# -*- coding: utf-8 -*- ############################################################################## # # OpenERP, Open Source Management Solution # Copyright (C) 2004-2009 Tiny SPRL (). # Copyright (C) 2010-2014 OpenERP s.a. (). # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU Affero 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 Affero General Public License for more details. # # You should have received a copy of the GNU Affero General Public License # along with this program. If not, see . # ############################################################################## import itertools import logging from functools import partial from itertools import repeat from lxml import etree from lxml.builder import E import openerp from openerp import SUPERUSER_ID, models from openerp import tools import openerp.exceptions from openerp.osv import fields, osv, expression from openerp.service.security import check_super from openerp.tools.translate import _ from openerp.http import request _logger = logging.getLogger(__name__) # Only users who can modify the user (incl. the user herself) see the real contents of these fields USER_PRIVATE_FIELDS = ['password'] #---------------------------------------------------------- # Basic res.groups and res.users #---------------------------------------------------------- class res_groups(osv.osv): _name = "res.groups" _description = "Access Groups" _rec_name = 'full_name' _order = 'name' def _get_full_name(self, cr, uid, ids, field, arg, context=None): res = {} for g in self.browse(cr, uid, ids, context): if g.category_id: res[g.id] = '%s / %s' % (g.category_id.name, g.name) else: res[g.id] = g.name return res def _search_group(self, cr, uid, obj, name, args, context=None): operand = args[0][2] operator = args[0][1] lst = True if isinstance(operand, bool): domains = [[('name', operator, operand)], [('category_id.name', operator, operand)]] if operator in expression.NEGATIVE_TERM_OPERATORS == (not operand): return expression.AND(domains) else: return expression.OR(domains) if isinstance(operand, basestring): lst = False operand = [operand] where = [] for group in operand: values = filter(bool, group.split('/')) group_name = values.pop().strip() category_name = values and '/'.join(values).strip() or group_name group_domain = [('name', operator, lst and [group_name] or group_name)] category_domain = [('category_id.name', operator, lst and [category_name] or category_name)] if operator in expression.NEGATIVE_TERM_OPERATORS and not values: category_domain = expression.OR([category_domain, [('category_id', '=', False)]]) if (operator in expression.NEGATIVE_TERM_OPERATORS) == (not values): sub_where = expression.AND([group_domain, category_domain]) else: sub_where = expression.OR([group_domain, category_domain]) if operator in expression.NEGATIVE_TERM_OPERATORS: where = expression.AND([where, sub_where]) else: where = expression.OR([where, sub_where]) return where _columns = { 'name': fields.char('Name', required=True, translate=True), 'users': fields.many2many('res.users', 'res_groups_users_rel', 'gid', 'uid', 'Users'), 'model_access': fields.one2many('ir.model.access', 'group_id', 'Access Controls', copy=True), 'rule_groups': fields.many2many('ir.rule', 'rule_group_rel', 'group_id', 'rule_group_id', 'Rules', domain=[('global', '=', False)]), 'menu_access': fields.many2many('ir.ui.menu', 'ir_ui_menu_group_rel', 'gid', 'menu_id', 'Access Menu'), 'view_access': fields.many2many('ir.ui.view', 'ir_ui_view_group_rel', 'group_id', 'view_id', 'Views'), 'comment' : fields.text('Comment', size=250, translate=True), 'category_id': fields.many2one('ir.module.category', 'Application', select=True), 'full_name': fields.function(_get_full_name, type='char', string='Group Name', fnct_search=_search_group), } _sql_constraints = [ ('name_uniq', 'unique (category_id, name)', 'The name of the group must be unique within an application!') ] def search(self, cr, uid, args, offset=0, limit=None, order=None, context=None, count=False): # add explicit ordering if search is sorted on full_name if order and order.startswith('full_name'): ids = super(res_groups, self).search(cr, uid, args, context=context) gs = self.browse(cr, uid, ids, context) gs.sort(key=lambda g: g.full_name, reverse=order.endswith('DESC')) gs = gs[offset:offset+limit] if limit else gs[offset:] return map(int, gs) return super(res_groups, self).search(cr, uid, args, offset, limit, order, context, count) def copy(self, cr, uid, id, default=None, context=None): group_name = self.read(cr, uid, [id], ['name'])[0]['name'] default.update({'name': _('%s (copy)')%group_name}) return super(res_groups, self).copy(cr, uid, id, default, context) def write(self, cr, uid, ids, vals, context=None): if 'name' in vals: if vals['name'].startswith('-'): raise