mirror of
https://github.com/tailscale/tailscale.git
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205a10b51a
Updates #cleanup Signed-off-by: Anton Tolchanov <anton@tailscale.com>
404 lines
10 KiB
Go
404 lines
10 KiB
Go
// Copyright (c) Tailscale Inc & AUTHORS
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// SPDX-License-Identifier: BSD-3-Clause
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// Package prober implements a simple blackbox prober. Each probe runs
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// in its own goroutine, and run results are recorded as Prometheus
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// metrics.
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package prober
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import (
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"context"
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"errors"
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"fmt"
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"hash/fnv"
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"log"
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"math/rand"
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"sync"
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"time"
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"github.com/prometheus/client_golang/prometheus"
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)
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// ProbeFunc is a function that probes something and reports whether
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// the probe succeeded. The provided context's deadline must be obeyed
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// for correct probe scheduling.
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type ProbeFunc func(context.Context) error
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// a Prober manages a set of probes and keeps track of their results.
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type Prober struct {
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// Whether to spread probe execution over time by introducing a
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// random delay before the first probe run.
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spread bool
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// Whether to run all probes once instead of running them in a loop.
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once bool
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// Time-related functions that get faked out during tests.
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now func() time.Time
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newTicker func(time.Duration) ticker
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mu sync.Mutex // protects all following fields
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probes map[string]*Probe
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namespace string
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metrics *prometheus.Registry
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}
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// New returns a new Prober.
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func New() *Prober {
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return newForTest(time.Now, newRealTicker)
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}
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func newForTest(now func() time.Time, newTicker func(time.Duration) ticker) *Prober {
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p := &Prober{
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now: now,
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newTicker: newTicker,
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probes: map[string]*Probe{},
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metrics: prometheus.NewRegistry(),
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namespace: "prober",
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}
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prometheus.DefaultRegisterer.MustRegister(p.metrics)
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return p
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}
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// Run executes fun every interval, and exports probe results under probeName.
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//
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// Registering a probe under an already-registered name panics.
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func (p *Prober) Run(name string, interval time.Duration, labels map[string]string, fun ProbeFunc) *Probe {
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p.mu.Lock()
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defer p.mu.Unlock()
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if _, ok := p.probes[name]; ok {
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panic(fmt.Sprintf("probe named %q already registered", name))
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}
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l := prometheus.Labels{"name": name}
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for k, v := range labels {
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l[k] = v
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}
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ctx, cancel := context.WithCancel(context.Background())
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probe := &Probe{
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prober: p,
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ctx: ctx,
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cancel: cancel,
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stopped: make(chan struct{}),
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name: name,
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doProbe: fun,
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interval: interval,
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initialDelay: initialDelay(name, interval),
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metrics: prometheus.NewRegistry(),
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mInterval: prometheus.NewDesc("interval_secs", "Probe interval in seconds", nil, l),
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mStartTime: prometheus.NewDesc("start_secs", "Latest probe start time (seconds since epoch)", nil, l),
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mEndTime: prometheus.NewDesc("end_secs", "Latest probe end time (seconds since epoch)", nil, l),
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mLatency: prometheus.NewDesc("latency_millis", "Latest probe latency (ms)", nil, l),
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mResult: prometheus.NewDesc("result", "Latest probe result (1 = success, 0 = failure)", nil, l),
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mAttempts: prometheus.NewCounterVec(prometheus.CounterOpts{
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Name: "attempts_total", Help: "Total number of probing attempts", ConstLabels: l,
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}, []string{"status"}),
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mSeconds: prometheus.NewCounterVec(prometheus.CounterOpts{
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Name: "seconds_total", Help: "Total amount of time spent executing the probe", ConstLabels: l,
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}, []string{"status"}),
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}
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prometheus.WrapRegistererWithPrefix(p.namespace+"_", p.metrics).MustRegister(probe.metrics)
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probe.metrics.MustRegister(probe)
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p.probes[name] = probe
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go probe.loop()
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return probe
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}
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func (p *Prober) unregister(probe *Probe) {
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p.mu.Lock()
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defer p.mu.Unlock()
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probe.metrics.Unregister(probe)
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p.metrics.Unregister(probe.metrics)
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name := probe.name
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delete(p.probes, name)
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}
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// WithSpread is used to enable random delay before the first run of
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// each added probe.
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func (p *Prober) WithSpread(s bool) *Prober {
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p.spread = s
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return p
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}
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// WithOnce mode can be used if you want to run all configured probes once
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// rather than on a schedule.
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func (p *Prober) WithOnce(s bool) *Prober {
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p.once = s
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return p
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}
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// WithMetricNamespace allows changing metric name prefix from the default `prober`.
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func (p *Prober) WithMetricNamespace(n string) *Prober {
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p.namespace = n
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return p
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}
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// Wait blocks until all probes have finished execution. It should typically
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// be used with the `once` mode to wait for probes to finish before collecting
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// their results.
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func (p *Prober) Wait() {
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for {
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chans := make([]chan struct{}, 0)
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p.mu.Lock()
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for _, p := range p.probes {
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chans = append(chans, p.stopped)
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}
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p.mu.Unlock()
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for _, c := range chans {
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<-c
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}
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// Since probes can add other probes, retry if the number of probes has changed.
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if p.activeProbes() != len(chans) {
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continue
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}
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return
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}
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}
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// Reports the number of registered probes.
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func (p *Prober) activeProbes() int {
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p.mu.Lock()
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defer p.mu.Unlock()
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return len(p.probes)
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}
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// Probe is a probe that healthchecks something and updates Prometheus
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// metrics with the results.
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type Probe struct {
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prober *Prober
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ctx context.Context
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cancel context.CancelFunc // run to initiate shutdown
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stopped chan struct{} // closed when shutdown is complete
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name string
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doProbe ProbeFunc
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interval time.Duration
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initialDelay time.Duration
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tick ticker
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// metrics is a Prometheus metrics registry for metrics exported by this probe.
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// Using a separate registry allows cleanly removing metrics exported by this
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// probe when it gets unregistered.
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metrics *prometheus.Registry
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mInterval *prometheus.Desc
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mStartTime *prometheus.Desc
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mEndTime *prometheus.Desc
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mLatency *prometheus.Desc
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mResult *prometheus.Desc
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mAttempts *prometheus.CounterVec
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mSeconds *prometheus.CounterVec
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mu sync.Mutex
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start time.Time // last time doProbe started
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end time.Time // last time doProbe returned
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latency time.Duration // last successful probe latency
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succeeded bool // whether the last doProbe call succeeded
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lastErr error
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}
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// Close shuts down the Probe and unregisters it from its Prober.
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// It is safe to Run a new probe of the same name after Close returns.
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func (p *Probe) Close() error {
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p.cancel()
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<-p.stopped
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p.prober.unregister(p)
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return nil
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}
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// probeLoop invokes runProbe on fun every interval. The first probe
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// is run after a random delay (if spreading is enabled) or immediately.
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func (p *Probe) loop() {
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defer close(p.stopped)
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if p.prober.spread && p.initialDelay > 0 {
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t := p.prober.newTicker(p.initialDelay)
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select {
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case <-t.Chan():
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p.run()
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case <-p.ctx.Done():
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t.Stop()
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return
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}
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t.Stop()
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} else {
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p.run()
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}
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if p.prober.once {
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return
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}
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p.tick = p.prober.newTicker(p.interval)
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defer p.tick.Stop()
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for {
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select {
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case <-p.tick.Chan():
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p.run()
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case <-p.ctx.Done():
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return
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}
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}
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}
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// run invokes fun and records the results.
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//
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// fun is invoked with a timeout slightly less than interval, so that
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// the probe either succeeds or fails before the next cycle is
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// scheduled to start.
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func (p *Probe) run() {
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start := p.recordStart()
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defer func() {
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// Prevent a panic within one probe function from killing the
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// entire prober, so that a single buggy probe doesn't destroy
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// our entire ability to monitor anything. A panic is recorded
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// as a probe failure, so panicking probes will trigger an
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// alert for debugging.
