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package writeconcurrencylimiter
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import (
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"flag"
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"fmt"
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"io"
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"net/http"
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"sync"
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"time"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/cgroup"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/httpserver"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/timerpool"
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"github.com/VictoriaMetrics/metrics"
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)
var (
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maxConcurrentInserts = flag . Int ( "maxConcurrentInserts" , 2 * cgroup . AvailableCPUs ( ) , "The maximum number of concurrent insert requests. " +
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"Default value should work for most cases, since it minimizes the memory usage. The default value can be increased when clients send data over slow networks. " +
"See also -insert.maxQueueDuration" )
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maxQueueDuration = flag . Duration ( "insert.maxQueueDuration" , time . Minute , "The maximum duration to wait in the queue when -maxConcurrentInserts " +
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"concurrent insert requests are executed" )
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)
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// Reader is a reader, which increases the concurrency after the first Read() call
//
// The concurrency can be reduced by calling DecConcurrency().
// Then the concurrency is increased after the next Read() call.
type Reader struct {
r io . Reader
increasedConcurrency bool
}
// GetReader returns the Reader for r.
//
// The PutReader() must be called when the returned Reader is no longer needed.
func GetReader ( r io . Reader ) * Reader {
v := readerPool . Get ( )
if v == nil {
return & Reader {
r : r ,
}
}
rr := v . ( * Reader )
rr . r = r
return rr
}
// PutReader returns the r to the pool.
//
// It decreases the concurrency if r has increased concurrency.
func PutReader ( r * Reader ) {
r . DecConcurrency ( )
r . r = nil
readerPool . Put ( r )
}
var readerPool sync . Pool
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// Read implements io.Reader.
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//
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// It increases concurrency after the first call or after the next call after DecConcurrency() call.
func ( r * Reader ) Read ( p [ ] byte ) ( int , error ) {
n , err := r . r . Read ( p )
if ! r . increasedConcurrency {
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if ! incConcurrency ( ) {
err = & httpserver . ErrorWithStatusCode {
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Err : fmt . Errorf ( "cannot process insert request for %.3f seconds because %d concurrent insert requests are executed. " +
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"Possible solutions: to reduce workload; to increase compute resources at the server; " +
"to increase -insert.maxQueueDuration; to increase -maxConcurrentInserts" ,
maxQueueDuration . Seconds ( ) , * maxConcurrentInserts ) ,
StatusCode : http . StatusServiceUnavailable ,
}
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return 0 , err
}
r . increasedConcurrency = true
}
return n , err
}
// DecConcurrency decreases the concurrency, so it could be increased again after the next Read() call.
func ( r * Reader ) DecConcurrency ( ) {
if r . increasedConcurrency {
decConcurrency ( )
r . increasedConcurrency = false
}
}
func initConcurrencyLimitCh ( ) {
concurrencyLimitCh = make ( chan struct { } , * maxConcurrentInserts )
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}
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var (
concurrencyLimitCh chan struct { }
concurrencyLimitChOnce sync . Once
)
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func incConcurrency ( ) bool {
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concurrencyLimitChOnce . Do ( initConcurrencyLimitCh )
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select {
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case concurrencyLimitCh <- struct { } { } :
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return true
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default :
}
concurrencyLimitReached . Inc ( )
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t := timerpool . Get ( * maxQueueDuration )
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select {
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case concurrencyLimitCh <- struct { } { } :
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timerpool . Put ( t )
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return true
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case <- t . C :
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timerpool . Put ( t )
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concurrencyLimitTimeout . Inc ( )
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return false
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}
}
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func decConcurrency ( ) {
<- concurrencyLimitCh
}
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var (
concurrencyLimitReached = metrics . NewCounter ( ` vm_concurrent_insert_limit_reached_total ` )
concurrencyLimitTimeout = metrics . NewCounter ( ` vm_concurrent_insert_limit_timeout_total ` )
_ = metrics . NewGauge ( ` vm_concurrent_insert_capacity ` , func ( ) float64 {
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concurrencyLimitChOnce . Do ( initConcurrencyLimitCh )
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return float64 ( cap ( concurrencyLimitCh ) )
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} )
_ = metrics . NewGauge ( ` vm_concurrent_insert_current ` , func ( ) float64 {
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concurrencyLimitChOnce . Do ( initConcurrencyLimitCh )
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return float64 ( len ( concurrencyLimitCh ) )
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} )
)