def test_traffic_connections_while_control_nodes_go_down(self):
"""Tests related to connections and traffic while switching from normal mode to headless and back
i.e. control nodes go down and come online."""
if len(self.inputs.compute_ips) < 2:
raise unittest.SkipTest("This test needs atleast 2 compute nodes.")
else:
self.logger.info("Required resources are in place to run the test.")
result = True
topology_class_name = None
self.compute_fixture_dict = {}
for each_compute in self.inputs.compute_ips:
self.compute_fixture_dict[each_compute] = self.useFixture(
ComputeNodeFixture(
connections=self.connections,
node_ip=each_compute,
username=self.inputs.username,
password=self.inputs.password))
mode = self.compute_fixture_dict[
each_compute].get_agent_headless_mode()
if mode is False:
self.compute_fixture_dict[
each_compute].set_agent_headless_mode()
#
# Get config for test from topology
result = True
msg = []
if not topology_class_name:
topology_class_name = test_headless_vrouter_topo.sdn_headless_vrouter_topo
self.logger.info("Scenario for the test used is: %s" %
(topology_class_name))
#
# Create a list of compute node IP's and pass it to topo if you want to pin
# a vm to a particular node
topo_obj = topology_class_name(
compute_node_list=self.inputs.compute_ips)
#
# Test setup: Configure policy, VN, & VM
# return {'result':result, 'msg': err_msg, 'data': [self.topo, config_topo]}
# Returned topo is of following format:
# config_topo= {'policy': policy_fixt, 'vn': vn_fixture, 'vm': vm_fixture}
topo = {}
topo_objs = {}
config_topo = {}
setup_obj = self.useFixture(
sdnTopoSetupFixture(self.connections, topo_obj))
out = setup_obj.sdn_topo_setup()
self.assertEqual(out['result'], True, out['msg'])
if out['result']:
topo_objs, config_topo, vm_fip_info = out['data']
# Start Test
proj = config_topo.keys()
vms = config_topo[proj[0]]['vm'].keys()
src_vm = config_topo[proj[0]]['vm'][vms[0]]
dest_vm = config_topo[proj[0]]['vm'][vms[1]]
flow_cache_timeout = 180
# Setup Traffic.
stream = Stream(protocol="ip", proto="icmp",
src=src_vm.vm_ip, dst=dest_vm.vm_ip)
profile = ContinuousProfile(stream=stream, count=0, capfilter="icmp")
tx_vm_node_ip = src_vm.vm_node_ip
rx_vm_node_ip = dest_vm.vm_node_ip
tx_local_host = Host(
tx_vm_node_ip,
self.inputs.username,
self.inputs.password)
rx_local_host = Host(
rx_vm_node_ip,
self.inputs.username,
self.inputs.password)
send_host = Host(
src_vm.local_ip,
src_vm.vm_username,
src_vm.vm_password)
recv_host = Host(
dest_vm.local_ip,
dest_vm.vm_username,
dest_vm.vm_password)
sender = Sender("icmp", profile, tx_local_host,
send_host, self.inputs.logger)
receiver = Receiver("icmp", profile, rx_local_host,
recv_host, self.inputs.logger)
receiver.start()
sender.start()
flow_index_list = headless_vr_utils.get_flow_index_list(
self,
src_vm,
dest_vm)
headless_vr_utils.stop_all_control_services(self)
self.addCleanup(self.inputs.start_service, 'supervisor-control', self.inputs.bgp_ips)
headless_vr_utils.check_through_tcpdump(self, dest_vm, src_vm)
flow_index_list2 = headless_vr_utils.get_flow_index_list(
self,
src_vm,
dest_vm)
if set(flow_index_list) == set(flow_index_list2):
self.logger.info("Flow indexes have not changed.")
else:
self.logger.error(
"Flow indexes have changed. Test Failed, Exiting")
return False
# wait_for_flow_cache_timeout
time.sleep(flow_cache_timeout)
# verify_flow_is_not_recreated
flow_index_list = headless_vr_utils.get_flow_index_list(
self,
src_vm,
dest_vm)
if set(flow_index_list) == set(flow_index_list2):
self.logger.info("Flow indexes have not changed.")
else:
self.logger.error(
"Flow indexes have changed. Test Failed, Exiting")
return False
receiver.stop()
sender.stop()
# wait_for_flow_cache_timeout
time.sleep(flow_cache_timeout + 5)
# verify_flow_is_cleared
flow_index_list = headless_vr_utils.get_flow_index_list(
self,
src_vm,
dest_vm)
if not flow_index_list[0]:
self.logger.info("No flows are present")
else:
self.logger.error("Flows are still present.")
return False
# start_ping
receiver.start()
sender.start()
# verify_flow_is_recreated
flow_index_list = headless_vr_utils.get_flow_index_list(
self,
src_vm,
dest_vm)
if (flow_index_list[0] and flow_index_list[1]):
self.logger.info("Flows are recreated.")
else:
self.logger.error("Flows are still absent.")
return False
headless_vr_utils.start_all_control_services(self)
headless_vr_utils.check_through_tcpdump(self, dest_vm, src_vm)
# wait_for_flow_cache_timeout
time.sleep(flow_cache_timeout + 5)
flow_index_list2 = headless_vr_utils.get_flow_index_list(
self,
src_vm,
dest_vm)
if set(flow_index_list) == set(flow_index_list2):
self.logger.info("Flow indexes have not changed.")
else:
self.logger.error(
"Flow indexes have changed. Test Failed, Exiting")
return False
receiver.stop()
sender.stop()
# wait_for_flow_cache_timeout
time.sleep(flow_cache_timeout + 5)
# verify_flow_is_cleared
flow_index_list = headless_vr_utils.get_flow_index_list(
self,
src_vm,
dest_vm)
if not flow_index_list[0]:
self.logger.info("No flows are present")
else:
self.logger.error("Flows are still present.")
return False
# start_ping
receiver.start()
sender.start()
# verify_flow_is_recreated
flow_index_list = headless_vr_utils.get_flow_index_list(
self,
src_vm,
dest_vm)
if (flow_index_list[0] and flow_index_list[1]):
self.logger.info("Flows are recreated.")
else:
self.logger.error("Flows are still absent.")
return False
receiver.stop()
sender.stop()
return True
def test_traffic_connections_while_control_nodes_go_down(self):
"""Tests related to connections and traffic while switching from normal mode to headless and back
i.e. control nodes go down and come online."""
if len(self.inputs.compute_ips) < 2:
raise unittest.SkipTest("This test needs atleast 2 compute nodes.")
else:
self.logger.info(
"Required resources are in place to run the test.")
result = True
topology_class_name = None
self.compute_fixture_dict = {}
for each_compute in self.inputs.compute_ips:
self.compute_fixture_dict[each_compute] = self.useFixture(
ComputeNodeFixture(connections=self.connections,
node_ip=each_compute,
username=self.inputs.username,
password=self.inputs.password))
mode = self.compute_fixture_dict[
each_compute].get_agent_headless_mode()
if mode is False:
self.compute_fixture_dict[
each_compute].set_agent_headless_mode()
#
# Get config for test from topology
result = True
msg = []
if not topology_class_name:
topology_class_name = test_headless_vrouter_topo.sdn_headless_vrouter_topo
self.logger.info("Scenario for the test used is: %s" %
(topology_class_name))
#
# Create a list of compute node IP's and pass it to topo if you want to pin
# a vm to a particular node
topo_obj = topology_class_name(
compute_node_list=self.inputs.compute_ips)
#
# Test setup: Configure policy, VN, & VM
# return {'result':result, 'msg': err_msg, 'data': [self.topo, config_topo]}
# Returned topo is of following format:
# config_topo= {'policy': policy_fixt, 'vn': vn_fixture, 'vm': vm_fixture}
topo = {}
topo_objs = {}
config_topo = {}
setup_obj = self.useFixture(
sdnTopoSetupFixture(self.connections, topo_obj))
out = setup_obj.sdn_topo_setup()
self.assertEqual(out['result'], True, out['msg'])
if out['result']:
topo_objs, config_topo, vm_fip_info = out['data']
# Start Test
proj = config_topo.keys()
vms = config_topo[proj[0]]['vm'].keys()
src_vm = config_topo[proj[0]]['vm'][vms[0]]
dest_vm = config_topo[proj[0]]['vm'][vms[1]]
