| # |
| # 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 unittest |
| from threading import Timer |
| from nose.tools import * |
| from nose.twistedtools import reactor, deferred |
| from twisted.internet import defer |
| from scapy.all import * |
| import time, monotonic |
| import os, sys |
| import tempfile |
| import random |
| import Queue |
| import threading |
| from IGMP import * |
| from McastTraffic import * |
| from Stats import Stats |
| from OnosCtrl import OnosCtrl |
| from OltConfig import OltConfig |
| from Channels import IgmpChannel |
| from EapTLS import TLSAuthTest |
| from scapy_ssl_tls.ssl_tls import * |
| from scapy_ssl_tls.ssl_tls_crypto import * |
| log.setLevel('INFO') |
| from EapolAAA import * |
| from enum import * |
| import noseTlsAuthHolder as tlsAuthHolder |
| from tls_cert import Key |
| from socket import * |
| from CordTestServer import cord_test_radius_restart |
| import struct |
| import scapy |
| from CordTestBase import CordTester |
| from CordContainer import * |
| from CordLogger import CordLogger |
| import re |
| from random import randint |
| from time import sleep |
| |
| import json |
| from OnosFlowCtrl import OnosFlowCtrl |
| from OltConfig import OltConfig |
| from threading import current_thread |
| import collections |
| |
| class IGMPTestState: |
| |
| def __init__(self, groups = [], df = None, state = 0): |
| self.df = df |
| self.state = state |
| self.counter = 0 |
| self.groups = groups |
| self.group_map = {} ##create a send/recv count map |
| for g in groups: |
| self.group_map[g] = (Stats(), Stats()) |
| |
| def update(self, group, tx = 0, rx = 0, t = 0): |
| self.counter += 1 |
| index = 0 if rx == 0 else 1 |
| v = tx if rx == 0 else rx |
| if self.group_map.has_key(group): |
| self.group_map[group][index].update(packets = v, t = t) |
| |
| def update_state(self): |
| self.state = self.state ^ 1 |
| |
| class netCondition_exchange(CordLogger): |
| |
| 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' |
| NEGATIVE_TRAFFIC_STATUS = 1 |
| igmp_eth = Ether(dst = IGMP_DST_MAC, type = ETH_P_IP) |
| igmp_ip = IP(dst = IP_DST) |
| IGMP_TEST_TIMEOUT = 5 |
| IGMP_QUERY_TIMEOUT = 60 |
| MCAST_TRAFFIC_TIMEOUT = 10 |
| TEST_TIMEOUT_DELAY = 340 |
| PORT_TX_DEFAULT = 2 |
| PORT_RX_DEFAULT = 1 |
| max_packets = 100 |
| app_igmp = 'org.opencord.igmp' |
| olt_conf_file = os.path.join(os.path.dirname(os.path.realpath(__file__)), '../setup/olt_config.json') |
| ROVER_TEST_TIMEOUT = 10 #3600*86 |
| ROVER_TIMEOUT = (ROVER_TEST_TIMEOUT - 100) |
| ROVER_JOIN_TIMEOUT = 60 |
| |
| app_tls = 'org.opencord.aaa' |
| TLS_TIMEOUT = 20 |
| CLIENT_CERT_INVALID = '''-----BEGIN CERTIFICATE----- |
| MIIEyTCCA7GgAwIBAgIJAM6l2jUG56pLMA0GCSqGSIb3DQEBCwUAMIGLMQswCQYD |
| VQQGEwJVUzELMAkGA1UECBMCQ0ExEjAQBgNVBAcTCVNvbWV3aGVyZTETMBEGA1UE |
| ChMKQ2llbmEgSW5jLjEeMBwGCSqGSIb3DQEJARYPYWRtaW5AY2llbmEuY29tMSYw |
| JAYDVQQDEx1FeGFtcGxlIENlcnRpZmljYXRlIEF1dGhvcml0eTAeFw0xNjAzMTEx |
| ODUzMzVaFw0xNzAzMDYxODUzMzVaMIGLMQswCQYDVQQGEwJVUzELMAkGA1UECBMC |
| Q0ExEjAQBgNVBAcTCVNvbWV3aGVyZTETMBEGA1UEChMKQ2llbmEgSW5jLjEeMBwG |
| CSqGSIb3DQEJARYPYWRtaW5AY2llbmEuY29tMSYwJAYDVQQDEx1FeGFtcGxlIENl |
| cnRpZmljYXRlIEF1dGhvcml0eTCCASIwDQYJKoZIhvcNAQEBBQADggEPADCCAQoC |
