mirror of
https://github.com/prometheus/prometheus
synced 2024-12-27 00:53:12 +00:00
0f191629c6
This is now not even trying to throttle in a benign way, but creates a fully-fledged error. Advantage: It shows up very visible on the status page. Disadvantage: The server does not really adjusts to a lower scraping rate. However, if your ingestion backs up, you are in a very irregulare state, I'd say it _should_ be considered an error and not dealt with in a more graceful way. In different news: I'll work on optimizing ingestion so that we will not as easily run into that situation in the first place.
394 lines
12 KiB
Go
394 lines
12 KiB
Go
// Copyright 2013 The Prometheus Authors
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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package retrieval
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import (
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"fmt"
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"math/rand"
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"net/http"
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"os"
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"strings"
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"sync"
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"time"
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"github.com/golang/glog"
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"github.com/prometheus/client_golang/extraction"
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"github.com/prometheus/client_golang/prometheus"
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clientmodel "github.com/prometheus/client_golang/model"
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"github.com/prometheus/prometheus/utility"
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)
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const (
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// InstanceLabel is the label value used for the instance label.
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InstanceLabel clientmodel.LabelName = "instance"
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// ScrapeHealthMetricName is the metric name for the synthetic health
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// variable.
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scrapeHealthMetricName clientmodel.LabelValue = "up"
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// ScrapeTimeMetricName is the metric name for the synthetic scrape duration
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// variable.
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scrapeDurationMetricName clientmodel.LabelValue = "scrape_duration_seconds"
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// Constants for instrumentation.
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namespace = "prometheus"
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interval = "interval"
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)
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var (
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localhostRepresentations = []string{"http://127.0.0.1", "http://localhost"}
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targetIntervalLength = prometheus.NewSummaryVec(
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prometheus.SummaryOpts{
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Namespace: namespace,
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Name: "target_interval_length_seconds",
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Help: "Actual intervals between scrapes.",
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Objectives: map[float64]float64{0.01: 0.001, 0.05: 0.005, 0.5: 0.05, 0.90: 0.01, 0.99: 0.001},
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},
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[]string{interval},
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)
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)
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func init() {
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prometheus.MustRegister(targetIntervalLength)
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}
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// TargetState describes the state of a Target.
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type TargetState int
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func (t TargetState) String() string {
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switch t {
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case Unknown:
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return "UNKNOWN"
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case Alive:
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return "ALIVE"
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case Unreachable:
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return "UNREACHABLE"
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}
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panic("unknown state")
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}
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const (
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// Unknown is the state of a Target that has not been seen; we know
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// nothing about it, except that it is on our docket for examination.
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Unknown TargetState = iota
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// Alive is the state of a Target that has been found and successfully
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// queried.
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Alive
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// Unreachable is the state of a Target that was either historically
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// found or not found and then determined to be unhealthy by either not
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// responding or disappearing.
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Unreachable
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)
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// A Target represents an endpoint that should be interrogated for metrics.
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//
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// The protocol described by this type will likely change in future iterations,
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// as it offers no good support for aggregated targets and fan out. Thusly,
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// it is likely that the current Target and target uses will be
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// wrapped with some resolver type.
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//
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// For the future, the Target protocol will abstract away the exact means that
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// metrics are retrieved and deserialized from the given instance to which it
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// refers.
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type Target interface {
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// Return the last encountered scrape error, if any.
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LastError() error
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// Return the health of the target.
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State() TargetState
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// Return the last time a scrape was attempted.
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LastScrape() time.Time
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// The URL to which the Target corresponds. Out of all of the available
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// points in this interface, this one is the best candidate to change given
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// the ways to express the endpoint.
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URL() string
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// The URL as seen from other hosts. References to localhost are resolved
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// to the address of the prometheus server.
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GlobalURL() string
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// Return the target's base labels.
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BaseLabels() clientmodel.LabelSet
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// SetBaseLabelsFrom queues a replacement of the current base labels by
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// the labels of the given target. The method returns immediately after
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// queuing. The actual replacement of the base labels happens
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// asynchronously (but most likely before the next scrape for the target
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// begins).
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SetBaseLabelsFrom(Target)
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// Scrape target at the specified interval.
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RunScraper(extraction.Ingester, time.Duration)
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// Stop scraping, synchronous.
