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vpw_analyzer.py
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vpw_analyzer.py
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'''
VPW Analyzer
By Jonathan Valdez
Version 0.1 - Jan 25, 2022
Description: This is a utility that parses incoming messages from a VPW interface
into a more human-readable format. The bottom box shows each message that was
received in order. The top box shows unique messages that were received.
It connects to an ELM327 like device via a serial port. If on Windows, type
the COM port number into the 'OBD Device Port' and press 'Read'. If on Unix
based system, type in the full path (/dev/serialTTY) and press 'Read'.
'''
from logging import exception
import tkinter as tk
from tkinter import messagebox
import tkinter.ttk as ttk
import binascii
import queue
import threading
import time
import pandas as pd
import string
import serial
import sys
import re
'''
OBD class is used to communicate
'''
class OBD():
def __init__(self, filename):
self.filename = filename
self.fd = None
self.sp = None
self.lines = None
self.serial = False
self.dev_ati_string = None
self.dev_sti_string = None
self.dev_dxi_string = None
self.dev_type = None
self.dev_string = None
# Probably a better way to determine if something is a serial device or not.
if ("/dev" in filename or "COM" in filename or "com" in filename):
self.serial = True
def __del__ (self):
self.close()
def open(self):
if (self.serial):
print ("Opening serial port:",self.filename)
else:
print ("Opening file:", self.filename)
if (self.serial):
if self.sp:
self.sp.close()
self.sp = serial.Serial(timeout=3)
self.sp.port = self.filename
self.sp.open()
if (self.sp.is_open == False):
raise Exception("Unable to open serial port")
# Configure the modem
self.sp.write(b'\r') # Wake the part
if (len(self.sp.read_until(b'>')) == 0): raise Exception("Device did not respond to reset")
self.sp.write(b'atz\r\n') # Reset the device
reset_response = self.sp.read_until(b'>')
if (len(reset_response) == 0): raise Exception("Did not receieve any data from device. Wrong serial port?")
if (b'OK' not in reset_response):
# Seems we interrupted a command, let's try again
self.sp.write(b'atz\r\n') # Reset the device
reset_response = self.sp.read_until(b'>')
if (len(reset_response) == 0): raise Exception("Did not receieve any data from device. Wrong serial port?")
if (b'OK' not in reset_response and reset_response[-1] != b'>'): raise Exception("Device did not acknowledge reset request")
self.sp.write(b'atz\r\n') # Reset the device
if (len(self.sp.read_until(b'>')) == 0): raise Exception("Device did not respond to reset")
self.sp.write(b'atl1\r\n') # Enable new line characters between commands/messages
if (len(self.sp.read_until(b'>')) == 0): raise Exception("Device did not accept configuration")
self.sp.write(b'ati\r\n') # Check ELM protocol version
self.dev_ati_string = (self.sp.read_until(b'>').decode("utf-8"))
self.dev_ati_string = re.search('\n(.*)\r',self.dev_ati_string).group(1)
self.sp.write(b'sti\r\n') # Check if STN device
self.dev_sti_string = self.sp.read_until(b'>').decode("utf-8")
self.dev_sti_string = re.search('\n(.*)\r',self.dev_sti_string).group(1)
