django-cas-server/cas_server/utils.py
2018-01-27 10:44:34 +01:00

749 lines
26 KiB
Python

# -*- coding: utf-8 -*-
# This program is distributed in the hope that it will be useful, but WITHOUT
# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
# FOR A PARTICULAR PURPOSE. See the GNU General Public License version 3 for
# more details.
#
# You should have received a copy of the GNU General Public License version 3
# along with this program; if not, write to the Free Software Foundation, Inc., 51
# Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
#
# (c) 2015-2016 Valentin Samir
"""Some util function for the app"""
from .default_settings import settings
from django.http import HttpResponseRedirect, HttpResponse
from django.contrib import messages
from django.contrib.messages import constants as DEFAULT_MESSAGE_LEVELS
from django.core.serializers.json import DjangoJSONEncoder
from django.utils import timezone
from django.core.exceptions import ValidationError
from django.utils.translation import ugettext_lazy as _
try:
from django.urls import reverse
except ImportError:
from django.core.urlresolvers import reverse
import re
import random
import string
import json
import hashlib
import crypt
import base64
import six
import requests
import time
import logging
import binascii
from importlib import import_module
from datetime import datetime, timedelta
from six.moves.urllib.parse import urlparse, urlunparse, parse_qsl, urlencode
from . import VERSION
#: logger facility
logger = logging.getLogger(__name__)
def json_encode(obj):
"""Encode a python object to json"""
try:
return json_encode.encoder.encode(obj)
except AttributeError:
json_encode.encoder = DjangoJSONEncoder(default=six.text_type)
return json_encode(obj)
def context(params):
"""
Function that add somes variable to the context before template rendering
:param dict params: The context dictionary used to render templates.
:return: The ``params`` dictionary with the key ``settings`` set to
:obj:`django.conf.settings`.
:rtype: dict
"""
params["settings"] = settings
params["message_levels"] = DEFAULT_MESSAGE_LEVELS
if settings.CAS_NEW_VERSION_HTML_WARNING:
LAST_VERSION = last_version()
params["VERSION"] = VERSION
params["LAST_VERSION"] = LAST_VERSION
if LAST_VERSION is not None:
params["upgrade_available"] = decode_version(VERSION) < decode_version(LAST_VERSION)
else:
params["upgrade_available"] = False
if settings.CAS_INFO_MESSAGES_ORDER:
params["CAS_INFO_RENDER"] = []
for msg_name in settings.CAS_INFO_MESSAGES_ORDER:
if msg_name in settings.CAS_INFO_MESSAGES:
if not isinstance(settings.CAS_INFO_MESSAGES[msg_name], dict):
continue
msg = settings.CAS_INFO_MESSAGES[msg_name].copy()
if "message" in msg:
msg["name"] = msg_name
# use info as default infox type
msg["type"] = msg.get("type", "info")
# make box discardable by default
msg["discardable"] = msg.get("discardable", True)
msg_hash = (
six.text_type(msg["message"]).encode("utf-8") +
msg["type"].encode("utf-8")
)
# hash depend of the rendering language
msg["hash"] = hashlib.md5(msg_hash).hexdigest()
params["CAS_INFO_RENDER"].append(msg)
return params
def json_response(request, data):
"""
Wrapper dumping `data` to a json and sending it to the user with an HttpResponse
:param django.http.HttpRequest request: The request object used to generate this response.