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StopScraper()
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}
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// target is a Target that refers to a singular HTTP or HTTPS endpoint.
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type target struct {
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// The current health state of the target.
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state TargetState
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// The last encountered scrape error, if any.
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lastError error
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// The last time a scrape was attempted.
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lastScrape time.Time
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// Closing scraperStopping signals that scraping should stop.
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scraperStopping chan struct{}
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// Closing scraperStopped signals that scraping has been stopped.
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scraperStopped chan struct{}
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// Channel to queue base labels to be replaced.
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newBaseLabels chan clientmodel.LabelSet
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url string
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// What is the deadline for the HTTP or HTTPS against this endpoint.
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Deadline time.Duration
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// Any base labels that are added to this target and its metrics.
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baseLabels clientmodel.LabelSet
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// The HTTP client used to scrape the target's endpoint.
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httpClient *http.Client
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// Mutex protects lastError, lastScrape, state, and baseLabels. Writing
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// the above must only happen in the goroutine running the RunScraper
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// loop, and it must happen under the lock. In that way, no mutex lock
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// is required for reading the above in the goroutine running the
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// RunScraper loop, but only for reading in other goroutines.
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sync.Mutex
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}
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// NewTarget creates a reasonably configured target for querying.
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func NewTarget(url string, deadline time.Duration, baseLabels clientmodel.LabelSet) Target {
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target := &target{
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url: url,
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Deadline: deadline,
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baseLabels: baseLabels,
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httpClient: utility.NewDeadlineClient(deadline),
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scraperStopping: make(chan struct{}),
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scraperStopped: make(chan struct{}),
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newBaseLabels: make(chan clientmodel.LabelSet, 1),
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}
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return target
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}
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func (t *target) recordScrapeHealth(ingester extraction.Ingester, timestamp clientmodel.Timestamp, healthy bool, scrapeDuration time.Duration) {
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healthMetric := clientmodel.Metric{}
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durationMetric := clientmodel.Metric{}
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for label, value := range t.baseLabels {
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healthMetric[label] = value
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durationMetric[label] = value
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}
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healthMetric[clientmodel.MetricNameLabel] = clientmodel.LabelValue(scrapeHealthMetricName)
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durationMetric[clientmodel.MetricNameLabel] = clientmodel.LabelValue(scrapeDurationMetricName)
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healthMetric[InstanceLabel] = clientmodel.LabelValue(t.URL())
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durationMetric[InstanceLabel] = clientmodel.LabelValue(t.URL())
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healthValue := clientmodel.SampleValue(0)
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if healthy {
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healthValue = clientmodel.SampleValue(1)
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}
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healthSample := &clientmodel.Sample{
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Metric: healthMetric,
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Timestamp: timestamp,
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Value: healthValue,
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}
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durationSample := &clientmodel.Sample{
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Metric: durationMetric,
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Timestamp: timestamp,
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Value: clientmodel.SampleValue(float64(scrapeDuration) / float64(time.Second)),
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}
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ingester.Ingest(clientmodel.Samples{healthSample, durationSample})
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}
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// RunScraper implements Target.
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func (t *target) RunScraper(ingester extraction.Ingester, interval time.Duration) {
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defer func() {
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// Need to drain t.newBaseLabels to not make senders block during shutdown.
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for {
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select {
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case <-t.newBaseLabels:
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// Do nothing.
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default:
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close(t.scraperStopped)
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return
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}
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}
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}()
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jitterTimer := time.NewTimer(time.Duration(float64(interval) * rand.Float64()))
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select {
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case <-jitterTimer.C:
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case <-t.scraperStopping:
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jitterTimer.Stop()
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return
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}
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jitterTimer.Stop()
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ticker := time.NewTicker(interval)
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defer ticker.Stop()
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t.Lock() // Writing t.lastScrape requires the lock.
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t.lastScrape = time.Now()
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t.Unlock()
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t.scrape(ingester)
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// Explanation of the contraption below:
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//
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// In case t.newBaseLabels or t.scraperStopping have something to receive,
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// we want to read from those channels rather than starting a new scrape
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// (which might take very long). That's why the outer select has no
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// ticker.C. Should neither t.newBaseLabels nor t.scraperStopping have
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// anything to receive, we go into the inner select, where ticker.C is
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// in the mix.
