def ElGamalGenerate():
"""
Generate ElGamal KeyPair
"""
x = random().randint(2, elgamal_p)
y = pow(elgamal_g, x, elgamal_p)
return ElGamalKey(y, x)
def serialize(self, priv=False):
if priv and not self.has_private():
raise ValueError('No private key material in this Destination')
data = bytes()
if self.cert.type == CertificateType.KEY:
encpub = self.enckey.get_pubkey()
sigpub = self.sigkey.get_pubkey()
enc_end = min(256, self.cert.enctype.pubkey_len)
sig_start = max(256, 384-self.cert.sigtype.pubkey_len)
if len(self.padding) == 0:
# Generate random padding
pad_len = sig_start - enc_end
# Wrap with int() for Py2
self.padding = int(random().getrandbits(pad_len*8)).to_bytes(
pad_len, 'big')
data += encpub[:enc_end]
data += self.padding
data += sigpub[:384-sig_start]
data += self.cert.serialize()
elif self.cert.type != CertificateType.MULTI:
data += self.enckey.get_pubkey()
data += self.sigkey.get_pubkey()
data += self.cert.serialize()
else:
raise NotImplementedError('Multiple certs not yet supported')
if priv:
data += self.enckey.get_privkey()
data += self.sigkey.get_privkey()
self._log.debug('serialize len=%d' % len(data))
return data
def _generate():
"""Generate a DSA key pair.
This needs an audit.
"""
x = random().randint(1, 2 ** 160)
y = pow(dsa_g, x, dsa_p)
return DSAKey._construct(y, x)
def _generate():
"""Generate an ElGamal key pair.
This needs an audit.
"""
x = random().randint(2, elgamal_p)
y = pow(elgamal_g, x, elgamal_p)
return ElGamalKey._construct(y, x)
def _generate():
"""Generate a DSA key pair.
This needs an audit.
"""
x = random().randint(1, 2**160)
y = pow(dsa_g, x, dsa_p)
return DSAKey._construct(y, x)
def _generate():
"""Generate an ElGamal key pair.
This needs an audit.
"""
x = random().randint(2, elgamal_p)
y = pow(elgamal_g, x, elgamal_p)
return ElGamalKey._construct(y, x)
def DSAGenerate():
"""
Generate DSA KeyPair
this needs an audit
"""
x = random().randint(1, 2 ** 160)
y = pow(dsa_g, x, dsa_p)
return DSAKey(y, x)
def DSA_SHA1_SIGN(key, data, doublehash=True):
"""
generate DSA-SHA1 signature
"""
if key.has_private():
k = random().randint(1, key.q - 1)
if doublehash:
data = sha1(data)
R, S = key.sign(data, k)
return int(R).to_bytes(20,'big') + int(S).to_bytes(20,'big')
else:
raise I2CPException('No Private Key')
def _sign(self, data):
"""Generate DSA-SHA1 signature."""
k = random().randint(1, self.key.q - 1)
data = sha1(data)
R, S = self.key.sign(data, k)
return int(R).to_bytes(20, 'big') + int(S).to_bytes(20, 'big')
def _sign(self, data):
"""Generate DSA-SHA1 signature."""
k = random().randint(1, self.key.q - 1)
data = sha1(data)
R, S = self.key.sign(data, k)
return int(R).to_bytes(20, 'big') + int(S).to_bytes(20, 'big')