func TestUaAuth(t *testing.T) { uauth := calculateUaAuthHeader("user-agent", "user-agent-pw", "request-id", "session-id", "rets-version") testutils.Assert(t, "Digest 052c1af08431d3cc9717a37f9d6de169" == uauth, "bad auth") uauth2 := calculateUaAuthHeader("user-agent", "user-agent-pw", "", "", "rets-version") testutils.Assert(t, "Digest 73cc7ccfe417292b1155c5ccee7fbdab" == uauth2, "bad auth") }
func TestParseGetObjectQuit(t *testing.T) { extracted := extractBoundary(contentType) testutils.Equals(t, boundary, extracted) body := ioutil.NopCloser(bytes.NewReader([]byte(multipartBody))) quit := make(chan struct{}) defer close(quit) results := parseGetObjectsResult(quit, extracted, body) r1 := <-results testutils.Ok(t, r1.Err) testutils.Assert(t, r1 != GetObjectResult{}, "should not be the zerod object") o1 := r1.Object testutils.Equals(t, "image/jpeg", o1.ContentType) testutils.Equals(t, "123456", o1.ContentId) testutils.Equals(t, 1, o1.ObjectId) quit <- struct{}{} // the closed channel will emit a zero'd value of the proper type r2 := <-results testutils.Equals(t, r2, GetObjectResult{}) }
func verifyCompactData(t *testing.T, pl *PayloadList, id string) { payload := <-pl.Payloads testutils.Equals(t, 6, len(payload.Columns)) testutils.Equals(t, id, payload.Id) testutils.Equals(t, "A,B,C,D,E,F", strings.Join(payload.Columns, ",")) counter := 0 for _, row := range payload.Rows { testutils.Assert(t, strings.Join(row, ",") == "1,2,3,4,5,6", fmt.Sprintf("bad row %d: %s", counter, row)) testutils.Ok(t, pl.Error) counter = counter + 1 } testutils.Equals(t, 8, counter) }
func verifySystem(t *testing.T, ms Metadata) { testutils.Assert(t, ms.System.Version == "1.12.30", "bad version") testutils.Assert(t, ms.System.Comments == "The System is provided to you by Systems.", "bad comments") }