Moving driver to new kafka-python version

Currently Kafka driver for an oslo.messaging uses kafka-python==0.9.5
and mostly broken. This package version supports only low level Kafka
producer and consumer API which are marked as deprecated now [1]. Using
of these interfaces bring a big concern to the message processing,
because current KafkaConsumer has not any consuming coordination. This
fact causes a message duplication for the several consumers of one
topic. This behavior is specific to Ceilometer and services which read
and process notifications from other services.

New version of kafka-python allows to use async thread safe message
producers and coordinated consumers [1].

[1] http://kafka-python.readthedocs.io/en/master/changelog.html#feb-15-2016

The driver is currently experimental, python-kafka<1.0.0 API have major
issue described above that can't make the oslo.messaging driver works,
so we prefer having a working driver with a non-synced dependencies, that the
reverse.

Co-Authored-By: Mehdi Abaakouk <sileht@redhat.com>
Change-Id: I29862ed7bf56b9d8878fa8e9fb1cbd9d643908a4
This commit is contained in:
Ilya Tyaptin 2016-06-21 14:57:17 +03:00 committed by Mehdi Abaakouk
parent 8fefbc064d
commit f139eb258d
9 changed files with 263 additions and 326 deletions

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@ -11,64 +11,77 @@
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
# Following code fixes 2 issues with kafka-python and
# The current release of eventlet (0.19.0) does not actually remove
# select.poll [1]. Because of kafka-python.selectors34 selects
# PollSelector instead of SelectSelector [2]. PollSelector relies on
# select.poll, which does not work when eventlet/greenlet is used. This
# bug in evenlet is fixed in the master branch [3], but there's no
# release of eventlet that includes this fix at this point.
import json
import threading
import kafka
from kafka.client_async import selectors
import kafka.errors
from oslo_config import cfg
from oslo_log import log as logging
from oslo_utils import eventletutils
import tenacity
from oslo_messaging._drivers import base
from oslo_messaging._drivers import common as driver_common
from oslo_messaging._drivers import kafka_options
from oslo_messaging._drivers import pool as driver_pool
from oslo_messaging._i18n import _LE
from oslo_messaging._i18n import _LW
from oslo_serialization import jsonutils
import kafka
from kafka.common import KafkaError
from oslo_config import cfg
from oslo_log import log as logging
if eventletutils.is_monkey_patched('select'):
# monkeypatch the vendored SelectSelector._select like eventlet does
# https://github.com/eventlet/eventlet/blob/master/eventlet/green/selectors.py#L32
from eventlet.green import select
selectors.SelectSelector._select = staticmethod(select.select)
# Force to use the select selectors
KAFKA_SELECTOR = selectors.SelectSelector
else:
KAFKA_SELECTOR = selectors.DefaultSelector
LOG = logging.getLogger(__name__)
PURPOSE_SEND = 'send'
PURPOSE_LISTEN = 'listen'
kafka_opts = [
cfg.StrOpt('kafka_default_host', default='localhost',
deprecated_for_removal=True,
deprecated_reason="Replaced by [DEFAULT]/transport_url",
help='Default Kafka broker Host'),
cfg.PortOpt('kafka_default_port', default=9092,
deprecated_for_removal=True,
deprecated_reason="Replaced by [DEFAULT]/transport_url",
help='Default Kafka broker Port'),
cfg.IntOpt('kafka_max_fetch_bytes', default=1024 * 1024,
help='Max fetch bytes of Kafka consumer'),
cfg.IntOpt('kafka_consumer_timeout', default=1.0,
help='Default timeout(s) for Kafka consumers'),
cfg.IntOpt('pool_size', default=10,
help='Pool Size for Kafka Consumers'),
cfg.IntOpt('conn_pool_min_size', default=2,
help='The pool size limit for connections expiration policy'),
cfg.IntOpt('conn_pool_ttl', default=1200,
help='The time-to-live in sec of idle connections in the pool')
]
CONF = cfg.CONF
def unpack_message(msg):
context = {}
message = None
try:
if msg:
msg = json.loads(msg)
message = driver_common.deserialize_msg(msg)
if 'context' in message:
context = message['context']
del message['context']
except ValueError as e:
LOG.info("Invalid format of consumed message: %s" % e)
except Exception:
LOG.warning(_LW("Exception during message unpacking"))
return message, context
def pack_context_with_message(ctxt, msg):
def pack_message(ctxt, msg):
"""Pack context into msg."""
if isinstance(ctxt, dict):
context_d = ctxt
else:
context_d = ctxt.to_dict()
msg['context'] = context_d
return {'message': msg, 'context': context_d}
msg = driver_common.serialize_msg(msg)
return msg
def target_to_topic(target, priority=None):
@ -84,18 +97,67 @@ def target_to_topic(target, priority=None):
return target.topic + '.' + priority
def retry_on_retriable_kafka_error(exc):
return (isinstance(exc, kafka.errors.KafkaError) and exc.retriable)
def with_reconnect(retries=None):
def decorator(func):
@tenacity.retry(
retry=tenacity.retry_if_exception(retry_on_retriable_kafka_error),
wait=tenacity.wait_fixed(1),
stop=tenacity.stop_after_attempt(retries),
reraise=True
)
def wrapper(*args, **kwargs):
return func(*args, **kwargs)
return wrapper
return decorator
class Producer(object):
_producer = None
_servers = None
_lock = threading.Lock()
@staticmethod
@with_reconnect()
def connect(servers, **kwargs):
return kafka.KafkaProducer(
bootstrap_servers=servers,
selector=KAFKA_SELECTOR,
**kwargs)
@classmethod
def producer(cls, servers, **kwargs):
with cls._lock:
if not cls._producer or cls._servers != servers:
cls._servers = servers
cls._producer = cls.connect(servers, **kwargs)
return cls._producer
@classmethod
def cleanup(cls):
with cls._lock:
if cls._producer:
cls._producer.close()
cls._producer = None
class Connection(object):
def __init__(self, conf, url, purpose):
self.client = None
driver_conf = conf.oslo_messaging_kafka
self.batch_size = driver_conf.producer_batch_size
self.linger_ms = driver_conf.producer_batch_timeout * 1000
self.conf = conf
self.kafka_client = None
self.producer = None
self.consumer = None
self.fetch_messages_max_bytes = driver_conf.kafka_max_fetch_bytes
self.consumer_timeout = float(driver_conf.kafka_consumer_timeout)
self.max_fetch_bytes = driver_conf.kafka_max_fetch_bytes
self.group_id = driver_conf.consumer_group
self.url = url
self._parse_url()
# TODO(Support for manual/auto_commit functionality)
@ -107,7 +169,6 @@ class Connection(object):
def _parse_url(self):
driver_conf = self.conf.oslo_messaging_kafka
self.hostaddrs = []
for host in self.url.hosts:
@ -128,65 +189,46 @@ class Connection(object):
:param msg: messages for publishing
:param retry: the number of retry
"""
message = pack_context_with_message(ctxt, msg)
message = pack_message(ctxt, msg)
self._ensure_connection()
self._send_and_retry(message, topic, retry)
def _send_and_retry(self, message, topic, retry):
current_retry = 0
if not isinstance(message, str):
message = jsonutils.dumps(message)
while message is not None:
try:
self._send(message, topic)
message = None
except Exception:
LOG.warning(_LW("Failed to publish a message of topic %s"),
topic)
current_retry += 1
if retry is not None and current_retry >= retry:
LOG.exception(_LE("Failed to retry to send data "
"with max retry times"))
message = None
retry = retry if retry >= 0 else None
def _send(self, message, topic):
self.producer.send_messages(topic, message)
@with_reconnect(retries=retry)
def _send(topic, message):
self.producer.send(topic, message)
try:
_send(topic, message)
except Exception:
Producer.cleanup()
LOG.exception(_LE("Failed to send message"))
@with_reconnect()
def _poll_messages(self, timeout):
return self.consumer.poll(timeout)
def consume(self, timeout=None):
"""Receive up to 'max_fetch_messages' messages.
:param timeout: poll timeout in seconds
"""
duration = (self.consumer_timeout if timeout is None else timeout)
timer = driver_common.DecayingTimer(duration=duration)
timer.start()
def _raise_timeout():
LOG.debug('Timed out waiting for Kafka response')
raise driver_common.Timeout()
poll_timeout = (self.consumer_timeout if timeout is None
else min(timeout, self.consumer_timeout))
while True:
if self._consume_loop_stopped:
return
return None
timeout = timeout if timeout >= 0 else self.consumer_timeout
try:
next_timeout = poll_timeout * 1000.0
# TODO(use configure() method instead)
# Currently KafkaConsumer does not support for
# the case of updating only fetch_max_wait_ms parameter
self.consumer._config['fetch_max_wait_ms'] = next_timeout
messages = list(self.consumer.fetch_messages())
except Exception as e:
LOG.exception(_LE("Failed to consume messages: %s"), e)
messages = self._poll_messages(timeout)
except kafka.errors.ConsumerTimeout as e:
raise driver_common.Timeout(e.message)
except Exception:
LOG.exception(_LE("Failed to consume messages"))
messages = None
if not messages:
poll_timeout = timer.check_return(
_raise_timeout, maximum=self.consumer_timeout)
continue
return messages
def stop_consuming(self):
@ -194,16 +236,14 @@ class Connection(object):
def reset(self):
"""Reset a connection so it can be used again."""
if self.consumer:
self.consumer.close()
self.consumer = None
pass
def close(self):
if self.kafka_client:
self.kafka_client.close()
self.kafka_client = None
if self.producer:
self.producer.stop()
self.producer.close()
self.producer = None
if self.consumer:
self.consumer.close()
self.consumer = None
def commit(self):
@ -218,25 +258,22 @@ class Connection(object):
self.consumer.commit()
def _ensure_connection(self):
if self.kafka_client:
return
try:
self.kafka_client = kafka.KafkaClient(
self.hostaddrs)
self.producer = kafka.SimpleProducer(self.kafka_client)
except KafkaError as e:
LOG.exception(_LE("Kafka Connection is not available: %s"), e)
self.kafka_client = None
self.producer = Producer.producer(self.hostaddrs,
linger_ms=self.linger_ms,
batch_size=self.batch_size)
except kafka.errors.KafkaError as e:
LOG.exception(_LE("KafkaProducer could not be initialized: %s"), e)
raise
@with_reconnect()
def declare_topic_consumer(self, topics, group=None):
self._ensure_connection()
for topic in topics:
self.kafka_client.ensure_topic_exists(topic)
self.consumer = kafka.KafkaConsumer(
*topics, group_id=group,
*topics, group_id=(group or self.group_id),
bootstrap_servers=self.hostaddrs,
fetch_message_max_bytes=self.fetch_messages_max_bytes)
self._consume_loop_stopped = False
max_partition_fetch_bytes=self.max_fetch_bytes,
selector=KAFKA_SELECTOR
)
class OsloKafkaMessage(base.RpcIncomingMessage):
@ -261,20 +298,26 @@ class KafkaListener(base.PollStyleListener):
@base.batch_poll_helper
def poll(self, timeout=None):
# TODO(sileht): use batch capability of kafka
while not self._stopped.is_set():
if self.incoming_queue:
return self.incoming_queue.pop(0)
try:
messages = self.conn.consume(timeout=timeout)
for msg in messages:
message = msg.value
LOG.debug('poll got message : %s', message)
message = jsonutils.loads(message)
self.incoming_queue.append(OsloKafkaMessage(
ctxt=message['context'], message=message['message']))
if messages:
self._put_messages_to_queue(messages)
except driver_common.Timeout:
return None
def _put_messages_to_queue(self, messages):
for topic, records in messages.items():
if records:
for record in records:
message, context = unpack_message(record.value)
if message:
self.incoming_queue.append(
OsloKafkaMessage(ctxt=context, message=message))
def stop(self):
self._stopped.set()
self.conn.stop_consuming()
@ -302,7 +345,7 @@ class KafkaDriver(base.BaseDriver):
opt_group = cfg.OptGroup(name='oslo_messaging_kafka',
title='Kafka driver options')
conf.register_group(opt_group)
conf.register_opts(kafka_opts, group=opt_group)
conf.register_opts(kafka_options.KAFKA_OPTS, group=opt_group)
super(KafkaDriver, self).__init__(
conf, url, default_exchange, allowed_remote_exmods)
@ -344,7 +387,7 @@ class KafkaDriver(base.BaseDriver):
N means N retries
:type retry: int
"""
with self._get_connection(purpose=PURPOSE_SEND) as conn:
with self._get_connection(purpose=driver_common.PURPOSE_SEND) as conn:
conn.notify_send(target_to_topic(target), ctxt, message, retry)
def listen(self, target, batch_size, batch_timeout):
@ -363,7 +406,7 @@ class KafkaDriver(base.BaseDriver):
:param pool: consumer group of Kafka consumers
:type pool: string
"""
conn = self._get_connection(purpose=PURPOSE_LISTEN)
conn = self._get_connection(purpose=driver_common.PURPOSE_LISTEN)
topics = set()
for target, priority in targets_and_priorities:
topics.add(target_to_topic(target, priority))

