grafana/pkg/tsdb/cloudwatch/log_query_test.go
Arve Knudsen a5d9196a53
Chore/fix lint issues (#27704)
* Chore: Fix linting issues

Signed-off-by: Arve Knudsen <arve.knudsen@gmail.com>
2020-09-22 16:22:19 +02:00

489 lines
12 KiB
Go

package cloudwatch
import (
"testing"
"time"
"github.com/aws/aws-sdk-go/aws"
"github.com/aws/aws-sdk-go/service/cloudwatchlogs"
"github.com/grafana/grafana-plugin-sdk-go/data"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
)
// ***
// LogQuery tests
// ***
func TestLogsResultsToDataframes(t *testing.T) {
fakeCloudwatchResponse := &cloudwatchlogs.GetQueryResultsOutput{
Results: [][]*cloudwatchlogs.ResultField{
{
&cloudwatchlogs.ResultField{
Field: aws.String("@ptr"),
Value: aws.String("fake ptr"),
},
&cloudwatchlogs.ResultField{
Field: aws.String("@timestamp"),
Value: aws.String("2020-03-02 15:04:05.000"),
},
&cloudwatchlogs.ResultField{
Field: aws.String("line"),
Value: aws.String("test message 1"),
},
&cloudwatchlogs.ResultField{
Field: aws.String("@logStream"),
Value: aws.String("fakelogstream"),
},
&cloudwatchlogs.ResultField{
Field: aws.String("@log"),
Value: aws.String("fakelog"),
},
&cloudwatchlogs.ResultField{
Field: aws.String(logStreamIdentifierInternal),
Value: aws.String("fakelogstream"),
},
&cloudwatchlogs.ResultField{
Field: aws.String(logIdentifierInternal),
Value: aws.String("fakelog"),
},
},
{
&cloudwatchlogs.ResultField{
Field: aws.String("@ptr"),
Value: aws.String("fake ptr"),
},
&cloudwatchlogs.ResultField{
Field: aws.String("@timestamp"),
Value: aws.String("2020-03-02 16:04:05.000"),
},
&cloudwatchlogs.ResultField{
Field: aws.String("line"),
Value: aws.String("test message 2"),
},
&cloudwatchlogs.ResultField{
Field: aws.String("@logStream"),
Value: aws.String("fakelogstream"),
},
&cloudwatchlogs.ResultField{
Field: aws.String("@log"),
Value: aws.String("fakelog"),
},
&cloudwatchlogs.ResultField{
Field: aws.String(logStreamIdentifierInternal),
Value: aws.String("fakelogstream"),
},
&cloudwatchlogs.ResultField{
Field: aws.String(logIdentifierInternal),
Value: aws.String("fakelog"),
},
},
// Sometimes cloudwatch returns empty row
{},
// or rows with only timestamp
{
&cloudwatchlogs.ResultField{
Field: aws.String("@timestamp"),
Value: aws.String("2020-03-02 17:04:05.000"),
},
},
{
&cloudwatchlogs.ResultField{
Field: aws.String("@ptr"),
Value: aws.String("fake ptr"),
},
&cloudwatchlogs.ResultField{
Field: aws.String("@timestamp"),
Value: aws.String("2020-03-02 17:04:05.000"),
},
&cloudwatchlogs.ResultField{
Field: aws.String("line"),
Value: aws.String("test message 3"),
},
&cloudwatchlogs.ResultField{
Field: aws.String("@logStream"),
Value: aws.String("fakelogstream"),
},
&cloudwatchlogs.ResultField{
Field: aws.String("@log"),
Value: aws.String("fakelog"),
},
&cloudwatchlogs.ResultField{
Field: aws.String(logStreamIdentifierInternal),
Value: aws.String("fakelogstream"),
},
&cloudwatchlogs.ResultField{
Field: aws.String(logIdentifierInternal),
Value: aws.String("fakelog"),
},
},
},
Status: aws.String("ok"),
Statistics: &cloudwatchlogs.QueryStatistics{
BytesScanned: aws.Float64(2000),
RecordsMatched: aws.Float64(3),
RecordsScanned: aws.Float64(5000),
},
}
dataframes, err := logsResultsToDataframes(fakeCloudwatchResponse)
require.NoError(t, err)
timeA, err := time.Parse("2006-01-02 15:04:05.000", "2020-03-02 15:04:05.000")
require.NoError(t, err)
timeB, err := time.Parse("2006-01-02 15:04:05.000", "2020-03-02 16:04:05.000")
require.NoError(t, err)
timeC, err := time.Parse("2006-01-02 15:04:05.000", "2020-03-02 17:04:05.000")
require.NoError(t, err)
timeVals := []*time.Time{
&timeA, &timeB, &timeC,
}
timeField := data.NewField("@timestamp", nil, timeVals)
timeField.SetConfig(&data.FieldConfig{DisplayName: "Time"})
lineField := data.NewField("line", nil, []*string{
aws.String("test message 1"),
aws.String("test message 2"),
aws.String("test message 3"),
})
