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import asyncio
import time
from datetime import datetime
from typing import Dict, List, Optional
from app.core.logger import logger
from app.services.token.models import (
TokenInfo,
EffortType,
FAIL_THRESHOLD,
TokenStatus,
BASIC__DEFAULT_QUOTA,
SUPER_DEFAULT_QUOTA,
)
from app.core.storage import get_storage, LocalStorage
from app.core.config import get_config
from app.core.exceptions import UpstreamException
from app.services.token.pool import TokenPool
from app.services.grok.batch_services.usage import UsageService
DEFAULT_REFRESH_BATCH_SIZE = 10
DEFAULT_REFRESH_CONCURRENCY = 5
DEFAULT_SUPER_REFRESH_INTERVAL_HOURS = 2
DEFAULT_REFRESH_INTERVAL_HOURS = 8
DEFAULT_RELOAD_INTERVAL_SEC = 30
DEFAULT_SAVE_DELAY_MS = 500
DEFAULT_USAGE_FLUSH_INTERVAL_SEC = 5
SUPER_POOL_NAME = "ssoSuper"
BASIC_POOL_NAME = "ssoBasic"
def _default_quota_for_pool(pool_name: str) -> int:
if pool_name == SUPER_POOL_NAME:
return SUPER_DEFAULT_QUOTA
return BASIC__DEFAULT_QUOTA
class TokenManager:
"""管理 Token 的增删改查和配额同步"""
_instance: Optional["TokenManager"] = None
_lock = asyncio.Lock()
def __init__(self):
self.pools: Dict[str, TokenPool] = {}
self.initialized = False
self._save_lock = asyncio.Lock()
self._dirty = False
self._save_task: Optional[asyncio.Task] = None
self._save_delay = DEFAULT_SAVE_DELAY_MS / 1000.0
self._last_reload_at = 0.0
self._has_state_changes = False
self._has_usage_changes = False
self._state_change_seq = 0
self._usage_change_seq = 0
self._last_usage_flush_at = 0.0
self._dirty_tokens = {}
self._dirty_deletes = set()
@classmethod
async def get_instance(cls) -> "TokenManager":
"""获取单例实例"""
if cls._instance is None:
async with cls._lock:
if cls._instance is None:
cls._instance = cls()
await cls._instance._load()
return cls._instance
async def _load(self):
"""初始化加载"""
if not self.initialized:
try:
storage = get_storage()
data = await storage.load_tokens()
# 如果后端返回 None 或空数据,尝试从本地 data/token.json 初始化后端
if not data:
local_storage = LocalStorage()
local_data = await local_storage.load_tokens()
if local_data:
data = local_data
await storage.save_tokens(local_data)
logger.info(
f"Initialized remote token storage ({storage.__class__.__name__}) with local tokens."
)
else:
data = {}
self.pools = {}
for pool_name, tokens in data.items():
pool = TokenPool(pool_name)
for token_data in tokens:
quota_missing = not (
isinstance(token_data, dict) and "quota" in token_data
)
try:
# 统一存储裸 token
if isinstance(token_data, dict):
raw_token = token_data.get("token")
if isinstance(raw_token, str) and raw_token.startswith(
"sso="
):
token_data["token"] = raw_token[4:]
token_info = TokenInfo(**token_data)
if quota_missing and pool_name == SUPER_POOL_NAME:
token_info.quota = SUPER_DEFAULT_QUOTA
pool.add(token_info)
except Exception as e:
logger.warning(
f"Failed to load token in pool '{pool_name}': {e}"
)
continue
pool._rebuild_index()
self.pools[pool_name] = pool
self.initialized = True
self._last_reload_at = time.monotonic()
total = sum(p.count() for p in self.pools.values())
logger.info(
f"TokenManager initialized: {len(self.pools)} pools with {total} tokens"
)
except Exception as e:
logger.error(f"Failed to initialize TokenManager: {e}")
self.pools = {}
self.initialized = True
async def reload(self):
"""重新加载 Token 池数据"""
async with self.__class__._lock:
self.initialized = False
await self._load()
