deb27d9c24
Now that all preparations are done, actually port the code to use
oslo.messaging. This patch does as little as possible. Follow up patches
that refactor and cleanup the code and configuration files, will be
merged later. The reason for this is to make the patch as slim as
possible, to make review process more smooth and concentrated.
Details:
* neutron/common/rpc.py:
- added init() and cleanup() to set global RPC layer state.
- added utility functions: get_server(), get_client(), get_notifier()
that wrap up oslo.messaging API a bit, enforcing eventlet executor
and setting serializer, among other things.
- removed PluginRpcDispatcher, instead introduced PluginRpcSerializer
to use as a default serializer for API callbacks.
* neutron/common/rpc_compat.py:
- emulated incubator RPC layer behaviour thru previously introduced
stub classes (RpcCallback, RpcProxy, ...) using new oslo.messaging
API.
- switched to using new oslo.messaging exception types.
* neutron/service.py:
- expect multiple RPC listeners that are of MessageHandlingServer
type, not GreenThread.
* neutron/common/config.py:
- initialize RPC layer in init()
* setup.cfg:
- added entry points for old notifier drivers to retain backward
compatibility.
* neutron/tests/...:
- introduced fake_notifier to replace impl_fake.
- faked out consume_in_thread() to avoid starting RPC listeners when
running unit tests.
- used 'fake' transport driver.
- made sure neutron.test.* exceptions are caught.
- initialize and clean up RPC layer for each test case.
* Ported all affected code from using neutron.openstack.common.notifier
API to oslo.messaging.Notifier.
* rpc.set_defaults() was renamed to rpc.set_transport_defaults()
* other changes not worth mentioning here.
blueprint oslo-messaging
DocImpact
Change-Id: I5a91c34df6e300f2dc46217b1b16352fcc3039fc
300 lines
10 KiB
Python
300 lines
10 KiB
Python
# Copyright 2011 VMware, Inc
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# All Rights Reserved.
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#
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# Licensed under the Apache License, Version 2.0 (the "License"); you may
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# not use this file except in compliance with the License. You may obtain
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# a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
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# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
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# License for the specific language governing permissions and limitations
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# under the License.
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import inspect
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import logging as std_logging
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import os
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import random
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from oslo.config import cfg
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from oslo.messaging import server as rpc_server
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from neutron.common import config
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from neutron.common import rpc_compat
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from neutron import context
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from neutron.db import api as session
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from neutron import manager
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from neutron.openstack.common import excutils
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from neutron.openstack.common import importutils
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from neutron.openstack.common import log as logging
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from neutron.openstack.common import loopingcall
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from neutron.openstack.common import service as common_service
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from neutron import wsgi
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service_opts = [
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cfg.IntOpt('periodic_interval',
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default=40,
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help=_('Seconds between running periodic tasks')),
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cfg.IntOpt('api_workers',
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default=0,
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help=_('Number of separate worker processes for service')),
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cfg.IntOpt('rpc_workers',
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default=0,
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help=_('Number of RPC worker processes for service')),
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cfg.IntOpt('periodic_fuzzy_delay',
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default=5,
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help=_('Range of seconds to randomly delay when starting the '
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'periodic task scheduler to reduce stampeding. '
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'(Disable by setting to 0)')),
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]
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CONF = cfg.CONF
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CONF.register_opts(service_opts)
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LOG = logging.getLogger(__name__)
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class WsgiService(object):
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"""Base class for WSGI based services.
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For each api you define, you must also define these flags:
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:<api>_listen: The address on which to listen
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:<api>_listen_port: The port on which to listen
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"""
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def __init__(self, app_name):
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self.app_name = app_name
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self.wsgi_app = None
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def start(self):
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self.wsgi_app = _run_wsgi(self.app_name)
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def wait(self):
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self.wsgi_app.wait()
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class NeutronApiService(WsgiService):
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"""Class for neutron-api service."""
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@classmethod
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def create(cls, app_name='neutron'):
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# Setup logging early, supplying both the CLI options and the
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# configuration mapping from the config file
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# We only update the conf dict for the verbose and debug
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# flags. Everything else must be set up in the conf file...
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# Log the options used when starting if we're in debug mode...
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config.setup_logging(cfg.CONF)
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# Dump the initial option values
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cfg.CONF.log_opt_values(LOG, std_logging.DEBUG)
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service = cls(app_name)
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return service
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def serve_wsgi(cls):
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try:
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service = cls.create()
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service.start()
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except Exception:
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with excutils.save_and_reraise_exception():
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LOG.exception(_('Unrecoverable error: please check log '
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'for details.'))
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return service
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class RpcWorker(object):
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"""Wraps a worker to be handled by ProcessLauncher"""
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def __init__(self, plugin):
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self._plugin = plugin
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self._servers = []
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def start(self):
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# We may have just forked from parent process. A quick disposal of the
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# existing sql connections avoids producing errors later when they are
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# discovered to be broken.
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session.get_engine().pool.dispose()
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self._servers = self._plugin.start_rpc_listener()
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def wait(self):
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for server in self._servers:
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if isinstance(server, rpc_server.MessageHandlingServer):
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server.wait()
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def stop(self):
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for server in self._servers:
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if isinstance(server, rpc_server.MessageHandlingServer):
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server.kill()
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self._servers = []
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def serve_rpc():
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plugin = manager.NeutronManager.get_plugin()
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# If 0 < rpc_workers then start_rpc_listener would be called in a
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# subprocess and we cannot simply catch the NotImplementedError. It is
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# simpler to check this up front by testing whether the plugin supports
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# multiple RPC workers.
