deprecate busTime (#1989)

* deprecate busTime

* fix test_comms.py

* update opendbc

* way more than i thought

* and here

* oops

Dockerfile

@@ -48,7 +48,7 @@ RUN /tmp/install.sh && rm -rf $CPPCHECK_DIR/.git/
 ENV SKIP_CPPCHECK_INSTALL=1
 
 ENV CEREAL_REF="861144c136c91f70dcbc652c2ffe99f57440ad47"
-ENV OPENDBC_REF="e0d4be4a6215d44809718dc84efe1b9f0299ad63"
+ENV OPENDBC_REF="8e9d3688412405154a8189c421cfdc9d5feea715"
 
 RUN git config --global --add safe.directory /tmp/openpilot/panda
 RUN mkdir -p /tmp/openpilot/ && \

board/jungle/scripts/can_printer.py

@@ -19,7 +19,7 @@ def can_printer():
   canbus = int(os.getenv("CAN", "0"))
   while True:
     can_recv = p.can_recv()
-    for address, _, dat, src  in can_recv:
+    for address, dat, src  in can_recv:
       if src == canbus:
         msgs[address].append(dat)
 

board/jungle/scripts/echo_loopback_test.py

@@ -37,7 +37,7 @@ def test_loopback():
     incoming = jungle.can_recv()
     found = False
     for message in incoming:
-      incomingAddress, _, incomingData, incomingBus = message
+      incomingAddress, incomingData, incomingBus = message
       if incomingAddress == address and incomingData == data[::-1] and incomingBus == bus:
         found = True
         break

board/jungle/scripts/loopback_test.py

@@ -74,11 +74,11 @@ def can_loopback(sender):
         raise Exception("Amount of received CAN messages (" + str(len(content)) + ") does not equal 1. Bus: " + str(bus) +" OBD: " + str(obd))
 
       # Check content
-      if content[0][0] != addr or content[0][2] != string:
+      if content[0][0] != addr or content[0][1] != string:
         raise Exception("Received CAN message content or address does not match")
 
       # Check bus
-      if content[0][3] != bus:
+      if content[0][2] != bus:
         raise Exception("Received CAN message bus does not match")
 
 #################################################################

examples/can_logger.py

@@ -22,7 +22,7 @@ def can_logger():
     while True:
       can_recv = p.can_recv()
 
-      for address, _, dat, src in can_recv:
+      for address, dat, src in can_recv:
         csvwriter.writerow(
           [str(src), str(hex(address)), f"0x{dat.hex()}", len(dat), str(time.time() - start_time)])
 

examples/tesla_tester.py

@@ -34,7 +34,7 @@ def tesla_tester():
   while True:
     #Read the VIN
     can_recv = p.can_recv()
-    for address, _, dat, src in can_recv:
+    for address, dat, src in can_recv:
       if src == body_bus_num:
         if address == 1384:  # 0x568 is VIN
           vin_index = int(binascii.hexlify(dat)[:2])  # first byte is the index, 00, 01, 02

python/__init__.py

@@ -37,7 +37,7 @@ def calculate_checksum(data):
 
 def pack_can_buffer(arr):
   snds = [b'']
-  for address, _, dat, bus in arr:
+  for address, dat, bus in arr:
     assert len(dat) in LEN_TO_DLC
     #logging.debug("  W 0x%x: 0x%s", address, dat.hex())
 
@@ -85,7 +85,7 @@ def unpack_can_buffer(dat):
     data = dat[CANPACKET_HEAD_SIZE:(CANPACKET_HEAD_SIZE+data_len)]
     dat = dat[(CANPACKET_HEAD_SIZE+data_len):]
 
-    ret.append((address, 0, data, bus))
+    ret.append((address, data, bus))
 
   return (ret, dat)
 
@@ -812,7 +812,7 @@ class Panda:
         logging.error("CAN: BAD SEND MANY, RETRYING")
 
   def can_send(self, addr, dat, bus, timeout=CAN_SEND_TIMEOUT_MS):
-    self.can_send_many([[addr, None, dat, bus]], timeout=timeout)
+    self.can_send_many([[addr, dat, bus]], timeout=timeout)
 
