def __init__(self, espdrone=None):
        """
        Initialize the Extpos object.
        """
        self._ed = espdrone

        self.receivedLocationPacket = Caller()
        self._ed.add_port_callback(CRTPPort.LOCALIZATION, self._incoming)
Beispiel #2
0
    def __init__(self, espdrone):
        """
        Initialize the console and register it to receive data from the copter.
        """

        self.receivedChar = Caller()

        self.ed = espdrone
        self.ed.add_port_callback(CRTPPort.CONSOLE, self.incoming)
Beispiel #3
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 def __init__(self, espdrone = None):
     """
     Initialize the camera object.
     """
     self._ed = espdrone
     self.image_received_cb = Caller()
     self._stream = False
     self._image = None
     self._fps = None
Beispiel #4
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class Camera():
    """
    Handle camera-related data communication with the Espdrone
    """
    CAMERA_BUFFER_SIZE = 4096
    def __init__(self, espdrone = None):
        """
        Initialize the camera object.
        """
        self._ed = espdrone
        self.image_received_cb = Caller()
        self._stream = False
        self._image = None
        self._fps = None

    def _capture_frames(self):
        self._cap = cv2.VideoCapture(self._url)
        while self._stream and self._ed.link:
            start_time = time.time()
            ret, self._image = self._cap.read()
            self._fps = 1 / (time.time() - start_time)
            if self._stream and ret:
                self.image_received_cb.call(self._image, self._fps)
        self._cap.release()
        self._stream = False

    def _is_streaming(self):
        return (hasattr(self, '_thread') and self._thread.isAlive())

    def start(self):
        try:
            self._url = 'http://' + self._ed.link_uri + "/stream.jpg"
            if not self._is_streaming():
                self._stream = True
                self._thread = threading.Thread(target=self._capture_frames, daemon=True)
                self._thread.start()
        except Exception as e:
            print(e)      

    def stop(self):
        if hasattr(self, '_thread'):
            self._stream = False
            self._thread.join()
            
    @property
    def image(self):
        if self._is_streaming():
            return self._image
        return None

    @property
    def fps(self):
        if self._is_streaming():
            return self._fps
        return -1
Beispiel #5
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    def setUp(self):
        self.ed_mock = MagicMock(spec=Espdrone)
        self.ed_mock.disconnected = Caller()

        self.log_mock = MagicMock(spec=Log)
        self.ed_mock.log = self.log_mock

        self.log_config_mock = MagicMock(spec=LogConfig)
        self.log_config_mock.data_received_cb = Caller()

        self.sut = SyncLogger(self.ed_mock, self.log_config_mock)
Beispiel #6
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    def setUp(self):
        self.uri = 'radio://0/60/2M'

        self.ed_mock = MagicMock(spec=Espdrone)
        self.ed_mock.connected = Caller()
        self.ed_mock.connection_failed = Caller()
        self.ed_mock.disconnected = Caller()

        self.ed_mock.open_link = AsyncCallbackCaller(cb=self.ed_mock.connected,
                                                     args=[self.uri]).trigger

        self.sut = SyncEspdrone(self.uri, self.ed_mock)
Beispiel #7
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 def add_update_callback(self, group=None, name=None, cb=None):
     """
     Add a callback for a specific parameter name. This callback will be
     executed when a new value is read from the Espdrone.
     """
     if not group and not name:
         self.all_update_callback.add_callback(cb)
     elif not name:
         if group not in self.group_update_callbacks:
             self.group_update_callbacks[group] = Caller()
         self.group_update_callbacks[group].add_callback(cb)
     else:
         paramname = '{}.{}'.format(group, name)
         if paramname not in self.param_update_callbacks:
             self.param_update_callbacks[paramname] = Caller()
         self.param_update_callbacks[paramname].add_callback(cb)
Beispiel #8
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    def __init__(self, espdrone=None):
        self.log_blocks = []
        # Called with newly created blocks
        self.block_added_cb = Caller()

        self.ed = espdrone
        self.toc = None
        self.ed.add_port_callback(CRTPPort.LOGGING, self._new_packet_cb)

        self.toc_updated = Caller()
        self.state = IDLE
        self.fake_toc_crc = 0xDEADBEEF

        self._refresh_callback = None
        self._toc_cache = None

        self._config_id_counter = 1

        self._useV2 = False
Beispiel #9
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    def __init__(self, espdrone):
        self.toc = Toc()

        self.ed = espdrone
        self._useV2 = False
        self.param_update_callbacks = {}
        self.group_update_callbacks = {}
        self.all_update_callback = Caller()
        self.param_updater = None

        self.param_updater = _ParamUpdater(self.ed, self._useV2,
                                           self._param_updated)
        self.param_updater.start()

        self.ed.disconnected.add_callback(self._disconnected)

        self.all_updated = Caller()
        self.is_updated = False

        self.values = {}
Beispiel #10
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class Console:
    """
    Espdrone console is used to receive characters printed using printf
    from the firmware.
    """
    def __init__(self, espdrone):
        """
        Initialize the console and register it to receive data from the copter.
        """

        self.receivedChar = Caller()

        self.ed = espdrone
        self.ed.add_port_callback(CRTPPort.CONSOLE, self.incoming)

    def incoming(self, packet):
        """
        Callback for data received from the copter.
        """
        # This might be done prettier ;-)
        console_text = packet.data.decode('UTF-8')

        self.receivedChar.call(console_text)
class PeriodicTimer:
    """Create a periodic timer that will periodically call a callback"""

    def __init__(self, period, callback):
        self._callbacks = Caller()
        self._callbacks.add_callback(callback)
        self._started = False
        self._period = period
        self._thread = None

    def start(self):
        """Start the timer"""
        if self._thread:
            logger.warning("Timer already started, not restarting")
            return
        self._thread = _PeriodicTimerThread(self._period, self._callbacks)
        self._thread.setDaemon(True)
        self._thread.start()

    def stop(self):
        """Stop the timer"""
        if self._thread:
            self._thread.stop()
            self._thread = None
Beispiel #12
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    def __init__(self, espdrone=None):
        """Instantiate class and connect callbacks"""
        # Called when new memories have been added
        self.mem_added_cb = Caller()
        # Called when new data has been read
        self.mem_read_cb = Caller()

        self.mem_write_cb = Caller()

        self.ed = espdrone
        self.ed.add_port_callback(CRTPPort.MEM, self._new_packet_cb)
        self.ed.disconnected.add_callback(self._disconnected)
        self._write_requests_lock = Lock()

        self._clear_state()
Beispiel #13
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    def __init__(self, name, period_in_ms):
        """Initialize the entry"""
        self.data_received_cb = Caller()
        self.error_cb = Caller()
        self.started_cb = Caller()
        self.added_cb = Caller()
        self.err_no = 0

        # These 3 variables are set by the log subsystem when the bock is added
        self.id = 0
        self.ed = None
        self.useV2 = False

        self.period = int(period_in_ms / 10)
        self.period_in_ms = period_in_ms
        self._added = False
        self._started = False
        self.valid = False
        self.variables = []
        self.default_fetch_as = []
        self.name = name
    def setUp(self):
        self.ed_mock = MagicMock(spec=Espdrone)

        self.log_config_mock = MagicMock(spec=LogConfig)
        self.log_config_mock.data_received_cb = Caller()

        self.log_mock = MagicMock(spec=Log)
        self.ed_mock.log = self.log_mock

        self.front_data = 2345
        self.back_data = 2345
        self.left_data = 123
        self.right_data = 5432
        self.up_data = 3456
        self.down_data = 1212
        self.log_data = {
            self.FRONT: self.front_data,
            self.BACK: self.back_data,
            self.LEFT: self.left_data,
            self.RIGHT: self.right_data,
            self.UP: self.up_data,
            self.DOWN: self.down_data,
        }
Beispiel #15
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class LogConfig(object):
    """Representation of one log configuration that enables logging
    from the Espdrone"""
    def __init__(self, name, period_in_ms):
        """Initialize the entry"""
        self.data_received_cb = Caller()
        self.error_cb = Caller()
        self.started_cb = Caller()
        self.added_cb = Caller()
        self.err_no = 0

        # These 3 variables are set by the log subsystem when the bock is added
        self.id = 0
        self.ed = None
        self.useV2 = False

        self.period = int(period_in_ms / 10)
        self.period_in_ms = period_in_ms
        self._added = False
        self._started = False
        self.valid = False
        self.variables = []
        self.default_fetch_as = []
        self.name = name

    def add_variable(self, name, fetch_as=None):
        """Add a new variable to the configuration.

        name - Complete name of the variable in the form group.name
        fetch_as - String representation of the type the variable should be
                   fetched as (i.e uint8_t, float, FP16, etc)

        If no fetch_as type is supplied, then the stored as type will be used
        (i.e the type of the fetched variable is the same as it's stored in the
        Espdrone)."""
        if fetch_as:
            self.variables.append(LogVariable(name, fetch_as))
        else:
            # We cannot determine the default type until we have connected. So
            # save the name and we will add these once we are connected.
            self.default_fetch_as.append(name)

    def add_memory(self, name, fetch_as, stored_as, address):
        """Add a raw memory position to log.