self.sp.write(b'dxi\r\n') # Check if OBDX device
self.dev_dxi_string = self.sp.read_until(b'>').decode("utf-8")
self.dev_dxi_string = re.search('\n(.*?)( SN.*)?\r',self.dev_dxi_string).group(1)
if ("?" not in self.dev_sti_string):
self.dev_type = "STN"
self.dev_string = self.dev_sti_string
elif ("?" not in self.dev_dxi_string):
self.dev_type = "OBDX"
self.dev_string = self.dev_dxi_string
else:
self.dev_type = "ELM"
self.dev_string = self.dev_ati_string
print("Detected device was a",self.dev_type,"with a version string of:",self.dev_string)
self.sp.write(b'atsp2\r\n') # Set protocol to VPW J1850
if (len(self.sp.read_until(b'>')) == 0): raise Exception("Device did not accept configuration")
self.sp.write(b'ath1\r\n') # Enable headers
if (len(self.sp.read_until(b'>')) == 0): raise Exception("Device did not accept configuration")
self.sp.write(b'atma\r\n') # Begin monitoring bus traffic
if (len(self.sp.read_until(b'\r\n')) == 0): raise Exception("Device did not enter atma mode")
print("Connected")
else:
self.fd = open(self.filename, 'r')
def close(self):
if self.serial:
if self.sp.is_open:
self.sp.write(b'a\r\n')
time.sleep(1)
self.sp.close()
else:
self.fd.close()
def read(self):
if self.serial:
return self.sp.readline().decode("utf-8")
else:
return self.fd.readline()
def is_open(self):
if self.serial:
return self.sp.is_open
return False
class VPW_frame:
'''
Functional Addresses commonly used on GM J1850 VPW Vehicles
C is for command (request)
S is for status (response)
These are defined as well in SAE J2178-4
'''
func_addresses = {
0x0B:"(C) Eng Air Intake", 0x0B:"(S) Eng Air Intake",
0x12:"(C) Fuel", 0x13:"(S) Fuel",
0x14:"(C) AC Clutch", 0x15:"(S) AC Clutch",
0x1A:"(C) Engine RPM", 0x1B:"(S) Engine RPM",
0x24:"(C) Wheels", 0x25:"(S) Wheels",
0x28:"(C) Vehicle Speed", 0x29:"(S) Vehicle Speed",
0x2A:"(C) Traction Control", 0x2B:"(S) Traction Control",
0x32:"(C) Brakes", 0x33:"(S) Brakes",
0x34:"(C) Steering", 0x35:"(S) Steering",
0x3A:"(C) Trans", 0x3B:"(S) Trans",
0x48:"(C) Eng Coolant", 0x49:"(S) Eng Coolant",
0x4A:"(C) Eng Oil", 0x4B:"(S) Eng Oil",
0x52:"(C) Engine Sys", 0x53:"(S) Engine Sys",
0x58:"(C) Suspension", 0x59:"(S) Suspension",
0x62:"(C) Cruise Control", 0x63:"(S) Cruise Control",
0x72:"(C) Charging System", 0x73:"(S) Charging System",
0x7A:"(C) Odometer", 0x7B:"(S) Odometer",
0x82:"(C) Fuel System", 0x83:"(S) Fuel System",
0x84:"(C) Vehicle Motion", 0x85:"(S) Vehicle Motion",
0x86:"(C) Ign Switch", 0x87:"(S) Ign Switch",
0x92:"(C) Veh Security", 0x93:"(S) Veh Security",
0x96:"(C) Chimes", 0x97:"(S) Chimes",
0xC6:"(C) Extern Access", 0xC7:"(S) Extern Access",
0xCE:"(C) MFG Specific", 0xCF:"(S) MFG Specific",
0xD2:"(C) Restraints", 0xD3:"(S) Restraints",
0xDA:"(C) Exterior Lamps", 0xDB:"(S) Exterior Lamps",
0xDE:"(C) Interior Lamps", 0xDF:"(S) Interior Lamps",
0xE4:"(C) Tires", 0xE5:"(S) Tires",
0xE6:"(C) Defrost", 0xE7:"(S) Defrost",
0xEA:"(C) MFG Specific", 0xEB:"(S) MFG Specific",
0xF2:"(C) Ext Environment", 0xF3:"(S) Ext Environment",
0xFA:"(C) VIN", 0xFB:"(S) VIN",
0xFE:"(C) Network Control", 0xFF:"(S) Network Control"
}
'''
Physical Module Addresses Used in GM VPW-based Vehicles.
