openpilot_comma/panda/tests/black_white_loopback_test.py

#!/usr/bin/env python3

# Loopback test between black panda (+ harness and power) and white/grey panda
# Tests all buses, including OBD CAN, which is on the same bus as CAN0 in this test.
# To be sure, the test should be run with both harness orientations


import os
import time
import random
import argparse
from panda import Panda

def get_test_string():
  return b"test" + os.urandom(10)

counter = 0
nonzero_bus_errors = 0
zero_bus_errors = 0
content_errors = 0

def run_test(sleep_duration):
  global counter

  pandas = Panda.list()
  print(pandas)

  # make sure two pandas are connected
  if len(pandas) != 2:
    raise Exception("Connect white/grey and black panda to run this test!")

  # connect
  pandas[0] = Panda(pandas[0])
  pandas[1] = Panda(pandas[1])

  black_panda = None
  other_panda = None

  # find out which one is black
  if pandas[0].is_black() and not pandas[1].is_black():
    black_panda = pandas[0]
    other_panda = pandas[1]
  elif not pandas[0].is_black() and pandas[1].is_black():
    black_panda = pandas[1]
    other_panda = pandas[0]
  else:
    raise Exception("Connect white/grey and black panda to run this test!")

  # disable safety modes
  black_panda.set_safety_mode(Panda.SAFETY_ALLOUTPUT)
  other_panda.set_safety_mode(Panda.SAFETY_ALLOUTPUT)

  # test health packet
  print("black panda health", black_panda.health())
  print("other panda health", other_panda.health())

  # test black -> other
  while True:
    test_buses(black_panda, other_panda, True, [(0, False, [0]), (1, False, [1]), (2, False, [2]), (1, True, [0])], sleep_duration)
    test_buses(black_panda, other_panda, False, [(0, False, [0]), (1, False, [1]), (2, False, [2]), (0, True, [0, 1])], sleep_duration)
    counter += 1
    print("Number of cycles:", counter, "Non-zero bus errors:", nonzero_bus_errors, "Zero bus errors:", zero_bus_errors, "Content errors:", content_errors)

    # Toggle relay
    black_panda.set_safety_mode(Panda.SAFETY_SILENT)
    time.sleep(1)
    black_panda.set_safety_mode(Panda.SAFETY_ALLOUTPUT)
    time.sleep(1)


def test_buses(black_panda, other_panda, direction, test_array, sleep_duration):
  global nonzero_bus_errors, zero_bus_errors, content_errors

  if direction:
    print("***************** TESTING (BLACK --> OTHER) *****************")
  else:
    print("***************** TESTING (OTHER --> BLACK) *****************")

  for send_bus, obd, recv_buses in test_array:
    black_panda.send_heartbeat()
    other_panda.send_heartbeat()
    print("\ntest can: ", send_bus, " OBD: ", obd)

    # set OBD on black panda
    black_panda.set_obd(True if obd else None)

    # clear and flush
    if direction:
      black_panda.can_clear(send_bus)
    else:
      other_panda.can_clear(send_bus)

    for recv_bus in recv_buses:
      if direction:
        other_panda.can_clear(recv_bus)
      else:
        black_panda.can_clear(recv_bus)

    black_panda.can_recv()
    other_panda.can_recv()

    # send the characters
    at = random.randint(1, 2000)
    st = get_test_string()[0:8]
    if direction:
      black_panda.can_send(at, st, send_bus)
    else:
      other_panda.can_send(at, st, send_bus)
    time.sleep(0.1)

    # check for receive
    if direction:
      _ = black_panda.can_recv()  # can echo
      cans_loop = other_panda.can_recv()
    else:
      _ = other_panda.can_recv()  # can echo
      cans_loop = black_panda.can_recv()

    loop_buses = []
    for loop in cans_loop:
      if (loop[0] != at) or (loop[2] != st):
        content_errors += 1

      print("  Loop on bus", str(loop[3]))
      loop_buses.append(loop[3])
    if len(cans_loop) == 0:
      print("  No loop")
      assert not os.getenv("NOASSERT")

    # test loop buses
    recv_buses.sort()
    loop_buses.sort()
    if(recv_buses != loop_buses):
      if len(loop_buses) == 0:
        zero_bus_errors += 1
      else:
        nonzero_bus_errors += 1
      assert not os.getenv("NOASSERT")
    else:
      print("  TEST PASSED")

    time.sleep(sleep_duration)
  print("\n")

if __name__ == "__main__":
  parser = argparse.ArgumentParser()
  parser.add_argument("-n", type=int, help="Number of test iterations to run")
  parser.add_argument("-sleep", type=int, help="Sleep time between tests", default=0)
  args = parser.parse_args()

  if args.n is None:
    while True:
      run_test(sleep_duration=args.sleep)
  else:
    for _ in range(args.n):
      run_test(sleep_duration=args.sleep)
openpilot v0.9.7 release date: 2024-06-11T01:36:39 master commit: f8cb04e4a8b032b72a909f68b808a50936184bee 11 months ago			`#!/usr/bin/env python3`

			`# Loopback test between black panda (+ harness and power) and white/grey panda`
			`# Tests all buses, including OBD CAN, which is on the same bus as CAN0 in this test.`
			`# To be sure, the test should be run with both harness orientations`


