本文整理汇总了Python中traffic.core.helpers.Receiver.start方法的典型用法代码示例。如果您正苦于以下问题:Python Receiver.start方法的具体用法?Python Receiver.start怎么用?Python Receiver.start使用的例子?那么恭喜您, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类traffic.core.helpers.Receiver的用法示例。
在下文中一共展示了Receiver.start方法的14个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Python代码示例。
示例1: setup_and_create_streams
# 需要导入模块: from traffic.core.helpers import Receiver [as 别名]
# 或者: from traffic.core.helpers.Receiver import start [as 别名]
def setup_and_create_streams(self, src_vn_fix, dst_vn_fix, src_vm_fix, dst_vm_fix, sport=8000, dport=9000, count=100):
src_vm_node_ip = src_vm_fix.vm_node_ip
dst_vm_node_ip = dst_vm_fix.vm_node_ip
src_local_host = Host(
src_vm_node_ip, self.inputs.host_data[
src_vm_node_ip]['username'], self.inputs.host_data[
dst_vm_node_ip]['password'])
dst_local_host = Host(
dst_vm_node_ip, self.inputs.host_data[
dst_vm_node_ip]['username'], self.inputs.host_data[
dst_vm_node_ip]['password'])
send_host = Host(src_vm_fix.local_ip,
src_vm_fix.vm_username,
src_vm_fix.vm_password)
recv_host = Host(dst_vm_fix.local_ip,
dst_vm_fix.vm_username,
dst_vm_fix.vm_password)
send_file_name = 'sendudp'
recv_file_name = 'recvudp'
# Create traffic stream
for i in range(3):
sport = sport
dport = dport + i
print 'count=%s' % (count)
print 'dport=%s' % (dport)
self.logger.info("Creating streams...")
stream = Stream(
protocol="ip",
proto='udp',
src=src_vm_fix.vm_ip,
dst=dst_vm_fix.vm_ip,
dport=dport,
sport=sport)
profile = StandardProfile(
stream=stream,
size=100,
count=count,
listener=dst_vm_fix.vm_ip)
sender = Sender(
send_file_name,
profile,
src_local_host,
send_host,
self.inputs.logger)
receiver = Receiver(
recv_file_name,
profile,
dst_local_host,
recv_host,
self.inputs.logger)
receiver.start()
sender.start()
sender.stop()
receiver.stop()
print sender.sent, receiver.recv
time.sleep(1)示例2: verify_traffic
# 需要导入模块: from traffic.core.helpers import Receiver [as 别名]
# 或者: from traffic.core.helpers.Receiver import start [as 别名]
def verify_traffic(self, sender_vm, receiver_vm, proto, sport, dport, count=None, fip=None):
# Create stream and profile
if fip:
stream = Stream(
protocol="ip", sport=sport, dport=dport, proto=proto, src=sender_vm.vm_ip,
dst=fip)
else:
stream = Stream(
protocol="ip", sport=sport, dport=dport, proto=proto, src=sender_vm.vm_ip,
dst=receiver_vm.vm_ip)
profile_kwargs = {'stream': stream}
if fip:
profile_kwargs.update({'listener': receiver_vm.vm_ip})
if count:
profile_kwargs.update({'count': count})
profile = StandardProfile(**profile_kwargs)
else:
profile = ContinuousProfile(**profile_kwargs)
# Set VM credentials
send_node = Host(sender_vm.vm_node_ip,
self.inputs.host_data[sender_vm.vm_node_ip]['username'],
self.inputs.host_data[sender_vm.vm_node_ip]['password'])
recv_node = Host(receiver_vm.vm_node_ip,
self.inputs.host_data[receiver_vm.vm_node_ip]['username'],
self.inputs.host_data[receiver_vm.vm_node_ip]['password'])
send_host = Host(sender_vm.local_ip,
sender_vm.vm_username, sender_vm.vm_password)
recv_host = Host(receiver_vm.local_ip,
receiver_vm.vm_username, receiver_vm.vm_password)
# Create send, receive helpers
sender = Sender("send%s" %
proto, profile, send_node, send_host, self.inputs.logger)
receiver = Receiver("recv%s" %
proto, profile, recv_node, recv_host, self.inputs.logger)
# start traffic
receiver.start()
sender.start()
sleep(5)
# stop traffic
sender.stop()
receiver.stop()
self.logger.info("Sent: %s; Received: %s", sender.sent, receiver.recv)
return (sender.sent, receiver.recv)示例3: start_traffic_scapy
# 需要导入模块: from traffic.core.helpers import Receiver [as 别名]
# 或者: from traffic.core.helpers.Receiver import start [as 别名]
def start_traffic_scapy(self, sender_vm, receiver_vm, proto,
sport, dport, count=None, fip=None,
payload=None, icmp_type=None, icmp_code=None,
recvr=True):
# Create stream and profile
if fip:
stream = Stream(
protocol="ip", sport=sport, dport=dport, proto=proto, src=sender_vm.vm_ip,
dst=fip,type=icmp_type,code=icmp_code)
else:
stream = Stream(
protocol="ip", sport=sport, dport=dport, proto=proto, src=sender_vm.vm_ip,
dst=receiver_vm.vm_ip,type=icmp_type,code=icmp_code)
profile_kwargs = {'stream': stream}
if fip:
profile_kwargs.update({'listener': receiver_vm.vm_ip})
if payload:
profile_kwargs.update({'payload': payload})
if count:
profile_kwargs.update({'count': count})
profile = StandardProfile(**profile_kwargs)
else:
profile = ContinuousProfile(**profile_kwargs)
# Set VM credentials
send_node = Host(sender_vm.vm_node_ip,
self.inputs.username, self.inputs.password)
recv_node = Host(receiver_vm.vm_node_ip,
self.inputs.username, self.inputs.password)
send_host = Host(sender_vm.local_ip,
sender_vm.vm_username, sender_vm.vm_password)
recv_host = Host(receiver_vm.local_ip,
receiver_vm.vm_username, receiver_vm.vm_password)
# Create send, receive helpers
sender = Sender("send%s" %
proto, profile, send_node, send_host, self.inputs.logger)
receiver = Receiver("recv%s" %
proto, profile, recv_node, recv_host, self.inputs.logger)
# start traffic
if recvr:
receiver.start()
sender.start()
return (sender, receiver)示例4: test_traffic_connections_while_control_nodes_go_down
# 需要导入模块: from traffic.core.helpers import Receiver [as 别名]
# 或者: from traffic.core.helpers.Receiver import start [as 别名]
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)
#.........这里部分代码省略.........
