Fixes the kafka publisher

The kafka publusher is not concurrency safe at all.
And the sample/event payload cannot be serialized correctly

To fix that:
* the code now is shared with the messaging one.
* the connection to kafka is done before sending messaging to not touch
  the queue
* use jsonutils to serialize samples

Change-Id: I3fb731d2eb33cbfba38c5165ce9874af89072e34
Closes-bug: #1479976
This commit is contained in:
Mehdi Abaakouk 2015-07-31 09:00:20 +02:00
parent 49f53f35a5
commit fb0601a90d
4 changed files with 100 additions and 178 deletions

View File

@ -13,24 +13,19 @@
# License for the specific language governing permissions and limitations # License for the specific language governing permissions and limitations
# under the License. # under the License.
import json
import kafka import kafka
from oslo_config import cfg
from oslo_log import log from oslo_log import log
from oslo_serialization import jsonutils
from oslo_utils import netutils from oslo_utils import netutils
from six.moves.urllib import parse as urlparse from six.moves.urllib import parse as urlparse
from ceilometer.i18n import _LE from ceilometer.i18n import _LE
from ceilometer.i18n import _LI from ceilometer.publisher import messaging
from ceilometer.i18n import _LW
from ceilometer import publisher
from ceilometer.publisher import utils
LOG = log.getLogger(__name__) LOG = log.getLogger(__name__)
class KafkaBrokerPublisher(publisher.PublisherBase): class KafkaBrokerPublisher(messaging.MessagingPublisher):
"""Publish metering data to kafka broker. """Publish metering data to kafka broker.
The ip address and port number of kafka broker should be configured in The ip address and port number of kafka broker should be configured in
@ -68,132 +63,34 @@ class KafkaBrokerPublisher(publisher.PublisherBase):
""" """
def __init__(self, parsed_url): def __init__(self, parsed_url):
self.kafka_client = None super(KafkaBrokerPublisher, self).__init__(parsed_url)
options = urlparse.parse_qs(parsed_url.query)
self.host, self.port = netutils.parse_host_port( self._producer = None
self._host, self._port = netutils.parse_host_port(
parsed_url.netloc, default_port=9092) parsed_url.netloc, default_port=9092)
self._topic = options.get('topic', ['ceilometer'])[-1]
self.max_retry = int(options.get('max_retry', [100])[-1])
self.local_queue = [] def _ensure_connection(self):
if self._producer:
params = urlparse.parse_qs(parsed_url.query) return
self.topic = params.get('topic', ['ceilometer'])[-1]
self.policy = params.get('policy', ['default'])[-1]
self.max_queue_length = int(params.get(
'max_queue_length', [1024])[-1])
self.max_retry = int(params.get('max_retry', [100])[-1])
if self.policy in ['default', 'drop', 'queue']:
LOG.info(_LI('Publishing policy set to %s') % self.policy)
else:
LOG.warn(_LW('Publishing policy is unknown (%s) force to default')
% self.policy)
self.policy = 'default'
try: try:
self._get_client() client = kafka.KafkaClient("%s:%s" % (self._host, self._port))
self._producer = kafka.SimpleProducer(client)
except Exception as e: except Exception as e:
LOG.exception(_LE("Failed to connect to Kafka service: %s"), e) LOG.exception(_LE("Failed to connect to Kafka service: %s"), e)
raise messaging.DeliveryFailure('Kafka Client is not available, '
def publish_samples(self, context, samples):
"""Send a metering message for kafka broker.
:param context: Execution context from the service or RPC call
:param samples: Samples from pipeline after transformation
"""
samples_list = [
utils.meter_message_from_counter(
sample, cfg.CONF.publisher.telemetry_secret)
for sample in samples
]
self.local_queue.append(samples_list)
try:
self._check_kafka_connection()
except Exception as e:
raise e
self.flush()
def flush(self):
queue = self.local_queue
self.local_queue = self._process_queue(queue)
if self.policy == 'queue':
self._check_queue_length()
def publish_events(self, context, events):
"""Send an event message for kafka broker.