logStreamField := data.NewField("@logStream", nil, []*string{
aws.String("fakelogstream"),
aws.String("fakelogstream"),
aws.String("fakelogstream"),
})
logField := data.NewField("@log", nil, []*string{
aws.String("fakelog"),
aws.String("fakelog"),
aws.String("fakelog"),
})
hiddenLogStreamField := data.NewField(logStreamIdentifierInternal, nil, []*string{
aws.String("fakelogstream"),
aws.String("fakelogstream"),
aws.String("fakelogstream"),
})
hiddenLogStreamField.SetConfig(&data.FieldConfig{
Custom: map[string]interface{}{
"hidden": true,
},
})
hiddenLogField := data.NewField(logIdentifierInternal, nil, []*string{
aws.String("fakelog"),
aws.String("fakelog"),
aws.String("fakelog"),
})
hiddenLogField.SetConfig(&data.FieldConfig{
Custom: map[string]interface{}{
"hidden": true,
},
})
expectedDataframe := &data.Frame{
Name: "CloudWatchLogsResponse",
Fields: []*data.Field{
timeField,
lineField,
logStreamField,
logField,
hiddenLogStreamField,
hiddenLogField,
},
RefID: "",
Meta: &data.FrameMeta{
Custom: map[string]interface{}{
"Status": "ok",
},
Stats: []data.QueryStat{
{
FieldConfig: data.FieldConfig{DisplayName: "Bytes scanned"},
Value: 2000,
},
{
FieldConfig: data.FieldConfig{DisplayName: "Records scanned"},
Value: 5000,
},
{
FieldConfig: data.FieldConfig{DisplayName: "Records matched"},
Value: 3,
},
},
},
}
// Splitting these assertions up so it's clearer what's wrong should the test
// fail in the future
assert.Equal(t, expectedDataframe.Name, dataframes.Name)
assert.Equal(t, expectedDataframe.RefID, dataframes.RefID)
assert.Equal(t, expectedDataframe.Meta, dataframes.Meta)
assert.ElementsMatch(t, expectedDataframe.Fields, dataframes.Fields)
}
func TestGroupKeyGeneration(t *testing.T) {
logField := data.NewField("@log", data.Labels{}, []*string{
aws.String("fakelog-a"),
aws.String("fakelog-b"),
aws.String("fakelog-c"),
nil,
})
streamField := data.NewField("stream", data.Labels{}, []*string{
aws.String("stream-a"),
aws.String("stream-b"),
aws.String("stream-c"),
aws.String("stream-d"),
})
fakeFields := []*data.Field{logField, streamField}
expectedKeys := []string{"fakelog-astream-a", "fakelog-bstream-b", "fakelog-cstream-c", "stream-d"}
assert.Equal(t, expectedKeys[0], generateGroupKey(fakeFields, 0))
assert.Equal(t, expectedKeys[1], generateGroupKey(fakeFields, 1))
assert.Equal(t, expectedKeys[2], generateGroupKey(fakeFields, 2))
assert.Equal(t, expectedKeys[3], generateGroupKey(fakeFields, 3))
}
func TestGroupingResults(t *testing.T) {
timeA, err := time.Parse("2006-01-02 15:04:05.000", "2020-03-02 15:04:05.000")
require.NoError(t, err)
timeB, err := time.Parse("2006-01-02 15:04:05.000", "2020-03-02 16:04:05.000")
require.NoError(t, err)
timeC, err := time.Parse("2006-01-02 15:04:05.000", "2020-03-02 17:04:05.000")
require.NoError(t, err)
timeVals := []*time.Time{
&timeA, &timeA, &timeA, &timeB, &timeB, &timeB, &timeC, &timeC, &timeC,
}
timeField := data.NewField("@timestamp", data.Labels{}, timeVals)
logField := data.NewField("@log", data.Labels{}, []*string{
aws.String("fakelog-a"),
aws.String("fakelog-b"),
aws.String("fakelog-c"),
aws.String("fakelog-a"),
aws.String("fakelog-b"),
aws.String("fakelog-c"),
aws.String("fakelog-a"),
aws.String("fakelog-b"),
aws.String("fakelog-c"),
})
countField := data.NewField("count", data.Labels{}, []*string{
aws.String("100"),
aws.String("150"),
aws.String("20"),
aws.String("34"),
aws.String("57"),
aws.String("62"),
aws.String("105"),
aws.String("200"),
aws.String("99"),
})
fakeDataFrame := &data.Frame{
Name: "CloudWatchLogsResponse",
Fields: []*data.Field{
timeField,
logField,
countField,
},
RefID: "",
}
groupedTimeVals := []*time.Time{
&timeA, &timeB, &timeC,
}
groupedTimeField := data.NewField("@timestamp", data.Labels{}, groupedTimeVals)
groupedLogFieldA := data.NewField("@log", data.Labels{}, []*string{
aws.String("fakelog-a"),
aws.String("fakelog-a"),
aws.String("fakelog-a"),
})
