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MOBIB-Extractor.py
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MOBIB-Extractor.py
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#!/usr/bin/python
# -*- coding: utf-8 -*-
#
# (c) 2009 MOBIB Extractor project. This software is provided 'as-is',
# without any express or implied warranty. In no event will the authors be held
# liable for any damages arising from the use of this software.
#
# Permission is granted to anyone to use this software for any purpose,
# including commercial applications, and to alter it and redistribute it
# freely, subject to no restriction.
#
# Technical remarks and questions can be addressed to
#
import re
import sys
import types
import time
import datetime
import string
import csv
import os
import shutil
import tkMessageBox
from tkFont import *
from Tkinter import *
from tkFileDialog import *
from smartcard.System import readers
from smartcard.util import toHexString, toBytes
from PIL import Image, ImageTk, ImageDraw, ImageFont
##################
## Informations ##
##################
numero = ['0','1','2','3','4','5','6','7','8','9']
## List of manufacturers
def list_manufacturers(x):
if x == '02' or x == '11' or x == '20' or x == '2E':
return 'Calyspo'
if x == '00':
return 'ASK'
elif x == '01':
return 'Intec'
elif x == '03':
return 'Ascom'
elif x == '04':
return 'Thales'
elif x == '05':
return 'Sagem'
elif x == '06':
return 'Axalto'
elif x == '07':
return 'Bull'
elif x == '08':
return 'Spirtech'
elif x == '09':
return 'BMS'
elif x == '0A':
return 'Oberthur'
elif x == '0B':
return 'Gemplus'
elif x == '0C':
return 'Magnadata'
elif x == '0D':
return 'Calmell'
elif x == '0E':
return 'Mecstar'
elif x == '0F':
return 'ACG Identification'
elif x == '10':
return 'STMicroelectronics'
elif x == '12':
return 'Giesecke & Devrient'
elif x == '13':
return 'OTI'
elif x == '14':
return 'Gemalto'
elif x == '15':
return 'Watchdata'
elif x == '16':
return 'Alios'
elif x == '17':
return 'S-P-S'
elif x == '18':
return 'IRSA'
elif x == '21':
return 'Innovatron'
else:
return 'RFU'
###############
## Fonctions ##
###############
## Hexadecimal to binary
def hex_to_bin(h):
res = ''
for i in range(0,len(h)):
if h[i] in numero:
a = int(h[i])
else:
if h[i] == "A":
a = int(10)
if h[i] == "B":
a = int(11)
if h[i] == "C":
a = int(12)
if h[i] == "D":
a = int(13)
if h[i] == "E":
a = int(14)
if h[i] == "F":
a = int(15)
for j in (3,2,1,0):
if a-pow(2,j) >= 0:
res = res + "1"
a = a - pow(2,j)
else:
res = res + "0"
return res
## Binary to alphabet with offset t (on 5 bits)
def bin_to_alphabet (b, t):
res = ''
a = int(0)
if len(b)%5 == 0:
r = 5
else:
r = len(b)%5
for i in range(0+t,len(b)-(r+t), 5):
a = int(b[i])*16 + int(b[i+1])*8 + int(b[i+2])*4 + int(b[i+3])*2 + int(b[i+4])
if a > 26 or a < 1:
res = res + ' '
else:
res = res + chr(64+a)
return res
## Binary to number (on the total length)
def bin_to_number (b):
a = int(0)
for i in range(len(b)-1, -1, -1):
a = a + int(b[i])*pow(2,len(b)-i-1)
return str(a)
## Binary to number with offset t (on 4 bits)
def bin_to_number_dec (b, t):
res = ''
a = int(0)
if len(b)%4 == 0:
r = 4
else:
r = len(b)%4
for i in range(0+t,len(b)-(r+t), 4):
a = int(b[i])*8 + int(b[i+1])*4 + int(b[i+2])*2 + int(b[i+3])
if a > 9:
res = res + "x"
else:
res = res + str(a)
return res
## Find a date from the 1st January 1997
def find_date (x):
init = datetime.date(1997, 1, 1)
diff = datetime.timedelta(days=x)
d = init + diff
if d == init:
return "NO TRAVEL REGISTERED"
else:
return d.strftime("%d/%m/%Y")
