ACIL FM
Dark
Refresh
Current DIR:
/usr/lib/python3.9/site-packages/passlib/utils
/
usr
lib
python3.9
site-packages
passlib
utils
Upload
Zip Selected
Delete Selected
Pilih semua
Nama
Ukuran
Permission
Aksi
compat
-
chmod
Open
Rename
Delete
__pycache__
-
chmod
Open
Rename
Delete
binary.py
30.69 MB
chmod
View
DL
Edit
Rename
Delete
decor.py
7.47 MB
chmod
View
DL
Edit
Rename
Delete
des.py
2.11 MB
chmod
View
DL
Edit
Rename
Delete
handlers.py
102.82 MB
chmod
View
DL
Edit
Rename
Delete
md4.py
1.19 MB
chmod
View
DL
Edit
Rename
Delete
pbkdf2.py
6.67 MB
chmod
View
DL
Edit
Rename
Delete
__init__.py
41.92 MB
chmod
View
DL
Edit
Rename
Delete
Edit file: /usr/lib/python3.9/site-packages/passlib/utils/__init__.py
"""passlib.utils -- helpers for writing password hashes""" #============================================================================= # imports #============================================================================= from passlib.utils.compat import JYTHON # core from binascii import b2a_base64, a2b_base64, Error as _BinAsciiError from base64 import b64encode, b64decode try: from collections.abc import Sequence from collections.abc import Iterable except ImportError: # py2 compat from collections import Sequence from collections import Iterable from codecs import lookup as _lookup_codec from functools import update_wrapper import itertools import inspect import logging; log = logging.getLogger(__name__) import math import os import sys import random import re if JYTHON: # pragma: no cover -- runtime detection # Jython 2.5.2 lacks stringprep module - # see http://bugs.jython.org/issue1758320 try: import stringprep except ImportError: stringprep = None _stringprep_missing_reason = "not present under Jython" else: import stringprep import time if stringprep: import unicodedata try: import threading except ImportError: # module optional before py37 threading = None import timeit import types from warnings import warn # site # pkg from passlib.utils.binary import ( # [remove these aliases in 2.0] BASE64_CHARS, AB64_CHARS, HASH64_CHARS, BCRYPT_CHARS, Base64Engine, LazyBase64Engine, h64, h64big, bcrypt64, ab64_encode, ab64_decode, b64s_encode, b64s_decode ) from passlib.utils.decor import ( # [remove these aliases in 2.0] deprecated_function, deprecated_method, memoized_property, classproperty, hybrid_method, ) from passlib.exc import ExpectedStringError, ExpectedTypeError from passlib.utils.compat import (add_doc, join_bytes, join_byte_values, join_byte_elems, irange, imap, PY3, u, join_unicode, unicode, byte_elem_value, nextgetter, unicode_or_str, unicode_or_bytes_types, get_method_function, suppress_cause, PYPY) # local __all__ = [ # constants 'JYTHON', 'sys_bits', 'unix_crypt_schemes', 'rounds_cost_values', # unicode helpers 'consteq', 'saslprep', # bytes helpers "xor_bytes", "render_bytes", # encoding helpers 'is_same_codec', 'is_ascii_safe', 'to_bytes', 'to_unicode', 'to_native_str', # host OS 'has_crypt', 'test_crypt', 'safe_crypt', 'tick', # randomness 'rng', 'getrandbytes', 'getrandstr', 'generate_password', # object type / interface tests 'is_crypt_handler', 'is_crypt_context', 'has_rounds_info', 'has_salt_info', ] #============================================================================= # constants #============================================================================= # bitsize of system architecture (32 or 64) sys_bits = int(math.log(sys.maxsize if PY3 else sys.maxint, 2) + 1.5) # list of hashes algs supported by crypt() on at least one OS. # XXX: move to .registry for passlib 2.0? unix_crypt_schemes = [ "sha512_crypt", "sha256_crypt", "sha1_crypt", "bcrypt", "md5_crypt", # "bsd_nthash", "bsdi_crypt", "des_crypt", ] # list of rounds_cost constants rounds_cost_values = [ "linear", "log2" ] # legacy import, will be removed in 1.8 from passlib.exc import MissingBackendError # internal helpers _BEMPTY = b'' _UEMPTY = u("") _USPACE = u(" ") # maximum password size which passlib will allow; see exc.PasswordSizeError MAX_PASSWORD_SIZE = int(os.environ.get("PASSLIB_MAX_PASSWORD_SIZE") or 4096) #============================================================================= # type helpers #============================================================================= class SequenceMixin(object): """ helper which lets result object act like a fixed-length sequence. subclass just needs to provide :meth:`_as_tuple()`. """ def _as_tuple(self): raise NotImplementedError("implement in subclass") def __repr__(self): return repr(self._as_tuple()) def __getitem__(self, idx): return self._as_tuple()[idx] def __iter__(self): return iter(self._as_tuple()) def __len__(self): return len(self._as_tuple()) def __eq__(self, other): return self._as_tuple() == other def __ne__(self, other): return not self.