async def reload_if_stale(self):
"""在多 worker 场景下保持短周期一致性"""
interval = get_config("token.reload_interval_sec", DEFAULT_RELOAD_INTERVAL_SEC)
try:
interval = float(interval)
except Exception:
interval = float(DEFAULT_RELOAD_INTERVAL_SEC)
if interval <= 0:
return
if time.monotonic() - self._last_reload_at < interval:
return
await self.reload()
def _mark_state_change(self):
self._has_state_changes = True
self._state_change_seq += 1
def _mark_usage_change(self):
self._has_usage_changes = True
self._usage_change_seq += 1
def _track_token_change(
self, token: TokenInfo, pool_name: str, change_kind: str
):
token_key = token.token
if token_key.startswith("sso="):
token_key = token_key[4:]
if token_key in self._dirty_deletes:
self._dirty_deletes.remove(token_key)
existing = self._dirty_tokens.get(token_key)
if existing and existing[1] == "state":
change_kind = "state"
self._dirty_tokens[token_key] = (pool_name, change_kind)
if change_kind == "state":
self._mark_state_change()
else:
self._mark_usage_change()
def _track_token_delete(self, token_str: str):
token_key = token_str
if token_key.startswith("sso="):
token_key = token_key[4:]
self._dirty_deletes.add(token_key)
if token_key in self._dirty_tokens:
del self._dirty_tokens[token_key]
self._mark_state_change()
async def _save(self, force: bool = False):
"""保存变更"""
async with self._save_lock:
try:
if not self._dirty_tokens and not self._dirty_deletes:
return
if not force and not self._has_state_changes:
interval_sec = get_config(
"token.usage_flush_interval_sec",
DEFAULT_USAGE_FLUSH_INTERVAL_SEC,
)
try:
interval_sec = float(interval_sec)
except Exception:
interval_sec = float(DEFAULT_USAGE_FLUSH_INTERVAL_SEC)
if interval_sec > 0:
now = time.monotonic()
if now - self._last_usage_flush_at < interval_sec:
self._dirty = True
return
state_seq = self._state_change_seq
usage_seq = self._usage_change_seq
dirty_tokens = self._dirty_tokens
dirty_deletes = self._dirty_deletes
self._dirty_tokens = {}
self._dirty_deletes = set()
updates = []
deleted = list(dirty_deletes)
for token_key, meta in dirty_tokens.items():
if token_key in dirty_deletes:
continue
pool_name, change_kind = meta
pool = self.pools.get(pool_name)
if not pool:
continue
info = pool.get(token_key)
if not info:
continue
payload = info.model_dump()
payload["pool_name"] = pool_name
payload["_update_kind"] = change_kind
updates.append(payload)
storage = get_storage()
async with storage.acquire_lock("tokens_save", timeout=10):
await storage.save_tokens_delta(updates, deleted)
if state_seq == self._state_change_seq:
self._has_state_changes = False
if usage_seq == self._usage_change_seq:
self._has_usage_changes = False
self._last_usage_flush_at = time.monotonic()
except Exception as e:
logger.error(f"Failed to save tokens: {e}")
self._dirty = True
if 'dirty_tokens' in locals():
for token_key, meta in dirty_tokens.items():
existing = self._dirty_tokens.get(token_key)
if existing and existing[1] == "state":
continue
if meta[1] == "state" and existing:
self._dirty_tokens[token_key] = (meta[0], "state")
else:
self._dirty_tokens[token_key] = meta
self._dirty_deletes.update(dirty_deletes)
for token_key in dirty_deletes:
if token_key in self._dirty_tokens:
del self._dirty_tokens[token_key]
def _schedule_save(self):
"""合并高频保存请求,减少写入开销"""
delay_ms = get_config("token.save_delay_ms", DEFAULT_SAVE_DELAY_MS)
try:
delay_ms = float(delay_ms)
