Files
crypto_monitor/account_risk_lib.py
T
dekun 9c778e0232 fix(risk): align freeze countdown with latest close not stale 4h until
Pick the shortest active cooloff end and derive 1h/4h label from remaining time.

Co-authored-by: Cursor <cursoragent@cursor.com>
2026-06-18 20:27:13 +08:00

592 lines
18 KiB
Python

"""账户冷静期 / 日冻结风控(四所实例共用)。"""
from __future__ import annotations
import os
from datetime import datetime, timezone
from typing import Any, Callable, Optional
STATUS_NORMAL = "normal"
STATUS_FREEZE_1H = "freeze_1h"
STATUS_FREEZE_4H = "freeze_4h"
STATUS_DAILY = "freeze_daily"
STATUS_LABELS = {
STATUS_NORMAL: "正常",
STATUS_FREEZE_1H: "1h冻结",
STATUS_FREEZE_4H: "4h冻结",
STATUS_DAILY: "日冻结",
}
MOOD_ISSUE_OPTIONS = (
"怕踏空",
"报复开仓",
"盈利飘了",
"拿不住单",
"扛单",
"重仓违规",
)
# 仅以下来源计入「手动平仓」风控(用户主动点平仓/结束计划)
CLOSE_SOURCE_USER_INSTANCE = "user_instance"
CLOSE_SOURCE_USER_HUB = "user_hub"
CLOSE_SOURCE_USER_TREND_STOP = "user_trend_stop"
USER_INITIATED_CLOSE_SOURCES = frozenset(
{
CLOSE_SOURCE_USER_INSTANCE,
CLOSE_SOURCE_USER_HUB,
CLOSE_SOURCE_USER_TREND_STOP,
}
)
def _env_bool(key: str, default: bool = True) -> bool:
raw = (os.getenv(key) or "").strip().lower()
if not raw:
return default
return raw in ("1", "true", "yes", "on")
def _env_hours(key: str, default: float) -> float:
try:
v = float(os.getenv(key, str(default)))
except (TypeError, ValueError):
v = default
return max(0.0, v)
def _app_tz():
from zoneinfo import ZoneInfo
name = (os.getenv("APP_TIMEZONE") or os.getenv("TZ") or "Asia/Shanghai").strip()
try:
return ZoneInfo(name)
except Exception:
return ZoneInfo("Asia/Shanghai")
def risk_control_enabled() -> bool:
return _env_bool("RISK_CONTROL_ENABLED", True)
def cooling_hours_manual() -> float:
return _env_hours("RISK_COOLING_HOURS_MANUAL", 4.0)
def cooling_hours_manual_journal() -> float:
return _env_hours("RISK_COOLING_HOURS_MANUAL_JOURNAL", 1.0)
def manual_close_daily_limit() -> int:
try:
return max(1, int(os.getenv("RISK_MANUAL_CLOSE_DAILY_LIMIT", "2")))
except (TypeError, ValueError):
return 2
def mood_issues_daily_freeze_enabled() -> bool:
return _env_bool("RISK_MOOD_ISSUES_DAILY_FREEZE", True)
def ensure_account_risk_schema(conn) -> None:
conn.execute(
"""CREATE TABLE IF NOT EXISTS account_risk_state (
id INTEGER PRIMARY KEY CHECK (id = 1),
trading_day TEXT,
manual_close_count INTEGER DEFAULT 0,
cooloff_until_ms INTEGER,
cooloff_hours INTEGER,
daily_frozen INTEGER DEFAULT 0,
pending_journal_trade_id INTEGER,
last_close_at_ms INTEGER,
updated_at TEXT
)"""
)
row = conn.execute("SELECT id FROM account_risk_state WHERE id=1").fetchone()
if not row:
conn.execute(
"INSERT INTO account_risk_state (id, trading_day, manual_close_count, daily_frozen) VALUES (1, '', 0, 0)"
)
def _row_get(row, key, default=None):
if row is None:
return default
try:
return row[key]
except (KeyError, IndexError, TypeError):
return default
def _now_ms(now: Optional[datetime] = None) -> int:
dt = now or datetime.now()
if dt.tzinfo is None:
dt = dt.replace(tzinfo=_app_tz())
return int(dt.timestamp() * 1000)
def _normalize_epoch_ms(ms: int, ref_now_ms: Optional[int] = None) -> int:
"""修正旧版把北京时间 naive 当作 UTC 写入的 epoch 毫秒。"""
tz = _app_tz()
off = datetime.now(tz).utcoffset()
if not off:
return int(ms)
offset_ms = int(off.total_seconds() * 1000)
if offset_ms == 0:
return int(ms)
ref = int(ref_now_ms) if ref_now_ms is not None else _now_ms(datetime.now(tz))
corrected = int(ms) - offset_ms
if abs(int(ms) - ref) <= abs(corrected - ref):
return int(ms)
return corrected
def _cooloff_hours_value(row) -> float:
return float(_row_get(row, "cooloff_hours") or cooling_hours_manual())
def _resolved_cooloff_until_ms(row, now_ms: int) -> Optional[int]:
"""取仍有效的冷静期结束时刻(多源时用最短未过期时间,避免旧 4h 覆盖复盘后的 1h)。"""
