from __future__ import unicode_literals import base64 import hashlib from django.dispatch import receiver from django.conf import settings from django.test.signals import setting_changed from django.utils import importlib from django.utils.datastructures import SortedDict from django.utils.encoding import force_bytes from django.core.exceptions import ImproperlyConfigured from django.utils.crypto import ( pbkdf2, constant_time_compare, get_random_string) from django.utils.translation import ugettext_noop as _ UNUSABLE_PASSWORD = '!' # This will never be a valid encoded hash HASHERS = None # lazily loaded from PASSWORD_HASHERS PREFERRED_HASHER = None # defaults to first item in PASSWORD_HASHERS @receiver(setting_changed) def reset_hashers(**kwargs): if kwargs['setting'] == 'PASSWORD_HASHERS': global HASHERS, PREFERRED_HASHER HASHERS = None PREFERRED_HASHER = None def is_password_usable(encoded): if encoded is None or encoded == UNUSABLE_PASSWORD: return False try: hasher = identify_hasher(encoded) except ValueError: return False return True def check_password(password, encoded, setter=None, preferred='default'): """ Returns a boolean of whether the raw password matches the three part encoded digest. If setter is specified, it'll be called when you need to regenerate the password. """ if not password or not is_password_usable(encoded): return False preferred = get_hasher(preferred) hasher = identify_hasher(encoded) must_update = hasher.algorithm != preferred.algorithm is_correct = hasher.verify(password, encoded) if setter and is_correct and must_update: setter(password) return is_correct def make_password(password, salt=None, hasher='default'): """ Turn a plain-text password into a hash for database storage Same as encode() but generates a new random salt. If password is None or blank then UNUSABLE_PASSWORD will be returned which disallows logins. """ if not password: return UNUSABLE_PASSWORD hasher = get_hasher(hasher) if not salt: salt = hasher.salt() return hasher.encode(password, salt) def load_hashers(password_hashers=None): global HASHERS global PREFERRED_HASHER hashers = [] if not password_hashers: password_hashers = settings.PASSWORD_HASHERS for backend in password_hashers: try: mod_path, cls_name = backend.rsplit('.', 1) mod = importlib.import_module(mod_path) hasher_cls = getattr(mod, cls_name) except (AttributeError, ImportError, ValueError): raise ImproperlyConfigured("hasher not found: %s" % backend) hasher = hasher_cls() if not getattr(hasher, 'algorithm'): raise ImproperlyConfigured("hasher doesn't specify an " "algorithm name: %s" % backend) hashers.append(hasher) HASHERS = dict([(hasher.algorithm, hasher) for hasher in hashers]) PREFERRED_HASHER = hashers[0] def get_hasher(algorithm='default'): """ Returns an instance of a loaded password hasher. If algorithm is 'default', the default hasher will be returned. This function will also lazy import hashers specified in your settings file if needed. """ if hasattr(algorithm, 'algorithm'): return algorithm elif algorithm == 'default': if PREFERRED_HASHER is None: load_hashers() return PREFERRED_HASHER else: if HASHERS is None: load_hashers() if algorithm not in HASHERS: raise ValueError("Unknown password hashing algorithm '%s'. " "Did you specify it in the PASSWORD_HASHERS " "setting?" % algorithm) return HASHERS[algorithm] def identify_hasher(encoded): """ Returns an instance of a loaded password hasher. Identifies hasher algorithm by examining encoded hash, and calls get_hasher() to return hasher. Raises ValueError if algorithm cannot be identified, or if hasher is not loaded. """ if len(encoded) == 32 and '$' not in encoded: algorithm = 'unsalted_md5' else: algorithm = encoded.split('$', 1)[0] return get_hasher(algorithm) def mask_hash(hash, show=6, char="*"): """ Returns the given hash, with only the first ``show`` number shown. The rest are masked with ``char`` for security reasons. """ masked = hash[:show] masked += char * len(hash[show:]) return masked class BasePasswordHasher(object): """ Abstract base class for password hashers When creating your own hasher, you need to override algorithm, verify(), encode() and safe_summary(). PasswordHasher objects are immutable. """ algorithm = None library = None def _load_library(self): if self.library is not None: if isinstance(self.library, (tuple, list)): name, mod_path = self.library else: name = mod_path = self.library try: module = importlib.import_module(mod_path) except ImportError: raise ValueError("Couldn't load %s password algorithm " "library" % name) return module raise ValueError("Hasher '%s' doesn't specify a library attribute" % self.__class__) def salt(self): """ Generates a cryptographically secure nonce salt in ascii """ return get_random_string() def verify(self, password, encoded): """ Checks if the given password is correct """ raise NotImplementedError() def encode(self, password, salt): """ Creates an encoded database value The result is normally formatted as "algorithm$salt$hash" and must be fewer than 128 characters. """ raise NotImplementedError() def safe_summary(self, encoded): """ Returns a summary of safe values The result is a dictionary and will be used where the password field must be displayed to construct a safe representation of the password. """ raise NotImplementedError() class PBKDF2PasswordHasher(BasePasswordHasher): """ Secure password hashing using the PBKDF2 algorithm (recommended) Configured to use PBKDF2 + HMAC + SHA256 with 10000 iterations. The result is a 64 byte binary string. Iterations may be changed safely but you must