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Location: gimmecert/tests/test_crypto.py - annotation
61cbaabb84d2
32.8 KiB
text/x-python
GC-37: Updated documentation to cover key specification options.
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647208f5016b 647208f5016b 647208f5016b 647208f5016b 647208f5016b 647208f5016b 52d85e47faa0 52d85e47faa0 de1cc2505a56 de1cc2505a56 de1cc2505a56 de1cc2505a56 272ebabc4062 272ebabc4062 272ebabc4062 272ebabc4062 272ebabc4062 272ebabc4062 52d85e47faa0 de1cc2505a56 52d85e47faa0 de1cc2505a56 52d85e47faa0 52d85e47faa0 52d85e47faa0 2713380d89c9 2713380d89c9 2713380d89c9 2713380d89c9 2713380d89c9 2713380d89c9 2713380d89c9 2713380d89c9 2713380d89c9 2713380d89c9 272ebabc4062 2713380d89c9 272ebabc4062 2713380d89c9 272ebabc4062 272ebabc4062 2713380d89c9 2713380d89c9 272ebabc4062 2713380d89c9 2713380d89c9 272ebabc4062 272ebabc4062 6b45f2059746 6b45f2059746 6b45f2059746 6b45f2059746 6b45f2059746 52d85e47faa0 6b45f2059746 52d85e47faa0 52d85e47faa0 6b45f2059746 52d85e47faa0 52d85e47faa0 52d85e47faa0 52d85e47faa0 6b45f2059746 6b45f2059746 6b45f2059746 6b45f2059746 d52b62b9a9db d52b62b9a9db d52b62b9a9db d52b62b9a9db c3e3f7ebf69d c3e3f7ebf69d c3e3f7ebf69d c3e3f7ebf69d c3e3f7ebf69d c3e3f7ebf69d c3e3f7ebf69d d52b62b9a9db d52b62b9a9db d52b62b9a9db d52b62b9a9db d52b62b9a9db d52b62b9a9db d52b62b9a9db d52b62b9a9db d52b62b9a9db d52b62b9a9db d52b62b9a9db d52b62b9a9db d52b62b9a9db d52b62b9a9db d52b62b9a9db d52b62b9a9db d52b62b9a9db | # -*- coding: utf-8 -*-
#
# Copyright (C) 2018 Branko Majic
#
# This file is part of Gimmecert.
#
# Gimmecert 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.
#
# Gimmecert 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
# Gimmecert. If not, see <http://www.gnu.org/licenses/>.
#
import datetime
import cryptography.hazmat.primitives.asymmetric.ec
import cryptography.hazmat.primitives.asymmetric.rsa
import cryptography.x509
from dateutil.relativedelta import relativedelta
import gimmecert.crypto
import pytest
from freezegun import freeze_time
def test_get_dn():
dn = gimmecert.crypto.get_dn('My test')
assert isinstance(dn, cryptography.x509.Name)
assert len(dn) == 1
assert isinstance(list(dn)[0], cryptography.x509.NameAttribute)
assert list(dn)[0].oid == cryptography.x509.oid.NameOID.COMMON_NAME
assert list(dn)[0].value == 'My test'
def test_get_validity_range_returns_datetime_tuple():
not_before, not_after = gimmecert.crypto.get_validity_range()
assert isinstance(not_before, datetime.datetime)
assert isinstance(not_after, datetime.datetime)
@freeze_time('2018-01-01 00:15:00')
def test_get_validity_range_not_before_is_within_15_minutes_of_now():
not_before, _ = gimmecert.crypto.get_validity_range()
assert not_before == datetime.datetime(2018, 1, 1, 0, 0)
@freeze_time('2018-01-01 00:15:00')
def test_get_validity_range_is_one_year_and_15_minutes():
not_before, not_after = gimmecert.crypto.get_validity_range()
difference = relativedelta(not_after, not_before)
assert difference == relativedelta(years=1, minutes=15)
@freeze_time('2018-01-01 00:15:00.100')
def test_get_validity_range_drops_microseconds():
not_before, not_after = gimmecert.crypto.get_validity_range()
assert not_before.microsecond == 0
assert not_after.microsecond == 0
def test_issue_certificate_returns_certificate():
issuer_dn = gimmecert.crypto.get_dn('My test 1')
subject_dn = gimmecert.crypto.get_dn('My test 2')
issuer_private_key = gimmecert.crypto.KeyGenerator('rsa', 2048)()
subject_private_key = gimmecert.crypto.KeyGenerator('rsa', 2048)()
not_before, not_after = gimmecert.crypto.get_validity_range()
certificate = gimmecert.crypto.issue_certificate(issuer_dn, subject_dn, issuer_private_key, subject_private_key.public_key(), not_before, not_after)
assert isinstance(certificate, cryptography.x509.Certificate)
def test_issue_certificate_has_correct_content():
issuer_dn = gimmecert.crypto.get_dn('My test 1')
subject_dn = gimmecert.crypto.get_dn('My test 2')
issuer_private_key = gimmecert.crypto.KeyGenerator('rsa', 2048)()
subject_private_key = gimmecert.crypto.KeyGenerator('rsa', 2048)()
