Mercurial > p > roundup > code
view roundup/password.py @ 8526:0586f25eb25e
ruff: exclusions on imports
ignore import locations and import used for side effect
| author | John Rouillard <rouilj@ieee.org> |
|---|---|
| date | Fri, 20 Feb 2026 16:30:50 -0500 |
| parents | 6bd11a73f2ed |
| children | 98011edc6c60 |
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# # Copyright (c) 2001 Bizar Software Pty Ltd (http://www.bizarsoftware.com.au/) # This module is free software, and you may redistribute it and/or modify # under the same terms as Python, so long as this copyright message and # disclaimer are retained in their original form. # # IN NO EVENT SHALL BIZAR SOFTWARE PTY LTD BE LIABLE TO ANY PARTY FOR # DIRECT, INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES ARISING # OUT OF THE USE OF THIS CODE, EVEN IF THE AUTHOR HAS BEEN ADVISED OF THE # POSSIBILITY OF SUCH DAMAGE. # # BIZAR SOFTWARE PTY LTD SPECIFICALLY DISCLAIMS ANY WARRANTIES, INCLUDING, # BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS # FOR A PARTICULAR PURPOSE. THE CODE PROVIDED HEREUNDER IS ON AN "AS IS" # BASIS, AND THERE IS NO OBLIGATION WHATSOEVER TO PROVIDE MAINTENANCE, # SUPPORT, UPDATES, ENHANCEMENTS, OR MODIFICATIONS. # """Password handling (encoding, decoding). """ __docformat__ = 'restructuredtext' import os import re import string import sys import warnings from base64 import b64decode, b64encode from hashlib import md5, sha1, sha512 from roundup.anypy import random_ from roundup.anypy.strings import b2s, s2b, us2s from roundup.exceptions import RoundupException try: with warnings.catch_warnings(): warnings.filterwarnings("ignore", category=DeprecationWarning) import crypt except ImportError: crypt = None _bempty = b"" _bjoin = _bempty.join class ConfigNotSet(RoundupException): pass def bchr(c): if bytes is str: # Python 2. return chr(c) else: # Python 3. return bytes((c,)) def bord(c): if bytes is str: # Python 2. return ord(c) else: # Python 3. Elements of bytes are integers. return c # NOTE: PBKDF2 hash is using this variant of base64 to minimize encoding size, # and have charset that's compatible w/ unix crypt variants def h64encode(data): """encode using variant of base64""" return b2s(b64encode(data, b"./").strip(b"=\n")) def h64decode(data): """decode using variant of base64""" data = s2b(data) off = len(data) % 4 if off == 0: return b64decode(data, b"./") elif off == 1: raise ValueError("Invalid base64 input") elif off == 2: return b64decode(data + b"==", b"./") else: return b64decode(data + b"=", b"./") try: from hashlib import pbkdf2_hmac def _pbkdf2(password, salt, rounds, keylen): return pbkdf2_hmac('sha1', password, salt, rounds, keylen) def _pbkdf2_sha512(password, salt, rounds, keylen): return pbkdf2_hmac('sha512', password, salt, rounds, keylen) except ImportError: # no hashlib.pbkdf2_hmac - make our own pbkdf2 function from hmac import HMAC from struct import pack def xor_bytes(left, right): "perform bitwise-xor of two byte-strings" return _bjoin(bchr(bord(l) ^ bord(r)) for l, r in zip(left, right)) # noqa: E741 def _pbkdf2(password, salt, rounds, keylen, sha=sha1): if sha not in [sha1, sha512]: raise ValueError( "Invalid sha value passed to _pbkdf2: %s" % sha) if sha == sha512: digest_size = 64 # sha512 generates 64-byte blocks. else: digest_size = 20 # sha1 generates 20-byte blocks total_blocks = int((keylen + digest_size - 1) / digest_size) hmac_template = HMAC(password, None, sha) out = _bempty for i in range(1, total_blocks + 1): hmac = hmac_template.copy() hmac.update(salt + pack(">L", i)) block = tmp = hmac.digest() for _j in range(rounds - 1): hmac = hmac_template.copy() hmac.update(tmp) tmp = hmac.digest() # TODO: need to speed up this call block = xor_bytes(block, tmp) out += block return out[:keylen] def _pbkdf2_sha512(password, salt, rounds, keylen): return _pbkdf2(password, salt, rounds, keylen, sha=sha512) def ssha(password, salt): ''' Make ssha digest from password and salt. Based on code of Roberto Aguilar <roberto@baremetal.io> https://gist.github.com/rca/7217540 ''' shaval = sha1(password) # noqa: S324 shaval.update(salt) ssha_digest = b2s(b64encode(shaval.digest() + salt).strip()) return ssha_digest def pbkdf2_sha512(password, salt, rounds, keylen): """PBKDF2-HMAC-SHA512 password-based key derivation :arg password: passphrase to use to generate key (if unicode, converted to utf-8) :arg salt: salt bytes to use when generating key :param rounds: number of rounds to use to generate key :arg keylen: number of bytes to generate If hashlib supports pbkdf2, uses it's implementation as backend. Unlike pbkdf2, this uses sha512 not sha1 as it's hash. :returns: raw bytes of generated key """ password = s2b(us2s(password)) if keylen > 64: # This statement may be old. - not seeing issues in testing # with keylen > 40. # # NOTE: pbkdf2 allows up to (2**31-1)*20 bytes, # but m2crypto has issues on some platforms above 40, # and such sizes aren't needed for a password hash anyways... raise ValueError("key length too large") if rounds < 1: raise ValueError("rounds must be positive number") return _pbkdf2_sha512(password, salt, rounds, keylen) def pbkdf2(password, salt, rounds, keylen): """pkcs#5 password-based key derivation v2.0 :arg password: passphrase to use to generate key (if unicode, converted to utf-8) :arg salt: salt bytes to use when generating key :param rounds: number of rounds to use to generate key :arg keylen: number of bytes to generate If hashlib supports pbkdf2, uses it's implementation as backend. :returns: raw bytes of generated key """ password = s2b(us2s(password)) if keylen > 40: # NOTE: pbkdf2 allows up to (2**31-1)*20 bytes, # but m2crypto has issues on some platforms above 40, # and such sizes aren't needed for a password hash anyways... raise ValueError("key length too large") if rounds < 1: raise ValueError("rounds must be positive number") return _pbkdf2(password, salt, rounds, keylen) class PasswordValueError(ValueError): """ The password value is not valid """ pass def pbkdf2_unpack(pbkdf2): """ unpack pbkdf2 encrypted password into parts, assume it has format "{rounds}${salt}${digest} """ pbkdf2 = us2s(pbkdf2) try: rounds, salt, digest = pbkdf2.split("$") except ValueError: raise PasswordValueError("invalid PBKDF2 hash (wrong number of " "separators)") if rounds.startswith("0"): raise PasswordValueError("invalid PBKDF2 hash (zero-padded rounds)") try: rounds = int(rounds) except ValueError: raise PasswordValueError("invalid PBKDF2 hash (invalid rounds)") raw_salt = h64decode(salt) return rounds, salt, raw_salt, digest def encodePassword(plaintext, scheme, other=None, config=None): """Encrypt the plaintext password. """ if plaintext is None: plaintext = "" if scheme in ["PBKDF2", "PBKDF2S5"]: # all PBKDF schemes if other: rounds, salt, raw_salt, _digest = pbkdf2_unpack(other) else: raw_salt = random_.token_bytes(20) salt = h64encode(raw_salt) if config: rounds = config.PASSWORD_PBKDF2_DEFAULT_ROUNDS # if we are testing if ("pytest" in sys.modules and "PYTEST_CURRENT_TEST" in os.environ): if ("PYTEST_USE_CONFIG" in os.environ): rounds = config.PASSWORD_PBKDF2_DEFAULT_ROUNDS else: # Use 1000 rounds unless the test signals it # wants the config number by setting # PYTEST_USE_CONFIG. Using the production # rounds value of 2,000,000 (for sha1) makes # testing increase from 12 minutes to 1 hour in CI. rounds = 1000 elif ("pytest" in sys.modules and "PYTEST_CURRENT_TEST" in os.environ): # Set rounds to 1000 if no config is passed and # we are running within a pytest test. rounds = 1000 else: import logging # Log and abort. Initialize rounds and log (which # will probably be ignored) with traceback in case # ConfigNotSet exception is removed in the # future. rounds = 2000000 logger = logging.getLogger('roundup') if sys.version_info[0] > 2: logger.critical( "encodePassword called without config.", stack_info=True) else: import inspect import traceback where = inspect.currentframe() trace = traceback.format_stack(where) logger.critical( "encodePassword called without config. %s", trace[:-1] ) raise ConfigNotSet("encodePassword called without config.") if rounds < 1000: raise PasswordValueError("invalid PBKDF2 hash (rounds too low)") if scheme == "PBKDF2S5": raw_digest = pbkdf2_sha512(plaintext, raw_salt, rounds, 64) else: raw_digest = pbkdf2(plaintext, raw_salt, rounds, 20) return "%d$%s$%s" % (rounds, salt, h64encode(raw_digest)) elif