def test_policy_update(self):
policy = self.fw_policies.first()
policy_dict = self.api_fw_policies.first()
policy.name = 'new name'
policy.description = 'new desc'
policy.shared = True
policy.audited = False
policy_dict['name'] = 'new name'
policy_dict['description'] = 'new desc'
policy_dict['shared'] = True
policy_dict['audited'] = False
form_data = {'name': policy.name,
'description': policy.description,
'shared': policy.shared,
'audited': policy.audited
}
form_dict = {'firewall_policy': form_data}
ret_dict = {'firewall_policy': policy_dict}
neutronclient.update_firewall_policy(
policy.id, form_dict).AndReturn(ret_dict)
self.mox.ReplayAll()
ret_val = api.fwaas.policy_update(self.request,
policy.id, **form_data)
self.assertIsInstance(ret_val, api.fwaas.Policy)
self.assertEqual(policy.name, ret_val.name)
self.assertTrue(ret_val.id)
def test_vip_update(self):
form_data = {'address': '10.0.0.100',
'name': 'vip1name',
'description': 'vip1description',
'subnet_id': '12381d38-c3eb-4fee-9763-12de3338041e',
'protocol_port': '80',
'protocol': 'HTTP',
'pool_id': '8913dde8-4915-4b90-8d3e-b95eeedb0d49',
'connection_limit': '10',
'admin_state_up': True
}
vip = {'vip': {'id': 'abcdef-c3eb-4fee-9763-12de3338041e',
'address': '10.0.0.100',
'name': 'vip1name',
'description': 'vip1description',
'subnet_id': '12381d38-c3eb-4fee-9763-12de3338041e',
'protocol_port': '80',
'protocol': 'HTTP',
'pool_id': '8913dde8-4915-4b90-8d3e-b95eeedb0d49',
'connection_limit': '10',
'admin_state_up': True
}}
neutronclient.update_vip(vip['vip']['id'], form_data).AndReturn(vip)
self.mox.ReplayAll()
ret_val = api.lbaas.vip_update(self.request,
vip['vip']['id'], **form_data)
self.assertIsInstance(ret_val, api.lbaas.Vip)
def test_firewall_update(self):
firewall = self.firewalls.first()
firewall_dict = self.api_firewalls.first()
firewall.name = 'new name'
firewall.description = 'new desc'
firewall.admin_state_up = False
firewall_dict['name'] = 'new name'
firewall_dict['description'] = 'new desc'
firewall_dict['admin_state_up'] = False
form_data = {'name': firewall.name,
'description': firewall.description,
'admin_state_up': firewall.admin_state_up
}
form_dict = {'firewall': form_data}
ret_dict = {'firewall': firewall_dict}
neutronclient.update_firewall(
firewall.id, form_dict).AndReturn(ret_dict)
self.mox.ReplayAll()
ret_val = api.fwaas.firewall_update(self.request,
firewall.id, **form_data)
self.assertIsInstance(ret_val, api.fwaas.Firewall)
self.assertEqual(firewall.name, ret_val.name)
self.assertTrue(ret_val.id)
def test_bgpvpn_delete(self):
bgpvpn = self.bgpvpns.first()
api_bgpvpn = {'bgpvpn': self.api_bgpvpns.first()}
neutronclient.delete_ext('/bgpvpn/bgpvpns/%s',
bgpvpn.id).AndReturn(api_bgpvpn)
self.mox.ReplayAll()
api.bgpvpn.bgpvpn_delete(self.request, bgpvpn.id)
def test_policy_update(self):
policy = self.fw_policies.first()
policy_dict = self.api_fw_policies.first()
policy.name = "new name"
policy.description = "new desc"
policy.shared = True
policy.audited = False
policy_dict["name"] = "new name"
policy_dict["description"] = "new desc"
policy_dict["shared"] = True
policy_dict["audited"] = False
form_data = {
"name": policy.name,
"description": policy.description,
"shared": policy.shared,
"audited": policy.audited,
}
form_dict = {"firewall_policy": form_data}
ret_dict = {"firewall_policy": policy_dict}
neutronclient.update_firewall_policy(policy.id, form_dict).AndReturn(ret_dict)
self.mox.ReplayAll()
ret_val = api.fwaas.policy_update(self.request, policy.id, **form_data)
self.assertIsInstance(ret_val, api.fwaas.Policy)
self.assertEqual(policy.name, ret_val.name)
self.assertTrue(ret_val.id)
def test_firewall_update(self):
firewall = self.firewalls.first()
firewall_dict = self.api_firewalls.first()
firewall.name = "new name"
firewall.description = "new desc"
firewall.admin_state_up = False
firewall_dict["name"] = "new name"
firewall_dict["description"] = "new desc"
firewall_dict["admin_state_up"] = False
form_data = {
"name": firewall.name,
"description": firewall.description,
"admin_state_up": firewall.admin_state_up,
}
form_dict = {"firewall": form_data}
ret_dict = {"firewall": firewall_dict}
neutronclient.update_firewall(firewall.id, form_dict).AndReturn(ret_dict)
self.mox.ReplayAll()
ret_val = api.fwaas.firewall_update(self.request, firewall.id, **form_data)
self.assertIsInstance(ret_val, api.fwaas.Firewall)
self.assertEqual(firewall.name, ret_val.name)
self.assertTrue(ret_val.id)
def test_bgpvpn_get(self):
bgpvpn = self.bgpvpns.first()
ret_dict = {'bgpvpn': self.api_bgpvpns.first()}
neutronclient.show_ext('/bgpvpn/bgpvpns/%s',
bgpvpn.id).AndReturn(ret_dict)
self.mox.ReplayAll()
ret_val = api.bgpvpn.bgpvpn_get(self.request, bgpvpn.id)
self.assertIsInstance(ret_val, api.bgpvpn.Bgpvpn)
def test_bgpvpn_list(self):
bgpvpns = {'bgpvpns': self.api_bgpvpns.list()}
neutronclient.list_ext('bgpvpns',
'/bgpvpn/bgpvpns', True).AndReturn(bgpvpns)
self.mox.ReplayAll()
ret_val = api.bgpvpn.bgpvpns_list(self.request)
for n in ret_val:
self.assertIsInstance(n, api.bgpvpn.Bgpvpn)
def test_network_association_delete(self):
bgpvpn = self.bgpvpns.first()
na = self.network_associations.first()
api_bgpvpn = {
'network_association': self.api_network_associations.first()}
neutronclient.delete_ext(
'/bgpvpn/bgpvpns/' + bgpvpn.id + '/network_associations/%s',
na.id).AndReturn(api_bgpvpn)
self.mox.ReplayAll()
api.bgpvpn.network_association_delete(self.request, na.id, bgpvpn.id)
def test_network_association_list(self):
bgpvpn = self.bgpvpns.first()
na = {'network_associations': self.api_network_associations.list()}
neutronclient.list_ext(
'network_associations',
'/bgpvpn/bgpvpns/%s/network_associations' % bgpvpn.id,
True).AndReturn(na)
self.mox.ReplayAll()