        name - Arbitrary name of the variable
        fetch_as - String representation of the type of the data the memory
                   should be fetch as (i.e uint8_t, float, FP16)
        stored_as - String representation of the type the data is stored as
                    in the Espdrone
        address - The address of the data
        """
        self.variables.append(
            LogVariable(name, fetch_as, LogVariable.MEM_TYPE, stored_as,
                        address))

    def _set_added(self, added):
        if added != self._added:
            self.added_cb.call(self, added)
        self._added = added

    def _get_added(self):
        return self._added

    def _set_started(self, started):
        if started != self._started:
            self.started_cb.call(self, started)
        self._started = started

    def _get_started(self):
        return self._started

    added = property(_get_added, _set_added)
    started = property(_get_started, _set_started)

    def create(self):
        """Save the log configuration in the Espdrone"""
        pk = CRTPPacket()
        pk.set_header(5, CHAN_SETTINGS)
        if self.useV2:
            pk.data = (CMD_CREATE_BLOCK_V2, self.id)
        else:
            pk.data = (CMD_CREATE_BLOCK, self.id)
        for var in self.variables:
            if (var.is_toc_variable() is False):  # Memory location
                logger.debug('Logging to raw memory %d, 0x%04X',
                             var.get_storage_and_fetch_byte(), var.address)
                pk.data.append(
                    struct.pack('<B', var.get_storage_and_fetch_byte()))
                pk.data.append(struct.pack('<I', var.address))
            else:  # Item in TOC
                logger.debug('Adding %s with id=%d and type=0x%02X', var.name,
                             self.ed.log.toc.get_element_id(var.name),
                             var.get_storage_and_fetch_byte())
                pk.data.append(var.get_storage_and_fetch_byte())
                if self.useV2:
                    ident = self.ed.log.toc.get_element_id(var.name)
                    pk.data.append(ident & 0x0ff)
                    pk.data.append((ident >> 8) & 0x0ff)
                else:
                    pk.data.append(self.ed.log.toc.get_element_id(var.name))
        logger.debug('Adding log block id {}'.format(self.id))
        if self.useV2:
            self.ed.send_packet(pk,
                                expected_reply=(CMD_CREATE_BLOCK_V2, self.id))
        else:
            self.ed.send_packet(pk, expected_reply=(CMD_CREATE_BLOCK, self.id))

    def start(self):
        """Start the logging for this entry"""
        if (self.ed.link is not None):
            if (self._added is False):
                self.create()
                logger.debug('First time block is started, add block')
            else:
                logger.debug(
                    'Block already registered, starting logging'
                    ' for id=%d', self.id)
                pk = CRTPPacket()
                pk.set_header(5, CHAN_SETTINGS)
                pk.data = (CMD_START_LOGGING, self.id, self.period)
                self.ed.send_packet(pk,
                                    expected_reply=(CMD_START_LOGGING,
                                                    self.id))

    def stop(self):
        """Stop the logging for this entry"""
        if (self.ed.link is not None):
            if (self.id is None):
                logger.warning('Stopping block, but no block registered')
            else:
                logger.debug('Sending stop logging for block id=%d', self.id)
                pk = CRTPPacket()
                pk.set_header(5, CHAN_SETTINGS)
                pk.data = (CMD_STOP_LOGGING, self.id)
                self.ed.send_packet(pk,
                                    expected_reply=(CMD_STOP_LOGGING, self.id))

    def delete(self):
        """Delete this entry in the Espdrone"""
        if (self.ed.link is not None):
            if (self.id is None):
                logger.warning('Delete block, but no block registered')
            else:
                logger.debug(
                    'LogEntry: Sending delete logging for block id=%d' %
                    self.id)
                pk = CRTPPacket()
                pk.set_header(5, CHAN_SETTINGS)
                pk.data = (CMD_DELETE_BLOCK, self.id)
                self.ed.send_packet(pk,
                                    expected_reply=(CMD_DELETE_BLOCK, self.id))

    def unpack_log_data(self, log_data, timestamp):
        """Unpack received logging data so it repreloggingsent real values according
        to the configuration in the entry"""
        ret_data = {}
        data_index = 0
        for var in self.variables:
            size = LogTocElement.get_size_from_id(var.fetch_as)
            name = var.name
            unpackstring = LogTocElement.get_unpack_string_from_id(
                var.fetch_as)
            value = struct.unpack(unpackstring,
                                  log_data[data_index:data_index + size])[0]
            data_index += size
            ret_data[name] = value
        self.data_received_cb.call(timestamp, ret_data, self)
Beispiel #16
0
    def __init__(self, do_device_discovery=True):
        self._input_device = None

        self._mux = [
            NoMux(self),
            TakeOverSelectiveMux(self),
            TakeOverMux(self)
        ]
        # Set NoMux as default
        self._selected_mux = self._mux[0]

        self.min_thrust = 0
        self.max_thrust = 0
        self._thrust_slew_rate = 0
        self.thrust_slew_enabled = False
        self.thrust_slew_limit = 0
        self.has_pressure_sensor = False
        self._hover_max_height = MAX_TARGET_HEIGHT

        self.max_rp_angle = 0
        self.max_yaw_rate = 0
        try:
            self.set_assisted_control(Config().get("assistedControl"))
        except KeyError:
            self.set_assisted_control(JoystickReader.ASSISTED_CONTROL_ALTHOLD)

        self._old_thrust = 0
        self._old_raw_thrust = 0
        self.springy_throttle = True
        self._target_height = INITAL_TAGET_HEIGHT

        self.trim_roll = Config().get("trim_roll")
        self.trim_pitch = Config().get("trim_pitch")
        self._rp_dead_band = 0.1

        self._input_map = None

        if Config().get("flightmode") is "Normal":
            self.max_yaw_rate = Config().get("normal_max_yaw")
            self.max_rp_angle = Config().get("normal_max_rp")
            # Values are stored at %, so use the functions to set the values
            self.min_thrust = Config().get("normal_min_thrust")
            self.max_thrust = Config().get("normal_max_thrust")
            self.thrust_slew_limit = Config().get("normal_slew_limit")
            self.thrust_slew_rate = Config().get("normal_slew_rate")
        else:
            self.max_yaw_rate = Config().get("max_yaw")
            self.max_rp_angle = Config().get("max_rp")
            # Values are stored at %, so use the functions to set the values
            self.min_thrust = Config().get("min_thrust")
            self.max_thrust = Config().get("max_thrust")
            self.thrust_slew_limit = Config().get("slew_limit")
            self.thrust_slew_rate = Config().get("slew_rate")

        self._dev_blacklist = None
        if len(Config().get("input_device_blacklist")) > 0:
            self._dev_blacklist = re.compile(
                Config().get("input_device_blacklist"))
        logger.info("Using device blacklist [{}]".format(
            Config().get("input_device_blacklist")))

        self._available_devices = {}

        # TODO: The polling interval should be set from config file
        self._read_timer = PeriodicTimer(INPUT_READ_PERIOD, self.read_input)

        if do_device_discovery:
            self._discovery_timer = PeriodicTimer(1.0,
                                                  self._do_device_discovery)
            self._discovery_timer.start()

        # Check if user config exists, otherwise copy files
        if not os.path.exists(ConfigManager().configs_dir):
            logger.info("No user config found, copying dist files")
            os.makedirs(ConfigManager().configs_dir)

        for f in glob.glob(edclient.module_path +
                           "/configs/input/[A-Za-z]*.json"):
            dest = os.path.join(ConfigManager().configs_dir,
                                os.path.basename(f))
            if not os.path.isfile(dest):
                logger.debug("Copying %s", f)
                shutil.copy2(f, ConfigManager().configs_dir)

        ConfigManager().get_list_of_configs()

        self.input_updated = Caller()
        self.assisted_input_updated = Caller()
        self.heighthold_input_updated = Caller()
        self.hover_input_updated = Caller()
        self.rp_trim_updated = Caller()
        self.emergency_stop_updated = Caller()
        self.device_discovery = Caller()
        self.device_error = Caller()
        self.assisted_control_updated = Caller()
        self.alt1_updated = Caller()
        self.alt2_updated = Caller()

        # Call with 3 bools (rp_limiting, yaw_limiting, thrust_limiting)
        self.limiting_updated = Caller()
Beispiel #17
0
class JoystickReader(object):
    """
    Thread that will read input from devices/joysticks and send control-set
    points to the Espdrone
    """
    inputConfig = []

    ASSISTED_CONTROL_ALTHOLD = 0
    ASSISTED_CONTROL_POSHOLD = 1
    ASSISTED_CONTROL_HEIGHTHOLD = 2
    ASSISTED_CONTROL_HOVER = 3

    def __init__(self, do_device_discovery=True):
        self._input_device = None

        self._mux = [
            NoMux(self),
            TakeOverSelectiveMux(self),
            TakeOverMux(self)
        ]
        # Set NoMux as default
        self._selected_mux = self._mux[0]

        self.min_thrust = 0
        self.max_thrust = 0
        self._thrust_slew_rate = 0
        self.thrust_slew_enabled = False
        self.thrust_slew_limit = 0
        self.has_pressure_sensor = False
        self._hover_max_height = MAX_TARGET_HEIGHT

        self.max_rp_angle = 0
        self.max_yaw_rate = 0
        try:
            self.set_assisted_control(Config().get("assistedControl"))
        except KeyError:
            self.set_assisted_control(JoystickReader.ASSISTED_CONTROL_ALTHOLD)

        self._old_thrust = 0
        self._old_raw_thrust = 0
        self.springy_throttle = True
        self._target_height = INITAL_TAGET_HEIGHT

        self.trim_roll = Config().get("trim_roll")
        self.trim_pitch = Config().get("trim_pitch")
        self._rp_dead_band = 0.1

        self._input_map = None

        if Config().get("flightmode") is "Normal":
            self.max_yaw_rate = Config().get("normal_max_yaw")
            self.max_rp_angle = Config().get("normal_max_rp")
            # Values are stored at %, so use the functions to set the values
            self.min_thrust = Config().get("normal_min_thrust")
            self.max_thrust = Config().get("normal_max_thrust")
            self.thrust_slew_limit = Config().get("normal_slew_limit")
            self.thrust_slew_rate = Config().get("normal_slew_rate")
        else:
            self.max_yaw_rate = Config().get("max_yaw")
            self.max_rp_angle = Config().get("max_rp")
            # Values are stored at %, so use the functions to set the values
            self.min_thrust = Config().get("min_thrust")
            self.max_thrust = Config().get("max_thrust")
            self.thrust_slew_limit = Config().get("slew_limit")
            self.thrust_slew_rate = Config().get("slew_rate")

        self._dev_blacklist = None
        if len(Config().get("input_device_blacklist")) > 0:
            self._dev_blacklist = re.compile(
                Config().get("input_device_blacklist"))
        logger.info("Using device blacklist [{}]".format(
            Config().get("input_device_blacklist")))

        self._available_devices = {}

        # TODO: The polling interval should be set from config file
        self._read_timer = PeriodicTimer(INPUT_READ_PERIOD, self.read_input)

        if do_device_discovery:
            self._discovery_timer = PeriodicTimer(1.0,
                                                  self._do_device_discovery)
            self._discovery_timer.start()

