Many web/mobile applications generate huge amount of event logs (c,f. login, logout, purchase, follow, etc). To analyze these event logs could be really valuable for improving the service. However, the challenge is collecting these logs easily and reliably.
Fluentd solves that problem by having: easy installation, small footprint, plugins, reliable buffering, log forwarding, etc.
fluent-logger-python is a Python library, to record the events from Python application.
NOTE: This is a fork of https://github.com/fluent/fluent-logger-python, it only adds TLS capability to the original package.
- Python 2.7 or 3.4+
msgpack-python
- IMPORTANT: Version 0.8.0 is the last version supporting Python 2.6, 3.2 and 3.3
This library is distributed as 'fluent-logger' python package. Please execute the following command to install it.
$ pip install mona-fluent-logger
Fluentd daemon must be launched with a tcp source configuration:
<source> type forward port 24224 </source>
To quickly test your setup, add a matcher that logs to the stdout:
<match app.**> type stdout </match>
sender.FluentSender is a structured event logger for Fluentd.
By default, the logger assumes fluentd daemon is launched locally. You can also specify remote logger by passing the options.
from fluent import sender
# for local fluent
logger = sender.FluentSender('app')
# for remote fluent
logger = sender.FluentSender('app', host='host', port=24224)
For sending event, call emit method with your event. Following example will send the event to fluentd, with tag 'app.follow' and the attributes 'from' and 'to'.
# Use current time
logger.emit('follow', {'from': 'userA', 'to': 'userB'})
# Specify optional time
cur_time = int(time.time())
logger.emit_with_time('follow', cur_time, {'from': 'userA', 'to':'userB'})
To send events with nanosecond-precision timestamps (Fluent 0.14 and up), specify nanosecond_precision on FluentSender.
# Use nanosecond
logger = sender.FluentSender('app', nanosecond_precision=True)
logger.emit('follow', {'from': 'userA', 'to': 'userB'})
logger.emit_with_time('follow', time.time(), {'from': 'userA', 'to': 'userB'})
You can detect an error via return value of emit. If an error happens in emit, emit returns False and get an error object using last_error method.
if not logger.emit('follow', {'from': 'userA', 'to': 'userB'}):
print(logger.last_error)
logger.clear_last_error() # clear stored error after handled errors
If you want to shutdown the client, call close() method.
logger.close()
This API is a wrapper for sender.FluentSender.
First, you need to call sender.setup()
to create global sender.FluentSender logger
instance. This call needs to be called only once, at the beginning of
the application for example.
Initialization code of Event-Based API is below:
from fluent import sender
# for local fluent
sender.setup('app')
# for remote fluent
sender.setup('app', host='host', port=24224)
Then, please create the events like this. This will send the event to fluentd, with tag 'app.follow' and the attributes 'from' and 'to'.
from fluent import event
# send event to fluentd, with 'app.follow' tag
event.Event('follow', {
'from': 'userA',
'to': 'userB'
})
event.Event has one limitation which can't return success/failure result.
Other methods for Event-Based Interface.
sender.get_global_sender # get instance of global sender
sender.close # Call FluentSender#close
You can inject your own custom proc to handle buffer overflow in the event of connection failure. This will mitigate the loss of data instead of simply throwing data away.
import msgpack
from io import BytesIO
def overflow_handler(pendings):
unpacker = msgpack.Unpacker(BytesIO(pendings))
for unpacked in unpacker:
print(unpacked)
logger = sender.FluentSender('app', host='host', port=24224, buffer_overflow_handler=overflow_handler)
You should handle any exception in handler. fluent-logger ignores exceptions from buffer_overflow_handler
.
This handler is also called when pending events exist during close().
This client-library also has FluentHandler
class for Python logging
module.
import logging
from fluent import handler
custom_format = {
'host': '%(hostname)s',
'where': '%(module)s.%(funcName)s',
'type': '%(levelname)s',
'stack_trace': '%(exc_text)s'
}
logging.basicConfig(level=logging.INFO)
l = logging.getLogger('fluent.test')
h = handler.FluentHandler('app.follow', host='host', port=24224, buffer_overflow_handler=overflow_handler)
formatter = handler.FluentRecordFormatter(custom_format)
h.setFormatter(formatter)
l.addHandler(h)
l.info({
'from': 'userA',
'to': 'userB'
})
l.info('{"from": "userC", "to": "userD"}')
l.info("This log entry will be logged with the additional key: 'message'.")
