def main():
    # Clear any cached data because both bluez and CoreBluetooth have issues with
    # caching data and it going stale.
    ble.clear_cached_data()

    # Get the first available BLE network adapter and make sure it's powered on.
    adapter = ble.get_default_adapter()
    #    adapter.power_on()
    print('Using adapter: {0}'.format(adapter.name))

    # Disconnect any currently connected UART devices.  Good for cleaning up and
    # starting from a fresh state.
    print('Disconnecting any connected UART devices...')
    UART.disconnect_devices()

    # Scan for UART devices.
    print('Searching for UART device...')
    try:
        adapter.start_scan()
        # Search for the first UART device found (will time out after 60 seconds
        # but you can specify an optional timeout_sec parameter to change it).
        device = UART.find_device()
        if device is None:
            raise RuntimeError('Failed to find UART device!')
        else:
            print 'uart device is gevonden'
    finally:
        # Make sure scanning is stopped before exiting.
        adapter.stop_scan()

    print('Connecting to device...')
    device.connect(
    )  # Will time out after 60 seconds, specify timeout_sec parameter
    # to change the timeout.

    # Once connected do everything else in a try/finally to make sure the device
    # is disconnected when done.
    try:
        # Wait for service discovery to complete for the DIS service.  Will
        # time out after 60 seconds (specify timeout_sec parameter to override).
        print('Discovering services...')
        DeviceInformation.discover(device)

        # Once service discovery is complete create an instance of the service
        # and start interacting with it.
        dis = DeviceInformation(device)

        # Print out the DIS characteristics.
        print('Manufacturer: {0}'.format(dis.manufacturer))
        print('Model: {0}'.format(dis.model))
        print('Serial: {0}'.format(dis.serial))
        print('Hardware Revision: {0}'.format(dis.hw_revision))
        print('Software Revision: {0}'.format(dis.sw_revision))
        print('Firmware Revision: {0}'.format(dis.fw_revision))
        print('System ID: {0}'.format(dis.system_id))
        print('Regulatory Cert: {0}'.format(dis.regulatory_cert))
        print('PnP ID: {0}'.format(dis.pnp_id))
    finally:
        # Make sure device is disconnected on exit.
        device.disconnect()
def main(nuimo_uuid):
    print nuimo_uuid
    # Clear previously received data from the controller/adapter
    ble.clear_cached_data()

    # Connect to the default or first adapter and start scan
    adapter = ble.get_default_adapter()
    adapter.power_on()
    adapter.start_scan()

    # It needs bit of time to scan the devices. Some Peripherals advertise in different
    time.sleep(2)

    # Find all the ble devices with the name nuimo,this filtering part is done by Adafruit
    # devices -> interfaces/device/bluez-device, properties and method can be found there
    # id is MAC on Linux and on OSX uuid generated by OSX
    devices = ble.find_devices()

    for device in devices:
        print('Found device: {0}, id: {1}'.format(device.name, device.id))

        if device.id == uuid.UUID(nuimo_uuid):
            device.connect()
            DeviceInformation.discover(device)
            dis = DeviceInformation(device)
            print('Firmware Revision: {0}'.format(dis.fw_revision))
            device.disconnect()

    adapter.power_off()
def main():
    # Clear any cached data because both bluez and CoreBluetooth have issues with
    # caching data and it going stale.
    ble.clear_cached_data()

    # Get the first available BLE network adapter and make sure it's powered on.
    adapter = ble.get_default_adapter()
    adapter.power_on()
    print('Using adapter: {0}'.format(adapter.name))

    # Disconnect any currently connected UART devices.  Good for cleaning up and
    # starting from a fresh state.
    print('Disconnecting any connected UART devices...')
    UART.disconnect_devices()

    # Scan for UART devices.
    print('Searching for UART device...')
    try:
        adapter.start_scan()
        # Search for the first UART device found (will time out after 60 seconds
        # but you can specify an optional timeout_sec parameter to change it).
        device = UART.find_device()
        if device is None:
            raise RuntimeError('Failed to find UART device!')
    finally:
        # Make sure scanning is stopped before exiting.
        adapter.stop_scan()

    print('Connecting to device...')
    device.connect()  # Will time out after 60 seconds, specify timeout_sec parameter
                      # to change the timeout.

