openstack
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tempest
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tempest/tempest/api/compute/servers/test_server_actions.py

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# Copyright 2012 OpenStack Foundation
# 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.
from oslo_log import log as logging
from six.moves.urllib import parse as urlparse
import testtools
from tempest.api.compute import base
from tempest.common import compute
from tempest.common.utils import data_utils
from tempest.common.utils.linux import remote_client
from tempest.common import waiters
from tempest import config
from tempest.lib import decorators
from tempest.lib import exceptions as lib_exc
from tempest import test
CONF = config.CONF
LOG = logging.getLogger(__name__)
class ServerActionsTestJSON(base.BaseV2ComputeTest):
run_ssh = CONF.validation.run_validation
def setUp(self):
# NOTE(afazekas): Normally we use the same server with all test cases,
# but if it has an issue, we build a new one
super(ServerActionsTestJSON, self).setUp()
# Check if the server is in a clean state after test
try:
waiters.wait_for_server_status(self.client,
self.server_id, 'ACTIVE')
except lib_exc.NotFound:
# The server was deleted by previous test, create a new one
server = self.create_test_server(
validatable=True,
wait_until='ACTIVE')
self.__class__.server_id = server['id']
except Exception:
# Rebuild server if something happened to it during a test
self.__class__.server_id = self.rebuild_server(
self.server_id, validatable=True)
def tearDown(self):
self.server_check_teardown()
super(ServerActionsTestJSON, self).tearDown()
@classmethod
def setup_credentials(cls):
cls.prepare_instance_network()
super(ServerActionsTestJSON, cls).setup_credentials()
@classmethod
def setup_clients(cls):
super(ServerActionsTestJSON, cls).setup_clients()
cls.client = cls.servers_client
@classmethod
def resource_setup(cls):
cls.set_validation_resources()
super(ServerActionsTestJSON, cls).resource_setup()
cls.server_id = cls.rebuild_server(None, validatable=True)
@test.idempotent_id('6158df09-4b82-4ab3-af6d-29cf36af858d')
@testtools.skipUnless(CONF.compute_feature_enabled.change_password,
'Change password not available.')
def test_change_server_password(self):
# Since this test messes with the password and makes the
# server unreachable, it should create its own server
newserver = self.create_test_server(
validatable=True,
wait_until='ACTIVE')
# The server's password should be set to the provided password
new_password = 'Newpass1234'
self.client.change_password(newserver['id'], adminPass=new_password)
waiters.wait_for_server_status(self.client, newserver['id'], 'ACTIVE')
if CONF.validation.run_validation:
# Verify that the user can authenticate with the new password
server = self.client.show_server(newserver['id'])['server']
linux_client = remote_client.RemoteClient(
self.get_server_ip(server),
self.ssh_user,
new_password,
server=server,
servers_client=self.client)
linux_client.validate_authentication()
def _test_reboot_server(self, reboot_type):
if CONF.validation.run_validation:
# Get the time the server was last rebooted,
server = self.client.show_server(self.server_id)['server']
linux_client = remote_client.RemoteClient(
self.get_server_ip(server),
self.ssh_user,
self.password,
self.validation_resources['keypair']['private_key'],
server=server,
servers_client=self.client)
boot_time = linux_client.get_boot_time()
# NOTE: This sync is for avoiding the loss of pub key data
# in a server
linux_client.exec_command("sync")
self.client.reboot_server(self.server_id, type=reboot_type)
waiters.wait_for_server_status(self.client, self.server_id, 'ACTIVE')
if CONF.validation.run_validation:
# Log in and verify the boot time has changed
linux_client = remote_client.RemoteClient(
self.get_server_ip(server),
self.ssh_user,
self.password,
self.validation_resources['keypair']['private_key'],
server=server,
servers_client=self.client)
new_boot_time = linux_client.get_boot_time()
self.assertGreater(new_boot_time, boot_time,
'%s > %s' % (new_boot_time, boot_time))
@test.attr(type='smoke')
@test.idempotent_id('2cb1baf6-ac8d-4429-bf0d-ba8a0ba53e32')
def test_reboot_server_hard(self):
# The server should be power cycled
self._test_reboot_server('HARD')
@decorators.skip_because(bug="1014647")
@test.idempotent_id('4640e3ef-a5df-482e-95a1-ceeeb0faa84d')
def test_reboot_server_soft(self):
# The server should be signaled to reboot gracefully
self._test_reboot_server('SOFT')
def _rebuild_server_and_check(self, image_ref):
