"""Monitor using datadog."""
import re
from typing import Any, Dict, List, Optional, Pattern, cast
from mode.utils.objects import cached_property
from faust import web
from faust.exceptions import ImproperlyConfigured
from faust.sensors.monitor import Monitor, TPOffsetMapping
from faust.types import (
AppT,
CollectionT,
EventT,
Message,
PendingMessage,
RecordMetadata,
StreamT,
TP,
)
from faust.types.assignor import PartitionAssignorT
from faust.types.transports import ConsumerT, ProducerT
try:
import datadog
from datadog.dogstatsd import DogStatsd
except ImportError: # pragma: no cover
datadog = None
class DogStatsD: ... # noqa
__all__ = ['DatadogMonitor']
# This regular expression is used to generate stream ids in Statsd.
# It converts for example
# 'Stream: <Topic: withdrawals>'
# -> 'Stream_Topic_withdrawals'
#
# See StatsdMonitor._normalize()
RE_NORMALIZE = re.compile(r'[\<\>:\s]+')
RE_NORMALIZE_SUBSTITUTION = '_'
class DatadogStatsClient:
"""Statsd compliant datadog client."""
def __init__(self,
host: str = 'localhost',
port: int = 8125,
prefix: str = 'faust-app',
rate: float = 1.0,
**kwargs: Any) -> None:
self.client = DogStatsd(
host=host,
port=port,
namespace=prefix,
**kwargs)
self.rate = rate
self.sanitize_re = re.compile(r'[^0-9a-zA-Z_]')
self.re_substitution = '_'
def gauge(self, metric: str, value: float, labels: Dict = None) -> None:
self.client.gauge(
metric,
value=value,
tags=self._encode_labels(labels),
sample_rate=self.rate,
)
def increment(self,
metric: str,
value: float = 1.0,
labels: Dict = None) -> None:
self.client.increment(
metric,
value=value,
tags=self._encode_labels(labels),
sample_rate=self.rate,
)
def incr(self, metric: str, count: int = 1) -> None:
"""Statsd compatibility."""
self.increment(metric, value=count)
def decrement(self,
metric: str,
value: float = 1.0,
labels: Dict = None) -> float:
return self.client.decrement(
metric,
value=value,
tags=self._encode_labels(labels),
sample_rate=self.rate,
)
def decr(self, metric: str, count: float = 1.0) -> None:
"""Statsd compatibility."""
self.decrement(metric, value=count)
def timing(self, metric: str, value: float, labels: Dict = None) -> None:
self.client.timing(
metric,
value=value,
tags=self._encode_labels(labels),
sample_rate=self.rate,
)
def timed(self,
metric: str = None,
labels: Dict = None,
use_ms: bool = None) -> float:
return self.client.timed(
metric=metric,
tags=self._encode_labels(labels),
sample_rate=self.rate,
use_ms=use_ms,
)
def histogram(self, metric: str, value: float,
labels: Dict = None) -> None:
self.client.histogram(
metric,
value=value,
tags=self._encode_labels(labels),
sample_rate=self.rate,
)
def _encode_labels(self, labels: Optional[Dict]) -> Optional[List[str]]:
def sanitize(s: str) -> str:
return self.sanitize_re.sub(self.re_substitution, str(s))
return [f'{sanitize(k)}:{sanitize(v)}'
for k, v in labels.items()] if labels else None
[docs]class DatadogMonitor(Monitor):
"""Datadog Faust Sensor.
This sensor, records statistics to datadog agents along
with computing metrics for the stats server
"""
host: str
port: int
prefix: str
def __init__(self,
host: str = 'localhost',
port: int = 8125,
prefix: str = 'faust-app',
rate: float = 1.0,
**kwargs: Any) -> None:
self.host = host
self.port = port
self.prefix = prefix
self.rate = rate
if datadog is None:
raise ImproperlyConfigured(
f'{type(self).__name__} requires `pip install datadog`.')
super().__init__(**kwargs)
def _new_datadog_stats_client(self) -> DatadogStatsClient:
return DatadogStatsClient(
host=self.host, port=self.port, prefix=self.prefix, rate=self.rate)
[docs] def on_message_in(self, tp: TP, offset: int, message: Message) -> None:
"""Call before message is delegated to streams."""
super().on_message_in(tp, offset, message)
labels = self._format_label(tp)
self.client.increment('messages_received', labels=labels)
self.client.increment('messages_active', labels=labels)
self.client.increment(
'topic_messages_received',
labels={'topic': tp.topic},
)
self.client.gauge('read_offset', offset, labels=labels)
[docs] def on_stream_event_in(self, tp: TP, offset: int, stream: StreamT,
event: EventT) -> Optional[Dict]:
"""Call when stream starts processing an event."""
state = super().on_stream_event_in(tp, offset, stream, event)
labels = self._format_label(tp, stream)
self.client.increment('events', labels=labels)
self.client.increment('events_active', labels=labels)
return state
[docs] def on_stream_event_out(self, tp: TP, offset: int, stream: StreamT,
event: EventT, state: Dict = None) -> None:
"""Call when stream is done processing an event."""
super().on_stream_event_out(tp, offset, stream, event, state)
labels = self._format_label(tp, stream)
self.client.decrement('events_active', labels=labels)
self.client.timing(
'events_runtime',
self.secs_to_ms(self.events_runtime[-1]),
labels=labels,
)
[docs] def on_message_out(self,
tp: TP,
offset: int,
message: Message) -> None:
"""Call when message is fully acknowledged and can be committed."""
super().on_message_out(tp, offset, message)
self.client.decrement('messages_active',
labels=self._format_label(tp))
[docs] def on_table_get(self, table: CollectionT, key: Any) -> None:
"""Call when value in table is retrieved."""
super().on_table_get(table, key)
self.client.increment(
'table_keys_retrieved',
labels=self._format_label(table=table),
)
[docs] def on_table_set(self, table: CollectionT, key: Any, value: Any) -> None:
"""Call when new value for key in table is set."""
super().on_table_set(table, key, value)
self.client.increment(
'table_keys_updated',
labels=self._format_label(table=table),
)
[docs] def on_table_del(self, table: CollectionT, key: Any) -> None:
"""Call when key in a table is deleted."""
super().on_table_del(table, key)
self.client.increment(
'table_keys_deleted',
labels=self._format_label(table=table),
)
[docs] def on_commit_completed(self, consumer: ConsumerT, state: Any) -> None:
"""Call when consumer commit offset operation completed."""
super().on_commit_completed(consumer, state)
self.client.timing(
'commit_latency',
self.ms_since(cast(float, state)),
)
[docs] def on_send_initiated(self, producer: ProducerT, topic: str,
message: PendingMessage,
keysize: int, valsize: int) -> Any:
"""Call when message added to producer buffer."""
self.client.increment(
'topic_messages_sent',
labels={'topic': topic},
)
return super().on_send_initiated(
producer, topic, message, keysize, valsize)
[docs] def on_send_completed(self,
producer: ProducerT,
state: Any,
metadata: RecordMetadata) -> None:
"""Call when producer finished sending message."""
super().on_send_completed(producer, state, metadata)
self.client.increment('messages_sent')
self.client.timing(
'send_latency',
self.ms_since(cast(float, state)),
)
[docs] def on_send_error(self,
producer: ProducerT,
exc: BaseException,
state: Any) -> None:
"""Call when producer was unable to publish message."""
super().on_send_error(producer, exc, state)
self.client.increment('messages_send_failed')
self.client.timing(
'send_latency_for_error',
self.ms_since(cast(float, state)),
)
[docs] def on_assignment_error(self,
assignor: PartitionAssignorT,
state: Dict,
exc: BaseException) -> None:
"""Partition assignor did not complete assignor due to error."""
super().on_assignment_error(assignor, state, exc)
self.client.increment('assignments_error')
self.client.timing(
'assignment_latency',
self.ms_since(state['time_start']),
)
[docs] def on_assignment_completed(self,
assignor: PartitionAssignorT,
state: Dict) -> None:
"""Partition assignor completed assignment."""
super().on_assignment_completed(assignor, state)
self.client.increment('assignments_complete')
self.client.timing(
'assignment_latency',
self.ms_since(state['time_start']),
)
[docs] def on_rebalance_start(self, app: AppT) -> Dict:
"""Cluster rebalance in progress."""
state = super().on_rebalance_start(app)
self.client.increment('rebalances')
return state
[docs] def on_rebalance_return(self, app: AppT, state: Dict) -> None:
"""Consumer replied assignment is done to broker."""
super().on_rebalance_return(app, state)
self.client.decrement('rebalances')
self.client.increment('rebalances_recovering')
self.client.timing(
'rebalance_return_latency',
self.ms_since(state['time_return']))
[docs] def on_rebalance_end(self, app: AppT, state: Dict) -> None:
"""Cluster rebalance fully completed (including recovery)."""
super().on_rebalance_end(app, state)
self.client.decrement('rebalances_recovering')
self.client.timing(
'rebalance_end_latency',
self.ms_since(state['time_end']))
[docs] def count(self, metric_name: str, count: int = 1) -> None:
"""Count metric by name."""
super().count(metric_name, count=count)
self.client.increment(metric_name, value=count)
[docs] def on_tp_commit(self, tp_offsets: TPOffsetMapping) -> None:
"""Call when offset in topic partition is committed."""
super().on_tp_commit(tp_offsets)
for tp, offset in tp_offsets.items():
self.client.gauge('committed_offset', offset,
labels=self._format_label(tp))
[docs] def track_tp_end_offset(self, tp: TP, offset: int) -> None:
"""Track new topic partition end offset for monitoring lags."""
super().track_tp_end_offset(tp, offset)
self.client.gauge('end_offset', offset, labels=self._format_label(tp))
[docs] def on_web_request_end(self,
app: AppT,
request: web.Request,
response: Optional[web.Response],
state: Dict,
*,
view: web.View = None) -> None:
"""Web server finished working on request."""
super().on_web_request_end(app, request, response, state, view=view)
status_code = int(state['status_code'])
self.client.increment(f'http_status_code.{status_code}')
self.client.timing(
'http_response_latency',
self.ms_since(state['time_end']))
def _normalize(self, name: str,
*,
pattern: Pattern = RE_NORMALIZE,
substitution: str = RE_NORMALIZE_SUBSTITUTION) -> str:
return pattern.sub(substitution, name)
def _format_label(self, tp: Optional[TP] = None,
stream: Optional[StreamT] = None,
table: Optional[CollectionT] = None) -> Dict:
labels = {}
if tp is not None:
labels.update(self._format_tp_label(tp))
if stream is not None:
labels.update(self._format_stream_label(stream))
if table is not None:
labels.update(self._format_table_label(table))
return labels
def _format_tp_label(self, tp: TP) -> Dict:
return {'topic': tp.topic, 'partition': tp.partition}
def _format_stream_label(self, stream: StreamT) -> Dict:
return {'stream': self._stream_label(stream)}
def _stream_label(self, stream: StreamT) -> str:
return self._normalize(
stream.shortlabel.lstrip('Stream:'),
).strip('_').lower()
def _format_table_label(self, table: CollectionT) -> Dict:
return {'table': table.name}
[docs] @cached_property
def client(self) -> DatadogStatsClient:
"""Return the datadog client."""
return self._new_datadog_stats_client()