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f21fad53b4
This option can be useful when vmagent consumes too much additional memory for staleness markers functionality and when staleness markers aren't needed.
650 lines
22 KiB
Go
650 lines
22 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/decimal"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/encoding"
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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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disableStaleMarkers = flag.Bool("promscrape.disableStaleMarkers", false, "Whether to disable seding Prometheus stale markers for metrics when scrape target disappears. This option may reduce memory usage if stale markers aren't needed for your setup. See also https://docs.victoriametrics.com/vmagent.html#stream-parsing-mode")
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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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activeSeriesBuf []byte
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activeSeries [][]byte
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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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sw.sendStaleMarkers()
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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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sw.updateActiveSeries(wc)
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sw.pushData(&wc.writeRequest)
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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) pushData(wr *prompbmarshal.WriteRequest) {
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startTime := time.Now()
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sw.PushData(wr)
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pushDataDuration.UpdateDuration(startTime)
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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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sw.pushData(&wc.writeRequest)
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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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// Do not call sw.updateActiveSeries(wc), since wc doesn't contain the full list of scraped metrics.
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// Do not track active series in streaming mode, since this may need too big amounts of memory
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// when the target exports too big number of metrics.
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sw.pushData(&wc.writeRequest)
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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
|
|
}
|
|
|
|
func (wc *writeRequestCtx) reset() {
|
|
wc.rows.Reset()
|
|
wc.resetNoRows()
|
|
}
|
|
|
|
func (wc *writeRequestCtx) resetNoRows() {
|
|
prompbmarshal.ResetWriteRequest(&wc.writeRequest)
|
|
wc.labels = wc.labels[:0]
|
|
wc.samples = wc.samples[:0]
|
|
}
|
|
|
|
var writeRequestCtxPool leveledWriteRequestCtxPool
|
|
|
|
func (sw *scrapeWork) updateSeriesAdded(wc *writeRequestCtx) {
|
|
if sw.seriesMap == nil {
|
|
sw.seriesMap = make(map[uint64]struct{}, len(wc.writeRequest.Timeseries))
|
|
}
|
|
m := sw.seriesMap
|
|
for _, ts := range wc.writeRequest.Timeseries {
|
|
h := sw.getLabelsHash(ts.Labels)
|
|
if _, ok := m[h]; !ok {
|
|
m[h] = struct{}{}
|
|
sw.seriesAdded++
|
|
}
|
|
}
|
|
}
|
|
|
|
func (sw *scrapeWork) updateActiveSeries(wc *writeRequestCtx) {
|
|
if *disableStaleMarkers {
|
|
return
|
|
}
|
|
b := sw.activeSeriesBuf[:0]
|
|
as := sw.activeSeries[:0]
|
|
for _, ts := range wc.writeRequest.Timeseries {
|
|
bLen := len(b)
|
|
for _, label := range ts.Labels {
|
|
b = encoding.MarshalBytes(b, bytesutil.ToUnsafeBytes(label.Name))
|
|
b = encoding.MarshalBytes(b, bytesutil.ToUnsafeBytes(label.Value))
|
|
}
|
|
as = append(as, b[bLen:])
|
|
}
|
|
sw.activeSeriesBuf = b
|
|
sw.activeSeries = as
|
|
}
|
|
|
|
func (sw *scrapeWork) sendStaleMarkers() {
|
|
series := make([]prompbmarshal.TimeSeries, 0, len(sw.activeSeries))
|
|
staleMarkSamples := []prompbmarshal.Sample{
|
|
{
|
|
Value: decimal.StaleNaN,
|
|
Timestamp: time.Now().UnixNano() / 1e6,
|
|
},
|
|
}
|
|
for _, b := range sw.activeSeries {
|
|
var labels []prompbmarshal.Label
|
|
for len(b) > 0 {
|
|
tail, name, err := encoding.UnmarshalBytes(b)
|
|
if err != nil {
|
|
logger.Panicf("BUG: cannot unmarshal label name from activeSeries: %s", err)
|
|
}
|
|
b = tail
|
|
tail, value, err := encoding.UnmarshalBytes(b)
|
|
if err != nil {
|
|
logger.Panicf("BUG: cannot unmarshal label value from activeSeries: %s", err)
|
|
}
|
|
b = tail
|
|
labels = append(labels, prompbmarshal.Label{
|
|
Name: bytesutil.ToUnsafeString(name),
|
|
Value: bytesutil.ToUnsafeString(value),
|
|
})
|
|
}
|
|
series = append(series, prompbmarshal.TimeSeries{
|
|
Labels: labels,
|
|
Samples: staleMarkSamples,
|
|
})
|
|
}
|
|
wr := &prompbmarshal.WriteRequest{
|
|
Timeseries: series,
|
|
}
|
|
sw.pushData(wr)
|
|
}
|
|
|
|
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)]
|
|
}
|