package agent import ( "context" "encoding/json" "errors" "fmt" "io" "strings" "testing" "time" "go-micro.dev/v6/ai" "go-micro.dev/v6/flow" "go-micro.dev/v6/store" "go.opentelemetry.io/otel/attribute" "go.opentelemetry.io/otel/codes" "go.opentelemetry.io/otel/sdk/trace" "go.opentelemetry.io/otel/sdk/trace/tracetest" ) const codesError = codes.Error type otelTestModel struct{ opts ai.Options } func (m *otelTestModel) Init(opts ...ai.Option) error { for _, o := range opts { o(&m.opts) } return nil } func (m *otelTestModel) Options() ai.Options { return m.opts } func (m *otelTestModel) String() string { return "oteltest" } func (m *otelTestModel) Stream(context.Context, *ai.Request, ...ai.GenerateOption) (ai.Stream, error) { return nil, nil } func (m *otelTestModel) Generate(ctx context.Context, req *ai.Request, opts ...ai.GenerateOption) (*ai.Response, error) { if m.opts.ToolHandler != nil { if strings.Contains(req.Prompt, "delegate") { _ = m.opts.ToolHandler(ctx, ai.ToolCall{ID: "call-delegate", Name: toolDelegate, Input: map[string]any{"task": "subtask"}}) } else if !strings.Contains(req.Prompt, "subtask") { _ = m.opts.ToolHandler(ctx, ai.ToolCall{ID: "call-1", Name: "probe", Input: map[string]any{"ok": true}}) } } return &ai.Response{Reply: "done", Usage: ai.Usage{InputTokens: 2, OutputTokens: 3, TotalTokens: 5}}, nil } func init() { ai.Register("oteltest", func(opts ...ai.Option) ai.Model { return &otelTestModel{opts: ai.NewOptions(opts...)} }) } func TestAgentOpenTelemetrySpans(t *testing.T) { exp := tracetest.NewInMemoryExporter() tp := trace.NewTracerProvider(trace.WithSyncer(exp)) st := store.NewMemoryStore() a := New(Name("runner"), Provider("oteltest"), Model("unit-model"), WithStore(st), TraceProvider(tp), WithTool("probe", "probe", nil, func(context.Context, map[string]any) (string, error) { return "ok", nil })) if _, err := a.Ask(context.Background(), "hello"); err != nil { t.Fatal(err) } spans := exp.GetSpans().Snapshots() want := map[string]bool{spanNameRun: false, spanNameModelCall: false, spanNameToolCall: false} var runID string for _, s := range spans { if _, ok := want[s.Name()]; ok { want[s.Name()] = true } attrs := spanAttributes(s.Attributes()) if s.Name() == spanNameRun { runID = attrs[AttrRunID] } } for name, seen := range want { if !seen { t.Fatalf("span %s not emitted; got %d spans", name, len(spans)) } } if runID == "" { t.Fatal("run span missing run id attribute") } var runEvents []trace.Event for _, s := range spans { if s.Name() == spanNameRun { runEvents = s.Events() break } } if !spanEventHasRunInfo(runEvents, "agent.run", runID, "runner") || !spanEventHasRunInfo(runEvents, "agent.done", runID, "runner") { t.Fatalf("run span missing run-info events: %#v", runEvents) } for _, s := range spans { if s.Name() != spanNameModelCall && s.Name() != spanNameToolCall { continue } attrs := spanAttributes(s.Attributes()) if attrs[AttrRunID] != runID || attrs[AttrAgentName] != "runner" { t.Fatalf("%s missing run correlation attributes: %#v", s.Name(), attrs) } if s.Name() == spanNameModelCall { if attrs[AttrAttempt] != "1" || attrs[AttrMaxAttempts] != "1" { t.Fatalf("model span missing attempt attributes: %#v", attrs) } if !spanEventHasRunInfo(s.Events(), "agent.model", runID, "runner") { t.Fatalf("model span missing model event: %#v", s.Events()) } } if s.Name() == spanNameToolCall { if !spanEventHasRunInfo(s.Events(), "agent.tool", runID, "runner") { t.Fatalf("tool span missing tool event: %#v", s.Events()) } } } keys, err := store.Scope(st, "agent", "runner").List(store.ListPrefix("runs/")) if err != nil { t.Fatal(err) } if len(keys) == 0 { t.Fatal("expected run events to be recorded") } summaries, err := ListRunSummaries(st, "runner") if err != nil { t.Fatal(err) } if len(summaries) != 1 { t.Fatalf("got %d summaries, want 1", len(summaries)) } if summaries[0].LastKind != "done" { t.Fatalf("LastKind = %q, want done", summaries[0].LastKind) } if summaries[0].Status != "done" { t.Fatalf("Status = %q, want done", summaries[0].Status) } if summaries[0].DurationMS < 0 { t.Fatalf("DurationMS = %d, want non-negative", summaries[0].DurationMS) } if summaries[0].TraceID == "" || summaries[0].SpanID == "" { t.Fatalf("summary missing trace correlation: %#v", summaries[0]) } events, err := LoadRunEvents(st, "runner", summaries[0].RunID) if err != nil { t.Fatal(err) } if len(events) == 0 || events[0].TraceID == "" || events[0].SpanID == "" { t.Fatalf("events missing trace correlation: %#v", events) } } func TestAgentOpenTelemetryToolSpanIncludesWorkflowRunInfo(t *testing.T) { exp := tracetest.NewInMemoryExporter() tp := trace.NewTracerProvider(trace.WithSyncer(exp)) st := store.NewMemoryStore() a := New(Name("workflow-tool"), Provider("oteltest"), WithStore(st), TraceProvider(tp)).(*agentImpl) handler := a.traceTool(func(context.Context, ai.ToolCall) ai.ToolResult { return ai.ToolResult{Value: "ok"} }) ctx := ai.WithRunInfo(context.Background(), ai.RunInfo{ RunID: "run-workflow-tool", ParentID: "parent-run", Agent: "workflow-tool", Flow: "deploy", Step: "notify", Dispatch: "workflow", Trigger: "manual", }) res := handler(ctx, ai.ToolCall{ID: "call-1", Name: "notify", Input: map[string]any{"ok": true}}) if resultError(res) != "" { t.Fatalf("tool returned error: %#v", res) } for _, span := range exp.GetSpans().Snapshots() { if span.Name() != spanNameToolCall { continue } attrs := spanAttributes(span.Attributes()) if attrs[AttrRunID] != "run-workflow-tool" || attrs[AttrParentRunID] != "parent-run" || attrs[AttrAgentName] != "workflow-tool" { t.Fatalf("tool span missing run lineage: %#v", attrs) } if attrs[AttrFlowName] != "deploy" || attrs[AttrFlowStep] != "notify" || attrs[AttrDispatch] != "workflow" || attrs[AttrTrigger] != "manual" { t.Fatalf("tool span missing workflow run info: %#v", attrs) } return } t.Fatalf("tool span not emitted; got %d spans", len(exp.GetSpans().Snapshots())) } func TestAgentOpenTelemetryToolRetryAttempts(t *testing.T) { exp := tracetest.NewInMemoryExporter() tp := trace.NewTracerProvider(trace.WithSyncer(exp)) st := store.NewMemoryStore() calls := 0 a := New( Name("tool-retry-otel"), Provider("oteltest"), WithStore(st), TraceProvider(tp), ToolRetry(3, time.Millisecond), WithTool("probe", "probe", nil, func(context.Context, map[string]any) (string, error) { calls++ if calls == 1 { return "", errors.New("rate limit exceeded") } return "ok", nil }), ) if _, err := a.Ask(context.Background(), "hello"); err != nil { t.Fatal(err) } if calls != 2 { t.Fatalf("tool calls = %d, want retry success after 2 attempts", calls) } var sawToolSpan bool for _, span := range exp.GetSpans().Snapshots() { if span.Name() != spanNameToolCall { continue } attrs := spanAttributes(span.Attributes()) if attrs[AttrToolName] != "probe" { continue } if attrs[AttrToolAttempt] != "2" || attrs[AttrToolMaxAttempts] != "3" { t.Fatalf("tool retry span attempts = %#v", attrs) } if !spanEventHasAttr(span.Events(), "agent.tool", AttrToolAttempt, "2") || !spanEventHasAttr(span.Events(), "agent.tool", AttrToolMaxAttempts, "3") { t.Fatalf("tool retry event missing attempt attributes: %#v", span.Events()) } sawToolSpan = true } if !sawToolSpan { t.Fatal("tool retry span not emitted") } summaries, err := ListRunSummaries(st, "tool-retry-otel") if err != nil { t.Fatal(err) } events, err := LoadRunEvents(st, "tool-retry-otel", summaries[0].RunID) if err != nil { t.Fatal(err) } for _, event := range events { if event.Kind == "tool" && event.Name == "probe" && event.Attempt == 2 && event.MaxAttempts == 3 { return } } t.Fatalf("persisted tool event missing retry attempts: %#v", events) } func spanEventHasAttr(events []trace.Event, name, key, value string) bool { for _, event := range events { if event.Name != name { continue } attrs := spanAttributes(event.Attributes) if attrs[key] == value { return true } } return false } func TestAgentRunObservabilityRedactsInputByDefault(t *testing.T) { secret := "deploy production with token sk-secret" exp := tracetest.NewInMemoryExporter() tp := trace.NewTracerProvider(trace.WithSyncer(exp)) st := store.NewMemoryStore() a := New(Name("redactor"), Provider("oteltest"), WithStore(st), TraceProvider(tp)) if _, err := a.Ask(context.Background(), secret); err != nil { t.Fatal(err) } spans := exp.GetSpans().Snapshots() var sawInputChars bool for _, s := range spans { for _, event := range s.Events() { attrs := spanAttributes(event.Attributes) if attrs["agent.event.name"] == secret { t.Fatalf("span event leaked raw input: %#v", event) } if attrs[AttrInputChars] == fmt.Sprint(len(secret)) { sawInputChars = true } } } if !sawInputChars { t.Fatal("run event missing redacted input length attribute") } summaries, err := ListRunSummaries(st, "redactor") if err != nil { t.Fatal(err) } events, err := LoadRunEvents(st, "redactor", summaries[0].RunID) if err != nil { t.Fatal(err) } for _, event := range events { if event.Name == secret { t.Fatalf("persisted run event leaked raw input: %#v", event) } if event.Kind == "run" && event.InputChars != len(secret) { t.Fatalf("run event InputChars = %d, want %d", event.InputChars, len(secret)) } } } func TestAgentTraceInputsOptInRecordsInput(t *testing.T) { message := "operator-approved diagnostic prompt" st := store.NewMemoryStore() a := New(Name("input-opt-in"), Provider("oteltest"), WithStore(st), TraceInputs(true)) if _, err := a.Ask(context.Background(), message); err != nil { t.Fatal(err) } summaries, err := ListRunSummaries(st, "input-opt-in") if err != nil { t.Fatal(err) } events, err := LoadRunEvents(st, "input-opt-in", summaries[0].RunID) if err != nil { t.Fatal(err) } for _, event := range events { if event.Kind == "run" && event.Name == message { return } } t.Fatalf("opt-in run event did not record message: %#v", events) } type failingOtelModel struct{ opts ai.Options } func (m *failingOtelModel) Init(opts ...ai.Option) error { for _, o := range opts { o(&m.opts) } return nil } func (m *failingOtelModel) Options() ai.Options { return m.opts } func (m *failingOtelModel) String() string { return "otelfail" } func (m *failingOtelModel) Stream(context.Context, *ai.Request, ...ai.GenerateOption) (ai.Stream, error) { return nil, nil } func (m *failingOtelModel) Generate(context.Context, *ai.Request, ...ai.GenerateOption) (*ai.Response, error) { return nil, errors.New("provider exploded") } func init() { ai.Register("otelfail", func(opts ...ai.Option) ai.Model { return &failingOtelModel{opts: ai.NewOptions(opts...)} }) } func TestAgentOpenTelemetrySpansModelFailure(t *testing.T) { exp := tracetest.NewInMemoryExporter() tp := trace.NewTracerProvider(trace.WithSyncer(exp)) st := store.NewMemoryStore() a := New(Name("failing-runner"), Provider("otelfail"), WithStore(st), TraceProvider(tp)) if _, err := a.Ask(context.Background(), "hello"); err == nil { t.Fatal("Ask succeeded, want provider error") } spans := exp.GetSpans().Snapshots() var sawRunError, sawModelError bool for _, s := range spans { attrs := spanAttributes(s.Attributes()) switch s.Name() { case spanNameRun: if attrs[AttrAgentName] == "failing-runner" && s.Status().Code == codesError { sawRunError = true } case spanNameModelCall: if attrs[AttrAgentName] == "failing-runner" && attrs[AttrAttempt] == "1" && attrs[AttrErrorKind] == string(ai.ErrorKindUnknown) && s.Status().Code == codesError { sawModelError = true } } } if !sawRunError || !sawModelError { t.Fatalf("missing error spans: run=%v model=%v spans=%d", sawRunError, sawModelError, len(spans)) } summaries, err := ListRunSummaries(st, "failing-runner") if err != nil { t.Fatal(err) } if len(summaries) != 1 || summaries[0].Status != "error" || summaries[0].LastError == "" { t.Fatalf("unexpected failure summary: %#v", summaries) } events, err := LoadRunEvents(st, "failing-runner", summaries[0].RunID) if err != nil { t.Fatal(err) } var sawModelEvent bool for _, event := range events { if event.Kind == "model" && event.Attempt == 1 && event.MaxAttempts == 1 && event.Error != "" && event.ErrorKind == string(ai.ErrorKindUnknown) { sawModelEvent = true } } if !sawModelEvent { t.Fatalf("missing failed model event with attempt metadata: %#v", events) } } func spanEventHasRunInfo(events []trace.Event, name, runID, agentName string) bool { for _, event := range events { if event.Name != name { continue } attrs := spanAttributes(event.Attributes) wantKind := strings.TrimPrefix(name, "agent.") if attrs[AttrRunID] == runID && attrs[AttrAgentName] == agentName && attrs[AttrRunEventKind] == wantKind { return true } } return false } func spanAttributes(attrs []attribute.KeyValue) map[string]string { out := make(map[string]string, len(attrs)) for _, attr := range attrs { out[string(attr.Key)] = fmt.Sprint(attr.Value.AsInterface()) } return out } func TestAgentOpenTelemetryToolSpanIncludesSpend(t *testing.T) { exp := tracetest.NewInMemoryExporter() tp := trace.NewTracerProvider(trace.WithSyncer(exp)) st := store.NewMemoryStore() a := New(Name("spender"), Provider("oteltest"), Model("unit-model"), WithStore(st), TraceProvider(tp), MaxSpend(10), ToolSpend("probe", 7), WithTool("probe", "probe", nil, func(ctx context.Context, input map[string]any) (string, error) { info, ok := ai.RunInfoFrom(ctx) if !ok { t.Fatal("RunInfo missing from paid tool context") } if info.Spent != 7 || info.ToolSpend != 7 { t.Fatalf("RunInfo spend = (%d, %d), want (7, 7)", info.Spent, info.ToolSpend) } return "ok", nil })) if _, err := a.Ask(context.Background(), "hello"); err != nil { t.Fatal(err) } var sawToolSpan bool for _, s := range exp.GetSpans().Snapshots() { if s.Name() != spanNameToolCall { continue } sawToolSpan = true attrs := spanAttributes(s.Attributes()) if attrs[AttrSpend] != "7" || attrs[AttrToolSpend] != "7" { t.Fatalf("tool span missing spend attributes: %#v", attrs) } if !spanEventHasAttribute(s.Events(), "agent.tool", AttrToolSpend, "7") { t.Fatalf("tool event missing spend attribute: %#v", s.Events()) } } if !sawToolSpan { t.Fatal("tool span not emitted") } summaries, err := ListRunSummaries(st, "spender") if err != nil { t.Fatal(err) } if len(summaries) != 1 || summaries[0].Spent != 7 { t.Fatalf("summary spend = %#v, want 7", summaries) } } func spanEventHasAttribute(events []trace.Event, name, key, value string) bool { for _, e := range events { if e.Name != name { continue } attrs := spanAttributes(e.Attributes) if attrs[key] == value { return true } } return false } func TestAgentOpenTelemetrySpansDelegateLineage(t *testing.T) { exp := tracetest.NewInMemoryExporter() tp := trace.NewTracerProvider(trace.WithSyncer(exp)) st := store.NewMemoryStore() a := New(Name("conductor"), Provider("oteltest"), WithStore(st), TraceProvider(tp)) if _, err := a.Ask(context.Background(), "delegate please"); err != nil { t.Fatal(err) } spans := exp.GetSpans().Snapshots() var parentRunID string var delegateSpanID string var subRunSeen bool for _, s := range spans { attrs := spanAttributes(s.Attributes()) if s.Name() == spanNameRun && attrs[AttrAgentName] == "conductor" { parentRunID = attrs[AttrRunID] } } if parentRunID == "" { t.Fatal("parent run span missing run id") } for _, s := range spans { attrs := spanAttributes(s.Attributes()) if s.Name() == spanNameToolCall && attrs[AttrToolName] == toolDelegate { if attrs[AttrDelegate] != "true" || attrs[AttrRunID] != parentRunID { t.Fatalf("delegate span missing correlation attributes: %#v", attrs) } delegateSpanID = s.SpanContext().SpanID().String() } } if delegateSpanID == "" { t.Fatal("delegate tool span not emitted") } for _, s := range spans { attrs := spanAttributes(s.Attributes()) if s.Name() == spanNameRun && attrs[AttrAgentName] == "conductor.sub" { if attrs[AttrParentRunID] != parentRunID { t.Fatalf("sub-agent run parent attr = %q, want %q", attrs[AttrParentRunID], parentRunID) } if s.Parent().SpanID().String() != delegateSpanID { t.Fatalf("sub-agent run parent span = %s, want delegate span %s", s.Parent().SpanID(), delegateSpanID) } subRunSeen = true } } if !subRunSeen { t.Fatalf("sub-agent run span not emitted; got %d spans", len(spans)) } } func TestAgentRunTimelineRecordsModelAndToolWithoutTraceProvider(t *testing.T) { st := store.NewMemoryStore() a := New(Name("runner-noop"), Provider("oteltest"), WithStore(st), WithTool("probe", "probe", nil, func(context.Context, map[string]any) (string, error) { return "ok", nil })) if _, err := a.Ask(context.Background(), "hello"); err != nil { t.Fatal(err) } keys, err := store.Scope(st, "agent", "runner-noop").List(store.ListPrefix("runs/")) if err != nil { t.Fatal(err) } if len(keys) == 0 { t.Fatal("expected run timeline without TraceProvider") } summaries, err := ListRunSummaries(st, "runner-noop") if err != nil { t.Fatal(err) } if len(summaries) != 1 { t.Fatalf("got %d summaries, want 1", len(summaries)) } if summaries[0].Status != "done" || summaries[0].LastKind != "done" { t.Fatalf("unexpected summary without TraceProvider: %#v", summaries[0]) } if summaries[0].TraceID != "" || summaries[0].SpanID != "" { t.Fatalf("unexpected trace correlation without TraceProvider: %#v", summaries[0]) } events, err := LoadRunEvents(st, "runner-noop", summaries[0].RunID) if err != nil { t.Fatal(err) } seen := map[string]bool{"run": false, "model": false, "tool": false, "done": false} for _, e := range events { seen[e.Kind] = true if e.TraceID != "" || e.SpanID != "" { t.Fatalf("event has trace correlation without TraceProvider: %#v", e) } } for kind, ok := range seen { if !ok { t.Fatalf("missing %s event in timeline: %#v", kind, events) } } } func TestAgentCheckpointAndResumeTimelineEvents(t *testing.T) { exp := tracetest.NewInMemoryExporter() tp := trace.NewTracerProvider(trace.WithSyncer(exp)) st := store.NewMemoryStore() cp := flow.StoreCheckpoint(st, "resume-otel-agent") first := true fakeGen = func(ctx context.Context, opts ai.Options, req *ai.Request) (*ai.Response, error) { if first { first = false return nil, errors.New("temporary provider failure") } return &ai.Response{Reply: "resumed"}, nil } defer func() { fakeGen = nil }() a := newTestAgent(Name("resume-otel-agent"), WithStore(st), WithCheckpoint(cp), TraceProvider(tp)) _, err := a.Ask(context.Background(), "resume me") if err == nil { t.Fatal("Ask succeeded, want simulated failure") } runs, err := cp.List(context.Background()) if err != nil { t.Fatal(err) } if len(runs) != 1 { t.Fatalf("checkpointed runs = %d, want 1", len(runs)) } resp, err := Resume(context.Background(), a, runs[0].ID) if err != nil { t.Fatalf("Resume: %v", err) } if resp.Reply != "resumed" { t.Fatalf("reply = %q, want resumed", resp.Reply) } events, err := LoadRunEvents(st, "resume-otel-agent", runs[0].ID) if err != nil { t.Fatal(err) } seen := map[string]bool{"checkpoint": false, "resume": false} for _, e := range events { if _, ok := seen[e.Kind]; ok { seen[e.Kind] = true } } for kind, ok := range seen { if !ok { t.Fatalf("missing %s event in timeline: %#v", kind, events) } } var resumeSpanEvent bool for _, s := range exp.GetSpans().Snapshots() { if s.Name() != spanNameRun { continue } for _, e := range s.Events() { if e.Name == "agent.resume" { resumeSpanEvent = true } } } if !resumeSpanEvent { t.Fatal("run span missing agent.resume event") } } func TestLoadRunEventsSortsTimelineKeys(t *testing.T) { st := store.NewMemoryStore() scoped := store.Scope(st, "agent", "runner") runID := "run-1" events := []RunEvent{ {Time: time.Unix(0, 3), RunID: runID, Agent: "runner", Kind: "tool", Name: "third"}, {Time: time.Unix(0, 1), RunID: runID, Agent: "runner", Kind: "run", Name: "first"}, {Time: time.Unix(0, 2), RunID: runID, Agent: "runner", Kind: "model", Name: "second"}, } for _, e := range events { b, err := json.Marshal(e) if err != nil { t.Fatal(err) } key := "runs/" + runID + "/" + e.Time.Format("20060102150405.000000000") + "-" + e.Kind if err := scoped.Write(&store.Record{Key: key, Value: b}); err != nil { t.Fatal(err) } } got, err := LoadRunEvents(st, "runner", runID) if err != nil { t.Fatal(err) } if len(got) != 3 { t.Fatalf("got %d events, want 3", len(got)) } for i, want := range []string{"first", "second", "third"} { if got[i].Name != want { t.Fatalf("event %d = %q, want %q (timeline: %#v)", i, got[i].Name, want, got) } } } func TestListRunSummaries(t *testing.T) { st := store.NewMemoryStore() scoped := store.Scope(st, "agent", "runner") events := []RunEvent{ {Time: time.Unix(0, 1), RunID: "run-a", Agent: "runner", TraceID: "trace-a", SpanID: "span-a", Kind: "run", Name: "first"}, {Time: time.Unix(0, 2), RunID: "run-a", Agent: "runner", Kind: "tool", Name: "probe"}, {Time: time.Unix(0, 3), RunID: "run-b", Agent: "runner", ParentID: "parent", Kind: "run", Name: "second"}, {Time: time.Unix(0, 4), RunID: "run-b", Agent: "runner", ParentID: "parent", Kind: "checkpoint", Name: "ask", Status: "failed"}, {Time: time.Unix(0, 5), RunID: "run-b", Agent: "runner", ParentID: "parent", Kind: "error", Error: "context deadline exceeded", ErrorKind: string(ai.ErrorKindTimeout)}, } for _, e := range events { b, err := json.Marshal(e) if err != nil { t.Fatal(err) } key := "runs/" + e.RunID + "/" + e.Time.Format("20060102150405.000000000") + "-" + e.Kind if err := scoped.Write(&store.Record{Key: key, Value: b}); err != nil { t.Fatal(err) } } got, err := ListRunSummaries(st, "runner") if err != nil { t.Fatal(err) } if len(got) != 2 { t.Fatalf("got %d summaries, want 2: %#v", len(got), got) } if got[0].RunID != "run-a" || got[0].TraceID != "trace-a" || got[0].SpanID != "span-a" || got[0].Events != 2 || got[0].Status != "running" || got[0].DurationMS != 0 || got[0].LastKind != "tool" || !got[0].UpdatedAt.Equal(time.Unix(0, 2)) { t.Fatalf("unexpected run-a summary: %#v", got[0]) } if got[1].RunID != "run-b" || got[1].ParentID != "parent" || got[1].Events != 3 || got[1].Status != "timeout" || got[1].DurationMS != 0 || got[1].LastKind != "error" || got[1].Checkpoint != "failed" || got[1].Stage != "ask" || got[1].LastError != "context deadline exceeded" || got[1].LastErrorKind != string(ai.ErrorKindTimeout) { t.Fatalf("unexpected run-b summary: %#v", got[1]) } } func TestRunStatusClassifiesOperationalErrorKinds(t *testing.T) { tests := []struct { name string kind ai.ErrorKind want string }{ {name: "canceled", kind: ai.ErrorKindCanceled, want: "canceled"}, {name: "timeout", kind: ai.ErrorKindTimeout, want: "timeout"}, {name: "rate limited", kind: ai.ErrorKindRateLimited, want: "rate_limited"}, {name: "auth", kind: ai.ErrorKindAuth, want: "auth"}, {name: "configuration", kind: ai.ErrorKindConfiguration, want: "configuration"}, {name: "unavailable", kind: ai.ErrorKindUnavailable, want: "unavailable"}, {name: "provider", kind: ai.ErrorKindProvider, want: "provider_error"}, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { got := runStatus([]RunEvent{ {Kind: "run"}, {Kind: "error", Error: "failed", ErrorKind: string(tt.kind)}, }) if got != tt.want { t.Fatalf("runStatus() = %q, want %q", got, tt.want) } }) } } func TestListRunSummariesWithOptionsFiltersAndLimits(t *testing.T) { st := store.NewMemoryStore() scoped := store.Scope(st, "agent", "runner") events := []RunEvent{ {Time: time.Unix(0, 1), RunID: "run-old", Agent: "runner", Kind: "run"}, {Time: time.Unix(0, 2), RunID: "run-old", Agent: "runner", Kind: "done"}, {Time: time.Unix(0, 3), RunID: "run-new", Agent: "runner", TraceID: "abcdef1234567890", Kind: "run"}, {Time: time.Unix(0, 4), RunID: "run-new", Agent: "runner", Kind: "error", Error: "rate limit exceeded", ErrorKind: string(ai.ErrorKindRateLimited)}, } for _, e := range events { b, err := json.Marshal(e) if err != nil { t.Fatal(err) } if err := scoped.Write(&store.Record{Key: "runs/" + e.RunID + "/" + e.Time.Format("20060102150405.000000000") + "-" + e.Kind, Value: b}); err != nil { t.Fatal(err) } } got, err := ListRunSummariesWithOptions(st, "runner", RunListOptions{Status: "rate_limited", TraceID: "abcdef", Limit: 1}) if err != nil { t.Fatal(err) } if len(got) != 1 || got[0].RunID != "run-new" || got[0].Status != "rate_limited" { t.Fatalf("filtered summaries = %#v", got) } } type otelStreamModel struct{ opts ai.Options } func (m *otelStreamModel) Init(opts ...ai.Option) error { for _, o := range opts { o(&m.opts) } return nil } func (m *otelStreamModel) Options() ai.Options { return m.opts } func (m *otelStreamModel) String() string { return "otelstream" } func (m *otelStreamModel) Generate(context.Context, *ai.Request, ...ai.GenerateOption) (*ai.Response, error) { return &ai.Response{Reply: "unused"}, nil } func (m *otelStreamModel) Stream(context.Context, *ai.Request, ...ai.GenerateOption) (ai.Stream, error) { return &otelTestStream{chunks: []*ai.Response{{Reply: "one", Usage: ai.Usage{InputTokens: 1, OutputTokens: 2, TotalTokens: 3}}, {Reply: "two", Usage: ai.Usage{InputTokens: 1, OutputTokens: 4, TotalTokens: 5}}}}, nil } type otelTestStream struct { chunks []*ai.Response idx int } func (s *otelTestStream) Recv() (*ai.Response, error) { if s.idx >= len(s.chunks) { return nil, io.EOF } resp := s.chunks[s.idx] s.idx++ return resp, nil } func (s *otelTestStream) Close() error { return nil } func TestAgentOpenTelemetrySpansModelStream(t *testing.T) { exp := tracetest.NewInMemoryExporter() tp := trace.NewTracerProvider(trace.WithSyncer(exp)) st := store.NewMemoryStore() a := New(Name("stream-runner"), Provider("oteltest"), Model("stream-model"), WithStore(st), TraceProvider(tp)) m := a.(*agentImpl).tracedModel(&otelStreamModel{opts: ai.Options{Model: "stream-model"}}) ctx := ai.WithRunInfo(context.Background(), ai.RunInfo{RunID: "stream-run-1", ParentID: "parent-run", Agent: "stream-runner", Attempt: 2, MaxAttempts: 3, Flow: "deploy", Step: "plan"}) stream, err := m.Stream(ctx, &ai.Request{Prompt: "stream"}) if err != nil { t.Fatal(err) } for { _, err := stream.Recv() if errors.Is(err, io.EOF) { break } if err != nil { t.Fatal(err) } } if err := stream.Close(); err != nil { t.Fatal(err) } spans := exp.GetSpans().Snapshots() var sawStream bool for _, s := range spans { if s.Name() != spanNameModelStream { continue } attrs := spanAttributes(s.Attributes()) if attrs[AttrRunID] != "stream-run-1" || attrs[AttrParentRunID] != "parent-run" || attrs[AttrAgentName] != "stream-runner" { t.Fatalf("stream span missing run lineage: %#v", attrs) } if attrs[AttrFlowName] != "deploy" || attrs[AttrFlowStep] != "plan" { t.Fatalf("stream span missing workflow attributes: %#v", attrs) } if attrs[AttrAttempt] != "2" || attrs[AttrMaxAttempts] != "3" || attrs[AttrTotalTokens] != "5" { t.Fatalf("stream span missing attempt/usage attributes: %#v", attrs) } if !spanEventHasRunInfo(s.Events(), "agent.stream", "stream-run-1", "stream-runner") { t.Fatalf("stream span missing stream event: %#v", s.Events()) } sawStream = true } if !sawStream { t.Fatalf("stream span not emitted; got %d spans", len(spans)) } events, err := LoadRunEvents(st, "stream-runner", "stream-run-1") if err != nil { t.Fatal(err) } if len(events) != 1 || events[0].Kind != "stream" || events[0].TraceID == "" || events[0].SpanID == "" || events[0].Tokens.TotalTokens != 5 { t.Fatalf("unexpected stream run event: %#v", events) } }