    # Once connected do everything else in a try/finally to make sure the device
    # is disconnected when done.
    try:
        # Wait for service discovery to complete for the DIS service.  Will
        # time out after 60 seconds (specify timeout_sec parameter to override).
        print('Discovering services...')
        DeviceInformation.discover(device)

        # Once service discovery is complete create an instance of the service
        # and start interacting with it.
        dis = DeviceInformation(device)

        # Print out the DIS characteristics.
        print('Manufacturer: {0}'.format(dis.manufacturer))
        print('Model: {0}'.format(dis.model))
        print('Serial: {0}'.format(dis.serial))
        print('Hardware Revision: {0}'.format(dis.hw_revision))
        print('Software Revision: {0}'.format(dis.sw_revision))
        print('Firmware Revision: {0}'.format(dis.fw_revision))
        print('System ID: {0}'.format(dis.system_id))
        print('Regulatory Cert: {0}'.format(dis.regulatory_cert))
        print('PnP ID: {0}'.format(dis.pnp_id))
    finally:
        # Make sure device is disconnected on exit.
        device.disconnect()
Esempio n. 4
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def main():
    ble.clear_cached_data()
    adapter = ble.get_default_adapter()
    adapter.power_on()
    print('Using adapter: {0}'.format(adapter.name))

    print('Disconnecting any connected UART devices...')
    UART.disconnect_devices()

    print('Searching for UART device...')
    try:
        adapter.start_scan()
        device = UART.find_device()
        if device is None:
            raise RuntimeError('Failed to find UART device!')
    finally:
        adapter.stop_scan()

    print("Connecting to a UART device...")
    device.connect()
    print("Connected to " + device.name + "!")

    # call method to launch gui, implement later
    # getch library for sending stuff
    # launchGUI()

    try:
        print('Discovering services...')
        DeviceInformation.discover(device)
        dis = DeviceInformation(device)

        # Print out the DIS characteristics.
        print('Manufacturer: {0}'.format(dis.manufacturer))
        print('Model: {0}'.format(dis.model))
        print('Serial: {0}'.format(dis.serial))
        print('Hardware Revision: {0}'.format(dis.hw_revision))
        print('Software Revision: {0}'.format(dis.sw_revision))
        print('Firmware Revision: {0}'.format(dis.fw_revision))
        print('System ID: {0}'.format(dis.system_id))
        print('Regulatory Cert: {0}'.format(dis.regulatory_cert))
        print('PnP ID: {0}'.format(dis.pnp_id))
    finally:
        device.disconnect()
Esempio n. 5
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 def _find_pulse_data_characteristic(self):
     DeviceInformation.discover(self._device)
     heartbeat_service = None
     for s in self._device.list_services():
         logging.info('Discovered service %s: %s', str(s), s.uuid)
         if s.uuid == DATA_SERVICE_UUID:
             logging.info('Found heartbeat GATT service.')
             heartbeat_service = s
     if not heartbeat_service:
         raise RuntimeError("Couldn't find heartbeat service with uuid %s", DATA_SERVICE_UUID)
     receive_data_characteristic = None
     for c in heartbeat_service.list_characteristics():
         if c.uuid == RECEIVE_CHARACTERISTIC:
             logging.info('Found "receive" characteristic of heartbeat service.')
             receive_data_characteristic = c
     if not receive_data_characteristic:
         raise RuntimeError("Couldn't find receive data characteristic of heartbeat service (uuid %s)",
                            RECEIVE_CHARACTERISTIC)
     return receive_data_characteristic
Esempio n. 6
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 def __init__(self, device):
     self._service = device.find_service(RS_SERV_UUID)
     self._char = self._service.find_characteristic(CHAR_UUID)
     self._char.start_notify(self._data_received)
     self._responses = {
         chr(i): Queue.Queue()
         for i in range(0x41, 0x5a + 1)
     }
     self.files = []
     self.file_update = False
     self.file_read = False
     self.serial = DeviceInformation(device).serial
Esempio n. 7
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def uart_service():
    # Clear any cached data because both bluez and CoreBluetooth have issues with
    # caching data and it going stale.
    ble.clear_cached_data()

    # Get the first available BLE network adapter and make sure it's powered on.
    adapter = ble.get_default_adapter()
    adapter.power_on()
    print('Using adapter: {0}'.format(adapter.name))

    # Disconnect any currently connected UART devices.  Good for cleaning up and
    # starting from a fresh state.
    print('Disconnecting any connected UART devices...')
    UART.disconnect_devices()

    # Scan for UART devices.
    print('Searching for UART device...')
    try:
        adapter.start_scan()
        # Search for the first UART device found (will time out after 60 seconds
        # but you can specify an optional timeout_sec parameter to change it).
        device = UART.find_device()
        if device is None:
            raise RuntimeError('Failed to find UART device!')
    finally:
        # Make sure scanning is stopped before exiting.
        adapter.stop_scan()

    print('Connecting to device...')
    device.connect(
    )  # Will time out after 60 seconds, specify timeout_sec parameter
    # to change the timeout.

