#!/usr/bin/env python
# -*- coding: utf-8 -*-
import zlib
import base64
import gzip
from saml2 import utils, saml, samlp, md
from saml2.utils import do_attribute_statement, make_instance
from saml2.sigver import make_temp
from saml2.config import do_assertions
from saml2.saml import Attribute, NAME_FORMAT_URI, AttributeValue
from py.test import raises
SUCCESS_STATUS = """
"""
ERROR_STATUS = """
Error resolving principal"""
def _eq(l1,l2):
return set(l1) == set(l2)
def _oeq(l1,l2):
if len(l1) != len(l2):
print "Different number of items"
return False
for item in l1:
if item not in l2:
print "%s not in l2" % (item,)
for ite in l2:
print "\t%s" % (ite,)
return False
return True
def test_inflate_then_deflate():
str = """Selma Lagerlöf (1858-1940) was born in Östra Emterwik, Värmland,
Sweden. She was brought up on Mårbacka, the family estate, which she did
not leave until 1881, when she went to a teachers' college at Stockholm"""
interm = utils.deflate_and_base64_encode(str)
bis = utils.decode_base64_and_inflate(interm)
assert bis == str
def test_status_success():
stat = utils.args2dict(
status_code=utils.args2dict(value=samlp.STATUS_SUCCESS))
status = make_instance( samlp.Status, stat)
status_text = "%s" % status
assert status_text == SUCCESS_STATUS
assert status.status_code.value == samlp.STATUS_SUCCESS
def test_success_status():
stat = utils.success_status_factory()
status = make_instance(samlp.Status, stat)
status_text = "%s" % status
assert status_text == SUCCESS_STATUS
assert status.status_code.value == samlp.STATUS_SUCCESS
def test_error_status():
stat = utils.args2dict(
status_message=utils.args2dict("Error resolving principal"),
status_code=utils.args2dict(
value=samlp.STATUS_RESPONDER,
status_code=utils.args2dict(
value=samlp.STATUS_UNKNOWN_PRINCIPAL)))
status_text = "%s" % make_instance( samlp.Status, stat )
print status_text
assert status_text == ERROR_STATUS
def test_status_from_exception():
e = utils.UnknownPrincipal("Error resolving principal")
stat = utils.status_from_exception_factory(e)
print stat
status_text = "%s" % make_instance( samlp.Status, stat )
print status_text
assert status_text == ERROR_STATUS
def test_make_vals_str():
kl = utils.make_vals("Jeter",md.GivenName, part=True)
assert isinstance(kl, md.GivenName)
assert kl.text == "Jeter"
def test_make_vals_int():
kl = utils.make_vals(1024,md.KeySize, part=True)
assert isinstance(kl, md.KeySize)
assert kl.text == "1024"
def test_exception_make_vals_int_not_part():
raises(TypeError, "utils.make_vals(1024,md.KeySize)")
raises(TypeError, "utils.make_vals(1024,md.KeySize,md.EncryptionMethod())")
raises(AttributeError, "utils.make_vals(1024,md.KeySize,prop='key_size')")
def test_make_vals_list_of_ints():
em = md.EncryptionMethod()
utils.make_vals([1024,2048], md.KeySize, em, "key_size")
assert len(em.key_size) == 2
def test_make_vals_list_of_strs():
cp = md.ContactPerson()
utils.make_vals(["Derek","Sanderson"], md.GivenName, cp, "given_name")
assert len(cp.given_name) == 2
assert _eq([i.text for i in cp.given_name],["Sanderson","Derek"])
def test_exception_make_vals_value_error():
raises(ValueError, "utils.make_vals((1024,'xyz'), md.KeySize, part=True)")
def test_attribute():
attr = utils.do_attributes({"surName":"Jeter"})
assert len(attr) == 1
inst = make_instance(saml.Attribute, attr[0])
print inst
assert inst.name == "surName"
assert len(inst.attribute_value) == 1
assert inst.attribute_value[0].text == "Jeter"
def test_attribute_statement():
