mirror of
https://github.com/Oxalide/vsphere-influxdb-go.git
synced 2023-10-10 13:36:51 +02:00
150 lines
3.6 KiB
Go
150 lines
3.6 KiB
Go
package tsdb
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import (
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"sync"
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"sync/atomic"
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"time"
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"github.com/influxdata/influxdb/models"
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)
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// PointBatcher accepts Points and will emit a batch of those points when either
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// a) the batch reaches a certain size, or b) a certain time passes.
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type PointBatcher struct {
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stats PointBatcherStats
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size int
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duration time.Duration
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stop chan struct{}
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in chan models.Point
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out chan []models.Point
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flush chan struct{}
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wg *sync.WaitGroup
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}
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// NewPointBatcher returns a new PointBatcher. sz is the batching size,
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// bp is the maximum number of batches that may be pending. d is the time
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// after which a batch will be emitted after the first point is received
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// for the batch, regardless of its size.
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func NewPointBatcher(sz int, bp int, d time.Duration) *PointBatcher {
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return &PointBatcher{
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size: sz,
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duration: d,
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stop: make(chan struct{}),
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in: make(chan models.Point, bp*sz),
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out: make(chan []models.Point),
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flush: make(chan struct{}),
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}
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}
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// PointBatcherStats are the statistics each batcher tracks.
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type PointBatcherStats struct {
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BatchTotal uint64 // Total count of batches transmitted.
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PointTotal uint64 // Total count of points processed.
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SizeTotal uint64 // Number of batches that reached size threshold.
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TimeoutTotal uint64 // Number of timeouts that occurred.
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}
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// Start starts the batching process. Returns the in and out channels for points
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// and point-batches respectively.
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func (b *PointBatcher) Start() {
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// Already running?
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if b.wg != nil {
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return
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}
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var timer *time.Timer
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var batch []models.Point
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var timerCh <-chan time.Time
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emit := func() {
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b.out <- batch
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atomic.AddUint64(&b.stats.BatchTotal, 1)
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batch = nil
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}
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b.wg = &sync.WaitGroup{}
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b.wg.Add(1)
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go func() {
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defer b.wg.Done()
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for {
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select {
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case <-b.stop:
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if len(batch) > 0 {
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emit()
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timerCh = nil
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}
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return
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case p := <-b.in:
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atomic.AddUint64(&b.stats.PointTotal, 1)
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if batch == nil {
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batch = make([]models.Point, 0, b.size)
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if b.duration > 0 {
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timer = time.NewTimer(b.duration)
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timerCh = timer.C
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}
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}
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batch = append(batch, p)
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if len(batch) >= b.size { // 0 means send immediately.
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atomic.AddUint64(&b.stats.SizeTotal, 1)
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emit()
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timerCh = nil
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}
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case <-b.flush:
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if len(batch) > 0 {
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emit()
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timerCh = nil
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}
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case <-timerCh:
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atomic.AddUint64(&b.stats.TimeoutTotal, 1)
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emit()
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}
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}
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}()
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}
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// Stop stops the batching process. Stop waits for the batching routine
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// to stop before returning.
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func (b *PointBatcher) Stop() {
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// If not running, nothing to stop.
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if b.wg == nil {
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return
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}
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close(b.stop)
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b.wg.Wait()
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}
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// In returns the channel to which points should be written.
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func (b *PointBatcher) In() chan<- models.Point {
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return b.in
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}
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// Out returns the channel from which batches should be read.
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func (b *PointBatcher) Out() <-chan []models.Point {
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return b.out
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}
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// Flush instructs the batcher to emit any pending points in a batch, regardless of batch size.
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// If there are no pending points, no batch is emitted.
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func (b *PointBatcher) Flush() {
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b.flush <- struct{}{}
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}
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// Stats returns a PointBatcherStats object for the PointBatcher. While the each statistic should be
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// closely correlated with each other statistic, it is not guaranteed.
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func (b *PointBatcher) Stats() *PointBatcherStats {
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stats := PointBatcherStats{}
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stats.BatchTotal = atomic.LoadUint64(&b.stats.BatchTotal)
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stats.PointTotal = atomic.LoadUint64(&b.stats.PointTotal)
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stats.SizeTotal = atomic.LoadUint64(&b.stats.SizeTotal)
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stats.TimeoutTotal = atomic.LoadUint64(&b.stats.TimeoutTotal)
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return &stats
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}
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