:param dict data: The python dictionnary to return as a json
:return: The content of ``data`` serialized in json
:rtype: django.http.HttpResponse
"""
data["messages"] = []
for msg in messages.get_messages(request):
data["messages"].append({'message': msg.message, 'level': msg.level_tag})
return HttpResponse(json.dumps(data), content_type="application/json")
def import_attr(path):
"""
transform a python dotted path to the attr
:param path: A dotted path to a python object or a python object
:type path: :obj:`unicode` or :obj:`str` or anything
:return: The python object pointed by the dotted path or the python object unchanged
"""
# if we got a str, decode it to unicode (normally it should only contain ascii)
if isinstance(path, six.binary_type):
path = path.decode("utf-8")
# if path is not an unicode, return it unchanged (may be it is already the attribute to import)
if not isinstance(path, six.text_type):
return path
if u"." not in path:
ValueError("%r should be of the form `module.attr` and we just got `attr`" % path)
module, attr = path.rsplit(u'.', 1)
try:
return getattr(import_module(module), attr)
except ImportError:
raise ImportError("Module %r not found" % module)
except AttributeError:
raise AttributeError("Module %r has not attribut %r" % (module, attr))
def redirect_params(url_name, params=None):
"""
Redirect to ``url_name`` with ``params`` as querystring
:param unicode url_name: a URL pattern name
:param params: Some parameter to append to the reversed URL
:type params: :obj:`dict` or :obj:`NoneType<types.NoneType>`
:return: A redirection to the URL with name ``url_name`` with ``params`` as querystring.
:rtype: django.http.HttpResponseRedirect
"""
url = reverse(url_name)
params = urlencode(params if params else {})
return HttpResponseRedirect(url + "?%s" % params)
def reverse_params(url_name, params=None, **kwargs):
"""
compute the reverse url of ``url_name`` and add to it parameters from ``params``
as querystring
:param unicode url_name: a URL pattern name
:param params: Some parameter to append to the reversed URL
:type params: :obj:`dict` or :obj:`NoneType<types.NoneType>`
:param **kwargs: additional parameters needed to compure the reverse URL
:return: The computed reverse URL of ``url_name`` with possible querystring from ``params``
:rtype: unicode
"""
url = reverse(url_name, **kwargs)
params = urlencode(params if params else {})
if params:
return u"%s?%s" % (url, params)
else:
return url
def copy_params(get_or_post_params, ignore=None):
"""
copy a :class:`django.http.QueryDict` in a :obj:`dict` ignoring keys in the set ``ignore``
:param django.http.QueryDict get_or_post_params: A GET or POST
:class:`QueryDict<django.http.QueryDict>`
:param set ignore: An optinal set of keys to ignore during the copy
:return: A copy of get_or_post_params
:rtype: dict
"""
if ignore is None:
ignore = set()
params = {}
for key in get_or_post_params:
if key not in ignore and get_or_post_params[key]:
params[key] = get_or_post_params[key]
return params
def set_cookie(response, key, value, max_age):
"""
Set the cookie ``key`` on ``response`` with value ``value`` valid for ``max_age`` secondes
:param django.http.HttpResponse response: a django response where to set the cookie
:param unicode key: the cookie key
:param unicode value: the cookie value
:param int max_age: the maximum validity age of the cookie
"""
expires = datetime.strftime(
datetime.utcnow() + timedelta(seconds=max_age),
"%a, %d-%b-%Y %H:%M:%S GMT"
)
response.set_cookie(
key,
value,
max_age=max_age,
expires=expires,
domain=settings.SESSION_COOKIE_DOMAIN,
secure=settings.SESSION_COOKIE_SECURE or None
)
def get_current_url(request, ignore_params=None):
"""
Giving a django request, return the current http url, possibly ignoring some GET parameters
:param django.http.HttpRequest request: The current request object.
:param set ignore_params: An optional set of GET parameters to ignore
:return: The URL of the current page, possibly omitting some parameters from
``ignore_params`` in the querystring.
