Files
executus/run/executor_test.go
T
steve 7b3da87c08 fix: address verified gadfly P2 findings (9 real of 18)
Independently verified all 18 gadfly findings against the code (18-agent
fan-out). Fixed the 9 real ones; the other 9 were false-positive /
hallucinated / valid-tradeoff (no change).

High:
- F1 nil model: a Models resolver returning (ctx,nil,nil) flowed into the
  agent loop and nil-panicked. Now a clean error (Run never panics). +test.
- F9 compactor data-leak: renderTranscript sent tool-call args verbatim to
  the summarizer (a possibly-different provider/tier); secret-bearing tool
  args (mcp_call/email_send/http_*/webhook_*) are now redacted, with a doc
  note that result bodies still flow (summary needs them).

Medium/minor:
- F2 compactor error path returned the folded slice, not the original msgs
  (contradicting the documented non-fatal contract) -> return msgs.
- F3 RunStats.Status only ok/error; now timeout (DeadlineExceeded) /
  cancelled (Canceled) via statusFor. +test.
- F4 step-zip emitted empty-name "ghost" steps when results>calls; now pairs
  min(calls,results) only.
- F5 SetIteration was never called -> RunState.Iteration always 0; the step
  observer now updates it each loop.
- F6 matchPending fallback was LIFO; now FIFO (matches the per-key queue).
- F7 estimateTokens had no default arm (future Part kinds counted as 0);
  unknown parts now counted conservatively.
- F8 cloud_sync silently truncated >1MiB responses -> opaque JSON error; now
  a clear "response exceeded N bytes" via readCapped.
- F12 step observer captured the caller ctx; now the merged runCtx.
- F13 compaction onFire was nil (doc claimed it logged); now wired to
  audit LogEvent("compaction_fired").
- F11 (no pre-dispatch hook in majordomo) documented honestly as a known
  limitation; F18 UsageSink doc clarified cache tokens are subsets of input.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-27 02:02:21 +00:00

