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Your IP : 216.73.216.11
"""
"""
# Created on 2014.01.06
#
# Author: Giovanni Cannata
#
# Copyright 2014 - 2020 Giovanni Cannata
#
# This file is part of ldap3.
#
# ldap3 is free software: you can redistribute it and/or modify
# it under the terms of the GNU Lesser General Public License as published
# by the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# ldap3 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 Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public License
# along with ldap3 in the COPYING and COPYING.LESSER files.
# If not, see <http://www.gnu.org/licenses/>.
from collections import namedtuple
from copy import deepcopy
from datetime import datetime
from os import linesep
from time import sleep
from . import STATUS_VIRTUAL, STATUS_READ, STATUS_WRITABLE
from .. import SUBTREE, LEVEL, DEREF_ALWAYS, DEREF_NEVER, BASE, SEQUENCE_TYPES, STRING_TYPES, get_config_parameter
from ..abstract import STATUS_PENDING_CHANGES
from .attribute import Attribute, OperationalAttribute, WritableAttribute
from .attrDef import AttrDef
from .objectDef import ObjectDef
from .entry import Entry, WritableEntry
from ..core.exceptions import LDAPCursorError, LDAPObjectDereferenceError
from ..core.results import RESULT_SUCCESS
from ..utils.ciDict import CaseInsensitiveWithAliasDict
from ..utils.dn import safe_dn, safe_rdn
from ..utils.conv import to_raw
from ..utils.config import get_config_parameter
from ..utils.log import log, log_enabled, ERROR, BASIC, PROTOCOL, EXTENDED
from ..protocol.oid import ATTRIBUTE_DIRECTORY_OPERATION, ATTRIBUTE_DISTRIBUTED_OPERATION, ATTRIBUTE_DSA_OPERATION, CLASS_AUXILIARY
Operation = namedtuple('Operation', ('request', 'result', 'response'))
def _ret_search_value(value):
return value[0] + '=' + value[1:] if value[0] in '<>~' and value[1] != '=' else value
def _create_query_dict(query_text):
"""
Create a dictionary with query key:value definitions
query_text is a comma delimited key:value sequence
"""
query_dict = dict()
if query_text:
for arg_value_str in query_text.split(','):
if ':' in arg_value_str:
arg_value_list = arg_value_str.split(':')
query_dict[arg_value_list[0].strip()] = arg_value_list[1].strip()
return query_dict
class Cursor(object):
# entry_class and attribute_class define the type of entry and attribute used by the cursor
# entry_initial_status defines the initial status of a entry
# entry_class = Entry, must be defined in subclasses
# attribute_class = Attribute, must be defined in subclasses
# entry_initial_status = STATUS, must be defined in subclasses
def __init__(self, connection, object_def, get_operational_attributes=False, attributes=None, controls=None, auxiliary_class=None):
conf_attributes_excluded_from_object_def = [v.lower() for v in get_config_parameter('ATTRIBUTES_EXCLUDED_FROM_OBJECT_DEF')]
self.connection = connection
self.get_operational_attributes = get_operational_attributes
if connection._deferred_bind or connection._deferred_open: # probably a lazy connection, tries to bind
connection._fire_deferred()
if isinstance(object_def, (STRING_TYPES, SEQUENCE_TYPES)):
if connection.closed: # try to open connection if closed to read schema
connection.bind()
object_def = ObjectDef(object_def, connection.server.schema, auxiliary_class=auxiliary_class)
self.definition = object_def
if attributes: # checks if requested attributes are defined in ObjectDef
not_defined_attributes = []
if isinstance(attributes, STRING_TYPES):
attributes = [attributes]
for attribute in attributes:
if attribute not in self.definition._attributes and attribute.lower() not in conf_attributes_excluded_from_object_def:
not_defined_attributes.append(attribute)
if not_defined_attributes:
error_message = 'Attributes \'%s\' non in definition' % ', '.join(not_defined_attributes)
if log_enabled(ERROR):
log(ERROR, '%s for <%s>', error_message, self)
raise LDAPCursorError(error_message)
