package inframetrics import ( "context" "math" "sort" "go.signoz.io/signoz/pkg/query-service/app/metrics/v4/helpers" "go.signoz.io/signoz/pkg/query-service/common" "go.signoz.io/signoz/pkg/query-service/interfaces" "go.signoz.io/signoz/pkg/query-service/model" v3 "go.signoz.io/signoz/pkg/query-service/model/v3" "go.signoz.io/signoz/pkg/query-service/postprocess" "golang.org/x/exp/slices" ) var ( metricToUseForVolumes = "k8s_volume_available" volumeAttrsToEnrich = []string{ "k8s_pod_uid", "k8s_pod_name", "k8s_namespace_name", "k8s_node_name", "k8s_statefulset_name", "k8s_cluster_name", "k8s_persistentvolumeclaim_name", } k8sPersistentVolumeClaimNameAttrKey = "k8s_persistentvolumeclaim_name" queryNamesForVolumes = map[string][]string{ "available": {"A"}, "capacity": {"B", "A"}, "usage": {"F1", "B", "A"}, "inodes": {"C", "A"}, "inodes_free": {"D", "A"}, "inodes_used": {"E", "A"}, } volumeQueryNames = []string{"A", "B", "C", "D", "E", "F1"} metricNamesForVolumes = map[string]string{ "available": "k8s_volume_available", "capacity": "k8s_volume_capacity", "inodes": "k8s_volume_inodes", "inodes_free": "k8s_volume_inodes_free", "inodes_used": "k8s_volume_inodes_used", } ) type PvcsRepo struct { reader interfaces.Reader querierV2 interfaces.Querier } func NewPvcsRepo(reader interfaces.Reader, querierV2 interfaces.Querier) *PvcsRepo { return &PvcsRepo{reader: reader, querierV2: querierV2} } func (p *PvcsRepo) GetPvcAttributeKeys(ctx context.Context, req v3.FilterAttributeKeyRequest) (*v3.FilterAttributeKeyResponse, error) { req.DataSource = v3.DataSourceMetrics req.AggregateAttribute = metricToUseForVolumes if req.Limit == 0 { req.Limit = 50 } attributeKeysResponse, err := p.reader.GetMetricAttributeKeys(ctx, &req) if err != nil { return nil, err } // TODO(srikanthccv): only return resource attributes when we have a way to // distinguish between resource attributes and other attributes. filteredKeys := []v3.AttributeKey{} for _, key := range attributeKeysResponse.AttributeKeys { if slices.Contains(pointAttrsToIgnore, key.Key) { continue } filteredKeys = append(filteredKeys, key) } return &v3.FilterAttributeKeyResponse{AttributeKeys: filteredKeys}, nil } func (p *PvcsRepo) GetPvcAttributeValues(ctx context.Context, req v3.FilterAttributeValueRequest) (*v3.FilterAttributeValueResponse, error) { req.DataSource = v3.DataSourceMetrics req.AggregateAttribute = metricToUseForVolumes if req.Limit == 0 { req.Limit = 50 } attributeValuesResponse, err := p.reader.GetMetricAttributeValues(ctx, &req) if err != nil { return nil, err } return attributeValuesResponse, nil } func (p *PvcsRepo) getMetadataAttributes(ctx context.Context, req model.VolumeListRequest) (map[string]map[string]string, error) { volumeAttrs := map[string]map[string]string{} for _, key := range volumeAttrsToEnrich { hasKey := false for _, groupByKey := range req.GroupBy { if groupByKey.Key == key { hasKey = true break } } if !hasKey { req.GroupBy = append(req.GroupBy, v3.AttributeKey{Key: key}) } } mq := v3.BuilderQuery{ DataSource: v3.DataSourceMetrics, AggregateAttribute: v3.AttributeKey{ Key: metricToUseForVolumes, DataType: v3.AttributeKeyDataTypeFloat64, }, Temporality: v3.Unspecified, GroupBy: req.GroupBy, } query, err := helpers.PrepareTimeseriesFilterQuery(req.Start, req.End, &mq) if err != nil { return nil, err } query = localQueryToDistributedQuery(query) attrsListResponse, err := p.reader.GetListResultV3(ctx, query) if err != nil { return nil, err } for _, row := range attrsListResponse { stringData := map[string]string{} for key, value := range row.Data { if str, ok := value.