示例5: test_config_add_change_while_control_nodes_go_down
# 需要导入模块: from traffic.core.helpers import Receiver [as 别名]
# 或者: from traffic.core.helpers.Receiver import start [as 别名]
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,
#.........这里部分代码省略.........
示例6: BaseResource
# 需要导入模块: from traffic.core.helpers import Receiver [as 别名]
# 或者: from traffic.core.helpers.Receiver import start [as 别名]
class BaseResource(BaseSanityResource):
__metaclass__ = Singleton
def setUp(self,inputs,connections):
super(BaseResource , self).setUp(inputs, connections)
self.setup_common_objects(self.inputs , self.connections)
def cleanUp(self):
super(BaseResource, self).cleanUp()
def setup_common_objects(self, inputs , connections):
(self.vn2_name, self.fip_vn_name) = (get_random_name("vn2"), get_random_name("fip_vn"))
self.vn2_vm2_name = get_random_name('vn2_vm2')
self.fvn_vm1_name = get_random_name('fvn_vm1')
self.vn2_fixture = self.useFixture(VNFixture(
project_name=self.inputs.project_name,
connections=self.connections,
inputs=self.inputs,
vn_name=self.vn2_name))
self.fvn_fixture = self.useFixture(VNFixture(
project_name=self.inputs.project_name,
connections=self.connections,
inputs=self.inputs,
vn_name=self.fip_vn_name))
# Making sure VM falls on diffrent compute host
self.orch = self.connections.orch
host_list = self.orch.get_hosts()
compute_2 = host_list[0]
if len(host_list) > 1:
compute_2 = host_list[1]
self.vn2_vm2_fixture=self.useFixture(VMFixture(project_name= self.inputs.project_name,
connections= self.connections, vn_obj= self.vn2_fixture.obj,
vm_name= self.vn2_vm2_name, image_name='ubuntu-traffic',
node_name=compute_2))
self.fvn_vm1_fixture=self.useFixture(VMFixture(project_name= self.inputs.project_name,
connections= self.connections, vn_obj= self.fvn_fixture.obj,
vm_name= self.fvn_vm1_name))
self.multi_intf_vm_fixture = self.useFixture(VMFixture(connections=self.connections,
vn_objs=[self.vn1_fixture.obj , self.vn2_fixture.obj],
vm_name='mltf_vm',
project_name=self.inputs.project_name))
self.verify_common_objects()
#end setup_common_objects
def verify_common_objects(self):
super(BaseResource , self).verify_sanity_common_objects()
assert self.vn2_fixture.verify_on_setup()
assert self.fvn_fixture.verify_on_setup()
assert self.fvn_vm1_fixture.wait_till_vm_is_up()
assert self.vn2_vm2_fixture.wait_till_vm_is_up()
assert self.multi_intf_vm_fixture.wait_till_vm_is_up()
#end verify_common_objects
def start_traffic(self):
# installing traffic package in vm
self.vn1_vm1_fixture.install_pkg("Traffic")
self.vn2_vm2_fixture.install_pkg("Traffic")
self.fvn_vm1_fixture.install_pkg("Traffic")
self.tx_vm_node_ip = self.vn1_vm1_fixture.vm_node_ip
self.rx_vm_node_ip = self.vn2_vm2_fixture.vm_node_ip
self.tx_local_host = Host(
self.tx_vm_node_ip, self.inputs.host_data[
self.tx_vm_node_ip]['username'], self.inputs.host_data[
self.tx_vm_node_ip]['password'])
self.rx_local_host = Host(
self.rx_vm_node_ip, self.inputs.host_data[
self.rx_vm_node_ip]['username'], self.inputs.host_data[
self.rx_vm_node_ip]['password'])
self.send_host = Host(self.vn1_vm1_fixture.local_ip,
self.vn1_vm1_fixture.vm_username,
self.vn1_vm1_fixture.vm_password)
self.recv_host = Host(self.vn2_vm2_fixture.local_ip,
self.vn2_vm2_fixture.vm_username,
self.vn2_vm2_fixture.vm_password)
# Create traffic stream
self.logger.info("Creating streams...")
stream = Stream(
protocol="ip",
proto="udp",
src=self.vn1_vm1_fixture.vm_ip,
dst=self.vn2_vm2_fixture.vm_ip,
dport=9000)
profile = StandardProfile(
stream=stream,
size=100,
count=10,
listener=self.vn2_vm2_fixture.vm_ip)
self.sender = Sender(
"sendudp",
profile,
self.tx_local_host,
self.send_host,
#.........这里部分代码省略.........
