An implementation of Etsy's statsd in Go, based on original code from @kisielk.
The project provides both a server called "gostatsd" which works much like Etsy's version, but also provides a library for developing customized servers.
Backends are pluggable and only need to support the backend interface.
Being written in Go, it is able to use all cores which makes it easy to scale up the server based on load.
Gostatsd currently targets Go 1.13.6. If you are compiling from source, please ensure you are running this version.
From the gostatsd directory run make build. The binary will be built in build/bin/<arch>/gostatsd.
You will need to install the Golang build dependencies by running make setup in the gostatsd directory. This must be done before the first build,
and again if the dependencies change. A protobuf installation is expected to be found in the tools/
directory. Managing this in a platform agnostic way is difficult, but PRs are welcome. Hopefully it will be sufficient to use the generated protobuf
files in the majority of cases.
If you are unable to build gostatsd please check your Go version, and try running make setup again before reporting a bug.
gostatsd --help gives a complete description of available options and their
defaults. You can use make run to run the server with just the stdout backend
to display info on screen.
You can also run through docker by running make run-docker which will use docker-compose
to run gostatsd with a graphite backend and a grafana dashboard.
While not generally tested on Windows, it should work. Maximum throughput is likely to be better on a linux system, however.
The server can currently run in two modes: standalone and forwarder. It is configured through the top level
server-mode configuration setting. The default is standalone.
In standalone mode, raw metrics are processed and aggregated as normal, and aggregated data is submitted to
configured backends (see below)
In forwarder mode, raw metrics are collected from a frontend, and instead of being aggregated they are sent via http
to another gostatsd server after passing through the processing pipeline (cloud provider, static tags, filtering, etc).
A forwarder server is intended to run on-host and collect metrics, forwarding them on to a central aggregation
service. At present the central aggregation service can only scale vertically, but horizontal scaling through
clustering is planned.
Configuring forwarder mode requires a configuration file, with a section named http-transport. The raw version
spoken is not configurable per server (see HTTP.md for version guarantees). The configuration section allows the
following configuration options:
compress: boolean indicating if the payload should be compressed. Defaults totrueapi-endpoint: configures the endpoint to submit raw metrics to. This setting should be just a base URL, for examplehttps://statsd-aggregator.private, with no path. Required, no defaultmax-requests: maximum number of requests in flight. Defaults to1000(which is probably too high)max-request-elapsed-time: duration for the maximum amount of time to try submitting data before giving up. This includes retries. Defaults to30s(which is probably too high). Setting this value to-1will disable retries.consolidator-slots: number of slots in the metric consolidator. Memory usage is a function of this. Lower values may cause blocking in the pipeline (back pressure). A UDP only receiver will never use more than the number of configured parsers (--max-parsersoption). Defaults to the value of--max-parsers, but may require tuning for HTTP based servers.flush-interval: duration for how long to batch metrics before flushing. Should be an order of magnitude less than the upstream flush interval. Defaults to1s.transport: see TRANSPORT.md for how to configure the transport.log-raw-metric: logs raw metrics received from the network. Defaults tofalse.custom-headers: a map of strings that are added to each request sent to allow for additional network routing / request inspection. Not required, default is empty. Example:--custom-headers='{"region" : "us-east-1", "service" : "event-producer"}'
The service supports multiple HTTP servers, with different configurations for different requirements. All http servers
are named in the top level http-servers setting. It should be a space separated list of names. Each server is then
configured by creating a section in the configuration file named http.<servername>. An http server section has the
following configuration options:
address: the address to bind toenable-prof: boolean indicating if profiler endpoints should be enabled. Defaultfalseenable-expvar: boolean indicating if expvar endpoints should be enabled. Defaultfalseenable-ingestion: boolean indicating if ingestion should be enabled. Defaultfalseenable-healthcheck: boolean indicating if healthchecks should be enabled. Defaulttrue
For example, to configure a server with a localhost only diagnostics endpoint, and a regular ingestion endpoint that can sit behind an ELB, the following configuration could be used:
backends='stdout'
http-servers='receiver profiler'
[http.receiver]
address='0.0.0.0:8080'
enable-ingestion=true
[http.profiler]
address='127.0.0.1:6060'
enable-expvar=true
enable-prof=trueThere is no capability to run an https server at this point in time, and no auth (which is why you might want different addresses). You could also put a reverse proxy in front of the service. Documentation for the endpoints can be found under HTTP.md
Refer to backends for configuration options for the backends.
