docs/hazmat/primitives/aead.rst - platform/external/python/cryptography - Git at Google

 .. hazmat::


 Authenticated encryption
 ========================

 .. module:: cryptography.hazmat.primitives.ciphers.aead

 Authenticated encryption with associated data (AEAD) are encryption schemes
 which provide both confidentiality and integrity for their ciphertext. They
 also support providing integrity for associated data which is not encrypted.

 .. class:: ChaCha20Poly1305(key)

     .. versionadded:: 2.0

     The ChaCha20Poly1305 construction is defined in :rfc:`7539` section 2.8.
     It is a stream cipher combined with a MAC that offers strong integrity
     guarantees.

     :param key: A 32-byte key. This **must** be kept secret.
     :type key: :term:`bytes-like`

     :raises cryptography.exceptions.UnsupportedAlgorithm: If the version of
         OpenSSL does not support ChaCha20Poly1305.

     .. doctest::

         >>> import os
         >>> from cryptography.hazmat.primitives.ciphers.aead import ChaCha20Poly1305
         >>> data = b"a secret message"
         >>> aad = b"authenticated but unencrypted data"
         >>> key = ChaCha20Poly1305.generate_key()
         >>> chacha = ChaCha20Poly1305(key)
         >>> nonce = os.urandom(12)
         >>> ct = chacha.encrypt(nonce, data, aad)
         >>> chacha.decrypt(nonce, ct, aad)
         b'a secret message'

     .. classmethod:: generate_key()

         Securely generates a random ChaCha20Poly1305 key.

         :returns bytes: A 32 byte key.

     .. method:: encrypt(nonce, data, associated_data)

         .. warning::

             Reuse of a ``nonce`` with a given ``key`` compromises the security
             of any message with that ``nonce`` and ``key`` pair.

         Encrypts the ``data`` provided and authenticates the
         ``associated_data``.  The output of this can be passed directly
         to the ``decrypt`` method.

         :param nonce: A 12 byte value. **NEVER REUSE A NONCE** with a key.
         :type nonce: :term:`bytes-like`
         :param bytes data: The data to encrypt.
         :param bytes associated_data: Additional data that should be
             authenticated with the key, but does not need to be encrypted. Can
             be ``None``.
         :returns bytes: The ciphertext bytes with the 16 byte tag appended.
         :raises OverflowError: If ``data`` or ``associated_data`` is larger
             than 2\ :sup:`32` bytes.

     .. method:: decrypt(nonce, data, associated_data)

         Decrypts the ``data`` and authenticates the ``associated_data``. If you
         called encrypt with ``associated_data`` you must pass the same
         ``associated_data`` in decrypt or the integrity check will fail.

         :param nonce: A 12 byte value. **NEVER REUSE A NONCE** with a
             key.
         :type nonce: :term:`bytes-like`
         :param bytes data: The data to decrypt (with tag appended).
         :param bytes associated_data: Additional data to authenticate. Can be
             ``None`` if none was passed during encryption.
         :returns bytes: The original plaintext.
         :raises cryptography.exceptions.InvalidTag: If the authentication tag
             doesn't validate this exception will be raised. This will occur
             when the ciphertext has been changed, but will also occur when the
             key, nonce, or associated data are wrong.

 .. class:: AESGCM(key)

     .. versionadded:: 2.0

     The AES-GCM construction is composed of the
     :class:`~cryptography.hazmat.primitives.ciphers.algorithms.AES` block
     cipher utilizing Galois Counter Mode (GCM).

     :param key: A 128, 192, or 256-bit key. This **must** be kept secret.
     :type key: :term:`bytes-like`

     .. doctest::

         >>> import os
         >>> from cryptography.hazmat.primitives.ciphers.aead import AESGCM
         >>> data = b"a secret message"
         >>> aad = b"authenticated but unencrypted data"
         >>> key = AESGCM.generate_key(bit_length=128)
         >>> aesgcm = AESGCM(key)
         >>> nonce = os.urandom(12)
         >>> ct = aesgcm.encrypt(nonce, data, aad)
         >>> aesgcm.decrypt(nonce, ct, aad)
         b'a secret message'

     .. classmethod:: generate_key(bit_length)

         Securely generates a random AES-GCM key.