These came from C5 vehicles, but should be consistent across similar 1997-2004 era GM vehicles
'''
phys_addresses = {
0x10:"ECU",
0x28:"ABS",
0x40:"BCM",
0x58:"SRS",
0x60:"Cluster",
0x80:"Radio",
0x99:"HVAC",
0xA0:"LDCM",
0xA1:"RDCM",
0xA6:"SCM",
0xB0:"Remotes",
0xF1:"Ext Tool"
}
@staticmethod
def is_valid(byteString):
hex_digits = set('0123456789abcdefABCDEF xX')
return all(c in hex_digits for c in byteString)
@staticmethod
def process(byteString):
if (VPW_frame.is_valid(byteString) == False):
return None
try:
byteArray = bytearray.fromhex(byteString)
except:
print ("Issue processing: ", byteString)
return None
if len(byteArray) < 5:
return None
priority = byteArray[0] >> 5
mode = 'F'
modeType = "?"
if byteArray[0] & 0x04:
mode = 'P'
modeType = (byteArray[0] & 0x0F)
if (modeType) == 0x0C:
modeType = "N-N"
if (byteArray[0] & 0x0F) == 0x08:
modeType = "Func"
elif (byteArray[0] & 0x0F) == 0x09:
modeType = "Broadcast"
elif (byteArray[0] & 0x0F) == 0x0A:
modeType = "Query"
elif (byteArray[0] & 0x0F) == 0x0B:
modeType = "Read"
if (byteArray[0] & 0x10) == 0x10:
mode = "?H"
if (byteArray[0] & 0x08) == 0x00:
mode = "?IFR"
# Check if is a heart beat
isHeartBeat = False
if (byteArray[1] == 0xFF or byteArray[1] == 0xFE):
if (len(byteArray) == 5):
if (byteArray[3] == 0x03):
isHeartBeat = True
return {'priority': priority, 'mode': mode, 'mode type': modeType, 'message': byteArray, 'heartbeat': isHeartBeat}
'''
Message Manager Class is used to handle displaying the messages received
'''
class MessageManager():
def __init__(self, UIHook):
self.UIHook = UIHook
self.messageSummary = []
self.messageHistory = []
# Filtering settings
self.filter_compare_bytes = 2
self.hide_heartbeat = False
def new_message(self, input_string):
# Send string off to get parsed
inString = input_string.rstrip()
newMsg = VPW_frame.process(inString)
# If object is NoneType, then it failed to parse. Potentially invalid packet
if not (newMsg):
print ("Invalid message recieved in new_message: ", input_string)
return
#Decode address
taModule = "NA"
saModule = "NA"
if (newMsg["mode"] == "F"):
if newMsg["message"][1] in VPW_frame.func_addresses:
taModule = str("${:02X}".format(newMsg["message"][1])+" "+VPW_frame.func_addresses[newMsg["message"][1]])
else:
taModule = "${:02X}".format(newMsg["message"][1])
else:
if newMsg["message"][1] in VPW_frame.phys_addresses:
taModule = str("${:02X}".format(newMsg["message"][1])+" "+VPW_frame.phys_addresses[newMsg["message"][1]])
else:
taModule = "${:02X}".format(newMsg["message"][1])
if newMsg["message"][2] in VPW_frame.phys_addresses:
saModule = str("${:02X}".format(newMsg["message"][2])+" "+VPW_frame.phys_addresses[newMsg["message"][2]])
else:
saModule = "${:02X}".format(newMsg["message"][2])
#Physical address
# Append message to data frame
self.messageHistory.append([len(self.messageHistory), newMsg["message"][0], taModule, saModule, newMsg["priority"], newMsg["mode"], newMsg["mode type"], newMsg["message"][3:],inString])
tempMsg = self.messageHistory[-1]
# See if an existing message exists
summaryInd = self.find_existing_summary(tempMsg)
self.UIHook.new_message(tempMsg)
self.UIHook.update_status_bar( len(self.messageHistory))
# If hide heart beat is enabled, we'll just skip adding it to the summary altogether
if (newMsg["heartbeat"] and self.UIHook.hideHeartbeats.get()):
return
if (summaryInd == -1):
self.messageSummary.append([len(self.messageSummary), 0, tempMsg[0], newMsg["message"][0], taModule, saModule, newMsg["priority"], newMsg["mode"], newMsg["mode type"], newMsg["message"][3:]])
self.UIHook.new_message_summary(self.messageSummary[-1])
else:
# Otherwise we need to update the record
self.messageSummary[summaryInd][1] += 1
self.messageSummary[summaryInd][2] = tempMsg[0]
self.messageSummary[summaryInd][9] = tempMsg[7]
