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Datasourceforcryptocurrency / hf-data-engine /monitoring /scheduler.py
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 """
Comprehensive Task Scheduler for Crypto API Monitoring
Implements scheduled tasks using APScheduler with full compliance tracking
"""
import asyncio
import time
from datetime import datetime, timedelta
from typing import Dict, Optional, Callable, Any, List
from threading import Lock
from apscheduler.schedulers.background import BackgroundScheduler
from apscheduler.triggers.interval import IntervalTrigger
from apscheduler.triggers.cron import CronTrigger
from apscheduler.events import EVENT_JOB_EXECUTED, EVENT_JOB_ERROR
# Import required modules
from monitoring.health_checker import HealthChecker
from monitoring.rate_limiter import rate_limiter
from database.db_manager import db_manager
from utils.logger import setup_logger
from config import config
# Setup logger
logger = setup_logger("scheduler", level="INFO")
class TaskScheduler:
"""
Comprehensive task scheduler with compliance tracking
Manages all scheduled tasks for the API monitoring system
"""
def __init__(self, db_path: str = "data/api_monitor.db"):
"""
Initialize task scheduler
Args:
db_path: Path to SQLite database
"""
self.scheduler = BackgroundScheduler()
self.db_path = db_path
self.health_checker = HealthChecker(db_path=db_path)
self.lock = Lock()
# Track next expected run times for compliance
self.expected_run_times: Dict[str, datetime] = {}
# Track running status
self._is_running = False
# Register event listeners
self.scheduler.add_listener(
self._job_executed_listener,
EVENT_JOB_EXECUTED | EVENT_JOB_ERROR
)
logger.info("TaskScheduler initialized")
def _job_executed_listener(self, event):
"""
Listener for job execution events
Args:
event: APScheduler event object
"""
job_id = event.job_id
if event.exception:
logger.error(
f"Job {job_id} raised an exception: {event.exception}",
exc_info=True
)
else:
logger.debug(f"Job {job_id} executed successfully")
def _record_compliance(
self,
task_name: str,
expected_time: datetime,
actual_time: datetime,
success: bool = True,
skip_reason: Optional[str] = None
):
"""
Record schedule compliance metrics
Args:
task_name: Name of the scheduled task
expected_time: Expected execution time
actual_time: Actual execution time
success: Whether task succeeded
skip_reason: Reason if task was skipped
"""
try:
# Calculate delay
delay_seconds = int((actual_time - expected_time).total_seconds())
on_time = abs(delay_seconds) <= 5 # Within 5 seconds is considered on-time
# For system-level tasks, we'll use a dummy provider_id
# In production, you might want to create a special "system" provider
provider_id = 1 # Assuming provider ID 1 exists, or use None
# Save to database (we'll save to schedule_compliance table)
# Note: This requires a provider_id, so we might need to adjust the schema
# or create compliance records differently for system tasks
logger.info(
f"Schedule compliance - Task: {task_name}, "
f"Expected: {expected_time.isoformat()}, "
f"Actual: {actual_time.isoformat()}, "
f"Delay: {delay_seconds}s, "
f"On-time: {on_time}, "
f"Skip reason: {skip_reason or 'None'}"
)
except Exception as e:
logger.error(f"Failed to record compliance for {task_name}: {e}")
def _wrap_task(
self,
task_name: str,
task_func: Callable,
*args,
**kwargs
):
"""
Wrapper for scheduled tasks to add logging and compliance tracking
Args:
task_name: Name of the task
task_func: Function to execute
*args: Positional arguments for task_func
**kwargs: Keyword arguments for task_func
"""
start_time = datetime.utcnow()
# Get expected time
expected_time = self.expected_run_times.get(task_name, start_time)
# Update next expected time based on task interval
# This will be set when jobs are scheduled
logger.info(f"Starting task: {task_name}")
try:
# Execute the task
result = task_func(*args, **kwargs)
end_time = datetime.utcnow()
duration_ms = (end_time - start_time).total_seconds() * 1000
logger.info(