not_before, not_after = gimmecert.crypto.get_validity_range()
certificate = gimmecert.crypto.issue_certificate(issuer_dn, subject_dn, issuer_private_key, subject_private_key.public_key(), not_before, not_after)
assert certificate.issuer == issuer_dn
assert certificate.subject == subject_dn
assert certificate.not_valid_before == not_before
assert certificate.not_valid_after == not_after
def test_generate_ca_hierarchy_returns_list_with_3_elements_for_depth_3():
base_name = 'My Project'
depth = 3
hierarchy = gimmecert.crypto.generate_ca_hierarchy(base_name, depth, gimmecert.crypto.KeyGenerator("rsa", 2048))
assert isinstance(hierarchy, list)
assert len(hierarchy) == depth
def test_generate_ca_hierarchy_returns_list_with_1_element_for_depth_1():
base_name = 'My Project'
depth = 1
hierarchy = gimmecert.crypto.generate_ca_hierarchy(base_name, depth, gimmecert.crypto.KeyGenerator("rsa", 2048))
assert isinstance(hierarchy, list)
assert len(hierarchy) == depth
@pytest.mark.parametrize("key_specification, private_key_instance_type", [
[("rsa", 1024), cryptography.hazmat.primitives.asymmetric.rsa.RSAPrivateKey],
[("ecdsa", cryptography.hazmat.primitives.asymmetric.ec.SECP192R1), cryptography.hazmat.primitives.asymmetric.ec.EllipticCurvePrivateKey],
])
def test_generate_ca_hierarchy_returns_list_of_private_key_certificate_pairs(key_specification, private_key_instance_type):
base_name = 'My Project'
depth = 3
hierarchy = gimmecert.crypto.generate_ca_hierarchy(base_name, depth, gimmecert.crypto.KeyGenerator(*key_specification))
for private_key, certificate in hierarchy:
assert isinstance(private_key, private_key_instance_type)
assert isinstance(certificate, cryptography.x509.Certificate)
def test_generate_ca_hierarchy_subject_dns_have_correct_value():
base_name = 'My Project'
depth = 3
key_generator = gimmecert.crypto.KeyGenerator("rsa", 2048)
level1, level2, level3 = [certificate for _, certificate in gimmecert.crypto.generate_ca_hierarchy(base_name, depth, key_generator)]
assert level1.subject == cryptography.x509.Name(gimmecert.crypto.get_dn('My Project Level 1 CA'))
assert level2.subject == cryptography.x509.Name(gimmecert.crypto.get_dn('My Project Level 2 CA'))
assert level3.subject == cryptography.x509.Name(gimmecert.crypto.get_dn('My Project Level 3 CA'))
def test_generate_ca_hierarchy_issuer_dns_have_correct_value():
base_name = 'My Project'
depth = 3
hierarchy = gimmecert.crypto.generate_ca_hierarchy(base_name, depth, gimmecert.crypto.KeyGenerator("rsa", 2048))
level1_key, level1_certificate = hierarchy[0]
level2_key, level2_certificate = hierarchy[1]
level3_key, level3_certificate = hierarchy[2]
assert level1_certificate.issuer == cryptography.x509.Name(gimmecert.crypto.get_dn('My Project Level 1 CA'))
assert level2_certificate.issuer == cryptography.x509.Name(gimmecert.crypto.get_dn('My Project Level 1 CA'))
assert level3_certificate.issuer == cryptography.x509.Name(gimmecert.crypto.get_dn('My Project Level 2 CA'))
@pytest.mark.parametrize("key_specification", [
("rsa", 2048),
("ecdsa", cryptography.hazmat.primitives.asymmetric.ec.SECP192R1)
])
def test_generate_ca_hierarchy_private_keys_match_with_public_keys_in_certificates(key_specification):
base_name = 'My Project'
depth = 3
hierarchy = gimmecert.crypto.generate_ca_hierarchy(base_name, depth, gimmecert.crypto.KeyGenerator(*key_specification))
level1_private_key, level1_certificate = hierarchy[0]
level2_private_key, level2_certificate = hierarchy[1]
level3_private_key, level3_certificate = hierarchy[2]
assert level1_private_key.public_key().public_numbers() == level1_certificate.public_key().public_numbers()
assert level2_private_key.public_key().public_numbers() == level2_certificate.public_key().public_numbers()
assert level3_private_key.public_key().public_numbers() == level3_certificate.public_key().public_numbers()
@pytest.mark.parametrize("key_specification", [
("rsa", 2048),
("ecdsa", cryptography.hazmat.primitives.asymmetric.ec.SECP192R1)
])
def test_generate_ca_hierarchy_cas_have_differing_keys(key_specification):
base_name = 'My Project'
depth = 3