示例7: test_verify_flow_series_table
# 需要导入模块: from traffic.core.helpers import Receiver [as 别名]
# 或者: from traffic.core.helpers.Receiver import start [as 别名]
def test_verify_flow_series_table(self):
''' Test to validate flow series table
'''
vn1_name = self.res.vn1_name
vn1_subnets = self.res.vn1_fixture.get_cidrs(af='v4')
vn2_name = self.res.vn2_name
vn2_subnets = self.res.vn2_fixture.get_cidrs(af='v4')
policy1_name = 'policy1'
policy2_name = 'policy2'
rules = [
{
'direction': '<>', 'simple_action': 'pass',
'protocol': 'udp',
'source_network': vn1_name,
'dest_network': vn2_name,
},
]
rev_rules = [
{
'direction': '<>', 'simple_action': 'pass',
'protocol': 'udp',
'source_network': vn2_name,
'dest_network': vn1_name,
},
]
policy1_fixture = self.useFixture(
PolicyFixture(
policy_name=policy1_name,
rules_list=rules,
inputs=self.inputs,
connections=self.connections))
policy2_fixture = self.useFixture(
PolicyFixture(
policy_name=policy2_name,
rules_list=rev_rules,
inputs=self.inputs,
connections=self.connections))
vn1_fixture = self.res.vn1_fixture
vn1_fixture.bind_policies(
[policy1_fixture.policy_fq_name], vn1_fixture.vn_id)
self.addCleanup(
vn1_fixture.unbind_policies, vn1_fixture.vn_id, [
policy1_fixture.policy_fq_name])
assert vn1_fixture.verify_on_setup()
vn2_fixture = self.res.vn2_fixture
vn2_fixture.bind_policies(
[policy2_fixture.policy_fq_name], vn2_fixture.vn_id)
assert vn2_fixture.verify_on_setup()
self.addCleanup(
vn2_fixture.unbind_policies, vn2_fixture.vn_id, [
policy2_fixture.policy_fq_name])
# self.res.verify_common_objects()
# installing traffic package in vm
self.res.vn1_vm1_fixture.install_pkg("Traffic")
self.res.vn2_vm2_fixture.install_pkg("Traffic")
# self.res.fvn_vm1_fixture.install_pkg("Traffic")
self.tx_vm_node_ip = self.res.vn1_vm1_fixture.vm_node_ip
self.rx_vm_node_ip = self.res.vn2_vm2_fixture.vm_node_ip
self.tx_local_host = Host(
self.tx_vm_node_ip, self.inputs.host_data[
self.tx_vm_node_ip]['username'], self.inputs.host_data[
self.tx_vm_node_ip]['password'])
self.rx_local_host = Host(
self.rx_vm_node_ip, self.inputs.host_data[
self.rx_vm_node_ip]['username'], self.inputs.host_data[
self.rx_vm_node_ip]['password'])
self.send_host = Host(self.res.vn1_vm1_fixture.local_ip,
self.res.vn1_vm1_fixture.vm_username,
self.res.vn1_vm1_fixture.vm_password)
self.recv_host = Host(self.res.vn2_vm2_fixture.local_ip,
self.res.vn2_vm2_fixture.vm_username,
self.res.vn2_vm2_fixture.vm_password)
# Create traffic stream
start_time = self.analytics_obj.getstarttime(self.tx_vm_node_ip)
self.logger.info("start time= %s" % (start_time))
for i in range(10):
count = 100
dport = 9000
count = count * (i + 1)
dport = dport + i
print 'count=%s' % (count)
print 'dport=%s' % (dport)
self.logger.info("Creating streams...")
stream = Stream(
protocol="ip",
proto="udp",
src=self.res.vn1_vm1_fixture.vm_ip,
dst=self.res.vn2_vm2_fixture.vm_ip,
dport=dport)
profile = StandardProfile(
stream=stream,
size=100,
count=count,
listener=self.res.vn2_vm2_fixture.vm_ip)
sender = Sender(
#.........这里部分代码省略.........
示例8: test_verify_flow_series_table_query_range
# 需要导入模块: from traffic.core.helpers import Receiver [as 别名]
# 或者: from traffic.core.helpers.Receiver import start [as 别名]
def test_verify_flow_series_table_query_range(self):
''' Test to validate flow series table for query range
'''
# installing traffic package in vm
self.res.vn1_vm1_fixture.install_pkg("Traffic")
self.res.vn1_vm2_fixture.install_pkg("Traffic")
self.tx_vm_node_ip = self.res.vn1_vm1_fixture.vm_node_ip
self.rx_vm_node_ip = self.res.vn1_vm2_fixture.vm_node_ip
self.tx_local_host = Host(
self.tx_vm_node_ip, self.inputs.host_data[
self.tx_vm_node_ip]['username'], self.inputs.host_data[
self.tx_vm_node_ip]['password'])
self.rx_local_host = Host(
self.rx_vm_node_ip, self.inputs.host_data[
self.rx_vm_node_ip]['username'], self.inputs.host_data[
self.rx_vm_node_ip]['password'])
self.send_host = Host(self.res.vn1_vm1_fixture.local_ip,
self.res.vn1_vm1_fixture.vm_username,
self.res.vn1_vm1_fixture.vm_password)
self.recv_host = Host(self.res.vn1_vm2_fixture.local_ip,
self.res.vn1_vm2_fixture.vm_username,
self.res.vn1_vm2_fixture.vm_password)
# Create traffic stream
start_time = self.analytics_obj.getstarttime(self.tx_vm_node_ip)
self.logger.info("start time= %s" % (start_time))
self.logger.info("Creating streams...")