ret_val = api.bgpvpn.network_association_list(self.request, bgpvpn.id)
for n in ret_val:
self.assertIsInstance(n, api.bgpvpn.NetworkAssociation)
def test_bgpvpn_create(self):
bgpvpn = self.bgpvpns.first()
data = {'name': bgpvpn.name,
'route_targets': bgpvpn.route_targets,
'tenant_id': bgpvpn.tenant_id}
ret_dict = {'bgpvpn': data}
neutronclient.create_ext('/bgpvpn/bgpvpns',
ret_dict).AndReturn(ret_dict)
self.mox.ReplayAll()
ret_val = api.bgpvpn.bgpvpn_create(self.request, **data)
self.assertIsInstance(ret_val, api.bgpvpn.Bgpvpn)
def test_rules_list(self):
rules = {'firewall_rules': self.fw_rules.list()}
rules_dict = {'firewall_rules': self.api_fw_rules.list()}
neutronclient.list_firewall_rules().AndReturn(rules_dict)
self.mox.ReplayAll()
ret_val = api.fwaas.rules_list(self.request)
for (v, d) in zip(ret_val, rules['firewall_rules']):
self.assertIsInstance(v, api.fwaas.Rule)
self.assertTrue(v.name, d.name)
self.assertTrue(v.id)
def test_policy_get(self):
policy = self.fw_policies.first()
policy_dict = self.api_fw_policies.first()
ret_dict = {'firewall_policy': policy_dict}
neutronclient.show_firewall_policy(policy.id).AndReturn(ret_dict)
self.mox.ReplayAll()
ret_val = api.fwaas.policy_get(self.request, policy.id)
self.assertIsInstance(ret_val, api.fwaas.Policy)
self.assertEqual(policy.name, ret_val.name)
self.assertTrue(ret_val.id)
def test_member_get(self):
member = {'member': {'id': 'abcdef-c3eb-4fee-9763-12de3338041e',
'pool_id': 'abcdef-c3eb-4fee-9763-12de3338041e',
'address': '10.0.1.2',
'protocol_port': '80',
'weight': '10',
'admin_state_up': True}}
neutronclient.show_member(member['member']['id']).AndReturn(member)
self.mox.ReplayAll()
ret_val = api.lbaas.member_get(self.request, member['member']['id'])
self.assertIsInstance(ret_val, api.lbaas.Member)
def test_firewalls_list(self):
firewalls = {'firewalls': self.firewalls.list()}
firewalls_dict = {'firewalls': self.api_firewalls.list()}
neutronclient.list_firewalls().AndReturn(firewalls_dict)
self.mox.ReplayAll()
ret_val = api.fwaas.firewalls_list(self.request)
for (v, d) in zip(ret_val, firewalls['firewalls']):
self.assertIsInstance(v, api.fwaas.Firewall)
self.assertTrue(v.name, d.name)
self.assertTrue(v.id)
def test_rule_get(self):
rule = self.fw_rules.first()
rule_dict = self.api_fw_rules.first()
ret_dict = {'firewall_rule': rule_dict}
neutronclient.show_firewall_rule(rule.id).AndReturn(ret_dict)
self.mox.ReplayAll()
ret_val = api.fwaas.rule_get(self.request, rule.id)
self.assertIsInstance(ret_val, api.fwaas.Rule)
self.assertEqual(rule.name, ret_val.name)
self.assertTrue(ret_val.id)
def test_firewall_list(self):
exp_firewalls = self.firewalls.list()
firewalls_dict = {'firewalls': self.api_firewalls.list()}
policies_dict = {'firewall_policies': self.api_fw_policies.list()}
neutronclient.list_firewalls().AndReturn(firewalls_dict)
neutronclient.list_firewall_policies().AndReturn(policies_dict)
self.mox.ReplayAll()
ret_val = api.fwaas.firewall_list(self.request)
for (v, d) in zip(ret_val, exp_firewalls):
self._assert_firewall_return_value(v, d)
def test_rule_list(self):
exp_rules = self.fw_rules.list()
api_rules = {'firewall_rules': self.api_fw_rules.list()}
api_policies = {'firewall_policies': self.api_fw_policies.list()}
neutronclient.list_firewall_rules().AndReturn(api_rules)
neutronclient.list_firewall_policies().AndReturn(api_policies)
self.mox.ReplayAll()
ret_val = api.fwaas.rule_list(self.request)
for (v, d) in zip(ret_val, exp_rules):
self._assert_rule_return_value(v, d)
def test_rule_get(self):
exp_rule = self.fw_rules.first()
ret_dict = {'firewall_rule': self.api_fw_rules.first()}
policy_dict = {'firewall_policy': self.api_fw_policies.first()}
neutronclient.show_firewall_rule(exp_rule.id).AndReturn(ret_dict)
neutronclient.show_firewall_policy(
exp_rule.firewall_policy_id).AndReturn(policy_dict)
self.mox.ReplayAll()
ret_val = api.fwaas.rule_get(self.request, exp_rule.id)
self._assert_rule_return_value(ret_val, exp_rule)
def test_firewall_get(self):
firewall = self.firewalls.first()
firewall_dict = self.api_firewalls.first()
ret_dict = {'firewall': firewall_dict}
neutronclient.show_firewall(firewall.id).AndReturn(ret_dict)
self.mox.ReplayAll()
ret_val = api.fwaas.firewall_get(self.request, firewall.id)
self.assertIsInstance(ret_val, api.fwaas.Firewall)
self.assertEqual(firewall.name, ret_val.name)
self.assertTrue(ret_val.id)
def test_router_association_create(self):
bgpvpn = self.bgpvpns.first()
router = self.routers.first()
data = {'router_id': router.id}
ret_dict = {'router_association': data}
neutronclient.create_ext(
'/bgpvpn/bgpvpns/%s/router_associations' % bgpvpn.id,
ret_dict).AndReturn(ret_dict)
self.mox.ReplayAll()
ret_val = api.bgpvpn.router_association_create(self.request,
bgpvpn.id,
**data)
self.assertIsInstance(ret_val, api.bgpvpn.RouterAssociation)
def test_network_association_create(self):
bgpvpn = self.bgpvpns.first()
network = self.networks.first()
data = {'network_id': network.id}
ret_dict = {'network_association': data}
neutronclient.create_ext(
'/bgpvpn/bgpvpns/%s/network_associations' % bgpvpn.id,
ret_dict).AndReturn(ret_dict)
self.mox.ReplayAll()
ret_val = api.bgpvpn.network_association_create(self.request,
bgpvpn.id,
**data)
self.assertIsInstance(ret_val, api.bgpvpn.NetworkAssociation)
def test_pool_get(self):
pool = {'pool': {'id': 'abcdef-c3eb-4fee-9763-12de3338041e',
'name': 'pool1name',
'description': 'pool1description',
'subnet_id': '12381d38-c3eb-4fee-9763-12de3338041e',
'protocol': 'HTTP',
'lb_method': 'ROUND_ROBIN',
'admin_state_up': True
}}
neutronclient.show_pool(pool['pool']['id']).AndReturn(pool)
self.mox.ReplayAll()
ret_val = api.lbaas.pool_get(self.request, pool['pool']['id'])
self.assertIsInstance(ret_val, api.lbaas.Pool)
def test_policy_get_no_rule(self):
