synapse-product/synapse/logging/_terse_json.py
2019-11-12 13:12:25 +00:00

281 lines
9.5 KiB
Python

# -*- coding: utf-8 -*-
# Copyright 2019 The Matrix.org Foundation C.I.C.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""
Log formatters that output terse JSON.
"""
import sys
from collections import deque
from ipaddress import IPv4Address, IPv6Address, ip_address
from math import floor
from typing import IO
import attr
from simplejson import dumps
from zope.interface import implementer
from twisted.application.internet import ClientService
from twisted.internet.endpoints import (
HostnameEndpoint,
TCP4ClientEndpoint,
TCP6ClientEndpoint,
)
from twisted.internet.protocol import Factory, Protocol
from twisted.logger import FileLogObserver, ILogObserver, Logger
from twisted.python.failure import Failure
def flatten_event(event: dict, metadata: dict, include_time: bool = False):
"""
Flatten a Twisted logging event to an dictionary capable of being sent
as a log event to a logging aggregation system.
The format is vastly simplified and is not designed to be a "human readable
string" in the sense that traditional logs are. Instead, the structure is
optimised for searchability and filtering, with human-understandable log
keys.
Args:
event (dict): The Twisted logging event we are flattening.
metadata (dict): Additional data to include with each log message. This
can be information like the server name. Since the target log
consumer does not know who we are other than by host IP, this
allows us to forward through static information.
include_time (bool): Should we include the `time` key? If False, the
event time is stripped from the event.
"""
new_event = {}
# If it's a failure, make the new event's log_failure be the traceback text.
if "log_failure" in event:
new_event["log_failure"] = event["log_failure"].getTraceback()
# If it's a warning, copy over a string representation of the warning.
if "warning" in event:
new_event["warning"] = str(event["warning"])
# Stdlib logging events have "log_text" as their human-readable portion,
# Twisted ones have "log_format". For now, include the log_format, so that
# context only given in the log format (e.g. what is being logged) is
# available.
if "log_text" in event:
new_event["log"] = event["log_text"]
else:
new_event["log"] = event["log_format"]
# We want to include the timestamp when forwarding over the network, but
# exclude it when we are writing to stdout. This is because the log ingester
# (e.g. logstash, fluentd) can add its own timestamp.
if include_time:
new_event["time"] = round(event["log_time"], 2)
# Convert the log level to a textual representation.
new_event["level"] = event["log_level"].name.upper()
# Ignore these keys, and do not transfer them over to the new log object.
# They are either useless (isError), transferred manually above (log_time,
# log_level, etc), or contain Python objects which are not useful for output
# (log_logger, log_source).
keys_to_delete = [
"isError",
"log_failure",
"log_format",
"log_level",
"log_logger",
"log_source",
"log_system",
"log_time",
"log_text",
"observer",
"warning",
]
# If it's from the Twisted legacy logger (twisted.python.log), it adds some
# more keys we want to purge.
if event.get("log_namespace") == "log_legacy":
keys_to_delete.extend(["message", "system", "time"])
# Rather than modify the dictionary in place, construct a new one with only
# the content we want. The original event should be considered 'frozen'.
for key in event.keys():
if key in keys_to_delete:
continue
if isinstance(event[key], (str, int, bool, float)) or event[key] is None:
# If it's a plain type, include it as is.
new_event[key] = event[key]
else:
# If it's not one of those basic types, write out a string
# representation. This should probably be a warning in development,
# so that we are sure we are only outputting useful data.
new_event[key] = str(event[key])
# Add the metadata information to the event (e.g. the server_name).
new_event.update(metadata)
return new_event
def TerseJSONToConsoleLogObserver(outFile: IO[str], metadata: dict) -> FileLogObserver:
"""
A log observer that formats events to a flattened JSON representation.
Args:
outFile: The file object to write to.
metadata: Metadata to be added to each log object.
"""
def formatEvent(_event: dict) -> str:
flattened = flatten_event(_event, metadata)
return dumps(flattened, ensure_ascii=False, separators=(",", ":")) + "\n"
return FileLogObserver(outFile, formatEvent)
@attr.s
@implementer(ILogObserver)
class TerseJSONToTCPLogObserver(object):
"""
An IObserver that writes JSON logs to a TCP target.
Args:
hs (HomeServer): The homeserver that is being logged for.
host: The host of the logging target.
port: The logging target's port.
metadata: Metadata to be added to each log entry.
"""
hs = attr.ib()
host = attr.ib(type=str)
port = attr.ib(type=int)
metadata = attr.ib(type=dict)
maximum_buffer = attr.ib(type=int)
_buffer = attr.ib(default=attr.Factory(deque), type=deque)
_writer = attr.ib(default=None)
_logger = attr.ib(default=attr.Factory(Logger))
def start(self) -> None:
# Connect without DNS lookups if it's a direct IP.
try:
ip = ip_address(self.host)
if isinstance(ip, IPv4Address):
endpoint = TCP4ClientEndpoint(
self.hs.get_reactor(), self.host, self.port
)
elif isinstance(ip, IPv6Address):
endpoint = TCP6ClientEndpoint(
self.hs.get_reactor(), self.host, self.port
)
except ValueError:
endpoint = HostnameEndpoint(self.hs.get_reactor(), self.host, self.port)
factory = Factory.forProtocol(Protocol)
self._service = ClientService(endpoint, factory, clock=self.hs.get_reactor())
self._service.startService()
def _write_loop(self) -> None:
"""
Implement the write loop.
"""
if self._writer:
return
self._writer = self._service.whenConnected()
@self._writer.addBoth
def writer(r):
if isinstance(r, Failure):
r.printTraceback(file=sys.__stderr__)
self._writer = None
self.hs.get_reactor().callLater(1, self._write_loop)
return
try:
for event in self._buffer:
r.transport.write(
dumps(event, ensure_ascii=False, separators=(",", ":")).encode(
"utf8"
)
)
r.transport.write(b"\n")
self._buffer.clear()
except Exception as e:
sys.__stderr__.write("Failed writing out logs with %s\n" % (str(e),))
self._writer = False
self.hs.get_reactor().callLater(1, self._write_loop)
def _handle_pressure(self) -> None:
"""
Handle backpressure by shedding events.
The buffer will, in this order, until the buffer is below the maximum:
- Shed DEBUG events
- Shed INFO events
- Shed the middle 50% of the events.
"""
if len(self._buffer) <= self.maximum_buffer:
return
# Strip out DEBUGs
self._buffer = deque(
filter(lambda event: event["level"] != "DEBUG", self._buffer)
)
if len(self._buffer) <= self.maximum_buffer:
return
# Strip out INFOs
self._buffer = deque(
filter(lambda event: event["level"] != "INFO", self._buffer)
)
if len(self._buffer) <= self.maximum_buffer:
return
# Cut the middle entries out
buffer_split = floor(self.maximum_buffer / 2)
old_buffer = self._buffer
self._buffer = deque()
for i in range(buffer_split):
self._buffer.append(old_buffer.popleft())
end_buffer = []
for i in range(buffer_split):
end_buffer.append(old_buffer.pop())
self._buffer.extend(reversed(end_buffer))
def __call__(self, event: dict) -> None:
flattened = flatten_event(event, self.metadata, include_time=True)
self._buffer.append(flattened)
# Handle backpressure, if it exists.
try:
self._handle_pressure()
except Exception:
# If handling backpressure fails,clear the buffer and log the
# exception.
self._buffer.clear()
self._logger.failure("Failed clearing backpressure")
# Try and write immediately.
self._write_loop()