# Authors: # Pavel Zuna # # Copyright (C) 2009 Red Hat # see file 'COPYING' for use and warranty information # # 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; version 2 only # # 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, write to the Free Software # Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA """ Base classes for LDAP plugins. """ import re import json from ipalib import crud, errors, uuid from ipalib import Method, Object from ipalib import Flag, Int, List, Str from ipalib.base import NameSpace from ipalib.cli import to_cli, from_cli from ipalib import output from ipalib.text import _ from ipalib.util import json_serialize def validate_add_attribute(ugettext, attr): validate_attribute(ugettext, 'addattr', attr) def validate_set_attribute(ugettext, attr): validate_attribute(ugettext, 'setattr', attr) def validate_attribute(ugettext, name, attr): m = re.match("\s*(.*?)\s*=\s*(.*?)\s*$", attr) if not m or len(m.groups()) != 2: raise errors.ValidationError(name=name, error='Invalid format. Should be name=value') def get_attributes(attrs): """ Given a list of values in the form name=value, return a list of name. """ attrlist=[] if attrs: for attr in attrs: m = re.match("\s*(.*?)\s*=\s*(.*?)\s*$", attr) attrlist.append(str(m.group(1)).lower()) return attrlist class LDAPObject(Object): """ Object representing a LDAP entry. """ backend_name = 'ldap2' parent_object = '' container_dn = '' normalize_dn = True object_name = 'entry' object_name_plural = 'entries' object_class = [] object_class_config = None search_attributes = [] search_attributes_config = None default_attributes = [] hidden_attributes = ['objectclass', 'aci'] uuid_attribute = '' attribute_members = {} container_not_found_msg = _('container entry (%(container)s) not found') parent_not_found_msg = _('%(parent)s: %(oname)s not found') object_not_found_msg = _('%(pkey)s: %(oname)s not found') def get_dn(self, *keys, **kwargs): if self.parent_object: parent_dn = self.api.Object[self.parent_object].get_dn(*keys[:-1]) else: parent_dn = self.container_dn if self.primary_key and keys[-1] is not None: return self.backend.make_dn_from_attr( self.primary_key.name, keys[-1], parent_dn ) return parent_dn def get_primary_key_from_dn(self, dn): return dn[len(self.primary_key.name) + 1:dn.find(',')] def get_ancestor_primary_keys(self): if self.parent_object: parent_obj = self.api.Object[self.parent_object] for key in parent_obj.get_ancestor_primary_keys(): yield key if parent_obj.primary_key: yield parent_obj.primary_key.clone(query=True) def convert_attribute_members(self, entry_attrs, *keys, **options): if options.get('raw', False): return for attr in self.attribute_members: for member in entry_attrs.setdefault(attr, []): for ldap_obj_name in self.attribute_members[attr]: ldap_obj = self.api.Object[ldap_obj_name] if member.find(ldap_obj.container_dn) > 0: new_attr = '%s_%s' % (attr, ldap_obj.object_name) entry_attrs.setdefault(new_attr, []).append( ldap_obj.get_primary_key_from_dn(member) ) del entry_attrs[attr] def handle_not_found(self, *keys): pkey = '' if self.primary_key: pkey = keys[-1] raise errors.NotFound( reason=self.object_not_found_msg % { 'pkey': pkey, 'oname': self.object_name, } ) # list of attributes we want exported to JSON json_friendly_attributes = ( 'parent_object', 'container_dn', 'object_name', 'object_name_plural', 'object_class', 'object_class_config', 'default_attributes', 'label', 'hidden_attributes', 'uuid_attribute', 'attribute_members', 'name', 'takes_params', ) def __json__(self): json_dict = dict( (a, getattr(self, a)) for a in self.json_friendly_attributes ) if self.primary_key: json_dict['primary_key'] = self.primary_key.name json_dict['methods'] = [m for m in self.methods] return json_dict # Options used by create and update. _attr_options = ( Str('addattr*', validate_add_attribute, cli_name='addattr', doc=_('Add an attribute/value pair. Format is attr=value'), exclude='webui', ), Str('setattr*', validate_set_attribute, cli_name='setattr', doc=_('Set an attribute to an name/value pair. Format is attr=value'), exclude='webui', ), ) class CallbackInterface(Method): """ Callback registration interface """ def __init__(self): if not hasattr(self.