAP
 from src.config import Settings
 def _make_async_cm(mock_resp: AsyncMock) -> MagicMock:
    """Create an async context manager that returns mock_resp on __aenter__."""
    cm = MagicMock()
    cm.__aenter__ = AsyncMock(return_value=mock_resp)
    cm.__aexit__ = AsyncMock(return_value=False)
    return cm
@pytest.fixture
 def mock_settings() -> Settings:
    """Provide mock settings with correct default TR_IDs/paths."""
    return Settings(
        KIS_APP_KEY="test_key",
        KIS_APP_SECRET="test_secret",
        KIS_ACCOUNT_NO="12345678-01",
        GEMINI_API_KEY="test_gemini_key",
    )
@pytest.fixture
 def mock_broker(mock_settings: Settings) -> KISBroker:
    """Provide a mock KIS broker."""
    broker = KISBroker(mock_settings)
    broker.get_orderbook = AsyncMock()  # type: ignore[method-assign]
    return broker
@pytest.fixture
 def overseas_broker(mock_broker: KISBroker) -> OverseasBroker:
    """Provide an OverseasBroker wrapping a mock KISBroker."""
    return OverseasBroker(mock_broker)
 def _setup_broker_mocks(overseas_broker: OverseasBroker, mock_session: MagicMock) -> None:
    """Wire up common broker mocks."""
    overseas_broker._broker._rate_limiter.acquire = AsyncMock()
    overseas_broker._broker._get_session = MagicMock(return_value=mock_session)
    overseas_broker._broker._auth_headers = AsyncMock(return_value={})
 class TestRankingExchangeMap:
    """Test exchange code mapping for ranking API."""
    def test_nasd_maps_to_nas(self) -> None:
        assert _RANKING_EXCHANGE_MAP["NASD"] == "NAS"
    def test_nyse_maps_to_nys(self) -> None:
        assert _RANKING_EXCHANGE_MAP["NYSE"] == "NYS"
    def test_amex_maps_to_ams(self) -> None:
        assert _RANKING_EXCHANGE_MAP["AMEX"] == "AMS"
    def test_sehk_maps_to_hks(self) -> None:
        assert _RANKING_EXCHANGE_MAP["SEHK"] == "HKS"
    def test_unmapped_exchange_passes_through(self) -> None:
        assert _RANKING_EXCHANGE_MAP.get("UNKNOWN", "UNKNOWN") == "UNKNOWN"
    def test_tse_unchanged(self) -> None:
        assert _RANKING_EXCHANGE_MAP["TSE"] == "TSE"
 class TestConfigDefaults:
    """Test that config defaults match KIS official API specs."""
    def test_fluct_tr_id(self, mock_settings: Settings) -> None:
        assert mock_settings.OVERSEAS_RANKING_FLUCT_TR_ID == "HHDFS76290000"
    def test_volume_tr_id(self, mock_settings: Settings) -> None:
        assert mock_settings.OVERSEAS_RANKING_VOLUME_TR_ID == "HHDFS76270000"
    def test_fluct_path(self, mock_settings: Settings) -> None:
        assert mock_settings.OVERSEAS_RANKING_FLUCT_PATH == "/uapi/overseas-stock/v1/ranking/updown-rate"
    def test_volume_path(self, mock_settings: Settings) -> None:
        assert mock_settings.OVERSEAS_RANKING_VOLUME_PATH == "/uapi/overseas-stock/v1/ranking/volume-surge"
 class TestFetchOverseasRankings:
    """Test fetch_overseas_rankings method."""
    @pytest.mark.asyncio
    async def test_fluctuation_uses_correct_params(
        self, overseas_broker: OverseasBroker
    ) -> None:
        """Fluctuation ranking should use HHDFS76290000, updown-rate path, and correct params."""
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.json = AsyncMock(
            return_value={"output": [{"symb": "AAPL", "name": "Apple"}]}
        )
        mock_session = MagicMock()
        mock_session.get = MagicMock(return_value=_make_async_cm(mock_resp))
        _setup_broker_mocks(overseas_broker, mock_session)
        overseas_broker._broker._auth_headers = AsyncMock(
            return_value={"authorization": "Bearer test"}
        )
        result = await overseas_broker.fetch_overseas_rankings("NASD", "fluctuation")
        assert len(result) == 1
        assert result[0]["symb"] == "AAPL"
        call_args = mock_session.get.call_args
        url = call_args[0][0]
        params = call_args[1]["params"]
        assert "/uapi/overseas-stock/v1/ranking/updown-rate" in url
        assert params["EXCD"] == "NAS"
        assert params["NDAY"] == "0"
        assert params["GUBN"] == "1"
        assert params["VOL_RANG"] == "0"
        overseas_broker._broker._auth_headers.assert_called_with("HHDFS76290000")
    @pytest.mark.asyncio
    async def test_volume_uses_correct_params(
        self, overseas_broker: OverseasBroker
    ) -> None:
        """Volume ranking should use HHDFS76270000, volume-surge path, and correct params."""
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.json = AsyncMock(
            return_value={"output": [{"symb": "TSLA", "name": "Tesla"}]}
        )
        mock_session = MagicMock()
        mock_session.get = MagicMock(return_value=_make_async_cm(mock_resp))
        _setup_broker_mocks(overseas_broker, mock_session)
        overseas_broker._broker._auth_headers = AsyncMock(
            return_value={"authorization": "Bearer test"}
        )
        result = await overseas_broker.fetch_overseas_rankings("NYSE", "volume")
        assert len(result) == 1
        call_args = mock_session.get.call_args
        url = call_args[0][0]
        params = call_args[1]["params"]
        assert "/uapi/overseas-stock/v1/ranking/volume-surge" in url
        assert params["EXCD"] == "NYS"
        assert params["MIXN"] == "0"
        assert params["VOL_RANG"] == "0"
        assert "NDAY" not in params
        assert "GUBN" not in params
        overseas_broker._broker._auth_headers.assert_called_with("HHDFS76270000")
    @pytest.mark.asyncio
    async def test_404_returns_empty_list(
        self, overseas_broker: OverseasBroker
    ) -> None:
        """HTTP 404 should return empty list (fallback) instead of raising."""
        mock_resp = AsyncMock()
        mock_resp.status = 404
        mock_resp.text = AsyncMock(return_value="Not Found")
        mock_session = MagicMock()
        mock_session.get = MagicMock(return_value=_make_async_cm(mock_resp))
        _setup_broker_mocks(overseas_broker, mock_session)
        result = await overseas_broker.fetch_overseas_rankings("AMEX", "fluctuation")
        assert result == []
    @pytest.mark.asyncio
    async def test_non_404_error_raises(
        self, overseas_broker: OverseasBroker
    ) -> None:
        """Non-404 HTTP errors should raise ConnectionError."""
        mock_resp = AsyncMock()
        mock_resp.status = 500
        mock_resp.text = AsyncMock(return_value="Internal Server Error")
        mock_session = MagicMock()
        mock_session.get = MagicMock(return_value=_make_async_cm(mock_resp))
        _setup_broker_mocks(overseas_broker, mock_session)
        with pytest.raises(ConnectionError, match="500"):
            await overseas_broker.fetch_overseas_rankings("NASD")
    @pytest.mark.asyncio
    async def test_empty_response_returns_empty(
        self, overseas_broker: OverseasBroker
    ) -> None:
        """Empty output in response should return empty list."""