self.UIHook.update_message_summary(summaryInd, self.messageSummary[summaryInd])
def find_existing_summary(self, msg):
if (len(self.messageSummary) == 0):
return -1
byteCompare = self.UIHook.messageUniqueByte.get()
if (byteCompare != "All"):
byteCompare = int(self.UIHook.messageUniqueByte.get())
rows = []
for row in self.messageSummary:
if (row[3] == msg[1] and row[4] == msg[2] and row[5] == msg[3]):
rows.append(row)
if (len(rows) > 0):
# TODO: This can be optimized by having the if statement once and a loop under them
# Found some rows that met the TA and SA, now to compare payload
if (byteCompare == "All"):
for row in rows:
if (row[9] == msg[7]):
#print ("Found index: ",index, " rows\n\r", rows)
return row[0]
elif (byteCompare == 0):
for row in rows:
return row[0]
elif (byteCompare == 1):
for row in rows:
if (row[9][0] == msg[7][0]):
return row[0]
elif (byteCompare == 2):
for row in rows:
if (row[9][0] == msg[7][0]):
if (len(row[9]) == 1):
return row[0]
else:
if (row[9][1] == msg[7][1]):
return row[0]
return -1
def clear_messages(self):
return
'''
This class is used to run the serial/OBD class in a separate thread
'''
class ThreadedTask(threading.Thread):
def __init__(self, gui, file_path):
threading.Thread.__init__(self)
self.gui = gui
self.file_path = file_path
self.stop_var = False
self.obd = None
def run(self):
if (self.obd):
self.obd.close()
self.obd = OBD(self.file_path)
self.obd.open()
self.gui.update_obd_status(True,self.obd.dev_string)
threadPointer = threading.current_thread()
while (self.stop_var == False):
try:
#time.sleep(0.1) # Simulate long running process
line = self.obd.read()
if self.stop_var:
break
if not line:
continue
#TODO: Probably should use a queue instead of calling another thread's function...
self.gui.mm.new_message(line)
except:
print ("Exception in file reading thread")
break
self.obd.close()
def stop(self):
self.stop_var = True
'''
Main application class that handles the GUI
'''
class Application(tk.Frame):
def __init__(self, root):
self.root = root
self.thread_reading = None
self.initialize_user_interface()
self.update_status_bar(False)
self.mm = MessageManager(self)
def initialize_user_interface(self):
# Configure the root object for the Application
self.root.title("VPW Analyzer")
self.root.grid_rowconfigure(0, weight=0)
self.root.grid_rowconfigure(1, weight=1)
self.root.grid_rowconfigure(2, weight=0)
self.root.grid_rowconfigure(3, weight=3)
self.root.grid_rowconfigure(4, weight=0)
self.root.grid_columnconfigure(0, weight=1)
self.root.grid_columnconfigure(2, minsize=10)
self.root.grid_columnconfigure(4, minsize=10)
self.root.config(background="Grey")
''' Variables for GUI '''
self.statusBarString = tk.StringVar()
self.statusBarOBDString = tk.StringVar()
self.messageTreeLock = tk.BooleanVar()
self.hideHeartbeats = tk.BooleanVar()
self.messageUniqueByte = tk.StringVar()
self.messageUniqueByte.set("2")
''' Summary Tree at the top '''
self.summaryTreeLabel = tk.Label(self.root, text="Summary Messages")
self.summaryTreeLabel.grid(row=0, column=0, sticky=tk.W)
self.summaryTree = ttk.Treeview(self.root, columns=( 'Last MID', '# Msgs', 'Hdr', 'Prio', 'Mode', 'Type', 'TA', 'SA', 'Payload'))
self.summaryTreeScroll = ttk.Scrollbar(self.root)
self.summaryTreeScroll.configure(command=self.summaryTree.yview)
self.summaryTree.configure(yscrollcommand=self.summaryTreeScroll.set)
# Set the heading (Attribute Names)
self.summaryTree.heading('#0', text='SID')
self.summaryTree.heading('#1', text='Last MID')
self.summaryTree.heading('#2', text='# Msgs')
self.summaryTree.heading('#3', text='Hdr')
self.summaryTree.heading('#4', text='Priority')
self.summaryTree.heading('#5', text='Mode')
self.summaryTree.heading('#6', text='Type')
self.summaryTree.heading('#7', text='TA')
self.summaryTree.heading('#8', text='SA')
self.summaryTree.heading('#9', text='Payload')
