def main(): from argparse import ArgumentParser p = ArgumentParser() p.add_argument('-r', '--rx_port', default=5556, help='Port number to receive zmq messages for IO on') p.add_argument('-t', '--tx_port', default=5555, help='Port number to send IO messages via zmq') args = p.parse_args() import halucinator.hal_log as hal_log hal_log.setLogConfig() io_server = IOServer(args.rx_port, args.tx_port) io_server.start() try: while(1): topic = input("Topic:") msg_id = input("ID:") data = input("Data:") d = {'id': msg_id, 'data': data} io_server.send_msg(topic, d) except KeyboardInterrupt: io_server.shutdown()
def main(): from argparse import ArgumentParser p = ArgumentParser() p.add_argument('-r', '--rx_ports', nargs='+', default=[5556, 5558], help='Port numbers to receive zmq messages for IO on') p.add_argument( '-t', '--tx_ports', nargs='+', default=[5555, 5557], help= 'Port numbers to send IO messages via zmq, length must match --rx_ports' ) p.add_argument( '-l', '--logs', nargs='+', default=['Receiver.txt', 'Sender.txt'], help='Log files to write IO frames to, length must match --rx_ports') args = p.parse_args() if len(args.rx_ports) != len(args.tx_ports): print("Number of rx_ports and number of tx_ports must match") p.print_usage() quit(-1) import halucinator.hal_log as hal_log hal_log.setLogConfig() hub = IEEE802_15_4() for idx, rx_port in enumerate(args.rx_ports): print(idx) server = IOServer(rx_port, args.tx_ports[idx], args.logs[idx]) hub.add_server(server) server.start() time.sleep(2) try: msg = {"id": 'rf233', 'frame': None} while (1): frame = input("Enter Hexlified Frame") msg['frame'] = binascii.unhexlify(frame) hub.received_frame(None, msg) except KeyboardInterrupt: pass log.info("Shutting Down") hub.shutdown()
def main(): from argparse import ArgumentParser p = ArgumentParser() p.add_argument('-r', '--rx_port', default=5556, help='Port number to receive zmq messages for IO on') p.add_argument('-t', '--tx_port', default=5555, help='Port number to send IO messages via zmq') p.add_argument('-i', '--id', default=0x20000ab0, type=int, help="Id to use when sending data") p.add_argument('-n', '--newline', default=False, action='store_true', help="Append Newline") args = p.parse_args() import halucinator.hal_log as hal_log hal_log.setLogConfig() io_server = IOServer(args.rx_port, args.tx_port) uart = UARTPrintServer(io_server) # STEP 3 # Instantiate your LEDDevice class and as led and pass io_server to its initializer led = LEDDevice(io_server) io_server.start() try: while (1): data = input() log.debug("Got %s" % str(data)) if args.newline: data += "\n" if data == '\\n': data = '\r\n' elif data == '': break #d = {'id':args.id, 'data': data} uart.send_data(args.id, data) except KeyboardInterrupt: pass log.info("Shutting Down") io_server.shutdown()
def main(): from argparse import ArgumentParser p = ArgumentParser() p.add_argument('-r', '--rx_port', default=5556, help='Port number to receive zmq messages for IO on') p.add_argument('-t', '--tx_port', default=5555, help='Port number to send IO messages via zmq') p.add_argument('-i', '--id', default=0x20000ab0, type=int, help="Id to use when sending data") args = p.parse_args() import halucinator.hal_log as hal_log hal_log.setLogConfig() io_server = IOServer(args.rx_port, args.tx_port) uart = UARTPrintServer(io_server) io_server.start() try: while (1): data = input("Data:") log.debug("Got %s" % str(data)) if data == '\\n': data = '\n\r' elif data == '': break # d = {'id':args.id, 'data': data} uart.send_data(args.id, data) except KeyboardInterrupt: pass log.info("Shutting Down") io_server.shutdown()