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.json = AsyncMock(return_value={"output": []})
        mock_session = MagicMock()
        mock_session.get = MagicMock(return_value=_make_async_cm(mock_resp))
        _setup_broker_mocks(overseas_broker, mock_session)
        result = await overseas_broker.fetch_overseas_rankings("NASD")
        assert result == []
    @pytest.mark.asyncio
    async def test_ranking_disabled_returns_empty(
        self, overseas_broker: OverseasBroker
    ) -> None:
        """When OVERSEAS_RANKING_ENABLED=False, should return empty immediately."""
        overseas_broker._broker._settings.OVERSEAS_RANKING_ENABLED = False
        result = await overseas_broker.fetch_overseas_rankings("NASD")
        assert result == []
    @pytest.mark.asyncio
    async def test_limit_truncates_results(
        self, overseas_broker: OverseasBroker
    ) -> None:
        """Results should be truncated to the specified limit."""
        rows = [{"symb": f"SYM{i}"} for i in range(20)]
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.json = AsyncMock(return_value={"output": rows})
        mock_session = MagicMock()
        mock_session.get = MagicMock(return_value=_make_async_cm(mock_resp))
        _setup_broker_mocks(overseas_broker, mock_session)
        result = await overseas_broker.fetch_overseas_rankings("NASD", limit=5)
        assert len(result) == 5
    @pytest.mark.asyncio
    async def test_network_error_raises(
        self, overseas_broker: OverseasBroker
    ) -> None:
        """Network errors should raise ConnectionError."""
        cm = MagicMock()
        cm.__aenter__ = AsyncMock(side_effect=aiohttp.ClientError("timeout"))
        cm.__aexit__ = AsyncMock(return_value=False)
        mock_session = MagicMock()
        mock_session.get = MagicMock(return_value=cm)
        _setup_broker_mocks(overseas_broker, mock_session)
        with pytest.raises(ConnectionError, match="Network error"):
            await overseas_broker.fetch_overseas_rankings("NASD")
    @pytest.mark.asyncio
    async def test_exchange_code_mapping_applied(
        self, overseas_broker: OverseasBroker
    ) -> None:
        """All major exchanges should use mapped codes in API params."""
        for original, mapped in [("NASD", "NAS"), ("NYSE", "NYS"), ("AMEX", "AMS")]:
            mock_resp = AsyncMock()
            mock_resp.status = 200
            mock_resp.json = AsyncMock(return_value={"output": [{"symb": "X"}]})
            mock_session = MagicMock()
            mock_session.get = MagicMock(return_value=_make_async_cm(mock_resp))
            _setup_broker_mocks(overseas_broker, mock_session)
            await overseas_broker.fetch_overseas_rankings(original)
            call_params = mock_session.get.call_args[1]["params"]
            assert call_params["EXCD"] == mapped, f"{original} should map to {mapped}"
 class TestGetOverseasPrice:
    """Test get_overseas_price method."""
    @pytest.mark.asyncio
    async def test_success(self, overseas_broker: OverseasBroker) -> None:
        """Successful price fetch returns JSON data."""
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.json = AsyncMock(return_value={"output": {"last": "150.00"}})
        mock_session = MagicMock()
        mock_session.get = MagicMock(return_value=_make_async_cm(mock_resp))
        _setup_broker_mocks(overseas_broker, mock_session)
        overseas_broker._broker._auth_headers = AsyncMock(return_value={"authorization": "Bearer t"})
        result = await overseas_broker.get_overseas_price("NASD", "AAPL")
        assert result["output"]["last"] == "150.00"
        call_args = mock_session.get.call_args
        params = call_args[1]["params"]
        assert params["EXCD"] == "NAS"  # NASD → NAS via _PRICE_EXCHANGE_MAP
        assert params["SYMB"] == "AAPL"
    @pytest.mark.asyncio
    async def test_http_error_raises(self, overseas_broker: OverseasBroker) -> None:
        """Non-200 response should raise ConnectionError."""
        mock_resp = AsyncMock()
        mock_resp.status = 400
        mock_resp.text = AsyncMock(return_value="Bad Request")
        mock_session = MagicMock()
        mock_session.get = MagicMock(return_value=_make_async_cm(mock_resp))
        _setup_broker_mocks(overseas_broker, mock_session)
        with pytest.raises(ConnectionError, match="get_overseas_price failed"):
            await overseas_broker.get_overseas_price("NASD", "AAPL")
    @pytest.mark.asyncio
    async def test_network_error_raises(self, overseas_broker: OverseasBroker) -> None:
        """Network error should raise ConnectionError."""
        cm = MagicMock()
        cm.__aenter__ = AsyncMock(side_effect=aiohttp.ClientError("conn refused"))
        cm.__aexit__ = AsyncMock(return_value=False)
        mock_session = MagicMock()
        mock_session.get = MagicMock(return_value=cm)
        _setup_broker_mocks(overseas_broker, mock_session)
        with pytest.raises(ConnectionError, match="Network error"):
            await overseas_broker.get_overseas_price("NASD", "AAPL")
 class TestGetOverseasBalance:
    """Test get_overseas_balance method."""
    @pytest.mark.asyncio
    async def test_success(self, overseas_broker: OverseasBroker) -> None:
        """Successful balance fetch returns JSON data."""
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.json = AsyncMock(return_value={"output1": [{"pdno": "AAPL"}]})
        mock_session = MagicMock()
        mock_session.get = MagicMock(return_value=_make_async_cm(mock_resp))
        _setup_broker_mocks(overseas_broker, mock_session)
        result = await overseas_broker.get_overseas_balance("NASD")
        assert result["output1"][0]["pdno"] == "AAPL"
    @pytest.mark.asyncio
    async def test_http_error_raises(self, overseas_broker: OverseasBroker) -> None:
        """Non-200 should raise ConnectionError."""
        mock_resp = AsyncMock()
        mock_resp.status = 500
        mock_resp.text = AsyncMock(return_value="Server Error")
        mock_session = MagicMock()
        mock_session.get = MagicMock(return_value=_make_async_cm(mock_resp))
        _setup_broker_mocks(overseas_broker, mock_session)
        with pytest.raises(ConnectionError, match="get_overseas_balance failed"):
            await overseas_broker.get_overseas_balance("NASD")
    @pytest.mark.asyncio
    async def test_network_error_raises(self, overseas_broker: OverseasBroker) -> None:
        """Network error should raise ConnectionError."""
        cm = MagicMock()
        cm.__aenter__ = AsyncMock(side_effect=TimeoutError("timeout"))
        cm.__aexit__ = AsyncMock(return_value=False)
        mock_session = MagicMock()
        mock_session.get = MagicMock(return_value=cm)
        _setup_broker_mocks(overseas_broker, mock_session)
        with pytest.raises(ConnectionError, match="Network error"):
            await overseas_broker.get_overseas_balance("NYSE")
 class TestSendOverseasOrder:
    """Test send_overseas_order method."""