__eq__(other) if PY3: # getargspec() is deprecated, use this under py3. # even though it's a lot more awkward to get basic info :| _VAR_KEYWORD = inspect.Parameter.VAR_KEYWORD _VAR_ANY_SET = set([_VAR_KEYWORD, inspect.Parameter.VAR_POSITIONAL]) def accepts_keyword(func, key): """test if function accepts specified keyword""" params = inspect.signature(get_method_function(func)).parameters if not params: return False arg = params.get(key) if arg and arg.kind not in _VAR_ANY_SET: return True # XXX: annoying what we have to do to determine if VAR_KWDS in use. return params[list(params)[-1]].kind == _VAR_KEYWORD else: def accepts_keyword(func, key): """test if function accepts specified keyword""" spec = inspect.getargspec(get_method_function(func)) return key in spec.args or spec.keywords is not None def update_mixin_classes(target, add=None, remove=None, append=False, before=None, after=None, dryrun=False): """ helper to update mixin classes installed in target class. :param target: target class whose bases will be modified. :param add: class / classes to install into target's base class list. :param remove: class / classes to remove from target's base class list. :param append: by default, prepends mixins to front of list. if True, appends to end of list instead. :param after: optionally make sure all mixins are inserted after this class / classes. :param before: optionally make sure all mixins are inserted before this class / classes. :param dryrun: optionally perform all calculations / raise errors, but don't actually modify the class. """ if isinstance(add, type): add = [add] bases = list(target.__bases__) # strip out requested mixins if remove: if isinstance(remove, type): remove = [remove] for mixin in remove: if add and mixin in add: continue if mixin in bases: bases.remove(mixin) # add requested mixins if add: for mixin in add: # if mixin already present (explicitly or not), leave alone if any(issubclass(base, mixin) for base in bases): continue # determine insertion point if append: for idx, base in enumerate(bases): if issubclass(mixin, base): # don't insert mixin after one of it's own bases break if before and issubclass(base, before): # don't insert mixin after any <before> classes. break else: # append to end idx = len(bases) elif after: for end_idx, base in enumerate(reversed(bases)): if issubclass(base, after): # don't insert mixin before any <after> classes. idx = len(bases) - end_idx assert bases[idx-1] == base break else: idx = 0 else: # insert at start idx = 0 # insert mixin bases.insert(idx, mixin) # modify class if not dryrun: target.__bases__ = tuple(bases) #============================================================================= # collection helpers #============================================================================= def batch(source, size): """ split iterable into chunks of <size> elements. """ if size < 1: raise ValueError("size must be positive integer") if isinstance(source, Sequence): end = len(source) i = 0 while i < end: n = i + size yield source[i:n] i = n elif isinstance(source, Iterable): itr = iter(source) while True: chunk_itr = itertools.islice(itr, size) try: first = next(chunk_itr) except StopIteration: break yield itertools.chain((first,), chunk_itr) else: raise TypeError("source must be iterable") #============================================================================= # unicode helpers #============================================================================= # XXX: should this be moved to passlib.crypto, or compat backports? def consteq(left, right): """Check two strings/bytes for equality. This function uses an approach designed to prevent timing analysis, making it appropriate for cryptography. a and b must both be of the same type: either str (ASCII only), or any type that supports the buffer protocol (e.g. bytes). Note: If a and b are of different lengths, or if an error occurs, a timing attack could theoretically reveal information about the types and lengths of a and b--but not their values. """ # NOTE: # resources & discussions considered in the design of this function: # hmac timing attack -- # http://rdist.root.org/2009/05/28/timing-attack-in-google-keyczar-library/ # python developer discussion surrounding similar function -- # http://bugs.python.org/issue15061 # http://bugs.python.org/issue14955 # validate types if isinstance(left, unicode): if not isinstance(right, unicode): raise TypeError("inputs must be both unicode or both