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Add open_weather_map input plugin (#5125)

This commit is contained in:
Sebastien Leger 2019-05-31 00:17:04 +02:00 committed by Daniel Nelson
parent 59d646a8e8
commit 484122b7d4
5 changed files with 883 additions and 4 deletions
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1
plugins/inputs/all/all.go
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@ -101,6 +101,7 @@ import (
_ "github.com/influxdata/telegraf/plugins/inputs/nvidia_smi" _ "github.com/influxdata/telegraf/plugins/inputs/nvidia_smi"
_ "github.com/influxdata/telegraf/plugins/inputs/openldap" _ "github.com/influxdata/telegraf/plugins/inputs/openldap"
_ "github.com/influxdata/telegraf/plugins/inputs/opensmtpd" _ "github.com/influxdata/telegraf/plugins/inputs/opensmtpd"
_ "github.com/influxdata/telegraf/plugins/inputs/openweathermap"
_ "github.com/influxdata/telegraf/plugins/inputs/passenger" _ "github.com/influxdata/telegraf/plugins/inputs/passenger"
_ "github.com/influxdata/telegraf/plugins/inputs/pf" _ "github.com/influxdata/telegraf/plugins/inputs/pf"
_ "github.com/influxdata/telegraf/plugins/inputs/pgbouncer" _ "github.com/influxdata/telegraf/plugins/inputs/pgbouncer"

73
plugins/inputs/openweathermap/README.md Normal file
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@ -0,0 +1,73 @@
# Telegraf Plugin: openweathermap
OpenWeatherMap provides the current weather and forecasts for more than 200,000 cities. To use this plugin you will need a token. For more information [click here](https://openweathermap.org/appid).
Find city identifiers in this [list](http://bulk.openweathermap.org/sample/city.list.json.gz). You can also use this [url](https://openweathermap.org/find) as an alternative to downloading a file. The ID is in the url of the city: `https://openweathermap.org/city/2643743`
### Configuration:
```toml
[[inputs.openweathermap]]
## Root url of API to pull stats
# base_url = "https://api.openweathermap.org/data/2.5/"
## Your personal user token from openweathermap.org
# app_id = "xxxxxxxxxxxxxxxxxxxxxxx"
## List of city identifiers
# city_id = ["2988507", "519188"]
## HTTP response timeout (default: 5s)
# response_timeout = "5s"
## Query the current weather and future forecast
# fetch = ["weather", "forecast"]
## For temperature in Fahrenheit use units=imperial
## For temperature in Celsius use units=metric (default)
# units = "metric"
```
### Metrics:
+ weather
- fields:
- humidity (int, Humidity percentage)
- temperature (float, Unit: Celcius)
- pressure (float, Atmospheric pressure in hPa)
- rain (float, Rain volume for the last 3 hours, mm)
- wind_speed (float, Wind speed. Unit Default: meter/sec)
- wind_degrees (float, Wind direction, degrees)
- tags:
- city_id
- forecast
### Example Output:
Using this configuration:
```toml
[[inputs.openweathermap]]
base_url = "https://api.openweathermap.org/data/2.5/"
app_id = "change_this_with_your_appid"
city_id = ["2988507", "519188"]
response_timeout = "5s"
fetch = ["weather", "forecast"]
units = "metric"
```
When run with:
```
./telegraf -config telegraf.conf -input-filter openweathermap -test
```
It produces data similar to:
```
> weather,city_id=4303602,forecast=* humidity=51i,pressure=1012,rain=0,temperature=16.410000000000025,wind_degrees=170,wind_speed=2.6 1556393944000000000