         :param bit_length: The bit length of the key to generate. Must be
             128, 192, or 256.

         :returns bytes: The generated key.

     .. method:: encrypt(nonce, data, associated_data)

         .. warning::

             Reuse of a ``nonce`` with a given ``key`` compromises the security
             of any message with that ``nonce`` and ``key`` pair.

         Encrypts and authenticates the ``data`` provided as well as
         authenticating the ``associated_data``.  The output of this can be
         passed directly to the ``decrypt`` method.

         :param nonce: NIST `recommends a 96-bit IV length`_ for best
             performance but it can be up to 2\ :sup:`64` - 1 :term:`bits`.
             **NEVER REUSE A NONCE** with a key.
         :type nonce: :term:`bytes-like`
         :param bytes data: The data to encrypt.
         :param bytes associated_data: Additional data that should be
             authenticated with the key, but is not encrypted. Can be ``None``.
         :returns bytes: The ciphertext bytes with the 16 byte tag appended.
         :raises OverflowError: If ``data`` or ``associated_data`` is larger
             than 2\ :sup:`32` bytes.

     .. method:: decrypt(nonce, data, associated_data)

         Decrypts the ``data`` and authenticates the ``associated_data``. If you
         called encrypt with ``associated_data`` you must pass the same
         ``associated_data`` in decrypt or the integrity check will fail.

         :param nonce: NIST `recommends a 96-bit IV length`_ for best
             performance but it can be up to 2\ :sup:`64` - 1 :term:`bits`.
             **NEVER REUSE A NONCE** with a key.
         :type nonce: :term:`bytes-like`
         :param bytes data: The data to decrypt (with tag appended).
         :param bytes associated_data: Additional data to authenticate. Can be
             ``None`` if none was passed during encryption.
         :returns bytes: The original plaintext.
         :raises cryptography.exceptions.InvalidTag: If the authentication tag
             doesn't validate this exception will be raised. This will occur
             when the ciphertext has been changed, but will also occur when the
             key, nonce, or associated data are wrong.

 .. class:: AESCCM(key, tag_length=16)

     .. versionadded:: 2.0

     .. note:

         AES-CCM is provided largely for compatibility with existing protocols.
         Due to its construction it is not as computationally efficient as
         other AEAD ciphers.

     The AES-CCM construction is composed of the
     :class:`~cryptography.hazmat.primitives.ciphers.algorithms.AES` block
     cipher utilizing Counter with CBC-MAC (CCM) (specified in :rfc:`3610`).

     :param key: A 128, 192, or 256-bit key. This **must** be kept secret.
     :type key: :term:`bytes-like`
     :param int tag_length: The length of the authentication tag. This
         defaults to 16 bytes and it is **strongly** recommended that you
         do not make it shorter unless absolutely necessary. Valid tag
         lengths are 4, 6, 8, 10, 12, 14, and 16.

     :raises cryptography.exceptions.UnsupportedAlgorithm: If the version of
         OpenSSL does not support AES-CCM.

     .. doctest::

         >>> import os
         >>> from cryptography.hazmat.primitives.ciphers.aead import AESCCM
         >>> data = b"a secret message"
         >>> aad = b"authenticated but unencrypted data"
         >>> key = AESCCM.generate_key(bit_length=128)
         >>> aesccm = AESCCM(key)
         >>> nonce = os.urandom(13)
         >>> ct = aesccm.encrypt(nonce, data, aad)
         >>> aesccm.decrypt(nonce, ct, aad)
         b'a secret message'

     .. classmethod:: generate_key(bit_length)

         Securely generates a random AES-CCM key.

         :param bit_length: The bit length of the key to generate. Must be
             128, 192, or 256.

