Sindbad~EG File Manager
import logging
import sys
import traceback
from abc import ABCMeta, abstractmethod
from collections import defaultdict
from datetime import datetime, timedelta, timezone
from traceback import format_tb
from apscheduler.events import (
EVENT_JOB_ERROR,
EVENT_JOB_EXECUTED,
EVENT_JOB_MISSED,
JobExecutionEvent,
)
class MaxInstancesReachedError(Exception):
def __init__(self, job):
super().__init__(
'Job "%s" has already reached its maximum number of instances (%d)'
% (job.id, job.max_instances)
)
class BaseExecutor(metaclass=ABCMeta):
"""Abstract base class that defines the interface that every executor must implement."""
_scheduler = None
_lock = None
_logger = logging.getLogger("apscheduler.executors")
def __init__(self):
super().__init__()
self._instances = defaultdict(lambda: 0)
def start(self, scheduler, alias):
"""
Called by the scheduler when the scheduler is being started or when the executor is being
added to an already running scheduler.
:param apscheduler.schedulers.base.BaseScheduler scheduler: the scheduler that is starting
this executor
:param str|unicode alias: alias of this executor as it was assigned to the scheduler
"""
self._scheduler = scheduler
self._lock = scheduler._create_lock()
self._logger = logging.getLogger(f"apscheduler.executors.{alias}")
def shutdown(self, wait=True):
"""
Shuts down this executor.
:param bool wait: ``True`` to wait until all submitted jobs
have been executed
"""
def submit_job(self, job, run_times):
"""
Submits job for execution.
:param Job job: job to execute
:param list[datetime] run_times: list of datetimes specifying
when the job should have been run
:raises MaxInstancesReachedError: if the maximum number of
allowed instances for this job has been reached
"""
assert self._lock is not None, "This executor has not been started yet"
with self._lock:
if self._instances[job.id] >= job.max_instances:
raise MaxInstancesReachedError(job)
self._do_submit_job(job, run_times)
self._instances[job.id] += 1
@abstractmethod
def _do_submit_job(self, job, run_times):
"""Performs the actual task of scheduling `run_job` to be called."""
def _run_job_success(self, job_id, events):
"""
Called by the executor with the list of generated events when :func:`run_job` has been
successfully called.
"""
with self._lock:
self._instances[job_id] -= 1
if self._instances[job_id] == 0:
del self._instances[job_id]
for event in events:
self._scheduler._dispatch_event(event)
def _run_job_error(self, job_id, exc, traceback=None):
"""Called by the executor with the exception if there is an error calling `run_job`."""
with self._lock:
self._instances[job_id] -= 1
if self._instances[job_id] == 0:
del self._instances[job_id]
exc_info = (exc.__class__, exc, traceback)
self._logger.error("Error running job %s", job_id, exc_info=exc_info)
def run_job(job, jobstore_alias, run_times, logger_name):
"""
Called by executors to run the job. Returns a list of scheduler events to be dispatched by the
scheduler.
"""
events = []
logger = logging.getLogger(logger_name)
for run_time in run_times:
# See if the job missed its run time window, and handle
# possible misfires accordingly
if job.misfire_grace_time is not None:
difference = datetime.now(timezone.utc) - run_time
grace_time = timedelta(seconds=job.misfire_grace_time)
if difference > grace_time:
events.append(
JobExecutionEvent(
EVENT_JOB_MISSED, job.id, jobstore_alias, run_time
)
)
logger.warning('Run time of job "%s" was missed by %s', job, difference)
continue
logger.info('Running job "%s" (scheduled at %s)', job, run_time)
try:
retval = job.func(*job.args, **job.kwargs)
except BaseException:
exc, tb = sys.exc_info()[1:]
formatted_tb = "".join(format_tb(tb))
events.append(
JobExecutionEvent(
EVENT_JOB_ERROR,
job.id,
jobstore_alias,
run_time,
exception=exc,
traceback=formatted_tb,
)
)
logger.exception('Job "%s" raised an exception', job)
# This is to prevent cyclic references that would lead to memory leaks
traceback.clear_frames(tb)
del tb
else:
events.append(
JobExecutionEvent(
EVENT_JOB_EXECUTED, job.id, jobstore_alias, run_time, retval=retval
)
)
logger.info('Job "%s" executed successfully', job)
return events
async def run_coroutine_job(job, jobstore_alias, run_times, logger_name):
"""Coroutine version of run_job()."""
events = []
logger = logging.getLogger(logger_name)
for run_time in run_times:
# See if the job missed its run time window, and handle possible misfires accordingly
if job.misfire_grace_time is not None:
difference = datetime.now(timezone.utc) - run_time
grace_time = timedelta(seconds=job.misfire_grace_time)
if difference > grace_time:
events.append(
JobExecutionEvent(
EVENT_JOB_MISSED, job.id, jobstore_alias, run_time
)
)
logger.warning('Run time of job "%s" was missed by %s', job, difference)
continue
logger.info('Running job "%s" (scheduled at %s)', job, run_time)
try:
retval = await job.func(*job.args, **job.kwargs)
except BaseException:
exc, tb = sys.exc_info()[1:]
formatted_tb = "".join(format_tb(tb))
events.append(
JobExecutionEvent(
EVENT_JOB_ERROR,
job.id,
jobstore_alias,
run_time,
exception=exc,
traceback=formatted_tb,
)
)
logger.exception('Job "%s" raised an exception', job)
traceback.clear_frames(tb)
else:
events.append(
JobExecutionEvent(
EVENT_JOB_EXECUTED, job.id, jobstore_alias, run_time, retval=retval
)
)
logger.info('Job "%s" executed successfully', job)
return events
Sindbad File Manager Version 1.0, Coded By Sindbad EG ~ The Terrorists