self.attributes = set(attributes) if attributes else set([attr.name for attr in self.definition])
self.controls = controls
self.execution_time = None
self.entries = []
self.schema = self.connection.server.schema
self._do_not_reset = False # used for refreshing entry in entry_refresh() without removing all entries from the Cursor
self._operation_history = list() # a list storing all the requests, results and responses for the last cursor operation
def __repr__(self):
r = 'CURSOR : ' + self.__class__.__name__ + linesep
r += 'CONN : ' + str(self.connection) + linesep
r += 'DEFS : ' + ', '.join(self.definition._object_class)
if self.definition._auxiliary_class:
r += ' [AUX: ' + ', '.join(self.definition._auxiliary_class) + ']'
r += linesep
# for attr_def in sorted(self.definition):
# r += (attr_def.key if attr_def.key == attr_def.name else (attr_def.key + ' <' + attr_def.name + '>')) + ', '
# if r[-2] == ',':
# r = r[:-2]
# r += ']' + linesep
if hasattr(self, 'attributes'):
r += 'ATTRS : ' + repr(sorted(self.attributes)) + (' [OPERATIONAL]' if self.get_operational_attributes else '') + linesep
if isinstance(self, Reader):
if hasattr(self, 'base'):
r += 'BASE : ' + repr(self.base) + (' [SUB]' if self.sub_tree else ' [LEVEL]') + linesep
if hasattr(self, '_query') and self._query:
r += 'QUERY : ' + repr(self._query) + ('' if '(' in self._query else (' [AND]' if self.components_in_and else ' [OR]')) + linesep
if hasattr(self, 'validated_query') and self.validated_query:
r += 'PARSED : ' + repr(self.validated_query) + ('' if '(' in self._query else (' [AND]' if self.components_in_and else ' [OR]')) + linesep
if hasattr(self, 'query_filter') and self.query_filter:
r += 'FILTER : ' + repr(self.query_filter) + linesep
if hasattr(self, 'execution_time') and self.execution_time:
r += 'ENTRIES: ' + str(len(self.entries))
r += ' [executed at: ' + str(self.execution_time.isoformat()) + ']' + linesep
if self.failed:
r += 'LAST OPERATION FAILED [' + str(len(self.errors)) + ' failure' + ('s' if len(self.errors) > 1 else '') + ' at operation' + ('s ' if len(self.errors) > 1 else ' ') + ', '.join([str(i) for i, error in enumerate(self.operations) if error.result['result'] != RESULT_SUCCESS]) + ']'
return r
def __str__(self):
return self.__repr__()
def __iter__(self):
return self.entries.__iter__()
def __getitem__(self, item):
"""Return indexed item, if index is not found then try to sequentially search in DN of entries.
If only one entry is found return it else raise a KeyError exception. The exception message
includes the number of entries that matches, if less than 10 entries match then show the DNs
in the exception message.
"""
try:
return self.entries[item]
except TypeError:
pass
if isinstance(item, STRING_TYPES):
found = self.match_dn(item)
if len(found) == 1:
return found[0]
elif len(found) > 1:
error_message = 'Multiple entries found: %d entries match the text in dn' % len(found) + ('' if len(found) > 10 else (' [' + '; '.join([e.entry_dn for e in found]) + ']'))
if log_enabled(ERROR):
log(ERROR, '%s for <%s>', error_message, self)
raise KeyError(error_message)
error_message = 'no entry found'
if log_enabled(ERROR):
log(ERROR, '%s for <%s>', error_message, self)
raise KeyError(error_message)
def __len__(self):
return len(self.entries)
if str is not bytes: # Python 3
def __bool__(self): # needed to make the cursor appears as existing in "if cursor:" even if there are no entries
return True
else: # Python 2
def __nonzero__(self):
return True
def _get_attributes(self, response, attr_defs, entry):
"""Assign the result of the LDAP query to the Entry object dictionary.
If the optional 'post_query' callable is present in the AttrDef it is called with each value of the attribute and the callable result is stored in the attribute.
Returns the default value for missing attributes.
If the 'dereference_dn' in AttrDef is a ObjectDef then the attribute values are treated as distinguished name and the relevant entry is retrieved and stored in the attribute value.
