# since user can be in multiple groups iterate over them and

        # select the lowest permissions first (more explicit)

        ##TODO: do this^^

        if not gr.inherit_default_permissions:

            # NEED TO IGNORE all configurable permissions and

            # replace them with explicitly set

            permissions[GLOBAL] = permissions[GLOBAL]\

                                            .difference(_configurable)

        for perm in perms:

            permissions[GLOBAL].add(perm.permission.permission_name)

    # user specific global permissions

    user_perms = Session().query(UserToPerm)\

            .options(joinedload(UserToPerm.permission))\

            .filter(UserToPerm.user_id == user_id).all()

    if not user_inherit_default_permissions:

        # NEED TO IGNORE all configurable permissions and

        # replace them with explicitly set

        permissions[GLOBAL] = permissions[GLOBAL]\

                                        .difference(_configurable)

        for perm in user_perms:

            permissions[GLOBAL].add(perm.permission.permission_name)

    ## END GLOBAL PERMISSIONS

    #======================================================================

    # !! PERMISSIONS FOR REPOSITORIES !!

    #======================================================================

    #======================================================================

    # check if user is part of user groups for this repository and

    # fill in his permission from it. _choose_perm decides of which

    # permission should be selected based on selected method

    #======================================================================

    # user group for repositories permissions

    user_repo_perms_from_users_groups = \

     Session().query(UserGroupRepoToPerm, Permission, Repository,)\

        .join((Repository, UserGroupRepoToPerm.repository_id ==

               Repository.repo_id))\

        .join((Permission, UserGroupRepoToPerm.permission_id ==

               Permission.permission_id))\

        .join((UserGroup, UserGroupRepoToPerm.users_group_id ==

               UserGroup.users_group_id))\

        .filter(UserGroup.users_group_active == True)\

        .join((UserGroupMember, UserGroupRepoToPerm.users_group_id ==

               UserGroupMember.users_group_id))\

        .filter(UserGroupMember.user_id == user_id)\

        .all()

    multiple_counter = collections.defaultdict(int)

    for perm in user_repo_perms_from_users_groups:

        r_k = perm.UserGroupRepoToPerm.repository.repo_name

        multiple_counter[r_k] += 1

        p = perm.Permission.permission_name

        cur_perm = permissions[RK][r_k]

        if perm.Repository.user_id == user_id:

            # set admin if owner

            p = 'repository.admin'

        else:

            if multiple_counter[r_k] > 1:

                p = _choose_perm(p, cur_perm)

        permissions[RK][r_k] = p

    # user explicit permissions for repositories, overrides any specified

    # by the group permission

    user_repo_perms = Permission.get_default_perms(user_id)

    for perm in user_repo_perms:

        r_k = perm.UserRepoToPerm.repository.repo_name

        cur_perm = permissions[RK][r_k]

        # set admin if owner

        if perm.Repository.user_id == user_id:

            p = 'repository.admin'

        else:

            p = perm.Permission.permission_name

            if not explicit:

                p = _choose_perm(p, cur_perm)

        permissions[RK][r_k] = p

    #======================================================================

    # !! PERMISSIONS FOR REPOSITORY GROUPS !!

    #======================================================================

    #======================================================================

    # check if user is part of user groups for this repository groups and

    # fill in his permission from it. _choose_perm decides of which

    # permission should be selected based on selected method

    #======================================================================

    # user group for repo groups permissions

    user_repo_group_perms_from_users_groups = \

     Session().query(UserGroupRepoGroupToPerm, Permission, RepoGroup)\

     .join((RepoGroup, UserGroupRepoGroupToPerm.group_id == RepoGroup.group_id))\

     .join((Permission, UserGroupRepoGroupToPerm.permission_id

            == Permission.permission_id))\

     .join((UserGroup, UserGroupRepoGroupToPerm.users_group_id ==

            UserGroup.users_group_id))\

     .filter(UserGroup.users_group_active == True)\

     .join((UserGroupMember, UserGroupRepoGroupToPerm.users_group_id

            == UserGroupMember.users_group_id))\

     .filter(UserGroupMember.user_id == user_id)\

     .all()

    multiple_counter = collections.defaultdict(int)

    for perm in user_repo_group_perms_from_users_groups:

        g_k = perm.UserGroupRepoGroupToPerm.group.group_name

        multiple_counter[g_k] += 1

        p = perm.Permission.permission_name

        cur_perm = permissions[GK][g_k]

