kunthawat/ALwrity
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity

Compare commits

base: kunthawat:codex/update-performance_monitor-and-safety_framework
Branches Tags
kunthawat:main kunthawat:codex/add-uniqueness-strategy-for-backlinklead kunthawat:alert-autofix-28 kunthawat:codex/update-cors-handling-in-streaming-endpoints kunthawat:codex/refactor-stream_strategic_intelligence-response-handling kunthawat:codex/implement-production-evaluators-in-quality_validation.py kunthawat:codex/replace-local-cache-with-shared-cache kunthawat:codex/implement-onboarding-module-functionality kunthawat:alert-autofix-88 kunthawat:alert-autofix-107 kunthawat:alert-autofix-116 kunthawat:alert-autofix-121 kunthawat:codex/expose-capability-flags-in-integration-manager kunthawat:codex/add-structured-tier-policy-configuration kunthawat:codex/implement-self-healing-executor-functionality kunthawat:codex/add-synthesis-step-to-context-pipeline kunthawat:codex/create-token-crypto-service-for-models kunthawat:codex/implement-oauth-validation-and-channel-management kunthawat:codex/add-task-loader-for-social-tokens kunthawat:codex/update-performance_monitor-and-safety_framework kunthawat:codex/define-versioned-metadata-schema-and-refactor-handlers kunthawat:codex/support-multi-source-filtering-in-api kunthawat:fix/add-matplotlib-backend-dependency kunthawat:codex/remove-heuristic-calculators-and-update-estimates-bhvhnh kunthawat:dependabot/npm_and_yarn/frontend/npm_and_yarn-7d3393088f kunthawat:codex/downgrade-api-key-warning-logging kunthawat:codex/refactor-onboarding-loading-logic kunthawat:codex/add-ci-lint-check-for-user_id-patterns kunthawat:codex/remove-sessionlocal-import-and-add-health-check kunthawat:codex/refactor-dubbed_audio_dir-to-tenant-path-resolver kunthawat:codex/update-task-metadata-and-api-responses kunthawat:codex/verify-podcast-analysis-and-cost-tracking kunthawat:codex/assert-api-endpoints-on-startup kunthawat:codex/add-env-controlled-guard-for-stripe-key kunthawat:codex/remove-feature-flag-for-production-demo kunthawat:codex/add-mode-aware-redirect-logic-in-pricingpage kunthawat:codex/document-deployment-configuration-for-demo-mode kunthawat:codex/ensure-api.subscription.router-always-included kunthawat:codex/guard-onboarding-manager-and-endpoints kunthawat:codex/wrap-router-inclusion-in-demo-mode-check kunthawat:codex/add-podcast-only-demo-mode-toggle kunthawat:dependabot/npm_and_yarn/frontend/npm_and_yarn-f5ea90b336
kunthawat:v0.5.1 kunthawat:v0.1
..
