InfluxDB is an open source time series platform. This includes APIs for storing and querying data, processing it in the background for ETL or monitoring and alerting purposes, user dashboards, and visualizing and exploring the data and more. The master branch on this repo now represents the latest InfluxDB, which now includes functionality for Kapacitor (background processing) and Chronograf (the UI) all in a single binary.
The list of InfluxDB Client Libraries that are compatible with the latest version can be found in our documentation.
If you are looking for the 1.x line of releases, there are branches for each minor version as well as a master-1.x
branch that will contain the code for the next 1.x release. The master-1.x working branch is here. The InfluxDB 1.x Go Client can be found here.
The latest InfluxDB 1.x is the stable release and recommended for production use. The InfluxDB that is on the master branch is currently in the beta stage. This means that it is still NOT recommended for production usage. There may be breaking API changes, breaking changes in the Flux language, changes in the underlying storage format that will require you to delete all your data, and significant changes to the UI. The beta is intended for feature exploration and gathering feedback on the available feature set. It SHOULD NOT be used for performance testing, benchmarks, or other stress tests.
Additional features will arrive during the beta period until we reach general availability (GA). We will be cutting versioned releases at least every two weeks starting in the first release. There will also be nightly builds based off the latest code in master.
Once we close on the final feature set of what will be in the first GA release of InfluxDB in the 2.x line, we will move into the release candidate (RC) phase. At that point, we do not expect there to be breaking changes to the API or Flux language. We may still need to make a breaking change prior to GA due to some unforseen circumstance, but it would need to be extremely important and will be clearly communicated via the changelog and all available channels.
Our current plans are to release RCs suitable for production usage, but we will re-evaluate in consultation with the community as the cycle progresses. During the RC period, we will focus on feedback from users, bug fixes, performance, and additive features (where time permits).
Releases every two weeks or as needed
Planned additions include:
- Compatibility layer with 1.x including: 1.x HTTP Write API and HTTP Read API support for InfluxQL
- Import Bulk Data from 1.x - convert TSM from 1.x to 2.x
- Performance tuning, stability improvements, and fine tuning based on community feedback.
- Finalization of supported client libraries starting with JavaScript and Go.
As needed
Planned activities include:
- Performance tuning, stability improvements, and fine-tuning based on community feedback.
- Migration of users/security permissions from InfluxDB v1.x to 2.x. ACTION REQUIRED: Re-establish users and permissions within the new unified security model which now spans the underlying database and user interface.
- Migration of Continuous Queries. ACTION REQUIRED: These will need to be re-implemented as Flux tasks.
- Direct support by InfluxDB for CollectD, StatsD, Graphite, or UDP. ACTION REQUIRED: Leverage Telegraf 1.9+ along with the InfluxDB v2.0 output plugin to translate these protocols/formats.
We have nightly and weekly versioned Docker images, Debian packages, RPM packages, and tarballs of InfluxDB available at the InfluxData downloads page. We also provide the influx
command line interface (CLI) client as a separate binary available at the same location.
This project requires Go 1.13 and Go module support.
Set GO111MODULE=on
or build the project outside of your GOPATH
for it to succeed.
The project also requires a recent stable version of Rust. We recommend using rustup to install Rust.
If you are getting an error loading module requirements
error with bzr executable file not found in $PATH”
on make
, then you need to ensure you have bazaar
, protobuf
, and yarn
installed.
- OSX:
brew install bazaar protobuf yarn
- Linux (Arch):
pacman -S bzr protobuf yarn
- Linux (Ubuntu):
apt install bzr protobuf-compiler libprotobuf-dev yarnpkg
NB: For RedHat, there are some extra steps:
- You must enable the EPEL
- You must add the
yarn
repository
For information about modules, please refer to the wiki.
A successful make
run results in two binaries, with platform-dependent paths:
$ make
...
env GO111MODULE=on go build -tags 'assets ' -o bin/$(uname -s | tr '[:upper:]' '[:lower:]')/influx ./cmd/influx
env GO111MODULE=on go build -tags 'assets ' -o bin/$(uname -s | tr '[:upper:]' '[:lower:]')/influxd ./cmd/influxd
influxd
is the InfluxDB service.
influx
is the CLI management tool.
Start the service. Logs to stdout by default:
$ bin/$(uname -s | tr '[:upper:]' '[:lower:]')/influxd
The Makefile
provides a wrapper around configuring the utilities for building influxdb. For those wanting to use the go
command directly, one of two things can be done.
First, the env
script is located in the root of the repository. This script can be used to execute go
commands with the appropriate environment configuration.
$ ./env go build ./cmd/influxd
Another method is to configure the pkg-config
utility. Follow the instructions here to install and configure pkg-config
and then the normal go commands will work.
The first step is to install the pkg-config
command.
# On Debian/Ubuntu
$ sudo apt-get install -y clang pkg-config
# On Mac OS X with Homebrew
$ brew install pkg-config
Install the pkg-config
wrapper utility of the same name to a different path that is earlier in the PATH.
# Install the pkg-config wrapper utility
$ go build -o ~/go/bin/ github.com/influxdata/pkg-config
# Ensure the GOBIN directory is on your PATH
$ export PATH=$HOME/go/bin:${PATH}
$ which -a pkg-config
/home/user/go/bin/pkg-config
/usr/bin/pkg-config
Then all go
build commands should work.
$ go build ./cmd/influxd
$ go test ./...
For a complete getting started guide, please see our full online documentation site.