astat = do_attribute_statement({"surName":"Jeter",
"givenName":"Derek"})
print astat
statement = make_instance(saml.AttributeStatement,astat)
print statement
assert statement.keyswv() == ["attribute"]
assert len(statement.attribute) == 2
attr0 = statement.attribute[0]
assert _eq(attr0.keyswv(), ["name","attribute_value"])
assert len(attr0.attribute_value) == 1
attr1 = statement.attribute[1]
assert _eq(attr1.keyswv(), ["name","attribute_value"])
assert len(attr1.attribute_value) == 1
if attr0.name == "givenName":
assert attr0.attribute_value[0].text == "Derek"
assert attr1.name == "surName"
assert attr1.attribute_value[0].text == "Jeter"
else:
assert attr0.name == "surName"
assert attr0.attribute_value[0].text == "Jeter"
assert attr1.name == "givenName"
assert attr1.attribute_value[0].text == "Derek"
def test_audience():
aud_restr = make_instance( saml.AudienceRestriction,
utils.args2dict(
audience=utils.args2dict("urn:foo:bar")))
assert aud_restr.keyswv() == ["audience"]
assert aud_restr.audience.text == "urn:foo:bar"
def test_conditions():
conds_dict = utils.args2dict(
not_before="2009-10-30T07:58:10.852Z",
not_on_or_after="2009-10-30T08:03:10.852Z",
audience_restriction=utils.args2dict(
audience=utils.args2dict("urn:foo:bar")))
conditions = make_instance(saml.Conditions, conds_dict)
assert _eq(conditions.keyswv(), ["not_before", "not_on_or_after",
"audience_restriction"])
assert conditions.not_before == "2009-10-30T07:58:10.852Z"
assert conditions.not_on_or_after == "2009-10-30T08:03:10.852Z"
assert conditions.audience_restriction[0].audience.text == "urn:foo:bar"
def test_value_1():
#FriendlyName="givenName" Name="urn:oid:2.5.4.42"
# NameFormat="urn:oasis:names:tc:SAML:2.0:attrname-format:uri"
adict = utils.args2dict(name="urn:oid:2.5.4.42",
name_format=NAME_FORMAT_URI)
attribute = make_instance(saml.Attribute, adict)
assert _eq(attribute.keyswv(),["name","name_format"])
assert attribute.name == "urn:oid:2.5.4.42"
assert attribute.name_format == saml.NAME_FORMAT_URI
def test_value_2():
adict = utils.args2dict(name="urn:oid:2.5.4.42",
name_format=NAME_FORMAT_URI,
friendly_name="givenName")
attribute = make_instance(saml.Attribute, adict)
assert _eq(attribute.keyswv(),["name","name_format","friendly_name"])
assert attribute.name == "urn:oid:2.5.4.42"
assert attribute.name_format == NAME_FORMAT_URI
assert attribute.friendly_name == "givenName"
def test_value_3():
adict = utils.args2dict(attribute_value="Derek",
name="urn:oid:2.5.4.42",
name_format=NAME_FORMAT_URI,
friendly_name="givenName")
attribute = make_instance(saml.Attribute, adict)
assert _eq(attribute.keyswv(),["name", "name_format",
"friendly_name", "attribute_value"])
assert attribute.name == "urn:oid:2.5.4.42"
assert attribute.name_format == NAME_FORMAT_URI
assert attribute.friendly_name == "givenName"
assert len(attribute.attribute_value) == 1
assert attribute.attribute_value[0].text == "Derek"
def test_value_4():
adict = utils.args2dict(attribute_value="Derek",
friendly_name="givenName")
attribute = make_instance(saml.Attribute, adict)
assert _eq(attribute.keyswv(),["friendly_name", "attribute_value"])
assert attribute.friendly_name == "givenName"
assert len(attribute.attribute_value) == 1
assert attribute.attribute_value[0].text == "Derek"
def test_do_attribute_statement_0():
astat = do_attribute_statement({"vo_attr":"foobar"})
statement = make_instance(saml.AttributeStatement,astat)
assert statement.keyswv() == ["attribute"]
assert len(statement.attribute) == 1