groupedCountFieldA := data.NewField("count", data.Labels{}, []*string{
aws.String("100"),
aws.String("34"),
aws.String("105"),
})
groupedLogFieldB := data.NewField("@log", data.Labels{}, []*string{
aws.String("fakelog-b"),
aws.String("fakelog-b"),
aws.String("fakelog-b"),
})
groupedCountFieldB := data.NewField("count", data.Labels{}, []*string{
aws.String("150"),
aws.String("57"),
aws.String("200"),
})
groupedLogFieldC := data.NewField("@log", data.Labels{}, []*string{
aws.String("fakelog-c"),
aws.String("fakelog-c"),
aws.String("fakelog-c"),
})
groupedCountFieldC := data.NewField("count", data.Labels{}, []*string{
aws.String("20"),
aws.String("62"),
aws.String("99"),
})
expectedGroupedFrames := []*data.Frame{
{
Name: "fakelog-a",
Fields: []*data.Field{
groupedTimeField,
groupedLogFieldA,
groupedCountFieldA,
},
RefID: "",
},
{
Name: "fakelog-b",
Fields: []*data.Field{
groupedTimeField,
groupedLogFieldB,
groupedCountFieldB,
},
RefID: "",
},
{
Name: "fakelog-c",
Fields: []*data.Field{
groupedTimeField,
groupedLogFieldC,
groupedCountFieldC,
},
RefID: "",
},
}
groupedResults, err := groupResults(fakeDataFrame, []string{"@log"})
require.NoError(t, err)
assert.ElementsMatch(t, expectedGroupedFrames, groupedResults)
}
func TestGroupingResultsWithNumericField(t *testing.T) {
timeA, err := time.Parse("2006-01-02 15:04:05.000", "2020-03-02 15:04:05.000")
require.NoError(t, err)
timeB, err := time.Parse("2006-01-02 15:04:05.000", "2020-03-02 16:04:05.000")
require.NoError(t, err)
timeC, err := time.Parse("2006-01-02 15:04:05.000", "2020-03-02 17:04:05.000")
require.NoError(t, err)
timeVals := []*time.Time{
&timeA, &timeA, &timeA, &timeB, &timeB, &timeB, &timeC, &timeC, &timeC,
}
timeField := data.NewField("@timestamp", data.Labels{}, timeVals)
httpResponseField := data.NewField("httpresponse", data.Labels{}, []*float64{
aws.Float64(400),
aws.Float64(404),
aws.Float64(500),
aws.Float64(400),
aws.Float64(404),
aws.Float64(500),
aws.Float64(400),
aws.Float64(404),
aws.Float64(500),
})
countField := data.NewField("count", data.Labels{}, []*string{
aws.String("100"),
aws.String("150"),
aws.String("20"),
aws.String("34"),
aws.String("57"),
aws.String("62"),
aws.String("105"),
aws.String("200"),
aws.String("99"),
})
fakeDataFrame := &data.Frame{
Name: "CloudWatchLogsResponse",
Fields: []*data.Field{
timeField,
httpResponseField,
countField,
},
RefID: "",
}
groupedTimeVals := []*time.Time{
&timeA, &timeB, &timeC,
}
groupedTimeField := data.NewField("@timestamp", data.Labels{}, groupedTimeVals)
groupedHttpResponseFieldA := data.NewField("httpresponse", data.Labels{}, []*string{
aws.String("400"),
aws.String("400"),
aws.String("400"),
})
groupedCountFieldA := data.NewField("count", data.Labels{}, []*string{
aws.String("100"),
aws.String("34"),
aws.String("105"),
})
groupedHttpResponseFieldB := data.NewField("httpresponse", data.Labels{}, []*string{
aws.String("404"),
aws.String("404"),
aws.String("404"),
})
groupedCountFieldB := data.NewField("count", data.Labels{}, []*string{
aws.String("150"),
aws.String("57"),
aws.String("200"),
})
groupedHttpResponseFieldC := data.NewField("httpresponse", data.Labels{}, []*string{
aws.String("500"),
aws.String("500"),
aws.String("500"),
})
groupedCountFieldC := data.NewField("count", data.Labels{}, []*string{
aws.String("20"),
aws.String("62"),
aws.String("99"),
})
expectedGroupedFrames := []*data.Frame{
{
Name: "400",
Fields: []*data.Field{
groupedTimeField,
groupedHttpResponseFieldA,
groupedCountFieldA,
},
RefID: "",
},
{
Name: "404",
Fields: []*data.Field{
groupedTimeField,
groupedHttpResponseFieldB,
groupedCountFieldB,
},
RefID: "",
},
{
Name: "500",
Fields: []*data.Field{
groupedTimeField,
groupedHttpResponseFieldC,
groupedCountFieldC,
},
RefID: "",
},
}
groupedResults, err := groupResults(fakeDataFrame, []string{"httpresponse"})
require.NoError(t, err)
assert.ElementsMatch(t, expectedGroupedFrames, groupedResults)
}