open-vault/vault/diagnose/helpers_test.go

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package diagnose
import (
"context"
"errors"
"os"
"reflect"
"strings"
"testing"
"github.com/go-test/deep"
)
const getMoreCoffee = "You'll find more coffee in the freezer door, or consider buying more for the office."
func TestDiagnoseOtelResults(t *testing.T) {
expected := &Result{
Name: "make-coffee",
Status: ErrorStatus,
Warnings: []string{
"coffee getting low",
},
Advice: getMoreCoffee,
Children: []*Result{
{
Name: "prepare-kitchen",
Status: ErrorStatus,
Children: []*Result{
{
Name: "build-microwave",
Status: ErrorStatus,
Children: []*Result{
{
Name: "buy-parts",
Status: ErrorStatus,
Message: "no stores sell microwave parts, please buy a microwave instead.",
Warnings: []string{
"warning: you are about to try to build a microwave from scratch.",
},
},
},
},
},
},
{
Name: "warm-milk",
Status: OkStatus,
},
{
Name: "brew-coffee",
Status: OkStatus,
},
{
Name: "pick-scone",
Status: ErrorStatus,
Message: "no scones",
},
{
Name: "dispose-grounds",
Status: SkippedStatus,
Message: "skipped as requested",
},
},
}
sess := New(os.Stdout)
sess.SkipFilters = []string{"dispose-grounds"}
ctx := Context(context.Background(), sess)
func() {
ctx, span := StartSpan(ctx, "make-coffee")
defer span.End()
makeCoffee(ctx)
}()
results := sess.Finalize(ctx)
results.ZeroTimes()
if !reflect.DeepEqual(results, expected) {
t.Fatalf("results mismatch: %s", strings.Join(deep.Equal(results, expected), "\n"))
}
results.Write(os.Stdout, 0)
}
const coffeeLeft = 3
func makeCoffee(ctx context.Context) error {
if coffeeLeft < 5 {
Warn(ctx, "coffee getting low")
Advise(ctx, getMoreCoffee)
}
// To mimic listener TLS checks, we'll see if we can nest a Test and add errors in the function
Test(ctx, "prepare-kitchen", func(ctx context.Context) error {
return Test(ctx, "build-microwave", func(ctx context.Context) error {
buildMicrowave(ctx)
return nil
})
})
Test(ctx, "warm-milk", func(ctx context.Context) error {
return warmMilk(ctx)
})
brewCoffee(ctx)
SpotCheck(ctx, "pick-scone", pickScone)
Test(ctx, "dispose-grounds", disposeGrounds)
return nil
}
// buildMicrowave will throw an error in the function itself to fail the span,
// but will return nil so the caller test doesn't necessarily throw an error.
// The intended behavior is that the superspan will detect the failed subspan
// and fail regardless. This happens when Fail is used to fail the span, but not
// when Error is used. See the comment in the function itself.
func buildMicrowave(ctx context.Context) error {
ctx, span := StartSpan(ctx, "buy-parts")
Fail(ctx, "no stores sell microwave parts, please buy a microwave instead.")
// The error line here does not actually yield an error in the output.
// TODO: Debug this. In the meantime, always use Fail over Error.
// Error(ctx, errors.New("no stores sell microwave parts, please buy a microwave instead."))
Warn(ctx, "warning: you are about to try to build a microwave from scratch.")
span.End()
return nil
}
func warmMilk(ctx context.Context) error {
// Always succeeds
return nil
}
func brewCoffee(ctx context.Context) error {
ctx, span := StartSpan(ctx, "brew-coffee")
defer span.End()
//Brewing happens here, successfully
return nil
}
func pickScone() error {
return errors.New("no scones")
}
func disposeGrounds(_ context.Context) error {
//Done!
return nil
}
func TestCapitalizeFirstLetter(t *testing.T) {
s := "this is a test."
if CapitalizeFirstLetter(s) != "This is a test." {
t.Fatalf("first word of string was not capitalized: got %s", CapitalizeFirstLetter(s))
}
s = "this"
if CapitalizeFirstLetter(s) != "This" {
t.Fatalf("first word of string was not capitalized: got %s", CapitalizeFirstLetter(s))
}
s = "."
if CapitalizeFirstLetter(s) != "." {
t.Fatalf("String without letters was not unchanged: got %s", CapitalizeFirstLetter(s))
}
}