bytes") is_py3_bytes = False elif isinstance(left, bytes): if not isinstance(right, bytes): raise TypeError("inputs must be both unicode or both bytes") is_py3_bytes = PY3 else: raise TypeError("inputs must be both unicode or both bytes") # do size comparison. # NOTE: the double-if construction below is done deliberately, to ensure # the same number of operations (including branches) is performed regardless # of whether left & right are the same size. same_size = (len(left) == len(right)) if same_size: # if sizes are the same, setup loop to perform actual check of contents. tmp = left result = 0 if not same_size: # if sizes aren't the same, set 'result' so equality will fail regardless # of contents. then, to ensure we do exactly 'len(right)' iterations # of the loop, just compare 'right' against itself. tmp = right result = 1 # run constant-time string comparision # TODO: use izip instead (but first verify it's faster than zip for this case) if is_py3_bytes: for l,r in zip(tmp, right): result |= l ^ r else: for l,r in zip(tmp, right): result |= ord(l) ^ ord(r) return result == 0 # keep copy of this around since stdlib's version throws error on non-ascii chars in unicode strings. # our version does, but suffers from some underlying VM issues. but something is better than # nothing for plaintext hashes, which need this. everything else should use consteq(), # since the stdlib one is going to be as good / better in the general case. str_consteq = consteq try: # for py3.3 and up, use the stdlib version from hmac import compare_digest as consteq except ImportError: pass # TODO: could check for cryptography package's version, # but only operates on bytes, so would need a wrapper, # or separate consteq() into a unicode & a bytes variant. # from cryptography.hazmat.primitives.constant_time import bytes_eq as consteq def splitcomma(source, sep=","): """split comma-separated string into list of elements, stripping whitespace. """ source = source.strip() if source.endswith(sep): source = source[:-1] if not source: return [] return [ elem.strip() for elem in source.split(sep) ] def saslprep(source, param="value"): """Normalizes unicode strings using SASLPrep stringprep profile. The SASLPrep profile is defined in :rfc:`4013`. It provides a uniform scheme for normalizing unicode usernames and passwords before performing byte-value sensitive operations such as hashing. Among other things, it normalizes diacritic representations, removes non-printing characters, and forbids invalid characters such as ``\\n``. Properly internationalized applications should run user passwords through this function before hashing. :arg source: unicode string to normalize & validate :param param: Optional noun identifying source parameter in error messages (Defaults to the string ``"value"``). This is mainly useful to make the caller's error messages make more sense contextually. :raises ValueError: if any characters forbidden by the SASLPrep profile are encountered. :raises TypeError: if input is not :class:`!unicode` :returns: normalized unicode string .. note:: This function is not available under Jython, as the Jython stdlib is missing the :mod:`!stringprep` module (`Jython issue 1758320 <http://bugs.jython.org/issue1758320>`_). .. versionadded:: 1.6 """ # saslprep - http://tools.ietf.org/html/rfc4013 # stringprep - http://tools.ietf.org/html/rfc3454 # http://docs.python.org/library/stringprep.html # validate type # XXX: support bytes (e.g. run through want_unicode)? # might be easier to just integrate this into cryptcontext. if not isinstance(source, unicode): raise TypeError("input must be unicode string, not %s" % (type(source),)) # mapping stage # - map non-ascii spaces to U+0020 (stringprep C.1.2) # - strip 'commonly mapped to nothing' chars (stringprep B.1) in_table_c12 = stringprep.in_table_c12 in_table_b1 = stringprep.in_table_b1 data = join_unicode( _USPACE if in_table_c12(c) else c for c in source if not in_table_b1(c) ) # normalize to KC form data = unicodedata.normalize('NFKC', data) if not data: return _UEMPTY # check for invalid bi-directional strings. # stringprep requires the following: # - chars in C.8 must be prohibited. # - if any R/AL chars in string: # - no L chars allowed in string # - first and last must be R/AL chars # this checks if start/end are R/AL chars. if so, prohibited loop # will forbid all L chars. if not, prohibited loop will forbid all # R/AL chars instead. in both cases, prohibited loop takes care of C.8. is_ral_char = stringprep.in_table_d1 if is_ral_char(data[0]): if not is_ral_char(data[-1]): raise ValueError("malformed bidi sequence in " + param) # forbid L chars within R/AL sequence. is_forbidden_bidi_char = stringprep.in_table_d2 else: # forbid R/AL chars if start not setup correctly; L chars allowed. is_forbidden_bidi_char = is_ral_char # check for prohibited output - stringprep tables A.1, B.1, C.1.2, C.2 - C.9 in_table_a1 = stringprep.in_table_a1 in_table_c21_c22 = stringprep.in_table_c21_c22 in_table_c3 = stringprep.in_table_c3 in_table_c4 = stringprep.in_table_c4 in_table_c5 = stringprep.in_table_c5 in_table_c6 = stringprep.in_table_c6 in_table_c7 = stringprep.in_table_c7 in_table_c8 = stringprep.in_table_c8 in_table_c9 = stringprep.in_table_c9 for c in data: # check for chars mapping stage should have removed assert not in_table_b1(c), "failed to strip B.1 in mapping stage" assert not in_table_c12(c), "failed to replace C.1.2 in mapping stage" # check for forbidden chars if in_table_a1(c): raise ValueError("unassigned code points forbidden in " + param) if in_table_c21_c22(c): raise ValueError("control characters forbidden in " + param) if in_table_c3(c): raise ValueError("private use characters forbidden in " + param) if in_table_c4(c): raise ValueError("non-char code points forbidden in " + param) if in_table_c5(c): raise ValueError("surrogate codes forbidden in " + param) if in_table_c6(c): raise ValueError("non-plaintext chars forbidden in " + param) if in_table_c7(c): # XXX: should these have been caught by normalize? # if so, should change this to an assert raise ValueError("non-canonical chars forbidden in " + param) if in_table_c8(c): raise ValueError("display-modifying / deprecated chars " "forbidden in" + param) if in_table_c9(c): raise ValueError("tagged characters forbidden in " + param) # do bidi constraint check chosen by bidi init, above if is_forbidden_bidi_char(c): raise ValueError("forbidden bidi character in " + param) return data # replace saslprep() with stub when stringprep is missing if stringprep is None: # pragma: no cover -- runtime detection def saslprep(source, param="value"): """stub for saslprep()""" raise NotImplementedError("saslprep() support requires the 'stringprep' " "module, which is " + _stringprep_missing_reason) #============================================================================= # bytes helpers #============================================================================= def render_bytes(source, *args): """Peform ``%`` formating using bytes in a uniform manner across Python 2/3. This function is motivated by the fact that :class:`bytes` instances do not support ``%`` or ``{}`` formatting under Python 3. This function is an attempt to provide a replacement: it converts everything to unicode (decoding bytes instances as ``latin-1``), performs the required formatting, then encodes the result to ``latin-1``. Calling ``render_bytes(source, *args)`` should function roughly the same as ``source % args`` under Python 2. .. todo:: python >= 3.5 added back limited support for bytes %, can revisit when 3.3/3.4 is dropped. """ if isinstance(source, bytes): source = source.decode("latin-1") result = source % tuple(arg.decode("latin-1") if isinstance(arg, bytes) else arg for arg in args) return result.encode("latin-1") if PY3: # new in py32 def bytes_to_int(value): return int.from_bytes(value, 'big') def int_to_bytes(value, count): return value.to_bytes(count, 'big') else: # XXX: can any of these be sped up? from binascii import hexlify, unhexlify def bytes_to_int(value): return int(hexlify(value),16) def int_to_bytes(value, count): return unhexlify(('%%0%dx' % (count<<1)) % value) add_doc(bytes_to_int, "decode byte string as single big-endian integer") add_doc(int_to_bytes, "encode integer as single big-endian byte string") def xor_bytes(left, right): """Perform bitwise-xor of two byte strings (must be same size)""" return int_to_bytes(bytes_to_int(left) ^ bytes_to_int(right), len(left)) def repeat_string(source, size): """ repeat or truncate <source> string, so it has length <size> """ mult = 1 + (size - 1) // len(source) return (source * mult)[:size] def utf8_repeat_string(source, size): """ variant of repeat_string() which truncates to nearest UTF8 boundary. """ mult = 1 + (size - 1) // len(source) return utf8_truncate(source * mult, size) _BNULL = b"\x00" _UNULL = u("\x00") def right_pad_string(source, size, pad=None): """right-pad or truncate <source> string, so it has length <size>""" cur = len(source) if size > cur: if pad is None: pad = _UNULL if isinstance(source, unicode) else _BNULL return source+pad*(size-cur) else: return source[:size] def utf8_truncate(source, index): """ helper to truncate UTF8 byte string to nearest character