# Authors: Rob Crittenden # # Copyright (C) 2008 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, 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 General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . # # Documentation can be found at http://freeipa.org/page/LdapUpdate # TODO # save undo files? UPDATES_DIR="/usr/share/ipa/updates/" import sys import uuid import platform import time import os import pwd import fnmatch import csv import inspect import copy import krbV import ldap from ldap.schema.models import ObjectClass, AttributeType from ipaserver.install import installutils from ipaserver import ipaldap from ipapython import ipautil from ipalib import errors from ipalib import api from ipapython.dn import DN from ipapython.ipa_log_manager import * from ipaserver.install.plugins import PRE_UPDATE, POST_UPDATE class Entity(ipaldap.Entry): # TODO: Use ldap2 instead def __init__(self, entrydata=None): ipaldap.Entry.__init__(self, entrydata) y = {} for key, value in self.data.iteritems(): y[copy.deepcopy(key)] = copy.deepcopy(value) self.orig_data = ipautil.CIDict(y) def attrList(self): """Return a list of all attributes in the entry""" return self.data.keys() def origDataDict(self): """Returns a dict of the original values of the user. Used for updates. """ result = ipautil.CIDict(self.orig_data) result['dn'] = self.dn return result class BadSyntax(installutils.ScriptError): def __init__(self, value): self.value = value self.msg = "LDAPUpdate: syntax error: \n %s" % value self.rval = 1 def __str__(self): return repr(self.value) class LDAPUpdate: action_keywords = ["default", "add", "remove", "only", "onlyifexist", "deleteentry", "replace", "addifnew", "addifexist"] def __init__(self, dm_password, sub_dict={}, live_run=True, online=True, ldapi=False, plugins=False): ''' :parameters: dm_password Directory Manager password sub_dict substitution dictionary live_run Apply the changes or just test online Do an online LDAP update or use an experimental LDIF updater ldapi Bind using ldapi. This assumes autobind is enabled. plugins execute the pre/post update plugins Data Structure Example: ----------------------- dn_by_rdn_count = { 3: 'cn=config,dc=example,dc=com': 4: 'cn=bob,ou=people,dc=example,dc=com', } all_updates = { 'dn': 'cn=config,dc=example,dc=com': { 'dn': 'cn=config,dc=example,dc=com', 'default': ['attr1':default1'], 'updates': ['action:attr1:value1', 'action:attr2:value2] }, 'dn': 'cn=bob,ou=people,dc=example,dc=com': { 'dn': 'cn=bob,ou=people,dc=example,dc=com', 'default': ['attr3':default3'], 'updates': ['action:attr3:value3', 'action:attr4:value4], } } The default and update lists are "dispositions" ''' log_mgr.get_logger(self, True) self.sub_dict = sub_dict self.live_run = live_run self.dm_password = dm_password self.conn = None self.modified = False self.online = online self.ldapi = ldapi self.plugins = plugins self.pw_name = pwd.getpwuid(os.geteuid()).pw_name self.realm = None suffix = None if sub_dict.get("REALM"): self.realm = sub_dict["REALM"] else: krbctx = krbV.default_context() try: self.realm = krbctx.default_realm suffix = ipautil.realm_to_suffix(self.realm) except krbV.Krb5Error: self.realm = None suffix = None if suffix is not None: assert isinstance(suffix, DN) domain = ipautil.get_domain_name() libarch = self._identify_arch() fqdn = installutils.get_fqdn() if fqdn is None: raise RuntimeError("Unable to determine hostname") fqhn = fqdn # Save this for the sub_dict variable if self.ldapi: fqdn = "ldapi://%%2fvar%%2frun%%2fslapd-%s.socket" % "-".join( self.realm.split(".") ) if not self.sub_dict.get("REALM") and self.realm is not None: self.sub_dict["REALM"] = self.realm if not self.sub_dict.get("FQDN"): self.sub_dict["FQDN"] = fqhn if not self.sub_dict.get("DOMAIN"): self.sub_dict["DOMAIN"] = domain if not self.sub_dict.get("SUFFIX") and suffix is not None: self.sub_dict["SUFFIX"] = suffix if not self.sub_dict.get("ESCAPED_SUFFIX"): self.sub_dict["ESCAPED_SUFFIX"] = str(suffix) if not self.sub_dict.get("LIBARCH"): self.sub_dict["LIBARCH"] = libarch if not self.sub_dict.get("TIME"): self.sub_dict["TIME"] = int(time.time()) if not self.sub_dict.get("DOMAIN") and domain is not None: self.sub_dict["DOMAIN"] = domain if online: # Try out the connection/password try: conn = ipaldap.IPAdmin(fqdn, ldapi=self.ldapi, realm=self.realm) if self.dm_password: conn.do_simple_bind(binddn=DN(('cn', 