:param context: Execution context from the service or RPC call
:param events: events from pipeline after transformation
"""
events_list = [utils.message_from_event(
event, cfg.CONF.publisher.telemetry_secret) for event in events]
self.local_queue.append(events_list)
try:
self._check_kafka_connection()
except Exception as e:
raise e
self.flush()
def _process_queue(self, queue):
current_retry = 0
while queue:
data = queue[0]
try:
self._send(data)
except Exception:
LOG.warn(_LW("Failed to publish %d datum"),
sum([len(d) for d in queue]))
if self.policy == 'queue':
return queue
elif self.policy == 'drop':
return []
current_retry += 1
if current_retry >= self.max_retry:
self.local_queue = []
LOG.exception(_LE("Failed to retry to send sample data "
"with max_retry times"))
raise
else:
queue.pop(0)
return []
def _check_queue_length(self):
queue_length = len(self.local_queue)
if queue_length > self.max_queue_length > 0:
diff = queue_length - self.max_queue_length
self.local_queue = self.local_queue[diff:]
LOG.warn(_LW("Kafka Publisher max local queue length is exceeded, "
"dropping %d oldest data") % diff)
def _check_kafka_connection(self):
try:
self._get_client()
except Exception as e:
LOG.exception(_LE("Failed to connect to Kafka service: %s"), e)
if self.policy == 'queue':
self._check_queue_length()
else:
self.local_queue = []
raise Exception('Kafka Client is not available, '
'please restart Kafka client') 'please restart Kafka client')
def _get_client(self): def _send(self, context, event_type, data):
if not self.kafka_client: self._ensure_connection()
self.kafka_client = kafka.KafkaClient( # TODO(sileht): don't split the payload into multiple network
"%s:%s" % (self.host, self.port)) # message ... but how to do that without breaking consuming
self.kafka_producer = kafka.SimpleProducer(self.kafka_client) # application...
def _send(self, data):
for d in data:
try: try:
self.kafka_producer.send_messages( for d in data:
self.topic, json.dumps(d)) self._producer.send_messages(self._topic, jsonutils.dumps(d))
except Exception as e: except Exception as e:
LOG.exception(_LE("Failed to send sample data: %s"), e) messaging.raise_delivery_failure(e)
raise

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@ -22,10 +22,12 @@ import operator
from oslo_config import cfg from oslo_config import cfg
from oslo_log import log from oslo_log import log
import oslo_messaging import oslo_messaging
from oslo_utils import encodeutils
from oslo_utils import excutils
import six import six
import six.moves.urllib.parse as urlparse import six.moves.urllib.parse as urlparse
from ceilometer.i18n import _ from ceilometer.i18n import _, _LE
from ceilometer import messaging from ceilometer import messaging
from ceilometer import publisher from ceilometer import publisher
from ceilometer.publisher import utils from ceilometer.publisher import utils
@ -67,6 +69,18 @@ cfg.CONF.register_opts(NOTIFIER_OPTS,
cfg.CONF.import_opt('host', 'ceilometer.service') cfg.CONF.import_opt('host', 'ceilometer.service')
class DeliveryFailure(Exception):
def __init__(self, message=None, cause=None):
super(DeliveryFailure, self).__init__(message)
self.cause = cause
def raise_delivery_failure(exc):
excutils.raise_with_cause(DeliveryFailure,
encodeutils.exception_to_unicode(exc),
cause=exc)
@six.add_metaclass(abc.ABCMeta) @six.add_metaclass(abc.ABCMeta)
class MessagingPublisher(publisher.PublisherBase): class MessagingPublisher(publisher.PublisherBase):
@ -81,6 +95,7 @@ class MessagingPublisher(publisher.PublisherBase):