boundary ON OR AFTER <index>. returned prefix will always have length of at least <index>, and will stop on the first byte that's not a UTF8 continuation byte (128 - 191 inclusive). since utf8 should never take more than 4 bytes to encode known unicode values, we can stop after ``index+3`` is reached. :param bytes source: :param int index: :rtype: bytes """ # general approach: # # * UTF8 bytes will have high two bits (0xC0) as one of: # 00 -- ascii char # 01 -- ascii char # 10 -- continuation of multibyte char # 11 -- start of multibyte char. # thus we can cut on anything where high bits aren't "10" (0x80; continuation byte) # # * UTF8 characters SHOULD always be 1 to 4 bytes, though they may be unbounded. # so we just keep going until first non-continuation byte is encountered, or end of str. # this should work predictably even for malformed/non UTF8 inputs. if not isinstance(source, bytes): raise ExpectedTypeError(source, bytes, "source") # validate index end = len(source) if index < 0: index = max(0, index + end) if index >= end: return source # can stop search after 4 bytes, won't ever have longer utf8 sequence. end = min(index + 3, end) # loop until we find non-continuation byte while index < end: if byte_elem_value(source[index]) & 0xC0 != 0x80: # found single-char byte, or start-char byte. break # else: found continuation byte. index += 1 else: assert index == end # truncate at final index result = source[:index] def sanity_check(): # try to decode source try: text = source.decode("utf-8") except UnicodeDecodeError: # if source isn't valid utf8, byte level match is enough return True # validate that result was cut on character boundary assert text.startswith(result.decode("utf-8")) return True assert sanity_check() return result #============================================================================= # encoding helpers #============================================================================= _ASCII_TEST_BYTES = b"\x00\n aA:#!\x7f" _ASCII_TEST_UNICODE = _ASCII_TEST_BYTES.decode("ascii") def is_ascii_codec(codec): """Test if codec is compatible with 7-bit ascii (e.g. latin-1, utf-8; but not utf-16)""" return _ASCII_TEST_UNICODE.encode(codec) == _ASCII_TEST_BYTES def is_same_codec(left, right): """Check if two codec names are aliases for same codec""" if left == right: return True if not (left and right): return False return _lookup_codec(left).name == _lookup_codec(right).name _B80 = b'\x80'[0] _U80 = u('\x80') def is_ascii_safe(source): """Check if string (bytes or unicode) contains only 7-bit ascii""" r = _B80 if isinstance(source, bytes) else _U80 return all(c < r for c in source) def to_bytes(source, encoding="utf-8", param="value", source_encoding=None): """Helper to normalize input to bytes. :arg source: Source bytes/unicode to process. :arg encoding: Target encoding (defaults to ``"utf-8"``). :param param: Optional name of variable/noun to reference when raising errors :param source_encoding: If this is specified, and the source is bytes, the source will be transcoded from *source_encoding* to *encoding* (via unicode). :raises TypeError: if source is not unicode or bytes. :returns: * unicode strings will be encoded using *encoding*, and returned. * if *source_encoding* is not specified, byte strings will be returned unchanged. * if *source_encoding* is specified, byte strings will be transcoded to *encoding*. """ assert encoding if isinstance(source, bytes): if source_encoding and not is_same_codec(source_encoding, encoding): return source.decode(source_encoding).encode(encoding) else: return source elif isinstance(source, unicode): return source.encode(encoding) else: raise ExpectedStringError(source, param) def to_unicode(source, encoding="utf-8", param="value"): """Helper to normalize input to unicode. :arg source: source bytes/unicode to process. :arg encoding: encoding to use when decoding bytes instances. :param param: optional name of variable/noun to reference when raising errors. :raises TypeError: if source is not unicode or bytes. :returns: * returns unicode strings unchanged. * returns bytes strings decoded using *encoding* """ assert encoding if isinstance(source, unicode): return source elif isinstance(source, bytes): return source.decode(encoding) else: raise ExpectedStringError(source, param) if PY3: def to_native_str(source, encoding="utf-8", param="value"): if isinstance(source, bytes): return source.decode(encoding) elif isinstance(source, unicode): return source else: raise ExpectedStringError(source, param) else: def to_native_str(source, encoding="utf-8", param="value"): if isinstance(source, bytes): return