    # Once connected do everything else in a try/finally to make sure the device
    # is disconnected when done.
    try:
        # Wait for service discovery to complete for the UART service.  Will
        # time out after 60 seconds (specify timeout_sec parameter to override).
        print('Discovering services...')
        UART.discover(device)
        DeviceInformation.discover(device)

        # Once service discovery is complete create an instance of the service
        # and start interacting with it.
        uart = UART(device)
        dis = DeviceInformation(device)

        print("Conntected to device: name: {}, id: {}".format(
            device.name, device.id))

        # Write a string to the TX characteristic.
        uart.write('Hello world!\r\n')
        print("Sent 'Hello world!' to the device.")

        # Now wait up to one minute to receive data from the device.
        print('Waiting up to 60 seconds to receive data from the device...')
        while (True):
            received = uart.read(timeout_sec=40)
            if received is not None:
                # Received data, print it out.
                print('Received: {0}'.format(received))
            else:
                # Timeout waiting for data, None is returned.
                print('Received no data!')
    finally:
        print "Interrupted"
        device.disconnect()
def main():
    target_device_name = u'RN4871-1444'
    target_device = None

    # Clear any cached data because both bluez and CoreBluetooth have issues with
    # caching data and it going stale.
    ble.clear_cached_data()

    # Get the first available BLE network adapter and make sure it's powered on.
    adapter = ble.get_default_adapter()
    adapter.power_on()
    print('Using adapter: {0}'.format(adapter.name))

    # Start scanning with the bluetooth adapter.
    adapter.start_scan()
    # Use atexit.register to call the adapter stop_scan function before quiting.
    # This is good practice for calling cleanup code in this main function as
    # a try/finally block might not be called since this is a background thread.
    atexit.register(adapter.stop_scan)

    print('Searching for devices...')
    print('Press Ctrl-C to quit (will take ~30 seconds on OSX).')

    # Enter a loop and print out whenever a new device is found, and break when target is found.
    known_uarts = set()
    while type(target_device) == type(None):
        # Call UART.find_devices to get a list of any UART devices that
        # have been found.  This call will quickly return results and does
        # not wait for devices to appear.
        found = set(DeviceInformation.find_devices())

        # Check for new devices that haven't been seen yet and print out
        # their name and ID (MAC address on Linux, GUID on OSX).
        new = found - known_uarts
        for device in new:
            if (device.name != None and device.id != None):
                dev_name = unicode(device.name).encode('ascii',
                                                       'xmlcharrefreplace')
                dev_id = unicode(device.id).encode('ascii',
                                                   'xmlcharrefreplace')
                print('Found Device: {0} [{1}]'.format(dev_name, dev_id))
                if (dev_name == target_device_name):
                    target_device = device
                    print('Found Target Device!')
        known_uarts.update(new)

        if (type(target_device) != type(None)):
            break

        # Sleep for a half second and see if new devices have appeared.
        time.sleep(0.2)

    print('Connecting to device...')
    target_device.connect(
    )  # Will time out after 60 seconds, specify timeout_sec parameter
    # to change the timeout

    # Once connected do everything else in a try/finally to make sure the device
    # is disconnected when done.
    try:
        print('Discovering services...')
        UART.discover(target_device)

        print('Service discovery complete')
        articulate_board = UART(target_device)

        time.sleep(1.0)

        print('Reading BT data')

        received = ""

        while (received != None):
            received = articulate_board.read(timeout_sec=10)
            if received is not None:
                print(received)
            else:
                # Timeout waiting for data, None is returned.
                print('Received no data in 10s!')