> weather,city_id=2988507,forecast=* humidity=87i,pressure=1020,rain=0,temperature=7.110000000000014,wind_degrees=260,wind_speed=5.1 1556393841000000000
> weather,city_id=2988507,forecast=3h humidity=69i,pressure=1020.38,rain=0,temperature=5.650000000000034,wind_degrees=268.456,wind_speed=5.83 1556398800000000000
> weather,city_id=2988507,forecast=* humidity=69i,pressure=1020.38,rain=0,temperature=5.650000000000034,wind_degrees=268.456,wind_speed=5.83 1556398800000000000
> weather,city_id=2988507,forecast=6h humidity=74i,pressure=1020.87,rain=0,temperature=5.810000000000002,wind_degrees=261.296,wind_speed=5.43 1556409600000000000
> weather,city_id=2988507,forecast=* humidity=74i,pressure=1020.87,rain=0,temperature=5.810000000000002,wind_degrees=261.296,wind_speed=5.43 1556409600000000000
> weather,city_id=4303602,forecast=9h humidity=66i,pressure=1010.63,rain=0,temperature=14.740000000000009,wind_degrees=196.264,wind_speed=4.3 1556398800000000000
> weather,city_id=4303602,forecast=* humidity=66i,pressure=1010.63,rain=0,temperature=14.740000000000009,wind_degrees=196.264,wind_speed=4.3 1556398800000000000
```

305
plugins/inputs/openweathermap/openweathermap.go Normal file
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@ -0,0 +1,305 @@
package openweathermap
import (
"bufio"
"encoding/json"
"fmt"
"net/http"
"net/url"
"strconv"
"strings"
"sync"
"time"
"github.com/influxdata/telegraf"
"github.com/influxdata/telegraf/internal"
"github.com/influxdata/telegraf/plugins/inputs"
)
type OpenWeatherMap struct {
BaseUrl string
AppId string
CityId []string
client *http.Client
ResponseTimeout internal.Duration
Fetch []string
Units string
}
// https://openweathermap.org/current#severalid
// Call for several city IDs
// The limit of locations is 20.
const owmRequestSeveralCityId int = 20
const defaultResponseTimeout time.Duration = time.Second * 5
const defaultUnits string = "metric"
var sampleConfig = `
## Root url of weather map REST API
base_url = "https://api.openweathermap.org/"
## Your personal user token from openweathermap.org
app_id = "xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx"
city_id = ["2988507", "2988588"]
## HTTP response timeout (default: 5s)
response_timeout = "5s"
fetch = ["weather", "forecast"]
units = "metric"
## Limit OpenWeatherMap query interval. See calls per minute info at: https://openweathermap.org/price
interval = "10m"
`
func (n *OpenWeatherMap) SampleConfig() string {
return sampleConfig
}
func (n *OpenWeatherMap) Description() string {
return "Read current weather and forecasts data from openweathermap.org"
}
func (n *OpenWeatherMap) Gather(acc telegraf.Accumulator) error {
var wg sync.WaitGroup
var strs []string
base, err := url.Parse(n.BaseUrl)
if err != nil {
return err
}
// Create an HTTP client that is re-used for each
// collection interval
if n.client == nil {
client, err := n.createHttpClient()
if err != nil {
return err
}
n.client = client
}
units := n.Units
if units == "" {
units = defaultUnits
}
for _, fetch := range n.Fetch {
if fetch == "forecast" {
var u *url.URL
var addr *url.URL
for _, city := range n.CityId {
u, err = url.Parse(fmt.Sprintf("/data/2.5/forecast?id=%s&APPID=%s&units=%s", city, n.AppId, units))
if err != nil {
acc.AddError(fmt.Errorf("Unable to parse address '%s': %s", u, err))
continue
}
addr = base.ResolveReference(u)
wg.Add(1)
go func(addr *url.URL) {
defer wg.Done()
