def testGoogleCalendarFieldSizes(self): """ Test some large field sizes (e.g. summary, description). If this test passes, Google Calendar supports those fields up to the size we're testing here, and the tests documents them. If it fails, it just means we have to reduce that maximum size. """ calId = settings.TEST_CALENDAR_ID tzName = 'Europe/Berlin' startDt = datetime.datetime.today() - datetime.timedelta(days=28) startDt = datetime.datetime(startDt.year, startDt.month, startDt.day, 9, 45) endDt = startDt + datetime.timedelta(minutes=30) attendingEmails = [testutil.Alice_email, testutil.Brad_email] longSummary = 'ab c' * 256 longDescription = 'ef gh' * 1000 longLocation = 'ij k' * 256 tasksched.sleepForRateLimit() ev = calendar.createEvent(calId, False, longSummary, longDescription, longLocation, startDt, endDt, tzName, attendingEmails) self.assertEqual(ev['summary'], longSummary) self.assertEqual(ev['description'], longDescription) self.assertEqual(ev['location'], longLocation) tasksched.sleepForRateLimit() calendar.deleteEvent(calId, ev['id'])
def testCallsOneSecondApart(self): # If this test fails, set minDelta to 0.8 seconds or so. minDelta = datetime.timedelta(seconds=1) tasksched.sleepForRateLimit() lastDt = datetime.datetime.utcnow() lastDb = models.LastApiCall.objects.get().dt for i in range(1): tasksched.sleepForRateLimit() nowDt = datetime.datetime.utcnow() nowDb = models.LastApiCall.objects.get().dt self.assertTrue(nowDt-lastDt >= minDelta) self.assertTrue(nowDb-lastDb >= minDelta) lastDt, lastDb = nowDt, nowDb
def testCreateAndDeleteEvent(self): calId = settings.TEST_CALENDAR_ID tzName = 'Europe/Berlin' startDt = datetime.datetime.today() - datetime.timedelta(days=28) startDt = datetime.datetime(startDt.year, startDt.month, startDt.day, 9, 45) endDt = startDt + datetime.timedelta(minutes=30) attendingEmails = [testutil.Alice_email, testutil.Brad_email] tasksched.sleepForRateLimit() ev = calendar.createEvent(calId, False, 'TEST: sample event', 'Test: create & delete a simple event', 'Reception', startDt, endDt, tzName, attendingEmails) def parseToTimezone(string, tz): """Parse a datetime string and convert it to timezone tz.""" return dateutil.parser.parse(string).astimezone(tz) def sameLocalFields(dt1, dt2): """Compare year, month, day, hour, minute and second in args.""" return (dt1.year == dt2.year and dt1.month == dt2.month and dt1.day == dt2.day and dt1.hour == dt2.hour and dt1.minute == dt2.minute and dt1.second == dt2.second) # This is a handy way to quickly see what the returned JSON looks like #print(json.dumps(ev, indent=2)) # Google returns an ISO dateTime string which includes a UTC offset # (apparently the local offset for you). Convert to local time for the # timezone we requested above, and check the date&time. tzObj = pytz.timezone(tzName) self.assertTrue(sameLocalFields(startDt, parseToTimezone(ev['start']['dateTime'], tzObj))) self.assertTrue(sameLocalFields(endDt, parseToTimezone(ev['end']['dateTime'], tzObj))) self.assertTrue({x for x in attendingEmails} == {x['email'] for x in ev['attendees']}) tasksched.sleepForRateLimit() calendar.deleteEvent(calId, ev['id'])
def testEmptyEventSummaryDescriptionLocation(self): calId = settings.TEST_CALENDAR_ID tzName = 'Europe/Berlin' startDt = datetime.datetime.today() - datetime.timedelta(days=28) startDt = datetime.datetime(startDt.year, startDt.month, startDt.day, 7, 30) endDt = startDt + datetime.timedelta(minutes=30) attendingEmails = [testutil.Alice_email, testutil.Brad_email] tasksched.sleepForRateLimit() ev = calendar.createEvent(calId, False, '', '', '', startDt, endDt, tzName, attendingEmails) for fName in ('summary', 'description', 'location'): # The empty fields are missing from the response self.assertFalse(fName in ev) tasksched.sleepForRateLimit() calendar.deleteEvent(calId, ev['id'])