   @ensure_can_packet_version
   def can_recv(self):

python/ccp.py

@@ -99,7 +99,7 @@ class CcpClient():
       msgs = self._panda.can_recv() or []
       if len(msgs) >= 256:
         print("CAN RX buffer overflow!!!", file=sys.stderr)
-      for rx_addr, _, rx_data_bytearray, rx_bus in msgs:
+      for rx_addr, rx_data_bytearray, rx_bus in msgs:
         if rx_bus == self.can_bus and rx_addr == self.rx_addr:
           rx_data = bytes(rx_data_bytearray)
           if self.debug:

python/isotp.py

@@ -18,12 +18,12 @@ def recv(panda, cnt, addr, nbus):
   while len(ret) < cnt:
     kmsgs += panda.can_recv()
     nmsgs = []
-    for ids, ts, dat, bus in kmsgs:
+    for ids, dat, bus in kmsgs:
       if ids == addr and bus == nbus and len(ret) < cnt:
         ret.append(dat)
       else:
         # leave around
-        nmsgs.append((ids, ts, dat, bus))
+        nmsgs.append((ids, dat, bus))
     kmsgs = nmsgs[-256:]
   return ret
 
@@ -96,7 +96,7 @@ def isotp_send(panda, x, addr, bus=0, recvaddr=None, subaddr=None, rate=None):
       panda.can_send(addr, sends[-1], 0)
     else:
       if rate is None:
-        panda.can_send_many([(addr, None, s, bus) for s in sends])
+        panda.can_send_many([(addr, s, bus) for s in sends])
       else:
         for dat in sends:
           panda.can_send(addr, dat, bus)

python/xcp.py

@@ -145,7 +145,7 @@ class XcpClient():
       msgs = self._panda.can_recv() or []
       if len(msgs) >= 256:
         print("CAN RX buffer overflow!!!", file=sys.stderr)
-      for rx_addr, _, rx_data, rx_bus in msgs:
+      for rx_addr, rx_data, rx_bus in msgs:
         if rx_bus == self.can_bus and rx_addr == self.rx_addr:
           rx_data = bytes(rx_data)  # convert bytearray to bytes
           if self.debug:

tests/black_white_loopback_test.py

@@ -118,11 +118,11 @@ def test_buses(black_panda, other_panda, direction, test_array, sleep_duration):
 
     loop_buses = []
     for loop in cans_loop:
-      if (loop[0] != at) or (loop[2] != st):
+      if (loop[0] != at) or (loop[1] != st):
         content_errors += 1
 
-      print("  Loop on bus", str(loop[3]))
-      loop_buses.append(loop[3])
+      print("  Loop on bus", str(loop[2]))
+      loop_buses.append(loop[2])
     if len(cans_loop) == 0:
       print("  No loop")
       assert not os.getenv("NOASSERT")

tests/black_white_relay_endurance.py

@@ -126,11 +126,11 @@ def test_buses(black_panda, other_panda, direction, test_array, sleep_duration):
 
     loop_buses = []
     for loop in cans_loop:
-      if (loop[0] != at) or (loop[2] != st):
+      if (loop[0] != at) or (loop[1] != st):
         content_errors += 1
 
-      print("  Loop on bus", str(loop[3]))
-      loop_buses.append(loop[3])
+      print("  Loop on bus", str(loop[2]))
+      loop_buses.append(loop[2])
     if len(cans_loop) == 0:
       print("  No loop")
       assert os.getenv("NOASSERT")

tests/black_white_relay_test.py

@@ -109,9 +109,9 @@ def test_buses(black_panda, other_panda, test_obj):
 
   loop_buses = []
   for loop in cans_loop:
-    if (loop[0] != at) or (loop[2] != st):
+    if (loop[0] != at) or (loop[1] != st):
       content_errors += 1
-    loop_buses.append(loop[3])
+    loop_buses.append(loop[2])
 
   # test loop buses
   recv_buses.sort()

tests/bulk_write_test.py

@@ -16,7 +16,7 @@ NUM_MESSAGES_PER_BUS = 10000
 def flood_tx(panda):
   print('Sending!')
   msg = b"\xaa" * 4
-  packet = [[0xaa, None, msg, 0], [0xaa, None, msg, 1], [0xaa, None, msg, 2]] * NUM_MESSAGES_PER_BUS
+  packet = [[0xaa, msg, 0], [0xaa, msg, 1], [0xaa, msg, 2]] * NUM_MESSAGES_PER_BUS
   panda.can_send_many(packet, timeout=10000)
   print(f"Done sending {3*NUM_MESSAGES_PER_BUS} messages!")
 