         :returns bytes: The generated key.

     .. method:: encrypt(nonce, data, associated_data)

         .. warning::

             Reuse of a ``nonce`` with a given ``key`` compromises the security
             of any message with that ``nonce`` and ``key`` pair.

         Encrypts and authenticates the ``data`` provided as well as
         authenticating the ``associated_data``.  The output of this can be
         passed directly to the ``decrypt`` method.

         :param nonce: A value of between 7 and 13 bytes. The maximum
             length is determined by the length of the ciphertext you are
             encrypting and must satisfy the condition:
             ``len(data) < 2 ** (8 * (15 - len(nonce)))``
             **NEVER REUSE A NONCE** with a key.
         :type nonce: :term:`bytes-like`
         :param bytes data: The data to encrypt.
         :param bytes associated_data: Additional data that should be
             authenticated with the key, but is not encrypted. Can be ``None``.
         :returns bytes: The ciphertext bytes with the tag appended.
         :raises OverflowError: If ``data`` or ``associated_data`` is larger
             than 2\ :sup:`32` bytes.

     .. method:: decrypt(nonce, data, associated_data)

         Decrypts the ``data`` and authenticates the ``associated_data``. If you
         called encrypt with ``associated_data`` you must pass the same
         ``associated_data`` in decrypt or the integrity check will fail.

         :param nonce: A value of between 7 and 13 bytes. This
             is the same value used when you originally called encrypt.
             **NEVER REUSE A NONCE** with a key.
         :type nonce: :term:`bytes-like`
         :param bytes data: The data to decrypt (with tag appended).
         :param bytes associated_data: Additional data to authenticate. Can be
             ``None`` if none was passed during encryption.
         :returns bytes: The original plaintext.
         :raises cryptography.exceptions.InvalidTag: If the authentication tag
             doesn't validate this exception will be raised. This will occur
             when the ciphertext has been changed, but will also occur when the
             key, nonce, or associated data are wrong.

 .. _`recommends a 96-bit IV length`: https://csrc.nist.gov/publications/detail/sp/800-38d/final
	.. hazmat::


	Authenticated encryption
	========================

	.. module:: cryptography.hazmat.primitives.ciphers.aead

	Authenticated encryption with associated data (AEAD) are encryption schemes
	which provide both confidentiality and integrity for their ciphertext. They
	also support providing integrity for associated data which is not encrypted.

	.. class:: ChaCha20Poly1305(key)

	.. versionadded:: 2.0

	The ChaCha20Poly1305 construction is defined in :rfc:`7539` section 2.8.
	It is a stream cipher combined with a MAC that offers strong integrity
	guarantees.

	:param key: A 32-byte key. This must be kept secret.
	:type key: :term:`bytes-like`

	:raises cryptography.exceptions.UnsupportedAlgorithm: If the version of
	OpenSSL does not support ChaCha20Poly1305.

	.. doctest::

	>>> import os
	>>> from cryptography.hazmat.primitives.ciphers.aead import ChaCha20Poly1305
	>>> data = b"a secret message"
	>>> aad = b"authenticated but unencrypted data"
	>>> key = ChaCha20Poly1305.generate_key()
	>>> chacha = ChaCha20Poly1305(key)
	>>> nonce = os.urandom(12)
	>>> ct = chacha.encrypt(nonce, data, aad)
	>>> chacha.decrypt(nonce, ct, aad)
	b'a secret message'

	.. classmethod:: generate_key()

	Securely generates a random ChaCha20Poly1305 key.

	:returns bytes: A 32 byte key.

	.. method:: encrypt(nonce, data, associated_data)

	.. warning::

	Reuse of a ``nonce`` with a given ``key`` compromises the security
	of any message with that ``nonce`` and ``key`` pair.

	Encrypts the ``data`` provided and authenticates the
	``associated_data``. The output of this can be passed directly
	to the ``decrypt`` method.