except Exception:
delay_ms = float(DEFAULT_SAVE_DELAY_MS)
self._save_delay = max(0.0, delay_ms / 1000.0)
self._dirty = True
if self._save_delay == 0:
if self._save_task and not self._save_task.done():
return
self._save_task = asyncio.create_task(self._save())
return
if self._save_task and not self._save_task.done():
return
self._save_task = asyncio.create_task(self._flush_loop())
async def _flush_loop(self):
try:
while True:
await asyncio.sleep(self._save_delay)
if not self._dirty:
break
self._dirty = False
await self._save()
finally:
self._save_task = None
if self._dirty:
self._schedule_save()
def get_token(self, pool_name: str = "ssoBasic", exclude: set = None) -> Optional[str]:
"""
获取可用 Token
Args:
pool_name: Token 池名称
exclude: 需要排除的 token 字符串集合
Returns:
Token 字符串或 None
"""
pool = self.pools.get(pool_name)
if not pool:
logger.warning(f"Pool '{pool_name}' not found")
return None
token_info = pool.select(exclude=exclude)
if not token_info:
logger.warning(f"No available token in pool '{pool_name}'")
return None
token = token_info.token
if token.startswith("sso="):
return token[4:]
return token
def get_token_info(self, pool_name: str = "ssoBasic") -> Optional["TokenInfo"]:
"""
获取可用 Token 的完整信息
Args:
pool_name: Token 池名称
Returns:
TokenInfo 对象或 None
"""
pool = self.pools.get(pool_name)
if not pool:
logger.warning(f"Pool '{pool_name}' not found")
return None
token_info = pool.select()
if not token_info:
logger.warning(f"No available token in pool '{pool_name}'")
return None
return token_info
def get_token_for_video(
self,
resolution: str = "480p",
video_length: int = 6,
pool_candidates: Optional[List[str]] = None,
) -> Optional["TokenInfo"]:
"""
根据视频需求智能选择 Token 池
路由策略:
- 如果 resolution 是 "720p" 或 video_length > 6: 优先使用 "ssoSuper" 池
- 否则优先使用 "ssoBasic" 池
- 当提供 pool_candidates 时,按候选池顺序回退
Args:
resolution: 视频分辨率 ("480p" 或 "720p")
video_length: 视频时长(秒)
pool_candidates: 候选 Token 池(按优先级)
Returns:
TokenInfo 对象或 None(无可用 token)
"""
# 确定首选池
requires_super = resolution == "720p" or video_length > 6
primary_pool = SUPER_POOL_NAME if requires_super else BASIC_POOL_NAME
if pool_candidates:
ordered_pools = list(pool_candidates)
if primary_pool in ordered_pools:
ordered_pools.remove(primary_pool)
ordered_pools.insert(0, primary_pool)
else:
fallback_pool = BASIC_POOL_NAME if requires_super else SUPER_POOL_NAME
ordered_pools = [primary_pool, fallback_pool]
for idx, pool_name in enumerate(ordered_pools):
token_info = self.get_token_info(pool_name)
if token_info:
if idx == 0:
logger.info(
f"Video token routing: resolution={resolution}, length={video_length}s -> "
f"pool={pool_name} (token={token_info.token[:10]}...)"
)
else:
logger.info(
f"Video token routing: fallback from {ordered_pools[0]} -> {pool_name} "
f"(token={token_info.token[:10]}...)"
)
return token_info
if idx == 0 and requires_super and pool_name == primary_pool:
next_pool = ordered_pools[1] if len(ordered_pools) > 1 else None
if next_pool:
logger.warning(
f"Video token routing: {primary_pool} pool has no available token for "
f"resolution={resolution}, length={video_length}s. "
f"Falling back to {next_pool} pool."
)
# 两个池都没有可用 token
logger.warning(
f"Video token routing: no available token in any pool "
f"(resolution={resolution}, length={video_length}s)"
)
return None
def get_pool_name_for_token(self, token_str: str) -> Optional[str]:
"""Return pool name for the given token string."""
