def setUp(self):
if CLEAN:
self.ci().get_empty_state()
self.client = NailgunClient(self.get_admin_node_ip())
def setUp(self):
if CLEAN:
self.ci().get_empty_state()
self.client = NailgunClient(self.get_admin_node_ip())
class BaseNodeTestCase(BaseTestCase):
def setUp(self):
if CLEAN:
self.ci().get_empty_state()
self.client = NailgunClient(self.get_admin_node_ip())
@logwrap
def get_interface_description(self, ctrl_ssh, interface_short_name):
return ''.join(
ctrl_ssh.execute(
'/sbin/ip addr show dev %s' % interface_short_name
)['stdout']
)
def assertNetworkConfiguration(self, node):
remote = SSHClient(node['ip'], username='******', password='******',
private_keys=self.get_private_keys())
for interface in node['network_data']:
if interface.get('vlan') is None:
continue # todo excess check fix interface json format
interface_name = "%s.%s@%s" % (
interface['dev'], interface['vlan'], interface['dev'])
interface_short_name = "%s.%s" % (
interface['dev'], interface['vlan'])
interface_description = self.get_interface_description(
remote, interface_short_name)
self.assertIn(interface_name, interface_description)
if interface.get('name') == 'floating':
continue
if interface.get('ip'):
self.assertIn("inet %s" % interface.get('ip'),
interface_description)
else:
self.assertNotIn("inet ", interface_description)
if interface.get('brd'):
self.assertIn("brd %s" % interface['brd'],
interface_description)
@logwrap
def is_node_discovered(self, nailgun_node):
return any(
map(lambda node: node['mac'] == nailgun_node['mac']
and node['status'] == 'discover', self.client.list_nodes()))
@logwrap
def get_target_devs(self, devops_nodes):
return [
interface.target_dev for interface in [
val for var in map(lambda node: node.interfaces, devops_nodes)
for val in var]]
@logwrap
def get_ebtables(self, cluster_id, devops_nodes):
return Ebtables(
self.get_target_devs(devops_nodes),
self.client._get_cluster_vlans(cluster_id))
@logwrap
def _get_common_vlan(self, cluster_id):
"""Find vlan that must be at all two nodes.
"""
return self.client.get_networks(
cluster_id)['networks'][0]['vlan_start']
@logwrap
def _run_network_verify(self, cluster_id):
return self.client.verify_networks(
cluster_id, self.client.get_networks(cluster_id)['networks'])
@logwrap
def check_role_file(self, nodes_dict):
for node, role in self.get_nailgun_node_roles(nodes_dict):
remote = SSHClient(
node['ip'], username='******', password='******',
private_keys=self.get_private_keys())
if role != "cinder":
self.assertTrue(remote.isfile('/tmp/%s-file' % role))
@logwrap
def clean_clusters(self):
self.client.clean_clusters()
@logwrap
def _basic_provisioning(self, cluster_id, nodes_dict, port=5514):
self.client.add_syslog_server(
cluster_id, self.ci().get_host_node_ip(), port)
# update cluster deployment mode
node_names = []
for role in nodes_dict:
node_names += nodes_dict[role]
if len(node_names) > 1:
controller_amount = len(nodes_dict.get('controller', []))
if controller_amount == 1:
self.client.update_cluster(
cluster_id,
{"mode": "multinode"})
if controller_amount > 1:
self.client.update_cluster(cluster_id, {"mode": "ha"})
self.bootstrap_nodes(self.devops_nodes_by_names(node_names))
# update nodes in cluster
self.update_nodes(cluster_id, nodes_dict, True, False)
task = self.deploy_cluster(cluster_id)
self.assertTaskSuccess(task)
self.check_role_file(nodes_dict)
return cluster_id
@logwrap
def get_nailgun_node_roles(self, nodes_dict):
nailgun_node_roles = []
for role in nodes_dict:
for node_name in nodes_dict[role]:
slave = self.ci().environment().node_by_name(node_name)
node = self.get_node_by_devops_node(slave)
nailgun_node_roles.append((node, role))
return nailgun_node_roles
@logwrap
def deploy_cluster(self, cluster_id):
"""Return hash with task description."""
return self.client.deploy_cluster_changes(cluster_id)
@logwrap
def assertTaskSuccess(self, task, timeout=90 * 60):
self.assertEquals('ready', self._task_wait(task, timeout)['status'])
@logwrap
def assertTaskFailed(self, task, timeout=70 * 60):
self.assertEquals('error', self._task_wait(task, timeout)['status'])
@logwrap
def _task_wait(self, task, timeout):
wait(
lambda: self.client.get_task(
task['id'])['status'] != 'running',
timeout=timeout)
return self.client.get_task(task['id'])
@logwrap
def _upload_sample_release(self):
release_id = self.client.get_grizzly_release_id()
if not release_id:
raise Exception("Not implemented uploading of release")
return release_id
@logwrap
def get_or_create_cluster(self, name, release_id):
if not release_id:
release_id = self._upload_sample_release()
cluster_id = self.client.get_cluster_id(name)
if not cluster_id:
self.client.create_cluster(
data={"name": name, "release": str(release_id)}
)
cluster_id = self.client.get_cluster_id(name)
if not cluster_id:
raise Exception("Could not get cluster '%s'" % name)
return cluster_id
@logwrap
def create_cluster(self, name='default', release_id=None):
"""
:param name:
:param release_id:
:return: cluster_id
"""
return self.get_or_create_cluster(name, release_id)
@logwrap
def update_nodes(self, cluster_id, nodes_dict,
pending_addition=True, pending_deletion=False):
# update nodes in cluster
nodes_data = []
for role in nodes_dict:
for node_name in nodes_dict[role]:
slave = self.ci().environment().node_by_name(node_name)
node = self.get_node_by_devops_node(slave)
node_data = {'cluster_id': cluster_id, 'id': node['id'],
'pending_addition': pending_addition,
'pending_deletion': pending_deletion,
'role': role}
nodes_data.append(node_data)
# assume nodes are going to be updated for one cluster only
cluster_id = nodes_data[-1]['cluster_id']
node_ids = [str(node_info['id']) for node_info in nodes_data]
self.client.update_nodes(nodes_data)
nailgun_nodes = self.client.list_cluster_nodes(cluster_id)
cluster_node_ids = map(lambda node: str(node['id']), nailgun_nodes)
self.assertTrue(
all([node_id in cluster_node_ids for node_id in node_ids]))
return nailgun_nodes
@logwrap
def get_node_by_devops_node(self, devops_node):
"""Returns dict with nailgun slave node description if node is
registered. Otherwise return None.
