Python port of the Spectator library for Java.
See the Spectator documentation for an overview of core concepts and details on usage.
Supports Python >= 2.7, with Python >= 3.6 recommended.
Importing the GlobalRegistry
sets up Spectator to report data to an Atlas Aggregator backend
every five seconds. A configuration package must be installed in order for this step to succeed.
At Netflix, the configuration package is named netflix-spectator-pyconf
.
from spectator import GlobalRegistry
Once the GlobalRegistry
is imported, it is used to create and manage Meters.
The IDs used for looking up a meter in the GlobalRegistry
consist of a name and a set of tags.
IDs will be consumed by users many times after the data has been reported, so they should be
chosen thoughtfully, while considering how they will be used. See the naming conventions page
for general guidelines.
IDs are immutable, so they can be freely passed around and used in a concurrent context. Tags can be added to an ID when it is created, to track the dimensionality of the metric. All tag keys and values must be strings. For example, if you want to keep track of the number of successful requests, you must cast integers to strings.
requests_id = GlobalRegistry.counter('server.numRequests', {'statusCode': str(200)})
requests_id.increment()
A Counter is used to measure the rate at which an event is occurring. Considering an API endpoint, a Counter could be used to measure the rate at which it is being accessed.
Counters are reported to the backend as a rate-per-second. In Atlas, the :per-step
operator
can be used to convert them back into a value-per-step on a graph.
Call increment()
when an event occurs:
GlobalRegistry.counter('server.numRequests').increment()
You can also pass a value to increment()
. This is useful when a collection of events happens
together:
GlobalRegistry.counter('queue.itemsAdded').increment(10)
A Distribution Summary is used to track the distribution of events. It is similar to a Timer, but more general, in that the size does not have to be a period of time. For example, a Distribution Summary could be used to measure the payload sizes of requests hitting a server.
Always use base units when recording data, to ensure that the tick labels presented on Atlas graphs
are readable. If you are measuring payload size, then use bytes, not kilobytes (or some other unit).
This means that a 4K
tick label will represent 4 kilobytes, rather than 4 kilo-kilobytes.
Call record()
with a value:
GlobalRegistry.distribution_summary('server.requestSize').record(10)
A gauge is a value that is sampled at some point in time. Typical examples for gauges would be the size of a queue or number of threads in a running state. Since gauges are not updated inline when a state change occurs, there is no information about what might have occurred between samples.
Consider monitoring the behavior of a queue of tasks. If the data is being collected once a minute, then a gauge for the size will show the size when it was sampled. The size may have been much higher or lower at some point during interval, but that is not known.
Call set()
with a value:
GlobalRegistry.gauge('server.queueSize').set(10)
Gauges are designed to report the last set value for 15 minutes. This done so that updates to the values do not need to be collected on a tight 1-minute schedule to ensure that Atlas shows unbroken lines in graphs.
If you wish to no longer report a Gauge value, then set it to float('nan')
. This is a separate
and distinct value from 'nan'
or 'NaN'
, which are strings.
A Timer is used to measure how long (in seconds) some event is taking.
Call record()
with a value:
GlobalRegistry.timer('server.requestLatency').record(0.01)
Timers will keep track of the following statistics as they are used:
count
totalTime
totalOfSquares
max
- Install pyenv, possibly with Homebrew.
- Install Python versions: 2.7, 3.6, 3.7, and 3.8. Enable all versions globally.
- Make changes and add tests.
tox
-
Pre-Requisites.
-
Install packaging tools.
pip3 install setuptools wheel twine
-
Configure PyPI username.
cat >~/.pypirc <<EOF [distutils] index-servers = pypi [pypi] username: $PYPI_USERNAME EOF
-
-
Bump the version number in setup.py.
-
Tag the repo and write release notes. The goal is for the releases page to be readable.
-
Clone the upstream project.
-
Create a new tag.
git tag v0.1.X
-
Push the tags to the origin.
git push origin --tags
-
Project > Releases > Tags > Select Tag > Create Release
Primary changes: - #<PR number>, <short description>. A comprehensive list of changes can be found in the commit log: https://github.com/Netflix/spectator-py/compare/v0.1.<N-1>...v0.1.<N>
-
-
On your local machine, checkout the tag and run the following command, which will build the package and upload it to PyPI.
rm -rf dist git checkout $TAG python3 setup.py sdist bdist_wheel twine check dist/* twine upload dist/*
Example release commits: