grafana/pkg/expr/nodes_test.go
Kyle Brandt 1df4d332c9
SSE: Use errutil to show better error messages in prod (#71658)
- include public message
- propagate data source query errors so they are shown as well to which fixes #70026
2023-07-21 06:38:29 -04:00

275 lines
8.7 KiB
Go

package expr
import (
"context"
"errors"
"fmt"
"testing"
"time"
"github.com/grafana/grafana-plugin-sdk-go/data"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
"github.com/grafana/grafana/pkg/expr/mathexp"
"github.com/grafana/grafana/pkg/infra/log/logtest"
"github.com/grafana/grafana/pkg/infra/tracing"
"github.com/grafana/grafana/pkg/services/datasources"
"github.com/grafana/grafana/pkg/services/featuremgmt"
"github.com/grafana/grafana/pkg/setting"
)
type expectedError struct{}
func (e expectedError) Error() string {
return "expected"
}
func TestQueryError_Error(t *testing.T) {
e := MakeQueryError("A", "", errors.New("this is an error message"))
assert.EqualError(t, e, "[sse.dataQueryError] failed to execute query [A]: this is an error message")
}
func TestQueryError_Unwrap(t *testing.T) {
t.Run("errors.Is", func(t *testing.T) {
expectedIsErr := errors.New("expected")
e := MakeQueryError("A", "", expectedIsErr)
assert.True(t, errors.Is(e, expectedIsErr))
})
t.Run("errors.As", func(t *testing.T) {
e := MakeQueryError("A", "", expectedError{})
var expectedAsError expectedError
assert.True(t, errors.As(e, &expectedAsError))
})
}
func TestCheckIfSeriesNeedToBeFixed(t *testing.T) {
createFrame := func(m ...func(field *data.Field)) []*data.Frame {
f := data.NewFrame("",
data.NewField("Time", nil, []time.Time{}))
for i := 0; i < 100; i++ {
fld := data.NewField(fmt.Sprintf("fld-%d", i), nil, []*float64{})
fld.Config = &data.FieldConfig{}
for _, change := range m {
change(fld)
}
f.Fields = append(f.Fields, fld)
}
return []*data.Frame{f}
}
withLabels := func(field *data.Field) {
field.Labels = map[string]string{
"field": field.Name,
}
}
withDisplayNameFromDS := func(field *data.Field) {
field.Config.DisplayNameFromDS = fmt.Sprintf("dnds-%s", field.Name)
}
withDisplayName := func(field *data.Field) {
field.Config.DisplayName = fmt.Sprintf("dn-%s", field.Name)
}
withoutName := func(field *data.Field) {
field.Name = ""
}
getLabelName := func(f func(series mathexp.Series, valueField *data.Field)) string {
s := mathexp.NewSeries("A", nil, 0)
field := &data.Field{
Name: "Name",
Config: &data.FieldConfig{
DisplayNameFromDS: "DisplayNameFromDS",
DisplayName: "DisplayName",
},
}
f(s, field)
return s.GetLabels()[nameLabelName]
}
testCases := []struct {
name string
frames []*data.Frame
expectedName string
}{
{
name: "should return nil if at least one value field has labels",
frames: createFrame(withLabels, withDisplayNameFromDS, withDisplayName),
expectedName: "",
},
{
name: "should return nil if names are empty",
frames: createFrame(withoutName),
expectedName: "",
},
{
name: "should return patcher with DisplayNameFromDS first",
frames: createFrame(withDisplayNameFromDS, withDisplayName),
expectedName: "DisplayNameFromDS",
},
{
name: "should return patcher with DisplayName if DisplayNameFromDS is not unique",
frames: func() []*data.Frame {
frames := createFrame(withDisplayNameFromDS, withDisplayName)
f := frames[0]
f.Fields[2].Config.DisplayNameFromDS = "test"
f.Fields[3].Config.DisplayNameFromDS = "test"
return frames
}(),
expectedName: "DisplayName",
},
{
name: "should return patcher with DisplayName if is empty",
frames: createFrame(withDisplayName),
expectedName: "DisplayName",
},
{
name: "should return patcher with Name if DisplayName and DisplayNameFromDS are not unique",
frames: func() []*data.Frame {
frames := createFrame(withDisplayNameFromDS, withDisplayName)
f := frames[0]
f.Fields[1].Config.DisplayNameFromDS = f.Fields[2].Config.DisplayNameFromDS
f.Fields[1].Config.DisplayName = f.Fields[2].Config.DisplayName
return frames
}(),
expectedName: "Name",
},
{
name: "should return patcher with Name if DisplayName and DisplayNameFromDS are empty",
frames: createFrame(),
expectedName: "Name",
},
{
name: "should return nil if all fields are not unique",
frames: func() []*data.Frame {
frames := createFrame(withDisplayNameFromDS, withDisplayName)
f := frames[0]
f.Fields[1].Config.DisplayNameFromDS = f.Fields[2].Config.DisplayNameFromDS
f.Fields[1].Config.DisplayName = f.Fields[2].Config.DisplayName
f.Fields[1].Name = f.Fields[2].Name
return frames
}(),
expectedName: "",
},
}
supportedDatasources := []string{
datasources.DS_GRAPHITE,
datasources.DS_TESTDATA,
}
for _, tc := range testCases {
t.Run(tc.name, func(t *testing.T) {
for _, datasource := range supportedDatasources {
fixer := checkIfSeriesNeedToBeFixed(tc.frames, datasource)
if tc.expectedName == "" {
require.Nil(t, fixer)
} else {
require.Equal(t, tc.expectedName, getLabelName(fixer))
}
}
})
}
}
func TestConvertDataFramesToResults(t *testing.T) {
s := &Service{
cfg: setting.NewCfg(),
features: &featuremgmt.FeatureManager{},
tracer: tracing.InitializeTracerForTest(),
metrics: newMetrics(nil),
}
t.Run("should add name label if no labels and specific data source", func(t *testing.T) {
supported := []string{datasources.DS_GRAPHITE, datasources.DS_TESTDATA}
t.Run("when only field name is specified", func(t *testing.T) {
t.Run("use value field names if one frame - many series", func(t *testing.T) {
supported := []string{datasources.DS_GRAPHITE, datasources.DS_TESTDATA}
frames := []*data.Frame{
data.NewFrame("test",
data.NewField("time", nil, []time.Time{time.Unix(1, 0)}),
data.NewField("test-value1", nil, []*float64{fp(2)}),
data.NewField("test-value2", nil, []*float64{fp(2)})),
}
for _, dtype := range supported {
t.Run(dtype, func(t *testing.T) {
resultType, res, err := convertDataFramesToResults(context.Background(), frames, dtype, s, &logtest.Fake{})
require.NoError(t, err)
assert.Equal(t, "single frame series", resultType)
require.Len(t, res.Values, 2)
var names []string
for _, value := range res.Values {
require.IsType(t, mathexp.Series{}, value)
lbls := value.GetLabels()
require.Contains(t, lbls, nameLabelName)
names = append(names, lbls[nameLabelName])
}
require.EqualValues(t, []string{"test-value1", "test-value2"}, names)
})
}
})
t.Run("should use frame name if one frame - one series", func(t *testing.T) {
frames := []*data.Frame{
data.NewFrame("test-frame1",
data.NewField("time", nil, []time.Time{time.Unix(1, 0)}),
data.NewField("test-value1", nil, []*float64{fp(2)})),
data.NewFrame("test-frame2",
data.NewField("time", nil, []time.Time{time.Unix(1, 0)}),
data.NewField("test-value2", nil, []*float64{fp(2)})),
}
for _, dtype := range supported {
t.Run(dtype, func(t *testing.T) {
resultType, res, err := convertDataFramesToResults(context.Background(), frames, dtype, s, &logtest.Fake{})
require.NoError(t, err)
assert.Equal(t, "multi frame series", resultType)
require.Len(t, res.Values, 2)
var names []string
for _, value := range res.Values {
require.IsType(t, mathexp.Series{}, value)
lbls := value.GetLabels()
require.Contains(t, lbls, nameLabelName)
names = append(names, lbls[nameLabelName])
}
require.EqualValues(t, []string{"test-frame1", "test-frame2"}, names)
})
}
})
})
t.Run("should use fields DisplayNameFromDS when it is unique", func(t *testing.T) {
f1 := data.NewField("test-value1", nil, []*float64{fp(2)})
f1.Config = &data.FieldConfig{DisplayNameFromDS: "test-value1"}
f2 := data.NewField("test-value2", nil, []*float64{fp(2)})
f2.Config = &data.FieldConfig{DisplayNameFromDS: "test-value2"}
frames := []*data.Frame{
data.NewFrame("test-frame1",
data.NewField("time", nil, []time.Time{time.Unix(1, 0)}),
f1),
data.NewFrame("test-frame2",
data.NewField("time", nil, []time.Time{time.Unix(1, 0)}),
f2),
}
for _, dtype := range supported {
t.Run(dtype, func(t *testing.T) {
resultType, res, err := convertDataFramesToResults(context.Background(), frames, dtype, s, &logtest.Fake{})
require.NoError(t, err)
assert.Equal(t, "multi frame series", resultType)
require.Len(t, res.Values, 2)
var names []string
for _, value := range res.Values {
require.IsType(t, mathexp.Series{}, value)
lbls := value.GetLabels()
require.Contains(t, lbls, nameLabelName)
names = append(names, lbls[nameLabelName])
}
require.EqualValues(t, []string{"test-value1", "test-value2"}, names)
})
}
})
})
}