package querier import ( "context" "encoding/json" "fmt" "strings" "sync" "time" logsV3 "go.signoz.io/signoz/pkg/query-service/app/logs/v3" metricsV3 "go.signoz.io/signoz/pkg/query-service/app/metrics/v3" tracesV3 "go.signoz.io/signoz/pkg/query-service/app/traces/v3" "go.signoz.io/signoz/pkg/query-service/cache/status" "go.signoz.io/signoz/pkg/query-service/constants" v3 "go.signoz.io/signoz/pkg/query-service/model/v3" "go.signoz.io/signoz/pkg/query-service/postprocess" "go.uber.org/zap" ) func prepareLogsQuery(_ context.Context, start, end int64, builderQuery *v3.BuilderQuery, params *v3.QueryRangeParamsV3, preferRPM bool, ) (string, error) { query := "" if params == nil || builderQuery == nil { return query, fmt.Errorf("params and builderQuery cannot be nil") } // for ts query with limit replace it as it is already formed if params.CompositeQuery.PanelType == v3.PanelTypeGraph && builderQuery.Limit > 0 && len(builderQuery.GroupBy) > 0 { limitQuery, err := logsV3.PrepareLogsQuery( start, end, params.CompositeQuery.QueryType, params.CompositeQuery.PanelType, builderQuery, logsV3.Options{GraphLimitQtype: constants.FirstQueryGraphLimit, PreferRPM: preferRPM}, ) if err != nil { return query, err } placeholderQuery, err := logsV3.PrepareLogsQuery( start, end, params.CompositeQuery.QueryType, params.CompositeQuery.PanelType, builderQuery, logsV3.Options{GraphLimitQtype: constants.SecondQueryGraphLimit, PreferRPM: preferRPM}, ) if err != nil { return query, err } query = strings.Replace(placeholderQuery, "#LIMIT_PLACEHOLDER", limitQuery, 1) return query, err } query, err := logsV3.PrepareLogsQuery( start, end, params.CompositeQuery.QueryType, params.CompositeQuery.PanelType, builderQuery, logsV3.Options{PreferRPM: preferRPM}, ) if err != nil { return query, err } return query, err } func (q *querier) runBuilderQuery( ctx context.Context, builderQuery *v3.BuilderQuery, params *v3.QueryRangeParamsV3, keys map[string]v3.AttributeKey, cacheKeys map[string]string, ch chan channelResult, wg *sync.WaitGroup, ) { defer wg.Done() queryName := builderQuery.QueryName var preferRPM bool if q.featureLookUp != nil { preferRPM = q.featureLookUp.CheckFeature(constants.PreferRPM) == nil } start := params.Start end := params.End if builderQuery.ShiftBy != 0 { start = start - builderQuery.ShiftBy*1000 end = end - builderQuery.ShiftBy*1000 } if builderQuery.DataSource == v3.DataSourceLogs { var query string var err error if _, ok := cacheKeys[queryName]; !ok { query, err = prepareLogsQuery(ctx, start, end, builderQuery, params, preferRPM) if err != nil { ch <- channelResult{Err: err, Name: queryName, Query: query, Series: nil} return } series, err := q.execClickHouseQuery(ctx, query) ch <- channelResult{Err: err, Name: queryName, Query: query, Series: series} return } cacheKey := cacheKeys[queryName] var cachedData []byte if !params.NoCache && q.cache != nil { var retrieveStatus status.RetrieveStatus data, retrieveStatus, err := q.cache.Retrieve(cacheKey, true) zap.L().Info("cache retrieve status", zap.String("status", retrieveStatus.String())) if err == nil { cachedData = data } } misses := q.findMissingTimeRanges(start, end, builderQuery.StepInterval, cachedData) missedSeries := make([]*v3.Series, 0) cachedSeries := make([]*v3.Series, 0) for _, miss := range misses { query, err = prepareLogsQuery(ctx, miss.start, miss.end, builderQuery, params, preferRPM) if err != nil { ch <- channelResult{Err: err, Name: queryName, Query: query, Series: nil} return } series, err := q.execClickHouseQuery(ctx, query) if err != nil { ch <- channelResult{ Err: err, Name: queryName, Query: query, Series: nil, } return } missedSeries = append(missedSeries, series...) } if err := json.Unmarshal(cachedData, &cachedSeries); err != nil && cachedData != nil { zap.L().Error("error unmarshalling cached data", zap.Error(err)) } mergedSeries := mergeSerieses(cachedSeries, missedSeries) var mergedSeriesData []byte var marshallingErr error missedSeriesLen := len(missedSeries) if missedSeriesLen > 0 && !params.NoCache && q.cache != nil { // caching the data mergedSeriesData, marshallingErr = json.Marshal(mergedSeries) if marshallingErr != nil { zap.L().Error("error marshalling merged series", zap.Error(marshallingErr)) } } // response doesn't need everything filterCachedPoints(mergedSeries, start, end) ch <- channelResult{ Err: nil, Name: queryName, Series: mergedSeries, } // Cache the seriesList for future queries if missedSeriesLen > 0 && !params.NoCache && q.cache != nil && marshallingErr == nil { // caching the data err = q.cache.Store(cacheKey, mergedSeriesData, time.Hour) if err != nil { zap.L().Error("error storing merged series", zap.Error(err)) return } } return } if builderQuery.DataSource == v3.DataSourceTraces { var query string var err error // for ts query with group by and limit form two queries if params.CompositeQuery.PanelType == v3.PanelTypeGraph && builderQuery.Limit > 0 && len(builderQuery.GroupBy) > 0 { limitQuery, err := tracesV3.PrepareTracesQuery( start, end, params.CompositeQuery.PanelType, builderQuery, keys, tracesV3.Options{GraphLimitQtype: constants.FirstQueryGraphLimit, PreferRPM: preferRPM}, ) if err != nil { ch <- channelResult{Err: err, Name: queryName, Query: limitQuery, Series: nil} return } placeholderQuery, err := tracesV3.PrepareTracesQuery( start, end, params.CompositeQuery.PanelType, builderQuery, keys, tracesV3.Options{GraphLimitQtype: constants.SecondQueryGraphLimit, PreferRPM: preferRPM}, ) if err != nil { ch <- channelResult{Err: err, Name: queryName, Query: limitQuery, Series: nil} return } query = fmt.Sprintf(placeholderQuery, limitQuery) } else { query, err = tracesV3.PrepareTracesQuery( start, end, params.CompositeQuery.PanelType, builderQuery, keys, tracesV3.Options{PreferRPM: preferRPM}, ) if err != nil { ch <- channelResult{Err: err, Name: queryName, Query: query, Series: nil} return } } series, err := q.execClickHouseQuery(ctx, query) ch <- channelResult{Err: err, Name: queryName, Query: query, Series: series} return } // What is happening here? // We are only caching the graph panel queries. A non-existant cache key means that the query is not cached. // If the query is not cached, we execute the query and return the result without caching it. if _, ok := cacheKeys[queryName]; !ok { query, err := metricsV3.PrepareMetricQuery(start, end, params.CompositeQuery.QueryType, params.CompositeQuery.PanelType, builderQuery, metricsV3.Options{PreferRPM: preferRPM}) if err != nil { ch <- channelResult{Err: err, Name: queryName, Query: query, Series: nil} return } series, err := q.execClickHouseQuery(ctx, query) ch <- channelResult{Err: err, Name: queryName, Query: query, Series: series} return } cacheKey := cacheKeys[queryName] var cachedData []byte if !params.NoCache && q.cache != nil { var retrieveStatus status.RetrieveStatus data, retrieveStatus, err := q.cache.Retrieve(cacheKey, true) zap.L().Info("cache retrieve status", zap.String("status", retrieveStatus.String())) if err == nil { cachedData = data } } misses := q.findMissingTimeRanges(start, end, builderQuery.StepInterval, cachedData) missedSeries := make([]*v3.Series, 0) cachedSeries := make([]*v3.Series, 0) for _, miss := range misses { query, err := metricsV3.PrepareMetricQuery( miss.start, miss.end, params.CompositeQuery.QueryType, params.CompositeQuery.PanelType, builderQuery, metricsV3.Options{}, ) if err != nil { ch <- channelResult{ Err: err, Name: queryName, Query: query, Series: nil, } return } series, err := q.execClickHouseQuery(ctx, query) if err != nil { ch <- channelResult{ Err: err, Name: queryName, Query: query, Series: nil, } return } missedSeries = append(missedSeries, series...) } if err := json.Unmarshal(cachedData, &cachedSeries); err != nil && cachedData != nil { zap.L().Error("error unmarshalling cached data", zap.Error(err)) } mergedSeries := mergeSerieses(cachedSeries, missedSeries) var mergedSeriesData []byte var marshallingErr error missedSeriesLen := len(missedSeries) if missedSeriesLen > 0 && !params.NoCache && q.cache != nil { // caching the data mergedSeriesData, marshallingErr = json.Marshal(mergedSeries) if marshallingErr != nil { zap.L().Error("error marshalling merged series", zap.Error(marshallingErr)) } } // response doesn't need everything filterCachedPoints(mergedSeries, start, end) ch <- channelResult{ Err: nil, Name: queryName, Series: mergedSeries, } // Cache the seriesList for future queries if missedSeriesLen > 0 && !params.NoCache && q.cache != nil && marshallingErr == nil { err := q.cache.Store(cacheKey, mergedSeriesData, time.Hour) if err != nil { zap.L().Error("error storing merged series", zap.Error(err)) return } } } func (q *querier) runBuilderExpression( ctx context.Context, builderQuery *v3.BuilderQuery, params *v3.QueryRangeParamsV3, keys map[string]v3.AttributeKey, cacheKeys map[string]string, ch chan channelResult, wg *sync.WaitGroup, ) { defer wg.Done() queryName := builderQuery.QueryName queries, err := q.builder.PrepareQueries(params, keys) if err != nil { ch <- channelResult{Err: err, Name: queryName, Query: "", Series: nil} return } if _, ok := cacheKeys[queryName]; !ok { query := queries[queryName] series, err := q.execClickHouseQuery(ctx, query) ch <- channelResult{Err: err, Name: queryName, Query: query, Series: series} return } cacheKey := cacheKeys[queryName] var cachedData []byte if !params.NoCache && q.cache != nil { var retrieveStatus status.RetrieveStatus data, retrieveStatus, err := q.cache.Retrieve(cacheKey, true) zap.L().Info("cache retrieve status", zap.String("status", retrieveStatus.String())) if err == nil { cachedData = data } } step := postprocess.StepIntervalForFunction(params, queryName) misses := q.findMissingTimeRanges(params.Start, params.End, step, cachedData) missedSeries := make([]*v3.Series, 0) cachedSeries := make([]*v3.Series, 0) for _, miss := range misses { missQueries, _ := q.builder.PrepareQueries(&v3.QueryRangeParamsV3{ Start: miss.start, End: miss.end, Step: params.Step, NoCache: params.NoCache, CompositeQuery: params.CompositeQuery, Variables: params.Variables, }, keys) query := missQueries[queryName] series, err := q.execClickHouseQuery(ctx, query) if err != nil { ch <- channelResult{Err: err, Name: queryName, Query: query, Series: nil} return } missedSeries = append(missedSeries, series...) } if err := json.Unmarshal(cachedData, &cachedSeries); err != nil && cachedData != nil { zap.L().Error("error unmarshalling cached data", zap.Error(err)) } mergedSeries := mergeSerieses(cachedSeries, missedSeries) var mergedSeriesData []byte missedSeriesLen := len(missedSeries) var marshallingErr error if missedSeriesLen > 0 && !params.NoCache && q.cache != nil { // caching the data mergedSeriesData, marshallingErr = json.Marshal(mergedSeries) if marshallingErr != nil { zap.L().Error("error marshalling merged series", zap.Error(marshallingErr)) } } // response doesn't need everything filterCachedPoints(mergedSeries, params.Start, params.End) ch <- channelResult{ Err: nil, Name: queryName, Series: mergedSeries, } // Cache the seriesList for future queries if len(missedSeries) > 0 && !params.NoCache && q.cache != nil && marshallingErr == nil { err = q.cache.Store(cacheKey, mergedSeriesData, time.Hour) if err != nil { zap.L().Error("error storing merged series", zap.Error(err)) return } } }