import random import string import math import numpy import re from .AbstractSplittedSecret import AbstractSplittedSecret class Generate(AbstractSplittedSecret): def __init__(self, amount_of_secret_holders, decryption_quota): super(Generate, self).__init__() self.amount_of_secret_holders = amount_of_secret_holders self.decryption_quota = decryption_quota self.decrypted_master_password_file_path="data/decrypted/password_files/master-password.txt" self.quota_factor=self.decryption_quota/100 self.group_members_amount=math.ceil(self.amount_of_secret_holders * self.quota_factor) def getStartnumber(self): index = 0 start_number = '' while index < self.group_members_amount: start_number += '1' index += 1 return int(start_number) def getEndnumber(self): index = 0 start_number = '' while index < self.group_members_amount: start_number += str(self.amount_of_secret_holders) index += 1 return int(start_number) def savePassword(self,password,password_file_path): print("Saving password to: " + password_file_path) master_password_file = open(password_file_path, "a") master_password_file.seek(0) master_password_file.truncate() master_password_file.write(password) master_password_file.close() def createPassword(self): characters = string.ascii_letters + string.digits return ''.join(random.choice(characters) for i in range(int(64*self.quota_factor))).upper() def isGroupValid(self,password_group_index_str): secret_stakeholders_range=range(1,(self.amount_of_secret_holders+1)) valid_numbers = re.compile("([" + ','.join([str(x) for x in secret_stakeholders_range]) + "]{" + str(self.group_members_amount) + "})") unvalid_sequenz = re.compile("(.)\\1+") return re.search(valid_numbers, password_group_index_str) and not re.search(unvalid_sequenz, password_group_index_str) def createUserMappedDataFrame(self): self.user_mapped_data = {} user_count = 1 while user_count <= self.amount_of_secret_holders: self.user_mapped_data[str(user_count)] = {} user_count += 1; def createGroupMappedDataFrame(self): self.group_mapped_data = {} def generateMappedData(self): self.createUserMappedDataFrame() self.createGroupMappedDataFrame() index = self.getStartnumber() while index < self.getEndnumber(): password_group_index_str = ''.join(sorted(str(index))) if self.isGroupValid(password_group_index_str): password_group_index_int = int(password_group_index_str) if not password_group_index_int in self.group_mapped_data: self.group_mapped_data[password_group_index_int] = {} self.group_mapped_data[password_group_index_int]['members'] = {} self.group_mapped_data[password_group_index_int]['password'] = '' password = '' for secret_holder_index in password_group_index_str: self.group_mapped_data[password_group_index_int]['members'][secret_holder_index]={} password_part = self.createPassword() self.group_mapped_data[password_group_index_int]['members'][secret_holder_index] = password_part password += password_part self.user_mapped_data[secret_holder_index][password_group_index_str] = password_part self.group_mapped_data[password_group_index_int]['password'] += password index += 1 def generateGroupFiles(self): for password_group_index_int in self.group_mapped_data: encrypted_splitted_password_file = AbstractSplittedSecret().encrypted_splitted_password_files_folder + str(password_group_index_int) + ".txt.gpg" self.executeCommand('gpg --batch --passphrase "' + self.group_mapped_data[password_group_index_int]['password'] + '" -o "' + encrypted_splitted_password_file + '" -c "' + self.decrypted_master_password_file_path + '"') print(self.getCommandString()) def execute(self): self.generateMappedData() self.generateGroupFiles() def getUserMappedData(self): return self.user_mapped_data def getGroupMappedData(self): return self.group_mapped_data