attr0 = statement.attribute[0]
assert _eq(attr0.keyswv(), ["name","attribute_value"])
assert attr0.name == "vo_attr"
assert len(attr0.attribute_value) == 1
assert attr0.attribute_value[0].text == "foobar"
def test_do_attribute_statement():
astat = do_attribute_statement({"surName":"Jeter",
"givenName":["Derek","Sanderson"]})
statement = make_instance(saml.AttributeStatement, astat)
assert statement.keyswv() == ["attribute"]
assert len(statement.attribute) == 2
attr0 = statement.attribute[0]
assert _eq(attr0.keyswv(), ["name","attribute_value"])
attr1 = statement.attribute[1]
assert _eq(attr1.keyswv(), ["name","attribute_value"])
if attr0.name == "givenName":
assert len(attr0.attribute_value) == 2
assert _eq([av.text for av in attr0.attribute_value],
["Derek","Sanderson"])
assert attr1.name == "surName"
assert attr1.attribute_value[0].text == "Jeter"
assert len(attr1.attribute_value) == 1
else:
assert attr0.name == "surName"
assert attr0.attribute_value[0].text == "Jeter"
assert len(attr0.attribute_value) == 1
assert attr1.name == "givenName"
assert len(attr1.attribute_value) == 2
assert _eq([av.text for av in attr1.attribute_value],
["Derek","Sanderson"])
def test_do_attribute_statement_multi():
astat = do_attribute_statement(
{( "urn:oid:1.3.6.1.4.1.5923.1.1.1.7",
"urn:oasis:names:tc:SAML:2.0:attrname-format:uri",
"eduPersonEntitlement"):"Jeter"})
statement = make_instance(saml.AttributeStatement,astat)
assert statement.keyswv() == ["attribute"]
assert len(statement.attribute)
assert _eq(statement.attribute[0].keyswv(),
["name","name_format","friendly_name","attribute_value"])
attribute = statement.attribute[0]
assert attribute.name == "urn:oid:1.3.6.1.4.1.5923.1.1.1.7"
assert attribute.name_format == (
"urn:oasis:names:tc:SAML:2.0:attrname-format:uri")
assert attribute.friendly_name == "eduPersonEntitlement"
def test_subject():
adict = utils.args2dict("_aaa", name_id=saml.NAMEID_FORMAT_TRANSIENT)
subject = make_instance(saml.Subject, adict)
assert _eq(subject.keyswv(),["text", "name_id"])
assert subject.text == "_aaa"
assert subject.name_id.text == saml.NAMEID_FORMAT_TRANSIENT
AVA = [
{
"surName": ["Jeter"],
"givenName": ["Derek"],
},
{
"surName": ["Howard"],
"givenName": ["Ryan"],
},
{
"surName": ["Suzuki"],
"givenName": ["Ischiro"],
},
{
"surName": ["Hedberg"],
"givenName": ["Roland"],
},
]
def test_filter_attribute_value_assertions_0():
assertion = {
"default": {
"attribute_restrictions": {
"surName": [".*berg"],
}
}
}
ass = do_assertions(assertion)
print ass
ava = utils.filter_attribute_value_assertions(AVA[3],
ass["default"]["attribute_restrictions"])
print ava
assert ava.keys() == ["surName"]
assert ava["surName"] == ["Hedberg"]
def test_filter_attribute_value_assertions_1():
assertion = {
"default": {
"attribute_restrictions": {
"surName": None,
"givenName": [".*er.*"],
}
}
}
ass = do_assertions(assertion)
print ass
ava = utils.filter_attribute_value_assertions(AVA[0],
ass["default"]["attribute_restrictions"])
print ava
assert _eq(ava.keys(), ["givenName","surName"])
assert ava["surName"] == ["Jeter"]
assert ava["givenName"] == ["Derek"]
ava = utils.filter_attribute_value_assertions(AVA[1],
ass["default"]["attribute_restrictions"])
print ava
assert _eq(ava.keys(), ["surName"])
assert ava["surName"] == ["Howard"]
def test_filter_attribute_value_assertions_2():
assertion = {
"default": {
"attribute_restrictions": {
"givenName": ["^R.*"],
}
}
}
ass = do_assertions(assertion)
print ass