"""
conf_operational_attribute_prefix = get_config_parameter('ABSTRACTION_OPERATIONAL_ATTRIBUTE_PREFIX')
conf_attributes_excluded_from_object_def = [v.lower() for v in get_config_parameter('ATTRIBUTES_EXCLUDED_FROM_OBJECT_DEF')]
attributes = CaseInsensitiveWithAliasDict()
used_attribute_names = set()
for attr in attr_defs:
attr_def = attr_defs[attr]
attribute_name = None
for attr_name in response['attributes']:
if attr_def.name.lower() == attr_name.lower():
attribute_name = attr_name
break
if attribute_name or attr_def.default is not NotImplemented: # attribute value found in result or default value present - NotImplemented allows use of None as default
attribute = self.attribute_class(attr_def, entry, self)
attribute.response = response
attribute.raw_values = response['raw_attributes'][attribute_name] if attribute_name else None
if attr_def.post_query and attr_def.name in response['attributes'] and response['raw_attributes'] != list():
attribute.values = attr_def.post_query(attr_def.key, response['attributes'][attribute_name])
else:
if attr_def.default is NotImplemented or (attribute_name and response['raw_attributes'][attribute_name] != list()):
attribute.values = response['attributes'][attribute_name]
else:
attribute.values = attr_def.default if isinstance(attr_def.default, SEQUENCE_TYPES) else [attr_def.default]
if not isinstance(attribute.values, list): # force attribute values to list (if attribute is single-valued)
attribute.values = [attribute.values]
if attr_def.dereference_dn: # try to get object referenced in value
if attribute.values:
temp_reader = Reader(self.connection, attr_def.dereference_dn, base='', get_operational_attributes=self.get_operational_attributes, controls=self.controls)
temp_values = []
for element in attribute.values:
if entry.entry_dn != element:
temp_values.append(temp_reader.search_object(element))
else:
error_message = 'object %s is referencing itself in the \'%s\' attribute' % (entry.entry_dn, attribute.definition.name)
if log_enabled(ERROR):
log(ERROR, '%s for <%s>', error_message, self)
raise LDAPObjectDereferenceError(error_message)
del temp_reader # remove the temporary Reader
attribute.values = temp_values
attributes[attribute.key] = attribute
if attribute.other_names:
attributes.set_alias(attribute.key, attribute.other_names)
if attr_def.other_names:
attributes.set_alias(attribute.key, attr_def.other_names)
used_attribute_names.add(attribute_name)
if self.attributes:
used_attribute_names.update(self.attributes)
for attribute_name in response['attributes']:
if attribute_name not in used_attribute_names:
operational_attribute = False
# check if the type is an operational attribute
if attribute_name in self.schema.attribute_types:
if self.schema.attribute_types[attribute_name].no_user_modification or self.schema.attribute_types[attribute_name].usage in [ATTRIBUTE_DIRECTORY_OPERATION, ATTRIBUTE_DISTRIBUTED_OPERATION, ATTRIBUTE_DSA_OPERATION]:
operational_attribute = True
else:
operational_attribute = True
if not operational_attribute and attribute_name not in attr_defs and attribute_name.lower() not in conf_attributes_excluded_from_object_def:
error_message = 'attribute \'%s\' not in object class \'%s\' for entry %s' % (attribute_name, ', '.join(entry.entry_definition._object_class), entry.entry_dn)
if log_enabled(ERROR):
log(ERROR, '%s for <%s>', error_message, self)
raise LDAPCursorError(error_message)
attribute = OperationalAttribute(AttrDef(conf_operational_attribute_prefix + attribute_name), entry, self)
attribute.raw_values = response['raw_attributes'][attribute_name]
attribute.values = response['attributes'][attribute_name] if isinstance(response['attributes'][attribute_name], SEQUENCE_TYPES) else [response['attributes'][attribute_name]]
if (conf_operational_attribute_prefix + attribute_name) not in attributes:
attributes[conf_operational_attribute_prefix + attribute_name] = attribute
return attributes
def match_dn(self, dn):
"""Return entries with text in DN"""
matched = []
for entry in self.entries:
if dn.lower() in entry.entry_dn.lower():
matched.append(entry)
return matched
def match(self, attributes, value):
"""Return entries with text in one of the specified attributes"""
matched = []