hierarchy = gimmecert.crypto.generate_ca_hierarchy(base_name, depth, gimmecert.crypto.KeyGenerator(*key_specification))
level1_private_key, _ = hierarchy[0]
level2_private_key, _ = hierarchy[1]
level3_private_key, _ = hierarchy[2]
level1_public_numbers = level1_private_key.public_key().public_numbers()
level2_public_numbers = level2_private_key.public_key().public_numbers()
level3_public_numbers = level3_private_key.public_key().public_numbers()
assert level1_public_numbers != level2_public_numbers
assert level1_public_numbers != level3_public_numbers
assert level2_public_numbers != level3_public_numbers
def test_generate_ca_hierarchy_certificates_have_same_validity():
base_name = 'My Project'
depth = 3
hierarchy = gimmecert.crypto.generate_ca_hierarchy(base_name, depth, gimmecert.crypto.KeyGenerator("rsa", 2048))
_, level1_certificate = hierarchy[0]
_, level2_certificate = hierarchy[1]
_, level3_certificate = hierarchy[2]
assert level1_certificate.not_valid_before == level2_certificate.not_valid_before == level3_certificate.not_valid_before
assert level1_certificate.not_valid_after == level2_certificate.not_valid_after == level3_certificate.not_valid_after
def test_issue_certificate_sets_extensions():
dn = gimmecert.crypto.get_dn('My test 1')
private_key = gimmecert.crypto.KeyGenerator('rsa', 2048)()
not_before, not_after = gimmecert.crypto.get_validity_range()
basic_constraints = cryptography.x509.BasicConstraints(ca=True, path_length=None)
ocsp_no_check = cryptography.x509.OCSPNoCheck()
extensions = [
(basic_constraints, True),
(ocsp_no_check, False),
]
certificate = gimmecert.crypto.issue_certificate(dn, dn, private_key, private_key.public_key(), not_before, not_after, extensions)
assert len(certificate.extensions) == 2
stored_extension = certificate.extensions.get_extension_for_class(cryptography.x509.BasicConstraints)
assert stored_extension.value == basic_constraints
assert stored_extension.critical is True
stored_extension = certificate.extensions.get_extension_for_class(cryptography.x509.OCSPNoCheck)
assert stored_extension.critical is False
assert isinstance(stored_extension.value, cryptography.x509.OCSPNoCheck)
def test_issue_certificate_sets_no_extensions_if_none_are_passed():
dn = gimmecert.crypto.get_dn('My test 1')
private_key = gimmecert.crypto.KeyGenerator('rsa', 2048)()
not_before, not_after = gimmecert.crypto.get_validity_range()
certificate1 = gimmecert.crypto.issue_certificate(dn, dn, private_key, private_key.public_key(), not_before, not_after, None)
certificate2 = gimmecert.crypto.issue_certificate(dn, dn, private_key, private_key.public_key(), not_before, not_after, [])
assert len(certificate1.extensions) == 0
assert len(certificate2.extensions) == 0
def test_generate_ca_hierarchy_produces_certificates_with_ca_basic_constraints():
base_name = 'My test'
depth = 3
hierarchy = gimmecert.crypto.generate_ca_hierarchy(base_name, depth, gimmecert.crypto.KeyGenerator("rsa", 2048))
for _, certificate in hierarchy:
stored_extension = certificate.extensions.get_extension_for_class(cryptography.x509.BasicConstraints)
value, critical = stored_extension.value, stored_extension.critical
assert isinstance(value, cryptography.x509.BasicConstraints)
assert critical is True
assert value.ca is True
assert value.path_length is None
def test_issue_server_certificate_returns_certificate():
ca_hierarchy = gimmecert.crypto.generate_ca_hierarchy('My Project', 1, gimmecert.crypto.KeyGenerator("rsa", 2048))
issuer_private_key, issuer_certificate = ca_hierarchy[0]
private_key = gimmecert.crypto.KeyGenerator('rsa', 2048)()
certificate = gimmecert.crypto.issue_server_certificate('myserver', private_key.public_key(), issuer_private_key, issuer_certificate)
assert isinstance(certificate, cryptography.x509.Certificate)
def test_issue_server_certificate_sets_correct_extensions():
ca_hierarchy = gimmecert.crypto.generate_ca_hierarchy('My Project', 1, gimmecert.crypto.KeyGenerator("rsa", 2048))
issuer_private_key, issuer_certificate = ca_hierarchy[0]
private_key = gimmecert.crypto.KeyGenerator('rsa', 2048)()
expected_basic_constraints = cryptography.x509.BasicConstraints(ca=False, path_length=None)