__class__, 'PRE_CALLBACKS'): self.__class__.PRE_CALLBACKS = [] if not hasattr(self.__class__, 'POST_CALLBACKS'): self.__class__.POST_CALLBACKS = [] if not hasattr(self.__class__, 'EXC_CALLBACKS'): self.__class__.EXC_CALLBACKS = [] if hasattr(self, 'pre_callback'): self.register_pre_callback(self.pre_callback, True) if hasattr(self, 'post_callback'): self.register_post_callback(self.post_callback, True) if hasattr(self, 'exc_callback'): self.register_exc_callback(self.exc_callback, True) super(Method, self).__init__() @classmethod def register_pre_callback(klass, callback, first=False): assert callable(callback) if not hasattr(klass, 'PRE_CALLBACKS'): klass.PRE_CALLBACKS = [] if first: klass.PRE_CALLBACKS.insert(0, callback) else: klass.PRE_CALLBACKS.append(callback) @classmethod def register_post_callback(klass, callback, first=False): assert callable(callback) if not hasattr(klass, 'POST_CALLBACKS'): klass.POST_CALLBACKS = [] if first: klass.POST_CALLBACKS.insert(0, callback) else: klass.POST_CALLBACKS.append(callback) @classmethod def register_exc_callback(klass, callback, first=False): assert callable(callback) if not hasattr(klass, 'EXC_CALLBACKS'): klass.EXC_CALLBACKS = [] if first: klass.EXC_CALLBACKS.insert(0, callback) else: klass.EXC_CALLBACKS.append(callback) def _call_exc_callbacks(self, args, options, exc, call_func, *call_args, **call_kwargs): rv = None for i in xrange(len(getattr(self, 'EXC_CALLBACKS', []))): callback = self.EXC_CALLBACKS[i] try: if hasattr(callback, 'im_self'): rv = callback( args, options, exc, call_func, *call_args, **call_kwargs ) else: rv = callback( self, args, options, exc, call_func, *call_args, **call_kwargs ) except errors.ExecutionError, e: if (i + 1) < len(self.EXC_CALLBACKS): exc = e continue raise e return rv class LDAPCreate(CallbackInterface, crud.Create): """ Create a new entry in LDAP. """ takes_options = _attr_options def get_args(self): for key in self.obj.get_ancestor_primary_keys(): yield key if self.obj.primary_key: yield self.obj.primary_key.clone(attribute=True) for arg in super(crud.Create, self).get_args(): yield arg def execute(self, *keys, **options): ldap = self.obj.backend dn = self.obj.get_dn(*keys, **options) entry_attrs = self.args_options_2_entry(*keys, **options) entry_attrs['objectclass'] = self.obj.object_class if self.obj.object_class_config: config = ldap.get_ipa_config()[1] entry_attrs['objectclass'] = config.get( self.obj.object_class_config, entry_attrs['objectclass'] ) if self.obj.uuid_attribute: entry_attrs[self.obj.uuid_attribute] = str(uuid.uuid1()) if options.get('all', False): attrs_list = ['*'] else: attrs_list = list( set(self.obj.default_attributes + entry_attrs.keys()) ) for callback in self.PRE_CALLBACKS: if hasattr(callback, 'im_self'): dn = callback( ldap, dn, entry_attrs, attrs_list, *keys, **options ) else: dn = callback( self, ldap, dn, entry_attrs, attrs_list, *keys, **options ) try: ldap.add_entry(dn, entry_attrs, normalize=self.obj.normalize_dn) except errors.ExecutionError, e: try: self._call_exc_callbacks( keys, options, e, ldap.add_entry, dn, entry_attrs, normalize=self.obj.normalize_dn ) except errors.NotFound: parent = self.obj.parent_object if parent: raise errors.NotFound( reason=self.obj.parent_not_found_msg % { 'parent': keys[-2], 'oname': self.api.Object[parent].object_name, } ) raise errors.NotFound( reason=self.obj.container_not_found_msg % { 'container': self.obj.container_dn, } ) try: (dn, entry_attrs) = ldap.get_entry( dn, attrs_list, normalize=self.obj.normalize_dn ) except errors.ExecutionError, e: try: (dn, entry_attrs) = self._call_exc_callbacks( keys, options, e, ldap.get_entry, dn, attrs_list, normalize=self.obj.normalize_dn ) except errors.NotFound: self.obj.handle_not_found(*keys) for callback in self.POST_CALLBACKS: if hasattr(callback, 'im_self'): dn = callback(ldap, dn, entry_attrs, *keys, **options) else: dn = callback(self, ldap, dn, entry_attrs, *keys, **options) entry_attrs['dn'] = dn