self.policy = options.get('policy', ['default'])[-1] self.policy = options.get('policy', ['default'])[-1]
self.max_queue_length = int(options.get( self.max_queue_length = int(options.get(
'max_queue_length', [1024])[-1]) 'max_queue_length', [1024])[-1])
self.max_retry = 0
self.local_queue = [] self.local_queue = []
@ -144,11 +159,12 @@ class MessagingPublisher(publisher.PublisherBase):
"dropping %d oldest samples") % count) "dropping %d oldest samples") % count)
def _process_queue(self, queue, policy): def _process_queue(self, queue, policy):
current_retry = 0
while queue: while queue:
context, topic, data = queue[0] context, topic, data = queue[0]
try: try:
self._send(context, topic, data) self._send(context, topic, data)
except oslo_messaging.MessageDeliveryFailure: except DeliveryFailure:
data = sum([len(m) for __, __, m in queue]) data = sum([len(m) for __, __, m in queue])
if policy == 'queue': if policy == 'queue':
LOG.warn(_("Failed to publish %d datapoints, queue them"), LOG.warn(_("Failed to publish %d datapoints, queue them"),
@ -158,7 +174,10 @@ class MessagingPublisher(publisher.PublisherBase):
LOG.warn(_("Failed to publish %d datapoints, " LOG.warn(_("Failed to publish %d datapoints, "
"dropping them"), data) "dropping them"), data)
return [] return []
# default, occur only if rabbit_max_retries > 0 current_retry += 1
if current_retry >= self.max_retry:
LOG.exception(_LE("Failed to retry to send sample data "
"with max_retry times"))
raise raise
else: else:
queue.pop(0) queue.pop(0)
@ -195,8 +214,11 @@ class RPCPublisher(MessagingPublisher):
) )
def _send(self, context, topic, meters): def _send(self, context, topic, meters):
try:
self.rpc_client.prepare(topic=topic).cast(context, self.target, self.rpc_client.prepare(topic=topic).cast(context, self.target,
data=meters) data=meters)
except oslo_messaging.MessageDeliveryFailure as e:
raise_delivery_failure(e)
class NotifierPublisher(MessagingPublisher): class NotifierPublisher(MessagingPublisher):
@ -213,8 +235,11 @@ class NotifierPublisher(MessagingPublisher):
) )
def _send(self, context, event_type, data): def _send(self, context, event_type, data):
try:
self.notifier.sample(context.to_dict(), event_type=event_type, self.notifier.sample(context.to_dict(), event_type=event_type,
payload=data) payload=data)
except oslo_messaging.MessageDeliveryFailure as e:
raise_delivery_failure(e)
class SampleNotifierPublisher(NotifierPublisher): class SampleNotifierPublisher(NotifierPublisher):

View File

@ -22,12 +22,14 @@ from oslo_utils import netutils
from ceilometer.event.storage import models as event from ceilometer.event.storage import models as event
from ceilometer.publisher import kafka_broker as kafka from ceilometer.publisher import kafka_broker as kafka
from ceilometer.publisher import messaging as msg_publisher
from ceilometer import sample from ceilometer import sample
from ceilometer.tests import base as tests_base from ceilometer.tests import base as tests_base
@mock.patch('ceilometer.publisher.kafka_broker.LOG', mock.Mock()) @mock.patch('ceilometer.publisher.kafka_broker.LOG', mock.Mock())
@mock.patch.object(kafka.KafkaBrokerPublisher, '_get_client', mock.Mock()) @mock.patch('ceilometer.publisher.kafka_broker.kafka.KafkaClient',
mock.Mock())
class TestKafkaPublisher(tests_base.BaseTestCase): class TestKafkaPublisher(tests_base.BaseTestCase):
test_event_data = [ test_event_data = [
event.Event(message_id=uuid.uuid4(), event.Event(message_id=uuid.uuid4(),
@ -95,25 +97,22 @@ class TestKafkaPublisher(tests_base.BaseTestCase):
), ),
] ]
def setUp(self):
super(TestKafkaPublisher, self).setUp()
