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Enigma.py
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Enigma.py
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# ----------------- Paramètres Enigma -----------------
rotors = ("I","II","III")
reflector = "UKW-B"
ringSettings ="AAA"
ringPositions = "DGF"
plugboard = "AT BS DE FM IR KN LZ OW PV XY"
# ---------------------------------------------------
def caesarShift(str, amount):
output = ""
for i in range(0,len(str)):
c = str[i]
code = ord(c)
if ((code >= 65) and (code <= 90)):
c = chr(((code - 65 + amount) % 26) + 65)
output = output + c
return output
def encode(plaintext):
global rotors, reflector,ringSettings,ringPositions,plugboard
#Enigma Roteurs et reflecteurs
rotor1 = "EKMFLGDQVZNTOWYHXUSPAIBRCJ"
rotor1Notch = "Q"
rotor2 = "AJDKSIRUXBLHWTMCQGZNPYFVOE"
rotor2Notch = "E"
rotor3 = "BDFHJLCPRTXVZNYEIWGAKMUSQO"
rotor3Notch = "V"
rotor4 = "ESOVPZJAYQUIRHXLNFTGKDCMWB"
rotor4Notch = "J"
rotor5 = "VZBRGITYUPSDNHLXAWMJQOFECK"
rotor5Notch = "Z"
rotorDict = {"I":rotor1,"II":rotor2,"III":rotor3,"IV":rotor4,"V":rotor5}
rotorNotchDict = {"I":rotor1Notch,"II":rotor2Notch,"III":rotor3Notch,"IV":rotor4Notch,"V":rotor5Notch}
reflectorB = {"A":"Y","Y":"A","B":"R","R":"B","C":"U","U":"C","D":"H","H":"D","E":"Q","Q":"E","F":"S","S":"F","G":"L","L":"G","I":"P","P":"I","J":"X","X":"J","K":"N","N":"K","M":"O","O":"M","T":"Z","Z":"T","V":"W","W":"V"}
reflectorC = {"A":"F","F":"A","B":"V","V":"B","C":"P","P":"C","D":"J","J":"D","E":"I","I":"E","G":"O","O":"G","H":"Y","Y":"H","K":"R","R":"K","L":"Z","Z":"L","M":"X","X":"M","N":"W","W":"N","Q":"T","T":"Q","S":"U","U":"S"}
alphabet = "ABCDEFGHIJKLMNOPQRSTUVWXYZ"
rotorANotch = False
rotorBNotch = False
rotorCNotch = False
if reflector=="UKW-B":
reflectorDict = reflectorB
else:
reflectorDict = reflectorC
#A = Gauche, B = Milier, C=Droite
rotorA = rotorDict[rotors[0]]
rotorB = rotorDict[rotors[1]]
rotorC = rotorDict[rotors[2]]
rotorANotch = rotorNotchDict[rotors[0]]
rotorBNotch = rotorNotchDict[rotors[1]]
rotorCNotch = rotorNotchDict[rotors[2]]
rotorALetter = ringPositions[0]
rotorBLetter = ringPositions[1]
rotorCLetter = ringPositions[2]
rotorASetting = ringSettings[0]
offsetASetting = alphabet.index(rotorASetting)
rotorBSetting = ringSettings[1]
offsetBSetting = alphabet.index(rotorBSetting)
rotorCSetting = ringSettings[2]
offsetCSetting = alphabet.index(rotorCSetting)
rotorA = caesarShift(rotorA,offsetASetting)
rotorB = caesarShift(rotorB,offsetBSetting)
rotorC = caesarShift(rotorC,offsetCSetting)
if offsetASetting>0:
rotorA = rotorA[26-offsetASetting:] + rotorA[0:26-offsetASetting]
if offsetBSetting>0:
rotorB = rotorB[26-offsetBSetting:] + rotorB[0:26-offsetBSetting]
if offsetCSetting>0:
rotorC = rotorC[26-offsetCSetting:] + rotorC[0:26-offsetCSetting]
ciphertext = ""
#Convertir les paramètres du plugboard en un dictionaire
plugboardConnections = plugboard.upper().split(" ")
plugboardDict = {}
for pair in plugboardConnections:
if len(pair)==2:
plugboardDict[pair[0]] = pair[1]
plugboardDict[pair[1]] = pair[0]
plaintext = plaintext.upper()
for letter in plaintext:
encryptedLetter = letter
if letter in alphabet:
#Rotation des Rotors - Ceci arrive dès que la clé est cliquée ,avant l'encryption de la lettre
rotorTrigger = False
#Le Troisième Roteur bouge d'une case pour chaque clé insérée
if rotorCLetter == rotorCNotch:
rotorTrigger = True
rotorCLetter = alphabet[(alphabet.index(rotorCLetter) + 1) % 26]
#Vérifier si le RoteurB peut bouger
if rotorTrigger:
rotorTrigger = False
if rotorBLetter == rotorBNotch:
rotorTrigger = True
rotorBLetter = alphabet[(alphabet.index(rotorBLetter) + 1) % 26]
# Vérifier si le RoteurA peut bouger
if (rotorTrigger):
rotorTrigger = False
rotorALetter = alphabet[(alphabet.index(rotorALetter) + 1) % 26]
else:
# Vérifier pour le fait de décaler les deux roteurs en meme temps
if rotorBLetter == rotorBNotch:
rotorBLetter = alphabet[(alphabet.index(rotorBLetter) + 1) % 26]
rotorALetter = alphabet[(alphabet.index(rotorALetter) + 1) % 26]
#Implémentation du plugboard d'encryption
if letter in plugboardDict.keys():
if plugboardDict[letter]!="":
encryptedLetter = plugboardDict[letter]
#Roteurs & Reflecteurs d'Encryption
offsetA = alphabet.index(rotorALetter)
offsetB = alphabet.index(rotorBLetter)
offsetC = alphabet.index(rotorCLetter)
# Encryption Roue 3
pos = alphabet.index(encryptedLetter)
let = rotorC[(pos + offsetC)%26]
pos = alphabet.index(let)
encryptedLetter = alphabet[(pos - offsetC +26)%26]
# Encryption Roue 2
pos = alphabet.index(encryptedLetter)
let = rotorB[(pos + offsetB)%26]
pos = alphabet.index(let)
encryptedLetter = alphabet[(pos - offsetB +26)%26]
# Encryption Roue 1
pos = alphabet.index(encryptedLetter)
let = rotorA[(pos + offsetA)%26]
pos = alphabet.index(let)
encryptedLetter = alphabet[(pos - offsetA +26)%26]
# encryption Réflecteur
if encryptedLetter in reflectorDict.keys():
if reflectorDict[encryptedLetter]!="":
encryptedLetter = reflectorDict[encryptedLetter]
#On fait le chemin inverse
# Encryption Roue 1
pos = alphabet.index(encryptedLetter)
let = alphabet[(pos + offsetA)%26]
pos = rotorA.index(let)
encryptedLetter = alphabet[(pos - offsetA +26)%26]
#Encryption Roue 2
pos = alphabet.index(encryptedLetter)
let = alphabet[(pos + offsetB)%26]
pos = rotorB.index(let)
encryptedLetter = alphabet[(pos - offsetB +26)%26]
#Encryption Roue 3
pos = alphabet.index(encryptedLetter)
let = alphabet[(pos + offsetC)%26]
pos = rotorC.index(let)
encryptedLetter = alphabet[(pos - offsetC +26)%26]
#encryption plugboard
if encryptedLetter in plugboardDict.keys():
if plugboardDict[encryptedLetter]!="":
encryptedLetter = plugboardDict[encryptedLetter]
ciphertext = ciphertext + encryptedLetter
return ciphertext
#Le programme Principale
print(" ##### Enigma #####")
print("")
plaintext = input("Veuillez Insérer le texte à encoder ou à décoder :\n")
ciphertext = encode(plaintext)
print("\n text encrypté : \n " + ciphertext)