'directory manager')), bindpw=self.dm_password) elif os.getegid() == 0: try: # autobind conn.do_external_bind(self.pw_name) except errors.NotFound: # Fall back conn.do_sasl_gssapi_bind() else: conn.do_sasl_gssapi_bind() conn.unbind() except (ldap.CONNECT_ERROR, ldap.SERVER_DOWN): raise RuntimeError("Unable to connect to LDAP server %s" % fqdn) except ldap.INVALID_CREDENTIALS: raise RuntimeError("The password provided is incorrect for LDAP server %s" % fqdn) except ldap.LOCAL_ERROR, e: raise RuntimeError('%s' % e.args[0].get('info', '').strip()) else: raise RuntimeError("Offline updates are not supported.") # The following 2 functions were taken from the Python # documentation at http://docs.python.org/library/csv.html def _utf_8_encoder(self, unicode_csv_data): for line in unicode_csv_data: yield line.encode('utf-8') def _unicode_csv_reader(self, unicode_csv_data, quote_char="'", dialect=csv.excel, **kwargs): # csv.py doesn't do Unicode; encode temporarily as UTF-8: csv_reader = csv.reader(self._utf_8_encoder(unicode_csv_data), dialect=dialect, delimiter=',', quotechar=quote_char, skipinitialspace=True, **kwargs) for row in csv_reader: # decode UTF-8 back to Unicode, cell by cell: yield [unicode(cell, 'utf-8') for cell in row] def _identify_arch(self): """On multi-arch systems some libraries may be in /lib64, /usr/lib64, etc. Determine if a suffix is needed based on the current architecture. """ bits = platform.architecture()[0] if bits == "64bit": return "64" else: return "" def _template_str(self, s): try: return ipautil.template_str(s, self.sub_dict) except KeyError, e: raise BadSyntax("Unknown template keyword %s" % e) def _parse_values(self, line): """Parse a comma-separated string into separate values and convert them into a list. This should handle quoted-strings with embedded commas """ if line[0] == "'": quote_char = "'" else: quote_char = '"' reader = self._unicode_csv_reader([line], quote_char) value = [] for row in reader: value = value + row return value def read_file(self, filename): if filename == '-': fd = sys.stdin else: fd = open(filename) text = fd.readlines() if fd != sys.stdin: fd.close() return text def _entry_to_entity(self, ent): """Tne Entry class is a bare LDAP entry. The Entity class has a lot more helper functions that we need, so convert to dict and then to Entity. """ entry = dict(ent.data) entry['dn'] = ent.dn for key,value in entry.iteritems(): if isinstance(value,list) or isinstance(value,tuple): if len(value) == 0: entry[key] = '' elif len(value) == 1: entry[key] = value[0] return Entity(entry) def _combine_updates(self, all_updates, update): 'Combine a new update with the list of total updates' dn = update.get('dn') assert isinstance(dn, DN) if not all_updates.get(dn): all_updates[dn] = update return existing_update = all_updates[dn] if 'default' in update: disposition_list = existing_update.setdefault('default', []) disposition_list.extend(update['default']) elif 'updates' in update: disposition_list = existing_update.setdefault('updates', []) disposition_list.extend(update['updates']) else: self.debug("Unknown key in updates %s" % update.keys()) def merge_updates(self, all_updates, updates): ''' Add the new_update dict to the all_updates dict. If an entry in the new_update already has an entry in all_updates merge the two entries sensibly assuming the new entries take precedence. Otherwise just add the new entry. ''' for new_update in updates: for new_dn, new_entry in new_update.iteritems(): existing_entry = all_updates.get(new_dn) if existing_entry: # If the existing entry is marked for deletion but the # new entry is not also a delete then clear the delete # flag otherwise the newer update will be lost. if existing_entry.has_key('deleteentry') and not new_entry.has_key('deleteentry'): self.warning("ldapupdate: entry '%s' previously marked for deletion but" + " this subsequent update reestablishes it: %s", new_dn, new_entry) del existing_entry['deleteentry'] existing_entry.update(new_entry) else: all_updates[new_dn] = new_entry def parse_update_file(self, data_source_name, source_data, all_updates): """Parse the update file into a dictonary of lists and apply the update for each DN in the file.""" update = {} logical_line = "" action = "" dn = None lcount = 0 def emit_item(logical_line): ''' Given a logical line containing an item to process perform the following: * Strip leading & trailing whitespace * Substitute any variables * Get the action, attribute, and value * Each update has one list per disposition, append to specified disposition list ''' logical_line = logical_line.strip() if logical_line == '': return # Perform variable substitution on constructued line logical_line = self._template_str(logical_line) items = logical_line.split(':', 2) if len(items) == 0: raise BadSyntax, "Bad formatting on line %s:%d: %s" % (data_source_name, lcount, logical_line) action = items[0].strip().lower() if action not in self.action_keywords: raise BadSyntax, "Unknown update action '%s', data source=%s" % (action, data_source_name) if action == 'deleteentry': new_value = None disposition = "deleteentry" else: if len(items) != 3: raise BadSyntax, "Bad formatting on line %s:%d: %s" % (data_source_name, lcount, logical_line) attr = items[1].strip() value = items[2].strip() if action == "default": new_value = attr + ":" + value disposition = "default" else: new_value = action + ":" + attr + ":" + value disposition = "updates" disposition_list = update.setdefault(disposition, []) disposition_list.append(new_value) def emit_update(update): ''' When processing a dn is completed emit the update by merging it into the set of all updates. ''' self._combine_updates(all_updates, update) # Iterate over source input lines for source_line in source_data: lcount += 1 # strip trailing whitespace and newline source_line = source_line.rstrip() # skip comments and empty lines if source_line.startswith('#') or source_line == '': continue if source_line.lower().startswith('dn:'): # Starting new dn if dn is not None: # Emit previous dn emit_item(logical_line) logical_line = '' emit_update(update) update = {} dn = source_line[3:].strip() dn = DN(self._template_str(dn)) update['dn'] = dn else: # Process items belonging to dn if dn is None: raise BadSyntax, "dn is not defined in the update, data source=%s" % (data_source_name) # If continuation line, append to existing logical line & continue, # otherwise flush the previous item. if source_line.startswith(' '): logical_line += source_line[1:] continue else: emit_item(logical_line) logical_line = '' logical_line = source_line if dn is not None: emit_item(logical_line) logical_line = '' emit_update(update) update = {} return all_updates def create_index_task(self, attribute): """Create a task to update an index for an attribute""" # Sleep a bit to ensure previous operations are complete if self.live_run: time.sleep(5) cn_uuid = uuid.uuid1() # cn_uuid.time is in nanoseconds, but other users of LDAPUpdate expect # seconds in 'TIME' so scale the value down self.sub_dict['TIME'] = int(cn_uuid.time/1e9) cn = "indextask_%s_%s_%s" % (attribute, cn_uuid.time, cn_uuid.clock_seq) dn = DN(('cn', cn), ('cn', 'index'), ('cn', 'tasks'), ('cn', 'config')) e = ipaldap.Entry(dn) e.setValues('objectClass', ['top', 'extensibleObject']) e.setValue('cn', cn) e.setValue('nsInstance', 'userRoot') e.setValues('nsIndexAttribute', attribute) self.info("Creating task to index attribute: %s", attribute) self.debug("Task id: %s", dn) if self.live_run: self.conn.addEntry(e) return dn def monitor_index_task(self, dn): """Give a task DN monitor it and wait until it has completed (or failed) """ assert isinstance(dn, DN) if not self.live_run: # If not doing this live there is nothing to monitor return # Pause for a moment to give the task time to be created time.sleep(1) attrlist = ['nstaskstatus', 'nstaskexitcode'] entry = None while True: try: entry = self.conn.getEntry(dn, ldap.SCOPE_BASE, "(objectclass=*)", attrlist) except errors.NotFound, e: self.error("Task not found: %s", dn) return except errors.DatabaseError, e: self.error("Task lookup failure %s", e) return status = entry.getValue('nstaskstatus') if status is None: # task doesn't have a status yet time.sleep(1) continue if status.lower().find("finished") > -1: self.info("Indexing finished") break self.debug("Indexing in progress") time.sleep(1) return def _create_default_entry(self, dn, default): """Create the default entry from the values provided. The return type is Entity """ assert isinstance(dn, DN) entry = ipaldap.Entry(dn) if not default: # This means that the entire entry needs to be created with add return self._entry_to_entity(entry) for item in default: # We already do syntax-parsing so this is safe (attr, value) = item.split(':',1) e = entry.getValues(attr) if e: # multi-valued attribute e = list(e) e.append(value) else: e = value entry.setValues(attr, e) return self._entry_to_entity(entry) def _get_entry(self, dn): """Retrieve an object from LDAP. The return type is ipaldap.Entry """ assert isinstance(dn, DN) searchfilter="objectclass=*" sattrs = ["*", "aci", "attributeTypes", "objectClasses"] scope = ldap.SCOPE_BASE return self.conn.getList(dn, scope, searchfilter, sattrs) def _apply_update_disposition(self, updates, entry): """ updates is a list of changes to apply entry is the thing to apply them to Returns the modified entry """ if not updates: return entry only = {} for update in updates: # We already do syntax-parsing so this is safe (action, attr, update_values) = update.split(':',2) update_values = self._parse_values(update_values) # If the attribute is known to be a DN convert it to a DN object. # This has to be done after _parse_values() due to quoting and comma separated lists. if self.conn.has_dn_syntax(attr): update_values = [DN(x) for x in update_values] entry_values = entry.getValues(attr) if not isinstance(entry_values, list): if entry_values is None: entry_values = [] else: entry_values = [entry_values] # Replacing objectClassess needs a special handling and # normalization of OC definitions to avoid update failures for # example when X-ORIGIN is the only difference schema_update = False schema_elem_class = None schema_elem_name = None if action == "replace" and entry.dn == DN(('cn', 'schema')): if attr.lower() == "objectclasses": schema_elem_class = ObjectClass schema_elem_name = "ObjectClass" elif attr.lower() == "attributetypes": schema_elem_class = AttributeType schema_elem_name = "AttributeType" if schema_elem_class is not None: schema_update = True oid_index = {} # build the OID index for replacing for schema_elem in entry_values: try: schema_elem_object = schema_elem_class(str(schema_elem)) except Exception, e: self.error('replace: cannot parse %s "%s": %s', schema_elem_name, schema_elem, e) continue # In a corner case, there may be more representations of # the same objectclass/attributetype due to the previous updates # We want to replace them all oid_index.setdefault(schema_elem_object.oid, []).append(schema_elem) for update_value in update_values: if action == 'remove': self.debug("remove: '%s' from %s, current value %s", update_value, attr, entry_values) try: entry_values.remove(update_value) except ValueError: self.warning("remove: '%s' not in %s", update_value, attr) pass entry.setValues(attr, entry_values) self.debug('remove: updated value %s', entry_values) elif action == 'add': self.debug("add: '%s' to %s, current value %s", update_value, attr, entry_values) # Remove it, ignoring errors so we can blindly add it later try: entry_values.remove(update_value) except ValueError: pass entry_values.append(update_value) self.debug('add: updated value %s', entry_values) entry.setValues(attr, entry_values) elif action == 'addifnew': self.debug("addifnew: '%s' to %s, current value %s", update_value, attr, entry_values) # Only add the attribute if it doesn't exist. Only works # with single-value attributes. if len(entry_values) == 0: entry_values.append(update_value) self.debug('addifnew: set %s to %s', attr, entry_values) entry.setValues(attr, entry_values) elif action == 'addifexist': self.debug("addifexist: '%s' to %s, current value %s", update_value, attr, entry_values) # Only add the attribute if the entry doesn't exist. We # determine this based on whether it has an objectclass if entry.getValues('objectclass'): entry_values.append(update_value) self.debug('addifexist: set %s to %s', attr, entry_values) entry.setValues(attr, entry_values) elif action == 'only': self.debug("only: set %s to '%s', current value %s", attr, update_value, entry_values) if only.get(attr): entry_values.append(update_value) else: entry_values = [update_value] only[attr] = True entry.setValues(attr, entry_values) self.debug('only: updated value %s', entry_values) elif action == 'onlyifexist': self.debug("onlyifexist: '%s' to %s, current value %s", update_value, attr, entry_values) # Only set the attribute if the entry exist's. We # determine this based on whether it has an objectclass if entry.getValues('objectclass'): if only.get(attr): entry_values.append(update_value) else: entry_values = [update_value] only[attr] = True self.debug('onlyifexist: set %s to %s', attr, entry_values) entry.setValues(attr, entry_values) elif action == 'deleteentry': # skip this update type, it occurs in __delete_entries() return None elif action == 'replace': # value has the format "old::new" try: (old, new) = update_value.split('::', 1) except ValueError: raise BadSyntax, "bad syntax in replace, needs to be in the format old::new in %s" % update_value try: if schema_update: try: schema_elem_old = schema_elem_class(str(old)) except Exception, e: self.error('replace: cannot parse replaced %s "%s": %s', schema_elem_name, old, e) continue replaced_values = [] for schema_elem in oid_index.get(schema_elem_old.oid, []): schema_elem_object = schema_elem_class(str(schema_elem)) if str(schema_elem_old).lower() == str(schema_elem_object).lower(): # compare normalized values replaced_values.append(schema_elem) self.debug('replace: replace %s "%s" with "%s"', schema_elem_name, old, new) if not replaced_values: self.debug('replace: no match for replaced %s "%s"', schema_elem_name, old) continue for value in replaced_values: entry_values.remove(value) else: entry_values.remove(old) entry_values.append(new) self.debug('replace: updated value %s', entry_values) entry.setValues(attr, entry_values) except ValueError: self.debug('replace: %s not found, skipping', old) return entry def print_entity(self, e, message=None): """The entity object currently lacks a str() method""" self.debug("---------------------------------------------") if message: self.debug("%s", message) self.debug("dn: %s", e.dn) attr = e.attrList() for a in attr: value = e.getValues(a) if isinstance(value, (list, tuple)): self.debug('%s:', a) for l in value: self.debug("\t%s", l) else: self.debug('%s: %s', a, value) def is_schema_updated(self, s): """Compare the schema in 's' with the current schema in the DS to see if anything has changed. This should account for syntax differences (like added parens that make no difference but are detected as a change by generateModList()). This doesn't handle re-ordering of attributes. They are still detected as changes, so foo $ bar != bar $ foo. return True if the schema has changed return False if it has not """ signature = inspect.getargspec(ldap.schema.SubSchema.__init__) if 'check_uniqueness' in signature.args: s = ldap.schema.SubSchema(s, check_uniqueness=0) else: s = ldap.schema.SubSchema(s) s = s.ldap_entry() # Get a fresh copy and convert into a SubSchema n = self._get_entry(DN(('cn', 'schema')))[0] # Convert IPA data types back to strings d = dict() for k,v in n.data.items(): d[k] = [str(x) for x in v] # Convert to subschema dict n = ldap.schema.SubSchema(d) n = n.ldap_entry() # Are they equal? if s == n: return False else: return True def _update_record(self, update): found = False # If the entry is going to be deleted no point in processing it. if update.has_key('deleteentry'): return new_entry = self._create_default_entry(update.get('dn'), update.get('default')) try: e = self._get_entry(new_entry.dn) if len(e) > 1: # we should only ever get back one entry raise BadSyntax, "More than 1 entry returned on a dn search!? %s" % new_entry.dn entry = self._entry_to_entity(e[0]) found = True self.info("Updating existing entry: %s", entry.dn) except errors.NotFound: # Doesn't exist, start with the default entry entry = new_entry self.info("New entry: %s", entry.dn) except errors.DatabaseError: # Doesn't exist, start with the default entry entry = new_entry self.info("New entry, using default value: %s", entry.dn) self.print_entity(entry, "Initial value") # Bring this entry up to date entry = self._apply_update_disposition(update.get('updates'), entry) if entry is None: # It might be None if it is just deleting an entry return self.print_entity(entry, "Final value after applying updates") added = False updated = False if not found: # New entries get their orig_data set to the entry itself. We want to # empty that so that everything appears new when generating the # modlist # entry.orig_data = {} try: if self.live_run: if len(entry.toTupleList()) > 0: # addifexist may result in an entry with only a # dn defined. In that case there is nothing to do. # It means the entry doesn't exist, so skip it. try: self.conn.addEntry(entry) except errors.NotFound: # parent entry of the added entry does not exist # this may not be an error (e.g. entries in NIS container) self.info("Parent DN of %s may not exist, cannot create the entry", entry.dn) return