(string); ok { stringData[key] = str } else if strPtr, ok := value.(*string); ok { stringData[key] = *strPtr } } volumeName := stringData[k8sPersistentVolumeClaimNameAttrKey] if _, ok := volumeAttrs[volumeName]; !ok { volumeAttrs[volumeName] = map[string]string{} } for _, key := range req.GroupBy { volumeAttrs[volumeName][key.Key] = stringData[key.Key] } } return volumeAttrs, nil } func (p *PvcsRepo) getTopVolumeGroups(ctx context.Context, req model.VolumeListRequest, q *v3.QueryRangeParamsV3) ([]map[string]string, []map[string]string, error) { step, timeSeriesTableName, samplesTableName := getParamsForTopVolumes(req) queryNames := queryNamesForVolumes[req.OrderBy.ColumnName] topVolumeGroupsQueryRangeParams := &v3.QueryRangeParamsV3{ Start: req.Start, End: req.End, Step: step, CompositeQuery: &v3.CompositeQuery{ BuilderQueries: map[string]*v3.BuilderQuery{}, QueryType: v3.QueryTypeBuilder, PanelType: v3.PanelTypeTable, }, } for _, queryName := range queryNames { query := q.CompositeQuery.BuilderQueries[queryName].Clone() query.StepInterval = step query.MetricTableHints = &v3.MetricTableHints{ TimeSeriesTableName: timeSeriesTableName, SamplesTableName: samplesTableName, } if req.Filters != nil && len(req.Filters.Items) > 0 { if query.Filters == nil { query.Filters = &v3.FilterSet{Operator: "AND", Items: []v3.FilterItem{}} } query.Filters.Items = append(query.Filters.Items, req.Filters.Items...) } topVolumeGroupsQueryRangeParams.CompositeQuery.BuilderQueries[queryName] = query } queryResponse, _, err := p.querierV2.QueryRange(ctx, topVolumeGroupsQueryRangeParams) if err != nil { return nil, nil, err } formattedResponse, err := postprocess.PostProcessResult(queryResponse, topVolumeGroupsQueryRangeParams) if err != nil { return nil, nil, err } if len(formattedResponse) == 0 || len(formattedResponse[0].Series) == 0 { return nil, nil, nil } if req.OrderBy.Order == v3.DirectionDesc { sort.Slice(formattedResponse[0].Series, func(i, j int) bool { return formattedResponse[0].Series[i].Points[0].Value > formattedResponse[0].Series[j].Points[0].Value }) } else { sort.Slice(formattedResponse[0].Series, func(i, j int) bool { return formattedResponse[0].Series[i].Points[0].Value < formattedResponse[0].Series[j].Points[0].Value }) } limit := math.Min(float64(req.Offset+req.Limit), float64(len(formattedResponse[0].Series))) paginatedTopVolumeGroupsSeries := formattedResponse[0].Series[req.Offset:int(limit)] topVolumeGroups := []map[string]string{} for _, series := range paginatedTopVolumeGroupsSeries { topVolumeGroups = append(topVolumeGroups, series.Labels) } allVolumeGroups := []map[string]string{} for _, series := range formattedResponse[0].Series { allVolumeGroups = append(allVolumeGroups, series.Labels) } return topVolumeGroups, allVolumeGroups, nil } func (p *PvcsRepo) GetPvcList(ctx context.Context, req model.VolumeListRequest) (model.VolumeListResponse, error) { resp := model.VolumeListResponse{} if req.Limit == 0 { req.Limit = 10 } if