dport = 11000
stream = Stream(
protocol="ip",
proto="udp",
src=self.res.vn1_vm1_fixture.vm_ip,
dst=self.res.vn1_vm2_fixture.vm_ip,
dport=dport)
startport = 10000
profile = ContinuousSportRange(
stream=stream,
listener=self.res.vn1_vm2_fixture.vm_ip,
startport=10000,
endport=dport,
pps=100)
sender = Sender(
'sname',
profile,
self.tx_local_host,
self.send_host,
self.inputs.logger)
receiver = Receiver(
'rname',
profile,
self.rx_local_host,
self.recv_host,
self.inputs.logger)
receiver.start()
sender.start()
time.sleep(30)
sender.stop()
receiver.stop()
print sender.sent, receiver.recv
time.sleep(1)
vm_node_ip = self.res.vn1_vm1_fixture.inputs.host_data[
self.res. vn1_vm1_fixture.nova_h.get_nova_host_of_vm(
self.res.vn1_vm1_fixture.vm_obj)]['host_ip']
vm_host = self.res.vn1_vm1_fixture.inputs.host_data[vm_node_ip]['name']
time.sleep(30)
# Verifying flow series table
src_vn = 'default-domain' + ':' + \
self.inputs.project_name + ':' + self.res.vn1_name
dst_vn = 'default-domain' + ':' + \
self.inputs.project_name + ':' + self.res.vn1_name
# creating query: '(sourcevn=default-domain:admin:vn1) AND
# (destvn=default-domain:admin:vn2)'
query = '(sourcevn=%s) AND (destvn=%s) AND protocol= 17 AND (sport = 10500 < 11000)' % (
src_vn, dst_vn)
for ip in self.inputs.collector_ips:
self.logger.info('setup_time= %s' % (start_time))
# Quering flow sreies table
self.logger.info(
"Verifying flowSeriesTable through opserver %s" %
(ip))
self.res1 = self.analytics_obj.ops_inspect[ip].post_query(
'FlowSeriesTable',
start_time=start_time,
end_time='now',
select_fields=[
'sourcevn',
'sourceip',
'destvn',
'destip',
'sum(packets)',
'sport',
'dport',
'T=1'],
where_clause=query)
#.........这里部分代码省略.........
示例9: test_verify_flow_tables
# 需要导入模块: from traffic.core.helpers import Receiver [as 别名]
# 或者: from traffic.core.helpers.Receiver import start [as 别名]
#.........这里部分代码省略.........
pkts_before_traffic = self.analytics_obj.get_inter_vn_stats(
self.inputs.collector_ips[0],
src_vn=vn1_fq_name,
other_vn=vn2_fq_name,
direction='in')
if not pkts_before_traffic:
pkts_before_traffic = 0
# Create traffic stream
self.logger.info("Creating streams...")
stream = Stream(
protocol="ip",
proto="udp",
src=self.res.vn1_vm1_fixture.vm_ip,
dst=self.res.vn2_vm2_fixture.vm_ip,
dport=9000)
profile = StandardProfile(
stream=stream,
size=100,
count=10,
listener=self.res.vn2_vm2_fixture.vm_ip)
sender = Sender(
"sendudp",
profile,
self.tx_local_host,
self.send_host,
self.inputs.logger)
receiver = Receiver(
"recvudp",
profile,
self.rx_local_host,
self.recv_host,
self.inputs.logger)
start_time = self.analytics_obj.getstarttime(self.tx_vm_node_ip)
self.logger.info("start time= %s" % (start_time))
receiver.start()
sender.start()
time.sleep(10)
# Poll to make usre traffic flows, optional
# sender.poll()
# receiver.poll()
sender.stop()
receiver.stop()
print sender.sent, receiver.recv
for vn in [self.res.vn1_fixture.vn_fq_name,\
self.res.vn2_fixture.vn_fq_name]:
#ACL count
if not (int(self.analytics_obj.get_acl\
(self.inputs.collector_ips[0],vn)) > 0):
self.logger.error("Acl counts not received from Agent uve \
in %s vn uve"%(vn))
result = result and False
if not (int(self.analytics_obj.get_acl\
(self.inputs.collector_ips[0], vn, tier = 'Config')) > 0):
self.logger.error("Acl counts not received from Config uve \
in %s vn uve"%(vn))
result = result and False
#Bandwidth usage
if not (int(self.analytics_obj.get_bandwidth_usage\
(self.inputs.collector_ips[0], vn, direction = 'out')) > 0):
self.logger.error("Bandwidth not shown \
in %s vn uve"%(vn))
result = result and False示例10: start
# 需要导入模块: from traffic.core.helpers import Receiver [as 别名]
# 或者: from traffic.core.helpers.Receiver import start [as 别名]
def start(
self,
sender_vm,
receiver_vm,
proto,
sport,
dport,
pkt_count=None,
fip=None,
interval=0):
self.sender_vm = sender_vm
self.receiver_vm = receiver_vm
self.proto = proto
self.sport = sport
self.dport = dport
self.inputs = sender_vm.inputs
self.logger = self.inputs.logger
self.pkt_count = pkt_count
self.fip = fip
self.interval = interval
if self.fip:
stream = Stream(
protocol="ip",
sport=self.sport,
dport=self.dport,
proto=self.proto,
src=self.sender_vm.vm_ip,
dst=self.fip)
else:
stream = Stream(
