package logsql import ( "context" "fmt" "math" "net/http" "slices" "sort" "strconv" "strings" "sync" "time" "github.com/VictoriaMetrics/metrics" "github.com/VictoriaMetrics/VictoriaMetrics/app/vlstorage" "github.com/VictoriaMetrics/VictoriaMetrics/lib/bytesutil" "github.com/VictoriaMetrics/VictoriaMetrics/lib/httpserver" "github.com/VictoriaMetrics/VictoriaMetrics/lib/httputils" "github.com/VictoriaMetrics/VictoriaMetrics/lib/logger" "github.com/VictoriaMetrics/VictoriaMetrics/lib/logstorage" "github.com/VictoriaMetrics/VictoriaMetrics/lib/promutils" ) // ProcessHitsRequest handles /select/logsql/hits request. // // See https://docs.victoriametrics.com/victorialogs/querying/#querying-hits-stats func ProcessHitsRequest(ctx context.Context, w http.ResponseWriter, r *http.Request) { q, tenantIDs, err := parseCommonArgs(r) if err != nil { httpserver.Errorf(w, r, "%s", err) return } // Obtain step stepStr := r.FormValue("step") if stepStr == "" { stepStr = "1d" } step, err := promutils.ParseDuration(stepStr) if err != nil { httpserver.Errorf(w, r, "cannot parse 'step' arg: %s", err) return } if step <= 0 { httpserver.Errorf(w, r, "'step' must be bigger than zero") return } // Obtain offset offsetStr := r.FormValue("offset") if offsetStr == "" { offsetStr = "0s" } offset, err := promutils.ParseDuration(offsetStr) if err != nil { httpserver.Errorf(w, r, "cannot parse 'offset' arg: %s", err) return } // Obtain field entries fields := r.Form["field"] // Obtain limit on the number of top fields entries. fieldsLimit, err := httputils.GetInt(r, "fields_limit") if err != nil { httpserver.Errorf(w, r, "%s", err) return } if fieldsLimit < 0 { fieldsLimit = 0 } // Prepare the query for hits count. q.Optimize() q.DropAllPipes() q.AddCountByTimePipe(int64(step), int64(offset), fields) var mLock sync.Mutex m := make(map[string]*hitsSeries) writeBlock := func(_ uint, timestamps []int64, columns []logstorage.BlockColumn) { if len(columns) == 0 || len(columns[0].Values) == 0 { return } timestampValues := columns[0].Values hitsValues := columns[len(columns)-1].Values columns = columns[1 : len(columns)-1] bb := blockResultPool.Get() for i := range timestamps { timestampStr := strings.Clone(timestampValues[i]) hitsStr := strings.Clone(hitsValues[i]) hits, err := strconv.ParseUint(hitsStr, 10, 64) if err != nil { logger.Panicf("BUG: cannot parse hitsStr=%q: %s", hitsStr, err) } bb.Reset() WriteFieldsForHits(bb, columns, i) mLock.Lock() hs, ok := m[string(bb.B)] if !ok { k := string(bb.B) hs = &hitsSeries{} m[k] = hs } hs.timestamps = append(hs.timestamps, timestampStr) hs.hits = append(hs.hits, hits) hs.hitsTotal += hits mLock.Unlock() } blockResultPool.Put(bb) } // Execute the query if err := vlstorage.RunQuery(ctx, tenantIDs, q, writeBlock); err != nil { httpserver.Errorf(w, r, "cannot execute query [%s]: %s", q, err) return } m = getTopHitsSeries(m, fieldsLimit) // Write response w.Header().Set("Content-Type", "application/json") WriteHitsSeries(w, m) } func getTopHitsSeries(m map[string]*hitsSeries, fieldsLimit int) map[string]*hitsSeries { if fieldsLimit <= 0 || fieldsLimit >= len(m) { return m } type fieldsHits struct { fieldsStr string hs *hitsSeries } a := make([]fieldsHits, 0, len(m)) for fieldsStr, hs := range m { a = append(a, fieldsHits{ fieldsStr: fieldsStr, hs: hs, }) } sort.Slice(a, func(i, j int) bool { return a[i].hs.hitsTotal > a[j].hs.hitsTotal }) hitsOther := make(map[string]uint64) for _, x := range a[fieldsLimit:] { for i, timestampStr := range x.hs.timestamps { hitsOther[timestampStr] += x.hs.hits[i] } } var hsOther hitsSeries for timestampStr, hits := range hitsOther { hsOther.timestamps = append(hsOther.timestamps, timestampStr) hsOther.hits = append(hsOther.hits, hits) hsOther.hitsTotal += hits } mNew := make(map[string]*hitsSeries, fieldsLimit+1) for _, x := range a[:fieldsLimit] { mNew[x.fieldsStr] = x.hs } mNew["{}"] = &hsOther return mNew } type hitsSeries struct { hitsTotal uint64 timestamps []string hits []uint64 } func (hs *hitsSeries) sort() { sort.Sort(hs) } func (hs *hitsSeries) Len() int { return len(hs.timestamps) } func (hs *hitsSeries) Swap(i, j int) { hs.timestamps[i], hs.timestamps[j] = hs.timestamps[j], hs.timestamps[i] hs.hits[i], hs.hits[j] = hs.hits[j], hs.hits[i] } func (hs *hitsSeries) Less(i, j int) bool { return hs.timestamps[i] < hs.timestamps[j] } // ProcessFieldNamesRequest handles /select/logsql/field_names request. // // See https://docs.victoriametrics.com/victorialogs/querying/#querying-field-names func ProcessFieldNamesRequest(ctx context.Context, w http.ResponseWriter, r *http.Request) { q, tenantIDs, err := parseCommonArgs(r) if err != nil { httpserver.Errorf(w, r, "%s", err) return } // Obtain field names for the given query q.Optimize() fieldNames, err := vlstorage.GetFieldNames(ctx, tenantIDs, q) if err != nil { httpserver.Errorf(w, r, "cannot obtain field names: %s", err) return } // Write results w.Header().Set("Content-Type", "application/json") WriteValuesWithHitsJSON(w, fieldNames) } // ProcessFieldValuesRequest handles /select/logsql/field_values request. // // See https://docs.victoriametrics.com/victorialogs/querying/#querying-field-values func ProcessFieldValuesRequest(ctx context.Context, w http.ResponseWriter, r *http.Request) { q, tenantIDs, err := parseCommonArgs(r) if err != nil { httpserver.Errorf(w, r, "%s", err) return } // Parse fieldName query arg fieldName := r.FormValue("field") if fieldName == "" { httpserver.Errorf(w, r, "missing 'field' query arg") return } // Parse limit query arg limit, err := httputils.GetInt(r, "limit") if err != nil { httpserver.Errorf(w, r, "%s", err) return } if limit < 0 { limit = 0 } // Obtain unique values for the given field q.Optimize() values, err := vlstorage.GetFieldValues(ctx, tenantIDs, q, fieldName, uint64(limit)) if err != nil { httpserver.Errorf(w, r, "cannot obtain values for field %q: %s", fieldName, err) return } // Write results w.Header().Set("Content-Type", "application/json") WriteValuesWithHitsJSON(w, values) } // ProcessStreamFieldNamesRequest processes /select/logsql/stream_field_names request. // // See https://docs.victoriametrics.com/victorialogs/querying/#querying-stream-field-names func ProcessStreamFieldNamesRequest(ctx context.Context, w http.ResponseWriter, r *http.Request) { q, tenantIDs, err := parseCommonArgs(r) if err != nil { httpserver.Errorf(w, r, "%s", err) return } // Obtain stream field names for the given query q.Optimize() names, err := vlstorage.GetStreamFieldNames(ctx, tenantIDs, q) if err != nil { httpserver.Errorf(w, r, "cannot obtain stream field names: %s", err) } // Write results w.Header().Set("Content-Type", "application/json") WriteValuesWithHitsJSON(w, names) } // ProcessStreamFieldValuesRequest processes /select/logsql/stream_field_values request. // // See https://docs.victoriametrics.com/victorialogs/querying/#querying-stream-field-values func