Esempio n. 1
0
class UbxCfgEsfla(UbxCfgEsfla_):
    """
    Reponse frame to poll request

    Contains all lever arm configurations
    """
    def __init__(self):
        super().__init__()

        # fields defined in unpack()

    def unpack(self):
        # Dynamically build fields based on message length
        self.f = Fields()
        self.f.add(U1('version'))
        self.f.add(U1('numConfigs'))
        self.f.add(Padding(2, 'res1'))

        # Extract upto this place to read number of level arm configurations
        super().unpack()

        assert self.f.numConfigs <= 5

        # Build final list
        for lever in range(self.f.numConfigs):
            self.f.add(U1_LeverArmType(f'leverArmType_{lever}'))
            self.f.add(Padding(1, f'res2_{lever}'))
            self.f.add(I2(f'leverArmX_{lever}'))
            self.f.add(I2(f'leverArmY_{lever}'))
            self.f.add(I2(f'leverArmZ_{lever}'))

        super().unpack()

    def lever_arm(self, armType):
        data = None
        for lever in range(self.f.numConfigs):
            x = self.f.get(f'leverArmType_{lever}')
            if x.value == armType:
                data = {
                    'x': self.f.get(f'leverArmX_{lever}').value,
                    'y': self.f.get(f'leverArmY_{lever}').value,
                    'z': self.f.get(f'leverArmZ_{lever}').value
                }
                break

        return data
Esempio n. 2
0
class UbxFrame(object):
    CID = UbxCID(0, 0)
    NAME = 'UBX'

    SYNC_1 = 0xb5
    SYNC_2 = 0x62

    @classmethod
    def construct(cls, data):
        obj = cls()
        obj.data = data
        obj.unpack()
        return obj

    @classmethod
    def MATCHES(cls, cid):
        return cls.CID == cid

    def __init__(self):
        super().__init__()
        self.data = bytearray()
        # TODO: Do we need checksum as member?
        self.checksum = Checksum()
        self.f = Fields()

    def to_bytes(self):
        self._calc_checksum()

        msg = bytearray([UbxFrame.SYNC_1, UbxFrame.SYNC_2])
        msg.append(self.CID.cls)
        msg.append(self.CID.id)

        length = len(self.data)
        msg.append((length >> 0) % 0xFF)
        msg.append((length >> 8) % 0xFF)

        msg += self.data
        msg.append(self.cka)
        msg.append(self.ckb)

        return msg

    def get(self, name):
        return self.f.get(name)

    def pack(self):
        self.data = self.f.pack()

    def unpack(self):
        self.f.unpack(self.data)

    def _calc_checksum(self):
        self.checksum.reset()

        self.checksum.add(self.CID.cls)
        self.checksum.add(self.CID.id)

        length = len(self.data)
        self.checksum.add((length >> 0) & 0xFF)
        self.checksum.add((length >> 8) & 0xFF)

        for d in self.data:
            self.checksum.add(d)

        self.cka, self.ckb = self.checksum.value()

    def __str__(self):
        res = f'{self.NAME} {self.CID}'
        res += str(self.f)
        return res
Esempio n. 3
0
class UbxCfgGnss(UbxCfgGnss_):
    GNSS_GPS = 0        # US GPS, worldwide
    GNSS_SBAS = 1       # Satellite Based Augmentation System
    GNSS_Galileo = 2    # European
    GNSS_BeiDou = 3     # Chinese
    GNSS_IMES = 4       # Japanese Indoor System
    GNSS_QZSS = 5       # Japanse, Focus Japan, also Australia
    GNSS_GLONASS = 6    # Russian
    GNSS_IRNSS = 7      # Indian, not (yet) supported on NEO-M8

    def __init__(self):
        super().__init__()

        # fields defined in unpack as they are dynamic

    def unpack(self):
        # Dynamically build fields based on message length
        self.f = Fields()
        self.f.add(U1('msgVer'))
        self.f.add(U1('numTrkChHw'))
        self.f.add(U1('numTrkChUse'))
        self.f.add(U1('numConfigBlocks'))

        # Extract upto this place to read number of config blocks
        super().unpack()

        # TODO: Check extra length against numConfigBlocks
        # TODO: raise on mismatch
        """
        extra_length = len(self.data) - 40
        extra_info = int(extra_length / 30)
        """

        # TODO: check nested fields -> unit test
        for i in range(self.f.numConfigBlocks):
            self.f.add(U1_GnssId(f'gnssId_{i}'))
            self.f.add(U1(f'resTrkCh_{i}'))
            self.f.add(U1(f'maxTrkCh_{i}'))
            self.f.add(Padding(1, f'res1_{i}'))
            self.f.add(X4_Flags(f'flags_{i}'))

        super().unpack()

    def gps_glonass(self):
        self.enable_gnss(UbxCfgGnss.GNSS_GPS)
        self.enable_gnss(UbxCfgGnss.GNSS_SBAS)
        self.enable_gnss(UbxCfgGnss.GNSS_GLONASS)

        self.disable_gnss(UbxCfgGnss.GNSS_Galileo)
        self.disable_gnss(UbxCfgGnss.GNSS_BeiDou)
        self.disable_gnss(UbxCfgGnss.GNSS_IMES)
        self.disable_gnss(UbxCfgGnss.GNSS_QZSS)
        # self.disable_gnss(UbxCfgGnss.GNSS_IRNSS)

    def gps_galileo_beidou(self):
        self.enable_gnss(UbxCfgGnss.GNSS_GPS)
        self.enable_gnss(UbxCfgGnss.GNSS_SBAS)
        self.enable_gnss(UbxCfgGnss.GNSS_Galileo)
        self.enable_gnss(UbxCfgGnss.GNSS_BeiDou)

        self.disable_gnss(UbxCfgGnss.GNSS_IMES)
        self.disable_gnss(UbxCfgGnss.GNSS_QZSS)
        self.disable_gnss(UbxCfgGnss.GNSS_GLONASS)
        # self.disable_gnss(UbxCfgGnss.GNSS_IRNSS)

    def enable_gnss(self, system):
        assert 0 <= system <= UbxCfgGnss.GNSS_IRNSS
        pos = self._find_entry(system)
        if pos:
            field = f'flags_{system}'
            self.f._fields[field].enable()

    def disable_gnss(self, system):
        assert 0 <= system <= UbxCfgGnss.GNSS_IRNSS
        pos = self._find_entry(system)
        if pos:
            field = f'flags_{system}'
            self.f._fields[field].disable()

    def _find_entry(self, system):
        assert 0 <= system <= UbxCfgGnss.GNSS_IRNSS

        for i in range(self.f.numConfigBlocks):
            field_name = f'gnssId_{i}'
            field = self.f.get(field_name)
            if field.value == system:
                return i