package admin import ( "errors" "os" "testing" "github.com/stretchr/testify/assert" "github.com/ceph/go-ceph/internal/admintest" ) var ( radosConnector = admintest.NewConnector() // some tests are sensitive to the server version serverVersion string ) const ( cephNautilus = "nautilus" cephOctopus = "octopus" cephPacfic = "pacific" cephQuincy = "quincy" cephReef = "reef" cephSquid = "squid" cephMain = "main" ) func init() { switch vname := os.Getenv("CEPH_VERSION"); vname { case cephNautilus, cephOctopus, cephPacfic, cephQuincy, cephReef, cephSquid, cephMain: serverVersion = vname } } func TestServerSentinel(t *testing.T) { // there probably *is* a better way to do this but I'm doing what's easy // and expedient at the moment. That's tying the tests to the environment // var to tell us what version of the *server* we are testing against. The // build tags control what version of the *client libs* we use. These // happen to be the same for our CI tests today, but its a lousy way to // organize things IMO. // This check is intended to fail the test suite if you don't tell it a // server version it expects and force us to update the tests if a new // version of ceph is added. if serverVersion == "" { t.Fatalf("server must be nautilus, octopus, pacific, quincy, or reef (do the tests need updating?)") } } func getFSAdmin(t *testing.T) *FSAdmin { return NewFromConn(radosConnector.Get(t)) } func newFSAdmin(t *testing.T, configFile string) *FSAdmin { return NewFromConn( admintest.WrapConn(admintest.NewConnFromConfig(t, configFile))) } func TestInvalidFSAdmin(t *testing.T) { fsa := &FSAdmin{} res := fsa.rawMgrCommand([]byte("FOOBAR!")) assert.Error(t, res.Unwrap()) } type badMarshalType bool func (badMarshalType) MarshalJSON() ([]byte, error) { return nil, errors.New("Zowie! wow") } func TestBadMarshal(t *testing.T) { fsa := getFSAdmin(t) var bad badMarshalType res := fsa.marshalMgrCommand(bad) assert.Error(t, res.Unwrap()) } func TestParseListNames(t *testing.T) { R := newResponse t.Run("error", func(t *testing.T) { _, err := parseListNames(R(nil, "", errors.New("bonk"))) assert.Error(t, err) assert.Equal(t, "bonk", err.Error()) }) t.Run("statusSet", func(t *testing.T) { _, err := parseListNames(R(nil, "unexpected!", nil)) assert.Error(t, err) }) t.Run("badJSON", func(t *testing.T) { _, err := parseListNames(R([]byte("Foo[[["), "", nil)) assert.Error(t, err) }) t.Run("ok", func(t *testing.T) { l, err := parseListNames(R([]byte(`[{"name":"bob"}]`), "", nil)) assert.NoError(t, err) if assert.Len(t, l, 1) { assert.Equal(t, "bob", l[0]) } }) } func TestCheckEmptyResponseExpected(t *testing.T) { R := newResponse t.Run("error", func(t *testing.T) { err := R(nil, "", errors.New("bonk")).NoData().End() assert.Error(t, err) assert.Equal(t, "bonk", err.Error()) }) t.Run("statusSet", func(t *testing.T) { err := R(nil, "unexpected!", nil).NoData().End() assert.Error(t, err) }) t.Run("someJSON", func(t *testing.T) { err := R([]byte(`{"trouble": true}`), "", nil).NoData().End() assert.Error(t, err) }) t.Run("ok", func(t *testing.T) { err := R([]byte{}, "", nil).NoData().End() assert.NoError(t, err) }) }