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Path : /usr/lib/python3/dist-packages/nacl/
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Current File : //usr/lib/python3/dist-packages/nacl/public.py

# Copyright 2013 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

import nacl.bindings
from nacl import encoding
from nacl import exceptions as exc
from nacl.utils import EncryptedMessage, StringFixer, random


class PublicKey(encoding.Encodable, StringFixer, object):
    """
    The public key counterpart to an Curve25519 :class:`nacl.public.PrivateKey`
    for encrypting messages.

    :param public_key: [:class:`bytes`] Encoded Curve25519 public key
    :param encoder: A class that is able to decode the `public_key`

    :cvar SIZE: The size that the public key is required to be
    """

    SIZE = nacl.bindings.crypto_box_PUBLICKEYBYTES

    def __init__(self, public_key, encoder=encoding.RawEncoder):
        self._public_key = encoder.decode(public_key)
        if not isinstance(self._public_key, bytes):
            raise exc.TypeError("PublicKey must be created from 32 bytes")

        if len(self._public_key) != self.SIZE:
            raise exc.ValueError(
                "The public key must be exactly {0} bytes long".format(
                    self.SIZE
                )
            )

    def __bytes__(self):
        return self._public_key

    def __hash__(self):
        return hash(bytes(self))

    def __eq__(self, other):
        if not isinstance(other, self.__class__):
            return False
        return nacl.bindings.sodium_memcmp(bytes(self), bytes(other))

    def __ne__(self, other):
        return not (self == other)


class PrivateKey(encoding.Encodable, StringFixer, object):
    """
    Private key for decrypting messages using the Curve25519 algorithm.

    .. warning:: This **must** be protected and remain secret. Anyone who
        knows the value of your :class:`~nacl.public.PrivateKey` can decrypt
        any message encrypted by the corresponding
        :class:`~nacl.public.PublicKey`

    :param private_key: The private key used to decrypt messages
    :param encoder: The encoder class used to decode the given keys

    :cvar SIZE: The size that the private key is required to be
    :cvar SEED_SIZE: The size that the seed used to generate the
                     private key is required to be
    """

    SIZE = nacl.bindings.crypto_box_SECRETKEYBYTES
    SEED_SIZE = nacl.bindings.crypto_box_SEEDBYTES

    def __init__(self, private_key, encoder=encoding.RawEncoder):
        # Decode the secret_key
        private_key = encoder.decode(private_key)
        # verify the given secret key type and size are correct
        if not (isinstance(private_key, bytes) and
                len(private_key) == self.SIZE):
            raise exc.TypeError(("PrivateKey must be created from a {0} "
                                 "bytes long raw secret key").format(self.SIZE)
                                )

        raw_public_key = nacl.bindings.crypto_scalarmult_base(private_key)

        self._private_key = private_key
        self.public_key = PublicKey(raw_public_key)

    @classmethod
    def from_seed(cls, seed, encoder=encoding.RawEncoder):
        """
        Generate a PrivateKey using a deterministic construction
        starting from a caller-provided seed

        .. warning:: The seed **must** be high-entropy; therefore,
            its generator **must** be a cryptographic quality
            random function like, for example, :func:`~nacl.utils.random`.

        .. warning:: The seed **must** be protected and remain secret.
            Anyone who knows the seed is really in possession of
            the corresponding PrivateKey.

        :param seed: The seed used to generate the private key
        :rtype: :class:`~nacl.public.PrivateKey`
        """
        # decode the seed
        seed = encoder.decode(seed)
        # Verify the given seed type and size are correct
        if not (isinstance(seed, bytes) and len(seed) == cls.SEED_SIZE):
            raise exc.TypeError(("PrivateKey seed must be a {0} bytes long "
                                 "binary sequence").format(cls.SEED_SIZE)
                                )
        # generate a raw keypair from the given seed
        raw_pk, raw_sk = nacl.bindings.crypto_box_seed_keypair(seed)
        # construct a instance from the raw secret key
        return cls(raw_sk)

    def __bytes__(self):
        return self._private_key

    def __hash__(self):
        return hash((type(self), bytes(self.public_key)))

    def __eq__(self, other):
        if not isinstance(other, self.__class__):
            return False
        return self.public_key == other.public_key

    def __ne__(self, other):
        return not (self == other)