			`import os`
			`import time`
			`import random`
			`import argparse`
			`from panda import Panda`

			`def get_test_string():`
			`return b"test" + os.urandom(10)`

			`counter = 0`
			`nonzero_bus_errors = 0`
			`zero_bus_errors = 0`
			`content_errors = 0`

			`def run_test(sleep_duration):`
			`global counter`

			`pandas = Panda.list()`
			`print(pandas)`

			`# make sure two pandas are connected`
			`if len(pandas) != 2:`
			`raise Exception("Connect white/grey and black panda to run this test!")`

			`# connect`
			`pandas[0] = Panda(pandas[0])`
			`pandas[1] = Panda(pandas[1])`

			`black_panda = None`
			`other_panda = None`

			`# find out which one is black`
			`if pandas[0].is_black() and not pandas[1].is_black():`
			`black_panda = pandas[0]`
			`other_panda = pandas[1]`
			`elif not pandas[0].is_black() and pandas[1].is_black():`
			`black_panda = pandas[1]`
			`other_panda = pandas[0]`
			`else:`
			`raise Exception("Connect white/grey and black panda to run this test!")`

			`# disable safety modes`
			`black_panda.set_safety_mode(Panda.SAFETY_ALLOUTPUT)`
			`other_panda.set_safety_mode(Panda.SAFETY_ALLOUTPUT)`

			`# test health packet`
			`print("black panda health", black_panda.health())`
			`print("other panda health", other_panda.health())`

			`# test black -> other`
			`while True:`
			`test_buses(black_panda, other_panda, True, [(0, False, [0]), (1, False, [1]), (2, False, [2]), (1, True, [0])], sleep_duration)`
			`test_buses(black_panda, other_panda, False, [(0, False, [0]), (1, False, [1]), (2, False, [2]), (0, True, [0, 1])], sleep_duration)`
			`counter += 1`
			`print("Number of cycles:", counter, "Non-zero bus errors:", nonzero_bus_errors, "Zero bus errors:", zero_bus_errors, "Content errors:", content_errors)`

			`# Toggle relay`
			`black_panda.set_safety_mode(Panda.SAFETY_SILENT)`
			`time.sleep(1)`
			`black_panda.set_safety_mode(Panda.SAFETY_ALLOUTPUT)`
			`time.sleep(1)`


			`def test_buses(black_panda, other_panda, direction, test_array, sleep_duration):`
			`global nonzero_bus_errors, zero_bus_errors, content_errors`

			`if direction:`
			`print("*************** TESTING (BLACK --> OTHER) ***************")`
			`else:`
			`print("*************** TESTING (OTHER --> BLACK) ***************")`

			`for send_bus, obd, recv_buses in test_array:`
			`black_panda.send_heartbeat()`
			`other_panda.send_heartbeat()`
			`print("\ntest can: ", send_bus, " OBD: ", obd)`

			`# set OBD on black panda`
			`black_panda.set_obd(True if obd else None)`

			`# clear and flush`
			`if direction:`
			`black_panda.can_clear(send_bus)`
			`else:`
			`other_panda.can_clear(send_bus)`

			`for recv_bus in recv_buses:`
			`if direction:`
			`other_panda.can_clear(recv_bus)`
			`else:`
			`black_panda.can_clear(recv_bus)`

			`black_panda.can_recv()`
			`other_panda.can_recv()`

			`# send the characters`
			`at = random.randint(1, 2000)`
			`st = get_test_string()[0:8]`
			`if direction:`
			`black_panda.can_send(at, st, send_bus)`
			`else:`
			`other_panda.can_send(at, st, send_bus)`
			`time.sleep(0.1)`

			`# check for receive`
			`if direction:`
			`_ = black_panda.can_recv() # can echo`
			`cans_loop = other_panda.can_recv()`
			`else:`
			`_ = other_panda.can_recv() # can echo`
			`cans_loop = black_panda.can_recv()`

			`loop_buses = []`
			`for loop in cans_loop:`
			`if (loop[0] != at) or (loop[2] != st):`
			`content_errors += 1`

			`print(" Loop on bus", str(loop[3]))`
			`loop_buses.append(loop[3])`
			`if len(cans_loop) == 0:`
			`print(" No loop")`
			`assert not os.getenv("NOASSERT")`

			`# test loop buses`
			`recv_buses.sort()`
			`loop_buses.sort()`
			`if(recv_buses != loop_buses):`
			`if len(loop_buses) == 0:`
			`zero_bus_errors += 1`
			`else:`
			`nonzero_bus_errors += 1`
			`assert not os.getenv("NOASSERT")`
			`else:`
			`print(" TEST PASSED")`

			`time.sleep(sleep_duration)`
			`print("\n")`

			`if __name__ == "__main__":`
			`parser = argparse.ArgumentParser()`
			`parser.add_argument("-n", type=int, help="Number of test iterations to run")`
			`parser.add_argument("-sleep", type=int, help="Sleep time between tests", default=0)`
			`args = parser.parse_args()`

			`if args.n is None:`
			`while True:`
			`run_test(sleep_duration=args.sleep)`
			`else:`
			`for _ in range(args.n):`
			`run_test(sleep_duration=args.sleep)`