def test_update_fetch_positions(self):
client = AIOKafkaClient(
loop=self.loop,
bootstrap_servers=[])
subscriptions = SubscriptionState('latest')
fetcher = Fetcher(client, subscriptions, loop=self.loop)
partition = TopicPartition('test', 0)
# partition is not assigned, should be ignored
yield from fetcher.update_fetch_positions([partition])
state = TopicPartitionState()
state.seek(0)
subscriptions.assignment[partition] = state
# partition is fetchable, no need to update position
yield from fetcher.update_fetch_positions([partition])
client.ready = mock.MagicMock()
client.ready.side_effect = asyncio.coroutine(lambda a: True)
client.force_metadata_update = mock.MagicMock()
client.force_metadata_update.side_effect = asyncio.coroutine(
lambda: False)
client.send = mock.MagicMock()
client.send.side_effect = asyncio.coroutine(
lambda n, r: OffsetResponse([('test', [(0, 0, [4])])]))
state.await_reset(OffsetResetStrategy.LATEST)
client.cluster.leader_for_partition = mock.MagicMock()
client.cluster.leader_for_partition.side_effect = [None, -1, 0]
yield from fetcher.update_fetch_positions([partition])
self.assertEqual(state.position, 4)
client.cluster.leader_for_partition = mock.MagicMock()
client.cluster.leader_for_partition.return_value = 1
client.send = mock.MagicMock()
client.send.side_effect = asyncio.coroutine(
lambda n, r: OffsetResponse([('test', [(0, 3, [])])]))
state.await_reset(OffsetResetStrategy.LATEST)
with self.assertRaises(UnknownTopicOrPartitionError):
yield from fetcher.update_fetch_positions([partition])
client.send.side_effect = asyncio.coroutine(
lambda n, r: OffsetResponse([('test', [(0, -1, [])])]))
with self.assertRaises(UnknownError):
yield from fetcher.update_fetch_positions([partition])
yield from fetcher.close()
def test_update_fetch_positions(self):
client = AIOKafkaClient(loop=self.loop, bootstrap_servers=[])
subscriptions = SubscriptionState('latest')
fetcher = Fetcher(client, subscriptions, loop=self.loop)
partition = TopicPartition('test', 0)
# partition is not assigned, should be ignored
yield from fetcher.update_fetch_positions([partition])
state = TopicPartitionState()
state.seek(0)
subscriptions.assignment[partition] = state
# partition is fetchable, no need to update position
yield from fetcher.update_fetch_positions([partition])
client.ready = mock.MagicMock()
client.ready.side_effect = asyncio.coroutine(lambda a: True)
client.force_metadata_update = mock.MagicMock()
client.force_metadata_update.side_effect = asyncio.coroutine(
lambda: False)
client.send = mock.MagicMock()
client.send.side_effect = asyncio.coroutine(
lambda n, r: OffsetResponse([('test', [(0, 0, [4])])]))
state.await_reset(OffsetResetStrategy.LATEST)
client.cluster.leader_for_partition = mock.MagicMock()
client.cluster.leader_for_partition.side_effect = [None, -1, 0]
yield from fetcher.update_fetch_positions([partition])
self.assertEqual(state.position, 4)
client.cluster.leader_for_partition = mock.MagicMock()
client.cluster.leader_for_partition.return_value = 1
client.send = mock.MagicMock()
client.send.side_effect = asyncio.coroutine(
lambda n, r: OffsetResponse([('test', [(0, 3, [])])]))
state.await_reset(OffsetResetStrategy.LATEST)
with self.assertRaises(UnknownTopicOrPartitionError):
yield from fetcher.update_fetch_positions([partition])
client.send.side_effect = asyncio.coroutine(
lambda n, r: OffsetResponse([('test', [(0, -1, [])])]))
with self.assertRaises(UnknownError):
yield from fetcher.update_fetch_positions([partition])
yield from fetcher.close()
class AIOKafkaConsumer(object):
"""Consume records from a Kafka cluster.
The consumer will transparently handle the failure of servers in the Kafka
cluster, and adapt as topic-partitions are created or migrate between
brokers. It also interacts with the assigned kafka Group Coordinator node
to allow multiple consumers to load balance consumption of topics (feature
of kafka >= 0.9.0.0).
Arguments:
*topics (str): optional list of topics to subscribe to. If not set,
call subscribe() or assign() before consuming records.
bootstrap_servers: 'host[:port]' string (or list of 'host[:port]'
strings) that the consumer should contact to bootstrap initial
cluster metadata. This does not have to be the full node list.
It just needs to have at least one broker that will respond to a
Metadata API Request. Default port is 9092. If no servers are
specified, will default to localhost:9092.
client_id (str): a name for this client. This string is passed in
each request to servers and can be used to identify specific
server-side log entries that correspond to this client. Also
submitted to GroupCoordinator for logging with respect to
consumer group administration. Default: 'aiokafka-{version}'
group_id (str or None): name of the consumer group to join for dynamic
partition assignment (if enabled), and to use for fetching and
committing offsets. If None, auto-partition assignment (via
group coordinator) and offset commits are disabled.
Default: None
key_deserializer (callable): Any callable that takes a
raw message key and returns a deserialized key.
value_deserializer (callable, optional): Any callable that takes a
raw message value and returns a deserialized value.
fetch_min_bytes (int): Minimum amount of data the server should
return for a fetch request, otherwise wait up to
fetch_max_wait_ms for more data to accumulate. Default: 1.
fetch_max_wait_ms (int): The maximum amount of time in milliseconds
the server will block before answering the fetch request if
there isn't sufficient data to immediately satisfy the
requirement given by fetch_min_bytes. Default: 500.
max_partition_fetch_bytes (int): The maximum amount of data
per-partition the server will return. The maximum total memory
used for a request = #partitions * max_partition_fetch_bytes.
This size must be at least as large as the maximum message size
the server allows or else it is possible for the producer to
send messages larger than the consumer can fetch. If that
happens, the consumer can get stuck trying to fetch a large
message on a certain partition. Default: 1048576.
request_timeout_ms (int): Client request timeout in milliseconds.
Default: 40000.
retry_backoff_ms (int): Milliseconds to backoff when retrying on
errors. Default: 100.
auto_offset_reset (str): A policy for resetting offsets on
OffsetOutOfRange errors: 'earliest' will move to the oldest
available message, 'latest' will move to the most recent. Any
ofther value will raise the exception. Default: 'latest'.
enable_auto_commit (bool): If true the consumer's offset will be
periodically committed in the background. Default: True.
auto_commit_interval_ms (int): milliseconds between automatic
offset commits, if enable_auto_commit is True. Default: 5000.
check_crcs (bool): Automatically check the CRC32 of the records
consumed. This ensures no on-the-wire or on-disk corruption to
the messages occurred. This check adds some overhead, so it may
be disabled in cases seeking extreme performance. Default: True
metadata_max_age_ms (int): The period of time in milliseconds after
which we force a refresh of metadata even if we haven't seen any
partition leadership changes to proactively discover any new
brokers or partitions. Default: 300000
partition_assignment_strategy (list): List of objects to use to
distribute partition ownership amongst consumer instances when
group management is used. This preference is implicit in the order
of the strategies in the list. When assignment strategy changes:
to support a change to the assignment strategy, new versions must
enable support both for the old assignment strategy and the new
one. The coordinator will choose the old assignment strategy until
all members have been updated. Then it will choose the new
strategy. Default: [RoundRobinPartitionAssignor]
heartbeat_interval_ms (int): The expected time in milliseconds
between heartbeats to the consumer coordinator when using
Kafka's group management feature. Heartbeats are used to ensure
that the consumer's session stays active and to facilitate
rebalancing when new consumers join or leave the group. The
value must be set lower than session_timeout_ms, but typically
should be set no higher than 1/3 of that value. It can be
adjusted even lower to control the expected time for normal
rebalances. Default: 3000
session_timeout_ms (int): The timeout used to detect failures when
using Kafka's group managementment facilities. Default: 30000
consumer_timeout_ms (int): maximum wait timeout for background fetching
routine. Mostly defines how fast the system will see rebalance and
request new data for new partitions. Default: 200
api_version (str): specify which kafka API version to use.
AIOKafkaConsumer supports Kafka API versions >=0.9 only.