"""
mac_addresses = map(
lambda interface: interface.mac_address.capitalize(),
devops_node.interfaces)
for nailgun_node in self.client.list_nodes():
if nailgun_node['mac'].capitalize() in mac_addresses:
nailgun_node['devops_name'] = devops_node.name
return nailgun_node
return None
def nailgun_nodes(self, devops_nodes):
return map(lambda node: self.get_node_by_devops_node(node),
devops_nodes)
def devops_nodes_by_names(self, devops_node_names):
return map(lambda name: self.ci().environment().node_by_name(name),
devops_node_names)
@logwrap
def bootstrap_nodes(self, devops_nodes, timeout=600):
"""Start vms and wait they are registered on nailgun.
:rtype : List of registred nailgun nodes
"""
for node in devops_nodes:
node.start()
wait(lambda: all(self.nailgun_nodes(devops_nodes)), 15, timeout)
return self.nailgun_nodes(devops_nodes)
@logwrap
def assert_service_list(self, remote, smiles_count):
ret = remote.check_call('/usr/bin/nova-manage service list')
self.assertEqual(
smiles_count, ''.join(ret['stdout']).count(":-)"), "Smiles count")
self.assertEqual(
0, ''.join(ret['stdout']).count("XXX"), "Broken services count")
@logwrap
def assert_node_service_list(self, node_name, smiles_count):
ip = self.get_node_by_devops_node(
self.ci().environment().node_by_name(node_name))['ip']
remote = SSHClient(ip, username='******', password='******',
private_keys=self.get_private_keys())
return self.assert_service_list(remote, smiles_count)
@logwrap
def assert_glance_index(self, ctrl_ssh):
ret = ctrl_ssh.check_call('. /root/openrc; glance index')
self.assertEqual(1, ''.join(ret['stdout']).count("TestVM"))
@logwrap
def assert_network_list(self, networks_count, remote):
ret = remote.check_call('/usr/bin/nova-manage network list')
self.assertEqual(networks_count + 1, len(ret['stdout']))
@logwrap
def assertClusterReady(self, node_name, smiles_count,
networks_count=1, timeout=300):
_wait(
lambda: self.get_cluster_status(
self.get_node_by_devops_node(
self.ci().environment().node_by_name(node_name))['ip'],
smiles_count=smiles_count,
networks_count=networks_count),
timeout=timeout)
@logwrap
def get_cluster_status(self, ip, smiles_count, networks_count=1):
remote = SSHClient(ip, username='******', password='******',
private_keys=self.get_private_keys())
self.assert_service_list(remote, smiles_count)
self.assert_glance_index(remote)
self.assert_network_list(networks_count, remote)
@logwrap
def get_cluster_floating_list(self, ip):
remote = SSHClient(ip, username='******', password='******',
private_keys=self.get_private_keys())
ret = remote.check_call('/usr/bin/nova-manage floating list')
ret_str = ''.join(ret['stdout'])
return re.findall('(\d{1,3}\.\d{1,3}\.\d{1,3}\.\d{1,3})', ret_str)
@logwrap
def assert_cluster_floating_list(self, node_name, expected_ips):
ip = self.get_node_by_devops_node(
self.ci().environment().node_by_name(node_name))['ip']
current_ips = self.get_cluster_floating_list(ip)
self.assertEqual(set(expected_ips), set(current_ips))
@logwrap
def get_private_keys(self):
keys = []
for key_string in ['/root/.ssh/id_rsa', '/root/.ssh/bootstrap.rsa']:
with self.remote().open(key_string) as f:
keys.append(RSAKey.from_private_key(f))
return keys
@logwrap
def update_vlan_network_fixed(
self, cluster_id, amount=1, network_size=256):
network_list = self.client.get_networks(cluster_id)['networks']
for network in network_list:
if network["name"] == 'fixed':
network['amount'] = amount
network['network_size'] = network_size
self.client.update_network(
cluster_id,
networks=network_list,
net_manager=NETWORK_MANAGERS['vlan'])
class BaseNodeTestCase(BaseTestCase):
def setUp(self):
if CLEAN:
self.ci().get_empty_state()
self.client = NailgunClient(self.get_admin_node_ip())
@logwrap
def get_interface_description(self, ctrl_ssh, interface_short_name):
return ''.join(
ctrl_ssh.execute('/sbin/ip addr show dev %s' %
interface_short_name)['stdout'])
def assertNetworkConfiguration(self, node):
remote = SSHClient(node['ip'],
username='******',
password='******',
private_keys=self.get_private_keys())
for interface in node['network_data']:
if interface.get('vlan') is None:
continue # todo excess check fix interface json format
interface_name = "%s.%s@%s" % (interface['dev'], interface['vlan'],
interface['dev'])
interface_short_name = "%s.%s" % (interface['dev'],
interface['vlan'])
interface_description = self.get_interface_description(
remote, interface_short_name)
self.assertIn(interface_name, interface_description)
if interface.get('name') == 'floating':
continue
if interface.get('ip'):
self.assertIn("inet %s" % interface.get('ip'),
interface_description)
else:
self.assertNotIn("inet ", interface_description)
if interface.get('brd'):
self.assertIn("brd %s" % interface['brd'],
interface_description)
@logwrap
def is_node_discovered(self, nailgun_node):
return any(
map(
lambda node: node['mac'] == nailgun_node['mac'] and node[
'status'] == 'discover', self.client.list_nodes()))
@logwrap
def get_target_devs(self, devops_nodes):
return [
interface.target_dev for interface in [
val for var in map(lambda node: node.interfaces, devops_nodes)
for val in var
]
]
@logwrap
def get_ebtables(self, cluster_id, devops_nodes):
return Ebtables(self.get_target_devs(devops_nodes),
self.client._get_cluster_vlans(cluster_id))
@logwrap
def _get_common_vlan(self, cluster_id):
"""Find vlan that must be at all two nodes.