flow_cache_timeout = 180
# Setup Traffic.
stream = Stream(protocol="ip",
proto="icmp",
src=src_vm.vm_ip,
dst=dest_vm.vm_ip)
profile = ContinuousProfile(stream=stream, count=0, capfilter="icmp")
tx_vm_node_ip = src_vm.vm_node_ip
rx_vm_node_ip = dest_vm.vm_node_ip
tx_local_host = Host(tx_vm_node_ip, self.inputs.username,
self.inputs.password)
rx_local_host = Host(rx_vm_node_ip, self.inputs.username,
self.inputs.password)
send_host = Host(src_vm.local_ip, src_vm.vm_username,
src_vm.vm_password)
recv_host = Host(dest_vm.local_ip, dest_vm.vm_username,
dest_vm.vm_password)
sender = Sender("icmp", profile, tx_local_host, send_host,
self.inputs.logger)
receiver = Receiver("icmp", profile, rx_local_host, recv_host,
self.inputs.logger)
receiver.start()
sender.start()
self.logger.info("Waiting for 5 sec for traffic to be setup ...")
time.sleep(5)
flow_index_list = headless_vr_utils.get_flow_index_list(
self, src_vm, dest_vm)
headless_vr_utils.stop_all_control_services(self)
self.addCleanup(self.inputs.start_service,
'contrail-control',
self.inputs.bgp_ips,
container='control')
headless_vr_utils.check_through_tcpdump(self, dest_vm, src_vm)
flow_index_list2 = headless_vr_utils.get_flow_index_list(
self, src_vm, dest_vm)
if flow_index_list == flow_index_list2:
self.logger.info("Flow indexes have not changed.")
else:
self.logger.error(
"Flow indexes have changed. Test Failed, Exiting")
return False
# wait_for_flow_cache_timeout
time.sleep(flow_cache_timeout)
# verify_flow_is_not_recreated
flow_index_list = headless_vr_utils.get_flow_index_list(
self, src_vm, dest_vm)
if flow_index_list == flow_index_list2:
self.logger.info("Flow indexes have not changed.")
else:
self.logger.error(
"Flow indexes have changed. Test Failed, Exiting")
return False
receiver.stop()
sender.stop()
# wait_for_flow_cache_timeout
time.sleep(flow_cache_timeout + 5)
# verify_flow_is_cleared
flow_index_list = headless_vr_utils.get_flow_index_list(
self, src_vm, dest_vm)
if not len(flow_index_list):
self.logger.info("No flows are present")
else:
self.logger.error("Flows are still present.")
return False
# start_ping
receiver.start()
sender.start()
self.logger.info("Waiting for 5 sec for traffic to be setup ...")
time.sleep(5)
# verify_flow_is_recreated
flow_index_list = headless_vr_utils.get_flow_index_list(
self, src_vm, dest_vm)
if (flow_index_list[0] and flow_index_list[1]):
self.logger.info("Flows are recreated.")
else:
self.logger.error("Flows are still absent.")
return False
headless_vr_utils.start_all_control_services(self)
headless_vr_utils.check_through_tcpdump(self, dest_vm, src_vm)
# wait_for_flow_cache_timeout
time.sleep(flow_cache_timeout + 5)
flow_index_list2 = headless_vr_utils.get_flow_index_list(
self, src_vm, dest_vm)
if flow_index_list == flow_index_list2:
self.logger.info("Flow indexes have not changed.")
else:
self.logger.error(
"Flow indexes have changed. Test Failed, Exiting")
return False
receiver.stop()
sender.stop()
# wait_for_flow_cache_timeout
time.sleep(flow_cache_timeout + 5)
# verify_flow_is_cleared
flow_index_list = headless_vr_utils.get_flow_index_list(
self, src_vm, dest_vm)
if not len(flow_index_list):
self.logger.info("No flows are present")
else:
self.logger.error("Flows are still present.")
return False
# start_ping
receiver.start()
sender.start()
self.logger.info("Waiting for 5 sec for traffic to be setup ...")
time.sleep(5)
# verify_flow_is_recreated
flow_index_list = headless_vr_utils.get_flow_index_list(
self, src_vm, dest_vm)
if (flow_index_list[0] and flow_index_list[1]):
self.logger.info("Flows are recreated.")
else:
self.logger.error("Flows are still absent.")
return False
receiver.stop()
sender.stop()
return True
def test_config_add_change_while_control_nodes_go_down(self):
"""Tests related to configuration add, change, and delete while switching from normal mode
to headless and back i.e. control nodes go down and come online."""
if len(self.inputs.compute_ips) < 2:
raise unittest.SkipTest("This test needs atleast 2 compute nodes.")
else:
self.logger.info("Required resources are in place to run the test.")
result = True
topology_class_name = None
self.compute_fixture_dict = {}
for each_compute in self.inputs.compute_ips:
self.compute_fixture_dict[each_compute] = self.useFixture(
ComputeNodeFixture(
connections=self.connections,
node_ip=each_compute,
username=self.inputs.username,
password=self.inputs.password))
mode = self.compute_fixture_dict[
each_compute].get_agent_headless_mode()
if mode is False:
self.compute_fixture_dict[
each_compute].set_agent_headless_mode()
#
# Get config for test from topology
result = True
msg = []
if not topology_class_name:
topology_class_name = test_headless_vrouter_topo.sdn_headless_vrouter_topo
self.logger.info("Scenario for the test used is: %s" %
(topology_class_name))
#
# Create a list of compute node IP's and pass it to topo if you want to pin
# a vm to a particular node
topo_obj = topology_class_name(
compute_node_list=self.inputs.compute_ips)
#
# Test setup: Configure policy, VN, & VM
# return {'result':result, 'msg': err_msg, 'data': [self.topo, config_topo]}
# Returned topo is of following format:
# config_topo= {'policy': policy_fixt, 'vn': vn_fixture, 'vm': vm_fixture}
topo = {}
topo_objs = {}
config_topo = {}
setup_obj = self.useFixture(
sdnTopoSetupFixture(self.connections, topo_obj))
out = setup_obj.sdn_topo_setup()
self.assertEqual(out['result'], True, out['msg'])
if out['result']:
topo_objs, config_topo, vm_fip_info = out['data']
# Start Test
proj = config_topo.keys()
vms = config_topo[proj[0]]['vm'].keys()
src_vm = config_topo[proj[0]]['vm'][vms[0]]
dest_vm = config_topo[proj[0]]['vm'][vms[1]]
flow_cache_timeout = 180
# Setup Traffic.
stream = Stream(protocol="ip", proto="icmp",
src=src_vm.vm_ip, dst=dest_vm.vm_ip)
profile = ContinuousProfile(stream=stream, count=0, capfilter="icmp")
tx_vm_node_ip = src_vm.vm_node_ip
rx_vm_node_ip = dest_vm.vm_node_ip
tx_local_host = Host(
tx_vm_node_ip,
self.inputs.username,
self.inputs.password)
rx_local_host = Host(
rx_vm_node_ip,
self.inputs.username,
self.inputs.password)
send_host = Host(
src_vm.local_ip,
src_vm.vm_username,
src_vm.vm_password)
recv_host = Host(
dest_vm.local_ip,
dest_vm.vm_username,
dest_vm.vm_password)
sender = Sender("icmp", profile, tx_local_host,
send_host, self.inputs.logger)
receiver = Receiver("icmp", profile, rx_local_host,
recv_host, self.inputs.logger)
receiver.start()
sender.start()
#self.start_ping(src_vm, dest_vm)
flow_index_list = headless_vr_utils.get_flow_index_list(
self,
src_vm,
dest_vm)
headless_vr_utils.stop_all_control_services(self)
self.addCleanup(self.inputs.start_service, 'supervisor-control', self.inputs.bgp_ips)
time.sleep(10)
headless_vr_utils.check_through_tcpdump(self, dest_vm, src_vm)
flow_index_list2 = headless_vr_utils.get_flow_index_list(
self,
src_vm,
dest_vm)
if set(flow_index_list) == set(flow_index_list2):
self.logger.info("Flow indexes have not changed.")
else:
self.logger.error(
"Flow indexes have changed. Test Failed, Exiting")
return False
receiver.stop()
sender.stop()
project1_instance = config_topo['project1']['project']['project1']
project1_instance.get_project_connections()
vnet2_instance = config_topo['project1']['vn']['vnet2']
# add VM to existing VN
VM22_fixture = self.useFixture(
VMFixture(
connections=project1_instance.project_connections,
vn_obj=vnet2_instance.obj,
vm_name='VM22',
project_name=project1_instance.project_name))
# create new IPAM
ipam3_obj = self.useFixture(
IPAMFixture(
project_obj=project1_instance,
name='ipam3'))
ipam4_obj = self.useFixture(
IPAMFixture(
project_obj=project1_instance,
name='ipam4'))
# create new VN
VN3_fixture = self.useFixture(
VNFixture(
project_name=project1_instance.project_name,
connections=project1_instance.project_connections,
vn_name='VN3',
inputs=project1_instance.inputs,
subnets=['10.3.1.0/24'],
ipam_fq_name=ipam3_obj.fq_name))
VN4_fixture = self.useFixture(
VNFixture(
project_name=project1_instance.project_name,
connections=project1_instance.project_connections,
vn_name='VN4',
inputs=project1_instance.inputs,
subnets=['10.4.1.0/24'],
ipam_fq_name=ipam4_obj.fq_name))
# create policy
policy_name = 'policy34'
rules = []
rules = [{'direction': '<>',
'protocol': 'icmp',
'dest_network': VN4_fixture.vn_fq_name,
'source_network': VN3_fixture.vn_fq_name,
'dst_ports': 'any',
'simple_action': 'pass',
'src_ports': 'any'},
{'direction': '<>',
'protocol': 'icmp',
'dest_network': VN3_fixture.vn_fq_name,
'source_network': VN4_fixture.vn_fq_name,
'dst_ports': 'any',
'simple_action': 'pass',
'src_ports': 'any'}]
policy34_fixture = self.useFixture(
PolicyFixture(
policy_name=policy_name,
rules_list=rules,
inputs=project1_instance.inputs,
connections=project1_instance.project_connections))
# create VN to policy mapping in a dict of policy list.
vn_policys = {
VN3_fixture.vn_name: [policy_name],
VN4_fixture.vn_name: [policy_name]}
# create a policy object list of policies to be attached to a vm
policy_obj_dict = {}
policy_obj_dict[VN3_fixture.vn_name] = [policy34_fixture.policy_obj]
policy_obj_dict[VN4_fixture.vn_name] = [policy34_fixture.policy_obj]
# vn fixture dictionary.
vn_obj_dict = {}
vn_obj_dict[VN3_fixture.vn_name] = VN3_fixture
vn_obj_dict[VN4_fixture.vn_name] = VN4_fixture
# attach policy to VN
VN3_policy_fixture = self.useFixture(
VN_Policy_Fixture(
connections=project1_instance.project_connections,
vn_name=VN3_fixture.vn_name,
policy_obj=policy_obj_dict,
vn_obj=vn_obj_dict,
vn_policys=vn_policys[
VN3_fixture.vn_name],
project_name=project1_instance.project_name))
VN4_policy_fixture = self.useFixture(
VN_Policy_Fixture(
connections=project1_instance.project_connections,
vn_name=VN4_fixture.vn_name,
policy_obj=policy_obj_dict,
vn_obj=vn_obj_dict,
vn_policys=vn_policys[
VN4_fixture.vn_name],
project_name=project1_instance.project_name))
# add VM to new VN
VM31_fixture = self.useFixture(
VMFixture(
connections=project1_instance.project_connections,
vn_obj=VN3_fixture.obj,
vm_name='VM31',
project_name=project1_instance.project_name))
VM41_fixture = self.useFixture(
VMFixture(
connections=project1_instance.project_connections,
vn_obj=VN4_fixture.obj,
vm_name='VM41',
project_name=project1_instance.project_name))
# verification routines.
test_flag = 0
if ((VN3_fixture.verify_vn_in_api_server()) and
(VN3_fixture.verify_vn_not_in_agent()) and
(VN3_fixture.verify_vn_policy_in_api_server()['result'])):
self.logger.info(
"Verification of VN3 PASSED while control nodes down.")
else:
self.logger.error(
"Verification of VN3 FAILED while control nodes down.")
test_flag = 1
if ((VN4_fixture.verify_vn_in_api_server()) and
(VN4_fixture.verify_vn_not_in_agent()) and
(VN4_fixture.verify_vn_policy_in_api_server()['result'])):
self.logger.info(
"Verification of VN4 PASSED while control nodes down.")
else:
self.logger.error(
"Verification of VN4 FAILED while control nodes down.")
test_flag = 1
if ((VM22_fixture.verify_vm_launched()) and
(VM22_fixture.verify_vm_in_api_server())):
self.logger.info(
"Verification of VM22 PASSED while control nodes down.")
else:
self.logger.error(
"Verification of VM22 FAILED while control nodes down.")
test_flag = 1
if ((VM31_fixture.verify_vm_launched()) and
(VM31_fixture.verify_vm_in_api_server())):
self.logger.info(
"Verification of VM31 PASSED while control nodes down.")
else:
self.logger.error(
"Verification of VM31 FAILED while control nodes down.")
test_flag = 1
if ((VM41_fixture.verify_vm_launched()) and
(VM41_fixture.verify_vm_in_api_server())):
self.logger.info(
"Verification of VM41 PASSED while control nodes down.")
else:
self.logger.error(
"Verification of VM41 FAILED while control nodes down.")
test_flag = 1
# start all control services.
headless_vr_utils.start_all_control_services(self)
# if something went wrong in the controller down state bail out here.
if test_flag == 1:
self.logger.error("Verifications and Test failed while the controllers were down in \
headless state of agent. Check earlier error logs")
return False
# wait for 3 to 5 sec for configuration sync from control nodes to the
# agents.
time.sleep(5)
# wait till VM's are up.
VM22_fixture.wait_till_vm_is_up()
VM31_fixture.wait_till_vm_is_up()
VM41_fixture.wait_till_vm_is_up()
# verify vm config gets downloaded to the agents.
if ((VM22_fixture.verify_vm_in_agent()) and
(VM31_fixture.verify_vm_in_agent()) and
(VM41_fixture.verify_vm_in_agent())):
self.logger.info("VM verification on the agent PASSED")
else:
self.logger.error("VM verification on the agent FAILED")
return False
# check ping success between the two VM's
assert config_topo['project1']['vm']['VM11'].ping_with_certainty(
VM22_fixture.vm_ip, expectation=True)
assert VM31_fixture.ping_with_certainty(
VM41_fixture.vm_ip,
expectation=True)
assert VM41_fixture.ping_with_certainty(
VM31_fixture.vm_ip,
expectation=True)
# verification routines.
if ((VN3_fixture.verify_on_setup()) and
(VN4_fixture.verify_on_setup()) and
(VM22_fixture.verify_on_setup()) and
(VM31_fixture.verify_on_setup()) and
(VM41_fixture.verify_on_setup())):
self.logger.info(
"All verifications passed after controllers came up in headless agent mode")
else:
self.logger.error(
"Verifications FAILED after controllers came up in headless agent mode")
return False
return True
def test_config_add_change_while_control_nodes_go_down(self):
"""Tests related to configuration add, change, and delete while switching from normal mode
to headless and back i.e. control nodes go down and come online."""
if len(self.inputs.compute_ips) < 2:
raise unittest.SkipTest("This test needs atleast 2 compute nodes.")
else:
self.logger.info(
"Required resources are in place to run the test.")
result = True
topology_class_name = None
self.compute_fixture_dict = {}
for each_compute in self.inputs.compute_ips:
self.compute_fixture_dict[each_compute] = self.useFixture(
ComputeNodeFixture(connections=self.connections,
node_ip=each_compute,
username=self.inputs.username,
password=self.inputs.password))
mode = self.compute_fixture_dict[
each_compute].get_agent_headless_mode()
if mode is False:
self.compute_fixture_dict[
each_compute].set_agent_headless_mode()
#
# Get config for test from topology
result = True
msg = []
if not topology_class_name:
topology_class_name = test_headless_vrouter_topo.sdn_headless_vrouter_topo
self.logger.info("Scenario for the test used is: %s" %
(topology_class_name))
#
# Create a list of compute node IP's and pass it to topo if you want to pin
# a vm to a particular node
topo_obj = topology_class_name(
compute_node_list=self.inputs.compute_ips)
#
# Test setup: Configure policy, VN, & VM
# return {'result':result, 'msg': err_msg, 'data': [self.topo, config_topo]}
# Returned topo is of following format:
# config_topo= {'policy': policy_fixt, 'vn': vn_fixture, 'vm': vm_fixture}
topo = {}
topo_objs = {}
config_topo = {}
setup_obj = self.useFixture(
sdnTopoSetupFixture(self.connections, topo_obj))
out = setup_obj.sdn_topo_setup()
self.assertEqual(out['result'], True, out['msg'])
if out['result']:
topo_objs, config_topo, vm_fip_info = out['data']
# Start Test
proj = config_topo.keys()
vms = config_topo[proj[0]]['vm'].keys()
src_vm = config_topo[proj[0]]['vm'][vms[0]]
dest_vm = config_topo[proj[0]]['vm'][vms[1]]
flow_cache_timeout = 180
# Setup Traffic.
stream = Stream(protocol="ip",
proto="icmp",
src=src_vm.vm_ip,
dst=dest_vm.vm_ip)
profile = ContinuousProfile(stream=stream, count=0, capfilter="icmp")
tx_vm_node_ip = src_vm.vm_node_ip
rx_vm_node_ip = dest_vm.vm_node_ip
tx_local_host = Host(tx_vm_node_ip, self.inputs.username,
self.inputs.password)
rx_local_host = Host(rx_vm_node_ip, self.inputs.username,
self.inputs.password)
send_host = Host(src_vm.local_ip, src_vm.vm_username,
src_vm.vm_password)
recv_host = Host(dest_vm.local_ip, dest_vm.vm_username,
dest_vm.vm_password)
sender = Sender("icmp", profile, tx_local_host, send_host,
self.inputs.logger)
receiver = Receiver("icmp", profile, rx_local_host, recv_host,
self.inputs.logger)
receiver.start()
sender.start()
self.logger.info("Waiting for 5 sec for traffic to be setup ...")
time.sleep(5)
#self.start_ping(src_vm, dest_vm)
flow_index_list = headless_vr_utils.get_flow_index_list(
self, src_vm, dest_vm)
headless_vr_utils.stop_all_control_services(self)
self.addCleanup(self.inputs.start_service,
'contrail-control',
self.inputs.bgp_ips,
container='control')
time.sleep(10)
headless_vr_utils.check_through_tcpdump(self, dest_vm, src_vm)
flow_index_list2 = headless_vr_utils.get_flow_index_list(
self, src_vm, dest_vm)
if set(flow_index_list) == set(flow_index_list2):
self.logger.info("Flow indexes have not changed.")
else:
self.logger.error(
"Flow indexes have changed. Test Failed, Exiting")
return False
receiver.stop()
sender.stop()
project1_instance = config_topo['project1']['project']['project1']
project1_instance.get_project_connections()
vnet2_instance = config_topo['project1']['vn']['vnet2']
# add VM to existing VN
VM22_fixture = self.useFixture(
VMFixture(
connections=project1_instance.project_connections['juniper'],
vn_obj=vnet2_instance.obj,
vm_name='VM22',
project_name=project1_instance.project_name))
# create new IPAM
ipam3_obj = self.useFixture(
IPAMFixture(project_obj=project1_instance, name='ipam3'))
ipam4_obj = self.useFixture(
IPAMFixture(project_obj=project1_instance, name='ipam4'))
# create new VN
VN3_fixture = self.useFixture(
VNFixture(
project_name=project1_instance.project_name,
connections=project1_instance.project_connections['juniper'],
vn_name='VN3',
inputs=project1_instance.inputs,
subnets=['10.3.1.0/24'],
ipam_fq_name=ipam3_obj.fq_name))
VN4_fixture = self.useFixture(
VNFixture(
project_name=project1_instance.project_name,
connections=project1_instance.project_connections['juniper'],
vn_name='VN4',
inputs=project1_instance.inputs,
subnets=['10.4.1.0/24'],
ipam_fq_name=ipam4_obj.fq_name))
# create policy
policy_name = 'policy34'
rules = []
rules = [{
'direction': '<>',
'protocol': 'icmp',
'dest_network': VN4_fixture.vn_fq_name,
'source_network': VN3_fixture.vn_fq_name,
'dst_ports': 'any',
'simple_action': 'pass',
'src_ports': 'any'
}, {
'direction': '<>',
'protocol': 'icmp',
'dest_network': VN3_fixture.vn_fq_name,
'source_network': VN4_fixture.vn_fq_name,
'dst_ports': 'any',
'simple_action': 'pass',
'src_ports': 'any'
}]
policy34_fixture = self.useFixture(
PolicyFixture(
policy_name=policy_name,
rules_list=rules,
inputs=project1_instance.inputs,
connections=project1_instance.project_connections['juniper'],
project_fixture=project1_instance))
# create VN to policy mapping in a dict of policy list.
vn_policys = {
VN3_fixture.vn_name: [policy_name],
VN4_fixture.vn_name: [policy_name]
}
# create a policy object list of policies to be attached to a vm
policy_obj_dict = {}
policy_obj_dict[VN3_fixture.vn_name] = [policy34_fixture.policy_obj]
policy_obj_dict[VN4_fixture.vn_name] = [policy34_fixture.policy_obj]