def test_publish(self): def test_publish(self):
publisher = kafka.KafkaBrokerPublisher(netutils.urlsplit( publisher = kafka.KafkaBrokerPublisher(netutils.urlsplit(
'kafka://127.0.0.1:9092?topic=ceilometer')) 'kafka://127.0.0.1:9092?topic=ceilometer'))
with mock.patch.object(publisher, '_send') as fake_send: with mock.patch.object(publisher, '_producer') as fake_producer:
publisher.publish_samples(mock.MagicMock(), self.test_data) publisher.publish_samples(mock.MagicMock(), self.test_data)
self.assertEqual(1, len(fake_send.mock_calls)) self.assertEqual(5, len(fake_producer.send_messages.mock_calls))
self.assertEqual(0, len(publisher.local_queue)) self.assertEqual(0, len(publisher.local_queue))
def test_publish_without_options(self): def test_publish_without_options(self):
publisher = kafka.KafkaBrokerPublisher( publisher = kafka.KafkaBrokerPublisher(
netutils.urlsplit('kafka://127.0.0.1:9092')) netutils.urlsplit('kafka://127.0.0.1:9092'))
with mock.patch.object(publisher, '_send') as fake_send: with mock.patch.object(publisher, '_producer') as fake_producer:
publisher.publish_samples(mock.MagicMock(), self.test_data) publisher.publish_samples(mock.MagicMock(), self.test_data)
self.assertEqual(1, len(fake_send.mock_calls)) self.assertEqual(5, len(fake_producer.send_messages.mock_calls))
self.assertEqual(0, len(publisher.local_queue)) self.assertEqual(0, len(publisher.local_queue))
def test_publish_to_host_without_policy(self): def test_publish_to_host_without_policy(self):
@ -129,39 +128,40 @@ class TestKafkaPublisher(tests_base.BaseTestCase):
publisher = kafka.KafkaBrokerPublisher(netutils.urlsplit( publisher = kafka.KafkaBrokerPublisher(netutils.urlsplit(
'kafka://127.0.0.1:9092?topic=ceilometer&policy=default')) 'kafka://127.0.0.1:9092?topic=ceilometer&policy=default'))
with mock.patch.object(publisher, '_send') as fake_send: with mock.patch.object(publisher, '_producer') as fake_producer:
fake_send.side_effect = TypeError fake_producer.send_messages.side_effect = TypeError
self.assertRaises(TypeError, publisher.publish_samples, self.assertRaises(msg_publisher.DeliveryFailure,
publisher.publish_samples,
mock.MagicMock(), self.test_data) mock.MagicMock(), self.test_data)
self.assertEqual(100, len(fake_send.mock_calls)) self.assertEqual(100, len(fake_producer.send_messages.mock_calls))
self.assertEqual(0, len(publisher.local_queue)) self.assertEqual(0, len(publisher.local_queue))
def test_publish_to_host_with_drop_policy(self): def test_publish_to_host_with_drop_policy(self):
publisher = kafka.KafkaBrokerPublisher(netutils.urlsplit( publisher = kafka.KafkaBrokerPublisher(netutils.urlsplit(
'kafka://127.0.0.1:9092?topic=ceilometer&policy=drop')) 'kafka://127.0.0.1:9092?topic=ceilometer&policy=drop'))
with mock.patch.object(publisher, '_send') as fake_send: with mock.patch.object(publisher, '_producer') as fake_producer:
fake_send.side_effect = Exception("test") fake_producer.send_messages.side_effect = Exception("test")
publisher.publish_samples(mock.MagicMock(), self.test_data) publisher.publish_samples(mock.MagicMock(), self.test_data)
self.assertEqual(1, len(fake_send.mock_calls)) self.assertEqual(1, len(fake_producer.send_messages.mock_calls))
self.assertEqual(0, len(publisher.local_queue)) self.assertEqual(0, len(publisher.local_queue))
def test_publish_to_host_with_queue_policy(self): def test_publish_to_host_with_queue_policy(self):
publisher = kafka.KafkaBrokerPublisher(netutils.urlsplit( publisher = kafka.KafkaBrokerPublisher(netutils.urlsplit(