        # Check if user config exists, otherwise copy files
        if not os.path.exists(ConfigManager().configs_dir):
            logger.info("No user config found, copying dist files")
            os.makedirs(ConfigManager().configs_dir)

        for f in glob.glob(edclient.module_path +
                           "/configs/input/[A-Za-z]*.json"):
            dest = os.path.join(ConfigManager().configs_dir,
                                os.path.basename(f))
            if not os.path.isfile(dest):
                logger.debug("Copying %s", f)
                shutil.copy2(f, ConfigManager().configs_dir)

        ConfigManager().get_list_of_configs()

        self.input_updated = Caller()
        self.assisted_input_updated = Caller()
        self.heighthold_input_updated = Caller()
        self.hover_input_updated = Caller()
        self.rp_trim_updated = Caller()
        self.emergency_stop_updated = Caller()
        self.device_discovery = Caller()
        self.device_error = Caller()
        self.assisted_control_updated = Caller()
        self.alt1_updated = Caller()
        self.alt2_updated = Caller()

        # Call with 3 bools (rp_limiting, yaw_limiting, thrust_limiting)
        self.limiting_updated = Caller()

    def _get_device_from_name(self, device_name):
        """Get the raw device from a name"""
        for d in readers.devices():
            if d.name == device_name:
                return d
        return None

    def set_hover_max_height(self, height):
        self._hover_max_height = height

    def set_alt_hold_available(self, available):
        """Set if altitude hold is available or not (depending on HW)"""
        self.has_pressure_sensor = available

    def _do_device_discovery(self):
        devs = self.available_devices()

        # This is done so that devs can easily get access
        # to limits without creating lots of extra code
        for d in devs:
            d.input = self

        if len(devs):
            self.device_discovery.call(devs)
            self._discovery_timer.stop()

    def available_mux(self):
        return self._mux

    def set_mux(self, name=None, mux=None):
        old_mux = self._selected_mux
        if name:
            for m in self._mux:
                if m.name == name:
                    self._selected_mux = m
        elif mux:
            self._selected_mux = mux

        old_mux.close()

        logger.info("Selected MUX: {}".format(self._selected_mux.name))

    def set_assisted_control(self, mode):
        self._assisted_control = mode

    def get_assisted_control(self):
        return self._assisted_control

    def available_devices(self):
        """List all available and approved input devices.
        This function will filter available devices by using the
        blacklist configuration and only return approved devices."""
        devs = readers.devices()
        devs += interfaces.devices()
        approved_devs = []

        for dev in devs:
            if ((not self._dev_blacklist)
                    or (self._dev_blacklist
                        and not self._dev_blacklist.match(dev.name))):
                dev.input = self
                approved_devs.append(dev)

        return approved_devs

    def enableRawReading(self, device_name):
        """
        Enable raw reading of the input device with id deviceId. This is used
        to get raw values for setting up of input devices. Values are read
        without using a mapping.
        """
        if self._input_device:
            self._input_device.close()
            self._input_device = None

        for d in readers.devices():
            if d.name == device_name:
                self._input_device = d

        # Set the mapping to None to get raw values
        self._input_device.input_map = None
        self._input_device.open()

    def get_saved_device_mapping(self, device_name):
        """Return the saved mapping for a given device"""
        config = None
        device_config_mapping = Config().get("device_config_mapping")
        if device_name in list(device_config_mapping.keys()):
            config = device_config_mapping[device_name]

        logging.debug("For [{}] we recommend [{}]".format(device_name, config))
        return config

    def stop_raw_reading(self):
        """Disable raw reading of input device."""
        if self._input_device:
            self._input_device.close()
            self._input_device = None

    def read_raw_values(self):
        """ Read raw values from the input device."""
        [axes, buttons,
         mapped_values] = self._input_device.read(include_raw=True)
        dict_axes = {}
        dict_buttons = {}

        for i, a in enumerate(axes):
            dict_axes[i] = a

        for i, b in enumerate(buttons):
            dict_buttons[i] = b

        return [dict_axes, dict_buttons, mapped_values]

    def set_raw_input_map(self, input_map):
        """Set an input device map"""
        # TODO: Will not work!
        if self._input_device:
            self._input_device.input_map = input_map

    def set_input_map(self, device_name, input_map_name):
        """Load and set an input device map with the given name"""
        dev = self._get_device_from_name(device_name)
        settings = ConfigManager().get_settings(input_map_name)

        if settings:
            self.springy_throttle = settings["springythrottle"]
            self._rp_dead_band = settings["rp_dead_band"]
            self._input_map = ConfigManager().get_config(input_map_name)
        dev.input_map = self._input_map
        dev.input_map_name = input_map_name
        Config().get("device_config_mapping")[device_name] = input_map_name
        dev.set_dead_band(self._rp_dead_band)

    def start_input(self, device_name, role="Device", config_name=None):
        """
        Start reading input from the device with name device_name using config
        config_name. Returns True if device supports mapping, otherwise False
        """
        try:
            # device_id = self._available_devices[device_name]
            # Check if we supplied a new map, if not use the preferred one
            device = self._get_device_from_name(device_name)
            self._selected_mux.add_device(device, role)
            # Update the UI with the limiting for this device
            self.limiting_updated.call(device.limit_rp, device.limit_yaw,
                                       device.limit_thrust)
            self._read_timer.start()
            return device.supports_mapping
        except Exception:
            self.device_error.call(
                "Error while opening/initializing  input device\n\n%s" %
                (traceback.format_exc()))

        if not self._input_device:
            self.device_error.call(
                "Could not find device {}".format(device_name))
        return False

    def resume_input(self):
        self._selected_mux.resume()
        self._read_timer.start()

    def pause_input(self, device_name=None):
        """Stop reading from the input device."""
        self._read_timer.stop()
        self._selected_mux.pause()

    def _set_thrust_slew_rate(self, rate):
        self._thrust_slew_rate = rate
        if rate > 0:
            self.thrust_slew_enabled = True
        else:
            self.thrust_slew_enabled = False

    def _get_thrust_slew_rate(self):
        return self._thrust_slew_rate

    def read_input(self):
        """Read input data from the selected device"""
        try:
            data = self._selected_mux.read()

            if data:
                if data.toggled.assistedControl:
                    if self._assisted_control == \
                            JoystickReader.ASSISTED_CONTROL_POSHOLD or \
                            self._assisted_control == \
                            JoystickReader.ASSISTED_CONTROL_HOVER:
                        if data.assistedControl and self._assisted_control != \
                                JoystickReader.ASSISTED_CONTROL_HOVER:
                            for d in self._selected_mux.devices():
                                d.limit_thrust = False
                                d.limit_rp = False
                        elif data.assistedControl:
                            for d in self._selected_mux.devices():
                                d.limit_thrust = True
                                d.limit_rp = False
                        else:
                            for d in self._selected_mux.devices():
                                d.limit_thrust = True
                                d.limit_rp = True
                    if self._assisted_control == \
                            JoystickReader.ASSISTED_CONTROL_ALTHOLD:
                        self.assisted_control_updated.call(
                            data.assistedControl)
                    if ((self._assisted_control
                         == JoystickReader.ASSISTED_CONTROL_HEIGHTHOLD)
                            or (self._assisted_control
                                == JoystickReader.ASSISTED_CONTROL_HOVER)):
                        try:
                            self.assisted_control_updated.call(
                                data.assistedControl)
                            if not data.assistedControl:
                                # Reset height controller state to initial
                                # target height both in the UI and in the
                                # Espdrone.
                                # TODO: Implement a proper state update of the
                                #       input layer
                                self.heighthold_input_updated.\
                                    call(0, 0,
                                         0, INITAL_TAGET_HEIGHT)
                                self.hover_input_updated.\
                                    call(0, 0,
                                         0, INITAL_TAGET_HEIGHT)
                        except Exception as e:
                            logger.warning(
                                "Exception while doing callback from "
                                "input-device for assited "
                                "control: {}".format(e))

                if data.toggled.estop:
                    try:
                        self.emergency_stop_updated.call(data.estop)
                    except Exception as e:
                        logger.warning("Exception while doing callback from"
                                       "input-device for estop: {}".format(e))

                if data.toggled.alt1:
                    try:
                        self.alt1_updated.call(data.alt1)
                    except Exception as e:
                        logger.warning("Exception while doing callback from"
                                       "input-device for alt1: {}".format(e))
                if data.toggled.alt2:
                    try:
                        self.alt2_updated.call(data.alt2)
                    except Exception as e:
                        logger.warning("Exception while doing callback from"
                                       "input-device for alt2: {}".format(e))

                # Reset height target when height-hold is not selected
                if not data.assistedControl or \
                        (self._assisted_control !=
                         JoystickReader.ASSISTED_CONTROL_HEIGHTHOLD and
                         self._assisted_control !=
                         JoystickReader.ASSISTED_CONTROL_HOVER):
                    self._target_height = INITAL_TAGET_HEIGHT

                if self._assisted_control == \
                        JoystickReader.ASSISTED_CONTROL_POSHOLD \
                        and data.assistedControl:
                    vx = data.roll
                    vy = data.pitch
                    vz = data.thrust
                    yawrate = data.yaw
                    # The odd use of vx and vy is to map forward on the
                    # physical joystick to positiv X-axis
                    self.assisted_input_updated.call(vy, -vx, vz, yawrate)
                elif self._assisted_control == \
                        JoystickReader.ASSISTED_CONTROL_HOVER \
                        and data.assistedControl:
                    vx = data.roll
                    vy = data.pitch

