def test_x500_text(self):
# null DN x500 ordering and LDAP ordering are the same
nulldn = DN()
assert nulldn.ldap_text() == nulldn.x500_text()
# reverse a DN with a single RDN
assert self.dn1.ldap_text() == self.dn1.x500_text()
# reverse a DN with 2 RDNs
dn3_x500 = self.dn3.x500_text()
dn3_rev = DN(self.rdn2, self.rdn1)
assert dn3_rev.ldap_text() == dn3_x500
# reverse a longer DN
longdn_x500 = self.base_container_dn.x500_text()
longdn_rev = DN(longdn_x500)
l = len(self.base_container_dn)
for i in range(l):
assert longdn_rev[i] == self.base_container_dn[l - 1 - i]
def test_x500_text(self):
# null DN x500 ordering and LDAP ordering are the same
nulldn = DN()
self.assertEqual(nulldn.ldap_text(), nulldn.x500_text())
# reverse a DN with a single RDN
self.assertEqual(self.dn1.ldap_text(), self.dn1.x500_text())
# reverse a DN with 2 RDNs
dn3_x500 = self.dn3.x500_text()
dn3_rev = DN(self.rdn2, self.rdn1)
self.assertEqual(dn3_rev.ldap_text(), dn3_x500)
# reverse a longer DN
longdn_x500 = self.base_container_dn.x500_text()
longdn_rev = DN(longdn_x500)
l = len(self.base_container_dn)
for i in range(l):
self.assertEqual(longdn_rev[i], self.base_container_dn[l - 1 - i])
def test_x500_text(self):
# null DN x500 ordering and LDAP ordering are the same
nulldn = DN()
self.assertEqual(nulldn.ldap_text(), nulldn.x500_text())
# reverse a DN with a single RDN
self.assertEqual(self.dn1.ldap_text(), self.dn1.x500_text())
# reverse a DN with 2 RDNs
dn3_x500 = self.dn3.x500_text()
dn3_rev = DN(self.rdn2, self.rdn1)
self.assertEqual(dn3_rev.ldap_text(), dn3_x500)
# reverse a longer DN
longdn_x500 = self.base_container_dn.x500_text()
longdn_rev = DN(longdn_x500)
l = len(self.base_container_dn)
for i in range(l):
self.assertEqual(longdn_rev[i], self.base_container_dn[l-1-i])
def pre_callback(self, ldap, dn, entry_attrs, attrs_list, *keys,
**options):
# Fill in a default UUID when not specified.
if entry_attrs.get('ipatokenuniqueid', None) is None:
entry_attrs['ipatokenuniqueid'] = str(uuid.uuid4())
dn = DN("ipatokenuniqueid=%s" % entry_attrs['ipatokenuniqueid'],
dn)
if not _check_interval(options.get('ipatokennotbefore', None),
options.get('ipatokennotafter', None)):
raise ValidationError(name='not_after',
error='is before the validity start')
# Set the object class and defaults for specific token types
options['type'] = options['type'].lower()
entry_attrs['objectclass'] = otptoken.object_class + [
'ipatoken' + options['type']
]
for ttype, tattrs in TOKEN_TYPES.items():
if ttype != options['type']:
for tattr in tattrs:
if tattr in entry_attrs:
del entry_attrs[tattr]
# If owner was not specified, default to the person adding this token.
# If managedby was not specified, attempt a sensible default.
if 'ipatokenowner' not in entry_attrs or 'managedby' not in entry_attrs:
cur_dn = DN(self.api.Backend.ldap2.conn.whoami_s()[4:])
if cur_dn:
cur_uid = cur_dn[0].value
prev_uid = entry_attrs.setdefault('ipatokenowner', cur_uid)
if cur_uid == prev_uid:
entry_attrs.setdefault('managedby', cur_dn.ldap_text())
# Resolve the owner's dn
_normalize_owner(self.api.Object.user, entry_attrs)
# Get the issuer for the URI
owner = entry_attrs.get('ipatokenowner', None)
issuer = api.env.realm
if owner is not None:
try:
issuer = ldap.get_entry(
owner, ['krbprincipalname'])['krbprincipalname'][0]
except (NotFound, IndexError):
pass
# Check if key is not empty
if entry_attrs['ipatokenotpkey'] is None:
raise ValidationError(name='key', error=_(u'cannot be empty'))
# Build the URI parameters
args = {}
args['issuer'] = issuer
args['secret'] = base64.b32encode(entry_attrs['ipatokenotpkey'])
args['digits'] = entry_attrs['ipatokenotpdigits']
args['algorithm'] = entry_attrs['ipatokenotpalgorithm'].upper()
if options['type'] == 'totp':
args['period'] = entry_attrs['ipatokentotptimestep']
elif options['type'] == 'hotp':
args['counter'] = entry_attrs['ipatokenhotpcounter']
# Build the URI
label = urllib.parse.quote(entry_attrs['ipatokenuniqueid'])
parameters = urllib.parse.urlencode(args)
uri = u'otpauth://%s/%s:%s?%s' % (options['type'], issuer, label,
parameters)
setattr(context, 'uri', uri)
attrs_list.append("objectclass")
return dn
class TestDN:
@pytest.fixture(autouse=True)
def dn_setup(self):
# ava1 must sort before ava2
self.attr1 = 'cn'
self.value1 = u'Bob'
self.str_ava1 = '%s=%s' % (self.attr1, self.value1)
self.ava1 = AVA(self.attr1, self.value1)
self.str_rdn1 = '%s=%s' % (self.attr1, self.value1)
self.rdn1 = RDN((self.attr1, self.value1))
self.attr2 = 'ou'
self.value2 = u'people'
self.str_ava2 = '%s=%s' % (self.attr2, self.value2)
self.ava2 = AVA(self.attr2, self.value2)
self.str_rdn2 = '%s=%s' % (self.attr2, self.value2)
self.rdn2 = RDN((self.attr2, self.value2))
self.str_dn1 = self.str_rdn1
self.dn1 = DN(self.rdn1)
self.str_dn2 = self.str_rdn2
self.dn2 = DN(self.rdn2)
self.str_dn3 = '%s,%s' % (self.str_rdn1, self.str_rdn2)
self.dn3 = DN(self.rdn1, self.rdn2)
self.base_rdn1 = RDN(('dc', 'redhat'))
self.base_rdn2 = RDN(('dc', 'com'))
self.base_dn = DN(self.base_rdn1, self.base_rdn2)
self.container_rdn1 = RDN(('cn', 'sudorules'))
self.container_rdn2 = RDN(('cn', 'sudo'))
self.container_dn = DN(self.container_rdn1, self.container_rdn2)
self.base_container_dn = DN((self.attr1, self.value1),
self.container_dn, self.base_dn)
ou = x509.NameAttribute(
x509.NameOID.ORGANIZATIONAL_UNIT_NAME, self.value2)
cn = x509.NameAttribute(x509.NameOID.COMMON_NAME, self.value1)
c = x509.NameAttribute(x509.NameOID.COUNTRY_NAME, 'AU')
st = x509.NameAttribute(
x509.NameOID.STATE_OR_PROVINCE_NAME, 'Queensland')
self.x500name = x509.Name([ou, cn])
self.x500nameMultiRDN = x509.Name([
x509.RelativeDistinguishedName([c, st]),
x509.RelativeDistinguishedName([cn]),
])
self.x500nameMultiRDN2 = x509.Name([
x509.RelativeDistinguishedName([st, c]),
x509.RelativeDistinguishedName([cn]),
])
def assertExpectedClass(self, klass, obj, component):
assert obj.__class__ is expected_class(klass, component)
def test_create(self):
# Create with single attr,value pair
dn1 = DN((self.attr1, self.value1))
assert len(dn1) == 1
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
assert isinstance(dn1[0].attr, unicode)
assert isinstance(dn1[0].value, unicode)
assert dn1[0] == self.rdn1
# Create with single attr,value pair passed as a tuple
dn1 = DN((self.attr1, self.value1))
assert len(dn1) == 1
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
assert isinstance(dn1[i].attr, unicode)
assert isinstance(dn1[i].value, unicode)
assert dn1[0] == self.rdn1
# Creation with multiple attr,value string pairs should fail
with pytest.raises(ValueError):
dn1 = DN(self.attr1, self.value1, self.attr2, self.value2)
# Create with multiple attr,value pairs passed as tuples & lists
dn1 = DN((self.attr1, self.value1), [self.attr2, self.value2])
assert len(dn1) == 2
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
assert isinstance(dn1[i].attr, unicode)
assert isinstance(dn1[i].value, unicode)
assert dn1[0] == self.rdn1
assert dn1[1] == self.rdn2
# Create with multiple attr,value pairs passed as tuple and RDN
dn1 = DN((self.attr1, self.value1), RDN((self.attr2, self.value2)))
assert len(dn1) == 2
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
assert isinstance(dn1[i].attr, unicode)
assert isinstance(dn1[i].value, unicode)
assert dn1[0] == self.rdn1
assert dn1[1] == self.rdn2
# Create with multiple attr,value pairs but reverse
# constructor parameter ordering. RDN ordering should also be
# reversed because DN's are a ordered sequence of RDN's
dn1 = DN((self.attr2, self.value2), (self.attr1, self.value1))
assert len(dn1) == 2
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
assert isinstance(dn1[i].attr, unicode)
assert isinstance(dn1[i].value, unicode)
assert dn1[0] == self.rdn2
assert dn1[1] == self.rdn1
# Create with single RDN object
dn1 = DN(self.rdn1)
assert len(dn1) == 1
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
assert isinstance(dn1[i].attr, unicode)
assert isinstance(dn1[i].value, unicode)
