diff --git a/django/contrib/auth/hashers.py b/django/contrib/auth/hashers.py index 7a9084b7462..bc56b705ee1 100644 --- a/django/contrib/auth/hashers.py +++ b/django/contrib/auth/hashers.py @@ -206,6 +206,18 @@ class BasePasswordHasher: """ raise NotImplementedError('subclasses of BasePasswordHasher must provide an encode() method') + def decode(self, encoded): + """ + Return a decoded database value. + + The result is a dictionary and should contain `algorithm`, `hash`, and + `salt`. Extra keys can be algorithm specific like `iterations` or + `work_factor`. + """ + raise NotImplementedError( + 'subclasses of BasePasswordHasher must provide a decode() method.' + ) + def safe_summary(self, encoded): """ Return a summary of safe values. @@ -252,31 +264,39 @@ class PBKDF2PasswordHasher(BasePasswordHasher): 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): + def decode(self, encoded): algorithm, iterations, salt, hash = encoded.split('$', 3) assert algorithm == self.algorithm return { - _('algorithm'): algorithm, - _('iterations'): iterations, - _('salt'): mask_hash(salt), - _('hash'): mask_hash(hash), + 'algorithm': algorithm, + 'hash': hash, + 'iterations': int(iterations), + 'salt': salt, + } + + def verify(self, password, encoded): + decoded = self.decode(encoded) + encoded_2 = self.encode(password, decoded['salt'], decoded['iterations']) + return constant_time_compare(encoded, encoded_2) + + def safe_summary(self, encoded): + decoded = self.decode(encoded) + return { + _('algorithm'): decoded['algorithm'], + _('iterations'): decoded['iterations'], + _('salt'): mask_hash(decoded['salt']), + _('hash'): mask_hash(decoded['hash']), } def must_update(self, encoded): - algorithm, iterations, salt, hash = encoded.split('$', 3) - return int(iterations) != self.iterations + decoded = self.decode(encoded) + return decoded['iterations'] != self.iterations def harden_runtime(self, password, encoded): - algorithm, iterations, salt, hash = encoded.split('$', 3) - extra_iterations = self.iterations - int(iterations) + decoded = self.decode(encoded) + extra_iterations = self.iterations - decoded['iterations'] if extra_iterations > 0: - self.encode(password, salt, extra_iterations) + self.encode(password, decoded['salt'], extra_iterations) class PBKDF2SHA1PasswordHasher(PBKDF2PasswordHasher): @@ -319,6 +339,23 @@ class Argon2PasswordHasher(BasePasswordHasher): ) return self.algorithm + data.decode('ascii') + def decode(self, encoded): + argon2 = self._load_library() + algorithm, rest = encoded.split('$', 1) + assert algorithm == self.algorithm + params = argon2.extract_parameters('$' + rest) + variety, *_, salt, hash = rest.split('$') + return { + 'algorithm': algorithm, + 'hash': hash, + 'memory_cost': params.memory_cost, + 'parallelism': params.parallelism, + 'salt': salt, + 'time_cost': params.time_cost, + 'variety': variety, + 'version': params.version, + } + def verify(self, password, encoded): argon2 = self._load_library() algorithm, rest = encoded.split('$', 1) @@ -329,18 +366,16 @@ class Argon2PasswordHasher(BasePasswordHasher): return False def safe_summary(self, encoded): - (algorithm, variety, version, time_cost, memory_cost, parallelism, - salt, data) = self._decode(encoded) - assert algorithm == self.algorithm + decoded = self.decode(encoded) return { - _('algorithm'): algorithm, - _('variety'): variety, - _('version'): version, - _('memory cost'): memory_cost, - _('time cost'): time_cost, - _('parallelism'): parallelism, - _('salt'): mask_hash(salt), - _('hash'): mask_hash(data), + _('algorithm'): decoded['algorithm'], + _('variety'): decoded['variety'], + _('version'): decoded['version'], + _('memory cost'): decoded['memory_cost'], + _('time cost'): decoded['time_cost'], + _('parallelism'): decoded['parallelism'], + _('salt'): mask_hash(decoded['salt']), + _('hash'): mask_hash(decoded['hash']), } def must_update(self, encoded): @@ -372,22 +407,6 @@ class Argon2PasswordHasher(BasePasswordHasher): parallelism=self.parallelism, ) - def _decode(self, encoded): - """ - Split an encoded hash and return: ( - algorithm, variety, version, time_cost, memory_cost, - parallelism, salt, data, - ). - """ - argon2 = self._load_library() - algorithm, rest = encoded.split('$', 1) - params = argon2.extract_parameters('$' + rest) - variety, *_, salt, data = rest.split('$') - return ( - algorithm, variety, params.version, params.time_cost, - params.memory_cost, params.parallelism, salt, data, - ) - class BCryptSHA256PasswordHasher(BasePasswordHasher): """ @@ -419,6 +438,17 @@ class BCryptSHA256PasswordHasher(BasePasswordHasher): data = bcrypt.hashpw(password, salt) return "%s$%s" % (self.algorithm, data.decode('ascii')) + def decode(self, encoded): + algorithm, empty, algostr, work_factor, data = encoded.split('$', 4) + assert algorithm == self.algorithm + return { + 'algorithm': algorithm, + 'algostr': algostr, + 'checksum': data[22:], + 'salt': data[:22], + 'work_factor': int(work_factor), + } + def verify(self, password, encoded): algorithm, data = encoded.split('$', 1) assert algorithm == self.algorithm @@ -426,19 +456,17 @@ class BCryptSHA256PasswordHasher(BasePasswordHasher): return constant_time_compare(encoded, encoded_2) def safe_summary(self, encoded): - algorithm, empty, algostr, work_factor, data = encoded.split('$', 4) - assert algorithm == self.algorithm - salt, checksum = data[:22], data[22:] + decoded = self.decode(encoded) return { - _('algorithm'): algorithm, - _('work factor'): work_factor, - _('salt'): mask_hash(salt), - _('checksum'): mask_hash(checksum), + _('algorithm'): decoded['algorithm'], + _('work factor'): decoded['work_factor'], + _('salt'): mask_hash(decoded['salt']), + _('checksum'): mask_hash(decoded['checksum']), } def must_update(self, encoded): - algorithm, empty, algostr, rounds, data = encoded.split('$', 4) - return int(rounds) != self.rounds + decoded = self.decode(encoded) + return decoded['work_factor'] != self.rounds def harden_runtime(self, password, encoded): _, data = encoded.split('$', 1) @@ -480,19 +508,26 @@ class SHA1PasswordHasher(BasePasswordHasher): hash = hashlib.sha1((salt + password).encode()).hexdigest() return "%s$%s$%s" % (self.algorithm, salt, hash) - def verify(self, password, encoded): - algorithm, salt, hash = encoded.split('$', 2) - assert algorithm == self.algorithm - encoded_2 = self.encode(password, salt) - return constant_time_compare(encoded, encoded_2) - - def safe_summary(self, encoded): + def decode(self, encoded): algorithm, salt, hash = encoded.split('$', 2) assert algorithm == self.algorithm return { - _('algorithm'): algorithm, - _('salt'): mask_hash(salt, show=2), - _('hash'): mask_hash(hash), + 'algorithm': algorithm, + 'hash': hash, + 'salt': salt, + } + + def verify(self, password, encoded): + decoded = self.decode(encoded) + encoded_2 = self.encode(password, decoded['salt']) + return constant_time_compare(encoded, encoded_2) + + def safe_summary(self, encoded): + decoded = self.decode(encoded) + return { + _('algorithm'): decoded['algorithm'], + _('salt'): mask_hash(decoded['salt'], show=2), + _('hash'): mask_hash(decoded['hash']), } def harden_runtime(self, password, encoded): @@ -511,19 +546,26 @@ class MD5PasswordHasher(BasePasswordHasher): hash = hashlib.md5((salt + password).encode()).hexdigest() return "%s$%s$%s" % (self.algorithm, salt, hash) - def verify(self, password, encoded): - algorithm, salt, hash = encoded.split('$', 2) - assert algorithm == self.algorithm - encoded_2 = self.encode(password, salt) - return constant_time_compare(encoded, encoded_2) - - def safe_summary(self, encoded): + def decode(self, encoded): algorithm, salt, hash = encoded.split('$', 2) assert algorithm == self.algorithm return { - _('algorithm'): algorithm, - _('salt'): mask_hash(salt, show=2), - _('hash'): mask_hash(hash), + 'algorithm': algorithm, + 'hash': hash, + 'salt': salt, + } + + def verify(self, password, encoded): + decoded = self.decode(encoded) + encoded_2 = self.encode(password, decoded['salt']) + return constant_time_compare(encoded, encoded_2) + + def safe_summary(self, encoded): + decoded = self.decode(encoded) + return { + _('algorithm'): decoded['algorithm'], + _('salt'): mask_hash(decoded['salt'], show=2), + _('hash'): mask_hash(decoded['hash']), } def harden_runtime(self, password, encoded): @@ -549,16 +591,23 @@ class UnsaltedSHA1PasswordHasher(BasePasswordHasher): hash = hashlib.sha1(password.encode()).hexdigest() return 'sha1$$%s' % hash + def decode(self, encoded): + assert encoded.startswith('sha1$$') + return { + 'algorithm': self.algorithm, + 'hash': encoded[6:], + 'salt': None, + } + def verify(self, password, encoded): encoded_2 = self.encode(password, '') return constant_time_compare(encoded, encoded_2) def safe_summary(self, encoded): - assert encoded.startswith('sha1$$') - hash = encoded[6:] + decoded = self.decode(encoded) return { - _('algorithm'): self.algorithm, - _('hash'): mask_hash(hash), + _('algorithm'): decoded['algorithm'], + _('hash'): mask_hash(decoded['hash']), } def harden_runtime(self, password, encoded): @@ -585,6 +634,13 @@ class UnsaltedMD5PasswordHasher(BasePasswordHasher): assert salt == '' return hashlib.md5(password.encode()).hexdigest() + def decode(self, encoded): + return { + 'algorithm': self.algorithm, + 'hash': encoded, + 'salt': None, + } + def verify(self, password, encoded): if len(encoded) == 37 and encoded.startswith('md5$$'): encoded = encoded[5:] @@ -592,9 +648,10 @@ class UnsaltedMD5PasswordHasher(BasePasswordHasher): return constant_time_compare(encoded, encoded_2) def safe_summary(self, encoded): + decoded = self.decode(encoded) return { - _('algorithm'): self.algorithm, - _('hash'): mask_hash(encoded, show=3), + _('algorithm'): decoded['algorithm'], + _('hash'): mask_hash(decoded['hash'], show=3), } def harden_runtime(self, password, encoded): @@ -616,24 +673,32 @@ class CryptPasswordHasher(BasePasswordHasher): def encode(self, password, salt): crypt = self._load_library() assert len(salt) == 2 - data = crypt.crypt(password, salt) - assert data is not None # A platform like OpenBSD with a dummy crypt module. + hash = crypt.crypt(password, salt) + assert hash is not None # A platform like OpenBSD with a dummy crypt module. # we don't need to store the salt, but Django used to do this - return "%s$%s$%s" % (self.algorithm, '', data) + return '%s$%s$%s' % (self.algorithm, '', hash) + + def decode(self, encoded): + algorithm, salt, hash = encoded.split('$', 2) + assert algorithm == self.algorithm + return { + 'algorithm': algorithm, + 'hash': hash, + 'salt': salt, + } def verify(self, password, encoded): crypt = self._load_library() - algorithm, salt, data = encoded.split('$', 2) - assert algorithm == self.algorithm - return constant_time_compare(data, crypt.crypt(password, data)) + decoded = self.decode(encoded) + data = crypt.crypt(password, decoded['hash']) + return constant_time_compare(decoded['hash'], data) def safe_summary(self, encoded): - algorithm, salt, data = encoded.split('$', 2) - assert algorithm == self.algorithm + decoded = self.decode(encoded) return { - _('algorithm'): algorithm, - _('salt'): salt, - _('hash'): mask_hash(data, show=3), + _('algorithm'): decoded['algorithm'], + _('salt'): decoded['salt'], + _('hash'): mask_hash(decoded['hash'], show=3), } def harden_runtime(self, password, encoded): diff --git a/tests/auth_tests/test_hashers.py b/tests/auth_tests/test_hashers.py index fa7332970ac..ec056660b76 100644 --- a/tests/auth_tests/test_hashers.py +++ b/tests/auth_tests/test_hashers.py @@ -211,7 +211,7 @@ class TestUtilsHashPass(SimpleTestCase): hasher.rounds = 4 encoded = make_password('letmein', hasher='bcrypt') rounds = hasher.safe_summary(encoded)['work factor'] - self.assertEqual(rounds, '04') + self.assertEqual(rounds, 4) state = {'upgraded': False} @@ -471,6 +471,11 @@ class BasePasswordHasherTests(SimpleTestCase): with self.assertRaisesMessage(NotImplementedError, msg): self.hasher.encode('password', 'salt') + def test_decode(self): + msg = self.not_implemented_msg % 'a decode' + with self.assertRaisesMessage(NotImplementedError, msg): + self.hasher.decode('encoded') + def test_harden_runtime(self): msg = 'subclasses of BasePasswordHasher should provide a harden_runtime() method' with self.assertWarnsMessage(Warning, msg):