def _make_can(
        registers: MutableMapping[str, ValueProxy],
        node_id: Optional[int]) -> Iterator[pyuavcan.transport.Transport]:
    def init(name: str, default: RelaxedValue) -> ValueProxy:
        return registers.setdefault("uavcan.can." + name, ValueProxy(default))

    iface_list = str(init("iface", "")).split()
    mtu = int(init("mtu", Natural16([64])))
    br_arb, br_data = init("bitrate", Natural32([1_000_000, 4_000_000])).ints

    if iface_list:
        from pyuavcan.transport.can import CANTransport

        for iface in iface_list:
            media: pyuavcan.transport.can.media.Media
            if iface.lower().startswith("socketcan:"):
                from pyuavcan.transport.can.media.socketcan import SocketCANMedia

                media = SocketCANMedia(iface.split(":")[-1], mtu=mtu)
            else:
                from pyuavcan.transport.can.media.pythoncan import PythonCANMedia

                media = PythonCANMedia(
                    iface, br_arb if br_arb == br_data else (br_arb, br_data),
                    mtu)
            yield CANTransport(media, node_id)
Esempio n. 2
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async def _unittest_can_pythoncan() -> None:
    asyncio.get_running_loop().slow_callback_duration = 5.0

    media_a = PythonCANMedia("virtual:0", 500000)
    media_b = PythonCANMedia("virtual:0", 500000)

    assert media_a.mtu == 8
    assert media_b.mtu == 8
    assert media_a.interface_name == "virtual:0"
    assert media_b.interface_name == "virtual:0"
    assert media_a.number_of_acceptance_filters == media_b.number_of_acceptance_filters
    assert media_a._maybe_thread is None
    assert media_b._maybe_thread is None

    rx_a: typing.List[typing.Tuple[Timestamp, Envelope]] = []
    rx_b: typing.List[typing.Tuple[Timestamp, Envelope]] = []

    def on_rx_a(frames: typing.Iterable[typing.Tuple[Timestamp, Envelope]]) -> None:
        nonlocal rx_a
        frames = list(frames)
        print("RX A:", frames)
        rx_a += frames

    def on_rx_b(frames: typing.Iterable[typing.Tuple[Timestamp, Envelope]]) -> None:
        nonlocal rx_b
        frames = list(frames)
        print("RX B:", frames)
        rx_b += frames

    media_a.start(on_rx_a, False)
    media_b.start(on_rx_b, False)

    assert media_a._maybe_thread is not None
    assert media_b._maybe_thread is not None

    await asyncio.sleep(2.0)  # This wait is needed to ensure that the RX thread handles read timeout properly

    ts_begin = Timestamp.now()
    await media_b.send(
        [
            Envelope(DataFrame(FrameFormat.EXTENDED, 0xBADC0FE, bytearray(range(8))), loopback=True),
            Envelope(DataFrame(FrameFormat.EXTENDED, 0x12345678, bytearray(range(0))), loopback=False),
            Envelope(DataFrame(FrameFormat.BASE, 0x123, bytearray(range(6))), loopback=True),
        ],
        asyncio.get_event_loop().time() + 1.0,
    )
    await asyncio.sleep(0.1)
    ts_end = Timestamp.now()

    print("rx_a:", rx_a)
    # Three received from another part
    assert len(rx_a) == 3
    for ts, _f in rx_a:
        assert ts_begin.monotonic_ns <= ts.monotonic_ns <= ts_end.monotonic_ns
        assert ts_begin.system_ns <= ts.system_ns <= ts_end.system_ns

    rx_external = list(filter(lambda x: True, rx_a))

    assert rx_external[0][1].frame.identifier == 0xBADC0FE
    assert rx_external[0][1].frame.data == bytearray(range(8))
    assert rx_external[0][1].frame.format == FrameFormat.EXTENDED

    assert rx_external[1][1].frame.identifier == 0x12345678
    assert rx_external[1][1].frame.data == bytearray(range(0))
    assert rx_external[1][1].frame.format == FrameFormat.EXTENDED

    assert rx_external[2][1].frame.identifier == 0x123
    assert rx_external[2][1].frame.data == bytearray(range(6))
    assert rx_external[2][1].frame.format == FrameFormat.BASE

    print("rx_b:", rx_b)
    # Two messages are loopback and were copied
    assert len(rx_b) == 2

    rx_loopback = list(filter(lambda x: True, rx_b))

    assert rx_loopback[0][1].frame.identifier == 0xBADC0FE
    assert rx_loopback[0][1].frame.data == bytearray(range(8))
    assert rx_loopback[0][1].frame.format == FrameFormat.EXTENDED

    assert rx_loopback[1][1].frame.identifier == 0x123
    assert rx_loopback[1][1].frame.data == bytearray(range(6))
    assert rx_loopback[1][1].frame.format == FrameFormat.BASE

    media_a.close()
    media_b.close()
Esempio n. 3
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async def _unittest_can_pythoncan_socketcan() -> None:
    asyncio.get_running_loop().slow_callback_duration = 5.0

    media_a = PythonCANMedia("socketcan:vcan2", 0, 8)
    media_b = PythonCANMedia("socketcan:vcan2", 0, 64)

    rx_a: typing.List[typing.Tuple[Timestamp, Envelope]] = []
    rx_b: typing.List[typing.Tuple[Timestamp, Envelope]] = []

    def on_rx_a(frames: typing.Iterable[typing.Tuple[Timestamp, Envelope]]) -> None:
        nonlocal rx_a
        rx_a += list(frames)

    def on_rx_b(frames: typing.Iterable[typing.Tuple[Timestamp, Envelope]]) -> None:
        nonlocal rx_b
        rx_b += list(frames)

    media_a.start(on_rx_a, no_automatic_retransmission=False)
    media_b.start(on_rx_b, no_automatic_retransmission=False)

    ts_begin = Timestamp.now()
    await media_a.send(
        [
            Envelope(DataFrame(FrameFormat.EXTENDED, 0xBADC0FE, bytearray(b"123")), loopback=True),
            Envelope(DataFrame(FrameFormat.EXTENDED, 0x12345678, bytearray(b"456")), loopback=False),
        ],
        asyncio.get_event_loop().time() + 1.0,
    )
    await asyncio.sleep(1.0)
    ts_end = Timestamp.now()

    assert len(rx_b) == 2
    assert ts_begin.monotonic_ns <= rx_b[0][0].monotonic_ns <= ts_end.monotonic_ns
    assert ts_begin.monotonic_ns <= rx_b[1][0].monotonic_ns <= ts_end.monotonic_ns
    assert ts_begin.system_ns <= rx_b[0][0].system_ns <= ts_end.system_ns
    assert ts_begin.system_ns <= rx_b[1][0].system_ns <= ts_end.system_ns
    assert not rx_b[0][1].loopback
    assert not rx_b[1][1].loopback
    assert rx_b[0][1].frame.identifier == 0xBADC0FE
    assert rx_b[1][1].frame.identifier == 0x12345678
    assert rx_b[0][1].frame.data == b"123"
    assert rx_b[1][1].frame.data == b"456"

    assert len(rx_a) == 1
    assert ts_begin.monotonic_ns <= rx_a[0][0].monotonic_ns <= ts_end.monotonic_ns
    assert ts_begin.system_ns <= rx_a[0][0].system_ns <= ts_end.system_ns
    assert rx_a[0][1].loopback
    assert rx_a[0][1].frame.identifier == 0xBADC0FE
    assert rx_a[0][1].frame.data == b"123"

    media_a.close()
    media_b.close()
    media_a.close()  # Ensure idempotency.
    media_b.close()