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# -*- coding: utf-8 -*- ############################################################################## # # OpenERP, Open Source Management Solution # Copyright (C) 2013 ABF OSIELL (<http://osiell.com>). # # 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 <http://www.gnu.org/licenses/>. # ##############################################################################
from openerp import models, fields, api, modules from openerp.tools.translate import _
FIELDS_BLACKLIST = [ 'id', 'create_uid', 'create_date', 'write_uid', 'write_date', 'display_name', '__last_update', ] # Used for performance, to avoid a dictionary instanciation when we need an # empty dict to simplify algorithms EMPTY_DICT = {}
class DictDiffer(object): """Calculate the difference between two dictionaries as:
(1) items added (2) items removed (3) keys same in both but changed values (4) keys same in both and unchanged values """
def __init__(self, current_dict, past_dict): self.current_dict, self.past_dict = current_dict, past_dict self.set_current = set(current_dict.keys()) self.set_past = set(past_dict.keys()) self.intersect = self.set_current.intersection(self.set_past)
def added(self): return self.set_current - self.intersect
def removed(self): return self.set_past - self.intersect
def changed(self): return set(o for o in self.intersect if self.past_dict[o] != self.current_dict[o])
def unchanged(self): return set(o for o in self.intersect if self.past_dict[o] == self.current_dict[o])
class auditlog_rule(models.Model): _name = 'auditlog.rule' _description = "Auditlog - Rule"
name = fields.Char(u"Name", size=32, required=True) model_id = fields.Many2one( 'ir.model', u"Model", required=True, help=u"Select model for which you want to generate log.") user_ids = fields.Many2many( 'res.users', 'audittail_rules_users', 'user_id', 'rule_id', string=u"Users", help=u"if User is not added then it will applicable for all users") log_read = fields.Boolean( u"Log Reads", help=(u"Select this if you want to keep track of read/open on any " u"record of the model of this rule")) log_write = fields.Boolean( u"Log Writes", default=True, help=(u"Select this if you want to keep track of modification on any " u"record of the model of this rule")) log_unlink = fields.Boolean( u"Log Deletes", default=True, help=(u"Select this if you want to keep track of deletion on any " u"record of the model of this rule")) log_create = fields.Boolean( u"Log Creates", default=True, help=(u"Select this if you want to keep track of creation on any " u"record of the model of this rule")) # log_action = fields.Boolean( # "Log Action", # help=("Select this if you want to keep track of actions on the " # "model of this rule")) # log_workflow = fields.Boolean( # "Log Workflow", # help=("Select this if you want to keep track of workflow on any " # "record of the model of this rule")) state = fields.Selection( [('draft', "Draft"), ('subscribed', "Subscribed")], string=u"State", required=True, default='draft') action_id = fields.Many2one( 'ir.actions.act_window', string="Action")
_sql_constraints = [ ('model_uniq', 'unique(model_id)', ("There is already a rule defined on this model\n" "You cannot define another: please edit the existing one.")) ]
def _register_hook(self, cr, ids=None): """Get all rules and apply them to log method calls.""" super(auditlog_rule, self)._register_hook(cr) if ids is None: ids = self.search(cr, 1, [('state', '=', 'subscribed')]) return self._patch_methods(cr, 1, ids)
@api.multi def _patch_methods(self): """Patch ORM methods of models defined in rules to log their calls.""" updated = False for rule in self: if rule.state != 'subscribed': continue model_model = self.env[rule.model_id.model] # CRUD # -> create check_attr = 'auditlog_ruled_create' if getattr(rule, 'log_create') \ and not hasattr(model_model, check_attr): model_model._patch_method('create', self._make_create()) setattr(model_model, check_attr, True) updated = True # -> read check_attr = 'auditlog_ruled_read' if getattr(rule, 'log_read') \ and not hasattr(model_model, check_attr): model_model._patch_method('read', self._make_read()) setattr(model_model, check_attr, True) updated = True # -> write check_attr = 'auditlog_ruled_write' if getattr(rule, 'log_write') \ and not hasattr(model_model, check_attr): model_model._patch_method('write', self._make_write()) setattr(model_model, check_attr, True) updated = True # -> unlink check_attr = 'auditlog_ruled_unlink' if getattr(rule, 'log_unlink') \ and not hasattr(model_model, check_attr): model_model._patch_method('unlink', self._make_unlink()) setattr(model_model, check_attr, True) updated = True return updated