:rtype: unicode
"""
if ignore_params is None:
ignore_params = set()
protocol = u'https' if request.is_secure() else u"http"
service_url = u"%s://%s%s" % (protocol, request.get_host(), request.path)
if request.GET:
params = copy_params(request.GET, ignore_params)
if params:
service_url += u"?%s" % urlencode(params)
return service_url
def update_url(url, params):
"""
update parameters using ``params`` in the ``url`` query string
:param url: An URL possibily with a querystring
:type url: :obj:`unicode` or :obj:`str`
:param dict params: A dictionary of parameters for updating the url querystring
:return: The URL with an updated querystring
:rtype: unicode
"""
if not isinstance(url, bytes):
url = url.encode('utf-8')
for key, value in list(params.items()):
if not isinstance(key, bytes):
del params[key]
key = key.encode('utf-8')
if not isinstance(value, bytes):
value = value.encode('utf-8')
params[key] = value
url_parts = list(urlparse(url))
query = dict(parse_qsl(url_parts[4]))
query.update(params)
# make the params order deterministic
query = list(query.items())
query.sort()
url_query = urlencode(query)
if not isinstance(url_query, bytes): # pragma: no cover in python3 urlencode return an unicode
url_query = url_query.encode("utf-8")
url_parts[4] = url_query
return urlunparse(url_parts).decode('utf-8')
def unpack_nested_exception(error):
"""
If exception are stacked, return the first one
:param error: A python exception with possible exception embeded within
:return: A python exception with no exception embeded within
"""
i = 0
while True:
if error.args[i:]:
if isinstance(error.args[i], Exception):
error = error.args[i]
i = 0
else:
i += 1
else:
break
return error
def _gen_ticket(prefix=None, lg=settings.CAS_TICKET_LEN):
"""
Generate a ticket with prefix ``prefix`` and length ``lg``
:param unicode prefix: An optional prefix (probably ST, PT, PGT or PGTIOU)
:param int lg: The length of the generated ticket (with the prefix)
:return: A randomlly generated ticket of length ``lg``
:rtype: unicode
"""
random_part = u''.join(
random.choice(
string.ascii_letters + string.digits
) for _ in range(lg - len(prefix or "") - 1)
)
if prefix is not None:
return u'%s-%s' % (prefix, random_part)
else:
return random_part
def gen_lt():
"""
Generate a Login Ticket
:return: A ticket with prefix ``settings.CAS_LOGIN_TICKET_PREFIX`` and length
``settings.CAS_LT_LEN``
:rtype: unicode
"""
return _gen_ticket(settings.CAS_LOGIN_TICKET_PREFIX, settings.CAS_LT_LEN)
def gen_st():
"""
Generate a Service Ticket
:return: A ticket with prefix ``settings.CAS_SERVICE_TICKET_PREFIX`` and length
``settings.CAS_ST_LEN``
:rtype: unicode
"""
return _gen_ticket(settings.CAS_SERVICE_TICKET_PREFIX, settings.CAS_ST_LEN)
def gen_pt():
"""
Generate a Proxy Ticket
:return: A ticket with prefix ``settings.CAS_PROXY_TICKET_PREFIX`` and length
``settings.CAS_PT_LEN``
:rtype: unicode
"""
return _gen_ticket(settings.CAS_PROXY_TICKET_PREFIX, settings.CAS_PT_LEN)
def gen_pgt():
"""
Generate a Proxy Granting Ticket
:return: A ticket with prefix ``settings.CAS_PROXY_GRANTING_TICKET_PREFIX`` and length
``settings.CAS_PGT_LEN``
:rtype: unicode
"""
return _gen_ticket(settings.CAS_PROXY_GRANTING_TICKET_PREFIX, settings.CAS_PGT_LEN)
def gen_pgtiou():
"""
Generate a Proxy Granting Ticket IOU
:return: A ticket with prefix ``settings.CAS_PROXY_GRANTING_TICKET_IOU_PREFIX`` and length
``settings.CAS_PGTIOU_LEN``
:rtype: unicode
"""
