# -*- coding: utf-8 -*- """ rhodecode.lib.auth ~~~~~~~~~~~~~~~~~~ authentication and permission libraries :created_on: Apr 4, 2010 :author: marcink :copyright: (C) 2010-2012 Marcin Kuzminski :license: GPLv3, see COPYING for more details. """ # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # 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 for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . import random import logging import traceback import hashlib from tempfile import _RandomNameSequence from decorator import decorator from pylons import config, url, request from pylons.controllers.util import abort, redirect from pylons.i18n.translation import _ from sqlalchemy.orm.exc import ObjectDeletedError from rhodecode import __platform__, is_windows, is_unix from rhodecode.model.meta import Session from rhodecode.lib.utils2 import str2bool, safe_unicode from rhodecode.lib.exceptions import LdapPasswordError, LdapUsernameError from rhodecode.lib.utils import get_repo_slug, get_repos_group_slug from rhodecode.lib.auth_ldap import AuthLdap from rhodecode.model import meta from rhodecode.model.user import UserModel from rhodecode.model.db import Permission, RhodeCodeSetting, User, UserIpMap from rhodecode.lib.caching_query import FromCache log = logging.getLogger(__name__) class PasswordGenerator(object): """ This is a simple class for generating password from different sets of characters usage:: passwd_gen = PasswordGenerator() #print 8-letter password containing only big and small letters of alphabet passwd_gen.gen_password(8, passwd_gen.ALPHABETS_BIG_SMALL) """ ALPHABETS_NUM = r'''1234567890''' ALPHABETS_SMALL = r'''qwertyuiopasdfghjklzxcvbnm''' ALPHABETS_BIG = r'''QWERTYUIOPASDFGHJKLZXCVBNM''' ALPHABETS_SPECIAL = r'''`-=[]\;',./~!@#$%^&*()_+{}|:"<>?''' ALPHABETS_FULL = ALPHABETS_BIG + ALPHABETS_SMALL \ + ALPHABETS_NUM + ALPHABETS_SPECIAL ALPHABETS_ALPHANUM = ALPHABETS_BIG + ALPHABETS_SMALL + ALPHABETS_NUM ALPHABETS_BIG_SMALL = ALPHABETS_BIG + ALPHABETS_SMALL ALPHABETS_ALPHANUM_BIG = ALPHABETS_BIG + ALPHABETS_NUM ALPHABETS_ALPHANUM_SMALL = ALPHABETS_SMALL + ALPHABETS_NUM def __init__(self, passwd=''): self.passwd = passwd def gen_password(self, length, type_=None): if type_ is None: type_ = self.ALPHABETS_FULL self.passwd = ''.join([random.choice(type_) for _ in xrange(length)]) return self.passwd class RhodeCodeCrypto(object): @classmethod def hash_string(cls, str_): """ Cryptographic function used for password hashing based on pybcrypt or pycrypto in windows :param password: password to hash """ if is_windows: from hashlib import sha256 return sha256(str_).hexdigest() elif is_unix: import bcrypt return bcrypt.hashpw(str_, bcrypt.gensalt(10)) else: raise Exception('Unknown or unsupported platform %s' \ % __platform__) @classmethod def hash_check(cls, password, hashed): """ Checks matching password with it's hashed value, runs different implementation based on platform it runs on :param password: password :param hashed: password in hashed form """ if is_windows: from hashlib import sha256 return sha256(password).hexdigest() == hashed elif is_unix: import bcrypt return bcrypt.hashpw(password, hashed) == hashed else: raise Exception('Unknown or unsupported platform %s' \ % __platform__) def get_crypt_password(password): return RhodeCodeCrypto.hash_string(password) def check_password(password, hashed): return RhodeCodeCrypto.hash_check(password, hashed) def generate_api_key(str_, salt=None): """ Generates API KEY from given string :param str_: :param salt: """ if salt is None: salt = _RandomNameSequence().next() return hashlib.sha1(str_ + salt).hexdigest() def authfunc(environ, username, password): """ Dummy authentication wrapper function used in Mercurial and Git for access control. :param environ: needed only for using in Basic auth """ return authenticate(username, password) def authenticate(username, password): """ Authentication function used for access control, firstly checks for db authentication then if ldap is enabled for ldap authentication, also creates ldap user if not in database :param username: username :param password: password """ user_model = UserModel() user = User.get_by_username(username) log.debug('Authenticating user using RhodeCode account') if user is not None and not user.ldap_dn: if user.active: if user.username == 'default' and user.active: log.info('user %s authenticated correctly as anonymous user' % username) return True elif user.username == username and check_password(password, user.password): log.info('user %s authenticated correctly' % username) return True