Onionr/onionr/core.py

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'''
Onionr - P2P Microblogging Platform & Social network
Core Onionr library, useful for external programs. Handles peer processing and cryptography.
'''
'''
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 <https://www.gnu.org/licenses/>.
'''
import sqlite3, os, time, math, gnupg, base64, tarfile, getpass, simplecrypt, hashlib
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from Crypto.Cipher import AES
from Crypto import Random
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import netcontroller
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if sys.version_info < (3, 6):
try:
import sha3
except ModuleNotFoundError:
sys.stderr.write('On Python 3 versions prior to 3.6.x, you need the sha3 module')
sys.exit(1)
class Core:
def __init__(self):
'''
Initialize Core Onionr library
'''
self.queueDB = 'data/queue.db'
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self.peerDB = 'data/peers.db'
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self.ownPGPID = ''
self.blockDB = 'data/blocks.db'
self.blockDataLocation = 'data/blocks/'
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return
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def generateMainPGP(self, myID):
''' Generate the main PGP key for our client. Should not be done often.
Uses own PGP home folder in the data/ directory. '''
# Generate main pgp key
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if os.getenv('TRAVIS') == 'true':
gpg = gnupg.GPG(homedir='./data/pgp/')
else:
gpg = gnupg.GPG(gnupghome='./data/pgp/')
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input_data = gpg.gen_key_input(key_type="RSA", key_length=2048, name_real=myID, name_email='anon@onionr')
#input_data = gpg.gen_key_input(key_type="RSA", key_length=1024)
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key = gpg.gen_key(input_data)
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# Write the key
myFingerpintFile = open('data/own-fingerprint.txt', 'w')
myFingerpintFile.write(key.fingerprint)
myFingerpintFile.close()
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return
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def addPeer(self, peerID, name=''):
''' Add a peer by their ID, with an optional name, to the peer database.'''
''' DOES NO SAFETY CHECKS if the ID is valid, but prepares the insertion. '''
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# 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 peers (id, name, dateSeen) values(?, ?, ?);', t)
conn.commit()
conn.close()
return True
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def createPeerDB(self):
'''
Generate the peer sqlite3 database and populate it with the peers table.
'''
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# generate the peer database
conn = sqlite3.connect(self.peerDB)
c = conn.cursor()
c.execute('''
create table peers(
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ID text not null,
name text,
pgpKey text,
hmacKey text,
forwardKey text,
dateSeen not null,
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bytesStored int,
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trust int);
''')
conn.commit()
conn.close()
def createBlockDB(self):
'''
Create a database for blocks
hash - the hash of a block
dateReceived - the date the block was recieved, not necessarily when it was created
decrypted - if we can successfully decrypt the block (does not describe its current state)
dataObtained - if the data has been obtained for the block
'''
if os.path.exists(self.blockDB):
raise Exception("Block database already exists")
conn = sqlite3.connect(self.blockDB)
c = conn.cursor()
c.execute('''create table hashes(
hash text not null,
dateReceived int,
decrypted int,
dataFound int
);
''')
conn.commit()
conn.close()
def addToBlockDB(self, newHash):
'''add a hash value to the block db (should be in hex format)'''
if not os.path.exists(self.blockDB):
raise Exception('Block db does not exist')
conn = sqlite3.connect(self.blockDB)
c = conn.cursor()
currentTime = math.floor(time.time())
data = (newHash, currentTime, 0, 0)
c.execute('INSERT into hashes values(?, ?, ?, ?);', data)
conn.commit()
conn.close()
def getData(self,hash):
'''simply return the data associated to a hash'''
dataFile = open(self.blockDataLocation + hash + '.dat')
data = dataFile.read()
dataFile.close()
return data
def setData(self, data):
'''set the data assciated with a hash'''
hasher = hashlib.sha3_256
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def dataDirEncrypt(self, password):
'''
Encrypt the data directory on Onionr shutdown
'''
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# 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
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def dataDirDecrypt(self, password):
'''
Decrypt the data directory on startup
'''
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# 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:
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return (False, 'wrong password (or corrupted archive)')
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else:
open('data.tar', 'wb').write(decrypted)
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tar = tarfile.open('data.tar')
tar.extractall()
tar.close()
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return (True, '')
def daemonQueue(self):
'''
Gives commands to the communication proccess/daemon by reading an sqlite3 database
'''
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# 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):
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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:
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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=''):
'''
Add a command to the daemon queue, used by the communication daemon (communicator.py)
'''
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# 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
def generateHMAC(self):
'''
generate and return an HMAC key
'''
key = base64.b64encode(os.urandom(32))
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return key