mirror of
https://github.com/VictoriaMetrics/VictoriaMetrics.git
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4318f34644
Using plain sync.Pool simplifies the code without increasing memory usage and CPU usage.
So it is better to use plain sync.Pool from readability and maintainability PoV.
This is a follow-up for 8942f290eb
267 lines
6.3 KiB
Go
267 lines
6.3 KiB
Go
package stream
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import (
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"bufio"
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"flag"
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"fmt"
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"io"
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"sync"
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"time"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/bytesutil"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/flagutil"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/protoparser/common"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/protoparser/influx"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/writeconcurrencylimiter"
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"github.com/VictoriaMetrics/metrics"
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)
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var (
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maxLineSize = flagutil.NewBytes("influx.maxLineSize", 256*1024, "The maximum size in bytes for a single InfluxDB line during parsing")
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trimTimestamp = flag.Duration("influxTrimTimestamp", time.Millisecond, "Trim timestamps for InfluxDB line protocol data to this duration. "+
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"Minimum practical duration is 1ms. Higher duration (i.e. 1s) may be used for reducing disk space usage for timestamp data")
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)
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// Parse parses r with the given args and calls callback for the parsed rows.
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//
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// The callback can be called concurrently multiple times for streamed data from r.
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//
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// callback shouldn't hold rows after returning.
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func Parse(r io.Reader, isGzipped bool, precision, db string, callback func(db string, rows []influx.Row) error) error {
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wcr := writeconcurrencylimiter.GetReader(r)
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defer writeconcurrencylimiter.PutReader(wcr)
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r = wcr
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if isGzipped {
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zr, err := common.GetGzipReader(r)
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if err != nil {
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return fmt.Errorf("cannot read gzipped influx line protocol data: %w", err)
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}
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defer common.PutGzipReader(zr)
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r = zr
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}
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tsMultiplier := int64(0)
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switch precision {
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case "ns":
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tsMultiplier = 1e6
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case "u", "us", "µ":
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tsMultiplier = 1e3
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case "ms":
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tsMultiplier = 1
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case "s":
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tsMultiplier = -1e3
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case "m":
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tsMultiplier = -1e3 * 60
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case "h":
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tsMultiplier = -1e3 * 3600
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}
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ctx := getStreamContext(r)
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defer putStreamContext(ctx)
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for ctx.Read() {
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uw := getUnmarshalWork()
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uw.ctx = ctx
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uw.callback = callback
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uw.db = db
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uw.tsMultiplier = tsMultiplier
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uw.reqBuf, ctx.reqBuf = ctx.reqBuf, uw.reqBuf
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ctx.wg.Add(1)
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common.ScheduleUnmarshalWork(uw)
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wcr.DecConcurrency()
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}
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ctx.wg.Wait()
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if err := ctx.Error(); err != nil {
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return err
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}
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return ctx.callbackErr
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}
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func (ctx *streamContext) Read() bool {
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readCalls.Inc()
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if ctx.err != nil || ctx.hasCallbackError() {
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return false
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}
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ctx.reqBuf, ctx.tailBuf, ctx.err = common.ReadLinesBlockExt(ctx.br, ctx.reqBuf, ctx.tailBuf, maxLineSize.IntN())
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if ctx.err != nil {
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if ctx.err != io.EOF {
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readErrors.Inc()
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ctx.err = fmt.Errorf("cannot read influx line protocol data: %w", ctx.err)
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}
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return false
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}
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return true
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}
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var (
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readCalls = metrics.NewCounter(`vm_protoparser_read_calls_total{type="influx"}`)
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readErrors = metrics.NewCounter(`vm_protoparser_read_errors_total{type="influx"}`)
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rowsRead = metrics.NewCounter(`vm_protoparser_rows_read_total{type="influx"}`)
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)
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type streamContext struct {
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br *bufio.Reader
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reqBuf []byte
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tailBuf []byte
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err error
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wg sync.WaitGroup
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callbackErrLock sync.Mutex
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callbackErr error
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}
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func (ctx *streamContext) Error() error {
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if ctx.err == io.EOF {
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return nil
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}
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return ctx.err
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}
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func (ctx *streamContext) hasCallbackError() bool {
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ctx.callbackErrLock.Lock()
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ok := ctx.callbackErr != nil
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ctx.callbackErrLock.Unlock()
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return ok
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}
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func (ctx *streamContext) reset() {
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ctx.br.Reset(nil)
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ctx.reqBuf = ctx.reqBuf[:0]