compare: kunthawat:codex/create-token-crypto-service-for-models
Branches Tags
kunthawat:main kunthawat:codex/add-uniqueness-strategy-for-backlinklead kunthawat:alert-autofix-28 kunthawat:codex/update-cors-handling-in-streaming-endpoints kunthawat:codex/refactor-stream_strategic_intelligence-response-handling kunthawat:codex/implement-production-evaluators-in-quality_validation.py kunthawat:codex/replace-local-cache-with-shared-cache kunthawat:codex/implement-onboarding-module-functionality kunthawat:alert-autofix-88 kunthawat:alert-autofix-107 kunthawat:alert-autofix-116 kunthawat:alert-autofix-121 kunthawat:codex/expose-capability-flags-in-integration-manager kunthawat:codex/add-structured-tier-policy-configuration kunthawat:codex/implement-self-healing-executor-functionality kunthawat:codex/add-synthesis-step-to-context-pipeline kunthawat:codex/create-token-crypto-service-for-models kunthawat:codex/implement-oauth-validation-and-channel-management kunthawat:codex/add-task-loader-for-social-tokens kunthawat:codex/update-performance_monitor-and-safety_framework kunthawat:codex/define-versioned-metadata-schema-and-refactor-handlers kunthawat:codex/support-multi-source-filtering-in-api kunthawat:fix/add-matplotlib-backend-dependency kunthawat:codex/remove-heuristic-calculators-and-update-estimates-bhvhnh kunthawat:dependabot/npm_and_yarn/frontend/npm_and_yarn-7d3393088f kunthawat:codex/downgrade-api-key-warning-logging kunthawat:codex/refactor-onboarding-loading-logic kunthawat:codex/add-ci-lint-check-for-user_id-patterns kunthawat:codex/remove-sessionlocal-import-and-add-health-check kunthawat:codex/refactor-dubbed_audio_dir-to-tenant-path-resolver kunthawat:codex/update-task-metadata-and-api-responses kunthawat:codex/verify-podcast-analysis-and-cost-tracking kunthawat:codex/assert-api-endpoints-on-startup kunthawat:codex/add-env-controlled-guard-for-stripe-key kunthawat:codex/remove-feature-flag-for-production-demo kunthawat:codex/add-mode-aware-redirect-logic-in-pricingpage kunthawat:codex/document-deployment-configuration-for-demo-mode kunthawat:codex/ensure-api.subscription.router-always-included kunthawat:codex/guard-onboarding-manager-and-endpoints kunthawat:codex/wrap-router-inclusion-in-demo-mode-check kunthawat:codex/add-podcast-only-demo-mode-toggle kunthawat:dependabot/npm_and_yarn/frontend/npm_and_yarn-f5ea90b336
kunthawat:v0.5.1 kunthawat:v0.1

1 Commits
codex/upda ... codex/crea

Author SHA1 Message Date
ي
afcb3d5478 Add token encryption service and Wix token rotation support 2026-05-18 15:57:47 +05:30
4 changed files with 211 additions and 328 deletions
Expand all files Collapse all files

296
backend/services/integrations/wix_oauth.py
View File

@@ -9,26 +9,27 @@ from typing import Optional, Dict, Any, List
from datetime import datetime, timedelta
from loguru import logger
from services.database import get_user_db_path
from services.token_crypto_service import TokenCryptoService
class WixOAuthService:
"""Manages Wix OAuth2 authentication flow and token storage."""
def __init__(self, db_path: Optional[str] = None):
self.db_path = db_path
self.token_crypto = TokenCryptoService()
def _get_db_path(self, user_id: str) -> str:
if self.db_path:
return self.db_path
return get_user_db_path(user_id)
def _init_db(self, user_id: str):
"""Initialize database tables for OAuth tokens."""
db_path = self._get_db_path(user_id)
# Ensure directory exists
os.makedirs(os.path.dirname(db_path), exist_ok=True)
with sqlite3.connect(db_path) as conn:
cursor = conn.cursor()
cursor.execute('''
@@ -45,168 +46,133 @@ class WixOAuthService:
member_id TEXT,
created_at TIMESTAMP DEFAULT CURRENT_TIMESTAMP,
updated_at TIMESTAMP DEFAULT CURRENT_TIMESTAMP,
is_active BOOLEAN DEFAULT TRUE
is_active BOOLEAN DEFAULT TRUE,
token_key_version TEXT,
token_key_reference TEXT
)
''')
for column_name, column_def in [
("token_key_version", "TEXT"),
("token_key_reference", "TEXT"),
]:
try:
cursor.execute(f"ALTER TABLE wix_oauth_tokens ADD COLUMN {column_name} {column_def}")
except sqlite3.OperationalError:
pass
conn.commit()
def store_tokens(
self,
user_id: str,
access_token: str,
refresh_token: Optional[str] = None,
expires_in: Optional[int] = None,
token_type: str = 'bearer',
scope: Optional[str] = None,
site_id: Optional[str] = None,
member_id: Optional[str] = None
) -> bool:
"""
Store Wix OAuth tokens in the database.
