#usr/share/doc/python-fingerprint #!/usr/bin/env python # -*- coding: utf-8 -*- import hashlib import os import tempfile import time from pyfingerprint.pyfingerprint import PyFingerprint import os, random from Crypto.Cipher import AES from Crypto.Hash import SHA256 def enroll(): ## Enrolls new finger ## ## Tries to initialize the sensor try: f = PyFingerprint('/dev/ttyUSB0', 57600, 0xFFFFFFFF, 0x00000000) if ( f.verifyPassword() == False ): raise ValueError('The given fingerprint sensor password is wrong!') except Exception as e: print('The fingerprint sensor could not be initialized!') print('Exception message: ' + str(e)) exit(1) ## Gets some sensor information print('Currently stored templates: ' + str(f.getTemplateCount())) ## Tries to enroll new finger try: print('Waiting for finger...') ## Wait that finger is read while ( f.readImage() == False ): pass ## Converts read image to characteristics and stores it in charbuffer 1 f.convertImage(0x01) ## Checks if finger is already enrolled result = f.searchTemplate() positionNumber = result[0] ## Gets new position number (the counting starts at 0, so we do not need to increment) #positionNumber = f.getTemplateCount() if ( positionNumber >= 0 ): f.loadTemplate(positionNumber, 0x01) characterics = str(f.downloadCharacteristics(0x01)) passhashes = hashlib.sha256(characterics).hexdigest() passhash = passhashes[0:32] print('Template already exists at position #' + str(positionNumber)) return passhash print('Remove finger...') time.sleep(2) print('Waiting for same finger again...') ## Wait that finger is read again while ( f.readImage() == False ): pass ## Converts read image to characteristics and stores it in charbuffer 2 f.convertImage(0x02) ## Compares the charbuffers and creates a template f.createTemplate() ## Gets new position number (the counting starts at 0, so we do not need to increment) positionNumber = f.getTemplateCount() ## Saves template at new position number if ( f.storeTemplate(positionNumber) == True ): print('Finger enrolled successfully!') print('New template position #' + str(positionNumber)) ## Hashes characteristics of template characterics = str(f.downloadCharacteristics(0x01)) passhashes = hashlib.sha256(characterics).hexdigest() passhash = passhashes[0:32] ## Hashes characteristics of template print('SHA-2 hash of template: ' + passhash) return passhash except Exception as e: print('Operation failed!') print('Exception message: ' + str(e)) exit(1) #print('SHA-2 hash of template: ' + hashlib.sha256(characterics).hexdigest()) def index(): ## Shows the template index table ## ## Tries to initialize the sensor try: f = PyFingerprint('/dev/ttyUSB0', 57600, 0xFFFFFFFF, 0x00000000) if ( f.verifyPassword() == False ): raise ValueError('The given fingerprint sensor password is wrong!') except Exception as e: print('The fingerprint sensor could not be initialized!') print('Exception message: ' + str(e)) exit(1) ## Gets some sensor information print('Currently stored templates: ' + str(f.getTemplateCount())) ## Tries to show a template index table page try: page = raw_input('Please enter the index page (0, 1, 2, 3) you want to see: ') page = int(page) tableIndex = f.getTemplateIndex(page) for i in range(0, len(tableIndex)): print('Template at position #' + str(i) + ' is used: ' + str(tableIndex[i])) except Exception as e: print('Operation failed!') print('Exception message: ' + str(e)) exit(1) def fp_download(): ## Reads image and download it ## Tries to initialize the sensor try: f = PyFingerprint('/dev/ttyUSB0', 57600, 0xFFFFFFFF, 0x00000000) if ( f.verifyPassword() == False ): raise ValueError('The given fingerprint sensor password is wrong!') except Exception as e: print('The fingerprint sensor could not be initialized!') print('Exception message: ' + str(e)) exit(1) ## Gets some sensor information print('Currently stored templates: ' + str(f.getTemplateCount())) ## Tries to read image and download it try: print('Waiting for finger...') ## Wait that finger is read while ( f.readImage() == False ): pass print('Downloading image (this take a while)...') imageDestination = tempfile.gettempdir() + '/fingerprint.bmp' f.downloadImage(imageDestination) print('The image was saved to "' + imageDestination + '".') except Exception as e: print('Operation failed!') print('Exception message: ' + str(e)) exit(1) def delete(): from pyfingerprint.pyfingerprint import PyFingerprint ## Deletes a finger from sensor ## ## Tries to initialize the sensor try: f = PyFingerprint('/dev/ttyUSB0', 57600, 0xFFFFFFFF, 0x00000000) if ( f.verifyPassword() == False ): raise ValueError('The given fingerprint sensor password is wrong!') except Exception as e: print('The fingerprint sensor could not be initialized!') print('Exception message: ' + str(e)) exit(1) ## Gets some sensor information print('Currently stored templates: ' + str(f.getTemplateCount())) ## Tries to delete the template of the finger try: positionNumber = raw_input('Please enter the template position you want to delete: ') positionNumber = int(positionNumber) if ( f.deleteTemplate(positionNumber) == True ): print('Template deleted!') except Exception as e: print('Operation failed!') print('Exception message: ' + str(e)) exit(1) def fp_search(): """ PyFingerprint Copyright (C) 2015 Bastian Raschke All rights reserved. @author: Bastian Raschke """ ## Search for a finger ## ## Tries to initialize the sensor try: f = PyFingerprint('/dev/ttyUSB0', 57600, 0xFFFFFFFF, 0x00000000) if ( f.verifyPassword() == False ): raise ValueError('The given fingerprint sensor password is wrong!') except