If set to 'auto', will attempt to infer the broker version by
probing various APIs. Default: auto
Note:
Many configuration parameters are taken from Java Client:
https://kafka.apache.org/documentation.html#newconsumerconfigs
"""
def __init__(self,
*topics,
loop,
bootstrap_servers='localhost',
client_id='aiokafka-' + __version__,
group_id=None,
key_deserializer=None,
value_deserializer=None,
fetch_max_wait_ms=500,
fetch_min_bytes=1,
max_partition_fetch_bytes=1 * 1024 * 1024,
request_timeout_ms=40 * 1000,
retry_backoff_ms=100,
auto_offset_reset='latest',
enable_auto_commit=True,
auto_commit_interval_ms=5000,
check_crcs=True,
metadata_max_age_ms=5 * 60 * 1000,
partition_assignment_strategy=(RoundRobinPartitionAssignor, ),
heartbeat_interval_ms=3000,
session_timeout_ms=30000,
consumer_timeout_ms=200,
api_version='auto'):
if api_version not in ('auto', '0.9', '0.10'):
raise ValueError("Unsupported Kafka API version")
self._client = AIOKafkaClient(loop=loop,
bootstrap_servers=bootstrap_servers,
client_id=client_id,
metadata_max_age_ms=metadata_max_age_ms,
request_timeout_ms=request_timeout_ms,
api_version=api_version)
self._group_id = group_id
self._heartbeat_interval_ms = heartbeat_interval_ms
self._retry_backoff_ms = retry_backoff_ms
self._enable_auto_commit = enable_auto_commit
self._auto_commit_interval_ms = auto_commit_interval_ms
self._partition_assignment_strategy = partition_assignment_strategy
self._key_deserializer = key_deserializer
self._value_deserializer = value_deserializer
self._fetch_min_bytes = fetch_min_bytes
self._fetch_max_wait_ms = fetch_max_wait_ms
self._max_partition_fetch_bytes = max_partition_fetch_bytes
self._consumer_timeout = consumer_timeout_ms / 1000
self._check_crcs = check_crcs
self._subscription = SubscriptionState(auto_offset_reset)
self._fetcher = None
self._coordinator = None
self._closed = False
self._loop = loop
if topics:
self._client.set_topics(topics)
self._subscription.subscribe(topics=topics)
@asyncio.coroutine
def start(self):
yield from self._client.bootstrap()
if self._client.api_version < (0, 9):
raise ValueError("Unsupported Kafka version: {}".format(
self._client.api_version))
self._fetcher = Fetcher(
self._client,
self._subscription,
loop=self._loop,
key_deserializer=self._key_deserializer,
value_deserializer=self._value_deserializer,
fetch_min_bytes=self._fetch_min_bytes,
fetch_max_wait_ms=self._fetch_max_wait_ms,
max_partition_fetch_bytes=self._max_partition_fetch_bytes,
check_crcs=self._check_crcs,
fetcher_timeout=self._consumer_timeout)
if self._group_id is not None:
# using group coordinator for automatic partitions assignment
self._coordinator = GroupCoordinator(
self._client,
self._subscription,
loop=self._loop,
group_id=self._group_id,
heartbeat_interval_ms=self._heartbeat_interval_ms,
retry_backoff_ms=self._retry_backoff_ms,
enable_auto_commit=self._enable_auto_commit,
auto_commit_interval_ms=self._auto_commit_interval_ms,
assignors=self._partition_assignment_strategy)
self._coordinator.on_group_rebalanced(self._on_change_subscription)
yield from self._coordinator.ensure_active_group()
elif self._subscription.needs_partition_assignment:
# using manual partitions assignment by topic(s)
yield from self._client.force_metadata_update()
partitions = []
for topic in self._subscription.subscription:
p_ids = self.partitions_for_topic(topic)
if not p_ids:
raise UnknownTopicOrPartitionError()
for p_id in p_ids:
partitions.append(TopicPartition(topic, p_id))
self._subscription.unsubscribe()
self._subscription.assign_from_user(partitions)
yield from self._update_fetch_positions(
self._subscription.missing_fetch_positions())
def assign(self, partitions):
"""Manually assign a list of TopicPartitions to this consumer.
Arguments:
partitions (list of TopicPartition): assignment for this instance.
Raises:
IllegalStateError: if consumer has already called subscribe()
Warning:
It is not possible to use both manual partition assignment with
assign() and group assignment with subscribe().
Note:
This interface does not support incremental assignment and will
replace the previous assignment (if there was one).
Note:
Manual topic assignment through this method does not use the
consumer's group management functionality. As such, there will be
no rebalance operation triggered when group membership or cluster
and topic metadata change.
"""
for tp in partitions:
p_ids = self.partitions_for_topic(tp.topic)
if not p_ids or tp.partition not in p_ids:
raise UnknownTopicOrPartitionError(tp)
self._subscription.assign_from_user(partitions)
self._on_change_subscription()
self._client.set_topics([tp.topic for tp in partitions])
def assignment(self):
"""Get the TopicPartitions currently assigned to this consumer.
If partitions were directly assigned using assign(), then this will
simply return the same partitions that were previously assigned.
If topics were subscribed using subscribe(), then this will give the
set of topic partitions currently assigned to the consumer (which may
be none if the assignment hasn't happened yet or if the partitions are
in the process of being reassigned).
Returns:
set: {TopicPartition, ...}
"""
return self._subscription.assigned_partitions()
@asyncio.coroutine
def stop(self):
"""Close the consumer, waiting indefinitely for any needed cleanup."""
if self._closed:
return
log.debug("Closing the KafkaConsumer.")
self._closed = True
if self._coordinator:
yield from self._coordinator.close()
if self._fetcher:
yield from self._fetcher.close()
yield from self._client.close()
log.debug("The KafkaConsumer has closed.")
@asyncio.coroutine
def commit(self, offsets=None):
"""Commit offsets to kafka, blocking until success or error
This commits offsets only to Kafka.
The offsets committed using this API will be used on the first fetch
after every rebalance and also on startup. As such, if you need to
store offsets in anything other than Kafka, this API should not be
used.
Blocks until either the commit succeeds or an unrecoverable error is
encountered (in which case it is thrown to the caller).
Currently only supports kafka-topic offset storage (not zookeeper)
Arguments:
offsets (dict, optional): {TopicPartition: OffsetAndMetadata} dict
to commit with the configured group_id. Defaults to current
consumed offsets for all subscribed partitions.
"""
assert self._group_id is not None, 'Requires group_id'
if offsets is None:
offsets = self._subscription.all_consumed_offsets()
else:
# validate `offsets` structure
assert all(map(lambda k: isinstance(k, TopicPartition), offsets))
assert all(
map(lambda v: isinstance(v, OffsetAndMetadata),
offsets.values()))
yield from self._coordinator.commit_offsets(offsets)
@asyncio.coroutine
def committed(self, partition):
"""Get the last committed offset for the given partition
This offset will be used as the position for the consumer
in the event of a failure.
This call may block to do a remote call if the partition in question
isn't assigned to this consumer or if the consumer hasn't yet
initialized its cache of committed offsets.
Arguments:
partition (TopicPartition): the partition to check
Returns:
The last committed offset, or None if there was no prior commit.
"""
assert self._group_id is not None, 'Requires group_id'
if self._subscription.is_assigned(partition):
committed = self._subscription.assignment[partition].committed
if committed is None:
yield from self._coordinator.refresh_committed_offsets()
committed = self._subscription.assignment[partition].committed
else:
commit_map = yield from self._coordinator.fetch_committed_offsets(
[partition])
if partition in commit_map:
committed = commit_map[partition].offset
else:
committed = None
return committed
@asyncio.coroutine
def topics(self):
"""Get all topics the user is authorized to view.
Returns:
set: topics
"""
cluster = yield from self._client.fetch_all_metadata()
return cluster.topics()
def partitions_for_topic(self, topic):
"""Get metadata about the partitions for a given topic.
Arguments:
topic (str): topic to check
Returns:
set: partition ids
"""
return self._client.cluster.partitions_for_topic(topic)
@asyncio.coroutine
def position(self, partition):
"""Get the offset of the next record that will be fetched
Arguments:
partition (TopicPartition): partition to check
Returns:
int: offset
"""
assert self._subscription.is_assigned(partition), \
'Partition is not assigned'
offset = self._subscription.assignment[partition].position
if offset is None:
yield from self._update_fetch_positions(partition)
offset = self._subscription.assignment[partition].position
return offset
def highwater(self, partition):
"""Last known highwater offset for a partition
A highwater offset is the offset that will be assigned to the next
message that is produced. It may be useful for calculating lag, by
comparing with the reported position. Note that both position and
highwater refer to the *next* offset -- i.e., highwater offset is
one greater than the newest availabel message.
Highwater offsets are returned in FetchResponse messages, so will
not be available if not FetchRequests have been sent for this partition
yet.
Arguments:
partition (TopicPartition): partition to check
Returns:
int or None: offset if available
"""
assert self._subscription.is_assigned(partition), \
'Partition is not assigned'
return self._subscription.assignment[partition].highwater
def seek(self, partition, offset):
"""Manually specify the fetch offset for a TopicPartition.
Overrides the fetch offsets that the consumer will use on the next
poll(). If this API is invoked for the same partition more than once,
the latest offset will be used on the next poll(). Note that you may
lose data if this API is arbitrarily used in the middle of consumption,
to reset the fetch offsets.
Arguments:
partition (TopicPartition): partition for seek operation
offset (int): message offset in partition
Raises:
AssertionError: if offset is not an int >= 0;
or if partition is not currently assigned.
"""
assert isinstance(offset, int) and offset >= 0, 'Offset must be >= 0'
assert partition in self._subscription.assigned_partitions(), \
'Unassigned partition'
log.debug("Seeking to offset %s for partition %s", offset, partition)
self._subscription.assignment[partition].seek(offset)
@asyncio.coroutine
def seek_to_committed(self, *partitions):
"""Seek to the committed offset for partitions
Arguments:
partitions: optionally provide specific TopicPartitions,
otherwise default to all assigned partitions
Raises:
AssertionError: if any partition is not currently assigned, or if
no partitions are assigned
"""
if not partitions:
partitions = self._subscription.assigned_partitions()
assert partitions, 'No partitions are currently assigned'
else:
for p in partitions:
assert p in self._subscription.assigned_partitions(), \
'Unassigned partition'
for tp in partitions:
log.debug("Seeking to committed of partition %s", tp)
offset = yield from self.committed(tp)
if offset and offset > 0:
self.seek(tp, offset)
def subscribe(self, topics=(), pattern=None, listener=None):
"""Subscribe to a list of topics, or a topic regex pattern
Partitions will be dynamically assigned via a group coordinator.
Topic subscriptions are not incremental: this list will replace the
current assignment (if there is one).
This method is incompatible with assign()
Arguments:
topics (list): List of topics for subscription.
pattern (str): Pattern to match available topics. You must provide
either topics or pattern, but not both.
listener (ConsumerRebalanceListener): Optionally include listener
callback, which will be called before and after each rebalance
operation.
As part of group management, the consumer will keep track of
the list of consumers that belong to a particular group and
will trigger a rebalance operation if one of the following
events trigger:
* Number of partitions change for any of the subscribed topics
* Topic is created or deleted
* An existing member of the consumer group dies
* A new member is added to the consumer group
When any of these events are triggered, the provided listener
will be invoked first to indicate that the consumer's
assignment has been revoked, and then again when the new
assignment has been received. Note that this listener will
immediately override any listener set in a previous call
to subscribe. It is guaranteed, however, that the partitions
revoked/assigned
through this interface are from topics subscribed in this call.
Raises:
IllegalStateError: if called after previously calling assign()
AssertionError: if neither topics or pattern is provided
TypeError: if listener is not a ConsumerRebalanceListener
"""
# SubscriptionState handles error checking
self._subscription.subscribe(topics=topics,
pattern=pattern,
listener=listener)
# regex will need all topic metadata
if pattern is not None:
self._client.set_topics([])
log.debug("Subscribed to topic pattern: %s", pattern)
else:
self._client.set_topics(self._subscription.group_subscription())
log.debug("Subscribed to topic(s): %s", topics)
def subscription(self):
"""Get the current topic subscription.
Returns:
set: {topic, ...}
"""
return self._subscription.subscription
def unsubscribe(self):
"""Unsubscribe from all topics and clear all assigned partitions."""
self._subscription.unsubscribe()
self._client.set_topics([])
log.debug(
"Unsubscribed all topics or patterns and assigned partitions")
@asyncio.coroutine
def _update_fetch_positions(self, partitions):
"""
Set the fetch position to the committed position (if there is one)
or reset it using the offset reset policy the user has configured.
Arguments:
partitions (List[TopicPartition]): The partitions that need
updating fetch positions
Raises:
NoOffsetForPartitionError: If no offset is stored for a given
partition and no offset reset policy is defined
"""
if self._group_id is not None:
# refresh commits for all assigned partitions
yield from self._coordinator.refresh_committed_offsets()
# then do any offset lookups in case some positions are not known
yield from self._fetcher.update_fetch_positions(partitions)
def _on_change_subscription(self):
"""This is `group rebalanced` signal handler for update fetch positions
of assigned partitions"""
# fetch positions if we have partitions we're subscribed
# to that we don't know the offset for
if not self._subscription.has_all_fetch_positions():
ensure_future(self._update_fetch_positions(
self._subscription.missing_fetch_positions()),
loop=self._loop)
@asyncio.coroutine
def getone(self, *partitions):
"""
Get one message from Kafka
If no new messages prefetched, this method will wait for it
Arguments:
partitions (List[TopicPartition]): Optional list of partitions to
return from. If no partitions specified then returned message
will be from any partition, which consumer is subscribed to.
Returns:
ConsumerRecord
Will return instance of
.. code:: python
collections.namedtuple(
"ConsumerRecord",
["topic", "partition", "offset", "key", "value"])
Example usage:
.. code:: python
while True:
message = yield from consumer.getone()
topic = message.topic
partition = message.partition
# Process message
print(message.offset, message.key, message.value)
"""
assert all(map(lambda k: isinstance(k, TopicPartition), partitions))
msg = yield from self._fetcher.next_record(partitions)
return msg
@asyncio.coroutine
def getmany(self, *partitions, timeout_ms=0):
"""Get messages from assigned topics / partitions.
Prefetched messages are returned in batches by topic-partition.
If messages is not available in the prefetched buffer this method waits
`timeout_ms` milliseconds.
Arguments:
partitions (List[TopicPartition]): The partitions that need
fetching message. If no one partition specified then all
subscribed partitions will be used
timeout_ms (int, optional): milliseconds spent waiting if
data is not available in the buffer. If 0, returns immediately
with any records that are available currently in the buffer,
else returns empty. Must not be negative. Default: 0
Returns:
dict: topic to list of records since the last fetch for the
subscribed list of topics and partitions
Example usage:
.. code:: python
data = yield from consumer.getmany()
for tp, messages in data.items():
topic = tp.topic
partition = tp.partition
for message in messages:
# Process message
print(message.offset, message.key, message.value)
"""
assert all(map(lambda k: isinstance(k, TopicPartition), partitions))
timeout = timeout_ms / 1000
records = yield from self._fetcher.fetched_records(partitions, timeout)
return records
if PY_35:
@asyncio.coroutine
def __aiter__(self):
return self
@asyncio.coroutine
def __anext__(self):
"""Asyncio iterator interface for consumer
Note:
TopicAuthorizationFailedError and OffsetOutOfRangeError
exceptions can be raised in iterator.
All other KafkaError exceptions will be logged and not raised
"""
while True:
try:
return (yield from self.getone())
except (TopicAuthorizationFailedError,
OffsetOutOfRangeError) as err:
raise err
except KafkaError as err:
log.error("error in consumer iterator: %s", err)
def test_proc_fetch_request(self):
client = AIOKafkaClient(
loop=self.loop,
bootstrap_servers=[])
subscriptions = SubscriptionState('latest')
fetcher = Fetcher(client, subscriptions, loop=self.loop)
tp = TopicPartition('test', 0)
tp_info = (tp.topic, [(tp.partition, 155, 100000)])
req = FetchRequest(
-1, # replica_id
100, 100, [tp_info])
client.ready = mock.MagicMock()
client.ready.side_effect = asyncio.coroutine(lambda a: True)
client.force_metadata_update = mock.MagicMock()
client.force_metadata_update.side_effect = asyncio.coroutine(
lambda: False)
client.send = mock.MagicMock()
msg = Message(b"test msg")
msg._encode_self()
client.send.side_effect = asyncio.coroutine(
lambda n, r: FetchResponse(
[('test', [(0, 0, 9, [(4, 10, msg)])])]))
fetcher._in_flight.add(0)
needs_wake_up = yield from fetcher._proc_fetch_request(0, req)
self.assertEqual(needs_wake_up, False)
state = TopicPartitionState()
state.seek(0)
subscriptions.assignment[tp] = state
subscriptions.needs_partition_assignment = False
fetcher._in_flight.add(0)
needs_wake_up = yield from fetcher._proc_fetch_request(0, req)
self.assertEqual(needs_wake_up, True)
buf = fetcher._records[tp]
self.assertEqual(buf.getone(), None) # invalid offset, msg is ignored
state.seek(4)
fetcher._in_flight.add(0)
fetcher._records.clear()
needs_wake_up = yield from fetcher._proc_fetch_request(0, req)
self.assertEqual(needs_wake_up, True)
buf = fetcher._records[tp]
self.assertEqual(buf.getone().value, b"test msg")
# error -> no partition found
client.send.side_effect = asyncio.coroutine(
lambda n, r: FetchResponse(
[('test', [(0, 3, 9, [(4, 10, msg)])])]))
fetcher._in_flight.add(0)
fetcher._records.clear()
needs_wake_up = yield from fetcher._proc_fetch_request(0, req)
self.assertEqual(needs_wake_up, False)
# error -> topic auth failed
client.send.side_effect = asyncio.coroutine(
lambda n, r: FetchResponse(
[('test', [(0, 29, 9, [(4, 10, msg)])])]))
fetcher._in_flight.add(0)
fetcher._records.clear()
needs_wake_up = yield from fetcher._proc_fetch_request(0, req)
self.assertEqual(needs_wake_up, True)
with self.assertRaises(TopicAuthorizationFailedError):
yield from fetcher.next_record([])
# error -> unknown
client.send.side_effect = asyncio.coroutine(
lambda n, r: FetchResponse(
[('test', [(0, -1, 9, [(4, 10, msg)])])]))
fetcher._in_flight.add(0)
fetcher._records.clear()
needs_wake_up = yield from fetcher._proc_fetch_request(0, req)
self.assertEqual(needs_wake_up, False)
# error -> offset out of range
client.send.side_effect = asyncio.coroutine(
lambda n, r: FetchResponse(
[('test', [(0, 1, 9, [(4, 10, msg)])])]))
fetcher._in_flight.add(0)
fetcher._records.clear()
needs_wake_up = yield from fetcher._proc_fetch_request(0, req)
self.assertEqual(needs_wake_up, False)
self.assertEqual(state.is_fetchable(), False)
state.seek(4)
subscriptions._default_offset_reset_strategy = OffsetResetStrategy.NONE
client.send.side_effect = asyncio.coroutine(
lambda n, r: FetchResponse(
[('test', [(0, 1, 9, [(4, 10, msg)])])]))
fetcher._in_flight.add(0)
fetcher._records.clear()
needs_wake_up = yield from fetcher._proc_fetch_request(0, req)
self.assertEqual(needs_wake_up, True)
with self.assertRaises(OffsetOutOfRangeError):
yield from fetcher.next_record([])
yield from fetcher.close()
def test_proc_fetch_request(self):
client = AIOKafkaClient(loop=self.loop, bootstrap_servers=[])
subscriptions = SubscriptionState('latest')
fetcher = Fetcher(client, subscriptions, loop=self.loop)
tp = TopicPartition('test', 0)
tp_info = (tp.topic, [(tp.partition, 155, 100000)])
req = FetchRequest(
-1, # replica_id
100,
100,
[tp_info])
client.ready = mock.MagicMock()
client.ready.side_effect = asyncio.coroutine(lambda a: True)
client.force_metadata_update = mock.MagicMock()
client.force_metadata_update.side_effect = asyncio.coroutine(
lambda: False)
client.send = mock.MagicMock()
msg = Message(b"test msg")
msg._encode_self()
client.send.side_effect = asyncio.coroutine(lambda n, r: FetchResponse(
[('test', [(0, 0, 9, [(4, 10, msg)])])]))
fetcher._in_flight.add(0)
needs_wake_up = yield from fetcher._proc_fetch_request(0, req)
self.assertEqual(needs_wake_up, False)
state = TopicPartitionState()
state.seek(0)
subscriptions.assignment[tp] = state
subscriptions.needs_partition_assignment = False
fetcher._in_flight.add(0)
needs_wake_up = yield from fetcher._proc_fetch_request(0, req)
self.assertEqual(needs_wake_up, True)
buf = fetcher._records[tp]
self.assertEqual(buf.getone(), None) # invalid offset, msg is ignored
state.seek(4)
fetcher._in_flight.add(0)
fetcher._records.clear()
needs_wake_up = yield from fetcher._proc_fetch_request(0, req)
self.assertEqual(needs_wake_up, True)
buf = fetcher._records[tp]
self.assertEqual(buf.getone().value, b"test msg")
# error -> no partition found
client.send.side_effect = asyncio.coroutine(lambda n, r: FetchResponse(
[('test', [(0, 3, 9, [(4, 10, msg)])])]))
fetcher._in_flight.add(0)
fetcher._records.clear()
needs_wake_up = yield from fetcher._proc_fetch_request(0, req)
self.assertEqual(needs_wake_up, False)
# error -> topic auth failed
client.send.side_effect = asyncio.coroutine(lambda n, r: FetchResponse(
[('test', [(0, 29, 9, [(4, 10, msg)])])]))
fetcher._in_flight.add(0)
fetcher._records.clear()
needs_wake_up = yield from fetcher._proc_fetch_request(0, req)
self.assertEqual(needs_wake_up, True)
with self.assertRaises(TopicAuthorizationFailedError):
yield from fetcher.next_record([])
# error -> unknown
client.send.side_effect = asyncio.coroutine(lambda n, r: FetchResponse(
[('test', [(0, -1, 9, [(4, 10, msg)])])]))
fetcher._in_flight.add(0)
fetcher._records.clear()
needs_wake_up = yield from fetcher._proc_fetch_request(0, req)
self.assertEqual(needs_wake_up, False)
# error -> offset out of range
client.send.side_effect = asyncio.coroutine(lambda n, r: FetchResponse(
[('test', [(0, 1, 9, [(4, 10, msg)])])]))
fetcher._in_flight.add(0)
fetcher._records.clear()
needs_wake_up = yield from fetcher._proc_fetch_request(0, req)
self.assertEqual(needs_wake_up, False)
self.assertEqual(state.is_fetchable(), False)
state.seek(4)
subscriptions._default_offset_reset_strategy = OffsetResetStrategy.NONE
client.send.side_effect = asyncio.coroutine(lambda n, r: FetchResponse(
[('test', [(0, 1, 9, [(4, 10, msg)])])]))
fetcher._in_flight.add(0)
fetcher._records.clear()
needs_wake_up = yield from fetcher._proc_fetch_request(0, req)
self.assertEqual(needs_wake_up, True)
with self.assertRaises(OffsetOutOfRangeError):
yield from fetcher.next_record([])
yield from fetcher.close()
class AIOKafkaConsumer(object):
"""Consume records from a Kafka cluster.