osv.except_osv(_('Error'), _('The name of the group can not start with "-"')) res = super(res_groups, self).write(cr, uid, ids, vals, context=context) self.pool['ir.model.access'].call_cache_clearing_methods(cr) self.pool['res.users'].has_group.clear_cache(self.pool['res.users']) return res class res_users(osv.osv): """ User class. A res.users record models an OpenERP user and is different from an employee. res.users class now inherits from res.partner. The partner model is used to store the data related to the partner: lang, name, address, avatar, ... The user model is now dedicated to technical data. """ __admin_ids = {} __uid_cache = {} _inherits = { 'res.partner': 'partner_id', } _name = "res.users" _description = 'Users' _order = 'name, login' def _set_new_password(self, cr, uid, id, name, value, args, context=None): if value is False: # Do not update the password if no value is provided, ignore silently. # For example web client submits False values for all empty fields. return if uid == id: # To change their own password users must use the client-specific change password wizard, # so that the new password is immediately used for further RPC requests, otherwise the user # will face unexpected 'Access Denied' exceptions. raise osv.except_osv(_('Operation Canceled'), _('Please use the change password wizard (in User Preferences or User menu) to change your own password.')) self.write(cr, uid, id, {'password': value}) def _get_password(self, cr, uid, ids, arg, karg, context=None): return dict.fromkeys(ids, '') _columns = { 'id': fields.integer('ID'), 'login_date': fields.date('Latest connection', select=1, copy=False), 'partner_id': fields.many2one('res.partner', required=True, string='Related Partner', ondelete='restrict', help='Partner-related data of the user', auto_join=True), 'login': fields.char('Login', size=64, required=True, help="Used to log into the system"), 'password': fields.char('Password', size=64, invisible=True, copy=False, help="Keep empty if you don't want the user to be able to connect on the system."), 'new_password': fields.function(_get_password, type='char', size=64, fnct_inv=_set_new_password, string='Set Password', help="Specify a value only when creating a user or if you're "\ "changing the user's password, otherwise leave empty. After "\ "a change of password, the user has to login again."), 'signature': fields.html('Signature'), 'active': fields.boolean('Active'), 'action_id': fields.many2one('ir.actions.actions', 'Home Action', help="If specified, this action will be opened at log on for this user, in addition to the standard menu."), 'groups_id': fields.many2many('res.groups', 'res_groups_users_rel', 'uid', 'gid', 'Groups'), # Special behavior for this field: res.company.search() will only return the companies # available to the current user (should be the user's companies?), when the user_preference # context is set. 'company_id': fields.many2one('res.company', 'Company', required=True, help='The company this user is currently working for.', context={'user_preference': True}), 'company_ids':fields.many2many('res.company','res_company_users_rel','user_id','cid','Companies'), } # overridden inherited fields to bypass access rights, in case you have # access to the user but not its corresponding partner name = openerp.fields.Char(related='partner_id.name', inherited=True) email = openerp.fields.Char(related='partner_id.email', inherited=True) def on_change_login(self, cr, uid, ids, login, context=None): if login and tools.single_email_re.match(login): return {'value': {'email': login}} return {} def onchange_state(self, cr, uid, ids, state_id, context=None): partner_ids = [user.partner_id.id for user in self.browse(cr, uid, ids, context=context)] return self.pool.get('res.partner').onchange_state(cr, uid, partner_ids, state_id, context=context) def onchange_type(self, cr, uid, ids, is_company, context=None): """ Wrapper on the user.partner onchange_type, because some calls to the partner form view applied to the user may trigger the partner.onchange_type method, but applied to the user object. """ partner_ids = [user.partner_id.id for user in self.browse(cr, uid, ids, context=context)] return self.pool['res.partner'].onchange_type(cr, uid, partner_ids, is_company, context=context) def onchange_address(self, cr, uid, ids, use_parent_address, parent_id, context=None): """ Wrapper on the user.partner onchange_address, because some calls to the partner form view applied to the user may trigger the partner.onchange_type method, but applied to the user object. """ partner_ids = [user.partner_id.id for user in self.browse(cr, uid, ids, context=context)] return self.pool['res.partner'].onchange_address(cr, uid, partner_ids, use_parent_address, parent_id, context=context) def _check_company(self, cr, uid, ids, context=None): return all(((this.company_id in this.company_ids) or not this.company_ids) for this in self.browse(cr, uid, ids, context)) _constraints = [ (_check_company, 'The chosen company is not in the allowed companies for this user', ['company_id', 'company_ids']), ] _sql_constraints = [ ('login_key', 'UNIQUE (login)', 'You can not have two users with the same login !') ] def _get_company(self,cr, uid, context=None, uid2=False): if not uid2: uid2 = uid # Use read() to compute default company, and pass load=_classic_write to # avoid useless name_get() calls. This will avoid prefetching fields # while computing default values for new db columns, as the # db backend may not be fully initialized yet. user_data = self.pool['res.users'].read(cr, uid, uid2, ['company_id'], context=context, load='_classic_write') comp_id = user_data['company_id'] return comp_id or False def _get_companies(self, cr, uid, context=None): c = self._get_company(cr, uid, context) if c: return [c] return False def _get_group(self,cr, uid, context=None): dataobj = self.pool.get('ir.model.data') result = [] try: dummy,group_id = dataobj.get_object_reference(cr, SUPERUSER_ID, 'base', 'group_user') result.append(group_id) dummy,group_id = dataobj.get_object_reference(cr, SUPERUSER_ID, 'base', 'group_partner_manager') result.append(group_id) except ValueError: # If these groups does not exists anymore pass return result def _get_default_image(self, cr, uid, context=None): return self.pool['res.partner']._get_default_image(cr, uid, False, colorize=True, context=context) _defaults = { 'password': '', 'active': True, 'customer': False, 'company_id': _get_company, 'company_ids': _get_companies, 'groups_id': _get_group, 'image': _get_default_image, } # User can write on a few of his own fields (but not his groups for example) SELF_WRITEABLE_FIELDS = ['password', 'signature', 'action_id', 'company_id', 'email', 'name', 'image', 'image_medium', 'image_small', 'lang', 'tz'] # User can read a few of his own fields SELF_READABLE_FIELDS = ['signature', 'company_id', 'login', 'email', 'name', 'image', 'image_medium', 'image_small', 'lang', 'tz', 'tz_offset', 'groups_id', 'partner_id', '__last_update', 'action_id'] def read(self, cr, uid, ids, fields=None, context=None, load='_classic_read'): def override_password(o): if ('id' not in o or o['id'] != uid): for f in USER_PRIVATE_FIELDS: if f in o: o[f] = '********' return o if fields and (ids == [uid] or ids == uid): for key in fields: if not (key in self.SELF_READABLE_FIELDS or key.startswith('context_')): break else: # safe fields only, so we read as super-user to bypass access rights uid = SUPERUSER_ID result = super(res_users, self).read(cr, uid, ids, fields=fields, context=context, load=load) canwrite = self.pool['ir.model.access'].check(cr, uid, 'res.users', 'write', False) if not canwrite: if isinstance(ids, (int, long)): result = override_password(result) else: result = map(override_password, result) return result def read_group(self, cr, uid, domain, fields, groupby, offset=0, limit=None, context=None, orderby=False, lazy=True): if uid != SUPERUSER_ID: groupby_fields = set([groupby] if isinstance(groupby, basestring) else groupby) if groupby_fields.intersection(USER_PRIVATE_FIELDS): raise openerp.exceptions.AccessError('Invalid groupby') return super(res_users, self).read_group( cr, uid, domain, fields, groupby, offset=offset, limit=limit, context=context, orderby=orderby, lazy=lazy) def _search(self, cr, user, args, offset=0, limit=None, order=None, context=None, count=False, access_rights_uid=None): if user != SUPERUSER_ID and args: domain_terms = [term for term in args if isinstance(term, (tuple, list))] domain_fields = set(left for (left, op, right) in domain_terms) if domain_fields.intersection(USER_PRIVATE_FIELDS): raise openerp.exceptions.AccessError('Invalid search criterion') return super(res_users, self)._search( cr, user, args, offset=offset, limit=limit, order=order, context=context, count=count, access_rights_uid=access_rights_uid) def create(self, cr, uid, vals, context=None): user_id = super(res_users, self).create(cr, uid, vals, context=context) user = self.browse(cr, uid, user_id, context=context) if user.partner_id.company_id: user.partner_id.write({'company_id': user.company_id.id}) return user_id def write(self, cr, uid, ids, values, context=None): if not hasattr(ids, '__iter__'): ids = [ids] if ids == [uid]: for key in values.keys(): if not (key in self.SELF_WRITEABLE_FIELDS or key.startswith('context_')): break else: if 'company_id' in values: user = self.browse(cr, SUPERUSER_ID, uid, context=context) if not (values['company_id'] in user.company_ids.ids): del values['company_id'] uid = 1 # safe fields only, so we write as super-user to bypass access rights res = super(res_users, self).write(cr, uid, ids, values, context=context) if 'company_id' in values: for user in self.browse(cr, uid, ids, context=context): # if partner is global we keep it that way if user.partner_id.company_id and user.partner_id.company_id.id != values['company_id']: user.partner_id.write({'company_id': user.company_id.id}) # clear default ir values when company changes self.pool['ir.values'].get_defaults_dict.clear_cache(self.pool['ir.values']) # clear caches linked to the users self.pool['ir.model.access'].call_cache_clearing_methods(cr) clear = partial(self.pool['ir.rule'].clear_cache, cr) map(clear, ids) db = cr.dbname if db in self.