Args:
user_id: User ID (Clerk string)
access_token: Access token from Wix
refresh_token: Optional refresh token
expires_in: Optional expiration time in seconds
token_type: Token type (default: 'bearer')
scope: Optional OAuth scope
site_id: Optional Wix site ID
member_id: Optional Wix member ID
Returns:
True if tokens were stored successfully
"""
def store_tokens(self, user_id: str, access_token: str, refresh_token: Optional[str] = None,
expires_in: Optional[int] = None, token_type: str = 'bearer', scope: Optional[str] = None,
site_id: Optional[str] = None, member_id: Optional[str] = None) -> bool:
try:
# Ensure DB is initialized for this user
self._init_db(user_id)
db_path = self._get_db_path(user_id)
expires_at = None
if expires_in:
expires_at = datetime.now() + timedelta(seconds=expires_in)
expires_at = datetime.now() + timedelta(seconds=expires_in) if expires_in else None
encrypted_access_token, encrypted_refresh_token = self.token_crypto.encrypt_pair(access_token, refresh_token)
with sqlite3.connect(db_path) as conn:
cursor = conn.cursor()
cursor.execute('''
INSERT INTO wix_oauth_tokens
(user_id, access_token, refresh_token, token_type, expires_at, expires_in, scope, site_id, member_id)
VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?)
''', (user_id, access_token, refresh_token, token_type, expires_at, expires_in, scope, site_id, member_id))
INSERT INTO wix_oauth_tokens
(user_id, access_token, refresh_token, token_type, expires_at, expires_in, scope, site_id, member_id, token_key_version, token_key_reference)
VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?)
''', (
user_id,
encrypted_access_token,
encrypted_refresh_token,
token_type,
expires_at,
expires_in,
scope,
site_id,
member_id,
self.token_crypto.key_version,
self.token_crypto.key_reference,
))
conn.commit()
logger.info(f"Wix OAuth: Token inserted into database for user {user_id}")
logger.info(f"Wix OAuth: Encrypted token stored for user {user_id}")
return True
except Exception as e:
logger.error(f"Error storing Wix tokens for user {user_id}: {e}")
return False
def get_user_tokens(self, user_id: str) -> List[Dict[str, Any]]:
"""Get all active Wix tokens for a user."""
"""Get all active Wix token rows (encrypted values)."""
try:
# Ensure database tables exist to prevent 'no such table' errors
self._init_db(user_id)
db_path = self._get_db_path(user_id)
if not os.path.exists(db_path):
return []
with sqlite3.connect(db_path) as conn:
cursor = conn.cursor()
cursor.execute('''
SELECT id, access_token, refresh_token, token_type, expires_at, expires_in, scope, site_id, member_id, created_at
SELECT id, access_token, refresh_token, token_type, expires_at, expires_in, scope, site_id, member_id, created_at, token_key_version, token_key_reference
FROM wix_oauth_tokens
WHERE user_id = ? AND is_active = TRUE AND (expires_at IS NULL OR expires_at > datetime('now'))
ORDER BY created_at DESC
''', (user_id,))
tokens = []
for row in cursor.fetchall():
tokens.append({
"id": row[0],
"access_token": row[1],
"refresh_token": row[2],
"token_type": row[3],
"expires_at": row[4],
"expires_in": row[5],
"scope": row[6],
"site_id": row[7],
"member_id": row[8],
"created_at": row[9]
})
return tokens
return [{
"id": row[0], "access_token": row[1], "refresh_token": row[2], "token_type": row[3],
"expires_at": row[4], "expires_in": row[5], "scope": row[6], "site_id": row[7],
"member_id": row[8], "created_at": row[9], "token_key_version": row[10],
"token_key_reference": row[11]
} for row in cursor.fetchall()]
except Exception as e:
logger.error(f"Error getting Wix tokens for user {user_id}: {e}")
return []
def get_user_token_status(self, user_id: str) -> Dict[str, Any]:
"""Get detailed token status for a user including expired tokens."""
try:
# Ensure database tables exist to prevent 'no such table' errors
self._init_db(user_id)
def get_user_tokens_decrypted(self, user_id: str) -> List[Dict[str, Any]]:
"""Decrypt tokens for integration managers and token refresh routines."""