rebuilt_server = (self.client.rebuild_server(self.server_id, image_ref)
['server'])
waiters.wait_for_server_status(self.client, self.server_id, 'ACTIVE')
msg = ('Server was not rebuilt to the original image. '
'The original image: {0}. The current image: {1}'
.format(image_ref, rebuilt_server['image']['id']))
self.assertEqual(image_ref, rebuilt_server['image']['id'], msg)
@test.idempotent_id('aaa6cdf3-55a7-461a-add9-1c8596b9a07c')
def test_rebuild_server(self):
# The server should be rebuilt using the provided image and data
meta = {'rebuild': 'server'}
new_name = data_utils.rand_name(self.__class__.__name__ + '-server')
password = 'rebuildPassw0rd'
rebuilt_server = self.client.rebuild_server(
self.server_id,
self.image_ref_alt,
name=new_name,
metadata=meta,
adminPass=password)['server']
# If the server was rebuilt on a different image, restore it to the
# original image once the test ends
if self.image_ref_alt != self.image_ref:
self.addCleanup(self._rebuild_server_and_check, self.image_ref)
# Verify the properties in the initial response are correct
self.assertEqual(self.server_id, rebuilt_server['id'])
rebuilt_image_id = rebuilt_server['image']['id']
self.assertTrue(self.image_ref_alt.endswith(rebuilt_image_id))
self.assertEqual(self.flavor_ref, rebuilt_server['flavor']['id'])
# Verify the server properties after the rebuild completes
waiters.wait_for_server_status(self.client,
rebuilt_server['id'], 'ACTIVE')
server = self.client.show_server(rebuilt_server['id'])['server']
rebuilt_image_id = server['image']['id']
self.assertTrue(self.image_ref_alt.endswith(rebuilt_image_id))
self.assertEqual(new_name, server['name'])
if CONF.validation.run_validation:
# Authentication is attempted in the following order of priority:
# 1.The key passed in, if one was passed in.
# 2.Any key we can find through an SSH agent (if allowed).
# 3.Any "id_rsa", "id_dsa" or "id_ecdsa" key discoverable in
# ~/.ssh/ (if allowed).
# 4.Plain username/password auth, if a password was given.
linux_client = remote_client.RemoteClient(
self.get_server_ip(rebuilt_server),
self.ssh_user,
password,
self.validation_resources['keypair']['private_key'],
server=rebuilt_server,
servers_client=self.client)
linux_client.validate_authentication()
@test.idempotent_id('30449a88-5aff-4f9b-9866-6ee9b17f906d')
def test_rebuild_server_in_stop_state(self):
# The server in stop state should be rebuilt using the provided
# image and remain in SHUTOFF state
server = self.client.show_server(self.server_id)['server']
old_image = server['image']['id']
new_image = (self.image_ref_alt
if old_image == self.image_ref else self.image_ref)
self.client.stop_server(self.server_id)
waiters.wait_for_server_status(self.client, self.server_id, 'SHUTOFF')
rebuilt_server = (self.client.rebuild_server(self.server_id, new_image)
['server'])
# If the server was rebuilt on a different image, restore it to the
# original image once the test ends
if self.image_ref_alt != self.image_ref:
self.addCleanup(self._rebuild_server_and_check, old_image)
# Verify the properties in the initial response are correct
self.assertEqual(self.server_id, rebuilt_server['id'])
rebuilt_image_id = rebuilt_server['image']['id']
self.assertEqual(new_image, rebuilt_image_id)
self.assertEqual(self.flavor_ref, rebuilt_server['flavor']['id'])
# Verify the server properties after the rebuild completes
waiters.wait_for_server_status(self.client,
rebuilt_server['id'], 'SHUTOFF')
server = self.client.show_server(rebuilt_server['id'])['server']
rebuilt_image_id = server['image']['id']
self.assertEqual(new_image, rebuilt_image_id)
self.client.start_server(self.server_id)
@test.idempotent_id('b68bd8d6-855d-4212-b59b-2e704044dace')
@test.services('volume')
def test_rebuild_server_with_volume_attached(self):
# create a new volume and attach it to the server
volume = self.create_volume()
server = self.client.show_server(self.server_id)['server']
self.attach_volume(server, volume)
# run general rebuild test
self.test_rebuild_server()
# make sure the volume is attached to the instance after rebuild
vol_after_rebuild = self.volumes_client.show_volume(volume['id'])
vol_after_rebuild = vol_after_rebuild['volume']
self.assertEqual('in-use', vol_after_rebuild['status'])
self.assertEqual(self.server_id,
vol_after_rebuild['attachments'][0]['server_id'])
def _test_resize_server_confirm(self, stop=False):
# The server's RAM and disk space should be modified to that of
# the provided flavor
if stop:
self.client.stop_server(self.server_id)
waiters.wait_for_server_status(self.client, self.server_id,
'SHUTOFF')
self.client.resize_server(self.server_id, self.flavor_ref_alt)