## Find a date from the 1st January 1990
def find_date_manuf (x):
init = datetime.date(1990, 1, 1)
diff = datetime.timedelta(days=x)
d = init + diff
if d == init:
return "NO TRAVEL REGISTERED"
else:
return d.strftime("%d/%m/%Y")
## Find an hour
def find_hour (x):
min = str(int(x)%60)
if min in numero:
min = '0'+min
return (int(x)/60, min)
################
## CLASS DUMP ##
################
class Dump:
def __init__(self, input=None):
self.logs = [] # Rmq : logs[0] = the last log recorded
self.contracts = []
self.readError = False
self.readerError = False
# Acquisition of a dump
if input == None:
self.r=readers()
# If there is no reader connected
if self.r == []:
tkMessageBox.showerror("Reader problem","No reader connected !", icon='error')
self.readerError = True
return
# If the 2 readers (ACR122 and ACR38) are connected
self.lecteur = 0
if len(self.r) > 1:
for i in range(len(self.r)):
if str(self.r[i]) == "ACS ACR 38U-CCID 00 00" or str(self.r[i]) == "ACS ACR38 Smart Card Reader 00 00" or str(self.r[i]) == "ACS ACR38U 00 00":
self.lecteur = self.lecteur + 1
if self.lecteur == 2 :
tkMessageBox.showerror("Reader problem","Please connect only ONE reader (ACR122 or ACR38) !", icon='error')
self.readerError = True
return
# Detect the reader
self.activation = 0
self.lecteur = 0
for i in range(len(self.r)):
if str(self.r[i]) == "ACS ACR 38U-CCID 00 00" and self.activation == 0:
self.activation = 1
os.system('./pymobibACR122.py > dump.txt')
elif str(self.r[i]) == "ACS ACR38 Smart Card Reader 00 00" and self.activation == 0:
self.activation = 1
os.system('./pymobibACR38.py > dump.txt')
elif str(self.r[i]) == "ACS ACR38U 00 00" and self.activation == 0:
self.activation = 1
os.system('./pymobibACR38.py > dump.txt')
else:
if i == len(self.r)-1 and self.activation == 0:
tkMessageBox.showerror("Reader problem","No supported reader connected !", icon='error')
self.readerError = True
return
fs = open("dump.txt", 'r')
fs.readline()
fs.readline()
temp = fs.readline()
# If there is no card on the reader
if temp == '' or temp[0] == "N":
self.readError = True
return
fs.close()
self.readDump("dump.txt")
# Reading a dump
else:
self.readDump(input)
# Data Treatment
self.processICC()
self.processLoadLog()
self.processHolder()
self.processContracts()
self.processLogs()
#self.printResults() # if you want your results into the terminal
###################
## Reading dumps ##
###################
def readDump (self, input):
f = open(input, 'r')
while 1:
txt = f.readline()
if txt =='':
break
tmp = (txt.split(' '))
tmp[len(tmp)-1] = tmp[len(tmp)-1][0] + tmp[len(tmp)-1][1]
tmp2 = []
for i in range(len(tmp)):
if tmp[i] != '':
tmp2.append(tmp[i])
if tmp2[0] == 'ICC:':
self.icc = tmp2[1:len(tmp2)]
elif tmp2[0] == 'Holder1:':
self.holder1 = tmp2[1:len(tmp2)]
elif tmp2[0] == 'Holder2:':
self.holder2 = tmp2[1:len(tmp2)]
elif tmp2[0] == 'EnvHol1:':
self.env_holder = tmp2[1:len(tmp2)]
elif tmp2[0][1] == 'v':
self.logs.append(tmp2[1:len(tmp2)])
elif tmp2[0] == 'ConList:':
self.contract_list = tmp2[1:len(tmp2)]
elif tmp2[0][3] == 't':
self.contracts.append(tmp2[1:len(tmp2)])
elif tmp2[0] == 'Counter:':
self.counter = tmp2[1:len(tmp2)]
elif tmp2[0] == 'LoadLog:':
self.load_logs = tmp2[1:len(tmp2)]
f.close()
######################
## ICC informations ##
######################
def processICC (self):
hexa_manuf_data = ''
for i in range(12):
hexa_manuf_data = hexa_manuf_data + self.icc[i]
self.card_serial_number = ''
for i in range(12,20):
self.card_serial_number = self.card_serial_number + self.icc[i]
print "Card serial number : %s"%self.card_serial_number