# Specify attributes of the columns (We want to stretch it!)
self.summaryTree.column('#0', minwidth=30, width=40, stretch=tk.YES)
self.summaryTree.column('#1', minwidth=30, width=40, stretch=tk.YES)
self.summaryTree.column('#2', minwidth=30, width=40, stretch=tk.YES)
self.summaryTree.column('#3', minwidth=30, width=40, stretch=tk.YES)
self.summaryTree.column('#4', minwidth=30, width=40, stretch=tk.YES)
self.summaryTree.column('#5', minwidth=30, width=40, stretch=tk.YES)
self.summaryTree.column('#6', minwidth=30, width=70, stretch=tk.YES)
self.summaryTree.column('#7', minwidth=30, width=200, stretch=tk.YES)
self.summaryTree.column('#8', minwidth=30, width=80, stretch=tk.YES)
self.summaryTree.column('#9', minwidth=50, width=200, stretch=tk.YES)
self.summaryTree.grid(row=1, column=0, sticky='nsew')
self.summaryTreeScroll.grid(row=1, column=1, sticky='nsw')
''' Message Tree '''
self.messageTree_Label = tk.Label(self.root, text="Message history")
self.messageTree_Label.grid(row=2, column=0, sticky=tk.W)
self.messageTree_checkbox = tk.Checkbutton(self.root, text="Lock to most recent", variable=self.messageTreeLock, onvalue=True, offvalue=False)
self.messageTree_checkbox.grid(row=2,column=0, sticky=tk.E)
# Set the treeview for the raw transaction table
self.messageTree = ttk.Treeview(self.root, columns=('Hdr', 'Prio', 'Mode', 'Type', 'TA', 'SA', 'Payload'))
self.messageTreeScroll = ttk.Scrollbar(self.root)
self.messageTreeScroll.configure(command=self.messageTree.yview)
self.messageTree.configure(yscrollcommand=self.messageTreeScroll.set)
# Set the heading (Attribute Names)
self.messageTree.heading('#0', text='MID')
self.messageTree.heading('#1', text='Hdr')
self.messageTree.heading('#2', text='Priority')
self.messageTree.heading('#3', text='Mode')
self.messageTree.heading('#4', text='Type')
self.messageTree.heading('#5', text='TA')
self.messageTree.heading('#6', text='SA')
self.messageTree.heading('#7', text='Payload')
# Specify attributes of the columns (We want to stretch it!)
self.messageTree.column('#0', minwidth=30, width=40, stretch=tk.YES)
self.messageTree.column('#1', minwidth=30, width=30, stretch=tk.YES)
self.messageTree.column('#2', minwidth=40, width=40, stretch=tk.YES)
self.messageTree.column('#3', minwidth=30, width=30, stretch=tk.YES)
self.messageTree.column('#4', minwidth=30, width=60, stretch=tk.YES)
self.messageTree.column('#5', minwidth=30, width=170, stretch=tk.YES)
self.messageTree.column('#6', minwidth=30, width=80, stretch=tk.YES)
self.messageTree.column('#7', minwidth=50, width=200, stretch=tk.YES)
self.messageTree.grid(row=3, column=0, sticky='nsew')
self.messageTreeScroll.grid(row=3, column=1, sticky='nsw')
''' Configuration Frame '''
self.config_frame = tk.Frame(self.root, borderwidth = 1)
self.config_frame.grid(row=1, column = 3, rowspan=1, sticky='nsew')
self.config_frame.grid_rowconfigure(90, weight=1)
# Define the different GUI widgets
self.config_label = tk.Label(self.config_frame, text="OBD II Configuration")
self.config_label.grid(row=0, column=0, columnspan=2, sticky=tk.W)
config_sep = ttk.Separator(self.config_frame, orient='horizontal')
config_sep.grid(row=1, columnspan = 2, sticky='ew')
self.serial_label = tk.Label(self.config_frame, text="OBD Device Serial Port")
self.serial_port_entry = tk.Entry(self.config_frame)
self.serial_label.grid(row=2, column=0, sticky=tk.W)
self.serial_port_entry.grid(row=2, column=1)
