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tiny-forge/internal/metricalert/manager_test.go
T
alexei.dolgolyov cdb9fd57d1 feat(alerts): metric-threshold alerting (backend + API) 
Operators can define metric-threshold alert rules (cpu_percent,
memory_percent, memory_bytes; gt/lt) per-workload or global via
/api/metric-alert-rules. A periodic evaluator (internal/metricalert,
30s tick) checks the freshest container stats sample per container
against enabled rules and, on breach (per-rule-per-workload cooldown),
emits into the existing event_log + bus pipeline (source "metric_alert",
workload_id set). Alerts therefore surface on the global events page,
the per-app activity timeline, and any configured event-trigger webhook
-- no new notification plumbing.

Mirrors the log_scan_rules store/API/route patterns and the
stats.Collector lifecycle. Rule CRUD reads are authed, mutations
AdminOnly. Frontend rule-config UI is a follow-up phase.

Reviewed: go APPROVE (0 CRITICAL/HIGH).
2026-05-29 14:06:23 +03:00

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package metricalert
import (
"testing"
"time"
"github.com/alexei/tinyforge/internal/events"
"github.com/alexei/tinyforge/internal/store"
)
// --- fakes -----------------------------------------------------------
type fakeRules struct {
rules []store.MetricAlertRule
err error
}
func (f *fakeRules) ListMetricAlertRules() ([]store.MetricAlertRule, error) {
return f.rules, f.err
}
type fakeSamples struct {
samples []store.ContainerStatsSample
err error
since int64 // captured arg of the last call
}
func (f *fakeSamples) ListAllRecentContainerStatsSamples(sinceTS int64) ([]store.ContainerStatsSample, error) {
f.since = sinceTS
return f.samples, f.err
}
type recordedEvent struct {
evt store.EventLog
}
type fakeSink struct {
events []recordedEvent
err error
nextID int64
}
func (f *fakeSink) InsertEvent(e store.EventLog) (store.EventLog, error) {
if f.err != nil {
return store.EventLog{}, f.err
}
f.nextID++
e.ID = f.nextID
e.CreatedAt = "2026-05-29T00:00:00Z"
f.events = append(f.events, recordedEvent{evt: e})
return e, nil
}
type fakePublisher struct {
published []events.Event
}
func (f *fakePublisher) Publish(e events.Event) {
f.published = append(f.published, e)
}
func newManager(rules []store.MetricAlertRule, samples []store.ContainerStatsSample) (*Manager, *fakeSink, *fakePublisher) {
sink := &fakeSink{}
pub := &fakePublisher{}
m := New(&fakeRules{rules: rules}, &fakeSamples{samples: samples}, sink, pub)
return m, sink, pub
}
// --- tests -----------------------------------------------------------
func TestEvaluate_BreachEmits(t *testing.T) {
rules := []store.MetricAlertRule{{
ID: 1, Name: "cpu-hot", Metric: store.MetricCPUPercent,
Comparator: store.MetricComparatorGT, Threshold: 80, Severity: "error",
CooldownSeconds: 300, Enabled: true,
}}
samples := []store.ContainerStatsSample{{
ContainerID: "c1", OwnerID: "w1", OwnerType: "instance", TS: 100, CPUPercent: 95,
}}
m, sink, pub := newManager(rules, samples)
m.evaluate(time.Unix(200, 0))
if len(sink.events) != 1 {
t.Fatalf("expected 1 event, got %d", len(sink.events))
}
got := sink.events[0].evt
if got.Source != "metric_alert" {
t.Errorf("source = %q, want metric_alert", got.Source)
