mirror of https://github.com/hashicorp/consul
242 lines
5.8 KiB
Go
242 lines
5.8 KiB
Go
package metrics
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import (
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"fmt"
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"math"
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"strings"
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"sync"
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"time"
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)
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// InmemSink provides a MetricSink that does in-memory aggregation
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// without sending metrics over a network. It can be embedded within
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// an application to provide profiling information.
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type InmemSink struct {
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// How long is each aggregation interval
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interval time.Duration
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// Retain controls how many metrics interval we keep
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retain time.Duration
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// maxIntervals is the maximum length of intervals.
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// It is retain / interval.
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maxIntervals int
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// intervals is a slice of the retained intervals
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intervals []*IntervalMetrics
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intervalLock sync.RWMutex
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}
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// IntervalMetrics stores the aggregated metrics
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// for a specific interval
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type IntervalMetrics struct {
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sync.RWMutex
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// The start time of the interval
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Interval time.Time
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// Gauges maps the key to the last set value
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Gauges map[string]float32
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// Points maps the string to the list of emitted values
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// from EmitKey
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Points map[string][]float32
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// Counters maps the string key to a sum of the counter
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// values
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Counters map[string]*AggregateSample
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// Samples maps the key to an AggregateSample,
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// which has the rolled up view of a sample
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Samples map[string]*AggregateSample
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}
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// NewIntervalMetrics creates a new IntervalMetrics for a given interval
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func NewIntervalMetrics(intv time.Time) *IntervalMetrics {
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return &IntervalMetrics{
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Interval: intv,
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Gauges: make(map[string]float32),
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Points: make(map[string][]float32),
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Counters: make(map[string]*AggregateSample),
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Samples: make(map[string]*AggregateSample),
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}
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}
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// AggregateSample is used to hold aggregate metrics
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// about a sample
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type AggregateSample struct {
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Count int // The count of emitted pairs
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Sum float64 // The sum of values
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SumSq float64 // The sum of squared values
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Min float64 // Minimum value
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Max float64 // Maximum value
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LastUpdated time.Time // When value was last updated
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}
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// Computes a Stddev of the values
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func (a *AggregateSample) Stddev() float64 {
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num := (float64(a.Count) * a.SumSq) - math.Pow(a.Sum, 2)
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div := float64(a.Count * (a.Count - 1))
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if div == 0 {
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return 0
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}
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return math.Sqrt(num / div)
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}
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// Computes a mean of the values
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func (a *AggregateSample) Mean() float64 {
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if a.Count == 0 {
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return 0
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}
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return a.Sum / float64(a.Count)
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}
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// Ingest is used to update a sample
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func (a *AggregateSample) Ingest(v float64) {
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a.Count++
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a.Sum += v
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a.SumSq += (v * v)
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if v < a.Min || a.Count == 1 {
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a.Min = v
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}
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if v > a.Max || a.Count == 1 {
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a.Max = v
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}
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a.LastUpdated = time.Now()
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}
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func (a *AggregateSample) String() string {
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if a.Count == 0 {
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return "Count: 0"
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} else if a.Stddev() == 0 {
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return fmt.Sprintf("Count: %d Sum: %0.3f LastUpdated: %s", a.Count, a.Sum, a.LastUpdated)
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} else {
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return fmt.Sprintf("Count: %d Min: %0.3f Mean: %0.3f Max: %0.3f Stddev: %0.3f Sum: %0.3f LastUpdated: %s",
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a.Count, a.Min, a.Mean(), a.Max, a.Stddev(), a.Sum, a.LastUpdated)
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}
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}
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// NewInmemSink is used to construct a new in-memory sink.
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// Uses an aggregation interval and maximum retention period.
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func NewInmemSink(interval, retain time.Duration) *InmemSink {
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i := &InmemSink{
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interval: interval,
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retain: retain,
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maxIntervals: int(retain / interval),
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}
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i.intervals = make([]*IntervalMetrics, 0, i.maxIntervals)
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return i
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}
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func (i *InmemSink) SetGauge(key []string, val float32) {
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k := i.flattenKey(key)
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intv := i.getInterval()
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intv.Lock()
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defer intv.Unlock()
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intv.Gauges[k] = val
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}
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func (i *InmemSink) EmitKey(key []string, val float32) {
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k := i.flattenKey(key)
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intv := i.getInterval()
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intv.Lock()
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defer intv.Unlock()
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vals := intv.Points[k]
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intv.Points[k] = append(vals, val)
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}
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func (i *InmemSink) IncrCounter(key []string, val float32) {
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k := i.flattenKey(key)
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intv := i.getInterval()
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intv.Lock()
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defer intv.Unlock()
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agg := intv.Counters[k]
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if agg == nil {
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agg = &AggregateSample{}
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intv.Counters[k] = agg
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}
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agg.Ingest(float64(val))
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}
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func (i *InmemSink) AddSample(key []string, val float32) {
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k := i.flattenKey(key)
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intv := i.getInterval()
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intv.Lock()
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defer intv.Unlock()
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agg := intv.Samples[k]
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if agg == nil {
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agg = &AggregateSample{}
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intv.Samples[k] = agg
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}
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agg.Ingest(float64(val))
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}
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// Data is used to retrieve all the aggregated metrics
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// Intervals may be in use, and a read lock should be acquired
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func (i *InmemSink) Data() []*IntervalMetrics {
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// Get the current interval, forces creation
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i.getInterval()
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i.intervalLock.RLock()
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defer i.intervalLock.RUnlock()
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intervals := make([]*IntervalMetrics, len(i.intervals))
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copy(intervals, i.intervals)
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return intervals
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}
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func (i *InmemSink) getExistingInterval(intv time.Time) *IntervalMetrics {
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i.intervalLock.RLock()
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defer i.intervalLock.RUnlock()
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n := len(i.intervals)
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if n > 0 && i.intervals[n-1].Interval == intv {
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return i.intervals[n-1]
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}
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return nil
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}
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func (i *InmemSink) createInterval(intv time.Time) *IntervalMetrics {
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i.intervalLock.Lock()
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defer i.intervalLock.Unlock()
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// Check for an existing interval
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n := len(i.intervals)
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if n > 0 && i.intervals[n-1].Interval == intv {
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return i.intervals[n-1]
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}
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// Add the current interval
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current := NewIntervalMetrics(intv)
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i.intervals = append(i.intervals, current)
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n++
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// Truncate the intervals if they are too long
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if n >= i.maxIntervals {
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copy(i.intervals[0:], i.intervals[n-i.maxIntervals:])
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i.intervals = i.intervals[:i.maxIntervals]
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}
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return current
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}
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// getInterval returns the current interval to write to
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func (i *InmemSink) getInterval() *IntervalMetrics {
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intv := time.Now().Truncate(i.interval)
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if m := i.getExistingInterval(intv); m != nil {
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return m
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}
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return i.createInterval(intv)
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}
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// Flattens the key for formatting, removes spaces
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func (i *InmemSink) flattenKey(parts []string) string {
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joined := strings.Join(parts, ".")
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return strings.Replace(joined, " ", "_", -1)
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}
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