    @classmethod
    def generate(cls):
        """
        Generates a random :class:`~nacl.public.PrivateKey` object

        :rtype: :class:`~nacl.public.PrivateKey`
        """
        return cls(random(PrivateKey.SIZE), encoder=encoding.RawEncoder)


class Box(encoding.Encodable, StringFixer, object):
    """
    The Box class boxes and unboxes messages between a pair of keys

    The ciphertexts generated by :class:`~nacl.public.Box` include a 16
    byte authenticator which is checked as part of the decryption. An invalid
    authenticator will cause the decrypt function to raise an exception. The
    authenticator is not a signature. Once you've decrypted the message you've
    demonstrated the ability to create arbitrary valid message, so messages you
    send are repudiable. For non-repudiable messages, sign them after
    encryption.

    :param private_key: :class:`~nacl.public.PrivateKey` used to encrypt and
        decrypt messages
    :param public_key: :class:`~nacl.public.PublicKey` used to encrypt and
        decrypt messages

    :cvar NONCE_SIZE: The size that the nonce is required to be.
    """

    NONCE_SIZE = nacl.bindings.crypto_box_NONCEBYTES

    def __init__(self, private_key, public_key):
        if private_key and public_key:
            if ((not isinstance(private_key, PrivateKey) or
                 not isinstance(public_key, PublicKey))):
                raise exc.TypeError("Box must be created from "
                                    "a PrivateKey and a PublicKey")
            self._shared_key = nacl.bindings.crypto_box_beforenm(
                public_key.encode(encoder=encoding.RawEncoder),
                private_key.encode(encoder=encoding.RawEncoder),
            )
        else:
            self._shared_key = None

    def __bytes__(self):
        return self._shared_key

    @classmethod
    def decode(cls, encoded, encoder=encoding.RawEncoder):
        # Create an empty box
        box = cls(None, None)

        # Assign our decoded value to the shared key of the box
        box._shared_key = encoder.decode(encoded)

        return box

    def encrypt(self, plaintext, nonce=None, encoder=encoding.RawEncoder):
        """
        Encrypts the plaintext message using the given `nonce` (or generates
        one randomly if omitted) and returns the ciphertext encoded with the
        encoder.

        .. warning:: It is **VITALLY** important that the nonce is a nonce,
            i.e. it is a number used only once for any given key. If you fail
            to do this, you compromise the privacy of the messages encrypted.

        :param plaintext: [:class:`bytes`] The plaintext message to encrypt
        :param nonce: [:class:`bytes`] The nonce to use in the encryption
        :param encoder: The encoder to use to encode the ciphertext
        :rtype: [:class:`nacl.utils.EncryptedMessage`]
        """
        if nonce is None:
            nonce = random(self.NONCE_SIZE)

        if len(nonce) != self.NONCE_SIZE:
            raise exc.ValueError("The nonce must be exactly %s bytes long" %
                                 self.NONCE_SIZE)

        ciphertext = nacl.bindings.crypto_box_afternm(
            plaintext,
            nonce,
            self._shared_key,
        )

        encoded_nonce = encoder.encode(nonce)
        encoded_ciphertext = encoder.encode(ciphertext)

        return EncryptedMessage._from_parts(
            encoded_nonce,
            encoded_ciphertext,
            encoder.encode(nonce + ciphertext),
        )

    def decrypt(self, ciphertext, nonce=None, encoder=encoding.RawEncoder):
        """
        Decrypts the ciphertext using the `nonce` (explicitly, when passed as a
        parameter or implicitly, when omitted, as part of the ciphertext) and
        returns the plaintext message.