f"Completed task: {task_name} in {duration_ms:.2f}ms"
)
# Record compliance
self._record_compliance(
task_name=task_name,
expected_time=expected_time,
actual_time=start_time,
success=True
)
return result
except Exception as e:
end_time = datetime.utcnow()
duration_ms = (end_time - start_time).total_seconds() * 1000
logger.error(
f"Task {task_name} failed after {duration_ms:.2f}ms: {e}",
exc_info=True
)
# Record compliance with error
self._record_compliance(
task_name=task_name,
expected_time=expected_time,
actual_time=start_time,
success=False,
skip_reason=f"Error: {str(e)[:200]}"
)
# Don't re-raise - we want scheduler to continue
# ============================================================================
# Scheduled Task Implementations
# ============================================================================
def _health_check_task(self):
"""
Health check task - runs checks on all providers with staggering
"""
logger.info("Executing health check task")
try:
# Get all providers
providers = config.get_all_providers()
# Run health checks with staggering (10 seconds per provider)
async def run_staggered_checks():
results = []
for i, provider in enumerate(providers):
# Stagger by 10 seconds per provider
if i > 0:
await asyncio.sleep(10)
result = await self.health_checker.check_provider(provider.name)
if result:
results.append(result)
logger.info(
f"Health check: {provider.name} - {result.status.value} "
f"({result.response_time:.2f}ms)"
)
return results
# Run async task
results = asyncio.run(run_staggered_checks())
logger.info(f"Health check completed: {len(results)} providers checked")
except Exception as e:
logger.error(f"Health check task failed: {e}", exc_info=True)
def _market_data_collection_task(self):
"""
Market data collection task - collects data from market data providers
"""
logger.info("Executing market data collection task")
try:
# Get market data providers
providers = config.get_providers_by_category('market_data')
logger.info(f"Collecting market data from {len(providers)} providers")
# TODO: Implement actual data collection logic
# For now, just log the execution
for provider in providers:
logger.debug(f"Would collect market data from: {provider.name}")
except Exception as e:
logger.error(f"Market data collection failed: {e}", exc_info=True)
def _explorer_data_collection_task(self):
"""
Explorer data collection task - collects data from blockchain explorers
"""
logger.info("Executing explorer data collection task")
try:
# Get blockchain explorer providers
providers = config.get_providers_by_category('blockchain_explorers')
logger.info(f"Collecting explorer data from {len(providers)} providers")
# TODO: Implement actual data collection logic
for provider in providers:
logger.debug(f"Would collect explorer data from: {provider.name}")
except Exception as e:
logger.error(f"Explorer data collection failed: {e}", exc_info=True)
def _news_collection_task(self):
"""
News collection task - collects news from news providers
"""
logger.info("Executing news collection task")
try:
# Get news providers
providers = config.get_providers_by_category('news')
logger.info(f"Collecting news from {len(providers)} providers")
# TODO: Implement actual news collection logic
for provider in providers:
logger.debug(f"Would collect news from: {provider.name}")
except Exception as e:
logger.error(f"News collection failed: {e}", exc_info=True)
def _sentiment_collection_task(self):
"""
Sentiment collection task - collects sentiment data
"""
logger.info("Executing sentiment collection task")
try:
# Get sentiment providers
providers = config.get_providers_by_category('sentiment')
logger.info(f"Collecting sentiment data from {len(providers)} providers")
# TODO: Implement actual sentiment collection logic
for provider in providers:
logger.debug(f"Would collect sentiment data from: {provider.name}")
except Exception as e:
logger.error(f"Sentiment collection failed: {e}", exc_info=True)
def _rate_limit_snapshot_task(self):
"""
