package promql import ( "fmt" "math" "strings" "github.com/VictoriaMetrics/VictoriaMetrics/lib/logger" "github.com/VictoriaMetrics/VictoriaMetrics/lib/storage" "github.com/VictoriaMetrics/metricsql" "github.com/VictoriaMetrics/metricsql/binaryop" ) var binaryOpFuncs = map[string]binaryOpFunc{ "+": newBinaryOpArithFunc(binaryop.Plus), "-": newBinaryOpArithFunc(binaryop.Minus), "*": newBinaryOpArithFunc(binaryop.Mul), "/": newBinaryOpArithFunc(binaryop.Div), "%": newBinaryOpArithFunc(binaryop.Mod), "^": newBinaryOpArithFunc(binaryop.Pow), // See https://github.com/prometheus/prometheus/pull/9248 "atan2": newBinaryOpArithFunc(binaryop.Atan2), // cmp ops "==": newBinaryOpCmpFunc(binaryop.Eq), "!=": newBinaryOpCmpFunc(binaryop.Neq), ">": newBinaryOpCmpFunc(binaryop.Gt), "<": newBinaryOpCmpFunc(binaryop.Lt), ">=": newBinaryOpCmpFunc(binaryop.Gte), "<=": newBinaryOpCmpFunc(binaryop.Lte), // logical set ops "and": binaryOpAnd, "or": binaryOpOr, "unless": binaryOpUnless, // New ops "if": binaryOpIf, "ifnot": binaryOpIfnot, "default": binaryOpDefault, } func getBinaryOpFunc(op string) binaryOpFunc { op = strings.ToLower(op) return binaryOpFuncs[op] } type binaryOpFuncArg struct { be *metricsql.BinaryOpExpr left []*timeseries right []*timeseries } type binaryOpFunc func(bfa *binaryOpFuncArg) ([]*timeseries, error) func newBinaryOpCmpFunc(cf func(left, right float64) bool) binaryOpFunc { cfe := func(left, right float64, isBool bool) float64 { if !isBool { if cf(left, right) { return left } return nan } if math.IsNaN(left) { return nan } if cf(left, right) { return 1 } return 0 } return newBinaryOpFunc(cfe) } func newBinaryOpArithFunc(af func(left, right float64) float64) binaryOpFunc { afe := func(left, right float64, _ bool) float64 { return af(left, right) } return newBinaryOpFunc(afe) } func newBinaryOpFunc(bf func(left, right float64, isBool bool) float64) binaryOpFunc { return func(bfa *binaryOpFuncArg) ([]*timeseries, error) { left := bfa.left right := bfa.right op := bfa.be.Op switch true { case metricsql.IsBinaryOpCmp(op): // Do not remove empty series for comparison operations, // since this may lead to missing result. default: left = removeEmptySeries(left) right = removeEmptySeries(right) } if len(left) == 0 || len(right) == 0 { return nil, nil } left, right, dst, err := adjustBinaryOpTags(bfa.be, left, right) if err != nil { return nil, err } if len(left) != len(right) || len(left) != len(dst) { logger.Panicf("BUG: len(left) must match len(right) and len(dst); got %d vs %d vs %d", len(left), len(right), len(dst)) } isBool := bfa.be.Bool for i, tsLeft := range left { leftValues := tsLeft.Values rightValues := right[i].Values dstValues := dst[i].Values if len(leftValues) != len(rightValues) || len(leftValues) != len(dstValues) { logger.Panicf("BUG: len(leftVaues) must match len(rightValues) and len(dstValues); got %d vs %d vs %d", len(leftValues), len(rightValues), len(dstValues)) } for j, a := range leftValues { b := rightValues[j] dstValues[j] = bf(a, b, isBool) } } // Do not remove time series containing only NaNs, since then the `(foo op bar) default N` // won't work as expected if `(foo op bar)` results to NaN series. return dst, nil } } func adjustBinaryOpTags(be *metricsql.BinaryOpExpr, left, right []*timeseries) ([]*timeseries, []*timeseries, []*timeseries, error) { if len(be.GroupModifier.Op) == 0 && len(be.JoinModifier.Op) == 0 { if isScalar(left) { // Fast path: `scalar op vector` rvsLeft := make([]*timeseries, len(right)) tsLeft := left[0] for i, tsRight := range right { resetMetricGroupIfRequired(be, tsRight) rvsLeft[i] = tsLeft } return rvsLeft, right, right, nil } if isScalar(right) { // Fast path: `vector op scalar` rvsRight := make([]*timeseries, len(left)) tsRight := right[0] for i, tsLeft := range left { resetMetricGroupIfRequired(be, tsLeft) rvsRight[i] = tsRight } return left, rvsRight, left, nil } } // Slow path: `vector op vector` or `a op {on|ignoring} {group_left|group_right} b` var rvsLeft, rvsRight []*timeseries mLeft, mRight := createTimeseriesMapByTagSet(be, left, right) joinOp := strings.ToLower(be.JoinModifier.Op) groupOp := strings.ToLower(be.GroupModifier.Op) if len(groupOp) == 0 { groupOp = "ignoring" } groupTags := be.GroupModifier.Args if be.KeepMetricNames && groupOp == "on" { // Add __name__ to groupTags if metric name must be preserved. groupTags = append(groupTags[:len(groupTags):len(groupTags)], "__name__") } for k, tssLeft := range mLeft { tssRight := mRight[k] if len(tssRight) == 0 { continue } switch joinOp { case "group_left": var err error rvsLeft, rvsRight, err = groupJoin("right", be, rvsLeft, rvsRight, tssLeft, tssRight) if err != nil { return nil, nil, nil, err } case "group_right": var err error rvsRight, rvsLeft, err = groupJoin("left", be, rvsRight, rvsLeft, tssRight, tssLeft) if err != nil { return nil, nil, nil, err } case "": if err := ensureSingleTimeseries("left", be, tssLeft); err != nil { return nil, nil, nil, err } if err := ensureSingleTimeseries("right", be, tssRight); err != nil { return nil, nil, nil, err } tsLeft := tssLeft[0] resetMetricGroupIfRequired(be, tsLeft) switch groupOp { case "on": tsLeft.MetricName.RemoveTagsOn(groupTags) case "ignoring": tsLeft.MetricName.RemoveTagsIgnoring(groupTags) default: logger.Panicf("BUG: unexpected binary op modifier %q", groupOp) } rvsLeft = append(rvsLeft, tsLeft) rvsRight = append(rvsRight, tssRight[0]) default: logger.Panicf("BUG: unexpected join modifier %q", joinOp) } } dst := rvsLeft if joinOp == "group_right" { dst = rvsRight } return rvsLeft, rvsRight, dst, nil } func ensureSingleTimeseries(side string, be *metricsql.BinaryOpExpr, tss []*timeseries) error { if len(tss) == 0 { logger.Panicf("BUG: tss must contain at least one value") } for len(tss) > 1 { if !mergeNonOverlappingTimeseries(tss[0], tss[len(tss)-1]) { return fmt.Errorf(`duplicate time series on the %s side of %s %s: %s and %s`, side, be.Op, be.GroupModifier.AppendString(nil), stringMetricTags(&tss[0].MetricName), stringMetricTags(&tss[len(tss)-1].MetricName)) } tss = tss[:len(tss)-1] } return nil } func groupJoin(singleTimeseriesSide string, be *metricsql.BinaryOpExpr, rvsLeft, rvsRight, tssLeft, tssRight []*timeseries) ([]*timeseries, []*timeseries, error) { joinTags := be.JoinModifier.Args var skipTags []string if strings.ToLower(be.GroupModifier.Op) == "on" { skipTags = be.GroupModifier.Args } joinPrefix := "" if be.JoinModifierPrefix != nil { joinPrefix = be.JoinModifierPrefix.S } type tsPair struct { left *timeseries right *timeseries } m := make(map[string]*tsPair) for _, tsLeft := range tssLeft { resetMetricGroupIfRequired(be, tsLeft) if len(tssRight) == 1 { // Easy case - right part contains only a single matching time series. tsLeft.MetricName.SetTags(joinTags, joinPrefix, skipTags, &tssRight[0].MetricName) rvsLeft = append(rvsLeft, tsLeft) rvsRight = append(rvsRight, tssRight[0]) continue } // Hard case - right part contains multiple matching time series. // Verify it doesn't result in duplicate MetricName values after adding missing tags. for k := range m { delete(m, k) } bb := bbPool.Get() for _, tsRight := range tssRight { var tsCopy timeseries tsCopy.CopyFromShallowTimestamps(tsLeft) tsCopy.MetricName.SetTags(joinTags, joinPrefix, skipTags, &tsRight.MetricName) bb.B = marshalMetricNameSorted(bb.B[:0], &tsCopy.MetricName) pair, ok := m[string(bb.B)] if !ok { m[string(bb.B)] = &tsPair{ left: &tsCopy, right: tsRight, } continue } // Try merging pair.right with tsRight if they don't overlap. var tmp timeseries tmp.CopyFromShallowTimestamps(pair.right) if !mergeNonOverlappingTimeseries(&tmp, tsRight) { return nil, nil, fmt.Errorf("duplicate time series on the %s side of `%s %s %s`: %s and %s", singleTimeseriesSide, be.Op, be.GroupModifier.AppendString(nil), be.JoinModifier.AppendString(nil), stringMetricTags(&tmp.MetricName), stringMetricTags(&tsRight.MetricName)) } pair.right = &tmp } bbPool.Put(bb) for _, pair := range m { rvsLeft = append(rvsLeft, pair.left) rvsRight = append(rvsRight, pair.right) } } return rvsLeft, rvsRight, nil } func mergeNonOverlappingTimeseries(dst, src *timeseries) bool { // Verify whether the time series can be merged. srcValues := src.Values dstValues := dst.Values overlaps := 0 _ = dstValues[len(srcValues)-1] for i, v := range srcValues { if math.IsNaN(v) { continue } if !math.IsNaN(dstValues[i]) { overlaps++ } } // Allow up to two overlapping datapoints, which can appear due to staleness algorithm, // which can add a few datapoints in the end of time series. if overlaps > 2 { return false } // Do not merge time series with too small number of datapoints. // This can be the case during evaluation of instant queries (alerting or recording rules). // See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/1141 if len(srcValues) <= 2 && len(dstValues) <= 2 { return false } // Time series can be merged. Merge them. for i, v := range srcValues { if math.IsNaN(v) { continue } dstValues[i] = v } return true } func resetMetricGroupIfRequired(be *metricsql.BinaryOpExpr, ts *timeseries) { if metricsql.IsBinaryOpCmp(be.Op) && !be.Bool { // Do not reset MetricGroup for non-boolean `compare` binary ops like Prometheus does. return } if be.KeepMetricNames { // Do not reset MetricGroup if it is explicitly requested via `a op b keep_metric_names` // See https://docs.victoriametrics.com/metricsql/#keep_metric_names return } ts.MetricName.ResetMetricGroup() } func binaryOpIf(bfa *binaryOpFuncArg) ([]*timeseries, error) { mLeft, mRight := createTimeseriesMapByTagSet(bfa.be, bfa.left, bfa.right) var rvs []*timeseries for k, tssLeft := range mLeft { tssRight := seriesByKey(mRight, k) if tssRight == nil { continue } tssLeft = addRightNaNsToLeft(tssLeft, tssRight) rvs = append(rvs, tssLeft...) } return rvs, nil } func binaryOpAnd(bfa *binaryOpFuncArg) ([]*timeseries, error) { mLeft, mRight := createTimeseriesMapByTagSet(bfa.be, bfa.left, bfa.right) var rvs []*timeseries for k, tssRight := range mRight { tssLeft := mLeft[k] if tssLeft == nil { continue } tssLeft = addRightNaNsToLeft(tssLeft, tssRight) rvs = append(rvs, tssLeft...) } return rvs, nil } func addRightNaNsToLeft(tssLeft, tssRight []*timeseries) []*timeseries { for _, tsLeft := range tssLeft { valuesLeft := tsLeft.Values for i := range valuesLeft { hasValue := false for _, tsRight := range tssRight { if !math.IsNaN(tsRight.Values[i]) { hasValue = true break } } if !hasValue { valuesLeft[i] = nan } } } return removeEmptySeries(tssLeft) } func binaryOpDefault(bfa *binaryOpFuncArg) ([]*timeseries, error) { mLeft, mRight := createTimeseriesMapByTagSet(bfa.be, bfa.left, bfa.right) var rvs []*timeseries if len(mLeft) == 0 { for _, tss := range mRight { rvs = append(rvs, tss...) } return rvs, nil } for k, tssLeft := range mLeft { rvs = append(rvs, tssLeft...) tssRight := seriesByKey(mRight, k) if tssRight == nil { continue } fillLeftNaNsWithRightValues(tssLeft, tssRight) } return