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gerrit.opencord.org / cord-tester / 8173d79a3bf13a7d64bdc59c4ce65bda7112ee4f / . / src / test / scale / scaleTest.py
blob: 1c031a228e3764eead0d0ee1473cf3574ec58ffc [file] [log] [blame]
#copyright 2016-present Ciena Corporation
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
import time
import os
import sys
import json
import requests
import random
from nose.tools import *
from scapy.all import *
from twisted.internet import defer
from nose.twistedtools import reactor, deferred
from CordTestUtils import *
from OltConfig import OltConfig
from onosclidriver import OnosCliDriver
from SSHTestAgent import SSHTestAgent
from Channels import Channels, IgmpChannel
from IGMP import *
from CordLogger import CordLogger
from VSGAccess import VSGAccess
from OnosFlowCtrl import OnosFlowCtrl
#imports for cord-subscriber module
from subscriberDb import SubscriberDB
from Stats import Stats
from threadPool import ThreadPool
import threading
from EapTLS import TLSAuthTest
from CordTestUtils import log_test as log
from CordTestConfig import setup_module, running_on_ciab
from OnosCtrl import OnosCtrl
from CordContainer import Onos
from CordSubscriberUtils import CordSubscriberUtils, XosUtils
from CordTestServer import cord_test_onos_restart, cord_test_quagga_restart, cord_test_shell, cord_test_radius_restart
from Scale import scale
log.setLevel('INFO')
class scale_exchange(CordLogger):
HOST = "10.1.0.1"
USER = "vagrant"
PASS = "vagrant"
head_node = os.getenv('HEAD_NODE', 'prod')
HEAD_NODE = head_node + '.cord.lab' if len(head_node.split('.')) == 1 else head_node
test_path = os.path.dirname(os.path.realpath(__file__))
olt_conf_file = os.getenv('OLT_CONFIG_FILE', os.path.join(test_path, '..', 'setup/olt_config.json'))
restApiXos = None
cord_subscriber = None
SUBSCRIBER_ACCOUNT_NUM = 100
SUBSCRIBER_S_TAG = 500
SUBSCRIBER_C_TAG = 500
SUBSCRIBERS_PER_S_TAG = 8
subscriber_info = []
volt_subscriber_info = []
restore_methods = []
TIMEOUT=120
NUM_SUBSCRIBERS = 16
wan_intf_ip = '10.6.1.129'
V_INF1 = 'veth0'
V_INF2 = 'veth1'
MGROUP1 = '239.1.2.3'
MGROUP2 = '239.2.2.3'
MINVALIDGROUP1 = '255.255.255.255'
MINVALIDGROUP2 = '239.255.255.255'
MMACGROUP1 = "01:00:5e:01:02:03"
MMACGROUP2 = "01:00:5e:02:02:03"
IGMP_DST_MAC = "01:00:5e:00:00:16"
IGMP_SRC_MAC = "5a:e1:ac:ec:4d:a1"
IP_SRC = '1.2.3.4'
IP_DST = '224.0.0.22'
igmp_eth = Ether(dst = IGMP_DST_MAC, type = ETH_P_IP)
igmp_ip = IP(dst = IP_DST)
PORT_TX_DEFAULT = 2
PORT_RX_DEFAULT = 1
igmp_app = 'org.opencord.igmp'
acl_app = 'org.onosproject.acl'
aaa_app = 'org.opencord.aaa'
app = 'org.onosproject.cli'
APP_NAME = 'org.ciena.xconnect'
INTF_TX_DEFAULT = 'veth2'
INTF_RX_DEFAULT = 'veth0'
default_port_map = {
PORT_TX_DEFAULT : INTF_TX_DEFAULT,
PORT_RX_DEFAULT : INTF_RX_DEFAULT,
INTF_TX_DEFAULT : PORT_TX_DEFAULT,
INTF_RX_DEFAULT : PORT_RX_DEFAULT
}
vrouter_apps = ('org.onosproject.proxyarp', 'org.onosproject.hostprovider', 'org.onosproject.vrouter', 'org.onosproject.fwd')
MAX_PORTS = 100
subscriber_apps = ('org.opencord.aaa', 'org.onosproject.dhcp')
olt_apps = () #'org.opencord.cordmcast')
vtn_app = 'org.opencord.vtn'
table_app = 'org.ciena.cordigmp'
aaa_loaded = False
table_app_file = os.path.join(test_path, '..', 'apps/ciena-cordigmp-multitable-2.0-SNAPSHOT.oar')
app_file = os.path.join(test_path, '..', 'apps/ciena-cordigmp-2.0-SNAPSHOT.oar')
olt_app_file = os.path.join(test_path, '..', 'apps/olt-app-1.2-SNAPSHOT.oar')
olt_app_name = 'org.onosproject.olt'
onos_config_path = os.path.join(test_path, '..', 'setup/onos-config')
cpqd_path = os.path.join(test_path, '..', 'setup')
ovs_path = cpqd_path
test_services = ('IGMP', 'TRAFFIC')
num_joins = 0
num_subscribers = 0
leave_flag = True
num_channels = 0
recv_timeout = False
onos_restartable = bool(int(os.getenv('ONOS_RESTART', 0)))
SUBSCRIBER_TIMEOUT = 300
device_id = 'of:' + get_mac()
CLIENT_CERT = """-----BEGIN CERTIFICATE-----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-----END CERTIFICATE-----"""
CLIENT_CERT_INVALID = '''-----BEGIN CERTIFICATE-----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-----END CERTIFICATE-----'''
@classmethod
def setUpCordApi(cls):
num_subscribers = max(cls.NUM_SUBSCRIBERS, 10)
cls.cord_subscriber = CordSubscriberUtils(num_subscribers,
account_num = cls.SUBSCRIBER_ACCOUNT_NUM,
s_tag = cls.SUBSCRIBER_S_TAG,
c_tag = cls.SUBSCRIBER_C_TAG,
subscribers_per_s_tag = cls.SUBSCRIBERS_PER_S_TAG)
cls.restApiXos = XosUtils.getRestApi()
@classmethod
def setUpClass(cls):
log.info('in setUp class 00000000000000')
cls.controllers = get_controllers()
cls.controller = cls.controllers[0]
cls.cli = None
cls.on_pod = running_on_pod()
cls.on_ciab = running_on_ciab()
cls.olt = OltConfig(olt_conf_file = cls.olt_conf_file)
cls.vcpes = cls.olt.get_vcpes()
cls.vcpes_dhcp = cls.olt.get_vcpes_by_type('dhcp')
cls.vcpes_reserved = cls.olt.get_vcpes_by_type('reserved')
cls.dhcp_vcpes_reserved = [ 'vcpe{}.{}.{}'.format(i, cls.vcpes_reserved[i]['s_tag'], cls.vcpes_reserved[i]['c_tag'])
for i in xrange(len(cls.vcpes_reserved)) ]
cls.untagged_dhcp_vcpes_reserved = [ 'vcpe{}'.format(i) for i in xrange(len(cls.vcpes_reserved)) ]
cls.container_vcpes_reserved = [ 'vcpe-{}-{}'.format(vcpe['s_tag'], vcpe['c_tag']) for vcpe in cls.vcpes_reserved ]
vcpe_dhcp_reserved = None
vcpe_container_reserved = None