self.manuf_country = ''
country = self.icc[20] + self.icc[21]
if country == '0250':
self.manuf_country = "FRANCE"
print "Manufactured in : %s"%self.manuf_country
if country == '0056':
self.manuf_country = "BELGIUM"
print "Manufactured in : %s"%self.manuf_country
self.manuf_id = self.icc[22]
print "Card manufacturer : %s"%list_manufacturers(self.manuf_id)
manuf_info = self.icc[24]
rfu1 = self.icc[23]
rfu2 = self.icc[28]
self.card_init_date = find_date_manuf(int(bin_to_number(hex_to_bin(self.icc[25] + self.icc[26]))))
print "Card initialisation date : %s\n"%self.card_init_date
check_value = self.icc[27]
print "Check_value : %s"%bin_to_number(hex_to_bin(check_value))
# Verification of the check value
tmp_hexa = ''
for i in range(1,27):
tmp_hexa = tmp_hexa + self.icc[i]
tmp_bin = hex_to_bin(tmp_hexa)
cv = 5
for i in range(len(tmp_bin)):
if tmp_bin[i] == '0':
cv = cv + 1
print "Check_Value verified : %d\n"%(cv%110)
##############
## Load Log ##
##############
def processLoadLog (self):
tmp_hexa = self.load_logs[0] + self.load_logs[1]
tmp_bin = hex_to_bin(tmp_hexa)
self.purchase_card = find_date(int(bin_to_number(tmp_bin[2:len(tmp_bin)])))
if self.purchase_card == "NO TRAVEL REGISTERED":
self.purchase_card = "UNKNOWN DATE"
print "Date of the card purchase : %s"%self.purchase_card
#########################################################################
## Find Name + Birthdate + Post code + Card number + Remaining travels ##
#########################################################################
def processHolder (self):
# self.holder1 has :
# - bytes 0-1 : unknown data
# - bytes 2-11 : the card number
# - bytes 12-20 : unknown data
# - bytes 21-24 : the birthday
# - bytes 24-28 : the begining of the name
# self.holder2 has the end of the name
## Name
hexa_name = self.holder1[25][1]
for i in range(26, 29):
hexa_name = hexa_name + self.holder1[i]
for a in (self.holder2):
hexa_name = hexa_name + a
bin_name = ''
for i in range(0,len(hex_to_bin(hexa_name))):
bin_name = bin_name + hex_to_bin(hexa_name)[i]
self.name = bin_to_alphabet(bin_name,1) # offset = 1
hexa_type = self.holder1[25][0]
bin_type = hex_to_bin(hexa_type)[0:2]
if bin_type == '01':
self.type = 'Mr'
elif bin_type == '10':
self.type = 'Mrs'
print "Name : %s %s\n"%(self.type,self.name)
## Birthday
self.birthday = self.holder1[24] + " / " + self.holder1[23] + " / " + self.holder1[21] + self.holder1[22]
print "Birthday : %s\n"%self.birthday
## Zip code
hexa_zipcode = self.env_holder[22] + self.env_holder[23] + self.env_holder[24][0]
self.zipcode = bin_to_number(hex_to_bin(hexa_zipcode)[4:17])
print "Zip code : %s\n"%self.zipcode
## Card number
hexa_card = ''
for i in range(2, 12):
hexa_card = hexa_card + self.holder1[i]
hexa_card = hexa_card + self.holder1[12][0]
self.num_card = bin_to_number_dec(hex_to_bin(hexa_card),2) # offset = 2
print "Card number : %s\n"%self.num_card
###############
## Contracts ##
###############
def processContracts (self):
## Remaining travels
hexa_counter = []
for i in range(0,26,3):
hexa_counter.append(self.counter[i] + self.counter[i+1] + self.counter[i+2])
self.c = int(0)
for i in range(len(hexa_counter)):
self.c = self.c + int(bin_to_number(hex_to_bin(hexa_counter[i])))
## Contract type
if self.c == 12034:
self.c = "-"
self.contract_type = "Day subscription"
else:
self.contract_type = "UNKNOWN"
print "Contract type : %s\n"%self.contract_type
print "Remaining travels : %s\n"%self.c
## Number of contracts
self.nb_contracts = bin_to_number(hex_to_bin(self.contract_list[0][0]))
print "Number of contracts : %s"%self.nb_contracts
