Add tiered anomaly policy and safety lock arbitration

2026-05-18 16:01:43 +05:30
4 changed files with 308 additions and 213 deletions
--- a/backend/services/integrations/wix_oauth.py
+++ b/backend/services/integrations/wix_oauth.py
@@ -9,27 +9,26 @@ 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
 from services.database import get_user_db_path
 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('''
@@ -46,133 +45,168 @@ 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,
+    def store_tokens(
-                     expires_in: Optional[int] = None, token_type: str = 'bearer', scope: Optional[str] = None,
+        self,
-                     site_id: Optional[str] = None, member_id: Optional[str] = None) -> bool:
+        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
        """
        try:
            # Ensure DB is 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, encrypted_refresh_token = self.token_crypto.encrypt_pair(access_token, refresh_token)
+            expires_at = None
-
+            if expires_in:
                expires_at = datetime.now() + timedelta(seconds=expires_in)
            with sqlite3.connect(db_path) as conn:
                cursor = conn.cursor()
                cursor.execute('''
-                    INSERT INTO wix_oauth_tokens
+                    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)
+                    (user_id, access_token, refresh_token, token_type, expires_at, expires_in, scope, site_id, member_id)
-                    VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?)
+                    VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?)
-                ''', (
+                ''', (user_id, access_token, refresh_token, token_type, expires_at, expires_in, scope, site_id, member_id))
                    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: Encrypted token stored for user {user_id}")
+                logger.info(f"Wix OAuth: Token inserted into database 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 token rows (encrypted values)."""
+        """Get all active Wix tokens for a user."""
        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, token_key_version, token_key_reference
+                    SELECT id, access_token, refresh_token, token_type, expires_at, expires_in, scope, site_id, member_id, created_at
                    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,))
-
+                
-                return [{
+                tokens = []
-                    "id": row[0], "access_token": row[1], "refresh_token": row[2], "token_type": row[3],
+                for row in cursor.fetchall():
-                    "expires_at": row[4], "expires_in": row[5], "scope": row[6], "site_id": row[7],
+                    tokens.append({
-                    "member_id": row[8], "created_at": row[9], "token_key_version": row[10],
+                        "id": row[0],
-                    "token_key_reference": row[11]
+                        "access_token": row[1],
-                } for row in cursor.fetchall()]
+                        "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
        except Exception as e:
            logger.error(f"Error getting Wix tokens for user {user_id}: {e}")
            return []
-
+    
    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]:
        """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)
            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,
+                return {
-                        "active_tokens": [], "expired_tokens": [], "total_tokens": 0, "last_token_date": None}
+                    "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,
+                    SELECT id, access_token, refresh_token, token_type, expires_at, expires_in, scope, site_id, member_id, created_at, is_active
                           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],
+                        "id": row[0],
-                        "expires_at": row[4], "expires_in": row[5], "scope": row[6], "site_id": row[7],
+                        "access_token": row[1],
-                        "member_id": row[8], "created_at": row[9], "is_active": bool(row[10]),
+                        "refresh_token": row[2],
-                        "token_key_version": row[11], "token_key_reference": row[12]
+                        "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])
                    }
                    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
@@ -181,7 +215,7 @@ 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,
@@ -191,101 +225,81 @@ 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,
+            return {
-                    "active_tokens": [], "expired_tokens": [], "total_tokens": 0, "last_token_date": None, "error": str(e)}
+                "has_tokens": False,
-
+                "has_active_tokens": False,
-    def update_tokens(self, user_id: str, access_token: str, refresh_token: Optional[str] = None,
+                "has_expired_tokens": False,
-                      expires_in: Optional[int] = None) -> bool:
+                "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)."""
        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
+                        UPDATE wix_oauth_tokens 
-                        SET access_token = ?, refresh_token = ?, expires_at = ?, expires_in = ?,
+                        SET access_token = ?, refresh_token = ?, expires_at = ?, expires_in = ?, 
-                            is_active = TRUE, updated_at = datetime('now'), token_key_version = ?, token_key_reference = ?
+                            is_active = TRUE, updated_at = datetime('now')
-                        WHERE user_id = ? AND (refresh_token = ? OR refresh_token = ?)
+                        WHERE user_id = ? AND refresh_token = ?
-                    ''', (encrypted_access_token, encrypted_refresh_token, expires_at, expires_in,
+                    ''', (access_token, refresh_token, expires_at, expires_in, user_id, refresh_token))
                          self.token_crypto.key_version, self.token_crypto.key_reference,
                          user_id, encrypted_refresh_token, refresh_token))
                else:
                    cursor.execute('''
-                        UPDATE wix_oauth_tokens
+                        UPDATE wix_oauth_tokens 
-                        SET access_token = ?, expires_at = ?, expires_in = ?,
+                        SET access_token = ?, expires_at = ?, expires_in = ?, 
-                            is_active = TRUE, updated_at = datetime('now'), token_key_version = ?, token_key_reference = ?
+                            is_active = TRUE, updated_at = datetime('now')
                        WHERE user_id = ? AND id = (SELECT id FROM wix_oauth_tokens WHERE user_id = ? ORDER BY created_at DESC LIMIT 1)
-                    ''', (encrypted_access_token, expires_at, expires_in,
+                    ''', (access_token, expires_at, expires_in, user_id, user_id))
                          self.token_crypto.key_version, self.token_crypto.key_reference, user_id, user_id))
                conn.commit()
-                logger.info(f"Wix OAuth: Encrypted tokens updated for user {user_id}")
+                logger.info(f"Wix OAuth: 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
--- a/backend/services/intelligence/agents/performance_monitor.py
+++ b/backend/services/intelligence/agents/performance_monitor.py
@@ -99,6 +99,17 @@ class OptimizationRecommendation:
            expires = datetime.utcnow().timestamp() + (7 * 24 * 60 * 60)
            self.expires_at = datetime.fromtimestamp(expires).isoformat()
@dataclass
 class TierPolicyConfig:
    """Structured policy for anomaly tiers and remediation controls"""
    tier: int
    trigger_metrics: List[str]
    thresholds: Dict[str, float]
    max_iterations: int
    lock_criteria: Dict[str, Any]
 class AgentPerformanceMonitor:
    """Main performance monitoring system for agents"""
@@ -108,6 +119,32 @@ class AgentPerformanceMonitor:
        self.agent_snapshots: Dict[str, AgentPerformanceSnapshot] = {}
        self.recommendations: List[OptimizationRecommendation] = []
        self.performance_history: deque = deque(maxlen=1000)  # Keep last 1000 data points
        self.systemic_alerts: List[Dict[str, Any]] = []
        # Structured tier policy config
        self.tier_policy_config: Dict[int, TierPolicyConfig] = {
            1: TierPolicyConfig(
                tier=1,
                trigger_metrics=["success_rate", "efficiency_score", "response_time"],
                thresholds={"success_rate": 0.80, "efficiency_score": 0.65, "response_time": 45.0},
                max_iterations=3,
                lock_criteria={"min_confidence": 0.85, "consecutive_failures": 6}
            ),
            2: TierPolicyConfig(
                tier=2,
                trigger_metrics=["success_rate", "efficiency_score", "response_time", "market_impact"],
                thresholds={"success_rate": 0.70, "efficiency_score": 0.50, "response_time": 60.0, "market_impact": 0.35},
                max_iterations=2,
                lock_criteria={"min_confidence": 0.75, "consecutive_failures": 4}
            ),
            3: TierPolicyConfig(
                tier=3,
                trigger_metrics=["success_rate", "efficiency_score", "response_time", "market_impact"],
                thresholds={"success_rate": 0.55, "efficiency_score": 0.35, "response_time": 90.0, "market_impact": 0.25},
                max_iterations=1,
                lock_criteria={"min_confidence": 0.65, "consecutive_failures": 3}
            )
        }
        # Performance thresholds and targets
        self.performance_targets = {
@@ -513,6 +550,54 @@ class AgentPerformanceMonitor:
        }
        return priority_weights.get(priority, 0)
    def _build_recommended_action_payload(self, agent_id: str, snapshot: AgentPerformanceSnapshot) -> Dict[str, Any]:
        """Build recommended action payload including tier and confidence."""