The consumer will transparently handle the failure of servers in the Kafka
cluster, and adapt as topic-partitions are created or migrate between
brokers. It also interacts with the assigned kafka Group Coordinator node
to allow multiple consumers to load balance consumption of topics (requires
kafka >= 0.9.0.0).
Arguments:
*topics (str): optional list of topics to subscribe to. If not set,
call subscribe() or assign() before consuming records.
bootstrap_servers: 'host[:port]' string (or list of 'host[:port]'
strings) that the consumer should contact to bootstrap initial
cluster metadata. This does not have to be the full node list.
It just needs to have at least one broker that will respond to a
Metadata API Request. Default port is 9092. If no servers are
specified, will default to localhost:9092.
client_id (str): a name for this client. This string is passed in
each request to servers and can be used to identify specific
server-side log entries that correspond to this client. Also
submitted to GroupCoordinator for logging with respect to
consumer group administration. Default: 'aiokafka-{version}'
group_id (str or None): name of the consumer group to join for dynamic
partition assignment (if enabled), and to use for fetching and
committing offsets. If None, auto-partition assignment (via
group coordinator) and offset commits are disabled.
Default: None
key_deserializer (callable): Any callable that takes a
raw message key and returns a deserialized key.
value_deserializer (callable, optional): Any callable that takes a
raw message value and returns a deserialized value.
fetch_min_bytes (int): Minimum amount of data the server should
return for a fetch request, otherwise wait up to
fetch_max_wait_ms for more data to accumulate. Default: 1.
fetch_max_wait_ms (int): The maximum amount of time in milliseconds
the server will block before answering the fetch request if
there isn't sufficient data to immediately satisfy the
requirement given by fetch_min_bytes. Default: 500.
max_partition_fetch_bytes (int): The maximum amount of data
per-partition the server will return. The maximum total memory
used for a request = #partitions * max_partition_fetch_bytes.
This size must be at least as large as the maximum message size
the server allows or else it is possible for the producer to
send messages larger than the consumer can fetch. If that
happens, the consumer can get stuck trying to fetch a large
message on a certain partition. Default: 1048576.
request_timeout_ms (int): Client request timeout in milliseconds.
Default: 40000.
retry_backoff_ms (int): Milliseconds to backoff when retrying on
errors. Default: 100.
reconnect_backoff_ms (int): The amount of time in milliseconds to
wait before attempting to reconnect to a given host.
Default: 50.
auto_offset_reset (str): A policy for resetting offsets on
OffsetOutOfRange errors: 'earliest' will move to the oldest
available message, 'latest' will move to the most recent. Any
ofther value will raise the exception. Default: 'latest'.
enable_auto_commit (bool): If true the consumer's offset will be
periodically committed in the background. Default: True.
auto_commit_interval_ms (int): milliseconds between automatic
offset commits, if enable_auto_commit is True. Default: 5000.
check_crcs (bool): Automatically check the CRC32 of the records
consumed. This ensures no on-the-wire or on-disk corruption to
the messages occurred. This check adds some overhead, so it may
be disabled in cases seeking extreme performance. Default: True
metadata_max_age_ms (int): The period of time in milliseconds after
which we force a refresh of metadata even if we haven't seen any
partition leadership changes to proactively discover any new
brokers or partitions. Default: 300000
partition_assignment_strategy (list): List of objects to use to
distribute partition ownership amongst consumer instances when
group management is used. This preference is implicit in the order
of the strategies in the list. When assignment strategy changes:
to support a change to the assignment strategy, new versions must
enable support both for the old assignment strategy and the new
one. The coordinator will choose the old assignment strategy until
all members have been updated. Then it will choose the new
strategy. Default: [RoundRobinPartitionAssignor]
heartbeat_interval_ms (int): The expected time in milliseconds
between heartbeats to the consumer coordinator when using
Kafka's group management feature. Heartbeats are used to ensure
that the consumer's session stays active and to facilitate
rebalancing when new consumers join or leave the group. The
value must be set lower than session_timeout_ms, but typically
should be set no higher than 1/3 of that value. It can be
adjusted even lower to control the expected time for normal
rebalances. Default: 3000
session_timeout_ms (int): The timeout used to detect failures when
using Kafka's group managementment facilities. Default: 30000
consumer_timeout_ms (int): number of millisecond to poll available
fetched messages. Default: 100
api_version (str): specify which kafka API version to use.
AIOKafkaConsumer supports Kafka API versions >=0.9 only.
If set to 'auto', will attempt to infer the broker version by
probing various APIs. Default: auto
Note:
Many configuration parameters are taken from Java Client:
https://kafka.apache.org/documentation.html#newconsumerconfigs
"""
def __init__(self, *topics, loop,
bootstrap_servers='localhost',
client_id='aiokafka-'+__version__,
group_id=None,
key_deserializer=None, value_deserializer=None,
fetch_max_wait_ms=500,
fetch_min_bytes=1,
max_partition_fetch_bytes=1 * 1024 * 1024,
request_timeout_ms=40 * 1000,
retry_backoff_ms=100,
reconnect_backoff_ms=50,
auto_offset_reset='latest',
enable_auto_commit=True,
auto_commit_interval_ms=5000,
check_crcs=True,
metadata_max_age_ms=5 * 60 * 1000,
partition_assignment_strategy=(RoundRobinPartitionAssignor,),
heartbeat_interval_ms=3000,
session_timeout_ms=30000,
consumer_timeout_ms=100,
api_version='auto'):
if api_version not in ('auto', '0.9'):
raise ValueError("Unsupported Kafka API version")
self._client = AIOKafkaClient(
loop=loop, bootstrap_servers=bootstrap_servers,
client_id=client_id, metadata_max_age_ms=metadata_max_age_ms,
request_timeout_ms=request_timeout_ms)
self._api_version = api_version
self._group_id = group_id
self._heartbeat_interval_ms = heartbeat_interval_ms
self._retry_backoff_ms = retry_backoff_ms
self._enable_auto_commit = enable_auto_commit
self._auto_commit_interval_ms = auto_commit_interval_ms
self._partition_assignment_strategy = partition_assignment_strategy
self._key_deserializer = key_deserializer
self._value_deserializer = value_deserializer
self._fetch_min_bytes = fetch_min_bytes
self._fetch_max_wait_ms = fetch_max_wait_ms
self._max_partition_fetch_bytes = max_partition_fetch_bytes
self._consumer_timeout = consumer_timeout_ms / 1000
self._check_crcs = check_crcs
self._subscription = SubscriptionState(auto_offset_reset)
self._fetcher = None
self._coordinator = None
self._closed = False
self._loop = loop
self._topics = topics
if topics:
self._client.set_topics(topics)
self._subscription.subscribe(topics=topics)
@asyncio.coroutine
def start(self):
yield from self._client.bootstrap()
# Check Broker Version if not set explicitly
if self._api_version == 'auto':
self._api_version = yield from self._client.check_version()
# Convert api_version config to tuple for easy comparisons
self._api_version = tuple(
map(int, self._api_version.split('.')))
if self._api_version < (0, 9):
raise ValueError(
"Unsupported Kafka version: {}".format(self._api_version))
self._fetcher = Fetcher(
self._client, self._subscription, loop=self._loop,
key_deserializer=self._key_deserializer,
value_deserializer=self._value_deserializer,
fetch_min_bytes=self._fetch_min_bytes,
fetch_max_wait_ms=self._fetch_max_wait_ms,
max_partition_fetch_bytes=self._max_partition_fetch_bytes,
check_crcs=self._check_crcs,
fetcher_timeout=self._consumer_timeout)
if self._group_id is not None:
# using group coordinator for automatic partitions assignment
self._coordinator = GroupCoordinator(
self._client, self._subscription, loop=self._loop,
group_id=self._group_id,
heartbeat_interval_ms=self._heartbeat_interval_ms,
retry_backoff_ms=self._retry_backoff_ms,
enable_auto_commit=self._enable_auto_commit,
auto_commit_interval_ms=self._auto_commit_interval_ms,
assignors=self._partition_assignment_strategy)
self._coordinator.on_group_rebalanced(
self._on_change_subscription)
yield from self._coordinator.ensure_active_group()
elif self._subscription.needs_partition_assignment:
# using manual partitions assignment by topic(s)
yield from self._client.force_metadata_update()
partitions = []
for topic in self._topics:
p_ids = self.partitions_for_topic(topic)
for p_id in p_ids:
partitions.append(TopicPartition(topic, p_id))
self._subscription.unsubscribe()
self._subscription.assign_from_user(partitions)
yield from self._update_fetch_positions(
self._subscription.missing_fetch_positions())
def assign(self, partitions):
"""Manually assign a list of TopicPartitions to this consumer.
