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76 lines
2.6 KiB
76 lines
2.6 KiB
"""
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Django's standard crypto functions and utilities.
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"""
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import hashlib
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import hmac
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import secrets
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from django.conf import settings
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from django.utils.encoding import force_bytes
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class InvalidAlgorithm(ValueError):
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"""Algorithm is not supported by hashlib."""
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pass
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def salted_hmac(key_salt, value, secret=None, *, algorithm="sha1"):
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"""
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Return the HMAC of 'value', using a key generated from key_salt and a
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secret (which defaults to settings.SECRET_KEY). Default algorithm is SHA1,
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but any algorithm name supported by hashlib can be passed.
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A different key_salt should be passed in for every application of HMAC.
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"""
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if secret is None:
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secret = settings.SECRET_KEY
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key_salt = force_bytes(key_salt)
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secret = force_bytes(secret)
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try:
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hasher = getattr(hashlib, algorithm)
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except AttributeError as e:
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raise InvalidAlgorithm(
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"%r is not an algorithm accepted by the hashlib module." % algorithm
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) from e
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# We need to generate a derived key from our base key. We can do this by
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# passing the key_salt and our base key through a pseudo-random function.
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key = hasher(key_salt + secret).digest()
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# If len(key_salt + secret) > block size of the hash algorithm, the above
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# line is redundant and could be replaced by key = key_salt + secret, since
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# the hmac module does the same thing for keys longer than the block size.
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# However, we need to ensure that we *always* do this.
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return hmac.new(key, msg=force_bytes(value), digestmod=hasher)
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RANDOM_STRING_CHARS = "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789"
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def get_random_string(length, allowed_chars=RANDOM_STRING_CHARS):
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"""
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Return a securely generated random string.
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The bit length of the returned value can be calculated with the formula:
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log_2(len(allowed_chars)^length)
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For example, with default `allowed_chars` (26+26+10), this gives:
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* length: 12, bit length =~ 71 bits
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* length: 22, bit length =~ 131 bits
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"""
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return "".join(secrets.choice(allowed_chars) for i in range(length))
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def constant_time_compare(val1, val2):
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"""Return True if the two strings are equal, False otherwise."""
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return secrets.compare_digest(force_bytes(val1), force_bytes(val2))
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def pbkdf2(password, salt, iterations, dklen=0, digest=None):
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"""Return the hash of password using pbkdf2."""
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if digest is None:
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digest = hashlib.sha256
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dklen = dklen or None
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password = force_bytes(password)
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salt = force_bytes(salt)
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return hashlib.pbkdf2_hmac(digest().name, password, salt, iterations, dklen)
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