# vim: tabstop=4 shiftwidth=4 softtabstop=4 # Copyright 2010 United States Government as represented by the # Administrator of the National Aeronautics and Space Administration. # All Rights Reserved. # # 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. import os import random import shutil import sys import tempfile import time # If ../nova/__init__.py exists, add ../ to Python search path, so that # it will override what happens to be installed in /usr/(local/)lib/python... possible_topdir = os.path.normpath(os.path.join(os.path.abspath(sys.argv[0]), os.pardir, os.pardir)) if os.path.exists(os.path.join(possible_topdir, 'nova', '__init__.py')): sys.path.insert(0, possible_topdir) from smoketests import base from smoketests import flags FLAGS = flags.FLAGS flags.DEFINE_string('bundle_kernel', 'random.kernel', 'Local kernel file to use for bundling tests') flags.DEFINE_string('bundle_image', 'random.image', 'Local image file to use for bundling tests') TEST_PREFIX = 'test%s' % int(random.random() * 1000000) TEST_BUCKET = '%s_bucket' % TEST_PREFIX TEST_KEY = '%s_key' % TEST_PREFIX TEST_GROUP = '%s_group' % TEST_PREFIX class ImageTests(base.UserSmokeTestCase): def test_001_can_bundle_image(self): self.data['tempdir'] = tempfile.mkdtemp() self.assertTrue(self.bundle_image(FLAGS.bundle_image, self.data['tempdir'])) def test_002_can_upload_image(self): try: self.assertTrue(self.upload_image(TEST_BUCKET, FLAGS.bundle_image, self.data['tempdir'])) finally: if os.path.exists(self.data['tempdir']): shutil.rmtree(self.data['tempdir']) def test_003_can_register_image(self): image_id = self.conn.register_image('%s/%s.manifest.xml' % (TEST_BUCKET, FLAGS.bundle_image)) self.assert_(image_id is not None) self.data['image_id'] = image_id def test_004_can_bundle_kernel(self): self.assertTrue(self.bundle_image(FLAGS.bundle_kernel, kernel=True)) def test_005_can_upload_kernel(self): self.assertTrue(self.upload_image(TEST_BUCKET, FLAGS.bundle_kernel)) def test_006_can_register_kernel(self): kernel_id = self.conn.register_image('%s/%s.manifest.xml' % (TEST_BUCKET, FLAGS.bundle_kernel)) self.assert_(kernel_id is not None) self.data['kernel_id'] = kernel_id def test_007_images_are_available_within_10_seconds(self): for i in xrange(10): image = self.conn.get_image(self.data['image_id']) if image and image.state == 'available': break time.sleep(1) else: self.assert_(False) # wasn't available within 10 seconds self.assert_(image.type == 'machine') for i in xrange(10): kernel = self.conn.get_image(self.data['kernel_id']) if kernel and kernel.state == 'available': break time.sleep(1) else: self.assert_(False) # wasn't available within 10 seconds self.assert_(kernel.type == 'kernel') def test_008_can_describe_image_attribute(self): attrs = self.conn.get_image_attribute(self.data['image_id'], 'launchPermission') self.assert_(attrs.name, 'launch_permission') def test_009_can_add_image_launch_permission(self): image = self.conn.get_image(self.data['image_id']) self.assertEqual(image.id, self.data['image_id']) self.assertEqual(image.is_public, False) self.conn.modify_image_attribute(image_id=self.data['image_id'], operation='add', attribute='launchPermission', groups='all') image = self.conn.get_image(self.data['image_id']) self.assertEqual(image.id, self.data['image_id']) self.assertEqual(image.is_public, True) def test_010_can_see_launch_permission(self): attrs = self.conn.get_image_attribute(self.data['image_id'], 'launchPermission') self.assertEqual(attrs.name, 'launch_permission') self.assertEqual(attrs.attrs['groups'][0], 'all') def test_011_can_remove_image_launch_permission(self): image = self.conn.get_image(self.data['image_id']) self.assertEqual(image.id, self.data['image_id']) self.assertEqual(image.is_public, True) self.conn.modify_image_attribute(image_id=self.data['image_id'], operation='remove', attribute='launchPermission', groups='all') image = self.conn.get_image(self.data['image_id']) self.assertEqual(image.id, self.data['image_id']) self.assertEqual(image.is_public, False) def test_012_private_image_shows_in_list(self): images = self.conn.get_all_images() image_ids = [image.id for image in images] self.assertTrue(self.data['image_id'] in image_ids) def test_013_user_can_deregister_kernel(self): self.assertTrue(self.conn.deregister_image(self.data['kernel_id'])) def test_014_can_deregister_image(self): self.assertTrue(self.conn.deregister_image(self.data['image_id'])) def test_015_can_delete_bundle(self): self.assertTrue(self.delete_bundle_bucket(TEST_BUCKET)) class InstanceTests(base.UserSmokeTestCase): def test_001_can_create_keypair(self): key = self.create_key_pair(self.conn, TEST_KEY) self.assertEqual(key.name, TEST_KEY) def test_002_can_create_instance_with_keypair(self): reservation = self.conn.run_instances(FLAGS.test_image, key_name=TEST_KEY, instance_type='m1.tiny') self.assertEqual(len(reservation.instances), 1) self.data['instance'] = reservation.instances[0] def test_003_instance_runs_within_60_seconds(self): instance = self.data['instance'] # allow 60 seconds to exit pending with IP if not self.wait_for_running(self.data['instance']): self.fail('instance failed to start') self.data['instance'].update() ip = self.data['instance'].private_ip_address self.failIf(ip == '0.0.0.0') if FLAGS.use_ipv6: ipv6 = self.data['instance'].dns_name_v6 self.failIf(ipv6 is None) def test_004_can_ping_private_ip(self): if not self.wait_for_ping(self.data['instance'].private_ip_address): self.fail('could not ping instance') if FLAGS.use_ipv6: if not self.wait_for_ping(self.data['instance'].dns_name_v6, "ping6"): self.fail('could not ping instance v6') def test_005_can_ssh_to_private_ip(self): if not self.wait_for_ssh(self.data['instance'].private_ip_address, TEST_KEY): self.fail('could not ssh to instance') if FLAGS.use_ipv6: if not self.wait_for_ssh(self.data['instance'].dns_name_v6, TEST_KEY): self.fail('could not ssh to instance v6') def test_999_tearDown(self): self.delete_key_pair(self.conn, TEST_KEY) self.conn.terminate_instances([self.data['instance'].id]) class VolumeTests(base.UserSmokeTestCase): def setUp(self): super(VolumeTests, self).setUp() self.device = '/dev/vdb' def test_000_setUp(self): self.create_key_pair(self.conn, TEST_KEY) reservation = self.conn.run_instances(FLAGS.test_image, instance_type='m1.tiny', key_name=TEST_KEY) self.data['instance'] = reservation.instances[0] if not self.wait_for_running(self.data['instance']): self.fail('instance failed to start') self.data['instance'].update() if not self.wait_for_ping(self.data['instance'].private_ip_address): self.fail('could not ping instance') if not self.wait_for_ssh(self.data['instance'].private_ip_address, TEST_KEY): self.fail('could not ssh to instance') def test_001_can_create_volume(self): volume = self.conn.create_volume(1, 'nova') self.assertEqual(volume.size, 1) self.data['volume'] = volume # Give network time to find volume. time.sleep(5) def test_002_can_attach_volume(self): volume = self.data['volume'] for x in xrange(10): volume.update() if volume.status.startswith('available'): break time.sleep(1) else: self.fail('cannot attach volume with state %s' % volume.status) # Give volume some time to be ready. time.sleep(5) volume.attach(self.data['instance'].id, self.device) # wait for x in xrange(10): volume.update() if volume.status.startswith('in-use'): break time.sleep(1) else: self.fail('volume never got to in use') self.assertTrue(volume.status.startswith('in-use')) # Give instance time to recognize volume. time.sleep(5) def test_003_can_mount_volume(self): ip = self.data['instance'].private_ip_address conn = self.connect_ssh(ip, TEST_KEY) # NOTE(vish): this will create a dev for images that don't have # udev rules stdin, stdout, stderr = conn.exec_command( 'grep %s /proc/partitions | ' '`awk \'{print "mknod /dev/"\\$4" b "\\$1" "\\$2}\'`' % self.device.rpartition('/')[2]) exec_list = [] exec_list.append('mkdir -p /mnt/vol') exec_list.append('/sbin/mke2fs %s' % self.device) exec_list.append('mount %s /mnt/vol' % self.device) exec_list.append('echo success') stdin, stdout, stderr = conn.exec_command(' && '.join(exec_list)) out = stdout.read() conn.close() if not out.strip().endswith('success'): self.fail('Unable to mount: %s %s' % (out, stderr.read())) def test_004_can_write_to_volume(self): ip = self.data['instance'].private_ip_address conn = self.connect_ssh(ip, TEST_KEY) # FIXME(devcamcar): This doesn't fail if the volume hasn't been mounted stdin, stdout, stderr = conn.exec_command( 'echo hello > /mnt/vol/test.txt') err = stderr.read() conn.close() if len(err) > 0: self.fail('Unable to write to mount: %s' % (err)) def test_005_volume_is_correct_size(self): ip = self.data['instance'].private_ip_address conn = self.connect_ssh(ip, TEST_KEY) stdin, stdout, stderr = conn.exec_command( "cat /sys/class/block/%s/size" % self.device.rpartition('/')[2]) out = stdout.read().strip() conn.close() # NOTE(vish): 1G bytes / 512 bytes per block expected_size = 1024 * 1024 * 1024 / 512 self.assertEquals('%s' % (expected_size,), out, 'Volume is not the right size: %s %s. Expected: %s' % (out, stderr.read(), expected_size)) def test_006_me_can_umount_volume(self): ip = self.data['instance'].private_ip_address conn = self.connect_ssh(ip, TEST_KEY) stdin, stdout, stderr = conn.exec_command('umount /mnt/vol') err = stderr.read() conn.close() if len(err) > 0: self.fail('Unable to unmount: %s' % (err)) def test_007_me_can_detach_volume(self): result = self.conn.detach_volume(volume_id=self.data['volume'].id) self.assertTrue(result) volume = self.data['volume'] for x in xrange(10): volume.update() if volume.status.startswith('available'): break time.sleep(1) else: self.fail('cannot detach volume. state %s' % volume.status) def test_008_me_can_delete_volume(self): result = self.conn.delete_volume(self.data['volume'].id) self.assertTrue(result) def test_999_tearDown(self): self.conn.terminate_instances([self.data['instance'].id]) self.conn.delete_key_pair(TEST_KEY)