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if r := recover(); r != nil {
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log.Printf("probe %s panicked: %v", p.name, r)
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p.recordEnd(start, errors.New("panic"))
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}
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}()
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timeout := time.Duration(float64(p.interval) * 0.8)
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ctx, cancel := context.WithTimeout(p.ctx, timeout)
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defer cancel()
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err := p.doProbe(ctx)
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p.recordEnd(start, err)
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if err != nil {
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log.Printf("probe %s: %v", p.name, err)
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}
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}
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func (p *Probe) recordStart() time.Time {
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st := p.prober.now()
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p.mu.Lock()
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defer p.mu.Unlock()
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p.start = st
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return st
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}
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func (p *Probe) recordEnd(start time.Time, err error) {
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end := p.prober.now()
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p.mu.Lock()
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defer p.mu.Unlock()
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p.end = end
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p.succeeded = err == nil
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p.lastErr = err
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latency := end.Sub(p.start)
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if p.succeeded {
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p.latency = latency
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p.mAttempts.WithLabelValues("ok").Inc()
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p.mSeconds.WithLabelValues("ok").Add(latency.Seconds())
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} else {
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p.latency = 0
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p.mAttempts.WithLabelValues("fail").Inc()
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p.mSeconds.WithLabelValues("fail").Add(latency.Seconds())
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}
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}
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// ProbeInfo is the state of a Probe.
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type ProbeInfo struct {
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Start time.Time
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End time.Time
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Latency string
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Result bool
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Error string
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}
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func (p *Prober) ProbeInfo() map[string]ProbeInfo {
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out := map[string]ProbeInfo{}
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p.mu.Lock()
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probes := make([]*Probe, 0, len(p.probes))
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for _, probe := range p.probes {
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probes = append(probes, probe)
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}
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p.mu.Unlock()
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for _, probe := range probes {
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probe.mu.Lock()
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inf := ProbeInfo{
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Start: probe.start,
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End: probe.end,
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Result: probe.succeeded,
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}
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if probe.lastErr != nil {
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inf.Error = probe.lastErr.Error()
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}
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if probe.latency > 0 {
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inf.Latency = probe.latency.String()
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}
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out[probe.name] = inf
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probe.mu.Unlock()
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}
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return out
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}
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// Describe implements prometheus.Collector.
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func (p *Probe) Describe(ch chan<- *prometheus.Desc) {
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ch <- p.mInterval
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ch <- p.mStartTime
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ch <- p.mEndTime
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ch <- p.mResult
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ch <- p.mLatency
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p.mAttempts.Describe(ch)
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p.mSeconds.Describe(ch)
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}
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// Collect implements prometheus.Collector.
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func (p *Probe) Collect(ch chan<- prometheus.Metric) {
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p.mu.Lock()
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defer p.mu.Unlock()
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ch <- prometheus.MustNewConstMetric(p.mInterval, prometheus.GaugeValue, p.interval.Seconds())
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if !p.start.IsZero() {
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ch <- prometheus.MustNewConstMetric(p.mStartTime, prometheus.GaugeValue, float64(p.start.Unix()))
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}
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if p.end.IsZero() {
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return
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}
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ch <- prometheus.MustNewConstMetric(p.mEndTime, prometheus.GaugeValue, float64(p.end.Unix()))
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if p.succeeded {
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ch <- prometheus.MustNewConstMetric(p.mResult, prometheus.GaugeValue, 1)
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} else {
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ch <- prometheus.MustNewConstMetric(p.mResult, prometheus.GaugeValue, 0)
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}
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if p.latency > 0 {
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ch <- prometheus.MustNewConstMetric(p.mLatency, prometheus.GaugeValue, float64(p.latency.Milliseconds()))
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}
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p.mAttempts.Collect(ch)
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p.mSeconds.Collect(ch)
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}
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// ticker wraps a time.Ticker in a way that can be faked for tests.
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type ticker interface {
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Chan() <-chan time.Time
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Stop()
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}
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type realTicker struct {
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*time.Ticker
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}
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func (t *realTicker) Chan() <-chan time.Time {
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return t.Ticker.C
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}
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func newRealTicker(d time.Duration) ticker {
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return &realTicker{time.NewTicker(d)}
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}
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// initialDelay returns a pseudorandom duration in [0, interval) that
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// is based on the provided seed string.
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func initialDelay(seed string, interval time.Duration) time.Duration {
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h := fnv.New64()
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fmt.Fprint(h, seed)
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r := rand.New(rand.NewSource(int64(h.Sum64()))).Float64()
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return time.Duration(float64(interval) * r)
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}
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