Rate limit snapshot task - captures current rate limit usage
"""
logger.info("Executing rate limit snapshot task")
try:
# Get all rate limit statuses
statuses = rate_limiter.get_all_statuses()
# Save each status to database
for provider_name, status_data in statuses.items():
if status_data:
# Get provider from config
provider = config.get_provider(provider_name)
if provider:
# Get provider ID from database
db_provider = db_manager.get_provider(name=provider_name)
if db_provider:
# Save rate limit usage
db_manager.save_rate_limit_usage(
provider_id=db_provider.id,
limit_type=status_data['limit_type'],
limit_value=status_data['limit_value'],
current_usage=status_data['current_usage'],
reset_time=datetime.fromisoformat(status_data['reset_time'])
)
logger.debug(
f"Rate limit snapshot: {provider_name} - "
f"{status_data['current_usage']}/{status_data['limit_value']} "
f"({status_data['percentage']}%)"
)
logger.info(f"Rate limit snapshot completed: {len(statuses)} providers")
except Exception as e:
logger.error(f"Rate limit snapshot failed: {e}", exc_info=True)
def _metrics_aggregation_task(self):
"""
Metrics aggregation task - aggregates system metrics
"""
logger.info("Executing metrics aggregation task")
try:
# Get all providers
all_providers = config.get_all_providers()
total_providers = len(all_providers)
# Get recent connection attempts (last hour)
connection_attempts = db_manager.get_connection_attempts(hours=1, limit=10000)
# Calculate metrics
online_count = 0
degraded_count = 0
offline_count = 0
total_response_time = 0
response_count = 0
total_requests = len(connection_attempts)
total_failures = sum(
1 for attempt in connection_attempts
if attempt.status in ['failed', 'timeout']
)
# Get latest health check results per provider
provider_latest_status = {}
for attempt in connection_attempts:
if attempt.provider_id not in provider_latest_status:
provider_latest_status[attempt.provider_id] = attempt
if attempt.status == 'success':
online_count += 1
if attempt.response_time_ms:
total_response_time += attempt.response_time_ms
response_count += 1
elif attempt.status == 'timeout':
offline_count += 1
else:
degraded_count += 1
# Calculate average response time
avg_response_time = (
total_response_time / response_count
if response_count > 0
else 0
)
# Determine system health
online_percentage = (online_count / total_providers * 100) if total_providers > 0 else 0
if online_percentage >= 80:
system_health = "healthy"
elif online_percentage >= 50:
system_health = "degraded"
else:
system_health = "critical"
# Save system metrics
db_manager.save_system_metrics(
total_providers=total_providers,
online_count=online_count,
degraded_count=degraded_count,
offline_count=offline_count,
avg_response_time_ms=avg_response_time,
total_requests_hour=total_requests,
total_failures_hour=total_failures,
system_health=system_health
)
logger.info(
f"Metrics aggregation completed - "
f"Health: {system_health}, "
f"Online: {online_count}/{total_providers}, "
f"Avg Response: {avg_response_time:.2f}ms"
)
except Exception as e:
logger.error(f"Metrics aggregation failed: {e}", exc_info=True)
def _database_cleanup_task(self):
"""
Database cleanup task - removes old records (>30 days)
"""
logger.info("Executing database cleanup task")
try:
# Cleanup old data (older than 30 days)
deleted_counts = db_manager.cleanup_old_data(days=30)
total_deleted = sum(deleted_counts.values())
logger.info(
f"Database cleanup completed - Deleted {total_deleted} old records"
)
# Log details
for table, count in deleted_counts.items():
if count > 0:
logger.info(f" {table}: {count} records deleted")
except Exception as e:
logger.error(f"Database cleanup failed: {e}", exc_info=True)
# ============================================================================
# Public API Methods
# ============================================================================
def start(self):
"""
Start all scheduled tasks
"""
if self._is_running:
logger.warning("Scheduler is already running")
return
logger.info("Starting task scheduler...")
