# Reads important GPO parameters and updates Samba # Copyright (C) Luke Morrison 2013 # # 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 . import sys import os import errno import tdb sys.path.insert(0, "bin/python") from samba import NTSTATUSError from samba.compat import ConfigParser from samba.compat import StringIO from samba.compat import get_bytes from abc import ABCMeta, abstractmethod import xml.etree.ElementTree as etree import re from samba.net import Net from samba.dcerpc import nbt from samba.samba3 import libsmb_samba_internal as libsmb from samba.samba3 import param as s3param import samba.gpo as gpo from samba.param import LoadParm from uuid import UUID from tempfile import NamedTemporaryFile from samba.dcerpc import preg from samba.dcerpc import misc from samba.ndr import ndr_pack, ndr_unpack try: from enum import Enum GPOSTATE = Enum('GPOSTATE', 'APPLY ENFORCE UNAPPLY') except ImportError: class GPOSTATE: APPLY = 1 ENFORCE = 2 UNAPPLY = 3 class gp_log: ''' Log settings overwritten by gpo apply The gp_log is an xml file that stores a history of gpo changes (and the original setting value). The log is organized like so: -864000000000 -36288000000000 7 1 1d 300 Each guid value contains a list of extensions, which contain a list of attributes. The guid value represents a GPO. The attributes are the values of those settings prior to the application of the GPO. The list of guids is enclosed within a user name, which represents the user the settings were applied to. This user may be the samaccountname of the local computer, which implies that these are machine policies. The applylog keeps track of the order in which the GPOs were applied, so that they can be rolled back in reverse, returning the machine to the state prior to policy application. ''' def __init__(self, user, gpostore, db_log=None): ''' Initialize the gp_log param user - the username (or machine name) that policies are being applied to param gpostore - the GPOStorage obj which references the tdb which contains gp_logs param db_log - (optional) a string to initialize the gp_log ''' self._state = GPOSTATE.APPLY self.gpostore = gpostore self.username = user if db_log: self.gpdb = etree.fromstring(db_log) else: self.gpdb = etree.Element('gp') self.user = user user_obj = self.gpdb.find('user[@name="%s"]' % user) if user_obj is None: user_obj = etree.SubElement(self.gpdb, 'user') user_obj.attrib['name'] = user def state(self, value): ''' Policy application state param value - APPLY, ENFORCE, or UNAPPLY The behavior of the gp_log depends on whether we are applying policy, enforcing policy, or unapplying policy. During an apply, old settings are recorded in the log. During an enforce, settings are being applied but the gp_log does not change. During an unapply, additions to the log should be ignored (since function calls to apply settings are actually reverting policy), but removals from the log are allowed. ''' # If we're enforcing, but we've unapplied, apply instead if value == GPOSTATE.ENFORCE: user_obj = self.gpdb.find('user[@name="%s"]' % self.user) apply_log = user_obj.find('applylog') if apply_log is None or len(apply_log) == 0: self._state = GPOSTATE.APPLY else: self._state = value else: self._state = value def set_guid(self, guid): ''' Log to a different GPO guid param guid - guid value of the GPO from which we're applying policy ''' self.guid = guid user_obj = self.gpdb.find('user[@name="%s"]' % self.user) obj = user_obj.find('guid[@value="%s"]' % guid) if obj is None: obj = etree.SubElement(user_obj, 'guid') obj.attrib['value'] = guid if self._state == GPOSTATE.APPLY: apply_log = user_obj.find('applylog') if apply_log is None: apply_log = etree.SubElement(user_obj, 'applylog') prev = apply_log.find('guid[@value="%s"]' % guid) if prev is None: item = etree.SubElement(apply_log, 'guid') item.attrib['count'] = '%d' % (len(apply_log) - 1) item.attrib['value'] = guid def store(self, gp_ext_name, attribute, old_val): ''' Store an attribute in the gp_log param gp_ext_name - Name of the extension applying policy param attribute - The attribute being modified param old_val - The value of the attribute prior to policy application ''' if self._state == GPOSTATE.UNAPPLY or self._state == GPOSTATE.ENFORCE: return None user_obj = self.gpdb.find('user[@name="%s"]' % self.user) guid_obj = user_obj.find('guid[@value="%s"]' % self.guid) assert guid_obj is not None, "gpo guid was not set" ext = guid_obj.find('gp_ext[@name="%s"]' % gp_ext_name) if ext is None: ext = etree.SubElement(guid_obj, 'gp_ext') ext.attrib['name'] = gp_ext_name attr = ext.find('attribute[@name="%s"]' % attribute) if attr is None: attr = etree.SubElement(ext, 'attribute') attr.attrib['name'] = attribute attr.text = old_val def retrieve(self, gp_ext_name, attribute): ''' Retrieve a stored attribute from the gp_log param gp_ext_name - Name of the extension which applied policy param attribute - The attribute being retrieved return - The value of the attribute prior to policy application ''' user_obj = self.gpdb.find('user[@name="%s"]' % self.user) guid_obj = user_obj.find('guid[@value="%s"]' % self.guid) assert guid_obj is not None, "gpo guid was not set" ext = guid_obj.find('gp_ext[@name="%s"]' % gp_ext_name) if ext is not None: attr = ext.find('attribute[@name="%s"]' % attribute) if attr is not None: return attr.text return None def get_applied_guids(self): ''' Return a list of applied ext guids return - List of guids for gpos that have applied settings to the system. ''' guids = [] user_obj = self.gpdb.find('user[@name="%s"]' % self.user) if user_obj is not None: apply_log = user_obj.find('applylog') if apply_log is not None: guid_objs = apply_log.findall('guid[@count]') guids_by_count = [(g.get('count'), g.get('value')) for g in guid_objs] guids_by_count.sort(reverse=True) guids.extend(guid for count, guid in guids_by_count) return guids def get_applied_settings(self, guids): ''' Return a list of applied ext guids return - List of tuples containing the guid of a gpo, then a dictionary of policies and their values prior policy application. These are sorted so that the most recently applied settings are removed first. ''' ret = [] user_obj = self.gpdb.find('user[@name="%s"]' % self.user) for guid in guids: guid_settings = user_obj.find('guid[@value="%s"]' % guid) exts = guid_settings.findall('gp_ext') settings = {} for ext in exts: attr_dict = {} attrs = ext.findall('attribute') for attr in attrs: attr_dict[attr.attrib['name']] = attr.text settings[ext.attrib['name']] = attr_dict ret.append((guid, settings)) return ret def delete(self, gp_ext_name, attribute): ''' Remove an attribute from the gp_log param gp_ext_name - name of extension from which to remove the attribute param attribute - attribute to remove ''' user_obj = self.gpdb.find('user[@name="%s"]' % self.user) guid_obj = user_obj.find('guid[@value="%s"]' % self.guid) assert guid_obj is not None, "gpo guid was not set" ext = guid_obj.find('gp_ext[@name="%s"]' % gp_ext_name) if ext is not None: attr = ext.find('attribute[@name="%s"]' % attribute) if attr is not None: ext.remove(attr) if len(ext) == 0: guid_obj.remove(ext) def commit(self): ''' Write gp_log changes to disk ''' self.gpostore.store(self.username, etree.tostring(self.gpdb, 'utf-8')) class GPOStorage: def __init__(self, log_file): if os.path.isfile(log_file): self.log = tdb.open(log_file) else: self.log = tdb.Tdb(log_file, 0, tdb.DEFAULT, os.O_CREAT | os.O_RDWR) def start(self): self.log.transaction_start() def get_int(self, key): try: return int(self.log.get(get_bytes(key))) except TypeError: return None def get(self, key): return self.log.get(get_bytes(key)) def get_gplog(self, user): return gp_log(user, self, self.log.get(get_bytes(user))) def store(self, key, val): self.log.store(get_bytes(key), get_bytes(val)) def cancel(self): self.log.transaction_cancel() def delete(self, key): self.log.delete(get_bytes(key)) def commit(self): self.log.transaction_commit() def __del__(self): self.log.close() class gp_ext(object): __metaclass__ = ABCMeta def __init__(self, logger, lp, creds, store): self.logger = logger self.lp = lp self.creds = creds self.gp_db = store.get_gplog(creds.get_username()) @abstractmethod def process_group_policy(self, deleted_gpo_list, changed_gpo_list): pass @abstractmethod def read(self, policy): pass def parse(self, afile): local_path = self.lp.cache_path('gpo_cache') data_file = os.path.join(local_path, check_safe_path(afile).upper()) if os.path.exists(data_file): return self.read(data_file) return None @abstractmethod def __str__(self): pass class gp_ext_setter(object): __metaclass__ = ABCMeta def __init__(self, logger, gp_db, lp, creds, attribute, val): self.logger = logger self.attribute = attribute self.val = val self.lp = lp self.creds = creds self.gp_db = gp_db def explicit(self): return self.val def update_samba(self): (upd_sam, value) = self.mapper().get(self.attribute) upd_sam(value()) @abstractmethod def mapper(self): pass def delete(self): upd_sam, _ = self.mapper().get(self.attribute) upd_sam(self.val) @abstractmethod def __str__(self): pass class gp_inf_ext(gp_ext): def read(self, data_file): policy = open(data_file, 'r').read() inf_conf = ConfigParser() inf_conf.optionxform = str try: inf_conf.readfp(StringIO(policy)) except: inf_conf.readfp(StringIO(policy.decode('utf-16'))) return inf_conf class gp_pol_ext(gp_ext): def read(self, data_file): raw = open(data_file, 'rb').read() return ndr_unpack(preg.file, raw) ''' Fetch the hostname of a writable DC ''' def get_dc_hostname(creds, lp): net = Net(creds=creds, lp=lp) cldap_ret = net.finddc(domain=lp.get('realm'), flags=(nbt.NBT_SERVER_LDAP | nbt.NBT_SERVER_DS)) return cldap_ret.pdc_dns_name ''' Fetch a list of GUIDs for applicable GPOs ''' def get_gpo_list(dc_hostname, creds, lp): gpos = [] ads = gpo.ADS_STRUCT(dc_hostname, lp, creds) if ads.connect(): gpos = ads.get_gpo_list(creds.get_username()) return gpos def cache_gpo_dir(conn, cache, sub_dir): loc_sub_dir = sub_dir.upper() local_dir = os.path.join(cache, loc_sub_dir) try: os.makedirs(local_dir, mode=0o755) except OSError as e: if e.errno != errno.EEXIST: raise for fdata in conn.list(sub_dir): if fdata['attrib'] & libsmb.FILE_ATTRIBUTE_DIRECTORY: cache_gpo_dir(conn, cache, os.path.join(sub_dir, fdata['name'])) else: local_name = fdata['name'].upper() f = NamedTemporaryFile(delete=False, dir=local_dir) fname = os.path.join(sub_dir, fdata['name']).replace('/', '\\') f.write(conn.loadfile(fname)) f.close() os.rename(f.name, os.path.join(local_dir, local_name)) def check_safe_path(path): dirs = re.split('/|\\\\', path) if 'sysvol' in path: dirs = dirs[dirs.index('sysvol') + 1:] if '..' not in dirs: return os.path.join(*dirs) raise OSError(path) def check_refresh_gpo_list(dc_hostname, lp, creds, gpos): # the SMB bindings rely on having a s3 loadparm s3_lp = s3param.get_context() s3_lp.load(lp.configfile) conn = libsmb.Conn(dc_hostname, 'sysvol', lp=s3_lp, creds=creds, sign=True) cache_path = lp.cache_path('gpo_cache') for gpo in gpos: if not gpo.file_sys_path: continue cache_gpo_dir(conn, cache_path, check_safe_path(gpo.file_sys_path)) def get_deleted_gpos_list(gp_db, gpos): applied_gpos = gp_db.get_applied_guids() current_guids = set([p.name for p in gpos]) deleted_gpos = [guid for guid in applied_gpos if guid not in current_guids] return gp_db.get_applied_settings(deleted_gpos) def gpo_version(lp, path): # gpo.gpo_get_sysvol_gpt_version() reads the GPT.INI from a local file, # read from the gpo client cache. gpt_path = lp.cache_path(os.path.join('gpo_cache', path)) return int(gpo.gpo_get_sysvol_gpt_version(gpt_path)[1]) def apply_gp(lp, creds, logger, store, gp_extensions, force=False): gp_db = store.get_gplog(creds.get_username()) dc_hostname = get_dc_hostname(creds, lp) gpos = get_gpo_list(dc_hostname, creds, lp) del_gpos = get_deleted_gpos_list(gp_db, gpos) try: check_refresh_gpo_list(dc_hostname, lp, creds, gpos) except: logger.error('Failed downloading gpt cache from \'%s\' using SMB' % dc_hostname) return if force: changed_gpos = gpos gp_db.state(GPOSTATE.ENFORCE) else: changed_gpos = [] for gpo_obj in gpos: if not gpo_obj.file_sys_path: continue guid = gpo_obj.name path = check_safe_path(gpo_obj.file_sys_path).upper() version = gpo_version(lp, path) if version != store.get_int(guid): logger.info('GPO %s has changed' % guid) changed_gpos.append(gpo_obj) gp_db.state(GPOSTATE.APPLY) store.start() for ext in gp_extensions: try: ext.process_group_policy(del_gpos, changed_gpos) except Exception as e: logger.error('Failed to apply extension %s' % str(ext)) logger.error('Message was: ' + str(e)) continue for gpo_obj in gpos: if not gpo_obj.file_sys_path: continue guid = gpo_obj.name path = check_safe_path(gpo_obj.file_sys_path).upper() version = gpo_version(lp, path) store.store(guid, '%i' % version) store.commit() def unapply_gp(lp, creds, logger, store, gp_extensions): gp_db = store.get_gplog(creds.get_username()) gp_db.state(GPOSTATE.UNAPPLY) # Treat all applied gpos as deleted del_gpos = gp_db.get_applied_settings(gp_db.get_applied_guids()) store.start() for ext in gp_extensions: try: ext.process_group_policy(del_gpos, []) except Exception as e: logger.error('Failed to unapply extension %s' % str(ext)) logger.error('Message was: ' + str(e)) continue store.commit() def parse_gpext_conf(smb_conf): lp = LoadParm() if smb_conf is not None: lp.load(smb_conf) else: lp.load_default() ext_conf = lp.state_path('gpext.conf') parser = ConfigParser() parser.read(ext_conf) return lp, parser def atomic_write_conf(lp, parser): ext_conf = lp.state_path('gpext.conf') with NamedTemporaryFile(mode="w+", delete=False, dir=os.path.dirname(ext_conf)) as f: parser.write(f) os.rename(f.name, ext_conf) def check_guid(guid): # Check for valid guid with curly braces if guid[0] != '{' or guid[-1] != '}' or len(guid) != 38: return False try: UUID(guid, version=4) except ValueError: return False return True def register_gp_extension(guid, name, path, smb_conf=None, machine=True, user=True): # Check that the module exists if not os.path.exists(path): return False if not check_guid(guid): return False lp, parser = parse_gpext_conf(smb_conf) if guid not in parser.sections(): parser.add_section(guid) parser.set(guid, 'DllName', path) parser.set(guid, 'ProcessGroupPolicy', name) parser.set(guid, 'NoMachinePolicy', "0" if machine else "1") parser.set(guid, 'NoUserPolicy', "0" if user else "1") atomic_write_conf(lp, parser) return True def list_gp_extensions(smb_conf=None): _, parser = parse_gpext_conf(smb_conf) results = {} for guid in parser.sections(): results[guid] = {} results[guid]['DllName'] = parser.get(guid, 'DllName') results[guid]['ProcessGroupPolicy'] = \ parser.get(guid, 'ProcessGroupPolicy') results[guid]['MachinePolicy'] = \ not int(parser.get(guid, 'NoMachinePolicy')) results[guid]['UserPolicy'] = not int(parser.get(guid, 'NoUserPolicy')) return results def unregister_gp_extension(guid, smb_conf=None): if not check_guid(guid): return False lp, parser = parse_gpext_conf(smb_conf) if guid in parser.sections(): parser.remove_section(guid) atomic_write_conf(lp, parser) return True