acc.AddError(n.gatherUrl(addr, acc, true))
}(addr)
}
} else if fetch == "weather" {
j := 0
for j < len(n.CityId) {
var u *url.URL
var addr *url.URL
strs = make([]string, 0)
for i := 0; j < len(n.CityId) && i < owmRequestSeveralCityId; i++ {
strs = append(strs, n.CityId[j])
j++
}
cities := strings.Join(strs, ",")
u, err = url.Parse(fmt.Sprintf("/data/2.5/group?id=%s&APPID=%s&units=%s", cities, n.AppId, units))
if err != nil {
acc.AddError(fmt.Errorf("Unable to parse address '%s': %s", u, err))
continue
}
addr = base.ResolveReference(u)
wg.Add(1)
go func(addr *url.URL) {
defer wg.Done()
acc.AddError(n.gatherUrl(addr, acc, false))
}(addr)
}
}
}
wg.Wait()
return nil
}
func (n *OpenWeatherMap) createHttpClient() (*http.Client, error) {
if n.ResponseTimeout.Duration < time.Second {
n.ResponseTimeout.Duration = defaultResponseTimeout
}
client := &http.Client{
Transport: &http.Transport{},
Timeout: n.ResponseTimeout.Duration,
}
return client, nil
}
func (n *OpenWeatherMap) gatherUrl(addr *url.URL, acc telegraf.Accumulator, forecast bool) error {
resp, err := n.client.Get(addr.String())
if err != nil {
return fmt.Errorf("error making HTTP request to %s: %s", addr.String(), err)
}
defer resp.Body.Close()
if resp.StatusCode != http.StatusOK {
return fmt.Errorf("%s returned HTTP status %s", addr.String(), resp.Status)
}
contentType := strings.Split(resp.Header.Get("Content-Type"), ";")[0]
switch contentType {
case "application/json":
err = gatherWeatherUrl(bufio.NewReader(resp.Body), forecast, acc)
return err
default:
return fmt.Errorf("%s returned unexpected content type %s", addr.String(), contentType)
}
}
type WeatherEntry struct {
Dt int64 `json:"dt"`
Dttxt string `json:"dt_txt"` // empty for weather/
Clouds struct {
All int64 `json:"all"`
} `json:"clouds"`
Main struct {
GrndLevel float64 `json:"grnd_level"` // empty for weather/
Humidity int64 `json:"humidity"`
SeaLevel float64 `json:"sea_level"` // empty for weather/
Pressure float64 `json:"pressure"`
Temp float64 `json:"temp"`
TempMax float64 `json:"temp_max"`
TempMin float64 `json:"temp_min"`
} `json:"main"`
Rain struct {
Rain3 float64 `json:"3h"`
} `json:"rain"`
Sys struct {
Pod string `json:"pod"`
Country string `json:"country"`
Message float64 `json:"message"`
Id int64 `json:"id"`
Type int64 `json:"type"`
Sunrise int64 `json:"sunrise"`
Sunset int64 `json:"sunset"`
} `json:"sys"`
Wind struct {
Deg float64 `json:"deg"`
Speed float64 `json:"speed"`
} `json:"wind"`
Weather []struct {
Description string `json:"description"`
Icon string `json:"icon"`
Id int64 `json:"id"`
Main string `json:"main"`
} `json:"weather"`
// Additional entries for weather/
Id int64 `json:"id"`
Name string `json:"name"`
Coord struct {
Lat float64 `json:"lat"`
Lon float64 `json:"lon"`
} `json:"coord"`
Visibility int64 `json:"visibility"`
}
type Status struct {
City struct {
Coord struct {
Lat float64 `json:"lat"`
Lon float64 `json:"lon"`
} `json:"coord"`
Country string `json:"country"`
Id int64 `json:"id"`
Name string `json:"name"`
} `json:"city"`
List []WeatherEntry `json:"list"`
}
func gatherWeatherUrl(r *bufio.Reader, forecast bool, acc telegraf.Accumulator) error {
dec := json.NewDecoder(r)
status := &Status{}
if err := dec.Decode(status); err != nil {
return fmt.Errorf("Error while decoding JSON response: %s", err)
}
status.Gather(forecast, acc)
return nil
}
func (s *Status) Gather(forecast bool, acc telegraf.Accumulator) {
