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leech / bot /helper /ext_utils /error_handler.py
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dragxd
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 import time
from dataclasses import dataclass, field
from datetime import datetime, timedelta
from enum import Enum
from functools import wraps
from typing import Any, Callable, Dict, List, Optional
from .. import LOGGER
class ErrorSeverity(Enum):
LOW = "low"
MEDIUM = "medium"
HIGH = "high"
CRITICAL = "critical"
class CircuitState(Enum):
CLOSED = "closed"
OPEN = "open"
HALF_OPEN = "half_open"
@dataclass
class ErrorRecord:
timestamp: datetime
error_type: str
message: str
severity: ErrorSeverity
context: Dict[str, Any] = field(default_factory=dict)
traceback: Optional[str] = None
@dataclass
class HealthMetrics:
total_operations: int = 0
successful_operations: int = 0
failed_operations: int = 0
error_rate: float = 0.0
avg_response_time: float = 0.0
last_updated: datetime = field(default_factory=datetime.now)
class CircuitBreaker:
def __init__(self, failure_threshold: int = 5, recovery_timeout: int = 60):
self.failure_threshold = failure_threshold
self.recovery_timeout = recovery_timeout
self.failure_count = 0
self.last_failure_time = None
self.state = CircuitState.CLOSED
def can_execute(self) -> bool:
if self.state == CircuitState.CLOSED:
return True
elif self.state == CircuitState.OPEN:
if (
datetime.now() - self.last_failure_time
).seconds >= self.recovery_timeout:
self.state = CircuitState.HALF_OPEN
return True
return False
else:
return True
def on_success(self):
self.failure_count = 0
self.state = CircuitState.CLOSED
def on_failure(self):
self.failure_count += 1
self.last_failure_time = datetime.now()
if self.failure_count >= self.failure_threshold:
self.state = CircuitState.OPEN
class ErrorMonitor:
def __init__(self):
self.errors: List[ErrorRecord] = []
self.health_metrics: Dict[str, HealthMetrics] = {}
self.circuit_breakers: Dict[str, CircuitBreaker] = {}
self.max_errors = 1000
def record_error(
self,
error_type: str,
message: str,
severity: ErrorSeverity = ErrorSeverity.MEDIUM,
context: Dict[str, Any] = None,
traceback: str = None,
):
error_record = ErrorRecord(
timestamp=datetime.now(),
error_type=error_type,
message=message,
severity=severity,
context=context or {},
traceback=traceback,
)
self.errors.append(error_record)
if len(self.errors) > self.max_errors:
self.errors.pop(0)
LOGGER.error(f"Error recorded: {error_type} - {message}")
def update_health_metrics(
self, operation: str, success: bool, response_time: float
):
if operation not in self.health_metrics:
self.health_metrics[operation] = HealthMetrics()
metrics = self.health_metrics[operation]
metrics.total_operations += 1
if success:
metrics.successful_operations += 1
else:
metrics.failed_operations += 1
metrics.error_rate = metrics.failed_operations / metrics.total_operations
metrics.avg_response_time = (
metrics.avg_response_time * (metrics.total_operations - 1) + response_time
) / metrics.total_operations
metrics.last_updated = datetime.now()
def get_circuit_breaker(self, operation: str) -> CircuitBreaker:
if operation not in self.circuit_breakers:
self.circuit_breakers[operation] = CircuitBreaker()
return self.circuit_breakers[operation]
def get_error_summary(self, hours: int = 24) -> Dict[str, Any]:
cutoff_time = datetime.now() - timedelta(hours=hours)
recent_errors = [e for e in self.errors if e.timestamp >= cutoff_time]
return {
"total_errors": len(recent_errors),
"errors_by_severity": {
severity.value: len(
[e for e in recent_errors if e.severity == severity]
)
for severity in ErrorSeverity
},
"errors_by_type": {
error_type: len(
[e for e in recent_errors if e.error_type == error_type]
)
for error_type in set(e.error_type for e in recent_errors)
},
"health_metrics": {
op: {
"error_rate": metrics.error_rate,
"avg_response_time": metrics.avg_response_time,
"total_operations": metrics.total_operations,
}
for op, metrics in self.health_metrics.items()
},
}
error_monitor = ErrorMonitor()
def error_handler(operation: str = None):
def decorator(func: Callable) -> Callable:
@wraps(func)
async def wrapper(*args, **kwargs):
op_name = operation or func.__name__
start_time = time.time()
circuit_breaker = error_monitor.get_circuit_breaker(op_name)
if not circuit_breaker.can_execute():
raise Exception(f"Circuit breaker open for {op_name}")
try:
result = await func(*args, **kwargs)
circuit_breaker.on_success()
error_monitor.update_health_metrics(
op_name, True, time.time() - start_time
)
return result
except Exception as e:
circuit_breaker.on_failure()
error_monitor.update_health_metrics(
op_name, False, time.time() - start_time
)
error_monitor.record_error(
error_type=type(e).__name__,
message=str(e),
severity=ErrorSeverity.HIGH,
context={
"operation": op_name,
"args": str(args),
"kwargs": str(kwargs),
},
)
raise
return wrapper
return decorator
def circuit_breaker(
operation: str, failure_threshold: int = 5, recovery_timeout: int = 60
):
def decorator(func: Callable) -> Callable:
@wraps(func)
async def wrapper(*args, **kwargs):
cb = CircuitBreaker(failure_threshold, recovery_timeout)
if not cb.can_execute():
raise Exception(f"Circuit breaker open for {operation}")
try:
result = await func(*args, **kwargs)
cb.on_success()
return result
except Exception:
cb.on_failure()
raise
return wrapper
return decorator