# NOTE(jlk): Explicitly delete the server to get a new one for later
# tests. Avoids resize down race issues.
self.addCleanup(self.delete_server, self.server_id)
waiters.wait_for_server_status(self.client, self.server_id,
'VERIFY_RESIZE')
self.client.confirm_resize_server(self.server_id)
expected_status = 'SHUTOFF' if stop else 'ACTIVE'
waiters.wait_for_server_status(self.client, self.server_id,
expected_status)
server = self.client.show_server(self.server_id)['server']
self.assertEqual(self.flavor_ref_alt, server['flavor']['id'])
if stop:
# NOTE(mriedem): tearDown requires the server to be started.
self.client.start_server(self.server_id)
@test.idempotent_id('1499262a-9328-4eda-9068-db1ac57498d2')
@testtools.skipUnless(CONF.compute_feature_enabled.resize,
'Resize not available.')
def test_resize_server_confirm(self):
self._test_resize_server_confirm(stop=False)
@test.idempotent_id('138b131d-66df-48c9-a171-64f45eb92962')
@testtools.skipUnless(CONF.compute_feature_enabled.resize,
'Resize not available.')
def test_resize_server_confirm_from_stopped(self):
self._test_resize_server_confirm(stop=True)
@test.idempotent_id('c03aab19-adb1-44f5-917d-c419577e9e68')
@testtools.skipUnless(CONF.compute_feature_enabled.resize,
'Resize not available.')
def test_resize_server_revert(self):
# The server's RAM and disk space should return to its original
# values after a resize is reverted
self.client.resize_server(self.server_id, self.flavor_ref_alt)
# NOTE(zhufl): Explicitly delete the server to get a new one for later
# tests. Avoids resize down race issues.
self.addCleanup(self.delete_server, self.server_id)
waiters.wait_for_server_status(self.client, self.server_id,
'VERIFY_RESIZE')
self.client.revert_resize_server(self.server_id)
waiters.wait_for_server_status(self.client, self.server_id, 'ACTIVE')
server = self.client.show_server(self.server_id)['server']
self.assertEqual(self.flavor_ref, server['flavor']['id'])
@test.idempotent_id('b963d4f1-94b3-4c40-9e97-7b583f46e470')
@testtools.skipUnless(CONF.compute_feature_enabled.snapshot,
'Snapshotting not available, backup not possible.')
@test.services('image')
def test_create_backup(self):
# Positive test:create backup successfully and rotate backups correctly
# create the first and the second backup
# Check if glance v1 is available to determine which client to use. We
# prefer glance v1 for the compute API tests since the compute image
# API proxy was written for glance v1.
if CONF.image_feature_enabled.api_v1:
glance_client = self.os.image_client
elif CONF.image_feature_enabled.api_v2:
glance_client = self.os.image_client_v2
else:
raise lib_exc.InvalidConfiguration(
'Either api_v1 or api_v2 must be True in '
'[image-feature-enabled].')