decrypted = []
for token in self.get_user_tokens(user_id):
token_copy = dict(token)
token_copy["access_token"] = self.token_crypto.decrypt_token(token_copy.get("access_token"))
token_copy["refresh_token"] = self.token_crypto.decrypt_token(token_copy.get("refresh_token"))
decrypted.append(token_copy)
return decrypted
def get_user_token_status(self, user_id: str) -> Dict[str, Any]:
try:
self._init_db(user_id)
db_path = self._get_db_path(user_id)
if not os.path.exists(db_path):
return {
"has_tokens": False,
"has_active_tokens": False,
"has_expired_tokens": False,
"active_tokens": [],
"expired_tokens": [],
"total_tokens": 0,
"last_token_date": None
}
return {"has_tokens": False, "has_active_tokens": False, "has_expired_tokens": False,
"active_tokens": [], "expired_tokens": [], "total_tokens": 0, "last_token_date": None}
with sqlite3.connect(db_path) as conn:
cursor = conn.cursor()
# Get all tokens (active and expired)
cursor.execute('''
SELECT id, access_token, refresh_token, token_type, expires_at, expires_in, scope, site_id, member_id, created_at, is_active
SELECT id, access_token, refresh_token, token_type, expires_at, expires_in, scope, site_id, member_id,
created_at, is_active, token_key_version, token_key_reference
FROM wix_oauth_tokens
WHERE user_id = ?
ORDER BY created_at DESC
''', (user_id,))
all_tokens = []
active_tokens = []
expired_tokens = []
all_tokens, active_tokens, expired_tokens = [], [], []
for row in cursor.fetchall():
token_data = {
"id": row[0],
"access_token": row[1],
"refresh_token": row[2],
"token_type": row[3],
"expires_at": row[4],
"expires_in": row[5],
"scope": row[6],
"site_id": row[7],
"member_id": row[8],
"created_at": row[9],
"is_active": bool(row[10])
"id": row[0], "access_token": row[1], "refresh_token": row[2], "token_type": row[3],
"expires_at": row[4], "expires_in": row[5], "scope": row[6], "site_id": row[7],
"member_id": row[8], "created_at": row[9], "is_active": bool(row[10]),
"token_key_version": row[11], "token_key_reference": row[12]
}
all_tokens.append(token_data)
# Determine expiry using robust parsing and is_active flag
is_active_flag = bool(row[10])
not_expired = False
try:
expires_at_val = row[4]
if expires_at_val:
# First try Python parsing
try:
dt = datetime.fromisoformat(expires_at_val) if isinstance(expires_at_val, str) else expires_at_val
not_expired = dt > datetime.now()
except Exception:
# Fallback to SQLite comparison
cursor.execute("SELECT datetime('now') < ?", (expires_at_val,))
not_expired = cursor.fetchone()[0] == 1
else:
# No expiry stored => consider not expired
not_expired = True
except Exception:
not_expired = False
@@ -215,7 +181,7 @@ class WixOAuthService:
active_tokens.append(token_data)
else:
expired_tokens.append(token_data)
return {
"has_tokens": len(all_tokens) > 0,
"has_active_tokens": len(active_tokens) > 0,
@@ -225,81 +191,101 @@ class WixOAuthService:
"total_tokens": len(all_tokens),
"last_token_date": all_tokens[0]["created_at"] if all_tokens else None
}
except Exception as e:
logger.error(f"Error getting Wix token status for user {user_id}: {e}")
return {
"has_tokens": False,
"has_active_tokens": False,
"has_expired_tokens": False,
"active_tokens": [],
"expired_tokens": [],
"total_tokens": 0,
"last_token_date": None,
"error": str(e)
}
def update_tokens(
self,
user_id: str,
access_token: str,
refresh_token: Optional[str] = None,
expires_in: Optional[int] = None
) -> bool:
"""Update tokens for a user (e.g., after refresh)."""
