def send_data_xbee(data, dest_addr=None):
"""
Sends the given data to the solar device with the given 64-bit address. If
none is provided, the data is sent to all panels.
Args:
data (Bytearray): the data to send.
dest_addr (String, optional): the 64-bit address of the solar panel to
send the data to. If none is specified, the data will be sent to
all panels.
Returns:
``True`` if the data could be sent successfully, ``False`` otherwise.
"""
try:
if dest_addr is None:
device.send_data_broadcast(data)
else:
device.send_data(
RemoteXBeeDevice(device,
XBee64BitAddress.from_hex_string(dest_addr)),
data)
return True
except XBeeException as e:
print_error("Could not send data: {}".format(str(e)))
return False
def sendCommand(request):
request.setHeader('Access-Control-Allow-Origin', '*')
request.setHeader('Access-Control-Allow-Methods', 'GET')
request.setHeader('Access-Control-Allow-Headers', 'x-prototype-version,x-requested-with')
request.setHeader('Access-Control-Max-Age', 2520)
content = json.loads(request.content.read().decode("utf8"))
print(content)
command = content['command']
DID = content['deviceID']
if DID != "00000000":
toSend={"CMD":"HMOD","MODE":command, "TS": str(int(time.time()))}
remote_device = RemoteXBeeDevice(device, XBee64BitAddress.from_hex_string(DID))
# Send data using the remote object.
device.send_data_async(remote_device, json.dumps(toSend))
else:
toSend={"CMD":"HMOD","MODE":command, "TS": str(int(time.time()))}
print("broadcasting command " + json.dumps(toSend))
device.send_data_broadcast(json.dumps(toSend))
return json.dumps({"result":"success"})
class value_comm:
device = XBeeDevice("/dev/tty.usbserial-A50285BI", 9600)
remote_xbee = RemoteXBeeDevice(
device, XBee64BitAddress.from_hex_string("0013A2004189A911"))
def __init__(self, switch, speed, altitude, direction):
self.switch = switch
self.speed = speed
self.altitude = altitude
self.direction = direction
def open_conn(self):
self.device.open()
def close_conn(self):
self.device.close()
def update_switch(self, value):
self.switch = value
def update_speed(self, value):
self.speed = value
def update_altitude(self, value):
self.altitude = value
def update_direction(self, value):
self.direction = value
def get_values(self):
return self.switch, self.speed, self.altitude, self.direction
def xbee_send(self):
self.device.send_data(self.remote_xbee, str(self.get_values()))
def __init__(self):
self.serialPort = "COM3"
self.device = XBeeDevice(self.serialPort, 9600)
self.remote_device = RemoteXBeeDevice(
self.device, XBee64BitAddress.from_hex_string(
"0013A2004068CC5D")) # "0013A20040XXXXXX"
self.callback = None
def parse(data):
global device, modeV, pub_send_u_rudder_sail, pub_send_control_mode, rudder_sail
splitdata = data.split(b'#')
try:
index = splitdata.index(b'M')
modeV = struct.unpack('i', splitdata[index + 1])[0]
except ValueError:
pass
try:
index = splitdata.index(b'C')
splitted = splitdata[index + 1].split(b',')
rudder = struct.unpack('d', splitted[0])[0]
sail = struct.unpack('d', splitted[1])[0]
rudder_sail = Twist()
rudder_sail.angular.x = rudder
rudder_sail.angular.y = sail
except ValueError:
pass
try:
index = splitdata.index(b'S')
process = subprocess.run(splitdata[index + 1].decode('utf8').split(),
stdout=subprocess.PIPE)
output = process.stdout
try:
device.send_data(
RemoteXBeeDevice(device,
XBee64BitAddress.from_hex_string("00")),
bytearray(("R#").encode('utf8') + output))
except TimeoutException:
print("timeout")
except ValueError:
pass
def tx_callback(self, msg):
''' ROS: callback for data wanting to be transmitted by the XBee radio '''
self.get_logger().info(f"Transmitting: {msg.data}")
dev_addr = XBee64BitAddress.from_hex_string(msg.dev_addr)
self.device.send_data_async_64(
dev_addr,
bytearray(struct.pack(str(len(msg.data)) + 'c', *msg.data)))
def refreshSystem(self): # 用于刷新全部系统信息
Raw802Device.open()
remote_device = RemoteXBeeDevice(
Raw802Device, XBee64BitAddress.from_hex_string("0013A200415D2430"))
Raw802Device.send_data(
remote_device, " ") # 二进制:0010 0000,0000为每次发送时的帧别信息,0000为接收平台所有信息
Raw802Device.close()
def SendCommandEnvRec(res, dados, device):
remote_device = RemoteXBeeDevice(
device, XBee64BitAddress.from_hex_string('' + res))