backup1 = data_utils.rand_name('backup-1')
resp = self.client.create_backup(self.server_id,
backup_type='daily',
rotation=2,
name=backup1).response
oldest_backup_exist = True
# the oldest one should be deleted automatically in this test
def _clean_oldest_backup(oldest_backup):
if oldest_backup_exist:
try:
glance_client.delete_image(oldest_backup)
except lib_exc.NotFound:
pass
else:
LOG.warning("Deletion of oldest backup %s should not have "
"been successful as it should have been "
"deleted during rotation." % oldest_backup)
image1_id = data_utils.parse_image_id(resp['location'])
self.addCleanup(_clean_oldest_backup, image1_id)
waiters.wait_for_image_status(glance_client,
image1_id, 'active')
backup2 = data_utils.rand_name('backup-2')
waiters.wait_for_server_status(self.client, self.server_id, 'ACTIVE')
resp = self.client.create_backup(self.server_id,
backup_type='daily',
rotation=2,
name=backup2).response
image2_id = data_utils.parse_image_id(resp['location'])
self.addCleanup(glance_client.delete_image, image2_id)
waiters.wait_for_image_status(glance_client,
image2_id, 'active')
# verify they have been created
properties = {
'image_type': 'backup',
'backup_type': "daily",
'instance_uuid': self.server_id,
}
params = {
'status': 'active',
'sort_key': 'created_at',
'sort_dir': 'asc'
}
if CONF.image_feature_enabled.api_v1:
for key, value in properties.items():
params['property-%s' % key] = value
image_list = glance_client.list_images(
detail=True,
**params)['images']
else:
# Additional properties are flattened in glance v2.
params.update(properties)
image_list = glance_client.list_images(params)['images']
self.assertEqual(2, len(image_list))
self.assertEqual((backup1, backup2),
(image_list[0]['name'], image_list[1]['name']))
# create the third one, due to the rotation is 2,
# the first one will be deleted
backup3 = data_utils.rand_name('backup-3')
waiters.wait_for_server_status(self.client, self.server_id, 'ACTIVE')
resp = self.client.create_backup(self.server_id,
backup_type='daily',
rotation=2,
name=backup3).response
image3_id = data_utils.parse_image_id(resp['location'])
self.addCleanup(glance_client.delete_image, image3_id)
# the first back up should be deleted
waiters.wait_for_server_status(self.client, self.server_id, 'ACTIVE')
glance_client.wait_for_resource_deletion(image1_id)
oldest_backup_exist = False
if CONF.image_feature_enabled.api_v1:
image_list = glance_client.list_images(
detail=True, **params)['images']
else:
image_list = glance_client.list_images(params)['images']
self.assertEqual(2, len(image_list),
'Unexpected number of images for '
'v2:test_create_backup; was the oldest backup not '
'yet deleted? Image list: %s' %
[image['name'] for image in image_list])
self.assertEqual((backup2, backup3),
(image_list[0]['name'], image_list[1]['name']))
def _get_output(self):
output = self.client.get_console_output(
self.server_id, length=10)['output']
self.assertTrue(output, "Console output was empty.")
lines = len(output.split('\n'))
self.assertEqual(lines, 10)
@test.idempotent_id('4b8867e6-fffa-4d54-b1d1-6fdda57be2f3')
@testtools.skipUnless(CONF.compute_feature_enabled.console_output,
'Console output not supported.')
def test_get_console_output(self):
# Positive test:Should be able to GET the console output
# for a given server_id and number of lines
# This reboot is necessary for outputting some console log after
# creating an instance backup. If an instance backup, the console
# log file is truncated and we cannot get any console log through
# "console-log" API.
# The detail is https://bugs.launchpad.net/nova/+bug/1251920
self.client.reboot_server(self.server_id, type='HARD')
waiters.wait_for_server_status(self.client, self.server_id, 'ACTIVE')
self.wait_for(self._get_output)
@test.idempotent_id('89104062-69d8-4b19-a71b-f47b7af093d7')
@testtools.skipUnless(CONF.compute_feature_enabled.console_output,
'Console output not supported.')
def test_get_console_output_with_unlimited_size(self):
server = self.create_test_server(wait_until='ACTIVE')
def _check_full_length_console_log():
output = self.client.get_console_output(server['id'])['output']
self.assertTrue(output, "Console output was empty.")
lines = len(output.split('\n'))
# NOTE: This test tries to get full length console log, and the
# length should be bigger than the one of test_get_console_output.
self.assertGreater(lines, 10, "Cannot get enough console log "
"length. (lines: %s)" % lines)
self.wait_for(_check_full_length_console_log)
@test.idempotent_id('5b65d4e7-4ecd-437c-83c0-d6b79d927568')
@testtools.skipUnless(CONF.compute_feature_enabled.console_output,
'Console output not supported.')
def test_get_console_output_server_id_in_shutoff_status(self):
# Positive test:Should be able to GET the console output
# for a given server_id in SHUTOFF status
# NOTE: SHUTOFF is irregular status. To avoid test instability,
# one server is created only for this test without using
# the server that was created in setupClass.
server = self.create_test_server(wait_until='ACTIVE')
temp_server_id = server['id']
self.client.stop_server(temp_server_id)
waiters.wait_for_server_status(self.client, temp_server_id, 'SHUTOFF')
self.wait_for(self._get_output)
@test.idempotent_id('bd61a9fd-062f-4670-972b-2d6c3e3b9e73')
@testtools.skipUnless(CONF.compute_feature_enabled.pause,
'Pause is not available.')
def test_pause_unpause_server(self):
self.client.pause_server(self.server_id)
waiters.wait_for_server_status(self.client, self.server_id, 'PAUSED')
self.client.unpause_server(self.server_id)
waiters.wait_for_server_status(self.client, self.server_id, 'ACTIVE')
@test.idempotent_id('0d8ee21e-b749-462d-83da-b85b41c86c7f')
@testtools.skipUnless(CONF.compute_feature_enabled.suspend,
'Suspend is not available.')
def test_suspend_resume_server(self):
self.client.suspend_server(self.server_id)
waiters.wait_for_server_status(self.client, self.server_id,
'SUSPENDED')
self.client.resume_server(self.server_id)
waiters.wait_for_server_status(self.client, self.server_id, 'ACTIVE')
@test.idempotent_id('77eba8e0-036e-4635-944b-f7a8f3b78dc9')
@testtools.skipUnless(CONF.compute_feature_enabled.shelve,
'Shelve is not available.')
def test_shelve_unshelve_server(self):
compute.shelve_server(self.client, self.server_id,
force_shelve_offload=True)
server = self.client.show_server(self.server_id)['server']
image_name = server['name'] + '-shelved'
params = {'name': image_name}
images = self.compute_images_client.list_images(**params)['images']
self.assertEqual(1, len(images))
self.assertEqual(image_name, images[0]['name'])
self.client.unshelve_server(self.server_id)
waiters.wait_for_server_status(self.client, self.server_id, 'ACTIVE')
@test.idempotent_id('af8eafd4-38a7-4a4b-bdbc-75145a580560')
def test_stop_start_server(self):
self.client.stop_server(self.server_id)
waiters.wait_for_server_status(self.client, self.server_id, 'SHUTOFF')
self.client.start_server(self.server_id)
waiters.wait_for_server_status(self.client, self.server_id, 'ACTIVE')
@test.idempotent_id('80a8094c-211e-440a-ab88-9e59d556c7ee')
def test_lock_unlock_server(self):
# Lock the server,try server stop(exceptions throw),unlock it and retry
self.client.lock_server(self.server_id)
self.addCleanup(self.client.unlock_server, self.server_id)
server = self.client.show_server(self.server_id)['server']
self.assertEqual(server['status'], 'ACTIVE')
# Locked server is not allowed to be stopped by non-admin user
self.assertRaises(lib_exc.Conflict,
self.client.stop_server, self.server_id)
self.client.unlock_server(self.server_id)
self.client.stop_server(self.server_id)
waiters.wait_for_server_status(self.client, self.server_id, 'SHUTOFF')
self.client.start_server(self.server_id)
waiters.wait_for_server_status(self.client, self.server_id, 'ACTIVE')
def _validate_url(self, url):
valid_scheme = ['http', 'https']
parsed_url = urlparse.urlparse(url)
self.assertNotEqual('None', parsed_url.port)
self.assertNotEqual('None', parsed_url.hostname)
self.assertIn(parsed_url.scheme, valid_scheme)
@test.idempotent_id('c6bc11bf-592e-4015-9319-1c98dc64daf5')
@testtools.skipUnless(CONF.compute_feature_enabled.vnc_console,
'VNC Console feature is disabled.')
def test_get_vnc_console(self):
# Get the VNC console of type 'novnc' and 'xvpvnc'
console_types = ['novnc', 'xvpvnc']
for console_type in console_types:
body = self.client.get_vnc_console(self.server_id,
type=console_type)['console']
self.assertEqual(console_type, body['type'])
self.assertNotEqual('', body['url'])
self._validate_url(body['url'])
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