else: log.warning('user %s tried auth but is disabled' % username) else: log.debug('Regular authentication failed') user_obj = User.get_by_username(username, case_insensitive=True) if user_obj is not None and not user_obj.ldap_dn: log.debug('this user already exists as non ldap') return False ldap_settings = RhodeCodeSetting.get_ldap_settings() #====================================================================== # FALLBACK TO LDAP AUTH IF ENABLE #====================================================================== if str2bool(ldap_settings.get('ldap_active')): log.debug("Authenticating user using ldap") kwargs = { 'server': ldap_settings.get('ldap_host', ''), 'base_dn': ldap_settings.get('ldap_base_dn', ''), 'port': ldap_settings.get('ldap_port'), 'bind_dn': ldap_settings.get('ldap_dn_user'), 'bind_pass': ldap_settings.get('ldap_dn_pass'), 'tls_kind': ldap_settings.get('ldap_tls_kind'), 'tls_reqcert': ldap_settings.get('ldap_tls_reqcert'), 'ldap_filter': ldap_settings.get('ldap_filter'), 'search_scope': ldap_settings.get('ldap_search_scope'), 'attr_login': ldap_settings.get('ldap_attr_login'), 'ldap_version': 3, } log.debug('Checking for ldap authentication') try: aldap = AuthLdap(**kwargs) (user_dn, ldap_attrs) = aldap.authenticate_ldap(username, password) log.debug('Got ldap DN response %s' % user_dn) get_ldap_attr = lambda k: ldap_attrs.get(ldap_settings\ .get(k), [''])[0] user_attrs = { 'name': safe_unicode(get_ldap_attr('ldap_attr_firstname')), 'lastname': safe_unicode(get_ldap_attr('ldap_attr_lastname')), 'email': get_ldap_attr('ldap_attr_email'), 'active': 'hg.register.auto_activate' in User\ .get_by_username('default').AuthUser.permissions['global'] } # don't store LDAP password since we don't need it. Override # with some random generated password _password = PasswordGenerator().gen_password(length=8) # create this user on the fly if it doesn't exist in rhodecode # database if user_model.create_ldap(username, _password, user_dn, user_attrs): log.info('created new ldap user %s' % username) Session().commit() return True except (LdapUsernameError, LdapPasswordError,): pass except (Exception,): log.error(traceback.format_exc()) pass return False def login_container_auth(username): user = User.get_by_username(username) if user is None: user_attrs = { 'name': username, 'lastname': None, 'email': None, 'active': 'hg.register.auto_activate' in User\ .get_by_username('default').AuthUser.permissions['global'] } user = UserModel().create_for_container_auth(username, user_attrs) if not user: return None log.info('User %s was created by container authentication' % username) if not user.active: return None user.update_lastlogin() Session().commit() log.debug('User %s is now logged in by container authentication', user.username) return user def get_container_username(environ, config, clean_username=False): """ Get's the container_auth username (or email). It tries to get username from REMOTE_USER if container_auth_enabled is enabled, if that fails it tries to get username from HTTP_X_FORWARDED_USER if proxypass_auth_enabled is enabled. clean_username extracts the username from this data if it's having @ in it. :param environ: :param config: :param clean_username: """ username = None if str2bool(config.get('container_auth_enabled', False)): from paste.httpheaders import REMOTE_USER username = REMOTE_USER(environ) log.debug('extracted REMOTE_USER:%s' % (username)) if not username and str2bool(config.get('proxypass_auth_enabled', False)): username = environ.get('HTTP_X_FORWARDED_USER') log.debug('extracted HTTP_X_FORWARDED_USER:%s' % (username)) if username and clean_username: # Removing realm and domain from username username = username.partition('@')[0] username = username.rpartition('\\')[2] log.debug('Received username %s from container' % username) return username class CookieStoreWrapper(object): def __init__(self, cookie_store): self.cookie_store = cookie_store def __repr__(self): return 'CookieStore<%s>' % (self.cookie_store) def get(self, key, other=None): if isinstance(self.cookie_store, dict): return self.cookie_store.get(key, other) elif isinstance(self.cookie_store, AuthUser): return self.cookie_store.