# Send data using the remote object.
leit = "0"
try:
device.send_data(remote_device, dados)
#time.sleep(0.2)
timeout_start = time.time()
xbee_message = device.read_data()
while (xbee_message is None) and time.time() < timeout_start + timeout:
xbee_message = device.read_data()
print(xbee_message)
if (xbee_message is not None):
leit = str(float.fromhex(xbee_message.data.decode()))
print("From %s >> %s" %
(xbee_message.remote_device.get_64bit_addr(),
float.fromhex(xbee_message.data.decode())))
time.sleep(1)
except:
print("Erro ao enviar o comando")
return leit
def __init__(self):
self.serialPort = "/dev/tty.SLAB_USBtoUART" # port where Xbee is connected find by doing ls /dev/tty* on terminal
self.device = XBeeDevice(self.serialPort, 9600)
self.remote_device = RemoteXBeeDevice(
self.device, XBee64BitAddress.from_hex_string(
"0013A200406343f7")) # "0013A20040XXXXXX"
self.callback = None
def terminalSignal(self): # 用于获取平台本身的信息
Raw802Device.open()
remote_device = RemoteXBeeDevice(
Raw802Device, XBee64BitAddress.from_hex_string("0013A200415D2430"))
Raw802Device.send_data(
remote_device,
"!") # 二进制:0010 0001,0010为每次发送时的帧别信息,0001为接收平台当前除模组信息外的信息
Raw802Device.close()
def getmodule(self): # 要求平台发送模组信息,用于获得及刷新模组信息
Raw802Device.open()
remote_device = RemoteXBeeDevice(
Raw802Device, XBee64BitAddress.from_hex_string("0013A200415D2430"))
Raw802Device.send_data(
remote_device,
"“") # 二进制:0010 0010,前0010为每次发送时的帧别信息,后0010为接收平台当前模组信息
Raw802Device.close()
def send(self, address, packet):
try:
self.device.send_data_async(
RemoteXBeeDevice(self.device,
XBee64BitAddress.from_hex_string(address)),
packet.encode)
except (TimeoutException, InvalidPacketException):
log.error(f'({address}) not found\n')
except AttributeError:
log.error('SEND: Antenna not connected\n')
def SendNewCoords(swarm_control_signal, agentNum):
#Set up the remote device object for the specified agent
remote_device = RemoteXBeeDevice(groundStation, XBee64BitAddress.from_hex_string(QUAD_ID[agentNum]))
#Compile the 3-number coordinate set for the specified agent into a single string with each number delimited by a comma
txPayload = numpy.array2string(swarm_control_signal[agentNum], separator=',')
#For monitoring:
print("Sent: ", txPayload)
#Send the data to the remote_device object defined above
groundStation.send_data(remote_device, txPayload)
def send_sync(self, address, packet):
"""Aspetta l'ack, se scatta il
timeout e non riceve risposta
lancia l'eccezione
"""
try:
self.device.send_data(
RemoteXBeeDevice(self.device,
XBee64BitAddress.from_hex_string(address)),
packet.encode)
except (TimeoutException, InvalidPacketException):
log.error('ACK send_sync not received\n')
except AttributeError:
log.error('SEND_SYNC: Antenna not connected\n')
def mandar_mensage(self,
dir_64,
msg=PING,
dir_16=None) -> TransmitStatusPacket:
"""
Manda el mensaje al destinatario por defecto.