raw_token = token_str.replace("sso=", "")
for pool_name, pool in self.pools.items():
if pool.get(raw_token):
return pool_name
return None
async def consume(
self, token_str: str, effort: EffortType = EffortType.LOW
) -> bool:
"""
消耗配额(本地预估)
Args:
token_str: Token 字符串
effort: 消耗力度
Returns:
是否成功
"""
raw_token = token_str.replace("sso=", "")
for pool in self.pools.values():
token = pool.get(raw_token)
if token:
old_status = token.status
consumed = token.consume(effort)
logger.debug(
f"Token {raw_token[:10]}...: consumed {consumed} quota, use_count={token.use_count}"
)
change_kind = "state" if token.status != old_status else "usage"
self._track_token_change(token, pool.name, change_kind)
self._schedule_save()
return True
logger.warning(f"Token {raw_token[:10]}...: not found for consumption")
return False
async def sync_usage(
self,
token_str: str,
fallback_effort: EffortType = EffortType.LOW,
consume_on_fail: bool = True,
is_usage: bool = True,
) -> bool:
"""
同步 Token 用量
优先从 API 获取最新配额,失败则降级到本地预估
Args:
token_str: Token 字符串(可带 sso= 前缀)
fallback_effort: 降级时的消耗力度
consume_on_fail: 失败时是否降级扣费
is_usage: 是否记录为一次使用(影响 use_count)
Returns:
是否成功
"""
raw_token = token_str.replace("sso=", "")
# 查找 Token 对象
target_token: Optional[TokenInfo] = None
target_pool_name: Optional[str] = None
for pool in self.pools.values():
target_token = pool.get(raw_token)
if target_token:
target_pool_name = pool.name
break
if not target_token:
logger.warning(f"Token {raw_token[:10]}...: not found for sync")
return False
# 尝试 API 同步
try:
usage_service = UsageService()
result = await usage_service.get(token_str)
if result and "remainingTokens" in result:
new_quota = result.get("remainingTokens")
if new_quota is None:
new_quota = result.get("remainingQueries")
if new_quota is None:
return False
old_quota = target_token.quota
old_status = target_token.status
target_token.update_quota(new_quota)
target_token.record_success(is_usage=is_usage)
consumed = max(0, old_quota - new_quota)
logger.info(
f"Token {raw_token[:10]}...: synced quota "
f"{old_quota} -> {new_quota} (consumed: {consumed}, use_count: {target_token.use_count})"
)
if target_pool_name:
change_kind = "state" if target_token.status != old_status else "usage"
self._track_token_change(
target_token, target_pool_name, change_kind
)
self._schedule_save()
return True
except Exception as e:
if isinstance(e, UpstreamException):
status = None
if e.details and "status" in e.details:
status = e.details["status"]
else:
status = getattr(e, "status_code", None)
if status == 401:
await self.record_fail(token_str, status, "rate_limits_auth_failed")
logger.warning(
f"Token {raw_token[:10]}...: API sync failed, fallback to local ({e})"
)
# 降级:本地预估扣费
if consume_on_fail:
logger.debug(f"Token {raw_token[:10]}...: using local consumption")
return await self.consume(token_str, fallback_effort)
else:
logger.debug(
f"Token {raw_token[:10]}...: sync failed, skipping local consumption"
)
return False
async def record_fail(
self, token_str: str, status_code: int = 401, reason: str = ""
) -> bool:
"""
记录 Token 失败
Args:
token_str: Token 字符串
status_code: HTTP 状态码
reason: 失败原因
Returns:
是否成功
"""
raw_token = token_str.replace("sso=", "")
for pool in self.pools.values():
token = pool.get(raw_token)
if token:
if status_code == 401:
threshold = get_config("token.fail_threshold", FAIL_THRESHOLD)
try:
threshold = int(threshold)
except (TypeError, ValueError):
threshold = FAIL_THRESHOLD
if threshold < 1:
threshold = 1
token.record_fail(status_code, reason, threshold=threshold)
logger.warning(
f"Token {raw_token[:10]}...: recorded {status_code} failure "
f"({token.fail_count}/{threshold}) - {reason}"
)
self._track_token_change(token, pool.name, "state")
self._schedule_save()
else:
logger.info(
f"Token {raw_token[:10]}...: non-auth error ({status_code}) - {reason} (not counted)"
)
return True
logger.warning(f"Token {raw_token[:10]}...: not found for failure record")