tests/can_printer.py

@@ -20,7 +20,7 @@ def can_printer():
   canbus = int(os.getenv("CAN", "0"))
   while True:
     can_recv = p.can_recv()
-    for address, _, dat, src in can_recv:
+    for address, dat, src in can_recv:
       if src == canbus:
         msgs[address].append(dat)
 

tests/canfd/test_canfd.py

@@ -86,7 +86,7 @@ def canfd_test(p_send, p_recv):
         data = bytearray(random.getrandbits(8) for _ in range(DLC_TO_LEN[dlc]))
         if len(data) >= 2:
           data[0] = calculate_checksum(data[1:] + bytes(str(address), encoding="utf-8"))
-        to_send.append([address, 0, data, bus])
+        to_send.append([address, data, bus])
         sent_msgs[bus].add((address, bytes(data)))
 
     p_send.can_send_many(to_send, timeout=0)
@@ -95,7 +95,7 @@ def canfd_test(p_send, p_recv):
     while (time.monotonic() - start_time < 1) and any(len(x) > 0 for x in sent_msgs.values()):
       incoming = p_recv.can_recv()
       for msg in incoming:
-        address, _, data, bus = msg
+        address, data, bus = msg
         if len(data) >= 2:
           assert calculate_checksum(data[1:] + bytes(str(address), encoding="utf-8")) == data[0]
         k = (address, bytes(data))

tests/echo.py

@@ -11,6 +11,6 @@ if __name__ == "__main__":
   while True:
     incoming = p.can_recv()
     for message in incoming:
-      address, notused, data, bus = message
+      address, data, bus = message
       if b'test' in data:
         p.can_send(address, data[::-1], bus)

tests/elm_car_simulator.py

@@ -77,11 +77,11 @@ class ELMCarSimulator():
         self.panda.can_recv()  # Toss whatever was already there
 
         while not self.__stop:
-            for address, ts, data, src in self.panda.can_recv():
+            for address, data, src in self.panda.can_recv():
                 if self.__on and src == 0 and len(data) == 8 and data[0] >= 2:
                     if not self.__silent:
                         print("Processing CAN message", src, hex(address), binascii.hexlify(data))
-                    self.__can_process_msg(data[1], data[2], address, ts, data, src)
+                    self.__can_process_msg(data[1], data[2], address, data, src)
                 elif not self.__silent:
                     print("Rejecting CAN message", src, hex(address), binascii.hexlify(data))
 
@@ -120,7 +120,7 @@ class ELMCarSimulator():
             return True
         return False
 
-    def __can_process_msg(self, mode, pid, address, ts, data, src):
+    def __can_process_msg(self, mode, pid, address, data, src):
         if not self.__silent:
             print("CAN MSG", binascii.hexlify(data[1:1 + data[0]]),
                   "Addr:", hex(address), "Mode:", hex(mode)[2:].zfill(2),

tests/hitl/3_usb_to_can.py

@@ -18,14 +18,14 @@ def test_can_loopback(p):
     # confirm receive both on loopback and send receipt
     time.sleep(0.05)
     r = p.can_recv()
-    sr = [x for x in r if x[3] == 0x80 | bus]
-    lb = [x for x in r if x[3] == bus]
+    sr = [x for x in r if x[2] == 0x80 | bus]
+    lb = [x for x in r if x[2] == bus]
     assert len(sr) == 1
     assert len(lb) == 1
 
     # confirm data is correct
     assert 0x1aa == sr[0][0] == lb[0][0]
-    assert b"message" == sr[0][2] == lb[0][2]
+    assert b"message" == sr[0][1] == lb[0][1]
 
 def test_reliability(p):
   MSG_COUNT = 100
@@ -35,7 +35,7 @@ def test_reliability(p):
   p.set_can_speed_kbps(0, 1000)
 
   addrs = list(range(100, 100 + MSG_COUNT))
-  ts = [(j, 0, b"\xaa" * 8, 0) for j in addrs]
+  ts = [(j, b"\xaa" * 8, 0) for j in addrs]
 
   for _ in range(100):
     st = time.monotonic()
@@ -46,8 +46,8 @@ def test_reliability(p):
     while len(r) < 200 and (time.monotonic() - st) < 0.5:
       r.extend(p.can_recv())
 
-    sent_echo = [x for x in r if x[3] == 0x80]
-    loopback_resp = [x for x in r if x[3] == 0]
+    sent_echo = [x for x in r if x[2] == 0x80]
+    loopback_resp = [x for x in r if x[2] == 0]
 
     assert sorted([x[0] for x in loopback_resp]) == addrs
     assert sorted([x[0] for x in sent_echo]) == addrs

tests/hitl/4_can_loopback.py

@@ -118,10 +118,10 @@ def test_gen2_loopback(p, panda_jungle):
       assert len(content) == 1
 