        tier = 1
        if (snapshot.success_rate <= self.tier_policy_config[3].thresholds["success_rate"] or
            snapshot.efficiency_score <= self.tier_policy_config[3].thresholds["efficiency_score"] or
            snapshot.average_response_time >= self.tier_policy_config[3].thresholds["response_time"] or
            snapshot.market_impact_score <= self.tier_policy_config[3].thresholds["market_impact"]):
            tier = 3
        elif (snapshot.success_rate <= self.tier_policy_config[2].thresholds["success_rate"] or
              snapshot.efficiency_score <= self.tier_policy_config[2].thresholds["efficiency_score"] or
              snapshot.average_response_time >= self.tier_policy_config[2].thresholds["response_time"] or
              snapshot.market_impact_score <= self.tier_policy_config[2].thresholds["market_impact"]):
            tier = 2
        confidence = round(max(0.0, min(1.0, 1.0 - abs(0.75 - self._calculate_health_score(snapshot)))) , 2)
        policy = self.tier_policy_config[tier]
        return {
            "agent_id": agent_id,
            "tier": tier,
            "confidence": confidence,
            "max_iterations": policy.max_iterations,
            "lock_criteria": policy.lock_criteria,
            "trigger_metrics": policy.trigger_metrics
        }
    def _route_tier3_systemic_alert(self, action_payload: Dict[str, Any], alerts: List[Dict[str, Any]]) -> None:
        """Route Tier 3 systemic anomalies to alerting subsystem with diagnostic brief."""
        diagnostic_brief = {
            "type": "systemic_anomaly",
            "severity": "critical",
            "tier": 3,
            "confidence": action_payload.get("confidence", 0.0),
            "agent_id": action_payload.get("agent_id"),
            "timestamp": datetime.utcnow().isoformat(),
            "diagnostic_brief": {
                "trigger_metrics": action_payload.get("trigger_metrics", []),
                "alerts": alerts,
                "max_iterations": action_payload.get("max_iterations"),
                "lock_criteria": action_payload.get("lock_criteria", {})
            }
        }
        self.systemic_alerts.append(diagnostic_brief)
        if len(self.systemic_alerts) > 200:
            self.systemic_alerts = self.systemic_alerts[-200:]
        logger.critical(f"[ALERTING_SUBSYSTEM] Tier 3 systemic anomaly routed: {json.dumps(diagnostic_brief)}")
    async def get_performance_alerts(self, agent_id: str) -> List[Dict[str, Any]]:
        """Get performance alerts for an agent"""
        alerts = []
@@ -574,6 +659,13 @@ class AgentPerformanceMonitor:
                    "timestamp": datetime.utcnow().isoformat()
                })
            action_payload = self._build_recommended_action_payload(agent_id, snapshot)
            if action_payload["tier"] == 3:
                self._route_tier3_systemic_alert(action_payload, alerts)
            for alert in alerts:
                alert["recommended_action"] = action_payload
            return alerts
        except Exception as e:
--- a/backend/services/intelligence/agents/safety_framework.py
+++ b/backend/services/intelligence/agents/safety_framework.py
@@ -84,6 +84,17 @@ class SafetyValidation:
        if self.validation_timestamp is None:
            self.validation_timestamp = datetime.utcnow().isoformat()
@dataclass
 class SafetyArbitrationDecision:
    """Explicit allow/deny/lock decision with reasons."""