protocol="ip",
sport=self.sport,
dport=self.dport,
proto=self.proto,
src=self.sender_vm.vm_ip,
dst=self.receiver_vm.vm_ip,
inter=self.interval)
profile_kwargs = {'stream': stream}
if self.fip:
profile_kwargs.update({'listener': self.receiver_vm.vm_ip})
if self.pkt_count:
profile_kwargs.update({'count': self.pkt_count})
profile = StandardProfile(**profile_kwargs)
else:
profile = ContinuousProfile(**profile_kwargs)
# Set VM credentials
send_node = Host(self.sender_vm.vm_node_ip,
self.sender_vm.inputs.host_data[self.sender_vm.vm_node_ip]['username'],
self.sender_vm.inputs.host_data[self.sender_vm.vm_node_ip]['password'])
recv_node = Host(self.receiver_vm.vm_node_ip,
self.sender_vm.inputs.host_data[self.receiver_vm.vm_node_ip]['username'],
self.sender_vm.inputs.host_data[self.receiver_vm.vm_node_ip]['password'])
send_host = Host(self.sender_vm.local_ip,
self.sender_vm.vm_username, self.sender_vm.vm_password)
recv_host = Host(self.receiver_vm.local_ip,
self.receiver_vm.vm_username, self.receiver_vm.vm_password)
# Create send, receive helpers
random = get_random_name()
send_name = 'send' + self.proto + '_' + random
recv_name = 'recv' + self.proto + '_' + random
sender = Sender(send_name,
profile, send_node, send_host, self.logger)
receiver = Receiver(recv_name,
profile, recv_node, recv_host, self.logger)
# start traffic
receiver.start()
sender.start()
self.sender = sender
self.receiver = receiver
return True 示例11: BaseResource
# 需要导入模块: from traffic.core.helpers import Receiver [as 别名]
# 或者: from traffic.core.helpers.Receiver import start [as 别名]
class BaseResource(fixtures.Fixture):
__metaclass__ = Singleton
def setUp(self,inputs,connections):
super(BaseResource , self).setUp()
self.inputs = inputs
self.connections = connections
self.setup_common_objects(self.inputs , self.connections)
def cleanUp(self):
super(BaseResource, self).cleanUp()
def setup_common_objects(self, inputs , connections):
self.inputs = inputs
#self.inputs.set_af('dual')
self.connections = connections
self.logger = self.inputs.logger
#(self.vn1_name, self.vn1_subnets)= ("vn1", ["192.168.1.0/24"])
#(self.vn2_name, self.vn2_subnets)= ("vn2", ["192.168.2.0/24"])
#(self.fip_vn_name, self.fip_vn_subnets)= ("fip_vn", ['100.1.1.0/24'])
(self.vn1_name, self.vn2_name, self.fip_vn_name)= ("vn1", "vn2", "fip_vn")
(self.vn1_vm1_name, self.vn1_vm2_name)=( 'vn1_vm1', 'vn1_vm2')
self.vn2_vm1_name= 'vn2_vm1'
self.vn2_vm2_name= 'vn2_vm2'
self.fvn_vm1_name= 'fvn_vm1'
# Configure 3 VNs, one of them being Floating-VN
self.vn1_fixture=self.useFixture( VNFixture(project_name= self.inputs.project_name,
connections= self.connections, inputs= self.inputs,
vn_name= self.vn1_name))
self.vn2_fixture=self.useFixture( VNFixture(project_name= self.inputs.project_name,
connections= self.connections, inputs= self.inputs,
vn_name= self.vn2_name))
self.fvn_fixture=self.useFixture( VNFixture(project_name= self.inputs.project_name,
connections= self.connections, inputs= self.inputs,
vn_name= self.fip_vn_name))
# Making sure VM falls on diffrent compute host
host_list = self.connections.nova_h.get_hosts()
compute_1 = host_list[0]
compute_2 = host_list[0]
if len(host_list) > 1:
compute_1 = host_list[0]
compute_2 = host_list[1]
# Configure 6 VMs in VN1, 1 VM in VN2, and 1 VM in FVN
self.vn1_vm1_fixture=self.useFixture(VMFixture(project_name= self.inputs.project_name,
connections= self.connections, vn_obj= self.vn1_fixture.obj,
vm_name= self.vn1_vm1_name,image_name='ubuntu-traffic',
flavor='contrail_flavor_medium', node_name=compute_1))
self.vn1_vm2_fixture=self.useFixture(VMFixture(project_name= self.inputs.project_name,
connections= self.connections, vn_obj= self.vn1_fixture.obj,
vm_name= self.vn1_vm2_name , image_name='ubuntu-traffic',
flavor='contrail_flavor_medium'))
self.vn2_vm2_fixture=self.useFixture(VMFixture(project_name= self.inputs.project_name,
connections= self.connections, vn_obj= self.vn2_fixture.obj,
vm_name= self.vn2_vm2_name, image_name='ubuntu-traffic', flavor='contrail_flavor_medium',
node_name=compute_2))
#
self.fvn_vm1_fixture=self.useFixture(VMFixture(project_name= self.inputs.project_name,
connections= self.connections, vn_obj= self.fvn_fixture.obj,
vm_name= self.fvn_vm1_name))
self.multi_intf_vm_fixture = self.useFixture(VMFixture(connections=self.connections,
vn_objs=[self.vn1_fixture.obj , self.vn2_fixture.obj],
vm_name='mltf_vm',
project_name=self.inputs.project_name))
self.verify_common_objects()
#end setup_common_objects
def verify_common_objects(self):
assert self.vn1_fixture.verify_on_setup()
assert self.vn2_fixture.verify_on_setup()
assert self.fvn_fixture.verify_on_setup()
assert self.vn1_vm1_fixture.verify_on_setup()
assert self.vn1_vm2_fixture.verify_on_setup()
assert self.fvn_vm1_fixture.verify_on_setup()
assert self.vn2_vm2_fixture.verify_on_setup()
assert self.multi_intf_vm_fixture.verify_on_setup()
#end verify_common_objects
def start_traffic(self):
# installing traffic package in vm
self.vn1_vm1_fixture.install_pkg("Traffic")
self.vn2_vm2_fixture.install_pkg("Traffic")
self.fvn_vm1_fixture.install_pkg("Traffic")
self.tx_vm_node_ip = self.vn1_vm1_fixture.vm_node_ip
self.rx_vm_node_ip = self.vn2_vm2_fixture.vm_node_ip
self.tx_local_host = Host(
self.tx_vm_node_ip, self.inputs.host_data[
self.tx_vm_node_ip]['username'], self.inputs.host_data[
self.tx_vm_node_ip]['password'])
#.........这里部分代码省略.........
示例12: startTraffic
# 需要导入模块: from traffic.core.helpers import Receiver [as 别名]
# 或者: from traffic.core.helpers.Receiver import start [as 别名]
def startTraffic(
self, name='stream', num_streams=1, start_port=9100, tx_vm_fixture=None,
rx_vm_fixture=None, stream_proto='udp', vm_fip_info=None,
packet_size=100, cfg_profile='ContinuousProfile', start_sport=8000,
total_single_instance_streams=20, chksum=False, pps=100, fip=None,
tx_vn_fixture=None, rx_vn_fixture=None, af=None):
''' Start traffic based on inputs given..
Return {'status': True, 'msg': None} if traffic started successfully..else return {'status': False, 'msg': err_msg}..
Details on inputs:
name : Stream identifier; num_streams : number of separate sendpkts instance streams [will take more memory]
start_port : Destination start port if num_streams is used
tx_vm_fixture & rx_vm_fixture : Needed for vm_ip and vm_mdata_ip [to access vm from compute]
stream_proto : TCP, UDP or ICMP; packet_size : if custom size if needed
start_sport : if ContinuousSportRange is used, only supports UDP, starting number for source port
total_single_instance_streams : if ContinuousSportRange is used, specify number of streams
pps :Number of packets to launch per sec
ContinuousSportRange launches n streams @defined pps, with one instance of sendpkts..
'''
self.logger.info("startTraffic data: name- %s, stream_proto-%s, packet_size-%s, total_single_instance_streams-%s, chksum-%s, pps-%s"
% (name, stream_proto, packet_size, total_single_instance_streams, chksum, pps))
status = True
msg = None
self.packet_size = packet_size
self.chksum = chksum
self.start_port = start_port
self.start_sport = start_sport
self.endport = start_sport + total_single_instance_streams
self.total_single_instance_streams = total_single_instance_streams
self.tx_vm_fixture = tx_vm_fixture
self.rx_vm_fixture = rx_vm_fixture
tx_vn_fq_name = tx_vn_fixture.get_vn_fq_name() if tx_vn_fixture else None
rx_vn_fq_name = rx_vn_fixture.get_vn_fq_name() if rx_vn_fixture else None
af = af if af is not None else self.inputs.get_af()
self.stream_proto = stream_proto
self.vm_fip_info = vm_fip_info
self.traffic_fip = False
if self.vm_fip_info == None:
self.traffic_fip = False
else:
self.traffic_fip = True
if not self.traffic_fip:
self.tx_vm_node_ip = self.tx_vm_fixture.vm_node_ip
self.rx_vm_node_ip = self.rx_vm_fixture.vm_node_ip
self.tx_local_host = Host(
self.tx_vm_node_ip,
self.inputs.host_data[self.tx_vm_node_ip]['username'],
self.inputs.host_data[self.tx_vm_node_ip]['password'])
self.rx_local_host = Host(
self.rx_vm_node_ip,
self.inputs.host_data[self.rx_vm_node_ip]['username'],
self.inputs.host_data[self.rx_vm_node_ip]['password'])
self.send_host = Host(self.tx_vm_fixture.local_ip,
self.tx_vm_fixture.vm_username, self.tx_vm_fixture.vm_password)
self.recv_host = Host(self.rx_vm_fixture.local_ip,
self.rx_vm_fixture.vm_username, self.rx_vm_fixture.vm_password)
else:
self.tx_vm_node_ip = None
self.rx_vm_node_ip = None
self.tx_local_host = Host(
self.inputs.cfgm_ip,
self.inputs.host_data[self.tx_vm_node_ip]['username'],