        if multiple_counter[g_k] > 1:

            p = _choose_perm(p, cur_perm)

        permissions[GK][g_k] = p

    # user explicit permissions for repository groups

    user_repo_groups_perms = Permission.get_default_group_perms(user_id)

    for perm in user_repo_groups_perms:

        rg_k = perm.UserRepoGroupToPerm.group.group_name

        p = perm.Permission.permission_name

        cur_perm = permissions[GK][rg_k]

        if not explicit:

            p = _choose_perm(p, cur_perm)

        permissions[GK][rg_k] = p

    #======================================================================

    # !! PERMISSIONS FOR USER GROUPS !!

    #======================================================================

    # user group for user group permissions

    user_group_user_groups_perms = \

     Session().query(UserGroupUserGroupToPerm, Permission, UserGroup)\

     .join((UserGroup, UserGroupUserGroupToPerm.target_user_group_id

            == UserGroup.users_group_id))\

     .join((Permission, UserGroupUserGroupToPerm.permission_id

            == Permission.permission_id))\

     .join((UserGroupMember, UserGroupUserGroupToPerm.user_group_id

            == UserGroupMember.users_group_id))\

     .filter(UserGroupMember.user_id == user_id)\

     .join((UserGroup, UserGroupMember.users_group_id ==

            UserGroup.users_group_id), aliased=True, from_joinpoint=True)\

     .filter(UserGroup.users_group_active == True)\

     .all()

    multiple_counter = collections.defaultdict(int)

    for perm in user_group_user_groups_perms:

        g_k = perm.UserGroupUserGroupToPerm.target_user_group.users_group_name

        multiple_counter[g_k] += 1

        p = perm.Permission.permission_name

        cur_perm = permissions[UK][g_k]

        if multiple_counter[g_k] > 1:

            p = _choose_perm(p, cur_perm)

        permissions[UK][g_k] = p

    #user explicit permission for user groups

    user_user_groups_perms = Permission.get_default_user_group_perms(user_id)

    for perm in user_user_groups_perms:

        u_k = perm.UserUserGroupToPerm.user_group.users_group_name

        p = perm.Permission.permission_name

        cur_perm = permissions[UK][u_k]

        if not explicit:

            p = _choose_perm(p, cur_perm)

        permissions[UK][u_k] = p

    return permissions

def allowed_api_access(controller_name, whitelist=None, api_key=None):

    """

    Check if given controller_name is in whitelist API access

    """

    if not whitelist:

        from kallithea import CONFIG

        whitelist = aslist(CONFIG.get('api_access_controllers_whitelist'),

                           sep=',')

        log.debug('whitelist of API access is: %s' % (whitelist))

    api_access_valid = controller_name in whitelist

    if api_access_valid:

        log.debug('controller:%s is in API whitelist' % (controller_name))

    else:

        msg = 'controller: %s is *NOT* in API whitelist' % (controller_name)

        if api_key:

            #if we use API key and don't have access it's a warning

            log.warning(msg)

        else:

            log.debug(msg)

    return api_access_valid

class AuthUser(object):

    """

    Represents a Kallithea user, including various authentication and

    authorization information. Typically used to store the current user,

    but is also used as a generic user information data structure in

    parts of the code, e.g. user management.

    up the matching database `User` and copies all attributes to itself,

    adding various non-persistent data. If lookup fails but anonymous

    access to Kallithea is enabled, the default user is loaded instead.

    `AuthUser` does not by itself authenticate users and the constructor

    sets the `is_authenticated` field to False, except when falling back

    to the default anonymous user (if enabled). It's up to other parts

    of the code to check e.g. if a supplied password is correct, and if

    so, set `is_authenticated` to True.

    However, `AuthUser` does refuse to load a user that is not `active`.

    """

            is_external_auth=False):

        self.user_id = user_id

        self._api_key = api_key # API key passed as parameter

        self.api_key = None # API key set by user_model.fill_data

        self.name = ''

        self.lastname = ''

        self.email = ''

        self.is_authenticated = False

        self.admin = False

        self.inherit_default_permissions = False

        self.is_external_auth = is_external_auth

        self._propagate_data()

    @LazyProperty

    def permissions(self):

        return self.__get_perms(user=self, cache=False)

    @property

    def api_keys(self):

        return self._get_api_keys()

    def _propagate_data(self):

        user_model = UserModel()

        self.anonymous_user = User.get_default_user(cache=True)

        is_user_loaded = False

        # lookup by userid

        if 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_model.get(self.user_id))