return _gen_ticket(settings.CAS_PROXY_GRANTING_TICKET_IOU_PREFIX, settings.CAS_PGTIOU_LEN)
def gen_saml_id():
"""
Generate an saml id
:return: A random id of length ``settings.CAS_TICKET_LEN``
:rtype: unicode
"""
return _gen_ticket()
def get_tuple(nuplet, index, default=None):
"""
:param tuple nuplet: A tuple
:param int index: An index
:param default: An optional default value
:return: ``nuplet[index]`` if defined, else ``default`` (possibly ``None``)
"""
if nuplet is None:
return default
try:
return nuplet[index]
except IndexError:
return default
def crypt_salt_is_valid(salt):
"""
Validate a salt as crypt salt
:param str salt: a password salt
:return: ``True`` if ``salt`` is a valid crypt salt on this system, ``False`` otherwise
:rtype: bool
"""
if len(salt) < 2:
return False
else:
if salt[0] == '$':
if salt[1] == '$':
return False
else:
if '$' not in salt[1:]:
return False
else:
hashed = crypt.crypt("", salt)
if not hashed or '$' not in hashed[1:]:
return False
else:
return True
else:
return True
class LdapHashUserPassword(object):
"""
Class to deal with hashed password as defined at
https://tools.ietf.org/id/draft-stroeder-hashed-userpassword-values-01.html
"""
#: valide schemes that require a salt
schemes_salt = {b"{SMD5}", b"{SSHA}", b"{SSHA256}", b"{SSHA384}", b"{SSHA512}", b"{CRYPT}"}
#: valide sschemes that require no slat
schemes_nosalt = {b"{MD5}", b"{SHA}", b"{SHA256}", b"{SHA384}", b"{SHA512}"}
#: map beetween scheme and hash function
_schemes_to_hash = {
b"{SMD5}": hashlib.md5,
b"{MD5}": hashlib.md5,
b"{SSHA}": hashlib.sha1,
b"{SHA}": hashlib.sha1,
b"{SSHA256}": hashlib.sha256,
b"{SHA256}": hashlib.sha256,
b"{SSHA384}": hashlib.sha384,
b"{SHA384}": hashlib.sha384,
b"{SSHA512}": hashlib.sha512,
b"{SHA512}": hashlib.sha512
}
#: map between scheme and hash length
_schemes_to_len = {
b"{SMD5}": 16,
b"{SSHA}": 20,
b"{SSHA256}": 32,
b"{SSHA384}": 48,
b"{SSHA512}": 64,
}
class BadScheme(ValueError):
"""
Error raised then the hash scheme is not in
:attr:`LdapHashUserPassword.schemes_salt` + :attr:`LdapHashUserPassword.schemes_nosalt`
"""
pass
class BadHash(ValueError):
"""Error raised then the hash is too short"""
pass
class BadSalt(ValueError):
"""Error raised then, with the scheme ``{CRYPT}``, the salt is invalid"""
pass
@classmethod
def _raise_bad_scheme(cls, scheme, valid, msg):
"""
Raise :attr:`BadScheme` error for ``scheme``, possible valid scheme are
in ``valid``, the error message is ``msg``
:param bytes scheme: A bad scheme
:param list valid: A list a valid scheme
:param str msg: The error template message
:raises LdapHashUserPassword.BadScheme: always
"""
valid_schemes = [s.decode() for s in valid]
valid_schemes.sort()
raise cls.BadScheme(msg % (scheme, u", ".join(valid_schemes)))
@classmethod
def _test_scheme(cls, scheme):
"""
Test if a scheme is valide or raise BadScheme
:param bytes scheme: A scheme
:raises BadScheme: if ``scheme`` is not a valid scheme
"""
if scheme not in cls.schemes_salt and scheme not in cls.schemes_nosalt:
cls._raise_bad_scheme(
scheme,
cls.schemes_salt | cls.schemes_nosalt,
"The scheme %r is not valid. Valide schemes are %s."
)
@classmethod
def _test_scheme_salt(cls, scheme):
"""
Test if the scheme need a salt or raise BadScheme
:param bytes scheme: A scheme
:raises BadScheme: if ``scheme` require no salt
"""
if scheme not in cls.schemes_salt:
cls._raise_bad_scheme(
scheme,
cls.schemes_salt,
"The scheme %r is only valid without a salt. Valide schemes with salt are %s."