	:param nonce: A 12 byte value. NEVER REUSE A NONCE with a key.
	:type nonce: :term:`bytes-like`
	:param bytes data: The data to encrypt.
	:param bytes associated_data: Additional data that should be
	authenticated with the key, but does not need to be encrypted. Can
	be ``None``.
	:returns bytes: The ciphertext bytes with the 16 byte tag appended.
	:raises OverflowError: If ``data`` or ``associated_data`` is larger
	than 2\ :sup:`32` bytes.

	.. method:: decrypt(nonce, data, associated_data)

	Decrypts the ``data`` and authenticates the ``associated_data``. If you
	called encrypt with ``associated_data`` you must pass the same
	``associated_data`` in decrypt or the integrity check will fail.

	:param nonce: A 12 byte value. NEVER REUSE A NONCE with a
	key.
	:type nonce: :term:`bytes-like`
	:param bytes data: The data to decrypt (with tag appended).
	:param bytes associated_data: Additional data to authenticate. Can be
	``None`` if none was passed during encryption.
	:returns bytes: The original plaintext.
	:raises cryptography.exceptions.InvalidTag: If the authentication tag
	doesn't validate this exception will be raised. This will occur
	when the ciphertext has been changed, but will also occur when the
	key, nonce, or associated data are wrong.

	.. class:: AESGCM(key)

	.. versionadded:: 2.0

	The AES-GCM construction is composed of the
	:class:`~cryptography.hazmat.primitives.ciphers.algorithms.AES` block
	cipher utilizing Galois Counter Mode (GCM).

	:param key: A 128, 192, or 256-bit key. This must be kept secret.
	:type key: :term:`bytes-like`

	.. doctest::

	>>> import os
	>>> from cryptography.hazmat.primitives.ciphers.aead import AESGCM
	>>> data = b"a secret message"
	>>> aad = b"authenticated but unencrypted data"
	>>> key = AESGCM.generate_key(bit_length=128)
	>>> aesgcm = AESGCM(key)
	>>> nonce = os.urandom(12)
	>>> ct = aesgcm.encrypt(nonce, data, aad)
	>>> aesgcm.decrypt(nonce, ct, aad)
	b'a secret message'

	.. classmethod:: generate_key(bit_length)

	Securely generates a random AES-GCM key.

	:param bit_length: The bit length of the key to generate. Must be
	128, 192, or 256.

	:returns bytes: The generated key.

	.. method:: encrypt(nonce, data, associated_data)

	.. warning::

	Reuse of a ``nonce`` with a given ``key`` compromises the security
	of any message with that ``nonce`` and ``key`` pair.

	Encrypts and authenticates the ``data`` provided as well as
	authenticating the ``associated_data``. The output of this can be
	passed directly to the ``decrypt`` method.

	:param nonce: NIST `recommends a 96-bit IV length`_ for best
	performance but it can be up to 2\ :sup:`64` - 1 :term:`bits`.
	NEVER REUSE A NONCE with a key.
	:type nonce: :term:`bytes-like`
	:param bytes data: The data to encrypt.
	:param bytes associated_data: Additional data that should be
	authenticated with the key, but is not encrypted. Can be ``None``.
	:returns bytes: The ciphertext bytes with the 16 byte tag appended.
	:raises OverflowError: If ``data`` or ``associated_data`` is larger
	than 2\ :sup:`32` bytes.

	.. method:: decrypt(nonce, data, associated_data)

	Decrypts the ``data`` and authenticates the ``associated_data``. If you
	called encrypt with ``associated_data`` you must pass the same
	``associated_data`` in decrypt or the integrity check will fail.

	:param nonce: NIST `recommends a 96-bit IV length`_ for best
	performance but it can be up to 2\ :sup:`64` - 1 :term:`bits`.
	NEVER REUSE A NONCE with a key.
	:type nonce: :term:`bytes-like`
	:param bytes data: The data to decrypt (with tag appended).
	:param bytes associated_data: Additional data to authenticate. Can be
	``None`` if none was passed during encryption.
	:returns bytes: The original plaintext.
	:raises cryptography.exceptions.InvalidTag: If the authentication tag
	doesn't validate this exception will be raised. This will occur
	when the ciphertext has been changed, but will also occur when the
	key, nonce, or associated data are wrong.