                    # Scale thrust to a value between -1.0 to 1.0
                    vz = (data.thrust - 32767) / 32767.0
                    # Integrate velosity setpoint
                    self._target_height += vz * INPUT_READ_PERIOD
                    # Cap target height
                    if self._target_height > self._hover_max_height:
                        self._target_height = self._hover_max_height
                    if self._target_height < MIN_HOVER_HEIGHT:
                        self._target_height = MIN_HOVER_HEIGHT

                    yawrate = data.yaw
                    # The odd use of vx and vy is to map forward on the
                    # physical joystick to positiv X-axis
                    self.hover_input_updated.call(vy, -vx, yawrate,
                                                  self._target_height)
                else:
                    # Update the user roll/pitch trim from device
                    if data.toggled.pitchNeg and data.pitchNeg:
                        self.trim_pitch -= .2
                    if data.toggled.pitchPos and data.pitchPos:
                        self.trim_pitch += .2
                    if data.toggled.rollNeg and data.rollNeg:
                        self.trim_roll -= .2
                    if data.toggled.rollPos and data.rollPos:
                        self.trim_roll += .2

                    if data.toggled.pitchNeg or data.toggled.pitchPos or \
                            data.toggled.rollNeg or data.toggled.rollPos:
                        self.rp_trim_updated.call(self.trim_roll,
                                                  self.trim_pitch)

                    if self._assisted_control == \
                            JoystickReader.ASSISTED_CONTROL_HEIGHTHOLD \
                            and data.assistedControl:
                        roll = data.roll + self.trim_roll
                        pitch = data.pitch + self.trim_pitch
                        yawrate = data.yaw
                        # Scale thrust to a value between -1.0 to 1.0
                        vz = (data.thrust - 32767) / 32767.0
                        # Integrate velosity setpoint
                        self._target_height += vz * INPUT_READ_PERIOD
                        # Cap target height
                        if self._target_height > self._hover_max_height:
                            self._target_height = self._hover_max_height
                        if self._target_height < MIN_TARGET_HEIGHT:
                            self._target_height = MIN_TARGET_HEIGHT
                        self.heighthold_input_updated.call(
                            roll, -pitch, yawrate, self._target_height)
                    else:
                        # Using alt hold the data is not in a percentage
                        if not data.assistedControl:
                            data.thrust = JoystickReader.p2t(data.thrust)

                        # Thrust might be <0 here, make sure it's not otherwise
                        # we'll get an error.
                        if data.thrust < 0:
                            data.thrust = 0
                        if data.thrust > 0xFFFF:
                            data.thrust = 0xFFFF

                        self.input_updated.call(data.roll + self.trim_roll,
                                                data.pitch + self.trim_pitch,
                                                data.yaw, data.thrust)
            else:
                self.input_updated.call(0, 0, 0, 0)
        except Exception:
            logger.warning("Exception while reading inputdevice: %s",
                           traceback.format_exc())
            self.device_error.call("Error reading from input device\n\n%s" %
                                   traceback.format_exc())
            self.input_updated.call(0, 0, 0, 0)
            self._read_timer.stop()

    @staticmethod
    def p2t(percentage):
        """Convert a percentage to raw thrust"""
        return int(MAX_THRUST * (percentage / 100.0))

    thrust_slew_rate = property(_get_thrust_slew_rate, _set_thrust_slew_rate)
Beispiel #18
0
class Memory():
    """Access memories on the Espdrone"""

    # These codes can be decoded using os.stderror, but
    # some of the text messages will look very strange
    # in the UI, so they are redefined here
    _err_codes = {
        errno.ENOMEM: 'No more memory available',
        errno.ENOEXEC: 'Command not found',
        errno.ENOENT: 'No such block id',
        errno.E2BIG: 'Block too large',
        errno.EEXIST: 'Block already exists'
    }

    def __init__(self, espdrone=None):
        """Instantiate class and connect callbacks"""
        # Called when new memories have been added
        self.mem_added_cb = Caller()
        # Called when new data has been read
        self.mem_read_cb = Caller()

        self.mem_write_cb = Caller()

        self.ed = espdrone
        self.ed.add_port_callback(CRTPPort.MEM, self._new_packet_cb)
        self.ed.disconnected.add_callback(self._disconnected)
        self._write_requests_lock = Lock()

        self._clear_state()

    def _clear_state(self):
        self.mems = []
        self._refresh_callback = None
        self._fetch_id = 0
        self.nbr_of_mems = 0
        self._ow_mem_fetch_index = 0
        self._elem_data = ()
        self._read_requests = {}
        self._write_requests = {}
        self._ow_mems_left_to_update = []
        self._getting_count = False

    def _mem_update_done(self, mem):
        """
        Callback from each individual memory (only 1-wire) when reading of
        header/elements are done
        """
        if mem.id in self._ow_mems_left_to_update:
            self._ow_mems_left_to_update.remove(mem.id)

        logger.debug(mem)

        if len(self._ow_mems_left_to_update) == 0:
            if self._refresh_callback:
                self._refresh_callback()
                self._refresh_callback = None

    def get_mem(self, id):
        """Fetch the memory with the supplied id"""
        for m in self.mems:
            if m.id == id:
                return m

        return None

    def get_mems(self, type):
        """Fetch all the memories of the supplied type"""
        ret = ()
        for m in self.mems:
            if m.type == type:
                ret += (m,)

        return ret

    def ow_search(self, vid=0xBC, pid=None, name=None):
        """Search for specific memory id/name and return it"""
        for m in self.get_mems(MemoryElement.TYPE_1W):
            if pid and m.pid == pid or name and m.name == name:
                return m

        return None

    def write(self, memory, addr, data, flush_queue=False):
        """Write the specified data to the given memory at the given address"""
        wreq = _WriteRequest(memory, addr, data, self.ed)
        if memory.id not in self._write_requests:
            self._write_requests[memory.id] = []

        # Workaround until we secure the uplink and change messages for
        # mems to non-blocking
        self._write_requests_lock.acquire()
        if flush_queue:
            self._write_requests[memory.id] = self._write_requests[
                memory.id][:1]
        self._write_requests[memory.id].insert(len(self._write_requests), wreq)
        if len(self._write_requests[memory.id]) == 1:
            wreq.start()
        self._write_requests_lock.release()

        return True

    def read(self, memory, addr, length):
        """
        Read the specified amount of bytes from the given memory at the given
        address
        """
        if memory.id in self._read_requests:
            logger.warning('There is already a read operation ongoing for '
                           'memory id {}'.format(memory.id))
            return False

        rreq = _ReadRequest(memory, addr, length, self.ed)
        self._read_requests[memory.id] = rreq

        rreq.start()

        return True

    def refresh(self, refresh_done_callback):
        """Start fetching all the detected memories"""
        self._refresh_callback = refresh_done_callback
        self._fetch_id = 0
        for m in self.mems:
            try:
                self.mem_read_cb.remove_callback(m.new_data)
                m.disconnect()
            except Exception as e:
                logger.info(
                    'Error when removing memory after update: {}'.format(e))
        self.mems = []

        self.nbr_of_mems = 0
        self._getting_count = False

        logger.debug('Requesting number of memories')
        pk = CRTPPacket()
        pk.set_header(CRTPPort.MEM, CHAN_INFO)
        pk.data = (CMD_INFO_NBR,)
        self.ed.send_packet(pk, expected_reply=(CMD_INFO_NBR,))

    def _disconnected(self, uri):
        """The link to the Espdrone has been broken. Reset state"""
        self._clear_state()

    def _new_packet_cb(self, packet):
        """Callback for newly arrived packets for the memory port"""
        chan = packet.channel
        cmd = packet.data[0]
        payload = packet.data[1:]

        if chan == CHAN_INFO:
            if cmd == CMD_INFO_NBR:
                self.nbr_of_mems = payload[0]
                logger.info('{} memories found'.format(self.nbr_of_mems))

                # Start requesting information about the memories,
                # if there are any...
                if self.nbr_of_mems > 0:
                    if not self._getting_count:
                        self._getting_count = True
                        logger.debug('Requesting first id')
                        pk = CRTPPacket()
                        pk.set_header(CRTPPort.MEM, CHAN_INFO)
                        pk.data = (CMD_INFO_DETAILS, 0)
                        self.ed.send_packet(pk, expected_reply=(
                            CMD_INFO_DETAILS, 0))
                else:
                    self._refresh_callback()

            if cmd == CMD_INFO_DETAILS:

                # Did we get a good reply, otherwise try again:
                if len(payload) < 5:
                    # Workaround for 1-wire bug when memory is detected
                    # but updating the info crashes the communication with
                    # the 1-wire. Fail by saying we only found 1 memory
                    # (the I2C).
                    logger.error(
                        '-------->Got good count, but no info on mem!')
                    self.nbr_of_mems = 1
                    if self._refresh_callback:
                        self._refresh_callback()
                        self._refresh_callback = None
                    return

                # Create information about a new memory
                # Id - 1 byte
                mem_id = payload[0]
                # Type - 1 byte
                mem_type = payload[1]
                # Size 4 bytes (as addr)
                mem_size = struct.unpack('I', payload[2:6])[0]
                # Addr (only valid for 1-wire?)
                mem_addr_raw = struct.unpack('B' * 8, payload[6:14])
                mem_addr = ''
                for m in mem_addr_raw:
                    mem_addr += '{:02X}'.format(m)