    @pytest.mark.asyncio
    async def test_buy_market_order(self, overseas_broker: OverseasBroker) -> None:
        """Market buy order should use VTTT1002U and ORD_DVSN=01."""
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.json = AsyncMock(return_value={"rt_cd": "0"})
        mock_session = MagicMock()
        mock_session.post = MagicMock(return_value=_make_async_cm(mock_resp))
        _setup_broker_mocks(overseas_broker, mock_session)
        overseas_broker._broker._get_hash_key = AsyncMock(return_value="hashval")
        result = await overseas_broker.send_overseas_order("NASD", "AAPL", "BUY", 10)
        assert result["rt_cd"] == "0"
        # Verify BUY TR_ID
        overseas_broker._broker._auth_headers.assert_called_with("VTTT1002U")
        call_args = mock_session.post.call_args
        body = call_args[1]["json"]
        assert body["ORD_DVSN"] == "01"  # market order
        assert body["OVRS_ORD_UNPR"] == "0"
    @pytest.mark.asyncio
    async def test_sell_limit_order(self, overseas_broker: OverseasBroker) -> None:
        """Limit sell order should use VTTT1006U and ORD_DVSN=00."""
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.json = AsyncMock(return_value={"rt_cd": "0"})
        mock_session = MagicMock()
        mock_session.post = MagicMock(return_value=_make_async_cm(mock_resp))
        _setup_broker_mocks(overseas_broker, mock_session)
        overseas_broker._broker._get_hash_key = AsyncMock(return_value="hashval")
        result = await overseas_broker.send_overseas_order("NYSE", "MSFT", "SELL", 5, price=350.0)
        assert result["rt_cd"] == "0"
        overseas_broker._broker._auth_headers.assert_called_with("VTTT1006U")
        call_args = mock_session.post.call_args
        body = call_args[1]["json"]
        assert body["ORD_DVSN"] == "00"  # limit order
        assert body["OVRS_ORD_UNPR"] == "350.0"
    @pytest.mark.asyncio
    async def test_order_http_error_raises(self, overseas_broker: OverseasBroker) -> None:
        """Non-200 should raise ConnectionError."""
        mock_resp = AsyncMock()
        mock_resp.status = 400
        mock_resp.text = AsyncMock(return_value="Bad Request")
        mock_session = MagicMock()
        mock_session.post = MagicMock(return_value=_make_async_cm(mock_resp))
        _setup_broker_mocks(overseas_broker, mock_session)
        overseas_broker._broker._get_hash_key = AsyncMock(return_value="hashval")
        with pytest.raises(ConnectionError, match="send_overseas_order failed"):
            await overseas_broker.send_overseas_order("NASD", "AAPL", "BUY", 1)
    @pytest.mark.asyncio
    async def test_order_network_error_raises(self, overseas_broker: OverseasBroker) -> None:
        """Network error should raise ConnectionError."""
        cm = MagicMock()
        cm.__aenter__ = AsyncMock(side_effect=aiohttp.ClientError("conn reset"))
        cm.__aexit__ = AsyncMock(return_value=False)
        mock_session = MagicMock()
        mock_session.post = MagicMock(return_value=cm)
        _setup_broker_mocks(overseas_broker, mock_session)
        overseas_broker._broker._get_hash_key = AsyncMock(return_value="hashval")
        with pytest.raises(ConnectionError, match="Network error"):
            await overseas_broker.send_overseas_order("NASD", "TSLA", "SELL", 2)
 class TestGetCurrencyCode:
    """Test _get_currency_code mapping."""
    def test_us_exchanges(self, overseas_broker: OverseasBroker) -> None:
        assert overseas_broker._get_currency_code("NASD") == "USD"
        assert overseas_broker._get_currency_code("NYSE") == "USD"
        assert overseas_broker._get_currency_code("AMEX") == "USD"
    def test_japan(self, overseas_broker: OverseasBroker) -> None:
        assert overseas_broker._get_currency_code("TSE") == "JPY"
    def test_hong_kong(self, overseas_broker: OverseasBroker) -> None:
        assert overseas_broker._get_currency_code("SEHK") == "HKD"
    def test_china(self, overseas_broker: OverseasBroker) -> None:
        assert overseas_broker._get_currency_code("SHAA") == "CNY"
        assert overseas_broker._get_currency_code("SZAA") == "CNY"
    def test_vietnam(self, overseas_broker: OverseasBroker) -> None:
        assert overseas_broker._get_currency_code("HNX") == "VND"
        assert overseas_broker._get_currency_code("HSX") == "VND"
    def test_unknown_defaults_usd(self, overseas_broker: OverseasBroker) -> None:
        assert overseas_broker._get_currency_code("UNKNOWN") == "USD"
 class TestExtractRankingRows:
    """Test _extract_ranking_rows helper."""
    def test_output_key(self, overseas_broker: OverseasBroker) -> None:
        data = {"output": [{"a": 1}, {"b": 2}]}
        assert overseas_broker._extract_ranking_rows(data) == [{"a": 1}, {"b": 2}]
    def test_output1_key(self, overseas_broker: OverseasBroker) -> None:
        data = {"output1": [{"c": 3}]}
        assert overseas_broker._extract_ranking_rows(data) == [{"c": 3}]
    def test_output2_key(self, overseas_broker: OverseasBroker) -> None:
        data = {"output2": [{"d": 4}]}
        assert overseas_broker._extract_ranking_rows(data) == [{"d": 4}]
    def test_no_list_returns_empty(self, overseas_broker: OverseasBroker) -> None:
        data = {"output": "not a list"}
        assert overseas_broker._extract_ranking_rows(data) == []
    def test_empty_data(self, overseas_broker: OverseasBroker) -> None:
        assert overseas_broker._extract_ranking_rows({}) == []
    def test_filters_non_dict_rows(self, overseas_broker: OverseasBroker) -> None:
        data = {"output": [{"a": 1}, "invalid", {"b": 2}]}
        assert overseas_broker._extract_ranking_rows(data) == [{"a": 1}, {"b": 2}]
 class TestPriceExchangeMap:
    """Test _PRICE_EXCHANGE_MAP is applied in get_overseas_price (issue #151)."""
    def test_price_map_equals_ranking_map(self) -> None:
        assert _PRICE_EXCHANGE_MAP is _RANKING_EXCHANGE_MAP
    @pytest.mark.parametrize("original,expected", [
        ("NASD", "NAS"),
        ("NYSE", "NYS"),
        ("AMEX", "AMS"),
    ])
    def test_us_exchange_code_mapping(self, original: str, expected: str) -> None:
        assert _PRICE_EXCHANGE_MAP[original] == expected
    @pytest.mark.asyncio
    async def test_get_overseas_price_sends_mapped_code(
        self, overseas_broker: OverseasBroker
    ) -> None:
        """NASD → NAS must be sent to HHDFS00000300."""
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.json = AsyncMock(return_value={"output": {"last": "200.00"}})
        mock_session = MagicMock()
        mock_session.get = MagicMock(return_value=_make_async_cm(mock_resp))
        _setup_broker_mocks(overseas_broker, mock_session)
        await overseas_broker.get_overseas_price("NASD", "AAPL")
        params = mock_session.get.call_args[1]["params"]
        assert params["EXCD"] == "NAS"
 class TestOrderRtCdCheck:
    """Test that send_overseas_order checks rt_cd and logs accordingly (issue #151)."""
    @pytest.fixture
    def overseas_broker(self, mock_settings: Settings) -> OverseasBroker:
        broker = MagicMock(spec=KISBroker)
        broker._settings = mock_settings
        broker._account_no = "12345678"
        broker._product_cd = "01"
        broker._base_url = "https://openapivts.koreainvestment.com:9443"
        broker._rate_limiter = AsyncMock()
        broker._rate_limiter.acquire = AsyncMock()
        broker._auth_headers = AsyncMock(return_value={"authorization": "Bearer t"})
        broker._get_hash_key = AsyncMock(return_value="hashval")
        return OverseasBroker(broker)
    @pytest.mark.asyncio
    async def test_success_rt_cd_returns_data(
        self, overseas_broker: OverseasBroker
    ) -> None:
        """rt_cd='0' → order accepted, data returned."""
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.json = AsyncMock(return_value={"rt_cd": "0", "msg1": "완료"})
        mock_session = MagicMock()
        mock_session.post = MagicMock(return_value=_make_async_cm(mock_resp))
        overseas_broker._broker._get_session = MagicMock(return_value=mock_session)
        result = await overseas_broker.send_overseas_order("NASD", "AAPL", "BUY", 10, price=150.0)
        assert result["rt_cd"] == "0"
    @pytest.mark.asyncio
    async def test_error_rt_cd_returns_data_with_msg(
        self, overseas_broker: OverseasBroker
    ) -> None:
        """rt_cd != '0' → order rejected, data still returned (caller checks rt_cd)."""
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.json = AsyncMock(
            return_value={"rt_cd": "1", "msg1": "주문가능금액이 부족합니다."}
        )
        mock_session = MagicMock()
        mock_session.post = MagicMock(return_value=_make_async_cm(mock_resp))
        overseas_broker._broker._get_session = MagicMock(return_value=mock_session)
        result = await overseas_broker.send_overseas_order("NASD", "AAPL", "BUY", 10, price=150.0)
        assert result["rt_cd"] == "1"
        assert "부족" in result["msg1"]
 class TestPaperOverseasCash:
    """Test PAPER_OVERSEAS_CASH config setting (issue #151)."""
    def test_default_value(self) -> None:
        settings = Settings(
            KIS_APP_KEY="k",
            KIS_APP_SECRET="s",
            KIS_ACCOUNT_NO="12345678-01",
            GEMINI_API_KEY="g",
        )
        assert settings.PAPER_OVERSEAS_CASH == 50000.0
    def test_env_override(self) -> None:
        import os
        os.environ["PAPER_OVERSEAS_CASH"] = "25000"
        settings = Settings(
            KIS_APP_KEY="k",
            KIS_APP_SECRET="s",
            KIS_ACCOUNT_NO="12345678-01",
            GEMINI_API_KEY="g",
        )
        assert settings.PAPER_OVERSEAS_CASH == 25000.0
        del os.environ["PAPER_OVERSEAS_CASH"]
    def test_zero_disables_fallback(self) -> None:
        import os
        os.environ["PAPER_OVERSEAS_CASH"] = "0"
        settings = Settings(
            KIS_APP_KEY="k",
            KIS_APP_SECRET="s",
            KIS_ACCOUNT_NO="12345678-01",
            GEMINI_API_KEY="g",
        )
        assert settings.PAPER_OVERSEAS_CASH == 0.0
        del os.environ["PAPER_OVERSEAS_CASH"]
--- a/tests/test_pre_market_planner.py
+++ b/tests/test_pre_market_planner.py
@@ -164,18 +164,23 @@ class TestGeneratePlaybook:
        assert pb.market_outlook == MarketOutlook.NEUTRAL
    @pytest.mark.asyncio
-    async def test_gemini_failure_returns_defensive(self) -> None:
+    async def test_gemini_failure_returns_smart_fallback(self) -> None:
        planner = _make_planner()
        planner._gemini.decide = AsyncMock(side_effect=RuntimeError("API timeout"))
        # oversold candidate (signal="oversold", rsi=28.5)
        candidates = [_candidate()]
        pb = await planner.generate_playbook("KR", candidates, today=date(2026, 2, 8))
        assert pb.default_action == ScenarioAction.HOLD
-        assert pb.market_outlook == MarketOutlook.NEUTRAL_TO_BEARISH
+        # Smart fallback uses NEUTRAL outlook (not NEUTRAL_TO_BEARISH)
        assert pb.market_outlook == MarketOutlook.NEUTRAL
        assert pb.stock_count == 1
-        # Defensive playbook has stop-loss scenarios
+        # Oversold candidate → first scenario is BUY, second is SELL stop-loss
-        assert pb.stock_playbooks[0].scenarios[0].action == ScenarioAction.SELL
+        scenarios = pb.stock_playbooks[0].scenarios
        assert scenarios[0].action == ScenarioAction.BUY
        assert scenarios[0].condition.rsi_below == 30
        assert scenarios[1].action == ScenarioAction.SELL
    @pytest.mark.asyncio
    async def test_gemini_failure_empty_when_defensive_disabled(self) -> None:
@@ -657,3 +662,171 @@ class TestDefensivePlaybook:
        assert pb.stock_count == 0
        assert pb.market == "US"
        assert pb.market_outlook == MarketOutlook.NEUTRAL
 # ---------------------------------------------------------------------------
 # Smart fallback playbook
 # ---------------------------------------------------------------------------
 class TestSmartFallbackPlaybook:
    """Tests for _smart_fallback_playbook — rule-based BUY/SELL on Gemini failure."""