if not isinstance(attributes, SEQUENCE_TYPES):
attributes = [attributes]
for entry in self.entries:
found = False
for attribute in attributes:
if attribute in entry:
for attr_value in entry[attribute].values:
if hasattr(attr_value, 'lower') and hasattr(value, 'lower') and value.lower() in attr_value.lower():
found = True
elif value == attr_value:
found = True
if found:
matched.append(entry)
break
if found:
break
# checks raw values, tries to convert value to byte
raw_value = to_raw(value)
if isinstance(raw_value, (bytes, bytearray)):
for attr_value in entry[attribute].raw_values:
if hasattr(attr_value, 'lower') and hasattr(raw_value, 'lower') and raw_value.lower() in attr_value.lower():
found = True
elif raw_value == attr_value:
found = True
if found:
matched.append(entry)
break
if found:
break
return matched
def _create_entry(self, response):
if not response['type'] == 'searchResEntry':
return None
entry = self.entry_class(response['dn'], self) # define an Entry (writable or readonly), as specified in the cursor definition
entry._state.attributes = self._get_attributes(response, self.definition._attributes, entry)
entry._state.raw_attributes = deepcopy(response['raw_attributes'])
entry._state.response = response
entry._state.read_time = datetime.now()
entry._state.set_status(self.entry_initial_status)
for attr in entry: # returns the whole attribute object
entry.__dict__[attr.key] = attr
return entry
def _execute_query(self, query_scope, attributes):
if not self.connection:
error_message = 'no connection established'
if log_enabled(ERROR):
log(ERROR, '%s for <%s>', error_message, self)
raise LDAPCursorError(error_message)
old_query_filter = None
if query_scope == BASE: # requesting a single object so an always-valid filter is set
if hasattr(self, 'query_filter'): # only Reader has a query filter
old_query_filter = self.query_filter
self.query_filter = '(objectclass=*)'
else:
self._create_query_filter()
if log_enabled(PROTOCOL):
log(PROTOCOL, 'executing query - base: %s - filter: %s - scope: %s for <%s>', self.base, self.query_filter, query_scope, self)
with self.connection:
result = self.connection.search(search_base=self.base,
search_filter=self.query_filter,
search_scope=query_scope,
dereference_aliases=self.dereference_aliases,
attributes=attributes if attributes else list(self.attributes),
get_operational_attributes=self.get_operational_attributes,
controls=self.controls)
if not self.connection.strategy.sync:
response, result, request = self.connection.get_response(result, get_request=True)
else:
if self.connection.strategy.thread_safe:
_, result, response, _ = result
else:
response = self.connection.response
result = self.connection.result
request = self.connection.request
self._store_operation_in_history(request, result, response)
if self._do_not_reset: # trick to not remove entries when using _refresh()
return self._create_entry(response[0])
self.entries = []
for r in response:
entry = self._create_entry(r)
if entry is not None:
self.entries.append(entry)
if 'objectClass' in entry:
for object_class in entry.objectClass:
if self.schema and self.schema.object_classes[object_class].kind == CLASS_AUXILIARY and object_class not in self.definition._auxiliary_class:
# add auxiliary class to object definition
self.definition._auxiliary_class.append(object_class)
self.definition._populate_attr_defs(object_class)
self.execution_time = datetime.now()
if old_query_filter: # requesting a single object so an always-valid filter is set
self.query_filter = old_query_filter
def remove(self, entry):
if log_enabled(PROTOCOL):
log(PROTOCOL, 'removing entry <%s> in <%s>', entry, self)
self.entries.remove(entry)
def _reset_history(self):
self._operation_history = list()
def _store_operation_in_history(self, request, result, response):
self._operation_history.append(Operation(request, result, response))
@property
def operations(self):
return self._operation_history
@property
def errors(self):
return [error for error in self._operation_history if error.result['result'] != RESULT_SUCCESS]
@property
def failed(self):
if hasattr(self, '_operation_history'):
return any([error.result['result'] != RESULT_SUCCESS for error in self._operation_history])
class Reader(Cursor):
"""Reader object to perform searches:
:param connection: the LDAP connection object to use
:type connection: LDAPConnection
:param object_def: the ObjectDef of the LDAP object returned
:type object_def: ObjectDef
:param query: the simplified query (will be transformed in an LDAP filter)
:type query: str
:param base: starting base of the search
:type base: str
:param components_in_and: specify if assertions in the query must all be satisfied or not (AND/OR)
:type components_in_and: bool
:param sub_tree: specify if the search must be performed ad Single Level (False) or Whole SubTree (True)
:type sub_tree: bool
:param get_operational_attributes: specify if operational attributes are returned or not
:type get_operational_attributes: bool
:param controls: controls to be used in search
:type controls: tuple
"""
entry_class = Entry # entries are read_only
attribute_class = Attribute # attributes are read_only
entry_initial_status = STATUS_READ
def __init__(self, connection, object_def, base, query='', components_in_and=True, sub_tree=True, get_operational_attributes=False, attributes=None, controls=None, auxiliary_class=None):
Cursor.__init__(self, connection, object_def, get_operational_attributes, attributes, controls, auxiliary_class)
self._components_in_and = components_in_and
self.sub_tree = sub_tree
self._query = query
self.base = base
self.dereference_aliases = DEREF_ALWAYS
self.validated_query = None
self._query_dict = dict()
self._validated_query_dict = dict()
self.query_filter = None
self.reset()
if log_enabled(BASIC):
log(BASIC, 'instantiated Reader Cursor: <%r>', self)
@property
def query(self):
return self._query
@query.setter
def query(self, value):
self._query = value
self.reset()
@property
def components_in_and(self):
return self._components_in_and
@components_in_and.setter
def components_in_and(self, value):
self._components_in_and = value
self.reset()
def clear(self):
"""Clear the Reader search parameters
"""
self.dereference_aliases = DEREF_ALWAYS
self._reset_history()
def reset(self):
"""Clear all the Reader parameters
"""
self.clear()
self.validated_query = None
self._query_dict = dict()
self._validated_query_dict = dict()
self.execution_time = None
self.query_filter = None
self.entries = []
self._create_query_filter()
def _validate_query(self):
"""Processes the text query and verifies that the requested friendly names are in the Reader dictionary
If the AttrDef has a 'validate' property the callable is executed and if it returns False an Exception is raised
"""
if not self._query_dict:
self._query_dict = _create_query_dict(self._query)
query = ''
for d in sorted(self._query_dict):
attr = d[1:] if d[0] in '&|' else d
for attr_def in self.definition:
if ''.join(attr.split()).lower() == attr_def.key.lower():
attr = attr_def.key
break
if attr in self.definition:
vals = sorted(self._query_dict[d].split(';'))
query += (d[0] + attr if d[0] in '&|' else attr) + ': '
for val in vals:
val = val.strip()
val_not = True if val[0] == '!' else False
val_search_operator = '=' # default
if val_not:
if val[1:].lstrip()[0] not in '=<>~':
value = val[1:].lstrip()
else:
val_search_operator = val[1:].lstrip()[0]
value = val[1:].lstrip()[1:]
else:
if val[0] not in '=<>~':
value = val.lstrip()
else:
val_search_operator = val[0]
value = val[1:].lstrip()
if self.definition[attr].validate:
validated = self.definition[attr].validate(value) # returns True, False or a value to substitute to the actual values
if validated is False:
error_message = 'validation failed for attribute %s and value %s' % (d, val)
if log_enabled(ERROR):
log(ERROR, '%s for <%s>', error_message, self)
raise LDAPCursorError(error_message)
elif validated is not True: # a valid LDAP value equivalent to the actual values
value = validated
if val_not:
query += '!' + val_search_operator + str(value)
else:
query += val_search_operator + str(value)
query += ';'
query = query[:-1] + ', '
else:
error_message = 'attribute \'%s\' not in definition' % attr
if log_enabled(ERROR):
log(ERROR, '%s for <%s>', error_message, self)
raise LDAPCursorError(error_message)
self.validated_query = query[:-2]
self._validated_query_dict = _create_query_dict(self.validated_query)
def _create_query_filter(self):
