Classical ciphers
Project description
Download:
https://pypi.org/project/secretpy
Documentation:
https://secretpy.readthedocs.io
Source code & Development:
https://github.com/tigertv/secretpy
Description
SecretPy is a cryptographic Python package. It uses the following classical cipher algorithms:
ADFGX, ADFGVX
Affine
Atbash
Autokey
Bazeries
Beaufort
Bifid
Caesar, Caesar Progressive
Chaocipher
Columnar Transposition, Myszkowski Transposition
Keyword
Nihilist
Simple Substitution
Playfair, Two Square(Double Playfair), Three Square, Four Square
Polybius
Rot13, Rot5, Rot18, Rot47
Trifid
Vic
Vigenere, Gronsfeld, Porta
Zigzag(Railfence)
Installation
To install this library, you can use pip:
pip install secretpy
Alternatively, you can install the package using the repo’s cloning and the make:
git clone https://github.com/tigertv/secretpy
cd secretpy
make install
Usage
Direct way
The cipher classes can encrypt only letters which exist in the alphabet, and they don’t have a state.
from secretpy import Caesar
from secretpy import alphabets
alphabet = alphabets.GERMAN
plaintext = u"thequickbrownfoxjumpsoverthelazydog"
key = 3
cipher = Caesar()
print(plaintext)
enc = cipher.encrypt(plaintext, key, alphabet)
print(enc)
dec = cipher.decrypt(enc, key, alphabet)
print(dec)
print('=====================================')
print(plaintext)
# use default english alphabet
enc = cipher.encrypt(plaintext, key)
print(enc)
dec = cipher.decrypt(enc, key)
print(dec)
'''
Output:
thequickbrownfoxjumpsoverthelazydog
wkhtxlfneurzqirämxpsvryhuwkhodüögrj
thequickbrownfoxjumpsoverthelazydog
=====================================
thequickbrownfoxjumpsoverthelazydog
wkhtxlfneurzqiramxpsvryhuwkhodcbgrj
thequickbrownfoxjumpsoverthelazydog
'''
CryptMachine
CryptMachine saves state. There are alphabet, key and cipher, they can be changed in anytime. In the previous example, plaintext contains only letters existing in the alphabet and in the lower case without spaces. To change the behaviour, you can use CryptMachine and decorators(UpperCase, NoSpace, SaveCase and etc.), so it’s a preferred way to do encryption/decryption:
from secretpy import Atbash
from secretpy import Caesar
from secretpy import CryptMachine
from secretpy.cmdecorators import UpperCase, SaveSpaces, NoSpaces
from secretpy import alphabets
def encdec(machine, plaintext):
print(plaintext)
enc = machine.encrypt(plaintext)
print(enc)
dec = machine.decrypt(enc)
print(dec)
print("-----------------------------------")
plaintext = u"thequickbrownfoxjumpsoverthelazydog"
key = 3
cipher = Caesar()
cm = CryptMachine(cipher, key)
encdec(cm, plaintext)
cm.set_alphabet(alphabets.GERMAN)
encdec(cm, plaintext)
cm = SaveSpaces(cm)
cm.set_key(9)
plaintext = u"the quick brown fox jumps over the lazy dog"
encdec(cm, plaintext)
cm = NoSpaces(UpperCase(cm))
cm.set_cipher(Atbash())
plaintext = u"Achtung Minen"
encdec(cm, plaintext)
'''
Output:
thequickbrownfoxjumpsoverthelazydog
wkhtxlfneurzqiramxpsvryhuwkhodcbgrj
thequickbrownfoxjumpsoverthelazydog
-----------------------------------
thequickbrownfoxjumpsoverthelazydog
wkhtxlfneurzqirämxpsvryhuwkhodüögrj
thequickbrownfoxjumpsoverthelazydog
-----------------------------------
the quick brown fox jumps over the lazy dog
üqn zßrlt käxbw oxc sßvyö xanä üqn ujed mxp
the quick brown fox jumps over the lazy dog
-----------------------------------
Achtung Minen
ßÖWKJQXRVQZQ
ACHTUNGMINEN
-----------------------------------
'''
CompositeMachine
Combining several ciphers to get more complex cipher, you can use CompositeMachine:
from secretpy import Rot13
from secretpy import Caesar
from secretpy import CryptMachine
from secretpy import CompositeMachine
from secretpy.cmdecorators import SaveCase, SaveSpaces
def encdec(machine, plaintext):
print("=======================================")
print(plaintext)
enc = machine.encrypt(plaintext)
print(enc)
dec = machine.decrypt(enc)
print(dec)
key = 5
plaintext = u"Dog jumps four times and cat six times"
print(plaintext)
cm1 = SaveSpaces(SaveCase(CryptMachine(Caesar(), key)))
enc = cm1.encrypt(plaintext)
print(enc)
cm2 = SaveSpaces(SaveCase(CryptMachine(Rot13())))
enc = cm2.encrypt(enc)
print(enc)
print("=======================================")
cm = CompositeMachine(cm1)
cm.add_machines(cm2)
enc = cm.encrypt(plaintext)
print(enc)
encdec(cm, plaintext)
cm.add_machines(cm1, cm2)
encdec(cm, plaintext)
'''
Output:
Dog jumps four times and cat six times
Itl ozrux ktzw ynrjx fsi hfy xnc ynrjx
Vgy bmehk xgmj laewk sfv usl kap laewk
=======================================
Vgy bmehk xgmj laewk sfv usl kap laewk
=======================================
Dog jumps four times and cat six times
Vgy bmehk xgmj laewk sfv usl kap laewk
Dog jumps four times and cat six times
=======================================
Dog jumps four times and cat six times
Nyq tewzc pyeb dswoc kxn mkd csh dswoc
Dog jumps four times and cat six times
'''
Maintainers
@tigertv (Max Vetrov)
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