return {"has_tokens": False, "has_active_tokens": False, "has_expired_tokens": False,
"active_tokens": [], "expired_tokens": [], "total_tokens": 0, "last_token_date": None, "error": str(e)}
def update_tokens(self, user_id: str, access_token: str, refresh_token: Optional[str] = None,
expires_in: Optional[int] = None) -> bool:
try:
# Ensure DB initialized for this user
self._init_db(user_id)
db_path = self._get_db_path(user_id)
expires_at = datetime.now() + timedelta(seconds=expires_in) if expires_in else None
encrypted_access_token = self.token_crypto.encrypt_token(access_token)
encrypted_refresh_token = self.token_crypto.encrypt_token(refresh_token) if refresh_token else None
expires_at = None
if expires_in:
expires_at = datetime.now() + timedelta(seconds=expires_in)
with sqlite3.connect(db_path) as conn:
cursor = conn.cursor()
if refresh_token:
cursor.execute('''
UPDATE wix_oauth_tokens
SET access_token = ?, refresh_token = ?, expires_at = ?, expires_in = ?,
is_active = TRUE, updated_at = datetime('now')
WHERE user_id = ? AND refresh_token = ?
''', (access_token, refresh_token, expires_at, expires_in, user_id, refresh_token))
UPDATE wix_oauth_tokens
SET access_token = ?, refresh_token = ?, expires_at = ?, expires_in = ?,
is_active = TRUE, updated_at = datetime('now'), token_key_version = ?, token_key_reference = ?
WHERE user_id = ? AND (refresh_token = ? OR refresh_token = ?)
''', (encrypted_access_token, encrypted_refresh_token, expires_at, expires_in,
self.token_crypto.key_version, self.token_crypto.key_reference,
user_id, encrypted_refresh_token, refresh_token))
else:
cursor.execute('''
UPDATE wix_oauth_tokens
SET access_token = ?, expires_at = ?, expires_in = ?,
is_active = TRUE, updated_at = datetime('now')
UPDATE wix_oauth_tokens
SET access_token = ?, expires_at = ?, expires_in = ?,
is_active = TRUE, updated_at = datetime('now'), token_key_version = ?, token_key_reference = ?
WHERE user_id = ? AND id = (SELECT id FROM wix_oauth_tokens WHERE user_id = ? ORDER BY created_at DESC LIMIT 1)
''', (access_token, expires_at, expires_in, user_id, user_id))
''', (encrypted_access_token, expires_at, expires_in,
self.token_crypto.key_version, self.token_crypto.key_reference, user_id, user_id))
conn.commit()
logger.info(f"Wix OAuth: Tokens updated for user {user_id}")
logger.info(f"Wix OAuth: Encrypted tokens updated for user {user_id}")
return True
except Exception as e:
logger.error(f"Error updating Wix tokens for user {user_id}: {e}")
return False
def rotate_token_encryption(self, user_id: str, batch_size: int = 100) -> Dict[str, int]:
"""Re-encrypt existing token rows in batches for key rotation."""
self._init_db(user_id)
db_path = self._get_db_path(user_id)
rotated, skipped, last_id = 0, 0, 0
with sqlite3.connect(db_path) as conn:
cursor = conn.cursor()
while True:
cursor.execute('''
SELECT id, access_token, refresh_token
FROM wix_oauth_tokens
WHERE user_id = ? AND id > ?
ORDER BY id ASC
LIMIT ?
''', (user_id, last_id, batch_size))
rows = cursor.fetchall()
if not rows:
break
for row_id, enc_access, enc_refresh in rows:
last_id = row_id
try:
plain_access = self.token_crypto.decrypt_token(enc_access)
plain_refresh = self.token_crypto.decrypt_token(enc_refresh) if enc_refresh else None
except Exception:
skipped += 1
continue
new_access, new_refresh = self.token_crypto.encrypt_pair(plain_access, plain_refresh)
cursor.execute('''
UPDATE wix_oauth_tokens
SET access_token = ?, refresh_token = ?, token_key_version = ?, token_key_reference = ?, updated_at = datetime('now')
WHERE id = ?