self.purchase_contracts = []
## Contracts purchase
for i in range(int(self.nb_contracts)):
bin_contracts = hex_to_bin(self.contracts[i][5] + self.contracts[i][6])
self.purchase_contracts.append(find_date(int(bin_to_number(bin_contracts[1:len(bin_contracts)-1]))))
print "Contracts purchase %s : %s\n"%(i+1, self.purchase_contracts[i])
########################
## Interpretation log ##
########################
def processLogs (self):
## Card total validations counter
hexa_cp_total_log = ['','','']
self.cp_total_log = ['','','']
for i in range(3):
hexa_cp_total_log[i] = self.logs[i][17] + self.logs[i][18] + self.logs[i][19] + self.logs[i][20][0]
for i in range(3):
r = hex_to_bin(hexa_cp_total_log[i])
self.cp_total_log[i] = bin_to_number(r[3:len(r)-2])
## Travel connection counter
hexa_cp_corresp_log = ['','','']
self.cp_corresp_log = ['','','']
for i in range(3):
hexa_cp_corresp_log[i] = self.logs[i][20] + self.logs[i][21] + self.logs[i][22] + self.logs[i][23][0]
for i in range(3):
r = hex_to_bin(hexa_cp_corresp_log[i])
self.cp_corresp_log[i] = bin_to_number(r[3:len(r)-2])
## Card validation date
hexa_date_valid = ['','','']
self.date_valid = ['','','']
for i in range(3):
hexa_date_valid[i] = self.logs[i][0][1] + self.logs[i][1] + self.logs[i][2][0]
for i in range(3):
tmp_datev_bin = hex_to_bin(hexa_date_valid[i])
self.date_valid[i] = find_date(int(bin_to_number(tmp_datev_bin[2:len(tmp_datev_bin)])))
## Card validation date of the first transit travel
hexa_date_transit = ['','','']
self.date_transit = ['','','']
for i in range(3):
hexa_date_transit[i] = self.logs[i][23] + self.logs[i][24]
for i in range(3):
tmp_datet_bin = hex_to_bin(hexa_date_transit[i])
self.date_transit[i] = find_date(int(bin_to_number(tmp_datet_bin[2:len(tmp_datet_bin)])))
## Card validation hour
hexa_heure_valid = ['','','']
self.heure_valid = ['','','']
for i in range(3):
hexa_heure_valid[i] = self.logs[i][2][1] + self.logs[i][3]
for i in range(3):
tmp_heurev_bin = hex_to_bin(hexa_heure_valid[i])
self.heure_valid[i] = find_hour(int(bin_to_number(tmp_heurev_bin[0:len(tmp_heurev_bin)-1])))
## Card validation hour of the first transit travel
hexa_heure_transit = ['','','']
self.heure_transit = ['','','']
for i in range(3):
hexa_heure_transit[i] = self.logs[i][25] + self.logs[i][26][0]
for i in range(3):
tmp_heuret_bin = hex_to_bin(hexa_heure_transit[i])
self.heure_transit[i] = find_hour(int(bin_to_number(tmp_heuret_bin[0:len(tmp_heuret_bin)-1])))
## Transit or not ?
self.transit = ['','','']
for i in range(3):
if self.logs[i][6][0] == '6':
self.transit[i] = "YES"
else:
self.transit[i] = "NO"
## Number of persons travelling
self.nb_persons = ['','','']
for i in range(3):
bin_nb_persons = hex_to_bin(self.logs[i][6][1] + self.logs[i][7][0])[0:5]
self.nb_persons[i] = bin_to_number(bin_nb_persons)
## String Logs
string_logs = ['','','']
for i in range(3):
tmp_hexa = ''
for j in range(29):
tmp_hexa = tmp_hexa + self.logs[i][j]
string_logs[i] = hex_to_bin(tmp_hexa)
## Station
self.type_transport = ['','','']
self.ligne = ['','','']
self.station = ['','','']
self.direction = ['','','']
self.coordx = ['','','']
self.coordy = ['','','']
for i in range(3):
# if the transport is a metro
if string_logs[i][99:104] == '00000':
if self.date_valid[i] == "NO TRAVEL REGISTERED":
self.type_transport[i] = "NO TRAVEL REGISTERED"
self.ligne[i] = "0"
self.station[i] = "No info"
self.direction[i] = "No info"
self.coordx[i] = "-"
self.coordy[i] = "-"
else:
self.type_transport[i] = 'Metro'
reader = csv.reader(open("Database/Metro.csv", "rb"))