__uid_cache: for id in ids: if id in self.__uid_cache[db]: del self.__uid_cache[db][id] self._context_get.clear_cache(self) self.has_group.clear_cache(self) return res def unlink(self, cr, uid, ids, context=None): if 1 in ids: raise osv.except_osv(_('Can not remove root user!'), _('You can not remove the admin user as it is used internally for resources created by Odoo (updates, module installation, ...)')) db = cr.dbname if db in self.__uid_cache: for id in ids: if id in self.__uid_cache[db]: del self.__uid_cache[db][id] return super(res_users, self).unlink(cr, uid, ids, context=context) def name_search(self, cr, user, name='', args=None, operator='ilike', context=None, limit=100): if not args: args=[] if not context: context={} ids = [] if name and operator in ['=', 'ilike']: ids = self.search(cr, user, [('login','=',name)]+ args, limit=limit, context=context) if not ids: ids = self.search(cr, user, [('name',operator,name)]+ args, limit=limit, context=context) return self.name_get(cr, user, ids, context=context) def copy(self, cr, uid, id, default=None, context=None): user2copy = self.read(cr, uid, [id], ['login','name'])[0] default = dict(default or {}) if ('name' not in default) and ('partner_id' not in default): default['name'] = _("%s (copy)") % user2copy['name'] if 'login' not in default: default['login'] = _("%s (copy)") % user2copy['login'] return super(res_users, self).copy(cr, uid, id, default, context) @tools.ormcache(skiparg=2) def _context_get(self, cr, uid): user = self.browse(cr, SUPERUSER_ID, uid) result = {} for k in self._fields: if k.startswith('context_'): context_key = k[8:] elif k in ['lang', 'tz']: context_key = k else: context_key = False if context_key: res = getattr(user, k) or False if isinstance(res, models.BaseModel): res = res.id result[context_key] = res or False return result def context_get(self, cr, uid, context=None): return self._context_get(cr, uid) def action_get(self, cr, uid, context=None): dataobj = self.pool['ir.model.data'] data_id = dataobj._get_id(cr, SUPERUSER_ID, 'base', 'action_res_users_my') return dataobj.browse(cr, uid, data_id, context=context).res_id def check_super(self, passwd): return check_super(passwd) def check_credentials(self, cr, uid, password): """ Override this method to plug additional authentication methods""" res = self.search(cr, SUPERUSER_ID, [('id','=',uid),('password','=',password)]) if not res: raise openerp.exceptions.AccessDenied() def _login(self, db, login, password): if not password: return False user_id = False cr = self.pool.cursor() try: # autocommit: our single update request will be performed atomically. # (In this way, there is no opportunity to have two transactions # interleaving their cr.execute()..cr.commit() calls and have one # of them rolled back due to a concurrent access.) cr.autocommit(True) # check if user exists res = self.search(cr, SUPERUSER_ID, [('login','=',login)]) if res: user_id = res[0] # check credentials self.check_credentials(cr, user_id, password) # We effectively unconditionally write the res_users line. # Even w/ autocommit there's a chance the user row will be locked, # in which case we can't delay the login just for the purpose of # update the last login date - hence we use FOR UPDATE NOWAIT to # try to get the lock - fail-fast # Failing to acquire the lock on the res_users row probably means # another request is holding it. No big deal, we don't want to # prevent/delay login in that case. It will also have been logged # as a SQL error, if anyone cares. try: # NO KEY introduced in PostgreSQL 9.3 http://www.postgresql.org/docs/9.3/static/release-9-3.html#AEN115299 update_clause = 'NO KEY UPDATE' if cr._cnx.server_version >= 90300 else 'UPDATE' cr.execute("SELECT id FROM res_users WHERE id=%%s FOR %s NOWAIT" % update_clause, (user_id,), log_exceptions=False) cr.execute("UPDATE res_users SET login_date = now() AT TIME ZONE 'UTC' WHERE id=%s", (user_id,)) self.invalidate_cache(cr, user_id, ['login_date'], [user_id]) except Exception: _logger.debug("Failed to update last_login for db:%s login:%s", db, login, exc_info=True) except openerp.exceptions.AccessDenied: _logger.info("Login