# 2nd policy is not associated with any rules.
exp_policy = self.fw_policies.list()[1]
policy_dict = self.api_fw_policies.list()[1]
ret_dict = {'firewall_policy': policy_dict}
neutronclient.show_firewall_policy(exp_policy.id).AndReturn(ret_dict)
self.mox.ReplayAll()
ret_val = api.fwaas.policy_get(self.request, exp_policy.id)
self.assertIsInstance(ret_val, api.fwaas.Policy)
self.assertEqual(exp_policy.name, ret_val.name)
self.assertTrue(ret_val.id)
self.assertFalse(len(ret_val.rules))
def test_policy_remove_rule(self):
policy = self.fw_policies.first()
policy_dict = self.api_fw_policies.first()
remove_rule_id = policy.firewall_rules[0]
policy_dict["firewall_rules"].remove(remove_rule_id)
body = {"firewall_rule_id": remove_rule_id}
neutronclient.firewall_policy_remove_rule(policy.id, body).AndReturn(policy_dict)
self.mox.ReplayAll()
ret_val = api.fwaas.policy_remove_rule(self.request, policy.id, **body)
self.assertNotIn(remove_rule_id, ret_val.firewall_rules)
def test_members_get(self):
members = {'members': [
{'id': 'abcdef-c3eb-4fee-9763-12de3338041e',
'pool_id': 'abcdef-c3eb-4fee-9763-12de3338041e',
'address': '10.0.1.2',
'protocol_port': '80',
'weight': '10',
'admin_state_up': True
}, ]}
neutronclient.list_members().AndReturn(members)
self.mox.ReplayAll()
ret_val = api.lbaas.members_get(self.request)
for v in ret_val:
self.assertIsInstance(v, api.lbaas.Member)
def test_pools_get(self):
pools = {'pools': [{
'id': 'abcdef-c3eb-4fee-9763-12de3338041e',
'name': 'pool1name',
'description': 'pool1description',
'subnet_id': '12381d38-c3eb-4fee-9763-12de3338041e',
'protocol': 'HTTP',
'lb_method': 'ROUND_ROBIN',
'admin_state_up': True}, ]}
neutronclient.list_pools().AndReturn(pools)
self.mox.ReplayAll()
ret_val = api.lbaas.pools_get(self.request)
for v in ret_val:
self.assertIsInstance(v, api.lbaas.Pool)
def test_rule_get(self):
exp_rule = self.fw_rules.first()
ret_dict = {"firewall_rule": self.api_fw_rules.first()}
policy_dict = {"firewall_policy": self.api_fw_policies.first()}
neutronclient.show_firewall_rule(exp_rule.id).AndReturn(ret_dict)
neutronclient.show_firewall_policy(exp_rule.firewall_policy_id).AndReturn(policy_dict)
self.mox.ReplayAll()
ret_val = api.fwaas.rule_get(self.request, exp_rule.id)
self.assertIsInstance(ret_val, api.fwaas.Rule)
self.assertEqual(exp_rule.name, ret_val.name)
self.assertTrue(ret_val.id)
self.assertEqual(ret_val.policy.id, exp_rule.firewall_policy_id)
self.assertEqual(ret_val.policy.name, exp_rule.policy.name)
def test_policy_get(self):
exp_policy = self.fw_policies.first()
policy_dict = self.api_fw_policies.first()
# The first two rules are associated with the first policy.
api_rules = self.api_fw_rules.list()[:2]
ret_dict = {'firewall_policy': policy_dict}
neutronclient.show_firewall_policy(exp_policy.id).AndReturn(ret_dict)
filters = {'firewall_policy_id': exp_policy.id}
ret_dict = {'firewall_rules': api_rules}
neutronclient.list_firewall_rules(**filters).AndReturn(ret_dict)
self.mox.ReplayAll()
ret_val = api.fwaas.policy_get(self.request, exp_policy.id)
self._assert_policy_return_value(ret_val, exp_policy)
def test_firewall_get(self):
exp_firewall = self.firewalls.first()
ret_dict = {'firewall': self.api_firewalls.first()}
policy_dict = {'firewall_policy': self.api_fw_policies.first()}
neutronclient.show_firewall(exp_firewall.id).AndReturn(ret_dict)
neutronclient.show_firewall_policy(
exp_firewall.firewall_policy_id).AndReturn(policy_dict)
self.mox.ReplayAll()
ret_val = api.fwaas.firewall_get(self.request, exp_firewall.id)
self.assertIsInstance(ret_val, api.fwaas.Firewall)
self.assertEqual(exp_firewall.name, ret_val.name)
self.assertTrue(ret_val.id)
self.assertEqual(exp_firewall.firewall_policy_id, ret_val.policy.id)
self.assertEqual(exp_firewall.policy.name, ret_val.policy.name)
def test_policy_get(self):
exp_policy = self.fw_policies.first()
policy_dict = self.api_fw_policies.first()
# The first two rules are associated with the first policy.
api_rules = self.api_fw_rules.list()[:2]
ret_dict = {'firewall_policy': policy_dict}
neutronclient.show_firewall_policy(exp_policy.id).AndReturn(ret_dict)
filters = {'firewall_policy_id': exp_policy.id}
ret_dict = {'firewall_rules': api_rules}
neutronclient.list_firewall_rules(**filters).AndReturn(ret_dict)
self.mox.ReplayAll()
ret_val = api.fwaas.policy_get(self.request, exp_policy.id)
self.assertIsInstance(ret_val, api.fwaas.Policy)
self.assertEqual(exp_policy.name, ret_val.name)
self.assertTrue(ret_val.id)
self.assertEqual(len(exp_policy.rules), len(ret_val.rules))
for (exp, ret) in zip(exp_policy.rules, ret_val.rules):
self.assertEqual(exp.id, ret.id)
def test_policy_create(self):
policy1 = self.fw_policies.first()
policy1_dict = self.api_fw_policies.first()
form_data = {'name': policy1.name,
'description': policy1.description,
'firewall_rules': policy1.firewall_rules,
'shared': policy1.shared,
'audited': policy1.audited
}
form_dict = {'firewall_policy': form_data}
ret_dict = {'firewall_policy': policy1_dict}
neutronclient.create_firewall_policy(form_dict).AndReturn(ret_dict)
self.mox.ReplayAll()
ret_val = api.fwaas.policy_create(self.request, **form_data)
self.assertIsInstance(ret_val, api.fwaas.Policy)
self.assertEqual(policy1.name, ret_val.name)
self.assertTrue(ret_val.id)
def test_policy_insert_rule(self):
policy = self.fw_policies.first()
policy_dict = self.api_fw_policies.first()
new_rule_id = 'h0881d38-c3eb-4fee-9763-12de3338041d'
policy.firewall_rules.append(new_rule_id)
policy_dict['firewall_rules'].append(new_rule_id)
body = {
'firewall_rule_id': new_rule_id,
'insert_before': policy.firewall_rules[1],
'insert_after': policy.firewall_rules[0]
}
neutronclient.firewall_policy_insert_rule(policy.id,
body).AndReturn(policy_dict)
self.mox.ReplayAll()
ret_val = api.fwaas.policy_insert_rule(self.request, policy.id, **body)
self.assertIn(new_rule_id, ret_val.firewall_rules)
def test_firewall_create(self):
firewall = self.firewalls.first()
firewall_dict = self.api_firewalls.first()
form_data = {'name': firewall.name,
'description': firewall.description,
'firewall_policy_id': firewall.firewall_policy_id,
'shared': firewall.shared,
'admin_state_up': firewall.admin_state_up
}
form_dict = {'firewall': form_data}
ret_dict = {'firewall': firewall_dict}
neutronclient.create_firewall(form_dict).AndReturn(ret_dict)
self.mox.ReplayAll()
ret_val = api.fwaas.firewall_create(self.request, **form_data)
self.assertIsInstance(ret_val, api.fwaas.Firewall)
self.assertEqual(firewall.name, ret_val.name)
self.assertTrue(ret_val.id)
def test_pool_health_monitor_get(self):
monitor = {
'health_monitor': {
'id': 'abcdef-c3eb-4fee-9763-12de3338041e',
'type': 'PING',
'delay': '10',
'timeout': '10',
'max_retries': '10',
'http_method': 'GET',
'url_path': '/monitor',
'expected_codes': '200',
'admin_state_up': True
}
}
neutronclient.show_health_monitor(
monitor['health_monitor']['id']).AndReturn(monitor)
self.mox.ReplayAll()
ret_val = api.lbaas.pool_health_monitor_get(
self.request, monitor['health_monitor']['id'])