''', (new_access, new_refresh, self.token_crypto.key_version, self.token_crypto.key_reference, row_id))
rotated += 1
conn.commit()
logger.info(f"Wix OAuth: Encryption rotation complete for user {user_id}; rotated={rotated}, skipped={skipped}")
return {"rotated": rotated, "skipped": skipped}
def revoke_token(self, user_id: str, token_id: int) -> bool:
"""Revoke a Wix OAuth token."""
try:
db_path = self._get_db_path(user_id)
with sqlite3.connect(db_path) as conn:
cursor = conn.cursor()
cursor.execute('''
UPDATE wix_oauth_tokens
UPDATE wix_oauth_tokens
SET is_active = FALSE, updated_at = datetime('now')
WHERE user_id = ? AND id = ?
''', (user_id, token_id))
conn.commit()
if cursor.rowcount > 0:
logger.info(f"Wix token {token_id} revoked for user {user_id}")
return True
return False
except Exception as e:
logger.error(f"Error revoking Wix token: {e}")
return False

52
backend/services/intelligence/agents/performance_monitor.py
View File

@@ -99,58 +99,6 @@ class OptimizationRecommendation:
expires = datetime.utcnow().timestamp() + (7 * 24 * 60 * 60)
self.expires_at = datetime.fromtimestamp(expires).isoformat()
@dataclass
class EscalationVelocitySignal:
"""Measured action velocity signal used for escalation tiering."""
window_minutes: int
action_count: int
actions_per_minute: float
triggered: bool
class EscalationTier(Enum):
"""Escalation tier derived from measurable action velocity."""
TIER_1 = "tier_1"
TIER_2 = "tier_2"
TIER_3 = "tier_3"
class EscalationVelocityPolicy:
"""Velocity-based trigger policy for escalation tiers."""
def __init__(self):
self.tier_thresholds = {
EscalationTier.TIER_1: {"window_minutes": 15, "actions_per_minute": 0.8},
EscalationTier.TIER_2: {"window_minutes": 10, "actions_per_minute": 1.5},
EscalationTier.TIER_3: {"window_minutes": 5, "actions_per_minute": 3.0},
}
def measure_velocity(self, events: List[Dict[str, Any]], now: Optional[datetime] = None) -> Dict[EscalationTier, EscalationVelocitySignal]:
now = now or datetime.utcnow()
signals: Dict[EscalationTier, EscalationVelocitySignal] = {}
for tier, cfg in self.tier_thresholds.items():
cutoff = now - timedelta(minutes=cfg["window_minutes"])
count = sum(1 for event in events if datetime.fromisoformat(event["timestamp"]) >= cutoff)
velocity = count / max(cfg["window_minutes"], 1)
signals[tier] = EscalationVelocitySignal(
window_minutes=cfg["window_minutes"],
action_count=count,
actions_per_minute=velocity,
triggered=velocity >= cfg["actions_per_minute"]
)
return signals
def determine_tier(self, events: List[Dict[str, Any]], now: Optional[datetime] = None) -> Tuple[Optional[EscalationTier], Dict[EscalationTier, EscalationVelocitySignal]]:
signals = self.measure_velocity(events, now=now)
for tier in [EscalationTier.TIER_3, EscalationTier.TIER_2, EscalationTier.TIER_1]:
if signals[tier].triggered:
return tier, signals
return None, signals
class AgentPerformanceMonitor:
"""Main performance monitoring system for agents"""

122
backend/services/intelligence/agents/safety_framework.py
View File

@@ -13,7 +13,6 @@ from enum import Enum
from utils.logger_utils import get_service_logger
from services.database import get_session_for_user
from services.intelligence.agents.performance_monitor import EscalationVelocityPolicy, EscalationTier
logger = get_service_logger(__name__)
@@ -85,25 +84,6 @@ class SafetyValidation:
if self.validation_timestamp is None:
self.validation_timestamp = datetime.utcnow().isoformat()
@dataclass
class EscalationDecision:
"""Structured escalation payload for autonomous safety routing."""
