// Copyright (c) 2026 Lark Technologies Pte. Ltd. // SPDX-License-Identifier: MIT package platform_test import ( "context" "strings" "testing" "github.com/larksuite/cli/extension/platform" ) // recorder Registrar captures everything a builder schedules so the // test can assert what Install produced without involving the host. type recorder struct { observers int wrappers int lifecycles int rule *platform.Rule } func (r *recorder) Observe(platform.When, string, platform.Selector, platform.Observer) { r.observers++ } func (r *recorder) Wrap(string, platform.Selector, platform.Wrapper) { r.wrappers++ } func (r *recorder) On(platform.LifecycleEvent, string, platform.LifecycleHandler) { r.lifecycles++ } func (r *recorder) Restrict(rule *platform.Rule) { r.rule = rule } func TestBuilder_basicAssembly(t *testing.T) { p, err := platform.NewPlugin("audit", "0.1.0"). Observer(platform.Before, "pre", platform.All(), func(context.Context, platform.Invocation) {}). Observer(platform.After, "post", platform.All(), func(context.Context, platform.Invocation) {}). Wrap("policy", platform.All(), func(next platform.Handler) platform.Handler { return next }). On(platform.Startup, "boot", func(context.Context, *platform.LifecycleContext) error { return nil }). FailOpen(). Build() if err != nil { t.Fatalf("Build: %v", err) } if p.Name() != "audit" || p.Version() != "0.1.0" { t.Errorf("metadata = %q/%q", p.Name(), p.Version()) } if p.Capabilities().FailurePolicy != platform.FailOpen { t.Errorf("FailurePolicy = %v, want FailOpen", p.Capabilities().FailurePolicy) } r := &recorder{} if err := p.Install(r); err != nil { t.Fatalf("Install: %v", err) } if r.observers != 2 || r.wrappers != 1 || r.lifecycles != 1 { t.Errorf("Install dispatch = observers=%d wrappers=%d lifecycles=%d", r.observers, r.wrappers, r.lifecycles) } } // Restrict() flips Restricts=true and FailClosed automatically — a // policy plugin can't accidentally ship under FailOpen. func TestBuilder_restrictForcesFailClosed(t *testing.T) { p, err := platform.NewPlugin("policy-plugin", "0.1.0"). Restrict(&platform.Rule{Name: "read-only", MaxRisk: platform.RiskRead}). Build() if err != nil { t.Fatalf("Build: %v", err) } caps := p.Capabilities() if !caps.Restricts { t.Errorf("Restricts = false, want true (Restrict() should flip it)") } if caps.FailurePolicy != platform.FailClosed { t.Errorf("FailurePolicy = %v, want FailClosed (Restrict() implies it)", caps.FailurePolicy) } r := &recorder{} if err := p.Install(r); err != nil { t.Fatalf("Install: %v", err) } if r.rule == nil || r.rule.Name != "read-only" { t.Errorf("Install did not propagate Rule: %+v", r.rule) } } // Invalid name surfaces at Build time, not at NewPlugin. func TestBuilder_invalidPluginName(t *testing.T) { _, err := platform.NewPlugin("Has_Underscore_And_Caps", "0.1").Build() if err == nil { t.Fatalf("Build must reject malformed plugin name") } if !strings.Contains(err.Error(), "invalid plugin name") { t.Errorf("error should mention plugin name, got: %v", err) } } // Duplicate hookName within the same builder is rejected. func TestBuilder_duplicateHookName(t *testing.T) { noopObs := func(context.Context, platform.Invocation) {} _, err := platform.NewPlugin("dup", "0"). Observer(platform.Before, "h", platform.All(), noopObs). Observer(platform.After, "h", platform.All(), noopObs). Build() if err == nil { t.Fatalf("Build must reject duplicate hookName") } if !strings.Contains(err.Error(), "already used") { t.Errorf("error should mention duplicate hookName, got %v", err) } } func TestBuilder_invalidHookName(t *testing.T) { _, err := platform.NewPlugin("p", "0"). Observer(platform.Before, "Bad.Name", platform.All(), func(context.Context, platform.Invocation) {}). Build() if err == nil { t.Fatalf("Build must reject hookName with dot") } } // MustBuild panics on builder error. func TestBuilder_mustBuildPanicsOnError(t *testing.T) { defer func() { if r := recover(); r == nil { t.Fatalf("MustBuild must panic when Build would fail") } }() _ = platform.NewPlugin("BadName", "0").MustBuild() } func TestBuilder_restrictNilRejected(t *testing.T) { _, err := platform.NewPlugin("p", "0").Restrict(nil).Build() if err == nil { t.Fatalf("Restrict(nil) must produce error") } } func TestBuilder_capabilitiesSetters(t *testing.T) { p, err := platform.NewPlugin("p", "0.1"). RequireCLI(">=1.0.0"). FailClosed(). Build() if err != nil { t.Fatalf("Build: %v", err) } caps := p.Capabilities() if caps.RequiredCLIVersion != ">=1.0.0" { t.Errorf("RequiredCLIVersion = %q, want >=1.0.0", caps.RequiredCLIVersion) } if caps.FailurePolicy != platform.FailClosed { t.Errorf("FailurePolicy = %v, want FailClosed", caps.FailurePolicy) } } func TestBuilder_restrictThenFailOpenRejected(t *testing.T) { rule := &platform.Rule{Name: "r", MaxRisk: platform.RiskRead} _, err := platform.NewPlugin("p", "0").Restrict(rule).FailOpen().Build() if err == nil { t.Fatalf("Build must reject Restrict()+FailOpen() mismatch") } if !strings.Contains(err.Error(), "FailClosed") { t.Errorf("error should mention FailClosed, got: %v", err) } } // Restrict() flips FailurePolicy to FailClosed; the previous FailOpen() // is overridden. Pin it so the Build-time validation does not over-reject. func TestBuilder_failOpenThenRestrictOK(t *testing.T) { rule := &platform.Rule{Name: "r", MaxRisk: platform.RiskRead} p, err := platform.NewPlugin("p", "0").FailOpen().Restrict(rule).Build() if err != nil { t.Fatalf("FailOpen()+Restrict() must succeed (Restrict flips to FailClosed): %v", err) } if p.Capabilities().FailurePolicy != platform.FailClosed { t.Errorf("FailurePolicy = %v, want FailClosed", p.Capabilities().FailurePolicy) } }