''' Onionr - P2P Microblogging Platform & Social network This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . ''' import sqlite3, os, time, math, gnupg, base64, tarfile, getpass, simplecrypt from Crypto.Cipher import AES from Crypto import Random class Core: def __init__(self): self.queueDB = 'data/queue.db' self.peerDB = 'data/peers.db' #self.daemonQueue() # Call to create the DB if it doesn't exist return def generateMainPGP(self): # Generate main pgp key gpg = gnupg.GPG(gnupghome='data/pgp/') input_data = gpg.gen_key_input(key_type="RSA", key_length=2048, name_real='anon', name_comment='Onionr key', name_email='anon@onionr') key = gpg.gen_key(input_data) return def addPeer(self, peerID, name=''): # This function simply adds a peer to the DB conn = sqlite3.connect(self.peerDB) c = conn.cursor() t = (peerID, name, 'unknown') c.execute('Insert into users (id, name, dateSeen) values(?, ?, ?);', t) conn.commit() conn.close() return True def createPeerDB(self): # generate the peer database conn = sqlite3.connect(self.peerDB) c = conn.cursor() c.execute(''' create table users( ID text not null, name text, pgpKey text, hmacKey text, forwardKey text, dateSeen not null, trust int); ''') conn.commit() conn.close() def dataDirEncrypt(self, password): # Encrypt data directory (don't delete it in this function) if os.path.exists('data.tar'): os.remove('data.tar') tar = tarfile.open("data.tar", "w") for name in ['data']: tar.add(name) tar.close() tarData = open('data.tar', 'r', encoding = "ISO-8859-1").read() encrypted = simplecrypt.encrypt(password, tarData) open('data-encrypted.dat', 'wb').write(encrypted) os.remove('data.tar') return def dataDirDecrypt(self, password): # Decrypt data directory if not os.path.exists('data-encrypted.dat'): return (False, 'encrypted archive does not exist') data = open('data-encrypted.dat', 'rb').read() try: decrypted = simplecrypt.decrypt(password, data) except simplecrypt.DecryptionException: return (False, 'wrong password (or corrupted archive)') else: open('data.tar', 'wb').write(decrypted) tar = tarfile.open('data.tar') tar.extractall() tar.close() return (True, '') def daemonQueue(self): # This function intended to be used by the client # Queue to exchange data between "client" and server. retData = False if not os.path.exists(self.queueDB): conn = sqlite3.connect(self.queueDB) c = conn.cursor() # Create table c.execute('''CREATE TABLE commands (id integer primary key autoincrement, command text, data text, date text)''') conn.commit() else: conn = sqlite3.connect(self.queueDB) c = conn.cursor() for row in c.execute('SELECT command, data, date, min(ID) FROM commands group by id'): retData = row break if retData != False: c.execute('delete from commands where id = ?', (retData[3],)) conn.commit() conn.close() return retData def daemonQueueAdd(self, command, data=''): # Intended to be used by the web server date = math.floor(time.time()) conn = sqlite3.connect(self.queueDB) c = conn.cursor() t = (command, data, date) c.execute('INSERT into commands (command, data, date) values (?, ?, ?)', t) conn.commit() conn.close() return