Tgres is a tool for receiving and reporting on simple time series written in Go which uses PostgreSQL for storage.
Phase 1 or proof-of-concept for the project is the ability to (mostly) act as a drop-in replacement for Graphite (except for chart generation) and Statsd. Currently Tgres supports nearly all of Graphite functions.
As of Aug 2016 Tgres is feature-complete for phase 1, which means that the development will focus on tests, documentation and stability for a while.
Tgres is not ready for production use, but is definitely stable enough for tinkering for those interested.
You need a newer Go (1.6.1+) and PostgreSQL 9.5 or later.
$ go get github.com/tgres/tgres
Now you should have a tgres binary in
$GOPATH/src/github.com/tgres/tgres/etc for a sample config
file. Make a copy of this file and edit it, at the very least check
db-connect-string setting. Also check
log-file directory, it
must be writable.
The user of the PostgreSQL database needs CREATE TABLE permissions. On first run tgres will create three tables (ds, rra and ts) and two views (tv and tvd).
Tgres is invoked like this:
$ $GOPATH/bin/tgres -c /path/to/config
Other (random) notes
Tgres can be used as a standalone daemon, but is also suitable for use as a Golang package for applications that want to provide TS capabilities.
Tgres can receive data using Graphite Text, UDP and Pickle protocols, as well as Statsd (counters, gauges and timers). It supports enough of a Graphite HTTP API to be usable with Grafana. Tgres implements the majority of the Graphite functions.
Tgres supports a simplistic form of clustering - currently the cluster must share the PG back-end, but otherwise looking quite promising.
A round-robin archive is split over a number of PostgreSQL rows of arrays. This means that a series occupies a constant number of rows in the database and can be updated in single row chunks for IO efficiency. Tgres provides two PostgreSQL views to make time series appear as a regular table.
Tgres caches datapoints in memory until a certain number of datapoints has accumulated or a certain time period has been reached to reduce IO.
One of the main goals of Tgres is to address the data isolation problem with most of the TS databases out there. TS data can reside in the same PostgreSQL database as other data and can be easily joined, analyzed, etc.
It has to be simple. There shouldn't be many daemons/components - just this one process to receive and serve the data and the database server.
Graphite API was used only as a starting point, to be able to prove the concept and test against existing tools (mostly Grafana). Longer term there may be more interesting methods of exchanging data, e.g. gob or Redis protocol, etc.