req.OrderBy == nil { req.OrderBy = &v3.OrderBy{ColumnName: "usage", Order: v3.DirectionDesc} } if req.GroupBy == nil { req.GroupBy = []v3.AttributeKey{{Key: k8sPersistentVolumeClaimNameAttrKey}} resp.Type = model.ResponseTypeList } else { resp.Type = model.ResponseTypeGroupedList } step := int64(math.Max(float64(common.MinAllowedStepInterval(req.Start, req.End)), 60)) query := PvcsTableListQuery.Clone() query.Start = req.Start query.End = req.End query.Step = step for _, query := range query.CompositeQuery.BuilderQueries { query.StepInterval = step if req.Filters != nil && len(req.Filters.Items) > 0 { if query.Filters == nil { query.Filters = &v3.FilterSet{Operator: "AND", Items: []v3.FilterItem{}} } query.Filters.Items = append(query.Filters.Items, req.Filters.Items...) } query.GroupBy = req.GroupBy } volumeAttrs, err := p.getMetadataAttributes(ctx, req) if err != nil { return resp, err } topVolumeGroups, allVolumeGroups, err := p.getTopVolumeGroups(ctx, req, query) if err != nil { return resp, err } groupFilters := map[string][]string{} for _, topVolumeGroup := range topVolumeGroups { for k, v := range topVolumeGroup { groupFilters[k] = append(groupFilters[k], v) } } for groupKey, groupValues := range groupFilters { hasGroupFilter := false if req.Filters != nil && len(req.Filters.Items) > 0 { for _, filter := range req.Filters.Items { if filter.Key.Key == groupKey { hasGroupFilter = true break } } } if !hasGroupFilter { for _, query := range query.CompositeQuery.BuilderQueries { query.Filters.Items = append(query.Filters.Items, v3.FilterItem{ Key: v3.AttributeKey{Key: groupKey}, Value: groupValues, Operator: v3.FilterOperatorIn, }) } } } queryResponse, _, err := p.querierV2.QueryRange(ctx, query) if err != nil { return resp, err } formattedResponse, err := postprocess.PostProcessResult(queryResponse, query) if err != nil { return resp, err } records := []model.VolumeListRecord{} for _, result := range formattedResponse { for _, row := range result.Table.Rows { record := model.VolumeListRecord{ VolumeUsage: -1, VolumeAvailable: -1, VolumeCapacity: -1, VolumeInodes: -1, VolumeInodesFree: -1, VolumeInodesUsed: -1, Meta: map[string]string{}, } if volumeName, ok := row.Data[k8sPersistentVolumeClaimNameAttrKey].(string); ok { record.PersistentVolumeClaimName = volumeName } if volumeAvailable, ok := row.Data["A"].(float64); ok { record.VolumeAvailable = volumeAvailable } if volumeCapacity, ok := row.Data["B"].(float64); ok { record.VolumeCapacity = volumeCapacity } if volumeInodes, ok := row.Data["C"].(float64); ok { record.VolumeInodes = volumeInodes } if volumeInodesFree, ok := row.Data["D"].(float64); ok { record.VolumeInodesFree = volumeInodesFree } if volumeInodesUsed, ok := row.Data["E"].(float64); ok { record.VolumeInodesUsed = volumeInodesUsed } record.VolumeUsage = record.VolumeCapacity - record.VolumeAvailable record.Meta = map[string]string{} if _, ok := volumeAttrs[record.PersistentVolumeClaimName]; ok { record.Meta = volumeAttrs[record.PersistentVolumeClaimName] } for k, v := range row.Data { if slices.Contains(volumeQueryNames, k) { continue } if labelValue, ok := v.(string); ok { record.Meta[k] = labelValue } } records = append(records, record) } } resp.Total = len(allVolumeGroups) resp.Records = records return resp, nil }