)
@classmethod
def _test_scheme_nosalt(cls, scheme):
"""
Test if the scheme need no salt or raise BadScheme
:param bytes scheme: A scheme
:raises BadScheme: if ``scheme` require a salt
"""
if scheme not in cls.schemes_nosalt:
cls._raise_bad_scheme(
scheme,
cls.schemes_nosalt,
"The scheme %r is only valid with a salt. Valide schemes without salt are %s."
)
@classmethod
def hash(cls, scheme, password, salt=None, charset="utf8"):
"""
Hash ``password`` with ``scheme`` using ``salt``.
This three variable beeing encoded in ``charset``.
:param bytes scheme: A valid scheme
:param bytes password: A byte string to hash using ``scheme``
:param bytes salt: An optional salt to use if ``scheme`` requires any
:param str charset: The encoding of ``scheme``, ``password`` and ``salt``
:return: The hashed password encoded with ``charset``
:rtype: bytes
"""
scheme = scheme.upper()
cls._test_scheme(scheme)
if salt is None or salt == b"":
salt = b""
cls._test_scheme_nosalt(scheme)
else:
cls._test_scheme_salt(scheme)
try:
return scheme + base64.b64encode(
cls._schemes_to_hash[scheme](password + salt).digest() + salt
)
except KeyError:
if six.PY3:
password = password.decode(charset)
salt = salt.decode(charset)
if not crypt_salt_is_valid(salt):
raise cls.BadSalt("System crypt implementation do not support the salt %r" % salt)
hashed_password = crypt.crypt(password, salt)
if six.PY3:
hashed_password = hashed_password.encode(charset)
return scheme + hashed_password
@classmethod
def get_scheme(cls, hashed_passord):
"""
Return the scheme of ``hashed_passord`` or raise :attr:`BadHash`
:param bytes hashed_passord: A hashed password
:return: The scheme used by the hashed password
:rtype: bytes
:raises BadHash: if no valid scheme is found within ``hashed_passord``
"""
if not hashed_passord[0] == b'{'[0] or b'}' not in hashed_passord:
raise cls.BadHash("%r should start with the scheme enclosed with { }" % hashed_passord)
scheme = hashed_passord.split(b'}', 1)[0]
scheme = scheme.upper() + b"}"
return scheme
@classmethod
def get_salt(cls, hashed_passord):
"""
Return the salt of ``hashed_passord`` possibly empty
:param bytes hashed_passord: A hashed password
:return: The salt used by the hashed password (empty if no salt is used)
:rtype: bytes
:raises BadHash: if no valid scheme is found within ``hashed_passord`` or if the
hashed password is too short for the scheme found.
"""
scheme = cls.get_scheme(hashed_passord)
cls._test_scheme(scheme)
if scheme in cls.schemes_nosalt:
return b""
elif scheme == b'{CRYPT}':
return b'$'.join(hashed_passord.split(b'$', 3)[:-1])[len(scheme):]
else:
try:
hashed_passord = base64.b64decode(hashed_passord[len(scheme):])
except (TypeError, binascii.Error) as error:
raise cls.BadHash("Bad base64: %s" % error)
if len(hashed_passord) < cls._schemes_to_len[scheme]:
raise cls.BadHash("Hash too short for the scheme %s" % scheme)
return hashed_passord[cls._schemes_to_len[scheme]:]
def check_password(method, password, hashed_password, charset):
"""
Check that ``password`` match `hashed_password` using ``method``,
assuming the encoding is ``charset``.