return False
async def mark_rate_limited(self, token_str: str) -> bool:
"""
将 Token 标记为配额耗尽(COOLING)
当 Grok API 返回 429 时调用,将 quota 设为 0 并标记 COOLING,
使该 Token 不再被选中,等待下次 Scheduler 刷新恢复。
Args:
token_str: Token 字符串
Returns:
是否成功
"""
raw_token = token_str.removeprefix("sso=")
for pool in self.pools.values():
token = pool.get(raw_token)
if token:
old_quota = token.quota
token.quota = 0
token.status = TokenStatus.COOLING
logger.warning(
f"Token {raw_token[:10]}...: marked as rate limited "
f"(quota {old_quota} -> 0, status -> cooling)"
)
self._track_token_change(token, pool.name, "state")
self._schedule_save()
return True
logger.warning(f"Token {raw_token[:10]}...: not found for rate limit marking")
return False
# ========== 管理功能 ==========
async def add(self, token: str, pool_name: str = "ssoBasic") -> bool:
"""
添加 Token
Args:
token: Token 字符串(不含 sso= 前缀)
pool_name: 池名称
Returns:
是否成功
"""
if pool_name not in self.pools:
self.pools[pool_name] = TokenPool(pool_name)
logger.info(f"Pool '{pool_name}': created")
pool = self.pools[pool_name]
token = token[4:] if token.startswith("sso=") else token
if pool.get(token):
logger.warning(f"Pool '{pool_name}': token already exists")
return False
token_info = TokenInfo(token=token, quota=_default_quota_for_pool(pool_name))
pool.add(token_info)
self._track_token_change(token_info, pool_name, "state")
await self._save(force=True)
logger.info(f"Pool '{pool_name}': token added")
return True
async def mark_asset_clear(self, token: str) -> bool:
"""记录在线资产清理时间"""
raw_token = token[4:] if token.startswith("sso=") else token
for pool in self.pools.values():
info = pool.get(raw_token)
if info:
info.last_asset_clear_at = int(datetime.now().timestamp() * 1000)
self._track_token_change(info, pool.name, "state")
self._schedule_save()
return True
return False
async def add_tag(self, token: str, tag: str) -> bool:
"""
给 Token 添加标签
Args:
token: Token 字符串
tag: 标签名称
Returns:
是否成功
"""
raw_token = token[4:] if token.startswith("sso=") else token
for pool in self.pools.values():
info = pool.get(raw_token)
if info:
if tag not in info.tags:
info.tags.append(tag)
self._track_token_change(info, pool.name, "state")
self._schedule_save()
logger.debug(f"Token {raw_token[:10]}...: added tag '{tag}'")
return True
return False
async def remove_tag(self, token: str, tag: str) -> bool:
"""
移除 Token 标签
Args:
token: Token 字符串
tag: 标签名称
Returns:
是否成功
"""
raw_token = token[4:] if token.startswith("sso=") else token
for pool in self.pools.values():
info = pool.get(raw_token)
if info:
if tag in info.tags:
info.tags.remove(tag)
self._track_token_change(info, pool.name, "state")
self._schedule_save()
logger.debug(f"Token {raw_token[:10]}...: removed tag '{tag}'")
return True
return False
async def remove(self, token: str) -> bool:
"""
删除 Token
Args:
token: Token 字符串
Returns:
是否成功
"""
for pool_name, pool in self.pools.items():
if pool.remove(token):
self._track_token_delete(token)
await self._save(force=True)
logger.info(f"Pool '{pool_name}': token removed")
return True
logger.warning("Token not found for removal")
return False
async def reset_all(self):
"""重置所有 Token 配额"""
count = 0
for pool_name, pool in self.pools.items():
default_quota = _default_quota_for_pool(pool_name)
for token in pool:
token.reset(default_quota)
self._track_token_change(token, pool_name, "state")
count += 1
await self._save(force=True)
logger.info(f"Reset all: {count} tokens updated")
async def reset_token(self, token_str: str) -> bool:
"""
重置单个 Token
Args:
token_str: Token 字符串
Returns:
是否成功
"""
raw_token = token_str.replace("sso=", "")
for pool in self.pools.values():
token = pool.get(raw_token)
if token:
default_quota = _default_quota_for_pool(pool.name)
token.reset(default_quota)
self._track_token_change(token, pool.name, "state")
await self._save(force=True)
logger.info(f"Token {raw_token[:10]}...: reset completed")
return True
logger.warning(f"Token {raw_token[:10]}...: not found for reset")