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ctx.tailBuf = ctx.tailBuf[:0]
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ctx.err = nil
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ctx.callbackErr = nil
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}
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func getStreamContext(r io.Reader) *streamContext {
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if v := streamContextPool.Get(); v != nil {
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ctx := v.(*streamContext)
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ctx.br.Reset(r)
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return ctx
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}
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return &streamContext{
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br: bufio.NewReaderSize(r, 64*1024),
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}
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}
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func putStreamContext(ctx *streamContext) {
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ctx.reset()
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streamContextPool.Put(ctx)
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}
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var streamContextPool sync.Pool
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type unmarshalWork struct {
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rows influx.Rows
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ctx *streamContext
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callback func(db string, rows []influx.Row) error
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db string
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tsMultiplier int64
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reqBuf []byte
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}
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func (uw *unmarshalWork) reset() {
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uw.rows.Reset()
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uw.ctx = nil
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uw.callback = nil
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uw.db = ""
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uw.tsMultiplier = 0
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uw.reqBuf = uw.reqBuf[:0]
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}
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func (uw *unmarshalWork) runCallback(rows []influx.Row) {
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ctx := uw.ctx
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if err := uw.callback(uw.db, rows); err != nil {
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ctx.callbackErrLock.Lock()
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if ctx.callbackErr == nil {
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ctx.callbackErr = fmt.Errorf("error when processing imported data: %w", err)
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}
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ctx.callbackErrLock.Unlock()
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}
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ctx.wg.Done()
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}
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// Unmarshal implements common.UnmarshalWork
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func (uw *unmarshalWork) Unmarshal() {
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uw.rows.Unmarshal(bytesutil.ToUnsafeString(uw.reqBuf))
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rows := uw.rows.Rows
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rowsRead.Add(len(rows))
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// Adjust timestamps according to uw.tsMultiplier
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currentTs := time.Now().UnixNano() / 1e6
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tsMultiplier := uw.tsMultiplier
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if tsMultiplier == 0 {
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// Default precision is 'ns'. See https://docs.influxdata.com/influxdb/v1.7/write_protocols/line_protocol_tutorial/#timestamp
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// But it can be in ns, us, ms or s depending on the number of digits in practice.
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for i := range rows {
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tsPtr := &rows[i].Timestamp
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*tsPtr = detectTimestamp(*tsPtr, currentTs)
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}
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} else if tsMultiplier >= 1 {
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for i := range rows {
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row := &rows[i]
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if row.Timestamp == 0 {
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row.Timestamp = currentTs
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} else {
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row.Timestamp /= tsMultiplier
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}
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}
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} else if tsMultiplier < 0 {
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tsMultiplier = -tsMultiplier
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currentTs -= currentTs % tsMultiplier
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for i := range rows {
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row := &rows[i]
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if row.Timestamp == 0 {
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row.Timestamp = currentTs
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} else {
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row.Timestamp *= tsMultiplier
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}
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}
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}
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// Trim timestamps if required.
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if tsTrim := trimTimestamp.Milliseconds(); tsTrim > 1 {
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for i := range rows {
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row := &rows[i]
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row.Timestamp -= row.Timestamp % tsTrim
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}
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}
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uw.runCallback(rows)
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putUnmarshalWork(uw)
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}
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func getUnmarshalWork() *unmarshalWork {
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v := unmarshalWorkPool.Get()
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if v == nil {
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return &unmarshalWork{}
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}
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return v.(*unmarshalWork)
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}
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func putUnmarshalWork(uw *unmarshalWork) {
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uw.reset()
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unmarshalWorkPool.Put(uw)
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}
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var unmarshalWorkPool sync.Pool
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func detectTimestamp(ts, currentTs int64) int64 {
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if ts == 0 {
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return currentTs
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}
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if ts >= 1e17 {
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// convert nanoseconds to milliseconds
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return ts / 1e6
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}
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if ts >= 1e14 {
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// convert microseconds to milliseconds
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return ts / 1e3
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}
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if ts >= 1e11 {
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// the ts is in milliseconds
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return ts
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}
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// convert seconds to milliseconds
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return ts * 1e3
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}
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