if cls.vcpes_reserved:
vcpe_dhcp_reserved = cls.dhcp_vcpes_reserved[0]
if cls.on_pod is False:
vcpe_dhcp_reserved = cls.untagged_dhcp_vcpes_reserved[0]
vcpe_container_reserved = cls.container_vcpes_reserved[0]
cls.vcpe_dhcp_reserved = vcpe_dhcp_reserved
cls.vcpe_container_reserved = vcpe_container_reserved
dhcp_vcpe_offset = len(cls.vcpes_reserved)
cls.dhcp_vcpes = [ 'vcpe{}.{}.{}'.format(i+dhcp_vcpe_offset, cls.vcpes_dhcp[i]['s_tag'], cls.vcpes_dhcp[i]['c_tag'])
for i in xrange(len(cls.vcpes_dhcp)) ]
cls.untagged_dhcp_vcpes = [ 'vcpe{}'.format(i+dhcp_vcpe_offset) for i in xrange(len(cls.vcpes_dhcp)) ]
cls.container_vcpes = [ 'vcpe-{}-{}'.format(vcpe['s_tag'], vcpe['c_tag']) for vcpe in cls.vcpes_dhcp ]
vcpe_dhcp = None
vcpe_container = None
#cache the first dhcp vcpe in the class for quick testing
if cls.vcpes_dhcp:
vcpe_container = cls.container_vcpes[0]
vcpe_dhcp = cls.dhcp_vcpes[0]
if cls.on_pod is False:
vcpe_dhcp = cls.untagged_dhcp_vcpes[0]
cls.vcpe_container = vcpe_container_reserved or vcpe_container
cls.vcpe_dhcp = vcpe_dhcp_reserved or vcpe_dhcp
VSGAccess.setUp()
cls.setUpCordApi()
if cls.on_pod is True:
cls.openVCPEAccess(cls.cord_subscriber.volt_subscriber_info)
@classmethod
def tearDownClass(cls):
VSGAccess.tearDown()
if cls.on_pod is True:
cls.closeVCPEAccess(cls.cord_subscriber.volt_subscriber_info)
def log_set(self, level = None, app = 'org.onosproject'):
CordLogger.logSet(level = level, app = app, controllers = self.controllers, forced = True)
######################## vsg - vcpe utility functions #########################
@classmethod
def closeVCPEAccess(cls, volt_subscriber_info):
OnosCtrl.uninstall_app(cls.APP_NAME, onos_ip = cls.HEAD_NODE)
@classmethod
def openVCPEAccess(cls, volt_subscriber_info):
"""
This code is used to configure leaf switch for head node access to compute node over fabric.
Care is to be taken to avoid overwriting existing/default vcpe flows.
The access is opened for generated subscriber info which should not overlap.
We target the fabric onos instance on head node.
"""
version = Onos.getVersion(onos_ip = cls.HEAD_NODE)
app_version = '1.0-SNAPSHOT'
major = int(version.split('.')[0])
minor = int(version.split('.')[1])
if major > 1:
app_version = '2.0-SNAPSHOT'
elif major == 1 and minor > 10:
app_version = '2.0-SNAPSHOT'
cls.APP_FILE = os.path.join(cls.test_path, '..', 'apps/xconnect-{}.oar'.format(app_version))
OnosCtrl.install_app(cls.APP_FILE, onos_ip = cls.HEAD_NODE)
time.sleep(2)
s_tags = map(lambda tenant: int(tenant['voltTenant']['s_tag']), volt_subscriber_info)
#only get unique vlan tags
s_tags = list(set(s_tags))
devices = OnosCtrl.get_device_ids(controller = cls.HEAD_NODE)
if devices:
device_config = {}
for device in devices:
device_config[device] = []
for s_tag in s_tags:
xconnect_config = {'vlan': s_tag, 'ports' : [ cls.FABRIC_PORT_HEAD_NODE, cls.FABRIC_PORT_COMPUTE_NODE ] }
device_config[device].append(xconnect_config)
cfg = { 'apps' : { 'org.ciena.xconnect' : { 'xconnectTestConfig' : device_config } } }
OnosCtrl.config(cfg, controller = cls.HEAD_NODE)
def get_system_cpu_usage(self):
""" Getting compute node CPU usage """
ssh_agent = SSHTestAgent(host = self.HEAD_NODE, user = self.USER, password = self.PASS)
cmd = "top -b -n1 | grep 'Cpu(s)' | awk '{print $2 + $4}'"
status, output = ssh_agent.run_cmd(cmd)
assert_equal(status, True)
return float(output)
def vsg_for_external_connectivity(self, subscriber_index, reserved = False):
if reserved is True:
if self.on_pod is True:
vcpe = self.dhcp_vcpes_reserved[subscriber_index]
else:
vcpe = self.untagged_dhcp_vcpes_reserved[subscriber_index]
else:
if self.on_pod is True:
vcpe = self.dhcp_vcpes[subscriber_index]
else:
vcpe = self.untagged_dhcp_vcpes[subscriber_index]
mgmt = 'eth0'
host = '8.8.8.8'
self.success = False
assert_not_equal(vcpe, None)
vcpe_ip = VSGAccess.vcpe_get_dhcp(vcpe, mgmt = mgmt)
assert_not_equal(vcpe_ip, None)
log.info('Got DHCP IP %s for %s' %(vcpe_ip, vcpe))
log.info('Sending icmp echo requests to external network 8.8.8.8')
st, _ = getstatusoutput('ping -c 3 8.8.8.8')
VSGAccess.restore_interface_config(mgmt, vcpe = vcpe)
assert_equal(st, 0)
def vsg_xos_subscriber_create(self, index, subscriber_info = None, volt_subscriber_info = None):
if self.on_pod is False:
return ''
if subscriber_info is None:
subscriber_info = self.cord_subscriber.subscriber_info[index]
if volt_subscriber_info is None:
volt_subscriber_info = self.cord_subscriber.volt_subscriber_info[index]
s_tag = int(volt_subscriber_info['voltTenant']['s_tag'])
c_tag = int(volt_subscriber_info['voltTenant']['c_tag'])
vcpe = 'vcpe-{}-{}'.format(s_tag, c_tag)
subId = self.cord_subscriber.subscriberCreate(index, subscriber_info, volt_subscriber_info)
if subId:
#if the vsg instance was already instantiated, then reduce delay
if c_tag % self.SUBSCRIBERS_PER_S_TAG == 0:
delay = 350
else:
delay = 90
log.info('Delaying %d seconds for the VCPE to be provisioned' %(delay))
time.sleep(delay)
#log.info('Testing for external connectivity to VCPE %s' %(vcpe))
#self.vsg_for_external_connectivity(index)
return subId
def vsg_delete(self, num_subscribers):
if self.on_pod is False:
return
num_subscribers = min(num_subscribers, len(self.cord_subscriber.subscriber_info))
for index in xrange(num_subscribers):
subId = self.vsg_xos_subscriber_id(index)
if subId and subId != '0':