self.assertIsInstance(ret_val, api.lbaas.PoolMonitor)
def test_firewall_get(self):
exp_firewall = self.firewall_groups_v2.first()
ret_dict = {'firewall_group': self.api_firewall_groups_v2.first()}
ingress_policy_id = exp_firewall.ingress_firewall_policy_id
ingress_policy = [
p for p in self.api_fw_policies_v2.list()
if p['id'] == ingress_policy_id
][0]
egress_policy_id = exp_firewall.egress_firewall_policy_id
egress_policy = [
p for p in self.api_fw_policies_v2.list()
if p['id'] == egress_policy_id
][0]
neutronclient.show_fwaas_firewall_group(
exp_firewall.id).AndReturn(ret_dict)
neutronclient.show_fwaas_firewall_policy(ingress_policy_id)\
.AndReturn({'firewall_policy': ingress_policy})
neutronclient.show_fwaas_firewall_policy(egress_policy_id)\
.AndReturn({'firewall_policy': egress_policy})
self.mox.ReplayAll()
ret_val = api_fwaas_v2.firewall_get(self.request, exp_firewall.id)
self._assert_firewall_return_value(ret_val, exp_firewall)
def test_bgpvpn_update(self):
bgpvpn = self.bgpvpns.first()
bgpvpn_dict = self.api_bgpvpns.first()
bgpvpn.name = 'new name'
bgpvpn.route_targets = '65001:2'
bgpvpn_dict['name'] = 'new name'
bgpvpn_dict['route_targets'] = '65001:2'
form_data = {
'name': bgpvpn.name,
'route_targets': bgpvpn.route_targets
}
form_dict = {'bgpvpn': form_data}
ret_dict = {'bgpvpn': bgpvpn_dict}
uri = BGPVPN_RESOURCE_PATH
neutronclient.update_ext(uri, bgpvpn.id, form_dict).AndReturn(ret_dict)
self.mox.ReplayAll()
ret_val = api.bgpvpn.bgpvpn_update(self.request, bgpvpn.id,
**form_data)
self.assertIsInstance(ret_val, api.bgpvpn.Bgpvpn)
def test_firewall_get(self):
exp_firewall = self.firewalls.first()
ret_dict = {'firewall': self.api_firewalls.first()}
policy_dict = {'firewall_policy': self.api_fw_policies.first()}
neutronclient.show_firewall(exp_firewall.id).AndReturn(ret_dict)
neutronclient.show_firewall_policy(
exp_firewall.firewall_policy_id).AndReturn(policy_dict)
api_neutron.is_extension_supported(mox.IsA(
http.HttpRequest), 'fwaasrouterinsertion').AndReturn(True)
api_neutron.router_list(mox.IsA(http.HttpRequest),
id=exp_firewall.router_ids).AndReturn(
exp_firewall.routers)
self.mox.ReplayAll()
ret_val = api_fwaas.firewall_get(self.request, exp_firewall.id)
self._assert_firewall_return_value(ret_val, exp_firewall)
self.assertEqual(exp_firewall.router_ids, ret_val.router_ids)
self.assertEqual(exp_firewall.router_ids,
[r.id for r in ret_val.routers])
self.assertEqual([r.name for r in exp_firewall.routers],
[r.name for r in ret_val.routers])
def test_rule_create(self):
rule1 = self.fw_rules_v2.first()
rule1_dict = self.api_fw_rules_v2.first()
form_data = {
'name': rule1.name,
'description': rule1.description,
'protocol': rule1.protocol,
'action': rule1.action,
'source_ip_address': rule1.source_ip_address,
'source_port': rule1.source_port,
'destination_ip_address': rule1.destination_ip_address,
'destination_port': rule1.destination_port,
'shared': rule1.shared,
'enabled': rule1.enabled
}
form_dict = {'firewall_rule': form_data}
ret_dict = {'firewall_rule': rule1_dict}
neutronclient.create_fwaas_firewall_rule(form_dict).AndReturn(ret_dict)
self.mox.ReplayAll()
ret_val = api_fwaas_v2.rule_create(self.request, **form_data)
self._assert_rule_return_value(ret_val, rule1)
def test_rule_list(self):
exp_rules = self.fw_rules.list()
api_rules = {'firewall_rules': self.api_fw_rules.list()}
api_policies = {'firewall_policies': self.api_fw_policies.list()}
neutronclient.list_firewall_rules().AndReturn(api_rules)
neutronclient.list_firewall_policies().AndReturn(api_policies)
self.mox.ReplayAll()
ret_val = api.fwaas.rule_list(self.request)
for (v, d) in zip(ret_val, exp_rules):
self.assertIsInstance(v, api.fwaas.Rule)
self.assertEqual(d.name, v.name)
self.assertTrue(v.id)
if d.policy:
self.assertEqual(
d.firewall_policy_id,
v.policy.id,
)
self.assertEqual(d.policy.name, v.policy.name)
else:
self.assertIsNone(v.policy)
def test_fwg_port_list_for_tenant_with_used_port(self):
tenant_id = self.request.user.project_id
router_port = {
'id': 'id-1',
'name': 'port-1',
'device_owner': 'network:router_interface'
}
vm_port1 = {
'id': 'id-vm_port-1',
'name': 'port-2',
'device_owner': 'compute:nova'
}
gateway_port = {
'id': 'id-3',
'name': 'port-3',
'device_owner': 'network:router_gateway'
}
dhcp_port = {
'id': 'id-4',
'name': 'port-4',
'device_owner': 'network:dhcp'
}
dummy_ports = {
'ports': [
router_port,
vm_port1,
gateway_port,
dhcp_port,
]
}
used_ports = {'firewall_groups': [{'ports': [router_port['id']]}]}
neutronclient.list_ports(tenant_id=tenant_id).AndReturn(dummy_ports)
neutronclient.list_fwaas_firewall_groups(
tenant_id=tenant_id).AndReturn(used_ports)
self.mox.ReplayAll()
ports = api_fwaas_v2.fwg_port_list_for_tenant(self.request, tenant_id)
self.assertEqual(vm_port1['id'], ports[0]['id'])
def test_vips_get(self):
vips = {
'vips': [
{
'id': 'abcdef-c3eb-4fee-9763-12de3338041e',
'address': '10.0.0.100',
'name': 'vip1name',
'description': 'vip1description',
'subnet_id': '12381d38-c3eb-4fee-9763-12de3338041e',
'protocol_port': '80',
'protocol': 'HTTP',
'pool_id': '8913dde8-4915-4b90-8d3e-b95eeedb0d49',
'connection_limit': '10',
'admin_state_up': True
},
]
}
neutronclient.list_vips().AndReturn(vips)
self.mox.ReplayAll()
ret_val = api.lbaas.vips_get(self.request)
for v in ret_val:
self.assertIsInstance(v, api.lbaas.Vip)
def test_pool_health_monitors_get(self):
monitors = {
'health_monitors': [
{
'id': 'abcdef-c3eb-4fee-9763-12de3338041e',
'type': 'PING',
'delay': '10',
'timeout': '10',
'max_retries': '10',
'http_method': 'GET',
'url_path': '/monitor',
'expected_codes': '200',
'admin_state_up': True
},
]
}
neutronclient.list_health_monitors().AndReturn(monitors)
self.mox.ReplayAll()
ret_val = api.lbaas.pool_health_monitors_get(self.request)
for v in ret_val:
self.assertIsInstance(v, api.lbaas.PoolMonitor)
def __init__(self,
session,
id=None,
lease=None,
key='default',
image=DEFAULT_IMAGE,
**extra):
self.session = session
self.neutron = NeutronClient(
session=self.session, region_name=os.environ.get('OS_REGION_NAME'))
self.nova = NovaClient('2',
session=self.session,
region_name=os.environ.get('OS_REGION_NAME'))
self.glance = GlanceClient(
'2',
session=self.session,
region_name=os.environ.get('OS_REGION_NAME'))
self.image = resolve_image_idname(self.glance, image)
self.ip = None
self._fip = None
self._fip_created = False
self._preexisting = False
extra.setdefault('_no_clean', False)
self._noclean = extra.pop('_no_clean')
net_ids = extra.pop('net_ids', None)
net_name = extra.pop('net_name', None)
if net_ids is None and net_name is not None:
net_ids = [get_networkid_byname(self.neutron, net_name)]
if id is not None:
self._preexisting = True
self.server = self.nova.servers.get(id)
elif lease is not None:
server_kwargs = instance_create_args(lease.reservations[0]['id'],
key=key,
image=self.image,
net_ids=net_ids,
**extra)
self.server = self.nova.servers.create(**server_kwargs)
# print('created instance {}'.format(self.server.id))
else:
raise ValueError(
"Missing required argument: 'id' or 'lease' required.")