"""Converts the query dictionary to the filter text"""
self.query_filter = ''
if self.definition._object_class:
self.query_filter += '(&'
if isinstance(self.definition._object_class, SEQUENCE_TYPES) and len(self.definition._object_class) == 1:
self.query_filter += '(objectClass=' + self.definition._object_class[0] + ')'
elif isinstance(self.definition._object_class, SEQUENCE_TYPES):
self.query_filter += '(&'
for object_class in self.definition._object_class:
self.query_filter += '(objectClass=' + object_class + ')'
self.query_filter += ')'
else:
error_message = 'object class must be a string or a list'
if log_enabled(ERROR):
log(ERROR, '%s for <%s>', error_message, self)
raise LDAPCursorError(error_message)
if self._query and self._query.startswith('(') and self._query.endswith(')'): # query is already an LDAP filter
if 'objectclass' not in self._query.lower():
self.query_filter += self._query + ')' # if objectclass not in filter adds from definition
else:
self.query_filter = self._query
return
elif self._query: # if a simplified filter is present
if not self.components_in_and:
self.query_filter += '(|'
elif not self.definition._object_class:
self.query_filter += '(&'
self._validate_query()
attr_counter = 0
for attr in sorted(self._validated_query_dict):
attr_counter += 1
multi = True if ';' in self._validated_query_dict[attr] else False
vals = sorted(self._validated_query_dict[attr].split(';'))
attr_def = self.definition[attr[1:]] if attr[0] in '&|' else self.definition[attr]
if attr_def.pre_query:
modvals = []
for val in vals:
modvals.append(val[0] + attr_def.pre_query(attr_def.key, val[1:]))
vals = modvals
if multi:
if attr[0] in '&|':
self.query_filter += '(' + attr[0]
else:
self.query_filter += '(|'
for val in vals:
if val[0] == '!':
self.query_filter += '(!(' + attr_def.name + _ret_search_value(val[1:]) + '))'
else:
self.query_filter += '(' + attr_def.name + _ret_search_value(val) + ')'
if multi:
self.query_filter += ')'
if not self.components_in_and:
self.query_filter += '))'
else:
self.query_filter += ')'
if not self.definition._object_class and attr_counter == 1: # removes unneeded starting filter
self.query_filter = self.query_filter[2: -1]
if self.query_filter == '(|)' or self.query_filter == '(&)': # removes empty filter
self.query_filter = ''
else: # no query, remove unneeded leading (&
self.query_filter = self.query_filter[2:]
def search(self, attributes=None):
"""Perform the LDAP search
:return: Entries found in search
"""
self.clear()
query_scope = SUBTREE if self.sub_tree else LEVEL
if log_enabled(PROTOCOL):
log(PROTOCOL, 'performing search in <%s>', self)
self._execute_query(query_scope, attributes)
return self.entries
def search_object(self, entry_dn=None, attributes=None): # base must be a single dn
"""Perform the LDAP search operation SINGLE_OBJECT scope
:return: Entry found in search
"""
if log_enabled(PROTOCOL):
log(PROTOCOL, 'performing object search in <%s>', self)
self.clear()
if entry_dn:
old_base = self.base
self.base = entry_dn
self._execute_query(BASE, attributes)
self.base = old_base
else:
self._execute_query(BASE, attributes)
return self.entries[0] if len(self.entries) > 0 else None
def search_level(self, attributes=None):
"""Perform the LDAP search operation with SINGLE_LEVEL scope
:return: Entries found in search
"""
if log_enabled(PROTOCOL):
log(PROTOCOL, 'performing single level search in <%s>', self)
self.clear()
self._execute_query(LEVEL, attributes)
return self.entries
def search_subtree(self, attributes=None):
"""Perform the LDAP search operation WHOLE_SUBTREE scope
:return: Entries found in search
"""
if log_enabled(PROTOCOL):
log(PROTOCOL, 'performing whole subtree search in <%s>', self)
self.clear()
self._execute_query(SUBTREE, attributes)
return self.entries
def _entries_generator(self, responses):
for response in responses:
yield self._create_entry(response)
def search_paged(self, paged_size, paged_criticality=True, generator=True, attributes=None):
"""Perform a paged search, can be called as an Iterator
:param attributes: optional attributes to search
:param paged_size: number of entries returned in each search
:type paged_size: int
:param paged_criticality: specify if server must not execute the search if it is not capable of paging searches