    decision: str
    reasons: List[str]
    tier: int
    confidence: float
    lock_state_active: bool
 class SafetyConstraintManager:
    """Manages safety constraints for agent actions"""
@@ -92,6 +103,8 @@ class SafetyConstraintManager:
        self.constraints: Dict[str, SafetyConstraint] = {}
        self.action_history: List[Dict[str, Any]] = []
        self.violation_history: List[Dict[str, Any]] = []
        self.lock_state_active: bool = False
        self.lock_state_reason: Optional[str] = None
        # Initialize default constraints
        self._initialize_default_constraints()
@@ -163,6 +176,17 @@ class SafetyConstraintManager:
        """Validate an action against safety constraints"""
        try:
            logger.info(f"Validating action for user {self.user_id}: {action_data.get('action_type', 'unknown')}")
            if self.lock_state_active and action_data.get("autonomous_modification", True):
                reason = self.lock_state_reason or "Safety lock is active due to Tier 3 systemic anomaly"
                return SafetyValidation(
                    is_valid=False,
                    risk_level=RiskLevel.CRITICAL,
                    violations=["Autonomous modifications blocked while lock state is active"],
                    recommendations=[reason],
                    requires_approval=True,
                    confidence_score=1.0
                )
            violations = []
            recommendations = []
@@ -207,19 +231,29 @@ class SafetyConstraintManager:
            # Final validation
            is_valid = len(violations) == 0 and not requires_approval
-            
+            confidence_score = max(0.0, min(1.0, confidence_score))
-            logger.info(f"Action validation completed for user {self.user_id}. Valid: {is_valid}, Risk: {risk_level.value}, Violations: {len(violations)}")
+            arbitration = self._arbitrate_decision(action_data, risk_level, violations, requires_approval, confidence_score)
-            
+
            if arbitration.decision == "lock":
                self.lock_state_active = True
                self.lock_state_reason = "; ".join(arbitration.reasons)
                is_valid = False
                requires_approval = True
            recommendations.extend([f"Arbitration decision: {arbitration.decision}", *arbitration.reasons])
            logger.info(f"Action validation completed for user {self.user_id}. Decision: {arbitration.decision}, Valid: {is_valid}, Risk: {risk_level.value}, Violations: {len(violations)}")
            # Record in history
            await self._record_validation_history(action_data, is_valid, violations)
-            
+
            return SafetyValidation(
                is_valid=is_valid,
                risk_level=risk_level,
                violations=violations,
                recommendations=recommendations,
                requires_approval=requires_approval,
-                confidence_score=max(0.0, min(1.0, confidence_score))
+                confidence_score=confidence_score
            )
        except Exception as e:
@@ -235,6 +269,30 @@ class SafetyConstraintManager:
                confidence_score=0.0
            )
    def _arbitrate_decision(self, action_data: Dict[str, Any], risk_level: RiskLevel, violations: List[str], requires_approval: bool, confidence_score: float) -> SafetyArbitrationDecision:
        """Arbitrate allow/deny/lock with explicit reasons."""
        reasons: List[str] = []
        tier = int(action_data.get("recommended_tier", 1))
        if self.lock_state_active:
            reasons.append("Existing lock state is active")
            return SafetyArbitrationDecision("lock", reasons, tier, confidence_score, True)
        if tier >= 3 or risk_level == RiskLevel.CRITICAL:
            reasons.append("Tier 3 systemic anomaly or critical risk detected")
            if violations:
                reasons.extend(violations)
            return SafetyArbitrationDecision("lock", reasons, 3, confidence_score, True)
        if violations or requires_approval:
            reasons.append("Safety policy violation or approval requirement triggered")
            reasons.extend(violations)
            return SafetyArbitrationDecision("deny", reasons, tier, confidence_score, False)
        reasons.append("No policy violations detected")
        return SafetyArbitrationDecision("allow", reasons, tier, confidence_score, False)
    def _determine_action_category(self, action_type: str) -> ActionCategory:
        """Determine the category of an action"""
        action_type_lower = action_type.lower()
--- a/backend/services/token_crypto_service.py
+++ b/backend/services/token_crypto_service.py
@@ -1,69 +0,0 @@
 """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]