self.idnumber_label = tk.Label(self.config_frame, text="Raw Line")
self.idnumber_entry = tk.Entry(self.config_frame)
self.idnumber_label.grid(row=3, column=0, sticky=tk.W)
self.idnumber_entry.grid(row=3, column=1)
self.submit_button = tk.Button(self.config_frame, text="Parse", command=self.insert_data)
self.submit_button.grid(row=4, column=1, sticky=tk.W)
self.read_button = tk.Button(self.config_frame, text="Read", command=self.read_file)
self.read_button.grid(row=4, column=1, sticky='e')
# View settings
self.config_label = tk.Label(self.config_frame, text="View Settings")
self.config_label.grid(row=4, column=0, columnspan=2, sticky=tk.W)
config_sep = ttk.Separator(self.config_frame, orient='horizontal')
config_sep.grid(row=5, columnspan = 2, sticky='ew')
self.view_hideHeartbeats = tk.Checkbutton(self.config_frame, text="Hide Module Heartbeats", variable=self.hideHeartbeats, onvalue=True, offvalue=False)
self.view_hideHeartbeats.grid(row=6,column=0, sticky=tk.E)
self.view_uniqueByte_label = tk.Label(self.config_frame, text="Compare First # Bytes")
self.view_uniqueByte_label.grid(row=7,column=0)
self.view_uniqueByte = tk.OptionMenu(self.config_frame, self.messageUniqueByte, "0", "1", "2", "All")
self.view_uniqueByte.grid(row=7,column=1, sticky=tk.W)
self.delete_button = tk.Button(self.config_frame, text="Clear Message Logs", command=self.delete_data)
self.delete_button.grid(row=100, column=0)
self.delete_button = tk.Button(self.config_frame, text="Export Logs", command=self.export_log)
self.delete_button.grid(row=100, column=1)
''' Transmit Message Frame '''
self.transmit_frame = tk.Frame(self.root, borderwidth = 1)
self.transmit_frame.grid(row=3, column = 3, rowspan=1, sticky='nsew')
self.transmit_frame.grid_rowconfigure(5, minsize=10)
self.transmit_frame.grid_rowconfigure(90, weight=1)
self.config_label = tk.Label(self.transmit_frame, text="Transmit Frame")
self.config_label.grid(row=0, column=0, columnspan=2, sticky=tk.W)
config_sep = ttk.Separator(self.transmit_frame, orient='horizontal')
config_sep.grid(row=1, columnspan = 2, sticky='ew')
self.header_label = tk.Label(self.transmit_frame, text="Header")
self.header_label.grid(row=2, column=0)
self.header_entry = tk.Entry(self.transmit_frame)
self.header_entry.grid(row=2, column=1)
self.header_entry.insert(0, "8C F1 10")
self.payload_label = tk.Label(self.transmit_frame, text="Payload")
self.payload_label.grid(row=3, column=0)
self.payload_entry = tk.Entry(self.transmit_frame)
self.payload_entry.grid(row=3, column=1)
self.payload_entry.insert(0, "24 00")
self.copy_button = tk.Button(self.transmit_frame, text="Copy from selected")
self.copy_button.grid(row=4, column=0, sticky='s')
self.send_button = tk.Button(self.transmit_frame, text="Send")
self.send_button.grid(row=4, column=1, sticky='s')
config_sep = ttk.Separator(self.transmit_frame, orient='horizontal')
config_sep.grid(row=5, columnspan = 2, sticky='ew')
self.send_selected_button = tk.Button(self.transmit_frame, text="Send Selected Message")
self.send_selected_button.grid(row=6, column=0, sticky='s')
self.exit_button = tk.Button(self.transmit_frame, text="Exit Program", command=self.on_app_close)
self.exit_button.grid(row=100, column=0, sticky='s')
''' Status Bar '''
self.statusBar = tk.Label(self.root, textvariable=self.statusBarString, bd=1, relief=tk.SUNKEN, anchor=tk.W)