"""
return self.client.get_networks(
cluster_id)['networks'][0]['vlan_start']
@logwrap
def _run_network_verify(self, cluster_id):
return self.client.verify_networks(
cluster_id,
self.client.get_networks(cluster_id)['networks'])
@logwrap
def check_role_file(self, nodes_dict):
for node, role in self.get_nailgun_node_roles(nodes_dict):
remote = SSHClient(node['ip'],
username='******',
password='******',
private_keys=self.get_private_keys())
if role != "cinder":
self.assertTrue(remote.isfile('/tmp/%s-file' % role))
@logwrap
def clean_clusters(self):
self.client.clean_clusters()
@logwrap
def _basic_provisioning(self, cluster_id, nodes_dict, port=5514):
self.client.add_syslog_server(cluster_id,
self.ci().get_host_node_ip(), port)
# update cluster deployment mode
node_names = []
for role in nodes_dict:
node_names += nodes_dict[role]
if len(node_names) > 1:
controller_amount = len(nodes_dict.get('controller', []))
if controller_amount == 1:
self.client.update_cluster(cluster_id, {"mode": "multinode"})
if controller_amount > 1:
self.client.update_cluster(cluster_id, {"mode": "ha"})
self.bootstrap_nodes(self.devops_nodes_by_names(node_names))
# update nodes in cluster
self.update_nodes(cluster_id, nodes_dict, True, False)
task = self.deploy_cluster(cluster_id)
self.assertTaskSuccess(task)
self.check_role_file(nodes_dict)
return cluster_id
@logwrap
def get_nailgun_node_roles(self, nodes_dict):
nailgun_node_roles = []
for role in nodes_dict:
for node_name in nodes_dict[role]:
slave = self.ci().environment().node_by_name(node_name)
node = self.get_node_by_devops_node(slave)
nailgun_node_roles.append((node, role))
return nailgun_node_roles
@logwrap
def deploy_cluster(self, cluster_id):
"""Return hash with task description."""
return self.client.deploy_cluster_changes(cluster_id)
@logwrap
def assertTaskSuccess(self, task, timeout=90 * 60):
self.assertEquals('ready', self._task_wait(task, timeout)['status'])
@logwrap
def assertTaskFailed(self, task, timeout=70 * 60):
self.assertEquals('error', self._task_wait(task, timeout)['status'])
@logwrap
def _task_wait(self, task, timeout):
wait(lambda: self.client.get_task(task['id'])['status'] != 'running',
timeout=timeout)
return self.client.get_task(task['id'])
@logwrap
def _upload_sample_release(self):
release_id = self.client.get_grizzly_release_id()
if not release_id:
raise Exception("Not implemented uploading of release")
return release_id
@logwrap
def get_or_create_cluster(self, name, release_id):
if not release_id:
release_id = self._upload_sample_release()
cluster_id = self.client.get_cluster_id(name)
if not cluster_id:
self.client.create_cluster(data={
"name": name,
"release": str(release_id)
})
cluster_id = self.client.get_cluster_id(name)
if not cluster_id:
raise Exception("Could not get cluster '%s'" % name)
return cluster_id
@logwrap
def create_cluster(self, name='default', release_id=None):
"""
:param name:
:param release_id:
:return: cluster_id
"""
return self.get_or_create_cluster(name, release_id)
@logwrap
def update_nodes(self,
cluster_id,
nodes_dict,
pending_addition=True,
pending_deletion=False):
# update nodes in cluster
nodes_data = []
for role in nodes_dict:
for node_name in nodes_dict[role]:
slave = self.ci().environment().node_by_name(node_name)
node = self.get_node_by_devops_node(slave)
node_data = {
'cluster_id': cluster_id,
'id': node['id'],
'pending_addition': pending_addition,
'pending_deletion': pending_deletion,
'role': role
}
nodes_data.append(node_data)
# assume nodes are going to be updated for one cluster only
cluster_id = nodes_data[-1]['cluster_id']
node_ids = [str(node_info['id']) for node_info in nodes_data]
self.client.update_nodes(nodes_data)
nailgun_nodes = self.client.list_cluster_nodes(cluster_id)
cluster_node_ids = map(lambda node: str(node['id']), nailgun_nodes)
self.assertTrue(
all([node_id in cluster_node_ids for node_id in node_ids]))
return nailgun_nodes
@logwrap
def get_node_by_devops_node(self, devops_node):
"""Returns dict with nailgun slave node description if node is
registered. Otherwise return None.
"""
mac_addresses = map(
lambda interface: interface.mac_address.capitalize(),
devops_node.interfaces)
for nailgun_node in self.client.list_nodes():
if nailgun_node['mac'].capitalize() in mac_addresses:
nailgun_node['devops_name'] = devops_node.name
return nailgun_node
return None
def nailgun_nodes(self, devops_nodes):
return map(lambda node: self.get_node_by_devops_node(node),
devops_nodes)
def devops_nodes_by_names(self, devops_node_names):
return map(lambda name: self.ci().environment().node_by_name(name),
devops_node_names)
@logwrap
def bootstrap_nodes(self, devops_nodes, timeout=600):
"""Start vms and wait they are registered on nailgun.
:rtype : List of registred nailgun nodes
"""
for node in devops_nodes:
node.start()
wait(lambda: all(self.nailgun_nodes(devops_nodes)), 15, timeout)
return self.nailgun_nodes(devops_nodes)
@logwrap
def assert_service_list(self, remote, smiles_count):
ret = remote.check_call('/usr/bin/nova-manage service list')
self.assertEqual(smiles_count, ''.join(ret['stdout']).count(":-)"),
"Smiles count")
self.assertEqual(0, ''.join(ret['stdout']).count("XXX"),
"Broken services count")
@logwrap
def assert_node_service_list(self, node_name, smiles_count):
ip = self.get_node_by_devops_node(
self.ci().environment().node_by_name(node_name))['ip']
remote = SSHClient(ip,
username='******',
password='******',
private_keys=self.get_private_keys())
return self.assert_service_list(remote, smiles_count)
@logwrap
def assert_glance_index(self, ctrl_ssh):
ret = ctrl_ssh.check_call('. /root/openrc; glance index')
self.assertEqual(1, ''.join(ret['stdout']).count("TestVM"))
@logwrap
def assert_network_list(self, networks_count, remote):