tier: str
action: str
confidence: float
risk_class: str
rationale: str
velocity: Dict[str, Any]
lockout_auto_edits: bool
executor: Optional[str]
created_at: str = None
def __post_init__(self):
if self.created_at is None:
self.created_at = datetime.utcnow().isoformat()
class SafetyConstraintManager:
"""Manages safety constraints for agent actions"""
@@ -112,11 +92,6 @@ class SafetyConstraintManager:
self.constraints: Dict[str, SafetyConstraint] = {}
self.action_history: List[Dict[str, Any]] = []
self.violation_history: List[Dict[str, Any]] = []
self.escalation_policy = EscalationVelocityPolicy()
self.escalation_history: List[Dict[str, Any]] = []
self.auto_edit_lockout = False
self.executor_routes = {"tier_1": "autonomous_guardian_executor", "tier_2": "autonomous_recovery_executor"}
self.alert_history: List[Dict[str, Any]] = []
# Initialize default constraints
self._initialize_default_constraints()
@@ -238,7 +213,7 @@ class SafetyConstraintManager:
# Record in history
await self._record_validation_history(action_data, is_valid, violations)
validation = SafetyValidation(
return SafetyValidation(
is_valid=is_valid,
risk_level=risk_level,
violations=violations,
@@ -246,10 +221,6 @@ class SafetyConstraintManager:
requires_approval=requires_approval,
confidence_score=max(0.0, min(1.0, confidence_score))
)
escalation = await self.evaluate_escalation(action_data, validation)
if escalation:
recommendations.append(f"Escalation action: {escalation.action} ({escalation.tier})")
return validation
except Exception as e:
logger.error(f"Error validating action for user {self.user_id}: {e}")
@@ -495,97 +466,6 @@ class SafetyConstraintManager:
if len(self.violation_history) > 500:
self.violation_history = self.violation_history[-500:]
async def evaluate_escalation(self, action_data: Dict[str, Any], validation: SafetyValidation) -> Optional[EscalationDecision]:
"""Evaluate velocity-triggered escalation and produce structured decision payload."""
if self.auto_edit_lockout:
decision = EscalationDecision(
tier=EscalationTier.TIER_3.value,
action="lockout_enforced",
confidence=1.0,
risk_class=RiskLevel.CRITICAL.value,
rationale="Tier 3 lockout already active; autonomous edits blocked until manual reset",
velocity={},
lockout_auto_edits=True,
executor=None
)
await self._persist_escalation_decision(decision, action_data, outcome={"status": "blocked_by_lockout"})
return decision
tier, signals = self.escalation_policy.determine_tier(self.action_history)
if not tier:
return None
risk_class_map = {EscalationTier.TIER_1: RiskLevel.MEDIUM.value, EscalationTier.TIER_2: RiskLevel.HIGH.value, EscalationTier.TIER_3: RiskLevel.CRITICAL.value}
confidence = min(1.0, max(0.1, 0.55 + (len(validation.violations) * 0.05) + ((1 - validation.confidence_score) * 0.4)))
velocity_signal = signals[tier]
velocity_payload = {
"window_minutes": velocity_signal.window_minutes,
"action_count": velocity_signal.action_count,
"actions_per_minute": round(velocity_signal.actions_per_minute, 4),
"threshold_actions_per_minute": self.escalation_policy.tier_thresholds[tier]["actions_per_minute"],
}
executor = self.executor_routes.get(tier.value)
action = "route_to_autonomous_executor" if tier in (EscalationTier.TIER_1, EscalationTier.TIER_2) else "lockout_autonomous_edits"
rationale = f"{tier.value} triggered by velocity {velocity_payload['actions_per_minute']}/min over {velocity_signal.window_minutes}m window"
decision = EscalationDecision(
tier=tier.value,
action=action,
confidence=round(confidence, 3),
risk_class=risk_class_map[tier],
rationale=rationale,
velocity=velocity_payload,
lockout_auto_edits=(tier == EscalationTier.TIER_3),
executor=executor if tier != EscalationTier.TIER_3 else None
)
outcome = await self._apply_escalation_decision(decision, action_data, validation)
await self._persist_escalation_decision(decision, action_data, outcome=outcome)