"""
ack = None
# Transformamos el mensaje recibido en un string tratable
msg = str(msg)
# Recuperamos la dirección del dispositivo remoto en formato de 64 bits
high = None
try:
dir_64 = XBee64BitAddress.from_hex_string(dir_64)
high = dir_64 or self.remote_zigbee.get_64bit_addr()
except:
high = XBee64BitAddress.UNKNOWN_ADDRESS
# Recuperamos la dirección del dispositivo remoto en 16 bits o la marcamos como desconocida
low = None
try:
low = XBee16BitAddress.from_hex_string(
dir_16) or self.remote_zigbee.get_16bit_addr()
except:
low = XBee16BitAddress.UNKNOWN_ADDRESS
try:
# Intentamos mandar el mensaje
## Versión fragmentando el paquete
## Versión sin fragmentar el paquete
ack = super().send_data_64_16(high, low, msg)
# self.logger.debug(format(ack))
if ack.transmit_status is not TransmitStatus.SUCCESS:
self.logger.warning(
"Algo no fue bien mandando el mensaje:\n{}\nError:\t{}".
format(msg, ack))
except Exception as e:
error = "Se ha encontrado un error al mandar el mensaje\n\t" + str(
e)
self.logger.error(error)
raise EOFError(error)
# ack = super().send_data_64_16(high, low, msg)
# Añadir código para el reintento
else:
# TODO Borrar esta traza de control
self.logger.debug("Mandado mensaje:\t" + msg)
return ack
def main():
# Instantiate XBee device
device = setup_xbee()
try:
remote_device = RemoteXBeeDevice(
device, XBee64BitAddress.from_hex_string(MAC_ADDR))
if remote_device is None:
print("Invalid MAC Address")
exit(1)
print("Sending '%s' to %s" %
(DATA_TO_SEND, remote_device.get_64bit_addr()))
device.send_data(remote_device, DATA_TO_SEND)
print("Success")
finally:
if device is not None and device.is_open():
device.close()
def _get_update_tasks_from_64bit_addr(self,
x64bit_str,
xpro_path,
timeout=None):
"""
Adds update tasks for node with the provided 64-bit address.
Params:
x64bit_str (String): 64-bit address of the node.
xpro_path (String): Absolute path of the '.xpro' file in the gateway.
timeout (Integer, optional, default=`None`): Maximum time to wait
for target read operations during the apply profile.
"""
if not XBee64BitAddress.is_valid(x64bit_str):
log.warning("%s: invalid 64-bit address '%s'",
self._INVALID_TASK_ERROR, x64bit_str)
return
self._update_tasks.update({
XBee64BitAddress.from_hex_string(x64bit_str): (xpro_path, timeout)
})
def send_data_to_address(self, address, data):
remote_device = RemoteDigiMeshDevice(
self.device, XBee64BitAddress.from_hex_string(address))
self.device.send_data(remote_device, data)
def send_data():
global count
count = count + 1
remote_device = RemoteXBeeDevice(
my_device, XBee64BitAddress.from_hex_string(DRONE_ID))
my_device.send_data(remote_device, DATA_TO_SEND + str(count))
def main():
print(" +----------------------------------------------------------+")
print(" | XBee Python Library Network modifications Devices Sample |")
print(" +----------------------------------------------------------+\n")
xbee_network = None
xbee = XBeeDevice(PORT, BAUD_RATE)
try:
xbee.open()
xbee_network = xbee.get_network()
xbee_network.set_discovery_timeout(15) # 15 seconds.
xbee_network.add_discovery_process_finished_callback(callback_discovery_finished)
xbee_network.add_network_modified_callback(cb_network_modified)
print("* Discover remote XBee devices...")
xbee_network.start_discovery_process()
while xbee_network.is_discovery_running():
time.sleep(1)
print_nodes(xbee_network)
print("\n* Manually add a new remote XBee device...")