scheme == 'SSHA': if other: raw_other = b64decode(other) salt = raw_other[20:] else: # new password # variable salt length salt_len = random_.randbelow(52 - 36) + 36 salt = random_.token_bytes(salt_len) s = ssha(s2b(plaintext), salt) elif scheme == 'SHA': s = sha1(s2b(plaintext)).hexdigest() # noqa: S324 elif scheme == 'MD5': s = md5(s2b(plaintext)).hexdigest() # noqa: S324 elif scheme == 'crypt': if crypt is None: raise PasswordValueError( 'Unsupported encryption scheme %r' % scheme) if other is not None: salt = other else: saltchars = './0123456789' + string.ascii_letters salt = random_.choice(saltchars) + random_.choice(saltchars) s = crypt.crypt(plaintext, salt) elif scheme == 'plaintext': s = plaintext else: raise PasswordValueError('Unknown encryption scheme %r' % scheme) return s def generatePassword(length=12): chars = string.ascii_letters + string.digits password = [random_.choice(chars) for x in range(length - 1)] # make sure there is at least one digit digitidx = random_.randbelow(length) password[digitidx:digitidx] = [random_.choice(string.digits)] return ''.join(password) class JournalPassword: """ Password dummy instance intended for journal operation. We do not store passwords in the journal any longer. The dummy version only reads the encryption scheme from the given encrypted password. """ default_scheme = 'PBKDF2S5' # new encryptions use this scheme pwre = re.compile(r'{(\w+)}(.+)') def __init__(self, encrypted=''): if isinstance(encrypted, self.__class__): self.scheme = encrypted.scheme or self.default_scheme else: m = self.pwre.match(encrypted) if m: self.scheme = m.group(1) else: self.scheme = self.default_scheme self.password = '' def dummystr(self): """ return dummy string to store in journal - reports scheme, but nothing else """ return "{%s}*encrypted*" % (self.scheme,) __str__ = dummystr def __eq__(self, other): """Compare this password against another password.""" # check to see if we're comparing instances if isinstance(other, self.__class__): if self.scheme != other.scheme: return False return self.password == other.password # assume password is plaintext if self.password is None: raise ValueError('Password not set') return self.password == encodePassword(other, self.scheme, self.password or None) def __ne__(self, other): return not self.__eq__(other) class Password(JournalPassword): """The class encapsulates a Password property type value in the database. The encoding of the password is one if None, 'SHA', 'MD5' or 'plaintext'. The encodePassword function is used to actually encode the password from plaintext. The None encoding is used in legacy databases where no encoding scheme is identified. The scheme is stored with the encoded data in the database: {scheme}data Example usage: >>> p = Password('sekrit') >>> p == 'sekrit' 1 >>> p != 'not sekrit' 1 >>> 'sekrit' == p 1 >>> 'not sekrit' != p 1 """ deprecated_schemes = ["PBKDF2", "SSHA", "SHA", "MD5", "plaintext"] if crypt: # place just before plaintext if crypt is available deprecated_schemes.insert(-1, "crypt") experimental_schemes = [] known_schemes = ["PBKDF2S5"] + experimental_schemes + \ deprecated_schemes def __init__(self, plaintext=None, scheme=None, encrypted=None, strict=False, config=None): """Call setPassword if plaintext is not None.""" if scheme is None: scheme = self.default_scheme if plaintext is not None: self.setPassword(plaintext, scheme, config=config) elif encrypted is not None: self.unpack(encrypted, scheme, strict=strict, config=config) else: self.scheme = self.default_scheme self.password = None self.plaintext = None def __repr__(self): return self.__str__() def needs_migration(self, config): """ Password has insecure scheme or other insecure parameters and needs migration to new password scheme """ if self.scheme in self.deprecated_schemes: return True rounds, _salt, _raw_salt, _digest = pbkdf2_unpack(self.password) if rounds < 1000: return True if (self.scheme == "PBKDF2"): new_rounds = config.PASSWORD_PBKDF2_DEFAULT_ROUNDS if ("pytest" in sys.modules and "PYTEST_CURRENT_TEST" in os.environ): if ("PYTEST_USE_CONFIG" in os.environ): new_rounds = config.PASSWORD_PBKDF2_DEFAULT_ROUNDS else: # for testing new_rounds = 1000 if rounds < int(new_rounds): return True if (self.scheme == "PBKDF2S5"): new_rounds = config.PASSWORD_PBKDF2_DEFAULT_ROUNDS if ("pytest" in sys.modules and "PYTEST_CURRENT_TEST" in os.environ): if ("PYTEST_USE_CONFIG" in os.environ): new_rounds = config.PASSWORD_PBKDF2_DEFAULT_ROUNDS else: # for testing new_rounds = 1000 if rounds < int(new_rounds): return True return False def unpack(self, encrypted, scheme=None, strict=False, config=None): """Set the password info from the scheme:<encrypted info> string (the inverse of __str__) """ m = self.pwre.match(encrypted) if m: self.scheme = m.group(1) self.password = m.group(2) self.plaintext = None else: # currently plaintext - encrypt self.setPassword(encrypted, scheme, config=config) if strict and self.scheme not in self.known_schemes: raise PasswordValueError("Unknown encryption scheme: %r" % (self.scheme,)) def setPassword(self, plaintext, scheme=None, config=None): """Sets encrypts plaintext.""" if scheme is None: scheme = self.default_scheme self.scheme = scheme self.password = encodePassword(plaintext, scheme, config=config) self.plaintext = plaintext def __str__(self): """Stringify the encrypted password for database storage.""" if self.password is None: raise ValueError('Password not set') return '{%s}%s' % (self.scheme, self.password) def test_missing_crypt(config=None): _p = encodePassword('sekrit', 'crypt', config=config) def test(config=None): # ruff: noqa: S101 SIM300 - asserts are ok # SHA p = Password('sekrit', config=config) assert Password(encrypted=str(p)) == 'sekrit' assert 'sekrit' == Password(encrypted=str(p)) assert p == 'sekrit' assert p != 'not sekrit' assert 'sekrit' == p assert 'not sekrit' != p # MD5 p = Password('sekrit', 'MD5', config=config) assert Password(encrypted=str(p)) == 'sekrit' assert 'sekrit' == Password(encrypted=str(p)) assert p == 'sekrit' assert p != 'not sekrit' assert 'sekrit' == p assert 'not sekrit' != p # crypt if crypt: # not available on Windows p = Password('sekrit', 'crypt', config=config) assert Password(encrypted=str(p)) == 'sekrit' assert 'sekrit' == Password(encrypted=str(p)) assert p == 'sekrit' assert p != 'not sekrit' assert 'sekrit' == p assert 'not sekrit' != p # SSHA p = Password('sekrit', 'SSHA', config=config) assert Password(encrypted=str(p)) == 'sekrit' assert 'sekrit' == Password(encrypted=str(p)) assert p == 'sekrit' assert p != 'not sekrit' assert 'sekrit' == p assert 'not sekrit' != p # PBKDF2 - low level function from binascii import unhexlify k = pbkdf2("password", b"ATHENA.MIT.EDUraeburn", 1200, 32) assert k == unhexlify("5c08eb61fdf71e4e4ec3cf6ba1f5512ba7e52ddbc5e5142f708a31e2e62b1e13") # PBKDF2 - hash function h = "5000$7BvbBq.EZzz/O0HuwX3iP.nAG3s$g3oPnFFaga2BJaX5PoPRljl4XIE" assert encodePassword("sekrit", "PBKDF2", h, config=config) == h # PBKDF2 - high level integration p = Password('sekrit', 'PBKDF2', config=config) assert Password(encrypted=str(p)) == 'sekrit' assert 'sekrit' == Password(encrypted=str(p)) assert p == 'sekrit' assert p != 'not sekrit' assert 'sekrit' == p assert 'not sekrit' != p # PBKDF2S5 - high level integration p = Password('sekrit', 'PBKDF2S5', config=config) print(p) assert Password(encrypted=str(p)) == 'sekrit' assert 'sekrit' == Password(encrypted=str(p)) assert p == 'sekrit' assert p != 'not sekrit' assert 'sekrit' == p assert 'not sekrit' != p if __name__ == '__main__': # invoking this with: # PYTHONPATH=. python2 roundup/password.py # or with python3, results in sys.path starting with: # ['/path/to/./roundup', # '/path/to/.', # '/usr/lib/python2.7', # which makes import roundup.anypy.html fail in python2 # when importing # from cgi import escape as html_escape # because cgi is not /usr/lib/python2.7/cgi but # roundup/cgi. Modify the path to remove the bogus trailing /roundup sys.path[0] = sys.path[0][:sys.path[0].rindex('/')] # we continue with our regularly scheduled tests from roundup.configuration import CoreConfig test(CoreConfig()) crypt = None exception = None try: test_missing_crypt(CoreConfig()) except PasswordValueError as e: exception = e assert exception is not None assert exception.__str__() == "Unsupported encryption scheme 'crypt'" # vim: set filetype=python sts=4 sw=4 et si :