    except Exception, e:
        print('Failed with Exception: \'{}\''.format(e))
Esempio n. 9
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def main(bt):
    devices = []

    def update_list(current_devices):
        for device in current_devices:
            if not device in devices:
                devices.append(device)
                print "#{}: {} {} {} {} ".format(devices.index(device), device.name, device.id, device.is_connected, device.advertised)
    print "Type number of device + enter to connect"
    bt.scan(update_list)

    name = int(raw_input())
    device = devices[name]
    scribe = bt.connect_to(device)
    print ("Connected")
    print "#{}: {} {} {} {}".format(devices.index(device), device.name, device.id, device.is_connected, device.advertised)

    while True:
        cmd = raw_input("> ")
        if cmd == "q":
            break
        elif cmd == "reboot":
            print "Reboot type : 0 - soft, 1 - hard"
            r_type = int(raw_input())
            scribe.reboot(r_type)
        #elif cmd == "annotate file":
        #    print "Enter data 1 (32 bit number)"
        #    data_1 = int(raw_input())
        #    print "Enter data 2 (16 bit number)"
        #    data_2 = int(raw_input())
        #    print_dict(scribe.annotate_file(data_1, data_2))
        #    print_dict(scribe.annotate_file(0,1))
        elif cmd == "update crc":
            print "file block size : (16-default)"
            file_block_size = int(raw_input())
            print "file point buffer : (0 - default)"
            file_point_buffer = int(raw_input())
            print_dict(scribe.update_crc_checksum(file_block_size, file_point_buffer))
        elif cmd == "load file list":
            print "0,1 - All files, 2 - undeleted file"
            files = int(raw_input())
            all_files = True
            if files == 2 :
                all_files = False
            files = scribe.load_file_list(all_files)
            for f in files:
                print_dict(f)
        elif cmd == "erase data":
            print "erase type (1-partial 0,2-chip, 3-deleted, 4-EEPROM/default ): "
            e_type = int(raw_input())
            print "erase bit mask (1-file): "
            e_bit_mask = int(raw_input())
            print_dict(scribe.erase_data(e_type, e_bit_mask))
        elif cmd == "DFU mode":
            scribe.DFU_mode()
            print "Scribe in DFU mode"
        elif cmd == "real time polling":
            print "Enter mode (0 => Accel, 1 => Gyro, 2 => Compass):"
            mode = int(raw_input())
            print_dict(scribe.real_time_polling(mode))
        elif cmd == "manufacturing mode": # deep motion sleep
            print "state : (0 - off, 1 - on)"
            state = int(raw_input())
            print_dict(scribe.manufacturing_mode(state))
        elif cmd == "file information":
            print "Type file index : "
            file_idx = int(raw_input())
            print "File block size (default - 16) : "
            block_size = int(raw_input())
            print_dict(scribe.get_file_info(file_idx, block_size))
        elif cmd == "set led color":
            r = 0 ; g = 0 ; b = 0
            print 'Select color (0 - green, 1 - yellow, 2 - blue, 3 - purple): '
            color = int(raw_input())
            if color == 1 :
                r = 255 ; g = 255
            elif color == 2 :
                b = 255
            elif color == 3 :
                r = 255 ; b = 255
            else : 
                g = 255
            r, g, b = scribe.set_led_color(r, g, b)
            string = 'Red : ' + str(r) + ', Green: ' + str(g) + ', Blue: ' + str(b)
            print string
        elif cmd == "get led color":
            r, g, b = scribe.get_led_color()
            string = 'Red : ' + str(r) + ', Green: ' + str(g) + ', Blue: ' + str(b)
            print string
        elif cmd == "light":
            print "Mode (13 - connected, 14 - recording, 15 - syncing, 16 - sync_complete, 17 - low battery) :"
            mode = int(raw_input())
            print "cycles (default 1): "
            cycles = int(raw_input())
            print "Red : "
            r = int(raw_input())
            print "Green : "
            g = int(raw_input())
            print "Blue : "
            b = int(raw_input())
            print_dict(scribe.light_led(mode, cycles, r, g, b))
        elif cmd == "set mode":
            print "Command (0 - N/A, 1 - record, 2 - pause, 3 - sync) : "
            command = int(raw_input())
            print "state : (0 - off, 1 - on)"
            state = int(raw_input())
            print_dict(scribe.set_mode(command, state))
        elif cmd == "polling status":
            print_dict(scribe.polling_status())
        elif cmd == "stop read data":
            print_dict(scribe.stop_read_data())
        elif cmd == "read data":
            print "Type file index : "
            file_idx = int(raw_input())
            print "Type file block data point : "
            data_pt = int(raw_input())
            scribe.read_data(file_idx, data_pt)
        elif cmd == "status":
            print_dict(scribe.status())
        elif cmd == "set time":
            devicetime = []
            for i in range(0,4):
                print "device time " + str(i) + " : "
                devicetime.append(int(raw_input()))
            print_dict(scribe.set_time(devicetime[0], devicetime[1], devicetime[2], devicetime[3]))
        elif cmd == "read time":
            print_dict(scribe.read_time())
        elif cmd == "read configuration data":
            print "Enter config point (0xAA01..7): "
            configpoint = int(raw_input(),16)
            print "Enter config block size (default - 16 ) : "
            blocksize = int(raw_input())
            print_dict(scribe.read_config_data(configblocksize = blocksize, configpoint = configpoint))
        elif cmd == "write configuration data":
            print "Enter config point (0xAA01..7))"
            configpoint = int(raw_input(),16)
            if configpoint == 0xAA01 or configpoint == 0xAA03:
                print "config block size : "
                configblocksize = int(raw_input())
                bledevice = []
                for i in range(0,16) :