ret = remote.check_call('/usr/bin/nova-manage network list')
self.assertEqual(networks_count + 1, len(ret['stdout']))
@logwrap
def assertClusterReady(self,
node_name,
smiles_count,
networks_count=1,
timeout=300):
_wait(lambda: self.get_cluster_status(self.get_node_by_devops_node(
self.ci().environment().node_by_name(node_name))['ip'],
smiles_count=smiles_count,
networks_count=networks_count),
timeout=timeout)
@logwrap
def get_cluster_status(self, ip, smiles_count, networks_count=1):
remote = SSHClient(ip,
username='******',
password='******',
private_keys=self.get_private_keys())
self.assert_service_list(remote, smiles_count)
self.assert_glance_index(remote)
self.assert_network_list(networks_count, remote)
@logwrap
def get_cluster_floating_list(self, ip):
remote = SSHClient(ip,
username='******',
password='******',
private_keys=self.get_private_keys())
ret = remote.check_call('/usr/bin/nova-manage floating list')
ret_str = ''.join(ret['stdout'])
return re.findall('(\d{1,3}\.\d{1,3}\.\d{1,3}\.\d{1,3})', ret_str)
@logwrap
def assert_cluster_floating_list(self, node_name, expected_ips):
ip = self.get_node_by_devops_node(
self.ci().environment().node_by_name(node_name))['ip']
current_ips = self.get_cluster_floating_list(ip)
self.assertEqual(set(expected_ips), set(current_ips))
@logwrap
def get_private_keys(self):
keys = []
for key_string in ['/root/.ssh/id_rsa', '/root/.ssh/bootstrap.rsa']:
with self.remote().open(key_string) as f:
keys.append(RSAKey.from_private_key(f))
return keys
@logwrap
def update_vlan_network_fixed(self,
cluster_id,
amount=1,
network_size=256):
network_list = self.client.get_networks(cluster_id)['networks']
for network in network_list:
if network["name"] == 'fixed':
network['amount'] = amount
network['network_size'] = network_size
self.client.update_network(cluster_id,
networks=network_list,
net_manager=NETWORK_MANAGERS['vlan'])
def setUp(self):
self.client = NailgunClient(self.get_admin_node_ip())
class BaseNodeTestCase(BaseTestCase):
environment_states = {}
def setUp(self):
self.client = NailgunClient(self.get_admin_node_ip())
@logwrap
def get_interface_description(self, ctrl_ssh, interface_short_name):
return ''.join(
ctrl_ssh.execute(
'/sbin/ip addr show dev %s' % interface_short_name
)['stdout']
)
def assertNetworkConfiguration(self, node):
remote = SSHClient(node['ip'], username='******', password='******',
private_keys=self.get_private_keys())
for interface in node['network_data']:
if interface.get('vlan') is None:
continue # todo excess check fix interface json format
interface_name = "%s.%s@%s" % (
interface['dev'], interface['vlan'], interface['dev'])
interface_short_name = "%s.%s" % (
interface['dev'], interface['vlan'])
interface_description = self.get_interface_description(
remote, interface_short_name)
self.assertIn(interface_name, interface_description)
if interface.get('name') == 'floating':
continue
if interface.get('ip'):
self.assertIn("inet %s" % interface.get('ip'),
interface_description)
else:
self.assertNotIn("inet ", interface_description)
if interface.get('brd'):
self.assertIn("brd %s" % interface['brd'],
interface_description)
@logwrap
def is_node_discovered(self, nailgun_node):
return any(
map(lambda node: node['mac'] == nailgun_node['mac']
and node['status'] == 'discover', self.client.list_nodes()))
@logwrap
def get_target_devs(self, devops_nodes):
return [
interface.target_dev for interface in [
val for var in map(lambda node: node.interfaces, devops_nodes)
for val in var]]
@logwrap
def get_ebtables(self, cluster_id, devops_nodes):
return Ebtables(
self.get_target_devs(devops_nodes),
self.client._get_cluster_vlans(cluster_id))
@logwrap
def _get_common_vlan(self, cluster_id):
"""Find vlan that must be at all two nodes.
"""
return self.client.get_networks(
cluster_id)['networks'][0]['vlan_start']
@logwrap
def _run_network_verify(self, cluster_id):
return self.client.verify_networks(
cluster_id, self.client.get_networks(cluster_id)['networks'])
@logwrap
def check_role_file(self, nodes_dict):
for node, roles in self.get_nailgun_node_roles(nodes_dict):
remote = SSHClient(
node['ip'], username='******', password='******',
private_keys=self.get_private_keys())
for role in roles:
if role != "cinder":
self.assertTrue(remote.isfile('/tmp/%s-file' % role))
@logwrap
def clean_clusters(self):
self.client.clean_clusters()
@logwrap
def configure_cluster(self, cluster_id, nodes_dict):
self.update_nodes(cluster_id, nodes_dict, True, False)
# TODO: update network configuration
@logwrap
def basic_provisioning(self, cluster_id, nodes_dict, port=5514):
self.client.add_syslog_server(
cluster_id, self.ci().get_host_node_ip(), port)
self.bootstrap_nodes(self.devops_nodes_by_names(nodes_dict.keys()))
self.configure_cluster(cluster_id, nodes_dict)
task = self.deploy_cluster(cluster_id)
self.assertTaskSuccess(task)
self.check_role_file(nodes_dict)
return cluster_id
@logwrap
def prepare_environment(self, name='cluster_name', mode="multinode",
settings=None):
if not(self.ci().revert_to_state(settings)):
self.get_ready_environment()
if settings is None:
return None
if 'nodes' in settings:
cluster_id = self.create_cluster(name=name, mode=mode)
self.basic_provisioning(cluster_id, settings['nodes'])
self.ci().snapshot_state(name, settings)
# return id of last created cluster
clusters = self.client.list_clusters()
if len(clusters) > 0:
return clusters.pop()['id']
return None
@logwrap
def get_nailgun_node_roles(self, nodes_dict):
nailgun_node_roles = []
for node_name in nodes_dict:
slave = self.ci().environment().node_by_name(node_name)
node = self.get_node_by_devops_node(slave)
nailgun_node_roles.append((node, nodes_dict[node_name]))
return nailgun_node_roles
@logwrap
def deploy_cluster(self, cluster_id):
"""Return hash with task description."""