# Special case: a reader at the station Gare Centrale does not have the correct UID !!!!
if string_logs[i][104:131] == '000111001101011011011101010':
self.ligne[i] = "1A/1B"
self.station[i] = "Gare Centrale"
self.direction[i] = "No info"
self.coordx[i] = "1223"
self.coordy[i] = "1347"
else:
for r in reader:
if string_logs[i][104:110] == r[1] and string_logs[i][110:114] == r[2] and string_logs[i][114:121] == r[3]:
self.ligne[i] = r[4]
self.station[i] = r[5]
self.direction[i] = "No info"
self.coordx[i] = r[6]
self.coordy[i] = r[7]
# if the transport is a premetro
elif string_logs[i][99:104] == '00111':
self.type_transport[i] = 'Premetro'
reader = csv.reader(open("Database/Metro.csv", "rb"))
for r in reader:
if string_logs[i][104:110] == r[1] and string_logs[i][110:114] == r[2] and string_logs[i][114:121] == r[3]:
self.ligne[i] = r[4]
self.station[i] = r[5]
self.direction[i] = "No info"
self.coordx[i] = r[6]
self.coordy[i] = r[7]
# if the transport is a tramway
elif string_logs[i][99:104] == '10110':
self.type_transport[i] = 'Tramway'
self.ligne[i] = "No info"
self.station[i] = "No info"
self.direction[i] = "No info"
self.coordx[i] = "-"
self.coordy[i] = "-"
# if the transport is a bus
elif string_logs[i][99:104] == '01111':
self.type_transport[i] = 'Bus'
reader = csv.reader(open("Database/Bus.csv", "rb"))
for r in reader:
if bin_to_number(string_logs[i][92:99]) == r[0] and bin_to_number(string_logs[i][71:83]) == r[5]:
self.ligne[i] = r[0]
self.station[i] = r[4]
self.direction[i] = r[1]
self.coordx[i] = r[2]
self.coordy[i] = r[3]
break
else:
if bin_to_number(string_logs[i][92:99]) == '0':
self.ligne[i] = "Unknown"
else:
self.ligne[i] = bin_to_number(string_logs[i][92:99])
self.station[i] = "No info"
self.direction[i] = "No info"
self.coordx[i] = "-"
self.coordy[i] = "-"
# if the transport is unknown
else:
self.type_transport[i] = "Unknown"
self.ligne[i] = "No info"
self.station[i] = "No info"
self.direction[i] = "No info"
self.coordx[i] = "-"
self.coordy[i] = "-"
#############
## Results ##
#############
def printResults (self):
for i in range(3):
print "\n---> For the log %d :\n"%i
print "Transport : %s"%(self.type_transport[i])
print "Ligne : %s"%(self.ligne[i])
print "Station : %s"%(self.station[i])
print "Direction : %s"%(self.direction[i])
print "Card validation date : %s"%(self.date_valid[i])
print "Card validation hour: %s:%s"%(self.heure_valid[i])
print "Number of persons travelling : %s"%(self.nb_persons[i])
print "In transit ? : %s"%(self.transit[i])
print "Travel connection counter : %s"%(self.cp_corresp_log[i])
print "Card validation date of the first transit travel : %s"%(self.date_transit[i])
print "Card validation hour of the first transit travel : %s:%s"%(self.heure_transit[i])
print "Card total validations counter : %s"%(self.cp_total_log[i])
##########################################
## CLASS GRAPHICAL USER INTERFACE (GUI) ##
##########################################
class AutoScrollbar (Scrollbar):
def set(self, lo, hi):
if float(lo) <= 0.0 and float(hi) >= 1.0:
# grid_remove is currently missing from Tkinter!
self.tk.call("grid", "remove", self)
else:
self.grid()
Scrollbar.set(self, lo, hi)
def pack(self, **kw):
raise TclError, "cannot use pack with this widget"
def place(self, **kw):
raise TclError, "cannot use place with this widget"
class GUI:
def __init__(self):
self.initialise = False
self.openedFile = "dump.txt"
self.root = Tk()
self.root.title("Mobib Extractor")
self.frame = Frame(self.root)
self.frame2 = Frame(self.root)
self.frame3 = Frame(self.root)
self.frame4 = Frame(self.root)
# Put the logos
self.logo_gsi = Image.open("Images/logo-gsi.png")
self.LOGO_GSI = ImageTk.PhotoImage(self.logo_gsi)
self.logo_ucl = Image.open("Images/logo-ucl.png")
self.LOGO_UCL = ImageTk.PhotoImage(self.logo_ucl)
Label(self.frame3, image=self.LOGO_GSI).grid(row=0, column=0, sticky=W)