You can also customize formatter via logging.config.dictConfig
import logging.config
import yaml
with open('logging.yaml') as fd:
conf = yaml.load(fd)
logging.config.dictConfig(conf['logging'])
You can inject your own custom proc to handle buffer overflow in the event of connection failure. This will mitigate the loss of data instead of simply throwing data away.
import msgpack
from io import BytesIO
def overflow_handler(pendings):
unpacker = msgpack.Unpacker(BytesIO(pendings))
for unpacked in unpacker:
print(unpacked)
A sample configuration logging.yaml
would be:
logging:
version: 1
formatters:
brief:
format: '%(message)s'
default:
format: '%(asctime)s %(levelname)-8s %(name)-15s %(message)s'
datefmt: '%Y-%m-%d %H:%M:%S'
fluent_fmt:
'()': fluent.handler.FluentRecordFormatter
format:
level: '%(levelname)s'
hostname: '%(hostname)s'
where: '%(module)s.%(funcName)s'
handlers:
console:
class : logging.StreamHandler
level: DEBUG
formatter: default
stream: ext://sys.stdout
fluent:
class: fluent.handler.FluentHandler
host: localhost
port: 24224
tag: test.logging
buffer_overflow_handler: overflow_handler
formatter: fluent_fmt
level: DEBUG
none:
class: logging.NullHandler
loggers:
amqp:
handlers: [none]
propagate: False
conf:
handlers: [none]
propagate: False
'': # root logger
handlers: [console, fluent]
level: DEBUG
propagate: False
Besides the regular interfaces - the event-based one provided by sender.FluentSender
and the python logging one
provided by handler.FluentHandler
- there are also corresponding asynchronous versions in asyncsender
and
asynchandler
respectively. These versions use a separate thread to handle the communication with the remote fluentd
server. In this way the client of the library won't be blocked during the logging of the events, and won't risk going
into timeout if the fluentd server becomes unreachable. Also it won't be slowed down by the network overhead.
The interfaces in asyncsender
and asynchandler
are exactly the same as those in sender
and handler
, so it's
just a matter of importing from a different module.
For instance, for the event-based interface:
from fluent import asyncsender as sender
# for local fluent
sender.setup('app')
# for remote fluent
sender.setup('app', host='host', port=24224)
# do your work
...
# IMPORTANT: before program termination, close the sender
sender.close()
or for the python logging interface:
import logging
from fluent import asynchandler as handler
custom_format = {
'host': '%(hostname)s',
'where': '%(module)s.%(funcName)s',
'type': '%(levelname)s',
'stack_trace': '%(exc_text)s'
}
logging.basicConfig(level=logging.INFO)
l = logging.getLogger('fluent.test')
h = handler.FluentHandler('app.follow', host='host', port=24224, buffer_overflow_handler=overflow_handler)
formatter = handler.FluentRecordFormatter(custom_format)
h.setFormatter(formatter)
l.addHandler(h)
l.info({
'from': 'userA',
'to': 'userB'
})
l.info('{"from": "userC", "to": "userD"}')
l.info("This log entry will be logged with the additional key: 'message'.")
...
# IMPORTANT: before program termination, close the handler
h.close()
NOTE: please note that it's important to close the sender or the handler at program termination. This will make sure the communication thread terminates and it's joined correctly. Otherwise the program won't exit, waiting for the thread, unless forcibly killed.
In some applications it can be especially important to guarantee that the logging process won't block under any
circumstance, even when it's logging faster than the sending thread could handle (backpressure). In this case it's
possible to enable the circular queue mode, by passing True in the queue_circular parameter of
asyncsender.FluentSender
or asynchandler.FluentHandler
. By doing so the thread doing the logging won't block
even when the queue is full, the new event will be added to the queue by discarding the oldest one.
WARNING: setting queue_circular to True will cause loss of events if the queue fills up completely! Make sure that this doesn't happen, or it's acceptable for your application.
Testing can be done using nose.
Need wheel package.
$ pip install wheel
After that, type following command:
$ python setup.py clean sdist bdist_wheel upload
Patches contributed by those people.
Apache License, Version 2.0