from __future__ import absolute_import, print_function, unicode_literals import os import sys os.environ.update( NOSETPS='yes', USE_FAST_LOCALS='yes', ) from celery import Celery # noqa from celery.five import range # noqa from kombu.five import monotonic # noqa DEFAULT_ITS = 40000 BROKER_TRANSPORT = os.environ.get('BROKER', 'librabbitmq') if hasattr(sys, 'pypy_version_info'): BROKER_TRANSPORT = 'pyamqp' app = Celery('bench_worker') app.conf.update( broker_transport=BROKER_TRANSPORT, broker_pool_limit=10, celeryd_pool='solo', celeryd_prefetch_multiplier=0, default_delivery_mode=1, queues={ 'bench.worker': { 'exchange': 'bench.worker', 'routing_key': 'bench.worker', 'no_ack': True, 'exchange_durable': False, 'queue_durable': False, 'auto_delete': True, } }, task_serializer='json', default_queue='bench.worker', result_backend=None, ), def tdiff(then): return monotonic() - then @app.task(cur=0, time_start=None, queue='bench.worker', bare=True) def it(_, n): # use internal counter, as ordering can be skewed # by previous runs, or the broker. i = it.cur if i and not i % 5000: print('({0} so far: {1}s)'.format(i, tdiff(it.subt)), file=sys.stderr) it.subt = monotonic() if not i: it.subt = it.time_start = monotonic() elif i > n - 2: total = tdiff(it.time_start) print('({0} so far: {1}s)'.format(i, tdiff(it.subt)), file=sys.stderr) print('-- process {0} tasks: {1}s total, {2} tasks/s} '.format( n, total, n / (total + .0), )) import os os._exit() it.cur += 1 def bench_apply(n=DEFAULT_ITS): time_start = monotonic() task = it._get_current_object() with app.producer_or_acquire() as producer: [task.apply_async((i, n), producer=producer) for i in range(n)] print('-- apply {0} tasks: {1}s'.format(n, monotonic() - time_start)) def bench_work(n=DEFAULT_ITS, loglevel='CRITICAL'): loglevel = os.environ.get('BENCH_LOGLEVEL') or loglevel if loglevel: app.log.setup_logging_subsystem(loglevel=loglevel) worker = app.WorkController(concurrency=15, queues=['bench.worker']) try: print('-- starting worker') worker.start() except SystemExit: raise assert sum(worker.state.total_count.values()) == n + 1 def bench_both(n=DEFAULT_ITS): bench_apply(n) bench_work(n) def main(argv=sys.argv): n = DEFAULT_ITS if len(argv) < 2: print('Usage: {0} [apply|work|both] [n=20k]'.format( os.path.basename(argv[0]), )) return sys.exit(1) try: try: n = int(argv[2]) except IndexError: pass return {'apply': bench_apply, 'work': bench_work, 'both': bench_both}[argv[1]](n=n) except: raise if __name__ == '__main__': main()