Label(self.frame3, image=self.LOGO_UCL).grid(row=0, column=1, sticky=W)
Label(self.frame4, text="<Double-Click> to zoom in/out").grid(row=0, column=0, sticky=E)
self.vscroll = AutoScrollbar(self.root)
self.hscroll = AutoScrollbar(self.root, orient=HORIZONTAL)
self.can = Canvas(self.root, width=1400,height=600, bg="white", xscrollcommand=self.hscroll.set, yscrollcommand=self.vscroll.set)
self.can.grid(row=1, column=0, sticky=N+S+E+W)
self.isZoom = False
self.loadMap()
self.resizeMap()
IM = ImageTk.PhotoImage(Image.new('RGBA',(1400,600),(0,0,0,0)))
self.can.create_image(0,0,anchor=NW,image=IM)
self.can.create_image(400,0,anchor=NW,image=self.img_total)
# Mouse and keyboard events
self.can.bind("<Double-Button-1>", self.zoom) # zoom + or -
self.can.bind_all("<MouseWheel>", self.roll) # vertical scroll
self.can.bind_all("<Left>", self.goleft) # scroll left
self.can.bind_all("<Right>", self.goright) # scroll right
self.can.bind_all("<Up>", self.goup) # scroll up
self.can.bind_all("<Down>", self.godown) # scroll down
self.can.bind_all("<Escape>", self.exit) # leave the program
self.can.bind_all("<a>", self.dumpCard) # dump a card
self.can.bind_all("<o>", self.openDump) # open a dump
self.can.bind_all("<s>", self.saveDump) # save a dump
# Put in place the window
self.vscroll.config(command=self.can.yview)
self.hscroll.config(command=self.can.xview)
self.can.config(scrollregion=self.can.bbox("all"))
self.can.grid(row=1, column=0, columnspan=2)
self.frame.grid(row=3,column=0)
self.frame2.grid(row=3,column=1)
self.frame3.grid(row=0,column=0, sticky=W)
self.frame4.grid(row=0,column=1, sticky=E)
# Put in place the menu
menu = Menu(self.root)
filemenu = Menu(menu)
menu.add_cascade(label="File", menu=filemenu)
filemenu.add_command(label="Acquisition", command=self.dumpCard)
filemenu.add_command(label="Open dump", command=self.openDump)
filemenu.add_command(label="Save dump", command=self.saveDump)
filemenu.add_separator()
filemenu.add_command(label="Exit", command=self.frame.quit)
helpmenu = Menu(menu)
menu.add_cascade(label="Help", menu=helpmenu)
helpmenu.add_cascade(label="Our help", command=self.ourHelp)
helpmenu.add_cascade(label="About the application", command=self.about)
self.root.config(menu=menu)
self.root.mainloop()
def initFrame (self):
if self.initialise == False:
self.bold = Font(weight='bold')
# Init name
self.Lname = Label(self.frame,text="", font=self.bold)
self.Lname.grid(row=0,column=0,sticky=W)
self.Lbirthday = Label(self.frame,text="")
self.Lbirthday.grid(row=1,column=0,sticky=W)
self.Lzipcode = Label(self.frame,text="")
self.Lzipcode.grid(row=2,column=0,sticky=W)
Label(self.frame,text="").grid(row=3,column=0,sticky=W)
self.Lcp_total = Label(self.frame,text="")
self.Lcp_total.grid(row=4,column=0,sticky=W)
self.Llast_purchase = Label(self.frame,text="")
self.Llast_purchase.grid(row=5,column=0,sticky=W)
# Init logs
self.insertRow(self.frame2, "Validation", "1", "2", "3", 0, "white", "red")
self.Ltransport1, self.Ltransport2, self.Ltransport3 = self.insertRow(self.frame2, "Transport", "", "", "", 1)
self.Lligne1, self.Lligne2, self.Lligne3 = self.insertRow(self.frame2, "Ligne", "", "", "", 2)
self.Lstation1, self.Lstation2, self.Lstation3 = self.insertRow(self.frame2, "Station", "", "", "", 3)
self.Ldirection1, self.Ldirection2, self.Ldirection3 = self.insertRow(self.frame2, "Direction", "", "", "", 4)
self.Ldate1, self.Ldate2, self.Ldate3 = self.insertRow(self.frame2, "Date", "", "", "", 5)
self.Ltime1, self.Ltime2, self.Ltime3 = self.insertRow(self.frame2, "Time", "", "", "", 6)
self.initialise = True
def saveDump (self, event=None):
filename = asksaveasfilename()
if filename == '':
return
shutil.copyfile(self.openedFile, filename)
def openDump (self, event=None):
# Choose dump file
file = askopenfilename(title="Open...")