       # Check content
-      assert content[0][0] == addr and content[0][2] == string
+      assert content[0][0] == addr and content[0][1] == string
 
       # Check bus
-      assert content[0][3] == bus
+      assert content[0][2] == bus
 
       print("Bus:", bus, "address:", addr, "OBD:", obd, "OK")
 
@@ -148,9 +148,9 @@ def test_bulk_write(p, panda_jungle):
     msg = b"\xaa" * 8
     packet = []
     # start with many messages on a single bus (higher contention for single TX ring buffer)
-    packet += [[0xaa, None, msg, 0]] * NUM_MESSAGES_PER_BUS
+    packet += [[0xaa, msg, 0]] * NUM_MESSAGES_PER_BUS
     # end with many messages on multiple buses
-    packet += [[0xaa, None, msg, 0], [0xaa, None, msg, 1], [0xaa, None, msg, 2]] * NUM_MESSAGES_PER_BUS
+    packet += [[0xaa, msg, 0], [0xaa, msg, 1], [0xaa, msg, 2]] * NUM_MESSAGES_PER_BUS
 
     # Disable timeout
     panda.set_safety_mode(Panda.SAFETY_ALLOUTPUT)
@@ -182,18 +182,18 @@ def test_message_integrity(p):
     for _ in range(random.randrange(10)):
       to_send = get_random_can_messages(random.randrange(100))
       for m in to_send:
-        sent_msgs[m[3]].add((m[0], m[2]))
+        sent_msgs[m[2]].add((m[0], m[1]))
       p.can_send_many(to_send, timeout=0)
 
     start_time = time.monotonic()
     while time.monotonic() - start_time < 2 and any(len(sent_msgs[bus]) for bus in range(3)):
       recvd = p.can_recv()
       for msg in recvd:
-        if msg[3] >= 128:
-          k = (msg[0], bytes(msg[2]))
-          bus = msg[3]-128
+        if msg[2] >= 128:
+          k = (msg[0], bytes(msg[1]))
+          bus = msg[2]-128
           assert k in sent_msgs[bus], f"message {k} was never sent on bus {bus}"
-          sent_msgs[msg[3]-128].discard(k)
+          sent_msgs[msg[2]-128].discard(k)
 
     # if a set isn't empty, messages got dropped
     for bus in range(3):

tests/hitl/6_safety.py

@@ -14,8 +14,8 @@ def test_safety_nooutput(p):
   time.sleep(0.05)
   r = p.can_recv()
   # bus 192 is messages blocked by TX safety hook on bus 0
-  assert len([x for x in r if x[3] != 192]) == 0
-  assert len([x for x in r if x[3] == 192]) == 1
+  assert len([x for x in r if x[2] != 192]) == 0
+  assert len([x for x in r if x[2] == 192]) == 1
 
 
 def test_canfd_safety_modes(p):

tests/hitl/9_harness.py

@@ -51,7 +51,7 @@ def test_harness_status(p, panda_jungle):
       time.sleep(0.5)
 
       msgs = p.can_recv()
-      buses = {int(dat): bus for _, _, dat, bus in msgs if bus <= 3}
+      buses = {int(dat): bus for _, dat, bus in msgs if bus <= 3}
       print(msgs)
 
       # jungle doesn't actually switch buses when switching orientation

tests/hitl/helpers.py

@@ -8,7 +8,7 @@ def get_random_can_messages(n):
     bus = random.randrange(3)
     addr = random.randrange(1 << 29)
     dat = bytes([random.getrandbits(8) for _ in range(random.randrange(1, 9))])
-    m.append([addr, None, dat, bus])
+    m.append([addr, dat, bus])
   return m
 
 
@@ -19,7 +19,7 @@ def time_many_sends(p, bus, p_recv=None, msg_count=100, two_pandas=False, msg_le
     raise ValueError("Cannot have two pandas that are the same panda")
 
   msg_id = random.randint(0x100, 0x200)
-  to_send = [(msg_id, 0, b"\xaa" * msg_len, bus)] * msg_count
+  to_send = [(msg_id, b"\xaa" * msg_len, bus)] * msg_count
 
   start_time = time.monotonic()
   p.can_send_many(to_send)
@@ -35,11 +35,11 @@ def time_many_sends(p, bus, p_recv=None, msg_count=100, two_pandas=False, msg_le
     while len(r_echo) < r_echo_len_exected and (time.monotonic() - start_time) < 10:
       r_echo.extend(p.can_recv())
 
