294 lines
8.5 KiB
Markdown
294 lines
8.5 KiB
Markdown
## Steps for Contributing:
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1. [Sign the CLA](http://influxdb.com/community/cla.html)
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1. Make changes or write plugin (see below for details)
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1. Add your plugin to `plugins/inputs/all/all.go` or `plugins/outputs/all/all.go`
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1. If your plugin requires a new Go package,
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[add it](https://github.com/influxdata/telegraf/blob/master/CONTRIBUTING.md#adding-a-dependency)
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1. Write a README for your plugin, if it's an input plugin, it should be structured
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like the [input example here](https://github.com/influxdata/telegraf/blob/master/plugins/inputs/EXAMPLE_README.md).
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Output plugins READMEs are less structured,
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but any information you can provide on how the data will look is appreciated.
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See the [OpenTSDB output](https://github.com/influxdata/telegraf/tree/master/plugins/outputs/opentsdb)
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for a good example.
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## Sign the CLA
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Before we can merge a pull request, you will need to sign the CLA,
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which can be found [on our website](http://influxdb.com/community/cla.html)
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## Adding a dependency
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Assuming you can already build the project, run these in the telegraf directory:
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1. `go get github.com/sparrc/gdm`
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1. `gdm restore`
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1. `gdm save`
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## Input Plugins
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This section is for developers who want to create new collection inputs.
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Telegraf is entirely plugin driven. This interface allows for operators to
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pick and chose what is gathered as well as makes it easy for developers
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to create new ways of generating metrics.
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Plugin authorship is kept as simple as possible to promote people to develop
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and submit new inputs.
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### Input Plugin Guidelines
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* A plugin must conform to the `inputs.Input` interface.
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* Input Plugins should call `inputs.Add` in their `init` function to register themselves.
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See below for a quick example.
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* Input Plugins must be added to the
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`github.com/influxdata/telegraf/plugins/inputs/all/all.go` file.
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* The `SampleConfig` function should return valid toml that describes how the
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plugin can be configured. This is include in `telegraf -sample-config`.
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* The `Description` function should say in one line what this plugin does.
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### Input interface
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```go
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type Input interface {
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SampleConfig() string
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Description() string
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Gather(Accumulator) error
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}
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type Accumulator interface {
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Add(measurement string,
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value interface{},
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tags map[string]string,
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timestamp ...time.Time)
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AddFields(measurement string,
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fields map[string]interface{},
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tags map[string]string,
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timestamp ...time.Time)
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}
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```
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### Accumulator
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The way that a plugin emits metrics is by interacting with the Accumulator.
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The `Add` function takes 3 arguments:
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* **measurement**: A string description of the metric. For instance `bytes_read` or `
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faults`.
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* **value**: A value for the metric. This accepts 5 different types of value:
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* **int**: The most common type. All int types are accepted but favor using `int64`
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Useful for counters, etc.
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* **float**: Favor `float64`, useful for gauges, percentages, etc.
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* **bool**: `true` or `false`, useful to indicate the presence of a state. `light_on`,
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etc.
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* **string**: Typically used to indicate a message, or some kind of freeform
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information.
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* **time.Time**: Useful for indicating when a state last occurred, for instance `
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light_on_since`.
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* **tags**: This is a map of strings to strings to describe the where or who
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about the metric. For instance, the `net` plugin adds a tag named `"interface"`
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set to the name of the network interface, like `"eth0"`.
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Let's say you've written a plugin that emits metrics about processes on the current host.
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### Input Plugin Example
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```go
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package simple
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// simple.go
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import "github.com/influxdata/telegraf/plugins/inputs"
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type Simple struct {
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Ok bool
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}
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func (s *Simple) Description() string {
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return "a demo plugin"
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}
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func (s *Simple) SampleConfig() string {
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return "ok = true # indicate if everything is fine"
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}
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func (s *Simple) Gather(acc inputs.Accumulator) error {
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if s.Ok {
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acc.Add("state", "pretty good", nil)
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} else {
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acc.Add("state", "not great", nil)
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}
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return nil
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}
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func init() {
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inputs.Add("simple", func() inputs.Input { return &Simple{} })
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}
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```
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## Service Input Plugins
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This section is for developers who want to create new "service" collection
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inputs. A service plugin differs from a regular plugin in that it operates
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a background service while Telegraf is running. One example would be the `statsd`
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plugin, which operates a statsd server.