}
if got.Severity != "error" {
t.Errorf("severity = %q, want error", got.Severity)
}
if got.WorkloadID != "w1" {
t.Errorf("workload_id = %q, want w1", got.WorkloadID)
}
if got.Metadata == "" || got.Metadata == "{}" {
t.Errorf("metadata should be populated JSON, got %q", got.Metadata)
}
if len(pub.published) != 1 {
t.Fatalf("expected 1 published event, got %d", len(pub.published))
}
payload, ok := pub.published[0].Payload.(events.EventLogPayload)
if !ok {
t.Fatalf("published payload is not EventLogPayload")
}
if payload.WorkloadID != "w1" || payload.Source != "metric_alert" {
t.Errorf("payload workload/source mismatch: %+v", payload)
}
}
func TestEvaluate_NoBreachNoEmit(t *testing.T) {
rules := []store.MetricAlertRule{{
ID: 1, Name: "cpu-hot", Metric: store.MetricCPUPercent,
Comparator: store.MetricComparatorGT, Threshold: 80, Enabled: true,
}}
samples := []store.ContainerStatsSample{{
ContainerID: "c1", OwnerID: "w1", TS: 100, CPUPercent: 10,
}}
m, sink, _ := newManager(rules, samples)
m.evaluate(time.Unix(200, 0))
if len(sink.events) != 0 {
t.Fatalf("expected no events for non-breach, got %d", len(sink.events))
}
}
func TestEvaluate_DisabledRuleSkipped(t *testing.T) {
rules := []store.MetricAlertRule{{
ID: 1, Name: "cpu-hot", Metric: store.MetricCPUPercent,
Comparator: store.MetricComparatorGT, Threshold: 80, Enabled: false,
}}
samples := []store.ContainerStatsSample{{ContainerID: "c1", OwnerID: "w1", TS: 100, CPUPercent: 95}}
m, sink, _ := newManager(rules, samples)
m.evaluate(time.Unix(200, 0))
if len(sink.events) != 0 {
t.Fatalf("disabled rule should not emit, got %d", len(sink.events))
}
}
func TestEvaluate_PerWorkloadScoping(t *testing.T) {
rules := []store.MetricAlertRule{{
ID: 1, Name: "w2-only", WorkloadID: "w2", Metric: store.MetricCPUPercent,
Comparator: store.MetricComparatorGT, Threshold: 80, Enabled: true,
}}
samples := []store.ContainerStatsSample{
{ContainerID: "c1", OwnerID: "w1", TS: 100, CPUPercent: 95}, // breach but wrong workload
{ContainerID: "c2", OwnerID: "w2", TS: 100, CPUPercent: 95}, // breach, correct workload
}
m, sink, _ := newManager(rules, samples)
m.evaluate(time.Unix(200, 0))
if len(sink.events) != 1 {
t.Fatalf("expected 1 event (only w2), got %d", len(sink.events))
}
if sink.events[0].evt.WorkloadID != "w2" {
t.Errorf("event should be scoped to w2, got %q", sink.events[0].evt.WorkloadID)
}
}
func TestEvaluate_GlobalRuleMatchesAll(t *testing.T) {
rules := []store.MetricAlertRule{{
ID: 1, Name: "global", WorkloadID: "", Metric: store.MetricCPUPercent,
Comparator: store.MetricComparatorGT, Threshold: 80, Enabled: true,
}}
samples := []store.ContainerStatsSample{
{ContainerID: "c1", OwnerID: "w1", TS: 100, CPUPercent: 95},
{ContainerID: "c2", OwnerID: "w2", TS: 100, CPUPercent: 95},
}
m, sink, _ := newManager(rules, samples)
m.evaluate(time.Unix(200, 0))
if len(sink.events) != 2 {
t.Fatalf("global rule should fire for both workloads, got %d", len(sink.events))
}
}
func TestEvaluate_MemoryPercentDivByZeroSkip(t *testing.T) {
rules := []store.MetricAlertRule{{
ID: 1, Name: "mem", Metric: store.MetricMemoryPercent,
Comparator: store.MetricComparatorGT, Threshold: 50, Enabled: true,
}}
samples := []store.ContainerStatsSample{{