added = True self.modified = True except Exception, e: self.error("Add failure %s", e) else: # Update LDAP try: changes = self.conn.generateModList(entry.origDataDict(), entry.toDict()) if (entry.dn == DN(('cn', 'schema'))): d = dict() e = entry.toDict() for k,v in e.items(): d[k] = [str(x) for x in v] updated = self.is_schema_updated(d) else: if len(changes) >= 1: updated = True self.debug("%s" % changes) self.debug("Live %d, updated %d" % (self.live_run, updated)) if self.live_run and updated: self.conn.updateEntry(entry.dn, entry.origDataDict(), entry.toDict()) self.info("Done") except errors.EmptyModlist: self.info("Entry already up-to-date") updated = False except errors.DatabaseError, e: self.error("Update failed: %s", e) updated = False except errors.ACIError, e: self.error("Update failed: %s", e) updated = False if updated: self.modified = True if entry.dn.endswith(DN(('cn', 'index'), ('cn', 'userRoot'), ('cn', 'ldbm database'), ('cn', 'plugins'), ('cn', 'config'))) and (added or updated): taskid = self.create_index_task(entry.getValue('cn')) self.monitor_index_task(taskid) return def _delete_record(self, updates): """ Run through all the updates again looking for any that should be deleted. This must use a reversed list so that the longest entries are considered first so we don't end up trying to delete a parent and child in the wrong order. """ if not updates.has_key('deleteentry'): return dn = updates['dn'] try: self.info("Deleting entry %s", dn) if self.live_run: self.conn.deleteEntry(dn) self.modified = True except errors.NotFound, e: self.info("%s did not exist:%s", dn, e) self.modified = True except errors.DatabaseError, e: self.error("Delete failed: %s", e) def get_all_files(self, root, recursive=False): """Get all update files""" f = [] for path, subdirs, files in os.walk(root): for name in files: if fnmatch.fnmatch(name, "*.update"): f.append(os.path.join(path, name)) if not recursive: break f.sort() return f def create_connection(self): if self.online: if self.ldapi: self.conn = ipaldap.IPAdmin(ldapi=True, realm=self.realm) else: self.conn = ipaldap.IPAdmin(self.sub_dict['FQDN'], ldapi=False, realm=self.realm) try: if self.dm_password: self.conn.do_simple_bind(binddn=DN(('cn', 'directory manager')), bindpw=self.dm_password) elif os.getegid() == 0: try: # autobind self.conn.do_external_bind(self.pw_name) except errors.NotFound: # Fall back self.conn.do_sasl_gssapi_bind() else: self.conn.do_sasl_gssapi_bind() except ldap.LOCAL_ERROR, e: raise RuntimeError('%s' % e.args[0].get('info', '').strip()) else: raise RuntimeError("Offline updates are not supported.") def _run_updates(self, all_updates): # For adds and updates we want to apply updates from shortest # to greatest length of the DN. cn=schema must always go first to add # new objectClasses and attributeTypes # For deletes we want the reverse def update_sort_key(dn_update): dn, update = dn_update assert isinstance(dn, DN) return dn != DN(('cn', 'schema')), len(dn) sorted_updates = sorted(all_updates.iteritems(), key=update_sort_key) for dn, update in sorted_updates: self._update_record(update) # Now run the deletes in reversed order sorted_updates.reverse() for dn, update in sorted_updates: self._delete_record(update) def update(self, files): """Execute the update. files is a list of the update files to use. returns True if anything was changed, otherwise False """ all_updates = {} if self.plugins: self.info('PRE_UPDATE') updates = api.Backend.updateclient.update(PRE_UPDATE, self.dm_password, self.ldapi, self.live_run) self.merge_updates(all_updates, updates) try: self.create_connection() for f in files: try: self.info("Parsing update file '%s'" % f) data = self.read_file(f) except Exception, e: self.error("error reading update file '%s'", f) sys.exit(e) self.parse_update_file(f, data, all_updates) self._run_updates(all_updates) finally: if self.conn: self.conn.unbind() if self.plugins: self.info('POST_UPDATE') all_updates = {} updates = api.Backend.updateclient.update(POST_UPDATE, self.dm_password, self.ldapi, self.live_run) self.merge_updates(all_updates, updates) self._run_updates(all_updates) return self.modified def update_from_dict(self, updates): """ Apply updates internally as opposed to from a file. updates is a dictionary containing the updates """ if not self.conn: self.create_connection() self._run_updates(updates) return self.modified