__dict__.get(key, other) class AuthUser(object): """ A simple object that handles all attributes of user in RhodeCode It does lookup based on API key,given user, or user present in session Then it fills all required information for such user. It also checks if anonymous access is enabled and if so, it returns default user as logged in """ def __init__(self, user_id=None, api_key=None, username=None, ip_addr=None): self.user_id = user_id self.api_key = None self.username = username self.ip_addr = ip_addr self.name = '' self.lastname = '' self.email = '' self.is_authenticated = False self.admin = False self.inherit_default_permissions = False self.permissions = {} self._api_key = api_key self.propagate_data() self._instance = None def propagate_data(self): user_model = UserModel() self.anonymous_user = User.get_by_username('default', cache=True) is_user_loaded = False # try go get user by api key if self._api_key and self._api_key != self.anonymous_user.api_key: log.debug('Auth User lookup by API KEY %s' % self._api_key) is_user_loaded = user_model.fill_data(self, api_key=self._api_key) # lookup by userid elif (self.user_id is not None and self.user_id != self.anonymous_user.user_id): log.debug('Auth User lookup by USER ID %s' % self.user_id) is_user_loaded = user_model.fill_data(self, user_id=self.user_id) # lookup by username elif self.username and \ str2bool(config.get('container_auth_enabled', False)): log.debug('Auth User lookup by USER NAME %s' % self.username) dbuser = login_container_auth(self.username) if dbuser is not None: log.debug('filling all attributes to object') for k, v in dbuser.get_dict().items(): setattr(self, k, v) self.set_authenticated() is_user_loaded = True else: log.debug('No data in %s that could been used to log in' % self) if not is_user_loaded: # if we cannot authenticate user try anonymous if self.anonymous_user.active is True: user_model.fill_data(self, user_id=self.anonymous_user.user_id) # then we set this user is logged in self.is_authenticated = True else: self.user_id = None self.username = None self.is_authenticated = False if not self.username: self.username = 'None' log.debug('Auth User is now %s' % self) user_model.fill_perms(self) @property def is_admin(self): return self.admin @property def ip_allowed(self): """ Checks if ip_addr used in constructor is allowed from defined list of allowed ip_addresses for user :returns: boolean, True if ip is in allowed ip range """ #check IP allowed_ips = AuthUser.get_allowed_ips(self.user_id, cache=True) if check_ip_access(source_ip=self.ip_addr, allowed_ips=allowed_ips): log.debug('IP:%s is in range of %s' % (self.ip_addr, allowed_ips)) return True else: log.info('Access for IP:%s forbidden, ' 'not in %s' % (self.ip_addr, allowed_ips)) return False def __repr__(self): return "" % (self.user_id, self.username, self.is_authenticated) def set_authenticated(self, authenticated=True): if self.user_id != self.anonymous_user.user_id: self.is_authenticated = authenticated def get_cookie_store(self): return {'username': self.username, 'user_id': self.user_id, 'is_authenticated': self.is_authenticated} @classmethod def from_cookie_store(cls, cookie_store): """ Creates AuthUser from a cookie store :param cls: :param cookie_store: """ user_id = cookie_store.get('user_id') username = cookie_store.get('username') api_key = cookie_store.get('api_key') return AuthUser(user_id, api_key, username) @classmethod def get_allowed_ips(cls, user_id, cache=False): _set = set() user_ips = UserIpMap.query().filter(UserIpMap.user_id == user_id) if cache: user_ips = user_ips.options(FromCache("sql_cache_short", "get_user_ips_%s" % user_id)) for ip in user_ips: try: _set.add(ip.ip_addr) except ObjectDeletedError: # since we use heavy caching sometimes it happens that we get # deleted objects here, we just skip them pass return _set or set(['0.0.0.0/0', '::/0']) def set_available_permissions(config): """ This function will propagate pylons globals with all available defined permission given in db. We don't want to check each time from db for new permissions since adding a new permission also requires application restart ie. to decorate new views with the newly created permission :param config: current pylons config instance """ log.info('getting information about all available permissions') try: sa = meta.Session all_perms = sa.query(Permission).all() except Exception: pass finally: meta.Session.remove() config['available_permissions'] = [x.permission_name for x in all_perms] #============================================================================== # CHECK DECORATORS #============================================================================== class LoginRequired(object): """ Must be logged in to execute this function else redirect to login page :param api_access: if enabled this checks only for valid auth token and grants access based on valid token """ def __init__(self, api_access=False): self.api_access = api_access def __call__(self, func): return decorator(self.