remote = RemoteXBeeDevice(
xbee,
x64bit_addr=XBee64BitAddress.from_hex_string("1234567890ABCDEF"),
node_id="manually_added")
xbee_network.add_remote(remote)
print_nodes(xbee_network)
time.sleep(1)
print("\n* Update the last added remote XBee device...")
remote = RemoteXBeeDevice(xbee, x64bit_addr=remote.get_64bit_addr(), node_id="updated_node")
xbee_network.add_remote(remote)
print_nodes(xbee_network)
time.sleep(1)
print("\n* Manually remove a remote XBee device...")
xbee_network.remove_device(remote)
print_nodes(xbee_network)
time.sleep(1)
print("\n* Clear network...")
xbee_network.clear()
print_nodes(xbee_network)
finally:
if xbee_network is not None:
xbee_network.del_discovery_process_finished_callback(callback_discovery_finished)
xbee_network.del_network_modified_callback(cb_network_modified)
if xbee is not None and xbee.is_open():
xbee.close()
def addRemoteAccessory(self, accessoryName, xbeeAddressString):
self.remoteAccessories[accessoryName] = RemoteXBeeDevice(
self.baseXbee, XBee64BitAddress.from_hex_string(xbeeAddressString))
#configure for XBee
PORT = '/dev/ttyUSB0'
BAUD_RATE = 230400
REMOTE_DRONE_ID = "0013A200419B5208"
DRONE_ID = '#d1'
data = {}
waypoint = {}
_send_mission_once = None
sending_label = None
command_queue = CommandQueue()
my_device = XBeeDevice(PORT, BAUD_RATE)
my_device.open()
remote_device = RemoteXBeeDevice(
my_device, XBee64BitAddress.from_hex_string(REMOTE_DRONE_ID))
## Connect to socket
socket = SocketIO('https://nicwebpage.herokuapp.com', verify=True)
socket_a = socket.define(BaseNamespace, '/JT601')
socket_a.emit("joinPi")
#print("\nConnecting to vehicle on: %s" % connection_string)
print("Connecting to vehicle...")
vehicle = Drone('tcp:127.0.0.1:5762')
print("Connected!!!")
def is_timestamp_received(var):
if command_queue.__contains__(var):
return True
def main():
DevList = {}
FormedAll = [] # Ana Dig values after passing through Format()
FormedAnalog = [] # Ana values after passing through Format()
FormedDigital = [] # Dig values after passing through Format()
example_text = '''Example usage:
# Run discovery process on nework to find XBEE-IO devices
./xbeeio.py --port ttyUSB1 --discover
# Readback all IO in default format and output style
./xbeeio.py --port ttyUSB1 --remote XBEE1 --readall
# Read all IO and format analogue readings as rounded up voltages
./xbeeio.py --port ttyUSB1 --remote XBEE1 --readall --format volts
# Read ADC inputs 0,1 & 3 and format readings as rounded up (TMP36) temperatures
./xbeeio.py --port ttyUSB1 --remote XBEE1 --readadc 031 --format temp
# Read ADC input 2 and format reading as rounded up 4-20mA
./xbeeio.py --port ttyUSB1 --remote XBEE1 --readadc 2 --format 420
# Read Dig Ins 0,1,2 & 3
./xbeeio.py --port ttyUSB1 --remote XBEE1 --readdigin 0321
# Read Dig In 0
./xbeeio.py --port ttyUSB1 --remote XBEE1 --readdigin 0
# Set Dig Out 0,1 & 3 Enabled
./xbeeio.py --port ttyUSB1 --remote XBEE1 --setdigouts 1101
# Set Dig out 1 & 3 Enabled
./xbeeio.py --port ttyUSB1 --remote XBEE1 --setdigouts 0101
# Set Dig Out 0 = Enabled
./xbeeio.py --port ttyUSB1 --remote XBEE1 --setdigouts 1000
# Read all inputs and output in a logline format with analog voltage formatted as rounded up volts
./xbeeio.py --port ttyUSB1 --remote XBEE1 --readall --outputlogline --format volts
'''
ap = ArgParser(description='XBEE-IO Communication Script',
epilog=example_text,
formatter_class=argparse.RawDescriptionHelpFormatter)
ap.add_argument("--port",
action='store',
dest='port',
help="serial port to connect to",
required=True)
ap.add_argument("--discover",
action='store_true',
dest='show',
help="discover the digimesh network devices")
ap.add_argument("--remote",
action='store',
dest='remote',
help="specify the target XBee NI identifier to talk to")
ap.add_argument("--readall",
action='store_true',
dest='readall',
help="read back all input/output states")
ap.add_argument("--format",
action='store',
dest='format',
help="printable format : volts|420|temp")
ap.add_argument("--readadc",
action='store',
dest='anapins',
help="read back on or more analog inputs")
ap.add_argument("--readdigin",
action='store',
dest='digipins',
help="read back one or more digital inputs")
ap.add_argument("--outputstd",
action='store_true',
dest='std',
help="display the output in human readable form (default)")
ap.add_argument("--outputlogline",
action='store_true',
dest='log',
help="display output in single data log format")
ap.add_argument("--outputjson",
action='store_true',
dest='json',
help="display output in JSON format")
ap.add_argument("--setdigouts",
action='store',
dest='setdigout',
help="set digouts as 4bit state <0123>")
ap.add_argument("--quiet",
action='store_true',
dest='quiet',
help="suppress extra output")
if len(sys.argv) == 1:
ap.print_help(sys.stderr)
sys.exit(1)
args = ap.parse_args()
PORT = '/dev/' + args.port
try:
if args.show:
# Instatiate RPi Main Hub
RPi = DigiMeshDevice(PORT, BAUD_RATE)
RPi.open()
DevList = ShowRemote(RPi, args.quiet)
# Export network devices to file
with open('network.conf', 'w+') as f:
f.truncate(0) # Reset file contents
for node, address in DevList.items():
f.write(node + '|' + address + '\n')
elif args.remote:
# Instatiate RPi Main Hub
RPi = DigiMeshDevice(PORT, BAUD_RATE)
RPi.open()
# Scan and save network if it does not exist
if not os.path.exists('network.conf'):
DevList = NetworkDiscovery(RPi, args.quiet)
with open('network.conf', 'w+') as f:
for node, address in DevList.items():
f.write(node + '|' + address + '\n')
# Repopulate dictionary for practicality
with open("network.conf") as f:
for line in f:
(node, address) = line.strip().split('|')
DevList.update({node: address})
# Make sure target NodeID exists in network
if args.remote in DevList.keys():
RemoteXBee = RemoteDigiMeshDevice(
RPi,
XBee64BitAddress.from_hex_string(
str(DevList.get(args.remote))))
#print("\n")
else:
print("Target NodeID: " + args.remote +
" not found in network.conf, try rescan first.")