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@ -0,0 +1,52 @@
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
from oslo_config import cfg
KAFKA_OPTS = [
cfg.StrOpt('kafka_default_host', default='localhost',
deprecated_for_removal=True,
deprecated_reason="Replaced by [DEFAULT]/transport_url",
help='Default Kafka broker Host'),
cfg.PortOpt('kafka_default_port', default=9092,
deprecated_for_removal=True,
deprecated_reason="Replaced by [DEFAULT]/transport_url",
help='Default Kafka broker Port'),
cfg.IntOpt('kafka_max_fetch_bytes', default=1024 * 1024,
help='Max fetch bytes of Kafka consumer'),
cfg.IntOpt('kafka_consumer_timeout', default=1.0,
help='Default timeout(s) for Kafka consumers'),
cfg.IntOpt('pool_size', default=10,
help='Pool Size for Kafka Consumers'),
cfg.IntOpt('conn_pool_min_size', default=2,
help='The pool size limit for connections expiration policy'),
cfg.IntOpt('conn_pool_ttl', default=1200,
help='The time-to-live in sec of idle connections in the pool'),
cfg.StrOpt('consumer_group', default="oslo_messaging_consumer",
help='Group id for Kafka consumer. Consumers in one group '
'will coordinate message consumption'),
cfg.FloatOpt('producer_batch_timeout', default=0.,
help="Upper bound on the delay for KafkaProducer batching "
"in seconds"),
cfg.IntOpt('producer_batch_size', default=16384,
help='Size of batch for the producer async send')
]