__wrapper, func) def __wrapper(self, func, *fargs, **fkwargs): cls = fargs[0] user = cls.rhodecode_user loc = "%s:%s" % (cls.__class__.__name__, func.__name__) #check IP ip_access_ok = True if not user.ip_allowed: from rhodecode.lib import helpers as h h.flash(h.literal(_('IP %s not allowed' % (user.ip_addr))), category='warning') ip_access_ok = False api_access_ok = False if self.api_access: log.debug('Checking API KEY access for %s' % cls) if user.api_key == request.GET.get('api_key'): api_access_ok = True else: log.debug("API KEY token not valid") log.debug('Checking if %s is authenticated @ %s' % (user.username, loc)) if (user.is_authenticated or api_access_ok) and ip_access_ok: reason = 'RegularAuth' if user.is_authenticated else 'APIAuth' log.info('user %s is authenticated and granted access to %s ' 'using %s' % (user.username, loc, reason) ) return func(*fargs, **fkwargs) else: log.warn('user %s NOT authenticated on func: %s' % ( user, loc) ) p = url.current() log.debug('redirecting to login page with %s' % p) return redirect(url('login_home', came_from=p)) class NotAnonymous(object): """ Must be logged in to execute this function else redirect to login page""" def __call__(self, func): return decorator(self.__wrapper, func) def __wrapper(self, func, *fargs, **fkwargs): cls = fargs[0] self.user = cls.rhodecode_user log.debug('Checking if user is not anonymous @%s' % cls) anonymous = self.user.username == 'default' if anonymous: p = url.current() import rhodecode.lib.helpers as h h.flash(_('You need to be a registered user to ' 'perform this action'), category='warning') return redirect(url('login_home', came_from=p)) else: return func(*fargs, **fkwargs) class PermsDecorator(object): """Base class for controller decorators""" def __init__(self, *required_perms): available_perms = config['available_permissions'] for perm in required_perms: if perm not in available_perms: raise Exception("'%s' permission is not defined" % perm) self.required_perms = set(required_perms) self.user_perms = None def __call__(self, func): return decorator(self.__wrapper, func) def __wrapper(self, func, *fargs, **fkwargs): cls = fargs[0] self.user = cls.rhodecode_user self.user_perms = self.user.permissions log.debug('checking %s permissions %s for %s %s', self.__class__.__name__, self.required_perms, cls, self.user) if self.check_permissions(): log.debug('Permission granted for %s %s' % (cls, self.user)) return func(*fargs, **fkwargs) else: log.debug('Permission denied for %s %s' % (cls, self.user)) anonymous = self.user.username == 'default' if anonymous: p = url.current() import rhodecode.lib.helpers as h h.flash(_('You need to be a signed in to ' 'view this page'), category='warning') return redirect(url('login_home', came_from=p)) else: # redirect with forbidden ret code return abort(403) def check_permissions(self): """Dummy function for overriding""" raise Exception('You have to write this function in child class') class HasPermissionAllDecorator(PermsDecorator): """ Checks for access permission for all given predicates. All of them have to be meet in order to fulfill the request """ def check_permissions(self): if self.required_perms.issubset(self.user_perms.get('global')): return True return False class HasPermissionAnyDecorator(PermsDecorator): """ Checks for access permission for any of given predicates. In order to fulfill the request any of predicates must be meet """ def check_permissions(self): if self.required_perms.intersection(self.user_perms.get('global')): return True return False class HasRepoPermissionAllDecorator(PermsDecorator): """ Checks for access permission for all given predicates for specific repository. All of them have to be meet in order to fulfill the request """ def check_permissions(self): repo_name = get_repo_slug(request) try: user_perms = set([self.user_perms['repositories'][repo_name]]) except KeyError: return False if self.required_perms.issubset(user_perms): return True return False class HasRepoPermissionAnyDecorator(PermsDecorator): """ Checks for access permission for any of given predicates for specific repository. In order to fulfill the request any of predicates must be meet """ def check_permissions(self): repo_name = get_repo_slug(request) try: user_perms = set([self.user_perms['repositories'][repo_name]]) except KeyError: return False if self.required_perms.intersection(user_perms): return True return False class HasReposGroupPermissionAllDecorator(PermsDecorator): """ Checks for access permission for all given predicates for