tags := map[string]string{
"city_id": strconv.FormatInt(s.City.Id, 10),
"forecast": "*",
}
for i, e := range s.List {
tm := time.Unix(e.Dt, 0)
if e.Id > 0 {
tags["city_id"] = strconv.FormatInt(e.Id, 10)
}
if forecast {
tags["forecast"] = fmt.Sprintf("%dh", (i+1)*3)
}
acc.AddFields(
"weather",
map[string]interface{}{
"rain": e.Rain.Rain3,
"wind_degrees": e.Wind.Deg,
"wind_speed": e.Wind.Speed,
"humidity": e.Main.Humidity,
"pressure": e.Main.Pressure,
"temperature": e.Main.Temp,
},
tags,
tm)
}
if forecast {
// intentional: overwrite future data points
// under the * tag
tags := map[string]string{
"city_id": strconv.FormatInt(s.City.Id, 10),
"forecast": "*",
}
for _, e := range s.List {
tm := time.Unix(e.Dt, 0)
if e.Id > 0 {
tags["city_id"] = strconv.FormatInt(e.Id, 10)
}
acc.AddFields(
"weather",
map[string]interface{}{
"rain": e.Rain.Rain3,
"wind_degrees": e.Wind.Deg,
"wind_speed": e.Wind.Speed,
"humidity": e.Main.Humidity,
"pressure": e.Main.Pressure,
"temperature": e.Main.Temp,
},
tags,
tm)
}
}
}
func init() {
inputs.Add("openweathermap", func() telegraf.Input {
tmout := internal.Duration{
Duration: defaultResponseTimeout,
}
return &OpenWeatherMap{
ResponseTimeout: tmout,
Units: defaultUnits,
}
})
}

482
plugins/inputs/openweathermap/openweathermap_test.go Normal file
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@ -0,0 +1,482 @@
package openweathermap
import (
"fmt"
"net/http"
"net/http/httptest"
"testing"
"time"
"github.com/influxdata/telegraf/testutil"
"github.com/stretchr/testify/require"
)
const sampleNoContent = `
{
}
`
const sampleStatusResponse = `
{
"city": {
"coord": {
"lat": 48.8534,
"lon": 2.3488
},
"country": "FR",
"id": 2988507,
"name": "Paris"
},
"cnt": 40,
"cod": "200",
"list": [
{
"clouds": {
"all": 88
},
"dt": 1543622400,
"dt_txt": "2018-12-01 00:00:00",
"main": {
"grnd_level": 1018.65,
"humidity": 91,
"pressure": 1018.65,
"sea_level": 1030.99,
"temp": 6.71,
"temp_kf": -2.14
},
"rain": {
"3h": 0.035
},
"sys": {
"pod": "n"
},
"weather": [
{
"description": "light rain",
"icon": "10n",
"id": 500,
"main": "Rain"
}
],
"wind": {
"deg": 228.501,
"speed": 3.76
}
},
{
"clouds": {
"all": 92
},
"dt": 1544043600,
"dt_txt": "2018-12-05 21:00:00",
"main": {
"grnd_level": 1032.18,
"humidity": 98,
"pressure": 1032.18,
"sea_level": 1044.78,
"temp": 6.38,
"temp_kf": 0
},
"rain": {
"3h": 0.049999999999997
},
"sys": {
"pod": "n"
},
"weather": [
{
"description": "light rain",
"icon": "10n",
"id": 500,
"main": "Rain"
}
],
"wind": {
"deg": 335.005,
"speed": 2.66
}
}
],
"message": 0.0025
}
`
const groupWeatherResponse = `
{
"cnt": 1,
"list": [{
"coord": {
"lat": 48.85,
"lon": 2.35
},
"dt": 1544194800,
"id": 2988507,
"main": {
"humidity": 87,
"pressure": 1007,
"temp": 9.25
},
"name": "Paris",
"sys": {
"country": "FR",
"id": 6550,
"message": 0.002,
"sunrise": 1544167818,
"sunset": 1544198047,
"type": 1
},
"visibility": 10000,
"weather": [
{
"description": "light intensity drizzle",
"icon": "09d",
"id": 300,
"main": "Drizzle"
}
],
"wind": {
"deg": 290,
"speed": 8.7
}
}]
}
`
const batchWeatherResponse = `
{
"cnt": 3,
"list": [{
"coord": {
"lon": 37.62,
"lat": 55.75
},
"sys": {
"type": 1,
"id": 9029,
"message": 0.0061,
"country": "RU",
"sunrise": 1556416455,
"sunset": 1556470779
},
"weather": [{
"id": 802,
"main": "Clouds",
"description": "scattered clouds",
"icon": "03d"
}],
"main": {