ProcessStreamFieldValuesRequest(ctx context.Context, w http.ResponseWriter, r *http.Request) { q, tenantIDs, err := parseCommonArgs(r) if err != nil { httpserver.Errorf(w, r, "%s", err) return } // Parse fieldName query arg fieldName := r.FormValue("field") if fieldName == "" { httpserver.Errorf(w, r, "missing 'field' query arg") return } // Parse limit query arg limit, err := httputils.GetInt(r, "limit") if err != nil { httpserver.Errorf(w, r, "%s", err) return } if limit < 0 { limit = 0 } // Obtain stream field values for the given query and the given fieldName q.Optimize() values, err := vlstorage.GetStreamFieldValues(ctx, tenantIDs, q, fieldName, uint64(limit)) if err != nil { httpserver.Errorf(w, r, "cannot obtain stream field values: %s", err) } // Write results w.Header().Set("Content-Type", "application/json") WriteValuesWithHitsJSON(w, values) } // ProcessStreamIDsRequest processes /select/logsql/stream_ids request. // // See https://docs.victoriametrics.com/victorialogs/querying/#querying-stream_ids func ProcessStreamIDsRequest(ctx context.Context, w http.ResponseWriter, r *http.Request) { q, tenantIDs, err := parseCommonArgs(r) if err != nil { httpserver.Errorf(w, r, "%s", err) return } // Parse limit query arg limit, err := httputils.GetInt(r, "limit") if err != nil { httpserver.Errorf(w, r, "%s", err) return } if limit < 0 { limit = 0 } // Obtain streamIDs for the given query q.Optimize() streamIDs, err := vlstorage.GetStreamIDs(ctx, tenantIDs, q, uint64(limit)) if err != nil { httpserver.Errorf(w, r, "cannot obtain stream_ids: %s", err) } // Write results w.Header().Set("Content-Type", "application/json") WriteValuesWithHitsJSON(w, streamIDs) } // ProcessStreamsRequest processes /select/logsql/streams request. // // See https://docs.victoriametrics.com/victorialogs/querying/#querying-streams func ProcessStreamsRequest(ctx context.Context, w http.ResponseWriter, r *http.Request) { q, tenantIDs, err := parseCommonArgs(r) if err != nil { httpserver.Errorf(w, r, "%s", err) return } // Parse limit query arg limit, err := httputils.GetInt(r, "limit") if err != nil { httpserver.Errorf(w, r, "%s", err) return } if limit < 0 { limit = 0 } // Obtain streams for the given query q.Optimize() streams, err := vlstorage.GetStreams(ctx, tenantIDs, q, uint64(limit)) if err != nil { httpserver.Errorf(w, r, "cannot obtain streams: %s", err) } // Write results w.Header().Set("Content-Type", "application/json") WriteValuesWithHitsJSON(w, streams) } // ProcessLiveTailRequest processes live tailing request to /select/logsq/tail // // See https://docs.victoriametrics.com/victorialogs/querying/#live-tailing func ProcessLiveTailRequest(ctx context.Context, w http.ResponseWriter, r *http.Request) { liveTailRequests.Inc() defer liveTailRequests.Dec() q, tenantIDs, err := parseCommonArgs(r) if err != nil { httpserver.Errorf(w, r, "%s", err) return } if !q.CanLiveTail() { httpserver.Errorf(w, r, "the query [%s] cannot be used in live tailing; see https://docs.victoriametrics.com/victorialogs/querying/#live-tailing for details", q) } q.Optimize() refreshIntervalMsecs, err := httputils.GetDuration(r, "refresh_interval", 1000) if err != nil { httpserver.Errorf(w, r, "%s", err) return } refreshInterval := time.Millisecond * time.Duration(refreshIntervalMsecs) ctxWithCancel, cancel := context.WithCancel(ctx) tp := newTailProcessor(cancel) ticker := time.NewTicker(refreshInterval) defer ticker.Stop() end := time.Now().UnixNano() doneCh := ctxWithCancel.Done() flusher, ok := w.