raw_until = _cooloff_until_ms(row)
last = _row_get(row, "last_close_at_ms")
hours = _cooloff_hours_value(row)
candidates: list[int] = []
if raw_until is not None:
try:
candidates.append(_normalize_epoch_ms(int(raw_until), now_ms))
except (TypeError, ValueError):
pass
if last is not None:
try:
last_i = _normalize_epoch_ms(int(last), now_ms)
candidates.append(last_i + int(hours * 3600 * 1000))
except (TypeError, ValueError):
pass
active = [c for c in candidates if c > now_ms]
if not active:
return None
return min(active)
def _freeze_tier_from_remaining_ms(remaining_ms: int) -> str:
journal_h = cooling_hours_manual_journal()
rh = remaining_ms / 3600000.0
if rh <= journal_h + (5 / 60):
return STATUS_FREEZE_1H
return STATUS_FREEZE_4H
def _ms_to_local_str(ms: Optional[int], fmt_local: Callable[[int], str]) -> Optional[str]:
if ms is None:
return None
try:
return fmt_local(int(ms))
except Exception:
return None
def _load_state(conn):
ensure_account_risk_schema(conn)
return conn.execute("SELECT * FROM account_risk_state WHERE id=1").fetchone()
def _sync_trading_day(conn, trading_day: str, now: Optional[datetime] = None) -> Any:
row = _load_state(conn)
td = (trading_day or "").strip()
stored = str(_row_get(row, "trading_day") or "").strip()
if stored != td:
conn.execute(
"""UPDATE account_risk_state SET
trading_day=?,
manual_close_count=0,
daily_frozen=0,
updated_at=?
WHERE id=1""",
(td, (now or datetime.now()).strftime("%Y-%m-%d %H:%M:%S")),
)
row = _load_state(conn)
return row
def _set_cooloff(
conn,
*,
trading_day: str,
close_at_ms: int,
hours: float,
now: Optional[datetime] = None,
) -> None:
_sync_trading_day(conn, trading_day, now=now)
h = max(0.0, float(hours))
until_ms = int(close_at_ms + h * 3600 * 1000)
conn.execute(
"""UPDATE account_risk_state SET
cooloff_until_ms=?,
cooloff_hours=?,
last_close_at_ms=?,
updated_at=?
WHERE id=1""",
(
until_ms,
int(h) if h == int(h) else int(round(h)),
int(close_at_ms),
(now or datetime.now()).strftime("%Y-%m-%d %H:%M:%S"),
),
)
def _set_cooloff_until(
conn,
*,
trading_day: str,
until_ms: int,
hours: float,
now: Optional[datetime] = None,
) -> None:
_sync_trading_day(conn, trading_day, now=now)
h = max(0.0, float(hours))
conn.execute(
"""UPDATE account_risk_state SET
cooloff_until_ms=?,
cooloff_hours=?,
updated_at=?
WHERE id=1""",
(
int(until_ms),
int(h) if h == int(h) else int(round(h)),
(now or datetime.now()).strftime("%Y-%m-%d %H:%M:%S"),
),
)
def _cooloff_until_ms(row) -> Optional[int]:
raw = _row_get(row, "cooloff_until_ms")
try:
return int(raw) if raw is not None else None
except (TypeError, ValueError):
return None
def _journal_can_reduce_cooloff(row, pending, now_ms: int) -> bool:
if int(_row_get(row, "daily_frozen") or 0) == 1:
return False
until_ms = _cooloff_until_ms(row)
if until_ms is None or until_ms <= now_ms:
return False
journal_h = cooling_hours_manual_journal()
cooloff_h = float(_row_get(row, "cooloff_hours") or cooling_hours_manual())
if cooloff_h <= journal_h + 1e-6:
return False
if pending is not None:
try:
if int(pending) != 0:
return True
except (TypeError, ValueError):
return True
return True
def _journal_cooloff_until_ms(row, now_ms: int, journal_hours: float) -> int:
journal_ms = int(max(0.0, float(journal_hours)) * 3600 * 1000)
last_close_ms = _row_get(row, "last_close_at_ms")
if last_close_ms:
try:
base_ms = _normalize_epoch_ms(int(last_close_ms), now_ms)
except (TypeError, ValueError):
base_ms = now_ms
else:
base_ms = now_ms
until_from_close = base_ms + journal_ms
until_ms = until_from_close if until_from_close > now_ms else now_ms + journal_ms
current_until = _resolved_cooloff_until_ms(row, now_ms)
if current_until is not None and until_ms > current_until:
until_ms = current_until
return until_ms
def _set_daily_frozen(conn, *, trading_day: str, now: Optional[datetime] = None) -> None:
_sync_trading_day(conn, trading_day, now=now)
conn.execute(
"""UPDATE account_risk_state SET daily_frozen=1, updated_at=? WHERE id=1""",
((now or datetime.now()).strftime("%Y-%m-%d %H:%M:%S"),),
)
def parse_mood_issues(raw: Any) -> list[str]:
if raw is None:
return []
if isinstance(raw, (list, tuple)):
parts = [str(x).strip() for x in raw if str(x).strip()]
else:
parts = [x.strip() for x in str(raw).split(",") if x.strip()]
return [p for p in parts if p in MOOD_ISSUE_OPTIONS]
def _record_one_user_initiated_close(
conn,
*,
source: str,
trade_record_id: Optional[int],
closed_at_ms: Optional[int],
trading_day: str,
now: Optional[datetime] = None,
) -> None:
row = _sync_trading_day(conn, trading_day, now=now)
count = int(_row_get(row, "manual_close_count") or 0) + 1
close_ms = int(closed_at_ms) if closed_at_ms else _now_ms(now)
pending = int(trade_record_id) if trade_record_id else None
conn.execute(
"""UPDATE account_risk_state SET
manual_close_count=?,
pending_journal_trade_id=?,
updated_at=?
WHERE id=1""",
(count, pending, (now or datetime.now()).strftime("%Y-%m-%d %H:%M:%S")),
)
if count >= manual_close_daily_limit():
_set_daily_frozen(conn, trading_day=trading_day, now=now)
return
_set_cooloff(
conn,
trading_day=trading_day,
close_at_ms=close_ms,
hours=cooling_hours_manual(),
now=now,
)
def on_user_initiated_close(
conn,
*,
source: str,
trade_record_id: Optional[int] = None,
closed_at_ms: Optional[int] = None,
trading_day: str,
now: Optional[datetime] = None,
count: int = 1,
) -> None:
"""用户主动平仓/结束趋势计划:计入手动平仓次数与冷静期。"""
if not risk_control_enabled():
return
src = (source or "").strip()
if src not in USER_INITIATED_CLOSE_SOURCES:
return
n = max(1, int(count or 1))
for i in range(n):
_record_one_user_initiated_close(
conn,
source=src,
trade_record_id=trade_record_id if i == 0 else None,
closed_at_ms=closed_at_ms,
trading_day=trading_day,
now=now,
)
row = _load_state(conn)
if int(_row_get(row, "daily_frozen") or 0) == 1:
break
def on_manual_close(
conn,
*,
trade_record_id: int,
closed_at_ms: Optional[int],
trading_day: str,
now: Optional[datetime] = None,
) -> None:
"""兼容旧调用:等同实例页用户平仓。"""
on_user_initiated_close(
conn,
source=CLOSE_SOURCE_USER_INSTANCE,
trade_record_id=trade_record_id,
closed_at_ms=closed_at_ms,
trading_day=trading_day,
now=now,
count=1,
)
def on_journal_saved(
conn,
*,
early_exit_trigger: str,
early_exit_note: str,
mood_issues_raw: Any,
trading_day: str,
now: Optional[datetime] = None,
) -> None:
if not risk_control_enabled():
return
row = _sync_trading_day(conn, trading_day, now=now)
mood_list = parse_mood_issues(mood_issues_raw)
if mood_issues_daily_freeze_enabled() and mood_list:
_set_daily_frozen(conn, trading_day=trading_day, now=now)
conn.execute(
"UPDATE account_risk_state SET pending_journal_trade_id=NULL, updated_at=? WHERE id=1",
((now or datetime.now()).strftime("%Y-%m-%d %H:%M:%S"),),
)
return
pending = _row_get(row, "pending_journal_trade_id")
trigger = (early_exit_trigger or "").strip()
note = (early_exit_note or "").strip()
now_ms = _now_ms(now)
if (
trigger == "手动平仓"
and note
and int(_row_get(row, "daily_frozen") or 0) != 1
and _journal_can_reduce_cooloff(row, pending, now_ms)
):
journal_h = cooling_hours_manual_journal()
until_ms = _journal_cooloff_until_ms(row, now_ms, journal_h)
_set_cooloff_until(
conn,
trading_day=trading_day,
until_ms=until_ms,
hours=journal_h,
now=now,
)
conn.execute(
"UPDATE account_risk_state SET pending_journal_trade_id=NULL, updated_at=? WHERE id=1",
((now or datetime.now()).strftime("%Y-%m-%d %H:%M:%S"),),
)
def apply_manual_close_journal_cooloff(