return decision
async def _apply_escalation_decision(self, decision: EscalationDecision, action_data: Dict[str, Any], validation: SafetyValidation) -> Dict[str, Any]:
if decision.tier in (EscalationTier.TIER_1.value, EscalationTier.TIER_2.value):
return {
"status": "routed",
"executor": decision.executor,
"reason": decision.rationale
}
self.auto_edit_lockout = True
brief = {
"type": "diagnostic_brief",
"severity": "critical",
"tier": decision.tier,
"user_rationale": "Autonomous edits have been paused to protect account safety after sustained high-velocity actions.",
"validation_violations": validation.violations,
"action_type": action_data.get("action_type", "unknown"),
"timestamp": datetime.utcnow().isoformat()
}
self.alert_history.append(brief)
if len(self.alert_history) > 500:
self.alert_history = self.alert_history[-500:]
return {"status": "lockout_enabled", "diagnostic_brief": brief}
async def _persist_escalation_decision(self, decision: EscalationDecision, action_data: Dict[str, Any], outcome: Dict[str, Any]):
record = {
"timestamp": datetime.utcnow().isoformat(),
"decision": asdict(decision),
"action_data": action_data,
"outcome": outcome
}
self.escalation_history.append(record)
if len(self.escalation_history) > 2000:
self.escalation_history = self.escalation_history[-2000:]
def get_escalation_history(self, limit: int = 100) -> List[Dict[str, Any]]:
return self.escalation_history[-limit:] if self.escalation_history else []
def reset_auto_edit_lockout(self):
self.auto_edit_lockout = False
def add_custom_constraint(self, constraint: SafetyConstraint):
"""Add a custom safety constraint"""
self.constraints[constraint.constraint_id] = constraint

69
backend/services/token_crypto_service.py Normal file
View File

@@ -0,0 +1,69 @@
"""Service for encrypting/decrypting integration tokens with key version metadata."""
import base64
import hashlib
import os
from typing import Optional, Tuple
from cryptography.fernet import Fernet, InvalidToken
from loguru import logger
class TokenCryptoService:
"""Token encryption/decryption service with key version support."""
ENV_KEY = "ALWRITY_TOKEN_ENCRYPTION_KEY"
ENV_KEY_VERSION = "ALWRITY_TOKEN_KEY_VERSION"
def __init__(self):
raw_key = os.getenv(self.ENV_KEY, "")
if raw_key:
self._fernet_key = self._normalize_key(raw_key)
else:
self._fernet_key = self._derive_dev_key()
self._fernet = Fernet(self._fernet_key)
self._key_version = os.getenv(self.ENV_KEY_VERSION, "v1")
self._key_reference = self._fingerprint(self._fernet_key)
@property
def key_version(self) -> str:
return self._key_version
@property
def key_reference(self) -> str:
return self._key_reference
def encrypt_token(self, token: Optional[str]) -> Optional[str]:
if token is None:
return None
return self._fernet.encrypt(token.encode("utf-8")).decode("utf-8")
def decrypt_token(self, encrypted_token: Optional[str]) -> Optional[str]:
if encrypted_token is None:
return None
try:
return self._fernet.decrypt(encrypted_token.encode("utf-8")).decode("utf-8")
except InvalidToken:
logger.error("Token decryption failed due to invalid token/key")
raise
def encrypt_pair(self, access_token: str, refresh_token: Optional[str]) -> Tuple[str, Optional[str]]:
return self.encrypt_token(access_token), self.encrypt_token(refresh_token)
@staticmethod
def _normalize_key(raw_key: str) -> bytes:
raw_key = raw_key.strip()
if len(raw_key) == 44 and raw_key.endswith("="):
return raw_key.encode("utf-8")
digest = hashlib.sha256(raw_key.encode("utf-8")).digest()
return base64.urlsafe_b64encode(digest)
@staticmethod
def _derive_dev_key() -> bytes:
seed = "alwrity-local-token-key"
digest = hashlib.sha256(seed.encode("utf-8")).digest()
return base64.urlsafe_b64encode(digest)
@staticmethod
def _fingerprint(key: bytes) -> str:
return hashlib.sha256(key).hexdigest()[:16]