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Vehicle-Anti-Theft-Face-Rec.../venv/Lib/site-packages/argon2/_password_hasher.py

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from __future__ import absolute_import, division, print_function
import os
from ._utils import Parameters, _check_types, extract_parameters
from .exceptions import InvalidHash
from .low_level import Type, hash_secret, verify_secret
DEFAULT_RANDOM_SALT_LENGTH = 16
DEFAULT_HASH_LENGTH = 16
DEFAULT_TIME_COST = 2
DEFAULT_MEMORY_COST = 102400
DEFAULT_PARALLELISM = 8
def _ensure_bytes(s, encoding):
"""
Ensure *s* is a bytes string. Encode using *encoding* if it isn't.
"""
if isinstance(s, bytes):
return s
return s.encode(encoding)
class PasswordHasher(object):
r"""
High level class to hash passwords with sensible defaults.
Uses Argon2\ **id** by default and always uses a random salt_ for hashing.
But it can verify any type of Argon2 as long as the hash is correctly
encoded.
The reason for this being a class is both for convenience to carry
parameters and to verify the parameters only *once*. Any unnecessary
slowdown when hashing is a tangible advantage for a brute force attacker.
:param int time_cost: Defines the amount of computation realized and
therefore the execution time, given in number of iterations.
:param int memory_cost: Defines the memory usage, given in kibibytes_.
:param int parallelism: Defines the number of parallel threads (*changes*
the resulting hash value).
:param int hash_len: Length of the hash in bytes.
:param int salt_len: Length of random salt to be generated for each
password.
:param str encoding: The Argon2 C library expects bytes. So if
:meth:`hash` or :meth:`verify` are passed an unicode string, it will be
encoded using this encoding.
:param Type type: Argon2 type to use. Only change for interoperability
with legacy systems.
.. versionadded:: 16.0.0
.. versionchanged:: 18.2.0
Switch from Argon2i to Argon2id based on the recommendation by the
current RFC_ draft.
.. versionchanged:: 18.2.0
Changed default *memory_cost* to 100 MiB and default *parallelism* to 8.
.. versionchanged:: 18.2.0 ``verify`` now will determine the type of hash.
.. versionchanged:: 18.3.0 The Argon2 type is configurable now.
.. _salt: https://en.wikipedia.org/wiki/Salt_(cryptography)
.. _kibibytes: https://en.wikipedia.org/wiki/Binary_prefix#kibi
.. _RFC: https://tools.ietf.org/html/draft-irtf-cfrg-argon2-04#section-4
"""
__slots__ = ["_parameters", "encoding"]
def __init__(
self,
time_cost=DEFAULT_TIME_COST,
memory_cost=DEFAULT_MEMORY_COST,
parallelism=DEFAULT_PARALLELISM,
hash_len=DEFAULT_HASH_LENGTH,
salt_len=DEFAULT_RANDOM_SALT_LENGTH,
encoding="utf-8",
type=Type.ID,
):
e = _check_types(
time_cost=(time_cost, int),
memory_cost=(memory_cost, int),
parallelism=(parallelism, int),
hash_len=(hash_len, int),
salt_len=(salt_len, int),
encoding=(encoding, str),
type=(type, Type),
)
if e:
raise TypeError(e)
# Cache a Parameters object for check_needs_rehash.
self._parameters = Parameters(
type=type,
version=19,
salt_len=salt_len,
hash_len=hash_len,
time_cost=time_cost,
memory_cost=memory_cost,
parallelism=parallelism,
)
self.encoding = encoding
@property
def time_cost(self):
return self._parameters.time_cost
@property
def memory_cost(self):
return self._parameters.memory_cost
@property
def parallelism(self):
return self._parameters.parallelism
@property
def hash_len(self):
return self._parameters.hash_len
@property
def salt_len(self):
return self._parameters.salt_len
@property
def type(self):
return self._parameters.type
def hash(self, password):
"""
Hash *password* and return an encoded hash.
:param password: Password to hash.
:type password: ``bytes`` or ``unicode``
:raises argon2.exceptions.HashingError: If hashing fails.
:rtype: unicode
"""
return hash_secret(
secret=_ensure_bytes(password, self.encoding),
salt=os.urandom(self.salt_len),
time_cost=self.time_cost,
memory_cost=self.memory_cost,
parallelism=self.parallelism,
hash_len=self.hash_len,
type=self.type,
).decode("ascii")
_header_to_type = {
b"$argon2i$": Type.I,
b"$argon2d$": Type.D,
b"$argon2id": Type.ID,
}
def verify(self, hash, password):
"""
Verify that *password* matches *hash*.
.. warning::
It is assumed that the caller is in full control of the hash. No
other parsing than the determination of the hash type is done by
``argon2-cffi``.
:param hash: An encoded hash as returned from
:meth:`PasswordHasher.hash`.
:type hash: ``bytes`` or ``unicode``
:param password: The password to verify.
:type password: ``bytes`` or ``unicode``
:raises argon2.exceptions.VerifyMismatchError: If verification fails
because *hash* is not valid for *password*.
:raises argon2.exceptions.VerificationError: If verification fails for
other reasons.
:raises argon2.exceptions.InvalidHash: If *hash* is so clearly
invalid, that it couldn't be passed to Argon2.
:return: ``True`` on success, raise
:exc:`~argon2.exceptions.VerificationError` otherwise.
:rtype: bool
.. versionchanged:: 16.1.0
Raise :exc:`~argon2.exceptions.VerifyMismatchError` on mismatches
instead of its more generic superclass.
.. versionadded:: 18.2.0 Hash type agility.
"""
hash = _ensure_bytes(hash, "ascii")
try:
hash_type = self._header_to_type[hash[:9]]
except (IndexError, KeyError, LookupError):
raise InvalidHash()
return verify_secret(
hash, _ensure_bytes(password, self.encoding), hash_type
)
def check_needs_rehash(self, hash):
"""
Check whether *hash* was created using the instance's parameters.
Whenever your Argon2 parameters -- or ``argon2-cffi``'s defaults! --
change, you should rehash your passwords at the next opportunity. The
common approach is to do that whenever a user logs in, since that
should be the only time when you have access to the cleartext
password.
Therefore it's best practice to check -- and if necessary rehash --
passwords after each successful authentication.
:rtype: bool
.. versionadded:: 18.2.0
"""
return self._parameters != extract_parameters(hash)
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