From e886a6d4d4fe6f42e049d02bf7d35da70d0ff9ce Mon Sep 17 00:00:00 2001
From: Neil Smith <neil.git@njae.me.uk>
Date: Sat, 5 Jul 2014 21:59:18 +0100
Subject: [PATCH] Added pocket enigma routines

---
 cipher.py      | 146 ++++++++++++++++++++++++++++++++++++++++++++++++-
 cipherbreak.py |  73 +++++++++++++++++++++++++
 2 files changed, 218 insertions(+), 1 deletion(-)

diff --git a/cipher.py b/cipher.py
index a2df81b..0fb6dc2 100644
--- a/cipher.py
+++ b/cipher.py
@@ -507,6 +507,150 @@ def scytale_decipher(message, rows):
         fillcolumnwise=True, emptycolumnwise=False)
 
 
+class PocketEnigma(object):
+    """A pocket enigma machine
+    The wheel is internally represented as a 26-element list self.wheel_map, 
+    where wheel_map[i] == j shows that the position i places on from the arrow 
+    maps to the position j places on.
+    """
+    def __init__(self, wheel=1, position='a'):
+        """initialise the pocket enigma, including which wheel to use and the
+        starting position of the wheel.
+
+        The wheel is either 1 or 2 (the predefined wheels) or a list of letter
+        pairs.
+
+        The position is the letter pointed to by the arrow on the wheel.
+
+        >>> pe.wheel_map
+        [25, 4, 23, 10, 1, 7, 9, 5, 12, 6, 3, 17, 8, 14, 13, 21, 19, 11, 20, 16, 18, 15, 24, 2, 22, 0]
+        >>> pe.position
+        0
+        """
+        self.wheel1 = [('a', 'z'), ('b', 'e'), ('c', 'x'), ('d', 'k'), 
+            ('f', 'h'), ('g', 'j'), ('i', 'm'), ('l', 'r'), ('n', 'o'), 
+            ('p', 'v'), ('q', 't'), ('s', 'u'), ('w', 'y')]
+        self.wheel2 = [('a', 'c'), ('b', 'd'), ('e', 'w'), ('f', 'i'), 
+            ('g', 'p'), ('h', 'm'), ('j', 'k'), ('l', 'n'), ('o', 'q'), 
+            ('r', 'z'), ('s', 'u'), ('t', 'v'), ('x', 'y')]
+        if wheel == 1:
+            self.make_wheel_map(self.wheel1)
+        elif wheel == 2:
+            self.make_wheel_map(self.wheel2)
+        else:
+            self.validate_wheel_spec(wheel)
+            self.make_wheel_map(wheel)
+        self.position = ord(position) - ord('a')
+
+    def make_wheel_map(self, wheel_spec):
+        """Expands a wheel specification from a list of letter-letter pairs
+        into a full wheel_map.
+
+        >>> pe.make_wheel_map(pe.wheel2)
+        [2, 3, 0, 1, 22, 8, 15, 12, 5, 10, 9, 13, 7, 11, 16, 6, 14, 25, 20, 21, 18, 19, 4, 24, 23, 17]
+        """
+        self.validate_wheel_spec(wheel_spec)
+        self.wheel_map = [0] * 26
+        for p in wheel_spec:
+            self.wheel_map[ord(p[0]) - ord('a')] = ord(p[1]) - ord('a')
+            self.wheel_map[ord(p[1]) - ord('a')] = ord(p[0]) - ord('a')
+        return self.wheel_map
+
+    def validate_wheel_spec(self, wheel_spec):
+        """Validates that a wheel specificaiton will turn into a valid wheel
+        map.
+
+        >>> pe.validate_wheel_spec([])
+        Traceback (most recent call last):
+            ...
+        ValueError: Wheel specification has 0 pairs, require 13
+        >>> pe.validate_wheel_spec([('a', 'b', 'c')]*13)
+        Traceback (most recent call last):
+            ...
+        ValueError: Not all mappings in wheel specificationhave two elements
+        >>> pe.validate_wheel_spec([('a', 'b')]*13)
+        Traceback (most recent call last):
+            ...
+        ValueError: Wheel specification does not contain 26 letters
+        """
+        if len(wheel_spec) != 13:
+            raise ValueError("Wheel specification has {} pairs, require 13".
+                format(len(wheel_spec)))
+        for p in wheel_spec:
+            if len(p) != 2:
+                raise ValueError("Not all mappings in wheel specification"
+                    "have two elements")
+        if len(set([p[0] for p in wheel_spec] + 
+                    [p[1] for p in wheel_spec])) != 26:
+            raise ValueError("Wheel specification does not contain 26 letters")
+
+    def encipher_letter(self, letter):
+        """Enciphers a single letter, by advancing the wheel before looking up
+        the letter on the wheel.
+
+        >>> pe.set_position('f')
+        5
+        >>> pe.encipher_letter('k')
+        'h'
+        """
+        self.advance()
+        return self.lookup(letter)
+    decipher_letter = encipher_letter
+
+    def lookup(self, letter):
+        """Look up what a letter enciphers to, without turning the wheel.
+
+        >>> pe.set_position('f')
+        5
+        >>> ''.join([pe.lookup(l) for l in string.ascii_lowercase])
+        'udhbfejcpgmokrliwntsayqzvx'
+        """
+        return chr((self.wheel_map[(ord(letter) - ord('a') - self.position) % 26] + self.position) % 26 + ord('a'))
+
+    def advance(self):
+        """Advances the wheel one position.
+
+        >>> pe.set_position('f')
+        5
+        >>> pe.advance()
+        6
+        """
+        self.position = (self.position + 1) % 26
+        return self.position
+
+    def encipher(self, message):
+        """Enciphers a whole message.
+
+        >>> pe.set_position('f')
+        5
+        >>> pe.encipher('helloworld')
+        'kjsglcjoqc'
+        >>> pe.set_position('f')
+        5
+        >>> pe.encipher('kjsglcjoqc')
+        'helloworld'
+        """
+        transformed = ''
+        for l in message:
+            transformed += self.encipher_letter(l)
+        return transformed
+    decipher = encipher
+
+    def set_position(self, position):
+        """Sets the position of the wheel, by specifying the letter the arrow
+        points to.
+
+        >>> pe.set_position('a')
+        0
+        >>> pe.set_position('m')
+        12
+        >>> pe.set_position('z')
+        25
+        """
+        self.position = ord(position) - ord('a')
+        return self.position
+
+
 if __name__ == "__main__":
     import doctest
-    doctest.testmod()
+    doctest.testmod(extraglobs={'pe': PocketEnigma(1, 'a')})
diff --git a/cipherbreak.py b/cipherbreak.py
index e89407c..6e08f49 100644
--- a/cipherbreak.py
+++ b/cipherbreak.py
@@ -2,6 +2,7 @@ import string
 import collections
 import norms
 import logging
+import random
 from itertools import zip_longest, cycle, permutations, starmap
 from segment import segment
 from multiprocessing import Pool
@@ -183,6 +184,50 @@ def keyword_break_worker(message, keyword, wrap_alphabet, fitness):
                      wrap_alphabet, fit, sanitise(plaintext)[:50]))
     return (keyword, wrap_alphabet), fit
 