self.inputs.host_data[self.tx_vm_node_ip]['password'])
self.rx_local_host = Host(
self.inputs.cfgm_ip,
self.inputs.host_data[self.rx_vm_node_ip]['username'],
self.inputs.host_data[self.rx_vm_node_ip]['password'])
self.send_host = Host(self.vm_fip_info[self.tx_vm_fixture.vm_name])
self.recv_host = Host(self.vm_fip_info[self.rx_vm_fixture.vm_name])
self.sender = list()
self.receiver = list()
self.num_streams = 0
if fip is None:
self.dst_ips = list(); self.src_ips = list()
if af == 'dual' or af == 'v4':
self.src_ips.extend(self.tx_vm_fixture.get_vm_ips(
vn_fq_name=tx_vn_fq_name, af='v4'))
self.dst_ips.extend(self.rx_vm_fixture.get_vm_ips(
vn_fq_name=rx_vn_fq_name, af='v4'))
if af == 'dual' or af == 'v6':
self.src_ips.extend(self.tx_vm_fixture.get_vm_ips(
vn_fq_name=tx_vn_fq_name, af='v6'))
self.dst_ips.extend(self.rx_vm_fixture.get_vm_ips(
vn_fq_name=rx_vn_fq_name, af='v6'))
else:
self.dst_ips = [fip]
self.src_ips = [self.tx_vm_fixture.vm_ip]
if len(self.dst_ips) > len(self.src_ips):
raise Exception('No of destination ips cant be greater than'
' source ips, for multi stream case')
for index in range(len(self.dst_ips)):
name = name + '_dst' + str(index) + '_'
for i in range(num_streams):
self.name = name + self.stream_proto + str(i)
self.dport = start_port + i
m = "Send protocol %s traffic to port %s" % (
self.stream_proto, self.dport)
if self.stream_proto == 'icmp':
m = "Send protocol %s traffic" % self.stream_proto
#.........这里部分代码省略.........
示例13: test_verify_flow_series_table
# 需要导入模块: from traffic.core.helpers import Receiver [as 别名]
# 或者: from traffic.core.helpers.Receiver import start [as 别名]
def test_verify_flow_series_table(self):
""" Test to validate flow series table
"""
vn1_name = self.res.vn1_name
vn1_subnets = self.res.vn1_fixture.get_cidrs(af="v4")
vn2_name = self.res.vn2_name
vn2_subnets = self.res.vn2_fixture.get_cidrs(af="v4")
policy1_name = "policy1"
policy2_name = "policy2"
rules = [
{
"direction": "<>",
"simple_action": "pass",
"protocol": "udp",
"source_network": vn1_name,
"dest_network": vn2_name,
}
]
rev_rules = [
{
"direction": "<>",
"simple_action": "pass",
"protocol": "udp",
"source_network": vn2_name,
"dest_network": vn1_name,
}
]
policy1_fixture = self.useFixture(
PolicyFixture(policy_name=policy1_name, rules_list=rules, inputs=self.inputs, connections=self.connections)
)
policy2_fixture = self.useFixture(
PolicyFixture(
policy_name=policy2_name, rules_list=rev_rules, inputs=self.inputs, connections=self.connections
)
)
vn1_fixture = self.res.vn1_fixture
vn1_fixture.bind_policies([policy1_fixture.policy_fq_name], vn1_fixture.vn_id)
self.addCleanup(vn1_fixture.unbind_policies, vn1_fixture.vn_id, [policy1_fixture.policy_fq_name])
assert vn1_fixture.verify_on_setup()
vn2_fixture = self.res.vn2_fixture
vn2_fixture.bind_policies([policy2_fixture.policy_fq_name], vn2_fixture.vn_id)
assert vn2_fixture.verify_on_setup()
self.addCleanup(vn2_fixture.unbind_policies, vn2_fixture.vn_id, [policy2_fixture.policy_fq_name])
# self.res.verify_common_objects()
# installing traffic package in vm
self.res.vn1_vm1_fixture.install_pkg("Traffic")
self.res.vn2_vm2_fixture.install_pkg("Traffic")
# self.res.fvn_vm1_fixture.install_pkg("Traffic")
self.tx_vm_node_ip = self.res.vn1_vm1_fixture.vm_node_ip
self.rx_vm_node_ip = self.res.vn2_vm2_fixture.vm_node_ip
self.tx_local_host = Host(
self.tx_vm_node_ip,
self.inputs.host_data[self.tx_vm_node_ip]["username"],
self.inputs.host_data[self.tx_vm_node_ip]["password"],
)
self.rx_local_host = Host(
self.rx_vm_node_ip,
self.inputs.host_data[self.rx_vm_node_ip]["username"],
self.inputs.host_data[self.rx_vm_node_ip]["password"],
)
self.send_host = Host(
self.res.vn1_vm1_fixture.local_ip,
self.res.vn1_vm1_fixture.vm_username,
self.res.vn1_vm1_fixture.vm_password,
)
self.recv_host = Host(
self.res.vn2_vm2_fixture.local_ip,
self.res.vn2_vm2_fixture.vm_username,
self.res.vn2_vm2_fixture.vm_password,
)
# Create traffic stream
start_time = self.analytics_obj.getstarttime(self.tx_vm_node_ip)
self.logger.info("start time= %s" % (start_time))
for i in range(10):
count = 100
dport = 9000
count = count * (i + 1)
dport = dport + i
print "count=%s" % (count)
print "dport=%s" % (dport)
self.logger.info("Creating streams...")
stream = Stream(
protocol="ip",
proto="udp",
src=self.res.vn1_vm1_fixture.vm_ip,
dst=self.res.vn2_vm2_fixture.vm_ip,
dport=dport,
)
profile = StandardProfile(stream=stream, size=100, count=count, listener=self.res.vn2_vm2_fixture.vm_ip)
sender = Sender("sendudp", profile, self.tx_local_host, self.send_host, self.inputs.logger)
receiver = Receiver("recvudp", profile, self.rx_local_host, self.recv_host, self.inputs.logger)
receiver.start()
sender.start()
sender.stop()
receiver.stop()
#.........这里部分代码省略.........
示例14: test_verify_flow_series_table_query_range
# 需要导入模块: from traffic.core.helpers import Receiver [as 别名]
# 或者: from traffic.core.helpers.Receiver import start [as 别名]
def test_verify_flow_series_table_query_range(self):
""" Test to validate flow series table for query range
"""
# installing traffic package in vm
self.res.vn1_vm1_fixture.install_pkg("Traffic")
self.res.vn1_vm2_fixture.install_pkg("Traffic")
self.tx_vm_node_ip = self.res.vn1_vm1_fixture.vm_node_ip
self.rx_vm_node_ip = self.res.vn1_vm2_fixture.vm_node_ip
self.tx_local_host = Host(
self.tx_vm_node_ip,
self.inputs.host_data[self.tx_vm_node_ip]["username"],
self.inputs.host_data[self.tx_vm_node_ip]["password"],
)
self.rx_local_host = Host(
self.rx_vm_node_ip,
self.inputs.host_data[self.rx_vm_node_ip]["username"],
self.inputs.host_data[self.rx_vm_node_ip]["password"],
)
self.send_host = Host(
self.res.vn1_vm1_fixture.local_ip,
self.res.vn1_vm1_fixture.vm_username,
self.res.vn1_vm1_fixture.vm_password,
)
self.recv_host = Host(
self.res.vn1_vm2_fixture.local_ip,
self.res.vn1_vm2_fixture.vm_username,
self.res.vn1_vm2_fixture.vm_password,
)
# Create traffic stream
start_time = self.analytics_obj.getstarttime(self.tx_vm_node_ip)
self.logger.info("start time= %s" % (start_time))
self.logger.info("Creating streams...")
dport = 11000
stream = Stream(
protocol="ip",
proto="udp",
src=self.res.vn1_vm1_fixture.vm_ip,
dst=self.res.vn1_vm2_fixture.vm_ip,
dport=dport,
)
startport = 10000
profile = ContinuousSportRange(
stream=stream, listener=self.res.vn1_vm2_fixture.vm_ip, startport=10000, endport=dport, pps=100
)
sender = Sender("sname", profile, self.tx_local_host, self.send_host, self.inputs.logger)
receiver = Receiver("rname", profile, self.rx_local_host, self.recv_host, self.inputs.logger)
receiver.start()
sender.start()
time.sleep(30)
sender.stop()
receiver.stop()
print sender.sent, receiver.recv
time.sleep(1)
vm_node_ip = self.res.vn1_vm1_fixture.inputs.host_data[
self.res.vn1_vm1_fixture.orch.get_host_of_vm(self.res.vn1_vm1_fixture.vm_obj)
]["host_ip"]
vm_host = self.res.vn1_vm1_fixture.inputs.host_data[vm_node_ip]["name"]
time.sleep(30)
# Verifying flow series table
src_vn = "default-domain" + ":" + self.inputs.project_name + ":" + self.res.vn1_name
dst_vn = "default-domain" + ":" + self.inputs.project_name + ":" + self.res.vn1_name
# creating query: '(sourcevn=default-domain:admin:vn1) AND
# (destvn=default-domain:admin:vn2)'
query = "(sourcevn=%s) AND (destvn=%s) AND protocol= 17 AND (sport = 10500 < 11000)" % (src_vn, dst_vn)
for ip in self.inputs.collector_ips:
self.logger.info("setup_time= %s" % (start_time))
# Quering flow sreies table
self.logger.info("Verifying flowSeriesTable through opserver %s" % (ip))
self.res1 = self.analytics_obj.ops_inspect[ip].post_query(
"FlowSeriesTable",
start_time=start_time,
end_time="now",
select_fields=["sourcevn", "sourceip", "destvn", "destip", "sum(packets)", "sport", "dport", "T=1"],
where_clause=query,
)
assert self.res1
for elem in self.res1:
if (elem["sport"] < 10500) or (elem["sport"] > 11000):
self.logger.warn("Out of range element (range:sport > 15500 and sport < 16000):%s" % (elem))
self.logger.warn("Test Failed")
result = False
assert result
return True