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The open and composable observability and data visualization platform. Visualize metrics, logs, and traces from multiple sources like Prometheus, Loki, Elasticsearch, InfluxDB, Postgres and many more.
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grafana/pkg/tsdb/cloudwatch/request_parser_test.go

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package cloudwatch
import (
"testing"
"github.com/grafana/grafana/pkg/components/simplejson"
"github.com/grafana/grafana/pkg/tsdb"
. "github.com/smartystreets/goconvey/convey"
)
func TestRequestParser(t *testing.T) {
Convey("TestRequestParser", t, func() {
timeRange := tsdb.NewTimeRange("now-1h", "now-2h")
from, _ := timeRange.ParseFrom()
to, _ := timeRange.ParseTo()
Convey("when parsing query editor row json", func() {
Convey("using new dimensions structure", func() {
query := simplejson.NewFromAny(map[string]interface{}{
"refId": "ref1",
"region": "us-east-1",
"namespace": "ec2",
"metricName": "CPUUtilization",
"id": "",
"expression": "",
"dimensions": map[string]interface{}{
"InstanceId": []interface{}{"test"},
"InstanceType": []interface{}{"test2", "test3"},
},
"statistics": []interface{}{"Average"},
"period": "600",
"hide": false,
})
res, err := parseRequestQuery(query, "ref1", from, to)
So(err, ShouldBeNil)
So(res.Region, ShouldEqual, "us-east-1")
So(res.RefId, ShouldEqual, "ref1")
So(res.Namespace, ShouldEqual, "ec2")
So(res.MetricName, ShouldEqual, "CPUUtilization")
So(res.Id, ShouldEqual, "")
So(res.Expression, ShouldEqual, "")
So(res.Period, ShouldEqual, 600)
So(res.ReturnData, ShouldEqual, true)
So(len(res.Dimensions), ShouldEqual, 2)
So(len(res.Dimensions["InstanceId"]), ShouldEqual, 1)
So(len(res.Dimensions["InstanceType"]), ShouldEqual, 2)
So(res.Dimensions["InstanceType"][1], ShouldEqual, "test3")
So(len(res.Statistics), ShouldEqual, 1)
So(*res.Statistics[0], ShouldEqual, "Average")
})
Convey("using old dimensions structure (backwards compatibility)", func() {
query := simplejson.NewFromAny(map[string]interface{}{
"refId": "ref1",
"region": "us-east-1",
"namespace": "ec2",
"metricName": "CPUUtilization",
"id": "",
"expression": "",
"dimensions": map[string]interface{}{
"InstanceId": "test",
"InstanceType": "test2",
},
"statistics": []interface{}{"Average"},
"period": "600",
"hide": false,
})
res, err := parseRequestQuery(query, "ref1", from, to)
So(err, ShouldBeNil)
So(res.Region, ShouldEqual, "us-east-1")
So(res.RefId, ShouldEqual, "ref1")
So(res.Namespace, ShouldEqual, "ec2")
So(res.MetricName, ShouldEqual, "CPUUtilization")
So(res.Id, ShouldEqual, "")
So(res.Expression, ShouldEqual, "")
So(res.Period, ShouldEqual, 600)
So(res.ReturnData, ShouldEqual, true)
So(len(res.Dimensions), ShouldEqual, 2)
So(len(res.Dimensions["InstanceId"]), ShouldEqual, 1)
So(len(res.Dimensions["InstanceType"]), ShouldEqual, 1)
So(res.Dimensions["InstanceType"][0], ShouldEqual, "test2")
So(*res.Statistics[0], ShouldEqual, "Average")
})
Convey("period defined in the editor by the user is being used", func() {
query := simplejson.NewFromAny(map[string]interface{}{
"refId": "ref1",
"region": "us-east-1",
"namespace": "ec2",
"metricName": "CPUUtilization",
"id": "",
"expression": "",
"dimensions": map[string]interface{}{
"InstanceId": "test",
"InstanceType": "test2",
},
"statistics": []interface{}{"Average"},
"hide": false,
})
Convey("when time range is short", func() {
query.Set("period", "900")
timeRange := tsdb.NewTimeRange("now-1h", "now-2h")
from, _ := timeRange.ParseFrom()
to, _ := timeRange.ParseTo()
res, err := parseRequestQuery(query, "ref1", from, to)
So(err, ShouldBeNil)
So(res.Period, ShouldEqual, 900)
})
})
Convey("period is parsed correctly if not defined by user", func() {
query := simplejson.NewFromAny(map[string]interface{}{
"refId": "ref1",
"region": "us-east-1",
"namespace": "ec2",
"metricName": "CPUUtilization",
"id": "",
"expression": "",
"dimensions": map[string]interface{}{
"InstanceId": "test",
"InstanceType": "test2",
},
"statistics": []interface{}{"Average"},
"hide": false,
"period": "auto",
})
Convey("when time range is short", func() {
query.Set("period", "auto")
timeRange := tsdb.NewTimeRange("now-2h", "now-1h")
from, _ := timeRange.ParseFrom()
to, _ := timeRange.ParseTo()
res, err := parseRequestQuery(query, "ref1", from, to)
So(err, ShouldBeNil)
So(res.Period, ShouldEqual, 60)
})
Convey("when time range is 5y", func() {
timeRange := tsdb.NewTimeRange("now-5y", "now")
from, _ := timeRange.ParseFrom()
to, _ := timeRange.ParseTo()
res, err := parseRequestQuery(query, "ref1", from, to)
So(err, ShouldBeNil)
So(res.Period, ShouldEqual, 21600)
})
})
Convey("closest works as expected", func() {
periods := []int{60, 300, 900, 3600, 21600}
Convey("and input is lower than 60", func() {
So(closest(periods, 6), ShouldEqual, 60)
})
Convey("and input is exactly 60", func() {
So(closest(periods, 60), ShouldEqual, 60)
})
Convey("and input is exactly between two steps", func() {
So(closest(periods, 180), ShouldEqual, 300)
})
Convey("and input is exactly 2000", func() {
So(closest(periods, 2000), ShouldEqual, 900)
})
Convey("and input is exactly 5000", func() {
So(closest(periods, 5000), ShouldEqual, 3600)
})
Convey("and input is exactly 50000", func() {
So(closest(periods, 50000), ShouldEqual, 21600)
})
Convey("and period isn't shorter than min retension for 15 days", func() {
So(closest(periods, (60*60*24*15)+1/2000), ShouldBeGreaterThanOrEqualTo, 300)
})
Convey("and period isn't shorter than min retension for 63 days", func() {
So(closest(periods, (60*60*24*63)+1/2000), ShouldBeGreaterThanOrEqualTo, 3600)
})
Convey("and period isn't shorter than min retension for 455 days", func() {
So(closest(periods, (60*60*24*455)+1/2000), ShouldBeGreaterThanOrEqualTo, 21600)
})
})
})
})
}