mirror of
https://github.com/thegeeklab/ansible-later.git
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314 lines
9.5 KiB
Python
314 lines
9.5 KiB
Python
# Copyright 2013 Donald Stufft and individual contributors
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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from __future__ import absolute_import, division, print_function
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from nacl import exceptions as exc
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from nacl._sodium import ffi, lib
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from nacl.exceptions import ensure
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__all__ = ["crypto_box_keypair", "crypto_box"]
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crypto_box_SECRETKEYBYTES = lib.crypto_box_secretkeybytes()
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crypto_box_PUBLICKEYBYTES = lib.crypto_box_publickeybytes()
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crypto_box_SEEDBYTES = lib.crypto_box_seedbytes()
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crypto_box_NONCEBYTES = lib.crypto_box_noncebytes()
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crypto_box_ZEROBYTES = lib.crypto_box_zerobytes()
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crypto_box_BOXZEROBYTES = lib.crypto_box_boxzerobytes()
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crypto_box_BEFORENMBYTES = lib.crypto_box_beforenmbytes()
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crypto_box_SEALBYTES = lib.crypto_box_sealbytes()
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def crypto_box_keypair():
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"""
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Returns a randomly generated public and secret key.
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:rtype: (bytes(public_key), bytes(secret_key))
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"""
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pk = ffi.new("unsigned char[]", crypto_box_PUBLICKEYBYTES)
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sk = ffi.new("unsigned char[]", crypto_box_SECRETKEYBYTES)
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rc = lib.crypto_box_keypair(pk, sk)
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ensure(rc == 0,
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'Unexpected library error',
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raising=exc.RuntimeError)
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return (
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ffi.buffer(pk, crypto_box_PUBLICKEYBYTES)[:],
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ffi.buffer(sk, crypto_box_SECRETKEYBYTES)[:],
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)
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def crypto_box_seed_keypair(seed):
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"""
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Returns a (public, secret) keypair deterministically generated
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from an input ``seed``.
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.. warning:: The seed **must** be high-entropy; therefore,
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its generator **must** be a cryptographic quality
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random function like, for example, :func:`~nacl.utils.random`.
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.. warning:: The seed **must** be protected and remain secret.
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Anyone who knows the seed is really in possession of
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the corresponding PrivateKey.
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:param seed: bytes
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:rtype: (bytes(public_key), bytes(secret_key))
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"""
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ensure(isinstance(seed, bytes),
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"seed must be bytes",
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raising=TypeError)
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if len(seed) != crypto_box_SEEDBYTES:
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raise exc.ValueError("Invalid seed")
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pk = ffi.new("unsigned char[]", crypto_box_PUBLICKEYBYTES)
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sk = ffi.new("unsigned char[]", crypto_box_SECRETKEYBYTES)
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rc = lib.crypto_box_seed_keypair(pk, sk, seed)
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ensure(rc == 0,
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'Unexpected library error',
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raising=exc.RuntimeError)
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return (
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ffi.buffer(pk, crypto_box_PUBLICKEYBYTES)[:],
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ffi.buffer(sk, crypto_box_SECRETKEYBYTES)[:],
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)
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def crypto_box(message, nonce, pk, sk):
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"""
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Encrypts and returns a message ``message`` using the secret key ``sk``,
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public key ``pk``, and the nonce ``nonce``.
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:param message: bytes
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:param nonce: bytes
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:param pk: bytes
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:param sk: bytes
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:rtype: bytes
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"""
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if len(nonce) != crypto_box_NONCEBYTES:
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raise exc.ValueError("Invalid nonce size")
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if len(pk) != crypto_box_PUBLICKEYBYTES:
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raise exc.ValueError("Invalid public key")
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if len(sk) != crypto_box_SECRETKEYBYTES:
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raise exc.ValueError("Invalid secret key")
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padded = (b"\x00" * crypto_box_ZEROBYTES) + message
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ciphertext = ffi.new("unsigned char[]", len(padded))
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rc = lib.crypto_box(ciphertext, padded, len(padded), nonce, pk, sk)
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ensure(rc == 0,
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'Unexpected library error',
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raising=exc.RuntimeError)
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return ffi.buffer(ciphertext, len(padded))[crypto_box_BOXZEROBYTES:]
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def crypto_box_open(ciphertext, nonce, pk, sk):
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"""
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Decrypts and returns an encrypted message ``ciphertext``, using the secret
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key ``sk``, public key ``pk``, and the nonce ``nonce``.
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:param ciphertext: bytes
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:param nonce: bytes
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:param pk: bytes
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:param sk: bytes
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:rtype: bytes
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"""
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if len(nonce) != crypto_box_NONCEBYTES:
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raise exc.ValueError("Invalid nonce size")
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if len(pk) != crypto_box_PUBLICKEYBYTES:
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raise exc.ValueError("Invalid public key")
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if len(sk) != crypto_box_SECRETKEYBYTES:
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raise exc.ValueError("Invalid secret key")
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padded = (b"\x00" * crypto_box_BOXZEROBYTES) + ciphertext
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plaintext = ffi.new("unsigned char[]", len(padded))
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res = lib.crypto_box_open(plaintext, padded, len(padded), nonce, pk, sk)
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ensure(res == 0, "An error occurred trying to decrypt the message",
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raising=exc.CryptoError)
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return ffi.buffer(plaintext, len(padded))[crypto_box_ZEROBYTES:]
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def crypto_box_beforenm(pk, sk):
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"""
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Computes and returns the shared key for the public key ``pk`` and the
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secret key ``sk``. This can be used to speed up operations where the same
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set of keys is going to be used multiple times.