expected_key_usage = cryptography.x509.KeyUsage(
digital_signature=True,
key_encipherment=True,
content_commitment=False,
data_encipherment=False,
key_agreement=False,
key_cert_sign=False,
crl_sign=False,
encipher_only=False,
decipher_only=False
)
expected_extended_key_usage = cryptography.x509.ExtendedKeyUsage(
[
cryptography.x509.oid.ExtendedKeyUsageOID.SERVER_AUTH
]
)
expected_subject_alternative_name = cryptography.x509.SubjectAlternativeName(
[
cryptography.x509.DNSName('myserver')
]
)
certificate = gimmecert.crypto.issue_server_certificate('myserver', private_key.public_key(), issuer_private_key, issuer_certificate)
assert len(certificate.extensions) == 4
assert certificate.extensions.get_extension_for_class(cryptography.x509.BasicConstraints).critical is True
assert certificate.extensions.get_extension_for_class(cryptography.x509.BasicConstraints).value == expected_basic_constraints
assert certificate.extensions.get_extension_for_class(cryptography.x509.KeyUsage).critical is True
assert certificate.extensions.get_extension_for_class(cryptography.x509.KeyUsage).value == expected_key_usage
assert certificate.extensions.get_extension_for_class(cryptography.x509.ExtendedKeyUsage).critical is True
assert certificate.extensions.get_extension_for_class(cryptography.x509.ExtendedKeyUsage).value == expected_extended_key_usage
assert certificate.extensions.get_extension_for_class(cryptography.x509.SubjectAlternativeName).critical is False
assert certificate.extensions.get_extension_for_class(cryptography.x509.SubjectAlternativeName).value == expected_subject_alternative_name
def test_issue_server_certificate_has_correct_issuer_and_subject():
ca_hierarchy = gimmecert.crypto.generate_ca_hierarchy('My Project', 4, gimmecert.crypto.KeyGenerator("rsa", 2048))
issuer_private_key, issuer_certificate = ca_hierarchy[3]
private_key = gimmecert.crypto.KeyGenerator('rsa', 2048)()
certificate = gimmecert.crypto.issue_server_certificate('myserver', private_key.public_key(), issuer_private_key, issuer_certificate)
assert certificate.issuer == issuer_certificate.subject
assert certificate.subject == gimmecert.crypto.get_dn('myserver')
@pytest.mark.parametrize("key_specification", [
("rsa", 2048),
("ecdsa", cryptography.hazmat.primitives.asymmetric.ec.SECP192R1)
])
def test_issue_server_certificate_has_correct_public_key(key_specification):
ca_hierarchy = gimmecert.crypto.generate_ca_hierarchy('My Project', 1, gimmecert.crypto.KeyGenerator("rsa", 2048))
issuer_private_key, issuer_certificate = ca_hierarchy[0]
private_key = gimmecert.crypto.KeyGenerator(*key_specification)()
certificate = gimmecert.crypto.issue_server_certificate('myserver', private_key.public_key(), issuer_private_key, issuer_certificate)
assert certificate.public_key().public_numbers() == private_key.public_key().public_numbers()
@freeze_time('2018-01-01 00:15:00')
def test_issue_server_certificate_not_before_is_15_minutes_in_past():
ca_hierarchy = gimmecert.crypto.generate_ca_hierarchy('My Project', 1, gimmecert.crypto.KeyGenerator("rsa", 2048))
issuer_private_key, issuer_certificate = ca_hierarchy[0]
private_key = gimmecert.crypto.KeyGenerator('rsa', 2048)()
certificate = gimmecert.crypto.issue_server_certificate('myserver', private_key.public_key(), issuer_private_key, issuer_certificate)
assert certificate.not_valid_before == datetime.datetime(2018, 1, 1, 0, 0)
def test_issue_server_certificate_not_before_does_not_exceed_ca_validity():
with freeze_time('2018-01-01 00:15:00'):
ca_hierarchy = gimmecert.crypto.generate_ca_hierarchy('My Project', 1, gimmecert.crypto.KeyGenerator("rsa", 2048))
issuer_private_key, issuer_certificate = ca_hierarchy[0]
private_key = gimmecert.crypto.KeyGenerator('rsa', 2048)()
with freeze_time(issuer_certificate.not_valid_before - datetime.timedelta(seconds=1)):
certificate1 = gimmecert.crypto.issue_server_certificate('myserver', private_key.public_key(), issuer_private_key, issuer_certificate)
assert certificate1.not_valid_before == issuer_certificate.not_valid_before
def test_issue_server_certificate_not_after_does_not_exceed_ca_validity():