-  sent_echo = [x for x in r if x[3] == 0x80 | bus and x[0] == msg_id]
-  sent_echo.extend([x for x in r_echo if x[3] == 0x80 | bus and x[0] == msg_id])
-  resp = [x for x in r if x[3] == bus and x[0] == msg_id]
+  sent_echo = [x for x in r if x[2] == 0x80 | bus and x[0] == msg_id]
+  sent_echo.extend([x for x in r_echo if x[2] == 0x80 | bus and x[0] == msg_id])
+  resp = [x for x in r if x[2] == bus and x[0] == msg_id]
 
-  leftovers = [x for x in r if (x[3] != 0x80 | bus and x[3] != bus) or x[0] != msg_id]
+  leftovers = [x for x in r if (x[2] != 0x80 | bus and x[2] != bus) or x[0] != msg_id]
   assert len(leftovers) == 0
 
   assert len(resp) == msg_count

tests/loopback_test.py

@@ -69,13 +69,13 @@ def run_test_w_pandas(pandas, sleep_duration):
       assert cans_echo[0][0] == at
       assert cans_loop[0][0] == at
 
-      assert cans_echo[0][2] == st
-      assert cans_loop[0][2] == st
+      assert cans_echo[0][1] == st
+      assert cans_loop[0][1] == st
 
-      assert cans_echo[0][3] == 0x80 | bus
-      if cans_loop[0][3] != bus:
-        print("EXPECTED %d GOT %d" % (bus, cans_loop[0][3]))
-      assert cans_loop[0][3] == bus
+      assert cans_echo[0][2] == 0x80 | bus
+      if cans_loop[0][2] != bus:
+        print("EXPECTED %d GOT %d" % (bus, cans_loop[0][2]))
+      assert cans_loop[0][2] == bus
 
       print("CAN pass", bus, ho)
       time.sleep(sleep_duration)

tests/message_drop_test.py

@@ -16,7 +16,7 @@ if JUNGLE:
 # Generate unique messages
 NUM_MESSAGES_PER_BUS = 10000
 messages = [bytes(struct.pack("Q", i)) for i in range(NUM_MESSAGES_PER_BUS)]
-tx_messages = list(itertools.chain.from_iterable([[0xaa, None, msg, 0], [0xaa, None, msg, 1], [0xaa, None, msg, 2]] for msg in messages))
+tx_messages = list(itertools.chain.from_iterable([[0xaa, msg, 0], [0xaa, msg, 1], [0xaa, msg, 2]] for msg in messages))
 
 def flood_tx(panda):
   print('Sending!')
@@ -65,6 +65,6 @@ if __name__ == "__main__":
 
   # Check if we received everything
   for bus in range(3):
-    received_msgs = {bytes(m[2]) for m in filter(lambda m, b=bus: m[3] == b, rx)} # type: ignore
+    received_msgs = {bytes(m[1]) for m in filter(lambda m, b=bus: m[2] == b, rx)} # type: ignore
     dropped_msgs = set(messages).difference(received_msgs)
     print(f"Bus {bus} dropped msgs: {len(list(dropped_msgs))} / {len(messages)}")

tests/safety/common.py

@@ -30,7 +30,7 @@ class CANPackerPanda(CANPacker):
     msg = self.make_can_msg(name_or_addr, bus, values)
     if fix_checksum is not None:
       msg = fix_checksum(msg)
-    addr, _, dat, bus = msg
+    addr, dat, bus = msg
     return libpanda_py.make_CANPacket(addr, bus, dat)
 
 

tests/safety/test_ford.py

@@ -24,7 +24,7 @@ MSG_IPMA_Data = 0x3D8              # TX by OP, IPMA and LKAS user interface
 
 
 def checksum(msg):
-  addr, t, dat, bus = msg
+  addr, dat, bus = msg
   ret = bytearray(dat)
 
   if addr == MSG_Yaw_Data_FD1:
@@ -50,7 +50,7 @@ def checksum(msg):
     chksum = 0xff - (chksum & 0xff)
     ret[1] = chksum
 