@api.multi def _revert_methods(self): """Restore original ORM methods of models defined in rules.""" updated = False for rule in self: model_model = self.env[rule.model_id.model] for method in ['create', 'read', 'write', 'unlink']: if getattr(rule, 'log_%s' % method): model_model._revert_method(method) updated = True if updated: modules.registry.RegistryManager.signal_registry_change( self.env.cr.dbname)
# Unable to find a way to declare the `create` method with the new API, # errors occurs with the `_register_hook()` BaseModel method. def create(self, cr, uid, vals, context=None): """Update the registry when a new rule is created.""" res_id = super(auditlog_rule, self).create( cr, uid, vals, context=context) if self._register_hook(cr, [res_id]): modules.registry.RegistryManager.signal_registry_change(cr.dbname) return res_id
# Unable to find a way to declare the `write` method with the new API, # errors occurs with the `_register_hook()` BaseModel method. def write(self, cr, uid, ids, vals, context=None): """Update the registry when existing rules are updated.""" if isinstance(ids, (int, long)): ids = [ids] super(auditlog_rule, self).write(cr, uid, ids, vals, context=context) if self._register_hook(cr, ids): modules.registry.RegistryManager.signal_registry_change(cr.dbname) return True
def _make_create(self): """Instanciate a create method that log its calls.""" @api.model def create(self, vals, **kwargs): rule_model = self.env['auditlog.rule'] new_record = create.origin(self, vals, **kwargs) new_values = dict( (d['id'], d) for d in new_record.sudo().read( list(self._columns))) rule_model.sudo().create_logs( self.env.uid, self._name, new_record.ids, 'create', None, new_values) return new_record return create
def _make_read(self): """Instanciate a read method that log its calls.""" # FIXME: read() seems a bit tricky, improve to handle old/new api
# @api.v7 # def read(self, cr, user, ids, fields=None, context=None, # load='_classic_read', **kwargs): # print "LOG READ", fields, load, kwargs # # avoid loops # if self.env.context.get('auditlog_method_intercepted'): # return read.origin( # self, cr, user, ids, fields, context, load, **kwargs) # # call original method with a modified context # context = dict( # self.env.context, auditlog_method_intercepted=True) # result = read.origin( # self.with_context(context), # cr, user, ids, fields, context, load, **kwargs) # print "RESULT", result # return result
# @api.v8 # def read(self, fields=None, load='_classic_read', **kwargs): # print "LOG READ", fields, load, kwargs # # avoid loops # if self.env.context.get('auditlog_method_intercepted'): # return read.origin(self, fields, load, **kwargs) # # call original method with a modified context # context = dict( # self.env.context, auditlog_method_intercepted=True) # result = read.origin( # self.with_context(context), fields, load, **kwargs) # print "RESULT", result # return result
def read(self, *args, **kwargs): result = read.origin(self, *args, **kwargs) return result return read
def _make_write(self): """Instanciate a write method that log its calls.""" @api.multi def write(self, vals, **kwargs): rule_model = self.env['auditlog.rule'] old_values = dict( (d['id'], d) for d in self.sudo().read(list(self._columns))) result = write.origin(self, vals, **kwargs) new_values = dict( (d['id'], d) for d in self.sudo().read(list(self._columns))) rule_model.sudo().create_logs( self.env.uid, self._name, self.ids, 'write', old_values, new_values) return result return write
def _make_unlink(self): """Instanciate an unlink method that log its calls.""" @api.multi def unlink(self, **kwargs): rule_model = self.env['auditlog.rule'] rule_model.sudo().create_logs( self.env.uid, self._name, self.ids, 'unlink') return unlink.origin(self, **kwargs) return unlink
def create_logs(self, uid, res_model, res_ids, method, old_values=None, new_values=None): """Create logs. `old_values` and `new_values` are dictionnaries, e.g:
{RES_ID: {'FIELD': VALUE, ...}} """
if old_values is None: old_values = EMPTY_DICT if new_values is None: new_values = EMPTY_DICT log_model = self.env['auditlog.log'] ir_model = self.env['ir.model'] model = ir_model.search([('model', '=', res_model)]) for res_id in res_ids: model_model = self.env[res_model] res_name = model_model.browse(res_id).name_get() vals = { 'name': res_name and res_name[0] and res_name[0][1] or False, 'model_id': model.id, 'res_id': res_id, 'method': method, 'user_id': uid, } log = log_model.create(vals) diff = DictDiffer( new_values.get(res_id, EMPTY_DICT), old_values.get(res_id, EMPTY_DICT)) self._create_log_line_on_write( log, diff.changed(), old_values, new_values) self._create_log_line_on_create(log, diff.added(), new_values)
def _create_log_line_on_write( self, log, fields_list, old_values, new_values): """Log field updated on a 'write' operation.""" log_line_model = self.env['auditlog.log.line'] ir_model_field = self.env['ir.model.fields'] for field_name in fields_list: if field_name in FIELDS_BLACKLIST: continue field = ir_model_field.search( [('model_id', '=', log.model_id.id), ('name', '=', field_name)]) log_vals = self._prepare_log_line_vals_on_write( log, field, old_values, new_values) log_line_model.create(log_vals)
def _prepare_log_line_vals_on_write( self, log, field, old_values, new_values): """Prepare the dictionary of values used to create a log line on a
'write' operation. """
vals = { 'field_id': field.id, 'field_name': field.name, 'field_description': field.field_description, 'log_id': log.id, 'old_value': old_values[log.res_id][field.name], 'old_value_text': old_values[log.res_id][field.name], 'new_value': new_values[log.res_id][field.name], 'new_value_text': new_values[log.res_id][field.name], } # for *2many fields, log the name_get if field.relation and '2many' in field.ttype: old_value_text = self.env[field.relation].browse( vals['old_value']).name_get() vals['old_value_text'] = old_value_text new_value_text = self.env[field.relation].browse( vals['new_value']).name_get() vals['new_value_text'] = new_value_text return vals
def _create_log_line_on_create( self, log, fields_list, new_values): """Log field filled on a 'create' operation.""" log_line_model = self.env['auditlog.log.line'] ir_model_field = self.env['ir.model.fields'] for field_name in fields_list: if field_name in FIELDS_BLACKLIST: continue field = ir_model_field.search( [('model_id', '=', log.model_id.id), ('name', '=', field_name)]) log_vals = self._prepare_log_line_vals_on_create( log, field, new_values) log_line_model.create(log_vals)
def _prepare_log_line_vals_on_create(self, log, field, new_values): """Prepare the dictionary of values used to create a log line on a
'create' operation. """
vals = { 'field_id': field.id, 'field_name': field.name, 'field_description': field.field_description, 'log_id': log.id, 'old_value': False, 'old_value_text': False, 'new_value': new_values[log.res_id][field.name], 'new_value_text': new_values[log.res_id][field.name], } if field.relation and '2many' in field.ttype: new_value_text = self.env[field.relation].browse( vals['new_value']).name_get() vals['new_value_text'] = new_value_text return vals
@api.multi def subscribe(self): """Subscribe Rule for auditing changes on model and apply shortcut
to view logs on that model. """
act_window_model = self.env['ir.actions.act_window'] model_data_model = self.env['ir.model.data'] for rule in self: # Create a shortcut to view logs domain = "[('model_id', '=', %s), ('res_id', '=', active_id)]" % ( rule.model_id.id) vals = { 'name': _(u"View logs"), 'res_model': 'auditlog.log', 'src_model': rule.model_id.model, 'domain': domain, } act_window = act_window_model.sudo().create(vals) rule.write({'state': 'subscribed', 'action_id': act_window.id}) keyword = 'client_action_relate' value = 'ir.actions.act_window,%s' % act_window.id model_data_model.sudo().ir_set( 'action', keyword, 'View_log_' + rule.model_id.model, [rule.model_id.model], value, replace=True, isobject=True, xml_id=False) return True
@api.multi def unsubscribe(self): """Unsubscribe Auditing Rule on model.""" act_window_model = self.env['ir.actions.act_window'] ir_values_model = self.env['ir.values'] value = '' # Revert patched methods self._revert_methods() for rule in self: # Remove the shortcut to view logs act_window = act_window_model.search( [('name', '=', 'View Log'), ('res_model', '=', 'auditlog.log'), ('src_model', '=', rule.model_id.model)]) if act_window: value = 'ir.actions.act_window,%s' % act_window.id act_window.unlink() if value: ir_value = ir_values_model.search( [('model', '=', rule.model_id.model), ('value', '=', value)]) if ir_value: ir_value.unlink() self.write({'state': 'draft'}) return True
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