with freeze_time('2018-01-01 00:15:00'):
ca_hierarchy = gimmecert.crypto.generate_ca_hierarchy('My Project', 1, gimmecert.crypto.KeyGenerator("rsa", 2048))
issuer_private_key, issuer_certificate = ca_hierarchy[0]
private_key = gimmecert.crypto.KeyGenerator('rsa', 2048)()
with freeze_time(issuer_certificate.not_valid_after + datetime.timedelta(seconds=1)):
certificate1 = gimmecert.crypto.issue_server_certificate('myserver', private_key.public_key(), issuer_private_key, issuer_certificate)
assert certificate1.not_valid_after == issuer_certificate.not_valid_after
def test_issue_server_certificate_incorporates_additional_dns_subject_alternative_names():
ca_hierarchy = gimmecert.crypto.generate_ca_hierarchy('My Project', 1, gimmecert.crypto.KeyGenerator("rsa", 2048))
issuer_private_key, issuer_certificate = ca_hierarchy[0]
private_key = gimmecert.crypto.KeyGenerator('rsa', 2048)()
expected_subject_alternative_name = cryptography.x509.SubjectAlternativeName(
[
cryptography.x509.DNSName('myserver'),
cryptography.x509.DNSName('service.local'),
cryptography.x509.DNSName('service.example.com')
]
)
extra_dns_names = ['service.local', 'service.example.com']
certificate = gimmecert.crypto.issue_server_certificate('myserver', private_key.public_key(), issuer_private_key, issuer_certificate, extra_dns_names)
assert certificate.extensions.get_extension_for_class(cryptography.x509.SubjectAlternativeName).critical is False
assert certificate.extensions.get_extension_for_class(cryptography.x509.SubjectAlternativeName).value == expected_subject_alternative_name
def test_issue_client_certificate_returns_certificate():
ca_hierarchy = gimmecert.crypto.generate_ca_hierarchy('My Project', 1, gimmecert.crypto.KeyGenerator("rsa", 2048))
issuer_private_key, issuer_certificate = ca_hierarchy[0]
private_key = gimmecert.crypto.KeyGenerator('rsa', 2048)()
certificate = gimmecert.crypto.issue_client_certificate('myclient', private_key.public_key(), issuer_private_key, issuer_certificate)
assert isinstance(certificate, cryptography.x509.Certificate)
def test_issue_client_certificate_has_correct_issuer_and_subject():
ca_hierarchy = gimmecert.crypto.generate_ca_hierarchy('My Project', 4, gimmecert.crypto.KeyGenerator("rsa", 2048))
issuer_private_key, issuer_certificate = ca_hierarchy[3]
private_key = gimmecert.crypto.KeyGenerator('rsa', 2048)()
certificate = gimmecert.crypto.issue_client_certificate('myclient', private_key.public_key(), issuer_private_key, issuer_certificate)
assert certificate.issuer == issuer_certificate.subject
assert certificate.subject == gimmecert.crypto.get_dn('myclient')
def test_issue_client_certificate_sets_correct_extensions():
ca_hierarchy = gimmecert.crypto.generate_ca_hierarchy('My Project', 1, gimmecert.crypto.KeyGenerator("rsa", 2048))
issuer_private_key, issuer_certificate = ca_hierarchy[0]
private_key = gimmecert.crypto.KeyGenerator('rsa', 2048)()
expected_basic_constraints = cryptography.x509.BasicConstraints(ca=False, path_length=None)
expected_key_usage = cryptography.x509.KeyUsage(
digital_signature=True,
key_encipherment=True,
content_commitment=False,
data_encipherment=False,
key_agreement=False,
key_cert_sign=False,
crl_sign=False,
encipher_only=False,
decipher_only=False
)
expected_extended_key_usage = cryptography.x509.ExtendedKeyUsage(
[
cryptography.x509.oid.ExtendedKeyUsageOID.CLIENT_AUTH
]
)
certificate = gimmecert.crypto.issue_client_certificate('myclient', private_key.public_key(), issuer_private_key, issuer_certificate)
assert len(certificate.extensions) == 3
assert certificate.extensions.get_extension_for_class(cryptography.x509.BasicConstraints).critical is True
assert certificate.extensions.get_extension_for_class(cryptography.x509.BasicConstraints).value == expected_basic_constraints
assert certificate.extensions.get_extension_for_class(cryptography.x509.KeyUsage).critical is True
assert certificate.extensions.get_extension_for_class(cryptography.x509.KeyUsage).value == expected_key_usage
assert certificate.extensions.get_extension_for_class(cryptography.x509.ExtendedKeyUsage).critical is True
assert certificate.extensions.get_extension_for_class(cryptography.x509.ExtendedKeyUsage).value == expected_extended_key_usage
@pytest.mark.parametrize("key_specification", [
("rsa", 2048),
("ecdsa", cryptography.hazmat.primitives.asymmetric.ec.SECP192R1)
])
def test_issue_client_certificate_has_correct_public_key(key_specification):
ca_hierarchy = gimmecert.crypto.generate_ca_hierarchy('My Project', 1, gimmecert.crypto.KeyGenerator("rsa", 2048))
issuer_private_key, issuer_certificate = ca_hierarchy[0]
private_key = gimmecert.crypto.KeyGenerator(*key_specification)()
certificate = gimmecert.crypto.issue_client_certificate('myclient', private_key.public_key(), issuer_private_key, issuer_certificate)
assert certificate.public_key().public_numbers() == private_key.public_key().public_numbers()
@freeze_time('2018-01-01 00:15:00')
def test_issue_client_certificate_not_before_is_15_minutes_in_past():
ca_hierarchy = gimmecert.crypto.generate_ca_hierarchy('My Project', 1, gimmecert.crypto.KeyGenerator("rsa", 2048))
issuer_private_key, issuer_certificate = ca_hierarchy[0]
private_key = gimmecert.crypto.KeyGenerator('rsa', 2048)()
certificate = gimmecert.crypto.issue_client_certificate('myclient', private_key.public_key(), issuer_private_key, issuer_certificate)
assert certificate.not_valid_before == datetime.datetime(2018, 1, 1, 0, 0)
def test_issue_client_certificate_not_before_does_not_exceed_ca_validity():
with freeze_time('2018-01-01 00:15:00'):
ca_hierarchy = gimmecert.crypto.generate_ca_hierarchy('My Project', 1, gimmecert.crypto.KeyGenerator("rsa", 2048))
issuer_private_key, issuer_certificate = ca_hierarchy[0]
private_key = gimmecert.crypto.KeyGenerator('rsa', 2048)()
with freeze_time(issuer_certificate.not_valid_before - datetime.timedelta(seconds=1)):
certificate1 = gimmecert.crypto.issue_client_certificate('myclient', private_key.public_key(), issuer_private_key, issuer_certificate)
assert certificate1.not_valid_before == issuer_certificate.not_valid_before
def test_issue_client_certificate_not_after_does_not_exceed_ca_validity():
with freeze_time('2018-01-01 00:15:00'):
ca_hierarchy = gimmecert.crypto.generate_ca_hierarchy('My Project', 1, gimmecert.crypto.KeyGenerator("rsa", 2048))
issuer_private_key, issuer_certificate = ca_hierarchy[0]
private_key = gimmecert.crypto.KeyGenerator('rsa', 2048)()
with freeze_time(issuer_certificate.not_valid_after + datetime.timedelta(seconds=1)):
certificate1 = gimmecert.crypto.issue_client_certificate('myclient', private_key.public_key(), issuer_private_key, issuer_certificate)
assert certificate1.not_valid_after == issuer_certificate.not_valid_after
def test_renew_certificate_returns_certificate():
ca_hierarchy = gimmecert.crypto.generate_ca_hierarchy('My Project', 1, gimmecert.crypto.KeyGenerator("rsa", 2048))
issuer_private_key, issuer_certificate = ca_hierarchy[0]
private_key = gimmecert.crypto.KeyGenerator('rsa', 2048)()
old_certificate = gimmecert.crypto.issue_server_certificate('myserver', private_key.public_key(), issuer_private_key, issuer_certificate)
new_certificate = gimmecert.crypto.renew_certificate(old_certificate, private_key.public_key(), issuer_private_key, issuer_certificate)
assert isinstance(new_certificate, cryptography.x509.Certificate)
@pytest.mark.parametrize("key_specification", [
("rsa", 2048),
("ecdsa", cryptography.hazmat.primitives.asymmetric.ec.SECP192R1)
])
def test_renew_certificate_has_correct_content(key_specification):
ca_hierarchy = gimmecert.crypto.generate_ca_hierarchy('My Project', 1, gimmecert.crypto.KeyGenerator("rsa", 2048))
issuer_private_key, issuer_certificate = ca_hierarchy[0]
private_key = gimmecert.crypto.KeyGenerator(*key_specification)()
old_certificate = gimmecert.crypto.issue_server_certificate('myserver', private_key.public_key(), issuer_private_key, issuer_certificate)
public_key = gimmecert.crypto.KeyGenerator(*key_specification)().public_key()
new_certificate = gimmecert.crypto.renew_certificate(old_certificate, public_key, issuer_private_key, issuer_certificate)
assert old_certificate != new_certificate # make sure we didn't get identical certificate.