try:
# Initialize expected run times (set to now for first run)
now = datetime.utcnow()
# Schedule health checks - every 5 minutes
self.expected_run_times['health_checks'] = now
self.scheduler.add_job(
func=lambda: self._wrap_task('health_checks', self._health_check_task),
trigger=IntervalTrigger(minutes=5),
id='health_checks',
name='Health Checks (Staggered)',
replace_existing=True,
max_instances=1
)
logger.info("Scheduled: Health checks every 5 minutes")
# Schedule market data collection - every 1 minute
self.expected_run_times['market_data'] = now
self.scheduler.add_job(
func=lambda: self._wrap_task('market_data', self._market_data_collection_task),
trigger=IntervalTrigger(minutes=1),
id='market_data',
name='Market Data Collection',
replace_existing=True,
max_instances=1
)
logger.info("Scheduled: Market data collection every 1 minute")
# Schedule explorer data collection - every 5 minutes
self.expected_run_times['explorer_data'] = now
self.scheduler.add_job(
func=lambda: self._wrap_task('explorer_data', self._explorer_data_collection_task),
trigger=IntervalTrigger(minutes=5),
id='explorer_data',
name='Explorer Data Collection',
replace_existing=True,
max_instances=1
)
logger.info("Scheduled: Explorer data collection every 5 minutes")
# Schedule news collection - every 10 minutes
self.expected_run_times['news_collection'] = now
self.scheduler.add_job(
func=lambda: self._wrap_task('news_collection', self._news_collection_task),
trigger=IntervalTrigger(minutes=10),
id='news_collection',
name='News Collection',
replace_existing=True,
max_instances=1
)
logger.info("Scheduled: News collection every 10 minutes")
# Schedule sentiment collection - every 15 minutes
self.expected_run_times['sentiment_collection'] = now
self.scheduler.add_job(
func=lambda: self._wrap_task('sentiment_collection', self._sentiment_collection_task),
trigger=IntervalTrigger(minutes=15),
id='sentiment_collection',
name='Sentiment Collection',
replace_existing=True,
max_instances=1
)
logger.info("Scheduled: Sentiment collection every 15 minutes")
# Schedule rate limit snapshot - every 1 minute
self.expected_run_times['rate_limit_snapshot'] = now
self.scheduler.add_job(
func=lambda: self._wrap_task('rate_limit_snapshot', self._rate_limit_snapshot_task),
trigger=IntervalTrigger(minutes=1),
id='rate_limit_snapshot',
name='Rate Limit Snapshot',
replace_existing=True,
max_instances=1
)
logger.info("Scheduled: Rate limit snapshot every 1 minute")
# Schedule metrics aggregation - every 5 minutes
self.expected_run_times['metrics_aggregation'] = now
self.scheduler.add_job(
func=lambda: self._wrap_task('metrics_aggregation', self._metrics_aggregation_task),
trigger=IntervalTrigger(minutes=5),
id='metrics_aggregation',
name='Metrics Aggregation',
replace_existing=True,
max_instances=1
)
logger.info("Scheduled: Metrics aggregation every 5 minutes")
# Schedule database cleanup - daily at 3 AM
self.expected_run_times['database_cleanup'] = now.replace(hour=3, minute=0, second=0)
self.scheduler.add_job(
func=lambda: self._wrap_task('database_cleanup', self._database_cleanup_task),
trigger=CronTrigger(hour=3, minute=0),
id='database_cleanup',
name='Database Cleanup (Daily 3 AM)',
replace_existing=True,
max_instances=1
)
logger.info("Scheduled: Database cleanup daily at 3 AM")
# Start the scheduler
self.scheduler.start()
self._is_running = True
logger.info("Task scheduler started successfully")
# Print scheduled jobs
jobs = self.scheduler.get_jobs()
logger.info(f"Active scheduled jobs: {len(jobs)}")
for job in jobs:
logger.info(f" - {job.name} (ID: {job.id}) - Next run: {job.next_run_time}")
except Exception as e:
logger.error(f"Failed to start scheduler: {e}", exc_info=True)
raise
def stop(self):
"""
Stop scheduler gracefully
"""
if not self._is_running:
logger.warning("Scheduler is not running")
return
logger.info("Stopping task scheduler...")