    def _make_settings(self) -> Settings:
        return Settings(
            KIS_APP_KEY="test",
            KIS_APP_SECRET="test",
            KIS_ACCOUNT_NO="12345678-01",
            GEMINI_API_KEY="test",
            RSI_OVERSOLD_THRESHOLD=30,
            VOL_MULTIPLIER=2.0,
        )
    def test_momentum_candidate_gets_buy_on_volume(self) -> None:
        candidates = [
            _candidate(code="CHOW", signal="momentum", volume_ratio=13.64, rsi=100.0)
        ]
        settings = self._make_settings()
        pb = PreMarketPlanner._smart_fallback_playbook(
            date(2026, 2, 17), "US_AMEX", candidates, settings
        )
        assert pb.stock_count == 1
        sp = pb.stock_playbooks[0]
        assert sp.stock_code == "CHOW"
        # First scenario: BUY with volume_ratio_above
        buy_sc = sp.scenarios[0]
        assert buy_sc.action == ScenarioAction.BUY
        assert buy_sc.condition.volume_ratio_above == 2.0
        assert buy_sc.condition.rsi_below is None
        assert buy_sc.confidence == 80
        # Second scenario: stop-loss SELL
        sell_sc = sp.scenarios[1]
        assert sell_sc.action == ScenarioAction.SELL
        assert sell_sc.condition.price_change_pct_below == -3.0
    def test_oversold_candidate_gets_buy_on_rsi(self) -> None:
        candidates = [
            _candidate(code="005930", signal="oversold", rsi=22.0, volume_ratio=3.5)
        ]
        settings = self._make_settings()
        pb = PreMarketPlanner._smart_fallback_playbook(
            date(2026, 2, 17), "KR", candidates, settings
        )
        sp = pb.stock_playbooks[0]
        buy_sc = sp.scenarios[0]
        assert buy_sc.action == ScenarioAction.BUY
        assert buy_sc.condition.rsi_below == 30
        assert buy_sc.condition.volume_ratio_above is None
    def test_all_candidates_have_stop_loss_sell(self) -> None:
        candidates = [
            _candidate(code="AAA", signal="momentum", volume_ratio=5.0),
            _candidate(code="BBB", signal="oversold", rsi=25.0),
        ]
        settings = self._make_settings()
        pb = PreMarketPlanner._smart_fallback_playbook(
            date(2026, 2, 17), "US_NASDAQ", candidates, settings
        )
        assert pb.stock_count == 2
        for sp in pb.stock_playbooks:
            sell_scenarios = [s for s in sp.scenarios if s.action == ScenarioAction.SELL]
            assert len(sell_scenarios) == 1
            assert sell_scenarios[0].condition.price_change_pct_below == -3.0
            assert sell_scenarios[0].condition.price_change_pct_below == -3.0
    def test_market_outlook_is_neutral(self) -> None:
        candidates = [_candidate(signal="momentum", volume_ratio=5.0)]
        settings = self._make_settings()
        pb = PreMarketPlanner._smart_fallback_playbook(
            date(2026, 2, 17), "US_AMEX", candidates, settings
        )
        assert pb.market_outlook == MarketOutlook.NEUTRAL
    def test_default_action_is_hold(self) -> None:
        candidates = [_candidate(signal="momentum", volume_ratio=5.0)]
        settings = self._make_settings()
        pb = PreMarketPlanner._smart_fallback_playbook(
            date(2026, 2, 17), "US_AMEX", candidates, settings
        )
        assert pb.default_action == ScenarioAction.HOLD
    def test_has_global_reduce_all_rule(self) -> None:
        candidates = [_candidate(signal="momentum", volume_ratio=5.0)]
        settings = self._make_settings()
        pb = PreMarketPlanner._smart_fallback_playbook(
            date(2026, 2, 17), "US_AMEX", candidates, settings
        )
        assert len(pb.global_rules) == 1
        rule = pb.global_rules[0]
        assert rule.action == ScenarioAction.REDUCE_ALL
        assert "portfolio_pnl_pct" in rule.condition
    def test_empty_candidates_returns_empty_playbook(self) -> None:
        settings = self._make_settings()
        pb = PreMarketPlanner._smart_fallback_playbook(
            date(2026, 2, 17), "US_AMEX", [], settings
        )
        assert pb.stock_count == 0
    def test_vol_multiplier_applied_from_settings(self) -> None:
        """VOL_MULTIPLIER=3.0 should set volume_ratio_above=3.0 for momentum."""
        candidates = [_candidate(signal="momentum", volume_ratio=5.0)]
        settings = self._make_settings()
        settings = settings.model_copy(update={"VOL_MULTIPLIER": 3.0})
        pb = PreMarketPlanner._smart_fallback_playbook(
            date(2026, 2, 17), "US_AMEX", candidates, settings
        )
        buy_sc = pb.stock_playbooks[0].scenarios[0]
        assert buy_sc.condition.volume_ratio_above == 3.0
    def test_rsi_oversold_threshold_applied_from_settings(self) -> None:
        """RSI_OVERSOLD_THRESHOLD=25 should set rsi_below=25 for oversold."""
        candidates = [_candidate(signal="oversold", rsi=22.0)]
        settings = self._make_settings()
        settings = settings.model_copy(update={"RSI_OVERSOLD_THRESHOLD": 25})
        pb = PreMarketPlanner._smart_fallback_playbook(
            date(2026, 2, 17), "KR", candidates, settings
        )
        buy_sc = pb.stock_playbooks[0].scenarios[0]
        assert buy_sc.condition.rsi_below == 25
    @pytest.mark.asyncio
    async def test_generate_playbook_uses_smart_fallback_on_gemini_error(self) -> None:
        """generate_playbook() should use smart fallback (not defensive) on API failure."""
        planner = _make_planner()
        planner._gemini.decide = AsyncMock(side_effect=ConnectionError("429 quota exceeded"))
        # momentum candidate
        candidates = [
            _candidate(code="CHOW", signal="momentum", volume_ratio=13.64, rsi=100.0)
        ]
        pb = await planner.generate_playbook(
            "US_AMEX", candidates, today=date(2026, 2, 18)
        )
        # Should NOT be all-SELL defensive; should have BUY for momentum
        assert pb.stock_count == 1
        buy_scenarios = [
            s for s in pb.stock_playbooks[0].scenarios
            if s.action == ScenarioAction.BUY
        ]
        assert len(buy_scenarios) == 1
        assert buy_scenarios[0].condition.volume_ratio_above == 2.0  # VOL_MULTIPLIER default
--- a/tests/test_smart_scanner.py
+++ b/tests/test_smart_scanner.py
@@ -8,6 +8,7 @@ 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.broker.overseas import OverseasBroker
 from src.config import Settings
@@ -43,61 +44,70 @@ def scanner(mock_broker: MagicMock, mock_settings: Settings) -> SmartVolatilityS
    analyzer = VolatilityAnalyzer()
    return SmartVolatilityScanner(
        broker=mock_broker,
        overseas_broker=None,
        volatility_analyzer=analyzer,
        settings=mock_settings,
    )
@pytest.fixture
 def mock_overseas_broker() -> MagicMock:
    """Create mock overseas broker."""
    broker = MagicMock(spec=OverseasBroker)
    broker.get_overseas_price = AsyncMock()
    broker.fetch_overseas_rankings = AsyncMock(return_value=[])
    return broker
 class TestSmartVolatilityScanner:
    """Test suite for SmartVolatilityScanner."""
    @pytest.mark.asyncio
-    async def test_scan_finds_oversold_candidates(
+    async def test_scan_domestic_prefers_volatility_with_liquidity_bonus(
        self, scanner: SmartVolatilityScanner, mock_broker: MagicMock
    ) -> None:
-        """Test that scanner identifies oversold stocks with high volume."""
+        """Domestic scan should score by volatility first and volume rank second."""