| ggEBAL9Jv54TkqycL3U2Fdd/y5NXdnPVXwAVV3m6I3eIffVCv8eS+mwlbl9dnbjo |
| qqlGEgA3sEg5HtnKoW81l3PSyV/YaqzUzbcpDlgWlbNkFQ3nVxh61gSU34Fc4h/W |
| plSvCkwGSbV5udLtEe6S9IflP2Fu/eXa9vmUtoPqDk66p9U/nWVf2H1GJy7XanWg |
| wke+HpQvbzoSfPJS0e5Rm9KErrzaIkJpqt7soW+OjVJitUax7h45RYY1HHHlbMQ0 |
| ndWW8UDsCxFQO6d7nsijCzY69Y8HarH4mbVtqhg3KJevxD9UMRy6gdtPMDZLah1c |
| LHRu14ucOK4aF8oICOgtcD06auUCAwEAAaOCASwwggEoMB0GA1UdDgQWBBQwEs0m |
| c8HARTVp21wtiwgav5biqjCBwAYDVR0jBIG4MIG1gBQwEs0mc8HARTVp21wtiwga |
| v5biqqGBkaSBjjCBizELMAkGA1UEBhMCVVMxCzAJBgNVBAgTAkNBMRIwEAYDVQQH |
| EwlTb21ld2hlcmUxEzARBgNVBAoTCkNpZW5hIEluYy4xHjAcBgkqhkiG9w0BCQEW |
| D2FkbWluQGNpZW5hLmNvbTEmMCQGA1UEAxMdRXhhbXBsZSBDZXJ0aWZpY2F0ZSBB |
| dXRob3JpdHmCCQDOpdo1BueqSzAMBgNVHRMEBTADAQH/MDYGA1UdHwQvMC0wK6Ap |
| oCeGJWh0dHA6Ly93d3cuZXhhbXBsZS5jb20vZXhhbXBsZV9jYS5jcmwwDQYJKoZI |
| hvcNAQELBQADggEBAK+fyAFO8CbH35P5mOX+5wf7+AeC+5pwaFcoCV0zlfwniANp |
| jISgcIX9rcetLxeYRAO5com3+qLdd9dGVNL0kwufH4QhlSPErG7OLHHAs4JWVhUo |
| bH3lK9lgFVlnCDBtQhslzqScR64SCicWcQEjv3ZMZsJwYLvl8unSaKz4+LVPeJ2L |
| opCpmZw/V/S2NhBbe3QjTiRPmDev2gbaO4GCfi/6sCDU7UO3o8KryrkeeMIiFIej |
| gfwn9fovmpeqCEyupy2JNNUTJibEuFknwx7JAX+htPL27nEgwV1FYtwI3qLiZqkM |
| 729wo9cFSslJNZBu+GsBP5LszQSuvNTDWytV+qY= |
| -----END CERTIFICATE-----''' |
| |
| def onos_aaa_config(self): |
| aaa_dict = {'apps' : { 'org.onosproject.aaa' : { 'AAA' : { 'radiusSecret': 'radius_password', |
| 'radiusIp': '172.17.0.2' } } } } |
| radius_ip = os.getenv('ONOS_AAA_IP') or '172.17.0.2' |
| aaa_dict['apps']['org.onosproject.aaa']['AAA']['radiusIp'] = radius_ip |
| self.onos_ctrl.activate() |
| time.sleep(2) |
| self.onos_load_tls_config(aaa_dict) |
| |
| def onos_load_tls_config(self, config): |
| status, code = OnosCtrl.config(config) |
| if status is False: |
| log.info('Configure request for AAA returned status %d' %code) |
| assert_equal(status, True) |
| time.sleep(3) |
| |
| @classmethod |
| def setUpClass(cls): |
| cls.olt = OltConfig(olt_conf_file = cls.olt_conf_file) |
| cls.port_map, _ = cls.olt.olt_port_map() |
| OnosCtrl.cord_olt_config(cls.olt.olt_device_data()) |
| cls.device_id = OnosCtrl.get_device_id() |
| |
| @classmethod |
| def tearDownClass(cls): pass |
| |
| def setUp_igmp(self): |
| ''' Activate the igmp app''' |
| apps = self.app_igmp |
| self.onos_ctrl = OnosCtrl(apps) |
| # self.onos_ctrl = OnosCtrl(self.app_tls) |
| self.onos_aaa_config() |
| self.onos_ctrl.activate() |
| self.igmp_channel = IgmpChannel() |
| |
| def setUp_tls(self): |
| ''' Activate the igmp app''' |
| apps = self.app_tls |
| self.onos_ctrl = OnosCtrl(apps) |
| self.onos_aaa_config() |
| |
| def tearDown(self): |
| '''Deactivate the dhcp app''' |
| apps = [self.app_igmp, self.app_tls] |
| for app in apps: |
| onos_ctrl = OnosCtrl(app) |
| onos_ctrl.deactivate() |
| # log.info('Restarting the Radius container in the setup after running every subscriber test cases by default') |
| # rest = Container('cord-radius', 'cord-test/radius',) |
| # rest.restart('cord-radius','10') |
| # radius = Radius() |
| # radius_ip = radius.ip() |
| # print('Radius server is running with IP %s' %radius_ip) |
| #os.system('ifconfig '+INTF_RX_DEFAULT+' up') |
| |
| def onos_load_igmp_config(self, config): |
