package storage import ( "fmt" "reflect" "testing" ) func TestMetricNameSortTags(t *testing.T) { testMetricNameSortTags(t, []string{}, []string{}) testMetricNameSortTags(t, []string{"foo"}, []string{"foo"}) testMetricNameSortTags(t, []string{"job"}, []string{"job"}) testMetricNameSortTags(t, []string{"server"}, []string{"server"}) testMetricNameSortTags(t, []string{"host", "foo", "bar", "service"}, []string{"service", "host", "bar", "foo"}) testMetricNameSortTags(t, []string{"model", "foo", "job", "host", "server", "instance"}, []string{"job", "model", "instance", "host", "server", "foo"}) } func testMetricNameSortTags(t *testing.T, tags, expectedTags []string) { t.Helper() var mn MetricName for _, t := range tags { mn.AddTag(t, "") } mn.sortTags() resultTags := []string{} for i := range mn.Tags { resultTags = append(resultTags, string(mn.Tags[i].Key)) } if !reflect.DeepEqual(resultTags, expectedTags) { t.Fatalf("unexpected resultTags\ngot\n%q\nwant\n%q", resultTags, expectedTags) } } func TestMetricNameMarshalUnmarshal(t *testing.T) { for i := 0; i < 10; i++ { for tagsCount := 0; tagsCount < 10; tagsCount++ { var mn MetricName for j := 0; j < tagsCount; j++ { key := fmt.Sprintf("key_%d_%d_\x00\x01\x02", i, j) value := fmt.Sprintf("\x02\x00\x01value_%d_%d", i, j) mn.AddTag(key, value) } mn.sortTags() data := mn.Marshal(nil) var mn1 MetricName if err := mn1.Unmarshal(data); err != nil { t.Fatalf("cannot unmarshal mn %s: %s", &mn, err) } if !reflect.DeepEqual(&mn, &mn1) { t.Fatalf("unexpected mn unmarshaled;\ngot\n%+v\nwant\n%+v", &mn1, &mn) } // Try unmarshaling MetricName without tag value. brokenData := marshalTagValue(data, []byte("foobar")) if err := mn1.Unmarshal(brokenData); err == nil { t.Fatalf("expecting non-zero error when unmarshaling MetricName without tag value") } // Try unmarshaling MetricName with invalid tag key. brokenData[len(brokenData)-1] = 123 if err := mn1.Unmarshal(brokenData); err == nil { t.Fatalf("expecting non-zero error when unmarshaling MetricName with invalid tag key") } // Try unmarshaling MetricName with invalid tag value. brokenData = marshalTagValue(data, []byte("foobar")) brokenData = marshalTagValue(brokenData, []byte("aaa")) brokenData[len(brokenData)-1] = 123 if err := mn1.Unmarshal(brokenData); err == nil { t.Fatalf("expecting non-zero error when unmarshaling MetricName with invalid tag value") } } } } func TestMetricNameMarshalUnmarshalRaw(t *testing.T) { for i := 0; i < 10; i++ { for tagsCount := 0; tagsCount < 10; tagsCount++ { var mn MetricName for j := 0; j < tagsCount; j++ { key := fmt.Sprintf("key_%d_%d_\x00\x01\x02", i, j) value := fmt.Sprintf("\x02\x00\x01value_%d_%d", i, j) mn.AddTag(key, value) } data := mn.marshalRaw(nil) var mn1 MetricName if err := mn1.unmarshalRaw(data); err != nil { t.Fatalf("cannot unmarshal mn %s: %s", &mn, err) } if !reflect.DeepEqual(&mn, &mn1) { t.Fatalf("unexpected mn unmarshaled;\ngot\n%+v\nwant\n%+v", &mn1, &mn) } // Try unmarshaling MetricName without tag value. brokenData := marshalTagValue(data, []byte("foobar")) if err := mn1.unmarshalRaw(brokenData); err == nil { t.Fatalf("expecting non-zero error when unmarshaling MetricName without tag value") } // Try unmarshaling MetricName with invalid tag key. brokenData[len(brokenData)-1] = 123 if err := mn1.unmarshalRaw(brokenData); err == nil { t.Fatalf("expecting non-zero error when unmarshaling MetricName with invalid tag key") } // Try unmarshaling MetricName with invalid tag value. brokenData = marshalTagValue(data, []byte("foobar")) brokenData = marshalTagValue(brokenData, []byte("aaa")) brokenData[len(brokenData)-1] = 123 if err := mn1.unmarshalRaw(brokenData); err == nil { t.Fatalf("expecting non-zero error when unmarshaling MetricName with invalid tag value") } } } }