        # try go get user by API key

        elif 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, User.get_by_api_key(self._api_key))

        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:

                user_model.fill_data(self, self.anonymous_user)

                # 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)

    def __get_perms(self, user, explicit=True, algo='higherwin', cache=False):

        """

        Fills user permission attribute with permissions taken from database

        works for permissions given for repositories, and for permissions that

        are granted to groups

        :param user: `AuthUser` instance

        :param explicit: In case there are permissions both for user and a group

            that user is part of, explicit flag will define if user will

            explicitly override permissions from group, if it's False it will

            make decision based on the algo

        :param algo: algorithm to decide what permission should be choose if

            it's multiple defined, eg user in two different groups. It also

            decides if explicit flag is turned off how to specify the permission

            for case when user is in a group + have defined separate permission

        """

        user_id = user.user_id

        user_is_admin = user.is_admin

        user_inherit_default_permissions = user.inherit_default_permissions

        log.debug('Getting PERMISSION tree')

        compute = conditional_cache('short_term', 'cache_desc',

                                    condition=cache, func=_cached_perms_data)

        return compute(user_id, user_is_admin,

                       user_inherit_default_permissions, explicit, algo)

    def _get_api_keys(self):

        api_keys = [self.api_key]

        for api_key in UserApiKeys.query()\

                .filter(UserApiKeys.user_id == self.user_id)\

                .filter(or_(UserApiKeys.expires == -1,

                            UserApiKeys.expires >= time.time())).all():

            api_keys.append(api_key.api_key)

        return api_keys

    @property

    def is_admin(self):

        return self.admin

    @property

    def repositories_admin(self):

        """

        Returns list of repositories you're an admin of

        """

        return [x[0] for x in self.permissions['repositories'].iteritems()

                if x[1] == 'repository.admin']

    @property

    def repository_groups_admin(self):

        """

        Returns list of repository groups you're an admin of

        """

        return [x[0] for x in self.permissions['repositories_groups'].iteritems()

                if x[1] == 'group.admin']

    @property

    def user_groups_admin(self):

        """

        Returns list of user groups you're an admin of

        """

        return [x[0] for x in self.permissions['user_groups'].iteritems()

                if x[1] == 'usergroup.admin']

    @staticmethod

    def check_ip_allowed(user, ip_addr):

        """

        Check if the given IP address (a `str`) is allowed for the given

        user (an `AuthUser` or `db.User`).

        """

        allowed_ips = AuthUser.get_allowed_ips(user.user_id, cache=True,

            inherit_from_default=user.inherit_default_permissions)

        if check_ip_access(source_ip=ip_addr, allowed_ips=allowed_ips):

            log.debug('IP:%s is in range of %s' % (ip_addr, allowed_ips))

            return True

        else:

            log.info('Access for IP:%s forbidden, '

                     'not in %s' % (ip_addr, allowed_ips))

            return False

    def __repr__(self):

        return "<AuthUser('id:%s[%s] auth:%s')>"\

            % (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 to_cookie(self):

        """ Serializes this login session to a cookie `dict`. """

        return {

            'user_id': self.user_id,

            'username': self.username,

            'is_authenticated': self.is_authenticated,

            'is_external_auth': self.is_external_auth,

        }

    @staticmethod

    def from_cookie(cookie):

        """

        Deserializes an `AuthUser` from a cookie `dict`.

        """

        au = AuthUser(

            user_id=cookie.get('user_id'),

            is_external_auth=cookie.get('is_external_auth', False),

        )

        if not au.is_authenticated and au.user_id is not None:

            # user is not authenticated and not empty

            au.set_authenticated(cookie.get('is_authenticated'))

        return au

    @classmethod

    def get_allowed_ips(cls, user_id, cache=False, inherit_from_default=False):

        _set = set()

        if inherit_from_default:

            default_ips = UserIpMap.query().filter(UserIpMap.user ==

                                            User.get_default_user(cache=True))

            if cache:

                default_ips = default_ips.options(FromCache("sql_cache_short",

                                                  "get_user_ips_default"))

            # populate from default user

            for ip in default_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

        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()

        config['available_permissions'] = [x.permission_name for x in all_perms]

    finally:

        meta.Session.remove()

#==============================================================================

# CHECK DECORATORS

#==============================================================================

def redirect_to_login(message=None):

    from kallithea.lib import helpers as h

    p = url.current()