source elif isinstance(source, unicode): return source.encode(encoding) else: raise ExpectedStringError(source, param) add_doc(to_native_str, """Take in unicode or bytes, return native string. Python 2: encodes unicode using specified encoding, leaves bytes alone. Python 3: leaves unicode alone, decodes bytes using specified encoding. :raises TypeError: if source is not unicode or bytes. :arg source: source unicode or bytes string. :arg encoding: encoding to use when encoding unicode or decoding bytes. this defaults to ``"utf-8"``. :param param: optional name of variable/noun to reference when raising errors. :returns: :class:`str` instance """) @deprecated_function(deprecated="1.6", removed="1.7") def to_hash_str(source, encoding="ascii"): # pragma: no cover -- deprecated & unused """deprecated, use to_native_str() instead""" return to_native_str(source, encoding, param="hash") _true_set = set("true t yes y on 1 enable enabled".split()) _false_set = set("false f no n off 0 disable disabled".split()) _none_set = set(["", "none"]) def as_bool(value, none=None, param="boolean"): """ helper to convert value to boolean. recognizes strings such as "true", "false" """ assert none in [True, False, None] if isinstance(value, unicode_or_bytes_types): clean = value.lower().strip() if clean in _true_set: return True if clean in _false_set: return False if clean in _none_set: return none raise ValueError("unrecognized %s value: %r" % (param, value)) elif isinstance(value, bool): return value elif value is None: return none else: return bool(value) #============================================================================= # host OS helpers #============================================================================= def is_safe_crypt_input(value): """ UT helper -- test if value is safe to pass to crypt.crypt(); under PY3, can't pass non-UTF8 bytes to crypt.crypt. """ if crypt_accepts_bytes or not isinstance(value, bytes): return True try: value.decode("utf-8") return True except UnicodeDecodeError: return False try: from crypt import crypt as _crypt except ImportError: # pragma: no cover _crypt = None has_crypt = False crypt_accepts_bytes = False crypt_needs_lock = False _safe_crypt_lock = None def safe_crypt(secret, hash): return None else: has_crypt = True _NULL = '\x00' # XXX: replace this with lazy-evaluated bug detection? if threading and PYPY and (7, 2, 0) <= sys.pypy_version_info <= (7, 3, 3): #: internal lock used to wrap crypt() calls. #: WARNING: if non-passlib code invokes crypt(), this lock won't be enough! _safe_crypt_lock = threading.Lock() #: detect if crypt.crypt() needs a thread lock around calls. crypt_needs_lock = True else: from passlib.utils.compat import nullcontext _safe_crypt_lock = nullcontext() crypt_needs_lock = False # some crypt() variants will return various constant strings when # an invalid/unrecognized config string is passed in; instead of # returning NULL / None. examples include ":", ":0", "*0", etc. # safe_crypt() returns None for any string starting with one of the # chars in this string... _invalid_prefixes = u("*:!") if PY3: # * pypy3 (as of v7.3.1) has a crypt which accepts bytes, or ASCII-only unicode. # * whereas CPython3 (as of v3.9) has a crypt which doesn't take bytes, # but accepts ANY unicode (which it always encodes to UTF8). crypt_accepts_bytes = True try: _crypt(b"\xEE", "xx") except TypeError: # CPython will throw TypeError crypt_accepts_bytes = False except: # no pragma # don't care about other errors this might throw, # just want to see if we get past initial type-coercion step. pass def safe_crypt(secret, hash): if crypt_accepts_bytes: # PyPy3 -- all bytes accepted, but unicode encoded to ASCII, # so handling that ourselves. if isinstance(secret, unicode): secret = secret.encode("utf-8") if _BNULL in secret: raise ValueError("null character in secret") if isinstance(hash, unicode): hash = hash.encode("ascii") else: # CPython3's crypt() doesn't take bytes, only unicode; unicode which is then # encoding using utf-8 before passing to the C-level crypt(). # so we have to decode the secret. if isinstance(secret, bytes): orig = secret try: secret = secret.decode("utf-8") except UnicodeDecodeError: return None # sanity check it encodes back to original byte string, # otherwise when crypt() does it's encoding, it'll hash the wrong bytes! assert secret.encode("utf-8") == orig, \ "utf-8 spec says this can't happen!" if _NULL in secret: raise ValueError("null character in secret") if isinstance(hash, bytes): hash = hash.decode("ascii") try: with _safe_crypt_lock: result = _crypt(secret, hash) except OSError: # new in py39 -- per https://bugs.python.org/issue39289, # crypt() now throws OSError for various things, mainly unknown hash formats # translating that to None for now (may revise safe_crypt behavior in future) return None # NOTE: per issue 113, crypt() may return bytes in some odd cases. # assuming it should still return an ASCII hash though, # or there's a bigger issue at hand. if isinstance(result, bytes): result = result.decode("ascii") if not result or result[0] in _invalid_prefixes: return None return result else: #: see feature-detection in PY3 fork above crypt_accepts_bytes = True # Python 2 crypt handler def safe_crypt(secret, hash): if isinstance(secret, unicode): secret = secret.encode("utf-8") if _NULL in secret: raise ValueError("null character in secret") if isinstance(hash, unicode): hash = hash.encode("ascii") with _safe_crypt_lock: result = _crypt(secret, hash) if not result: return None result = result.decode("ascii") if result[0] in _invalid_prefixes: return None return result add_doc(safe_crypt, """Wrapper around stdlib's crypt. This is a wrapper around stdlib's :func:`!crypt.crypt`, which attempts to provide uniform behavior across Python 2 and 3. :arg secret: password, as bytes or unicode (unicode will be encoded as ``utf-8``). :arg hash: hash or config string, as ascii bytes or unicode. :returns: resulting hash as ascii unicode; or ``None`` if the password couldn't be hashed due to one of the issues: * :func:`crypt()` not available on platform. * Under Python 3, if *secret* is specified as bytes, it must be use ``utf-8`` or it can't be passed to :func:`crypt()`. * Some OSes will return ``None`` if they don't recognize the algorithm being used (though most will simply fall back to des-crypt). * Some OSes will return an error string if the input config is recognized but malformed; current code converts these to ``None`` as well. """) def test_crypt(secret, hash): """check if :func:`crypt.crypt` supports specific hash :arg secret: password to test :arg hash: known hash of password to use as reference :returns: True or False """ # safe_crypt() always returns unicode, which means that for py3, # 'hash' can't be bytes, or "== hash" will never be True. # under py2 unicode & str(bytes) will compare fine; # so just enforcing "unicode_or_str" limitation assert isinstance(hash, unicode_or_str), \ "hash must be unicode_or_str, got %s" % type(hash) assert hash, "hash must be non-empty" return safe_crypt(secret, hash) == hash timer = timeit.default_timer # legacy alias, will be removed in passlib 2.0 tick = timer def parse_version(source): """helper to parse version string""" m = re.search(r"(\d+(?:\.\d+)+)", source) if m: return tuple(int(elem) for elem in m.group(1).split(".")) return None #============================================================================= # randomness #============================================================================= #------------------------------------------------------------------------ # setup rng for generating salts #------------------------------------------------------------------------ # NOTE: # generating salts (e.g. h64_gensalt, below) doesn't require cryptographically # strong randomness. it just requires enough range of possible outputs # that making a rainbow table is too costly. so it should be ok to # fall back on python's builtin mersenne twister prng, as long as it's seeded each time # this module is imported, using a couple of minor entropy sources. try: os.urandom(1) has_urandom = True except NotImplementedError: # pragma: no cover has_urandom = False def genseed(value=None): """generate prng seed value from system resources""" from hashlib import sha512 if hasattr(value, "getstate") and hasattr(value, "getrandbits"): # caller passed in RNG as seed value try: value = value.getstate() except NotImplementedError: # this method throws error for e.g. SystemRandom instances, # so fall back to extracting 4k of state value = value.getrandbits(1 << 15) text = u("%s %s %s %.15f %.15f %s") % ( # if caller specified a seed value, mix it in value, # add current process id # NOTE: not available in some environments, e.g. GAE os.getpid() if hasattr(os, "getpid") else None, # id of a freshly created object. # (at least 1 byte of which should be hard to predict) id(object()), # the current time, to whatever precision os uses time.time(), tick(), # if urandom available, might as well mix some bytes in. os.urandom(32).decode("latin-1") if has_urandom else 0, ) # hash it all up and return it as int/long return int(sha512(text.encode("utf-8")).hexdigest(), 16) if has_urandom: rng = random.SystemRandom() else: # pragma: no cover -- runtime detection # NOTE: to reseed use ``rng.seed(genseed(rng))`` # XXX: could reseed on every call rng = random.Random(genseed()) #------------------------------------------------------------------------ # some rng helpers #------------------------------------------------------------------------ def getrandbytes(rng, count): """return byte-string containing *count* number of randomly generated bytes, using specified rng""" # NOTE: would be nice if this was present in stdlib Random class ###just in case rng provides this... ##meth = getattr(rng, "getrandbytes", None) ##if meth: ## return meth(count) if not count: return _BEMPTY def helper(): # XXX: break into chunks for large number of bits? value = rng.getrandbits(count<<3) i = 0 while i < count: yield value & 0xff value >>= 3 i += 1 return join_byte_values(helper()) def getrandstr(rng, charset, count): """return string containing *count* number of chars/bytes, whose elements are drawn from specified charset, using specified rng""" # NOTE: tests determined this is 4x faster than rng.sample(), # which is why that's not being used here. # check alphabet & count if count < 0: raise ValueError("count must be >= 0") letters = len(charset) if letters == 0: raise ValueError("alphabet must not be empty") if letters == 1: return charset * count # get random value, and write out to buffer def helper(): # XXX: break into chunks for large number of letters? value = rng.randrange(0, letters**count) i = 0 while i < count: yield charset[value % letters] value //= letters i += 1 if isinstance(charset, unicode): return join_unicode(helper()) else: return join_byte_elems(helper()) _52charset = '2346789ABCDEFGHJKMNPQRTUVWXYZabcdefghjkmnpqrstuvwxyz' @deprecated_function(deprecated="1.7", removed="2.0", replacement="passlib.pwd.genword() / passlib.pwd.genphrase()") def generate_password(size=10, charset=_52charset): """generate random password using given length & charset :param size: size of password. :param charset: optional string specified set of characters to draw from. the default charset contains all normal alphanumeric characters, except for the characters ``1IiLl0OoS5``, which were omitted due to their visual similarity. :returns: :class:`!str` containing randomly generated password. .. note:: Using the default character set, on a OS with :class:`!SystemRandom` support, this function should generate passwords with 5.7 bits of entropy per character. """ return getrandstr(rng, charset, size) #============================================================================= # object type / interface tests #============================================================================= _handler_attrs = ( "name", "setting_kwds", "context_kwds", "verify", "hash", "identify", ) def is_crypt_handler(obj): """check if object follows the :ref:`password-hash-api`""" # XXX: change to use isinstance(obj, PasswordHash) under py26+? return all(hasattr(obj, name) for name in _handler_attrs) _context_attrs = ( "needs_update", "genconfig", "genhash", "verify", "encrypt", "identify", ) def is_crypt_context(obj): """check if object appears to be a :class:`~passlib.context.CryptContext` instance""" # XXX: change to use isinstance(obj, CryptContext)? return all(hasattr(obj, name) for name in _context_attrs) ##def has_many_backends(handler): ## "check if handler provides multiple baceknds" ## # NOTE: should also provide get_backend(), .has_backend(), and .backends attr ## return hasattr(handler, "set_backend") def has_rounds_info(handler): """check if handler provides the optional :ref:`rounds information <rounds-attributes>` attributes""" return ('rounds' in handler.setting_kwds and getattr(handler, "min_rounds", None) is not None) def has_salt_info(handler): """check if handler provides the optional :ref:`salt information <salt-attributes>` attributes""" return ('salt' in handler.setting_kwds and getattr(handler, "min_salt_size", None) is not None) ##def has_raw_salt(handler): ## "check if handler takes in encoded salt as unicode (False), or decoded salt as bytes (True)" ## sc = getattr(handler, "salt_chars", None) ## if sc is None: ## return None ## elif isinstance(sc, unicode): ## return False ## elif isinstance(sc, bytes): ## return True ## else: ## raise TypeError("handler.salt_chars must be None/unicode/bytes") #============================================================================= # eof #=============================================================================
Simpan
Batal
Isi Zip:
Unzip
Create
Buat Folder
Buat File
Terminal / Execute
Run
Chmod Bulk
All File
All Folder
All File dan Folder
Apply