                if (not self.get_mem(mem_id)):
                    if mem_type == MemoryElement.TYPE_1W:
                        mem = OWElement(id=mem_id, type=mem_type,
                                        size=mem_size,
                                        addr=mem_addr, mem_handler=self)
                        self.mem_read_cb.add_callback(mem.new_data)
                        self.mem_write_cb.add_callback(mem.write_done)
                        self._ow_mems_left_to_update.append(mem.id)
                    elif mem_type == MemoryElement.TYPE_I2C:
                        mem = I2CElement(id=mem_id, type=mem_type,
                                         size=mem_size,
                                         mem_handler=self)
                        self.mem_read_cb.add_callback(mem.new_data)
                        self.mem_write_cb.add_callback(mem.write_done)
                    elif mem_type == MemoryElement.TYPE_DRIVER_LED:
                        mem = LEDDriverMemory(id=mem_id, type=mem_type,
                                              size=mem_size, mem_handler=self)
                        logger.debug(mem)
                        self.mem_read_cb.add_callback(mem.new_data)
                        self.mem_write_cb.add_callback(mem.write_done)
                    elif mem_type == MemoryElement.TYPE_LOCO:
                        mem = LocoMemory(id=mem_id, type=mem_type,
                                         size=mem_size, mem_handler=self)
                        logger.debug(mem)
                        self.mem_read_cb.add_callback(mem.new_data)
                    elif mem_type == MemoryElement.TYPE_TRAJ:
                        mem = TrajectoryMemory(id=mem_id, type=mem_type,
                                               size=mem_size, mem_handler=self)
                        logger.debug(mem)
                        self.mem_write_cb.add_callback(mem.write_done)
                    elif mem_type == MemoryElement.TYPE_LOCO2:
                        mem = LocoMemory2(id=mem_id, type=mem_type,
                                          size=mem_size, mem_handler=self)
                        logger.debug(mem)
                        self.mem_read_cb.add_callback(mem.new_data)
                    elif mem_type == MemoryElement.TYPE_LH:
                        mem = LighthouseMemory(id=mem_id, type=mem_type,
                                               size=mem_size, mem_handler=self)
                        logger.debug(mem)
                        self.mem_read_cb.add_callback(mem.new_data)
                        self.mem_write_cb.add_callback(mem.write_done)
                    elif mem_type == MemoryElement.TYPE_MEMORY_TESTER:
                        mem = MemoryTester(id=mem_id, type=mem_type,
                                           size=mem_size, mem_handler=self)
                        logger.debug(mem)
                        self.mem_read_cb.add_callback(mem.new_data)
                        self.mem_write_cb.add_callback(mem.write_done)
                    else:
                        mem = MemoryElement(id=mem_id, type=mem_type,
                                            size=mem_size, mem_handler=self)
                        logger.debug(mem)
                    self.mems.append(mem)
                    self.mem_added_cb.call(mem)

                    self._fetch_id = mem_id + 1

                if self.nbr_of_mems - 1 >= self._fetch_id:
                    logger.debug(
                        'Requesting information about memory {}'.format(
                            self._fetch_id))
                    pk = CRTPPacket()
                    pk.set_header(CRTPPort.MEM, CHAN_INFO)
                    pk.data = (CMD_INFO_DETAILS, self._fetch_id)
                    self.ed.send_packet(pk, expected_reply=(
                        CMD_INFO_DETAILS, self._fetch_id))
                else:
                    logger.debug(
                        'Done getting all the memories, start reading the OWs')
                    ows = self.get_mems(MemoryElement.TYPE_1W)
                    # If there are any OW mems start reading them, otherwise
                    # we are done
                    for ow_mem in ows:
                        ow_mem.update(self._mem_update_done)
                    if len(ows) == 0:
                        if self._refresh_callback:
                            self._refresh_callback()
                            self._refresh_callback = None

        if chan == CHAN_WRITE:
            id = cmd
            (addr, status) = struct.unpack('<IB', payload[0:5])
            logger.debug(
                'WRITE: Mem={}, addr=0x{:X}, status=0x{}'.format(
                    id, addr, status))
            # Find the read request
            if id in self._write_requests:
                self._write_requests_lock.acquire()
                wreq = self._write_requests[id][0]
                if status == 0:
                    if wreq.write_done(addr):
                        # self._write_requests.pop(id, None)
                        # Remove the first item
                        self._write_requests[id].pop(0)
                        self.mem_write_cb.call(wreq.mem, wreq.addr)

                        # Get a new one to start (if there are any)
                        if len(self._write_requests[id]) > 0:
                            self._write_requests[id][0].start()
                else:
                    logger.debug(
                        'Status {}: write resending...'.format(status))
                    wreq.resend()
                self._write_requests_lock.release()

        if chan == CHAN_READ:
            id = cmd
            (addr, status) = struct.unpack('<IB', payload[0:5])
            data = struct.unpack('B' * len(payload[5:]), payload[5:])
            logger.debug('READ: Mem={}, addr=0x{:X}, status=0x{}, '
                         'data={}'.format(id, addr, status, data))
            # Find the read request
            if id in self._read_requests:
                logger.debug(
                    'READING: We are still interested in request for '
                    'mem {}'.format(id))
                rreq = self._read_requests[id]
                if status == 0:
                    if rreq.add_data(addr, payload[5:]):
                        self._read_requests.pop(id, None)
                        self.mem_read_cb.call(rreq.mem, rreq.addr, rreq.data)
                else:
                    logger.debug('Status {}: resending...'.format(status))
                    rreq.resend()
Beispiel #19
0
class Log():
    """Create log configuration"""

    # These codes can be decoded using os.stderror, but
    # some of the text messages will look very strange
    # in the UI, so they are redefined here
    _err_codes = {
        errno.ENOMEM: 'No more memory available',
        errno.ENOEXEC: 'Command not found',
        errno.ENOENT: 'No such block id',
        errno.E2BIG: 'Block too large',
        errno.EEXIST: 'Block already exists'
    }

    def __init__(self, espdrone=None):
        self.log_blocks = []
        # Called with newly created blocks
        self.block_added_cb = Caller()

        self.ed = espdrone
        self.toc = None
        self.ed.add_port_callback(CRTPPort.LOGGING, self._new_packet_cb)

        self.toc_updated = Caller()
        self.state = IDLE
        self.fake_toc_crc = 0xDEADBEEF

        self._refresh_callback = None
        self._toc_cache = None

        self._config_id_counter = 1

        self._useV2 = False

    def add_config(self, logconf):
        """Add a log configuration to the logging framework.

        When doing this the contents of the log configuration will be validated
        and listeners for new log configurations will be notified. When
        validating the configuration the variables are checked against the TOC
        to see that they actually exist. If they don't then the configuration
        cannot be used. Since a valid TOC is required, a Espdrone has to be
        connected when calling this method, otherwise it will fail."""

        if not self.ed.link:
            logger.error('Cannot add configs without being connected to a '
                         'Espdrone!')
            return

        # If the log configuration contains variables that we added without
        # type (i.e we want the stored as type for fetching as well) then
        # resolve this now and add them to the block again.
        for name in logconf.default_fetch_as:
            var = self.toc.get_element_by_complete_name(name)
            if not var:
                logger.warning('%s not in TOC, this block cannot be used!',
                               name)
                logconf.valid = False
                raise KeyError('Variable {} not in TOC'.format(name))
            # Now that we know what type this variable has, add it to the log
            # config again with the correct type
            logconf.add_variable(name, var.ctype)

        # Now check that all the added variables are in the TOC and that
        # the total size constraint of a data packet with logging data is
        # not
        size = 0
        for var in logconf.variables:
            size += LogTocElement.get_size_from_id(var.fetch_as)
            # Check that we are able to find the variable in the TOC so
            # we can return error already now and not when the config is sent
            if var.is_toc_variable():
                if (self.toc.get_element_by_complete_name(var.name) is None):
                    logger.warning(
                        'Log: %s not in TOC, this block cannot be used!',
                        var.name)
                    logconf.valid = False
                    raise KeyError('Variable {} not in TOC'.format(var.name))

        if (size <= MAX_LOG_DATA_PACKET_SIZE
                and (logconf.period > 0 and logconf.period < 0xFF)):
            logconf.valid = True
            logconf.ed = self.ed
            logconf.id = self._config_id_counter
            logconf.useV2 = self._useV2
            self._config_id_counter = (self._config_id_counter + 1) % 255
            self.log_blocks.append(logconf)
            self.block_added_cb.call(logconf)
        else:
            logconf.valid = False
            raise AttributeError(
                'The log configuration is too large or has an invalid '
                'parameter')

    def refresh_toc(self, refresh_done_callback, toc_cache):
        """Start refreshing the table of loggale variables"""

        self._useV2 = self.ed.platform.get_protocol_version() >= 4

        self._toc_cache = toc_cache
        self._refresh_callback = refresh_done_callback
        self.toc = None

        pk = CRTPPacket()
        pk.set_header(CRTPPort.LOGGING, CHAN_SETTINGS)
        pk.data = (CMD_RESET_LOGGING, )
        self.ed.send_packet(pk, expected_reply=(CMD_RESET_LOGGING, ))

    def _find_block(self, id):
        for block in self.log_blocks:
            if block.id == id:
                return block
        return None

    def _new_packet_cb(self, packet):
        """Callback for newly arrived packets with TOC information"""
        chan = packet.channel
        cmd = packet.data[0]
        payload = packet.data[1:]

        if (chan == CHAN_SETTINGS):
            id = payload[0]
            error_status = payload[1]
            block = self._find_block(id)
            if cmd == CMD_CREATE_BLOCK or cmd == CMD_CREATE_BLOCK_V2:
                if (block is not None):
                    if error_status == 0 or error_status == errno.EEXIST:
                        if not block.added:
                            logger.debug('Have successfully added id=%d', id)

