Beispiel #1
0
def can_to_trc(converter_name,
               thruster_id,
               serial_port,
               can_bitrate,
               output=None,
               verbose=False,
               speed=10):

    # Try and load the converter script with that name from converters module
    mod_path = f'converters.{converter_name}'
    lib = importlib.import_module(mod_path)

    # potentials = [x for x in dir(lib) if x.startswith("Captain")]
    CAN2TRCConverter = getattr(lib, "CAN2TRCConverter")
    converter = CAN2TRCConverter(thruster_id)

    dev = cantact.CantactDev(serial_port)
    dev.set_bitrate(can_bitrate)
    dev.start()  # Go on the bus

    # Set up how we want to process outgoing nmea sentences
    if output is not None:
        target_type, addr, port = output.split(':')
        if target_type == 'udp':  # NMEASender supports this
            sender = NMEASender(addr,
                                int(port),
                                verbose=verbose,
                                checksum=True)
            out_fn = sender.send_one
        else:
            raise ValueError("Invalid output string", output)
    else:
        out_fn = print

    sleep_time = 1 / speed
    try:
        while True:
            frame = dev.recv()  # Receive a CAN frame
            converter.update(frame)

            nmea = converter.nmea
            if nmea is not None:
                out_fn(nmea)

            if verbose:
                print(converter)
                print(frame)
                print(nmea)

            time.sleep(sleep_time)

    except KeyboardInterrupt as e:
        print("Interrupt!")
Beispiel #2
0
def decode(serial_port, can_ids, unpack_fmt):
    """ Print a CAN message in hex and the unpacked message according to some unpack """

    dev = cantact.CantactDev(serial_port)
    dev.set_bitrate(500000)  # Set the bitrate to a 1Mbaud
    dev.start()  # Go on the bus

    try:
        while True:
            frame = dev.recv()  # Receive a CAN frame
            if frame.id in can_ids:
                # unpacked = struct.unpack(unpack_fmt)
                hex_str = pretty_hex(frame.data)

    except KeyboardInterrupt as e:
        print("Interrupt!")
Beispiel #3
0
from pyvit import can
from pyvit.hw import cantact
from pyvit.utils.queue import CanQueue
import sys

dev = cantact.CantactDev(sys.argv[1])
dev.set_bitrate(125000)
cq = CanQueue(dev)

cq.start()

print cq.recv()

req = can.Frame(0x6A5)
req.data = [0x10, 0xFF, 0xFF]

cq.send(req)

print cq.recv(arb_id=0x625, timeout=10)

cq.stop()
Beispiel #4
0
# from pyvit import can
# from pyvit.hw.cantact import CantactDev

from pyvit.hw import cantact

dev = cantact.CantactDev("/dev/tty.usbmodemFA131")
dev.set_bitrate(500000)

dev.start()
while True:
    print(dev.recv())
Beispiel #5
0
            print("Unable to locate a serial device")
            time.sleep(3)
            continue
        elif devCount == 1:
            print("Using device %s") % serialDev
            break
        elif devCount > 1:
            print(
                "Multiple serial devices plugged, in. Please remove any extraneous devices."
            )
            time.sleep(3)
            continue
else:
    serialDev = sys.argv[1]
print("Connecting to %s") % serialDev
dev = cantact.CantactDev(serialDev)
dev.set_bitrate(500000)
if sys.platform == "linux" or sys.platform == "linux2":  # b/c SocketCAN
    dev.ser.write('S6\r'.encode())
drive = False
if sys.platform == "linux" or sys.platform == "linux2":
    hasDevice = hasExternalStorage()
    if hasDevice:
        os.chdir(hasDevice)
dev.start()
while not drive:
    try:
        frame = dev.recv()
    except (KeyboardInterrupt, SystemExit):
        print("Exiting...")
        dev.stop()
Beispiel #6
0
from pyvit import can
from pyvit.hw import cantact
import sys
import time

dev = cantact.CantactDev("/dev/tty.usbmodem1411")

dev.start()
count = 0
while True:
    count += 1
    print("%d: %s" % (count, str(frame)))
Beispiel #7
0
def trc_to_can(converter_name,
               serial_port,
               can_bitrate,
               source=None,
               verbose=False,
               thruster_id=None):
    # Try and load the converter script with that name from converters module
    mod_path = f'converters.{converter_name}'
    lib = importlib.import_module(mod_path)

    # potentials = [x for x in dir(lib) if x.startswith("Captain")]
    TRC2CANConverter = getattr(lib, "TRC2CANConverter")
    converter = TRC2CANConverter(thruster_id=thruster_id)

    dev = cantact.CantactDev(serial_port)
    dev.set_bitrate(can_bitrate)
    dev.start()  # Go on the bus

    valid_nmea_received = 0
    invalid_nmea_received = 0

    def collect_metrics():
        return {
            "valid_nmea_received": valid_nmea_received,
            "invalid_nmea_received": invalid_nmea_received,
        }

    # def on_nmea(nmea_list):
    #

    if source is None:
        print(
            "reading from stdin not yet supported. Try a udp string (udp:localhost:7777)"
        )
        return
    else:
        target_type, addr, port = source.split(':')
        if target_type == 'udp':  # NMEAReceiver supports this
            nr = NMEAReceiver(UDPReceiver(int(port)))
            nr.open()
            #nonlocal valid_nmea_received, invalid_nmea_received

            while True:
                try:
                    print("reading...")
                    nmea_list = nr.read()

                    for nmea in nmea_list:
                        frames = converter.convert(nmea)

                        if frames:
                            valid_nmea_received += 1
                            if verbose:
                                print("NMEA Received : ", nmea)
                                print("Frames = ", [str(x) for x in frames])

                            for f in frames:
                                dev.send(f)
                        else:

                            invalid_nmea_received += 1
                except KeyboardInterrupt as e:
                    print("done.")
                    sys.exit(0)