"""Base class Collection for Table and future data structures."""
import abc
import time
from contextlib import suppress
from collections import defaultdict
from datetime import datetime
from heapq import heappop, heappush
from typing import (
Any,
Callable,
Iterable,
Iterator,
List,
Mapping,
MutableMapping,
MutableSet,
Optional,
Set,
Union,
cast,
no_type_check,
)
from mode import Seconds, Service
from yarl import URL
from faust import stores
from faust import joins
from faust.exceptions import PartitionsMismatch
from faust.streams import current_event
from faust.types import (
AppT,
CodecArg,
EventT,
FieldDescriptorT,
FutureMessage,
JoinT,
RecordMetadata,
TP,
TopicT,
)
from faust.types.models import ModelArg, ModelT
from faust.types.stores import StoreT
from faust.types.streams import JoinableT, StreamT
from faust.types.tables import (
ChangelogEventCallback,
CollectionT,
RecoverCallback,
RelativeHandler,
)
from faust.types.windows import WindowRange, WindowT
__all__ = ['Collection']
TABLE_CLEANING = 'CLEANING'
E_SOURCE_PARTITIONS_MISMATCH = '''\
The source topic {source_topic!r} for table {table_name!r}
has {source_n} partitions, but the changelog
topic {change_topic!r} has {change_n} partitions.
Please make sure the topics have the same number of partitions
by configuring Kafka correctly.
'''
[docs]class Collection(Service, CollectionT):
"""Base class for changelog-backed data structures stored in Kafka."""
_store: Optional[URL]
_changelog_topic: Optional[TopicT]
_partition_timestamp_keys: MutableMapping[tuple, MutableSet]
_partition_timestamps: MutableMapping[int, List[float]]
_partition_latest_timestamp: MutableMapping[int, float]
_recover_callbacks: MutableSet[RecoverCallback]
_data: Optional[StoreT] = None
_changelog_compacting: Optional[bool] = True
_changelog_deleting: Optional[bool] = None
@abc.abstractmethod
def _has_key(self, key: Any) -> bool: # pragma: no cover
...
@abc.abstractmethod
def _get_key(self, key: Any) -> Any: # pragma: no cover
...
@abc.abstractmethod
def _set_key(self, key: Any, value: Any) -> None: # pragma: no cover
...
@abc.abstractmethod
def _del_key(self, key: Any) -> None: # pragma: no cover
...
def __init__(self,
app: AppT,
*,
name: str = None,
default: Callable[[], Any] = None,
store: Union[str, URL] = None,
key_type: ModelArg = None,
value_type: ModelArg = None,
partitions: int = None,
window: WindowT = None,
changelog_topic: TopicT = None,
help: str = None,
on_recover: RecoverCallback = None,
on_changelog_event: ChangelogEventCallback = None,
recovery_buffer_size: int = 1000,
standby_buffer_size: int = None,
extra_topic_configs: Mapping[str, Any] = None,
recover_callbacks: Set[RecoverCallback] = None,
options: Mapping[str, Any] = None,
**kwargs: Any) -> None:
Service.__init__(self, **kwargs)
self.app = app
self.name = cast(str, name) # set lazily so CAN BE NONE!
self.default = default
self._store = URL(store) if store else None
self.key_type = key_type
self.value_type = value_type
self.partitions = partitions
self.window = window
self._changelog_topic = changelog_topic
self.extra_topic_configs = extra_topic_configs or {}
self.help = help or ''
self._on_changelog_event = on_changelog_event
self.recovery_buffer_size = recovery_buffer_size
self.standby_buffer_size = standby_buffer_size or recovery_buffer_size
assert self.recovery_buffer_size > 0 and self.standby_buffer_size > 0
self.options = options
# Setting Serializers from key_type and value_type
# Possible values json and raw
# Fallback to json
self.key_serializer = self._serializer_from_type(self.key_type)
self.value_serializer = self._serializer_from_type(self.value_type)
# Table key expiration
self._partition_timestamp_keys = defaultdict(set)
self._partition_timestamps = defaultdict(list)
self._partition_latest_timestamp = defaultdict(int)
self._recover_callbacks = set(recover_callbacks or [])
if on_recover:
self.on_recover(on_recover)
# Aliases
self._sensor_on_get = self.app.sensors.on_table_get
self._sensor_on_set = self.app.sensors.on_table_set
self._sensor_on_del = self.app.sensors.on_table_del
def _serializer_from_type(
self, typ: Optional[ModelArg]) -> Optional[CodecArg]:
if typ is bytes:
return 'raw'
serializer = None
with suppress(AttributeError):
serializer = typ._options.serializer # type: ignore
return serializer or 'json'
def __hash__(self) -> int:
# We have to override MutableMapping __hash__, so that this table
# can be registered in the app.tables mapping.
return object.__hash__(self)
def _new_store(self) -> StoreT:
return self._new_store_by_url(self._store or self.app.conf.store)
def _new_store_by_url(self, url: Union[str, URL]) -> StoreT:
return cast(StoreT, stores.by_url(url)(
url, self.app, self,
table_name=self.name,
key_type=self.key_type,
key_serializer=self.key_serializer,
value_serializer=self.value_serializer,
value_type=self.value_type,
loop=self.loop,
options=self.options,
))
@property # type: ignore
@no_type_check # XXX https://github.com/python/mypy/issues/4125
def data(self) -> StoreT:
"""Underlying table storage."""
if self._data is None:
self._data = self._new_store()
return self._data
async def on_start(self) -> None:
"""Call when table starts."""
await self.add_runtime_dependency(self.data)
await self.changelog_topic.maybe_declare()
[docs] def on_recover(self, fun: RecoverCallback) -> RecoverCallback:
"""Add function as callback to be called on table recovery."""
assert fun not in self._recover_callbacks
self._recover_callbacks.add(fun)
return fun
[docs] def info(self) -> Mapping[str, Any]:
"""Return table attributes as dictionary."""
# Used to recreate object in .clone()
return {
'app': self.app,
'name': self.name,
'default': self.default,
'store': self._store,
'key_type': self.key_type,
'value_type': self.value_type,
'partitions': self.partitions,
'window': self.window,
'changelog_topic': self._changelog_topic,
'recover_callbacks': self._recover_callbacks,
'on_changelog_event': self._on_changelog_event,
'recovery_buffer_size': self.recovery_buffer_size,
'standby_buffer_size': self.standby_buffer_size,
'extra_topic_configs': self.extra_topic_configs,
}
[docs] def persisted_offset(self, tp: TP) -> Optional[int]:
"""Return the last persisted offset for topic partition."""
return self.data.persisted_offset(tp)
async def need_active_standby_for(self, tp: TP) -> bool:
"""Return :const:`False` if we have access to partition data."""
return await self.data.need_active_standby_for(tp)
[docs] def reset_state(self) -> None:
"""Reset local state."""
self.data.reset_state()
def _send_changelog(self,
event: Optional[EventT],
key: Any,
value: Any,
key_serializer: CodecArg = None,
value_serializer: CodecArg = None) -> None:
if event is None:
raise RuntimeError('Cannot modify table outside of agent/stream.')
self._verify_source_topic_partitions(event)
if key_serializer is None:
key_serializer = self.key_serializer
if value_serializer is None:
value_serializer = self.value_serializer
self.changelog_topic.send_soon(
key=key,
value=value,
partition=event.message.partition,
key_serializer=key_serializer,
value_serializer=value_serializer,
callback=self._on_changelog_sent,
)
def _verify_source_topic_partitions(self, event: EventT) -> None:
source_topic = event.message.topic
change_topic = self.changelog_topic.get_topic_name()
source_n = self.app.consumer.topic_partitions(source_topic)
if source_n is not None:
change_n = self.app.consumer.topic_partitions(change_topic)
if change_n is not None:
if source_n != change_n:
raise PartitionsMismatch(
E_SOURCE_PARTITIONS_MISMATCH.format(
source_topic=source_topic,
table_name=self.name,
source_n=source_n,
change_topic=change_topic,
change_n=change_n,
),
)
def _on_changelog_sent(self, fut: FutureMessage) -> None:
# This is what keeps the offset in RocksDB so that at startup
# we know what offsets we already have data for in the database.
#
# Kafka Streams has a global ".checkpoint" file, but we store
# it in each individual RocksDB database file.
# Every partition in the table will have its own database file,
# this is required as partitions can easily move from and to
# machine as nodes die and recover.
res: RecordMetadata = fut.result()
if self.app.in_transaction:
# for exactly-once semantics we only write the
# persisted offset to RocksDB on disk when that partition
# is committed.
self.app.tables.persist_offset_on_commit(
self.data, res.topic_partition, res.offset)
else:
# for normal processing (at-least-once) we just write
# the persisted offset immediately.
self.data.set_persisted_offset(res.topic_partition, res.offset)
@Service.task
@Service.transitions_to(TABLE_CLEANING)
async def _clean_data(self) -> None:
interval = self.app.conf.table_cleanup_interval
if self._should_expire_keys():
await self.sleep(interval)
async for sleep_time in self.itertimer(
interval, name='table_cleanup'):
self._del_old_keys()
def _del_old_keys(self) -> None:
window = cast(WindowT, self.window)
assert window
for partition, timestamps in self._partition_timestamps.items():
while timestamps and window.stale(
timestamps[0],
self._partition_latest_timestamp[partition]):
timestamp = heappop(timestamps)
keys_to_remove = self._partition_timestamp_keys.pop(
(partition, timestamp), None)
if keys_to_remove:
for key in keys_to_remove:
self.data.pop(key, None)
def _should_expire_keys(self) -> bool:
window = self.window
return not (window is None or window.expires is None)
def _maybe_set_key_ttl(self, key: Any, partition: int) -> None:
if not self._should_expire_keys():
return
_, window_range = key
_, range_end = window_range
heappush(self._partition_timestamps[partition], range_end)
self._partition_latest_timestamp[partition] = max(
self._partition_latest_timestamp[partition], range_end)
self._partition_timestamp_keys[(partition, range_end)].add(key)
def _maybe_del_key_ttl(self, key: Any, partition: int) -> None:
if not self._should_expire_keys():
return
_, window_range = key
ts_keys = self._partition_timestamp_keys.get(
(partition, window_range[1]))
if ts_keys is not None:
ts_keys.discard(key)
def _changelog_topic_name(self) -> str:
return f'{self.app.conf.id}-{self.name}-changelog'
[docs] def join(self, *fields: FieldDescriptorT) -> StreamT:
"""Right join of this table and another stream/table."""
return self._join(joins.RightJoin(stream=self, fields=fields))
[docs] def left_join(self, *fields: FieldDescriptorT) -> StreamT:
"""Left join of this table and another stream/table."""
return self._join(joins.LeftJoin(stream=self, fields=fields))
[docs] def inner_join(self, *fields: FieldDescriptorT) -> StreamT:
"""Inner join of this table and another stream/table."""
return self._join(joins.InnerJoin(stream=self, fields=fields))
[docs] def outer_join(self, *fields: FieldDescriptorT) -> StreamT:
"""Outer join of this table and another stream/table."""
return self._join(joins.OuterJoin(stream=self, fields=fields))
def _join(self, join_strategy: JoinT) -> StreamT:
# TODO
raise NotImplementedError('TODO')
[docs] def clone(self, **kwargs: Any) -> Any:
"""Clone table instance."""
return self.__class__(**{**self.info(), **kwargs})
[docs] def combine(self, *nodes: JoinableT, **kwargs: Any) -> StreamT:
"""Combine tables and streams."""
# TODO
raise NotImplementedError('TODO')
[docs] def contribute_to_stream(self, active: StreamT) -> None:
"""Contribute table to stream join."""
# TODO See Stream.contribute_to_stream()
# Should probably connect to Table changelog.
...
async def remove_from_stream(self, stream: StreamT) -> None:
"""Remove table from stream join after stream stopped."""
# TODO See Stream.remove_from_stream()
# Should stop any services started to support joining this table
# with one or more streams.
...
def _new_changelog_topic(self,
*,
retention: Seconds = None,
compacting: bool = None,
deleting: bool = None) -> TopicT:
if compacting is None:
compacting = self._changelog_compacting
if deleting is None:
deleting = self._changelog_deleting
if retention is None and self.window:
retention = self.window.expires
return self.app.topic(
self._changelog_topic_name(),
key_type=self.key_type,
value_type=self.value_type,
key_serializer=self.key_serializer,
value_serializer=self.value_serializer,
partitions=self.partitions,
retention=retention,
compacting=compacting,
deleting=deleting,
acks=False,
internal=True,
config=self.extra_topic_configs,
# use large buffer size as we do not commit attached messages
# when reading changelog streams.
maxsize=131_072,
allow_empty=True,
)
def __copy__(self) -> Any:
return self.clone()
def __and__(self, other: Any) -> Any:
return self.combine(self, other)
def _apply_window_op(self, op: Callable[[Any, Any], Any], key: Any,
value: Any, timestamp: float) -> None:
get_ = self._get_key
set_ = self._set_key
for window_range in self._window_ranges(timestamp):
set_((key, window_range), op(get_((key, window_range)), value))
def _set_windowed(self, key: Any, value: Any, timestamp: float) -> None:
for window_range in self._window_ranges(timestamp):
self._set_key((key, window_range), value)
def _del_windowed(self, key: Any, timestamp: float) -> None:
for window_range in self._window_ranges(timestamp):
self._del_key((key, window_range))
def _window_ranges(self, timestamp: float) -> Iterator[WindowRange]:
window = cast(WindowT, self.window)
for window_range in window.ranges(timestamp):
yield window_range
def _relative_now(self, event: EventT = None) -> float:
# get current timestamp
event = event if event is not None else current_event()
if event is None:
return time.time()
return self._partition_latest_timestamp[event.message.partition]
def _relative_event(self, event: EventT = None) -> float:
event = event if event is not None else current_event()
# get event timestamp
if event is None:
raise RuntimeError('Operation outside of stream iteration')
return event.message.timestamp
def _relative_field(self, field: FieldDescriptorT) -> RelativeHandler:
def to_value(event: EventT = None) -> Union[float, datetime]:
if event is None:
raise RuntimeError('Operation outside of stream iteration')
return field.getattr(cast(ModelT, event.value))
return to_value
def _relative_timestamp(self, timestamp: float) -> RelativeHandler:
def handler(event: EventT = None) -> Union[float, datetime]:
return timestamp
return handler
def _windowed_now(self, key: Any) -> Any:
window = cast(WindowT, self.window)
return self._get_key((key, window.earliest(self._relative_now())))
def _windowed_timestamp(self, key: Any, timestamp: float) -> Any:
window = cast(WindowT, self.window)
return self._get_key((key, window.current(timestamp)))
def _windowed_contains(self, key: Any, timestamp: float) -> bool:
window = cast(WindowT, self.window)
return self._has_key((key, window.current(timestamp)))
def _windowed_delta(self, key: Any, d: Seconds,
event: EventT = None) -> Any:
window = cast(WindowT, self.window)
return self._get_key(
(key,
window.delta(self._relative_event(event), d)),
)
async def on_rebalance(self,
assigned: Set[TP],
revoked: Set[TP],
newly_assigned: Set[TP]) -> None:
"""Call when cluster is rebalancing."""
await self.data.on_rebalance(self, assigned, revoked, newly_assigned)
async def on_recovery_completed(self,
active_tps: Set[TP],
standby_tps: Set[TP]) -> None:
"""Call when recovery has completed after rebalancing."""
await self.data.on_recovery_completed(active_tps, standby_tps)
await self.call_recover_callbacks()
async def call_recover_callbacks(self) -> None:
"""Call any configured recovery callbacks after rebalancing."""
for fun in self._recover_callbacks:
await fun()
async def on_changelog_event(self, event: EventT) -> None:
"""Call when a new changelog event is received."""
if self._on_changelog_event:
await self._on_changelog_event(event)
@property
def label(self) -> str:
"""Return human-readable label used to represent this table."""
return f'{self.shortlabel}@{self._store}'
@property
def shortlabel(self) -> str:
"""Return short label used to represent this table in logs."""
return f'{type(self).__name__}: {self.name}'
@property
def changelog_topic(self) -> TopicT:
"""Return the changelog topic used by this table."""
if self._changelog_topic is None:
self._changelog_topic = self._new_changelog_topic()
return self._changelog_topic
@changelog_topic.setter
def changelog_topic(self, topic: TopicT) -> None:
self._changelog_topic = topic
[docs] def apply_changelog_batch(self, batch: Iterable[EventT]) -> None:
"""Apply batch of events from changelog topic local table storage."""
self.data.apply_changelog_batch(
batch,
to_key=self._to_key,
to_value=self._to_value,
)
def _to_key(self, k: Any) -> Any:
if isinstance(k, list):
# Lists are not hashable, and windowed-keys are json
# serialized into a list.
return tuple(tuple(v) if isinstance(v, list) else v for v in k)
return k
def _to_value(self, v: Any) -> Any:
return v
def _human_channel(self) -> str:
return f'{type(self).__name__}: {self.name}'
def _repr_info(self) -> str:
return self.name