return self.client.deploy_cluster_changes(cluster_id)
@logwrap
def assertTaskSuccess(self, task, timeout=90 * 60):
self.assertEquals('ready', self._task_wait(task, timeout)['status'])
@logwrap
def assertTaskFailed(self, task, timeout=70 * 60):
self.assertEquals('error', self._task_wait(task, timeout)['status'])
@logwrap
def assertOSTFRunSuccess(self, cluster_id, should_fail=0, should_pass=0,
timeout=10 * 60):
set_result_list = self._ostf_test_wait(cluster_id, timeout)
passed = 0
failed = 0
for set_result in set_result_list:
passed += len(filter(lambda test: test['status'] == 'success',
set_result['tests']))
failed += len(
filter(
lambda test: test['status'] == 'failure' or
test['status'] == 'error',
set_result['tests']
)
)
self.assertEqual(passed, should_pass, 'Passed tests')
self.assertEqual(failed, should_fail, 'Failed tests')
@logwrap
def run_OSTF(self, cluster_id, test_sets=None,
should_fail=0, should_pass=0):
test_sets = test_sets \
if test_sets is not None \
else ['fuel_smoke', 'fuel_sanity']
self.client.ostf_run_tests(cluster_id, test_sets)
self.assertOSTFRunSuccess(cluster_id, should_fail=should_fail,
should_pass=should_pass)
@logwrap
def _task_wait(self, task, timeout):
wait(
lambda: self.client.get_task(
task['id'])['status'] != 'running',
timeout=timeout)
return self.client.get_task(task['id'])
@logwrap
def _ostf_test_wait(self, cluster_id, timeout):
wait(
lambda: all([run['status'] == 'finished'
for run in
self.client.get_ostf_test_run(cluster_id)]),
timeout=timeout)
return self.client.get_ostf_test_run(cluster_id)
@logwrap
def _tasks_wait(self, tasks, timeout):
return [self._task_wait(task, timeout) for task in tasks]
@logwrap
def _upload_sample_release(self):
release_id = self.client.get_release_id()
if not release_id:
raise Exception("Not implemented uploading of release")
return release_id
@logwrap
def get_or_create_cluster(self, name, release_id, mode="multinode"):
if not release_id:
release_id = self._upload_sample_release()
cluster_id = self.client.get_cluster_id(name)
if not cluster_id:
self.client.create_cluster(
data={
"name": name,
"release": str(release_id),
"mode": mode
}
)
cluster_id = self.client.get_cluster_id(name)
if not cluster_id:
raise Exception("Could not get cluster '%s'" % name)
return cluster_id
@logwrap
def create_cluster(self, name='default', release_id=None,
mode="multinode"):
"""
:param name:
:param release_id:
:param mode:
:return: cluster_id
"""
return self.get_or_create_cluster(name, release_id, mode)
@logwrap
def update_nodes(self, cluster_id, nodes_dict,
pending_addition=True, pending_deletion=False):
# update nodes in cluster
nodes_data = []
for node_name in nodes_dict:
devops_node = self.ci().environment().node_by_name(node_name)
node = self.get_node_by_devops_node(devops_node)
node_data = {'cluster_id': cluster_id, 'id': node['id'],
'pending_addition': pending_addition,
'pending_deletion': pending_deletion,
'pending_roles': nodes_dict[node_name]}
nodes_data.append(node_data)
# assume nodes are going to be updated for one cluster only
cluster_id = nodes_data[-1]['cluster_id']
node_ids = [str(node_info['id']) for node_info in nodes_data]
self.client.update_nodes(nodes_data)
nailgun_nodes = self.client.list_cluster_nodes(cluster_id)
cluster_node_ids = map(lambda node: str(node['id']), nailgun_nodes)
self.assertTrue(
all([node_id in cluster_node_ids for node_id in node_ids]))
return nailgun_nodes
@logwrap
def get_node_by_devops_node(self, devops_node):
"""Returns dict with nailgun slave node description if node is
registered. Otherwise return None.
"""
mac_addresses = map(
lambda interface: interface.mac_address.capitalize(),
devops_node.interfaces)
for nailgun_node in self.client.list_nodes():
if nailgun_node['mac'].capitalize() in mac_addresses:
nailgun_node['devops_name'] = devops_node.name
return nailgun_node
return None
def nailgun_nodes(self, devops_nodes):
return map(lambda node: self.get_node_by_devops_node(node),
devops_nodes)
def devops_nodes_by_names(self, devops_node_names):
return map(lambda name: self.ci().environment().node_by_name(name),
devops_node_names)
@logwrap
def bootstrap_nodes(self, devops_nodes, timeout=600):
"""Start vms and wait they are registered on nailgun.
:rtype : List of registred nailgun nodes
"""
for node in devops_nodes:
node.start()
wait(lambda: all(self.nailgun_nodes(devops_nodes)), 15, timeout)
return self.nailgun_nodes(devops_nodes)
@logwrap
def assert_service_list(self, remote, smiles_count):
ret = remote.check_call('/usr/bin/nova-manage service list')
self.assertEqual(
smiles_count, ''.join(ret['stdout']).count(":-)"), "Smiles count")
self.assertEqual(
0, ''.join(ret['stdout']).count("XXX"), "Broken services count")
@logwrap
def assert_node_service_list(self, node_name, smiles_count):
ip = self.get_node_by_devops_node(
self.ci().environment().node_by_name(node_name))['ip']
remote = SSHClient(ip, username='******', password='******',
private_keys=self.get_private_keys())
return self.assert_service_list(remote, smiles_count)
@logwrap
def assert_glance_index(self, ctrl_ssh):
ret = ctrl_ssh.check_call('. /root/openrc; glance index')
self.assertEqual(1, ''.join(ret['stdout']).count("TestVM"))
@logwrap
def assert_network_list(self, networks_count, remote):
ret = remote.check_call('/usr/bin/nova-manage network list')
self.assertEqual(networks_count + 1, len(ret['stdout']))
@logwrap
def assertClusterReady(self, node_name, smiles_count,
networks_count=1, timeout=300):
_wait(
lambda: self.get_cluster_status(
self.get_node_by_devops_node(
self.ci().environment().node_by_name(node_name))['ip'],
smiles_count=smiles_count,
networks_count=networks_count),
timeout=timeout)
@logwrap
def _get_remote(self, ip):
return SSHClient(ip, username='******', password='******',
private_keys=self.get_private_keys())
@logwrap
def _get_remote_for_node(self, node_name):
ip = self.get_node_by_devops_node(
self.ci().environment().node_by_name(node_name))['ip']
return self._get_remote(ip)
@logwrap
def get_cluster_status(self, ip, smiles_count, networks_count=1):
remote = self._get_remote(ip)
self.assert_service_list(remote, smiles_count)
self.assert_glance_index(remote)
self.assert_network_list(networks_count, remote)
@logwrap
def get_cluster_floating_list(self, node_name):
remote = self._get_remote_for_node(node_name)
ret = remote.check_call('/usr/bin/nova-manage floating list')
ret_str = ''.join(ret['stdout'])
return re.findall('(\d{1,3}\.\d{1,3}\.\d{1,3}\.\d{1,3})', ret_str)
@logwrap
def get_cluster_block_devices(self, node_name):
remote = self._get_remote_for_node(node_name)
ret = remote.check_call('/bin/lsblk')
return ''.join(ret['stdout'])
@logwrap
def assert_cluster_floating_list(self, node_name, expected_ips):
current_ips = self.get_cluster_floating_list(node_name)
self.assertEqual(set(expected_ips), set(current_ips))
@logwrap
def get_private_keys(self):
keys = []
for key_string in ['/root/.ssh/id_rsa', '/root/.ssh/bootstrap.rsa']:
with self.remote().open(key_string) as f:
keys.append(RSAKey.from_private_key(f))
return keys
@logwrap
def update_node_networks(self, node_id, interfaces_dict):
interfaces = self.client.get_node_interfaces(node_id)
for interface in interfaces:
interface_name = interface['name']
