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# gp_cert_auto_enroll_ext samba group policy # Copyright (C) David Mulder <dmulder@suse.com> 2021 # # 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 <http://www.gnu.org/licenses/>. import os import operator import requests from samba.gp.gpclass import gp_pol_ext, gp_applier, GPOSTATE from samba import Ldb from ldb import SCOPE_SUBTREE, SCOPE_BASE from samba.auth import system_session from samba.gp.gpclass import get_dc_hostname import base64 from shutil import which from subprocess import Popen, PIPE import re import json from samba.gp.util.logging import log import struct try: from cryptography.hazmat.primitives.serialization.pkcs7 import \ load_der_pkcs7_certificates except ModuleNotFoundError: def load_der_pkcs7_certificates(x): return [] log.error('python cryptography missing pkcs7 support. ' 'Certificate chain parsing will fail') from cryptography.hazmat.primitives.serialization import Encoding from cryptography.x509 import load_der_x509_certificate from cryptography.hazmat.backends import default_backend from samba.common import get_string cert_wrap = b""" -----BEGIN CERTIFICATE----- %s -----END CERTIFICATE-----""" endpoint_re = '(https|HTTPS)://(?P<server>[a-zA-Z0-9.-]+)/ADPolicyProvider' + \ '_CEP_(?P<auth>[a-zA-Z]+)/service.svc/CEP' global_trust_dirs = ['/etc/pki/trust/anchors', # SUSE '/etc/pki/ca-trust/source/anchors', # RHEL/Fedora '/usr/local/share/ca-certificates'] # Debian/Ubuntu def octet_string_to_objectGUID(data): """Convert an octet string to an objectGUID.""" return '%s-%s-%s-%s-%s' % ('%02x' % struct.unpack('<L', data[0:4])[0], '%02x' % struct.unpack('<H', data[4:6])[0], '%02x' % struct.unpack('<H', data[6:8])[0], '%02x' % struct.unpack('>H', data[8:10])[0], '%02x%02x' % struct.unpack('>HL', data[10:])) def group_and_sort_end_point_information(end_point_information): """Group and Sort End Point Information. [MS-CAESO] 4.4.5.3.2.3 In this step autoenrollment processes the end point information by grouping it by CEP ID and sorting in the order with which it will use the end point to access the CEP information. """ # Create groups of the CertificateEnrollmentPolicyEndPoint instances that # have the same value of the EndPoint.PolicyID datum. end_point_groups = {} for e in end_point_information: if e['PolicyID'] not in end_point_groups.keys(): end_point_groups[e['PolicyID']] = [] end_point_groups[e['PolicyID']].append(e) # Sort each group by following these rules: for end_point_group in end_point_groups.values(): # Sort the CertificateEnrollmentPolicyEndPoint instances in ascending # order based on the EndPoint.Cost value. end_point_group.sort(key=lambda e: e['Cost']) # For instances that have the same EndPoint.Cost: cost_list = [e['Cost'] for e in end_point_group] costs = set(cost_list) for cost in costs: i = cost_list.index(cost) j = len(cost_list)-operator.indexOf(reversed(cost_list), cost)-1 if i == j: continue # Sort those that have EndPoint.Authentication equal to Kerberos # first. Then sort those that have EndPoint.Authentication equal to # Anonymous. The rest of the CertificateEnrollmentPolicyEndPoint # instances follow in an arbitrary order. def sort_auth(e): # 0x2 - Kerberos if e['AuthFlags'] == 0x2: return 0 # 0x1 - Anonymous elif e['AuthFlags'] == 0x1: return 1 else: return 2 end_point_group[i:j+1] = sorted(end_point_group[i:j+1], key=sort_auth) return list(end_point_groups.values()) def obtain_end_point_information(entries): """Obtain End Point Information. [MS-CAESO] 4.4.5.3.2.2 In this step autoenrollment initializes the CertificateEnrollmentPolicyEndPoints table. """ end_point_information = {} section = 'Software\\Policies\\Microsoft\\Cryptography\\PolicyServers\\' for e in entries: if not e.keyname.startswith(section): continue name = e.keyname.replace(section, '') if name not in end_point_information.keys(): end_point_information[name] = {} end_point_information[name][e.valuename] = e.data for ca in end_point_information.values(): m = re.match(endpoint_re, ca['URL']) if m: name = '%s-CA' % m.group('server').replace('.', '-') ca['name'] = name ca['hostname'] = m.group('server') ca['auth'] = m.group('auth') elif ca['URL'].lower() != 'ldap:': edata = { 'endpoint': ca['URL'] } log.error('Failed to parse the endpoint', edata) return {} end_point_information = \ group_and_sort_end_point_information(end_point_information.values()) return end_point_information def fetch_certification_authorities(ldb): """Initialize CAs. [MS-CAESO] 4.4.5.3.1.2 """ result = [] basedn = ldb.get_default_basedn() # Autoenrollment MUST do an LDAP search for the CA information # (pKIEnrollmentService) objects under the following container: dn = 'CN=Enrollment Services,CN=Public Key Services,CN=Services,CN=Configuration,%s' % basedn attrs = ['cACertificate', 'cn', 'dNSHostName'] expr = '(objectClass=pKIEnrollmentService)' res = ldb.search(dn, SCOPE_SUBTREE, expr, attrs) if len(res) == 0: return result for es in res: data = { 'name': get_string(es['cn'][0]), 'hostname': get_string(es['dNSHostName'][0]), 'cACertificate': get_string(base64.b64encode(es['cACertificate'][0])) } result.append(data) return result def fetch_template_attrs(ldb, name, attrs=None): if attrs is None: attrs = ['msPKI-Minimal-Key-Size'] basedn = ldb.get_default_basedn() dn = 'CN=Certificate Templates,CN=Public Key Services,CN=Services,CN=Configuration,%s' % basedn expr = '(cn=%s)' % name res = ldb.search(dn, SCOPE_SUBTREE, expr, attrs) if len(res) == 1 and 'msPKI-Minimal-Key-Size' in res[0]: return dict(res[0]) else: return {'msPKI-Minimal-Key-Size': ['2048']} def format_root_cert(cert): return cert_wrap % re.sub(b"(.{64})", b"\\1\n", cert.encode(), 0, re.DOTALL) def find_cepces_submit(): certmonger_dirs = [os.environ.get("PATH"), '/usr/lib/certmonger', '/usr/libexec/certmonger'] return which('cepces-submit', path=':'.join(certmonger_dirs)) def get_supported_templates(server): cepces_submit = find_cepces_submit() if not cepces_submit or not os.path.exists(cepces_submit): log.error('Failed to find cepces-submit') return [] env = os.environ env['CERTMONGER_OPERATION'] = 'GET-SUPPORTED-TEMPLATES' p = Popen([cepces_submit, '--server=%s' % server, '--auth=Kerberos'], env=env, stdout=PIPE, stderr=PIPE) out, err = p.communicate() if p.returncode != 0: data = {'Error': err.decode()} log.error('Failed to fetch the list of supported templates.', data) return out.strip().split() def getca(ca, url, trust_dir): """Fetch Certificate Chain from the CA.""" root_cert = os.path.join(trust_dir, '%s.crt' % ca['name']) root_certs = [] try: r = requests.get(url=url, params={'operation': 'GetCACert', 'message': 'CAIdentifier'}) except requests.exceptions.ConnectionError: log.warn('Failed to establish a new connection') r = None if r is None or r.content == b'' or r.headers['Content-Type'] == 'text/html': log.warn('Failed to fetch the root certificate chain.') log.warn('The Network Device Enrollment Service is either not' + ' installed or not configured.') if 'cACertificate' in ca: log.warn('Installing the server certificate only.') der_certificate = base64.b64decode(ca['cACertificate']) try: cert = load_der_x509_certificate(der_certificate) except TypeError: cert = load_der_x509_certificate(der_certificate, default_backend()) cert_data = cert.public_bytes(Encoding.PEM) with open(root_cert, 'wb') as w: w.write(cert_data) root_certs.append(root_cert) return root_certs if r.headers['Content-Type'] == 'application/x-x509-ca-cert': # Older versions of load_der_x509_certificate require a backend param try: cert = load_der_x509_certificate(r.content) except TypeError: cert = load_der_x509_certificate(r.content, default_backend()) cert_data = cert.public_bytes(Encoding.PEM) with open(root_cert, 'wb') as w: w.write(cert_data) root_certs.append(root_cert) elif r.headers['Content-Type'] == 'application/x-x509-ca-ra-cert': certs = load_der_pkcs7_certificates(r.content) for i in range(0, len(certs)): cert = certs[i].public_bytes(Encoding.PEM) filename, extension = root_cert.rsplit('.', 1) dest = '%s.%d.%s' % (filename, i, extension) with open(dest, 'wb') as w: w.write(cert) root_certs.append(dest) else: log.warn('getca: Wrong (or missing) MIME content type') return root_certs def find_global_trust_dir(): """Return the global trust dir using known paths from various Linux distros.""" for trust_dir in global_trust_dirs: if os.path.isdir(trust_dir): return trust_dir return global_trust_dirs[0] def update_ca_command(): """Return the command to update the CA trust store.""" return which('update-ca-certificates') or which('update-ca-trust') def changed(new_data, old_data): """Return True if any key present in both dicts has changed.""" return any((new_data[k] != old_data[k] if k in old_data else False) \ for k in new_data.keys()) def cert_enroll(ca, ldb, trust_dir, private_dir, auth='Kerberos'): """Install the root certificate chain.""" data = dict({'files': [], 'templates': []}, **ca) url = 'http://%s/CertSrv/mscep/mscep.dll/pkiclient.exe?' % ca['hostname'] root_certs = getca(ca, url, trust_dir) data['files'].extend(root_certs) global_trust_dir = find_global_trust_dir() for src in root_certs: # Symlink the certs to global trust dir dst = os.path.join(global_trust_dir, os.path.basename(src)) try: os.symlink(src, dst) data['files'].append(dst) except PermissionError: log.warn('Failed to symlink root certificate to the' ' admin trust anchors') except FileNotFoundError: log.warn('Failed to symlink root certificate to the' ' admin trust anchors.' ' The directory was not found', global_trust_dir) except FileExistsError: # If we're simply downloading a renewed cert, the symlink # already exists. Ignore the FileExistsError. Preserve the # existing symlink in the unapply data. data['files'].append(dst) update = update_ca_command() if update is not None: Popen([update]).wait() # Setup Certificate Auto Enrollment getcert = which('getcert') cepces_submit = find_cepces_submit() if getcert is not None and os.path.exists(cepces_submit): p = Popen([getcert, 'add-ca', '-c', ca['name'], '-e', '%s --server=%s --auth=%s' % (cepces_submit, ca['hostname'], auth)], stdout=PIPE, stderr=PIPE) out, err = p.communicate() log.debug(out.decode()) if p.returncode != 0: data = { 'Error': err.decode(), 'CA': ca['name'] } log.error('Failed to add Certificate Authority', data) supported_templates = get_supported_templates(ca['hostname']) for template in supported_templates: attrs = fetch_template_attrs(ldb, template) nickname = '%s.%s' % (ca['name'], template.decode()) keyfile = os.path.join(private_dir, '%s.key' % nickname) certfile = os.path.join(trust_dir, '%s.crt' % nickname) p = Popen([getcert, 'request', '-c', ca['name'], '-T', template.decode(), '-I', nickname, '-k', keyfile, '-f', certfile, '-g', attrs['msPKI-Minimal-Key-Size'][0]], stdout=PIPE, stderr=PIPE) out, err = p.communicate() log.debug(out.decode()) if p.returncode != 0: data = { 'Error': err.decode(), 'Certificate': nickname } log.error('Failed to request certificate', data) data['files'].extend([keyfile, certfile]) data['templates'].append(nickname) if update is not None: Popen([update]).wait() else: log.warn('certmonger and cepces must be installed for ' + 'certificate auto enrollment to work') return json.dumps(data) class gp_cert_auto_enroll_ext(gp_pol_ext, gp_applier): def __str__(self): return r'Cryptography\AutoEnrollment' def unapply(self, guid, attribute, value): ca_cn = base64.b64decode(attribute) data = json.loads(value) getcert = which('getcert') if getcert is not None: Popen([getcert, 'remove-ca', '-c', ca_cn]).wait() for nickname in data['templates']: Popen([getcert, 'stop-tracking', '-i', nickname]).wait() for f in data['files']: if os.path.exists(f): if os.path.exists(f): os.unlink(f) self.cache_remove_attribute(guid, attribute) def apply(self, guid, ca, applier_func, *args, **kwargs): attribute = base64.b64encode(ca['name'].encode()).decode() # If the policy has changed, unapply, then apply new policy old_val = self.cache_get_attribute_value(guid, attribute) old_data = json.loads(old_val) if old_val is not None else {} templates = ['%s.%s' % (ca['name'], t.decode()) for t in get_supported_templates(ca['hostname'])] \ if old_val is not None else [] new_data = { 'templates': templates, **ca } if changed(new_data, old_data) or self.cache_get_apply_state() == GPOSTATE.ENFORCE: self.unapply(guid, attribute, old_val) # If policy is already applied and unchanged, skip application if old_val is not None and not changed(new_data, old_data) and \ self.cache_get_apply_state() != GPOSTATE.ENFORCE: return # Apply the policy and log the changes data = applier_func(*args, **kwargs) self.cache_add_attribute(guid, attribute, data) def process_group_policy(self, deleted_gpo_list, changed_gpo_list, trust_dir=None, private_dir=None): if trust_dir is None: trust_dir = self.lp.cache_path('certs') if private_dir is None: private_dir = self.lp.private_path('certs') if not os.path.exists(trust_dir): os.mkdir(trust_dir, mode=0o755) if not os.path.exists(private_dir): os.mkdir(private_dir, mode=0o700) for guid, settings in deleted_gpo_list: if str(self) in settings: for ca_cn_enc, data in settings[str(self)].items(): self.unapply(guid, ca_cn_enc, data) for gpo in changed_gpo_list: if gpo.file_sys_path: section = r'Software\Policies\Microsoft\Cryptography\AutoEnrollment' pol_file = 'MACHINE/Registry.pol' path = os.path.join(gpo.file_sys_path, pol_file) pol_conf = self.parse(path) if not pol_conf: continue for e in pol_conf.entries: if e.keyname == section and e.valuename == 'AEPolicy': # This policy applies as specified in [MS-CAESO] 4.4.5.1 if e.data & 0x8000: continue # The policy is disabled enroll = e.data & 0x1 == 0x1 manage = e.data & 0x2 == 0x2 retrive_pending = e.data & 0x4 == 0x4 if enroll: ca_names = self.__enroll(gpo.name, pol_conf.entries, trust_dir, private_dir) # Cleanup any old CAs that have been removed ca_attrs = [base64.b64encode(n.encode()).decode() \ for n in ca_names] self.clean(gpo.name, keep=ca_attrs) else: # If enrollment has been disabled for this GPO, # remove any existing policy ca_attrs = \ self.cache_get_all_attribute_values(gpo.name) self.clean(gpo.name, remove=list(ca_attrs.keys())) def __read_cep_data(self, guid, ldb, end_point_information, trust_dir, private_dir): """Read CEP Data. [MS-CAESO] 4.4.5.3.2.4 In this step autoenrollment initializes instances of the CertificateEnrollmentPolicy by accessing end points associated with CEP groups created in the previous step. """ # For each group created in the previous step: for end_point_group in end_point_information: # Pick an arbitrary instance of the # CertificateEnrollmentPolicyEndPoint from the group e = end_point_group[0] # If this instance does not have the AutoEnrollmentEnabled flag set # in the EndPoint.Flags, continue with the next group. if not e['Flags'] & 0x10: continue # If the current group contains a # CertificateEnrollmentPolicyEndPoint instance with EndPoint.URI # equal to "LDAP": if any([e['URL'] == 'LDAP:' for e in end_point_group]): # Perform an LDAP search to read the value of the objectGuid # attribute of the root object of the forest root domain NC. If # any errors are encountered, continue with the next group. res = ldb.search('', SCOPE_BASE, '(objectClass=*)', ['rootDomainNamingContext']) if len(res) != 1: continue res2 = ldb.search(res[0]['rootDomainNamingContext'][0], SCOPE_BASE, '(objectClass=*)', ['objectGUID']) if len(res2) != 1: continue # Compare the value read in the previous step to the # EndPoint.PolicyId datum CertificateEnrollmentPolicyEndPoint # instance. If the values do not match, continue with the next # group. objectGUID = '{%s}' % \ octet_string_to_objectGUID(res2[0]['objectGUID'][0]).upper() if objectGUID != e['PolicyID']: continue # For each CertificateEnrollmentPolicyEndPoint instance for that # group: ca_names = [] for ca in end_point_group: # If EndPoint.URI equals "LDAP": if ca['URL'] == 'LDAP:': # This is a basic configuration. cas = fetch_certification_authorities(ldb) for _ca in cas: self.apply(guid, _ca, cert_enroll, _ca, ldb, trust_dir, private_dir) ca_names.append(_ca['name']) # If EndPoint.URI starts with "HTTPS//": elif ca['URL'].lower().startswith('https://'): self.apply(guid, ca, cert_enroll, ca, ldb, trust_dir, private_dir, auth=ca['auth']) ca_names.append(ca['name']) else: edata = { 'endpoint': ca['URL'] } log.error('Unrecognized endpoint', edata) return ca_names def __enroll(self, guid, entries, trust_dir, private_dir): url = 'ldap://%s' % get_dc_hostname(self.creds, self.lp) ldb = Ldb(url=url, session_info=system_session(), lp=self.lp, credentials=self.creds) ca_names = [] end_point_information = obtain_end_point_information(entries) if len(end_point_information) > 0: ca_names.extend(self.__read_cep_data(guid, ldb, end_point_information, trust_dir, private_dir)) else: cas = fetch_certification_authorities(ldb) for ca in cas: self.apply(guid, ca, cert_enroll, ca, ldb, trust_dir, private_dir) ca_names.append(ca['name']) return ca_names def rsop(self, gpo): output = {} pol_file = 'MACHINE/Registry.pol' section = r'Software\Policies\Microsoft\Cryptography\AutoEnrollment' if gpo.file_sys_path: path = os.path.join(gpo.file_sys_path, pol_file) pol_conf = self.parse(path) if not pol_conf: return output for e in pol_conf.entries: if e.keyname == section and e.valuename == 'AEPolicy': enroll = e.data & 0x1 == 0x1 if e.data & 0x8000 or not enroll: continue output['Auto Enrollment Policy'] = {} url = 'ldap://%s' % get_dc_hostname(self.creds, self.lp) ldb = Ldb(url=url, session_info=system_session(), lp=self.lp, credentials=self.creds) end_point_information = \ obtain_end_point_information(pol_conf.entries) cas = fetch_certification_authorities(ldb) if len(end_point_information) > 0: cas2 = [ep for sl in end_point_information for ep in sl] if any([ca['URL'] == 'LDAP:' for ca in cas2]): cas.extend(cas2) else: cas = cas2 for ca in cas: if 'URL' in ca and ca['URL'] == 'LDAP:': continue policy = 'Auto Enrollment Policy' cn = ca['name'] if policy not in output: output[policy] = {} output[policy][cn] = {} if 'cACertificate' in ca: output[policy][cn]['CA Certificate'] = \ format_root_cert(ca['cACertificate']).decode() output[policy][cn]['Auto Enrollment Server'] = \ ca['hostname'] supported_templates = \ get_supported_templates(ca['hostname']) output[policy][cn]['Templates'] = \ [t.decode() for t in supported_templates] return output