self.obj.convert_attribute_members(entry_attrs, *keys, **options) if self.obj.primary_key and keys[-1] is not None: return dict(result=entry_attrs, value=keys[-1]) return dict(result=entry_attrs, value=u'') def pre_callback(self, ldap, dn, entry_attrs, attrs_list, *keys, **options): return dn def post_callback(self, ldap, dn, entry_attrs, *keys, **options): return dn def exc_callback(self, keys, options, exc, call_func, *call_args, **call_kwargs): raise exc class LDAPQuery(CallbackInterface, crud.PKQuery): """ Base class for commands that need to retrieve an existing entry. """ def get_args(self): for key in self.obj.get_ancestor_primary_keys(): yield key if self.obj.primary_key: yield self.obj.primary_key.clone(attribute=True, query=True) for arg in super(crud.PKQuery, self).get_args(): yield arg class LDAPMultiQuery(LDAPQuery): """ Base class for commands that need to retrieve one or more existing entries. """ def get_args(self): for key in self.obj.get_ancestor_primary_keys(): yield key if self.obj.primary_key: yield self.obj.primary_key.clone( attribute=True, query=True, multivalue=True ) for arg in super(crud.PKQuery, self).get_args(): yield arg class LDAPRetrieve(LDAPQuery): """ Retrieve an LDAP entry. """ has_output = output.standard_entry def execute(self, *keys, **options): ldap = self.obj.backend dn = self.obj.get_dn(*keys, **options) if options.get('all', False): attrs_list = ['*'] else: attrs_list = list(self.obj.default_attributes) for callback in self.PRE_CALLBACKS: if hasattr(callback, 'im_self'): dn = callback(ldap, dn, attrs_list, *keys, **options) else: dn = callback(self, ldap, dn, attrs_list, *keys, **options) try: (dn, entry_attrs) = ldap.get_entry( dn, attrs_list, normalize=self.obj.normalize_dn ) except errors.ExecutionError, e: try: (dn, entry_attrs) = self._call_exc_callbacks( keys, options, e, ldap.get_entry, dn, attrs_list, normalize=self.obj.normalize_dn ) except errors.NotFound: self.obj.handle_not_found(*keys) for callback in self.POST_CALLBACKS: if hasattr(callback, 'im_self'): dn = callback(ldap, dn, entry_attrs, *keys, **options) else: dn = callback(self, ldap, dn, entry_attrs, *keys, **options) self.obj.convert_attribute_members(entry_attrs, *keys, **options) entry_attrs['dn'] = dn if self.obj.primary_key and keys[-1] is not None: return dict(result=entry_attrs, value=keys[-1]) return dict(result=entry_attrs, value=u'') def pre_callback(self, ldap, dn, attrs_list, *keys, **options): return dn def post_callback(self, ldap, dn, entry_attrs, *keys, **options): return dn def exc_callback(self, keys, options, exc, call_func, *call_args, **call_kwargs): raise exc class LDAPUpdate(LDAPQuery, crud.Update): """ Update an LDAP entry. """ takes_options = _attr_options def execute(self, *keys, **options): ldap = self.obj.backend if len(options) == 2: # 'all' and 'raw' are always sent raise errors.EmptyModlist() dn = self.obj.get_dn(*keys, **options) entry_attrs = self.args_options_2_entry(**options) """ Some special handling is needed because we need to update the values here rather than letting ldap.update_entry() do the work. We have to do the work of adding new values to an existing attribute because if we pass just what is addded only the new values get set. """ if 'addattr' in options: setset = set(get_attributes(options.get('setattr', []))) addset = set(get_attributes(options.get('addattr', []))) difflist = list(addset.difference(setset)) if difflist: try: (dn, old_entry) = ldap.get_entry( dn, difflist, normalize=self.obj.normalize_dn ) except errors.ExecutionError, e: try: (dn, old_entry) = self._call_exc_callbacks( keys, options, e, ldap.get_entry, dn, attrs_list, normalize=self.obj.normalize_dn ) except errors.NotFound: self.obj.handle_not_found(*keys) for a in old_entry: if not isinstance(entry_attrs[a], (list, tuple)): entry_attrs[a] = [entry_attrs[a]] entry_attrs[a] += old_entry[a] if options.get('all', False): attrs_list = ['*'] else: attrs_list = list( set(self.obj.default_attributes + entry_attrs.keys()) ) for callback in self.PRE_CALLBACKS: if hasattr(callback, 'im_self'): dn = callback( ldap, dn, entry_attrs, attrs_list, *keys, **options ) else: dn = callback( self, ldap, dn, entry_attrs, attrs_list, *keys, **options ) try: ldap.update_entry(dn, entry_attrs, normalize=self.obj.normalize_dn) except errors.ExecutionError, e: try: self._call_exc_callbacks( keys, options, e, ldap.update_entry, dn, entry_attrs, normalize=self.obj.normalize_dn ) except errors.NotFound: self.obj.handle_not_found(*keys) try: (dn, entry_attrs) = ldap.get_entry( dn, attrs_list, normalize=self.obj.normalize_dn ) except errors.ExecutionError, e: try: (dn, entry_attrs) = self._call_exc_callbacks( keys, options, e, ldap.get_entry, dn, attrs_list, normalize=self.obj.normalize_dn ) except errors.NotFound: raise errors.MidairCollision( format=_('the entry was deleted while being modified') ) for callback in self.POST_CALLBACKS: if hasattr(callback, 'im_self'): dn = callback(ldap, dn, entry_attrs, *keys, **options) else: dn = callback(self, ldap, dn, entry_attrs, *keys, **options) self.obj.convert_attribute_members(entry_attrs, *keys, **options) if self.obj.primary_key and keys[-1] is not None: return dict(result=entry_attrs, value=keys[-1]) return dict(result=entry_attrs, value=u'') def pre_callback(self, ldap, dn, entry_attrs, attrs_list, *keys, **options): return dn def post_callback(self, ldap, dn, entry_attrs, *keys, **options): return dn def exc_callback(self, keys, options, exc, call_func, *call_args, **call_kwargs): raise exc class LDAPDelete(LDAPMultiQuery): """ Delete an LDAP entry and all of its direct subentries. """ has_output = output.standard_delete def execute(self, *keys, **options): ldap = self.obj.backend def delete_entry(pkey): nkeys = keys[:-1] + (pkey, ) dn = self.obj.get_dn(*nkeys, **options) for callback in self.PRE_CALLBACKS: if hasattr(callback, 'im_self'): dn = callback(ldap, dn, *nkeys, **options) else: dn = callback(self, ldap, dn, *nkeys, **options) def delete_subtree(base_dn): truncated = True while truncated: try: (subentries, truncated) = ldap.find_entries( None, [''], base_dn, ldap.SCOPE_ONELEVEL ) except errors.NotFound: break else: for (dn_, entry_attrs) in subentries: delete_subtree(dn_) try: ldap.delete_entry(base_dn, normalize=self.obj.normalize_dn) except errors.ExecutionError, e: try: self._call_exc_callbacks( nkeys, options, e, ldap.delete_entry, base_dn, normalize=self.obj.normalize_dn ) except errors.NotFound: self.obj.handle_not_found(*nkeys) delete_subtree(dn) for callback in self.POST_CALLBACKS: if hasattr(callback, 'im_self'): result = callback(ldap, dn, *nkeys, **options) else: result = callback(self, ldap, dn, *nkeys, **options) return result if not self.obj.primary_key or not isinstance(keys[-1], (list, tuple)): keys = keys[:-1] + (keys[-1], ) deleted = [] failed = [] result = True for pkey in keys[-1]: try: if not delete_entry(pkey): result = False except errors.ExecutionError: failed.append(pkey) else: deleted.append(pkey) if self.obj.primary_key and keys[-1] is not None: return dict(result=result, value=u','.join(deleted)) return dict(result=result, value=u'') def pre_callback(self, ldap, dn, *keys, **options): return dn def post_callback(self, ldap, dn, *keys, **options): return True def exc_callback(self, keys, options, exc, call_func, *call_args, **call_kwargs): raise exc class LDAPModMember(LDAPQuery): """ Base class for member manipulation. """ member_attributes = ['member'] member_param_doc = 'comma-separated list of %s' member_count_out = ('%i member processed.', '%i members processed.') def get_options(self): for option in super(LDAPModMember, self).get_options(): yield option for attr in self.member_attributes: for ldap_obj_name in self.obj.attribute_members[attr]: ldap_obj = self.api.Object[ldap_obj_name] name = to_cli(ldap_obj_name) doc = self.member_param_doc % ldap_obj.object_name_plural yield List('%s?' % name, cli_name='%ss' % name, doc=doc, label=ldap_obj.object_name_plural) def get_member_dns(self, **options): dns = {} failed = {} for attr in self.member_attributes: dns[attr] = {} failed[attr] = {} for