%PDF- %PDF-
Direktori : /usr/lib/python3/dist-packages/paramiko/ |
Current File : //usr/lib/python3/dist-packages/paramiko/kex_ecdh_nist.py |
""" Ephemeral Elliptic Curve Diffie-Hellman (ECDH) key exchange RFC 5656, Section 4 """ from hashlib import sha256, sha384, sha512 from paramiko.message import Message from paramiko.py3compat import byte_chr, long from paramiko.ssh_exception import SSHException from cryptography.hazmat.backends import default_backend from cryptography.hazmat.primitives.asymmetric import ec from cryptography.hazmat.primitives import serialization from binascii import hexlify _MSG_KEXECDH_INIT, _MSG_KEXECDH_REPLY = range(30, 32) c_MSG_KEXECDH_INIT, c_MSG_KEXECDH_REPLY = [byte_chr(c) for c in range(30, 32)] class KexNistp256: name = "ecdh-sha2-nistp256" hash_algo = sha256 curve = ec.SECP256R1() def __init__(self, transport): self.transport = transport # private key, client public and server public keys self.P = long(0) self.Q_C = None self.Q_S = None def start_kex(self): self._generate_key_pair() if self.transport.server_mode: self.transport._expect_packet(_MSG_KEXECDH_INIT) return m = Message() m.add_byte(c_MSG_KEXECDH_INIT) # SEC1: V2.0 2.3.3 Elliptic-Curve-Point-to-Octet-String Conversion m.add_string( self.Q_C.public_bytes( serialization.Encoding.X962, serialization.PublicFormat.UncompressedPoint, ) ) self.transport._send_message(m) self.transport._expect_packet(_MSG_KEXECDH_REPLY) def parse_next(self, ptype, m): if self.transport.server_mode and (ptype == _MSG_KEXECDH_INIT): return self._parse_kexecdh_init(m) elif not self.transport.server_mode and (ptype == _MSG_KEXECDH_REPLY): return self._parse_kexecdh_reply(m) raise SSHException( "KexECDH asked to handle packet type {:d}".format(ptype) ) def _generate_key_pair(self): self.P = ec.generate_private_key(self.curve, default_backend()) if self.transport.server_mode: self.Q_S = self.P.public_key() return self.Q_C = self.P.public_key() def _parse_kexecdh_init(self, m): Q_C_bytes = m.get_string() self.Q_C = ec.EllipticCurvePublicKey.from_encoded_point( self.curve, Q_C_bytes ) K_S = self.transport.get_server_key().asbytes() K = self.P.exchange(ec.ECDH(), self.Q_C) K = long(hexlify(K), 16) # compute exchange hash hm = Message() hm.add( self.transport.remote_version, self.transport.local_version, self.transport.remote_kex_init, self.transport.local_kex_init, ) hm.add_string(K_S) hm.add_string(Q_C_bytes) # SEC1: V2.0 2.3.3 Elliptic-Curve-Point-to-Octet-String Conversion hm.add_string( self.Q_S.public_bytes( serialization.Encoding.X962, serialization.PublicFormat.UncompressedPoint, ) ) hm.add_mpint(long(K)) H = self.hash_algo(hm.asbytes()).digest() self.transport._set_K_H(K, H) sig = self.transport.get_server_key().sign_ssh_data( H, self.transport.host_key_type ) # construct reply m = Message() m.add_byte(c_MSG_KEXECDH_REPLY) m.add_string(K_S) m.add_string( self.Q_S.public_bytes( serialization.Encoding.X962, serialization.PublicFormat.UncompressedPoint, ) ) m.add_string(sig) self.transport._send_message(m) self.transport._activate_outbound() def _parse_kexecdh_reply(self, m): K_S = m.get_string() Q_S_bytes = m.get_string() self.Q_S = ec.EllipticCurvePublicKey.from_encoded_point( self.curve, Q_S_bytes ) sig = m.get_binary() K = self.P.exchange(ec.ECDH(), self.Q_S) K = long(hexlify(K), 16) # compute exchange hash and verify signature hm = Message() hm.add( self.transport.local_version, self.transport.remote_version, self.transport.local_kex_init, self.transport.remote_kex_init, ) hm.add_string(K_S) # SEC1: V2.0 2.3.3 Elliptic-Curve-Point-to-Octet-String Conversion hm.add_string( self.Q_C.public_bytes( serialization.Encoding.X962, serialization.PublicFormat.UncompressedPoint, ) ) hm.add_string(Q_S_bytes) hm.add_mpint(K) self.transport._set_K_H(K, self.hash_algo(hm.asbytes()).digest()) self.transport._verify_key(K_S, sig) self.transport._activate_outbound() class KexNistp384(KexNistp256): name = "ecdh-sha2-nistp384" hash_algo = sha384 curve = ec.SECP384R1() class KexNistp521(KexNistp256): name = "ecdh-sha2-nistp521" hash_algo = sha512 curve = ec.SECP521R1()