if file == '':
return
self.initFrame()
self.dump = Dump(file)
self.mapTreatment()
self.openedFile = file
def dumpCard (self, event=None):
self.dump = Dump()
# If there is a problem with the reader(s)
if self.dump.readerError:
return
# If there is no card on the reader
if self.dump.readError:
tkMessageBox.showerror("No card","There is no card on the reader !", icon='error')
return
self.initFrame()
self.mapTreatment()
def mapTreatment (self):
self.loadMap()
# Put the stops
x = [self.dump.coordx[0],self.dump.coordx[1],self.dump.coordx[2]]
for i in range(3):
if x[i] != '-':
point = Image.open("Images/" + str(3-i) + ".png")
self.im.paste(point, (int(self.dump.coordx[i]), int(self.dump.coordy[i])), point)
if x[2] != '-' and x[1] != '-' and x[2] == x[1]:
point = Image.open("Images/12.png")
self.im.paste(point, (int(self.dump.coordx[2]), int(self.dump.coordy[2])), point)
if x[2] != '-' and x[0] != '-' and x[2] == x[0]:
point = Image.open("Images/13.png")
self.im.paste(point, (int(self.dump.coordx[2]), int(self.dump.coordy[2])), point)
if x[1] != '-' and x[0] != '-' and x[1] == self.dump.coordx[0]:
point = Image.open("Images/23.png")
self.im.paste(point, (int(self.dump.coordx[1]), int(self.dump.coordy[1])), point)
if x[2] != '-' and x[1] != '-' and x[0] != '-' and x[2] == x[1] and x[2] == x[0]:
point = Image.open("Images/123.png")
self.im.paste(point, (int(self.dump.coordx[2]), int(self.dump.coordy[2])), point)
self.resizeMap()
self.can.create_image(400,0,anchor=NW,image=self.img_total)
# If the last map is in zoom
if self.isZoom:
self.zoom(self)
# Information holder
self.Lname['text'] = self.dump.type + " " + self.dump.name
self.Lbirthday['text'] = "Born on " + self.dump.birthday
self.Lzipcode['text'] = "Living in " + self.dump.zipcode + " (zipcode)"
self.Lcp_total['text'] = "You have validated " + self.dump.cp_total_log[0] + " times your card"
self.Llast_purchase['text'] = "since the card purchase, the " + self.dump.purchase_card
# Information logs
self.Ltransport1['text'] = self.dump.type_transport[2]
self.Ltransport2['text'] = self.dump.type_transport[1]
self.Ltransport3['text'] = self.dump.type_transport[0]
self.Lligne1['text'] = self.dump.ligne[2]
self.Lligne2['text'] = self.dump.ligne[1]
self.Lligne3['text'] = self.dump.ligne[0]
self.Lstation1['text'] = self.dump.station[2]
self.Lstation2['text'] = self.dump.station[1]
self.Lstation3['text'] = self.dump.station[0]
self.Ldirection1['text'] = self.dump.direction[2]
self.Ldirection2['text'] = self.dump.direction[1]
self.Ldirection3['text'] = self.dump.direction[0]
self.Ldate1['text'] = self.dump.date_valid[2]
self.Ldate2['text'] = self.dump.date_valid[1]
self.Ldate3['text'] = self.dump.date_valid[0]
self.Ltime1['text'] = str(self.dump.heure_valid[2][0]) + ":" + str(self.dump.heure_valid[2][1])
self.Ltime2['text'] = str(self.dump.heure_valid[1][0]) + ":" + str(self.dump.heure_valid[1][1])
self.Ltime3['text'] = str(self.dump.heure_valid[0][0]) + ":" + str(self.dump.heure_valid[0][1])
# Button
self.bouton1 = Button(self.frame2, text="More information", command=self.openInfo)
self.bouton1.grid(row=2, column=4)
def loadMap (self):
self.im = Image.open("Images/plan.jpg")
self.im.load()
def resizeMap (self):
self.img = ImageTk.PhotoImage(self.im)
self.im_total = self.im.resize((600,600))
self.img_total = ImageTk.PhotoImage(self.im_total)
def openInfo (self):
self.top = Toplevel()
self.top.title("More information")
self.insertLogsTotal(self.top, 0)
def insertRow (self, master, title, value1, value2, value3, i, fgcolor = "black", bgcolor = "white"):
Label(master,text=title, font=self.bold).grid(row=i,column=0,sticky=W)
tmp1 = Label(master,text=value1, bg=bgcolor, fg=fgcolor)
tmp2 = Label(master,text=value2, bg=bgcolor, fg=fgcolor)
tmp3 = Label(master,text=value3, bg=bgcolor, fg=fgcolor)
tmp1.grid(row=i,column=1,sticky=W)
tmp2.grid(row=i,column=2,sticky=W)
tmp3.grid(row=i,column=3,sticky=W)
return tmp1,tmp2,tmp3
def insertRowBis (self, master, title, value1, i, j):
Label(master,text=title, font=self.bold).grid(row=i,column=0,sticky=W)
tmp1 = Label(master,text=value1)
tmp1.grid(row=i,column=1, columnspan=j,sticky=W)
return tmp1
def insertLogsTotal (self, master, initRow):
self.insertRowBis(master, "Card number", self.dump.num_card, initRow, 3)
self.insertRowBis(master, "Card serial number", self.dump.card_serial_number, initRow+1, 3)