'kafka://127.0.0.1:9092?topic=ceilometer&policy=queue')) 'kafka://127.0.0.1:9092?topic=ceilometer&policy=queue'))
with mock.patch.object(publisher, '_send') as fake_send: with mock.patch.object(publisher, '_producer') as fake_producer:
fake_send.side_effect = Exception("test") fake_producer.send_messages.side_effect = Exception("test")
publisher.publish_samples(mock.MagicMock(), self.test_data) publisher.publish_samples(mock.MagicMock(), self.test_data)
self.assertEqual(1, len(fake_send.mock_calls)) self.assertEqual(1, len(fake_producer.send_messages.mock_calls))
self.assertEqual(1, len(publisher.local_queue)) self.assertEqual(1, len(publisher.local_queue))
def test_publish_to_down_host_with_default_queue_size(self): def test_publish_to_down_host_with_default_queue_size(self):
publisher = kafka.KafkaBrokerPublisher(netutils.urlsplit( publisher = kafka.KafkaBrokerPublisher(netutils.urlsplit(
'kafka://127.0.0.1:9092?topic=ceilometer&policy=queue')) 'kafka://127.0.0.1:9092?topic=ceilometer&policy=queue'))
with mock.patch.object(publisher, '_send') as fake_send: with mock.patch.object(publisher, '_producer') as fake_producer:
fake_send.side_effect = Exception('No Connection') fake_producer.send_messages.side_effect = Exception("test")
for i in range(0, 2000): for i in range(0, 2000):
for s in self.test_data: for s in self.test_data:
@ -170,16 +170,16 @@ class TestKafkaPublisher(tests_base.BaseTestCase):
self.assertEqual(1024, len(publisher.local_queue)) self.assertEqual(1024, len(publisher.local_queue))
self.assertEqual('test-976', self.assertEqual('test-976',
publisher.local_queue[0][0]['counter_name']) publisher.local_queue[0][2][0]['counter_name'])
self.assertEqual('test-1999', self.assertEqual('test-1999',
publisher.local_queue[1023][0]['counter_name']) publisher.local_queue[1023][2][0]['counter_name'])
def test_publish_to_host_from_down_to_up_with_queue(self): def test_publish_to_host_from_down_to_up_with_queue(self):
publisher = kafka.KafkaBrokerPublisher(netutils.urlsplit( publisher = kafka.KafkaBrokerPublisher(netutils.urlsplit(
'kafka://127.0.0.1:9092?topic=ceilometer&policy=queue')) 'kafka://127.0.0.1:9092?topic=ceilometer&policy=queue'))
with mock.patch.object(publisher, '_send') as fake_send: with mock.patch.object(publisher, '_producer') as fake_producer:
fake_send.side_effect = Exception('No Connection') fake_producer.send_messages.side_effect = Exception("test")
for i in range(0, 16): for i in range(0, 16):
for s in self.test_data: for s in self.test_data:
s.name = 'test-%d' % i s.name = 'test-%d' % i
@ -187,7 +187,7 @@ class TestKafkaPublisher(tests_base.BaseTestCase):
self.assertEqual(16, len(publisher.local_queue)) self.assertEqual(16, len(publisher.local_queue))
fake_send.side_effect = None fake_producer.send_messages.side_effect = None
for s in self.test_data: for s in self.test_data:
s.name = 'test-%d' % 16 s.name = 'test-%d' % 16
publisher.publish_samples(mock.MagicMock(), self.test_data) publisher.publish_samples(mock.MagicMock(), self.test_data)
@ -197,13 +197,14 @@ class TestKafkaPublisher(tests_base.BaseTestCase):
publisher = kafka.KafkaBrokerPublisher( publisher = kafka.KafkaBrokerPublisher(
netutils.urlsplit('kafka://127.0.0.1:9092?topic=ceilometer')) netutils.urlsplit('kafka://127.0.0.1:9092?topic=ceilometer'))
with mock.patch.object(publisher, '_send') as fake_send: with mock.patch.object(publisher, '_producer') as fake_producer:
publisher.publish_events(mock.MagicMock(), self.test_event_data) publisher.publish_events(mock.MagicMock(), self.test_event_data)
self.assertEqual(1, len(fake_send.mock_calls)) self.assertEqual(5, len(fake_producer.send_messages.mock_calls))