ldap_obj_name in self.obj.attribute_members[attr]: dns[attr][ldap_obj_name] = [] failed[attr][ldap_obj_name] = [] for name in options.get(to_cli(ldap_obj_name), []): if not name: continue ldap_obj = self.api.Object[ldap_obj_name] try: dns[attr][ldap_obj_name].append(ldap_obj.get_dn(name)) except errors.PublicError: failed[attr][ldap_obj_name].append(name) return (dns, failed) class LDAPAddMember(LDAPModMember): """ Add other LDAP entries to members. """ member_param_doc = 'comma-separated list of %s to add' member_count_out = ('%i member added.', '%i members added.') has_output = ( output.Entry('result'), output.Output('failed', type=dict, doc=_('Members that could not be added'), ), output.Output('completed', type=int, doc=_('Number of members added'), ), ) has_output_params = ( Str('member', label=_('Failed members'), ), ) def execute(self, *keys, **options): ldap = self.obj.backend (member_dns, failed) = self.get_member_dns(**options) dn = self.obj.get_dn(*keys, **options) for callback in self.PRE_CALLBACKS: if hasattr(callback, 'im_self'): dn = callback(ldap, dn, member_dns, failed, *keys, **options) else: dn = callback( self, ldap, dn, member_dns, failed, *keys, **options ) completed = 0 for (attr, objs) in member_dns.iteritems(): for ldap_obj_name in objs: for m_dn in member_dns[attr][ldap_obj_name]: if not m_dn: continue try: ldap.add_entry_to_group(m_dn, dn, attr) except errors.PublicError: ldap_obj = self.api.Object[ldap_obj_name] failed[attr][ldap_obj_name].append( ldap_obj.get_primary_key_from_dn(m_dn) ) else: completed += 1 if options.get('all', False): attrs_list = ['*'] else: attrs_list = list( set(self.obj.default_attributes + member_dns.keys()) ) try: (dn, entry_attrs) = ldap.get_entry( dn, attrs_list, normalize=self.obj.normalize_dn ) except errors.ExecutionError, e: try: (dn, entry_attrs) = self._call_exc_callbacks( keys, options, e, ldap.get_entry, dn, attrs_list, normalize=self.obj.normalize_dn ) except errors.NotFound: self.obj.handle_not_found(*keys) for callback in self.POST_CALLBACKS: if hasattr(callback, 'im_self'): (completed, dn) = callback( ldap, completed, failed, dn, entry_attrs, *keys, **options ) else: (completed, dn) = callback( self, ldap, completed, failed, dn, entry_attrs, *keys, **options ) entry_attrs['dn'] = dn self.obj.convert_attribute_members(entry_attrs, *keys, **options) return dict( completed=completed, failed=failed, result=entry_attrs, ) def pre_callback(self, ldap, dn, found, not_found, *keys, **options): return dn def post_callback(self, ldap, completed, failed, dn, entry_attrs, *keys, **options): return (completed, dn) def exc_callback(self, keys, options, exc, call_func, *call_args, **call_kwargs): raise exc class LDAPRemoveMember(LDAPModMember): """ Remove LDAP entries from members. """ member_param_doc = 'comma-separated list of %s to remove' member_count_out = ('%i member removed.', '%i members removed.') has_output = ( output.Entry('result'), output.Output('failed', type=dict, doc=_('Members that could not be removed'), ), output.Output('completed', type=int, doc=_('Number of members removed'), ), ) has_output_params = ( Str('member', label=_('Failed members'), ), ) def execute(self, *keys, **options): ldap = self.obj.backend (member_dns, failed) = self.get_member_dns(**options) dn = self.obj.get_dn(*keys, **options) for callback in self.PRE_CALLBACKS: if hasattr(callback, 'im_self'): dn = callback(ldap, dn, member_dns, failed, *keys, **options) else: dn = callback( self, ldap, dn, member_dns, failed, *keys, **options ) completed = 0 for (attr, objs) in member_dns.iteritems(): for ldap_obj_name in objs: for m_dn in member_dns[attr][ldap_obj_name]: if not m_dn: continue try: ldap.remove_entry_from_group(m_dn, dn, attr) except errors.PublicError: ldap_obj = self.api.Object[ldap_obj_name] failed[attr][ldap_obj_name].append( ldap_obj.get_primary_key_from_dn(m_dn) ) else: completed += 1 if options.get('all', False): attrs_list = ['*'] else: attrs_list = list( set(self.obj.default_attributes + member_dns.keys()) ) try: (dn, entry_attrs) = ldap.get_entry( dn, attrs_list, normalize=self.obj.normalize_dn ) except errors.ExecutionError, e: try: (dn, entry_attrs) = self._call_exc_callbacks( keys, options, e, ldap.get_entry, dn, attrs_list, normalize=self.obj.normalize_dn ) except errors.NotFound: self.obj.handle_not_found(*keys) for callback in self.POST_CALLBACKS: if hasattr(callback, 'im_self'): (completed, dn) = callback( ldap, completed, failed, dn, entry_attrs, *keys, **options ) else: (completed, dn) = callback( self, ldap, completed, failed, dn, entry_attrs, *keys, **options ) entry_attrs['dn'] = dn self.obj.convert_attribute_members(entry_attrs, *keys, **options) return dict( completed=completed, failed=failed, result=entry_attrs, ) def pre_callback(self, ldap, dn, found, not_found, *keys, **options): return dn def post_callback(self, ldap, completed, failed, dn, entry_attrs, *keys, **options): return (completed, dn) def exc_callback(self, keys, options, exc, call_func, *call_args, **call_kwargs): raise exc class LDAPSearch(CallbackInterface, crud.Search): """ Retrieve all LDAP entries matching the given criteria. """ takes_options = ( Int('timelimit?', label=_('Time Limit'), doc=_('Time limit of search in seconds'), flags=['no_display'], minvalue=0, autofill=False, ), Int('sizelimit?', label=_('Size Limit'), doc=_('Maximum number of entries returned'), flags=['no_display'], minvalue=0, autofill=False, ), ) def get_args(self): for key in self.obj.get_ancestor_primary_keys(): yield key yield Str('criteria?') for arg in super(crud.Search, self).get_args(): yield arg def get_options(self): for option in super(LDAPSearch, self).get_options(): yield option def execute(self, *args, **options): ldap = self.obj.backend term = args[-1] if self.obj.parent_object: base_dn = self.api.Object[self.obj.parent_object].get_dn(*args[:-1]) else: base_dn = self.obj.container_dn search_kw = self.args_options_2_entry(**options) if options.get('all', False): attrs_list = ['*'] else: attrs_list = list( set(self.obj.default_attributes + search_kw.keys()) ) if self.obj.search_attributes: search_attrs = self.obj.search_attributes else: search_attrs = self.obj.default_attributes if self.obj.search_attributes_config: config = ldap.get_ipa_config()[1] config_attrs = config.get( self.obj.search_attributes_config, []) if len(config_attrs) == 1 and ( isinstance(config_attrs[0], basestring)): search_attrs = config_attrs[0].split(',') search_kw['objectclass'] = self.obj.object_class attr_filter = ldap.make_filter(search_kw, rules=ldap.MATCH_ALL) search_kw = {} for a in search_attrs: search_kw[a] = term term_filter = ldap.make_filter(search_kw, exact=False) filter = ldap.combine_filters( (term_filter, attr_filter), rules=ldap.MATCH_ALL ) for callback in self.PRE_CALLBACKS: if hasattr(callback, 'im_self'): filter = callback( ldap, filter, attrs_list, base_dn, *args, **options ) else: filter = callback( self, ldap, filter, attrs_list, base_dn, *args, **options ) try: (entries, truncated) = ldap.find_entries( filter, attrs_list, base_dn, scope=ldap.SCOPE_ONELEVEL, time_limit=options.get('timelimit', None), size_limit=options.get('sizelimit', None) ) except errors.ExecutionError, e: try: (entries, truncated) = self._call_exc_callbacks( args, options, e, ldap.find_entries, filter, attrs_list, base_dn, scoope=ldap.SCOPE_ONELEVEL, normalize=self.obj.normalize_dn ) except errors.NotFound: (entries, truncated) = ([], False) for callback in self.POST_CALLBACKS: if hasattr(callback, 'im_self'): callback(ldap, entries, truncated, *args, **options) else: callback(self, ldap, entries, truncated, *args, **options) if not options.get('raw', False): for e in entries: self.obj.convert_attribute_members(e[1], *args, **options) for e in entries: e[1]['dn'] = e[0] entries = [e for (dn, e) in entries] return dict( result=entries, count=len(entries), truncated=truncated, ) def pre_callback(self, ldap, filter, attrs_list, base_dn, *args, **options): return filter def post_callback(self, ldap, entries, truncated, *args, **options): pass def exc_callback(self, args, options, exc, call_func, *call_args, **call_kwargs): raise exc