# Authors: # Rob Crittenden # # Copyright (C) 2010 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 . # Test some simple LDAP requests using the ldap2 backend # This fetches a certificate from a host principal so we can ensure that the # schema is working properly. We know this because the schema will tell the # encoder not to utf-8 encode binary attributes. # The DM password needs to be set in ~/.ipa/.dmpw import os import sys import pytest import nose from nose.tools import assert_raises # pylint: disable=E0611 import nss.nss as nss import six from ipaserver.plugins.ldap2 import ldap2 from ipalib import api, x509, create_api, errors from ipapython import ipautil from ipapython.dn import DN if six.PY3: unicode = str @pytest.mark.tier0 class test_ldap(object): """ Test various LDAP client bind methods. """ def setup(self): self.conn = None self.ldapuri = 'ldap://%s' % ipautil.format_netloc(api.env.host) nss.nss_init_nodb() self.dn = DN(('krbprincipalname','ldap/%s@%s' % (api.env.host, api.env.realm)), ('cn','services'),('cn','accounts'),api.env.basedn) def teardown(self): if self.conn and self.conn.isconnected(): self.conn.disconnect() def test_anonymous(self): """ Test an anonymous LDAP bind using ldap2 """ self.conn = ldap2(api, ldap_uri=self.ldapuri) self.conn.connect() dn = api.env.basedn entry_attrs = self.conn.get_entry(dn, ['associateddomain']) domain = entry_attrs.single_value['associateddomain'] assert domain == api.env.domain def test_GSSAPI(self): """ Test a GSSAPI LDAP bind using ldap2 """ self.conn = ldap2(api, ldap_uri=self.ldapuri) self.conn.connect() entry_attrs = self.conn.get_entry(self.dn, ['usercertificate']) cert = entry_attrs.get('usercertificate') cert = cert[0] serial = unicode(x509.get_serial_number(cert, x509.DER)) assert serial is not None def test_simple(self): """ Test a simple LDAP bind using ldap2 """ pwfile = api.env.dot_ipa + os.sep + ".dmpw" if ipautil.file_exists(pwfile): fp = open(pwfile, "r") dm_password = fp.read().rstrip() fp.close() else: raise nose.SkipTest("No directory manager password in %s" % pwfile) self.conn = ldap2(api, ldap_uri=self.ldapuri) self.conn.connect(bind_dn=DN(('cn', 'directory manager')), bind_pw=dm_password) entry_attrs = self.conn.get_entry(self.dn, ['usercertificate']) cert = entry_attrs.get('usercertificate') cert = cert[0] serial = unicode(x509.get_serial_number(cert, x509.DER)) assert serial is not None def test_Backend(self): """ Test using the ldap2 Backend directly (ala ipa-server-install) """ # Create our own api because the one generated for the tests is # a client-only api. Then we register in the commands and objects # we need for the test. myapi = create_api(mode=None) myapi.bootstrap(context='cli', in_server=True) myapi.finalize() pwfile = api.env.dot_ipa + os.sep + ".dmpw" if ipautil.file_exists(pwfile): fp = open(pwfile, "r") dm_password = fp.read().rstrip() fp.close() else: raise nose.SkipTest("No directory manager password in %s" % pwfile) myapi.Backend.ldap2.connect(bind_dn=DN(('cn', 'Directory Manager')), bind_pw=dm_password) result = myapi.Command['service_show']('ldap/%s@%s' % (api.env.host, api.env.realm,)) entry_attrs = result['result'] cert = entry_attrs.get('usercertificate') cert = cert[0] serial = unicode(x509.get_serial_number(cert, x509.DER)) assert serial is not None def test_autobind(self): """ Test an autobind LDAP bind using ldap2 """ ldapuri = 'ldapi://%%2fvar%%2frun%%2fslapd-%s.socket' % api.env.realm.replace('.','-') self.conn = ldap2(api, ldap_uri=ldapuri) try: self.conn.connect(autobind=True) except errors.ACIError: raise nose.SkipTest("Only executed as root") entry_attrs = self.conn.get_entry(self.dn, ['usercertificate']) cert = entry_attrs.get('usercertificate') cert = cert[0] serial = unicode(x509.get_serial_number(cert, x509.DER)) assert serial is not None @pytest.mark.tier0 class test_LDAPEntry(object): """ Test the LDAPEntry class """ cn1 = [u'test1'] cn2 = [u'test2'] dn1 = DN(('cn', cn1[0])) dn2 = DN(('cn', cn2[0])) def setup(self): self.ldapuri = 'ldap://%s' % ipautil.format_netloc(api.env.host) self.conn = ldap2(api, ldap_uri=self.ldapuri) self.conn.connect() self.entry = self.conn.make_entry(self.dn1, cn=self.cn1) def teardown(self): if self.conn and self.conn.isconnected(): self.conn.disconnect() def test_entry(self): e = self.entry assert e.dn is self.dn1 assert u'cn' in e assert u'cn' in e.keys() assert 'CN' in e if six.PY2: assert 'CN' not in e.keys() else: assert 'CN' in e.keys() assert 'commonName' in e if six.PY2: assert 'commonName' not in e.keys() else: assert 'commonName' in e.keys() assert e['CN'] is self.cn1 assert e['CN'] is e[u'cn'] e.dn = self.dn2 assert e.dn is self.dn2 def test_set_attr(self): e = self.entry e['commonName'] = self.cn2 assert u'cn' in e assert u'cn' in e.keys() assert 'CN' in e if six.PY2: assert 'CN' not in e.keys() else: assert 'CN' in e.keys() assert 'commonName' in e if six.PY2: assert 'commonName' not in e.keys() else: assert 'commonName' in e.keys() assert e['CN'] is self.cn2 assert e['CN'] is e[u'cn'] def test_del_attr(self): e = self.entry del e['CN'] assert 'CN' not in e assert 'CN' not in e.keys() assert u'cn' not in e assert u'cn' not in e.keys() assert 'commonName' not in e assert 'commonName' not in e.keys() def test_popitem(self): e = self.entry assert e.popitem() == ('cn', self.cn1) assert list(e) == [] def test_setdefault(self): e = self.entry assert e.setdefault('cn', self.cn2) == self.cn1 assert e['cn'] == self.cn1 assert e.setdefault('xyz', self.cn2) == self.cn2 assert e['xyz'] == self.cn2 def test_update(self): e = self.entry e.update({'cn': self.cn2}, xyz=self.cn2) assert e['cn'] == self.cn2 assert e['xyz'] == self.cn2 def test_pop(self): e = self.entry assert e.pop('cn') == self.cn1 assert 'cn' not in e assert e.pop('cn', 'default') is 'default' with assert_raises(KeyError): e.pop('cn') def test_clear(self): e = self.entry e.clear() assert not e assert 'cn' not in e @pytest.mark.skipif(sys.version_info >= (3, 0), reason="Python 2 only") def test_has_key(self): e = self.entry assert not e.has_key('xyz') assert e.has_key('cn') assert e.has_key('COMMONNAME') def test_in(self): e = self.entry assert 'xyz' not in e assert 'cn' in e assert 'COMMONNAME' in e def test_get(self): e = self.entry assert e.get('cn') == self.cn1 assert e.get('commonname') == self.cn1 assert e.get('COMMONNAME', 'default') == self.cn1 assert e.get('bad key', 'default') == 'default' def test_single_value(self): e = self.entry assert e.single_value['cn'] == self.cn1[0] assert e.single_value['commonname'] == self.cn1[0] assert e.single_value.get('COMMONNAME', 'default') == self.cn1[0] assert e.single_value.get('bad key', 'default') == 'default' def test_sync(self): e = self.entry nice = e['test'] = [1, 2, 3] assert e['test'] is nice raw = e.raw['test'] assert raw == [b'1', b'2', b'3'] nice.remove(1) assert e.raw['test'] is raw assert raw == [b'2', b'3'] raw.append(b'4') assert e['test'] is nice assert nice == [2, 3, u'4'] nice.remove(2) raw.append(b'5') assert nice == [3, u'4'] assert raw == [b'2', b'3', b'4', b'5'] assert e['test'] is nice assert e.raw['test'] is raw assert nice == [3, u'4', u'5'] assert raw == [b'3', b'4', b'5'] nice.insert(0, 2) raw.remove(b'4') assert nice == [2, 3, u'4', u'5'] assert raw == [b'3', b'5'] assert e.raw['test'] is raw assert e['test'] is nice assert nice == [2, 3, u'5'] assert raw == [b'3', b'5', b'2'] raw = [b'a', b'b'] e.raw['test'] = raw assert e['test'] is not nice assert e['test'] == [u'a', u'b'] nice = 'not list' e['test'] = nice assert e['test'] is nice assert e.raw['test'] == [b'not list'] e.raw['test'].append(b'second') assert e['test'] == ['not list', u'second']