(http.Flusher) if !ok { logger.Panicf("BUG: it is expected that http.ResponseWriter (%T) supports http.Flusher interface", w) } for { start := end - tailOffsetNsecs end = time.Now().UnixNano() qCopy := q.Clone() qCopy.AddTimeFilter(start, end) if err := vlstorage.RunQuery(ctxWithCancel, tenantIDs, qCopy, tp.writeBlock); err != nil { httpserver.Errorf(w, r, "cannot execute tail query [%s]: %s", q, err) return } resultRows, err := tp.getTailRows() if err != nil { httpserver.Errorf(w, r, "cannot get tail results for query [%q]: %s", q, err) return } if len(resultRows) > 0 { WriteJSONRows(w, resultRows) flusher.Flush() } select { case <-doneCh: return case <-ticker.C: } } } var liveTailRequests = metrics.NewCounter(`vl_live_tailing_requests`) const tailOffsetNsecs = 5e9 type logRow struct { timestamp int64 fields []logstorage.Field } func sortLogRows(rows []logRow) { sort.SliceStable(rows, func(i, j int) bool { return rows[i].timestamp < rows[j].timestamp }) } type tailProcessor struct { cancel func() mu sync.Mutex perStreamRows map[string][]logRow lastTimestamps map[string]int64 err error } func newTailProcessor(cancel func()) *tailProcessor { return &tailProcessor{ cancel: cancel, perStreamRows: make(map[string][]logRow), lastTimestamps: make(map[string]int64), } } func (tp *tailProcessor) writeBlock(_ uint, timestamps []int64, columns []logstorage.BlockColumn) { if len(timestamps) == 0 { return } tp.mu.Lock() defer tp.mu.Unlock() if tp.err != nil { return } // Make sure columns contain _time field, since it is needed for proper tail work. hasTime := false for _, c := range columns { if c.Name == "_time" { hasTime = true break } } if !hasTime { tp.err = fmt.Errorf("missing _time field") tp.cancel() return } // Copy block rows to tp.perStreamRows for i, timestamp := range timestamps { streamID := "" fields := make([]logstorage.Field, len(columns)) for j, c := range columns { name := strings.Clone(c.Name) value := strings.Clone(c.Values[i]) fields[j] = logstorage.Field{ Name: name, Value: value, } if name == "_stream_id" { streamID = value } } tp.perStreamRows[streamID] = append(tp.perStreamRows[streamID], logRow{ timestamp: timestamp, fields: fields, }) } } func (tp *tailProcessor) getTailRows() ([][]logstorage.Field, error) { if tp.err != nil { return nil, tp.err } var resultRows []logRow for streamID, rows := range tp.perStreamRows { sortLogRows(rows) lastTimestamp, ok := tp.lastTimestamps[streamID] if ok { // Skip already written rows for len(rows) > 0 && rows[0].timestamp <= lastTimestamp { rows = rows[1:] } } if len(rows) > 0 { resultRows = append(resultRows, rows...) tp.lastTimestamps[streamID] = rows[len(rows)-1].timestamp } } clear(tp.perStreamRows) sortLogRows(resultRows) tailRows := make([][]logstorage.Field, len(resultRows)) for i, row := range resultRows { tailRows[i] = row.fields } return tailRows, nil } // ProcessStatsQueryRangeRequest handles /select/logsql/stats_query_range request. // // See https://docs.victoriametrics.com/victorialogs/querying/#querying-log-range-stats func ProcessStatsQueryRangeRequest(ctx context.Context, w http.ResponseWriter, r *http.Request) { q, tenantIDs, err := parseCommonArgs(r) if err != nil { httpserver.SendPrometheusError(w, r, err) return } // Obtain step stepStr := r.FormValue("step") if stepStr == "" { stepStr = "1d" } step, err := promutils.ParseDuration(stepStr) if err != nil { err = fmt.Errorf("cannot parse 'step' arg: %s", err) httpserver.SendPrometheusError(w, r, err) return } if step <= 0 { err := fmt.Errorf("'step' must be bigger than zero") httpserver.SendPrometheusError(w, r, err) return } // Obtain `by(...)