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@ -26,6 +26,7 @@ from oslo_messaging._drivers import base as drivers_base
from oslo_messaging._drivers import impl_pika
from oslo_messaging._drivers import impl_rabbit
from oslo_messaging._drivers.impl_zmq import zmq_options
from oslo_messaging._drivers import kafka_options
from oslo_messaging._drivers.pika_driver import pika_connection_factory
from oslo_messaging._drivers.zmq_driver.matchmaker import zmq_matchmaker_redis
from oslo_messaging.notify import notifier
@ -53,6 +54,7 @@ _opts = [
pika_connection_factory.pika_opts,
impl_pika.pika_pool_opts, impl_pika.message_opts,
impl_pika.notification_opts, impl_pika.rpc_opts))),
('oslo_messaging_kafka', kafka_options.KAFKA_OPTS),
]

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@ -12,14 +12,12 @@
# License for the specific language governing permissions and limitations
# under the License.
import kafka
from kafka.common import KafkaError
import kafka.errors
import mock
from oslo_serialization import jsonutils
import testscenarios
import time
import oslo_messaging
from oslo_messaging._drivers import common as driver_common
from oslo_messaging._drivers import common as common_driver
from oslo_messaging._drivers import impl_kafka as kafka_driver
from oslo_messaging.tests import utils as test_utils
@ -63,7 +61,7 @@ class TestKafkaTransportURL(test_utils.BaseTestCase):
self.addCleanup(transport.cleanup)
driver = transport._driver
conn = driver._get_connection(kafka_driver.PURPOSE_SEND)
conn = driver._get_connection(common_driver.PURPOSE_SEND)
self.assertEqual(self.expected['hostaddrs'], conn.hostaddrs)
@ -76,6 +74,7 @@ class TestKafkaDriver(test_utils.BaseTestCase):
self.messaging_conf.transport_driver = 'kafka'
transport = oslo_messaging.get_transport(self.conf)
self.driver = transport._driver
self.addCleanup(kafka_driver.Producer.cleanup)
def test_send(self):
target = oslo_messaging.Target(topic="topic_test")
@ -85,16 +84,40 @@ class TestKafkaDriver(test_utils.BaseTestCase):
def test_send_notification(self):
target = oslo_messaging.Target(topic="topic_test")
with mock.patch.object(
kafka_driver.Connection, 'notify_send') as fake_send:
self.driver.send_notification(target, {}, {}, None)
self.assertEqual(1, len(fake_send.mock_calls))
with mock.patch("kafka.KafkaProducer") as fake_producer_class:
fake_producer = fake_producer_class.return_value
fake_producer.send.side_effect = kafka.errors.NoBrokersAvailable
self.driver.send_notification(target, {}, {"payload": ["test_1"]},
None, retry=3)
self.assertEqual(3, fake_producer.send.call_count)
def test_listen(self):
target = oslo_messaging.Target(topic="topic_test")
self.assertRaises(NotImplementedError, self.driver.listen, target,
None, None)
def test_listen_for_notifications(self):
targets_and_priorities = [
(oslo_messaging.Target(topic="topic_test_1"), "sample"),
]
expected_topics = ["topic_test_1.sample"]
with mock.patch("kafka.KafkaConsumer") as consumer:
self.driver.listen_for_notifications(
targets_and_priorities, "kafka_test", 1000, 10)
consumer.assert_called_once_with(
*expected_topics, group_id="kafka_test",
bootstrap_servers=['localhost:9092'],
max_partition_fetch_bytes=mock.ANY,
selector=mock.ANY
)
def test_cleanup(self):
listeners = [mock.MagicMock(), mock.MagicMock()]
self.driver.listeners.extend(listeners)
self.driver.cleanup()
for listener in listeners:
listener.close.assert_called_once()
class TestKafkaConnection(test_utils.BaseTestCase):
@ -105,134 +128,9 @@ class TestKafkaConnection(test_utils.BaseTestCase):
self.driver = transport._driver
@mock.patch.object(kafka_driver.Connection, '_ensure_connection')
@mock.patch.object(kafka_driver.Connection, '_send')
@mock.patch.object(kafka_driver.Connection, '_send_and_retry')
def test_notify(self, fake_send, fake_ensure_connection):
conn = self.driver._get_connection(kafka_driver.PURPOSE_SEND)
conn = self.driver._get_connection(common_driver.PURPOSE_SEND)
conn.notify_send("fake_topic", {"fake_ctxt": "fake_param"},
{"fake_text": "fake_message_1"}, 10)
self.assertEqual(1, len(fake_send.mock_calls))
@mock.patch.object(kafka_driver.Connection, '_ensure_connection')
@mock.patch.object(kafka_driver.Connection, '_send')
def test_notify_with_retry(self, fake_send, fake_ensure_connection):
conn = self.driver._get_connection(kafka_driver.PURPOSE_SEND)
fake_send.side_effect = KafkaError("fake_exception")
conn.notify_send("fake_topic", {"fake_ctxt": "fake_param"},
{"fake_text": "fake_message_2"}, 10)
self.assertEqual(10, len(fake_send.mock_calls))
@mock.patch.object(kafka_driver.Connection, '_ensure_connection')
@mock.patch.object(kafka_driver.Connection, '_parse_url')
def test_consume(self, fake_parse_url, fake_ensure_connection):
fake_message = {
"context": {"fake": "fake_context_1"},
"message": {"fake": "fake_message_1"}}
conn = kafka_driver.Connection(
self.conf, '', kafka_driver.PURPOSE_LISTEN)
conn.consumer = mock.MagicMock()
conn.consumer.fetch_messages = mock.MagicMock(
return_value=iter([jsonutils.dumps(fake_message)]))
self.assertEqual(fake_message, jsonutils.loads(conn.consume()[0]))
self.assertEqual(1, len(conn.consumer.fetch_messages.mock_calls))
@mock.patch.object(kafka_driver.Connection, '_ensure_connection')
@mock.patch.object(kafka_driver.Connection, '_parse_url')
def test_consume_timeout(self, fake_parse_url, fake_ensure_connection):
deadline = time.time() + 3
conn = kafka_driver.Connection(
self.conf, '', kafka_driver.PURPOSE_LISTEN)
conn.consumer = mock.MagicMock()
conn.consumer.fetch_messages = mock.MagicMock(return_value=iter([]))
self.assertRaises(driver_common.Timeout, conn.consume, timeout=3)
self.assertEqual(0, int(deadline - time.time()))
@mock.patch.object(kafka_driver.Connection, '_ensure_connection')
@mock.patch.object(kafka_driver.Connection, '_parse_url')
def test_consume_with_default_timeout(
self, fake_parse_url, fake_ensure_connection):
deadline = time.time() + 1
conn = kafka_driver.Connection(
self.conf, '', kafka_driver.PURPOSE_LISTEN)
conn.consumer = mock.MagicMock()
conn.consumer.fetch_messages = mock.MagicMock(return_value=iter([]))
self.assertRaises(driver_common.Timeout, conn.consume)
self.assertEqual(0, int(deadline - time.time()))
@mock.patch.object(kafka_driver.Connection, '_ensure_connection')
@mock.patch.object(kafka_driver.Connection, '_parse_url')
def test_consume_timeout_without_consumers(
self, fake_parse_url, fake_ensure_connection):
deadline = time.time() + 3
conn = kafka_driver.Connection(
self.conf, '', kafka_driver.PURPOSE_LISTEN)
conn.consumer = mock.MagicMock(return_value=None)
self.assertRaises(driver_common.Timeout, conn.consume, timeout=3)
self.assertEqual(0, int(deadline - time.time()))
class TestKafkaListener(test_utils.BaseTestCase):
def setUp(self):
super(TestKafkaListener, self).setUp()
self.messaging_conf.transport_driver = 'kafka'
transport = oslo_messaging.get_transport(self.conf)
self.driver = transport._driver
@mock.patch.object(kafka_driver.Connection, '_ensure_connection')
@mock.patch.object(kafka_driver.Connection, 'declare_topic_consumer')
def test_create_listener(self, fake_consumer, fake_ensure_connection):
fake_target = oslo_messaging.Target(topic='fake_topic')
fake_targets_and_priorities = [(fake_target, 'info')]
self.driver.listen_for_notifications(fake_targets_and_priorities, None,
None, None)
self.assertEqual(1, len(fake_consumer.mock_calls))
@mock.patch.object(kafka_driver.Connection, '_ensure_connection')
@mock.patch.object(kafka_driver.Connection, 'declare_topic_consumer')
def test_converting_targets_to_topics(self, fake_consumer,
fake_ensure_connection):
fake_targets_and_priorities = [
(oslo_messaging.Target(topic="fake_topic",
exchange="test1"), 'info'),
(oslo_messaging.Target(topic="fake_topic",
exchange="test2"), 'info'),
(oslo_messaging.Target(topic="fake_topic",
exchange="test1"), 'error'),
(oslo_messaging.Target(topic="fake_topic",
exchange="test3"), 'error'),
]
self.driver.listen_for_notifications(fake_targets_and_priorities, None,
None, None)
self.assertEqual(1, len(fake_consumer.mock_calls))
fake_consumer.assert_called_once_with(set(['fake_topic.error',
'fake_topic.info']),
None)
@mock.patch.object(kafka_driver.Connection, '_ensure_connection')
@mock.patch.object(kafka_driver.Connection, 'declare_topic_consumer')
def test_stop_listener(self, fake_consumer, fake_client):
fake_target = oslo_messaging.Target(topic='fake_topic')
fake_targets_and_priorities = [(fake_target, 'info')]
listener = self.driver.listen_for_notifications(
fake_targets_and_priorities, None, None, None)._poll_style_listener
listener.conn.consume = mock.MagicMock()
listener.conn.consume.return_value = (
iter([kafka.common.KafkaMessage(
topic='fake_topic', partition=0, offset=0,
key=None, value='{"message": {"fake": "fake_message_1"},'
'"context": {"fake": "fake_context_1"}}')]))
listener.poll()
self.assertEqual(1, len(listener.conn.consume.mock_calls))
listener.conn.stop_consuming = mock.MagicMock()
listener.stop()
fake_response = listener.poll()
self.assertEqual(1, len(listener.conn.consume.mock_calls))
self.assertEqual([], fake_response)

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@ -1,72 +0,0 @@
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
import time
from oslo_config import cfg
import oslo_messaging
from oslo_messaging.tests.functional import utils
class TestWithRealKafkaBroker(utils.SkipIfNoTransportURL):
def setUp(self):
super(TestWithRealKafkaBroker, self).setUp(conf=cfg.ConfigOpts())
if not self.url.startswith('kafka://'):
self.skipTest("TRANSPORT_URL is not set to kafka driver")
transport = oslo_messaging.get_transport(self.conf, self.url)
self.driver = transport._driver
def test_send_and_receive_message(self):
target = oslo_messaging.Target(
topic="fake_topic", exchange='fake_exchange')
targets_and_priorities = [(target, 'fake_info')]
listener = self.driver.listen_for_notifications(
targets_and_priorities, None, None, None)._poll_style_listener
fake_context = {"fake_context_key": "fake_context_value"}
fake_message = {"fake_message_key": "fake_message_value"}
self.driver.send_notification(
target, fake_context, fake_message, None)
received_message = listener.poll()[0]
self.assertEqual(fake_context, received_message.ctxt)
self.assertEqual(fake_message, received_message.message)
def test_send_and_receive_message_without_exchange(self):
target = oslo_messaging.Target(topic="fake_no_exchange_topic")
targets_and_priorities = [(target, 'fake_info')]
listener = self.driver.listen_for_notifications(
targets_and_priorities, None, None, None)._poll_style_listener
fake_context = {"fake_context_key": "fake_context_value"}
fake_message = {"fake_message_key": "fake_message_value"}
self.driver.send_notification(
target, fake_context, fake_message, None)
received_message = listener.poll()[0]
self.assertEqual(fake_context, received_message.ctxt)
self.assertEqual(fake_message, received_message.message)
def test_receive_message_from_empty_topic_with_timeout(self):
target = oslo_messaging.Target(
topic="fake_empty_topic", exchange='fake_empty_exchange')
targets_and_priorities = [(target, 'fake_info')]
listener = self.driver.listen_for_notifications(
targets_and_priorities, None, None, None)._poll_style_listener
deadline = time.time() + 3
received_message = listener.poll(batch_timeout=3)
self.assertEqual(0, int(deadline - time.time()))
self.assertEqual([], received_message)

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@ -32,7 +32,7 @@ class OptsTestCase(test_utils.BaseTestCase):
super(OptsTestCase, self).setUp()
def _test_list_opts(self, result):
self.assertEqual(6, len(result))
self.assertEqual(7, len(result))
groups = [g for (g, l) in result]
self.assertIn(None, groups)
@ -41,6 +41,7 @@ class OptsTestCase(test_utils.BaseTestCase):
self.assertIn('oslo_messaging_amqp', groups)
self.assertIn('oslo_messaging_notifications', groups)
self.assertIn('oslo_messaging_rabbit', groups)
self.assertIn('oslo_messaging_kafka', groups)
opt_names = [o.name for (g, l) in result for o in l]
self.assertIn('rpc_backend', opt_names)

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@ -21,7 +21,12 @@ redis>=2.10.0 # MIT
pyzmq>=14.3.1 # LGPL+BSD
# for test_impl_kafka
kafka-python<1.0.0,>=0.9.5 # Apache-2.0
# NOTE(sileht) temporary commented since requirements repo cap it to <1.0.0
# due to monasca project that have some concern with newer version.
# The driver is currently experimental, python-kafka<1.0.0 API have major issue
# that can't make the oslo.messaging driver works, so we prefer having a working
# driver with a non-synced dep, that the reverse
# kafka-python>=1.3.1 # Apache-2.0
# when we can require tox>= 1.4, this can go into tox.ini:
# [testenv:cover]

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@ -27,4 +27,11 @@ pip install -c$localfile openstack-requirements
edit-constraints $localfile -- $CLIENT_NAME
pip install -c$localfile -U $*
# NOTE(sileht) temporary overrided since requirements repo cap it to <1.0.0
# due to monasca project that have some concern with newer version.
# The driver is currently experimental, python-kafka<1.0.0 API have major issue
# that can't make the oslo.messaging driver works, so we prefer having a working
# driver with a non-synced dep, that the reverse
pip install -U 'kafka-python>=1.3.1'
exit $?

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@ -58,6 +58,7 @@ commands = pifpaf run rabbitmq -- python setup.py testr --slowest --testr-args=
setenv =
{[testenv]setenv}
TRANSPORT_DRIVER=kafka
kafka-python>=1.3.1
commands = {toxinidir}/setup-test-env-kafka.sh python setup.py testr --slowest --testr-args='{posargs:oslo_messaging.tests.functional}'
[testenv:py27-func-amqp1]