package setting import ( "math/rand" "strconv" "testing" "time" "github.com/stretchr/testify/require" "gopkg.in/ini.v1" ) func TestCfg_ReadUnifiedAlertingSettings(t *testing.T) { cfg := NewCfg() err := cfg.Load(CommandLineArgs{HomePath: "../../", Config: "../../conf/defaults.ini"}) require.NoError(t, err) // It sets the correct defaults. { require.Equal(t, 60*time.Second, cfg.UnifiedAlerting.AdminConfigPollInterval) require.Equal(t, 60*time.Second, cfg.UnifiedAlerting.AlertmanagerConfigPollInterval) require.Equal(t, 15*time.Second, cfg.UnifiedAlerting.HAPeerTimeout) require.Equal(t, "0.0.0.0:9094", cfg.UnifiedAlerting.HAListenAddr) require.Equal(t, "", cfg.UnifiedAlerting.HAAdvertiseAddr) require.Len(t, cfg.UnifiedAlerting.HAPeers, 0) require.Equal(t, 200*time.Millisecond, cfg.UnifiedAlerting.HAGossipInterval) require.Equal(t, 60*time.Second, cfg.UnifiedAlerting.HAPushPullInterval) } // With peers set, it correctly parses them. { require.Len(t, cfg.UnifiedAlerting.HAPeers, 0) s, err := cfg.Raw.NewSection("unified_alerting") require.NoError(t, err) _, err = s.NewKey("ha_peers", "hostname1:9090,hostname2:9090,hostname3:9090") require.NoError(t, err) require.NoError(t, cfg.ReadUnifiedAlertingSettings(cfg.Raw)) require.Len(t, cfg.UnifiedAlerting.HAPeers, 3) require.ElementsMatch(t, []string{"hostname1:9090", "hostname2:9090", "hostname3:9090"}, cfg.UnifiedAlerting.HAPeers) } } func TestUnifiedAlertingSettings(t *testing.T) { testCases := []struct { desc string unifiedAlertingOptions map[string]string alertingOptions map[string]string verifyCfg func(*testing.T, Cfg) }{ { desc: "when the unified options do not equal the defaults, it should not apply the legacy ones", unifiedAlertingOptions: map[string]string{ "admin_config_poll_interval": "120s", "max_attempts": "6", "min_interval": "60s", "execute_alerts": "false", "evaluation_timeout": "90s", }, alertingOptions: map[string]string{ "max_attempts": strconv.FormatInt(schedulerDefaultMaxAttempts, 10), "min_interval_seconds": strconv.FormatInt(schedulerDefaultLegacyMinInterval, 10), "execute_alerts": strconv.FormatBool(schedulereDefaultExecuteAlerts), "evaluation_timeout_seconds": strconv.FormatInt(int64(evaluatorDefaultEvaluationTimeout.Seconds()), 10), }, verifyCfg: func(t *testing.T, cfg Cfg) { require.Equal(t, 120*time.Second, cfg.UnifiedAlerting.AdminConfigPollInterval) require.Equal(t, int64(6), cfg.UnifiedAlerting.MaxAttempts) require.Equal(t, 60*time.Second, cfg.UnifiedAlerting.MinInterval) require.Equal(t, false, cfg.UnifiedAlerting.ExecuteAlerts) require.Equal(t, 90*time.Second, cfg.UnifiedAlerting.EvaluationTimeout) require.Equal(t, SchedulerBaseInterval, cfg.UnifiedAlerting.BaseInterval) require.Equal(t, DefaultRuleEvaluationInterval, cfg.UnifiedAlerting.DefaultRuleEvaluationInterval) }, }, { desc: "when the unified options equal the defaults, it should apply the legacy ones", unifiedAlertingOptions: map[string]string{ "admin_config_poll_interval": "120s", "max_attempts": strconv.FormatInt(schedulerDefaultMaxAttempts, 10), "min_interval": SchedulerBaseInterval.String(), "execute_alerts": strconv.FormatBool(schedulereDefaultExecuteAlerts), "evaluation_timeout": evaluatorDefaultEvaluationTimeout.String(), }, alertingOptions: map[string]string{ "max_attempts": "12", "min_interval_seconds": "120", "execute_alerts": "true", "evaluation_timeout_seconds": "160", }, verifyCfg: func(t *testing.T, cfg Cfg) { require.Equal(t, 120*time.Second, cfg.UnifiedAlerting.AdminConfigPollInterval) require.Equal(t, int64(12), cfg.UnifiedAlerting.MaxAttempts) require.Equal(t, 120*time.Second, cfg.UnifiedAlerting.MinInterval) require.Equal(t, true, cfg.UnifiedAlerting.ExecuteAlerts) require.Equal(t, 160*time.Second, cfg.UnifiedAlerting.EvaluationTimeout) require.Equal(t, SchedulerBaseInterval, cfg.UnifiedAlerting.BaseInterval) require.Equal(t, 120*time.Second, cfg.UnifiedAlerting.DefaultRuleEvaluationInterval) }, }, { desc: "when both unified and legacy options are invalid, apply the defaults", unifiedAlertingOptions: map[string]string{ "max_attempts": "invalid", "min_interval": "invalid", "execute_alerts": "invalid", "evaluation_timeouts": "invalid", }, alertingOptions: map[string]string{ "max_attempts": "invalid", "min_interval_seconds": "invalid", "execute_alerts": "invalid", "evaluation_timeout_seconds": "invalid", }, verifyCfg: func(t *testing.T, cfg Cfg) { require.Equal(t, alertmanagerDefaultConfigPollInterval, cfg.UnifiedAlerting.AdminConfigPollInterval) require.Equal(t, int64(schedulerDefaultMaxAttempts), cfg.UnifiedAlerting.MaxAttempts) require.Equal(t, SchedulerBaseInterval, cfg.UnifiedAlerting.MinInterval) require.Equal(t, schedulereDefaultExecuteAlerts, cfg.UnifiedAlerting.ExecuteAlerts) require.Equal(t, evaluatorDefaultEvaluationTimeout, cfg.UnifiedAlerting.EvaluationTimeout) require.Equal(t, SchedulerBaseInterval, cfg.UnifiedAlerting.BaseInterval) require.Equal(t, DefaultRuleEvaluationInterval, cfg.UnifiedAlerting.DefaultRuleEvaluationInterval) }, }, { desc: "when unified alerting options are invalid, apply legacy options", unifiedAlertingOptions: map[string]string{ "max_attempts": "invalid", "min_interval": "invalid", "execute_alerts": "invalid", "evaluation_timeout": "invalid", }, alertingOptions: map[string]string{ "max_attempts": "12", "min_interval_seconds": "120", "execute_alerts": "false", "evaluation_timeout_seconds": "160", }, verifyCfg: func(t *testing.T, cfg Cfg) { require.Equal(t, alertmanagerDefaultConfigPollInterval, cfg.UnifiedAlerting.AdminConfigPollInterval) require.Equal(t, int64(12), cfg.UnifiedAlerting.MaxAttempts) require.Equal(t, 120*time.Second, cfg.UnifiedAlerting.MinInterval) require.Equal(t, false, cfg.UnifiedAlerting.ExecuteAlerts) require.Equal(t, 160*time.Second, cfg.UnifiedAlerting.EvaluationTimeout) require.Equal(t, SchedulerBaseInterval, cfg.UnifiedAlerting.BaseInterval) require.Equal(t, 120*time.Second, cfg.UnifiedAlerting.DefaultRuleEvaluationInterval) }, }, } for _, tc := range testCases { t.Run(tc.desc, func(t *testing.T) { f := ini.Empty() cfg := NewCfg() cfg.IsFeatureToggleEnabled = func(key string) bool { return false } unifiedAlertingSec, err := f.NewSection("unified_alerting") require.NoError(t, err) for k, v := range tc.unifiedAlertingOptions { _, err = unifiedAlertingSec.NewKey(k, v) require.NoError(t, err) } alertingSec, err := f.NewSection("alerting") require.NoError(t, err) for k, v := range tc.alertingOptions { _, err = alertingSec.NewKey(k, v) require.NoError(t, err) } err = cfg.ReadUnifiedAlertingSettings(f) require.NoError(t, err) tc.verifyCfg(t, *cfg) }) } } func TestMinInterval(t *testing.T) { randPredicate := func(predicate func(dur time.Duration) bool) *time.Duration { for { v := time.Duration(rand.Intn(99)+1) * time.Second if predicate(v) { return &v } } } testCases := []struct { desc string minInterval *time.Duration legacyMinInterval *time.Duration verifyCfg func(*testing.T, *Cfg, error) }{ { desc: "should fail if min interval is less than base interval", minInterval: randPredicate(func(dur time.Duration) bool { return dur < SchedulerBaseInterval }), verifyCfg: func(t *testing.T, cfg *Cfg, err error) { require.Error(t, err) require.Contains(t, err.Error(), "min_interval") }, }, { desc: "should fail if min interval is not multiple of base interval", minInterval: randPredicate(func(dur time.Duration) bool { return dur > SchedulerBaseInterval && dur%SchedulerBaseInterval != 0 }), verifyCfg: func(t *testing.T, cfg *Cfg, err error) { require.Error(t, err) require.Contains(t, err.Error(), "min_interval") }, }, { desc: "should not fail if min interval is multiple of base interval", minInterval: randPredicate(func(dur time.Duration) bool { return dur > SchedulerBaseInterval && dur%SchedulerBaseInterval == 0 }), verifyCfg: func(t *testing.T, cfg *Cfg, err error) { require.NoError(t, err) }, }, { desc: "should fail if fallback to legacy min interval and it is not multiple of base interval", legacyMinInterval: randPredicate(func(dur time.Duration) bool { return dur > SchedulerBaseInterval && dur%SchedulerBaseInterval != 0 }), verifyCfg: func(t *testing.T, cfg *Cfg, err error) { require.Error(t, err) require.Contains(t, err.Error(), "min_interval") }, }, { desc: "should not fail if fallback to legacy min interval it is multiple of base interval", legacyMinInterval: randPredicate(func(dur time.Duration) bool { return dur >= SchedulerBaseInterval && dur%SchedulerBaseInterval == 0 }), verifyCfg: func(t *testing.T, cfg *Cfg, err error) { require.NoError(t, err) }, }, { desc: "should adjust DefaultRuleEvaluationInterval to min interval if it is greater", minInterval: randPredicate(func(dur time.Duration) bool { return dur%SchedulerBaseInterval == 0 && dur > DefaultRuleEvaluationInterval }), verifyCfg: func(t *testing.T, cfg *Cfg, err error) { require.Equal(t, cfg.UnifiedAlerting.MinInterval, cfg.UnifiedAlerting.DefaultRuleEvaluationInterval) }, }, { desc: "should fallback to the default if legacy interval is less than base", legacyMinInterval: randPredicate(func(dur time.Duration) bool { return dur < SchedulerBaseInterval }), verifyCfg: func(t *testing.T, cfg *Cfg, err error) { require.Equal(t, SchedulerBaseInterval, cfg.UnifiedAlerting.MinInterval) }, }, } for _, testCase := range testCases { t.Run(testCase.desc, func(t *testing.T) { f := ini.Empty() if testCase.minInterval != nil { section, err := f.NewSection("unified_alerting") require.NoError(t, err) _, err = section.NewKey("min_interval", testCase.minInterval.String()) require.NoError(t, err) } if testCase.legacyMinInterval != nil { alertingSec, err := f.NewSection("alerting") require.NoError(t, err) _, err = alertingSec.NewKey("min_interval_seconds", strconv.Itoa(int(testCase.legacyMinInterval.Seconds()))) require.NoError(t, err) } cfg := NewCfg() cfg.IsFeatureToggleEnabled = func(key string) bool { return false } err := cfg.ReadUnifiedAlertingSettings(f) testCase.verifyCfg(t, cfg, err) }) } }