return False
def get_stats(self) -> Dict[str, dict]:
"""获取统计信息"""
stats = {}
for name, pool in self.pools.items():
pool_stats = pool.get_stats()
stats[name] = pool_stats.model_dump()
return stats
def get_pool_tokens(self, pool_name: str = "ssoBasic") -> List[TokenInfo]:
"""
获取指定池的所有 Token
Args:
pool_name: 池名称
Returns:
Token 列表
"""
pool = self.pools.get(pool_name)
if not pool:
return []
return pool.list()
async def refresh_cooling_tokens(self) -> Dict[str, int]:
"""
批量刷新 cooling 状态的 Token 配额
Returns:
{"checked": int, "refreshed": int, "recovered": int, "expired": int}
"""
# 收集需要刷新的 token
to_refresh: List[tuple[str, TokenInfo]] = []
for pool in self.pools.values():
if pool.name == SUPER_POOL_NAME:
interval_hours = get_config(
"token.super_refresh_interval_hours",
DEFAULT_SUPER_REFRESH_INTERVAL_HOURS,
)
else:
interval_hours = get_config(
"token.refresh_interval_hours",
DEFAULT_REFRESH_INTERVAL_HOURS,
)
for token in pool:
if token.need_refresh(interval_hours):
to_refresh.append((pool.name, token))
if not to_refresh:
logger.debug("Refresh check: no tokens need refresh")
return {"checked": 0, "refreshed": 0, "recovered": 0, "expired": 0}
logger.info(f"Refresh check: found {len(to_refresh)} cooling tokens to refresh")
# 批量并发刷新
semaphore = asyncio.Semaphore(DEFAULT_REFRESH_CONCURRENCY)
usage_service = UsageService()
refreshed = 0
recovered = 0
expired = 0
async def _refresh_one(item: tuple[str, TokenInfo]) -> dict:
"""刷新单个 token"""
_, token_info = item
async with semaphore:
token_str = token_info.token
if token_str.startswith("sso="):
token_str = token_str[4:]
# 重试逻辑:最多 2 次重试
for retry in range(3): # 0, 1, 2
try:
result = await usage_service.get(token_str)
if result and "remainingTokens" in result:
new_quota = result.get("remainingTokens")
if new_quota is None:
new_quota = result.get("remainingQueries")
if new_quota is None:
return {"recovered": False, "expired": False}
old_quota = token_info.quota
old_status = token_info.status
token_info.update_quota(new_quota)
token_info.mark_synced()
logger.info(
f"Token {token_info.token[:10]}...: refreshed "
f"{old_quota} -> {new_quota}, status: {old_status} -> {token_info.status}"
)
return {
"recovered": new_quota > 0 and old_quota == 0,
"expired": False,
}
return {"recovered": False, "expired": False}
except Exception as e:
error_str = str(e)
# 检查是否为 401 错误
if "401" in error_str or "Unauthorized" in error_str:
if retry < 2:
logger.warning(
f"Token {token_info.token[:10]}...: 401 error, "
f"retry {retry + 1}/2..."
)
await asyncio.sleep(0.5)
continue
else:
# 重试 2 次后仍然 401,标记为 expired
logger.error(
f"Token {token_info.token[:10]}...: 401 after 2 retries, "
f"marking as expired"
)
token_info.status = TokenStatus.EXPIRED
return {"recovered": False, "expired": True}
else:
logger.warning(
f"Token {token_info.token[:10]}...: refresh failed ({e})"
)
return {"recovered": False, "expired": False}
return {"recovered": False, "expired": False}
# 批量处理
for i in range(0, len(to_refresh), DEFAULT_REFRESH_BATCH_SIZE):
batch = to_refresh[i : i + DEFAULT_REFRESH_BATCH_SIZE]
results = await asyncio.gather(*[_refresh_one(t) for t in batch])
refreshed += len(batch)
recovered += sum(r["recovered"] for r in results)
expired += sum(r["expired"] for r in results)
# 批次间延迟
if i + DEFAULT_REFRESH_BATCH_SIZE < len(to_refresh):
await asyncio.sleep(1)
for pool_name, token_info in to_refresh:
self._track_token_change(token_info, pool_name, "state")
await self._save(force=True)
logger.info(
f"Refresh completed: "
f"checked={len(to_refresh)}, refreshed={refreshed}, "
f"recovered={recovered}, expired={expired}"
)
return {
"checked": len(to_refresh),
"refreshed": refreshed,
"recovered": recovered,
"expired": expired,
}
# 便捷函数
async def get_token_manager() -> TokenManager:
"""获取 TokenManager 单例"""
return await TokenManager.get_instance()
__all__ = ["TokenManager", "get_token_manager"]
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