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for {
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select {
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case newBaseLabels := <-t.newBaseLabels:
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t.Lock() // Writing t.baseLabels requires the lock.
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t.baseLabels = newBaseLabels
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t.Unlock()
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case <-t.scraperStopping:
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return
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default:
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select {
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case newBaseLabels := <-t.newBaseLabels:
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t.Lock() // Writing t.baseLabels requires the lock.
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t.baseLabels = newBaseLabels
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t.Unlock()
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case <-t.scraperStopping:
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return
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case <-ticker.C:
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took := time.Since(t.lastScrape)
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t.Lock() // Write t.lastScrape requires locking.
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t.lastScrape = time.Now()
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t.Unlock()
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targetIntervalLength.WithLabelValues(interval.String()).Observe(
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float64(took) / float64(time.Second), // Sub-second precision.
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)
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t.scrape(ingester)
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}
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}
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}
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}
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// StopScraper implements Target.
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func (t *target) StopScraper() {
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close(t.scraperStopping)
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<-t.scraperStopped
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}
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const acceptHeader = `application/vnd.google.protobuf;proto=io.prometheus.client.MetricFamily;encoding=delimited;q=0.7,text/plain;version=0.0.4;q=0.3,application/json;schema="prometheus/telemetry";version=0.0.2;q=0.2,*/*;q=0.1`
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func (t *target) scrape(ingester extraction.Ingester) (err error) {
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timestamp := clientmodel.Now()
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defer func(start time.Time) {
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t.Lock() // Writing t.state and t.lastError requires the lock.
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if err == nil {
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t.state = Alive
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} else {
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t.state = Unreachable
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}
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t.lastError = err
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t.Unlock()
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t.recordScrapeHealth(ingester, timestamp, err == nil, time.Since(start))
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}(time.Now())
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req, err := http.NewRequest("GET", t.URL(), nil)
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if err != nil {
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panic(err)
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}
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req.Header.Add("Accept", acceptHeader)
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resp, err := t.httpClient.Do(req)
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if err != nil {
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return err
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}
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defer resp.Body.Close()
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if resp.StatusCode != http.StatusOK {
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return fmt.Errorf("server returned HTTP status %s", resp.Status)
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}
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processor, err := extraction.ProcessorForRequestHeader(resp.Header)
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if err != nil {
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return err
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}
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baseLabels := clientmodel.LabelSet{InstanceLabel: clientmodel.LabelValue(t.URL())}
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for baseLabel, baseValue := range t.baseLabels {
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baseLabels[baseLabel] = baseValue
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}
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i := &MergeLabelsIngester{
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Labels: baseLabels,
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CollisionPrefix: clientmodel.ExporterLabelPrefix,
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Ingester: ingester,
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}
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processOptions := &extraction.ProcessOptions{
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Timestamp: timestamp,
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}
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return processor.ProcessSingle(resp.Body, i, processOptions)
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}
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// LastError implements Target.
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func (t *target) LastError() error {
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t.Lock()
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defer t.Unlock()
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return t.lastError
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}
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// State implements Target.
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func (t *target) State() TargetState {
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t.Lock()
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defer t.Unlock()
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return t.state
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}
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// LastScrape implements Target.
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func (t *target) LastScrape() time.Time {
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t.Lock()
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defer t.Unlock()
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return t.lastScrape
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}
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// URL implements Target.
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func (t *target) URL() string {
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return t.url
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}
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// GlobalURL implements Target.
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func (t *target) GlobalURL() string {
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url := t.url
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hostname, err := os.Hostname()
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if err != nil {
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glog.Warningf("Couldn't get hostname: %s, returning target.URL()", err)
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return url
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}
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for _, localhostRepresentation := range localhostRepresentations {
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url = strings.Replace(url, localhostRepresentation, fmt.Sprintf("http://%s", hostname), -1)
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}
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return url
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}
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// BaseLabels implements Target.
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func (t *target) BaseLabels() clientmodel.LabelSet {
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t.Lock()
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defer t.Unlock()
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return t.baseLabels
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}
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// SetBaseLabelsFrom implements Target.
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func (t *target) SetBaseLabelsFrom(newTarget Target) {
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if t.URL() != newTarget.URL() {
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panic("targets don't refer to the same endpoint")
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}
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t.newBaseLabels <- newTarget.BaseLabels()
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}
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