Onionr/onionr/onionrcrypto.py

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'''
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Onionr - P2P Anonymous Storage Network
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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/>.
'''
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import nacl.signing, nacl.encoding, nacl.public, nacl.hash, nacl.pwhash, nacl.utils, nacl.secret, os, binascii, base64, hashlib, logger, onionrproofs, time, math, sys, hmac
import onionrexceptions, keymanager
# secrets module was added into standard lib in 3.6+
if sys.version_info[0] == 3 and sys.version_info[1] < 6:
from dependencies import secrets
elif sys.version_info[0] == 3 and sys.version_info[1] >= 6:
import secrets
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import config
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class OnionrCrypto:
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def __init__(self, coreInstance):
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config.reload()
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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):
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if len(config.get('general.public_key', '')) > 0:
self.pubKey = config.get('general.public_key')
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, anonymous=True, encodedData=False):
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'''Encrypt to a public key (Curve25519, taken from base32 Ed25519 pubkey)'''
retVal = ''
try:
pubkey = pubkey.encode()
except AttributeError:
pass
if encodedData:
encoding = nacl.encoding.Base64Encoder
else:
encoding = nacl.encoding.RawEncoder
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if self.privKey != None and not anonymous:
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ownKey = nacl.signing.SigningKey(seed=self.privKey, encoder=nacl.encoding.Base32Encoder).to_curve25519_private_key()
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key = nacl.signing.VerifyKey(key=pubkey, encoder=nacl.encoding.Base32Encoder).to_curve25519_public_key()
ourBox = nacl.public.Box(ownKey, key)
retVal = ourBox.encrypt(data.encode(), encoder=encoding)
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elif anonymous:
key = nacl.signing.VerifyKey(key=pubkey, encoder=nacl.encoding.Base32Encoder).to_curve25519_public_key()
anonBox = nacl.public.SealedBox(key)
try:
data = data.encode()
except AttributeError:
pass
retVal = anonBox.encrypt(data, encoder=encoding)
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return retVal
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def pubKeyDecrypt(self, data, pubkey='', privkey='', anonymous=False, 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
ownKey = nacl.signing.SigningKey(seed=self.privKey, encoder=nacl.encoding.Base32Encoder()).to_curve25519_private_key()
if self.privKey != None and not anonymous:
ourBox = nacl.public.Box(ownKey, pubkey)
decrypted = ourBox.decrypt(data, encoder=encoding)
elif anonymous:
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if self._core._utils.validatePubKey(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 to 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 generateSymmetricPeer(self, peer):
'''Generate symmetric key for a peer and save it to the peer database'''
key = self.generateSymmetric()
self._core.setPeerInfo(peer, 'forwardKey', key)
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return
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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 = self._core._utils.strToBytes(passphrase) # Convert to bytes if not already
# 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(nacl.secret.SecretBox.KEY_SIZE, passphrase, salt, opslimit=ops, memlimit=mem)
key = nacl.public.PrivateKey(key, nacl.encoding.RawEncoder())
publicKey = key.public_key
return (publicKey.encode(encoder=nacl.encoding.Base32Encoder()),
key.encode(encoder=nacl.encoding.Base32Encoder()))
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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 = pubkey.encode()
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 = math.floor(dataLen / 1000000)
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if difficulty < int(config.get('general.minimum_block_pow')):
difficulty = int(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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def safeCompare(self, one, two):
return hmac.compare_digest(one, two)