Onionr/onionr/onionrcrypto.py

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'''
Onionr - Private P2P Communication
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This file handles Onionr's 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 os, binascii, base64, hashlib, time, sys, hmac, secrets
import nacl.signing, nacl.encoding, nacl.public, nacl.hash, nacl.pwhash, nacl.utils, nacl.secret
import unpaddedbase32
import logger, onionrproofs
from onionrutils import stringvalidators, epoch, bytesconverter
import onionrexceptions, keymanager, core, onionrutils
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import config
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config.reload()
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class OnionrCrypto:
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def __init__(self, coreInstance):
self._core = coreInstance
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self._keyFile = self._core.dataDir + 'keys.txt'
self.pubKey = None
self.privKey = None
self.secrets = secrets
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self.deterministicRequirement = 25 # Min deterministic password/phrase length
self.HASH_ID_ROUNDS = 2000
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self.keyManager = keymanager.KeyManager(self)
# Load our own pub/priv Ed25519 keys, gen & save them if they don't exist
if os.path.exists(self._keyFile):
if len(self._core.config.get('general.public_key', '')) > 0:
self.pubKey = self._core.config.get('general.public_key')
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else:
self.pubKey = self.keyManager.getPubkeyList()[0]
self.privKey = self.keyManager.getPrivkey(self.pubKey)
else:
keys = self.generatePubKey()
self.pubKey = keys[0]
self.privKey = keys[1]
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self.keyManager.addKey(self.pubKey, self.privKey)
return
def edVerify(self, data, key, sig, encodedData=True):
'''Verify signed data (combined in nacl) to an ed25519 key'''
try:
key = nacl.signing.VerifyKey(key=key, encoder=nacl.encoding.Base32Encoder)
except nacl.exceptions.ValueError:
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#logger.debug('Signature by unknown key (cannot reverse hash)')
return False
except binascii.Error:
logger.warn('Could not load key for verification, invalid padding')
return False
retData = False
sig = base64.b64decode(sig)
try:
data = data.encode()
except AttributeError:
pass
if encodedData:
try:
retData = key.verify(data, sig) # .encode() is not the same as nacl.encoding
except nacl.exceptions.BadSignatureError:
pass
else:
try:
retData = key.verify(data, sig)
except nacl.exceptions.BadSignatureError:
pass
return retData
def edSign(self, data, key, encodeResult=False):
'''Ed25519 sign data'''
try:
data = data.encode()
except AttributeError:
pass
key = nacl.signing.SigningKey(seed=key, encoder=nacl.encoding.Base32Encoder)
retData = ''
if encodeResult:
retData = key.sign(data, encoder=nacl.encoding.Base64Encoder).signature.decode() # .encode() is not the same as nacl.encoding
else:
retData = key.sign(data).signature
return retData
def pubKeyEncrypt(self, data, pubkey, encodedData=False):
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'''Encrypt to a public key (Curve25519, taken from base32 Ed25519 pubkey)'''
pubkey = unpaddedbase32.repad(bytesconverter.str_to_bytes(pubkey))
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retVal = ''
box = None
data = bytesconverter.str_to_bytes(data)
pubkey = nacl.signing.VerifyKey(pubkey, encoder=nacl.encoding.Base32Encoder()).to_curve25519_public_key()
if encodedData:
encoding = nacl.encoding.Base64Encoder
else:
encoding = nacl.encoding.RawEncoder
box = nacl.public.SealedBox(pubkey)
retVal = box.encrypt(data, encoder=encoding)
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return retVal
def pubKeyDecrypt(self, data, pubkey='', privkey='', encodedData=False):
'''pubkey decrypt (Curve25519, taken from Ed25519 pubkey)'''
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decrypted = False
if encodedData:
encoding = nacl.encoding.Base64Encoder
else:
encoding = nacl.encoding.RawEncoder
if privkey == '':
privkey = self.privKey
ownKey = nacl.signing.SigningKey(seed=privkey, encoder=nacl.encoding.Base32Encoder()).to_curve25519_private_key()
if stringvalidators.validate_pub_key(privkey):
privkey = nacl.signing.SigningKey(seed=privkey, encoder=nacl.encoding.Base32Encoder()).to_curve25519_private_key()
anonBox = nacl.public.SealedBox(privkey)
else:
anonBox = nacl.public.SealedBox(ownKey)
decrypted = anonBox.decrypt(data, encoder=encoding)
return decrypted
def symmetricEncrypt(self, data, key, encodedKey=False, returnEncoded=True):
'''Encrypt data with a 32-byte key (Salsa20-Poly1305 MAC)'''
if encodedKey:
encoding = nacl.encoding.Base64Encoder
else:
encoding = nacl.encoding.RawEncoder
# Make sure data is bytes
if type(data) != bytes:
data = data.encode()
box = nacl.secret.SecretBox(key, encoder=encoding)
if returnEncoded:
encoding = nacl.encoding.Base64Encoder
else:
encoding = nacl.encoding.RawEncoder
encrypted = box.encrypt(data, encoder=encoding)
return encrypted
def symmetricDecrypt(self, data, key, encodedKey=False, encodedMessage=False, returnEncoded=False):