with mock.patch.object(publisher, '_send') as fake_send: with mock.patch.object(publisher, '_producer') as fake_producer:
fake_send.side_effect = TypeError fake_producer.send_messages.side_effect = Exception("test")
self.assertRaises(TypeError, publisher.publish_events, self.assertRaises(msg_publisher.DeliveryFailure,
publisher.publish_events,
mock.MagicMock(), self.test_event_data) mock.MagicMock(), self.test_event_data)
self.assertEqual(100, len(fake_send.mock_calls)) self.assertEqual(100, len(fake_producer.send_messages.mock_calls))
self.assertEqual(0, len(publisher.local_queue)) self.assertEqual(0, len(publisher.local_queue))

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@ -21,7 +21,6 @@ import eventlet
import mock import mock
from oslo_config import fixture as fixture_config from oslo_config import fixture as fixture_config
from oslo_context import context from oslo_context import context
import oslo_messaging
from oslo_utils import netutils from oslo_utils import netutils
import testscenarios.testcase import testscenarios.testcase
@ -250,11 +249,11 @@ class TestPublisherPolicy(TestPublisher):
def test_published_with_no_policy(self, mylog): def test_published_with_no_policy(self, mylog):
publisher = self.publisher_cls( publisher = self.publisher_cls(
netutils.urlsplit('%s://' % self.protocol)) netutils.urlsplit('%s://' % self.protocol))
side_effect = oslo_messaging.MessageDeliveryFailure() side_effect = msg_publisher.DeliveryFailure()
with mock.patch.object(publisher, '_send') as fake_send: with mock.patch.object(publisher, '_send') as fake_send:
fake_send.side_effect = side_effect fake_send.side_effect = side_effect
self.assertRaises( self.assertRaises(
oslo_messaging.MessageDeliveryFailure, msg_publisher.DeliveryFailure,
getattr(publisher, self.pub_func), getattr(publisher, self.pub_func),
mock.MagicMock(), self.test_data) mock.MagicMock(), self.test_data)
self.assertTrue(mylog.info.called) self.assertTrue(mylog.info.called)
@ -267,11 +266,11 @@ class TestPublisherPolicy(TestPublisher):
def test_published_with_policy_block(self, mylog): def test_published_with_policy_block(self, mylog):
publisher = self.publisher_cls( publisher = self.publisher_cls(
netutils.urlsplit('%s://?policy=default' % self.protocol)) netutils.urlsplit('%s://?policy=default' % self.protocol))
side_effect = oslo_messaging.MessageDeliveryFailure() side_effect = msg_publisher.DeliveryFailure()
with mock.patch.object(publisher, '_send') as fake_send: with mock.patch.object(publisher, '_send') as fake_send:
fake_send.side_effect = side_effect fake_send.side_effect = side_effect
self.assertRaises( self.assertRaises(
oslo_messaging.MessageDeliveryFailure, msg_publisher.DeliveryFailure,
getattr(publisher, self.pub_func), getattr(publisher, self.pub_func),
mock.MagicMock(), self.test_data) mock.MagicMock(), self.test_data)
self.assertTrue(mylog.info.called) self.assertTrue(mylog.info.called)
@ -283,11 +282,11 @@ class TestPublisherPolicy(TestPublisher):
def test_published_with_policy_incorrect(self, mylog): def test_published_with_policy_incorrect(self, mylog):
publisher = self.publisher_cls( publisher = self.publisher_cls(
netutils.urlsplit('%s://?policy=notexist' % self.protocol)) netutils.urlsplit('%s://?policy=notexist' % self.protocol))
side_effect = oslo_messaging.MessageDeliveryFailure() side_effect = msg_publisher.DeliveryFailure()
with mock.patch.object(publisher, '_send') as fake_send: with mock.patch.object(publisher, '_send') as fake_send:
fake_send.side_effect = side_effect fake_send.side_effect = side_effect