-        # Mock rankings
+        fluctuation_rows = [
        mock_broker.fetch_market_rankings.return_value = [
            {
                "stock_code": "005930",
                "name": "Samsung",
                "price": 70000,
                "volume": 5000000,
-                "change_rate": -3.5,
+                "change_rate": -5.0,
                "volume_increase_rate": 250,
            },
            {
                "stock_code": "035420",
                "name": "NAVER",
                "price": 250000,
                "volume": 3000000,
                "change_rate": 3.0,
                "volume_increase_rate": 200,
            },
        ]
        volume_rows = [
            {"stock_code": "035420", "name": "NAVER", "price": 250000, "volume": 3000000},
            {"stock_code": "005930", "name": "Samsung", "price": 70000, "volume": 5000000},
        ]
        mock_broker.fetch_market_rankings.side_effect = [fluctuation_rows, volume_rows]
        mock_broker.get_daily_prices.return_value = [
            {"open": 1, "high": 1, "low": 1, "close": 1, "volume": 1000000},
            {"open": 1, "high": 1, "low": 1, "close": 1, "volume": 1000000},
        ]
        # 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)
+        assert len(candidates) >= 1
-        mock_broker.fetch_market_rankings.assert_called_once()
+        # Samsung has higher absolute move, so it should lead despite lower volume rank bonus.
-        mock_broker.get_daily_prices.assert_called_once_with("005930", days=20)
+        assert candidates[0].stock_code == "005930"
-
+        assert candidates[0].signal == "oversold"
        # 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(
+    async def test_scan_domestic_finds_momentum_candidate(
        self, scanner: SmartVolatilityScanner, mock_broker: MagicMock
    ) -> None:
-        """Test that scanner identifies momentum stocks with high volume."""
+        """Positive change should be represented as momentum signal."""
-        mock_broker.fetch_market_rankings.return_value = [
+        fluctuation_rows = [
            {
                "stock_code": "035420",
                "name": "NAVER",
@@ -107,124 +117,67 @@ class TestSmartVolatilityScanner:
                "volume_increase_rate": 300,
            },
        ]
-
+        mock_broker.fetch_market_rankings.side_effect = [fluctuation_rows, fluctuation_rows]
-        # Mock daily prices - trending up (momentum)
+        mock_broker.get_daily_prices.return_value = [
-        prices = []
+            {"open": 1, "high": 1, "low": 1, "close": 1, "volume": 1000000},
-        for i in range(20):
+            {"open": 1, "high": 1, "low": 1, "close": 1, "volume": 1000000},
-            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()
+        assert [c.stock_code for c in candidates] == ["035420"]
        assert candidates[0].signal == "momentum"
    @pytest.mark.asyncio
-    async def test_scan_filters_low_volume(
+    async def test_scan_domestic_filters_low_volatility(
        self, scanner: SmartVolatilityScanner, mock_broker: MagicMock
    ) -> None:
-        """Test that stocks with low volume ratio are filtered out."""
+        """Domestic scan should drop symbols below volatility threshold."""
-        mock_broker.fetch_market_rankings.return_value = [
+        fluctuation_rows = [
            {
                "stock_code": "000660",
                "name": "SK Hynix",
                "price": 150000,
                "volume": 500000,
-                "change_rate": -5.0,
+                "change_rate": 0.2,
-                "volume_increase_rate": 50,  # Only 50% increase (< 200%)
+                "volume_increase_rate": 50,
            },
        ]
-
+        mock_broker.fetch_market_rankings.side_effect = [fluctuation_rows, fluctuation_rows]
-        # Low volume
+        mock_broker.get_daily_prices.return_value = [
-        prices = []
+            {"open": 1, "high": 150100, "low": 149900, "close": 150000, "volume": 1000000},
-        for i in range(20):
+            {"open": 1, "high": 150100, "low": 149900, "close": 150000, "volume": 1000000},
-            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."""
+        """Domestic scan should remain operational using fallback symbols."""
-        mock_broker.fetch_market_rankings.side_effect = ConnectionError("API unavailable")
+        mock_broker.fetch_market_rankings.side_effect = [
-
+            ConnectionError("API unavailable"),
-        # Fallback stocks should still be analyzed
+            ConnectionError("API unavailable"),
-        prices = []
+        ]
-        for i in range(20):
+        mock_broker.get_daily_prices.return_value = [
-            prices.append({
+            {"open": 1, "high": 103, "low": 97, "close": 100, "volume": 1000000},
-                "date": f"2026020{i:02d}",
+            {"open": 1, "high": 103, "low": 97, "close": 100, "volume": 800000},
-                "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)
        assert len(candidates) >= 1
    @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
+        fluctuation_rows = [
        mock_broker.fetch_market_rankings.return_value = [
            {
                "stock_code": f"00{i}000",
                "name": f"Stock{i}",
@@ -235,62 +188,17 @@ class TestSmartVolatilityScanner:
            }
            for i in range(1, 10)
        ]
-
+        mock_broker.fetch_market_rankings.side_effect = [fluctuation_rows, fluctuation_rows]
-        # All oversold with high volume
+        mock_broker.get_daily_prices.return_value = [
-        def make_prices(code: str) -> list[dict]:
+            {"open": 1, "high": 105, "low": 95, "close": 100, "volume": 1000000},
-            prices = []
+            {"open": 1, "high": 105, "low": 95, "close": 100, "volume": 900000},
-            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
@@ -323,6 +231,124 @@ class TestSmartVolatilityScanner:
        assert codes == ["005930", "035420"]
    @pytest.mark.asyncio
    async def test_scan_overseas_uses_dynamic_symbols(
        self, mock_broker: MagicMock, mock_overseas_broker: MagicMock, mock_settings: Settings
    ) -> None:
        """Overseas scan should use provided dynamic universe symbols."""
        analyzer = VolatilityAnalyzer()
        scanner = SmartVolatilityScanner(
            broker=mock_broker,
            overseas_broker=mock_overseas_broker,
            volatility_analyzer=analyzer,
            settings=mock_settings,
        )
        market = MagicMock()
        market.name = "NASDAQ"
        market.code = "US_NASDAQ"
        market.exchange_code = "NASD"
        market.is_domestic = False
        mock_overseas_broker.get_overseas_price.side_effect = [
            {"output": {"last": "210.5", "rate": "1.6", "tvol": "1500000"}},
            {"output": {"last": "330.1", "rate": "0.2", "tvol": "900000"}},
        ]
        candidates = await scanner.scan(
            market=market,
            fallback_stocks=["AAPL", "MSFT"],
        )
        assert [c.stock_code for c in candidates] == ["AAPL"]
        assert candidates[0].signal == "momentum"
        assert candidates[0].price == 210.5
    @pytest.mark.asyncio
    async def test_scan_overseas_uses_ranking_api_first(
        self, mock_broker: MagicMock, mock_overseas_broker: MagicMock, mock_settings: Settings
    ) -> None:
        """Overseas scan should prioritize ranking API when available."""
        analyzer = VolatilityAnalyzer()
        scanner = SmartVolatilityScanner(
            broker=mock_broker,
            overseas_broker=mock_overseas_broker,
            volatility_analyzer=analyzer,
            settings=mock_settings,
        )
        market = MagicMock()
        market.name = "NASDAQ"
        market.code = "US_NASDAQ"
        market.exchange_code = "NASD"
        market.is_domestic = False
        mock_overseas_broker.fetch_overseas_rankings.return_value = [
            {"symb": "NVDA", "last": "780.2", "rate": "2.4", "tvol": "1200000"},
            {"symb": "MSFT", "last": "420.0", "rate": "0.3", "tvol": "900000"},
        ]
        candidates = await scanner.scan(market=market, fallback_stocks=["AAPL", "TSLA"])
        assert mock_overseas_broker.fetch_overseas_rankings.call_count >= 1
        mock_overseas_broker.get_overseas_price.assert_not_called()
        assert [c.stock_code for c in candidates] == ["NVDA"]
    @pytest.mark.asyncio
    async def test_scan_overseas_without_symbols_returns_empty(
        self, mock_broker: MagicMock, mock_overseas_broker: MagicMock, mock_settings: Settings
    ) -> None:
        """Overseas scan should return empty list when no symbol universe exists."""
        analyzer = VolatilityAnalyzer()
        scanner = SmartVolatilityScanner(
            broker=mock_broker,
            overseas_broker=mock_overseas_broker,
            volatility_analyzer=analyzer,
            settings=mock_settings,
        )
        market = MagicMock()
        market.name = "NASDAQ"
        market.code = "US_NASDAQ"
        market.exchange_code = "NASD"
        market.is_domestic = False
        candidates = await scanner.scan(market=market, fallback_stocks=[])
        assert candidates == []
    @pytest.mark.asyncio
    async def test_scan_overseas_picks_high_intraday_range_even_with_low_change(
        self, mock_broker: MagicMock, mock_overseas_broker: MagicMock, mock_settings: Settings
    ) -> None:
        """Volatility selection should consider intraday range, not only change rate."""
        analyzer = VolatilityAnalyzer()
        scanner = SmartVolatilityScanner(
            broker=mock_broker,
            overseas_broker=mock_overseas_broker,
            volatility_analyzer=analyzer,
            settings=mock_settings,
        )
        market = MagicMock()
        market.name = "NASDAQ"
        market.code = "US_NASDAQ"
        market.exchange_code = "NASD"
        market.is_domestic = False
        # change rate is tiny, but high-low range is large (15%).
        mock_overseas_broker.fetch_overseas_rankings.return_value = [
            {
                "symb": "ABCD",
                "last": "100",
                "rate": "0.2",
                "high": "110",
                "low": "95",
                "tvol": "800000",
            }
        ]
        candidates = await scanner.scan(market=market, fallback_stocks=[])
        assert [c.stock_code for c in candidates] == ["ABCD"]
 class TestRSICalculation:
    """Test RSI calculation in VolatilityAnalyzer."""
Author	SHA1	Message	Date
agentson	2e550f8b58	fix: correct TR_ID, path, and params for fetch_market_rankings (#155 ) Some checks failed CI / test (pull_request) Has been cancelled Details Three bugs found by comparing against KIS official GitHub examples: 1. FID_COND_SCR_DIV_CODE: "20001" → "20171" (volume-rank screen code) 2. FID_TRGT_EXLS_CLS_CODE: "000000" (6-digit) → "0000000000" (10-digit) 3. fluctuation ranking: - TR_ID: "FHPST01710100" (invalid) → "FHPST01700000" - path: /quotations/volume-rank → /ranking/fluctuation - params: volume-rank params → lowercase fluctuation-specific params (fid_rank_sort_cls_code, fid_input_cnt_1, fid_prc_cls_code, fid_rsfl_rate1, fid_rsfl_rate2, etc.) Note: VTS (paper trading) does not return data from ranking APIs regardless of parameter correctness — this is a KIS policy restriction, not a code bug. These fixes ensure correct behavior when switching to a live account. Tests: TestFetchMarketRankings (3 tests) added to test_broker.py Closes #155 Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>	2026-02-19 10:25:38 +09:00
jihoson	c76e2dfed5	Merge pull request 'fix: overseas order rt_cd check + limit price premium + paper cash fallback (#151 )' (#152 ) from feature/issue-151-overseas-order-fixes into main Some checks failed CI / test (push) Has been cancelled Details Reviewed-on: #152	2026-02-19 06:01:54 +09:00
agentson	24fa22e77b	fix: overseas order rt_cd check, limit price premium, paper cash fallback (#151 ) Some checks failed CI / test (pull_request) Has been cancelled Details Three fixes for overseas stock trading failures: 1. Price API exchange code mapping: - get_overseas_price() now applies _PRICE_EXCHANGE_MAP (NASD→NAS, NYSE→NYS, AMEX→AMS) - Price API HHDFS00000300 requires short exchange codes same as ranking API 2. rt_cd check in send_overseas_order(): - Log WARNING (not INFO) when rt_cd != "0" (e.g., "주문가능금액이 부족합니다") - Caller (main.py) checks rt_cd == "0" before calling log_trade() - Prevents DB from recording failed orders as successful trades 3. Limit order price premium for BUY: - BUY limit price = current_price * 1.005 (0.5% premium) - SELL limit price = current_price (no premium) - Improves fill probability: KIS VTS only accepts limit orders, and last price is typically at or below ask 4. PAPER_OVERSEAS_CASH fallback (config + main.py): - New setting: PAPER_OVERSEAS_CASH = 50000.0 (USD) - When VTS overseas balance API fails/returns 0, use this as simulated cash - Applied in both trading_cycle() and run_daily_session() 5. Candidate price fallback: - If price API returns 0, use scanner candidate price as fallback Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>	2026-02-19 05:58:15 +09:00
jihoson	cd1579058c	Merge pull request 'fix: overseas order uses limit price, not hardcoded 0 (#149 )' (#150 ) from feature/issue-149-overseas-limit-order-price into main Some checks failed CI / test (push) Has been cancelled Details Reviewed-on: #150	2026-02-19 05:50:31 +09:00
jihoson	45b48fa7cd	Merge pull request 'fix: overseas price API exchange code + VTS balance fallback (#147 )' (#148 ) from feature/issue-147-overseas-price-balance-fix into main Some checks failed CI / test (push) Has been cancelled Details Reviewed-on: #148	2026-02-19 05:49:38 +09:00
agentson	3952a5337b	docs: add requirements log entry for overseas limit order fix (#149 ) Some checks failed CI / test (pull_request) Has been cancelled Details	2026-02-18 23:54:18 +09:00
agentson	ccc97ebaa9	fix: use current_price for overseas limit orders (KIS VTS rejects market orders) (#149 ) Some checks failed CI / test (pull_request) Has been cancelled Details KIS VTS (paper trading) rejects overseas market orders with: "모의투자 주문처리가 안되었습니다(지정가만 가능한 상품입니다)" Root cause: send_overseas_order() was called with price=0.0 (market order) in both trading_cycle() and run_daily_session(), even though current_price was already computed correctly by Fix #147 (exchange code mapping). Fix: pass current_price as the limit order price in both call sites. Domestic broker send_order() keeps price=0 (market orders are fine on KRX). Adds regression test TestOverseasBalanceParsing::test_overseas_buy_order_uses_limit_price verifying price=182.5 is passed, not 0.0. Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>	2026-02-18 23:53:15 +09:00