assert dn1[0] == self.rdn1
# Create with multiple RDN objects, assure ordering is preserved.
dn1 = DN(self.rdn1, self.rdn2)
assert len(dn1) == 2
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
assert isinstance(dn1[i].attr, unicode)
assert isinstance(dn1[i].value, unicode)
assert dn1[0] == self.rdn1
assert dn1[1] == self.rdn2
# Create with multiple RDN objects in different order, assure
# ordering is preserved.
dn1 = DN(self.rdn2, self.rdn1)
assert len(dn1) == 2
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
assert isinstance(dn1[i].attr, unicode)
assert isinstance(dn1[i].value, unicode)
assert dn1[0] == self.rdn2
assert dn1[1] == self.rdn1
# Create with single string with 1 RDN
dn1 = DN(self.str_rdn1)
assert len(dn1) == 1
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
assert isinstance(dn1[i].attr, unicode)
assert isinstance(dn1[i].value, unicode)
assert dn1[0] == self.rdn1
# Create with single string with 2 RDN's
dn1 = DN(self.str_dn3)
assert len(dn1) == 2
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
assert isinstance(dn1[i].attr, unicode)
assert isinstance(dn1[i].value, unicode)
assert dn1[0] == self.rdn1
assert dn1[1] == self.rdn2
# Create with a python-cryptography 'Name'
dn1 = DN(self.x500name)
assert len(dn1) == 2
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
assert isinstance(dn1[i].attr, unicode)
assert isinstance(dn1[i].value, unicode)
assert dn1[0] == self.rdn1
assert dn1[1] == self.rdn2
# Create from 'Name' with multi-valued RDN
dn1 = DN(self.x500nameMultiRDN)
assert len(dn1) == 2
assert len(dn1[1]) == 2
assert AVA('c', 'au') in dn1[1]
assert AVA('st', 'queensland') in dn1[1]
assert len(dn1[0]) == 1
assert self.ava1 in dn1[0]
# Create with RDN, and 2 DN's (e.g. attr + container + base)
dn1 = DN((self.attr1, self.value1), self.container_dn, self.base_dn)
assert len(dn1) == 5
dn_str = ','.join([str(self.rdn1),
str(self.container_rdn1), str(self.container_rdn2),
str(self.base_rdn1), str(self.base_rdn2)])
assert str(dn1) == dn_str
def test_str(self):
dn1 = DN(self.dn1)
dn2 = DN(self.dn2)
dn3 = DN(self.dn3)
assert str(dn1) == self.str_dn1
assert isinstance(str(dn1), str)
assert str(dn2) == self.str_dn2
assert isinstance(str(dn2), str)
assert str(dn3) == self.str_dn3
assert isinstance(str(dn3), str)
def test_cmp(self):
# Equality
dn1 = DN((self.attr1, self.value1))
assert dn1 == self.dn1
assert dn1 == self.dn1
assert dn1 == self.str_dn1
assert dn1 == self.str_dn1
result = cmp(dn1, self.dn1)
assert result == 0
# Make dn1's attr greater
with pytest.raises(AttributeError):
dn1[0].attr = self.attr1 + "1"
dn1 = DN((self.attr1 + "1", self.value1))
assert dn1 != self.dn1
assert dn1 != self.dn1
result = cmp(dn1, self.dn1)
assert result == 1
result = cmp(self.dn1, dn1)
assert result == -1
# Reset dn1's attr, should be equal again
with pytest.raises(AttributeError):
dn1[0].attr = self.attr1
dn1 = DN((self.attr1, self.value1))
result = cmp(dn1, self.dn1)
assert result == 0
# Make dn1's value greater
# attr will be equal, this tests secondary comparision component
with pytest.raises(AttributeError):
dn1[0].value = self.value1 + "1"
dn1 = DN((self.attr1, self.value1 + "1"))
result = cmp(dn1, self.dn1)
assert result == 1
result = cmp(self.dn1, dn1)
assert result == -1
# Make sure dn's with more rdn's are greater
result = cmp(self.dn1, self.dn3)
assert result == -1
result = cmp(self.dn3, self.dn1)
assert result == 1
# Test startswith, endswith
container_dn = DN(self.container_dn)
base_container_dn = DN(self.base_container_dn)
assert base_container_dn.startswith(self.rdn1)
assert base_container_dn.startswith(self.dn1)
assert base_container_dn.startswith(self.dn1 + container_dn)
assert not base_container_dn.startswith(self.dn2)
assert not base_container_dn.startswith(self.rdn2)
assert base_container_dn.startswith((self.dn1))
assert base_container_dn.startswith((self.rdn1))
assert not base_container_dn.startswith((self.rdn2))
assert base_container_dn.startswith((self.rdn2, self.rdn1))
assert base_container_dn.startswith((self.dn1, self.dn2))
assert base_container_dn.endswith(self.base_dn)
assert base_container_dn.endswith(container_dn + self.base_dn)
assert not base_container_dn.endswith(DN(self.base_rdn1))
assert base_container_dn.endswith(DN(self.base_rdn2))
assert base_container_dn.endswith(
(DN(self.base_rdn1), DN(self.base_rdn2)))
# Test "in" membership
assert self.container_rdn1 in container_dn
# pylint: disable=comparison-with-itself
assert container_dn in container_dn
assert self.base_rdn1 not in container_dn
assert self.container_rdn1 in base_container_dn
assert container_dn in base_container_dn
assert container_dn + self.base_dn in base_container_dn
assert self.dn1 + container_dn + self.base_dn in base_container_dn
assert self.dn1 + container_dn + self.base_dn == base_container_dn
assert self.container_rdn1 not in self.base_dn
def test_eq_multi_rdn(self):
dn1 = DN(self.ava1, 'ST=Queensland+C=AU')
dn2 = DN(self.ava1, 'C=AU+ST=Queensland')
assert dn1 == dn2
# ensure AVAs get sorted when constructing from x509.Name
dn3 = DN(self.x500nameMultiRDN)
dn4 = DN(self.x500nameMultiRDN2)
assert dn3 == dn4
# ensure AVAs get sorted in the same way regardless of what
# the DN was constructed from
assert dn1 == dn3
assert dn1 == dn4
assert dn2 == dn3
assert dn2 == dn4
def test_indexing(self):
dn1 = DN(self.dn1)
dn2 = DN(self.dn2)
dn3 = DN(self.dn3)
assert dn1[0] == self.rdn1
assert dn1[self.rdn1.attr] == self.rdn1.value
with pytest.raises(KeyError):
dn1['foo'] # pylint: disable=pointless-statement
assert dn2[0] == self.rdn2
assert dn2[self.rdn2.attr] == self.rdn2.value
with pytest.raises(KeyError):
dn2['foo'] # pylint: disable=pointless-statement
assert dn3[0] == self.rdn1
assert dn3[self.rdn1.attr] == self.rdn1.value
assert dn3[1] == self.rdn2
assert dn3[self.rdn2.attr] == self.rdn2.value
with pytest.raises(KeyError):
dn3['foo'] # pylint: disable=pointless-statement
with pytest.raises(TypeError):
dn3[1.0] # pylint: disable=pointless-statement
def test_assignments(self):
dn = DN('t=0,t=1,t=2,t=3,t=4,t=5,t=6,t=7,t=8,t=9')
with pytest.raises(TypeError):
# pylint: disable=unsupported-assignment-operation
dn[0] = RDN('t=a')
with pytest.raises(TypeError):
# pylint: disable=unsupported-assignment-operation
dn[0:1] = [RDN('t=a'), RDN('t=b')]
def test_iter(self):
dn1 = DN(self.dn1)
dn2 = DN(self.dn2)
dn3 = DN(self.dn3)
assert len(dn1) == 1
assert dn1[:] == self.rdn1
for i, ava in enumerate(dn1):
if i == 0:
assert ava == self.rdn1
else:
pytest.fail(
"got iteration index %d, but len=%d" % (i, len(self.rdn1)))
assert len(dn2) == 1
assert dn2[:] == self.rdn2
for i, ava in enumerate(dn2):
if i == 0:
assert ava == self.rdn2
else:
pytest.fail(
"got iteration index %d, but len=%d" % (i, len(self.rdn2)))
assert len(dn3) == 2
assert dn3[:] == DN(self.rdn1, self.rdn2)
for i, ava in enumerate(dn3):
if i == 0:
assert ava == self.rdn1
elif i == 1:
assert ava == self.rdn2
else:
pytest.fail(
"got iteration index %d, but len=%d" % (i, len(dn3)))
def test_concat(self):
dn1 = DN((self.attr1, self.value1))
dn2 = DN([self.attr2, self.value2])
# in-place addtion
dn1 += dn2
assert dn1 == self.dn3
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
dn1 = DN((self.attr1, self.value1))
dn1 += self.rdn2
assert dn1 == self.dn3
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
dn1 = DN((self.attr1, self.value1))
dn1 += self.dn2
assert dn1 == self.dn3
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
dn1 = DN((self.attr1, self.value1))
dn1 += self.str_dn2
assert dn1 == self.dn3
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
# concatenation
dn1 = DN((self.attr1, self.value1))
dn3 = dn1 + dn2
assert dn3 == self.dn3
self.assertExpectedClass(DN, dn3, 'self')
for i in range(0, len(dn3)):
self.assertExpectedClass(DN, dn3[i], 'RDN')
for j in range(0, len(dn3[i])):
self.assertExpectedClass(DN, dn3[i][j], 'AVA')
dn1 = DN((self.attr1, self.value1))
dn3 = dn1 + self.rdn2
assert dn3 == self.dn3
self.assertExpectedClass(DN, dn3, 'self')
for i in range(0, len(dn3)):
self.assertExpectedClass(DN, dn3[i], 'RDN')
for j in range(0, len(dn3[i])):
self.assertExpectedClass(DN, dn3[i][j], 'AVA')
dn3 = dn1 + self.str_rdn2
assert dn3 == self.dn3
self.assertExpectedClass(DN, dn3, 'self')
for i in range(0, len(dn3)):
self.assertExpectedClass(DN, dn3[i], 'RDN')
self.assertExpectedClass(DN, dn3[i][0], 'AVA')
dn3 = dn1 + self.str_dn2
assert dn3 == self.dn3
self.assertExpectedClass(DN, dn3, 'self')
self.assertExpectedClass(DN, dn3, 'self')
for i in range(0, len(dn3)):
self.assertExpectedClass(DN, dn3[i], 'RDN')
for j in range(0, len(dn3[i])):
self.assertExpectedClass(DN, dn3[i][j], 'AVA')
dn3 = dn1 + self.dn2
assert dn3 == self.dn3
self.assertExpectedClass(DN, dn3, 'self')
self.assertExpectedClass(DN, dn3, 'self')
for i in range(0, len(dn3)):
self.assertExpectedClass(DN, dn3[i], 'RDN')
for j in range(0, len(dn3[i])):
self.assertExpectedClass(DN, dn3[i][j], 'AVA')
def test_find(self):
# -10 -9 -8 -7 -6 -5 -4 -3 -2 -1
dn = DN('t=0,t=1,cn=bob,t=3,t=4,t=5,cn=bob,t=7,t=8,t=9')
pat = DN('cn=bob')
# forward
assert dn.find(pat) == 2
assert dn.find(pat, 1) == 2
assert dn.find(pat, 1, 3) == 2
assert dn.find(pat, 2, 3) == 2
assert dn.find(pat, 6) == 6
assert dn.find(pat, 7) == -1
assert dn.find(pat, 1, 2) == -1
with pytest.raises(ValueError):
assert dn.index(pat, 7) == -1
with pytest.raises(ValueError):
assert dn.index(pat, 1, 2) == -1
# reverse
assert dn.rfind(pat) == 6
assert dn.rfind(pat, -4) == 6
assert dn.rfind(pat, 6) == 6
assert dn.rfind(pat, 6, 8) == 6
assert dn.rfind(pat, 6, 8) == 6
assert dn.rfind(pat, -8) == 6
assert dn.rfind(pat, -8, -4) == 6
assert dn.rfind(pat, -8, -5) == 2
assert dn.rfind(pat, 7) == -1
assert dn.rfind(pat, -3) == -1
with pytest.raises(ValueError):
assert dn.rindex(pat, 7) == -1
with pytest.raises(ValueError):
assert dn.rindex(pat, -3) == -1
def test_replace(self):
# pylint: disable=no-member
dn = DN('t=0,t=1,t=2,t=3,t=4,t=5,t=6,t=7,t=8,t=9')
with pytest.raises(AttributeError):
dn.replace # pylint: disable=pointless-statement
def test_hashing(self):
# create DN's that are equal but differ in case
dn1 = DN((self.attr1.lower(), self.value1.upper()))
dn2 = DN((self.attr1.upper(), self.value1.lower()))
# DNs that are equal should hash to the same value.
assert dn1 == dn2
# Good, everyone's equal, now verify their hash values
assert hash(dn1) == hash(dn2)
# Different DN objects with the same value should
# map to 1 common key and 1 member in a set. The key and
# member are based on the object's value.
dn1_a = DN(self.dn1)
dn1_b = DN(self.dn1)
dn2_a = DN(self.dn2)
dn2_b = DN(self.dn2)
dn3_a = DN(self.dn3)
dn3_b = DN(self.dn3)
assert dn1_a == dn1_b
assert dn2_a == dn2_b
assert dn3_a == dn3_b
d = dict()
s = set()
d[dn1_a] = str(dn1_a)
d[dn1_b] = str(dn1_b)
d[dn2_a] = str(dn2_a)
d[dn2_b] = str(dn2_b)
s.add(dn1_a)
s.add(dn1_b)
s.add(dn2_a)
s.add(dn2_b)
assert len(d) == 2
assert len(s) == 2
assert sorted(d) == sorted([dn1_a, dn2_a])
assert sorted(s) == sorted([dn1_a, dn2_a])
assert dn1_a in d
assert dn1_b in d
assert dn2_a in d
assert dn2_b in d
assert dn3_a not in d
assert dn3_b not in d
assert dn1_a in s
assert dn1_b in s
assert dn2_a in s
assert dn2_b in s
assert dn3_a not in s
assert dn3_b not in s
def test_x500_text(self):
# null DN x500 ordering and LDAP ordering are the same
nulldn = DN()
assert nulldn.ldap_text() == nulldn.x500_text()
# reverse a DN with a single RDN
assert self.dn1.ldap_text() == self.dn1.x500_text()
# reverse a DN with 2 RDNs
dn3_x500 = self.dn3.x500_text()
dn3_rev = DN(self.rdn2, self.rdn1)
assert dn3_rev.ldap_text() == dn3_x500
# reverse a longer DN
longdn_x500 = self.base_container_dn.x500_text()
longdn_rev = DN(longdn_x500)
l = len(self.base_container_dn)
for i in range(l):
assert longdn_rev[i] == self.base_container_dn[l - 1 - i]
class TestDN(unittest.TestCase):
def setUp(self):
# ava1 must sort before ava2
self.attr1 = 'cn'
self.value1 = u'Bob'
self.str_ava1 = '%s=%s' % (self.attr1, self.value1)
self.ava1 = AVA(self.attr1, self.value1)
self.str_rdn1 = '%s=%s' % (self.attr1, self.value1)
self.rdn1 = RDN((self.attr1, self.value1))
self.attr2 = 'ou'
self.value2 = u'people'
self.str_ava2 = '%s=%s' % (self.attr2, self.value2)
self.ava2 = AVA(self.attr2, self.value2)
self.str_rdn2 = '%s=%s' % (self.attr2, self.value2)
self.rdn2 = RDN((self.attr2, self.value2))
self.str_dn1 = self.str_rdn1
self.dn1 = DN(self.rdn1)
self.str_dn2 = self.str_rdn2
self.dn2 = DN(self.rdn2)
self.str_dn3 = '%s,%s' % (self.str_rdn1, self.str_rdn2)
self.dn3 = DN(self.rdn1, self.rdn2)
self.base_rdn1 = RDN(('dc', 'redhat'))
self.base_rdn2 = RDN(('dc', 'com'))
self.base_dn = DN(self.base_rdn1, self.base_rdn2)
self.container_rdn1 = RDN(('cn', 'sudorules'))
self.container_rdn2 = RDN(('cn', 'sudo'))
self.container_dn = DN(self.container_rdn1, self.container_rdn2)
self.base_container_dn = DN((self.attr1, self.value1),
self.container_dn, self.base_dn)
self.x500name = x509.Name([
x509.NameAttribute(x509.NameOID.ORGANIZATIONAL_UNIT_NAME,
self.value2),
x509.NameAttribute(x509.NameOID.COMMON_NAME, self.value1),
])
def assertExpectedClass(self, klass, obj, component):
self.assertIs(obj.__class__, expected_class(klass, component))
def test_create(self):
# Create with single attr,value pair
dn1 = DN((self.attr1, self.value1))
self.assertEqual(len(dn1), 1)
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
self.assertIsInstance(dn1[0].attr, unicode)
self.assertIsInstance(dn1[0].value, unicode)
self.assertEqual(dn1[0], self.rdn1)
# Create with single attr,value pair passed as a tuple
dn1 = DN((self.attr1, self.value1))
self.assertEqual(len(dn1), 1)
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
self.assertIsInstance(dn1[i].attr, unicode)
self.assertIsInstance(dn1[i].value, unicode)
self.assertEqual(dn1[0], self.rdn1)
# Creation with multiple attr,value string pairs should fail
with self.assertRaises(ValueError):
dn1 = DN(self.attr1, self.value1, self.attr2, self.value2)
# Create with multiple attr,value pairs passed as tuples & lists
dn1 = DN((self.attr1, self.value1), [self.attr2, self.value2])
self.assertEqual(len(dn1), 2)
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
self.assertIsInstance(dn1[i].attr, unicode)
self.assertIsInstance(dn1[i].value, unicode)
self.assertEqual(dn1[0], self.rdn1)
self.assertEqual(dn1[1], self.rdn2)
# Create with multiple attr,value pairs passed as tuple and RDN
dn1 = DN((self.attr1, self.value1), RDN((self.attr2, self.value2)))
self.assertEqual(len(dn1), 2)
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
self.assertIsInstance(dn1[i].attr, unicode)
self.assertIsInstance(dn1[i].value, unicode)
self.assertEqual(dn1[0], self.rdn1)
self.assertEqual(dn1[1], self.rdn2)
# Create with multiple attr,value pairs but reverse
# constructor parameter ordering. RDN ordering should also be
# reversed because DN's are a ordered sequence of RDN's
dn1 = DN((self.attr2, self.value2), (self.attr1, self.value1))
self.assertEqual(len(dn1), 2)
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
self.assertIsInstance(dn1[i].attr, unicode)
self.assertIsInstance(dn1[i].value, unicode)
self.assertEqual(dn1[0], self.rdn2)
self.assertEqual(dn1[1], self.rdn1)
# Create with single RDN object
dn1 = DN(self.rdn1)
self.assertEqual(len(dn1), 1)
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
self.assertIsInstance(dn1[i].attr, unicode)
self.assertIsInstance(dn1[i].value, unicode)
self.assertEqual(dn1[0], self.rdn1)
# Create with multiple RDN objects, assure ordering is preserved.
dn1 = DN(self.rdn1, self.rdn2)
self.assertEqual(len(dn1), 2)
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
self.assertIsInstance(dn1[i].attr, unicode)
self.assertIsInstance(dn1[i].value, unicode)
self.assertEqual(dn1[0], self.rdn1)
self.assertEqual(dn1[1], self.rdn2)
# Create with multiple RDN objects in different order, assure
# ordering is preserved.
dn1 = DN(self.rdn2, self.rdn1)
self.assertEqual(len(dn1), 2)
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
self.assertIsInstance(dn1[i].attr, unicode)
self.assertIsInstance(dn1[i].value, unicode)
self.assertEqual(dn1[0], self.rdn2)
self.assertEqual(dn1[1], self.rdn1)
# Create with single string with 1 RDN
dn1 = DN(self.str_rdn1)
self.assertEqual(len(dn1), 1)
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
self.assertIsInstance(dn1[i].attr, unicode)
self.assertIsInstance(dn1[i].value, unicode)
self.assertEqual(dn1[0], self.rdn1)
# Create with single string with 2 RDN's
dn1 = DN(self.str_dn3)
self.assertEqual(len(dn1), 2)
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
self.assertIsInstance(dn1[i].attr, unicode)
self.assertIsInstance(dn1[i].value, unicode)
self.assertEqual(dn1[0], self.rdn1)
self.assertEqual(dn1[1], self.rdn2)
# Create with a python-cryptography 'Name'
dn1 = DN(self.x500name)
self.assertEqual(len(dn1), 2)
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
self.assertIsInstance(dn1[i].attr, unicode)
self.assertIsInstance(dn1[i].value, unicode)
self.assertEqual(dn1[0], self.rdn1)
self.assertEqual(dn1[1], self.rdn2)
# Create with RDN, and 2 DN's (e.g. attr + container + base)
dn1 = DN((self.attr1, self.value1), self.container_dn, self.base_dn)
self.assertEqual(len(dn1), 5)
dn_str = ','.join([
str(self.rdn1),
str(self.container_rdn1),
str(self.container_rdn2),
str(self.base_rdn1),
str(self.base_rdn2)
])
self.assertEqual(str(dn1), dn_str)
def test_str(self):
dn1 = DN(self.dn1)
dn2 = DN(self.dn2)
dn3 = DN(self.dn3)
self.assertEqual(str(dn1), self.str_dn1)
self.assertIsInstance(str(dn1), str)
self.assertEqual(str(dn2), self.str_dn2)
self.assertIsInstance(str(dn2), str)
self.assertEqual(str(dn3), self.str_dn3)
self.assertIsInstance(str(dn3), str)
def test_cmp(self):
# Equality
dn1 = DN((self.attr1, self.value1))
self.assertTrue(dn1 == self.dn1)
self.assertFalse(dn1 != self.dn1)
self.assertTrue(dn1 == self.str_dn1)
self.assertFalse(dn1 != self.str_dn1)
result = cmp(dn1, self.dn1)
self.assertEqual(result, 0)
# Make dn1's attr greater
with self.assertRaises(AttributeError):
dn1[0].attr = self.attr1 + "1"
dn1 = DN((self.attr1 + "1", self.value1))
self.assertFalse(dn1 == self.dn1)
self.assertTrue(dn1 != self.dn1)
result = cmp(dn1, self.dn1)
self.assertEqual(result, 1)
result = cmp(self.dn1, dn1)
self.assertEqual(result, -1)
# Reset dn1's attr, should be equal again
with self.assertRaises(AttributeError):
dn1[0].attr = self.attr1
dn1 = DN((self.attr1, self.value1))
result = cmp(dn1, self.dn1)
self.assertEqual(result, 0)
# Make dn1's value greater
# attr will be equal, this tests secondary comparision component
with self.assertRaises(AttributeError):
dn1[0].value = self.value1 + "1"
dn1 = DN((self.attr1, self.value1 + "1"))
result = cmp(dn1, self.dn1)
self.assertEqual(result, 1)
result = cmp(self.dn1, dn1)
self.assertEqual(result, -1)
# Make sure dn's with more rdn's are greater
result = cmp(self.dn1, self.dn3)
self.assertEqual(result, -1)
result = cmp(self.dn3, self.dn1)
self.assertEqual(result, 1)
# Test startswith, endswith
container_dn = DN(self.container_dn)
base_container_dn = DN(self.base_container_dn)
self.assertTrue(base_container_dn.startswith(self.rdn1))
self.assertTrue(base_container_dn.startswith(self.dn1))
self.assertTrue(base_container_dn.startswith(self.dn1 + container_dn))
self.assertFalse(base_container_dn.startswith(self.dn2))
self.assertFalse(base_container_dn.startswith(self.rdn2))
self.assertTrue(base_container_dn.startswith((self.dn1)))
self.assertTrue(base_container_dn.startswith((self.rdn1)))
self.assertFalse(base_container_dn.startswith((self.rdn2)))
self.assertTrue(base_container_dn.startswith((self.rdn2, self.rdn1)))
self.assertTrue(base_container_dn.startswith((self.dn1, self.dn2)))
self.assertTrue(base_container_dn.endswith(self.base_dn))
self.assertTrue(base_container_dn.endswith(container_dn +
self.base_dn))
self.assertFalse(base_container_dn.endswith(DN(self.base_rdn1)))
self.assertTrue(base_container_dn.endswith(DN(self.base_rdn2)))
self.assertTrue(
base_container_dn.endswith(
(DN(self.base_rdn1), DN(self.base_rdn2))))
# Test "in" membership
self.assertTrue(self.container_rdn1 in container_dn)
self.assertTrue(container_dn in container_dn)
self.assertFalse(self.base_rdn1 in container_dn)
self.assertTrue(self.container_rdn1 in base_container_dn)
self.assertTrue(container_dn in base_container_dn)
self.assertTrue(container_dn + self.base_dn in base_container_dn)
self.assertTrue(self.dn1 + container_dn +
self.base_dn in base_container_dn)
self.assertTrue(self.dn1 + container_dn +
self.base_dn == base_container_dn)
self.assertFalse(self.container_rdn1 in self.base_dn)
def test_indexing(self):
dn1 = DN(self.dn1)
dn2 = DN(self.dn2)
dn3 = DN(self.dn3)
self.assertEqual(dn1[0], self.rdn1)
self.assertEqual(dn1[self.rdn1.attr], self.rdn1.value)
with self.assertRaises(KeyError):
dn1['foo'] # pylint: disable=pointless-statement
self.assertEqual(dn2[0], self.rdn2)
self.assertEqual(dn2[self.rdn2.attr], self.rdn2.value)
with self.assertRaises(KeyError):
dn2['foo'] # pylint: disable=pointless-statement
self.assertEqual(dn3[0], self.rdn1)
self.assertEqual(dn3[self.rdn1.attr], self.rdn1.value)
self.assertEqual(dn3[1], self.rdn2)
self.assertEqual(dn3[self.rdn2.attr], self.rdn2.value)
with self.assertRaises(KeyError):
dn3['foo'] # pylint: disable=pointless-statement
with self.assertRaises(TypeError):
dn3[1.0] # pylint: disable=pointless-statement
def test_assignments(self):
dn = DN('t=0,t=1,t=2,t=3,t=4,t=5,t=6,t=7,t=8,t=9')
with self.assertRaises(TypeError):
# pylint: disable=unsupported-assignment-operation
dn[0] = RDN('t=a')
with self.assertRaises(TypeError):
# pylint: disable=unsupported-assignment-operation
dn[0:1] = [RDN('t=a'), RDN('t=b')]
def test_iter(self):
dn1 = DN(self.dn1)
dn2 = DN(self.dn2)
dn3 = DN(self.dn3)
self.assertEqual(len(dn1), 1)
self.assertEqual(dn1[:], self.rdn1)
for i, ava in enumerate(dn1):
if i == 0:
self.assertEqual(ava, self.rdn1)
else:
self.fail("got iteration index %d, but len=%d" %
(i, len(self.rdn1)))
self.assertEqual(len(dn2), 1)
self.assertEqual(dn2[:], self.rdn2)
for i, ava in enumerate(dn2):
if i == 0:
self.assertEqual(ava, self.rdn2)
else:
self.fail("got iteration index %d, but len=%d" %
(i, len(self.rdn2)))
self.assertEqual(len(dn3), 2)
self.assertEqual(dn3[:], DN(self.rdn1, self.rdn2))
for i, ava in enumerate(dn3):
if i == 0:
self.assertEqual(ava, self.rdn1)
elif i == 1:
self.assertEqual(ava, self.rdn2)
else:
self.fail("got iteration index %d, but len=%d" % (i, len(dn3)))
def test_concat(self):
dn1 = DN((self.attr1, self.value1))
dn2 = DN([self.attr2, self.value2])
# in-place addtion
dn1 += dn2
self.assertEqual(dn1, self.dn3)
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
dn1 = DN((self.attr1, self.value1))
dn1 += self.rdn2
self.assertEqual(dn1, self.dn3)
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
dn1 = DN((self.attr1, self.value1))
dn1 += self.dn2
self.assertEqual(dn1, self.dn3)
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
dn1 = DN((self.attr1, self.value1))
dn1 += self.str_dn2
self.assertEqual(dn1, self.dn3)
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
# concatenation
dn1 = DN((self.attr1, self.value1))
dn3 = dn1 + dn2
self.assertEqual(dn3, self.dn3)
self.assertExpectedClass(DN, dn3, 'self')
for i in range(0, len(dn3)):
self.assertExpectedClass(DN, dn3[i], 'RDN')
for j in range(0, len(dn3[i])):
self.assertExpectedClass(DN, dn3[i][j], 'AVA')
dn1 = DN((self.attr1, self.value1))
dn3 = dn1 + self.rdn2
self.assertEqual(dn3, self.dn3)
self.assertExpectedClass(DN, dn3, 'self')
for i in range(0, len(dn3)):
self.assertExpectedClass(DN, dn3[i], 'RDN')
for j in range(0, len(dn3[i])):
self.assertExpectedClass(DN, dn3[i][j], 'AVA')
dn3 = dn1 + self.str_rdn2
self.assertEqual(dn3, self.dn3)
self.assertExpectedClass(DN, dn3, 'self')
for i in range(0, len(dn3)):
self.assertExpectedClass(DN, dn3[i], 'RDN')
self.assertExpectedClass(DN, dn3[i][0], 'AVA')
dn3 = dn1 + self.str_dn2
self.assertEqual(dn3, self.dn3)
self.assertExpectedClass(DN, dn3, 'self')
self.assertExpectedClass(DN, dn3, 'self')
for i in range(0, len(dn3)):
self.assertExpectedClass(DN, dn3[i], 'RDN')
for j in range(0, len(dn3[i])):
self.assertExpectedClass(DN, dn3[i][j], 'AVA')
dn3 = dn1 + self.dn2
self.assertEqual(dn3, self.dn3)
self.assertExpectedClass(DN, dn3, 'self')
self.assertExpectedClass(DN, dn3, 'self')
for i in range(0, len(dn3)):
self.assertExpectedClass(DN, dn3[i], 'RDN')
for j in range(0, len(dn3[i])):
self.assertExpectedClass(DN, dn3[i][j], 'AVA')
def test_find(self):
# -10 -9 -8 -7 -6 -5 -4 -3 -2 -1
dn = DN('t=0,t=1,cn=bob,t=3,t=4,t=5,cn=bob,t=7,t=8,t=9')
pat = DN('cn=bob')
# forward
self.assertEqual(dn.find(pat), 2)
self.assertEqual(dn.find(pat, 1), 2)
self.assertEqual(dn.find(pat, 1, 3), 2)
self.assertEqual(dn.find(pat, 2, 3), 2)
self.assertEqual(dn.find(pat, 6), 6)
self.assertEqual(dn.find(pat, 7), -1)
self.assertEqual(dn.find(pat, 1, 2), -1)
with self.assertRaises(ValueError):
self.assertEqual(dn.index(pat, 7), -1)
with self.assertRaises(ValueError):
self.assertEqual(dn.index(pat, 1, 2), -1)
# reverse
self.assertEqual(dn.rfind(pat), 6)
self.assertEqual(dn.rfind(pat, -4), 6)
self.assertEqual(dn.rfind(pat, 6), 6)
self.assertEqual(dn.rfind(pat, 6, 8), 6)
self.assertEqual(dn.rfind(pat, 6, 8), 6)
self.assertEqual(dn.rfind(pat, -8), 6)
self.assertEqual(dn.rfind(pat, -8, -4), 6)
self.assertEqual(dn.rfind(pat, -8, -5), 2)
self.assertEqual(dn.rfind(pat, 7), -1)
self.assertEqual(dn.rfind(pat, -3), -1)
with self.assertRaises(ValueError):
self.assertEqual(dn.rindex(pat, 7), -1)
with self.assertRaises(ValueError):
self.assertEqual(dn.rindex(pat, -3), -1)
def test_replace(self):
# pylint: disable=no-member
dn = DN('t=0,t=1,t=2,t=3,t=4,t=5,t=6,t=7,t=8,t=9')
with self.assertRaises(AttributeError):
dn.replace # pylint: disable=pointless-statement
def test_hashing(self):
# create DN's that are equal but differ in case
dn1 = DN((self.attr1.lower(), self.value1.upper()))
dn2 = DN((self.attr1.upper(), self.value1.lower()))
# DNs that are equal should hash to the same value.
self.assertEqual(dn1, dn2)
# Good, everyone's equal, now verify their hash values
self.assertEqual(hash(dn1), hash(dn2))
# Different DN objects with the same value should
# map to 1 common key and 1 member in a set. The key and
# member are based on the object's value.
dn1_a = DN(self.dn1)
dn1_b = DN(self.dn1)
dn2_a = DN(self.dn2)
dn2_b = DN(self.dn2)
dn3_a = DN(self.dn3)
dn3_b = DN(self.dn3)
self.assertEqual(dn1_a, dn1_b)
self.assertEqual(dn2_a, dn2_b)
self.assertEqual(dn3_a, dn3_b)
d = dict()
s = set()
d[dn1_a] = str(dn1_a)
d[dn1_b] = str(dn1_b)
d[dn2_a] = str(dn2_a)
d[dn2_b] = str(dn2_b)
s.add(dn1_a)
s.add(dn1_b)
s.add(dn2_a)
s.add(dn2_b)
self.assertEqual(len(d), 2)
self.assertEqual(len(s), 2)
self.assertEqual(sorted(d), sorted([dn1_a, dn2_a]))
self.assertEqual(sorted(s), sorted([dn1_a, dn2_a]))
self.assertTrue(dn1_a in d)
self.assertTrue(dn1_b in d)
self.assertTrue(dn2_a in d)
self.assertTrue(dn2_b in d)
self.assertFalse(dn3_a in d)
self.assertFalse(dn3_b in d)
self.assertTrue(dn1_a in s)
self.assertTrue(dn1_b in s)
self.assertTrue(dn2_a in s)
self.assertTrue(dn2_b in s)
self.assertFalse(dn3_a in s)
self.assertFalse(dn3_b in s)
def test_x500_text(self):
# null DN x500 ordering and LDAP ordering are the same
nulldn = DN()
self.assertEqual(nulldn.ldap_text(), nulldn.x500_text())
# reverse a DN with a single RDN
self.assertEqual(self.dn1.ldap_text(), self.dn1.x500_text())
# reverse a DN with 2 RDNs
dn3_x500 = self.dn3.x500_text()
dn3_rev = DN(self.rdn2, self.rdn1)
self.assertEqual(dn3_rev.ldap_text(), dn3_x500)
# reverse a longer DN
longdn_x500 = self.base_container_dn.x500_text()
longdn_rev = DN(longdn_x500)
l = len(self.base_container_dn)
for i in range(l):
self.assertEqual(longdn_rev[i], self.base_container_dn[l - 1 - i])
class TestDN(unittest.TestCase):
def setUp(self):
# ava1 must sort before ava2
self.attr1 = 'cn'
self.value1 = u'Bob'
self.str_ava1 = '%s=%s' % (self.attr1, self.value1)
self.ava1 = AVA(self.attr1, self.value1)
self.str_rdn1 = '%s=%s' % (self.attr1, self.value1)
self.rdn1 = RDN((self.attr1, self.value1))
self.attr2 = 'ou'
self.value2 = u'people'
self.str_ava2 = '%s=%s' % (self.attr2, self.value2)
self.ava2 = AVA(self.attr2, self.value2)
self.str_rdn2 = '%s=%s' % (self.attr2, self.value2)
self.rdn2 = RDN((self.attr2, self.value2))
self.str_dn1 = self.str_rdn1
self.dn1 = DN(self.rdn1)
self.str_dn2 = self.str_rdn2
self.dn2 = DN(self.rdn2)
self.str_dn3 = '%s,%s' % (self.str_rdn1, self.str_rdn2)
self.dn3 = DN(self.rdn1, self.rdn2)
self.base_rdn1 = RDN(('dc', 'redhat'))
self.base_rdn2 = RDN(('dc', 'com'))
self.base_dn = DN(self.base_rdn1, self.base_rdn2)
self.container_rdn1 = RDN(('cn', 'sudorules'))
self.container_rdn2 = RDN(('cn', 'sudo'))
self.container_dn = DN(self.container_rdn1, self.container_rdn2)
self.base_container_dn = DN((self.attr1, self.value1),
self.container_dn, self.base_dn)
self.x500name = x509.Name([
x509.NameAttribute(
x509.NameOID.ORGANIZATIONAL_UNIT_NAME, self.value2),
x509.NameAttribute(x509.NameOID.COMMON_NAME, self.value1),
])
def assertExpectedClass(self, klass, obj, component):
self.assertIs(obj.__class__, expected_class(klass, component))
def test_create(self):
# Create with single attr,value pair
dn1 = DN((self.attr1, self.value1))
self.assertEqual(len(dn1), 1)
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
self.assertIsInstance(dn1[0].attr, unicode)
self.assertIsInstance(dn1[0].value, unicode)
self.assertEqual(dn1[0], self.rdn1)
# Create with single attr,value pair passed as a tuple
dn1 = DN((self.attr1, self.value1))
self.assertEqual(len(dn1), 1)
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
self.assertIsInstance(dn1[i].attr, unicode)
self.assertIsInstance(dn1[i].value, unicode)
self.assertEqual(dn1[0], self.rdn1)
# Creation with multiple attr,value string pairs should fail
with self.assertRaises(ValueError):
dn1 = DN(self.attr1, self.value1, self.attr2, self.value2)
# Create with multiple attr,value pairs passed as tuples & lists
dn1 = DN((self.attr1, self.value1), [self.attr2, self.value2])
self.assertEqual(len(dn1), 2)
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
self.assertIsInstance(dn1[i].attr, unicode)
self.assertIsInstance(dn1[i].value, unicode)
self.assertEqual(dn1[0], self.rdn1)
self.assertEqual(dn1[1], self.rdn2)
# Create with multiple attr,value pairs passed as tuple and RDN
dn1 = DN((self.attr1, self.value1), RDN((self.attr2, self.value2)))
self.assertEqual(len(dn1), 2)
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
self.assertIsInstance(dn1[i].attr, unicode)
self.assertIsInstance(dn1[i].value, unicode)
self.assertEqual(dn1[0], self.rdn1)
self.assertEqual(dn1[1], self.rdn2)
# Create with multiple attr,value pairs but reverse
# constructor parameter ordering. RDN ordering should also be
# reversed because DN's are a ordered sequence of RDN's
dn1 = DN((self.attr2, self.value2), (self.attr1, self.value1))
self.assertEqual(len(dn1), 2)
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
self.assertIsInstance(dn1[i].attr, unicode)
self.assertIsInstance(dn1[i].value, unicode)
self.assertEqual(dn1[0], self.rdn2)
self.assertEqual(dn1[1], self.rdn1)
# Create with single RDN object
dn1 = DN(self.rdn1)
self.assertEqual(len(dn1), 1)
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
self.assertIsInstance(dn1[i].attr, unicode)
self.assertIsInstance(dn1[i].value, unicode)
self.assertEqual(dn1[0], self.rdn1)
# Create with multiple RDN objects, assure ordering is preserved.
dn1 = DN(self.rdn1, self.rdn2)
self.assertEqual(len(dn1), 2)
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
self.assertIsInstance(dn1[i].attr, unicode)
self.assertIsInstance(dn1[i].value, unicode)
self.assertEqual(dn1[0], self.rdn1)
self.assertEqual(dn1[1], self.rdn2)
# Create with multiple RDN objects in different order, assure
# ordering is preserved.
dn1 = DN(self.rdn2, self.rdn1)
self.assertEqual(len(dn1), 2)
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
self.assertIsInstance(dn1[i].attr, unicode)
self.assertIsInstance(dn1[i].value, unicode)
self.assertEqual(dn1[0], self.rdn2)
self.assertEqual(dn1[1], self.rdn1)
# Create with single string with 1 RDN
dn1 = DN(self.str_rdn1)
self.assertEqual(len(dn1), 1)
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
self.assertIsInstance(dn1[i].attr, unicode)
self.assertIsInstance(dn1[i].value, unicode)
self.assertEqual(dn1[0], self.rdn1)
# Create with single string with 2 RDN's
dn1 = DN(self.str_dn3)
self.assertEqual(len(dn1), 2)
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
self.assertIsInstance(dn1[i].attr, unicode)
self.assertIsInstance(dn1[i].value, unicode)
self.assertEqual(dn1[0], self.rdn1)
self.assertEqual(dn1[1], self.rdn2)
# Create with a python-cryptography 'Name'
dn1 = DN(self.x500name)
self.assertEqual(len(dn1), 2)
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
self.assertIsInstance(dn1[i].attr, unicode)
self.assertIsInstance(dn1[i].value, unicode)
self.assertEqual(dn1[0], self.rdn1)
self.assertEqual(dn1[1], self.rdn2)
# Create with RDN, and 2 DN's (e.g. attr + container + base)
dn1 = DN((self.attr1, self.value1), self.container_dn, self.base_dn)
self.assertEqual(len(dn1), 5)
dn_str = ','.join([str(self.rdn1),
str(self.container_rdn1), str(self.container_rdn2),
str(self.base_rdn1), str(self.base_rdn2)])
self.assertEqual(str(dn1), dn_str)
def test_str(self):
dn1 = DN(self.dn1)
dn2 = DN(self.dn2)
dn3 = DN(self.dn3)
self.assertEqual(str(dn1), self.str_dn1)
self.assertIsInstance(str(dn1), str)
self.assertEqual(str(dn2), self.str_dn2)
self.assertIsInstance(str(dn2), str)
self.assertEqual(str(dn3), self.str_dn3)
self.assertIsInstance(str(dn3), str)
def test_cmp(self):
# Equality
dn1 = DN((self.attr1, self.value1))
self.assertTrue(dn1 == self.dn1)
self.assertFalse(dn1 != self.dn1)
self.assertTrue(dn1 == self.str_dn1)
self.assertFalse(dn1 != self.str_dn1)
result = cmp(dn1, self.dn1)
self.assertEqual(result, 0)
# Make dn1's attr greater
with self.assertRaises(AttributeError):
dn1[0].attr = self.attr1 + "1"
dn1 = DN((self.attr1 + "1", self.value1))
self.assertFalse(dn1 == self.dn1)
self.assertTrue(dn1 != self.dn1)
result = cmp(dn1, self.dn1)
self.assertEqual(result, 1)
result = cmp(self.dn1, dn1)
self.assertEqual(result, -1)
# Reset dn1's attr, should be equal again
with self.assertRaises(AttributeError):
dn1[0].attr = self.attr1
dn1 = DN((self.attr1, self.value1))
result = cmp(dn1, self.dn1)
self.assertEqual(result, 0)
# Make dn1's value greater
# attr will be equal, this tests secondary comparision component
with self.assertRaises(AttributeError):
dn1[0].value = self.value1 + "1"
dn1 = DN((self.attr1, self.value1 + "1"))
result = cmp(dn1, self.dn1)
self.assertEqual(result, 1)
result = cmp(self.dn1, dn1)
self.assertEqual(result, -1)
# Make sure dn's with more rdn's are greater
result = cmp(self.dn1, self.dn3)
self.assertEqual(result, -1)
result = cmp(self.dn3, self.dn1)
self.assertEqual(result, 1)
# Test startswith, endswith
container_dn = DN(self.container_dn)
base_container_dn = DN(self.base_container_dn)
self.assertTrue(base_container_dn.startswith(self.rdn1))
self.assertTrue(base_container_dn.startswith(self.dn1))
self.assertTrue(base_container_dn.startswith(self.dn1 + container_dn))
self.assertFalse(base_container_dn.startswith(self.dn2))
self.assertFalse(base_container_dn.startswith(self.rdn2))
self.assertTrue(base_container_dn.startswith((self.dn1)))
self.assertTrue(base_container_dn.startswith((self.rdn1)))
self.assertFalse(base_container_dn.startswith((self.rdn2)))
self.assertTrue(base_container_dn.startswith((self.rdn2, self.rdn1)))
self.assertTrue(base_container_dn.startswith((self.dn1, self.dn2)))
self.assertTrue(base_container_dn.endswith(self.base_dn))
self.assertTrue(base_container_dn.endswith(container_dn + self.base_dn))
self.assertFalse(base_container_dn.endswith(DN(self.base_rdn1)))
self.assertTrue(base_container_dn.endswith(DN(self.base_rdn2)))
self.assertTrue(base_container_dn.endswith((DN(self.base_rdn1), DN(self.base_rdn2))))
# Test "in" membership
self.assertTrue(self.container_rdn1 in container_dn)
self.assertTrue(container_dn in container_dn)
self.assertFalse(self.base_rdn1 in container_dn)
self.assertTrue(self.container_rdn1 in base_container_dn)
self.assertTrue(container_dn in base_container_dn)
self.assertTrue(container_dn + self.base_dn in
base_container_dn)
self.assertTrue(self.dn1 + container_dn + self.base_dn in
base_container_dn)
self.assertTrue(self.dn1 + container_dn + self.base_dn ==
base_container_dn)
self.assertFalse(self.container_rdn1 in self.base_dn)
def test_indexing(self):
dn1 = DN(self.dn1)
dn2 = DN(self.dn2)
dn3 = DN(self.dn3)
self.assertEqual(dn1[0], self.rdn1)
self.assertEqual(dn1[self.rdn1.attr], self.rdn1.value)
with self.assertRaises(KeyError):
dn1['foo'] # pylint: disable=pointless-statement
self.assertEqual(dn2[0], self.rdn2)
self.assertEqual(dn2[self.rdn2.attr], self.rdn2.value)
with self.assertRaises(KeyError):
dn2['foo'] # pylint: disable=pointless-statement
self.assertEqual(dn3[0], self.rdn1)
self.assertEqual(dn3[self.rdn1.attr], self.rdn1.value)
self.assertEqual(dn3[1], self.rdn2)
self.assertEqual(dn3[self.rdn2.attr], self.rdn2.value)
with self.assertRaises(KeyError):
dn3['foo'] # pylint: disable=pointless-statement
with self.assertRaises(TypeError):
dn3[1.0] # pylint: disable=pointless-statement
def test_assignments(self):
dn = DN('t=0,t=1,t=2,t=3,t=4,t=5,t=6,t=7,t=8,t=9')
with self.assertRaises(TypeError):
# pylint: disable=unsupported-assignment-operation
dn[0] = RDN('t=a')
with self.assertRaises(TypeError):
# pylint: disable=unsupported-assignment-operation
dn[0:1] = [RDN('t=a'), RDN('t=b')]
def test_iter(self):
dn1 = DN(self.dn1)
dn2 = DN(self.dn2)
dn3 = DN(self.dn3)
self.assertEqual(len(dn1), 1)
self.assertEqual(dn1[:], self.rdn1)
for i, ava in enumerate(dn1):
if i == 0:
self.assertEqual(ava, self.rdn1)
else:
self.fail("got iteration index %d, but len=%d" % (i, len(self.rdn1)))
self.assertEqual(len(dn2), 1)
self.assertEqual(dn2[:], self.rdn2)
for i, ava in enumerate(dn2):
if i == 0:
self.assertEqual(ava, self.rdn2)
else:
self.fail("got iteration index %d, but len=%d" % (i, len(self.rdn2)))
self.assertEqual(len(dn3), 2)
self.assertEqual(dn3[:], DN(self.rdn1, self.rdn2))
for i, ava in enumerate(dn3):
if i == 0:
self.assertEqual(ava, self.rdn1)
elif i == 1:
self.assertEqual(ava, self.rdn2)
else:
self.fail("got iteration index %d, but len=%d" % (i, len(dn3)))
def test_concat(self):
dn1 = DN((self.attr1, self.value1))
dn2 = DN([self.attr2, self.value2])
# in-place addtion
dn1 += dn2
self.assertEqual(dn1, self.dn3)
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
dn1 = DN((self.attr1, self.value1))
dn1 += self.rdn2
self.assertEqual(dn1, self.dn3)
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
dn1 = DN((self.attr1, self.value1))
dn1 += self.dn2
self.assertEqual(dn1, self.dn3)
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
dn1 = DN((self.attr1, self.value1))
dn1 += self.str_dn2
self.assertEqual(dn1, self.dn3)
self.assertExpectedClass(DN, dn1, 'self')
for i in range(0, len(dn1)):
self.assertExpectedClass(DN, dn1[i], 'RDN')
for j in range(0, len(dn1[i])):
self.assertExpectedClass(DN, dn1[i][j], 'AVA')
# concatenation
dn1 = DN((self.attr1, self.value1))
dn3 = dn1 + dn2
self.assertEqual(dn3, self.dn3)
self.assertExpectedClass(DN, dn3, 'self')
for i in range(0, len(dn3)):
self.assertExpectedClass(DN, dn3[i], 'RDN')
for j in range(0, len(dn3[i])):
self.assertExpectedClass(DN, dn3[i][j], 'AVA')
dn1 = DN((self.attr1, self.value1))
dn3 = dn1 + self.rdn2
self.assertEqual(dn3, self.dn3)
self.assertExpectedClass(DN, dn3, 'self')
for i in range(0, len(dn3)):
self.assertExpectedClass(DN, dn3[i], 'RDN')
for j in range(0, len(dn3[i])):
self.assertExpectedClass(DN, dn3[i][j], 'AVA')
dn3 = dn1 + self.str_rdn2
self.assertEqual(dn3, self.dn3)
self.assertExpectedClass(DN, dn3, 'self')
for i in range(0, len(dn3)):
self.assertExpectedClass(DN, dn3[i], 'RDN')
self.assertExpectedClass(DN, dn3[i][0], 'AVA')
dn3 = dn1 + self.str_dn2
self.assertEqual(dn3, self.dn3)
self.assertExpectedClass(DN, dn3, 'self')
self.assertExpectedClass(DN, dn3, 'self')
for i in range(0, len(dn3)):
self.assertExpectedClass(DN, dn3[i], 'RDN')
for j in range(0, len(dn3[i])):
self.assertExpectedClass(DN, dn3[i][j], 'AVA')
dn3 = dn1 + self.dn2
self.assertEqual(dn3, self.dn3)
self.assertExpectedClass(DN, dn3, 'self')
self.assertExpectedClass(DN, dn3, 'self')
for i in range(0, len(dn3)):
self.assertExpectedClass(DN, dn3[i], 'RDN')
for j in range(0, len(dn3[i])):
self.assertExpectedClass(DN, dn3[i][j], 'AVA')
def test_find(self):
# -10 -9 -8 -7 -6 -5 -4 -3 -2 -1
dn = DN('t=0,t=1,cn=bob,t=3,t=4,t=5,cn=bob,t=7,t=8,t=9')
pat = DN('cn=bob')
# forward
self.assertEqual(dn.find(pat), 2)
self.assertEqual(dn.find(pat, 1), 2)
self.assertEqual(dn.find(pat, 1, 3), 2)
self.assertEqual(dn.find(pat, 2, 3), 2)
self.assertEqual(dn.find(pat, 6), 6)
self.assertEqual(dn.find(pat, 7), -1)
self.assertEqual(dn.find(pat, 1, 2), -1)
with self.assertRaises(ValueError):
self.assertEqual(dn.index(pat, 7), -1)
with self.assertRaises(ValueError):
self.assertEqual(dn.index(pat, 1, 2), -1)
# reverse
self.assertEqual(dn.rfind(pat), 6)
self.assertEqual(dn.rfind(pat, -4), 6)
self.assertEqual(dn.rfind(pat, 6), 6)
self.assertEqual(dn.rfind(pat, 6, 8), 6)
self.assertEqual(dn.rfind(pat, 6, 8), 6)
self.assertEqual(dn.rfind(pat, -8), 6)
self.assertEqual(dn.rfind(pat, -8, -4), 6)
self.assertEqual(dn.rfind(pat, -8, -5), 2)
self.assertEqual(dn.rfind(pat, 7), -1)
self.assertEqual(dn.rfind(pat, -3), -1)
with self.assertRaises(ValueError):
self.assertEqual(dn.rindex(pat, 7), -1)
with self.assertRaises(ValueError):
self.assertEqual(dn.rindex(pat, -3), -1)
def test_replace(self):
# pylint: disable=no-member
dn = DN('t=0,t=1,t=2,t=3,t=4,t=5,t=6,t=7,t=8,t=9')
with self.assertRaises(AttributeError):
dn.replace # pylint: disable=pointless-statement
def test_hashing(self):
# create DN's that are equal but differ in case
dn1 = DN((self.attr1.lower(), self.value1.upper()))
dn2 = DN((self.attr1.upper(), self.value1.lower()))
# DNs that are equal should hash to the same value.
self.assertEqual(dn1, dn2)
# Good, everyone's equal, now verify their hash values
self.assertEqual(hash(dn1), hash(dn2))
# Different DN objects with the same value should
# map to 1 common key and 1 member in a set. The key and
# member are based on the object's value.
dn1_a = DN(self.dn1)
dn1_b = DN(self.dn1)
dn2_a = DN(self.dn2)
dn2_b = DN(self.dn2)
dn3_a = DN(self.dn3)
dn3_b = DN(self.dn3)
self.assertEqual(dn1_a, dn1_b)
self.assertEqual(dn2_a, dn2_b)
self.assertEqual(dn3_a, dn3_b)
d = dict()
s = set()
d[dn1_a] = str(dn1_a)
d[dn1_b] = str(dn1_b)
d[dn2_a] = str(dn2_a)
d[dn2_b] = str(dn2_b)
s.add(dn1_a)
s.add(dn1_b)
s.add(dn2_a)
s.add(dn2_b)
self.assertEqual(len(d), 2)
self.assertEqual(len(s), 2)
self.assertEqual(sorted(d), sorted([dn1_a, dn2_a]))
self.assertEqual(sorted(s), sorted([dn1_a, dn2_a]))
self.assertTrue(dn1_a in d)
self.assertTrue(dn1_b in d)
self.assertTrue(dn2_a in d)
self.assertTrue(dn2_b in d)
self.assertFalse(dn3_a in d)
self.assertFalse(dn3_b in d)
self.assertTrue(dn1_a in s)
self.assertTrue(dn1_b in s)
self.assertTrue(dn2_a in s)
self.assertTrue(dn2_b in s)
self.assertFalse(dn3_a in s)
self.assertFalse(dn3_b in s)
def test_x500_text(self):
# null DN x500 ordering and LDAP ordering are the same
nulldn = DN()
self.assertEqual(nulldn.ldap_text(), nulldn.x500_text())
# reverse a DN with a single RDN
self.assertEqual(self.dn1.ldap_text(), self.dn1.x500_text())
# reverse a DN with 2 RDNs
dn3_x500 = self.dn3.x500_text()
dn3_rev = DN(self.rdn2, self.rdn1)
self.assertEqual(dn3_rev.ldap_text(), dn3_x500)
# reverse a longer DN
longdn_x500 = self.base_container_dn.x500_text()
longdn_rev = DN(longdn_x500)
l = len(self.base_container_dn)
for i in range(l):
self.assertEqual(longdn_rev[i], self.base_container_dn[l-1-i])
def pre_callback(self, ldap, dn, entry_attrs, attrs_list, *keys, **options):
# Fill in a default UUID when not specified.
if entry_attrs.get('ipatokenuniqueid', None) is None:
entry_attrs['ipatokenuniqueid'] = str(uuid.uuid4())
dn = DN("ipatokenuniqueid=%s" % entry_attrs['ipatokenuniqueid'], dn)
if not _check_interval(options.get('ipatokennotbefore', None),
options.get('ipatokennotafter', None)):
raise ValidationError(name='not_after',
error='is before the validity start')
# Set the object class and defaults for specific token types
options['type'] = options['type'].lower()
entry_attrs['objectclass'] = otptoken.object_class + ['ipatoken' + options['type']]
for ttype, tattrs in TOKEN_TYPES.items():
if ttype != options['type']:
for tattr in tattrs:
if tattr in entry_attrs:
del entry_attrs[tattr]
# If owner was not specified, default to the person adding this token.
# If managedby was not specified, attempt a sensible default.
if 'ipatokenowner' not in entry_attrs or 'managedby' not in entry_attrs:
cur_dn = DN(self.api.Backend.ldap2.conn.whoami_s()[4:])
if cur_dn:
cur_uid = cur_dn[0].value
prev_uid = entry_attrs.setdefault('ipatokenowner', cur_uid)
if cur_uid == prev_uid:
entry_attrs.setdefault('managedby', cur_dn.ldap_text())
# Resolve the owner's dn
_normalize_owner(self.api.Object.user, entry_attrs)
# Get the issuer for the URI
owner = entry_attrs.get('ipatokenowner', None)
issuer = api.env.realm
if owner is not None:
try:
issuer = ldap.get_entry(owner, ['krbprincipalname'])['krbprincipalname'][0]
except (NotFound, IndexError):
pass
# Check if key is not empty
if entry_attrs['ipatokenotpkey'] is None:
raise ValidationError(name='key', error=_(u'cannot be empty'))
# Build the URI parameters
args = {}
args['issuer'] = issuer
args['secret'] = base64.b32encode(entry_attrs['ipatokenotpkey'])
args['digits'] = entry_attrs['ipatokenotpdigits']
args['algorithm'] = entry_attrs['ipatokenotpalgorithm'].upper()
if options['type'] == 'totp':
args['period'] = entry_attrs['ipatokentotptimestep']
elif options['type'] == 'hotp':
args['counter'] = entry_attrs['ipatokenhotpcounter']
# Build the URI
label = urllib.parse.quote(entry_attrs['ipatokenuniqueid'])
parameters = urllib.parse.urlencode(args)
uri = u'otpauth://%s/%s:%s?%s' % (options['type'], issuer, label, parameters)
setattr(context, 'uri', uri)
attrs_list.append("objectclass")
return dn