	.. class:: AESCCM(key, tag_length=16)

	.. versionadded:: 2.0

	.. note:

	AES-CCM is provided largely for compatibility with existing protocols.
	Due to its construction it is not as computationally efficient as
	other AEAD ciphers.

	The AES-CCM construction is composed of the
	:class:`~cryptography.hazmat.primitives.ciphers.algorithms.AES` block
	cipher utilizing Counter with CBC-MAC (CCM) (specified in :rfc:`3610`).

	:param key: A 128, 192, or 256-bit key. This must be kept secret.
	:type key: :term:`bytes-like`
	:param int tag_length: The length of the authentication tag. This
	defaults to 16 bytes and it is strongly recommended that you
	do not make it shorter unless absolutely necessary. Valid tag
	lengths are 4, 6, 8, 10, 12, 14, and 16.

	:raises cryptography.exceptions.UnsupportedAlgorithm: If the version of
	OpenSSL does not support AES-CCM.

	.. doctest::

	>>> import os
	>>> from cryptography.hazmat.primitives.ciphers.aead import AESCCM
	>>> data = b"a secret message"
	>>> aad = b"authenticated but unencrypted data"
	>>> key = AESCCM.generate_key(bit_length=128)
	>>> aesccm = AESCCM(key)
	>>> nonce = os.urandom(13)
	>>> ct = aesccm.encrypt(nonce, data, aad)
	>>> aesccm.decrypt(nonce, ct, aad)
	b'a secret message'

	.. classmethod:: generate_key(bit_length)

	Securely generates a random AES-CCM key.

	:param bit_length: The bit length of the key to generate. Must be
	128, 192, or 256.

	:returns bytes: The generated key.

	.. method:: encrypt(nonce, data, associated_data)

	.. warning::

	Reuse of a ``nonce`` with a given ``key`` compromises the security
	of any message with that ``nonce`` and ``key`` pair.

	Encrypts and authenticates the ``data`` provided as well as
	authenticating the ``associated_data``. The output of this can be
	passed directly to the ``decrypt`` method.

	:param nonce: A value of between 7 and 13 bytes. The maximum
	length is determined by the length of the ciphertext you are
	encrypting and must satisfy the condition:
	``len(data) < 2 ** (8 * (15 - len(nonce)))``
	NEVER REUSE A NONCE with a key.
	:type nonce: :term:`bytes-like`
	:param bytes data: The data to encrypt.
	:param bytes associated_data: Additional data that should be
	authenticated with the key, but is not encrypted. Can be ``None``.
	:returns bytes: The ciphertext bytes with the tag appended.
	:raises OverflowError: If ``data`` or ``associated_data`` is larger
	than 2\ :sup:`32` bytes.

	.. method:: decrypt(nonce, data, associated_data)

	Decrypts the ``data`` and authenticates the ``associated_data``. If you
	called encrypt with ``associated_data`` you must pass the same
	``associated_data`` in decrypt or the integrity check will fail.

	:param nonce: A value of between 7 and 13 bytes. This
	is the same value used when you originally called encrypt.
	NEVER REUSE A NONCE with a key.
	:type nonce: :term:`bytes-like`
	:param bytes data: The data to decrypt (with tag appended).
	:param bytes associated_data: Additional data to authenticate. Can be
	``None`` if none was passed during encryption.
	:returns bytes: The original plaintext.
	:raises cryptography.exceptions.InvalidTag: If the authentication tag
	doesn't validate this exception will be raised. This will occur
	when the ciphertext has been changed, but will also occur when the
	key, nonce, or associated data are wrong.

	.. _`recommends a 96-bit IV length`: https://csrc.nist.gov/publications/detail/sp/800-38d/final