                            pk = CRTPPacket()
                            pk.set_header(5, CHAN_SETTINGS)
                            pk.data = (CMD_START_LOGGING, id, block.period)
                            self.ed.send_packet(
                                pk, expected_reply=(CMD_START_LOGGING, id))
                            block.added = True
                    else:
                        msg = self._err_codes[error_status]
                        logger.warning('Error %d when adding id=%d (%s)',
                                       error_status, id, msg)
                        block.err_no = error_status
                        block.added_cb.call(False)
                        block.error_cb.call(block, msg)

                else:
                    logger.warning('No LogEntry to assign block to !!!')
            if (cmd == CMD_START_LOGGING):
                if (error_status == 0x00):
                    logger.info('Have successfully started logging for id=%d',
                                id)
                    if block:
                        block.started = True

                else:
                    msg = self._err_codes[error_status]
                    logger.warning('Error %d when starting id=%d (%s)',
                                   error_status, id, msg)
                    if block:
                        block.err_no = error_status
                        block.started_cb.call(self, False)
                        # This is a temporary fix, we are adding a new issue
                        # for this. For some reason we get an error back after
                        # the block has been started and added. This will show
                        # an error in the UI, but everything is still working.
                        # block.error_cb.call(block, msg)

            if (cmd == CMD_STOP_LOGGING):
                if (error_status == 0x00):
                    logger.info('Have successfully stopped logging for id=%d',
                                id)
                    if block:
                        block.started = False

            if (cmd == CMD_DELETE_BLOCK):
                # Accept deletion of a block that isn't added. This could
                # happen due to timing (i.e add/start/delete in fast sequence)
                if error_status == 0x00 or error_status == errno.ENOENT:
                    logger.info('Have successfully deleted id=%d', id)
                    if block:
                        block.started = False
                        block.added = False

            if (cmd == CMD_RESET_LOGGING):
                # Guard against multiple responses due to re-sending
                if not self.toc:
                    logger.debug('Logging reset, continue with TOC download')
                    self.log_blocks = []

                    self.toc = Toc()
                    toc_fetcher = Toedetcher(self.ed, LogTocElement,
                                             CRTPPort.LOGGING, self.toc,
                                             self._refresh_callback,
                                             self._toc_cache)
                    toc_fetcher.start()

        if (chan == CHAN_LOGDATA):
            chan = packet.channel
            id = packet.data[0]
            block = self._find_block(id)
            timestamps = struct.unpack('<BBB', packet.data[1:4])
            timestamp = (timestamps[0] | timestamps[1] << 8
                         | timestamps[2] << 16)
            logdata = packet.data[4:]
            if (block is not None):
                block.unpack_log_data(logdata, timestamp)
            else:
                logger.warning('Error no LogEntry to handle id=%d', id)
 def setUp(self):
     self.callback_count = 0
     self.sut = Caller()
Beispiel #21
0
class ConfigManager(metaclass=Singleton):
    """ Singleton class for managing input processing """
    conf_needs_reload = Caller()
    configs_dir = edclient.config_path + "/input"

    def __init__(self):
        """Initialize and create empty config list"""
        self._list_of_configs = []

    def get_config(self, config_name):
        """Get the button and axis mappings for an input device."""
        try:
            idx = self._list_of_configs.index(config_name)
            return self._input_config[idx]
        except Exception:
            return None

    def get_settings(self, config_name):
        """Get the settings for an input device."""
        try:
            idx = self._list_of_configs.index(config_name)
            return self._input_settings[idx]
        except Exception:
            return None

    def get_list_of_configs(self):
        """Reload the configurations from file"""
        try:
            configs = [os.path.basename(f) for f in
                       glob.glob(self.configs_dir + "/[A-Za-z]*.json")]
            self._input_config = []
            self._input_settings = []
            self._list_of_configs = []
            for conf in configs:
                logger.debug("Parsing [%s]", conf)
                json_data = open(self.configs_dir + "/%s" % conf)
                data = json.load(json_data)
                new_input_device = {}
                new_input_settings = {"updateperiod": 10,
                                      "springythrottle": True,
                                      "rp_dead_band": 0.05}
                for s in data["inputconfig"]["inputdevice"]:
                    if s == "axis":
                        for a in data["inputconfig"]["inputdevice"]["axis"]:
                            axis = {}
                            axis["scale"] = a["scale"]
                            axis["offset"] = a[
                                "offset"] if "offset" in a else 0.0
                            axis["type"] = a["type"]
                            axis["key"] = a["key"]
                            axis["name"] = a["name"]

                            self._translate_for_backwards_compatibility(axis)

                            try:
                                ids = a["ids"]
                            except Exception:
                                ids = [a["id"]]
                            for id in ids:
                                locaxis = copy.deepcopy(axis)
                                if "ids" in a:
                                    if id == a["ids"][0]:
                                        locaxis["scale"] = locaxis[
                                            "scale"] * -1
                                locaxis["id"] = id
                                # 'type'-'id' defines unique index for axis
                                index = "%s-%d" % (a["type"], id)
                                new_input_device[index] = locaxis
                    else:
                        new_input_settings[s] = data[
                            "inputconfig"]["inputdevice"][s]
                self._input_config.append(new_input_device)
                self._input_settings.append(new_input_settings)
                json_data.close()
                self._list_of_configs.append(conf[:-5])
        except Exception as e:
            logger.warning("Exception while parsing inputconfig file: %s ", e)
        return self._list_of_configs

    def save_config(self, input_map, config_name):
        """Save a configuration to file"""
        mapping = {'inputconfig': {'inputdevice': {'axis': []}}}

        # Create intermediate structure for the configuration file
        funcs = {}
        for m in input_map:
            key = input_map[m]["key"]
            if key not in funcs:
                funcs[key] = []
            funcs[key].append(input_map[m])

        # Create a mapping for each axis, take care to handle
        # split axis configurations
        for a in funcs:
            func = funcs[a]
            axis = {}
            # Check for split axis
            if len(func) > 1:
                axis["ids"] = [func[0]["id"], func[1]["id"]]
                axis["scale"] = func[1]["scale"]
            else:
                axis["id"] = func[0]["id"]
                axis["scale"] = func[0]["scale"]
            axis["key"] = func[0]["key"]
            axis["name"] = func[0]["key"]  # Name isn't used...
            axis["type"] = func[0]["type"]
            mapping["inputconfig"]["inputdevice"]["axis"].append(axis)

        mapping["inputconfig"]['inputdevice']['name'] = config_name
        mapping["inputconfig"]['inputdevice']['updateperiod'] = 10

        filename = ConfigManager().configs_dir + "/%s.json" % config_name
        logger.info("Saving config to [%s]", filename)
        json_data = open(filename, 'w')
        json_data.write(json.dumps(mapping, indent=2))
        json_data.close()

        self.conf_needs_reload.call(config_name)

    def _translate_for_backwards_compatibility(self, axis):
        """Handle changes in the config file format"""

        # The parameter that used to be called 'althold' has been renamed to
        # 'assistedControl'
        althold = 'althold'
        assistedControl = 'assistedControl'

        if axis['key'] == althold:
            axis['key'] = assistedControl

        if axis['name'] == althold:
            axis['name'] = assistedControl
 def __init__(self, period, callback):
     self._callbacks = Caller()
     self._callbacks.add_callback(callback)
     self._started = False
     self._period = period
     self._thread = None
Beispiel #23
0
class Param():
    """
    Used to read and write parameter values in the Espdrone.
    """
    def __init__(self, espdrone):
        self.toc = Toc()

        self.ed = espdrone
        self._useV2 = False
        self.param_update_callbacks = {}
        self.group_update_callbacks = {}
        self.all_update_callback = Caller()
        self.param_updater = None

        self.param_updater = _ParamUpdater(self.ed, self._useV2,
                                           self._param_updated)
        self.param_updater.start()

        self.ed.disconnected.add_callback(self._disconnected)

        self.all_updated = Caller()
        self.is_updated = False

        self.values = {}

    def request_update_of_all_params(self):
        """Request an update of all the parameters in the TOC"""
        for group in self.toc.toc:
            for name in self.toc.toc[group]:
                complete_name = '%s.%s' % (group, name)
                self.request_param_update(complete_name)

    def _check_if_all_updated(self):
        """Check if all parameters from the TOC has at least been fetched
        once"""
        for g in self.toc.toc:
            if g not in self.values:
                return False
            for n in self.toc.toc[g]:
                if n not in self.values[g]:
                    return False

        return True

    def _param_updated(self, pk):
        """Callback with data for an updated parameter"""
        if self._useV2:
            var_id = struct.unpack('<H', pk.data[:2])[0]
        else:
            var_id = pk.data[0]
        element = self.toc.get_element_by_id(var_id)
        if element:
            if self._useV2:
                s = struct.unpack(element.pytype, pk.data[2:])[0]
            else:
                s = struct.unpack(element.pytype, pk.data[1:])[0]
            s = s.__str__()
            complete_name = '%s.%s' % (element.group, element.name)

            # Save the value for synchronous access
            if element.group not in self.values:
                self.values[element.group] = {}
            self.values[element.group][element.name] = s

            logger.debug('Updated parameter [%s]' % complete_name)
            if complete_name in self.param_update_callbacks:
                self.param_update_callbacks[complete_name].call(
                    complete_name, s)
            if element.group in self.group_update_callbacks:
                self.group_update_callbacks[element.group].call(
                    complete_name, s)
            self.all_update_callback.call(complete_name, s)

            # Once all the parameters are updated call the
            # callback for "everything updated" (after all the param
            # updated callbacks)
            if self._check_if_all_updated() and not self.is_updated:
                self.is_updated = True
                self.all_updated.call()
        else:
            logger.debug('Variable id [%d] not found in TOC', var_id)

    def remove_update_callback(self, group, name=None, cb=None):
        """Remove the supplied callback for a group or a group.name"""
        if not cb:
            return

        if not name:
            if group in self.group_update_callbacks:
                self.group_update_callbacks[group].remove_callback(cb)
        else:
            paramname = '{}.{}'.format(group, name)
            if paramname in self.param_update_callbacks:
                self.param_update_callbacks[paramname].remove_callback(cb)

    def add_update_callback(self, group=None, name=None, cb=None):
        """
        Add a callback for a specific parameter name. This callback will be
        executed when a new value is read from the Espdrone.
        """
        if not group and not name:
            self.all_update_callback.add_callback(cb)
        elif not name:
            if group not in self.group_update_callbacks:
                self.group_update_callbacks[group] = Caller()
            self.group_update_callbacks[group].add_callback(cb)
        else:
            paramname = '{}.{}'.format(group, name)
            if paramname not in self.param_update_callbacks:
                self.param_update_callbacks[paramname] = Caller()
            self.param_update_callbacks[paramname].add_callback(cb)

    def refresh_toc(self, refresh_done_callback, toc_cache):
        """
        Initiate a refresh of the parameter TOC.
        """
        self._useV2 = self.ed.platform.get_protocol_version() >= 4
        toc_fetcher = Toedetcher(self.ed, ParamTocElement, CRTPPort.PARAM,
                                 self.toc, refresh_done_callback, toc_cache)
        toc_fetcher.start()

    def _disconnected(self, uri):
        """Disconnected callback from Espdrone API"""
        self.param_updater.close()
        self.is_updated = False
        # Clear all values from the previous Espdrone
        self.toc = Toc()
        self.values = {}

    def request_param_update(self, complete_name):
        """
        Request an update of the value for the supplied parameter.
        """
        self.param_updater.request_param_update(
            self.toc.get_element_id(complete_name))

    def set_value(self, complete_name, value):
        """
        Set the value for the supplied parameter.
        """
        element = self.toc.get_element_by_complete_name(complete_name)

        if not element:
            logger.warning("Cannot set value for [%s], it's not in the TOC!",
                           complete_name)
            raise KeyError('{} not in param TOC'.format(complete_name))
        elif element.access == ParamTocElement.RO_ACCESS:
            logger.debug('[%s] is read only, no trying to set value',
                         complete_name)
            raise AttributeError('{} is read-only!'.format(complete_name))
        else:
            varid = element.ident
            pk = CRTPPacket()
            pk.set_header(CRTPPort.PARAM, WRITE_CHANNEL)
            if self._useV2:
                pk.data = struct.pack('<H', varid)
            else:
                pk.data = struct.pack('<B', varid)

            try:
                value_nr = eval(value)
            except TypeError:
                value_nr = value

            pk.data += struct.pack(element.pytype, value_nr)
            self.param_updater.request_param_setvalue(pk)
    def __init__(self, name=None, link=None, ro_cache=None, rw_cache=None):
        """
        Create the objects from this module and register callbacks.