interface['assigned_networks'] = []
for allowed_network in interface['allowed_networks']:
key_exists = interface_name in interfaces_dict
if key_exists and \
allowed_network['name'] \
in interfaces_dict[interface_name]:
interface['assigned_networks'].append(allowed_network)
self.client.put_node_interfaces(
[{'id': node_id, 'interfaces': interfaces}])
@logwrap
def update_vlan_network_fixed(
self, cluster_id, amount=1, network_size=256):
network_list = self.client.get_networks(cluster_id)['networks']
for network in network_list:
if network["name"] == 'fixed':
network['amount'] = amount
network['network_size'] = network_size
self.client.update_network(
cluster_id,
networks=network_list,
net_manager=NETWORK_MANAGERS['vlan'])
@logwrap
def get_ready_environment(self):
if self.ci().get_state(READY_SNAPSHOT):
self.environment().resume(verbose=False)
return
self.ci().get_empty_environment()
if OPENSTACK_RELEASE == OPENSTACK_RELEASE_REDHAT:
# update redhat credentials so that fuel may upload redhat
# packages
# download redhat repo from local place to boost the test
# remote = self.nodes().admin.remote(
# 'internal', 'root', 'r00tme')
# remote.execute(
# 'wget -q http://172.18.67.168/rhel6/rhel-rpms.tar.gz')
# remote.execute('tar xzf rhel-rpms.tar.gz -C /')
self.update_redhat_credentials()
self.assert_release_state(OPENSTACK_RELEASE_REDHAT,
state='available')
self.environment().suspend(verbose=False)
self.environment().snapshot(READY_SNAPSHOT)
self.environment().resume(verbose=False)
@logwrap
def update_redhat_credentials(
self, license_type=REDHAT_LICENSE_TYPE,
username=REDHAT_USERNAME, password=REDHAT_PASSWORD,
satellite_host=REDHAT_SATELLITE_HOST,
activation_key=REDHAT_ACTIVATION_KEY):
# release name is in environment variable OPENSTACK_RELEASE
release_id = self.client.get_release_id('RHOS')
self.client.update_redhat_setup({
"release_id": release_id,
"username": username,
"license_type": license_type,
"satellite": satellite_host,
"password": password,
"activation_key": activation_key})
tasks = self.client.get_tasks()
# wait for 'redhat_setup' task only. Front-end works same way
for task in tasks:
if task['name'] == 'redhat_setup' \
and task['result']['release_info']['release_id'] \
== release_id:
return self._task_wait(task, 60 * 120)
def assert_release_state(self, release_name, state='available'):
for release in self.client.get_releases():
if release["name"].find(release_name) != -1:
self.assertEqual(release['state'], state)
return release["id"]
def setUp(self):
self.client = NailgunClient(self.get_admin_node_ip())
class BaseNodeTestCase(BaseTestCase):
environment_states = {}
def setUp(self):
self.client = NailgunClient(self.get_admin_node_ip())
@logwrap
def get_interface_description(self, ctrl_ssh, interface_short_name):
return ''.join(
ctrl_ssh.execute('/sbin/ip addr show dev %s' %
interface_short_name)['stdout'])
def assertNetworkConfiguration(self, node):
remote = SSHClient(node['ip'],
username='******',
password='******',
private_keys=self.get_private_keys())
for interface in node['network_data']:
if interface.get('vlan') is None:
continue # todo excess check fix interface json format
interface_name = "%s.%s@%s" % (interface['dev'], interface['vlan'],
interface['dev'])
interface_short_name = "%s.%s" % (interface['dev'],
interface['vlan'])
interface_description = self.get_interface_description(
remote, interface_short_name)
self.assertIn(interface_name, interface_description)
if interface.get('name') == 'floating':
continue
if interface.get('ip'):
self.assertIn("inet %s" % interface.get('ip'),
interface_description)
else:
self.assertNotIn("inet ", interface_description)
if interface.get('brd'):
self.assertIn("brd %s" % interface['brd'],
interface_description)
@logwrap
def is_node_discovered(self, nailgun_node):
return any(
map(
lambda node: node['mac'] == nailgun_node['mac'] and node[
'status'] == 'discover', self.client.list_nodes()))
@logwrap
def get_target_devs(self, devops_nodes):
return [
interface.target_dev for interface in [
val for var in map(lambda node: node.interfaces, devops_nodes)
for val in var
]
]
@logwrap
def get_ebtables(self, cluster_id, devops_nodes):
return Ebtables(self.get_target_devs(devops_nodes),
self.client._get_cluster_vlans(cluster_id))
@logwrap
def _get_common_vlan(self, cluster_id):
"""Find vlan that must be at all two nodes.
"""
return self.client.get_networks(
cluster_id)['networks'][0]['vlan_start']
@logwrap
def _run_network_verify(self, cluster_id):
return self.client.verify_networks(
cluster_id,
self.client.get_networks(cluster_id)['networks'])
@logwrap
def check_role_file(self, nodes_dict):
for node, roles in self.get_nailgun_node_roles(nodes_dict):
remote = SSHClient(node['ip'],
username='******',
password='******',
private_keys=self.get_private_keys())
for role in roles:
if role != "cinder":
self.assertTrue(remote.isfile('/tmp/%s-file' % role))
@logwrap
def clean_clusters(self):
self.client.clean_clusters()
@logwrap
def configure_cluster(self, cluster_id, nodes_dict):
self.update_nodes(cluster_id, nodes_dict, True, False)
# TODO: update network configuration
@logwrap
def basic_provisioning(self, cluster_id, nodes_dict, port=5514):
self.client.add_syslog_server(cluster_id,
self.ci().get_host_node_ip(), port)
self.bootstrap_nodes(self.devops_nodes_by_names(nodes_dict.keys()))
for node in self.devops_nodes_by_names(nodes_dict.keys()):
self.sync_node_time(node.name)
self.configure_cluster(cluster_id, nodes_dict)
task = self.deploy_cluster(cluster_id)
self.assertTaskSuccess(task)
return cluster_id
@logwrap
def prepare_environment(self,
name='cluster_name',
mode="multinode",
settings=None,
save_state=True):
if not (self.ci().revert_to_state(settings)):
self.get_ready_environment()
if settings is None:
return None
net_provider = None
net_segment_type = None
if 'net_provider' in settings:
net_provider = settings['net_provider']
if 'net_segment_type' in settings:
net_segment_type = settings['net_segment_type']
if 'nodes' in settings:
cluster_id = self.create_cluster(
name=name,
mode=mode,
net_provider=net_provider,
net_segment_type=net_segment_type)
self.other_cluster_settings(cluster_id, settings)
self.basic_provisioning(cluster_id, settings['nodes'])
if save_state:
self.ci().snapshot_state(name, settings)
# return id of last created cluster
clusters = self.client.list_clusters()
if len(clusters) > 0:
return clusters.pop()['id']
return None
@logwrap
def other_cluster_settings(self, cluster_id, settings):
attributes = self.client.get_cluster_attributes(cluster_id)
for option in settings:
section = False
if option in ('savanna', 'murano'):
section = 'additional_components'
if option in ('volumes_ceph', 'images_ceph'):
section = 'storage'
if section:
attributes['editable'][section][option]['value'] = settings[
option]
self.client.update_cluster_attributes(cluster_id, attributes)
@logwrap
def get_nailgun_node_roles(self, nodes_dict):
nailgun_node_roles = []
for node_name in nodes_dict:
slave = self.ci().environment().node_by_name(node_name)
node = self.get_node_by_devops_node(slave)
nailgun_node_roles.append((node, nodes_dict[node_name]))
return nailgun_node_roles
@logwrap
def deploy_cluster(self, cluster_id):
"""Return hash with task description."""