:param str method: on of ``"crypt"``, ``"ldap"``, ``"hex_md5"``, ``"hex_sha1"``,
``"hex_sha224"``, ``"hex_sha256"``, ``"hex_sha384"``, ``"hex_sha512"``, ``"plain"``
:param password: The user inputed password
:type password: :obj:`str` or :obj:`unicode`
:param hashed_password: The hashed password as stored in the database
:type hashed_password: :obj:`str` or :obj:`unicode`
:param str charset: The used char encoding (also used internally, so it must be valid for
the charset used by ``password`` when it was initially )
:return: True if ``password`` match ``hashed_password`` using ``method``,
``False`` otherwise
:rtype: bool
"""
if not isinstance(password, six.binary_type):
password = password.encode(charset)
if not isinstance(hashed_password, six.binary_type):
hashed_password = hashed_password.encode(charset)
if method == "plain":
return password == hashed_password
elif method == "crypt":
if hashed_password.startswith(b'$'):
salt = b'$'.join(hashed_password.split(b'$', 3)[:-1])
elif hashed_password.startswith(b'_'): # pragma: no cover old BSD format not supported
salt = hashed_password[:9]
else:
salt = hashed_password[:2]
if six.PY3:
password = password.decode(charset)
salt = salt.decode(charset)
hashed_password = hashed_password.decode(charset)
if not crypt_salt_is_valid(salt):
raise ValueError("System crypt implementation do not support the salt %r" % salt)
crypted_password = crypt.crypt(password, salt)
return crypted_password == hashed_password
elif method == "ldap":
scheme = LdapHashUserPassword.get_scheme(hashed_password)
salt = LdapHashUserPassword.get_salt(hashed_password)
return LdapHashUserPassword.hash(scheme, password, salt, charset=charset) == hashed_password
elif (
method.startswith("hex_") and
method[4:] in {"md5", "sha1", "sha224", "sha256", "sha384", "sha512"}
):
return getattr(
hashlib,
method[4:]
)(password).hexdigest().encode("ascii") == hashed_password.lower()
else:
raise ValueError("Unknown password method check %r" % method)
def decode_version(version):
"""
decode a version string following version semantic http://semver.org/ input a tuple of int.
It will work as long as we do not use pre release versions.
:param unicode version: A dotted version
:return: A tuple a int
:rtype: tuple
"""
return tuple(int(sub_version) for sub_version in version.split('.'))
def last_version():
"""
Fetch the last version from pypi and return it. On successful fetch from pypi, the response
is cached 24h, on error, it is cached 10 min.
:return: the last django-cas-server version
:rtype: unicode
"""
try:
last_update, version, success = last_version._cache
except AttributeError:
last_update = 0
version = None
success = False
cache_delta = 24 * 3600 if success else 600
if (time.time() - last_update) < cache_delta:
return version
else:
try:
req = requests.get(settings.CAS_NEW_VERSION_JSON_URL)
data = json.loads(req.text)
version = data["info"]["version"]
last_version._cache = (time.time(), version, True)
return version
except (
KeyError,
ValueError,
requests.exceptions.RequestException
) as error: # pragma: no cover (should not happen unless pypi is not available)
logger.error(
"Unable to fetch %s: %s" % (settings.CAS_NEW_VERSION_JSON_URL, error)
)
last_version._cache = (time.time(), version, False)
def dictfetchall(cursor):
"Return all rows from a django cursor as a dict"
columns = [col[0] for col in cursor.description]
return [
dict(zip(columns, row))
for row in cursor.fetchall()
]
def logout_request(ticket):
"""
Forge a SLO logout request
:param unicode ticket: A ticket value
:return: A SLO XML body request
:rtype: unicode
"""
return u"""<samlp:LogoutRequest xmlns:samlp="urn:oasis:names:tc:SAML:2.0:protocol"
ID="%(id)s" Version="2.0" IssueInstant="%(datetime)s">
<saml:NameID xmlns:saml="urn:oasis:names:tc:SAML:2.0:assertion"></saml:NameID>
<samlp:SessionIndex>%(ticket)s</samlp:SessionIndex>
</samlp:LogoutRequest>""" % {
'id': gen_saml_id(),
'datetime': timezone.now().isoformat(),
'ticket': ticket
}
def regexpr_validator(value):
"""
Test that ``value`` is a valid regular expression
:param unicode value: A regular expression to test
:raises ValidationError: if ``value`` is not a valid regular expression
"""
try:
re.compile(value)
except re.error:
raise ValidationError(
_('"%(value)s" is not a valid regular expression'),
params={'value': value}
)