self.id = self.server.id
self.name = self.server.name
def test_rule_update(self):
rule = self.fw_rules.first()
rule_dict = self.api_fw_rules.first()
rule.name = 'new name'
rule.description = 'new desc'
rule.protocol = 'icmp'
rule.action = 'deny'
rule.shared = True
rule.enabled = False
rule_dict['name'] = 'new name'
rule_dict['description'] = 'new desc'
rule_dict['protocol'] = 'icmp'
rule_dict['action'] = 'deny'
rule_dict['shared'] = True
rule_dict['enabled'] = False
form_data = {'name': rule.name,
'description': rule.description,
'protocol': rule.protocol,
'action': rule.action,
'shared': rule.shared,
'enabled': rule.enabled
}
form_dict = {'firewall_rule': form_data}
ret_dict = {'firewall_rule': rule_dict}
neutronclient.update_firewall_rule(
rule.id, form_dict).AndReturn(ret_dict)
self.mox.ReplayAll()
ret_val = api.fwaas.rule_update(self.request,
rule.id, **form_data)
self.assertIsInstance(ret_val, api.fwaas.Rule)
self.assertEqual(rule.name, ret_val.name)
self.assertTrue(ret_val.id)
def test_firewall_group_create(self):
firewall_group = self.firewall_groups_v2.first()
firewall_group_dict = self.api_firewall_groups_v2.first()
form_data = {
'name': firewall_group.name,
'description': firewall_group.description,
'ingress_firewall_policy_id':
firewall_group.ingress_firewall_policy_id,
'egress_firewall_policy_id':
firewall_group.egress_firewall_policy_id,
'admin_state_up': firewall_group.admin_state_up
}
form_dict = {'firewall_group': form_data}
ret_dict = {'firewall_group': firewall_group_dict}
neutronclient.create_fwaas_firewall_group(form_dict).AndReturn(
ret_dict)
self.mox.ReplayAll()
ret_val = api_fwaas_v2.firewall_group_create(self.request, **form_data)
self.assertIsInstance(ret_val, api_fwaas_v2.FirewallGroup)
self.assertEqual(firewall_group.name, ret_val.name)
self.assertEqual(firewall_group.id, ret_val.id)
def __init__(self,
id=None,
lease=None,
key=None,
image=DEFAULT_IMAGE,
**kwargs):
kwargs.setdefault("session", context.session())
self.session = kwargs.pop("session")
self.neutron = NeutronClient(session=self.session)
self.nova = NovaClient("2", session=self.session)
self.glance = GlanceClient("2", session=self.session)
self.image = resolve_image_idname(self.glance, image)
self.flavor = resolve_flavor(self.nova, "baremetal")
self.ip = None
self._fip = None
self._fip_created = False
self._preexisting = False
kwargs.setdefault("_no_clean", False)
self._noclean = kwargs.pop("_no_clean")
net_ids = kwargs.pop("net_ids", None)
net_name = kwargs.pop("net_name", "sharednet1")
if net_ids is None and net_name is not None:
net_ids = [get_networkid_byname(self.neutron, net_name)]
if id is not None:
self._preexisting = True
self.server = self.nova.servers.get(id)
elif lease is not None:
if key is None:
key = Keypair().key_name
server_kwargs = instance_create_args(lease.node_reservation,
image=self.image,
flavor=self.flavor,
key=key,
net_ids=net_ids,
**kwargs)
self.server = self.nova.servers.create(**server_kwargs)
else:
raise ValueError(
"Missing required argument: 'id' or 'lease' required.")
self.id = self.server.id
self.name = self.server.name
def create_neutron_client(key_cl=None, creds=None):
"""
Instantiates a neutron client object
:param key_cl: a keystone client object
:return: neutron client object
"""
if creds is None:
if key_cl is None:
raise Exception("Must supply key_cl or creds")
creds = {
"username": key_cl.username,
"tenant_name": key_cl.tenant_name,
"password": key_cl.password,
"auth_url": key_cl.auth_url
}
return Client(**creds)
def test_rule_list_for_tenant(self):
tenant_id = self.request.user.project_id
exp_rules = self.fw_rules.list()
api_rules = {'firewall_rules': self.api_fw_rules.list()}
api_policies = {'firewall_policies': self.api_fw_policies.list()}
neutronclient.list_firewall_rules(tenant_id=tenant_id,
shared=False).AndReturn(
{'firewall_rules': []})
neutronclient.list_firewall_rules(shared=True) \
.AndReturn(api_rules)
neutronclient.list_firewall_policies().AndReturn(api_policies)
self.mox.ReplayAll()
ret_val = api_fwaas.rule_list_for_tenant(self.request, tenant_id)
for (v, d) in zip(ret_val, exp_rules):
self._assert_rule_return_value(v, d)
def neutron_client(api_session,
region_name=None,
service_type='network',
version=None,
interface=None):
"""
Create the neutron client using the session object.
:param version: the neutron client version (either explicit or the one in settings)
:param api_session: Our Keystone Session wrapper
:type api_session: keystoneauth1.session.Session
:param str region_name: the region name
:param str service_type: the neutron service type name as it appears in the service catalog
:param str interface: the interface used for communication i.e public, private, admin
:rtype: Client
"""
region_name = region_name or plugin_settings.DEFAULT_REGION
interface = interface or plugin_settings.DEFAULT_INTERFACE
c = Client(session=api_session,
interface=interface,
version=version,
region_name=region_name,
service_type=service_type)
return c
class Server(object):
"""
Launches an instance on a lease.
"""
def __init__(self, lease, key='default', image=DEFAULT_IMAGE, **extra):
self.lease = lease
self.session = self.lease.session
self.neutron = NeutronClient(
session=self.session, region_name=os.environ.get('OS_REGION_NAME'))
self.nova = NovaClient('2',
session=self.session,
region_name=os.environ.get('OS_REGION_NAME'))
self.glance = GlanceClient(
'2',
session=self.session,
region_name=os.environ.get('OS_REGION_NAME'))
self.ip = None
self._fip = None
self.image = resolve_image_idname(self.glance, image)
net_ids = extra.pop('net_ids', None)
net_name = extra.pop('net_name', None)
if net_ids is None and net_name is not None:
net_ids = [get_networkid_byname(self.neutron, net_name)]
self.server_kwargs = instance_create_args(self.lease.reservation,
key=key,
image=self.image,
net_ids=net_ids,
**extra)
self.server = self.nova.servers.create(**self.server_kwargs)
self.id = self.server.id
self.name = self.server.name
# print('created instance {}'.format(self.server.id))
def __repr__(self):
netloc = urllib.parse.urlsplit(self.session.auth.auth_url).netloc
if netloc.endswith(':5000'):
# drop if default port
netloc = netloc[:-5]
return '<{} \'{}\' on {} ({})>'.format(self.__class__.__name__,
self.name, netloc, self.id)
def refresh(self):
now = time.monotonic()
try:
lr = self._last_refresh
except AttributeError:
pass # expected failure on first pass
else:
# limit refreshes to once/sec.
if now - lr < 1:
return
self.server.get()
self._last_refresh = now
@property
def status(self):
self.refresh()
return self.server.status
@property
def ready(self):
return self.status == 'ACTIVE'
@property
def error(self):
return self.status == 'ERROR'
def wait(self):
# check a couple for fast failures
for _ in range(3):
time.sleep(10)
if self.error:
raise ServerError(self.server.fault, self.server)
time.sleep(5 * 60)
for _ in range(100):
time.sleep(10)
if self.ready:
break
if self.error:
raise ServerError(self.server.fault, self.server)
else:
raise RuntimeError('timeout, server failed to start')
# print('server active')
def associate_floating_ip(self):
created, self._fip = get_create_floatingip(self.neutron)
self.ip = self._fip['floating_ip_address']
try:
self.server.add_floating_ip(self.ip)
except AttributeError:
# using method from https://github.com/ChameleonCloud/horizon/blob/f5cf987633271518970b24de4439e8c1f343cad9/openstack_dashboard/api/neutron.py#L518
ports = self.neutron.list_ports(**{
'device_id': self.id
}).get('ports')
fip_target = {
'port_id': ports[0]['id'],
'ip_addr': ports[0]['fixed_ips'][0]['ip_address']
}
# https://github.com/ChameleonCloud/horizon/blob/f5cf987633271518970b24de4439e8c1f343cad9/openstack_dashboard/dashboards/project/instances/tables.py#L671
target_id = fip_target['port_id']
self.neutron.update_floatingip(
self._fip['id'],
body={
'floatingip': {
'port_id': target_id,
# 'fixed_ip_address': ip_address,
}
})
return self.ip
def delete(self):
self.server.delete()
# wait for deletion complete
for _ in range(30):
time.sleep(60)
try:
self.server.get()
except Exception as e:
if "HTTP 404" in str(e):
return
else:
raise RuntimeError('timeout, server failed to terminate')
def rebuild(self, idname):
self.image = resolve_image_idname(self.glance, idname)
self.server.rebuild(self.image)
class Server(object):
"""
Launches an instance on a lease.