specific repository. All of them have to be meet in order to fulfill the request """ def check_permissions(self): group_name = get_repos_group_slug(request) try: user_perms = set([self.user_perms['repositories_groups'][group_name]]) except KeyError: return False if self.required_perms.issubset(user_perms): return True return False class HasReposGroupPermissionAnyDecorator(PermsDecorator): """ Checks for access permission for any of given predicates for specific repository. In order to fulfill the request any of predicates must be meet """ def check_permissions(self): group_name = get_repos_group_slug(request) try: user_perms = set([self.user_perms['repositories_groups'][group_name]]) except KeyError: return False if self.required_perms.intersection(user_perms): return True return False #============================================================================== # CHECK FUNCTIONS #============================================================================== class PermsFunction(object): """Base function for other check functions""" def __init__(self, *perms): available_perms = config['available_permissions'] for perm in perms: if perm not in available_perms: raise Exception("'%s' permission is not defined" % perm) self.required_perms = set(perms) self.user_perms = None self.repo_name = None self.group_name = None def __call__(self, check_Location=''): user = request.user cls_name = self.__class__.__name__ check_scope = { 'HasPermissionAll': '', 'HasPermissionAny': '', 'HasRepoPermissionAll': 'repo:%s' % self.repo_name, 'HasRepoPermissionAny': 'repo:%s' % self.repo_name, 'HasReposGroupPermissionAll': 'group:%s' % self.group_name, 'HasReposGroupPermissionAny': 'group:%s' % self.group_name, }.get(cls_name, '?') log.debug('checking cls:%s %s usr:%s %s @ %s', cls_name, self.required_perms, user, check_scope, check_Location or 'unspecified location') if not user: log.debug('Empty request user') return False self.user_perms = user.permissions if self.check_permissions(): log.debug('Permission to %s granted for user: %s @ %s', self.repo_name, user, check_Location or 'unspecified location') return True else: log.debug('Permission to %s denied for user: %s @ %s', self.repo_name, user, check_Location or 'unspecified location') return False def check_permissions(self): """Dummy function for overriding""" raise Exception('You have to write this function in child class') class HasPermissionAll(PermsFunction): def check_permissions(self): if self.required_perms.issubset(self.user_perms.get('global')): return True return False class HasPermissionAny(PermsFunction): def check_permissions(self): if self.required_perms.intersection(self.user_perms.get('global')): return True return False class HasRepoPermissionAll(PermsFunction): def __call__(self, repo_name=None, check_Location=''): self.repo_name = repo_name return super(HasRepoPermissionAll, self).__call__(check_Location) def check_permissions(self): if not self.repo_name: self.repo_name = get_repo_slug(request) try: self._user_perms = set( [self.user_perms['repositories'][self.repo_name]] ) except KeyError: return False if self.required_perms.issubset(self._user_perms): return True return False class HasRepoPermissionAny(PermsFunction): def __call__(self, repo_name=None, check_Location=''): self.repo_name = repo_name return super(HasRepoPermissionAny, self).__call__(check_Location) def check_permissions(self): if not self.repo_name: self.repo_name = get_repo_slug(request) try: self._user_perms = set( [self.user_perms['repositories'][self.repo_name]] ) except KeyError: return False if self.required_perms.intersection(self._user_perms): return True return False class HasReposGroupPermissionAny(PermsFunction): def __call__(self, group_name=None, check_Location=''): self.group_name = group_name return super(HasReposGroupPermissionAny, self).__call__(check_Location) def check_permissions(self): try: self._user_perms = set( [self.user_perms['repositories_groups'][self.group_name]] ) except KeyError: return False if self.required_perms.intersection(self._user_perms): return True return False class HasReposGroupPermissionAll(PermsFunction): def __call__(self, group_name=None, check_Location=''): self.group_name = group_name return super(HasReposGroupPermissionAll, self).