mirror of
https://github.com/HACKERALERT/Picocrypt.git
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336 lines
11 KiB
Python
336 lines
11 KiB
Python
# ===================================================================
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#
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# Copyright (c) 2018, Helder Eijs <helderijs@gmail.com>
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# All rights reserved.
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#
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# Redistribution and use in source and binary forms, with or without
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# modification, are permitted provided that the following conditions
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# are met:
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#
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# 1. Redistributions of source code must retain the above copyright
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# notice, this list of conditions and the following disclaimer.
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# 2. Redistributions in binary form must reproduce the above copyright
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# notice, this list of conditions and the following disclaimer in
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# the documentation and/or other materials provided with the
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# distribution.
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#
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# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
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# FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
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# COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
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# INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
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# BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
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# LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
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# CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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# LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
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# ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
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# POSSIBILITY OF SUCH DAMAGE.
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# ===================================================================
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from binascii import unhexlify
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from Crypto.Cipher import ChaCha20
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from Crypto.Cipher.ChaCha20 import _HChaCha20
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from Crypto.Hash import Poly1305, BLAKE2s
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from Crypto.Random import get_random_bytes
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from Crypto.Util.number import long_to_bytes
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from Crypto.Util.py3compat import _copy_bytes, bord
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from Crypto.Util._raw_api import is_buffer
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def _enum(**enums):
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return type('Enum', (), enums)
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_CipherStatus = _enum(PROCESSING_AUTH_DATA=1,
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PROCESSING_CIPHERTEXT=2,
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PROCESSING_DONE=3)
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class ChaCha20Poly1305Cipher(object):
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"""ChaCha20-Poly1305 and XChaCha20-Poly1305 cipher object.
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Do not create it directly. Use :py:func:`new` instead.
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:var nonce: The nonce with length 8, 12 or 24 bytes
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:vartype nonce: byte string
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"""
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def __init__(self, key, nonce):
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"""Initialize a ChaCha20-Poly1305 AEAD cipher object
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See also `new()` at the module level."""
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self.nonce = _copy_bytes(None, None, nonce)
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self._next = (self.update, self.encrypt, self.decrypt, self.digest,
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self.verify)
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self._authenticator = Poly1305.new(key=key, nonce=nonce, cipher=ChaCha20)
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self._cipher = ChaCha20.new(key=key, nonce=nonce)
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self._cipher.seek(64) # Block counter starts at 1
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self._len_aad = 0
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self._len_ct = 0
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self._mac_tag = None
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self._status = _CipherStatus.PROCESSING_AUTH_DATA
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def update(self, data):
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"""Protect the associated data.
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Associated data (also known as *additional authenticated data* - AAD)
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is the piece of the message that must stay in the clear, while
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still allowing the receiver to verify its integrity.
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An example is packet headers.
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The associated data (possibly split into multiple segments) is
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fed into :meth:`update` before any call to :meth:`decrypt` or :meth:`encrypt`.
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If there is no associated data, :meth:`update` is not called.
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:param bytes/bytearray/memoryview assoc_data:
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A piece of associated data. There are no restrictions on its size.
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"""
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if self.update not in self._next:
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raise TypeError("update() method cannot be called")
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self._len_aad += len(data)
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self._authenticator.update(data)
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def _pad_aad(self):
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assert(self._status == _CipherStatus.PROCESSING_AUTH_DATA)
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if self._len_aad & 0x0F:
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self._authenticator.update(b'\x00' * (16 - (self._len_aad & 0x0F)))
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self._status = _CipherStatus.PROCESSING_CIPHERTEXT
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def encrypt(self, plaintext, output=None):
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"""Encrypt a piece of data.
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Args:
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plaintext(bytes/bytearray/memoryview): The data to encrypt, of any size.
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Keyword Args:
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output(bytes/bytearray/memoryview): The location where the ciphertext
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is written to. If ``None``, the ciphertext is returned.
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Returns:
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If ``output`` is ``None``, the ciphertext is returned as ``bytes``.
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Otherwise, ``None``.
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"""
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if self.encrypt not in self._next:
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raise TypeError("encrypt() method cannot be called")
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if self._status == _CipherStatus.PROCESSING_AUTH_DATA:
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self._pad_aad()
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self._next = (self.encrypt, self.digest)
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result = self._cipher.encrypt(plaintext, output=output)
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self._len_ct += len(plaintext)
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if output is None:
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self._authenticator.update(result)
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else:
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self._authenticator.update(output)
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return result
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def decrypt(self, ciphertext, output=None):
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"""Decrypt a piece of data.
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Args:
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ciphertext(bytes/bytearray/memoryview): The data to decrypt, of any size.
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Keyword Args:
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output(bytes/bytearray/memoryview): The location where the plaintext
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is written to. If ``None``, the plaintext is returned.
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Returns:
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If ``output`` is ``None``, the plaintext is returned as ``bytes``.
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Otherwise, ``None``.
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"""
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if self.decrypt not in self._next:
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raise TypeError("decrypt() method cannot be called")
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if self._status == _CipherStatus.PROCESSING_AUTH_DATA:
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self._pad_aad()
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self._next = (self.decrypt, self.verify)
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self._len_ct += len(ciphertext)
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self._authenticator.update(ciphertext)
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return self._cipher.decrypt(ciphertext, output=output)
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def _compute_mac(self):
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"""Finalize the cipher (if not done already) and return the MAC."""