ContainerID: "c1", OwnerID: "w1", TS: 100, MemoryUsage: 1000, MemoryLimit: 0,
}}
m, sink, _ := newManager(rules, samples)
m.evaluate(time.Unix(200, 0))
if len(sink.events) != 0 {
t.Fatalf("zero memory limit should be skipped for percent rule, got %d", len(sink.events))
}
}
func TestEvaluate_MemoryPercentBreaches(t *testing.T) {
rules := []store.MetricAlertRule{{
ID: 1, Name: "mem", Metric: store.MetricMemoryPercent,
Comparator: store.MetricComparatorGT, Threshold: 90, Enabled: true,
}}
samples := []store.ContainerStatsSample{{
ContainerID: "c1", OwnerID: "w1", TS: 100, MemoryUsage: 950, MemoryLimit: 1000, // 95%
}}
m, sink, _ := newManager(rules, samples)
m.evaluate(time.Unix(200, 0))
if len(sink.events) != 1 {
t.Fatalf("95%% should breach 90%% threshold, got %d events", len(sink.events))
}
}
func TestEvaluate_CooldownSuppressesSecondEmit(t *testing.T) {
rules := []store.MetricAlertRule{{
ID: 1, Name: "cpu-hot", Metric: store.MetricCPUPercent,
Comparator: store.MetricComparatorGT, Threshold: 80, CooldownSeconds: 300, Enabled: true,
}}
samples := []store.ContainerStatsSample{{ContainerID: "c1", OwnerID: "w1", TS: 100, CPUPercent: 95}}
m, sink, _ := newManager(rules, samples)
base := time.Unix(1000, 0)
m.evaluate(base)
// 10s later — still inside the 300s cooldown window.
m.evaluate(base.Add(10 * time.Second))
if len(sink.events) != 1 {
t.Fatalf("cooldown should suppress second emit, got %d events", len(sink.events))
}
// Past the window — should fire again.
m.evaluate(base.Add(301 * time.Second))
if len(sink.events) != 2 {
t.Fatalf("should re-fire after cooldown elapses, got %d events", len(sink.events))
}
}
func TestEvaluate_LatestSamplePerContainer(t *testing.T) {
// Two samples for the same container: an old non-breaching reading
// and a newer breaching one. Only the freshest should be judged.
rules := []store.MetricAlertRule{{
ID: 1, Name: "cpu-hot", Metric: store.MetricCPUPercent,
Comparator: store.MetricComparatorGT, Threshold: 80, Enabled: true,
}}
samples := []store.ContainerStatsSample{
{ContainerID: "c1", OwnerID: "w1", TS: 100, CPUPercent: 10},
{ContainerID: "c1", OwnerID: "w1", TS: 150, CPUPercent: 95},
}
m, sink, _ := newManager(rules, samples)
m.evaluate(time.Unix(200, 0))
if len(sink.events) != 1 {
t.Fatalf("expected exactly 1 event from freshest sample, got %d", len(sink.events))
}
}
func TestEvaluate_LessThanComparator(t *testing.T) {
rules := []store.MetricAlertRule{{
ID: 1, Name: "cpu-idle", Metric: store.MetricCPUPercent,
Comparator: store.MetricComparatorLT, Threshold: 5, Enabled: true,
}}
samples := []store.ContainerStatsSample{{ContainerID: "c1", OwnerID: "w1", TS: 100, CPUPercent: 1}}
m, sink, _ := newManager(rules, samples)
m.evaluate(time.Unix(200, 0))
if len(sink.events) != 1 {
t.Fatalf("1%% < 5%% threshold should breach lt rule, got %d events", len(sink.events))
}
}
func TestEvaluate_NoRulesNoFetch(t *testing.T) {
// With no rules there's nothing to do; we shouldn't even query samples.
samplesSrc := &fakeSamples{samples: nil}
m := New(&fakeRules{rules: nil}, samplesSrc, &fakeSink{}, &fakePublisher{})
m.evaluate(time.Unix(200, 0))
if samplesSrc.since != 0 {
t.Errorf("samples should not be queried when there are no rules")
}
}
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