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403 lines
9.9 KiB
Go
403 lines
9.9 KiB
Go
// Copyright (c) Tailscale Inc & AUTHORS
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// SPDX-License-Identifier: BSD-3-Clause
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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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"strings"
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"sync"
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"sync/atomic"
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"testing"
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"time"
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"github.com/prometheus/client_golang/prometheus/testutil"
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"tailscale.com/tstest"
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)
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const (
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probeInterval = 8 * time.Second // So expvars that are integer numbers of seconds change
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halfProbeInterval = probeInterval / 2
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quarterProbeInterval = probeInterval / 4
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convergenceTimeout = time.Second
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convergenceSleep = time.Millisecond
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aFewMillis = 20 * time.Millisecond
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)
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var epoch = time.Unix(0, 0)
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func TestProberTiming(t *testing.T) {
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clk := newFakeTime()
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p := newForTest(clk.Now, clk.NewTicker)
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invoked := make(chan struct{}, 1)
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notCalled := func() {
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t.Helper()
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select {
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case <-invoked:
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t.Fatal("probe was invoked earlier than expected")
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default:
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}
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}
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called := func() {
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t.Helper()
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select {
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case <-invoked:
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case <-time.After(2 * time.Second):
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t.Fatal("probe wasn't invoked as expected")
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}
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}
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p.Run("test-probe", probeInterval, nil, func(context.Context) error {
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invoked <- struct{}{}
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return nil
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})
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waitActiveProbes(t, p, clk, 1)
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called()
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notCalled()
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clk.Advance(probeInterval + halfProbeInterval)
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called()
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notCalled()
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clk.Advance(quarterProbeInterval)
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notCalled()
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clk.Advance(probeInterval)
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called()
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notCalled()
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}
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func TestProberTimingSpread(t *testing.T) {
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clk := newFakeTime()
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p := newForTest(clk.Now, clk.NewTicker).WithSpread(true)
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invoked := make(chan struct{}, 1)
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notCalled := func() {
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t.Helper()
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select {
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case <-invoked:
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t.Fatal("probe was invoked earlier than expected")
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default:
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}
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}
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called := func() {
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t.Helper()
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select {
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case <-invoked:
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case <-time.After(2 * time.Second):
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t.Fatal("probe wasn't invoked as expected")
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}
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}
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probe := p.Run("test-spread-probe", probeInterval, nil, func(context.Context) error {
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invoked <- struct{}{}
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return nil
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})
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waitActiveProbes(t, p, clk, 1)
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notCalled()
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// Name of the probe (test-spread-probe) has been chosen to ensure that
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// the initial delay is smaller than half of the probe interval.
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clk.Advance(halfProbeInterval)
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called()
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notCalled()
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// We need to wait until the main (non-initial) ticker in Probe.loop is
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// waiting, or we could race and advance the test clock between when
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// the initial delay ticker completes and before the ticker for the
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// main loop is created. In this race, we'd first advance the test
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// clock, then the ticker would be registered, and the test would fail
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// because that ticker would never be fired.
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err := tstest.WaitFor(convergenceTimeout, func() error {
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clk.Lock()
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defer clk.Unlock()
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for _, tick := range clk.tickers {
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tick.Lock()
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stopped, interval := tick.stopped, tick.interval
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tick.Unlock()
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if stopped {
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continue
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}
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// Test for the main loop, not the initialDelay
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if interval == probe.interval {
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return nil
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}
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}
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return fmt.Errorf("no ticker with interval %d found", probe.interval)
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})
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if err != nil {
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t.Fatal(err)
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}
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clk.Advance(quarterProbeInterval)
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notCalled()
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clk.Advance(probeInterval)
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called()
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notCalled()
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}
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func TestProberRun(t *testing.T) {
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clk := newFakeTime()
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p := newForTest(clk.Now, clk.NewTicker)
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var (
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mu sync.Mutex
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cnt int
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)
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const startingProbes = 100
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var probes []*Probe
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for i := 0; i < startingProbes; i++ {
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probes = append(probes, p.Run(fmt.Sprintf("probe%d", i), probeInterval, nil, func(context.Context) error {
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mu.Lock()
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defer mu.Unlock()
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cnt++
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return nil
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}))
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}
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checkCnt := func(want int) {
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t.Helper()
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err := tstest.WaitFor(convergenceTimeout, func() error {
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mu.Lock()
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defer mu.Unlock()
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if cnt == want {
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cnt = 0
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return nil
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}
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return fmt.Errorf("wrong number of probe counter increments, got %d want %d", cnt, want)
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})
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if err != nil {
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t.Fatal(err)
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}
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}
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waitActiveProbes(t, p, clk, startingProbes)
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checkCnt(startingProbes)
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clk.Advance(probeInterval + halfProbeInterval)
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checkCnt(startingProbes)
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if c, err := testutil.GatherAndCount(p.metrics, "prober_result"); c != startingProbes || err != nil {
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t.Fatalf("expected %d prober_result metrics; got %d (error %s)", startingProbes, c, err)
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}
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keep := startingProbes / 2
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for i := keep; i < startingProbes; i++ {
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probes[i].Close()
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}
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waitActiveProbes(t, p, clk, keep)
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clk.Advance(probeInterval)
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checkCnt(keep)
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if c, err := testutil.GatherAndCount(p.metrics, "prober_result"); c != keep || err != nil {
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t.Fatalf("expected %d prober_result metrics; got %d (error %s)", keep, c, err)
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}
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}
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func TestPrometheus(t *testing.T) {
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clk := newFakeTime()
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p := newForTest(clk.Now, clk.NewTicker).WithMetricNamespace("probe")
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var succeed atomic.Bool
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p.Run("testprobe", probeInterval, map[string]string{"label": "value"}, func(context.Context) error {
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clk.Advance(aFewMillis)
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if succeed.Load() {
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return nil
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}
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return errors.New("failing, as instructed by test")
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})
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waitActiveProbes(t, p, clk, 1)
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err := tstest.WaitFor(convergenceTimeout, func() error {
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want := fmt.Sprintf(`
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# HELP probe_interval_secs Probe interval in seconds
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# TYPE probe_interval_secs gauge
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probe_interval_secs{label="value",name="testprobe"} %f
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# HELP probe_start_secs Latest probe start time (seconds since epoch)
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# TYPE probe_start_secs gauge
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probe_start_secs{label="value",name="testprobe"} %d
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# HELP probe_end_secs Latest probe end time (seconds since epoch)
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# TYPE probe_end_secs gauge
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probe_end_secs{label="value",name="testprobe"} %d
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# HELP probe_result Latest probe result (1 = success, 0 = failure)
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# TYPE probe_result gauge
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probe_result{label="value",name="testprobe"} 0
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`, probeInterval.Seconds(), epoch.Unix(), epoch.Add(aFewMillis).Unix())
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return testutil.GatherAndCompare(p.metrics, strings.NewReader(want),
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"probe_interval_secs", "probe_start_secs", "probe_end_secs", "probe_result")
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})
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if err != nil {
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t.Fatal(err)
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}
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succeed.Store(true)
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clk.Advance(probeInterval + halfProbeInterval)
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err = tstest.WaitFor(convergenceTimeout, func() error {
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start := epoch.Add(probeInterval + halfProbeInterval)
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end := start.Add(aFewMillis)
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want := fmt.Sprintf(`
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# HELP probe_interval_secs Probe interval in seconds
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# TYPE probe_interval_secs gauge
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probe_interval_secs{label="value",name="testprobe"} %f
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# HELP probe_start_secs Latest probe start time (seconds since epoch)
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# TYPE probe_start_secs gauge
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probe_start_secs{label="value",name="testprobe"} %d
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# HELP probe_end_secs Latest probe end time (seconds since epoch)
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# TYPE probe_end_secs gauge
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probe_end_secs{label="value",name="testprobe"} %d
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# HELP probe_latency_millis Latest probe latency (ms)
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# TYPE probe_latency_millis gauge
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probe_latency_millis{label="value",name="testprobe"} %d
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# HELP probe_result Latest probe result (1 = success, 0 = failure)
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# TYPE probe_result gauge
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probe_result{label="value",name="testprobe"} 1
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`, probeInterval.Seconds(), start.Unix(), end.Unix(), aFewMillis.Milliseconds())
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return testutil.GatherAndCompare(p.metrics, strings.NewReader(want),
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"probe_interval_secs", "probe_start_secs", "probe_end_secs", "probe_latency_millis", "probe_result")
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})
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if err != nil {
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t.Fatal(err)
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}
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}
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func TestOnceMode(t *testing.T) {
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clk := newFakeTime()
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p := newForTest(clk.Now, clk.NewTicker).WithOnce(true)
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p.Run("probe1", probeInterval, nil, func(context.Context) error { return nil })
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p.Run("probe2", probeInterval, nil, func(context.Context) error { return fmt.Errorf("error2") })
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p.Run("probe3", probeInterval, nil, func(context.Context) error {
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p.Run("probe4", probeInterval, nil, func(context.Context) error {
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return fmt.Errorf("error4")
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})
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return nil
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})
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p.Wait()
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wantCount := 4
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for _, metric := range []string{"prober_result", "prober_end_secs"} {
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if c, err := testutil.GatherAndCount(p.metrics, metric); c != wantCount || err != nil {
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t.Fatalf("expected %d %s metrics; got %d (error %s)", wantCount, metric, c, err)
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}
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}
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}
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type fakeTicker struct {
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ch chan time.Time
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interval time.Duration
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sync.Mutex
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next time.Time
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stopped bool
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}
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func (t *fakeTicker) Chan() <-chan time.Time {
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return t.ch
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}
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func (t *fakeTicker) Stop() {
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t.Lock()
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defer t.Unlock()
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t.stopped = true
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}
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func (t *fakeTicker) fire(now time.Time) {
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t.Lock()
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defer t.Unlock()
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// Slight deviation from the stdlib ticker: time.Ticker will
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// adjust t.next to make up for missed ticks, whereas we tick on a
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// fixed interval regardless of receiver behavior. In our case
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// this is fine, since we're using the ticker as a wakeup
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// mechanism and not a precise timekeeping system.
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select {
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case t.ch <- now:
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default:
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}
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for now.After(t.next) {
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t.next = t.next.Add(t.interval)
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}
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}
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type fakeTime struct {
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sync.Mutex
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*sync.Cond
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curTime time.Time
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tickers []*fakeTicker
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}
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func newFakeTime() *fakeTime {
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ret := &fakeTime{
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curTime: epoch,
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}
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ret.Cond = &sync.Cond{L: &ret.Mutex}
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return ret
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}
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func (t *fakeTime) Now() time.Time {
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t.Lock()
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defer t.Unlock()
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ret := t.curTime
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return ret
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}
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func (t *fakeTime) NewTicker(d time.Duration) ticker {
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t.Lock()
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defer t.Unlock()
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ret := &fakeTicker{
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ch: make(chan time.Time, 1),
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interval: d,
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next: t.curTime.Add(d),
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}
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t.tickers = append(t.tickers, ret)
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t.Cond.Broadcast()
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return ret
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}
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func (t *fakeTime) Advance(d time.Duration) {
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t.Lock()
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defer t.Unlock()
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t.curTime = t.curTime.Add(d)
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for _, tick := range t.tickers {
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if t.curTime.After(tick.next) {
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tick.fire(t.curTime)
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}
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}
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}
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func (t *fakeTime) activeTickers() (count int) {
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t.Lock()
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defer t.Unlock()
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for _, tick := range t.tickers {
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if !tick.stopped {
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count += 1
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}
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}
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return
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}
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func waitActiveProbes(t *testing.T, p *Prober, clk *fakeTime, want int) {
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t.Helper()
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err := tstest.WaitFor(convergenceTimeout, func() error {
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if got := p.activeProbes(); got != want {
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return fmt.Errorf("installed probe count is %d, want %d", got, want)
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}
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if got := clk.activeTickers(); got != want {
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return fmt.Errorf("active ticker count is %d, want %d", got, want)
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}
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return nil
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})
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if err != nil {
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t.Fatal(err)
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}
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}
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