self.vsg_xos_subscriber_delete(index, subId = subId)
def vsg_xos_subscriber_delete(self, index, subId = '', voltId = '', subscriber_info = None, volt_subscriber_info = None):
if self.on_pod is False:
return
self.cord_subscriber.subscriberDelete(index, subId = subId, voltId = voltId,
subscriber_info = subscriber_info,
volt_subscriber_info = volt_subscriber_info)
def vsg_xos_subscriber_id(self, index):
if self.on_pod is False:
return ''
return self.cord_subscriber.subscriberId(index)
def vsg_xos_subscriber_create_reserved(self):
if self.on_pod is False:
return
tags_reserved = [ (int(vcpe['s_tag']), int(vcpe['c_tag'])) for vcpe in self.vcpes_reserved ]
volt_tenants = self.restApiXos.ApiGet('TENANT_VOLT')
subscribers = self.restApiXos.ApiGet('TENANT_SUBSCRIBER')
reserved_tenants = filter(lambda tenant: (int(tenant['s_tag']), int(tenant['c_tag'])) in tags_reserved, volt_tenants)
reserved_config = []
for tenant in reserved_tenants:
for subscriber in subscribers:
if int(subscriber['id']) == int(tenant['subscriber']):
volt_subscriber_info = {}
volt_subscriber_info['voltTenant'] = dict(s_tag = tenant['s_tag'],
c_tag = tenant['c_tag'],
subscriber = tenant['subscriber'])
volt_subscriber_info['volt_id'] = tenant['id']
volt_subscriber_info['account_num'] = subscriber['identity']['account_num']
reserved_config.append( (subscriber, volt_subscriber_info) )
break
else:
log.info('Subscriber not found for tenant %s, s_tag: %s, c_tag: %s' %(str(tenant['subscriber']),
str(tenant['s_tag']),
str(tenant['c_tag'])))
for subscriber_info, volt_subscriber_info in reserved_config:
self.vsg_xos_subscriber_delete(0,
subId = str(subscriber_info['id']),
voltId = str(volt_subscriber_info['volt_id']),
subscriber_info = subscriber_info,
volt_subscriber_info = volt_subscriber_info)
subId = self.vsg_xos_subscriber_create(0,
subscriber_info = subscriber_info,
volt_subscriber_info = volt_subscriber_info)
log.info('Created reserved subscriber %s' %(subId))
@deferred(1800)
def test_scale_for_vsg_vm_creations(self):
try:
df = defer.Deferred()
def scale_vsg_vms(df):
for index in xrange(len(self.cord_subscriber.subscriber_info)):
#check if the index exists
subId = self.vsg_xos_subscriber_id(index)
log.info('test_vsg_xos_subscriber_creation - subId is %s'%subId)
if subId and subId != '0':
self.vsg_xos_subscriber_delete(index, subId = subId)
subId = self.vsg_xos_subscriber_create(index)
log.info('Created Subscriber %s' %(subId))
df.callback(0)
reactor.callLater(0, scale_vsg_vms, df)
return df
finally:
pass
#self.vsg_delete(len(self.cord_subscriber.subscriber_info))
self.vsg_xos_subscriber_create_reserved
@deferred(1800)
def test_scale_for_vcpe_creations(self):
try:
df = defer.Deferred()
def scale_vcpe_instances(df):
for index in xrange(len(self.cord_subscriber.subscriber_info)):
#check if the index exists
subId = self.vsg_xos_subscriber_id(index)
log.info('test_vsg_xos_subscriber_creation')
if subId and subId != '0':
self.vsg_xos_subscriber_delete(index, subId = subId)
subId = self.vsg_xos_subscriber_create(index)
log.info('Created Subscriber %s' %(subId))
df.callback(0)
reactor.callLater(0, scale_vcpe_instances, df)
return df
except:
self.vsg_delete(len(self.cord_subscriber.subscriber_info))
self.vsg_xos_subscriber_create_reserved
@deferred(1800)
def test_scale_of_subcriber_vcpe_creations_in_single_vsg_vm(self):
try:
df = defer.Deferred()
def scale_vcpe_instances(df):
subId = self.vsg_xos_subscriber_create(100)
if subId and subId != '0':
self.vsg_xos_subscriber_delete(100, subId)
df.callback(0)
reactor.callLater(0, scale_vsg_vms, df)
return df
except:
self.vsg_delete(len(self.cord_subscriber.subscriber_info))
self.vsg_xos_subscriber_create_reserved
@deferred(1800)
def test_scale_of_subcriber_vcpe_creations_in_multiple_vsg_vm(self):
try:
df = defer.Deferred()
def scale_vcpe_instances(df):
subId = self.vsg_xos_subscriber_create(100)
if subId and subId != '0':
self.vsg_xos_subscriber_delete(100, subId)
df.callback(0)
reactor.callLater(0, scale_vsg_vms, df)
return df
except:
self.vsg_delete(len(self.cord_subscriber.subscriber_info))
self.vsg_xos_subscriber_create_reserved
@deferred(1800)
def test_scale_of_subcriber_vcpe_creations_with_one_vcpe_in_one_vsg_vm(self):
try:
df = defer.Deferred()
def scale_vcpe_instances(df):
subId = self.vsg_xos_subscriber_create(100)
if subId and subId != '0':
self.vsg_xos_subscriber_delete(100, subId)
df.callback(0)
reactor.callLater(0, scale_vsg_vms, df)
return df
except:
self.vsg_delete(len(self.cord_subscriber.subscriber_info))
self.vsg_xos_subscriber_create_reserved
@deferred(1800)
def test_scale_for_cord_subscriber_creation_and_deletion(self):
try:
df = defer.Deferred()
def scale_vcpe_instances(df):
subId = self.vsg_xos_subscriber_create(100)
if subId and subId != '0':
self.vsg_xos_subscriber_delete(100, subId)
df.callback(0)
reactor.callLater(0, scale_vsg_vms, df)
return df
except:
self.vsg_delete(len(self.cord_subscriber.subscriber_info))
self.vsg_xos_subscriber_create_reserved
def test_cord_for_scale_of_subscriber_containers_per_compute_node(self):
pass
@deferred(10)
def test_latency_of_cord_for_control_packets_using_icmp_packet(self):
df = defer.Deferred()
def scale_vcpe_instances(df):
cmd = "ping -c 4 {0} | tail -1| awk '{{print $4}}'".format(self.wan_intf_ip)
st, out = getstatusoutput(cmd)
if out != '':
out = out.split('/')
avg_rtt = out[1]
latency = float(avg_rtt)/float(2)
else:
latency = None
log.info('CORD setup latency calculated from icmp packet is = %s ms'%latency)
assert_not_equal(latency,None)
df.callback(0)
reactor.callLater(0, scale_vsg_vms, df)
return df
@deferred(20)
def test_latency_of_cord_for_control_packets_using_increasing_sizes_of_icmp_packet(self):
df = defer.Deferred()
def scale_vcpe_instances(df):
pckt_sizes = [100,500,1000,1500]
for size in pckt_sizes:
cmd = "ping -c 4 -s {} {} | tail -1| awk '{{print $4}}'".format(size,self.wan_intf_ip)
st, out = getstatusoutput(cmd)
if out != '':
out = out.split('/')
avg_rtt = out[1]
latency = float(avg_rtt)/float(2)
else:
latency = None
log.info('CORD setup latency calculated from icmp packet with size %s bytes is = %s ms'%(size,latency))
assert_not_equal(latency,None)
df.callback(0)
reactor.callLater(0, scale_vsg_vms, df)
return df
@deferred(10)
def test_latency_of_cord_with_traceroute(self):
df = defer.Deferred()
def scale_vcpe_instances(df):
cmd = "traceroute -q1 {} | tail -1| awk '{{print $4}}'".format(self.wan_intf_ip)
avg_rtt = float(0)
latency = None
for index in [1,2,3]:
st, out = getstatusoutput(cmd)
if out != '':
avg_rtt += float(out)
latency = float(avg_rtt)/float(6)
log.info('CORD setup latency calculated from traceroute is = %s ms'%latency)
assert_not_equal(latency,0.0)
assert_not_equal(latency,None)
df.callback(0)
reactor.callLater(0, scale_vsg_vms, df)
return df
#tested with 50 igmp joins on CiaB setup
@deferred(1000)
def test_scale_with_igmp_joins_for_500_multicast_groups_and_check_cpu_usage(self, group_count=500):
df = defer.Deferred()
def scale_igmp_joins(df):
OnosCtrl(self.igmp_app).activate()
groups = scale().generate_random_multicast_ip_addresses(count = group_count)
sources = scale().generate_random_unicast_ip_addresses(count = group_count)
scale().onos_ssm_table_load(groups,src_list=sources,flag=True)
try:
for index in range(group_count):
scale().send_igmp_join(groups = [groups[index]], src_list = [sources[index]],record_type = IGMP_V3_GR_TYPE_INCLUDE,
iface = self.V_INF1)
status = scale().verify_igmp_data_traffic(groups[index],intf=self.V_INF1,source=sources[index])
assert_equal(status, True)
log_test.info('data received for group %s from source %s - %d'%(groups[index],sources[index],index))
except Exception as error:
log.info('Got unexpected error %s'%error)
raise
df.callback(0)
reactor.callLater(0, scale_igmp_joins, df)
return df
#tested with 50 igmp joins on CiaB setup
@deferred(1000)
def test_scale_with_igmp_joins_for_1000_multicast_groups_and_igmp_app_toggle(self, group_count=1000):
df = defer.Deferred()
def scale_igmp_joins(df):
OnosCtrl(self.igmp_app).activate()
groups = scale().generate_random_multicast_ip_addresses(count = group_count)
sources = scale().generate_random_unicast_ip_addresses(count = group_count)
scale().onos_ssm_table_load(groups,src_list=sources,flag=True)
try:
for index in range(group_count):
scale().send_igmp_join(groups = [groups[index]], src_list = [sources[index]],record_type = IGMP_V3_GR_TYPE_INCLUDE,
iface = self.V_INF1)
status = scale().verify_igmp_data_traffic(groups[index],intf=self.V_INF1,source=sources[index])
assert_equal(status, True)
log_test.info('data received for group %s from source %s - %d'%(groups[index],sources[index],index))
log_test.info('Deactivating igmp app in onos')
OnosCtrl(self.igmp_app).deactivate()
time.sleep(2)
for index in range(group_count):
status = scale().verify_igmp_data_traffic(groups[index],intf=self.V_INF1,source=sources[index])
assert_equal(status, False)
log_test.info('data received for group %s from source %s - %d'%(groups[index],sources[index],index))
OnosCtrl(self.igmp_app).ctivate()
except Exception as error:
log.info('Got unexpected error %s'%error)
OnosCtrl(self.igmp_app).activate()
raise
df.callback(0)
reactor.callLater(0, scale_igmp_joins, df)
return df
#tested with 50 igmp joins on CiaB setup
@deferred(1800)
def test_scale_with_igmp_joins_for_2000_multicast_groups_and_check_cpu_usage(self, group_count=2000):
df = defer.Deferred()
def scale_igmp_joins(df):
OnosCtrl(self.igmp_app).activate()
groups = scale().generate_random_multicast_ip_addresses(count = group_count)
sources = scale().generate_random_unicast_ip_addresses(count = group_count)
scale().onos_ssm_table_load(groups,src_list=sources,flag=True)
try:
for index in range(group_count):
scale().send_igmp_join(groups = [groups[index]], src_list = [sources[index]],record_type = IGMP_V3_GR_TYPE_INCLUDE,
iface = self.V_INF1)
status = scale().verify_igmp_data_traffic(groups[index],intf=self.V_INF1,source=sources[index])
assert_equal(status, True)
log_test.info('data received for group %s from source %s - %d'%(groups[index],sources[index],index))
if index % 50 == 0:
cpu_usage = scale().get_system_cpu_usage()
log.info('CPU usage is %s for multicast group entries %s'%(cpu_usage,index+1))
except Exception as error:
log.info('Got unexpected error %s'%error)
raise
df.callback(0)
reactor.callLater(0, scale_igmp_joins, df)
return df
#tested with 50 igmp joins on CiaB setup
@deferred(1000)
def test_scale_of_igmp_joins_for_2000_multicast_groups_and_check_cpu_usage_after_app_deactivation_and_activation(self,group_count=2000):
df = defer.Deferred()
def scale_igmp_joins(df):
cpu_usage1 = scale().get_system_cpu_usage()
OnosCtrl(self.igmp_app).activate()
groups = scale().generate_random_multicast_ip_addresses(count = group_count)
sources = scale().generate_random_unicast_ip_addresses(count = group_count)
scale().onos_ssm_table_load(groups,src_list=sources,flag=True)
try:
for index in range(group_count):
scale().send_igmp_join(groups = [groups[index]], src_list = [sources[index]],record_type = IGMP_V3_GR_TYPE_INCLUDE,
iface = self.V_INF1)
status = scale().verify_igmp_data_traffic(groups[index],intf=self.V_INF1,source=sources[index])
assert_equal(status, True)
log_test.info('data received for group %s from source %s - %d'%(groups[index],sources[index],index))
if index % 50 == 0:
cpu_usage = self.get_system_cpu_usage()
log.info('CPU usage is %s for multicast group entries %s'%(cpu_usage,index+1))
cpu_usage2 = scale().get_system_cpu_usage()
OnosCtrl(self.igmp_app).deactivate()
time.sleep(2)
cpu_usage3 = scale().get_system_cpu_usage()
log.info('CPU usage before test start = %f after %d igmp entries registered in onos = %f and after the app deactivated = %f are'%(cpu_usage1,cpu_usage2,cpu_usage3))
except Exception as error:
log.info('Got unexpected error %s'%error)
raise
df.callback(0)
reactor.callLater(0, scale_igmp_joins, df)
return df
#tested with 100 flow entries on CiaB setup
@deferred(1000)
def test_scale_adding_1k_flow_entries_in_onos_with_dynamic_tcp_ports(self,count=1000):
scale().flows_setup()
df = defer.Deferred()
def scale_flow_entries(df):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03', 'ip': '192.168.30.1', 'tcp_port': random.randint(1024,65535) }
ingress_map = { 'ether': '00:00:00:00:00:04', 'ip': '192.168.40.1', 'tcp_port': random.randint(1024,65535) }
try:
for index in range(0,count):
ingress_map['tcp_port'] = random.randint(1024,65535)
egress_map['tcp_port'] = random.randint(1024,65535)
src_port = ingress_map['tcp_port']
egr_port = egress_map['tcp_port']
#log.info('ingress port is %d and egress port is %d'%(src_port,egr_port))
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + scale().port_offset,
ingressPort = ingress + scale().port_offset,
tcpSrc = ingress_map['tcp_port'],
tcpDst = egress_map['tcp_port']
)
result = flow.addFlow()
assert_equal(result, True)
log_test.info("flow number = %d is added",index+1)
def mac_recv_task():
def recv_cb(pkt):
log_test.info('Pkt seen with ingress TCP port %s, egress TCP port %s' %(pkt[TCP].sport, pkt[TCP].dport))
result = True
sniff(count=2, timeout=5,
lfilter = lambda p: TCP in p and p[TCP].dport == egr_port and p[TCP].sport == src_port ,prn = recv_cb, iface = scale().port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IP(src = ingress_map['ip'], dst = egress_map['ip'])
L4 = TCP(sport = src_port, dport = egr_port)
pkt = L2/L3/L4
log_test.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = scale().port_map[ingress])
t.join()
except Exception as error:
log.info('Got unexpected error %s'%error)
raise
df.callback(0)
reactor.callLater(0,scale_flow_entries, df)
return df
#tested with 100 flow entries on CiaB setup
@deferred(1000)
def test_scale_adding_5k_ip_flow_entries_in_onos_and_checking_cpu_usage(self,count=5000):
scale().flows_setup()
df = defer.Deferred()
def scale_flow_entries(df):
cpu_usage1 = scale().get_system_cpu_usage()
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03', 'ip': '182.0.0.0' }
ingress_map = { 'ether': '00:00:00:00:00:04', 'ip': '192.0.0.0' }
try:
for index in range(0,count):
ingress_map['ip'] = scale().generate_random_unicast_ip_addresses()[0] #next_ip(ingress_map['ip'])
assert_not_equal(ingress_map['ip'], None)
egress_map['ip'] = scale().generate_random_unicast_ip_addresses()[0] #to_egress_ip(ingress_map['ip'])
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + scale().port_offset,
ingressPort = ingress + scale().port_offset,
ethType = '0x0800',
ipSrc = ('IPV4_SRC', ingress_map['ip']+'/8'),
ipDst = ('IPV4_DST', egress_map['ip']+'/8')
)
if index % 50 == 0:
cpu_usage = scale().get_system_cpu_usage()
log.info('CPU usage is %s for flow number %d added'%(cpu_usage,index+1))
time.sleep(1)
def mac_recv_task():
def recv_cb(pkt):
log_test.info('Pkt seen with ingress source IP %s, destination IP %s' %(pkt[IP].src, pkt[IP].dst))
result = True
sniff(count=2, timeout=5,
lfilter = lambda p: IP in p and p[IP].dst == egress_map['ip'] and p[IP].src == ingress_map['ip'] ,prn = recv_cb, iface = scale().port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IP(src = ingress_map['ip'], dst = egress_map['ip'])
pkt = L2/L3
log_test.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = scale().port_map[ingress])
t.join()
cpu_usage2 = scale().get_system_cpu_usage()
log.info('system cpu usage before flows added = %f and after %d flows added = %f'%(cpu_usage1,count,cpu_usage2))
except Exception as error:
log.info('Got unexpected error %s'%error)
raise
df.callback(0)
reactor.callLater(0, scale_flow_entries, df)
return df
#tested with 100 flow entries on CiaB setup
@deferred(1000)
def test_scale_adding_10k_flow_entries_in_onos_with_dynamic_udp_ports(self,count=10000):
scale().flows_setup()
df = defer.Deferred()
def scale_flow_entries(df):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03', 'ip': '192.168.30.1', 'udp_port': random.randint(1024,65535) }
ingress_map = { 'ether': '00:00:00:00:00:04', 'ip': '192.168.40.1', 'udp_port': random.randint(1024,65535) }
try:
for index in range(0,count):
ingress_map['udp_port'] = random.randint(1024,65535)
egress_map['udp_port'] = random.randint(1024,65535)
src_port = ingress_map['udp_port']
egr_port = egress_map['udp_port']
#log.info('ingress port is %d and egress port is %d'%(src_port,egr_port))
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + scale().port_offset,
ingressPort = ingress + scale().port_offset,
udpSrc = ingress_map['udp_port'],
udpDst = egress_map['udp_port']
)
result = flow.addFlow()
assert_equal(result, True)
log_test.info("flow number = %d is added",index+1)
def mac_recv_task():
def recv_cb(pkt):
log_test.info('Pkt seen with ingress UDP port %s, egress UDP port %s' %(pkt[UDP].sport, pkt[UDP].dport))
result = True
sniff(count=2, timeout=5,
lfilter = lambda p: UDP in p and p[UDP].dport == egr_port and p[UDP].sport == src_port ,prn = recv_cb, iface = scale().port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IP(src = ingress_map['ip'], dst = egress_map['ip'])
L4 = UDP(sport = src_port, dport = egr_port)
pkt = L2/L3/L4
log_test.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = scale().port_map[ingress])
t.join()
except Exception as error:
log.info('Got unexpected error %s'%error)
raise
df.callback(0)
reactor.callLater(0,scale_flow_entries, df)
return df
#tested with 100 flow entries on CiaB setup
@deferred(1000)
def test_scale_adding_10k_constant_destination_mac_flow_entries_in_onos_and_check_cpu_usage(self,count=100):
scale().flows_setup()
df = defer.Deferred()
def scale_flow_entries(df):
cpu_usage1 = self.get_system_cpu_usage()
egress = 1
ingress = 2
egress_mac = '02:00:00:00:0:0'
ingress_mac = '03:00:00:00:00:00'
try:
for index in range(0,count):
result = False
ingress_mac = scale().next_mac(ingress_mac)
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + scale().port_offset,
ingressPort = ingress + scale().port_offset,
ethSrc = ingress_mac,
ethDst = egress_mac)
result = flow.addFlow()
assert_equal(result, True)
log.info("flow number = %d is added",index+1)
if index % 100 == 0:
cpu_usage = scale().get_system_cpu_usage()
log.info('CPU usage is %s for multicast group entries %s'%(cpu_usage,index+1))
time.sleep(1)
def mac_recv_task():
def recv_cb(pkt):
log_test.info('Pkt seen with ingress mac %s, egress mac %s' %(pkt.src , pkt.dst))
result = True
sniff(count=2, timeout=5,
lfilter = lambda p: p.src == ingress_mac and p.dst == egress_mac ,prn = recv_cb, iface = scale().port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_mac, dst = egress_mac)
pkt = L2/IP()
log_test.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = scale().port_map[ingress])
t.join()
assert_equal(result, True)
cpu_usage2 = self.get_system_cpu_usage()
log.info('system cpu usage before flows added = %f and after %d flows added = %f'%(cpu_usage1,count,cpu_usage2))
except Exception as error:
log.info('Got unexpected error %s'%error)
raise
df.callback(0)
reactor.callLater(0,scale_flow_entries, df)
return df
@deferred(1000)
def test_scale_adding_10k_acl_rules_to_deny_matching_destination_tcp_port_traffic(self,count=10000):
df = defer.Deferred()
def scale_vcpe_instances(df):
cpu_usage1 = self.get_system_cpu_usage()
acl_rule = ACLTest()
for index in range(0,count):
src_ip = self.generate_random_unicast_ip_addresses(count=1)[0]+'/32'
dst_ip = self.generate_random_unicast_ip_addresses(count=1)[0]+'/32'
dst_port = random.randint(1024,65535)
log.info('adding acl rule = %d with src ip = %s, dst ip = %s and dst tcp port = %d'%(index+1, src_ip,dst_ip,dst_port))
status,code = acl_rule.adding_acl_rule('v4', srcIp=src_ip, dstIp = dst_ip, ipProto ='TCP', dstTpPort =dst_port, action = 'deny')
assert_equal(status, True)
if index % 100 == 0:
cpu_usage = self.get_system_cpu_usage()
log.info('CPU usage is %s for multicast group entries %s'%(cpu_usage,index+1))
time.sleep(1)
cpu_usage2 = self.get_system_cpu_usage()
log.info('system cpu usage before flows added = %f and after %d flows added = %f'%(cpu_usage1,count,cpu_usage2))
df.callback(0)
reactor.callLater(0, scale_vsg_vms, df)
return df
@deferred(1000)
def test_scale_adding_and_deleting_10k_acl_rules_to_allow_src_and_dst_ip_matching_traffic_check_cpu_usage(self,count=10000):
df = defer.Deferred()
def scale_vcpe_instances(df):
cpu_usage1 = self.get_system_cpu_usage()
acl_rule = ACLTest()
for index in range(0,count):
src_ip = self.generate_random_unicast_ip_addresses(count=1)[0]+'/32'
dst_ip = self.generate_random_unicast_ip_addresses(count=1)[0]+'/32'
dst_port = random.randint(1024,65535)
log.info('adding acl rule = %d with src ip = %s, dst ip = %s '%(index+1, src_ip,dst_ip))
status,code = acl_rule.adding_acl_rule('v4', srcIp=src_ip, dstIp = dst_ip,action = 'allow')
assert_equal(status, True)
if index % 100 == 0:
cpu_usage = self.get_system_cpu_usage()
log.info('CPU usage is %s for acl rule number %s'%(cpu_usage,index+1))
time.sleep(1)
cpu_usage2 = self.get_system_cpu_usage()
result = acl_rule.get_acl_rules()
result = result.json()['aclRules']
for acl in result:
acl_rule.remove_acl_rule(acl['id'])
#log.info('acl is %s'%acl)
cpu_usage3 = self.get_system_cpu_usage()
log.info('system cpu usage before flows added = %f and after %d flows added = %f, after deleting all acl rules = %f'%(cpu_usage1,count,cpu_usage2,cpu_usage3))
df.callback(0)
reactor.callLater(0, scale_vsg_vms, df)
return df
@deferred(1000)
def test_scale_adding_20k_acl_rules_to_allow_src_and_dst_ip_matching_traffic_and_deactivate_acl_app_checking_cpu_usage(self,count=20000):
df = defer.Deferred()
def scale_vcpe_instances(df):
cpu_usage1 = self.get_system_cpu_usage()
acl_rule = ACLTest()
for index in range(0,count):
src_ip = self.generate_random_unicast_ip_addresses(count=1)[0]+'/32'
dst_ip = self.generate_random_unicast_ip_addresses(count=1)[0]+'/32'
dst_port = random.randint(1024,65535)
log.info('adding acl rule = %d with src ip = %s, dst ip = %s '%(index+1, src_ip,dst_ip))
status,code = acl_rule.adding_acl_rule('v4', srcIp=src_ip, dstIp = dst_ip,action = 'allow')
assert_equal(status, True)
if index % 200 == 0:
cpu_usage = self.get_system_cpu_usage()
log.info('CPU usage is %s for acl rule number %s'%(cpu_usage,index+1))
time.sleep(1)
cpu_usage2 = self.get_system_cpu_usage()
OnosCtrl(cls.acl_app).deactivate()
time.sleep(3)
cpu_usage3 = self.get_system_cpu_usage()
log.info('system cpu usage before flows added = %f, after %d flows added = %f, and after deactivating acl app = %f'%(cpu_usage1,count,cpu_usage2,cpu_usage3))
df.callback(0)
reactor.callLater(0, scale_vsg_vms, df)
return df
@deferred(1000)
def test_scale_adding_igmp_and_acl_with_flow_entries_and_check_cpu_usage(self,igmp_groups=1300, flows_count=10000):
df = defer.Deferred()
def scale_vcpe_instances(df):
cpu_usage1 = self.get_system_cpu_usage()
egress = 1
ingress = 2
egress_mac = '00:00:00:00:01:01'
ingress_mac = '02:00:00:00:00:00'
acl_rule = ACLTest()
OnosCtrl(self.igmp_app).activate()
groups = self.generate_random_multicast_ip_addresses(count = igmp_groups)
sources = self.generate_random_unicast_ip_addresses(count = igmp_groups)
self.onos_ssm_table_load(groups,src_list=sources,flag=True)
for index in range(igmp_groups):
self.send_igmp_join(groups = [groups[index]], src_list = [sources[index]],record_type = IGMP_V3_GR_TYPE_INCLUDE,
iface = self.V_INF1)
status = self.verify_igmp_data_traffic(groups[index],intf=self.V_INF1,source=sources[index])
assert_equal(status, True)
log_test.info('data received for group %s from source %s - %d'%(groups[index],sources[index],index))
for index in range(flows_count):
src_ip = self.generate_random_unicast_ip_addresses(count=1)[0]+'/32'
dst_ip = self.generate_random_unicast_ip_addresses(count=1)[0]+'/32'
log.info('adding acl rule = %d with src ip = %s, dst ip = %s '%(index+1, src_ip,dst_ip))
status,code = acl_rule.adding_acl_rule('v4', srcIp=src_ip, dstIp = dst_ip,action = 'allow')
assert_equal(status, True)
ingress_mac = self.next_mac(ingress_mac)
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ethSrc = ingress_mac,
ethDst = egress_mac)
result = flow.addFlow()
assert_equal(result, True)
log.info("flow number = %d is added",index+1)
if index % 200 == 0:
cpu_usage = self.get_system_cpu_usage()
log.info('CPU usage is %s for acl rule number %s'%(cpu_usage,index+1))
time.sleep(1)
cpu_usage2 = self.get_system_cpu_usage()
log.info('system cpu usage before flows added = %f, after %d flows added = %f'%(cpu_usage1,count,cpu_usage2))
df.callback(0)
reactor.callLater(0, scale_vsg_vms, df)
return df
@deferred(1000)
def test_scale_adding_igmp_acl_and_flow_entries_and_simultaneously_toggling_app_activation(self,igmp_groups=1300, flows_count=10000):
df = defer.Deferred()
def scale_vcpe_instances(df):
cpu_usage1 = self.get_system_cpu_usage()
def adding_igmp_entries():
OnosCtrl(self.igmp_app).activate()
groups = self.generate_random_multicast_ip_addresses(count = igmp_groups)
sources = self.generate_random_unicast_ip_addresses(count = igmp_groups)
self.onos_ssm_table_load(groups,src_list=sources,flag=True)
for index in range(igmp_groups):
self.send_igmp_join(groups = [groups[index]], src_list = [sources[index]],record_type = IGMP_V3_GR_TYPE_INCLUDE,
iface = self.V_INF1)
status = self.verify_igmp_data_traffic(groups[index],intf=self.V_INF1,source=sources[index])
assert_equal(status, True)
log_test.info('data received for group %s from source %s - %d'%(groups[index],sources[index],index))
def adding_flow_entries():
egress = 1
ingress = 2
egress_mac = '00:00:00:00:01:01'
ingress_mac = '02:00:00:00:00:00'
for index in range(flows_count):
ingress_mac = self.next_mac(ingress_mac)
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ethSrc = ingress_mac,
ethDst = egress_mac)
result = flow.addFlow()
assert_equal(result, True)
log.info("flow number = %d is added",index+1)
def adding_acl_entries():
OnosCtrl(self.acl_app).activate()
for index in range(flows_count):
src_ip = self.generate_random_unicast_ip_addresses(count=1)[0]+'/32'
dst_ip = self.generate_random_unicast_ip_addresses(count=1)[0]+'/32'
dst_port = random.randint(1024,65535)
log.info('adding acl rule = %d with src ip = %s, dst ip = %s and dst tcp port = %d'%(index+1, src_ip,dst_ip,dst_port))
status,code = acl_rule.adding_acl_rule('v4', srcIp=src_ip, dstIp = dst_ip, ipProto ='TCP', dstTpPort =dst_port, action = 'deny')
assert_equal(status, True)
igmp_thread = threading.Thread(target = adding_igmp_entries)
flows_thread = threading.Thread(target = adding_flow_entries)
acl_thread = threading.Thread(target = adding_acl_entries)
igmp_thread.start()
flows_thread.start()
acl_thread.start()
time.sleep(1)
igmp_thread.join()
flows_thread.join()
acl_thread.join()
cpu_usage2 = self.get_system_cpu_usage()
OnosCtrl(self.igmp_app).deactivate()
OnosCtrl(self.acl_app).deactivate()
cpu_usage3 = self.get_system_cpu_usage()
log.info('cpu usage before test start = %f, after igmp,flow and acl entries loaded = %f and after the apps deactivated = %f'%(cpu_usage1,cpu_usage2,cpu_usage3))
OnosCtrl(self.igmp_app).activate()
OnosCtrl(self.acl_app).activate()
df.callback(0)
reactor.callLater(0, scale_vsg_vms, df)
return df
@deferred(1000)
def test_scale_for_vrouter_with_10_routes_with_10_peers(self):
scale().vrouter_setup()
df = defer.Deferred()
def scale_vrouter_routes(df):
try:
res = scale().vrouter_network_verify(100, peers = 10)
assert_equal(res, True)
except Exception as error:
log.info('Got Unexpected error %s'%error)
raise
df.callback(0)
reactor.callLater(0, scale_vrouter_routes, df)
return df
#tested with 100 routes on CiaB
@deferred(1000)
def test_scale_for_vrouter_with_20000_routes_with_100_peers(self):
scale().vrouter_setup()
df = defer.Deferred()
def scale_vrouter_routes(df):
try:
res = scale().vrouter_network_verify(10000, peers = 100)
assert_equal(res, True)
except Exception as error:
log.info('Got Unexpected error %s'%error)
raise
df.callback(0)
reactor.callLater(0, scale_vrouter_routes, df)
return df
#tested with 100 routes on CiaB
@deferred(1500)
def test_scale_for_vrouter_with_20000_routes_with_100_peers(self):
scale().vrouter_setup()
df = defer.Deferred()
def scale_vrouter_routes(df):
try:
res = scale().vrouter_network_verify(20000, peers = 100)
assert_equal(res, True)
except Exception as error:
log.info('Got Unexpected error %s'%error)
raise
df.callback(0)
reactor.callLater(0, scale_vrouter_routes, df)
return df
#tested with 100 subscribers on CiaB
@deferred(1800)
def test_scale_of_eap_tls_with_5k_sessions_using_diff_mac(self):
OnosCtrl('org.opencord.aaa').activate()
df = defer.Deferred()
def eap_tls_5k_with_diff_mac(df):
try:
for i in xrange(5000):
tls = TLSAuthTest(src_mac = 'random')
tls.runTest()
log_test.info('Authentication successfull for user %d'%i)
except Exception as error:
log.info('Got Unexpected error %s'%error)
raise
df.callback(0)
reactor.callLater(0, eap_tls_5k_with_diff_mac, df)
return df
#tested with 100 subscribers on CiaB
@deferred(1800)
def test_scale_of_eap_tls_with_5k_sessions_using_diff_mac_with_aaa_deactivate_and_activated(self):
OnosCtrl('org.opencord.aaa').activate()
df = defer.Deferred()
def eap_tls_5k_with_diff_mac(df):
try:
for i in xrange(5000):
tls = TLSAuthTest(src_mac = 'random')
tls.runTest()
log_test.info('Authentication successfull for user %d'%i)
OnosCtrl('org.opencord.aaa').deactivate()
time.sleep(2)
OnosCtrl('org.opencord.aaa').activate()
for i in xrange(100):
tls = TLSAuthTest(src_mac = 'random')
tls.runTest()
log_test.info('Authentication successfull for user %d'%i)
OnosCtrl('org.opencord.aaa').activate()
except Exception as error:
log.info('Got Unexpected error %s'%error)
OnosCtrl('org.opencord.aaa').activate()
raise
df.callback(0)
reactor.callLater(0, eap_tls_5k_with_diff_mac, df)
return df
#tested with 10 subscribers on CiaB
@deferred(1800)
def test_scale_5k_cord_subscribers_authentication_with_valid_and_invalid_certificates_and_channel_surfing(self):
scale().subscriber_setup()
df = defer.Deferred()
def cordsub_auth_invalid_cert(df):
num_subscribers = 2
num_channels = 1
try:
test_status = scale().subscriber_join_verify(num_subscribers = num_subscribers,
num_channels = num_channels,
cbs = (scale().tls_invalid_cert, scale().dhcp_verify, scale().igmp_verify),
port_list = scale().generate_port_list(num_subscribers, num_channels), negative_subscriber_auth = 'half')
assert_equal(test_status, True)
except Exception as error:
log.info('Got Unexpected error %s'%error)
raise
finally:
scale().subscriber_teardown()
df.callback(0)
reactor.callLater(0, cordsub_auth_invalid_cert, df)
return df
#tested with 10 subscribers on CiaB
@deferred(1800)
def test_scale_5k_cord_subscribers_igmp_join_jump_1500channel(self):
scale().subscriber_setup()
df = defer.Deferred()
def cordsub_igmp_join_jump(df):
num_subscribers = 5000
num_channels = 1500
try:
test_status = scale().subscriber_join_verify(num_subscribers = num_subscribers,
num_channels = num_channels,
cbs = (scale().tls_verify, scale().dhcp_jump_verify, scale().igmp_jump_verify),
port_list = scale().generate_port_list(num_subscribers, num_channels),
negative_subscriber_auth = 'all')
assert_equal(test_status, True)
except Exception as error:
log.info('Got Unexpected error %s'%error)
raise
finally:
scale().subscriber_teardown()
df.callback(0)
reactor.callLater(0, cordsub_igmp_join_jump, df)
return df
#tested with 10 subscribers on CiaB
@deferred(1800)
def test_scale_10k_cord_subscribers_authentication_with_valid_and_non_ca_authorized_certificates_and_channel_surfing(self):
scale().subscriber_setup()
df = defer.Deferred()
def cordsub_auth_valid_cert(df):
num_subscribers = 10000
num_channels = 1
try:
test_status = scale().subscriber_join_verify(num_subscribers = num_subscribers,
num_channels = num_channels,
cbs = (scale().tls_non_ca_authrized_cert, scale().dhcp_verify, scale().igmp_verify),
port_list = scale().generate_port_list(num_subscribers, num_channels),
negative_subscriber_auth = 'onethird')
assert_equal(test_status, True)
except Exception as error:
log.info('Got Unexpected error %s'%error)
raise
finally:
scale().subscriber_teardown()
df.callback(0)
reactor.callLater(0, cordsub_auth_valid_cert, df)
return df