exit()
if args.setdigout:
SetDigitalOut(RemoteXBee, args.setdigout, args.quiet)
# Either --readall
if args.readall:
args.anapins = '0,1,2,3'
args.digipins = '0,1,2,3'
readall = '0,1,2,3'
ReadInputs = ReadAnalog(RemoteXBee, readall,
args.quiet) + ReadDigital(
RemoteXBee, readall, args.quiet)
FormedAll = Format(RemoteXBee, ReadInputs, args.format,
args.anapins, args.digipins)
# Or read specific
else:
if args.anapins:
ReadInputs = ReadAnalog(RemoteXBee, args.anapins, args.quiet)
FormedAnalog = Format(RemoteXBee, ReadInputs, args.format,
args.anapins, '') # No digital ''
if args.digipins:
ReadInputs = ReadDigital(RemoteXBee, args.digipins, args.quiet)
FormedDigital = Format(RemoteXBee, ReadInputs, args.format, '',
args.digipins) # No analog ''
if args.std:
if FormedAll:
Output(RemoteXBee, FormedAll, args.format, args.remote, 'std',
args.anapins, args.digipins, args.quiet)
else:
Output(RemoteXBee, FormedAnalog + FormedDigital, args.format,
args.remote, 'std', args.anapins, args.digipins,
args.quiet)
elif args.json:
if FormedAll:
Output(RemoteXBee, FormedAll, args.format, args.remote, 'json',
args.anapins, args.digipins, args.quiet)
else:
Output(RemoteXBee, FormedAnalog + FormedDigital, args.format,
args.remote, 'json', args.anapins, args.digipins,
args.quiet)
elif args.log:
if FormedAll:
Output(RemoteXBee, FormedAll, args.format, args.remote, 'log',
args.anapins, args.digipins, args.quiet)
else:
Output(RemoteXBee, FormedAnalog + FormedDigital, args.format,
args.remote, 'log', args.anapins, args.digipins,
args.quiet)
else:
if not args.show:
if FormedAll:
Output(RemoteXBee, FormedAll, args.format, args.remote,
'default', args.anapins, args.digipins, args.quiet)
else:
Output(RemoteXBee, FormedAnalog + FormedDigital,
args.format, args.remote, 'default', args.anapins,
args.digipins, args.quiet)
finally:
if RPi is not None and RPi.is_open():
RPi.close()
from builtins import input
from digi.xbee.models.message import XBeeMessage
from digi.xbee.models.address import XBee16BitAddress, XBee64BitAddress
from DisplayManager import DisplayManager
import sys
try:
COMport = sys.argv[1]
except IndexError:
COMport = 'COM9'
baud_rate = 9600
remote_address = '0010'
transmitDevice = XBeeDevice(COMport, baud_rate)
remoteDevice = RemoteXBeeDevice(
transmitDevice, XBee64BitAddress.from_hex_string(remote_address),
XBee16BitAddress.from_hex_string(remote_address))
def main():
xbeeCommunication()
def xbeeCommunication():
transmitDevice.close()
print('transmitting to: ')
print(remoteDevice.get_16bit_addr())
cont = 'y'
pb = PB.PathBuilder()
def callback_device_discovered(remote):
print("Device discovered: %s" % remote)
MAC = str(remote)
MAC1 = MAC.split(' -')
MAC = str(MAC1[:1])
MACS = str(MAC[2:18])
MACST = "" + MACS
#realiza uma busca pelo MAC no banco de dados.
cursor.execute("SELECT `MAC` FROM `ESTACAO` WHERE `MAC`='" +
MACST + "'")
resultado = cursor.fetchall()
#verifica se o MAC já foi inserido no banco de dados
contrbanc = 0
for linha in resultado:
contrbanc = 1
if contrbanc == 0:
try:
# TODO: Replace with the 64-bit address of the remote device.
REMOTE_DEVICE_ADDRESS = XBee64BitAddress.from_hex_string(
"" + MACST)
remote_xbee = RemoteXBeeDevice(
device, x64bit_addr=REMOTE_DEVICE_ADDRESS)
device.read_device_info()
print("Read device info of local device successfully")
remote_xbee.read_device_info()
print("Read device info of remote device successfully")
print("\nLocal:")
print(device.get_node_id())
print(device.get_hardware_version())
print(hex_to_string(device.get_firmware_version()))
print(device.get_protocol())
# Read the output power level.
#print(""+str(device.get_power_level()))
print("\nRemote:")
print(remote_xbee.get_node_id())
print(remote_xbee.get_hardware_version())
print(hex_to_string(remote_xbee.get_firmware_version()))
print(remote_xbee.get_protocol())
print("Teste-->" + str(device.get_parameter("DB")))
#ni = ''.join(random.choice(string.ascii_letters) for i in range(random.randint(1, 20)))
#device.set_parameter("NI", bytearray(ni, "utf8"))
#param = device.get_parameter("NI")
#assert (param.decode() == ni)
#ni = ''.join(random.choice(string.ascii_letters) for i in range(random.randint(1, 20)))
#remote_xbee.set_parameter("NI", bytearray(ni, "utf8"))
#param = remote_xbee.get_parameter("NI")
#assert (param.decode() == ni)
print("\nTest finished successfully")
cursor.execute(
"INSERT INTO ESTACAO( MAC, NOM, VERSHARD, CODVER, PROTVERS) VALUES ('"
+ MACST + "','" + str(remote_xbee.get_node_id()) +
"','" + str(remote_xbee.get_hardware_version()) +
"','" +
str(hex_to_string(remote_xbee.get_firmware_version()))
+ "','" + str(remote_xbee.get_protocol()) + "')")
conexao.commit()
print("MAC inserido!!!")