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if self._mac_tag:
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assert(self._status == _CipherStatus.PROCESSING_DONE)
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return self._mac_tag
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assert(self._status != _CipherStatus.PROCESSING_DONE)
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if self._status == _CipherStatus.PROCESSING_AUTH_DATA:
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self._pad_aad()
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if self._len_ct & 0x0F:
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self._authenticator.update(b'\x00' * (16 - (self._len_ct & 0x0F)))
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self._status = _CipherStatus.PROCESSING_DONE
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self._authenticator.update(long_to_bytes(self._len_aad, 8)[::-1])
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self._authenticator.update(long_to_bytes(self._len_ct, 8)[::-1])
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self._mac_tag = self._authenticator.digest()
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return self._mac_tag
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def digest(self):
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"""Compute the *binary* authentication tag (MAC).
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:Return: the MAC tag, as 16 ``bytes``.
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"""
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if self.digest not in self._next:
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raise TypeError("digest() method cannot be called")
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self._next = (self.digest,)
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return self._compute_mac()
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def hexdigest(self):
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"""Compute the *printable* authentication tag (MAC).
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This method is like :meth:`digest`.
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:Return: the MAC tag, as a hexadecimal string.
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"""
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return "".join(["%02x" % bord(x) for x in self.digest()])
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def verify(self, received_mac_tag):
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"""Validate the *binary* authentication tag (MAC).
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The receiver invokes this method at the very end, to
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check if the associated data (if any) and the decrypted
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messages are valid.
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:param bytes/bytearray/memoryview received_mac_tag:
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This is the 16-byte *binary* MAC, as received from the sender.
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:Raises ValueError:
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if the MAC does not match. The message has been tampered with
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or the key is incorrect.
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"""
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if self.verify not in self._next:
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raise TypeError("verify() cannot be called"
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" when encrypting a message")
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self._next = (self.verify,)
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secret = get_random_bytes(16)
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self._compute_mac()
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mac1 = BLAKE2s.new(digest_bits=160, key=secret,
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data=self._mac_tag)
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mac2 = BLAKE2s.new(digest_bits=160, key=secret,
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data=received_mac_tag)
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if mac1.digest() != mac2.digest():
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raise ValueError("MAC check failed")
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def hexverify(self, hex_mac_tag):
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"""Validate the *printable* authentication tag (MAC).
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This method is like :meth:`verify`.
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:param string hex_mac_tag:
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This is the *printable* MAC.
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:Raises ValueError:
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if the MAC does not match. The message has been tampered with
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or the key is incorrect.
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"""
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self.verify(unhexlify(hex_mac_tag))
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def encrypt_and_digest(self, plaintext):
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"""Perform :meth:`encrypt` and :meth:`digest` in one step.
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:param plaintext: The data to encrypt, of any size.
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:type plaintext: bytes/bytearray/memoryview
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:return: a tuple with two ``bytes`` objects:
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- the ciphertext, of equal length as the plaintext
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- the 16-byte MAC tag
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"""
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return self.encrypt(plaintext), self.digest()
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def decrypt_and_verify(self, ciphertext, received_mac_tag):
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"""Perform :meth:`decrypt` and :meth:`verify` in one step.
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:param ciphertext: The piece of data to decrypt.
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:type ciphertext: bytes/bytearray/memoryview
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:param bytes received_mac_tag:
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This is the 16-byte *binary* MAC, as received from the sender.
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:return: the decrypted data (as ``bytes``)
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:raises ValueError:
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if the MAC does not match. The message has been tampered with
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or the key is incorrect.
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"""
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plaintext = self.decrypt(ciphertext)
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self.verify(received_mac_tag)
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return plaintext
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def new(**kwargs):
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"""Create a new ChaCha20-Poly1305 or XChaCha20-Poly1305 AEAD cipher.
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:keyword key: The secret key to use. It must be 32 bytes long.
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:type key: byte string
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:keyword nonce:
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A value that must never be reused for any other encryption
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done with this key.
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For ChaCha20-Poly1305, it must be 8 or 12 bytes long.
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For XChaCha20-Poly1305, it must be 24 bytes long.
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If not provided, 12 ``bytes`` will be generated randomly
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(you can find them back in the ``nonce`` attribute).
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:type nonce: bytes, bytearray, memoryview
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:Return: a :class:`Crypto.Cipher.ChaCha20.ChaCha20Poly1305Cipher` object
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"""
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try:
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key = kwargs.pop("key")
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except KeyError as e:
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raise TypeError("Missing parameter %s" % e)
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self._len_ct += len(plaintext)
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if len(key) != 32:
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raise ValueError("Key must be 32 bytes long")
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nonce = kwargs.pop("nonce", None)
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if nonce is None:
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nonce = get_random_bytes(12)
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if len(nonce) in (8, 12):
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pass
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elif len(nonce) == 24:
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key = _HChaCha20(key, nonce[:16])
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nonce = b'\x00\x00\x00\x00' + nonce[16:]
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else:
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raise ValueError("Nonce must be 8, 12 or 24 bytes long")
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if not is_buffer(nonce):
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raise TypeError("nonce must be bytes, bytearray or memoryview")
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if kwargs:
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raise TypeError("Unknown parameters: " + str(kwargs))
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return ChaCha20Poly1305Cipher(key, nonce)
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# Size of a key (in bytes)
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key_size = 32
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