'''Decrypt data to a 32-byte key (Salsa20-Poly1305 MAC)'''
if encodedKey:
encoding = nacl.encoding.Base64Encoder
else:
encoding = nacl.encoding.RawEncoder
box = nacl.secret.SecretBox(key, encoder=encoding)
if encodedMessage:
encoding = nacl.encoding.Base64Encoder
else:
encoding = nacl.encoding.RawEncoder
decrypted = box.decrypt(data, encoder=encoding)
if returnEncoded:
decrypted = base64.b64encode(decrypted)
return decrypted
def generateSymmetric(self):
'''Generate a symmetric key (bytes) and return it'''
return binascii.hexlify(nacl.utils.random(nacl.secret.SecretBox.KEY_SIZE))
def generatePubKey(self):
'''Generate a Ed25519 public key pair, return tuple of base32encoded pubkey, privkey'''
private_key = nacl.signing.SigningKey.generate()
public_key = private_key.verify_key.encode(encoder=nacl.encoding.Base32Encoder())
return (public_key.decode(), private_key.encode(encoder=nacl.encoding.Base32Encoder()).decode())
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def generateDeterministic(self, passphrase, bypassCheck=False):
'''Generate a Ed25519 public key pair from a password'''
passStrength = self.deterministicRequirement
passphrase = bytesconverter.str_to_bytes(passphrase) # Convert to bytes if not already
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# Validate passphrase length
if not bypassCheck:
if len(passphrase) < passStrength:
raise onionrexceptions.PasswordStrengthError("Passphase must be at least %s characters" % (passStrength,))
# KDF values
kdf = nacl.pwhash.argon2id.kdf
salt = b"U81Q7llrQcdTP0Ux" # Does not need to be unique or secret, but must be 16 bytes
ops = nacl.pwhash.argon2id.OPSLIMIT_SENSITIVE
mem = nacl.pwhash.argon2id.MEMLIMIT_SENSITIVE
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key = kdf(32, passphrase, salt, opslimit=ops, memlimit=mem) # Generate seed for ed25519 key
key = nacl.signing.SigningKey(key)
return (key.verify_key.encode(nacl.encoding.Base32Encoder).decode(), key.encode(nacl.encoding.Base32Encoder).decode())
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def pubKeyHashID(self, pubkey=''):
'''Accept a ed25519 public key, return a truncated result of X many sha3_256 hash rounds'''
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if pubkey == '':
pubkey = self.pubKey
prev = ''
pubkey = bytesconverter.str_to_bytes(pubkey)
for i in range(self.HASH_ID_ROUNDS):
try:
prev = prev.encode()
except AttributeError:
pass
hasher = hashlib.sha3_256()
hasher.update(pubkey + prev)
prev = hasher.hexdigest()
result = prev
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return result
def sha3Hash(self, data):
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try:
data = data.encode()
except AttributeError:
pass
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hasher = hashlib.sha3_256()
hasher.update(data)
return hasher.hexdigest()
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def blake2bHash(self, data):
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try:
data = data.encode()
except AttributeError:
pass
return nacl.hash.blake2b(data)
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def verifyPow(self, blockContent):
'''
Verifies the proof of work associated with a block
'''
retData = False
dataLen = len(blockContent)
try:
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blockContent = blockContent.encode()
except AttributeError:
pass
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blockHash = self.sha3Hash(blockContent)
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try:
blockHash = blockHash.decode() # bytes on some versions for some reason
except AttributeError:
pass
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difficulty = onionrproofs.getDifficultyForNewBlock(blockContent, ourBlock=False, coreInst=self._core)
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if difficulty < int(self._core.config.get('general.minimum_block_pow')):
difficulty = int(self._core.config.get('general.minimum_block_pow'))
mainHash = '0000000000000000000000000000000000000000000000000000000000000000'#nacl.hash.blake2b(nacl.utils.random()).decode()
puzzle = mainHash[:difficulty]
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if blockHash[:difficulty] == puzzle:
# logger.debug('Validated block pow')
retData = True
else:
logger.debug("Invalid token, bad proof")
return retData
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@staticmethod
def replayTimestampValidation(timestamp):
if epoch.get_epoch() - int(timestamp) > 2419200:
return False
else:
return True
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@staticmethod
def safeCompare(one, two):
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# Do encode here to avoid spawning core
try:
one = one.encode()
except AttributeError:
pass
try:
two = two.encode()
except AttributeError:
pass
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return hmac.compare_digest(one, two)
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@staticmethod
def randomShuffle(theList):
myList = list(theList)
shuffledList = []
myListLength = len(myList) + 1
while myListLength > 0:
removed = secrets.randbelow(myListLength)
try:
shuffledList.append(myList.pop(removed))
except IndexError:
pass
myListLength = len(myList)
return shuffledList