failed for db:%s login:%s", db, login) user_id = False finally: cr.close() return user_id def authenticate(self, db, login, password, user_agent_env): """Verifies and returns the user ID corresponding to the given ``login`` and ``password`` combination, or False if there was no matching user. :param str db: the database on which user is trying to authenticate :param str login: username :param str password: user password :param dict user_agent_env: environment dictionary describing any relevant environment attributes """ uid = self._login(db, login, password) if uid == openerp.SUPERUSER_ID: # Successfully logged in as admin! # Attempt to guess the web base url... if user_agent_env and user_agent_env.get('base_location'): cr = self.pool.cursor() try: base = user_agent_env['base_location'] ICP = self.pool['ir.config_parameter'] if not ICP.get_param(cr, uid, 'web.base.url.freeze'): ICP.set_param(cr, uid, 'web.base.url', base) cr.commit() except Exception: _logger.exception("Failed to update web.base.url configuration parameter") finally: cr.close() return uid def check(self, db, uid, passwd): """Verifies that the given (uid, password) is authorized for the database ``db`` and raise an exception if it is not.""" if not passwd: # empty passwords disallowed for obvious security reasons raise openerp.exceptions.AccessDenied() if self.__uid_cache.setdefault(db, {}).get(uid) == passwd: return cr = self.pool.cursor() try: self.check_credentials(cr, uid, passwd) self.__uid_cache[db][uid] = passwd finally: cr.close() def change_password(self, cr, uid, old_passwd, new_passwd, context=None): """Change current user password. Old password must be provided explicitly to prevent hijacking an existing user session, or for cases where the cleartext password is not used to authenticate requests. :return: True :raise: openerp.exceptions.AccessDenied when old password is wrong :raise: except_osv when new password is not set or empty """ self.check(cr.dbname, uid, old_passwd) if new_passwd: return self.write(cr, uid, uid, {'password': new_passwd}) raise osv.except_osv(_('Warning!'), _("Setting empty passwords is not allowed for security reasons!")) def preference_save(self, cr, uid, ids, context=None): return { 'type': 'ir.actions.client', 'tag': 'reload_context', } def preference_change_password(self, cr, uid, ids, context=None): return { 'type': 'ir.actions.client', 'tag': 'change_password', 'target': 'new', } @tools.ormcache(skiparg=2) def has_group(self, cr, uid, group_ext_id): """Checks whether user belongs to given group. :param str group_ext_id: external ID (XML ID) of the group. Must be provided in fully-qualified form (``module.ext_id``), as there is no implicit module to use.. :return: True if the current user is a member of the group with the given external ID (XML ID), else False. """ assert group_ext_id and '.' in group_ext_id, "External ID must be fully qualified" module, ext_id = group_ext_id.split('.') cr.execute("""SELECT 1 FROM res_groups_users_rel WHERE uid=%s AND gid IN (SELECT res_id FROM ir_model_data WHERE module=%s AND name=%s)""", (uid, module, ext_id)) return bool(cr.fetchone()) #---------------------------------------------------------- # Implied groups # # Extension of res.groups and res.users with a relation for "implied" # or "inherited" groups. Once a user belongs to a group, it # automatically belongs to the implied groups (transitively). #---------------------------------------------------------- class cset(object): """ A cset (constrained set) is a set of elements that may be constrained to be a subset of other csets. Elements added to a cset are automatically added to its supersets. Cycles in the subset constraints are supported. """ def __init__(self, xs): self.supersets = set() self.elements = set(xs) def subsetof(self, other): if other is not self: self.supersets.add(other) other.update(self.elements) def update(self, xs): xs = set(xs) - self.elements if xs: # xs will eventually be empty in case of a cycle self.elements.update(xs) for s in self.supersets: s.update(xs) def __iter__(self): return iter(self.elements) concat = itertools.chain.from_iterable class groups_implied(osv.osv): _inherit = 'res.groups' def _get_trans_implied(self, cr, uid, ids, field, arg, context=None): "computes the transitive closure of relation implied_ids" memo = {} # use a memo for performance and cycle avoidance def computed_set(g): if g not in memo: memo[g] = cset(g.implied_ids) for h in g.implied_ids: computed_set(h).subsetof(memo[g]) return memo[g] res = {} for g in self.browse(cr, SUPERUSER_ID, ids, context): res[g.id] = map(int, computed_set(g)) return res _columns = { 'implied_ids': fields.many2many('res.groups', 'res_groups_implied_rel', 'gid', 'hid', string='Inherits', help='Users of this group automatically inherit those groups'), 