Arguments:
partitions (list of TopicPartition): assignment for this instance.
Raises:
IllegalStateError: if consumer has already called subscribe()
Warning:
It is not possible to use both manual partition assignment with
assign() and group assignment with subscribe().
Note:
This interface does not support incremental assignment and will
replace the previous assignment (if there was one).
Note:
Manual topic assignment through this method does not use the
consumer's group management functionality. As such, there will be
no rebalance operation triggered when group membership or cluster
and topic metadata change.
"""
self._subscription.assign_from_user(partitions)
self._on_change_subscription()
self._client.set_topics([tp.topic for tp in partitions])
def assignment(self):
"""Get the TopicPartitions currently assigned to this consumer.
If partitions were directly assigned using assign(), then this will
simply return the same partitions that were previously assigned.
If topics were subscribed using subscribe(), then this will give the
set of topic partitions currently assigned to the consumer (which may
be none if the assignment hasn't happened yet or if the partitions are
in the process of being reassigned).
Returns:
set: {TopicPartition, ...}
"""
return self._subscription.assigned_partitions()
@asyncio.coroutine
def stop(self):
"""Close the consumer, waiting indefinitely for any needed cleanup."""
if self._closed:
return
log.debug("Closing the KafkaConsumer.")
self._closed = True
if self._coordinator:
yield from self._coordinator.close()
if self._fetcher:
yield from self._fetcher.close()
yield from self._client.close()
log.debug("The KafkaConsumer has closed.")
@asyncio.coroutine
def commit(self, offsets=None):
"""Commit offsets to kafka, blocking until success or error
This commits offsets only to Kafka.
The offsets committed using this API will be used on the first fetch
after every rebalance and also on startup. As such, if you needto store
offsets in anything other than Kafka, this API should not be used.
Blocks until either the commit succeeds or an unrecoverable error is
encountered (in which case it is thrown to the caller).
Currently only supports kafka-topic offset storage (not zookeeper)
Arguments:
offsets (dict, optional): {TopicPartition: OffsetAndMetadata} dict
to commit with the configured group_id. Defaults to current
consumed offsets for all subscribed partitions.
"""
assert self._group_id is not None, 'Requires group_id'
if offsets is None:
offsets = self._subscription.all_consumed_offsets()
else:
# validate `offsets` structure
assert all(map(lambda k: isinstance(k, TopicPartition), offsets))
assert all(map(lambda v: isinstance(v, OffsetAndMetadata),
offsets.values()))
yield from self._coordinator.commit_offsets(offsets)
@asyncio.coroutine
def committed(self, partition):
"""Get the last committed offset for the given partition
This offset will be used as the position for the consumer
in the event of a failure.
This call may block to do a remote call if the partition in question
isn't assigned to this consumer or if the consumer hasn't yet
initialized its cache of committed offsets.
Arguments:
partition (TopicPartition): the partition to check
Returns:
The last committed offset, or None if there was no prior commit.
"""
assert self._group_id is not None, 'Requires group_id'
if self._subscription.is_assigned(partition):
committed = self._subscription.assignment[partition].committed
if committed is None:
yield from self._coordinator.refresh_committed_offsets()
committed = self._subscription.assignment[partition].committed
else:
commit_map = yield from self._coordinator.fetch_committed_offsets(
[partition])
if partition in commit_map:
committed = commit_map[partition].offset
else:
committed = None
return committed
@asyncio.coroutine
def topics(self):
"""Get all topics the user is authorized to view.
Returns:
set: topics
"""
cluster = yield from self._client.fetch_all_metadata()
return cluster.topics()
def partitions_for_topic(self, topic):
"""Get metadata about the partitions for a given topic.
Arguments:
topic (str): topic to check
Returns:
set: partition ids
"""
return self._client.cluster.partitions_for_topic(topic)
@asyncio.coroutine
def position(self, partition):
"""Get the offset of the next record that will be fetched
Arguments:
partition (TopicPartition): partition to check
Returns:
int: offset
"""
assert self._subscription.is_assigned(partition), \
'Partition is not assigned'
offset = self._subscription.assignment[partition].position
if offset is None:
yield from self._update_fetch_positions(partition)
offset = self._subscription.assignment[partition].position
return offset
def highwater(self, partition):
"""Last known highwater offset for a partition
A highwater offset is the offset that will be assigned to the next
message that is produced. It may be useful for calculating lag, by
comparing with the reported position. Note that both position and
highwater refer to the *next* offset -- i.e., highwater offset is
one greater than the newest availabel message.
Highwater offsets are returned in FetchResponse messages, so will
not be available if not FetchRequests have been sent for this partition
yet.
Arguments:
partition (TopicPartition): partition to check
Returns:
int or None: offset if available
"""
assert self._subscription.is_assigned(partition), \
'Partition is not assigned'
return self._subscription.assignment[partition].highwater
def seek(self, partition, offset):
"""Manually specify the fetch offset for a TopicPartition.
Overrides the fetch offsets that the consumer will use on the next
poll(). If this API is invoked for the same partition more than once,
the latest offset will be used on the next poll(). Note that you may
lose data if this API is arbitrarily used in the middle of consumption,
to reset the fetch offsets.
Arguments:
partition (TopicPartition): partition for seek operation
offset (int): message offset in partition
Raises:
AssertionError: if offset is not an int >= 0;
or if partition is not currently assigned.
"""
assert isinstance(offset, int) and offset >= 0, 'Offset must be >= 0'
assert partition in self._subscription.assigned_partitions(), \
'Unassigned partition'
log.debug("Seeking to offset %s for partition %s", offset, partition)
self._subscription.assignment[partition].seek(offset)
@asyncio.coroutine
def seek_to_committed(self, *partitions):
"""Seek to the committed offset for partitions
Arguments:
partitions: optionally provide specific TopicPartitions,
otherwise default to all assigned partitions
Raises:
AssertionError: if any partition is not currently assigned, or if
no partitions are assigned
"""
if not partitions:
partitions = self._subscription.assigned_partitions()
assert partitions, 'No partitions are currently assigned'
else:
for p in partitions:
assert p in self._subscription.assigned_partitions(), \
'Unassigned partition'
for tp in partitions:
log.debug("Seeking to committed of partition %s", tp)
offset = yield from self.committed(tp)
if offset and offset > 0:
self.seek(tp, offset)
def subscribe(self, topics=(), pattern=None, listener=None):
"""Subscribe to a list of topics, or a topic regex pattern
Partitions will be dynamically assigned via a group coordinator.
Topic subscriptions are not incremental: this list will replace the
current assignment (if there is one).
This method is incompatible with assign()
Arguments:
topics (list): List of topics for subscription.
pattern (str): Pattern to match available topics. You must provide
either topics or pattern, but not both.
listener (ConsumerRebalanceListener): Optionally include listener
callback, which will be called before and after each rebalance
operation.
As part of group management, the consumer will keep track of
the list of consumers that belong to a particular group and
will trigger a rebalance operation if one of the following
events trigger:
* Number of partitions change for any of the subscribed topics
* Topic is created or deleted
* An existing member of the consumer group dies
* A new member is added to the consumer group
When any of these events are triggered, the provided listener
will be invoked first to indicate that the consumer's
assignment has been revoked, and then again when the new
assignment has been received. Note that this listener will
immediately override any listener set in a previous call
to subscribe. It is guaranteed, however, that the partitions
revoked/assigned
through this interface are from topics subscribed in this call.
Raises:
IllegalStateError: if called after previously calling assign()
AssertionError: if neither topics or pattern is provided
TypeError: if listener is not a ConsumerRebalanceListener
"""
# SubscriptionState handles error checking
self._subscription.subscribe(topics=topics,
pattern=pattern,
listener=listener)
# regex will need all topic metadata
if pattern is not None:
self._client.set_topics([])
log.debug("Subscribed to topic pattern: %s", pattern)
else:
self._client.set_topics(self._subscription.group_subscription())
log.debug("Subscribed to topic(s): %s", topics)
def subscription(self):
"""Get the current topic subscription.
Returns:
set: {topic, ...}
"""
return self._subscription.subscription
def unsubscribe(self):
"""Unsubscribe from all topics and clear all assigned partitions."""
self._subscription.unsubscribe()
self._client.set_topics([])
log.debug(
"Unsubscribed all topics or patterns and assigned partitions")
@asyncio.coroutine
def _update_fetch_positions(self, partitions):
"""
Set the fetch position to the committed position (if there is one)
or reset it using the offset reset policy the user has configured.
Arguments:
partitions (List[TopicPartition]): The partitions that need
updating fetch positions
Raises:
NoOffsetForPartitionError: If no offset is stored for a given
partition and no offset reset policy is defined
"""
if self._group_id is not None:
# refresh commits for all assigned partitions
yield from self._coordinator.refresh_committed_offsets()
# then do any offset lookups in case some positions are not known
yield from self._fetcher.update_fetch_positions(partitions)
def _on_change_subscription(self):
"""This is `group rebalanced` signal handler for update fetch positions
of assigned partitions"""
# fetch positions if we have partitions we're subscribed
# to that we don't know the offset for
if not self._subscription.has_all_fetch_positions():
ensure_future(self._update_fetch_positions(
self._subscription.missing_fetch_positions()),
loop=self._loop)
@asyncio.coroutine
def getone(self, *partitions):
"""
Get one message from Kafka
If no new messages prefetched, this method will wait for it
Arguments:
partitions (List[TopicPartition]): Optional list of partitions to
return from. If no partitions specified then returned message
will be from any partition, which consumer is subscribed to.