self.insertRowBis(master, "Card manufacturer : ", list_manufacturers(self.dump.manuf_id), initRow+2, 3)
self.insertRowBis(master, "Manufactured in : ", self.dump.manuf_country, initRow+3, 3)
self.insertRowBis(master, "Card initialisation date : ", self.dump.card_init_date, initRow+4, 3)
self.insertRowBis(master, "Number of contracts", self.dump.nb_contracts, initRow+5, 3)
self.insertRowBis(master, "Last contract purchase", self.dump.purchase_contracts[0], initRow+6, 3)
self.insertRowBis(master, "Contract type", self.dump.contract_type, initRow+7, 3)
self.insertRowBis(master, "Remaining travels", self.dump.c, initRow+8, 3)
self.insertRow(master, "Validation", "1", "2", "3", initRow+9, "white", "red")
self.insertRow(master, "Transport", self.dump.type_transport[2], self.dump.type_transport[1], self.dump.type_transport[0], initRow+10)
self.insertRow(master, "Ligne", self.dump.ligne[2], self.dump.ligne[1], self.dump.ligne[0], initRow+11)
self.insertRow(master, "Station", self.dump.station[2], self.dump.station[1], self.dump.station[0], initRow+12)
self.insertRow(master, "Direction", self.dump.direction[2], self.dump.direction[1], self.dump.direction[0], initRow+13)
self.insertRow(master, "Date", self.dump.date_valid[2], self.dump.date_valid[1], self.dump.date_valid[0], initRow+14)
self.insertRow(master, "Time", str(self.dump.heure_valid[2][0]) + ":" + str(self.dump.heure_valid[2][1]), str(self.dump.heure_valid[1][0]) + ":" + str(self.dump.heure_valid[1][1]), str(self.dump.heure_valid[0][0]) + ":" + str(self.dump.heure_valid[0][1]), initRow+15)
self.insertRow(master, "Number of travelling people", self.dump.nb_persons[2], self.dump.nb_persons[1], self.dump.nb_persons[0], initRow+16)
self.insertRow(master, "In transit ?", self.dump.transit[2], self.dump.transit[1], self.dump.transit[0], initRow+17)
self.insertRow(master, "Travel transit counter", self.dump.cp_corresp_log[2], self.dump.cp_corresp_log[1], self.dump.cp_corresp_log[0], initRow+18)
self.insertRow(master, "Date of the first transit", self.dump.date_transit[2], self.dump.date_transit[1], self.dump.date_transit[0], initRow+19)
self.insertRow(master, "Time of the first transit", str(self.dump.heure_transit[2][0]) + ":" + str(self.dump.heure_transit[2][1]), str(self.dump.heure_transit[1][0]) + ":" + str(self.dump.heure_transit[1][1]), str(self.dump.heure_transit[0][0]) + ":" + str(self.dump.heure_transit[0][1]), initRow+20)
self.insertRow(master, "Total validations counter", self.dump.cp_total_log[2], self.dump.cp_total_log[1], self.dump.cp_total_log[0], initRow+21)
self.insertRowBis(master, " ", " ", initRow + 22, 3)
self.insertRowBis(master, "Remark", "The mentions \"No info\" or \"Unknown\" indicated that the corresponding information cannot be retreived.", initRow+23, 3)
def zoom (self, event=None):
self.isZoom
self.can.delete(ALL)
if self.isZoom:
self.can.xview_moveto(0.0)
self.can.yview_moveto(0.0)
self.can.create_image(400,0,anchor=NW,image=self.img_total)
self.isZoom = False
self.vscroll.config(command=self.can.yview)
self.hscroll.config(command=self.can.xview)
self.vscroll.grid(row=1, column=1, sticky=N+S)
self.hscroll.grid(row=2, column=0, sticky=E+W)
self.can.config(scrollregion=self.can.bbox("all"))
else:
if event == None:
x = 0.5-0.25
y = 0.5-0.11
else:
x = (event.x-400)/600.0-0.25
y = event.y/600.0-0.11
if x < 0:
x = 0
if y < 0:
y = 0
self.can.create_image(0,0,anchor=NW,image=self.img)
self.isZoom = True
self.vscroll.config(command=self.can.yview)
self.hscroll.config(command=self.can.xview)
self.vscroll.grid(row=1, column=2, sticky=N+S)
self.hscroll.grid(row=2, column=0, columnspan=2, sticky=E+W)
self.can.config(scrollregion=self.can.bbox("all"))
self.can.xview_moveto(x)
self.can.yview_moveto(y)
#x= 0.49 y = 0.78
def roll (self, event):
if event.delta > 0:
self.can.yview_scroll(-2, 'units')
else:
self.can.yview_scroll(2, 'units')
def goleft (self, event):
self.can.xview_scroll(-2,'units')
def goright (self, event):
self.can.xview_scroll(2,'units')
def goup (self, event):
self.can.yview_scroll(-2,'units')
def godown (self, event):
self.can.yview_scroll(2,'units')
def exit (self, event):
os.system('rm -rf dump.txt')
self.frame.quit()
def ourHelp (self):
self.bold = Font(weight='bold')
self.top1 = Toplevel()
self.top1.title("Help")
# Use
h1 = Label(self.top1, text="How to use the application ?", font=self.bold)