self.assertRaises( self.assertRaises(
oslo_messaging.MessageDeliveryFailure, msg_publisher.DeliveryFailure,
getattr(publisher, self.pub_func), getattr(publisher, self.pub_func),
mock.MagicMock(), self.test_data) mock.MagicMock(), self.test_data)
self.assertTrue(mylog.warn.called) self.assertTrue(mylog.warn.called)
@ -303,7 +302,7 @@ class TestPublisherPolicyReactions(TestPublisher):
def test_published_with_policy_drop_and_rpc_down(self): def test_published_with_policy_drop_and_rpc_down(self):
publisher = self.publisher_cls( publisher = self.publisher_cls(
netutils.urlsplit('%s://?policy=drop' % self.protocol)) netutils.urlsplit('%s://?policy=drop' % self.protocol))
side_effect = oslo_messaging.MessageDeliveryFailure() side_effect = msg_publisher.DeliveryFailure()
with mock.patch.object(publisher, '_send') as fake_send: with mock.patch.object(publisher, '_send') as fake_send:
fake_send.side_effect = side_effect fake_send.side_effect = side_effect
getattr(publisher, self.pub_func)(mock.MagicMock(), getattr(publisher, self.pub_func)(mock.MagicMock(),
@ -315,7 +314,7 @@ class TestPublisherPolicyReactions(TestPublisher):
def test_published_with_policy_queue_and_rpc_down(self): def test_published_with_policy_queue_and_rpc_down(self):
publisher = self.publisher_cls( publisher = self.publisher_cls(
netutils.urlsplit('%s://?policy=queue' % self.protocol)) netutils.urlsplit('%s://?policy=queue' % self.protocol))
side_effect = oslo_messaging.MessageDeliveryFailure() side_effect = msg_publisher.DeliveryFailure()
with mock.patch.object(publisher, '_send') as fake_send: with mock.patch.object(publisher, '_send') as fake_send:
fake_send.side_effect = side_effect fake_send.side_effect = side_effect
@ -330,7 +329,7 @@ class TestPublisherPolicyReactions(TestPublisher):
publisher = self.publisher_cls( publisher = self.publisher_cls(
netutils.urlsplit('%s://?policy=queue' % self.protocol)) netutils.urlsplit('%s://?policy=queue' % self.protocol))
side_effect = oslo_messaging.MessageDeliveryFailure() side_effect = msg_publisher.DeliveryFailure()
with mock.patch.object(publisher, '_send') as fake_send: with mock.patch.object(publisher, '_send') as fake_send:
fake_send.side_effect = side_effect fake_send.side_effect = side_effect
getattr(publisher, self.pub_func)(mock.MagicMock(), getattr(publisher, self.pub_func)(mock.MagicMock(),
@ -354,7 +353,7 @@ class TestPublisherPolicyReactions(TestPublisher):
publisher = self.publisher_cls(netutils.urlsplit( publisher = self.publisher_cls(netutils.urlsplit(
'%s://?policy=queue&max_queue_length=3' % self.protocol)) '%s://?policy=queue&max_queue_length=3' % self.protocol))
side_effect = oslo_messaging.MessageDeliveryFailure() side_effect = msg_publisher.DeliveryFailure()
with mock.patch.object(publisher, '_send') as fake_send: with mock.patch.object(publisher, '_send') as fake_send:
fake_send.side_effect = side_effect fake_send.side_effect = side_effect
for i in range(0, 5): for i in range(0, 5):
@ -381,7 +380,7 @@ class TestPublisherPolicyReactions(TestPublisher):
publisher = self.publisher_cls( publisher = self.publisher_cls(
netutils.urlsplit('%s://?policy=queue' % self.protocol)) netutils.urlsplit('%s://?policy=queue' % self.protocol))
side_effect = oslo_messaging.MessageDeliveryFailure() side_effect = msg_publisher.DeliveryFailure()
with mock.patch.object(publisher, '_send') as fake_send: with mock.patch.object(publisher, '_send') as fake_send:
fake_send.side_effect = side_effect fake_send.side_effect = side_effect
for i in range(0, 2000): for i in range(0, 2000):