+def monoalphabetic_break_hillclimbing(message, max_iterations = 10000000, 
+        fitness=Pletters):
+    ciphertext = unaccent(message).lower()
+    alphabet = list(string.ascii_lowercase)
+    random.shuffle(alphabet)
+    alphabet = ''.join(alphabet)
+    return monoalphabetic_break_hillclimbing_worker(ciphertext, alphabet,
+        max_iterations, fitness)
+
+def monoalphabetic_break_hillclimbing_mp(message, workers=10, 
+        max_iterations = 10000000, fitness=Pletters, chunksize=1):
+    worker_args = []
+    ciphertext = unaccent(message).lower()
+    for i in range(workers):
+        alphabet = list(string.ascii_lowercase)
+        random.shuffle(alphabet)
+        alphabet = ''.join(alphabet)
+        worker_args.append((ciphertext, alphabet, max_iterations, fitness))
+    with Pool() as pool:
+        breaks = pool.starmap(monoalphabetic_break_hillclimbing_worker,
+            worker_args, chunksize)
+    return max(breaks, key=lambda k: k[1])
+
+def monoalphabetic_break_hillclimbing_worker(message, alphabet, 
+        max_iterations, fitness):
+    def swap(letters, i, j):
+        if i > j:
+            i, j = j, i
+        if i == j:
+            return letters
+        else:
+            return letters[:i] + letters[j] + letters[i+1:j] + letters[i] + letters[j+1:]
+    best_alphabet = alphabet
+    best_fitness = float('-inf')
+    for i in range(max_iterations):
+        alphabet = swap(alphabet, random.randrange(26), random.randrange(26))
+        cipher_translation = ''.maketrans(string.ascii_lowercase, alphabet)
+        plaintext = message.translate(cipher_translation)
+        if fitness(plaintext) > best_fitness:
+            best_fitness = fitness(plaintext)
+            best_alphabet = alphabet
+            print(i, best_alphabet, best_fitness, plaintext)
+    return best_alphabet, best_fitness
+
 
 def column_transposition_break_mp(message, translist=transpositions, 
                      fitness=Pbigrams, chunksize=500):
@@ -356,6 +401,34 @@ def beaufort_frequency_break(message, max_key_length=20, fitness=Pletters):
     return max(results, key=lambda k: k[1])
 
 
+def pocket_enigma_break_by_crib(message, wheel_spec, crib, crib_position):
+    """Break a pocket enigma using a crib (some plaintext that's expected to
+    be in a certain position). Returns a list of possible starting wheel
+    positions that could produce the crib.
+
+    >>> pocket_enigma_break_by_crib('kzpjlzmoga', 1, 'h', 0)
+    ['a', 'f', 'q']
+    >>> pocket_enigma_break_by_crib('kzpjlzmoga', 1, 'he', 0)
+    ['a']
+    >>> pocket_enigma_break_by_crib('kzpjlzmoga', 1, 'll', 2)
+    ['a']
+    >>> pocket_enigma_break_by_crib('kzpjlzmoga', 1, 'l', 2)
+    ['a']
+    >>> pocket_enigma_break_by_crib('kzpjlzmoga', 1, 'l', 3)
+    ['a', 'j', 'n']
+    >>> pocket_enigma_break_by_crib('aaaaa', 1, 'l', 3)
+    []
+    """
+    pe = PocketEnigma(wheel=wheel_spec)
+    possible_positions = []
+    for p in string.ascii_lowercase:
+        pe.set_position(p)
+        plaintext = pe.decipher(message)
+        if plaintext[crib_position:crib_position+len(crib)] == crib:
+            possible_positions += [p]
+    return possible_positions
+
+
 def plot_frequency_histogram(freqs, sort_key=None):
     x = range(len(freqs.keys()))
     y = [freqs[l] for l in sorted(freqs.keys(), key=sort_key)]
-- 
2.34.1