__call__(check_Location) def check_permissions(self): try: self._user_perms = set( [self.user_perms['repositories_groups'][self.group_name]] ) except KeyError: return False if self.required_perms.issubset(self._user_perms): return True return False #============================================================================== # SPECIAL VERSION TO HANDLE MIDDLEWARE AUTH #============================================================================== class HasPermissionAnyMiddleware(object): def __init__(self, *perms): self.required_perms = set(perms) def __call__(self, user, repo_name): # repo_name MUST be unicode, since we handle keys in permission # dict by unicode repo_name = safe_unicode(repo_name) usr = AuthUser(user.user_id) try: self.user_perms = set([usr.permissions['repositories'][repo_name]]) except Exception: log.error('Exception while accessing permissions %s' % traceback.format_exc()) self.user_perms = set() self.username = user.username self.repo_name = repo_name return self.check_permissions() def check_permissions(self): log.debug('checking VCS protocol ' 'permissions %s for user:%s repository:%s', self.user_perms, self.username, self.repo_name) if self.required_perms.intersection(self.user_perms): log.debug('permission granted for user:%s on repo:%s' % ( self.username, self.repo_name ) ) return True log.debug('permission denied for user:%s on repo:%s' % ( self.username, self.repo_name ) ) return False #============================================================================== # SPECIAL VERSION TO HANDLE API AUTH #============================================================================== class _BaseApiPerm(object): def __init__(self, *perms): self.required_perms = set(perms) def __call__(self, check_location='unspecified', user=None, repo_name=None): cls_name = self.__class__.__name__ check_scope = 'user:%s, repo:%s' % (user, repo_name) log.debug('checking cls:%s %s %s @ %s', cls_name, self.required_perms, check_scope, check_location) if not user: log.debug('Empty User passed into arguments') return False ## process user if not isinstance(user, AuthUser): user = AuthUser(user.user_id) if self.check_permissions(user.permissions, repo_name): log.debug('Permission to %s granted for user: %s @ %s', repo_name, user, check_location) return True else: log.debug('Permission to %s denied for user: %s @ %s', repo_name, user, check_location) return False def check_permissions(self, perm_defs, repo_name): """ implement in child class should return True if permissions are ok, False otherwise :param perm_defs: dict with permission definitions :param repo_name: repo name """ raise NotImplementedError() class HasPermissionAllApi(_BaseApiPerm): def __call__(self, user, check_location=''): return super(HasPermissionAllApi, self)\ .__call__(check_location=check_location, user=user) def check_permissions(self, perm_defs, repo): if self.required_perms.issubset(perm_defs.get('global')): return True return False class HasPermissionAnyApi(_BaseApiPerm): def __call__(self, user, check_location=''): return super(HasPermissionAnyApi, self)\ .__call__(check_location=check_location, user=user) def check_permissions(self, perm_defs, repo): if self.required_perms.intersection(perm_defs.get('global')): return True return False class HasRepoPermissionAllApi(_BaseApiPerm): def __call__(self, user, repo_name, check_location=''): return super(HasRepoPermissionAllApi, self)\ .__call__(check_location=check_location, user=user, repo_name=repo_name) def check_permissions(self, perm_defs, repo_name): try: self._user_perms = set( [perm_defs['repositories'][repo_name]] ) except KeyError: log.warning(traceback.format_exc()) return False if self.required_perms.issubset(self._user_perms): return True return False class HasRepoPermissionAnyApi(_BaseApiPerm): def __call__(self, user, repo_name, check_location=''): return super(HasRepoPermissionAnyApi, self)\ .__call__(check_location=check_location, user=user, repo_name=repo_name) def check_permissions(self, perm_defs, repo_name): try: _user_perms = set( [perm_defs['repositories'][repo_name]] ) except KeyError: log.warning(traceback.format_exc()) return False if self.required_perms.intersection(_user_perms): return True return False def check_ip_access(source_ip, allowed_ips=None): """ Checks if source_ip is a subnet of any of allowed_ips. :param source_ip: :param allowed_ips: list of allowed ips together with mask """ from rhodecode.lib import ipaddr log.debug('checking if ip:%s is subnet of %s' % (source_ip, allowed_ips)) if isinstance(allowed_ips, (tuple, list, set)): for ip in allowed_ips: try: if ipaddr.IPAddress(source_ip) in ipaddr.IPNetwork(ip): return True # for any case we cannot determine the IP, don't crash just # skip it and log as error, we want to say forbidden still when # sending bad IP except Exception: log.error(traceback.format_exc()) continue return False