:type paged_criticality: bool
:param generator: if True the paged searches are executed while generating the entries,
if False all the paged searches are execute before returning the generator
:type generator: bool
:return: Entries found in search
"""
if log_enabled(PROTOCOL):
log(PROTOCOL, 'performing paged search in <%s> with paged size %s', self, str(paged_size))
if not self.connection:
error_message = 'no connection established'
if log_enabled(ERROR):
log(ERROR, '%s for <%s>', error_message, self)
raise LDAPCursorError(error_message)
self.clear()
self._create_query_filter()
self.entries = []
self.execution_time = datetime.now()
response = self.connection.extend.standard.paged_search(search_base=self.base,
search_filter=self.query_filter,
search_scope=SUBTREE if self.sub_tree else LEVEL,
dereference_aliases=self.dereference_aliases,
attributes=attributes if attributes else self.attributes,
get_operational_attributes=self.get_operational_attributes,
controls=self.controls,
paged_size=paged_size,
paged_criticality=paged_criticality,
generator=generator)
if generator:
return self._entries_generator(response)
else:
return list(self._entries_generator(response))
class Writer(Cursor):
entry_class = WritableEntry
attribute_class = WritableAttribute
entry_initial_status = STATUS_WRITABLE
@staticmethod
def from_cursor(cursor, connection=None, object_def=None, custom_validator=None):
if connection is None:
connection = cursor.connection
if object_def is None:
object_def = cursor.definition
writer = Writer(connection, object_def, attributes=cursor.attributes)
for entry in cursor.entries:
if isinstance(cursor, Reader):
entry.entry_writable(object_def, writer, custom_validator=custom_validator)
elif isinstance(cursor, Writer):
pass
else:
error_message = 'unknown cursor type %s' % str(type(cursor))
if log_enabled(ERROR):
log(ERROR, '%s', error_message)
raise LDAPCursorError(error_message)
writer.execution_time = cursor.execution_time
if log_enabled(BASIC):
log(BASIC, 'instantiated Writer Cursor <%r> from cursor <%r>', writer, cursor)
return writer
@staticmethod
def from_response(connection, object_def, response=None):
if response is None:
if not connection.strategy.sync:
error_message = 'with asynchronous strategies response must be specified'
if log_enabled(ERROR):
log(ERROR, '%s', error_message)
raise LDAPCursorError(error_message)
elif connection.response:
response = connection.response
else:
error_message = 'response not present'
if log_enabled(ERROR):
log(ERROR, '%s', error_message)
raise LDAPCursorError(error_message)
writer = Writer(connection, object_def)
for resp in response:
if resp['type'] == 'searchResEntry':
entry = writer._create_entry(resp)
writer.entries.append(entry)
if log_enabled(BASIC):
log(BASIC, 'instantiated Writer Cursor <%r> from response', writer)
return writer
def __init__(self, connection, object_def, get_operational_attributes=False, attributes=None, controls=None, auxiliary_class=None):
Cursor.__init__(self, connection, object_def, get_operational_attributes, attributes, controls, auxiliary_class)
self.dereference_aliases = DEREF_NEVER
if log_enabled(BASIC):
log(BASIC, 'instantiated Writer Cursor: <%r>', self)
def commit(self, refresh=True):
if log_enabled(PROTOCOL):
log(PROTOCOL, 'committed changes for <%s>', self)
self._reset_history()
successful = True
for entry in self.entries:
if not entry.entry_commit_changes(refresh=refresh, controls=self.controls, clear_history=False):
successful = False
self.execution_time = datetime.now()
return successful
def discard(self):
if log_enabled(PROTOCOL):
log(PROTOCOL, 'discarded changes for <%s>', self)
for entry in self.entries:
entry.entry_discard_changes()
def _refresh_object(self, entry_dn, attributes=None, tries=4, seconds=2, controls=None): # base must be a single dn
"""Performs the LDAP search operation SINGLE_OBJECT scope
:return: Entry found in search
"""
if log_enabled(PROTOCOL):
log(PROTOCOL, 'refreshing object <%s> for <%s>', entry_dn, self)
if not self.connection:
error_message = 'no connection established'
if log_enabled(ERROR):
log(ERROR, '%s for <%s>', error_message, self)
raise LDAPCursorError(error_message)
response = []
with self.connection:
counter = 0
while counter < tries:
result = self.connection.search(search_base=entry_dn,
search_filter='(objectclass=*)',
search_scope=BASE,
dereference_aliases=DEREF_NEVER,
attributes=attributes if attributes else self.attributes,
get_operational_attributes=self.get_operational_attributes,
controls=controls)
if not self.connection.strategy.sync:
response, result, request = self.connection.get_response(result, get_request=True)
else:
if self.connection.strategy.thread_safe:
_, result, response, request = result
else:
response = self.connection.response
result = self.connection.result
request = self.connection.request
if result['result'] in [RESULT_SUCCESS]:
break
sleep(seconds)
counter += 1
self._store_operation_in_history(request, result, response)
if len(response) == 1:
return self._create_entry(response[0])
elif len(response) == 0:
return None
error_message = 'more than 1 entry returned for a single object search'
if log_enabled(ERROR):
log(ERROR, '%s for <%s>', error_message, self)
raise LDAPCursorError(error_message)
def new(self, dn):
if log_enabled(BASIC):
log(BASIC, 'creating new entry <%s> for <%s>', dn, self)
dn = safe_dn(dn)
for entry in self.entries: # checks if dn is already used in an cursor entry
if entry.entry_dn == dn:
error_message = 'dn already present in cursor'
if log_enabled(ERROR):
log(ERROR, '%s for <%s>', error_message, self)
raise LDAPCursorError(error_message)
rdns = safe_rdn(dn, decompose=True)
entry = self.entry_class(dn, self) # defines a new empty Entry
for attr in entry.entry_mandatory_attributes: # defines all mandatory attributes as virtual
entry._state.attributes[attr] = self.attribute_class(entry._state.definition[attr], entry, self)
entry.__dict__[attr] = entry._state.attributes[attr]
entry.objectclass.set(self.definition._object_class)
for rdn in rdns: # adds virtual attributes from rdns in entry name (should be more than one with + syntax)
if rdn[0] in entry._state.definition._attributes:
rdn_name = entry._state.definition._attributes[rdn[0]].name # normalize case folding
if rdn_name not in entry._state.attributes:
entry._state.attributes[rdn_name] = self.attribute_class(entry._state.definition[rdn_name], entry, self)
entry.__dict__[rdn_name] = entry._state.attributes[rdn_name]
entry.__dict__[rdn_name].set(rdn[1])
else:
error_message = 'rdn type \'%s\' not in object class definition' % rdn[0]
if log_enabled(ERROR):
log(ERROR, '%s for <%s>', error_message, self)
raise LDAPCursorError(error_message)
entry._state.set_status(STATUS_VIRTUAL) # set intial status
entry._state.set_status(STATUS_PENDING_CHANGES) # tries to change status to PENDING_CHANGES. If mandatory attributes are missing status is reverted to MANDATORY_MISSING
self.entries.append(entry)
return entry
def refresh_entry(self, entry, tries=4, seconds=2):
conf_operational_attribute_prefix = get_config_parameter('ABSTRACTION_OPERATIONAL_ATTRIBUTE_PREFIX')
self._do_not_reset = True
attr_list = []
if log_enabled(PROTOCOL):
log(PROTOCOL, 'refreshing entry <%s> for <%s>', entry, self)
for attr in entry._state.attributes: # check friendly attribute name in AttrDef, do not check operational attributes
if attr.lower().startswith(conf_operational_attribute_prefix.lower()):
continue
if entry._state.definition[attr].name:
attr_list.append(entry._state.definition[attr].name)
else:
attr_list.append(entry._state.definition[attr].key)
temp_entry = self._refresh_object(entry.entry_dn, attr_list, tries, seconds=seconds) # if any attributes is added adds only to the entry not to the definition
self._do_not_reset = False
if temp_entry:
temp_entry._state.origin = entry._state.origin
entry.__dict__.clear()
entry.__dict__['_state'] = temp_entry._state
for attr in entry._state.attributes: # returns the attribute key
entry.__dict__[attr] = entry._state.attributes[attr]
for attr in entry.entry_attributes: # if any attribute of the class was deleted makes it virtual
if attr not in entry._state.attributes and attr in entry.entry_definition._attributes:
entry._state.attributes[attr] = WritableAttribute(entry.entry_definition[attr], entry, self)
entry.__dict__[attr] = entry._state.attributes[attr]
entry._state.set_status(entry._state._initial_status)
return True
return False