assert old_certificate.issuer == new_certificate.issuer
assert old_certificate.subject == new_certificate.subject
assert new_certificate.public_key().public_numbers() == public_key.public_numbers()
assert [e for e in old_certificate.extensions] == [e for e in new_certificate.extensions]
def test_renew_certificate_not_before_is_15_minutes_in_past():
# Initial server certificate.
with freeze_time('2018-01-01 00:15:00'):
ca_hierarchy = gimmecert.crypto.generate_ca_hierarchy('My Project', 1, gimmecert.crypto.KeyGenerator("rsa", 2048))
issuer_private_key, issuer_certificate = ca_hierarchy[0]
private_key = gimmecert.crypto.KeyGenerator('rsa', 2048)()
old_certificate = gimmecert.crypto.issue_server_certificate('myserver', private_key.public_key(), issuer_private_key, issuer_certificate)
# Renew certificate.
with freeze_time('2018-06-01 00:15:00'):
certificate = gimmecert.crypto.renew_certificate(old_certificate, private_key.public_key(), issuer_private_key, issuer_certificate)
assert certificate.not_valid_before == datetime.datetime(2018, 6, 1, 0, 0)
def test_renew_certificate_not_before_does_not_exceed_ca_validity():
# Initial server certificate.
with freeze_time('2018-01-01 00:15:00'):
ca_hierarchy = gimmecert.crypto.generate_ca_hierarchy('My Project', 1, gimmecert.crypto.KeyGenerator("rsa", 2048))
issuer_private_key, issuer_certificate = ca_hierarchy[0]
private_key = gimmecert.crypto.KeyGenerator('rsa', 2048)()
old_certificate = gimmecert.crypto.issue_server_certificate('myserver', private_key.public_key(), issuer_private_key, issuer_certificate)
# Renew certificate.
with freeze_time(issuer_certificate.not_valid_before - datetime.timedelta(seconds=1)):
certificate = gimmecert.crypto.renew_certificate(old_certificate, private_key.public_key(), issuer_private_key, issuer_certificate)
assert certificate.not_valid_before == issuer_certificate.not_valid_before
def test_renew_certificate_not_after_does_not_exceed_ca_validity():
# Initial server certificate.
with freeze_time('2018-01-01 00:15:00'):
ca_hierarchy = gimmecert.crypto.generate_ca_hierarchy('My Project', 1, gimmecert.crypto.KeyGenerator("rsa", 2048))
issuer_private_key, issuer_certificate = ca_hierarchy[0]
private_key = gimmecert.crypto.KeyGenerator('rsa', 2048)()
old_certificate = gimmecert.crypto.issue_server_certificate('myserver', private_key.public_key(), issuer_private_key, issuer_certificate)
# Renew certificate.
with freeze_time(issuer_certificate.not_valid_after + datetime.timedelta(seconds=1)):
certificate = gimmecert.crypto.renew_certificate(old_certificate, private_key.public_key(), issuer_private_key, issuer_certificate)
assert certificate.not_valid_after == issuer_certificate.not_valid_after
def test_generate_csr_returns_csr_with_passed_in_dn():
private_key = gimmecert.crypto.KeyGenerator('rsa', 2048)()
subject_dn = gimmecert.crypto.get_dn('testcsr')
csr = gimmecert.crypto.generate_csr(subject_dn, private_key)
assert isinstance(csr, cryptography.x509.CertificateSigningRequest)
assert csr.public_key().public_numbers() == private_key.public_key().public_numbers()
assert csr.subject == subject_dn
def test_generate_csr_returns_csr_with_passed_in_name():
private_key = gimmecert.crypto.KeyGenerator('rsa', 2048)()
name = 'testcsr'
expected_subject_dn = gimmecert.crypto.get_dn('testcsr')
csr = gimmecert.crypto.generate_csr(name, private_key)
assert csr.public_key().public_numbers() == private_key.public_key().public_numbers()
assert csr.subject == expected_subject_dn
@pytest.mark.parametrize("algorithm, parameters, string_representation", [
("rsa", 1024, "1024-bit RSA"),
("rsa", 2048, "2048-bit RSA"),
("rsa", 4096, "4096-bit RSA"),
("ecdsa", cryptography.hazmat.primitives.asymmetric.ec.SECP192R1, "secp192r1 ECDSA"),
("ecdsa", cryptography.hazmat.primitives.asymmetric.ec.SECP224R1, "secp224r1 ECDSA"),
("ecdsa", cryptography.hazmat.primitives.asymmetric.ec.SECP256K1, "secp256k1 ECDSA"),
("ecdsa", cryptography.hazmat.primitives.asymmetric.ec.SECP256R1, "secp256r1 ECDSA"),