| log.info('onos load config is %s'%config) |
| status, code = OnosCtrl.config(config) |
| if status is False: |
| log.info('JSON request returned status %d' %code) |
| assert_equal(status, True) |
| time.sleep(2) |
| |
| def onos_ssm_table_load(self, groups, src_list = ['1.2.3.4'],flag = False): |
| ssm_dict = {'apps' : { 'org.onosproject.igmp' : { 'ssmTranslate' : [] } } } |
| ssm_xlate_list = ssm_dict['apps']['org.onosproject.igmp']['ssmTranslate'] |
| if flag: #to maintain seperate group-source pair. |
| for i in range(len(groups)): |
| d = {} |
| d['source'] = src_list[i] or '0.0.0.0' |
| d['group'] = groups[i] |
| ssm_xlate_list.append(d) |
| else: |
| for g in groups: |
| for s in src_list: |
| d = {} |
| d['source'] = s or '0.0.0.0' |
| d['group'] = g |
| ssm_xlate_list.append(d) |
| self.onos_load_igmp_config(ssm_dict) |
| cord_port_map = {} |
| for g in groups: |
| cord_port_map[g] = (self.PORT_TX_DEFAULT, self.PORT_RX_DEFAULT) |
| self.igmp_channel.cord_port_table_load(cord_port_map) |
| time.sleep(2) |
| |
| def mcast_ip_range(self,start_ip = '224.0.1.0', end_ip = '224.0.1.100'): |
| start = list(map(int, start_ip.split("."))) |
| end = list(map(int, end_ip.split("."))) |
| temp = start |
| ip_range = [] |
| ip_range.append(start_ip) |
| while temp != end: |
| start[3] += 1 |
| for i in (3, 2, 1): |
| if temp[i] == 255: |
| temp[i] = 0 |
| temp[i-1] += 1 |
| ip_range.append(".".join(map(str, temp))) |
| return ip_range |
| |
| def random_mcast_ip(self,start_ip = '224.0.1.0', end_ip = '224.0.1.100'): |
| start = list(map(int, start_ip.split("."))) |
| end = list(map(int, end_ip.split("."))) |
| temp = start |
| ip_range = [] |
| ip_range.append(start_ip) |
| while temp != end: |
| start[3] += 1 |
| for i in (3, 2, 1): |
| if temp[i] == 255: |
| temp[i] = 0 |
| temp[i-1] += 1 |
| ip_range.append(".".join(map(str, temp))) |
| return random.choice(ip_range) |
| |
| def source_ip_range(self,start_ip = '10.10.0.1', end_ip = '10.10.0.100'): |
| start = list(map(int, start_ip.split("."))) |
| end = list(map(int, end_ip.split("."))) |
| temp = start |
| ip_range = [] |
| ip_range.append(start_ip) |
| while temp != end: |
| start[3] += 1 |
| for i in (3, 2, 1): |
| if temp[i] == 255: |
| temp[i] = 0 |
| temp[i-1] += 1 |
| ip_range.append(".".join(map(str, temp))) |
| return ip_range |
| |
| def randomsourceip(self,start_ip = '10.10.0.1', end_ip = '10.10.0.100'): |
| start = list(map(int, start_ip.split("."))) |
| end = list(map(int, end_ip.split("."))) |
| temp = start |
| ip_range = [] |
| ip_range.append(start_ip) |
| while temp != end: |
| start[3] += 1 |
| for i in (3, 2, 1): |
| if temp[i] == 255: |
| temp[i] = 0 |
| temp[i-1] += 1 |
| ip_range.append(".".join(map(str, temp))) |
| return random.choice(ip_range) |
| |
| def get_igmp_intf(self): |
| inst = os.getenv('TEST_INSTANCE', None) |
| if not inst: |
| return 'veth0' |
| inst = int(inst) + 1 |
| if inst >= self.port_map['uplink']: |
| inst += 1 |
| if self.port_map.has_key(inst): |
| return self.port_map[inst] |
| return 'veth0' |
| |
| def igmp_verify_join(self, igmpStateList): |
| sendState, recvState = igmpStateList |
| ## check if the send is received for the groups |
| for g in sendState.groups: |