                    print "ble device " + str(i) + " : "
                    bledevice.append(int(raw_input()))
                packet = struct.pack(">BHBBBBBBBBBBBBBBBB", configblocksize, configpoint, bledevice[0], bledevice[1], bledevice[2],
                        bledevice[3], bledevice[4], bledevice[5], bledevice[6], bledevice[7], bledevice[8], bledevice[9], bledevice[10],
                        bledevice[11], bledevice[12], bledevice[13], bledevice[14], bledevice[15])
            elif configpoint == 0xAA02:
                print "config block size : "
                configblocksize = int(raw_input())
                print "led color : "
                bledevice_ledcolor = int(raw_input())
                print "heel/lace : "
                heel_lace = int(raw_input())
                print "right/left : "
                right_left = int(raw_input())
                device_time = []
                for i in range(0,4):
                    print "device time " + str(i) + " : "
                    device_time.append(int(raw_input())) 
                print "device sample rate : "
                device_sample_rate = int(raw_input())
                print "sensitivity : "
                sensitivity = int(raw_input())
                print "Timeout : "
                timeout = int(raw_input())
                print "stride rate : "
                stride_rate = int(raw_input())
                print "min conn interval : "
                min_conn_interval = int(raw_input())
                print "max conn interval : "
                max_conn_interval = int(raw_input())
                print "ble slave latency : "
                ble_slave_latency = int(raw_input())
                packet = struct.pack(">BHBBBBBBBBBBBBBB", configblocksize, configpoint, bledevice_ledcolor, heel_lace,
                    right_left, device_time[0], device_time[1], device_time[2], device_time[3], device_sample_rate, 
                    sensitivity, timeout, stride_rate, min_conn_interval, max_conn_interval, ble_slave_latency)
            elif configpoint == 0xAA04:
                print "config block size : "
                configblocksize = int(raw_input())
                print "heel/lace : "
                heel_lace = int(raw_input())
                print "right/left : "
                right_left = int(raw_input())
                print "Timeout : "
                timeout = int(raw_input())
                print "stride rate : "
                stride_rate = int(raw_input())
                print "scale factor A : "
                scale_factor_A = int(raw_input())
                print "scale factor B : "
                scale_factor_B = int(raw_input())
                print "min recording voltage MSB : "
                min_recording_voltage_MSB = int(raw_input())
                print "min recording voltage LSB : "
                min_recording_voltage_LSB = int(raw_input())
                print "deep sleep voltage MSB : "
                deep_sleep_voltage_MSB = int(raw_input())
                print "deep sleep voltage LSB : "
                deep_sleep_voltage_LSB = int(raw_input())
                print "R : "
                R = int(raw_input())
                print "G : "
                G = int(raw_input())
                print "B : "
                B = int(raw_input())
                packet = struct.pack(">BHBBBBBBBBBBBBB", configblocksize, configpoint, heel_lace, right_left, timeout,
                    stride_rate, scale_factor_A, scale_factor_B, min_recording_voltage_MSB, min_recording_voltage_LSB,
                    deep_sleep_voltage_MSB, deep_sleep_voltage_LSB, R, G, B )
            elif configpoint == 0xAA05:
                print "config block size : "
                configblocksize = int(raw_input())
                print "min conn interval : "
                min_conn_interval = int(raw_input())
                print "max conn interval : "
                max_conn_interval = int(raw_input())
                print "ble slave latency : "
                ble_slave_latency = int(raw_input())
                packet = struct.pack(">BHBBB", configblocksize, configpoint, min_conn_interval, max_conn_interval, ble_slave_latency)
            elif configpoint == 0xAA06:
                print "config block size : "
                configblocksize = int(raw_input())
                print "raw data : "
                raw_data = int(raw_input())
                packet = struct.pack(">BHB", configblocksize, configpoint, raw_data)
            elif configpoint == 0xAA07:
                print "config block size : "
                configblocksize = int(raw_input())
                print "bettery capacity : "
                bettery_capacity = int(raw_input())
                packet = struct.pack(">BHB", configblocksize, configpoint, bettery_capacity)
            print_dict(scribe.write_config_data(packet))
        elif cmd == "perform diagnostics":
            print "update Calibration (default 0) :  "
            updateCalibration = int(raw_input())
            print_dict(scribe.perform_diagnostics(updateCalibration))
        elif cmd == "get diagnostics results":
            print "packet Offset (default 0) : "
            packetOffset = int(raw_input())
            print_dict(scribe.get_diagnostics_results(packetOffset))
        elif cmd == "device information service":
            dis = DeviceInformation(device)
            # Print out the DIS characteristics.
            print('Manufacturer: {0}'.format(dis.manufacturer))
            print('Model: {0}'.format(dis.model))
            print('Serial: {0}'.format(dis.serial))
            print('Hardware Revision: {0}'.format(dis.hw_revision))
            print('Software Revision: {0}'.format(dis.sw_revision))
            print('Firmware Revision: {0}'.format(dis.fw_revision))
            print('System ID: {0}'.format(dis.system_id))
            print('Regulatory Cert: {0}'.format(dis.regulatory_cert))
            print('PnP ID: {0}'.format(dis.pnp_id))
        elif cmd == "disconnect":
            print "Disconecting device "
            print "#{}: {} {} {} {}".format(devices.index(device), device.name, device.id, device.is_connected, device.advertised)
            bt.disconnect()