rvs, nil } func binaryOpOr(bfa *binaryOpFuncArg) ([]*timeseries, error) { mLeft, mRight := createTimeseriesMapByTagSet(bfa.be, bfa.left, bfa.right) var rvs []*timeseries for _, tss := range mLeft { rvs = append(rvs, tss...) } // Sort left-hand-side series by metric name as Prometheus does. // See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/5393 sortSeriesByMetricName(rvs) rvsLen := len(rvs) for k, tssRight := range mRight { tssLeft := mLeft[k] if tssLeft == nil { rvs = append(rvs, tssRight...) continue } fillLeftNaNsWithRightValues(tssLeft, tssRight) } // Sort the added right-hand-side series by metric name as Prometheus does. // See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/5393 sortSeriesByMetricName(rvs[rvsLen:]) return rvs, nil } func fillLeftNaNsWithRightValues(tssLeft, tssRight []*timeseries) { // Fill gaps in tssLeft with values from tssRight as Prometheus does. // See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/552 for _, tsLeft := range tssLeft { valuesLeft := tsLeft.Values for i, v := range valuesLeft { if !math.IsNaN(v) { continue } for _, tsRight := range tssRight { vRight := tsRight.Values[i] if !math.IsNaN(vRight) { valuesLeft[i] = vRight break } } } } } func binaryOpIfnot(bfa *binaryOpFuncArg) ([]*timeseries, error) { mLeft, mRight := createTimeseriesMapByTagSet(bfa.be, bfa.left, bfa.right) var rvs []*timeseries for k, tssLeft := range mLeft { tssRight := seriesByKey(mRight, k) if tssRight == nil { rvs = append(rvs, tssLeft...) continue } tssLeft = addLeftNaNsIfNoRightNaNs(tssLeft, tssRight) rvs = append(rvs, tssLeft...) } return rvs, nil } func binaryOpUnless(bfa *binaryOpFuncArg) ([]*timeseries, error) { mLeft, mRight := createTimeseriesMapByTagSet(bfa.be, bfa.left, bfa.right) var rvs []*timeseries for k, tssLeft := range mLeft { tssRight := mRight[k] if tssRight == nil { rvs = append(rvs, tssLeft...) continue } tssLeft = addLeftNaNsIfNoRightNaNs(tssLeft, tssRight) rvs = append(rvs, tssLeft...) } return rvs, nil } func addLeftNaNsIfNoRightNaNs(tssLeft, tssRight []*timeseries) []*timeseries { for _, tsLeft := range tssLeft { valuesLeft := tsLeft.Values for i := range valuesLeft { for _, tsRight := range tssRight { if !math.IsNaN(tsRight.Values[i]) { valuesLeft[i] = nan break } } } } return removeEmptySeries(tssLeft) } func seriesByKey(m map[string][]*timeseries, key string) []*timeseries { tss := m[key] if tss != nil { return tss } if len(m) != 1 { return nil } for _, tss := range m { if isScalar(tss) { return tss } return nil } return nil } func createTimeseriesMapByTagSet(be *metricsql.BinaryOpExpr, left, right []*timeseries) (map[string][]*timeseries, map[string][]*timeseries) { groupTags := be.GroupModifier.Args groupOp := strings.ToLower(be.GroupModifier.Op) if len(groupOp) == 0 { groupOp = "ignoring" } getTagsMap := func(arg []*timeseries) map[string][]*timeseries { bb := bbPool.Get() m := make(map[string][]*timeseries, len(arg)) mn := storage.GetMetricName() for _, ts := range arg { mn.CopyFrom(&ts.MetricName) if !be.KeepMetricNames { mn.ResetMetricGroup() } switch groupOp { case "on": mn.RemoveTagsOn(groupTags) case "ignoring": mn.RemoveTagsIgnoring(groupTags) default: logger.Panicf("BUG: unexpected binary op modifier %q", groupOp) } bb.B = marshalMetricNameSorted(bb.B[:0], mn) k := string(bb.B) m[k] = append(m[k], ts) } storage.PutMetricName(mn) bbPool.Put(bb) return m } mLeft := getTagsMap(left) mRight := getTagsMap(right) return mLeft, mRight } func isScalar(arg []*timeseries) bool { if len(arg) != 1 { return false } mn := &arg[0].MetricName if len(mn.MetricGroup) > 0 { return false } return len(mn.Tags) == 0 }