-  return addr, t, ret, bus
+  return addr, ret, bus
 
 
 class Buttons:

tests/safety/test_hyundai.py

@@ -11,7 +11,7 @@ from panda.tests.safety.hyundai_common import HyundaiButtonBase, HyundaiLongitud
 # 4 bit checkusm used in some hyundai messages
 # lives outside the can packer because we never send this msg
 def checksum(msg):
-  addr, t, dat, bus = msg
+  addr, dat, bus = msg
 
   chksum = 0
   if addr == 0x386:
@@ -40,7 +40,7 @@ def checksum(msg):
     ret = bytearray(dat)
     ret[6 if addr == 0x394 else 7] |= chksum << (4 if addr == 0x421 else 0)
 
-  return addr, t, ret, bus
+  return addr, ret, bus
 
 
 class TestHyundaiSafety(HyundaiButtonBase, common.PandaCarSafetyTest, common.DriverTorqueSteeringSafetyTest, common.SteerRequestCutSafetyTest):

tests/usbprotocol/test_comms.py

@@ -14,7 +14,7 @@ TX_QUEUES = (lpp.tx1_q, lpp.tx2_q, lpp.tx3_q)
 def unpackage_can_msg(pkt):
   dat_len = DLC_TO_LEN[pkt[0].data_len_code]
   dat = bytes(pkt[0].data[0:dat_len])
-  return pkt[0].addr, 0, dat, pkt[0].bus
+  return pkt[0].addr, dat, pkt[0].bus
 
 
 def random_can_messages(n, bus=None):
@@ -24,7 +24,7 @@ def random_can_messages(n, bus=None):
       bus = random.randint(0, 3)
     address = random.randint(1, (1 << 29) - 1)
     data = bytes([random.getrandbits(8) for _ in range(DLC_TO_LEN[random.randrange(0, len(DLC_TO_LEN))])])
-    msgs.append((address, 0, data, bus))
+    msgs.append((address, data, bus))
   return msgs
 
 
@@ -34,9 +34,9 @@ class TestPandaComms(unittest.TestCase):
 
   def test_tx_queues(self):
     for bus in range(len(TX_QUEUES)):
-      message = (0x100, 0, b"test", bus)
+      message = (0x100, b"test", bus)
 
-      can_pkt_tx = libpanda_py.make_CANPacket(message[0], message[3], message[2])
+      can_pkt_tx = libpanda_py.make_CANPacket(message[0], message[2], message[1])
       can_pkt_rx = libpanda_py.ffi.new('CANPacket_t *')
 
       assert lpp.can_push(TX_QUEUES[bus], can_pkt_tx), "CAN push failed"
@@ -46,9 +46,9 @@ class TestPandaComms(unittest.TestCase):
 
   def test_comms_reset_rx(self):
     # store some test messages in the queue
-    test_msg = (0x100, 0, b"test", 0)
+    test_msg = (0x100, b"test", 0)
     for _ in range(100):
-      can_pkt_tx = libpanda_py.make_CANPacket(test_msg[0], test_msg[3], test_msg[2])
+      can_pkt_tx = libpanda_py.make_CANPacket(test_msg[0], test_msg[2], test_msg[1])
       lpp.can_push(lpp.rx_q, can_pkt_tx)
 
     # read a small chunk such that we have some overflow
@@ -76,7 +76,7 @@ class TestPandaComms(unittest.TestCase):
 
   def test_comms_reset_tx(self):
     # store some test messages in the queue
-    test_msg = (0x100, 0, b"test", 0)
+    test_msg = (0x100, b"test", 0)
     packed = pack_can_buffer([test_msg for _ in range(100)])
 
     # write a small chunk such that we have some overflow
@@ -126,7 +126,7 @@ class TestPandaComms(unittest.TestCase):
 
   def test_can_receive_usb(self):
     msgs = random_can_messages(50000)
-    packets = [libpanda_py.make_CANPacket(m[0], m[3], m[2]) for m in msgs]
+    packets = [libpanda_py.make_CANPacket(m[0], m[2], m[1]) for m in msgs]
 
     rx_msgs = []
     overflow_buf = b""

tests/usbprotocol/test_pandalib.py

@@ -12,7 +12,7 @@ class PandaTestPackUnpack(unittest.TestCase):
     for _ in range(10000):
       address = random.randint(1, (1 << 29) - 1)
       data = bytes([random.getrandbits(8) for _ in range(DLC_TO_LEN[random.randrange(0, len(DLC_TO_LEN))])])
-      to_pack.append((address, 0, data, 0))
+      to_pack.append((address, data, 0))
 
     packed = pack_can_buffer(to_pack)
     unpacked = []