    bt.end()
def main():
    target_device_name = u'RN4871-1444'
    target_device = None

    # Clear any cached data because both bluez and CoreBluetooth have issues with
    # caching data and it going stale.
    ble.clear_cached_data()

    # Get the first available BLE network adapter and make sure it's powered on.
    adapter = ble.get_default_adapter()
    adapter.power_on()
    print('Using adapter: {0}'.format(adapter.name))

    # Start scanning with the bluetooth adapter.
    adapter.start_scan()
    # Use atexit.register to call the adapter stop_scan function before quiting.
    # This is good practice for calling cleanup code in this main function as
    # a try/finally block might not be called since this is a background thread.
    atexit.register(adapter.stop_scan)

    print('Searching for devices...')
    print('Press Ctrl-C to quit (will take ~30 seconds on OSX).')

    # Enter a loop and print out whenever a new device is found, and break when target is found.
    known_uarts = set()
    while type(target_device) == type(None):

        # Call UART.find_devices to get a list of any UART devices that
        # have been found.  This call will quickly return results and does
        # not wait for devices to appear.
        found = set(DeviceInformation.find_devices())

        # Check for new devices that haven't been seen yet and print out
        # their name and ID (MAC address on Linux, GUID on OSX).
        new = found - known_uarts
        for device in new:
            if (device.name != None and device.id != None):
                dev_name = unicode(device.name).encode('ascii', 'xmlcharrefreplace')
                dev_id = unicode(device.id).encode('ascii', 'xmlcharrefreplace')
                print('Found Device: {0} [{1}]'.format(dev_name, dev_id))
                if (dev_name == target_device_name):
                    target_device = device
                    print('Found Target Device!')
        known_uarts.update(new)

        if (type(target_device) != type(None)):
            break

        # Sleep for a half second and see if new devices have appeared.
        time.sleep(0.2)

    print('Connecting to device...')
    target_device.connect()  # Will time out after 60 seconds, specify timeout_sec parameter
                             # to change the timeout

    # Once connected do everything else in a try/finally to make sure the device
    # is disconnected when done.
    # try:
    print('Discovering services...')
    UART.discover(target_device)

    print('Service discovery complete')
    articulate_board = UART(target_device)

    time.sleep(1.0)

    print('Starting a comm test...')