'trans_implied_ids': fields.function(_get_trans_implied, type='many2many', relation='res.groups', string='Transitively inherits'), } def create(self, cr, uid, values, context=None): users = values.pop('users', None) gid = super(groups_implied, self).create(cr, uid, values, context) if users: # delegate addition of users to add implied groups self.write(cr, uid, [gid], {'users': users}, context) return gid def write(self, cr, uid, ids, values, context=None): res = super(groups_implied, self).write(cr, uid, ids, values, context) if values.get('users') or values.get('implied_ids'): # add all implied groups (to all users of each group) for g in self.browse(cr, uid, ids, context=context): gids = map(int, g.trans_implied_ids) vals = {'users': [(4, u.id) for u in g.users]} super(groups_implied, self).write(cr, uid, gids, vals, context) return res class users_implied(osv.osv): _inherit = 'res.users' def create(self, cr, uid, values, context=None): groups = values.pop('groups_id', None) user_id = super(users_implied, self).create(cr, uid, values, context) if groups: # delegate addition of groups to add implied groups self.write(cr, uid, [user_id], {'groups_id': groups}, context) self.pool['ir.ui.view'].clear_cache() return user_id def write(self, cr, uid, ids, values, context=None): if not isinstance(ids,list): ids = [ids] res = super(users_implied, self).write(cr, uid, ids, values, context) if values.get('groups_id'): # add implied groups for all users for user in self.browse(cr, uid, ids): gs = set(concat(g.trans_implied_ids for g in user.groups_id)) vals = {'groups_id': [(4, g.id) for g in gs]} super(users_implied, self).write(cr, uid, [user.id], vals, context) self.pool['ir.ui.view'].clear_cache() return res #---------------------------------------------------------- # Vitrual checkbox and selection for res.user form view # # Extension of res.groups and res.users for the special groups view in the users # form. This extension presents groups with selection and boolean widgets: # - Groups are shown by application, with boolean and/or selection fields. # Selection fields typically defines a role "Name" for the given application. # - Uncategorized groups are presented as boolean fields and grouped in a # section "Others". # # The user form view is modified by an inherited view (base.user_groups_view); # the inherited view replaces the field 'groups_id' by a set of reified group # fields (boolean or selection fields). The arch of that view is regenerated # each time groups are changed. # # Naming conventions for reified groups fields: # - boolean field 'in_group_ID' is True iff # ID is in 'groups_id' # - selection field 'sel_groups_ID1_..._IDk' is ID iff # ID is in 'groups_id' and ID is maximal in the set {ID1, ..., IDk} #---------------------------------------------------------- def name_boolean_group(id): return 'in_group_' + str(id) def name_selection_groups(ids): return 'sel_groups_' + '_'.join(map(str, ids)) def is_boolean_group(name): return name.startswith('in_group_') def is_selection_groups(name): return name.startswith('sel_groups_') def is_reified_group(name): return is_boolean_group(name) or is_selection_groups(name) def get_boolean_group(name): return int(name[9:]) def get_selection_groups(name): return map(int, name[11:].split('_')) def partition(f, xs): "return a pair equivalent to (filter(f, xs), filter(lambda x: not f(x), xs))" yes, nos = [], [] for x in xs: (yes if f(x) else nos).append(x) return yes, nos def parse_m2m(commands): "return a list of ids corresponding to a many2many value" ids = [] for command in commands: if isinstance(command, (tuple, list)): if command[0] in (1, 4): ids.append(command[1]) elif command[0] == 5: ids = [] elif command[0] == 6: ids = list(command[2]) else: ids.append(command) return ids class groups_view(osv.osv): _inherit = 'res.groups' def create(self, cr, uid, values, context=None): res = super(groups_view, self).create(cr, uid, values, context) self.update_user_groups_view(cr, uid, context) return res def write(self, cr, uid, ids, values, context=None): res = super(groups_view, self).write(cr, uid, ids, values, context) self.update_user_groups_view(cr, uid, context) return res def unlink(self, cr, uid, ids, context=None): res = super(groups_view, self).unlink(cr, uid, ids, context) self.update_user_groups_view(cr, uid, context) return res def update_user_groups_view(self, cr, uid, context=None): # the view with id 'base.user_groups_view' inherits the user form view, # and introduces the reified group fields # we have to try-catch this, because at first init the view does not exist # but we are already creating some basic groups if not context or context.get('install_mode'): # use installation/admin language for translatable names in the view context = dict(context or {}) context.update(self.pool['res.users'].context_get(cr, uid)) view = self.pool['ir.model.data'].xmlid_to_object(cr, SUPERUSER_ID, 'base.user_groups_view', context=context) if view and view.exists() and view._name == 'ir.ui.view': xml1, xml2 = [], [] xml1.append(E.separator(string=_('Application'), colspan="4")) for app, kind, gs in self.get_groups_by_application(cr, uid, context): # hide groups in category 'Hidden' (except to group_no_one) attrs = {'groups': 'base.group_no_one'} if app and app.xml_id == 'base.module_category_hidden' else {} if kind == 'selection': # application name with a selection field field_name = name_selection_groups(map(int, gs)) xml1.append(E.field(name=field_name, **attrs)) xml1.append(E.newline()) else: # application separator with boolean fields app_name = app and app.name or _('Other') xml2.append(E.separator(string=app_name, colspan="4", **attrs)) for g in gs: field_name = name_boolean_group(g.id) xml2.append(E.field(name=field_name, **attrs)) xml = E.field(*(xml1 + xml2), name="groups_id", position="replace") xml.addprevious(etree.Comment("GENERATED AUTOMATICALLY BY GROUPS")) xml_content = etree.tostring(xml, pretty_print=True, xml_declaration=True, encoding="utf-8") view.write({'arch': xml_content}) return True def get_application_groups(self, cr, uid, domain=None, context=None): """ return the list of groups available to an user to generate virtual fields """ # TO REMOVE IN 9.0 # verify if share column is present on the table # can not be done with override as can not ensure the module share is loaded # during an upgrade of another module (e.g. if has less dependencies than share) # use ir.model.fields as _fields may not have been populated yet got_share = self.pool['ir.model.fields'].search_count(cr, uid, [ ('name', '=', 'share'), ('model', '=', 'res.groups')], context=context) if got_share: if domain is None: domain = [] # remove non-shared groups in SQL as 'share' may not be in _fields cr.execute("SELECT id FROM res_groups WHERE share IS true") domain.append(('id', 'not in', [gid for (gid,) in cr.fetchall()])) return self.search(cr, uid, domain or []) def get_groups_by_application(self, cr, uid, context=None): """ return all groups classified by application (module category), as a list of pairs: [(app, kind, [group, ...]), ...], where app and group are browse records, and kind is either 'boolean' or 'selection'. Applications are given in sequence order. If kind is 'selection', the groups are given in reverse implication order. """ def linearized(gs): gs = set(gs) # determine sequence order: a group should appear after its implied groups order = dict.fromkeys(gs, 0) for g in gs: for h in gs.intersection(g.trans_implied_ids): order[h] -= 1 # check whether order is total, i.e., sequence orders are distinct if len(set(order.itervalues())) == len(gs): return sorted(gs, key=lambda g: order[g]) return None # classify all groups by application gids = self.get_application_groups(cr, uid, context=context) by_app, others = {}, [] for g in self.browse(cr, uid, gids, context): if g.category_id: by_app.setdefault(g.category_id, []).append(g) else: others.append(g) # build the result res = [] apps = sorted(by_app.iterkeys(), key=lambda a: a.sequence or 0) for app in apps: gs = linearized(by_app[app]) if gs: res.append((app, 'selection', gs)) else: res.append((app, 'boolean', by_app[app])) if others: res.append((False, 'boolean', others)) return res class users_view(osv.osv): _inherit = 'res.users' def create(self, cr, uid, values, context=None): values = self._remove_reified_groups(values) return super(users_view, self).create(cr, uid, values, context) def write(self, cr, uid, ids, values, context=None): values = self._remove_reified_groups(values) return super(users_view, self).write(cr, uid, ids, values, context) def _remove_reified_groups(self, values): """ return `values` without reified group fields """ add, rem = [], [] values1 = {} for key, val in values.iteritems(): if is_boolean_group(key): (add if val else rem).append(get_boolean_group(key)) elif is_selection_groups(key): rem += get_selection_groups(key) if val: add.append(val) else: values1[key] = val if 'groups_id' not in values and (add or rem): # remove group ids in `rem` and add group ids in `add` values1['groups_id'] = zip(repeat(3), rem) + zip(repeat(4), add) return values1 def default_get(self, cr, uid, fields, context=None): group_fields, fields = partition(is_reified_group, fields) fields1 = (fields + ['groups_id']) if group_fields else fields values = super(users_view, self).default_get(cr, uid, fields1, context) self._add_reified_groups(group_fields, values) # add "default_groups_ref" inside the context to set default value for group_id with xml values if 'groups_id' in fields and isinstance(context.get("default_groups_ref"), list): groups = [] ir_model_data = self.pool.get('ir.model.data') for group_xml_id in context["default_groups_ref"]: group_split = group_xml_id.split('.') if len(group_split) != 2: raise osv.except_osv(_('Invalid context value'), _('Invalid context default_groups_ref value (model.name_id) : "%s"') % group_xml_id) try: temp, group_id = ir_model_data.get_object_reference(cr, uid, group_split[0], group_split[1]) except ValueError: group_id = False groups += [group_id] values['groups_id'] = groups return values def read(self, cr, uid, ids, fields=None, context=None, load='_classic_read'): # determine whether reified groups fields are required, and which ones fields1 = fields or self.fields_get(cr, uid, context=context).keys() group_fields, other_fields = partition(is_reified_group, fields1) # read regular fields (other_fields); add 'groups_id' if necessary drop_groups_id = False if group_fields and fields: if 'groups_id' not in other_fields: other_fields.append('groups_id') drop_groups_id = True else: other_fields = fields res = super(users_view, self).read(cr, uid, ids, other_fields, context=context, load=load) # post-process result to add reified group fields if group_fields: for values in (res if isinstance(res, list) else [res]): self._add_reified_groups(group_fields, values) if drop_groups_id: values.pop('groups_id', None) return res def _add_reified_groups(self, fields, values): """ add the given reified group fields into `values` """ gids = set(parse_m2m(values.get('groups_id') or [])) for f in fields: if is_boolean_group(f): values[f] = get_boolean_group(f) in gids elif is_selection_groups(f): selected = [gid for gid in get_selection_groups(f) if gid in gids] values[f] = selected and selected[-1] or False def fields_get(self, cr, uid, allfields=None, context=None, write_access=True, attributes=None): res = super(users_view, self).fields_get(cr, uid, allfields, context, write_access, attributes) # add reified groups fields if uid != SUPERUSER_ID and not self.pool['res.users'].has_group(cr, uid, 'base.group_erp_manager'): return res for app, kind, gs in self.pool['res.groups'].get_groups_by_application(cr, uid, context): if kind == 'selection': # selection group field tips = ['%s: %s' % (g.name, g.comment) for g in gs if g.comment] res[name_selection_groups(map(int, gs))] = { 'type': 'selection', 'string': app and app.name or _('Other'), 'selection': [(False, '')] + [(g.id, g.name) for g in gs], 'help': '\n'.join(tips), 'exportable': False, 'selectable': False, } else: # boolean group fields for g in gs: res[name_boolean_group(g.id)] = { 'type': 'boolean', 'string': g.name, 'help': g.comment, 'exportable': False, 'selectable': False, } return res #---------------------------------------------------------- # change password wizard #---------------------------------------------------------- class change_password_wizard(osv.TransientModel): """ A wizard to manage the change of users' passwords """ _name = "change.password.wizard" _description = "Change Password Wizard" _columns = { 'user_ids': fields.one2many('change.password.user', 'wizard_id', string='Users'), } def _default_user_ids(self, cr, uid, context=None): if context is None: context = {} user_model = self.pool['res.users'] user_ids = context.get('active_model') == 'res.users' and context.get('active_ids') or [] return [ (0, 0, {'user_id': user.id, 'user_login': user.login}) for user in user_model.browse(cr, uid, user_ids, context=context) ] _defaults = { 'user_ids': _default_user_ids, } def change_password_button(self, cr, uid, ids, context=None): wizard = self.browse(cr, uid, ids, context=context)[0] need_reload = any(uid == user.user_id.id for user in wizard.user_ids) line_ids = [user.id for user in wizard.user_ids] self.pool.get('change.password.user').change_password_button(cr, uid, line_ids, context=context) if need_reload: return { 'type': 'ir.actions.client', 'tag': 'reload' } return {'type': 'ir.actions.act_window_close'} class change_password_user(osv.TransientModel): """ A model to configure users in the change password wizard """ _name = 'change.password.user' _description = 'Change Password Wizard User' _columns = { 'wizard_id': fields.many2one('change.password.wizard', string='Wizard', required=True), 'user_id': fields.many2one('res.users', string='User', required=True), 'user_login': fields.char('User Login', readonly=True), 'new_passwd': fields.char('New Password'), } _defaults = { 'new_passwd': '', } def change_password_button(self, cr, uid, ids, context=None): for line in self.browse(cr, uid, ids, context=context): line.user_id.write({'password': line.new_passwd}) # don't keep temporary passwords in the database longer than necessary self.write(cr, uid, ids, {'new_passwd': False}, context=context) # vim:expandtab:smartindent:tabstop=4:softtabstop=4:shiftwidth=4: