ansible-later/testenv/lib/python2.7/site-packages/nacl/bindings/crypto_kx.py
2019-04-23 13:04:27 +02:00

168 lines
6.8 KiB
Python

# Copyright 2018 Donald Stufft and individual contributors
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
from __future__ import absolute_import, division, print_function
from nacl import exceptions as exc
from nacl._sodium import ffi, lib
from nacl.exceptions import ensure
__all__ = ["crypto_kx_keypair",
"crypto_kx_client_session_keys",
"crypto_kx_server_session_keys",
"crypto_kx_PUBLIC_KEY_BYTES",
"crypto_kx_SECRET_KEY_BYTES",
"crypto_kx_SEED_BYTES",
"crypto_kx_SESSION_KEY_BYTES"]
"""
Implementations of client, server key exchange
"""
crypto_kx_PUBLIC_KEY_BYTES = lib.crypto_kx_publickeybytes()
crypto_kx_SECRET_KEY_BYTES = lib.crypto_kx_secretkeybytes()
crypto_kx_SEED_BYTES = lib.crypto_kx_seedbytes()
crypto_kx_SESSION_KEY_BYTES = lib.crypto_kx_sessionkeybytes()
def crypto_kx_keypair():
"""
Generate a keypair.
This is a duplicate crypto_box_keypair, but
is included for api consistency.
:return: (public_key, secret_key)
:rtype: (bytes, bytes)
"""
public_key = ffi.new("unsigned char[]", crypto_kx_PUBLIC_KEY_BYTES)
secret_key = ffi.new("unsigned char[]", crypto_kx_SECRET_KEY_BYTES)
res = lib.crypto_kx_keypair(public_key, secret_key)
ensure(res == 0, "Key generation failed.", raising=exc.CryptoError)
return (ffi.buffer(public_key, crypto_kx_PUBLIC_KEY_BYTES)[:],
ffi.buffer(secret_key, crypto_kx_SECRET_KEY_BYTES)[:])
def crypto_kx_seed_keypair(seed):
"""
Generate a keypair with a given seed.
This is functionally the same as crypto_box_seed_keypair, however
it uses the blake2b hash primitive instead of sha512.
It is included mainly for api consistency when using crypto_kx.
:param seed: random seed
:type seed: bytes
:return: (public_key, secret_key)
:rtype: (bytes, bytes)
"""
public_key = ffi.new("unsigned char[]", crypto_kx_PUBLIC_KEY_BYTES)
secret_key = ffi.new("unsigned char[]", crypto_kx_SECRET_KEY_BYTES)
ensure(isinstance(seed, bytes) and
len(seed) == crypto_kx_SEED_BYTES,
'Seed must be a {0} byte long bytes sequence'.format(
crypto_kx_SEED_BYTES),
raising=exc.TypeError)
res = lib.crypto_kx_seed_keypair(public_key, secret_key, seed)
ensure(res == 0, "Key generation failed.", raising=exc.CryptoError)
return (ffi.buffer(public_key, crypto_kx_PUBLIC_KEY_BYTES)[:],
ffi.buffer(secret_key, crypto_kx_SECRET_KEY_BYTES)[:])
def crypto_kx_client_session_keys(client_public_key,
client_secret_key,
server_public_key):
"""
Generate session keys for the client.
:param client_public_key:
:type client_public_key: bytes
:param client_secret_key:
:type client_secret_key: bytes
:param server_public_key:
:type server_public_key: bytes
:return: (rx_key, tx_key)
:rtype: (bytes, bytes)
"""
ensure(isinstance(client_public_key, bytes) and
len(client_public_key) == crypto_kx_PUBLIC_KEY_BYTES,
'Client public key must be a {0} bytes long bytes sequence'.format(
crypto_kx_PUBLIC_KEY_BYTES),
raising=exc.TypeError)
ensure(isinstance(client_secret_key, bytes) and
len(client_secret_key) == crypto_kx_SECRET_KEY_BYTES,
'Client secret key must be a {0} bytes long bytes sequence'.format(
crypto_kx_PUBLIC_KEY_BYTES),
raising=exc.TypeError)
ensure(isinstance(server_public_key, bytes) and
len(server_public_key) == crypto_kx_PUBLIC_KEY_BYTES,
'Server public key must be a {0} bytes long bytes sequence'.format(
crypto_kx_PUBLIC_KEY_BYTES),
raising=exc.TypeError)
rx_key = ffi.new("unsigned char[]", crypto_kx_SESSION_KEY_BYTES)
tx_key = ffi.new("unsigned char[]", crypto_kx_SESSION_KEY_BYTES)
res = lib.crypto_kx_client_session_keys(rx_key,
tx_key,
client_public_key,
client_secret_key,
server_public_key)
ensure(res == 0,
"Client session key generation failed.",
raising=exc.CryptoError)
return (ffi.buffer(rx_key, crypto_kx_SESSION_KEY_BYTES)[:],
ffi.buffer(tx_key, crypto_kx_SESSION_KEY_BYTES)[:])
def crypto_kx_server_session_keys(server_public_key,
server_secret_key,
client_public_key):
"""
Generate session keys for the server.
:param server_public_key:
:type server_public_key: bytes
:param server_secret_key:
:type server_secret_key: bytes
:param client_public_key:
:type client_public_key: bytes
:return: (rx_key, tx_key)
:rtype: (bytes, bytes)
"""
ensure(isinstance(server_public_key, bytes) and
len(server_public_key) == crypto_kx_PUBLIC_KEY_BYTES,
'Server public key must be a {0} bytes long bytes sequence'.format(
crypto_kx_PUBLIC_KEY_BYTES),
raising=exc.TypeError)
ensure(isinstance(server_secret_key, bytes) and
len(server_secret_key) == crypto_kx_SECRET_KEY_BYTES,
'Server secret key must be a {0} bytes long bytes sequence'.format(
crypto_kx_PUBLIC_KEY_BYTES),
raising=exc.TypeError)
ensure(isinstance(client_public_key, bytes) and
len(client_public_key) == crypto_kx_PUBLIC_KEY_BYTES,
'Client public key must be a {0} bytes long bytes sequence'.format(
crypto_kx_PUBLIC_KEY_BYTES),
raising=exc.TypeError)
rx_key = ffi.new("unsigned char[]", crypto_kx_SESSION_KEY_BYTES)
tx_key = ffi.new("unsigned char[]", crypto_kx_SESSION_KEY_BYTES)
res = lib.crypto_kx_server_session_keys(rx_key,
tx_key,
server_public_key,
server_secret_key,
client_public_key)
ensure(res == 0,
"Server session key generation failed.",
raising=exc.CryptoError)
return (ffi.buffer(rx_key, crypto_kx_SESSION_KEY_BYTES)[:],
ffi.buffer(tx_key, crypto_kx_SESSION_KEY_BYTES)[:])