"""
def __init__(self,
id=None,
lease=None,
key=None,
image=DEFAULT_IMAGE,
**kwargs):
kwargs.setdefault("session", context.session())
self.session = kwargs.pop("session")
self.neutron = NeutronClient(session=self.session)
self.nova = NovaClient("2", session=self.session)
self.glance = GlanceClient("2", session=self.session)
self.image = resolve_image_idname(self.glance, image)
self.flavor = resolve_flavor(self.nova, "baremetal")
self.ip = None
self._fip = None
self._fip_created = False
self._preexisting = False
kwargs.setdefault("_no_clean", False)
self._noclean = kwargs.pop("_no_clean")
net_ids = kwargs.pop("net_ids", None)
net_name = kwargs.pop("net_name", "sharednet1")
if net_ids is None and net_name is not None:
net_ids = [get_networkid_byname(self.neutron, net_name)]
if id is not None:
self._preexisting = True
self.server = self.nova.servers.get(id)
elif lease is not None:
if key is None:
key = Keypair().key_name
server_kwargs = instance_create_args(lease.node_reservation,
image=self.image,
flavor=self.flavor,
key=key,
net_ids=net_ids,
**kwargs)
self.server = self.nova.servers.create(**server_kwargs)
else:
raise ValueError(
"Missing required argument: 'id' or 'lease' required.")
self.id = self.server.id
self.name = self.server.name
def __repr__(self):
return "<{} '{}' ({})>".format(self.__class__.__name__, self.name,
self.id)
def __enter__(self):
self.wait()
return self
def __exit__(self, exc_type, exc, exc_tb):
if exc is not None and self._noclean:
print("Instance existing uncleanly (noclean = True).")
return
self.disassociate_floating_ip()
if not self._preexisting:
self.delete()
def refresh(self):
now = datetime.now()
try:
lr = self._last_refresh
except AttributeError:
pass # expected failure on first pass
else:
# limit refreshes to once/sec.
if (now - lr).total_seconds() < 1:
return
self.server.get()
self._last_refresh = now
@property
def status(self):
self.refresh()
return self.server.status
@property
def ready(self):
return self.status == "ACTIVE"
@property
def error(self):
return self.status == "ERROR"
def wait(self):
# check a couple for fast failures
for _ in range(3):
sleep(10)
if self.ready:
return
if self.error:
raise ServerError(self.server.fault, self.server)
sleep(5 * 60)
for _ in range(100):
sleep(10)
if self.ready:
return
if self.error:
raise ServerError(self.server.fault, self.server)
else:
raise RuntimeError("timeout, server failed to start")
# print('server active')
def associate_floating_ip(self):
if self.ip is not None:
return self.ip
created, self._fip = get_create_floatingip(self.neutron)
self._fip_created = created
self.ip = self._fip["floating_ip_address"]
try:
self.server.add_floating_ip(self.ip)
except AttributeError:
# using method from https://github.com/ChameleonCloud/horizon/blob/f5cf987633271518970b24de4439e8c1f343cad9/openstack_dashboard/api/neutron.py#L518
ports = self.neutron.list_ports(**{
"device_id": self.id
}).get("ports")
fip_target = {
"port_id": ports[0]["id"],
"ip_addr": ports[0]["fixed_ips"][0]["ip_address"],
}
# https://github.com/ChameleonCloud/horizon/blob/f5cf987633271518970b24de4439e8c1f343cad9/openstack_dashboard/dashboards/project/instances/tables.py#L671
target_id = fip_target["port_id"]
self.neutron.update_floatingip(
self._fip["id"],
body={
"floatingip": {
"port_id": target_id,
# 'fixed_ip_address': ip_address,
}
},
)
return self.ip
def disassociate_floating_ip(self):
if self.ip is None:
return
self.server.remove_floating_ip(self.ip)
if self._fip_created:
self.neutron.delete_floatingip(self._fip["id"])
self.ip = None
self._fip = None
self._fip_created = False
def delete(self):
self.server.delete()
# wait for deletion complete
for _ in range(30):
sleep(60)
try:
self.server.get()
except Exception as e:
if "HTTP 404" in str(e):
return
else:
raise RuntimeError("timeout, server failed to terminate")
def rebuild(self, idname):
self.image = resolve_image_idname(self.glance, idname)
self.server.rebuild(self.image)
class OpenstackDriver():
def __init__(self, cloud_config=None):
cloud_config = OPENSTACK_CONFIGUE
self.auth_url = cloud_config['os_auth_url']
self.project_name = cloud_config['os_project_name']
self.username = cloud_config['os_username']
self.password = cloud_config['os_password']
self.user_domain_name = \
cloud_config['os_project_domain_name']
self.project_domain_name = \
cloud_config['os_user_domain_name']
self.client_version = \
cloud_config['os_novaclient_version']
self._setup()
def _setup(self):
auth = v3.Password(auth_url=self.auth_url,
user_domain_name=self.user_domain_name,
username=self.username,
password=self.password,
project_domain_name=self.project_domain_name,
project_name=self.project_name)
sess = session.Session(auth=auth)
self.client = Client(self.client_version, session=sess)
self.neutron_client = Neutron_Client(session=sess)
def show(self, instance_id):
server = self.client.servers.get(
instance_id
)
return server
def list(self):
servers = self.client.servers.list()
return servers
def reboot(self, instance_id):
"""Soft reboot"""
self.client.servers.reboot(instance_id)
return True
def list_nic(self, instance_id):
"""List all Network Interface Controller
"""
# NOTE: interfaces a list of novaclient.v2.servers.Server
interfaces = self.client.servers.interface_list(instance_id)
return interfaces
def list_ip(self, instance_id):
"""Add all IPs"""
return dict(self.client.servers.ips(instance_id))
def add_nic(self, instance_id, net_id):
"""Add a Network Interface Controller"""
# TODO: upgrade with port_id and fixed_ip in future
self.client.servers.interface_attach(
instance_id, None, net_id, None)
return True
def shutdown(self, instance_id):
self.client.servers.stop(instance_id)
return True
def start(self, instance_id):
self.client.servers.start(instance_id)
return True
def net_list(self):
list_net = self.neutron_client.list_networks()
return list_net
def choice_network(self, instance_id):
network_choice = ''
workload = self.show(instance_id=instance_id)
network_name_list = []
for key, value in workload.networks.items():
network_name_list.append(key)
list_net_obj = self.neutron_client.list_networks()
list_network = list_net_obj['networks']
for network in list_network:
if network['name'] not in network_name_list:
network_choice = network['id']
break
return network_choice
def _get_client():
token = id_client.get_scoped_token_v3("user")
return Client(endpoint=CONF.syntribos.endpoint, token=token)
def __init__(self):
creds = keystone.keystone_retrieve()
self.neutron_session = Client(**creds)
def set_neutron(self, os_tenant_id):
# self.os_tenant_id = os_tenant_id
if not self.neutron:
self.neutron = Neutron(session=self._get_session(os_tenant_id))
class OSClient(object):
def __init__(self, testbed_name, testbed, tenant_name=None, project_id=None):
self.testbed_name = testbed_name
self.tenant_name = None
self.project_id = None
self.testbed = testbed
self.project_domain_name = self.testbed.get('project_domain_name') or 'Default'
self.user_domain_name = self.testbed.get('user_domain_name') or 'Default'
self.api_version = self.testbed.get('api_version')
self.username = self.testbed.get('username')
self.password = self.testbed.get('password')
self.auth_url = self.testbed.get("auth_url")
if self.auth_url.endswith('/'):
self.auth_url = self.auth_url[:-1]
self.admin_tenant_name = self.testbed.get("admin_tenant_name")
self.admin_project_id = self.testbed.get("admin_project_id")
if not self.admin_tenant_name and not self.admin_project_id:
raise OpenstackClientError("Missing both admin project id and admin tenant name")
if self.api_version == 2 and not self.admin_tenant_name:
raise OpenstackClientError("Missing tenant name required if using v2")
if self.api_version == 3 and not self.admin_project_id:
raise OpenstackClientError("Missing project id required if using v3")
self.neutron = None
self.nova = None
self.glance = None
self.keypair = None
self.sec_group = None
self.os_tenant_id = None
# logger.debug("Log level is: %s and DEBUG is %s" % (logger.getEffectiveLevel(), logging.DEBUG))
# if logger.getEffectiveLevel() == logging.DEBUG:
# logging.basicConfig(level=logging.DEBUG)
if not tenant_name and not project_id:
self.keystone = self._create_keystone_client()
logger.debug("Created Keystone client %s" % self.keystone)
else:
self.tenant_name = tenant_name
self.project_id = project_id
if self.api_version == 2 and not self.tenant_name:
raise OpenstackClientError("Missing tenant name required if using v2")
if self.api_version == 3 and not self.project_id:
raise OpenstackClientError("Missing project id required if using v3")
logger.debug("Creating keystone client")
if self.api_version == 3:
self.keystone = self._create_keystone_client(project_id)
self.os_tenant_id = project_id
else:
self.keystone = self._create_keystone_client(tenant_name)
self.os_tenant_id = self.project_id = self._get_tenant_id_from_name(tenant_name)
logger.debug("Created Keystone client %s" % self.keystone)
self.set_nova(self.os_tenant_id)
self.set_neutron(self.os_tenant_id)
self.set_glance(self.os_tenant_id)
def _create_keystone_client(self, project_id=None):
if self.api_version == 3:
return keystoneclient.v3.client.Client(session=self._get_session(project_id))
elif self.api_version == 2:
if not project_id:
project_id = self.tenant_name or self.admin_tenant_name
return keystoneclient.v2_0.client.Client(username=self.username,
password=self.password,
tenant_name=project_id,
auth_url=self.auth_url)
def set_nova(self, os_tenant_id):
self.nova = Nova('2.1', session=self._get_session(os_tenant_id))
def _get_session(self, tenant_id=None):
if self.api_version == 2:
tenant_name = self.tenant_name or self.admin_tenant_name
auth = v2.Password(auth_url=self.auth_url,
username=self.username,
password=self.password,
tenant_name=tenant_name)
elif self.api_version == 3:
p_id = tenant_id or self.project_id or self.admin_project_id
auth = v3.Password(auth_url=self.auth_url,
username=self.username,
password=self.password,
project_id=p_id,
project_domain_name=self.project_domain_name,
user_domain_name=self.user_domain_name)
else:
msg = "Wrong api version: %s" % self.api_version
logger.error(msg)
raise OpenstackClientError(msg)
return session.Session(auth=auth)
def set_neutron(self, os_tenant_id):
# self.os_tenant_id = os_tenant_id
if not self.neutron:
self.neutron = Neutron(session=self._get_session(os_tenant_id))
def get_user(self, username=None):
users = self.list_users()
if username:
un = username
else:
un = self.username
for user in users:
if user.name == un:
return user
def get_role(self, role_to_find):
roles = self.list_roles()
for role in roles:
if role.name == role_to_find:
return role
def list_roles(self):
return self.keystone.roles.list()
def list_tenants(self):
if self.api_version == 3:
return self.keystone.projects.list()
else:
return self.keystone.tenants.list()
def create_tenant(self, tenant_name, description):
self.tenant_name = tenant_name
if self.api_version == 2:
return self.keystone.tenants.create(tenant_name=tenant_name, description=description)
else:
return self.keystone.projects.create(name=tenant_name, description=description,
domain=self.user_domain_name.lower())
def add_user_role(self, user, role, tenant):
if self.api_version == 2:
try:
return self.keystone.roles.add_user_role(user=user, role=role, tenant=tenant)
except Conflict as c:
if c.http_status == 409: # role already assigned to user
return
raise c
else:
return self.keystone.roles.grant(user=user, role=role, project=tenant)
def import_keypair(self, key_file, os_tenant_id=None):
if not self.nova and not os_tenant_id:
raise OpenstackClientError("Both os_tenant_id and nova obj are None")
if not self.nova:
self.set_nova(os_tenant_id=os_tenant_id)
keypair_name = "softfire-key"
self.keypair = keypair_name
for keypair in self.list_keypairs(os_tenant_id):
if keypair.name == keypair_name:
return keypair
if os.path.isfile(key_file):
with open(key_file, "r") as sosftfire_ssh_pub_key:
kargs = {"name": keypair_name,
"public_key": sosftfire_ssh_pub_key.read()}
return self.nova.keypairs.create(**kargs)
else:
kargs = {"name": keypair_name,
"public_key": key_file}
return self.nova.keypairs.create(**kargs)
def get_ext_net(self, ext_net_name='softfire-network'):
return [ext_net for ext_net in self.neutron.list_networks()['networks'] if
ext_net['router:external'] and ext_net['name'] == ext_net_name][0]
def allocate_floating_ips(self, ext_net, fip_num=0):
body = {
"floatingip": {
"floating_network_id": ext_net['id']
}
}
for i in range(fip_num):
try:
self.neutron.create_floatingip(body=body)
except IpAddressGenerationFailureClient as e:
logger.error("Not able to allocate floatingips :(")
raise OpenstackClientError("Not able to allocate floatingips :(")
def create_networks_and_subnets(self, ext_net, router_name='ob_router'):
networks = []
subnets = []
ports = []
router_id = None
exist_net = [network for network in self.neutron.list_networks()['networks']]
exist_net_names = [network['name'] for network in exist_net]
net_name_to_create = [net for net in NETWORKS if net not in exist_net_names]
networks.extend(network for network in exist_net if network['name'] in NETWORKS)
index = 1
for net in net_name_to_create:
kwargs = {'network': {
'name': net,
'shared': False,
'admin_state_up': True
}}
logger.debug("Creating net %s" % net)
network_ = self.neutron.create_network(body=kwargs)['network']
networks.append(network_)
kwargs = {
'subnets': [
{
'name': "subnet_%s" % net,
'cidr': "192.%s.%s.0/24" % ((get_username_hash(self.username) % 254) + 1, index),
'gateway_ip': '192.%s.%s.1' % ((get_username_hash(self.username) % 254) + 1, index),
'ip_version': '4',
'enable_dhcp': True,
'dns_nameservers': ['8.8.8.8'],
'network_id': network_['id']
}
]
}
logger.debug("Creating subnet subnet_%s" % net)
subnet = self.neutron.create_subnet(body=kwargs)
subnets.append(subnet)
router = self.get_router_from_name(router_name, ext_net)
router_id = router['router']['id']
body_value = {
'subnet_id': subnet['subnets'][0]['id'],
}
try:
ports.append(self.neutron.add_interface_router(router=router_id, body=body_value))
except Exception as e:
pass
index += 1
return networks, subnets, router_id
def get_router_from_name(self, router_name, ext_net):
for router in self.neutron.list_routers()['routers']:
if router['name'] == router_name:
return self.neutron.show_router(router['id'])
request = {'router': {'name': router_name, 'admin_state_up': True}}
router = self.neutron.create_router(request)
body_value = {"network_id": ext_net['id']}
self.neutron.add_gateway_router(router=router['router']['id'], body=body_value)
return router
def create_rule(self, sec_group, protocol):
body = {"security_group_rule": {
"direction": "ingress",
"port_range_min": "1",
"port_range_max": "65535",
# "name": sec_group['security_group']['name'],
"security_group_id": sec_group['security_group']['id'],
"remote_ip_prefix": "0.0.0.0/0",
"protocol": protocol,
}}
if protocol == 'icmp':