self.statusBar.grid(row=4, column=0, columnspan=5, sticky='nsew')
self.statusBarOBD = tk.Label(self.root, textvariable=self.statusBarOBDString, bd=1, relief=tk.SUNKEN, anchor=tk.W)
self.statusBarOBD.grid(row=4, column=2, columnspan=5, sticky='nsew')
''' Reset any variables '''
self.sid = 0
self.mid = 0
self.statusBarString.set("Messages: 0")
self.statusBarOBDString.set("OBD: Disconnected")
def update_status_bar(self, messages=0, connected=False):
string = "Messages: " + str(messages)
self.statusBarString.set(string)
def update_message_count(self, messages=0):
self.messages_receieved = messages
def update_obd_status(self,connected=False,dev_version=""):
if connected:
self.statusBarOBDString.set("OBD: Connected - " + str(dev_version))
else:
self.statusBarOBDString.set(str("OBD: Disconnected"))
def insert_data(self):
rawString = self.idnumber_entry.get()
self.mm.new_message(rawString)
def export_log(self):
fexport = open("export.txt", "w")
for line in self.mm.messageHistory:
fexport.write(line[-1]+"\r\n")
fexport.close()
def new_message(self, newMsg):
# Print the message to the message history tree
self.messageTree.insert('', 'end', iid=newMsg[0], text=str(newMsg[0]),
values=("{:02X}".format(newMsg[1]), newMsg[4], newMsg[5],
newMsg[6], newMsg[2], newMsg[3], str(" ".join(["{:02X}".format(x) for x in newMsg[7][:-1]]))))
# If the scroll lock is enabled, then scroll down
if (self.messageTreeLock.get()):
self.messageTree.yview_moveto(1)
self.update_status_bar()
def new_message_summary(self, newMsg):
# Print the message to the message history tree
self.summaryTree.insert('', 'end', iid=newMsg[0], text=str(newMsg[0]),
values=(newMsg[0], 0, "{:02X}".format(newMsg[3]), newMsg[6], newMsg[7],
newMsg[8], newMsg[4], newMsg[5], str(" ".join(["{:02X}".format(x) for x in newMsg[9][:-1]]))))
#self.sid = self.sid + 1
def update_message_summary(self, index, newMsg):
values = self.summaryTree.item(index)
#print ("Updating UI: ", values, "and", newMsg)
try:
self.summaryTree.item(index, text=str(index),
values=(newMsg[2], newMsg[1], "{:02X}".format(newMsg[3]), newMsg[6], newMsg[7], newMsg[8], newMsg[4], newMsg[5], str(" ".join(["{:02X}".format(x) for x in newMsg[9][:-1]]))))
except:
print ("Issue updating index, ", newMsg)
for child in self.summaryTree.get_children():
print(self.summaryTree.item(child)["values"])
def delete_data(self):
#row_id = int(self.summaryTree.focus())
#self.summaryTreeview.delete(row_id)
for i in self.summaryTree.get_children():
self.summaryTree.delete(i)
for i in self.messageTree.get_children():
self.messageTree.delete(i)
self.mm = MessageManager(self)
self.mid = 0
self.sid = 0
def read_file(self):
file_path = self.serial_port_entry.get()
if (self.thread_reading):
# A thread exists already. Must mean it's already open. We must close/destroy it
self.thread_reading.stop()
self.thread_reading.join(3)
if (self.thread_reading.is_alive()):
print("Error ending thread...")
self.thread_reading = ThreadedTask(self, file_path)
self.thread_reading.start()
def on_app_close(self):
if messagebox.askokcancel("Quit", "Are you sure you want to quit?"):
if (self.thread_reading):
self.thread_reading.stop()
self.thread_reading.join(3)
if (self.thread_reading.is_alive()):
print("Error ending thread for app exit...")
self.root.destroy()
if __name__ == "__main__" :
app = Application(tk.Tk())
app.root.wm_protocol("WM_DELETE_WINDOW", app.on_app_close)
app.root.mainloop()