"temp": 9.57,
"pressure": 1014,
"humidity": 46
},
"visibility": 10000,
"wind": {
"speed": 5,
"deg": 60
},
"clouds": {
"all": 40
},
"dt": 1556444155,
"id": 524901,
"name": "Moscow"
}, {
"coord": {
"lon": 30.52,
"lat": 50.43
},
"sys": {
"type": 1,
"id": 8903,
"message": 0.0076,
"country": "UA",
"sunrise": 1556419155,
"sunset": 1556471486
},
"weather": [{
"id": 520,
"main": "Rain",
"description": "light intensity shower rain",
"icon": "09d"
}],
"main": {
"temp": 19.29,
"pressure": 1009,
"humidity": 63
},
"visibility": 10000,
"wind": {
"speed": 1
},
"clouds": {
"all": 0
},
"dt": 1556444155,
"id": 703448,
"name": "Kiev"
}, {
"coord": {
"lon": -0.13,
"lat": 51.51
},
"sys": {
"type": 1,
"id": 1414,
"message": 0.0088,
"country": "GB",
"sunrise": 1556426319,
"sunset": 1556479032
},
"weather": [{
"id": 803,
"main": "Clouds",
"description": "broken clouds",
"icon": "04d"
}],
"main": {
"temp": 10.62,
"pressure": 1019,
"humidity": 66
},
"visibility": 10000,
"wind": {
"speed": 6.2,
"deg": 290
},
"rain": {
"3h": 0.072
},
"clouds": {
"all": 75
},
"dt": 1556444155,
"id": 2643743,
"name": "London"
}]
}
`
func TestForecastGeneratesMetrics(t *testing.T) {
ts := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
var rsp string
if r.URL.Path == "/data/2.5/forecast" {
rsp = sampleStatusResponse
w.Header()["Content-Type"] = []string{"application/json"}
} else if r.URL.Path == "/data/2.5/group" {
rsp = sampleNoContent
} else {
panic("Cannot handle request")
}
fmt.Fprintln(w, rsp)
}))
defer ts.Close()
n := &OpenWeatherMap{
BaseUrl: ts.URL,
AppId: "noappid",
CityId: []string{"2988507"},
Fetch: []string{"weather", "forecast"},
Units: "metric",
}
var acc testutil.Accumulator
err_openweathermap := n.Gather(&acc)
require.NoError(t, err_openweathermap)
for _, forecast_tag := range []string{"*", "3h"} {
acc.AssertContainsTaggedFields(
t,
"weather",
map[string]interface{}{
"humidity": int64(91),
"pressure": 1018.65,
"temperature": 6.71,
"rain": 0.035,
"wind_degrees": 228.501,
"wind_speed": 3.76,
},
map[string]string{
"city_id": "2988507",
"forecast": forecast_tag,
})
}
for _, forecast_tag := range []string{"*", "6h"} {
acc.AssertContainsTaggedFields(
t,
"weather",
map[string]interface{}{
"humidity": int64(98),
"pressure": 1032.18,
"temperature": 6.38,
"rain": 0.049999999999997,
"wind_degrees": 335.005,
"wind_speed": 2.66,
},
map[string]string{
"city_id": "2988507",
"forecast": forecast_tag,
})
}
}
func TestWeatherGeneratesMetrics(t *testing.T) {
ts := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
var rsp string
if r.URL.Path == "/data/2.5/group" {
rsp = groupWeatherResponse
w.Header()["Content-Type"] = []string{"application/json"}
} else if r.URL.Path == "/data/2.5/forecast" {
rsp = sampleNoContent
} else {
panic("Cannot handle request")
}
fmt.Fprintln(w, rsp)
}))
defer ts.Close()
n := &OpenWeatherMap{
BaseUrl: ts.URL,
AppId: "noappid",
CityId: []string{"2988507"},
Fetch: []string{"weather"},
Units: "metric",
}
var acc testutil.Accumulator
err_openweathermap := n.Gather(&acc)
require.NoError(t, err_openweathermap)
acc.AssertContainsTaggedFields(
t,
"weather",
map[string]interface{}{
"humidity": int64(87),
"pressure": 1007.0,
"temperature": 9.25,
"wind_degrees": 290.0,
"wind_speed": 8.7,
"rain": 0.0,
},
map[string]string{
"city_id": "2988507",
"forecast": "*",
})
}
func TestBatchWeatherGeneratesMetrics(t *testing.T) {