("ecdsa", cryptography.hazmat.primitives.asymmetric.ec.SECP384R1, "secp384r1 ECDSA"),
("ecdsa", cryptography.hazmat.primitives.asymmetric.ec.SECP521R1, "secp521r1 ECDSA"),
])
def test_KeyGenerator_string_representation(algorithm, parameters, string_representation):
key_generator = gimmecert.crypto.KeyGenerator(algorithm, parameters)
assert str(key_generator) == string_representation
@pytest.mark.parametrize("key_specification, key_instance_type", [
(("rsa", 1024), cryptography.hazmat.primitives.asymmetric.rsa.RSAPrivateKey),
(("rsa", 2048), cryptography.hazmat.primitives.asymmetric.rsa.RSAPrivateKey),
(("rsa", 4096), cryptography.hazmat.primitives.asymmetric.rsa.RSAPrivateKey),
(("ecdsa", cryptography.hazmat.primitives.asymmetric.ec.SECP192R1), cryptography.hazmat.primitives.asymmetric.ec.EllipticCurvePrivateKey),
(("ecdsa", cryptography.hazmat.primitives.asymmetric.ec.SECP224R1), cryptography.hazmat.primitives.asymmetric.ec.EllipticCurvePrivateKey),
(("ecdsa", cryptography.hazmat.primitives.asymmetric.ec.SECP256K1), cryptography.hazmat.primitives.asymmetric.ec.EllipticCurvePrivateKey),
(("ecdsa", cryptography.hazmat.primitives.asymmetric.ec.SECP256R1), cryptography.hazmat.primitives.asymmetric.ec.EllipticCurvePrivateKey),
(("ecdsa", cryptography.hazmat.primitives.asymmetric.ec.SECP384R1), cryptography.hazmat.primitives.asymmetric.ec.EllipticCurvePrivateKey),
(("ecdsa", cryptography.hazmat.primitives.asymmetric.ec.SECP521R1), cryptography.hazmat.primitives.asymmetric.ec.EllipticCurvePrivateKey),
])
def test_KeyGenerator_instance_returns_correct_private_key_using_passed_in_key_specification(key_specification, key_instance_type):
key_generator = gimmecert.crypto.KeyGenerator(*key_specification)
private_key = key_generator()
public_key = private_key.public_key()
public_key_specification = gimmecert.crypto.key_specification_from_public_key(public_key)
assert isinstance(private_key, key_instance_type)
assert public_key_specification == key_specification
@pytest.mark.parametrize("key_specification", [
("rsa", 1024),
("rsa", 2048),
("ecdsa", cryptography.hazmat.primitives.asymmetric.ec.SECP192R1),
("ecdsa", cryptography.hazmat.primitives.asymmetric.ec.SECP224R1),
])
def test_generate_ca_hierarchy_generates_private_keys_using_passed_in_key_generator(key_specification):
base_name = "My Test"
depth = 3
key_generator = gimmecert.crypto.KeyGenerator(*key_specification)
hierarchy = gimmecert.crypto.generate_ca_hierarchy(base_name, depth, key_generator)
for private_key, _ in hierarchy:
public_key = private_key.public_key()
public_key_specification = gimmecert.crypto.key_specification_from_public_key(public_key)
assert public_key_specification == key_specification
@pytest.mark.parametrize("specification", [
("rsa", 1024),
("rsa", 2048),
("ecdsa", cryptography.hazmat.primitives.asymmetric.ec.SECP192R1),
("ecdsa", cryptography.hazmat.primitives.asymmetric.ec.SECP224R1),
("ecdsa", cryptography.hazmat.primitives.asymmetric.ec.SECP256K1),
("ecdsa", cryptography.hazmat.primitives.asymmetric.ec.SECP256R1),
("ecdsa", cryptography.hazmat.primitives.asymmetric.ec.SECP384R1),
("ecdsa", cryptography.hazmat.primitives.asymmetric.ec.SECP521R1),
])
def test_key_specification_from_public_key_returns_correct_algorithm_and_parameters(specification):
key_generator = gimmecert.crypto.KeyGenerator(specification[0], specification[1])
public_key = key_generator().public_key()
algorithm, parameters = gimmecert.crypto.key_specification_from_public_key(public_key)
assert (algorithm, parameters) == specification
def test_key_specification_raises_exception_for_invalid_public_key():
public_key = "not_a_public_key_instance"
with pytest.raises(ValueError) as e_info:
gimmecert.crypto.key_specification_from_public_key(public_key)
assert str(e_info.value) == "Unsupported public key instance passed-in: \"not_a_public_key_instance\" (<class 'str'>)"
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