rename the algorithm if you change SHA256. """ algorithm = "pbkdf2_sha256" iterations = 10000 digest = hashlib.sha256 def encode(self, password, salt, iterations=None): assert password assert salt and '$' not in salt if not iterations: iterations = self.iterations hash = pbkdf2(password, salt, iterations, digest=self.digest) hash = base64.b64encode(hash).decode('ascii').strip() return "%s$%d$%s$%s" % (self.algorithm, iterations, salt, hash) def verify(self, password, encoded): algorithm, iterations, salt, hash = encoded.split('$', 3) assert algorithm == self.algorithm encoded_2 = self.encode(password, salt, int(iterations)) return constant_time_compare(encoded, encoded_2) def safe_summary(self, encoded): algorithm, iterations, salt, hash = encoded.split('$', 3) assert algorithm == self.algorithm return SortedDict([ (_('algorithm'), algorithm), (_('iterations'), iterations), (_('salt'), mask_hash(salt)), (_('hash'), mask_hash(hash)), ]) class PBKDF2SHA1PasswordHasher(PBKDF2PasswordHasher): """ Alternate PBKDF2 hasher which uses SHA1, the default PRF recommended by PKCS #5. This is compatible with other implementations of PBKDF2, such as openssl's PKCS5_PBKDF2_HMAC_SHA1(). """ algorithm = "pbkdf2_sha1" digest = hashlib.sha1 class BCryptPasswordHasher(BasePasswordHasher): """ Secure password hashing using the bcrypt algorithm (recommended) This is considered by many to be the most secure algorithm but you must first install the py-bcrypt library. Please be warned that this library depends on native C code and might cause portability issues. """ algorithm = "bcrypt" library = ("py-bcrypt", "bcrypt") rounds = 12 def salt(self): bcrypt = self._load_library() return bcrypt.gensalt(self.rounds) def encode(self, password, salt): bcrypt = self._load_library() data = bcrypt.hashpw(password, salt) return "%s$%s" % (self.algorithm, data) def verify(self, password, encoded): algorithm, data = encoded.split('$', 1) assert algorithm == self.algorithm bcrypt = self._load_library() return constant_time_compare(data, bcrypt.hashpw(password, data)) def safe_summary(self, encoded): algorithm, empty, algostr, work_factor, data = encoded.split('$', 4) assert algorithm == self.algorithm salt, checksum = data[:22], data[22:] return SortedDict([ (_('algorithm'), algorithm), (_('work factor'), work_factor), (_('salt'), mask_hash(salt)), (_('checksum'), mask_hash(checksum)), ]) class SHA1PasswordHasher(BasePasswordHasher): """ The SHA1 password hashing algorithm (not recommended) """ algorithm = "sha1" def encode(self, password, salt): assert password assert salt and '$' not in salt hash = hashlib.sha1(force_bytes(salt + password)).hexdigest() return "%s$%s$%s" % (self.algorithm, salt, hash) def verify(self, password, encoded): algorithm, salt, hash = encoded.split('$', 2) assert algorithm == self.algorithm encoded_2 = self.encode(password, salt) return constant_time_compare(encoded, encoded_2) def safe_summary(self, encoded): algorithm, salt, hash = encoded.split('$', 2) assert algorithm == self.algorithm return SortedDict([ (_('algorithm'), algorithm), (_('salt'), mask_hash(salt, show=2)), (_('hash'), mask_hash(hash)), ]) class MD5PasswordHasher(BasePasswordHasher): """ The Salted MD5 password hashing algorithm (not recommended) """ algorithm = "md5" def encode(self, password, salt): assert password assert salt and '$' not in salt hash = hashlib.md5(force_bytes(salt + password)).hexdigest() return "%s$%s$%s" % (self.algorithm, salt, hash) def verify(self, password, encoded): algorithm, salt, hash = encoded.split('$', 2) assert algorithm == self.algorithm encoded_2 = self.encode(password, salt) return constant_time_compare(encoded, encoded_2) def safe_summary(self, encoded): algorithm, salt, hash = encoded.split('$', 2) assert algorithm == self.algorithm return SortedDict([ (_('algorithm'), algorithm), (_('salt'), mask_hash(salt, show=2)), (_('hash'), mask_hash(hash)), ]) class UnsaltedMD5PasswordHasher(BasePasswordHasher): """ I am an incredibly insecure algorithm you should *never* use; stores unsalted MD5 hashes without the algorithm prefix. This class is implemented because Django used to store passwords this way. Some older Django installs still have these values lingering around so we need to handle and upgrade them properly. """ algorithm = "unsalted_md5" def salt(self): return '' def encode(self, password, salt): return hashlib.md5(force_bytes(password)).hexdigest() def verify(self, password, encoded): encoded_2 = self.encode(password, '') return constant_time_compare(encoded, encoded_2) def safe_summary(self, encoded): return SortedDict([ (_('algorithm'), self.algorithm), (_('hash'), mask_hash(encoded, show=3)), ]) class CryptPasswordHasher(BasePasswordHasher): """ Password hashing using UNIX crypt (not recommended) The crypt module is not supported on all platforms. """ algorithm = "crypt" library = "crypt" def salt(self): return get_random_string(2) def encode(self, password, salt): crypt = self._load_library() assert len(salt) == 2 data = crypt.crypt(password, salt) # we don't need to store the salt, but Django used to do this return "%s$%s$%s" % (self.algorithm, '', data) def verify(self, password, encoded): crypt = self._load_library() algorithm, salt, data = encoded.split('$', 2) assert algorithm == self.algorithm return constant_time_compare(data, crypt.crypt(password, data)) def safe_summary(self, encoded): algorithm, salt, data = encoded.split('$', 2) assert algorithm == self.algorithm return SortedDict([ (_('algorithm'), algorithm), (_('salt'), salt), (_('hash'), mask_hash(data, show=3)), ])