return self.client.deploy_cluster_changes(cluster_id)
@logwrap
def assertTaskSuccess(self, task, timeout=90 * 60):
self.assertEquals('ready', self._task_wait(task, timeout)['status'])
@logwrap
def assertTaskFailed(self, task, timeout=70 * 60):
self.assertEquals('error', self._task_wait(task, timeout)['status'])
@logwrap
def assertOSTFRunSuccess(self,
cluster_id,
should_fail=0,
should_pass=0,
timeout=10 * 60):
set_result_list = self._ostf_test_wait(cluster_id, timeout)
passed = 0
failed = 0
for set_result in set_result_list:
passed += len(
filter(lambda test: test['status'] == 'success',
set_result['tests']))
failed += len(
filter(
lambda test: test['status'] == 'failure' or test['status']
== 'error', set_result['tests']))
self.assertGreaterEqual(passed, should_pass,
'Passed tests, pass: {}'.format(passed))
self.assertLessEqual(failed, should_fail,
'Failed tests, fails: {}'.format(failed))
@logwrap
def run_OSTF(self,
cluster_id,
test_sets=None,
should_fail=0,
should_pass=0):
test_sets = test_sets \
if test_sets is not None \
else ['smoke', 'sanity']
self.client.ostf_run_tests(cluster_id, test_sets)
self.assertOSTFRunSuccess(cluster_id,
should_fail=should_fail,
should_pass=should_pass)
@logwrap
def _task_wait(self, task, timeout):
wait(lambda: self.client.get_task(task['id'])['status'] != 'running',
timeout=timeout)
return self.client.get_task(task['id'])
@logwrap
def _ostf_test_wait(self, cluster_id, timeout):
wait(lambda: all([
run['status'] == 'finished'
for run in self.client.get_ostf_test_run(cluster_id)
]),
timeout=timeout)
return self.client.get_ostf_test_run(cluster_id)
@logwrap
def _tasks_wait(self, tasks, timeout):
return [self._task_wait(task, timeout) for task in tasks]
@logwrap
def _upload_sample_release(self):
release_id = self.client.get_release_id()
if not release_id:
raise Exception("Not implemented uploading of release")
return release_id
@logwrap
def get_or_create_cluster(self,
name,
release_id,
mode="multinode",
net_provider=None,
net_segment_type=None):
if not release_id:
release_id = self._upload_sample_release()
cluster_id = self.client.get_cluster_id(name)
if not cluster_id:
data = {"name": name, "release": str(release_id), "mode": mode}
if net_provider:
data.update({
'net_provider': net_provider,
'net_segment_type': net_segment_type
})
self.client.create_cluster(data=data)
cluster_id = self.client.get_cluster_id(name)
if not cluster_id:
raise Exception("Could not get cluster '%s'" % name)
return cluster_id
@logwrap
def create_cluster(self,
name='default',
release_id=None,
mode="multinode",
net_provider=None,
net_segment_type=None):
"""
:param name:
:param release_id:
:param mode:
:return: cluster_id
"""
return self.get_or_create_cluster(name,
release_id,
mode,
net_provider=net_provider,
net_segment_type=net_segment_type)
@logwrap
def update_nodes(self,
cluster_id,
nodes_dict,
pending_addition=True,
pending_deletion=False):
# update nodes in cluster
nodes_data = []
for node_name in nodes_dict:
devops_node = self.ci().environment().node_by_name(node_name)
node = self.get_node_by_devops_node(devops_node)
node_data = {
'cluster_id': cluster_id,
'id': node['id'],
'pending_addition': pending_addition,
'pending_deletion': pending_deletion,
'pending_roles': nodes_dict[node_name],
'name':
'%s_%s' % (self.ci().environment().name, devops_node.name)
}
nodes_data.append(node_data)
# assume nodes are going to be updated for one cluster only
cluster_id = nodes_data[-1]['cluster_id']
node_ids = [str(node_info['id']) for node_info in nodes_data]
self.client.update_nodes(nodes_data)
nailgun_nodes = self.client.list_cluster_nodes(cluster_id)
cluster_node_ids = map(lambda node: str(node['id']), nailgun_nodes)
self.assertTrue(
all([node_id in cluster_node_ids for node_id in node_ids]))
return nailgun_nodes
@logwrap
def get_node_by_devops_node(self, devops_node):
"""Returns dict with nailgun slave node description if node is
registered. Otherwise return None.
"""
mac_addresses = map(
lambda interface: interface.mac_address.capitalize(),
devops_node.interfaces)
for nailgun_node in self.client.list_nodes():
if nailgun_node['mac'].capitalize() in mac_addresses:
nailgun_node['devops_name'] = devops_node.name
return nailgun_node
return None
def nailgun_nodes(self, devops_nodes):
return map(lambda node: self.get_node_by_devops_node(node),
devops_nodes)
def devops_nodes_by_names(self, devops_node_names):
return map(lambda name: self.ci().environment().node_by_name(name),
devops_node_names)
@logwrap
def bootstrap_nodes(self, devops_nodes, timeout=600):
"""Start vms and wait they are registered on nailgun.