try:
# Shutdown scheduler gracefully
self.scheduler.shutdown(wait=True)
self._is_running = False
# Close health checker resources
asyncio.run(self.health_checker.close())
logger.info("Task scheduler stopped successfully")
except Exception as e:
logger.error(f"Error stopping scheduler: {e}", exc_info=True)
def add_job(
self,
job_id: str,
job_name: str,
job_func: Callable,
trigger_type: str = 'interval',
**trigger_kwargs
) -> bool:
"""
Add a custom scheduled job
Args:
job_id: Unique job identifier
job_name: Human-readable job name
job_func: Function to execute
trigger_type: Type of trigger ('interval' or 'cron')
**trigger_kwargs: Trigger-specific parameters
Returns:
True if successful, False otherwise
Examples:
# Add interval job
scheduler.add_job(
'my_job', 'My Custom Job', my_function,
trigger_type='interval', minutes=30
)
# Add cron job
scheduler.add_job(
'daily_job', 'Daily Job', daily_function,
trigger_type='cron', hour=12, minute=0
)
"""
try:
# Create trigger
if trigger_type == 'interval':
trigger = IntervalTrigger(**trigger_kwargs)
elif trigger_type == 'cron':
trigger = CronTrigger(**trigger_kwargs)
else:
logger.error(f"Unknown trigger type: {trigger_type}")
return False
# Add job with wrapper
self.scheduler.add_job(
func=lambda: self._wrap_task(job_id, job_func),
trigger=trigger,
id=job_id,
name=job_name,
replace_existing=True,
max_instances=1
)
# Set expected run time
self.expected_run_times[job_id] = datetime.utcnow()
logger.info(f"Added custom job: {job_name} (ID: {job_id})")
return True
except Exception as e:
logger.error(f"Failed to add job {job_id}: {e}", exc_info=True)
return False
def remove_job(self, job_id: str) -> bool:
"""
Remove a scheduled job
Args:
job_id: Job identifier to remove
Returns:
True if successful, False otherwise
"""
try:
self.scheduler.remove_job(job_id)
# Remove from expected run times
if job_id in self.expected_run_times:
del self.expected_run_times[job_id]
logger.info(f"Removed job: {job_id}")
return True
except Exception as e:
logger.error(f"Failed to remove job {job_id}: {e}", exc_info=True)
return False
def trigger_immediate(self, job_id: str) -> bool:
"""
Trigger immediate execution of a scheduled job
Args:
job_id: Job identifier to trigger
Returns:
True if successful, False otherwise
"""
try:
job = self.scheduler.get_job(job_id)
if not job:
logger.error(f"Job not found: {job_id}")
return False
# Modify the job to run now
job.modify(next_run_time=datetime.utcnow())
logger.info(f"Triggered immediate execution of job: {job_id}")
return True
except Exception as e:
logger.error(f"Failed to trigger job {job_id}: {e}", exc_info=True)
return False
def get_job_status(self, job_id: Optional[str] = None) -> Dict[str, Any]:
"""
Get status of scheduled jobs
Args:
job_id: Specific job ID, or None for all jobs
Returns:
Dictionary with job status information
"""
try:
if job_id:
job = self.scheduler.get_job(job_id)
if not job:
return {}
return {
'id': job.id,
'name': job.name,
'next_run': job.next_run_time.isoformat() if job.next_run_time else None,
'trigger': str(job.trigger)
}
else:
# Get all jobs
jobs = self.scheduler.get_jobs()
return {
'total_jobs': len(jobs),
'is_running': self._is_running,
'jobs': [
{
'id': job.id,
'name': job.name,
'next_run': job.next_run_time.isoformat() if job.next_run_time else None,
'trigger': str(job.trigger)
}
for job in jobs
]
}
except Exception as e:
logger.error(f"Failed to get job status: {e}", exc_info=True)
return {}
def is_running(self) -> bool:
"""
Check if scheduler is running
Returns:
True if running, False otherwise
"""
return self._is_running
# ============================================================================
# Global Scheduler Instance
# ============================================================================
# Create a global scheduler instance (can be reconfigured as needed)
task_scheduler = TaskScheduler()
# ============================================================================
# Convenience Functions
# ============================================================================
def start_scheduler():
"""Start the global task scheduler"""
task_scheduler.start()
def stop_scheduler():
"""Stop the global task scheduler"""
task_scheduler.stop()
# ============================================================================
# Example Usage
# ============================================================================
if __name__ == "__main__":
print("Task Scheduler Module")
print("=" * 80)
# Initialize and start scheduler
scheduler = TaskScheduler()
try:
# Start scheduler
scheduler.start()
# Keep running for a while
print("\nScheduler is running. Press Ctrl+C to stop...")
print(f"Scheduler status: {scheduler.get_job_status()}")
# Keep the main thread alive
import time
while True:
time.sleep(60)
# Print status every minute
status = scheduler.get_job_status()
print(f"\n[{datetime.utcnow().isoformat()}] Active jobs: {status['total_jobs']}")
for job in status.get('jobs', []):
print(f" - {job['name']}: Next run at {job['next_run']}")
except KeyboardInterrupt:
print("\n\nStopping scheduler...")
scheduler.stop()
print("Scheduler stopped. Goodbye!")