169 lines
5.2 KiB
Go

package run
import (
"context"
"errors"
"fmt"
"testing"
"gitea.stevedudenhoeffer.com/steve/majordomo/llm"
"gitea.stevedudenhoeffer.com/steve/majordomo/provider/fake"
"gitea.stevedudenhoeffer.com/steve/executus/tool"
)
// fakeModels returns a ModelResolver backed by a fake provider scripted to
// reply with the given text (no tool calls — the loop terminates immediately).
func fakeModels(t *testing.T, reply string) ModelResolver {
t.Helper()
fp := fake.New("fake")
fp.Enqueue("test-model", fake.Reply(reply))
m, err := fp.Model("test-model")
if err != nil {
t.Fatalf("fake model: %v", err)
}
return func(ctx context.Context, _ string) (context.Context, llm.Model, error) {
return ctx, m, nil
}
}
// TestExecutorRunHelloWorld is the milestone: executus runs an agent end-to-end
// against the fake provider and returns its output. Proves the kernel is
// runnable with the zero Ports (no persistence/audit/budget/critic).
func TestExecutorRunHelloWorld(t *testing.T) {
ex := New(Config{
Registry: tool.NewRegistry(),
Models: fakeModels(t, "hello from executus"),
})
res := ex.Run(context.Background(),
RunnableAgent{Name: "greeter", SystemPrompt: "be brief", ModelTier: "test-model"},
tool.Invocation{RunID: "run-1", CallerID: "caller-1"},
"say hi")
if res.Err != nil {
t.Fatalf("run error: %v", res.Err)
}
if res.Output != "hello from executus" {
t.Fatalf("output = %q, want %q", res.Output, "hello from executus")
}
if res.RunID != "run-1" {
t.Errorf("RunID = %q, want run-1", res.RunID)
}
}
// TestExecutorBudgetRejection: a Budget that denies makes no model call.
func TestExecutorBudgetRejection(t *testing.T) {
denied := errors.New("over budget")
var modelCalled bool
models := func(ctx context.Context, _ string) (context.Context, llm.Model, error) {
modelCalled = true
return ctx, nil, nil
}
ex := New(Config{
Registry: tool.NewRegistry(),
Models: models,
Ports: Ports{Budget: budgetFunc{check: func(string) error { return denied }}},
})
res := ex.Run(context.Background(),
RunnableAgent{ModelTier: "test-model"},
tool.Invocation{RunID: "r", CallerID: "broke"}, "hi")
if !errors.Is(res.Err, denied) {
t.Fatalf("err = %v, want budget denial", res.Err)
}
if modelCalled {
t.Error("model must not be resolved/called when budget denies")
}
}
// TestExecutorAuditWiring: the Audit port receives StartRun + Close with the
// terminal status/output.
func TestExecutorAuditWiring(t *testing.T) {
rec := &captureRecorder{}
ex := New(Config{
Registry: tool.NewRegistry(),
Models: fakeModels(t, "done"),
Ports: Ports{Audit: auditFunc{start: func(RunInfo) RunRecorder { return rec }}},
})
res := ex.Run(context.Background(),
RunnableAgent{ModelTier: "test-model"},
tool.Invocation{RunID: "r2", CallerID: "c"}, "go")
if res.Err != nil {
t.Fatalf("run error: %v", res.Err)
}
if !rec.closed {
t.Fatal("recorder.Close was not called")
}
if rec.stats.Status != "ok" {
t.Errorf("close status = %q, want ok", rec.stats.Status)
}
if rec.stats.Output != "done" {
t.Errorf("close output = %q, want done", rec.stats.Output)
}
}
// --- test doubles ---
type budgetFunc struct{ check func(callerID string) error }
func (b budgetFunc) Check(_ context.Context, callerID string) error { return b.check(callerID) }
func (b budgetFunc) Commit(context.Context, string, float64) {}
type auditFunc struct{ start func(RunInfo) RunRecorder }
func (a auditFunc) StartRun(_ context.Context, info RunInfo) RunRecorder { return a.start(info) }
type captureRecorder struct {
closed bool
stats RunStats
steps int
tools int
}
func (r *captureRecorder) TokenStats() (in, out, thinking int64) { return 0, 0, 0 }
func (r *captureRecorder) ToolCallsCount() int { return r.tools }
func (r *captureRecorder) OnStep(int, *llm.Response) { r.steps++ }
func (r *captureRecorder) OnTool(llm.ToolCall, string) { r.tools++ }
func (r *captureRecorder) LogEvent(string, map[string]any) {}
func (r *captureRecorder) LogError(string) {}
func (r *captureRecorder) Close(_ context.Context, s RunStats) { r.closed = true; r.stats = s }
// TestExecutorNilModelNoPanic: a resolver returning (ctx, nil, nil) yields a
// clean error, not a nil-pointer panic (gadfly F1, high severity).
func TestExecutorNilModelNoPanic(t *testing.T) {
ex := New(Config{
Registry: tool.NewRegistry(),
Models: func(ctx context.Context, _ string) (context.Context, llm.Model, error) {
return ctx, nil, nil // nil model, nil error
},
})
res := ex.Run(context.Background(),
RunnableAgent{ModelTier: "x"}, tool.Invocation{RunID: "r"}, "hi")
if res.Err == nil {
t.Fatal("expected an error for a nil model, got nil (would have panicked in the loop)")
}
}
// TestStatusFor maps run errors to RunStats.Status (gadfly F3).
func TestStatusFor(t *testing.T) {
cases := []struct {
err error
want string
}{
{nil, "ok"},
{context.DeadlineExceeded, "timeout"},
{context.Canceled, "cancelled"},
{fmt.Errorf("wrapped: %w", context.DeadlineExceeded), "timeout"},
{errors.New("boom"), "error"},
}
for _, c := range cases {
if got := statusFor(c.err); got != c.want {
t.Errorf("statusFor(%v) = %q, want %q", c.err, got, c.want)
}
}
}