` fields from the last `| stats` pipe in q. // Add `_time:step` to the `by(...)` list. byFields, err := q.GetStatsByFieldsAddGroupingByTime(int64(step)) if err != nil { httpserver.SendPrometheusError(w, r, err) return } q.Optimize() m := make(map[string]*statsSeries) var mLock sync.Mutex writeBlock := func(_ uint, timestamps []int64, columns []logstorage.BlockColumn) { clonedColumnNames := make([]string, len(columns)) for i, c := range columns { clonedColumnNames[i] = strings.Clone(c.Name) } for i := range timestamps { timestamp := q.GetTimestamp() labels := make([]logstorage.Field, 0, len(byFields)) for j, c := range columns { if c.Name == "_time" { nsec, ok := logstorage.TryParseTimestampRFC3339Nano(c.Values[i]) if ok { timestamp = nsec continue } } if slices.Contains(byFields, c.Name) { labels = append(labels, logstorage.Field{ Name: clonedColumnNames[j], Value: strings.Clone(c.Values[i]), }) } } var dst []byte for j, c := range columns { if !slices.Contains(byFields, c.Name) { name := clonedColumnNames[j] dst = dst[:0] dst = append(dst, name...) dst = logstorage.MarshalFieldsToJSON(dst, labels) key := string(dst) p := statsPoint{ Timestamp: timestamp, Value: strings.Clone(c.Values[i]), } mLock.Lock() ss := m[key] if ss == nil { ss = &statsSeries{ key: key, Name: name, Labels: labels, } m[key] = ss } ss.Points = append(ss.Points, p) mLock.Unlock() } } } } if err := vlstorage.RunQuery(ctx, tenantIDs, q, writeBlock); err != nil { err = fmt.Errorf("cannot execute query [%s]: %s", q, err) httpserver.SendPrometheusError(w, r, err) return } // Sort the collected stats by time rows := make([]*statsSeries, 0, len(m)) for _, ss := range m { points := ss.Points sort.Slice(points, func(i, j int) bool { return points[i].Timestamp < points[j].Timestamp }) rows = append(rows, ss) } sort.Slice(rows, func(i, j int) bool { return rows[i].key < rows[j].key }) w.Header().Set("Content-Type", "application/json") WriteStatsQueryRangeResponse(w, rows) } type statsSeries struct { key string Name string Labels []logstorage.Field Points []statsPoint } type statsPoint struct { Timestamp int64 Value string } // ProcessStatsQueryRequest handles /select/logsql/stats_query request. // // See https://docs.victoriametrics.com/victorialogs/querying/#querying-log-stats func ProcessStatsQueryRequest(ctx context.Context, w http.ResponseWriter, r *http.Request) { q, tenantIDs, err := parseCommonArgs(r) if err != nil { httpserver.SendPrometheusError(w, r, err) return } // Obtain `by(...)` fields from the last `| stats` pipe in q. byFields, err := q.GetStatsByFields() if err != nil { httpserver.SendPrometheusError(w, r, err) return } q.Optimize() var rows []statsRow var rowsLock sync.Mutex timestamp := q.GetTimestamp() writeBlock := func(_ uint, timestamps []int64, columns []logstorage.BlockColumn) { clonedColumnNames := make([]string, len(columns)) for i, c := range columns { clonedColumnNames[i] = strings.Clone(c.Name) } for i := range timestamps { labels := make([]logstorage.Field, 0, len(byFields)) for j, c := range columns { if slices.Contains(byFields, c.Name) { labels = append(labels, logstorage.Field{ Name: clonedColumnNames[j], Value: strings.Clone(c.Values[i]), }) } } for j, c := range columns { if !slices.Contains(byFields, c.Name) { r := statsRow{ Name: clonedColumnNames[j], Labels: labels, Timestamp: timestamp, Value: strings.Clone(c.Values[i]), } rowsLock.Lock() rows = append(rows, r) rowsLock.Unlock() } } } } if err := vlstorage.RunQuery(ctx, tenantIDs, q, writeBlock); err != nil { err = fmt.Errorf("cannot execute query [%s]: %s", q, err) httpserver.SendPrometheusError(w, r, err) return } w.Header().Set("Content-Type", "application/json") WriteStatsQueryResponse(w, rows) } type statsRow struct { Name string Labels []logstorage.Field Timestamp int64 Value string } // ProcessQueryRequest handles /select/logsql/query request. // // See https://docs.victoriametrics.com/victorialogs/querying/#querying-logs func ProcessQueryRequest(ctx context.Context, w http.ResponseWriter, r *http.Request) { q, tenantIDs, err := parseCommonArgs(r) if err != nil { httpserver.Errorf(w, r, "%s", err) return } // Parse limit query arg limit, err := httputils.GetInt(r, "limit") if err != nil { httpserver.Errorf(w, r, "%s", err) return } bw := getBufferedWriter(w) defer func() { bw.FlushIgnoreErrors() putBufferedWriter(bw) }() w.Header().Set("Content-Type", "application/stream+json") if limit > 0 { if q.CanReturnLastNResults() { rows, err := getLastNQueryResults(ctx, tenantIDs, q, limit) if err != nil { httpserver.Errorf(w, r, "%s", err) return } bb := blockResultPool.Get() b := bb.B for i := range rows { b = logstorage.MarshalFieldsToJSON(b[:0], rows[i].fields) b = append(b, '\n') bw.WriteIgnoreErrors(b) } bb.B = b blockResultPool.Put(bb) return } q.AddPipeLimit(uint64(limit)) } q.Optimize() writeBlock := func(_ uint, timestamps []int64, columns []logstorage.BlockColumn) { if len(columns) == 0 || len(columns[0].Values) == 0 { return } bb := blockResultPool.Get() for i := range timestamps { WriteJSONRow(bb, columns, i) } bw.WriteIgnoreErrors(bb.B) blockResultPool.Put(bb) } if err := vlstorage.RunQuery(ctx, tenantIDs, q, writeBlock); err != nil { httpserver.Errorf(w, r, "cannot execute query [%s]: %s", q, err) return } } var blockResultPool bytesutil.ByteBufferPool type row struct { timestamp int64 fields []logstorage.Field } func getLastNQueryResults(ctx context.Context, tenantIDs []logstorage.TenantID, q *logstorage.Query, limit int) ([]row, error) { limitUpper := 2 * limit q.AddPipeLimit(uint64(limitUpper)) q.Optimize() rows, err := getQueryResultsWithLimit(ctx, tenantIDs, q, limitUpper) if err != nil { return nil, err } if len(rows) < limitUpper { // Fast path - the requested time range contains up to limitUpper rows. rows = getLastNRows(rows, limit) return rows, nil } // Slow path - adjust time range for selecting up to limitUpper rows start, end := q.GetFilterTimeRange() d := end/2 - start/2 start += d qOrig := q for { q = qOrig.Clone() q.AddTimeFilter(start, end) // q.Optimize() call is needed for converting '*' into filterNoop. // See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/6785#issuecomment-2358547733 q.Optimize() rows, err := getQueryResultsWithLimit(ctx, tenantIDs, q, limitUpper) if err != nil { return nil, err } if d == 0 || start >= end { // The [start ... end] time range equals one nanosecond. // Just return up to limit rows. if len(rows) > limit { rows = rows[:limit] } return rows, nil } dLastBit := d & 1 d /= 2 if len(rows) >= limitUpper { // The number of found rows on the [start ... end] time range exceeds limitUpper, // so reduce the time range to [start+d ... end]. start += d continue } if len(rows) >= limit { // The number of found rows is in the range [limit ... limitUpper). // This means that found rows contains the needed limit rows with the biggest timestamps. rows = getLastNRows(rows, limit) return rows, nil } // The number of found rows on [start ... end] time range is below the limit. // This means the time range doesn't cover the needed logs, so it must be extended. if len(rows) == 0 { // The [start ... end] time range doesn't contain any rows, so change it to [start-d ... start). end = start - 1 start -= d + dLastBit continue } // The number of found rows on [start ... end] time range is bigger than 0 but smaller than limit. // Increase the time range to [start-d ... end]. start -= d + dLastBit } } func getLastNRows(rows []row, limit int) []row { sort.Slice(rows, func(i, j int) bool { return rows[i].timestamp < rows[j].timestamp }) if len(rows) > limit { rows = rows[len(rows)-limit:] } return rows } func getQueryResultsWithLimit(ctx context.Context, tenantIDs []logstorage.TenantID, q *logstorage.Query, limit int) ([]row, error) { ctxWithCancel, cancel := context.WithCancel(ctx) defer cancel() var rows []row var rowsLock sync.Mutex writeBlock := func(_ uint, timestamps []int64, columns []logstorage.BlockColumn) { clonedColumnNames := make([]string, len(columns)) for i, c := range columns { clonedColumnNames[i] = strings.Clone(c.Name) } for i, timestamp := range timestamps { fields := make([]logstorage.Field, len(columns)) for j := range columns { f := &fields[j] f.Name = clonedColumnNames[j] f.Value = strings.Clone(columns[j].Values[i]) } rowsLock.Lock() rows = append(rows, row{ timestamp: timestamp, fields: fields, }) rowsLock.Unlock() } if len(rows) >= limit { cancel() } } if err := vlstorage.RunQuery(ctxWithCancel, tenantIDs, q, writeBlock); err != nil { return nil, err } return rows, nil } func parseCommonArgs(r *http.Request) (*logstorage.Query, []logstorage.TenantID, error) { // Extract tenantID tenantID, err := logstorage.GetTenantIDFromRequest(r) if err != nil { return nil, nil, fmt.Errorf("cannot obtain tenanID: %w", err) } tenantIDs := []logstorage.TenantID{tenantID} // Parse optional time arg timestamp, okTime, err := getTimeNsec(r, "time") if err != nil { return nil, nil, err } if !okTime { // If time arg is missing, then evaluate query at the current timestamp timestamp = time.Now().UnixNano() } // decrease timestamp by one nanosecond in order to avoid capturing logs belonging // to the first nanosecond at the next period of time (month, week, day, hour, etc.) timestamp-- // Parse query qStr := r.FormValue("query") q, err := logstorage.ParseQueryAtTimestamp(qStr, timestamp) if err != nil { return nil, nil, fmt.Errorf("cannot parse query [%s]: %s", qStr, err) } // Parse optional start and end args start, okStart, err := getTimeNsec(r, "start") if err != nil { return nil, nil, err } end, okEnd, err := getTimeNsec(r, "end") if err != nil { return nil, nil, err } if okStart || okEnd { if !okStart { start = math.MinInt64 } if !okEnd { end = math.MaxInt64 } q.AddTimeFilter(start, end) } return q, tenantIDs, nil } func getTimeNsec(r *http.Request, argName string) (int64, bool, error) { s := r.FormValue(argName) if s == "" { return 0, false, nil } currentTimestamp := time.Now().UnixNano() nsecs, err := promutils.ParseTimeAt(s, currentTimestamp) if err != nil { return 0, false, fmt.Errorf("cannot parse %s=%s: %w", argName, s, err) } return nsecs, true, nil }