yangck
/
celery


			
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							# -*- coding: utf-8 -*-
"""
    celery.events.snapshot
    ~~~~~~~~~~~~~~~~~~~~~~

    Consuming the events as a stream is not always suitable
    so this module implements a system to take snapshots of the
    state of a cluster at regular intervals.  There is a full
    implementation of this writing the snapshots to a database
    in :mod:`djcelery.snapshots` in the `django-celery` distribution.

"""
from __future__ import absolute_import

from kombu.utils.limits import TokenBucket

from celery import platforms
from celery.app import app_or_default
from celery.utils import timer2
from celery.utils.dispatch import Signal
from celery.utils.imports import instantiate
from celery.utils.log import get_logger
from celery.utils.timeutils import rate

logger = get_logger('celery.evcam')


class Polaroid(object):
    timer = timer2
    shutter_signal = Signal(providing_args=('state', ))
    cleanup_signal = Signal()
    clear_after = False

    _tref = None
    _ctref = None

    def __init__(self, state, freq=1.0, maxrate=None,
            cleanup_freq=3600.0, timer=None, app=None):
        self.app = app_or_default(app)
        self.state = state
        self.freq = freq
        self.cleanup_freq = cleanup_freq
        self.timer = timer or self.timer
        self.logger = logger
        self.maxrate = maxrate and TokenBucket(rate(maxrate))

    def install(self):
        self._tref = self.timer.apply_interval(self.freq * 1000.0,
                                               self.capture)
        self._ctref = self.timer.apply_interval(self.cleanup_freq * 1000.0,
                                                self.cleanup)

    def on_shutter(self, state):
        pass

    def on_cleanup(self):
        pass

    def cleanup(self):
        logger.debug('Cleanup: Running...')
        self.cleanup_signal.send(None)
        self.on_cleanup()

    def shutter(self):
        if self.maxrate is None or self.maxrate.can_consume():
            logger.debug('Shutter: %s', self.state)
            self.shutter_signal.send(self.state)
            self.on_shutter(self.state)

    def capture(self):
        self.state.freeze_while(self.shutter, clear_after=self.clear_after)

    def cancel(self):
        if self._tref:
            self._tref()  # flush all received events.
            self._tref.cancel()
        if self._ctref:
            self._ctref.cancel()

    def __enter__(self):
        self.install()
        return self

    def __exit__(self, *exc_info):
        self.cancel()


def evcam(camera, freq=1.0, maxrate=None, loglevel=0,
        logfile=None, pidfile=None, timer=None, app=None):
    app = app_or_default(app)

    if pidfile:
        platforms.create_pidlock(pidfile)

    app.log.setup_logging_subsystem(loglevel, logfile)

    print('-> evcam: Taking snapshots with {0} (every {1} secs.)'.format(
                camera, freq))
    state = app.events.State()
    cam = instantiate(camera, state, app=app, freq=freq,
                      maxrate=maxrate, timer=timer)
    cam.install()
    conn = app.connection()
    recv = app.events.Receiver(conn, handlers={'*': state.event})
    try:
        try:
            recv.capture(limit=None)
        except KeyboardInterrupt:
            raise SystemExit
    finally:
        cam.cancel()
        conn.close()