        ro_cache -- Path to read-only cache (string)
        rw_cache -- Path to read-write cache (string)
        """

        # Called on disconnect, no matter the reason
        self.disconnected = Caller()
        # Called on unintentional disconnect only
        self.connection_lost = Caller()
        # Called when the first packet in a new link is received
        self.link_established = Caller()
        # Called when the user requests a connection
        self.connection_requested = Caller()
        # Called when the link is established and the TOCs (that are not
        # cached) have been downloaded
        self.connected = Caller()
        # Called if establishing of the link fails (i.e times out)
        self.connection_failed = Caller()
        # Called for every packet received
        self.packet_received = Caller()
        # Called for every packet sent
        self.packet_sent = Caller()
        # Called when the link driver updates the link quality measurement
        self.link_quality_updated = Caller()

        self.state = State.DISCONNECTED
        
        self.link = link
        self.name = name
        self._toc_cache = TocCache(ro_cache=ro_cache,
                                   rw_cache=rw_cache)

        self.incoming = _IncomingPacketHandler(self)
        self.incoming.setDaemon(True)
        self.incoming.start()

        self.camera = Camera(self)
        self.commander = Commander(self)
        self.high_level_commander = HighLevelCommander(self)
        self.loc = Localization(self)
        self.extpos = Extpos(self)
        self.log = Log(self)
        self.console = Console(self)
        self.param = Param(self)
        self.mem = Memory(self)
        self.platform = PlatformService(self)

        self.link_uri = ''

        # Used for retry when no reply was sent back
        self.packet_received.add_callback(self._check_for_initial_packet_cb)
        self.packet_received.add_callback(self._check_for_answers)

        self._answer_patterns = {}

        self._send_lock = Lock()

        self.connected_ts = None

        # Connect callbacks to logger
        self.disconnected.add_callback(
            lambda uri: logger.info('Callback->Disconnected from [%s]', uri))
        self.disconnected.add_callback(self._disconnected)
        self.link_established.add_callback(
            lambda uri: logger.info('Callback->Connected to [%s]', uri))
        self.connection_lost.add_callback(
            lambda uri, errmsg: logger.info(
                'Callback->Connection lost to [%s]: %s', uri, errmsg))
        self.connection_failed.add_callback(
            lambda uri, errmsg: logger.info(
                'Callback->Connected failed to [%s]: %s', uri, errmsg))
        self.connection_requested.add_callback(
            lambda uri: logger.info(
                'Callback->Connection initialized[%s]', uri))
        self.connected.add_callback(
            lambda uri: logger.info(
                'Callback->Connection setup finished [%s]', uri))
class Espdrone():
    """The Espdrone class"""

    def __init__(self, name=None, link=None, ro_cache=None, rw_cache=None):
        """
        Create the objects from this module and register callbacks.

        ro_cache -- Path to read-only cache (string)
        rw_cache -- Path to read-write cache (string)
        """

        # Called on disconnect, no matter the reason
        self.disconnected = Caller()
        # Called on unintentional disconnect only
        self.connection_lost = Caller()
        # Called when the first packet in a new link is received
        self.link_established = Caller()
        # Called when the user requests a connection
        self.connection_requested = Caller()
        # Called when the link is established and the TOCs (that are not
        # cached) have been downloaded
        self.connected = Caller()
        # Called if establishing of the link fails (i.e times out)
        self.connection_failed = Caller()
        # Called for every packet received
        self.packet_received = Caller()
        # Called for every packet sent
        self.packet_sent = Caller()
        # Called when the link driver updates the link quality measurement
        self.link_quality_updated = Caller()

        self.state = State.DISCONNECTED
        
        self.link = link
        self.name = name
        self._toc_cache = TocCache(ro_cache=ro_cache,
                                   rw_cache=rw_cache)

        self.incoming = _IncomingPacketHandler(self)
        self.incoming.setDaemon(True)
        self.incoming.start()

        self.camera = Camera(self)
        self.commander = Commander(self)
        self.high_level_commander = HighLevelCommander(self)
        self.loc = Localization(self)
        self.extpos = Extpos(self)
        self.log = Log(self)
        self.console = Console(self)
        self.param = Param(self)
        self.mem = Memory(self)
        self.platform = PlatformService(self)

        self.link_uri = ''

        # Used for retry when no reply was sent back
        self.packet_received.add_callback(self._check_for_initial_packet_cb)
        self.packet_received.add_callback(self._check_for_answers)

        self._answer_patterns = {}

        self._send_lock = Lock()

        self.connected_ts = None

        # Connect callbacks to logger
        self.disconnected.add_callback(
            lambda uri: logger.info('Callback->Disconnected from [%s]', uri))
        self.disconnected.add_callback(self._disconnected)
        self.link_established.add_callback(
            lambda uri: logger.info('Callback->Connected to [%s]', uri))
        self.connection_lost.add_callback(
            lambda uri, errmsg: logger.info(
                'Callback->Connection lost to [%s]: %s', uri, errmsg))
        self.connection_failed.add_callback(
            lambda uri, errmsg: logger.info(
                'Callback->Connected failed to [%s]: %s', uri, errmsg))
        self.connection_requested.add_callback(
            lambda uri: logger.info(
                'Callback->Connection initialized[%s]', uri))
        self.connected.add_callback(
            lambda uri: logger.info(
                'Callback->Connection setup finished [%s]', uri))

    def _disconnected(self, link_uri):
        """ Callback when disconnected."""
        self.connected_ts = None

    def _start_connection_setup(self):
        """Start the connection setup by refreshing the TOCs"""
        logger.info('We are connected[%s], request connection setup',
                    self.link_uri)
        self.platform.fetch_platform_informations(self._platform_info_fetched)

    def _platform_info_fetched(self):
        self.log.refresh_toc(self._log_toc_updated_cb, self._toc_cache)

    def _param_toc_updated_cb(self):
        """Called when the param TOC has been fully updated"""
        logger.info('Param TOC finished updating')
        self.connected_ts = datetime.datetime.now()
        self.connected.call(self.link_uri)
        # Trigger the update for all the parameters
        self.param.request_update_of_all_params()

    def _mems_updated_cb(self):
        """Called when the memories have been identified"""
        logger.info('Memories finished updating')
        self.param.refresh_toc(self._param_toc_updated_cb, self._toc_cache)

    def _log_toc_updated_cb(self):
        """Called when the log TOC has been fully updated"""
        logger.info('Log TOC finished updating')
        self.mem.refresh(self._mems_updated_cb)

    def _link_error_cb(self, errmsg):
        """Called from the link driver when there's an error"""
        logger.warning('Got link error callback [%s] in state [%s]',
                       errmsg, self.state)
        if (self.link is not None):
            self.link.close()
        self.link = None
        if (self.state == State.INITIALIZED):
            self.connection_failed.call(self.link_uri, errmsg)
        if (self.state == State.CONNECTED or
                self.state == State.SETUP_FINISHED):
            self.disconnected.call(self.link_uri)
            self.connection_lost.call(self.link_uri, errmsg)
        self.state = State.DISCONNECTED

    def _link_quality_cb(self, percentage):
        """Called from link driver to report link quality"""
        self.link_quality_updated.call(percentage)

    def _check_for_initial_packet_cb(self, data):
        """
        Called when first packet arrives from Espdrone.

