# Licensed under the Apache License, Version 2.0 (the "License"); you may # not use this file except in compliance with the License. You may obtain # a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, WITHOUT # WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the # License for the specific language governing permissions and limitations # under the License. from novaclient.tests.functional import base from novaclient.tests.functional.v2 import fake_crypto from novaclient.tests.functional.v2.legacy import test_keypairs class TestKeypairsNovaClientV22(test_keypairs.TestKeypairsNovaClient): """Keypairs functional tests for v2.2 nova-api microversion.""" COMPUTE_API_VERSION = "2.2" def test_create_keypair(self): keypair = super(TestKeypairsNovaClientV22, self).test_create_keypair() self.assertIn('ssh', keypair) def test_create_keypair_x509(self): key_name = self._create_keypair(key_type='x509') keypair = self._show_keypair(key_name) self.assertIn(key_name, keypair) self.assertIn('x509', keypair) def test_import_keypair(self): pub_key, fingerprint = fake_crypto.get_ssh_pub_key_and_fingerprint() pub_key_file = self._create_public_key_file(pub_key) keypair = self._test_import_keypair(fingerprint, pub_key=pub_key_file) self.assertIn('ssh', keypair) def test_import_keypair_x509(self): certif, fingerprint = fake_crypto.get_x509_cert_and_fingerprint() pub_key_file = self._create_public_key_file(certif) keypair = self._test_import_keypair(fingerprint, key_type='x509', pub_key=pub_key_file) self.assertIn('x509', keypair) class TestKeypairsNovaClientV210(base.TenantTestBase): """Keypairs functional tests for v2.10 nova-api microversion.""" COMPUTE_API_VERSION = "2.10" def test_create_and_list_keypair(self): name = self.name_generate("v2_10") self.nova("keypair-add %s --user %s" % (name, self.user_id)) self.addCleanup(self.another_nova, "keypair-delete %s" % name) output = self.nova("keypair-list") self.assertRaises(ValueError, self._get_value_from_the_table, output, name) output_1 = self.another_nova("keypair-list") output_2 = self.nova("keypair-list --user %s" % self.user_id) self.assertEqual(output_1, output_2) # it should be table with one key-pair self.assertEqual(name, self._get_column_value_from_single_row_table( output_1, "Name")) output_1 = self.another_nova("keypair-show %s " % name) output_2 = self.nova("keypair-show --user %s %s" % (self.user_id, name)) self.assertEqual(output_1, output_2) self.assertEqual(self.user_id, self._get_value_from_the_table(output_1, "user_id")) def test_create_and_delete(self): name = self.name_generate("v2_10") def cleanup(): # We should check keypair existence and remove it from correct user # if keypair is presented o = self.another_nova("keypair-list") if name in o: self.another_nova("keypair-delete %s" % name) self.nova("keypair-add %s --user %s" % (name, self.user_id)) self.addCleanup(cleanup) output = self.another_nova("keypair-list") self.assertEqual(name, self._get_column_value_from_single_row_table( output, "Name")) self.nova("keypair-delete %s --user %s " % (name, self.user_id)) output = self.another_nova("keypair-list") self.assertRaises( ValueError, self._get_column_value_from_single_row_table, output, "Name")