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Service Input Plugins are substantially more complicated than a regular plugin, as they
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will require threads and locks to verify data integrity. Service Input Plugins should
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be avoided unless there is no way to create their behavior with a regular plugin.
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Their interface is quite similar to a regular plugin, with the addition of `Start()`
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and `Stop()` methods.
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### Service Plugin Guidelines
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* Same as the `Plugin` guidelines, except that they must conform to the
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`inputs.ServiceInput` interface.
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### Service Plugin interface
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```go
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type ServicePlugin interface {
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SampleConfig() string
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Description() string
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Gather(Accumulator) error
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Start() error
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Stop()
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}
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```
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## Output Plugins
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This section is for developers who want to create a new output sink. Outputs
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are created in a similar manner as collection plugins, and their interface has
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similar constructs.
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### Output Plugin Guidelines
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* An output must conform to the `outputs.Output` interface.
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* Outputs should call `outputs.Add` in their `init` function to register themselves.
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See below for a quick example.
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* To be available within Telegraf itself, plugins must add themselves to the
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`github.com/influxdata/telegraf/plugins/outputs/all/all.go` file.
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* The `SampleConfig` function should return valid toml that describes how the
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output can be configured. This is include in `telegraf -sample-config`.
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* The `Description` function should say in one line what this output does.
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### Output interface
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```go
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type Output interface {
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Connect() error
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Close() error
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Description() string
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SampleConfig() string
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Write(points []*client.Point) error
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}
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```
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### Output Example
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```go
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package simpleoutput
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// simpleoutput.go
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import "github.com/influxdata/telegraf/plugins/outputs"
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type Simple struct {
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Ok bool
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}
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func (s *Simple) Description() string {
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return "a demo output"
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}
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func (s *Simple) SampleConfig() string {
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return "url = localhost"
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}
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func (s *Simple) Connect() error {
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// Make a connection to the URL here
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return nil
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}
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func (s *Simple) Close() error {
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// Close connection to the URL here
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return nil
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}
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func (s *Simple) Write(points []*client.Point) error {
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for _, pt := range points {
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// write `pt` to the output sink here
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}
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return nil
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}
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func init() {
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outputs.Add("simpleoutput", func() outputs.Output { return &Simple{} })
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}
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```
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## Service Output Plugins
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This section is for developers who want to create new "service" output. A
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service output differs from a regular output in that it operates a background service
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while Telegraf is running. One example would be the `prometheus_client` output,
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which operates an HTTP server.
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Their interface is quite similar to a regular output, with the addition of `Start()`
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and `Stop()` methods.
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### Service Output Guidelines
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* Same as the `Output` guidelines, except that they must conform to the
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`output.ServiceOutput` interface.
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### Service Output interface
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```go
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type ServiceOutput interface {
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Connect() error
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Close() error
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Description() string
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SampleConfig() string
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Write(points []*client.Point) error
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Start() error
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Stop()
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}
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```
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## Unit Tests
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### Execute short tests
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execute `make test-short`
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### Execute long tests
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As Telegraf collects metrics from several third-party services it becomes a
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difficult task to mock each service as some of them have complicated protocols
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which would take some time to replicate.
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To overcome this situation we've decided to use docker containers to provide a
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fast and reproducible environment to test those services which require it.
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For other situations
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(i.e: https://github.com/influxdata/telegraf/blob/master/plugins/redis/redis_test.go)
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a simple mock will suffice.
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To execute Telegraf tests follow these simple steps:
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- Install docker following [these](https://docs.docker.com/installation/)
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instructions
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- execute `make test`
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**OSX users**: you will need to install `boot2docker` or `docker-machine`.
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The Makefile will assume that you have a `docker-machine` box called `default` to
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get the IP address.
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### Unit test troubleshooting
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Try cleaning up your test environment by executing `make docker-kill` and
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re-running
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