Cloud providers are a way to automatically enrich metrics with metadata from a cloud vendor.
Refer to cloud providers for configuration options for the cloud providers.
They should be disabled on the aggregation server when using http forwarding, as the source IP isn't propagated, and that information should be collected on the ingestion server.
By default, timer metrics will result in aggregated metrics of the form (exact name varies by backend):
<base>.Count
<base>.CountPerSecond
<base>.Mean
<base>.Median
<base>.Lower
<base>.Upper
<base>.StdDev
<base>.Sum
<base>.SumSquares
In addition, the following aggregated metrics will be emitted for each configured percentile:
<base>.Count_XX
<base>.Mean_XX
<base>.Sum_XX
<base>.SumSquares_XX
<base>.Upper_XX - for positive only
<base>.Lower_-XX - for negative only
These can be controlled through the disabled-sub-metrics configuration section:
[disabled-sub-metrics]
# Regular metrics
count=false
count-per-second=false
mean=false
median=false
lower=false
upper=false
stddev=false
sum=false
sum-squares=false
# Percentile metrics
count-pct=false
mean-pct=false
sum-pct=false
sum-squares-pct=false
lower-pct=false
upper-pct=false
By default (for compatibility), they are all false and the metrics will be emitted.
The server listens for UDP packets on the address given by the --metrics-addr flag,
aggregates them, then sends them to the backend servers given by the --backends
flag (space separated list of backend names).
Currently supported backends are:
- graphite
- datadog
- statsdaemon
- stdout
- cloudwatch
- newrelic
The format of each metric is:
<bucket name>:<value>|<type>\n
<bucket name>is a string likeabc.def.g, just like a graphite bucket name<value>is a string representation of a floating point number<type>is one ofc,g, ormsfor "counter", "gauge", and "timer" respectively.
A single packet can contain multiple metrics, each ending with a newline.
Optionally, gostatsd supports sample rates (for simple counters, and for timer counters) and tags:
<bucket name>:<value>|c|@<sample rate>\nwheresample rateis a float between 0 and 1<bucket name>:<value>|c|@<sample rate>|#<tags>\nwheretagsis a comma separated list of tags<bucket name>:<value>|<type>|#<tags>\nwheretagsis a comma separated list of tags
Tags format is: simple or key:value.
A simple way to test your installation or send metrics from a script is to use
echo and the netcat utility nc:
echo 'abc.def.g:10|c' | nc -w1 -u localhost 8125
Many metrics for the internal processes are emitted. See METRICS.md for details. Go expvar is also
exposed if the --profile flag is used.
By default gostatsd will batch read multiple packets to optimise read performance. The amount of memory allocated
for these read buffers is determined by the config options:
max-readers * receive-batch-size * 64KB (max packet size)
The metric avg_packets_in_batch can be used to track the average number of datagrams received per batch, and the
--receive-batch-size flag used to tune it. There may be some benefit to tuning the --max-readers flag as well.
In your source code:
import "github.com/atlassian/gostatsd/pkg/statsd"
Note that this project uses Go modules for dependency management.
Documentation can be found via go doc github.com/atlassian/gostatsd/pkg/statsd or at
https://godoc.org/github.com/atlassian/gostatsd/pkg/statsd
Pull requests, issues and comments welcome. For pull requests:
- Add tests for new features and bug fixes
- Follow the existing style
- Separate unrelated changes into multiple pull requests
See the existing issues for things to start contributing.
For bigger changes, make sure you start a discussion first by creating an issue and explaining the intended change.
Atlassian requires contributors to sign a Contributor License Agreement, known as a CLA. This serves as a record stating that the contributor is entitled to contribute the code/documentation/translation to the project and is willing to have it used in distributions and derivative works (or is willing to transfer ownership).
Prior to accepting your contributions we ask that you please follow the appropriate link below to digitally sign the CLA. The Corporate CLA is for those who are contributing as a member of an organization and the individual CLA is for those contributing as an individual.
Copyright (c) 2012 Kamil Kisiel. Copyright @ 2016-2020 Atlassian Pty Ltd and others.
Licensed under the MIT license. See LICENSE file.