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Source code for galaxy.security.passwords
import hashlib
from base64 import b64encode
from os import urandom
from galaxy.util import (
safe_str_cmp,
smart_str,
unicodify
)
SALT_LENGTH = 12
KEY_LENGTH = 24
HASH_FUNCTION = 'sha256'
COST_FACTOR = 100000
[docs]def hash_password(password):
"""
Hash a password, currently will use the PBKDF2 scheme.
"""
if password is None:
raise Exception("password cannot be None")
return hash_password_PBKDF2(password)
[docs]def check_password(guess, hashed):
"""
Check a hashed password. Supports either PBKDF2 if the hash is
prefixed with that string, or sha1 otherwise.
"""
if hashed.startswith("PBKDF2"):
if check_password_PBKDF2(guess, hashed):
return True
else:
# Passwords were originally encoded with sha1 and hexed
if safe_str_cmp(hashlib.sha1(smart_str(guess)).hexdigest(), hashed):
return True
# Password does not match
return False
[docs]def hash_password_PBKDF2(password):
# Generate a random salt
salt = b64encode(urandom(SALT_LENGTH))
# Apply the pbkdf2 encoding
hashed_password = pbkdf2_bin(password, salt, COST_FACTOR, KEY_LENGTH, HASH_FUNCTION)
encoded_password = unicodify(b64encode(hashed_password))
# Format
return f'PBKDF2${HASH_FUNCTION}${COST_FACTOR}${unicodify(salt)}${encoded_password}'
[docs]def check_password_PBKDF2(guess, hashed):
# Split the database representation to extract cost_factor and salt
name, hash_function, cost_factor, salt, encoded_original = hashed.split('$', 5)
# Hash the guess using the same parameters
hashed_guess = pbkdf2_bin(guess, salt, int(cost_factor), KEY_LENGTH, hash_function)
encoded_guess = unicodify(b64encode(hashed_guess))
return safe_str_cmp(encoded_original, encoded_guess)
[docs]def pbkdf2_bin(data, salt, iterations=COST_FACTOR, keylen=KEY_LENGTH, hashfunc=HASH_FUNCTION):
"""Returns a binary digest for the PBKDF2 hash algorithm of `data`
with the given `salt`. It iterates `iterations` time and produces a
key of `keylen` bytes. By default SHA-256 is used as hash function,
a different hashlib `hashfunc` can be provided.
"""
data = smart_str(data)
salt = smart_str(salt)
return hashlib.pbkdf2_hmac(hashfunc, data, salt, iterations, keylen)