mirror of
https://github.com/VictoriaMetrics/VictoriaMetrics.git
synced 2024-12-15 08:23:34 +01:00
585 lines
20 KiB
Go
585 lines
20 KiB
Go
package promscrape
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import (
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"flag"
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"fmt"
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"math"
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"math/bits"
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"strconv"
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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/leveledbytebufferpool"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/logger"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/promauth"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/prompbmarshal"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/promrelabel"
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parser "github.com/VictoriaMetrics/VictoriaMetrics/lib/protoparser/prometheus"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/proxy"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/timerpool"
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"github.com/VictoriaMetrics/metrics"
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xxhash "github.com/cespare/xxhash/v2"
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)
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var (
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suppressScrapeErrors = flag.Bool("promscrape.suppressScrapeErrors", false, "Whether to suppress scrape errors logging. "+
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"The last error for each target is always available at '/targets' page even if scrape errors logging is suppressed")
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)
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// ScrapeWork represents a unit of work for scraping Prometheus metrics.
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//
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// It must be immutable during its lifetime, since it is read from concurrently running goroutines.
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type ScrapeWork struct {
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// Full URL (including query args) for the scrape.
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ScrapeURL string
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// Interval for scraping the ScrapeURL.
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ScrapeInterval time.Duration
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// Timeout for scraping the ScrapeURL.
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ScrapeTimeout time.Duration
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// How to deal with conflicting labels.
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// See https://prometheus.io/docs/prometheus/latest/configuration/configuration/#scrape_config
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HonorLabels bool
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// How to deal with scraped timestamps.
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// See https://prometheus.io/docs/prometheus/latest/configuration/configuration/#scrape_config
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HonorTimestamps bool
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// Whether to deny redirects during requests to scrape config.
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DenyRedirects bool
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// OriginalLabels contains original labels before relabeling.
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//
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// These labels are needed for relabeling troubleshooting at /targets page.
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OriginalLabels []prompbmarshal.Label
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// Labels to add to the scraped metrics.
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//
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// The list contains at least the following labels according to https://prometheus.io/docs/prometheus/latest/configuration/configuration/#relabel_config
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//
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// * job
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// * __address__
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// * __scheme__
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// * __metrics_path__
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// * __param_<name>
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// * __meta_*
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// * user-defined labels set via `relabel_configs` section in `scrape_config`
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//
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// See also https://prometheus.io/docs/concepts/jobs_instances/
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Labels []prompbmarshal.Label
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// ProxyURL HTTP proxy url
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ProxyURL proxy.URL
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// Auth config for ProxyUR:
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ProxyAuthConfig *promauth.Config
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// Auth config
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AuthConfig *promauth.Config
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// Optional `metric_relabel_configs`.
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MetricRelabelConfigs *promrelabel.ParsedConfigs
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// The maximum number of metrics to scrape after relabeling.
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SampleLimit int
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// Whether to disable response compression when querying ScrapeURL.
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DisableCompression bool
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// Whether to disable HTTP keep-alive when querying ScrapeURL.
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DisableKeepAlive bool
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// Whether to parse target responses in a streaming manner.
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StreamParse bool
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// The interval for aligning the first scrape.
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ScrapeAlignInterval time.Duration
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// The offset for the first scrape.
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ScrapeOffset time.Duration
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// The original 'job_name'
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jobNameOriginal string
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}
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// key returns unique identifier for the given sw.
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//
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// it can be used for comparing for equality for two ScrapeWork objects.
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func (sw *ScrapeWork) key() string {
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// Do not take into account OriginalLabels.