body['security_group_rule'].pop('port_range_min', None)
body['security_group_rule'].pop('port_range_max', None)
try:
self.neutron.create_security_group_rule(body=body)
except neutronclient.common.exceptions.Conflict as e:
logger.error("error while creating a rule: %s" % e.message)
pass
def create_security_group(self, project_id, sec_g_name=None):
if not sec_g_name:
sec_g_name = sec_group_name
sec_group = {}
for sg in self.list_sec_group(project_id):
if sg['name'] == sec_g_name:
sec_group['security_group'] = sg
break
if len(sec_group) == 0:
body = dict(security_group=dict(name=sec_g_name, description="openbaton security group"),
project_id=project_id, tenant_id=project_id)
sec_group = self.neutron.create_security_group(body=body)
self.create_rule(sec_group, 'tcp')
self.create_rule(sec_group, 'udp')
self.create_rule(sec_group, 'icmp')
self.sec_group = sec_group['security_group']
return self.sec_group
def list_sec_group(self, os_project_id):
if not self.neutron:
self.set_neutron(os_project_id)
return [sec for sec in self.neutron.list_security_groups()['security_groups'] if
(sec.get('tenant_id') is not None and sec.get('tenant_id') == os_project_id) or (
sec.get('project_id') is not None and sec.get('project_id') == os_project_id)]
def get_vim_instance(self, tenant_name, username=None, password=None):
if username:
un = username
else:
un = self.username
if password:
pwd = password
else:
pwd = self.password
logger.debug("Using tenant id: %s " % tenant_name)
return {
"name": "vim-instance-%s" % self.testbed_name,
"authUrl": self.auth_url,
"tenant": tenant_name,
"username": un,
"password": pwd,
"securityGroups": [
'default', sec_group_name
],
"type": "openstack",
"location": {
"name": "Berlin",
"latitude": "52.525876",
"longitude": "13.314400"
}
}
def upload_image(self, name, path, container_format="bare", disk_format="qcow2", visibility="public"):
# image = self.glance.images.create(name=name)
# self.glance.images.upload(image.id, open(path, 'rb'))
with open(path, 'rb') as fimage:
img = self.glance.images.create(name=name,
# is_public="True",
# public="True",
visibility=visibility,
disk_format=disk_format,
container_format=container_format,
data=path)
# print(dir(self.glance.images))
self.glance.images.upload(img.id, fimage)
def list_images(self, tenant_id=None):
if not self.nova:
if not tenant_id:
logger.error("Missing tenant_id!")
raise OpenstackClientError('Missing tenant_id!')
self.set_nova(tenant_id)
try:
imgs = self.nova.images.list()
return imgs
except:
self.set_glance(tenant_id)
return self.glance.images.list()
def _get_tenant_id_from_name(self, tenant_name):
if self.api_version == 2:
tenants_list = self.keystone.tenants.list()
else:
tenants_list = self.keystone.projects.list()
for tenant in tenants_list:
if tenant.name == tenant_name:
return tenant.id
def set_glance(self, os_tenant_id):
self.os_tenant_id = os_tenant_id
self.glance = Glance('2', session=self._get_session(os_tenant_id))
def _get_tenant_name_from_id(self, os_tenant_id):
for t in self.list_tenants():
if t.id == os_tenant_id:
return t.name
def create_user(self, username, password=None, tenant_id=None):
for u in self.list_users():
if hasattr(u, 'username'):
u_username = u.username
else:
u_username = u.name
if u_username == username:
return u
if not password:
raise OpenstackClientError("Paswsord is needed to create user")
if self.api_version == 2:
return self.keystone.users.create(username, password, tenant_id=tenant_id)
else:
return self.keystone.users.create(name=username, password=password,
project=self.get_project_from_id(tenant_id))
def list_users(self):
return self.keystone.users.list()
def list_networks(self, project_id=None):
if not self.neutron:
if not project_id:
raise OpenstackClientError("Missing project_id!")
self.set_neutron(project_id)
return self.neutron.list_networks(tenant_id=project_id)
def list_subnets(self, project_id):
if not self.neutron:
if not project_id:
raise OpenstackClientError("Missing project_id!")
self.set_neutron(project_id)
return self.neutron.list_subnets(tenant_id=project_id)
def list_floatingips(self, project_id):
if not self.neutron:
if not project_id:
raise OpenstackClientError("Missing project_id!")
self.set_neutron(project_id)
return self.neutron.list_floatingips(tenant_id=project_id)
def list_routers(self, project_id):
if not self.neutron:
if not project_id:
raise OpenstackClientError("Missing project_id!")
self.set_neutron(project_id)
return self.neutron.list_routers(tenant_id=project_id)
def list_ports(self, project_id):
if not self.neutron:
if not project_id:
raise OpenstackClientError("Missing project_id!")
self.set_neutron(project_id)
return self.neutron.list_ports(tenant_id=project_id)
def list_keypairs(self, os_project_id=None):
if not self.nova:
if not os_project_id:
raise OpenstackClientError("Missing project_id!")
self.set_nova(os_project_id)
return self.nova.keypairs.list()
def list_domains(self):
return self.keystone.domains.list()
def get_project_from_id(self, tenant_id):
for p in self.list_tenants():
if p.id == tenant_id:
return p
raise OpenstackClientError("Project with id %s not found")
def delete_user(self, username):
try:
self.keystone.users.delete(self.create_user(username=username))
except:
traceback.print_exc()
logger.error("Not Able to delete user %s" % username)
def delete_project(self, project_id):
try:
if self.api_version == 2:
self.keystone.tenants.delete(project_id)
else:
self.keystone.projects.delete(project_id)
except:
traceback.print_exc()
logger.error("Not Able to delete project %s" % project_id)
def release_floating_ips(self, project_id, keep_fip_id_list=list()):
fips = self.list_floatingips(project_id).get('floatingips')
for fip in fips:
if fip.get('id') in keep_fip_id_list:
logger.debug("Not relasing floating ip: %s" % fip)
else:
self.neutron.delete_floatingip(fip.get('id'))
def delete_ports(self, project_id):
ports = self.list_ports(project_id).get('ports')
for port in ports:
try:
self.neutron.delete_port(port.get('id'))
except Exception as e:
pass
def remove_gateway_routers(self, project_id):
routers = self.list_routers(project_id).get('routers')
for router in routers:
self.neutron.remove_gateway_router(router.get('id'))
def remove_interface_routers(self, project_id):
routers = self.list_routers(project_id).get('routers')
subnets = self.list_subnets(project_id).get('subnets')
for router in routers:
for subnet in subnets:
body_value = {
'subnet_id': subnet.get('id'),
}
try:
self.neutron.remove_interface_router(router.get('id'), body_value)
break
except Exception as e:
pass
else:
logger.warning('No subnet found that is associated to router {}'.format(router.get('id')))
def delete_routers(self, project_id):
routers = self.list_routers(project_id).get('routers')
for router in routers:
self.neutron.delete_router(router.get('id'))
def delete_networks(self, project_id):
networks = self.list_networks(project_id).get('networks')
for nw in networks:
self.neutron.delete_network(nw.get('id'))
def delete_security_groups(self, project_id):
sec_groups = self.list_sec_group(project_id)
for sec_group in sec_groups:
self.neutron.delete_security_group(sec_group.get('id'))
def _wait_client_availability(**credentials):
rest_client = Client(session=get_session(**credentials))
neutron_client = client.NeutronClient(rest_client)
neutron_client.networks.find_all()
return neutron_client
def _get_client():
rest_client = Client(session=get_session())
return client.NeutronClient(rest_client)