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if not plugin.rpc_workers_supported():
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LOG.debug(_("Active plugin doesn't implement start_rpc_listener"))
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if 0 < cfg.CONF.rpc_workers:
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msg = _("'rpc_workers = %d' ignored because start_rpc_listener "
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"is not implemented.")
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LOG.error(msg, cfg.CONF.rpc_workers)
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raise NotImplementedError
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try:
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rpc = RpcWorker(plugin)
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if cfg.CONF.rpc_workers < 1:
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rpc.start()
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return rpc
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else:
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launcher = common_service.ProcessLauncher(wait_interval=1.0)
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launcher.launch_service(rpc, workers=cfg.CONF.rpc_workers)
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return launcher
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except Exception:
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with excutils.save_and_reraise_exception():
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LOG.exception(_('Unrecoverable error: please check log '
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'for details.'))
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def _run_wsgi(app_name):
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app = config.load_paste_app(app_name)
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if not app:
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LOG.error(_('No known API applications configured.'))
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return
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server = wsgi.Server("Neutron")
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server.start(app, cfg.CONF.bind_port, cfg.CONF.bind_host,
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workers=cfg.CONF.api_workers)
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# Dump all option values here after all options are parsed
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cfg.CONF.log_opt_values(LOG, std_logging.DEBUG)
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LOG.info(_("Neutron service started, listening on %(host)s:%(port)s"),
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{'host': cfg.CONF.bind_host,
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'port': cfg.CONF.bind_port})
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return server
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class Service(rpc_compat.Service):
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"""Service object for binaries running on hosts.
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A service takes a manager and enables rpc by listening to queues based
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on topic. It also periodically runs tasks on the manager.
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"""
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def __init__(self, host, binary, topic, manager, report_interval=None,
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periodic_interval=None, periodic_fuzzy_delay=None,
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*args, **kwargs):
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self.binary = binary
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self.manager_class_name = manager
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manager_class = importutils.import_class(self.manager_class_name)
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self.manager = manager_class(host=host, *args, **kwargs)
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self.report_interval = report_interval
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self.periodic_interval = periodic_interval
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self.periodic_fuzzy_delay = periodic_fuzzy_delay
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self.saved_args, self.saved_kwargs = args, kwargs
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self.timers = []
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super(Service, self).__init__(host, topic, manager=self.manager)
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def start(self):
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self.manager.init_host()
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super(Service, self).start()
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if self.report_interval:
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pulse = loopingcall.FixedIntervalLoopingCall(self.report_state)
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pulse.start(interval=self.report_interval,
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initial_delay=self.report_interval)
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self.timers.append(pulse)
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if self.periodic_interval:
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if self.periodic_fuzzy_delay:
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initial_delay = random.randint(0, self.periodic_fuzzy_delay)
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else:
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initial_delay = None
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periodic = loopingcall.FixedIntervalLoopingCall(
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self.periodic_tasks)
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periodic.start(interval=self.periodic_interval,
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initial_delay=initial_delay)
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self.timers.append(periodic)
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self.manager.after_start()
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def __getattr__(self, key):
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manager = self.__dict__.get('manager', None)
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return getattr(manager, key)
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@classmethod
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def create(cls, host=None, binary=None, topic=None, manager=None,
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report_interval=None, periodic_interval=None,
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periodic_fuzzy_delay=None):
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"""Instantiates class and passes back application object.
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:param host: defaults to CONF.host
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:param binary: defaults to basename of executable
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:param topic: defaults to bin_name - 'nova-' part
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:param manager: defaults to CONF.<topic>_manager
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:param report_interval: defaults to CONF.report_interval
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:param periodic_interval: defaults to CONF.periodic_interval
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:param periodic_fuzzy_delay: defaults to CONF.periodic_fuzzy_delay
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"""
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if not host:
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host = CONF.host
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if not binary:
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binary = os.path.basename(inspect.stack()[-1][1])
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if not topic:
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topic = binary.rpartition('neutron-')[2]
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topic = topic.replace("-", "_")
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if not manager:
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manager = CONF.get('%s_manager' % topic, None)
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if report_interval is None:
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report_interval = CONF.report_interval
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if periodic_interval is None:
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periodic_interval = CONF.periodic_interval
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if periodic_fuzzy_delay is None:
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periodic_fuzzy_delay = CONF.periodic_fuzzy_delay
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service_obj = cls(host, binary, topic, manager,
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report_interval=report_interval,
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periodic_interval=periodic_interval,
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periodic_fuzzy_delay=periodic_fuzzy_delay)
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return service_obj
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def kill(self):
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"""Destroy the service object."""
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self.stop()
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def stop(self):
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super(Service, self).stop()
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for x in self.timers:
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try:
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x.stop()
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except Exception:
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LOG.exception(_("Exception occurs when timer stops"))
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pass
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self.timers = []
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def wait(self):
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super(Service, self).wait()
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for x in self.timers:
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try:
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x.wait()
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except Exception:
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LOG.exception(_("Exception occurs when waiting for timer"))
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pass
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def periodic_tasks(self, raise_on_error=False):
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"""Tasks to be run at a periodic interval."""
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ctxt = context.get_admin_context()
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self.manager.periodic_tasks(ctxt, raise_on_error=raise_on_error)
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def report_state(self):
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"""Update the state of this service."""
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# Todo(gongysh) report state to neutron server
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pass
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