Exception as e: print('The fingerprint sensor could not be initialized!') print('Exception message: ' + str(e)) exit(1) ## Gets some sensor information print('Currently stored templates: ' + str(f.getTemplateCount())) ## Tries to search the finger and calculate hash try: print('Waiting for finger...') ## Wait that finger is read while ( f.readImage() == False ): pass ## Converts read image to characteristics and stores it in charbuffer 1 f.convertImage(0x01) ## Searchs template result = f.searchTemplate() positionNumber = result[0] accuracyScore = result[1] if ( positionNumber == -1 ): print('No match found!') exit(0) else: print('Found template at position #' + str(positionNumber)) print('The accuracy score is: ' + str(accuracyScore)) ## OPTIONAL stuff ## ## Loads the found template to charbuffer 1 f.loadTemplate(positionNumber, 0x01) ## Downloads the characteristics of template loaded in charbuffer 1 characterics = str(f.downloadCharacteristics(0x01)) ## Hashes characteristics of template print('SHA-2 hash of template: ' + hashlib.sha256(characterics).hexdigest()) except Exception as e: print('Operation failed!') print('Exception message: ' + str(e)) exit(1) def get_decision():#initial message at the start at the program decision = "" decision = raw_input() return decision def AES_full(passhash): EncDec = passhash choice1 = "" while choice1 is not "1" and choice1 is not "2" : choice1 = raw_input() if choice1 == "1": <<<<<<< HEAD print ("\nEncryption/Decryption") ======= print ("\nHash/Decryption") >>>>>>> c7f56cb0b54d04e8c4eb2ced24023454d0721d31 AESmenu(EncDec) if choice1 == "2": print ("\nMain Menu") main() def encrypt(key, filename): chunksize = 64*1024 #print filename #print "4th time: ", key outputFile = "(encrypted)"+filename filesize = str(os.path.getsize(filename)).zfill(16) IV = '' for i in range(16): IV += chr(random.randint(0, 0xFF)) encryptor = AES.new(key, AES.MODE_CBC, IV) with open(filename, 'rb') as infile: with open(outputFile, 'wb') as outfile: outfile.write(filesize) outfile.write(IV) while True: chunk = infile.read(chunksize) if len(chunk) == 0: break elif len(chunk) % 16 != 0: chunk += ' ' * (16 - (len(chunk) % 16)) outfile.write(encryptor.encrypt(chunk)) def decrypt(key, filename): chunksize = 64*1024 outputFile = filename[11:] with open(filename, 'rb') as infile: filesize = long(infile.read(16)) IV = infile.read(16) decryptor = AES.new(key, AES.MODE_CBC, IV) with open(outputFile, 'wb') as outfile: while True: chunk = infile.read(chunksize) if len(chunk) == 0: break outfile.write(decryptor.decrypt(chunk)) outfile.truncate(filesize) """def getKey(password): hasher = SHA256.new(password) return hasher.digest()""" def file_check(filename): try: open(filename, 'r') return 1 except: print ("This file doesnt exist") return 0 def AESmenu(EncDec): choice = raw_input("Would you like to (E)ncrypt or (D)ecrypt?: ") f_in = raw_input("Insert the filename with extension: ") fileblob = file_check(f_in) while fileblob == 0: f_in = raw_input("insert the filename with extensions") fileblob = file_check(f_in) print( f_in ) #print "3rd time: ", EncDec if choice == 'E': #filename = raw_input("File to encrypt: ") encrypt(EncDec, f_in) print ("Done.") elif choice == 'D': decrypt(EncDec, f_in) print( "Done.") else: print ("No Option selected, closing...") def main (): decision = get_decision() while decision is not "quit" and decision is not "2": print( "Please choose form the following.") choice = "" while choice is not "1" and choice is not "2" and choice is not "3" and choice is not "4" and choice is not "5": choice = raw_input() if choice == "1": print ("\nBiometric Enrollment") hashcode = enroll() print (hashcode) AES_full(hashcode) if choice == "2": print( "\nShow Biometric Index") index() if choice == "3": print ("\nSearch Index Using Biometrics") fp_search() if choice == "4": print ("\nDownload Biometric Image") fp_download() if choice == "5": print ("\nDelete Biometric Image") delete() ''' print "The message inserted was: %s " % message ciphertext = encrypt(message , m) print "Lets apply RC4 with salt for security" cipherplay = ''.join(ciphertext) RC = encryptRC(cipherplay, matrix_key) print "Message with RC4 with salt" print RC print "Do you want to save the message to a file? (Y/N)" answer = raw_input() while answer is not "Y" and answer is not "y" and answer is not "N" and answer is not "n": print "Do you want to save the message to a file? (Y/N)" answer = raw_input() if answer == "Y" or answer == "y": fout = open('Encrypted.txt', 'w') fout.write(RC) fout.close() print "Message save to file Encrypted.txt on the folder of this program\n" print "Press Enter to continue:" raw_input() else: print "Press enter to continue" raw_input() decision = get_decision() elif choice == "2": ch_enc = "" print "\nMessage Decryption:" print "1 - Open a custom file" print "2 - Copy the encrypted message" ch_enc = raw_input() if ch_enc == "1": print "Insert the filename with extension" f_in = raw_input() file = file_check(f_in) while file == 0: print "Insert the filename with the extension" f_in = raw_input() file = file_check(f_in) fin = open(f_in, 'U') RCmessage = fin.read() fin.close() elif ch_enc == "2": print "Insert the encripted message:" RCmessage = raw_input() print "You inserted ", RCmessage ms = decryptRC(RCmessage, matrix_key) message = get_message(ms) plaintext = decrypt(message, m) print "\nPress enter to continue" raw_input() decision = get_decision() else: print "Wrong Choice" print "Thanks for using the software \nGood Bye" raw_input() ''' if __name__ == "__main__": main()