import os import time from collections import defaultdict from selfdrive.can.libdbc_py import libdbc, ffi class CANParser(object): def __init__(self, dbc_name, signals, checks=[], bus=0): self.can_valid = True self.vl = defaultdict(dict) self.ts = defaultdict(dict) sig_names = dict((name, ffi.new("char[]", name)) for name, _, _ in signals) signal_options_c = ffi.new("SignalParseOptions[]", [ { 'address': sig_address, 'name': sig_names[sig_name], 'default_value': sig_default, } for sig_name, sig_address, sig_default in signals]) message_options = dict((address, 0) for _, address, _ in signals) message_options.update(dict(checks)) message_options_c = ffi.new("MessageParseOptions[]", [ { 'address': address, 'check_frequency': freq, } for address, freq in message_options.iteritems()]) self.can = libdbc.can_init(bus, dbc_name, len(message_options_c), message_options_c, len(signal_options_c), signal_options_c) self.p_can_valid = ffi.new("bool*") value_count = libdbc.can_query(self.can, 0, self.p_can_valid, 0, ffi.NULL) self.can_values = ffi.new("SignalValue[%d]" % value_count) self.update_vl(0) # print "===" def update_vl(self, sec): can_values_len = libdbc.can_query(self.can, sec, self.p_can_valid, len(self.can_values), self.can_values) assert can_values_len <= len(self.can_values) self.can_valid = self.p_can_valid[0] # print can_values_len ret = set() for i in xrange(can_values_len): cv = self.can_values[i] address = cv.address # print hex(cv.address), ffi.string(cv.name) name = ffi.string(cv.name) self.vl[address][name] = cv.value self.ts[address][name] = cv.ts ret.add(address) return ret def update(self, sec, wait): libdbc.can_update(self.can, sec, wait) return self.update_vl(sec) if __name__ == "__main__": from common.realtime import sec_since_boot radar_messages = range(0x430, 0x43A) + range(0x440, 0x446) # signals = zip(['LONG_DIST'] * 16 + ['NEW_TRACK'] * 16 + ['LAT_DIST'] * 16 + # ['REL_SPEED'] * 16, radar_messages * 4, # [255] * 16 + [1] * 16 + [0] * 16 + [0] * 16) # checks = zip(radar_messages, [20]*16) # cp = CANParser("acura_ilx_2016_nidec", signals, checks, 1) signals = [ ("XMISSION_SPEED", 0x158, 0), #sig_name, sig_address, default ("WHEEL_SPEED_FL", 0x1d0, 0), ("WHEEL_SPEED_FR", 0x1d0, 0), ("WHEEL_SPEED_RL", 0x1d0, 0), ("STEER_ANGLE", 0x14a, 0), ("STEER_TORQUE_SENSOR", 0x18f, 0), ("GEAR", 0x191, 0), ("WHEELS_MOVING", 0x1b0, 1), ("DOOR_OPEN_FL", 0x405, 1), ("DOOR_OPEN_FR", 0x405, 1), ("DOOR_OPEN_RL", 0x405, 1), ("DOOR_OPEN_RR", 0x405, 1), ("CRUISE_SPEED_PCM", 0x324, 0), ("SEATBELT_DRIVER_LAMP", 0x305, 1), ("SEATBELT_DRIVER_LATCHED", 0x305, 0), ("BRAKE_PRESSED", 0x17c, 0), ("CAR_GAS", 0x130, 0), ("CRUISE_BUTTONS", 0x296, 0), ("ESP_DISABLED", 0x1a4, 1), ("HUD_LEAD", 0x30c, 0), ("USER_BRAKE", 0x1a4, 0), ("STEER_STATUS", 0x18f, 5), ("WHEEL_SPEED_RR", 0x1d0, 0), ("BRAKE_ERROR_1", 0x1b0, 1), ("BRAKE_ERROR_2", 0x1b0, 1), ("GEAR_SHIFTER", 0x191, 0), ("MAIN_ON", 0x326, 0), ("ACC_STATUS", 0x17c, 0), ("PEDAL_GAS", 0x17c, 0), ("CRUISE_SETTING", 0x296, 0), ("LEFT_BLINKER", 0x326, 0), ("RIGHT_BLINKER", 0x326, 0), ("COUNTER", 0x324, 0), ("ENGINE_RPM", 0x17C, 0) ] checks = [ (0x14a, 100), # address, frequency (0x158, 100), (0x17c, 100), (0x191, 100), (0x1a4, 50), (0x326, 10), (0x1b0, 50), (0x1d0, 50), (0x305, 10), (0x324, 10), (0x405, 3), ] cp = CANParser("honda_civic_touring_2016_can", signals, checks, 0) print cp.vl while True: cp.update(int(sec_since_boot()*1e9), True) # print cp.vl print cp.ts print cp.can_valid time.sleep(0.01)