Пример #1
0
def make_ocid_cell_import_dict(row):
    def val(key, default):
        if key in row and row[key] != '' and row[key] is not None:
            return row[key]
        else:
            return default

    d = dict()

    d['created'] = datetime.fromtimestamp(int(val('created',
                                                  0))).replace(tzinfo=UTC)

    d['modified'] = datetime.fromtimestamp(int(val('updated',
                                                   0))).replace(tzinfo=UTC)

    d['lat'] = float(val('lat', -255))
    d['lon'] = float(val('lon', -255))

    d['radio'] = RADIO_TYPE.get(row['radio'].lower(), -1)

    for k in ['mcc', 'mnc', 'lac', 'cid', 'psc']:
        d[k] = int(val(k, -1))

    d['range'] = int(float(val('range', 0)))

    d['total_measures'] = int(val('samples', -1))
    d['changeable'] = bool(val('changeable', True))
    return OCIDCell.validate(d)
Пример #2
0
def make_ocid_cell_import_dict(row):

    def val(key, default):
        if key in row and row[key] != '' and row[key] is not None:
            return row[key]
        else:
            return default

    d = dict()

    d['created'] = datetime.fromtimestamp(
        int(val('created', 0))).replace(tzinfo=UTC)

    d['modified'] = datetime.fromtimestamp(
        int(val('updated', 0))).replace(tzinfo=UTC)

    d['lat'] = float(val('lat', None))
    d['lon'] = float(val('lon', None))

    try:
        d['radio'] = Radio[row['radio'].lower()]
    except KeyError:  # pragma: no cover
        d['radio'] = None

    for k in ['mcc', 'mnc', 'lac', 'cid', 'psc']:
        d[k] = int(val(k, -1))

    d['range'] = int(float(val('range', 0)))

    d['total_measures'] = int(val('samples', -1))
    d['changeable'] = bool(val('changeable', True))
    return OCIDCell.validate(d)
Пример #3
0
    def test_ocid_cell(self):
        session = self.db_slave_session
        london = self.geoip_data['London']
        cell_key = {
            'radio': RADIO_TYPE['gsm'], 'mcc': GB_MCC, 'mnc': 1, 'lac': 1,
        }
        session.add(OCIDCell(
            lat=GB_LAT, lon=GB_LON, range=6000, cid=1, **cell_key))
        session.add(CellArea(
            lat=GB_LAT, lon=GB_LON, range=9000, **cell_key))
        session.flush()

        result = self._make_query(data={'cell': [dict(cid=1, **cell_key)]},
                                  client_addr=london['ip'], api_key_log=True)
        self.assertEqual(result,
                         {'lat': GB_LAT,
                          'lon': GB_LON,
                          'accuracy': 6000})
Пример #4
0
    def test_monitor_ocid_import(self):
        session = self.db_master_session
        now = util.utcnow()
        cell_args = dict(radio=RADIO_TYPE['gsm'], mcc=262, mnc=1, lac=1)

        expected = []
        results = []
        for i in range(30, 0, -5):
            created = now - timedelta(hours=i)
            expected.append(i * 3600000)
            session.add(OCIDCell(created=created, cid=i, **cell_args))
            session.flush()
            results.append(monitor_ocid_import.delay().get())

        self.check_stats(gauge=[('table.ocid_cell_age', len(expected))], )
        for r, e in zip(results, expected):
            # The values should be almost equal, ignoring differences
            # less than 10 seconds (or 9999 milliseconds / 4 places)
            self.assertAlmostEqual(r, e, -4)
Пример #5
0
def make_ocid_cell_import_dict(row):

    def val(key, default, _type):
        if key in row and row[key] != '' and row[key] is not None:
            return _type(row[key])
        else:
            return default

    d = dict()

    d['created'] = datetime.fromtimestamp(
        val('created', 0, int)).replace(tzinfo=UTC)

    d['modified'] = datetime.fromtimestamp(
        val('updated', 0, int)).replace(tzinfo=UTC)

    d['lat'] = val('lat', None, float)
    d['lon'] = val('lon', None, float)

    try:
        d['radio'] = Radio[row['radio'].lower()]
    except KeyError:  # pragma: no cover
        d['radio'] = None

    for k in ['mcc', 'mnc', 'lac', 'cid', 'psc']:
        d[k] = val(k, None, int)

    d['range'] = int(val('range', 0, float))
    d['total_measures'] = val('samples', 0, int)
    d['changeable'] = val('changeable', True, bool)
    validated = OCIDCell.validate(d)
    if validated is None:
        return None
    for field in ('radio', 'mcc', 'mnc', 'lac', 'cid'):
        if validated[field] is None:
            return None
    return validated
Пример #6
0
    def test_unique_ocid_cell_histogram(self):
        session = self.db_master_session
        today = util.utcnow().date()
        one_day = (today - timedelta(1))
        two_days = (today - timedelta(2))
        long_ago = (today - timedelta(3))
        cells = [
            OCIDCell(created=long_ago, radio=0, mcc=1, mnc=2, lac=3, cid=4),
            OCIDCell(created=two_days, radio=2, mcc=1, mnc=2, lac=3, cid=4),
            OCIDCell(created=two_days, radio=2, mcc=1, mnc=2, lac=3, cid=5),
            OCIDCell(created=one_day, radio=0, mcc=2, mnc=2, lac=3, cid=5),
            OCIDCell(created=today, radio=0, mcc=1, mnc=3, lac=3, cid=4),
            OCIDCell(created=today, radio=0, mcc=1, mnc=2, lac=4, cid=4),
        ]
        session.add_all(cells)
        session.commit()

        result = unique_ocid_cell_histogram.delay(ago=3)
        self.assertEqual(result.get(), 1)

        stats = session.query(Stat).order_by(Stat.time).all()
        self.assertEqual(len(stats), 1)
        self.assertEqual(stats[0].key, STAT_TYPE['unique_ocid_cell'])
        self.assertEqual(stats[0].time, long_ago)
        self.assertEqual(stats[0].value, 1)

        # fill up newer dates
        unique_ocid_cell_histogram.delay(ago=2).get()
        unique_ocid_cell_histogram.delay(ago=1).get()
        unique_ocid_cell_histogram.delay(ago=0).get()

        # test duplicate execution
        unique_ocid_cell_histogram.delay(ago=1).get()

        stats = session.query(Stat).order_by(Stat.time).all()
        self.assertEqual(len(stats), 4)
        self.assertEqual(stats[0].time, long_ago)
        self.assertEqual(stats[0].value, 1)
        self.assertEqual(stats[1].time, two_days)
        self.assertEqual(stats[1].value, 3)
        self.assertEqual(stats[2].time, one_day)
        self.assertEqual(stats[2].value, 4)
        self.assertEqual(stats[3].time, today)
        self.assertEqual(stats[3].value, 6)
Пример #7
0
 def _make_one(self, **kw):
     from ichnaea.models import OCIDCell
     return OCIDCell(**kw)