ts := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
var rsp string
if r.URL.Path == "/data/2.5/group" {
rsp = batchWeatherResponse
w.Header()["Content-Type"] = []string{"application/json"}
} else if r.URL.Path == "/data/2.5/forecast" {
rsp = sampleNoContent
} else {
panic("Cannot handle request")
}
fmt.Fprintln(w, rsp)
}))
defer ts.Close()
n := &OpenWeatherMap{
BaseUrl: ts.URL,
AppId: "noappid",
CityId: []string{"524901", "703448", "2643743"},
Fetch: []string{"weather"},
Units: "metric",
}
var acc testutil.Accumulator
err_openweathermap := n.Gather(&acc)
require.NoError(t, err_openweathermap)
acc.AssertContainsTaggedFields(
t,
"weather",
map[string]interface{}{
"humidity": int64(46),
"pressure": 1014.0,
"temperature": 9.57,
"wind_degrees": 60.0,
"wind_speed": 5.0,
"rain": 0.0,
},
map[string]string{
"city_id": "524901",
"forecast": "*",
})
acc.AssertContainsTaggedFields(
t,
"weather",
map[string]interface{}{
"humidity": int64(63),
"pressure": 1009.0,
"temperature": 19.29,
"wind_degrees": 0.0,
"wind_speed": 1.0,
"rain": 0.0,
},
map[string]string{
"city_id": "703448",
"forecast": "*",
})
acc.AssertContainsTaggedFields(
t,
"weather",
map[string]interface{}{
"humidity": int64(66),
"pressure": 1019.0,
"temperature": 10.62,
"wind_degrees": 290.0,
"wind_speed": 6.2,
"rain": 0.072,
},
map[string]string{
"city_id": "2643743",
"forecast": "*",
})
}
func TestResponseTimeout(t *testing.T) {
ts := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
var rsp string
if r.URL.Path == "/data/2.5/group" {
rsp = groupWeatherResponse
w.Header()["Content-Type"] = []string{"application/json"}
} else if r.URL.Path == "/data/2.5/forecast" {
rsp = sampleStatusResponse
w.Header()["Content-Type"] = []string{"application/json"}
} else {
panic("Cannot handle request")
}
time.Sleep(time.Second * 6) // Cause timeout
fmt.Fprintln(w, rsp)
}))
defer ts.Close()
n := &OpenWeatherMap{
BaseUrl: ts.URL,
AppId: "noappid",
CityId: []string{"2988507"},
Fetch: []string{"weather"},
Units: "metric",
}
var acc testutil.Accumulator
err_openweathermap := n.Gather(&acc)
require.NoError(t, err_openweathermap)
acc.AssertDoesNotContainMeasurement(
t,
"weather",
)
}

26
testutil/accumulator.go
View File

@ -320,6 +320,26 @@ func (a *Accumulator) WaitError(n int) {
a.Unlock() a.Unlock()
} }
func (a *Accumulator) assertContainsTaggedFields(
t *testing.T,
measurement string,
fields map[string]interface{},
tags map[string]string,
) {
for _, p := range a.Metrics {
if !reflect.DeepEqual(tags, p.Tags) {
continue
}
if p.Measurement == measurement {
assert.Equal(t, fields, p.Fields)
return
}
}
msg := fmt.Sprintf("unknown measurement %s with tags %v", measurement, tags)
assert.Fail(t, msg)
}
func (a *Accumulator) AssertContainsTaggedFields( func (a *Accumulator) AssertContainsTaggedFields(
t *testing.T, t *testing.T,
measurement string, measurement string,
@ -333,13 +353,11 @@ func (a *Accumulator) AssertContainsTaggedFields(
continue continue
} }
if p.Measurement == measurement { if p.Measurement == measurement && reflect.DeepEqual(fields, p.Fields) {
assert.Equal(t, fields, p.Fields)
return return
} }
} }
msg := fmt.Sprintf("unknown measurement %s with tags %v", measurement, tags) a.assertContainsTaggedFields(t, measurement, fields, tags)
assert.Fail(t, msg)
} }
func (a *Accumulator) AssertDoesNotContainsTaggedFields( func (a *Accumulator) AssertDoesNotContainsTaggedFields(