conn,
*,
early_exit_note: str,
trading_day: str,
now: Optional[datetime] = None,
) -> None:
"""核对修改或复盘:手动平仓 + 说明后尝试将 4h 冷静期降为 1h。"""
note = (early_exit_note or "").strip()
if not note:
return
on_journal_saved(
conn,
early_exit_trigger="手动平仓",
early_exit_note=note,
mood_issues_raw="",
trading_day=trading_day,
now=now,
)
def _next_trading_day_reset_ms(now: datetime, reset_hour: int) -> int:
from datetime import timedelta
h = max(0, min(23, int(reset_hour)))
candidate = now.replace(hour=h, minute=0, second=0, microsecond=0)
if now >= candidate:
candidate = candidate + timedelta(days=1)
return _now_ms(candidate)
def enrich_risk_status_countdown(
st: dict[str, Any],
*,
now: Optional[datetime] = None,
daily_reset_hour: int = 8,
) -> dict[str, Any]:
"""补充 freeze_until_ms / freeze_remaining_sec,供前端倒计时展示。"""
if not st.get("enabled", True):
return st
dt = now or datetime.now()
now_ms = _now_ms(dt)
until_ms: Optional[int] = None
if st.get("daily_frozen"):
until_ms = _next_trading_day_reset_ms(dt, daily_reset_hour)
elif st.get("cooloff_until_ms"):
try:
until_ms = int(st["cooloff_until_ms"])
except (TypeError, ValueError):
until_ms = None
if until_ms is not None and until_ms > now_ms:
st["freeze_until_ms"] = until_ms
st["freeze_remaining_sec"] = max(0, (until_ms - now_ms) // 1000)
else:
st["freeze_until_ms"] = None
st["freeze_remaining_sec"] = 0
return st
def compute_account_risk_status(
conn,
*,
trading_day: str,
now: Optional[datetime] = None,
fmt_local_ms: Optional[Callable[[int], str]] = None,
) -> dict[str, Any]:
if not risk_control_enabled():
return {
"enabled": False,
"status": STATUS_NORMAL,
"status_label": STATUS_LABELS[STATUS_NORMAL],
"can_trade": True,
"reason": "",
"cooloff_until_ms": None,
"cooloff_until": None,
"manual_close_count": 0,
"daily_frozen": False,
}
row = _sync_trading_day(conn, trading_day, now=now)
now_ms = _now_ms(now)
daily_frozen = int(_row_get(row, "daily_frozen") or 0) == 1
cooloff_until_ms = _resolved_cooloff_until_ms(row, now_ms)
manual_close_count = int(_row_get(row, "manual_close_count") or 0)
status = STATUS_NORMAL
reason = ""
if daily_frozen:
status = STATUS_DAILY
reason = f"账户今日已冻结(手动平仓 {manual_close_count} 次或复盘情绪标签)"
elif cooloff_until_ms is not None:
remaining_ms = cooloff_until_ms - now_ms
status = _freeze_tier_from_remaining_ms(remaining_ms)
until_str = _ms_to_local_str(cooloff_until_ms, fmt_local_ms) if fmt_local_ms else None
label = STATUS_LABELS[status]
reason = f"账户{label}"
if until_str:
reason += f",至 {until_str}"
can_trade = status == STATUS_NORMAL
freeze_remaining_sec = (
max(0, (cooloff_until_ms - now_ms) // 1000) if cooloff_until_ms is not None else 0
)
return {
"enabled": True,
"status": status,
"status_label": STATUS_LABELS[status],
"can_trade": can_trade,
"reason": reason,
"cooloff_until_ms": cooloff_until_ms,
"cooloff_until": _ms_to_local_str(cooloff_until_ms, fmt_local_ms)
if fmt_local_ms and cooloff_until_ms
else None,
"manual_close_count": manual_close_count,
"daily_frozen": daily_frozen,
"pending_journal_trade_id": _row_get(row, "pending_journal_trade_id"),
"freeze_remaining_sec": freeze_remaining_sec if not can_trade else 0,
}
def account_risk_blocks_trading(
conn,
*,
trading_day: str,
now: Optional[datetime] = None,
fmt_local_ms: Optional[Callable[[int], str]] = None,
) -> tuple[bool, str]:
"""返回 (允许交易, 拒绝原因)。"""
st = compute_account_risk_status(
conn, trading_day=trading_day, now=now, fmt_local_ms=fmt_local_ms
)
if st.get("can_trade"):
return True, ""
return False, str(st.get("reason") or STATUS_LABELS.get(st.get("status"), "账户冻结"))
def insert_trade_record_id(conn) -> int:
row = conn.execute("SELECT last_insert_rowid()").fetchone()
return int(row[0] if row else 0)