finally:
if device is not None and device.is_open():
print("Não inseriu no banco de dados!!!")
else:
print("MAC já inserido!!!")
def remote_Zigbee(self, mac):
self.__remote = RemoteZigBeeDevice(
self, XBee64BitAddress.from_hex_string(mac))
# MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
# ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
# WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
# ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
# OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
from digi.xbee.models.address import XBee64BitAddress
from digi.xbee.devices import XBeeDevice, RemoteXBeeDevice
from digi.xbee.io import IOLine, IOMode
# TODO: Replace with the serial port where your local module is connected to.
PORT = "COM1"
# TODO: Replace with the baud rate of your local module.
BAUD_RATE = 9600
# TODO: Replace with the 64-bit address of the remote device.
REMOTE_DEVICE_ADDRESS = XBee64BitAddress.from_hex_string("0013A20040D47B73")
def main():
print(" +---------------------+")
print(" | Read IO Sample Test |")
print(" +---------------------+\n")
device = XBeeDevice(PORT, BAUD_RATE)
try:
device.open()
device.set_io_configuration(IOLine.DIO1_AD1, IOMode.DIGITAL_IN)
CMD_SHUTDOWN = 0xFF
CMD_ERROR = 0x55
CMD_POWERON = 0xEE
DETECTOR_SHUTDOWN = 0xD0
DETECTOR_OPERATIONAL = 0xD1
MAX_TEMP = 32
#adjust as appropriate for the configuration
BAUD_RATE = 9600
MAC_COORD_PORT = "/dev/tty.usbserial-DN01J874"
WIN_COORD_PORT = "COM"
PAN_ID = 0x4444
COORD_MAC = 0x0013A20041531EE7
ROUT_MAC = 0x0013A20041052F50
ROUTER_ID = "end-node"
router_64addr = XBee64BitAddress.from_hex_string("0013A20041052F50")
# main entry point for xbee_app
def main():
coord = coordinator(MAC_COORD_PORT, BAUD_RATE) #coordinator node
# set up variables for tracking packets and temperature
average_temp = 0
read_count = 0
total_temp = 0
temperature_readings = []
packet_num = 0
# open the node, print it's information and connect the router node
'''
Created on Feb 18, 2019
@author: Jake
'''
from digi.xbee.devices import XBeeDevice, RemoteXBeeDevice
import RobotInstruction
from builtins import input
from digi.xbee.models.address import XBee16BitAddress, XBee64BitAddress
COMport = 'COM9'
baud_rate = 9600
remote_address = '0008'
transmitDevice = XBeeDevice(COMport,baud_rate)
remoteDevice = RemoteXBeeDevice(transmitDevice, XBee64BitAddress.from_hex_string(remote_address), XBee16BitAddress.from_hex_string(remote_address))
def main():
transmitDevice.close()
print('transmitting to: ')
print(remoteDevice.get_16bit_addr())
cont = 'y'
while(cont != 'q'):
try:
transmitDevice.open()
instruction = getCommand()
#print(hex(instruction))
sendInstructions(instruction)
def establish_connection(
address): # 首次建立连接时使用,平台端接收到电脑端的地址即成功,但是python的16进制实在操蛋,字符串先将就着用用
remote_device = RemoteXBeeDevice(Raw802Device,
XBee64BitAddress.from_hex_string(address))
Raw802Device.send_data(remote_device,
"\x75\x03" + str(Raw802Device.get_64bit_addr()))