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:param pk: bytes
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:param sk: bytes
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:rtype: bytes
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"""
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if len(pk) != crypto_box_PUBLICKEYBYTES:
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raise exc.ValueError("Invalid public key")
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if len(sk) != crypto_box_SECRETKEYBYTES:
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raise exc.ValueError("Invalid secret key")
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k = ffi.new("unsigned char[]", crypto_box_BEFORENMBYTES)
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rc = lib.crypto_box_beforenm(k, pk, sk)
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ensure(rc == 0,
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'Unexpected library error',
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raising=exc.RuntimeError)
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return ffi.buffer(k, crypto_box_BEFORENMBYTES)[:]
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def crypto_box_afternm(message, nonce, k):
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"""
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Encrypts and returns the message ``message`` using the shared key ``k`` and
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the nonce ``nonce``.
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:param message: bytes
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:param nonce: bytes
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:param k: bytes
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:rtype: bytes
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"""
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if len(nonce) != crypto_box_NONCEBYTES:
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raise exc.ValueError("Invalid nonce")
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if len(k) != crypto_box_BEFORENMBYTES:
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raise exc.ValueError("Invalid shared key")
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padded = b"\x00" * crypto_box_ZEROBYTES + message
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ciphertext = ffi.new("unsigned char[]", len(padded))
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rc = lib.crypto_box_afternm(ciphertext, padded, len(padded), nonce, k)
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ensure(rc == 0,
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'Unexpected library error',
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raising=exc.RuntimeError)
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return ffi.buffer(ciphertext, len(padded))[crypto_box_BOXZEROBYTES:]
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def crypto_box_open_afternm(ciphertext, nonce, k):
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"""
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Decrypts and returns the encrypted message ``ciphertext``, using the shared
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key ``k`` and the nonce ``nonce``.
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:param ciphertext: bytes
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:param nonce: bytes
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:param k: bytes
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:rtype: bytes
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"""
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if len(nonce) != crypto_box_NONCEBYTES:
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raise exc.ValueError("Invalid nonce")
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if len(k) != crypto_box_BEFORENMBYTES:
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raise exc.ValueError("Invalid shared key")
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padded = (b"\x00" * crypto_box_BOXZEROBYTES) + ciphertext
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plaintext = ffi.new("unsigned char[]", len(padded))
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res = lib.crypto_box_open_afternm(
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plaintext, padded, len(padded), nonce, k)
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ensure(res == 0, "An error occurred trying to decrypt the message",
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raising=exc.CryptoError)
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return ffi.buffer(plaintext, len(padded))[crypto_box_ZEROBYTES:]
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def crypto_box_seal(message, pk):
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"""
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Encrypts and returns a message ``message`` using an ephemeral secret key
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and the public key ``pk``.
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The ephemeral public key, which is embedded in the sealed box, is also
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used, in combination with ``pk``, to derive the nonce needed for the
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underlying box construct.
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:param message: bytes
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:param pk: bytes
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:rtype: bytes
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.. versionadded:: 1.2
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"""
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ensure(isinstance(message, bytes),
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"input message must be bytes",
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raising=TypeError)
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ensure(isinstance(pk, bytes),
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"public key must be bytes",
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raising=TypeError)
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if len(pk) != crypto_box_PUBLICKEYBYTES:
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raise exc.ValueError("Invalid public key")
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_mlen = len(message)
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_clen = crypto_box_SEALBYTES + _mlen
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ciphertext = ffi.new("unsigned char[]", _clen)
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rc = lib.crypto_box_seal(ciphertext, message, _mlen, pk)
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ensure(rc == 0,
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'Unexpected library error',
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raising=exc.RuntimeError)
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return ffi.buffer(ciphertext, _clen)[:]
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def crypto_box_seal_open(ciphertext, pk, sk):
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"""
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Decrypts and returns an encrypted message ``ciphertext``, using the
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recipent's secret key ``sk`` and the sender's ephemeral public key
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embedded in the sealed box. The box contruct nonce is derived from
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the recipient's public key ``pk`` and the sender's public key.
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:param ciphertext: bytes
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:param pk: bytes
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:param sk: bytes
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:rtype: bytes
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.. versionadded:: 1.2
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"""
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ensure(isinstance(ciphertext, bytes),
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"input ciphertext must be bytes",
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raising=TypeError)
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ensure(isinstance(pk, bytes),
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"public key must be bytes",
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raising=TypeError)
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ensure(isinstance(sk, bytes),
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"secret key must be bytes",
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raising=TypeError)
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if len(pk) != crypto_box_PUBLICKEYBYTES:
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raise exc.ValueError("Invalid public key")
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if len(sk) != crypto_box_SECRETKEYBYTES:
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raise exc.ValueError("Invalid secret key")
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_clen = len(ciphertext)
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_mlen = _clen - crypto_box_SEALBYTES
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plaintext = ffi.new("unsigned char[]", _mlen)
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res = lib.crypto_box_seal_open(plaintext, ciphertext, _clen, pk, sk)
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ensure(res == 0, "An error occurred trying to decrypt the message",
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raising=exc.CryptoError)
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return ffi.buffer(plaintext, _mlen)[:]
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