Returns:
ConsumerRecord
Will return instance of
.. code:: python
collections.namedtuple(
"ConsumerRecord",
["topic", "partition", "offset", "key", "value"])
Example usage:
.. code:: python
while True:
message = yield from consumer.getone()
topic = message.topic
partition = message.partition
# Process message
print(message.offset, message.key, message.value)
"""
assert all(map(lambda k: isinstance(k, TopicPartition), partitions))
msg = yield from self._fetcher.next_record(partitions)
return msg
@asyncio.coroutine
def getmany(self, *partitions, timeout_ms=0):
"""Get messages from assigned topics / partitions.
Prefetched messages are returned in batches by topic-partition.
If messages is not available in the prefetched buffer this method waits
`timeout_ms` milliseconds.
Arguments:
partitions (List[TopicPartition]): The partitions that need
fetching message. If no one partition specified then all
subscribed partitions will be used
timeout_ms (int, optional): milliseconds spent waiting if
data is not available in the buffer. If 0, returns immediately
with any records that are available currently in the buffer,
else returns empty. Must not be negative. Default: 0
Returns:
dict: topic to list of records since the last fetch for the
subscribed list of topics and partitions
Example usage:
.. code:: python
data = yield from consumer.getmany()
for tp, messages in data.items():
topic = tp.topic
partition = tp.partition
for message in messages:
# Process message
print(message.offset, message.key, message.value)
"""
assert all(map(lambda k: isinstance(k, TopicPartition), partitions))
timeout = timeout_ms / 1000
records = yield from self._fetcher.fetched_records(partitions, timeout)
return records
if PY_35:
@asyncio.coroutine
def __aiter__(self):
return self
@asyncio.coroutine
def __anext__(self):
return (yield from self.getone())
class AIOKafkaConsumer(object):
"""
A client that consumes records from a Kafka cluster.
The consumer will transparently handle the failure of servers in the Kafka
cluster, and adapt as topic-partitions are created or migrate between
brokers. It also interacts with the assigned kafka Group Coordinator node
to allow multiple consumers to load balance consumption of topics (feature
of kafka >= 0.9.0.0).
.. _create_connection:
https://docs.python.org/3/library/asyncio-eventloop.html\
#creating-connections
Arguments:
*topics (str): optional list of topics to subscribe to. If not set,
call subscribe() or assign() before consuming records. Passing
topics directly is same as calling ``subscribe()`` API.
bootstrap_servers: 'host[:port]' string (or list of 'host[:port]'
strings) that the consumer should contact to bootstrap initial
cluster metadata. This does not have to be the full node list.
It just needs to have at least one broker that will respond to a
Metadata API Request. Default port is 9092. If no servers are
specified, will default to localhost:9092.
client_id (str): a name for this client. This string is passed in
each request to servers and can be used to identify specific
server-side log entries that correspond to this client. Also
submitted to GroupCoordinator for logging with respect to
consumer group administration. Default: 'aiokafka-{version}'
group_id (str or None): name of the consumer group to join for dynamic
partition assignment (if enabled), and to use for fetching and
committing offsets. If None, auto-partition assignment (via
group coordinator) and offset commits are disabled.
Default: None
key_deserializer (callable): Any callable that takes a
raw message key and returns a deserialized key.
value_deserializer (callable, optional): Any callable that takes a
raw message value and returns a deserialized value.
fetch_min_bytes (int): Minimum amount of data the server should
return for a fetch request, otherwise wait up to
fetch_max_wait_ms for more data to accumulate. Default: 1.
fetch_max_wait_ms (int): The maximum amount of time in milliseconds
the server will block before answering the fetch request if
there isn't sufficient data to immediately satisfy the
requirement given by fetch_min_bytes. Default: 500.
max_partition_fetch_bytes (int): The maximum amount of data
per-partition the server will return. The maximum total memory
used for a request = #partitions * max_partition_fetch_bytes.
This size must be at least as large as the maximum message size
the server allows or else it is possible for the producer to
send messages larger than the consumer can fetch. If that
happens, the consumer can get stuck trying to fetch a large
message on a certain partition. Default: 1048576.
max_poll_records (int): The maximum number of records returned in a
single call to ``getmany()``. Defaults ``None``, no limit.
request_timeout_ms (int): Client request timeout in milliseconds.
Default: 40000.
retry_backoff_ms (int): Milliseconds to backoff when retrying on
errors. Default: 100.
auto_offset_reset (str): A policy for resetting offsets on
OffsetOutOfRange errors: 'earliest' will move to the oldest
available message, 'latest' will move to the most recent. Any
ofther value will raise the exception. Default: 'latest'.
enable_auto_commit (bool): If true the consumer's offset will be
periodically committed in the background. Default: True.
auto_commit_interval_ms (int): milliseconds between automatic
offset commits, if enable_auto_commit is True. Default: 5000.
check_crcs (bool): Automatically check the CRC32 of the records
consumed. This ensures no on-the-wire or on-disk corruption to
the messages occurred. This check adds some overhead, so it may
be disabled in cases seeking extreme performance. Default: True
metadata_max_age_ms (int): The period of time in milliseconds after
which we force a refresh of metadata even if we haven't seen any
partition leadership changes to proactively discover any new
brokers or partitions. Default: 300000
partition_assignment_strategy (list): List of objects to use to
distribute partition ownership amongst consumer instances when
group management is used. This preference is implicit in the order
of the strategies in the list. When assignment strategy changes:
to support a change to the assignment strategy, new versions must
enable support both for the old assignment strategy and the new
one. The coordinator will choose the old assignment strategy until
all members have been updated. Then it will choose the new
strategy. Default: [RoundRobinPartitionAssignor]
heartbeat_interval_ms (int): The expected time in milliseconds
between heartbeats to the consumer coordinator when using
Kafka's group management feature. Heartbeats are used to ensure
that the consumer's session stays active and to facilitate
rebalancing when new consumers join or leave the group. The
value must be set lower than session_timeout_ms, but typically
should be set no higher than 1/3 of that value. It can be
adjusted even lower to control the expected time for normal
rebalances. Default: 3000
session_timeout_ms (int): The timeout used to detect failures when
using Kafka's group managementment facilities. Default: 30000
consumer_timeout_ms (int): maximum wait timeout for background fetching
routine. Mostly defines how fast the system will see rebalance and
request new data for new partitions. Default: 200
api_version (str): specify which kafka API version to use.
AIOKafkaConsumer supports Kafka API versions >=0.9 only.
If set to 'auto', will attempt to infer the broker version by
probing various APIs. Default: auto
security_protocol (str): Protocol used to communicate with brokers.
Valid values are: PLAINTEXT, SSL. Default: PLAINTEXT.
ssl_context (ssl.SSLContext): pre-configured SSLContext for wrapping
socket connections. Directly passed into asyncio's
`create_connection`_. For more information see :ref:`ssl_auth`.
Default: None.
exclude_internal_topics (bool): Whether records from internal topics
(such as offsets) should be exposed to the consumer. If set to True
the only way to receive records from an internal topic is
subscribing to it. Requires 0.10+ Default: True
connections_max_idle_ms (int): Close idle connections after the number
of milliseconds specified by this config. Default: 540000 (9hours).
Note:
Many configuration parameters are taken from Java Client:
https://kafka.apache.org/documentation.html#newconsumerconfigs
"""
def __init__(self, *topics, loop,
bootstrap_servers='localhost',
client_id='aiokafka-' + __version__,
group_id=None,
key_deserializer=None, value_deserializer=None,
fetch_max_wait_ms=500,
fetch_min_bytes=1,
max_partition_fetch_bytes=1 * 1024 * 1024,
request_timeout_ms=40 * 1000,
retry_backoff_ms=100,
auto_offset_reset='latest',
enable_auto_commit=True,
auto_commit_interval_ms=5000,
check_crcs=True,
metadata_max_age_ms=5 * 60 * 1000,
partition_assignment_strategy=(RoundRobinPartitionAssignor,),
heartbeat_interval_ms=3000,
session_timeout_ms=30000,
consumer_timeout_ms=200,
max_poll_records=None,
ssl_context=None,
security_protocol='PLAINTEXT',
api_version='auto',
exclude_internal_topics=True,
connections_max_idle_ms=540000):
if api_version not in ('auto', '0.9', '0.10'):
raise ValueError("Unsupported Kafka API version")
self._client = AIOKafkaClient(
loop=loop, bootstrap_servers=bootstrap_servers,
client_id=client_id, metadata_max_age_ms=metadata_max_age_ms,
request_timeout_ms=request_timeout_ms,
retry_backoff_ms=retry_backoff_ms,
api_version=api_version,
ssl_context=ssl_context,
security_protocol=security_protocol,
connections_max_idle_ms=connections_max_idle_ms)
self._group_id = group_id
self._heartbeat_interval_ms = heartbeat_interval_ms
self._retry_backoff_ms = retry_backoff_ms
self._enable_auto_commit = enable_auto_commit
self._auto_commit_interval_ms = auto_commit_interval_ms
self._partition_assignment_strategy = partition_assignment_strategy
self._key_deserializer = key_deserializer
self._value_deserializer = value_deserializer
self._fetch_min_bytes = fetch_min_bytes
self._fetch_max_wait_ms = fetch_max_wait_ms
self._max_partition_fetch_bytes = max_partition_fetch_bytes
self._exclude_internal_topics = exclude_internal_topics
if max_poll_records is not None and (
not isinstance(max_poll_records, int) or max_poll_records < 1):
raise ValueError("`max_poll_records` should be positive Integer")
self._max_poll_records = max_poll_records
self._consumer_timeout = consumer_timeout_ms / 1000
self._check_crcs = check_crcs
self._subscription = SubscriptionState(auto_offset_reset)
self._fetcher = None
self._coordinator = None
self._closed = False
self._loop = loop
# Set for background updates, so we'll finalize them properly. Only
# active tasks are in this set, as done ones are discarded by callback.
self._pending_position_fetches = set([])
if topics:
self._client.set_topics(topics)
self._subscription.subscribe(topics=topics)
@asyncio.coroutine
def start(self):
""" Connect to Kafka cluster. This will:
* Load metadata for all cluster nodes and partition allocation
* Wait for possible topic autocreation
* Join group if ``group_id`` provided
"""
yield from self._client.bootstrap()
yield from self._wait_topics()
if self._client.api_version < (0, 9):
raise ValueError("Unsupported Kafka version: {}".format(
self._client.api_version))
self._fetcher = Fetcher(
self._client, self._subscription, loop=self._loop,
key_deserializer=self._key_deserializer,
value_deserializer=self._value_deserializer,
fetch_min_bytes=self._fetch_min_bytes,
fetch_max_wait_ms=self._fetch_max_wait_ms,
max_partition_fetch_bytes=self._max_partition_fetch_bytes,
check_crcs=self._check_crcs,
fetcher_timeout=self._consumer_timeout)
if self._group_id is not None:
# using group coordinator for automatic partitions assignment
self._coordinator = GroupCoordinator(
self._client, self._subscription, loop=self._loop,
group_id=self._group_id,
heartbeat_interval_ms=self._heartbeat_interval_ms,
retry_backoff_ms=self._retry_backoff_ms,
enable_auto_commit=self._enable_auto_commit,
auto_commit_interval_ms=self._auto_commit_interval_ms,
assignors=self._partition_assignment_strategy,
exclude_internal_topics=self._exclude_internal_topics,
assignment_changed_cb=self._on_change_subscription)
yield from self._coordinator.ensure_active_group()
else:
# Using a simple assignment coordinator for reassignment on
# metadata changes
self._coordinator = NoGroupCoordinator(
self._client, self._subscription, loop=self._loop,
exclude_internal_topics=self._exclude_internal_topics,
assignment_changed_cb=self._on_change_subscription)
# If we passed `topics` to constructor.
if self._subscription.needs_partition_assignment:
yield from self._client.force_metadata_update()
self._coordinator.assign_all_partitions(check_unknown=True)
@asyncio.coroutine
def _wait_topics(self):
if not self._subscription.subscription:
return
for topic in self._subscription.subscription:
yield from self._client._wait_on_metadata(topic)
def assign(self, partitions):
""" Manually assign a list of TopicPartitions to this consumer.
This interface does not support incremental assignment and will
replace the previous assignment (if there was one).
Arguments:
partitions (list of TopicPartition): assignment for this instance.
Raises:
IllegalStateError: if consumer has already called subscribe()
Warning:
It is not possible to use both manual partition assignment with
assign() and group assignment with subscribe().
Note:
Manual topic assignment through this method does not use the
consumer's group management functionality. As such, there will be
**no rebalance operation triggered** when group membership or
cluster and topic metadata change.
"""
self._subscription.assign_from_user(partitions)
self._client.set_topics([tp.topic for tp in partitions])
self._on_change_subscription()
def assignment(self):
""" Get the set of partitions currently assigned to this consumer.
If partitions were directly assigned using ``assign()``, then this will
simply return the same partitions that were previously assigned.
If topics were subscribed using ``subscribe()``, then this will give
the set of topic partitions currently assigned to the consumer (which
may be empty if the assignment hasn't happened yet or if the partitions
are in the process of being reassigned).
Returns:
set: {TopicPartition, ...}
"""
return self._subscription.assigned_partitions()
@asyncio.coroutine
def stop(self):
""" Close the consumer, while waiting for finilizers:
* Commit last consumed message if autocommit enabled
* Leave group if used Consumer Groups
"""
if self._closed:
return
log.debug("Closing the KafkaConsumer.")
self._closed = True
for task in list(self._pending_position_fetches):
task.cancel()
try:
yield from task
except asyncio.CancelledError:
pass
if self._coordinator:
yield from self._coordinator.close()
if self._fetcher:
yield from self._fetcher.close()
yield from self._client.close()
log.debug("The KafkaConsumer has closed.")
@asyncio.coroutine
def commit(self, offsets=None):
""" Commit offsets to Kafka.
This commits offsets only to Kafka. The offsets committed using this
API will be used on the first fetch after every rebalance and also on
startup. As such, if you need to store offsets in anything other than
Kafka, this API should not be used.
Currently only supports kafka-topic offset storage (not zookeeper)
When explicitly passing ``offsets`` use either offset of next record,
or tuple of offset and metadata::
tp = TopicPartition(msg.topic, msg.partition)
metadata = "Some utf-8 metadata"
# Either
await consumer.commit({tp: msg.offset + 1})
# Or position directly
await consumer.commit({tp: (msg.offset + 1, metadata)})
.. note:: If you want `fire and forget` commit, like ``commit_async()``
in *kafka-python*, just run it in a task. Something like::
fut = loop.create_task(consumer.commit())
fut.add_done_callback(on_commit_done)
Arguments:
offsets (dict, optional): {TopicPartition: (offset, metadata)} dict
to commit with the configured ``group_id``. Defaults to current
consumed offsets for all subscribed partitions.
Raises:
IllegalOperation: If used with ``group_id == None``
ValueError: If offsets is of wrong format
KafkaError: If commit failed on broker side. This could be due to
invalid offset, too long metadata, authorization failure, etc.
"""
if self._group_id is None:
raise IllegalOperation("Requires group_id")
if offsets is None:
offsets = self._subscription.all_consumed_offsets()
else:
# validate `offsets` structure
if not offsets or not isinstance(offsets, dict):
raise ValueError(offsets)
formatted_offsets = {}
for tp, offset_and_metadata in offsets.items():
if not isinstance(tp, TopicPartition):
raise ValueError("Key should be TopicPartition instance")
if isinstance(offset_and_metadata, int):
offset, metadata = offset_and_metadata, ""
else:
try:
offset, metadata = offset_and_metadata
except Exception:
raise ValueError(offsets)
if not isinstance(metadata, str):
raise ValueError("Metadata should be a string")
formatted_offsets[tp] = OffsetAndMetadata(offset, metadata)
offsets = formatted_offsets
yield from self._coordinator.commit_offsets(offsets)
@asyncio.coroutine
def committed(self, partition):
""" Get the last committed offset for the given partition. (whether the
commit happened by this process or another).
This offset will be used as the position for the consumer
in the event of a failure.
This call may block to do a remote call if the partition in question
isn't assigned to this consumer or if the consumer hasn't yet
initialized its cache of committed offsets.
Arguments:
partition (TopicPartition): the partition to check
Returns:
The last committed offset, or None if there was no prior commit.
Raises:
IllegalOperation: If used with ``group_id == None``
"""
if self._group_id is None:
raise IllegalOperation("Requires group_id")
if self._subscription.is_assigned(partition):
committed = self._subscription.assignment[partition].committed
if committed is None:
yield from self._coordinator.refresh_committed_offsets()
committed = self._subscription.assignment[partition].committed
else:
commit_map = yield from self._coordinator.fetch_committed_offsets(
[partition])
if partition in commit_map:
committed = commit_map[partition].offset
else:
committed = None
return committed
@asyncio.coroutine
def topics(self):
""" Get all topics the user is authorized to view.
Returns:
set: topics
"""
cluster = yield from self._client.fetch_all_metadata()
return cluster.topics()
def partitions_for_topic(self, topic):
""" Get metadata about the partitions for a given topic.
This method will return `None` if Consumer does not already have
metadata for this topic.
Arguments:
topic (str): topic to check
Returns:
set: partition ids
"""
return self._client.cluster.partitions_for_topic(topic)
@asyncio.coroutine
def position(self, partition):
""" Get the offset of the *next record* that will be fetched (if a
record with that offset exists on broker).
Arguments:
partition (TopicPartition): partition to check
Returns:
int: offset
"""
assert self._subscription.is_assigned(partition), \
'Partition is not assigned'
offset = self._subscription.assignment[partition].position
if offset is None:
yield from self._update_fetch_positions([partition])
offset = self._subscription.assignment[partition].position
return offset
def highwater(self, partition):
""" Last known highwater offset for a partition.
A highwater offset is the offset that will be assigned to the next
message that is produced. It may be useful for calculating lag, by
comparing with the reported position. Note that both position and
highwater refer to the *next* offset – i.e., highwater offset is one
greater than the newest available message.
Highwater offsets are returned as part of ``FetchResponse``, so will
not be available if messages for this partition were not requested yet.
Arguments:
partition (TopicPartition): partition to check
Returns:
int or None: offset if available
"""
assert self._subscription.is_assigned(partition), \
'Partition is not assigned'
return self._subscription.assignment[partition].highwater
def seek(self, partition, offset):
""" Manually specify the fetch offset for a TopicPartition.
Overrides the fetch offsets that the consumer will use on the next
``getmany()``/``getone()`` call. If this API is invoked for the same
partition more than once, the latest offset will be used on the next
fetch.
Note: You may lose data if this API is arbitrarily used in
the middle of consumption to reset the fetch offsets. Ie. `seek()`
does not respect autocommit routine.
Arguments:
partition (TopicPartition): partition for seek operation
offset (int): message offset in partition
Raises:
AssertionError: if offset is not an int >= 0;
or if partition is not currently assigned.
"""
assert isinstance(offset, int) and offset >= 0, 'Offset must be >= 0'
assert partition in self._subscription.assigned_partitions(), \
'Unassigned partition'
log.debug("Seeking to offset %s for partition %s", offset, partition)
self._subscription.assignment[partition].seek(offset)
@asyncio.coroutine
def seek_to_beginning(self, *partitions):
""" Seek to the oldest available offset for partitions.
Arguments:
*partitions: Optionally provide specific TopicPartitions, otherwise
default to all assigned partitions.
Raises:
IllegalStateError: If any partition is not currently assigned
TypeError: If partitions are not instances of TopicPartition
.. versionadded:: 0.3.0
"""
if not all([isinstance(p, TopicPartition) for p in partitions]):
raise TypeError('partitions must be TopicPartition instances')
yield from self._coordinator.ensure_partitions_assigned()
if not partitions:
partitions = self._subscription.assigned_partitions()
assert partitions, 'No partitions are currently assigned'
else:
not_assigned = (
set(partitions) - self._subscription.assigned_partitions()
)
if not_assigned:
raise IllegalStateError(
"Partitions {} are not assigned".format(not_assigned))
for tp in partitions:
log.debug("Seeking to beginning of partition %s", tp)
self._subscription.need_offset_reset(
tp, OffsetResetStrategy.EARLIEST)
yield from self._fetcher.update_fetch_positions(partitions)
@asyncio.coroutine
def seek_to_end(self, *partitions):
"""Seek to the most recent available offset for partitions.
Arguments:
*partitions: Optionally provide specific TopicPartitions, otherwise
default to all assigned partitions.
Raises:
IllegalStateError: If any partition is not currently assigned
TypeError: If partitions are not instances of TopicPartition
.. versionadded:: 0.3.0
"""
if not all([isinstance(p, TopicPartition) for p in partitions]):
raise TypeError('partitions must be TopicPartition instances')
yield from self._coordinator.ensure_partitions_assigned()
if not partitions:
partitions = self._subscription.assigned_partitions()
assert partitions, 'No partitions are currently assigned'
else:
not_assigned = (
set(partitions) - self._subscription.assigned_partitions()
)
if not_assigned:
raise IllegalStateError(
"Partitions {} are not assigned".format(not_assigned))
for tp in partitions:
log.debug("Seeking to end of partition %s", tp)
self._subscription.need_offset_reset(
tp, OffsetResetStrategy.LATEST)
yield from self._fetcher.update_fetch_positions(partitions)
@asyncio.coroutine
def seek_to_committed(self, *partitions):
""" Seek to the committed offset for partitions.
Arguments:
*partitions: Optionally provide specific TopicPartitions, otherwise
default to all assigned partitions.
Raises:
IllegalStateError: If any partition is not currently assigned
IllegalOperation: If used with ``group_id == None``
.. versionchanged:: 0.3.0
Changed AssertionError to IllegalStateError in case of unassigned
partition
"""
if not all([isinstance(p, TopicPartition) for p in partitions]):
raise TypeError('partitions must be TopicPartition instances')
yield from self._coordinator.ensure_partitions_assigned()
if not partitions:
partitions = self._subscription.assigned_partitions()
assert partitions, 'No partitions are currently assigned'
else:
not_assigned = (
set(partitions) - self._subscription.assigned_partitions()
)
if not_assigned:
raise IllegalStateError(
"Partitions {} are not assigned".format(not_assigned))
for tp in partitions:
log.debug("Seeking to committed of partition %s", tp)
offset = yield from self.committed(tp)
if offset and offset > 0:
self.seek(tp, offset)
def subscribe(self, topics=(), pattern=None, listener=None):
""" Subscribe to a list of topics, or a topic regex pattern.
Partitions will be dynamically assigned via a group coordinator.
Topic subscriptions are not incremental: this list will replace the
current assignment (if there is one).
This method is incompatible with ``assign()``.
Arguments:
topics (list): List of topics for subscription.
pattern (str): Pattern to match available topics. You must provide
either topics or pattern, but not both.
listener (ConsumerRebalanceListener): Optionally include listener
callback, which will be called before and after each rebalance
operation.
As part of group management, the consumer will keep track of
the list of consumers that belong to a particular group and
will trigger a rebalance operation if one of the following
events trigger:
* Number of partitions change for any of the subscribed topics
* Topic is created or deleted
* An existing member of the consumer group dies
* A new member is added to the consumer group
When any of these events are triggered, the provided listener
will be invoked first to indicate that the consumer's
assignment has been revoked, and then again when the new
assignment has been received. Note that this listener will
immediately override any listener set in a previous call
to subscribe. It is guaranteed, however, that the partitions
revoked/assigned
through this interface are from topics subscribed in this call.
Raises:
IllegalStateError: if called after previously calling assign()
ValueError: if neither topics or pattern is provided or both
are provided
TypeError: if listener is not a ConsumerRebalanceListener
"""
if not (topics or pattern):
raise ValueError(
"You should provide either `topics` or `pattern`")
if topics and pattern:
raise ValueError(
"You can't provide both `topics` and `pattern`")
if pattern:
try:
re.compile(pattern)
except re.error as err:
raise ValueError(
"{!r} is not a valid pattern: {}".format(pattern, err))
# SubscriptionState handles error checking
self._subscription.subscribe(topics=topics,
pattern=pattern,
listener=listener)
# There's a bug in subscription, that pattern is not unset if we change
# from pattern to simple topic subscription
if not pattern:
self._subscription.subscribed_pattern = None
# regex will need all topic metadata
if pattern is not None:
self._client.set_topics([])
log.debug("Subscribed to topic pattern: %s", pattern)
else:
self._client.set_topics(self._subscription.group_subscription())
log.debug("Subscribed to topic(s): %s", topics)
def subscription(self):
""" Get the current topic subscription.
Returns:
set: {topic, ...}
"""
return frozenset(self._subscription.subscription or [])
def unsubscribe(self):
""" Unsubscribe from all topics and clear all assigned partitions. """
self._subscription.unsubscribe()
self._client.set_topics([])
log.debug(
"Unsubscribed all topics or patterns and assigned partitions")
@asyncio.coroutine
def _update_fetch_positions(self, partitions):
"""
Set the fetch position to the committed position (if there is one)
or reset it using the offset reset policy the user has configured.
Arguments:
partitions (List[TopicPartition]): The partitions that need
updating fetch positions
Raises:
NoOffsetForPartitionError: If no offset is stored for a given
partition and no offset reset policy is defined
"""
if self._group_id is not None:
# refresh commits for all assigned partitions
yield from self._coordinator.refresh_committed_offsets()
# then do any offset lookups in case some positions are not known
yield from self._fetcher.update_fetch_positions(partitions)
def _on_change_subscription(self):
""" This is `group rebalanced` signal handler used to update fetch
positions of assigned partitions
"""
if self._closed: # pragma: no cover
return
# fetch positions if we have partitions we're subscribed
# to that we don't know the offset for
if not self._subscription.has_all_fetch_positions():
task = ensure_future(
self._update_fetch_positions(
self._subscription.missing_fetch_positions()),
loop=self._loop
)
self._pending_position_fetches.add(task)
def on_done(fut, tasks=self._pending_position_fetches):
tasks.discard(fut)
try:
fut.result()
except Exception as err: # pragma: no cover
log.error("Failed to update fetch positions: %r", err)
task.add_done_callback(on_done)
@asyncio.coroutine
def getone(self, *partitions):
"""
Get one message from Kafka.
If no new messages prefetched, this method will wait for it.
Arguments:
partitions (List[TopicPartition]): Optional list of partitions to
return from. If no partitions specified then returned message
will be from any partition, which consumer is subscribed to.
Returns:
ConsumerRecord
Will return instance of
.. code:: python
collections.namedtuple(
"ConsumerRecord",
["topic", "partition", "offset", "key", "value"])
Example usage:
.. code:: python
while True:
message = yield from consumer.getone()
topic = message.topic
partition = message.partition
# Process message
print(message.offset, message.key, message.value)
"""
assert all(map(lambda k: isinstance(k, TopicPartition), partitions))
if self._closed:
raise ConsumerStoppedError()
msg = yield from self._fetcher.next_record(partitions)
return msg
@asyncio.coroutine
def getmany(self, *partitions, timeout_ms=0, max_records=None):
"""Get messages from assigned topics / partitions.
Prefetched messages are returned in batches by topic-partition.
If messages is not available in the prefetched buffer this method waits
`timeout_ms` milliseconds.
Arguments:
partitions (List[TopicPartition]): The partitions that need
fetching message. If no one partition specified then all
subscribed partitions will be used
timeout_ms (int, optional): milliseconds spent waiting if
data is not available in the buffer. If 0, returns immediately
with any records that are available currently in the buffer,
else returns empty. Must not be negative. Default: 0
Returns:
dict: topic to list of records since the last fetch for the
subscribed list of topics and partitions
Example usage:
.. code:: python
data = yield from consumer.getmany()
for tp, messages in data.items():
topic = tp.topic
partition = tp.partition
for message in messages:
# Process message
print(message.offset, message.key, message.value)
"""
assert all(map(lambda k: isinstance(k, TopicPartition), partitions))
if self._closed:
raise ConsumerStoppedError()
if max_records is not None and (
not isinstance(max_records, int) or max_records < 1):
raise ValueError("`max_records` must be a positive Integer")
timeout = timeout_ms / 1000
records = yield from self._fetcher.fetched_records(
partitions, timeout,
max_records=max_records or self._max_poll_records)
return records
if PY_35:
@asyncio.coroutine
def __aiter__(self):
if self._closed:
raise ConsumerStoppedError()
return self
@asyncio.coroutine
def __anext__(self):
"""Asyncio iterator interface for consumer
Note:
TopicAuthorizationFailedError and OffsetOutOfRangeError
exceptions can be raised in iterator.
All other KafkaError exceptions will be logged and not raised
"""
while True:
try:
return (yield from self.getone())
except ConsumerStoppedError:
raise StopAsyncIteration # noqa: F821
except (TopicAuthorizationFailedError,
OffsetOutOfRangeError) as err:
raise err
except KafkaError as err:
log.error("error in consumer iterator: %s", err)