    # comm test parameters

    NUM_TRIALS = 20
    HEADER_VAL = chr(253)
    PACKET_SIZE = 40
    OVERHEAD = 2
    DATA_SIZE = PACKET_SIZE - OVERHEAD
    MAX_NUM_ERRORS = 10
    
    tripTimes = []
    successes = 0
    failures = 0

    for i in range(0,NUM_TRIALS):
        print('Trial', i)

        # generate random string
        # randomString = ''.join([random.choice(string.ascii_letters + string.digits) for n in xrange(DATA_SIZE)])
        randomString = chr(i+ord('0'))*30+'AAAAAAAA'
        reversedString = randomString[::-1]

        # get sum of character values
        checksum = chr(sum([ord(x) for x in randomString]) % 256)

        # start timer
        startTime = time.time()

        # send bytes
        articulate_board.write(HEADER_VAL)
        articulate_board.write(randomString)
        articulate_board.write(checksum)

        # wait for reception
        msg = ''
        error = 0
        while((len(msg) < PACKET_SIZE) and (error < MAX_NUM_ERRORS)):
            received = articulate_board.read(timeout_sec=1)
            if received is not None:
                msg = msg + (received)
            else:
                error=error+1

        # stop timer
        endTime = time.time()
        roundTripTime = endTime - startTime

        expectedResponse = (HEADER_VAL + reversedString + checksum)
        success = len(msg) == PACKET_SIZE and msg == expectedResponse

        successes = successes + (1 if success else 0)
        failures = failures + (0 if success else 1)

        if(success):
            tripTimes.append(roundTripTime)
            print("Exact success")
        elif(len(msg) == PACKET_SIZE):
            print("Received a full packet, but it was invalid.")
            print("Expected: " + (expectedResponse.decode('cp437')))
            print("Received: " + (msg.decode('cp437')))
        elif(msg == ''):
            print("Error: received nothing in " + str(roundTripTime) + " seconds. Checksum was: " + str(ord(checksum)))
        else:
            print("Error: didn't receive full packet in time")

        if(len(tripTimes) > 0):   
           averageTime = sum(tripTimes) / len(tripTimes)
        else:
            averageTime = -1

        print("Average round trip time was: " + str(averageTime) + " seconds")
        print("Success rate: " + str(successes) + "/" + str(successes+failures))

    # except Exception, e:
    #     print('Failed with Exception: \'{}\''.format(e))

    # finally:
        # Make sure device is disconnected on exit.
    target_device.disconnect()
Esempio n. 11
0
def main():
    #    provider.clear_cached_data()

    adapter = provider.get_default_adapter()

    print "Waiting powered on..."
    adapter.power_on()
    while not adapter.is_powered:
        time.sleep(1)

    print 'Using adapter {0}'.format(adapter.name)

    device = None

    try:
        print 'Start scanning...'
        adapter.start_scan()
        device = provider.find_device([], SENSOR_NAME, SCAN_TIMEOUT)
    finally:
        adapter.stop_scan()

    if device is None:
        print 'SensorTag not found'
        return

    try:
        print 'Connecting...'
        device.connect(CONNECT_TIMEOUT)
    except RuntimeError as e:
        print e
        return

    try:
        print 'Discovering device information...'
        DeviceInformation.discover(device)

        di = DeviceInformation(device)
        print 'Manufacture: {0}'.format(di.manufacturer)
        print 'Model: {0}'.format(di.model)
        print 'Serial: {0}'.format(di.serial)
        print 'Hardware Revision: {0}'.format(di.hw_revision)
        print 'Software Revision: {0}'.format(di.sw_revision)
        print 'Firmware Revision: {0}'.format(di.fw_revision)
        print 'System ID: {0}'.format(di.system_id)

        print 'Discovering service...'
        try:
            device.discover([MOVEMENT_SENSOR_SRV], [
                MOVEMENT_SENSOR_CHR_CONFIG, MOVEMENT_SENSOR_CHR_DATA,
                MOVEMENT_SENSOR_CHR_PERIOD
            ], DISCOVER_TIMEOUT)
        except RuntimeError as e:
            print e
            return

        service = device.find_service(MOVEMENT_SENSOR_SRV)
        if service is None:
            print 'Service not found'
            return

        print 'Setting period...'
        c_period = service.find_characteristic(MOVEMENT_SENSOR_CHR_PERIOD)
        if c_period is None:
            print 'Period Characteristics not found'
            return
        c_period.write_value('\x0a')  # 100 msec

