panda/tests/black_white_relay_test.py

143 lines
3.6 KiB
Python
Executable File

#!/usr/bin/env python3
# Relay test with loopback between black panda (+ harness and power) and white/grey panda
# Tests the relay switching multiple times / second by looking at the buses on which loop occurs.
import os
import sys
import time
import random
import argparse
sys.path.append(os.path.join(os.path.dirname(os.path.realpath(__file__)), ".."))
from panda import Panda
def get_test_string():
return b"test"+os.urandom(10)
counter = 0
open_errors = 0
closed_errors = 0
content_errors = 0
def run_test(sleep_duration):
global counter, open_errors, closed_errors, content_errors
pandas = Panda.list()
#pandas = ["540046000c51363338383037", "07801b800f51363038363036"]
print(pandas)
# make sure two pandas are connected
if len(pandas) != 2:
print("Connect white/grey and black panda to run this test!")
assert False
# connect
pandas[0] = Panda(pandas[0])
pandas[1] = Panda(pandas[1])
# find out which one is black
type0 = pandas[0].get_type()
type1 = pandas[1].get_type()
black_panda = None
other_panda = None
if type0 == "\x03" and type1 != "\x03":
black_panda = pandas[0]
other_panda = pandas[1]
elif type0 != "\x03" and type1 == "\x03":
black_panda = pandas[1]
other_panda = pandas[0]
else:
print("Connect white/grey and black panda to run this test!")
assert False
# 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:
# Switch on relay
black_panda.set_safety_mode(Panda.SAFETY_ALLOUTPUT)
time.sleep(0.05)
if not test_buses(black_panda, other_panda, (0, False, [0])):
open_errors += 1
print("Open error")
assert False
# Switch off relay
black_panda.set_safety_mode(Panda.SAFETY_NOOUTPUT)
time.sleep(0.05)
if not test_buses(black_panda, other_panda, (0, False, [0, 2])):
closed_errors += 1
print("Close error")
assert False
counter += 1
print("Number of cycles:", counter, "Open errors:", open_errors, "Closed errors:", closed_errors, "Content errors:", content_errors)
def test_buses(black_panda, other_panda, test_obj):
global content_errors
send_bus, obd, recv_buses = test_obj
black_panda.send_heartbeat()
other_panda.send_heartbeat()
# Set OBD on send panda
other_panda.set_gmlan(True if obd else None)
# clear and flush
other_panda.can_clear(send_bus)
for recv_bus in recv_buses:
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]
other_panda.can_send(at, st, send_bus)
time.sleep(0.05)
# check for receive
_ = 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
loop_buses.append(loop[3])
# test loop buses
recv_buses.sort()
loop_buses.sort()
if(recv_buses != loop_buses):
return False
else:
return True
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 i in range(args.n):
run_test(sleep_duration=args.sleep)