To write and query data or use the API in any way, you'll need to first create a user, credentials, organization and bucket. Everything in InfluxDB is organized under a concept of an organization. The API is designed to be multi-tenant. Buckets represent where you store time series data. They're synonymous with what was previously in InfluxDB 1.x a database and retention policy.
The simplest way to get set up is to point your browser to http://localhost:8086 and go through the prompts.
You can also get set up from the CLI using the command influx setup
:
$ bin/$(uname -s | tr '[:upper:]' '[:lower:]')/influx setup
Welcome to InfluxDB 2.0!
Please type your primary username: marty
Please type your password:
Please type your password again:
Please type your primary organization name.: InfluxData
Please type your primary bucket name.: telegraf
Please type your retention period in hours.
Or press ENTER for infinite.: 72
You have entered:
Username: marty
Organization: InfluxData
Bucket: telegraf
Retention Period: 72 hrs
Confirm? (y/n): y
UserID Username Organization Bucket
033a3f2c5ccaa000 marty InfluxData Telegraf
Your token has been stored in /Users/marty/.influxdbv2/configs
You can run this command non-interactively using the -f, --force
flag if you are automating the setup.
Some added flags can help:
$ bin/$(uname -s | tr '[:upper:]' '[:lower:]')/influx setup \
--username marty \
--password F1uxKapacit0r85 \
--org InfluxData \
--bucket telegraf \
--retention 168 \
--token where-were-going-we-dont-need-roads \
--force
Once setup is complete, a configuration profile is created to allow you to interact with your local InfluxDB without passing in credentials each time. You can list and manage those profiles using the influx config
command.
$ bin/$(uname -s | tr '[:upper:]' '[:lower:]')/influx config
Active Name URL Org
* default http://localhost:8086 InfluxData
Write to measurement m
, with tag v=2
, in bucket telegraf
, which belongs to organization InfluxData
:
$ bin/$(uname -s | tr '[:upper:]' '[:lower:]')/influx write --bucket telegraf --precision s "m v=2 $(date +%s)"
Since you have a default profile set up, you can omit the Organization and Token from the command.
Write the same point using curl
:
curl --header "Authorization: Token $(bin/$(uname -s | tr '[:upper:]' '[:lower:]')/influx auth list --json | jq -r '.[0].token')" \
--data-raw "m v=2 $(date +%s)" \
"http://localhost:8086/api/v2/write?org=InfluxData&bucket=telegraf&precision=s"
Read that back with a simple Flux query:
$ bin/$(uname -s | tr '[:upper:]' '[:lower:]')/influx query 'from(bucket:"telegraf") |> range(start:-1h)'
Result: _result
Table: keys: [_start, _stop, _field, _measurement]
_start:time _stop:time _field:string _measurement:string _time:time _value:float
------------------------------ ------------------------------ ---------------------- ---------------------- ------------------------------ ----------------------------
2019-12-30T22:19:39.043918000Z 2019-12-30T23:19:39.043918000Z v m 2019-12-30T23:17:02.000000000Z 2
Use the -r, --raw
option to return the raw flux response from the query. This is useful for moving data from one instance to another as the influx write
command can accept the Flux response using the --format csv
option.
Flux is an MIT-licensed data scripting language (previously named IFQL) used for querying time series data from InfluxDB. The source for Flux is available on GitHub. Learn more about Flux from CTO Paul Dix's presentation.
InfluxDB is an MIT licensed open source project and we love our community. The fastest way to get something fixed is to open a PR. Check out our contributing guide if you're interested in helping out. Also, join us on our Community Slack Workspace if you have questions or comments for our engineering teams.
All pull requests will run through CI, which is currently hosted by Circle. Community contributors should be able to see the outcome of this process by looking at the checks on their PR. Please fix any issues to ensure a prompt review from members of the team.
The InfluxDB project is used internally in a number of proprietary InfluxData products, and as such, PRs and changes need to be tested internally. This can take some time, and is not really visible to community contributors.
This project uses the following static analysis tools. Failure during the running of any of these tools results in a failed build. Generally, code must be adjusted to satisfy these tools, though there are exceptions.
- go vet checks for Go code that should be considered incorrect.
- go fmt checks that Go code is correctly formatted.
- go mod tidy ensures that the source code and go.mod agree.
- staticcheck checks for things like: unused code, code that can be simplified, code that is incorrect and code that will have performance issues.
If your PR fails staticcheck
it is easy to dig into why it failed, and also to fix the problem.
First, take a look at the error message in Circle under the staticcheck
build section, e.g.,
tsdb/tsm1/encoding.gen.go:1445:24: func BooleanValues.assertOrdered is unused (U1000)
tsdb/tsm1/encoding.go:172:7: receiver name should not be an underscore, omit the name if it is unused (ST1006)
Next, go and take a look here for some clarification on the error code that you have received, e.g., U1000
.
The docs will tell you what's wrong, and often what you need to do to fix the issue.
Sometimes generated code will contain unused code or occasionally that will fail a different check.
staticcheck
allows for entire files to be ignored, though it's not ideal.
A linter directive, in the form of a comment, must be placed within the generated file.
This is problematic because it will be erased if the file is re-generated.
Until a better solution comes about, below is the list of generated files that need an ignores comment.
If you re-generate a file and find that staticcheck
has failed, please see this list below for what you need to put back:
File | Comment |
---|---|
query/promql/promql.go | //lint:file-ignore SA6001 Ignore all unused code, it's generated |
CI also runs end-to-end tests. These test the integration between the influx server the ui. You can run them locally in two steps:
- Start the server in "testing mode" by running
make run-e2e
. - Run the tests with
make e2e
.