:rtype : List of registred nailgun nodes
"""
for node in devops_nodes:
node.start()
wait(lambda: all(self.nailgun_nodes(devops_nodes)), 15, timeout)
return self.nailgun_nodes(devops_nodes)
@logwrap
def assert_service_list(self, remote, smiles_count):
ret = remote.check_call('/usr/bin/nova-manage service list')
self.assertEqual(smiles_count, ''.join(ret['stdout']).count(":-)"),
"Smiles count")
self.assertEqual(0, ''.join(ret['stdout']).count("XXX"),
"Broken services count")
@logwrap
def assert_node_service_list(self, node_name, smiles_count):
ip = self.get_node_by_devops_node(
self.ci().environment().node_by_name(node_name))['ip']
remote = SSHClient(ip,
username='******',
password='******',
private_keys=self.get_private_keys())
return self.assert_service_list(remote, smiles_count)
@logwrap
def assert_glance_index(self, ctrl_ssh):
ret = ctrl_ssh.check_call('. /root/openrc; glance index')
self.assertEqual(1, ''.join(ret['stdout']).count("TestVM"))
@logwrap
def assert_network_list(self, networks_count, remote):
ret = remote.check_call('/usr/bin/nova-manage network list')
self.assertEqual(networks_count + 1, len(ret['stdout']))
@logwrap
def assertClusterReady(self,
node_name,
smiles_count,
networks_count=1,
timeout=300):
_wait(lambda: self.get_cluster_status(self.get_node_by_devops_node(
self.ci().environment().node_by_name(node_name))['ip'],
smiles_count=smiles_count,
networks_count=networks_count),
timeout=timeout)
@logwrap
def _get_remote(self, ip):
return SSHClient(ip,
username='******',
password='******',
private_keys=self.get_private_keys())
@logwrap
def _get_remote_for_node(self, node_name):
ip = self.get_node_by_devops_node(
self.ci().environment().node_by_name(node_name))['ip']
return self._get_remote(ip)
@logwrap
def _get_remote_for_role(self, nodes_dict, role):
node_name = sorted(
filter(lambda name: role in nodes_dict[name],
nodes_dict.keys()))[0]
return self._get_remote_for_node(node_name)
@logwrap
def get_cluster_status(self, ip, smiles_count, networks_count=1):
remote = self._get_remote(ip)
self.assert_service_list(remote, smiles_count)
self.assert_glance_index(remote)
self.assert_network_list(networks_count, remote)
@logwrap
def get_cluster_floating_list(self, node_name):
remote = self._get_remote_for_node(node_name)
ret = remote.check_call('/usr/bin/nova-manage floating list')
ret_str = ''.join(ret['stdout'])
return re.findall('(\d{1,3}\.\d{1,3}\.\d{1,3}\.\d{1,3})', ret_str)
@logwrap
def get_cluster_block_devices(self, node_name):
remote = self._get_remote_for_node(node_name)
ret = remote.check_call('/bin/lsblk')
return ''.join(ret['stdout'])
@logwrap
def assert_cluster_floating_list(self, node_name, expected_ips):
current_ips = self.get_cluster_floating_list(node_name)
self.assertEqual(set(expected_ips), set(current_ips))
@logwrap
def get_private_keys(self):
keys = []
for key_string in ['/root/.ssh/id_rsa', '/root/.ssh/bootstrap.rsa']:
with self.remote().open(key_string) as f:
keys.append(RSAKey.from_private_key(f))
return keys
@logwrap
def sync_node_time(self, node_name):
remote = self._get_remote_for_node(node_name)
ret = remote.execute('hwclock --hctosys >/dev/null 2>&1 0<&1')
ret = remote.execute('ntpd -g -u ntp:ntp >/dev/null 2>&1')
ret = remote.execute('hwclock -w >/dev/null 2>&1')
@logwrap
def update_node_networks(self, node_id, interfaces_dict):
interfaces = self.client.get_node_interfaces(node_id)
for interface in interfaces:
interface_name = interface['name']
interface['assigned_networks'] = []
for allowed_network in interface['allowed_networks']:
key_exists = interface_name in interfaces_dict
if key_exists and \
allowed_network['name'] \
in interfaces_dict[interface_name]:
interface['assigned_networks'].append(allowed_network)
self.client.put_node_interfaces([{
'id': node_id,
'interfaces': interfaces
}])
@logwrap
def update_vlan_network_fixed(self,
cluster_id,
amount=1,
network_size=256):
network_list = self.client.get_networks(cluster_id)['networks']
for network in network_list:
if network["name"] == 'fixed':
network['amount'] = amount
network['network_size'] = network_size
self.client.update_network(cluster_id,
networks=network_list,
net_manager=NETWORK_MANAGERS['vlan'])
@logwrap
@upload_manifests
def get_ready_environment(self):
if self.ci().get_state(READY_SNAPSHOT):
self.environment().resume(verbose=False)
return
self.ci().get_empty_environment()
if OPENSTACK_RELEASE == OPENSTACK_RELEASE_REDHAT:
# update redhat credentials so that fuel may upload redhat
# packages
# download redhat repo from local place to boost the test
# remote = self.nodes().admin.remote(
# 'internal', 'root', 'r00tme')
# remote.execute(
# 'wget -q http://172.18.67.168/rhel6/rhel-rpms.tar.gz')
# remote.execute('tar xzf rhel-rpms.tar.gz -C /')
self.update_redhat_credentials()
self.assert_release_state(OPENSTACK_RELEASE_REDHAT,
state='available')
self.environment().suspend(verbose=False)
self.environment().snapshot(READY_SNAPSHOT)
self.environment().resume(verbose=False)
@logwrap
def update_redhat_credentials(self,
license_type=REDHAT_LICENSE_TYPE,
username=REDHAT_USERNAME,
password=REDHAT_PASSWORD,
satellite_host=REDHAT_SATELLITE_HOST,
activation_key=REDHAT_ACTIVATION_KEY):
# release name is in environment variable OPENSTACK_RELEASE
release_id = self.client.get_release_id('RHOS')
self.client.update_redhat_setup({
"release_id": release_id,
"username": username,
"license_type": license_type,
"satellite": satellite_host,
"password": password,
"activation_key": activation_key
})
tasks = self.client.get_tasks()
# wait for 'redhat_setup' task only. Front-end works same way
for task in tasks:
if task['name'] == 'redhat_setup' \
and task['result']['release_info']['release_id'] \
== release_id:
return self._task_wait(task, 60 * 120)
def assert_release_state(self, release_name, state='available'):
for release in self.client.get_releases():
if release["name"].find(release_name) != -1:
self.assertEqual(release['state'], state)
return release["id"]
@logwrap
def assert_murano_service(self, node_name):
ip = self.get_node_by_devops_node(
self.ci().environment().node_by_name(node_name))['ip']
remote = SSHClient(ip,
username='******',
password='******',
private_keys=self.get_private_keys())
ps_output = remote.execute('ps ax')['stdout']
murano_api = filter(lambda x: 'murano-api' in x, ps_output)
self.assertEqual(len(murano_api), 1)
muranoconductor = filter(lambda x: 'muranoconductor' in x, ps_output)
self.assertEqual(len(muranoconductor), 1)
@logwrap
def assert_savanna_service(self, node_name):
ip = self.get_node_by_devops_node(
self.ci().environment().node_by_name(node_name))['ip']
remote = SSHClient(ip,
username='******',
password='******',
private_keys=self.get_private_keys())
ps_output = remote.execute('ps ax')['stdout']
savanna_api = filter(lambda x: 'savanna-api' in x, ps_output)
self.assertEquals(len(savanna_api), 1)