agentson	3a54db8948	fix: price API exchange code mapping and VTS overseas balance fallback (#147 ) Some checks failed CI / test (pull_request) Has been cancelled Details - Apply _PRICE_EXCHANGE_MAP in get_overseas_price() to send short codes (NASD→NAS, NYSE→NYS, AMEX→AMS) required by HHDFS00000300 price API - Add PAPER_OVERSEAS_CASH config setting (default $50,000) for simulated USD balance when VTS overseas balance API returns 0 in paper mode - Fall back to scan candidate price when live price API returns 0 - Both fixes together resolve "no affordable quantity (cash=0, price=0)" which was preventing all overseas trade execution Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>	2026-02-18 23:48:14 +09:00
agentson	96e2ad4f1f	fix: use smart rule-based fallback playbook when Gemini fails (issue #145 ) Some checks failed CI / test (pull_request) Has been cancelled Details When gemini-2.5-flash quota is exhausted (20 RPD free tier), generate_playbook() fell back to _defensive_playbook() which only had price_change_pct_below: -3.0 SELL conditions — no BUY conditions — causing zero trades on US market despite scanner finding strong momentum/oversold candidates. Changes: - Add _smart_fallback_playbook() that uses scanner signals to build BUY conditions: - momentum signal: BUY when volume_ratio_above=VOL_MULTIPLIER - oversold signal: BUY when rsi_below=RSI_OVERSOLD_THRESHOLD - always: SELL stop-loss at price_change_pct_below=-3.0 - Use _smart_fallback_playbook() instead of _defensive_playbook() on Gemini failure - Add 10 new tests for _smart_fallback_playbook() covering momentum/oversold/empty cases - Update existing test_gemini_failure_returns_defensive to match new behavior Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>	2026-02-18 22:23:57 +09:00
jihoson	c5a8982122	Merge pull request 'Fix: gemini_client.decide() ignores prompt_override (#143 )' (#144 ) from feature/issue-143-fix-prompt-override into main Some checks failed CI / test (push) Has been cancelled Details Reviewed-on: #144	2026-02-18 02:05:50 +09:00
agentson	f7289606fc	fix: use prompt_override in gemini_client.decide() for playbook generation Some checks failed CI / test (pull_request) Has been cancelled Details decide() ignored market_data["prompt_override"], always building a generic trade-decision prompt. This caused pre_market_planner playbook generation to fail with JSONDecodeError on every market, falling back to defensive playbooks. Now prompt_override takes priority over both optimization and standard prompt building. Closes #143 Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>	2026-02-18 02:02:13 +09:00
jihoson	0c5c90201f	Merge pull request 'fix: correct KIS overseas ranking API TR_IDs, paths, and exchange codes' (#142 ) from feature/issue-141-fix-overseas-ranking-api into main Some checks failed CI / test (push) Has been cancelled Details Reviewed-on: #142	2026-02-18 01:13:07 +09:00
agentson	b484f0daff	fix: align cooldown test with wait-and-retry behavior + boost overseas coverage Some checks failed CI / test (pull_request) Has been cancelled Details - test_token_refresh_cooldown: updated to match the wait-then-retry behavior introduced in `aeed881` (was expecting fail-fast ConnectionError) - Added 22 tests for OverseasBroker: get_overseas_price, get_overseas_balance, send_overseas_order, _get_currency_code, _extract_ranking_rows - src/broker/overseas.py coverage: 52% → 100% - All 594 tests pass Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>	2026-02-18 01:12:09 +09:00
agentson	1288181e39	docs: add requirements log entry for overseas ranking API fix Some checks failed CI / test (pull_request) Has been cancelled Details Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>	2026-02-18 01:04:42 +09:00
agentson	b625f41621	fix: correct KIS overseas ranking API TR_IDs, paths, and exchange codes Some checks failed CI / test (pull_request) Has been cancelled Details The overseas ranking API was returning 404 for all exchanges because the TR_IDs, API paths, and exchange codes were all incorrect. Updated to match KIS official API documentation: - TR_ID: HHDFS76290000 (updown-rate), HHDFS76270000 (volume-surge) - Path: /uapi/overseas-stock/v1/ranking/{updown-rate,volume-surge} - Exchange codes: NASD→NAS, NYSE→NYS, AMEX→AMS via ranking-specific mapping Fixes #141 Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>	2026-02-18 01:02:52 +09:00
jihoson	77d3ba967c	Merge pull request 'Fix overnight runner stability and token cooldown handling' (#139 ) from agentson/fix/137-run-overnight-python-tmux into main Some checks failed CI / test (push) Has been cancelled Details Reviewed-on: #139	2026-02-18 00:05:44 +09:00
agentson	aeed881d85	fix: wait on token refresh cooldown instead of failing fast Some checks failed CI / test (pull_request) Has been cancelled Details	2026-02-18 00:03:42 +09:00
agentson	d0bbdb5dc1	fix: harden overseas ranking fallback and scanner visibility	2026-02-17 23:39:20 +09:00
jihoson	44339c52d7	Merge pull request 'Fix overnight runner Python selection and tmux window targeting' (#138 ) from agentson/fix/137-run-overnight-python-tmux into main Some checks failed CI / test (push) Has been cancelled Details Reviewed-on: #138	2026-02-17 23:25:11 +09:00
agentson	22ffdafacc	chore: add overnight helper scripts Some checks failed CI / test (pull_request) Has been cancelled Details - add morning report launcher\n- add overnight stop script\n- add watchdog health monitor script\n\nRefs #137	2026-02-17 23:24:15 +09:00
agentson	c49765e951	fix: make overnight runner use venv python and tmux-safe window target Some checks failed CI / test (pull_request) Has been cancelled Details - prefer .venv/bin/python when APP_CMD is unset\n- pass DASHBOARD_PORT into launch command (default 8080)\n- target tmux window by name instead of fixed index\n\nRefs #137	2026-02-17 23:21:04 +09:00
jihoson	64000b9967	Merge pull request 'feat: unify domestic scanner and sizing; update docs' (#136 ) from feat/overseas-ranking-current-state into main Some checks failed CI / test (push) Has been cancelled Details Reviewed-on: #136	2026-02-17 06:35:43 +09:00
agentson	733e6b36e9	feat: unify domestic scanner and sizing; update docs Some checks failed CI / test (pull_request) Has been cancelled Details	2026-02-17 06:29:36 +09:00
agentson	0659cc0aca	docs: reflect overseas ranking integration and volatility-first selection	2026-02-17 06:29:16 +09:00
agentson	748b9b848e	feat: prioritize overseas volatility scoring over raw rankings	2026-02-17 06:25:45 +09:00
agentson	6a1ad230ee	feat: add overseas ranking integration with dynamic fallback	2026-02-17 06:25:45 +09:00
jihoson	90bbc78867	Merge pull request 'docs: sync V2 status and process docs (#131 )' (#134 ) from feature/issue-131-docs-v2-status-sync into main Some checks failed CI / test (push) Has been cancelled Details Reviewed-on: #134 Reviewed-by: jihoson <kiparang7th@gmail.com>	2026-02-16 21:50:49 +09:00