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key := fmt.Sprintf("ScrapeURL=%s, ScrapeInterval=%s, ScrapeTimeout=%s, HonorLabels=%v, HonorTimestamps=%v, DenyRedirects=%v, Labels=%s, "+
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"ProxyURL=%s, ProxyAuthConfig=%s, AuthConfig=%s, MetricRelabelConfigs=%s, SampleLimit=%d, DisableCompression=%v, DisableKeepAlive=%v, StreamParse=%v, "+
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"ScrapeAlignInterval=%s, ScrapeOffset=%s",
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sw.ScrapeURL, sw.ScrapeInterval, sw.ScrapeTimeout, sw.HonorLabels, sw.HonorTimestamps, sw.DenyRedirects, sw.LabelsString(),
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sw.ProxyURL.String(), sw.ProxyAuthConfig.String(),
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sw.AuthConfig.String(), sw.MetricRelabelConfigs.String(), sw.SampleLimit, sw.DisableCompression, sw.DisableKeepAlive, sw.StreamParse,
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sw.ScrapeAlignInterval, sw.ScrapeOffset)
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return key
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}
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// Job returns job for the ScrapeWork
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func (sw *ScrapeWork) Job() string {
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return promrelabel.GetLabelValueByName(sw.Labels, "job")
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}
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// LabelsString returns labels in Prometheus format for the given sw.
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func (sw *ScrapeWork) LabelsString() string {
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labelsFinalized := promrelabel.FinalizeLabels(nil, sw.Labels)
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return promLabelsString(labelsFinalized)
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}
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func promLabelsString(labels []prompbmarshal.Label) string {
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// Calculate the required memory for storing serialized labels.
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n := 2 // for `{...}`
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for _, label := range labels {
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n += len(label.Name) + len(label.Value)
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n += 4 // for `="...",`
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}
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b := make([]byte, 0, n)
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b = append(b, '{')
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for i, label := range labels {
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b = append(b, label.Name...)
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b = append(b, '=')
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b = strconv.AppendQuote(b, label.Value)
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if i+1 < len(labels) {
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b = append(b, ',')
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}
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}
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b = append(b, '}')
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return bytesutil.ToUnsafeString(b)
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}
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type scrapeWork struct {
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// Config for the scrape.
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Config *ScrapeWork
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// ReadData is called for reading the data.
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ReadData func(dst []byte) ([]byte, error)
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// GetStreamReader is called if Config.StreamParse is set.
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GetStreamReader func() (*streamReader, error)
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// PushData is called for pushing collected data.
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PushData func(wr *prompbmarshal.WriteRequest)
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// ScrapeGroup is name of ScrapeGroup that
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// scrapeWork belongs to
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ScrapeGroup string
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tmpRow parser.Row
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// the seriesMap, seriesAdded and labelsHashBuf are used for fast calculation of `scrape_series_added` metric.
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seriesMap map[uint64]struct{}
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seriesAdded int
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labelsHashBuf []byte
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// prevBodyLen contains the previous response body length for the given scrape work.
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// It is used as a hint in order to reduce memory usage for body buffers.
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prevBodyLen int
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// prevLabelsLen contains the number labels scraped during the previous scrape.
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// It is used as a hint in order to reduce memory usage when parsing scrape responses.
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prevLabelsLen int
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}
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func (sw *scrapeWork) run(stopCh <-chan struct{}) {
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var randSleep uint64
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scrapeInterval := sw.Config.ScrapeInterval
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scrapeAlignInterval := sw.Config.ScrapeAlignInterval
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scrapeOffset := sw.Config.ScrapeOffset
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if scrapeOffset > 0 {
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scrapeAlignInterval = scrapeInterval
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}
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if scrapeAlignInterval <= 0 {
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// Calculate start time for the first scrape from ScrapeURL and labels.
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// This should spread load when scraping many targets with different
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// scrape urls and labels.
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// This also makes consistent scrape times across restarts
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// for a target with the same ScrapeURL and labels.
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key := fmt.Sprintf("ScrapeURL=%s, Labels=%s", sw.Config.ScrapeURL, sw.Config.LabelsString())
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h := uint32(xxhash.Sum64(bytesutil.ToUnsafeBytes(key)))
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randSleep = uint64(float64(scrapeInterval) * (float64(h) / (1 << 32)))
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sleepOffset := uint64(time.Now().UnixNano()) % uint64(scrapeInterval)
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if randSleep < sleepOffset {
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randSleep += uint64(scrapeInterval)
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}
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randSleep -= sleepOffset
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} else {
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d := uint64(scrapeAlignInterval)
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randSleep = d - uint64(time.Now().UnixNano())%d
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if scrapeOffset > 0 {
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randSleep += uint64(scrapeOffset)
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}
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randSleep %= uint64(scrapeInterval)
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}
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timer := timerpool.Get(time.Duration(randSleep))
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var timestamp int64
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var ticker *time.Ticker
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select {
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case <-stopCh:
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timerpool.Put(timer)
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return
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case <-timer.C:
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timerpool.Put(timer)
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ticker = time.NewTicker(scrapeInterval)
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timestamp = time.Now().UnixNano() / 1e6
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sw.scrapeAndLogError(timestamp, timestamp)
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}
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defer ticker.Stop()
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for {
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timestamp += scrapeInterval.Milliseconds()
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select {
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case <-stopCh:
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return
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case tt := <-ticker.C:
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t := tt.UnixNano() / 1e6
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if d := math.Abs(float64(t - timestamp)); d > 0 && d/float64(scrapeInterval.Milliseconds()) > 0.1 {
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// Too big jitter. Adjust timestamp
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timestamp = t
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}
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sw.scrapeAndLogError(timestamp, t)
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}
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}
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}
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func (sw *scrapeWork) logError(s string) {
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if !*suppressScrapeErrors {
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logger.ErrorfSkipframes(1, "error when scraping %q from job %q with labels %s: %s; "+
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"scrape errors can be disabled by -promscrape.suppressScrapeErrors command-line flag",
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sw.Config.ScrapeURL, sw.Config.Job(), sw.Config.LabelsString(), s)
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}
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}
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func (sw *scrapeWork) scrapeAndLogError(scrapeTimestamp, realTimestamp int64) {
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if err := sw.scrapeInternal(scrapeTimestamp, realTimestamp); err != nil && !*suppressScrapeErrors {
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logger.Errorf("error when scraping %q from job %q with labels %s: %s", sw.Config.ScrapeURL, sw.Config.Job(), sw.Config.LabelsString(), err)
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}
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}
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var (
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scrapeDuration = metrics.NewHistogram("vm_promscrape_scrape_duration_seconds")
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scrapeResponseSize = metrics.NewHistogram("vm_promscrape_scrape_response_size_bytes")
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scrapedSamples = metrics.NewHistogram("vm_promscrape_scraped_samples")
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scrapesSkippedBySampleLimit = metrics.NewCounter("vm_promscrape_scrapes_skipped_by_sample_limit_total")
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scrapesFailed = metrics.NewCounter("vm_promscrape_scrapes_failed_total")
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pushDataDuration = metrics.NewHistogram("vm_promscrape_push_data_duration_seconds")
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)
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func (sw *scrapeWork) scrapeInternal(scrapeTimestamp, realTimestamp int64) error {
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if *streamParse || sw.Config.StreamParse {
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// Read data from scrape targets in streaming manner.
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// This case is optimized for targets exposing millions and more of metrics per target.
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return sw.scrapeStream(scrapeTimestamp, realTimestamp)
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}
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// Common case: read all the data from scrape target to memory (body) and then process it.
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// This case should work more optimally for than stream parse code above for common case when scrape target exposes
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// up to a few thousand metrics.
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body := leveledbytebufferpool.Get(sw.prevBodyLen)
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var err error
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body.B, err = sw.ReadData(body.B[:0])
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endTimestamp := time.Now().UnixNano() / 1e6
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duration := float64(endTimestamp-realTimestamp) / 1e3
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scrapeDuration.Update(duration)
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scrapeResponseSize.Update(float64(len(body.B)))
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up := 1
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wc := writeRequestCtxPool.Get(sw.prevLabelsLen)
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if err != nil {
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up = 0
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scrapesFailed.Inc()
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} else {
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bodyString := bytesutil.ToUnsafeString(body.B)
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wc.rows.UnmarshalWithErrLogger(bodyString, sw.logError)
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}
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srcRows := wc.rows.Rows
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samplesScraped := len(srcRows)
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scrapedSamples.Update(float64(samplesScraped))
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for i := range srcRows {
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sw.addRowToTimeseries(wc, &srcRows[i], scrapeTimestamp, true)
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}
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samplesPostRelabeling := len(wc.writeRequest.Timeseries)
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if sw.Config.SampleLimit > 0 && samplesPostRelabeling > sw.Config.SampleLimit {
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wc.resetNoRows()
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up = 0
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scrapesSkippedBySampleLimit.Inc()
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err = fmt.Errorf("the response from %q exceeds sample_limit=%d; "+
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"either reduce the sample count for the target or increase sample_limit", sw.Config.ScrapeURL, sw.Config.SampleLimit)
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}
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sw.updateSeriesAdded(wc)
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seriesAdded := sw.finalizeSeriesAdded(samplesPostRelabeling)
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sw.addAutoTimeseries(wc, "up", float64(up), scrapeTimestamp)
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sw.addAutoTimeseries(wc, "scrape_duration_seconds", duration, scrapeTimestamp)
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sw.addAutoTimeseries(wc, "scrape_samples_scraped", float64(samplesScraped), scrapeTimestamp)
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sw.addAutoTimeseries(wc, "scrape_samples_post_metric_relabeling", float64(samplesPostRelabeling), scrapeTimestamp)
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sw.addAutoTimeseries(wc, "scrape_series_added", float64(seriesAdded), scrapeTimestamp)
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startTime := time.Now()
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sw.PushData(&wc.writeRequest)
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pushDataDuration.UpdateDuration(startTime)
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sw.prevLabelsLen = len(wc.labels)
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wc.reset()
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writeRequestCtxPool.Put(wc)
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// body must be released only after wc is released, since wc refers to body.
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sw.prevBodyLen = len(body.B)
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leveledbytebufferpool.Put(body)
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tsmGlobal.Update(sw.Config, sw.ScrapeGroup, up == 1, realTimestamp, int64(duration*1000), samplesScraped, err)
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return err
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}
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func (sw *scrapeWork) scrapeStream(scrapeTimestamp, realTimestamp int64) error {
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samplesScraped := 0
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samplesPostRelabeling := 0
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responseSize := int64(0)
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wc := writeRequestCtxPool.Get(sw.prevLabelsLen)
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sr, err := sw.GetStreamReader()
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if err != nil {
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err = fmt.Errorf("cannot read data: %s", err)
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} else {
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var mu sync.Mutex
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err = parser.ParseStream(sr, scrapeTimestamp, false, func(rows []parser.Row) error {
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mu.Lock()
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defer mu.Unlock()
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samplesScraped += len(rows)
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for i := range rows {
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sw.addRowToTimeseries(wc, &rows[i], scrapeTimestamp, true)
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}
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// Push the collected rows to sw before returning from the callback, since they cannot be held
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// after returning from the callback - this will result in data race.
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// See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/825#issuecomment-723198247
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samplesPostRelabeling += len(wc.writeRequest.Timeseries)
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if sw.Config.SampleLimit > 0 && samplesPostRelabeling > sw.Config.SampleLimit {
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wc.resetNoRows()
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scrapesSkippedBySampleLimit.Inc()
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return fmt.Errorf("the response from %q exceeds sample_limit=%d; "+
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"either reduce the sample count for the target or increase sample_limit", sw.Config.ScrapeURL, sw.Config.SampleLimit)
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}
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sw.updateSeriesAdded(wc)
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startTime := time.Now()
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sw.PushData(&wc.writeRequest)
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pushDataDuration.UpdateDuration(startTime)
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wc.resetNoRows()
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return nil
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}, sw.logError)
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responseSize = sr.bytesRead
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sr.MustClose()
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}
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scrapedSamples.Update(float64(samplesScraped))
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endTimestamp := time.Now().UnixNano() / 1e6
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duration := float64(endTimestamp-realTimestamp) / 1e3
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scrapeDuration.Update(duration)
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scrapeResponseSize.Update(float64(responseSize))
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up := 1
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if err != nil {
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if samplesScraped == 0 {
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up = 0
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}
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scrapesFailed.Inc()
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}
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seriesAdded := sw.finalizeSeriesAdded(samplesPostRelabeling)
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sw.addAutoTimeseries(wc, "up", float64(up), scrapeTimestamp)
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sw.addAutoTimeseries(wc, "scrape_duration_seconds", duration, scrapeTimestamp)
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sw.addAutoTimeseries(wc, "scrape_samples_scraped", float64(samplesScraped), scrapeTimestamp)
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sw.addAutoTimeseries(wc, "scrape_samples_post_metric_relabeling", float64(samplesPostRelabeling), scrapeTimestamp)
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sw.addAutoTimeseries(wc, "scrape_series_added", float64(seriesAdded), scrapeTimestamp)
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startTime := time.Now()
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sw.PushData(&wc.writeRequest)
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pushDataDuration.UpdateDuration(startTime)
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sw.prevLabelsLen = len(wc.labels)
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wc.reset()
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writeRequestCtxPool.Put(wc)
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tsmGlobal.Update(sw.Config, sw.ScrapeGroup, up == 1, realTimestamp, int64(duration*1000), samplesScraped, err)
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return err
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}
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// leveledWriteRequestCtxPool allows reducing memory usage when writeRequesCtx
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// structs contain mixed number of labels.
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//
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// Its logic has been copied from leveledbytebufferpool.
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type leveledWriteRequestCtxPool struct {
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pools [13]sync.Pool
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}
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func (lwp *leveledWriteRequestCtxPool) Get(labelsCapacity int) *writeRequestCtx {
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id, capacityNeeded := lwp.getPoolIDAndCapacity(labelsCapacity)
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for i := 0; i < 2; i++ {
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if id < 0 || id >= len(lwp.pools) {
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break
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}
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if v := lwp.pools[id].Get(); v != nil {
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return v.(*writeRequestCtx)
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}
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id++
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}
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return &writeRequestCtx{
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labels: make([]prompbmarshal.Label, 0, capacityNeeded),
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}
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}
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func (lwp *leveledWriteRequestCtxPool) Put(wc *writeRequestCtx) {
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capacity := cap(wc.labels)
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id, poolCapacity := lwp.getPoolIDAndCapacity(capacity)
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if capacity <= poolCapacity {
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wc.reset()
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lwp.pools[id].Put(wc)
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}
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}
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func (lwp *leveledWriteRequestCtxPool) getPoolIDAndCapacity(size int) (int, int) {
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size--
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if size < 0 {
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size = 0
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}
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size >>= 3
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id := bits.Len(uint(size))
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if id >= len(lwp.pools) {
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id = len(lwp.pools) - 1
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}
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return id, (1 << (id + 3))
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}
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type writeRequestCtx struct {
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rows parser.Rows
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writeRequest prompbmarshal.WriteRequest
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labels []prompbmarshal.Label
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samples []prompbmarshal.Sample
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}
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func (wc *writeRequestCtx) reset() {
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wc.rows.Reset()
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wc.resetNoRows()
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}
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func (wc *writeRequestCtx) resetNoRows() {
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prompbmarshal.ResetWriteRequest(&wc.writeRequest)
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wc.labels = wc.labels[:0]
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wc.samples = wc.samples[:0]
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}
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var writeRequestCtxPool leveledWriteRequestCtxPool
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func (sw *scrapeWork) updateSeriesAdded(wc *writeRequestCtx) {
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if sw.seriesMap == nil {
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sw.seriesMap = make(map[uint64]struct{}, len(wc.writeRequest.Timeseries))
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}
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m := sw.seriesMap
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|
for _, ts := range wc.writeRequest.Timeseries {
|
|
h := sw.getLabelsHash(ts.Labels)
|
|
if _, ok := m[h]; !ok {
|
|
m[h] = struct{}{}
|
|
sw.seriesAdded++
|
|
}
|
|
}
|
|
}
|
|
|
|
func (sw *scrapeWork) finalizeSeriesAdded(lastScrapeSize int) int {
|
|
seriesAdded := sw.seriesAdded
|
|
sw.seriesAdded = 0
|
|
if len(sw.seriesMap) > 4*lastScrapeSize {
|
|
// Reset seriesMap, since it occupies more than 4x metrics collected during the last scrape.
|
|
sw.seriesMap = make(map[uint64]struct{}, lastScrapeSize)
|
|
}
|
|
return seriesAdded
|
|
}
|
|
|
|
func (sw *scrapeWork) getLabelsHash(labels []prompbmarshal.Label) uint64 {
|
|
// It is OK if there will be hash collisions for distinct sets of labels,
|
|
// since the accuracy for `scrape_series_added` metric may be lower than 100%.
|
|
b := sw.labelsHashBuf[:0]
|
|
for _, label := range labels {
|
|
b = append(b, label.Name...)
|
|
b = append(b, label.Value...)
|
|
}
|
|
sw.labelsHashBuf = b
|
|
return xxhash.Sum64(b)
|
|
}
|
|
|
|
// addAutoTimeseries adds automatically generated time series with the given name, value and timestamp.
|
|
//
|
|
// See https://prometheus.io/docs/concepts/jobs_instances/#automatically-generated-labels-and-time-series
|
|
func (sw *scrapeWork) addAutoTimeseries(wc *writeRequestCtx, name string, value float64, timestamp int64) {
|
|
sw.tmpRow.Metric = name
|
|
sw.tmpRow.Tags = nil
|
|
sw.tmpRow.Value = value
|
|
sw.tmpRow.Timestamp = timestamp
|
|
sw.addRowToTimeseries(wc, &sw.tmpRow, timestamp, false)
|
|
}
|
|
|
|
func (sw *scrapeWork) addRowToTimeseries(wc *writeRequestCtx, r *parser.Row, timestamp int64, needRelabel bool) {
|
|
labelsLen := len(wc.labels)
|
|
wc.labels = appendLabels(wc.labels, r.Metric, r.Tags, sw.Config.Labels, sw.Config.HonorLabels)
|
|
if needRelabel {
|
|
wc.labels = sw.Config.MetricRelabelConfigs.Apply(wc.labels, labelsLen, true)
|
|
} else {
|
|
wc.labels = promrelabel.FinalizeLabels(wc.labels[:labelsLen], wc.labels[labelsLen:])
|
|
promrelabel.SortLabels(wc.labels[labelsLen:])
|
|
}
|
|
if len(wc.labels) == labelsLen {
|
|
// Skip row without labels.
|
|
return
|
|
}
|
|
sampleTimestamp := r.Timestamp
|
|
if !sw.Config.HonorTimestamps || sampleTimestamp == 0 {
|
|
sampleTimestamp = timestamp
|
|
}
|
|
wc.samples = append(wc.samples, prompbmarshal.Sample{
|
|
Value: r.Value,
|
|
Timestamp: sampleTimestamp,
|
|
})
|
|
wr := &wc.writeRequest
|
|
wr.Timeseries = append(wr.Timeseries, prompbmarshal.TimeSeries{
|
|
Labels: wc.labels[labelsLen:],
|
|
Samples: wc.samples[len(wc.samples)-1:],
|
|
})
|
|
}
|
|
|
|
func appendLabels(dst []prompbmarshal.Label, metric string, src []parser.Tag, extraLabels []prompbmarshal.Label, honorLabels bool) []prompbmarshal.Label {
|
|
dstLen := len(dst)
|
|
dst = append(dst, prompbmarshal.Label{
|
|
Name: "__name__",
|
|
Value: metric,
|
|
})
|
|
for i := range src {
|
|
tag := &src[i]
|
|
dst = append(dst, prompbmarshal.Label{
|
|
Name: tag.Key,
|
|
Value: tag.Value,
|
|
})
|
|
}
|
|
dst = append(dst, extraLabels...)
|
|
labels := dst[dstLen:]
|
|
if len(labels) <= 1 {
|
|
// Fast path - only a single label.
|
|
return dst
|
|
}
|
|
|
|
// de-duplicate labels
|
|
dstLabels := labels[:0]
|
|
for i := range labels {
|
|
label := &labels[i]
|
|
prevLabel := promrelabel.GetLabelByName(dstLabels, label.Name)
|
|
if prevLabel == nil {
|
|
dstLabels = append(dstLabels, *label)
|
|
continue
|
|
}
|
|
if honorLabels {
|
|
// Skip the extra label with the same name.
|
|
continue
|
|
}
|
|
// Rename the prevLabel to "exported_" + label.Name.
|
|
// See https://prometheus.io/docs/prometheus/latest/configuration/configuration/#scrape_config
|
|
exportedName := "exported_" + label.Name
|
|
if promrelabel.GetLabelByName(dstLabels, exportedName) != nil {
|
|
// Override duplicate with the current label.
|
|
*prevLabel = *label
|
|
continue
|
|
}
|
|
prevLabel.Name = exportedName
|
|
dstLabels = append(dstLabels, *label)
|
|
}
|
|
return dst[:dstLen+len(dstLabels)]
|
|
}
|