ava = utils.filter_attribute_value_assertions(AVA[0],
ass["default"]["attribute_restrictions"])
print ava
assert _eq(ava.keys(), [])
ava = utils.filter_attribute_value_assertions(AVA[1],
ass["default"]["attribute_restrictions"])
print ava
assert _eq(ava.keys(), ["givenName"])
assert ava["givenName"] == ["Ryan"]
ava = utils.filter_attribute_value_assertions(AVA[3],
ass["default"]["attribute_restrictions"])
print ava
assert _eq(ava.keys(), ["givenName"])
assert ava["givenName"] == ["Roland"]
def test_parse_attribute_map():
(forward, backward) = utils.parse_attribute_map(["attribute.map"])
assert _eq(forward.keys(), backward.values())
assert _eq(forward.values(), backward.keys())
print forward.keys()
assert _oeq(forward.keys(), [
('urn:oid:1.3.6.1.4.1.5923.1.1.1.7', NAME_FORMAT_URI),
('urn:oid:0.9.2342.19200300.100.1.1', NAME_FORMAT_URI),
('urn:oid:1.3.6.1.4.1.5923.1.1.1.1', NAME_FORMAT_URI),
('urn:oid:2.5.4.42', NAME_FORMAT_URI),
('urn:oid:2.5.4.4', NAME_FORMAT_URI),
('urn:oid:0.9.2342.19200300.100.1.3', NAME_FORMAT_URI),
('urn:oid:2.5.4.12', NAME_FORMAT_URI)])
assert _eq(forward.keys(), [
('urn:oid:1.3.6.1.4.1.5923.1.1.1.7', NAME_FORMAT_URI),
('urn:oid:0.9.2342.19200300.100.1.1', NAME_FORMAT_URI),
('urn:oid:1.3.6.1.4.1.5923.1.1.1.1', NAME_FORMAT_URI),
('urn:oid:2.5.4.42', NAME_FORMAT_URI),
('urn:oid:2.5.4.4', NAME_FORMAT_URI),
('urn:oid:0.9.2342.19200300.100.1.3', NAME_FORMAT_URI),
('urn:oid:2.5.4.12', NAME_FORMAT_URI)])
assert _eq(backward.keys(),["surName","givenName","title","uid","mail",
"eduPersonAffiliation",
"eduPersonEntitlement"])
def test_identity_attribute_0():
(forward, backward) = utils.parse_attribute_map(["attribute.map"])
a = Attribute(name="urn:oid:2.5.4.4", name_format=NAME_FORMAT_URI,
friendly_name="surName")
assert utils.identity_attribute("name",a,forward) == "urn:oid:2.5.4.4"
assert utils.identity_attribute("friendly",a,forward) == "surName"
def test_identity_attribute_1():
(forward, backward) = utils.parse_attribute_map(["attribute.map"])
a = Attribute(name="urn:oid:2.5.4.4", name_format=NAME_FORMAT_URI)
assert utils.identity_attribute("name",a,forward) == "urn:oid:2.5.4.4"
assert utils.identity_attribute("friendly",a,forward) == "surName"
def test_identity_attribute_2():
(forward, backward) = utils.parse_attribute_map(["attribute.map"])
a = Attribute(name="urn:oid:2.5.4.5", name_format=NAME_FORMAT_URI)
assert utils.identity_attribute("name",a,forward) == "urn:oid:2.5.4.5"
# if there would be a map it would be serialNumber
assert utils.identity_attribute("friendly",a,forward) == "urn:oid:2.5.4.5"
def test_identity_attribute_3():
a = Attribute(name="urn:oid:2.5.4.5", name_format=NAME_FORMAT_URI)
assert utils.identity_attribute("name",a) == "urn:oid:2.5.4.5"
# if there would be a map it would be serialNumber
assert utils.identity_attribute("friendly",a) == "urn:oid:2.5.4.5"
def test_identity_attribute_4():
a = Attribute(name="urn:oid:2.5.4.5", name_format=NAME_FORMAT_URI,
friendly_name="serialNumber")
assert utils.identity_attribute("name",a) == "urn:oid:2.5.4.5"
# if there would be a map it would be serialNumber
assert utils.identity_attribute("friendly",a) == "serialNumber"
def test_combine_0():
r = Attribute(name="urn:oid:2.5.4.5", name_format=NAME_FORMAT_URI,
friendly_name="serialNumber")
o = Attribute(name="urn:oid:2.5.4.4", name_format=NAME_FORMAT_URI,
friendly_name="surName")
comb = utils._combine([r],[o])
print comb
assert _eq(comb.keys(), [('urn:oid:2.5.4.5', 'serialNumber'),
('urn:oid:2.5.4.4', 'surName')])