        This is used to determine if we are connected to something that is
        answering.
        """
        self.state = State.CONNECTED
        self.link_established.call(self.link_uri)
        self.packet_received.remove_callback(self._check_for_initial_packet_cb)

    def open_link(self, link_uri):
        """
        Open the communication link to a copter at the given URI and setup the
        connection (download log/parameter TOC).
        """
        self.connection_requested.call(link_uri)
        self.state = State.INITIALIZED
        self.link_uri = link_uri
        try:
            self.link = edlib.crtp.get_link_driver(
                link_uri, self._link_quality_cb, self._link_error_cb)

            if not self.link:
                message = 'No driver found or malformed URI: {}' \
                    .format(link_uri)
                logger.warning(message)
                self.connection_failed.call(link_uri, message)
            else:
                # Add a callback so we can check that any data is coming
                # back from the copter
                self.packet_received.add_callback(
                    self._check_for_initial_packet_cb)

                self._start_connection_setup()
        except Exception as ex:  # pylint: disable=W0703
            # We want to catch every possible exception here and show
            # it in the user interface
            import traceback

            logger.error("Couldn't load link driver: %s\n\n%s",
                         ex, traceback.format_exc())
            exception_text = "Couldn't load link driver: %s\n\n%s" % (
                ex, traceback.format_exc())
            if self.link:
                self.link.close()
                self.link = None
            self.connection_failed.call(link_uri, exception_text)
            raise ConnectionError()

    def close_link(self):
        """Close the communication link."""
        logger.info('Closing link')
        if (self.link is not None):
            self.commander.send_setpoint(0, 0, 0, 0)
        if (self.link is not None):
            self.link.close()
            self.link = None
        self._answer_patterns = {}
        self.disconnected.call(self.link_uri)

    """Check if the communication link is open or not."""

    def is_connected(self):
        return self.connected_ts is not None

    def add_port_callback(self, port, cb):
        """Add a callback to cb on port"""
        self.incoming.add_port_callback(port, cb)

    def remove_port_callback(self, port, cb):
        """Remove the callback cb on port"""
        self.incoming.remove_port_callback(port, cb)

    def _no_answer_do_retry(self, pk, pattern):
        """Resend packets that we have not gotten answers to"""
        logger.info('Resending for pattern %s', pattern)
        # Set the timer to None before trying to send again
        self.send_packet(pk, expected_reply=pattern, resend=True)

    def _check_for_answers(self, pk):
        """
        Callback called for every packet received to check if we are
        waiting for an answer on this port. If so, then cancel the retry
        timer.
        """
        longest_match = ()
        if len(self._answer_patterns) > 0:
            data = (pk.header,) + tuple(pk.data)
            for p in list(self._answer_patterns.keys()):
                logger.debug('Looking for pattern match on %s vs %s', p, data)
                if len(p) <= len(data):
                    if p == data[0:len(p)]:
                        match = data[0:len(p)]
                        if len(match) >= len(longest_match):
                            logger.debug('Found new longest match %s', match)
                            longest_match = match
        if len(longest_match) > 0:
            self._answer_patterns[longest_match].cancel()
            del self._answer_patterns[longest_match]

    def send_packet(self, pk, expected_reply=(), resend=False, timeout=0.1):
        """
        Send a packet through the link interface.

        pk -- Packet to send
        expect_answer -- True if a packet from the Espdrone is expected to
                         be sent back, otherwise false

        """
        self._send_lock.acquire()
        if self.link is not None:
            if len(expected_reply) > 0 and not resend and \
                    self.link.needs_resending:
                pattern = (pk.header,) + expected_reply
                logger.debug(
                    'Sending packet and expecting the %s pattern back',
                    pattern)
                new_timer = Timer(timeout,
                                  lambda: self._no_answer_do_retry(pk,
                                                                   pattern))
                self._answer_patterns[pattern] = new_timer
                new_timer.start()
            elif resend:
                # Check if we have gotten an answer, if not try again
                pattern = expected_reply
                if pattern in self._answer_patterns:
                    logger.debug('We want to resend and the pattern is there')
                    if self._answer_patterns[pattern]:
                        new_timer = Timer(timeout,
                                          lambda:
                                          self._no_answer_do_retry(
                                              pk, pattern))
                        self._answer_patterns[pattern] = new_timer
                        new_timer.start()
                else:
                    logger.debug('Resend requested, but no pattern found: %s',
                                 self._answer_patterns)
            self.link.send_packet(pk)
            self.packet_sent.call(pk)
        self._send_lock.release()
class Localization():
    """
    Handle localization-related data communication with the Espdrone
    """

    # Implemented channels
    POSITION_CH = 0
    GENERIC_CH = 1

    # Location message types for generig channel
    RANGE_STREAM_REPORT = 0
    RANGE_STREAM_REPORT_FP16 = 1
    LPS_SHORT_LPP_PACKET = 2
    EMERGENCY_STOP = 3
    EMERGENCY_STOP_WATCHDOG = 4
    COMM_GNSS_NMEA = 6
    COMM_GNSS_PROPRIETARY = 7
    EXT_POSE = 8
    EXT_POSE_PACKED = 9
    EMERGENCY_RESET = 10

    def __init__(self, espdrone=None):
        """
        Initialize the Extpos object.
        """
        self._ed = espdrone

        self.receivedLocationPacket = Caller()
        self._ed.add_port_callback(CRTPPort.LOCALIZATION, self._incoming)

    def _incoming(self, packet):
        """
        Callback for data received from the copter.
        """
        if len(packet.data) < 1:
            logger.warning('Localization packet received with incorrect' +
                           'length (length is {})'.format(len(packet.data)))
            return

        pk_type = struct.unpack('<B', packet.data[:1])[0]
        data = packet.data[1:]

        # Decoding the known packet types
        # TODO: more generic decoding scheme?
        decoded_data = None
        if pk_type == self.RANGE_STREAM_REPORT:
            if len(data) % 5 != 0:
                logger.error('Wrong range stream report data lenght')
                return
            decoded_data = {}
            raw_data = data
            for i in range(int(len(data) / 5)):
                anchor_id, distance = struct.unpack('<Bf', raw_data[:5])
                decoded_data[anchor_id] = distance
                raw_data = raw_data[5:]
        elif pk_type == self.LH_PERSIST_DATA:
            decoded_data = bool(data[0])
        elif pk_type == self.LH_ANGLE_STREAM:
            decoded_data = self._decode_lh_angle(data)

        pk = LocalizationPacket(pk_type, data, decoded_data)
        self.receivedLocationPacket.call(pk)

    def send_extpos(self, pos):
        """
        Send the current Espdrone X, Y, Z position. This is going to be
        forwarded to the Espdrone's position estimator.
        """

        pk = CRTPPacket()
        pk.port = CRTPPort.LOCALIZATION
        pk.channel = self.POSITION_CH
        pk.data = struct.pack('<fff', pos[0], pos[1], pos[2])
        self._ed.send_packet(pk)

    def send_extpose(self, pos, quat):
        """
        Send the current Espdrone pose (position [x, y, z] and
        attitude quaternion [qx, qy, qz, qw]). This is going to be forwarded
        to the Espdrone's position estimator.
        """

        pk = CRTPPacket()
        pk.port = CRTPPort.LOCALIZATION
        pk.channel = self.GENERIC_CH
        pk.data = struct.pack('<Bfffffff', self.EXT_POSE, pos[0], pos[1],
                              pos[2], quat[0], quat[1], quat[2], quat[3])
        self._ed.send_packet(pk)

    def send_short_lpp_packet(self, dest_id, data):
        """
        Send ultra-wide-band LPP packet to dest_id
        """

        pk = CRTPPacket()
        pk.port = CRTPPort.LOCALIZATION
        pk.channel = self.GENERIC_CH
        pk.data = struct.pack('<BB', self.LPS_SHORT_LPP_PACKET, dest_id) + data
        self._ed.send_packet(pk)

    def send_emergency_stop(self):
        """
        Send emergency stop
        """

        pk = CRTPPacket()
        pk.port = CRTPPort.LOCALIZATION
        pk.channel = self.GENERIC_CH
        pk.data = struct.pack('<B', self.EMERGENCY_STOP)
        self._ed.send_packet(pk)

    def send_emergency_reset(self):
        """
        Send emergency reset
        """

        pk = CRTPPacket()
        pk.port = CRTPPort.LOCALIZATION
        pk.channel = self.GENERIC_CH
        pk.data = struct.pack('<B', self.EMERGENCY_RESET)
        self._ed.send_packet(pk)

    def send_emergency_stop_watchdog(self):
        """
        Send emergency stop watchdog
        """

        pk = CRTPPacket()
        pk.port = CRTPPort.LOCALIZATION
        pk.channel = self.GENERIC_CH
        pk.data = struct.pack('<B', self.EMERGENCY_STOP_WATCHDOG)
        self._ed.send_packet(pk)

    @staticmethod
    def quatdecompress(comp: int):
        q = [0] * 4
        sqrt1_2 = 0.70710678118654752440
        mask = (1 << 9) - 1
        i_largest = comp >> 30
        sum_squares = 0
        for i in range(3, -1, -1):
            if (i != i_largest):
                mag = comp & mask
                negbit = (comp >> 9) & 0x1
                comp = comp >> 10
                q[i] = sqrt1_2 * mag / mask
                if (negbit == 1):
                    q[i] = -q[i]
                sum_squares += q[i] * q[i]

        q[i_largest] = math.sqrt(1 - sum_squares)
        return q

    @staticmethod
    def quatcompress(q: List[float]):
        sqrt1_2 = 0.70710678118654752440
        i_largest = 0
        for i in range(1, 4):
            if (math.fabs(q[i]) > math.fabs(q[i_largest])):
                i_largest = i
        negate = q[i_largest] < 0
        comp = i_largest
        for i in range(4):
            if i != i_largest:
                negbit = (q[i] < 0) ^ negate
                mag = int(((1 << 9) - 1) * math.fabs(q[i]) / sqrt1_2 + 0.5)
                comp = (comp << 10) | (negbit << 9) | mag

        return comp
class CallerTest(unittest.TestCase):
    def setUp(self):
        self.callback_count = 0
        self.sut = Caller()

    def test_that_callback_is_added(self):
        # Fixture

        # Test
        self.sut.add_callback(self._callback)

        # Assert
        self.sut.call()
        self.assertEqual(1, self.callback_count)

    def test_that_callback_is_added_only_one_time(self):
        # Fixture

        # Test
        self.sut.add_callback(self._callback)
        self.sut.add_callback(self._callback)

        # Assert
        self.sut.call()
        self.assertEqual(1, self.callback_count)

    def test_that_multiple_callbacks_are_added(self):
        # Fixture

        # Test
        self.sut.add_callback(self._callback)
        self.sut.add_callback(self._callback2)

        # Assert
        self.sut.call()
        self.assertEqual(2, self.callback_count)

    def test_that_callback_is_removed(self):
        # Fixture
        self.sut.add_callback(self._callback)

        # Test
        self.sut.remove_callback(self._callback)

        # Assert
        self.sut.call()
        self.assertEqual(0, self.callback_count)

    def test_that_callback_is_called_with_arguments(self):
        # Fixture
        self.sut.add_callback(self._callback_with_args)

        # Test
        self.sut.call('The token')

        # Assert
        self.assertEqual('The token', self.callback_token)

    def _callback(self):
        self.callback_count += 1

    def _callback2(self):
        self.callback_count += 1

    def _callback_with_args(self, token):
        self.callback_token = token