# vn fixture dictionary.
vn_obj_dict = {}
vn_obj_dict[VN3_fixture.vn_name] = VN3_fixture
vn_obj_dict[VN4_fixture.vn_name] = VN4_fixture
# attach policy to VN
VN3_policy_fixture = self.useFixture(
VN_Policy_Fixture(
connections=project1_instance.project_connections['juniper'],
vn_name=VN3_fixture.vn_name,
policy_obj=policy_obj_dict,
vn_obj=vn_obj_dict,
vn_policys=vn_policys[VN3_fixture.vn_name],
project_name=project1_instance.project_name))
VN4_policy_fixture = self.useFixture(
VN_Policy_Fixture(
connections=project1_instance.project_connections['juniper'],
vn_name=VN4_fixture.vn_name,
policy_obj=policy_obj_dict,
vn_obj=vn_obj_dict,
vn_policys=vn_policys[VN4_fixture.vn_name],
project_name=project1_instance.project_name))
# add VM to new VN
VM31_fixture = self.useFixture(
VMFixture(
connections=project1_instance.project_connections['juniper'],
vn_obj=VN3_fixture.obj,
vm_name='VM31',
project_name=project1_instance.project_name))
VM41_fixture = self.useFixture(
VMFixture(
connections=project1_instance.project_connections['juniper'],
vn_obj=VN4_fixture.obj,
vm_name='VM41',
project_name=project1_instance.project_name))
# verification routines.
test_flag = 0
if ((VN3_fixture.verify_vn_in_api_server())
and (VN3_fixture.verify_vn_not_in_agent())
and (VN3_fixture.verify_vn_policy_in_api_server()['result'])):
self.logger.info(
"Verification of VN3 PASSED while control nodes down.")
else:
self.logger.error(
"Verification of VN3 FAILED while control nodes down.")
test_flag = 1
if ((VN4_fixture.verify_vn_in_api_server())
and (VN4_fixture.verify_vn_not_in_agent())
and (VN4_fixture.verify_vn_policy_in_api_server()['result'])):
self.logger.info(
"Verification of VN4 PASSED while control nodes down.")
else:
self.logger.error(
"Verification of VN4 FAILED while control nodes down.")
test_flag = 1
if ((VM22_fixture.verify_vm_launched())
and (VM22_fixture.verify_vm_in_api_server())):
self.logger.info(
"Verification of VM22 PASSED while control nodes down.")
else:
self.logger.error(
"Verification of VM22 FAILED while control nodes down.")
test_flag = 1
if ((VM31_fixture.verify_vm_launched())
and (VM31_fixture.verify_vm_in_api_server())):
self.logger.info(
"Verification of VM31 PASSED while control nodes down.")
else:
self.logger.error(
"Verification of VM31 FAILED while control nodes down.")
test_flag = 1
if ((VM41_fixture.verify_vm_launched())
and (VM41_fixture.verify_vm_in_api_server())):
self.logger.info(
"Verification of VM41 PASSED while control nodes down.")
else:
self.logger.error(
"Verification of VM41 FAILED while control nodes down.")
test_flag = 1
# start all control services.
headless_vr_utils.start_all_control_services(self)
# if something went wrong in the controller down state bail out here.
if test_flag == 1:
self.logger.error(
"Verifications and Test failed while the controllers were down in \
headless state of agent. Check earlier error logs"
)
return False
# wait for 3 to 5 sec for configuration sync from control nodes to the
# agents.
time.sleep(5)
# wait till VM's are up.
VM22_fixture.wait_till_vm_is_up()
VM31_fixture.wait_till_vm_is_up()
VM41_fixture.wait_till_vm_is_up()
# verify vm config gets downloaded to the agents.
if ((VM22_fixture.verify_vm_in_agent())
and (VM31_fixture.verify_vm_in_agent())
and (VM41_fixture.verify_vm_in_agent())):
self.logger.info("VM verification on the agent PASSED")
else:
self.logger.error("VM verification on the agent FAILED")
return False
# check ping success between the two VM's
assert config_topo['project1']['vm']['VM11'].ping_with_certainty(
VM22_fixture.vm_ip, expectation=True)
assert VM31_fixture.ping_with_certainty(VM41_fixture.vm_ip,
expectation=True)
assert VM41_fixture.ping_with_certainty(VM31_fixture.vm_ip,
expectation=True)
# verification routines.
if ((VN3_fixture.verify_on_setup()) and (VN4_fixture.verify_on_setup())
and (VM22_fixture.verify_on_setup())
and (VM31_fixture.verify_on_setup())
and (VM41_fixture.verify_on_setup())):
self.logger.info(
"All verifications passed after controllers came up in headless agent mode"
)
else:
self.logger.error(
"Verifications FAILED after controllers came up in headless agent mode"
)
return False
return True