assert comb[('urn:oid:2.5.4.5', 'serialNumber')] == ([], [])
assert comb[('urn:oid:2.5.4.4', 'surName')] == ([], [])
def test_filter_on_attributes_0():
a = Attribute(name="urn:oid:2.5.4.5", name_format=NAME_FORMAT_URI,
friendly_name="serialNumber")
required = [a]
ava = { "serialNumber": ["12345"]}
ava = utils.filter_on_attributes(ava, required)
assert ava.keys() == ["serialNumber"]
assert ava["serialNumber"] == ["12345"]
def test_filter_on_attributes_1():
a = Attribute(name="urn:oid:2.5.4.5", name_format=NAME_FORMAT_URI,
friendly_name="serialNumber")
required = [a]
ava = { "serialNumber": ["12345"], "givenName":["Lars"]}
ava = utils.filter_on_attributes(ava, required)
assert ava.keys() == ["serialNumber"]
assert ava["serialNumber"] == ["12345"]
def test_filter_values_req_2():
a1 = Attribute(name="urn:oid:2.5.4.5", name_format=NAME_FORMAT_URI,
friendly_name="serialNumber")
a2 = Attribute(name="urn:oid:2.5.4.4", name_format=NAME_FORMAT_URI,
friendly_name="surName")
required = [a1,a2]
ava = { "serialNumber": ["12345"], "givenName":["Lars"]}
raises(utils.MissingValue, utils.filter_on_attributes, ava, required)
def test_filter_values_req_3():
a = Attribute(name="urn:oid:2.5.4.5", name_format=NAME_FORMAT_URI,
friendly_name="serialNumber", attribute_value=[
AttributeValue(text="12345")])
required = [a]
ava = { "serialNumber": ["12345"]}
ava = utils.filter_on_attributes(ava, required)
assert ava.keys() == ["serialNumber"]
assert ava["serialNumber"] == ["12345"]
def test_filter_values_req_4():
a = Attribute(name="urn:oid:2.5.4.5", name_format=NAME_FORMAT_URI,
friendly_name="serialNumber", attribute_value=[
AttributeValue(text="54321")])
required = [a]
ava = { "serialNumber": ["12345"]}
raises(utils.MissingValue, utils.filter_on_attributes, ava, required)
def test_filter_values_req_5():
a = Attribute(name="urn:oid:2.5.4.5", name_format=NAME_FORMAT_URI,
friendly_name="serialNumber", attribute_value=[
AttributeValue(text="12345")])
required = [a]
ava = { "serialNumber": ["12345", "54321"]}
ava = utils.filter_on_attributes(ava, required)
assert ava.keys() == ["serialNumber"]
assert ava["serialNumber"] == ["12345"]
def test_filter_values_req_6():
a = Attribute(name="urn:oid:2.5.4.5", name_format=NAME_FORMAT_URI,
friendly_name="serialNumber", attribute_value=[
AttributeValue(text="54321")])
required = [a]
ava = { "serialNumber": ["12345", "54321"]}
ava = utils.filter_on_attributes(ava, required)
assert ava.keys() == ["serialNumber"]
assert ava["serialNumber"] == ["54321"]
def test_filter_values_req_opt_0():
r = Attribute(name="urn:oid:2.5.4.5", name_format=NAME_FORMAT_URI,
friendly_name="serialNumber", attribute_value=[
AttributeValue(text="54321")])
o = Attribute(name="urn:oid:2.5.4.5", name_format=NAME_FORMAT_URI,
friendly_name="serialNumber", attribute_value=[
AttributeValue(text="12345")])
ava = { "serialNumber": ["12345", "54321"]}
ava = utils.filter_on_attributes(ava, [r], [o])
assert ava.keys() == ["serialNumber"]
assert _eq(ava["serialNumber"], ["12345","54321"])
def test_filter_values_req_opt_1():
r = Attribute(name="urn:oid:2.5.4.5", name_format=NAME_FORMAT_URI,
friendly_name="serialNumber", attribute_value=[
AttributeValue(text="54321")])
o = Attribute(name="urn:oid:2.5.4.5", name_format=NAME_FORMAT_URI,
friendly_name="serialNumber", attribute_value=[
AttributeValue(text="12345"),
AttributeValue(text="abcd0")])
ava = { "serialNumber": ["12345", "54321"]}
ava = utils.filter_on_attributes(ava, [r], [o])
assert ava.keys() == ["serialNumber"]
assert _eq(ava["serialNumber"], ["12345","54321"])
def _givenName(a):
assert a["name"] == "urn:oid:2.5.4.42"
assert a["friendly_name"] == "givenName"
assert len(a["attribute_value"]) == 1
assert a["attribute_value"] == [{"text":"Derek"}]
def _surName(a):
assert a["name"] == "urn:oid:2.5.4.4"
assert a["friendly_name"] == "surName"
assert len(a["attribute_value"]) == 1
assert a["attribute_value"] == [{"text":"Jeter"}]
def test_ava_to_attributes():
(forward, backward) = utils.parse_attribute_map(["attribute.map"])
attrs = utils.ava_to_attributes(AVA[0], backward)
assert len(attrs) == 2
a = attrs[0]
if a["name"] == "urn:oid:2.5.4.42":
_givenName(a)
_surName(attrs[1])
elif a["name"] == "urn:oid:2.5.4.4":
_surName(a)
_givenName(attrs[1])
else:
print a
assert False
def test_nameformat_email():
assert utils.valid_email("foo@example.com")
assert utils.valid_email("a@b.com")
assert utils.valid_email("a@b.se")
assert utils.valid_email("john@doe@johndoe.com") == False
def test_args2dict():
n = utils.args2dict("foo", name_qualifier="urn:mace:example.com:nq")
assert _eq(n.keys(), ["text","name_qualifier"])
assert n["text"] == "foo"
assert n["name_qualifier"] == "urn:mace:example.com:nq"
def test_attribute():
a = utils.args2dict(friendly_name="eduPersonScopedAffiliation",
name="urn:oid:1.3.6.1.4.1.5923.1.1.1.9",
name_format="urn:oasis:names:tc:SAML:2.0:attrname-format:uri")
assert _eq(a.keys(), ["friendly_name","name", "name_format"])
a = utils.args2dict(friendly_name="eduPersonScopedAffiliation",
name="urn:oid:1.3.6.1.4.1.5923.1.1.1.9",
name_format="urn:oasis:names:tc:SAML:2.0:attrname-format:uri",
attribute_value=utils.args2dict("member@example.com"))
assert _eq(a.keys(), ["friendly_name","name", "name_format",
"attribute_value"])
def test_attribute_statement():
a = utils.args2dict(
attribute=[
utils.args2dict(attribute_value="Derek",
friendly_name="givenName"),
utils.args2dict(attribute_value="Jeter",
friendly_name="surName"),
])
assert a.keys() == ["attribute"]
assert len(a["attribute"]) == 2
def test_subject_confirmation_data():
s = utils.args2dict(
in_response_to="_12345678",
not_before="2010-02-11T07:30:00Z",
not_on_or_after="2010-02-11T07:35:00Z",
recipient="http://example.com/sp/",
address="192.168.0.10")
assert _eq(s.keys(),["in_response_to","not_before","not_on_or_after",
"recipient", "address"])
def test_subject_confirmation():
s = utils.args2dict(
method="urn:oasis:names:tc:SAML:2.0:profiles:SSO:browser",
base_id="1234",
name_id="abcd",
subject_confirmation_data=utils.args2dict(
in_response_to="_1234567890",
recipient="http://example.com/sp/"))
assert _eq(s.keys(),
["method","base_id","name_id","subject_confirmation_data"])
assert s["method"] == "urn:oasis:names:tc:SAML:2.0:profiles:SSO:browser"
def test_authn_context_class_ref():
a = utils.args2dict(
"urn:oasis:names:tc:SAML:2.0:ac:classes:unspecified")
assert a.keys() == ["text"]
assert a["text"] == "urn:oasis:names:tc:SAML:2.0:ac:classes:unspecified"
def test_authn_context():
accr = utils.args2dict(
"urn:oasis:names:tc:SAML:2.0:ac:classes:unspecified")
a = utils.args2dict(authn_context_class_ref=accr)
assert a.keys() == ["authn_context_class_ref"]
def test_authn_statement():
accr = utils.args2dict(
"urn:oasis:names:tc:SAML:2.0:ac:classes:unspecified")
ac = utils.args2dict(authn_context_class_ref=accr)
a = utils.args2dict(
authn_instant="2010-03-10T12:33:00Z",
session_index="_12345",
session_not_on_or_after="2010-03-11T12:00:00Z",
authn_context=ac
)