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obd_sensors.py
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obd_sensors.py
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#!/usr/bin/env python
###########################################################################
# obd_sensors.py
#
# Copyright 2004 Donour Sizemore ([email protected])
# Copyright 2009 Secons Ltd. (www.obdtester.com)
#
# This file is part of pyOBD.
#
# pyOBD is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# pyOBD is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with pyOBD; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
###########################################################################
def hex_to_int(str):
i = eval("0x" + str, {}, {})
return i
def maf(code):
code = hex_to_int(code)
return code * 0.00132276
def throttle_pos(code):
code = hex_to_int(code)
return code * 100.0 / 255.0
def intake_m_pres(code): # in kPa
code = hex_to_int(code)
return code / 0.14504
def rpm(code):
code = hex_to_int(code)
return code / 4
def speed(code):
code = hex_to_int(code)
return code / 1.609
def percent_scale(code):
code = hex_to_int(code)
return code * 100.0 / 255.0
def timing_advance(code):
code = hex_to_int(code)
return (code - 128) / 2.0
def sec_to_min(code):
code = hex_to_int(code)
return code / 60
def temp(code):
code = hex_to_int(code)
c = code - 40
return 32 + (9 * c / 5)
def cpass(code):
#fixme
return code
def fuel_trim_percent(code):
code = hex_to_int(code)
#return (code - 128.0) * 100.0 / 128
return (code - 128) * 100 / 128
def dtc_decrypt(code):
#first byte is byte after PID and without spaces
num = hex_to_int(code[:2]) #A byte
res = []
if num & 0x80: # is mil light on
mil = 1
else:
mil = 0
# bit 0-6 are the number of dtc's.
num = num & 0x7f
res.append(num)
res.append(mil)
numB = hex_to_int(code[2:4]) #B byte
for i in range(0,3):
res.append(((numB>>i)&0x01)+((numB>>(3+i))&0x02))
numC = hex_to_int(code[4:6]) #C byte
numD = hex_to_int(code[6:8]) #D byte
for i in range(0,7):
res.append(((numC>>i)&0x01)+(((numD>>i)&0x01)<<1))
res.append(((numD>>7)&0x01)) #EGR SystemC7 bit of different
#return res
return "#"
def hex_to_bitstring(str):
bitstring = ""
for i in str:
# silly type safety, we don't want to eval random stuff
if type(i) == type(''):
v = eval("0x%s" % i)
if v & 8 :
bitstring += '1'
else:
bitstring += '0'
if v & 4:
bitstring += '1'
else:
bitstring += '0'
if v & 2:
bitstring += '1'
else:
bitstring += '0'
if v & 1:
bitstring += '1'
else:
bitstring += '0'
return bitstring
class Sensor:
def __init__(self, shortName, sensorName, sensorcommand, sensorValueFunction, u):
self.shortname = shortName
self.name = sensorName
self.cmd = sensorcommand
self.value= sensorValueFunction
self.unit = u
SENSORS = [
Sensor("pids" , "Supported PIDs" , "0100" , hex_to_bitstring ,"" ),
Sensor("dtc_status" , "S-S DTC Cleared" , "0101" , dtc_decrypt ,"" ),
Sensor("dtc_ff" , "DTC C-F-F" , "0102" , cpass ,"" ),
Sensor("fuel_status" , "Fuel System Stat" , "0103" , cpass ,"" ),
Sensor("load" , "Calc Load Value" , "01041", percent_scale ,"" ),
Sensor("temp" , "Coolant Temp" , "0105" , temp ,"F" ),
Sensor("short_term_fuel_trim_1", "S-T Fuel Trim" , "0106" , fuel_trim_percent,"%" ),
Sensor("long_term_fuel_trim_1" , "L-T Fuel Trim" , "0107" , fuel_trim_percent,"%" ),
Sensor("short_term_fuel_trim_2", "S-T Fuel Trim" , "0108" , fuel_trim_percent,"%" ),
Sensor("long_term_fuel_trim_2" , "L-T Fuel Trim" , "0109" , fuel_trim_percent,"%" ),
Sensor("fuel_pressure" , "FuelRail Pressure" , "010A" , cpass ,"" ),
Sensor("manifold_pressure" , "Intk Manifold" , "010B" , intake_m_pres ,"psi" ),
Sensor("rpm" , "Engine RPM" , "010C1", rpm ,"" ),
Sensor("speed" , "Vehicle Speed" , "010D1", speed ,"MPH" ),
Sensor("timing_advance" , "Timing Advance" , "010E" , timing_advance ,"degrees"),
Sensor("intake_air_temp" , "Intake Air Temp" , "010F" , temp ,"F" ),
Sensor("maf" , "AirFlow Rate(MAF)" , "0110" , maf ,"lb/min" ),
Sensor("throttle_pos" , "Throttle Position" , "01111", throttle_pos ,"%" ),
Sensor("secondary_air_status" , "2nd Air Status" , "0112" , cpass ,"" ),
Sensor("o2_sensor_positions" , "Loc of O2 sensors" , "0113" , cpass ,"" ),
Sensor("o211" , "O2 Sensor: 1 - 1" , "0114" , fuel_trim_percent,"%" ),
Sensor("o212" , "O2 Sensor: 1 - 2" , "0115" , fuel_trim_percent,"%" ),
Sensor("o213" , "O2 Sensor: 1 - 3" , "0116" , fuel_trim_percent,"%" ),
Sensor("o214" , "O2 Sensor: 1 - 4" , "0117" , fuel_trim_percent,"%" ),
Sensor("o221" , "O2 Sensor: 2 - 1" , "0118" , fuel_trim_percent,"%" ),
Sensor("o222" , "O2 Sensor: 2 - 2" , "0119" , fuel_trim_percent,"%" ),
Sensor("o223" , "O2 Sensor: 2 - 3" , "011A" , fuel_trim_percent,"%" ),
Sensor("o224" , "O2 Sensor: 2 - 4" , "011B" , fuel_trim_percent,"%" ),
Sensor("obd_standard" , "OBD Designation" , "011C" , cpass ,"" ),
Sensor("o2_sensor_position_b" , "Loc of O2 sensor" , "011D" , cpass ,"" ),
Sensor("aux_input" , "Aux input status" , "011E" , cpass ,"" ),
Sensor("engine_time" , "Engine Start MIN" , "011F" , sec_to_min ,"min" ),
Sensor("engine_mil_time" , "Engine Run MIL" , "014D" , sec_to_min ,"min" ),
]
#___________________________________________________________
def test():
for i in SENSORS:
print i.name, i.value("F")
if __name__ == "__main__":
test()