""" author: Christian Bender date: 21.12.2017 class: XORCipher This class implements the XOR-cipher algorithm and provides some useful methods for encrypting and decrypting strings and files. Overview about methods - encrypt : list of char - decrypt : list of char - encrypt_string : str - decrypt_string : str - encrypt_file : boolean - decrypt_file : boolean """ class XORCipher: def __init__(self, key=0): """ simple constructor that receives a key or uses default key = 0 """ # private field self.__key = key def encrypt(self, content, key): """ input: 'content' of type string and 'key' of type int output: encrypted string 'content' as a list of chars if key not passed the method uses the key by the constructor. otherwise key = 1 """ # precondition assert isinstance(key, int) and isinstance(content, str) key = key or self.__key or 1 # make sure key can be any size while key > 255: key -= 255 # This will be returned ans = [] for ch in content: ans.append(chr(ord(ch) ^ key)) return ans def decrypt(self, content, key): """ input: 'content' of type list and 'key' of type int output: decrypted string 'content' as a list of chars if key not passed the method uses the key by the constructor. otherwise key = 1 """ # precondition assert isinstance(key, int) and isinstance(content, list) key = key or self.__key or 1 # make sure key can be any size while key > 255: key -= 255 # This will be returned ans = [] for ch in content: ans.append(chr(ord(ch) ^ key)) return ans def encrypt_string(self, content, key=0): """ input: 'content' of type string and 'key' of type int output: encrypted string 'content' if key not passed the method uses the key by the constructor. otherwise key = 1 """ # precondition assert isinstance(key, int) and isinstance(content, str) key = key or self.__key or 1 # make sure key can be any size while key > 255: key -= 255 # This will be returned ans = "" for ch in content: ans += chr(ord(ch) ^ key) return ans def decrypt_string(self, content, key=0): """ input: 'content' of type string and 'key' of type int output: decrypted string 'content' if key not passed the method uses the key by the constructor. otherwise key = 1 """ # precondition assert isinstance(key, int) and isinstance(content, str) key = key or self.__key or 1 # make sure key can be any size while key > 255: key -= 255 # This will be returned ans = "" for ch in content: ans += chr(ord(ch) ^ key) return ans def encrypt_file(self, file, key=0): """ input: filename (str) and a key (int) output: returns true if encrypt process was successful otherwise false if key not passed the method uses the key by the constructor. otherwise key = 1 """ # precondition assert isinstance(file, str) and isinstance(key, int) try: with open(file, "r") as fin: with open("encrypt.out", "w+") as fout: # actual encrypt-process for line in fin: fout.write(self.encrypt_string(line, key)) except IOError: return False return True def decrypt_file(self, file, key): """ input: filename (str) and a key (int) output: returns true if decrypt process was successful otherwise false if key not passed the method uses the key by the constructor. otherwise key = 1 """ # precondition assert isinstance(file, str) and isinstance(key, int) try: with open(file, "r") as fin: with open("decrypt.out", "w+") as fout: # actual encrypt-process for line in fin: fout.write(self.decrypt_string(line, key)) except IOError: return False return True # Tests # crypt = XORCipher() # key = 67 # # test enrcypt # print(crypt.encrypt("hallo welt",key)) # # test decrypt # print(crypt.decrypt(crypt.encrypt("hallo welt",key), key)) # # test encrypt_string # print(crypt.encrypt_string("hallo welt",key)) # # test decrypt_string # print(crypt.decrypt_string(crypt.encrypt_string("hallo welt",key),key)) # if (crypt.encrypt_file("test.txt",key)): # print("encrypt successful") # else: # print("encrypt unsuccessful") # if (crypt.decrypt_file("encrypt.out",key)): # print("decrypt successful") # else: # print("decrypt unsuccessful")