        :param ciphertext: [:class:`bytes`] The encrypted message to decrypt
        :param nonce: [:class:`bytes`] The nonce used when encrypting the
            ciphertext
        :param encoder: The encoder used to decode the ciphertext.
        :rtype: [:class:`bytes`]
        """
        # Decode our ciphertext
        ciphertext = encoder.decode(ciphertext)

        if nonce is None:
            # If we were given the nonce and ciphertext combined, split them.
            nonce = ciphertext[:self.NONCE_SIZE]
            ciphertext = ciphertext[self.NONCE_SIZE:]

        if len(nonce) != self.NONCE_SIZE:
            raise exc.ValueError("The nonce must be exactly %s bytes long" %
                                 self.NONCE_SIZE)

        plaintext = nacl.bindings.crypto_box_open_afternm(
            ciphertext,
            nonce,
            self._shared_key,
        )

        return plaintext

    def shared_key(self):
        """
        Returns the Curve25519 shared secret, that can then be used as a key in
        other symmetric ciphers.

        .. warning:: It is **VITALLY** important that you use a nonce with your
            symmetric cipher. If you fail to do this, you compromise the
            privacy of the messages encrypted. Ensure that the key length of
            your cipher is 32 bytes.
        :rtype: [:class:`bytes`]
        """

        return self._shared_key


class SealedBox(encoding.Encodable, StringFixer, object):
    """
    The SealedBox class boxes and unboxes messages addressed to
    a specified key-pair by using ephemeral sender's keypairs,
    whose private part will be discarded just after encrypting
    a single plaintext message.

    The ciphertexts generated by :class:`~nacl.public.SecretBox` include
    the public part of the ephemeral key before the :class:`~nacl.public.Box`
    ciphertext.

    :param public_key: :class:`~nacl.public.PublicKey` used to encrypt
        messages and derive nonces
    :param private_key: :class:`~nacl.public.PrivateKey` used to decrypt
        messages

    .. versionadded:: 1.2
    """

    def __init__(self, recipient_key):

        if isinstance(recipient_key, PublicKey):
            self._public_key = recipient_key.encode(
                encoder=encoding.RawEncoder)
            self._private_key = None
        elif isinstance(recipient_key, PrivateKey):
            self._private_key = recipient_key.encode(
                encoder=encoding.RawEncoder)
            self._public_key = recipient_key.public_key.encode(
                encoder=encoding.RawEncoder)
        else:
            raise exc.TypeError("SealedBox must be created from "
                                "a PublicKey or a PrivateKey")

    def __bytes__(self):
        return self._public_key

    def encrypt(self, plaintext, encoder=encoding.RawEncoder):
        """
        Encrypts the plaintext message using a random-generated ephemeral
        keypair and returns a "composed ciphertext", containing both
        the public part of the keypair and the ciphertext proper,
        encoded with the encoder.

        The private part of the ephemeral key-pair will be scrubbed before
        returning the ciphertext, therefore, the sender will not be able to
        decrypt the generated ciphertext.

        :param plaintext: [:class:`bytes`] The plaintext message to encrypt
        :param encoder: The encoder to use to encode the ciphertext
        :return bytes: encoded ciphertext
        """

        ciphertext = nacl.bindings.crypto_box_seal(
            plaintext,
            self._public_key
        )

        encoded_ciphertext = encoder.encode(ciphertext)

        return encoded_ciphertext

    def decrypt(self, ciphertext, encoder=encoding.RawEncoder):
        """
        Decrypts the ciphertext using the ephemeral public key enclosed
        in the ciphertext and the SealedBox private key, returning
        the plaintext message.

        :param ciphertext: [:class:`bytes`] The encrypted message to decrypt
        :param encoder: The encoder used to decode the ciphertext.
        :return bytes: The original plaintext
        """
        # Decode our ciphertext
        ciphertext = encoder.decode(ciphertext)

        plaintext = nacl.bindings.crypto_box_seal_open(
            ciphertext,
            self._public_key,
            self._private_key,
        )

        return plaintext

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