        #
        # Notification callback
        #
        def on_notified(data):
            [gx, gy, gz, ax, ay, az, mx, my, mz] = gam.raw2nineaxis(data)
            ahrs.update(gam.deg2rad(gx), gam.deg2rad(gy), gam.deg2rad(gz), ax,
                        ay, az, mx, my, mz)
            roll, pitch, yaw = gam.quaternion2euler(ahrs.quaternion)
            print '%10.5f %10.5f %10.5f' % (
                math.degrees(roll), math.degrees(pitch), math.degrees(yaw))

        print 'Subsribing notification...'
        c_data = service.find_characteristic(MOVEMENT_SENSOR_CHR_DATA)
        if c_data is None:
            print 'Data Characteristics not found'
            return
        c_data.start_notify(on_notified)

        print 'Enabling notification...'
        c_data._device._peripheral.setNotifyValue_forCharacteristic_(
            True, c_data._characteristic)

        print 'Enabling sensor...'
        c_config = service.find_characteristic(MOVEMENT_SENSOR_CHR_CONFIG)
        if c_config is None:
            print 'Config Characteristics not found'
            return
        c_config.write_value('\x7f\x02')  # ACC RANGE 8G

        print 'Now, sleeping 60 seconds...'
        time.sleep(60)

    finally:
        print 'Disconnecting device...'
        device.disconnect()
def main():
    # Clear any cached data because both bluez and CoreBluetooth have issues with
    # caching data and it going stale.
    ble.clear_cached_data()

    # Get the first available BLE network adapter and make sure it's powered on.
    adapter = ble.get_default_adapter()
    adapter.power_on()
    print('Using adapter: {0}'.format(adapter.name))

    # Disconnect any currently connected UART devices.  Good for cleaning up and
    # starting from a fresh state.
    print('Disconnecting any connected Timer devices...')
    TimerService.disconnect_devices()

    # Scan for devices.
    print('Searching for Timer device...')
    try:
        adapter.start_scan()
        # Search for the first device found (will time out after 60 seconds
        # but you can specify an optional timeout_sec parameter to change it).
        device = ble.find_device(name=device_name)
        if device is None:
            raise RuntimeError('Failed to find Timer device!')
    finally:
        # Make sure scanning is stopped before exiting.
        adapter.stop_scan()
        pass

    print('Connecting to device...')
    device.connect()  # Will time out after 60 seconds, specify timeout_sec parameter
                      # to change the timeout.

    # Once connected do everything else in a try/finally to make sure the device
    # is disconnected when done.
    # Wait for service discovery to complete for the DIS service.  Will
    # time out after 60 seconds (specify timeout_sec parameter to override).
    try:
        print('Discovering services...')
        DeviceInformation.discover(device)

        # Once service discovery is complete create an instance of the service
        # and start interacting with it.
        dis = DeviceInformation(device)

        # Print out the DIS characteristics.
        print('Manufacturer: {}'.format(dis.manufacturer))
        print('Model: {}'.format(dis.model))
        print('Serial: {}'.format(dis.serial))
        print('Hardware Revision: {}'.format(dis.hw_revision))
        print('Software Revision: {}'.format(dis.sw_revision))
        print('Firmware Revision: {}'.format(dis.fw_revision))
        print('System ID: {}'.format(dis.system_id))
        print('Regulatory Cert: {}'.format(dis.regulatory_cert))
        print('PnP ID: {}'.format(dis.pnp_id))
        print('RSSI: {}'.format(device.rssi))

        # loop through services
        for service in device.list_services():
            print("")
            print("Service: {}".format(service.uuid))
            print("Characteristics:")
            for char in service.list_characteristics():
                val = char.read_value()
                print(" {} - {} - {}".format(char.uuid, val, bytes_to_str(val)))
                """
                print(" Descriptors:")
                for desc in char.list_descriptors():
                    try:
                        print("   {} - {}".format(desc.uuid, desc.read_value()))
                    except AttributeError as e:
                        print("   {} - not readable".format(desc.uuid))
                """
    finally:
        # Make sure device is disconnected on exit.
        device.disconnect()