| tx_stats = sendState.group_map[g][0] |
| tx = tx_stats.count |
| assert_greater(tx, 0) |
| rx_stats = recvState.group_map[g][1] |
| rx = rx_stats.count |
| assert_greater(rx, 0) |
| log.info('Receive stats %s for group %s' %(rx_stats, g)) |
| |
| log.info('IGMP test verification success') |
| |
| def igmp_verify_leave(self, igmpStateList, leave_groups): |
| sendState, recvState = igmpStateList[0], igmpStateList[1] |
| ## check if the send is received for the groups |
| for g in sendState.groups: |
| tx_stats = sendState.group_map[g][0] |
| rx_stats = recvState.group_map[g][1] |
| tx = tx_stats.count |
| rx = rx_stats.count |
| assert_greater(tx, 0) |
| if g not in leave_groups: |
| log.info('Received %d packets for group %s' %(rx, g)) |
| for g in leave_groups: |
| rx = recvState.group_map[g][1].count |
| assert_equal(rx, 0) |
| |
| log.info('IGMP test verification success') |
| |
| def mcast_traffic_timer(self): |
| self.mcastTraffic.stopReceives() |
| |
| def send_mcast_cb(self, send_state): |
| for g in send_state.groups: |
| send_state.update(g, tx = 1) |
| return 0 |
| |
| ##Runs in the context of twisted reactor thread |
| def igmp_recv(self, igmpState, iface = 'veth0'): |
| p = self.recv_socket.recv() |
| try: |
| send_time = float(p.payload.load) |
| recv_time = monotonic.monotonic() |
| except: |
| log.info('Unexpected Payload received: %s' %p.payload.load) |
| return 0 |
| #log.info( 'Recv in %.6f secs' %(recv_time - send_time)) |
| igmpState.update(p.dst, rx = 1, t = recv_time - send_time) |
| return 0 |
| |
| def send_igmp_join(self, groups, src_list = ['1.2.3.4'], record_type=IGMP_V3_GR_TYPE_INCLUDE, |
| ip_pkt = None, iface = 'veth0', ssm_load = False, delay = 1): |
| if ssm_load is True: |
| self.onos_ssm_table_load(groups, src_list) |
| igmp = IGMPv3(type = IGMP_TYPE_V3_MEMBERSHIP_REPORT, max_resp_code=30, |
| gaddr=self.IP_DST) |
| for g in groups: |
| gr = IGMPv3gr(rtype= record_type, mcaddr=g) |
| gr.sources = src_list |
| igmp.grps.append(gr) |
| if ip_pkt is None: |
| ip_pkt = self.igmp_eth/self.igmp_ip |
| pkt = ip_pkt/igmp |
| IGMPv3.fixup(pkt) |
| sendp(pkt, iface=iface) |
| if delay != 0: |
| time.sleep(delay) |
| |
| |
| def send_igmp_join_negative(self, groups, src_list = ['1.2.3.4'], record_type=IGMP_V3_GR_TYPE_INCLUDE, |
| ip_pkt = None, iface = 'veth0', ssm_load = False, delay = 1, ip_src = None, invalid_igmp_join = None ): |
| if ssm_load is True: |
| self.onos_ssm_table_load(groups, src_list) |
| if invalid_igmp_join == 'igmp_type': |
| igmp = IGMPv3(type = IGMP_TYPE_V3_MEMBERSHIP_REPORT_NEGATIVE, max_resp_code=30, |
| gaddr=self.IP_DST) |
| else: |
| igmp = IGMPv3(type = IGMP_TYPE_V3_MEMBERSHIP_REPORT, max_resp_code=30, |
| gaddr=self.IP_DST) |
| if invalid_igmp_join == 'record_type': |
| record_type = IGMP_V3_GR_TYPE_INCLUDE_NEGATIVE |
| |
| for g in groups: |
| gr = IGMPv3gr(rtype= record_type, mcaddr=g) |
| gr.sources = src_list |
| igmp.grps.append(gr) |
| if ip_pkt is None: |
| if ip_src is None: |
| ip_pkt = self.igmp_eth/self.igmp_ip |
| else: |
| igmp_ip_src = IP(dst = self.IP_DST, src = ip_src) |
| ip_pkt = self.igmp_eth/igmp_ip_src |
| pkt = ip_pkt/igmp |
| if invalid_igmp_join == 'ttl': |
| set_ttl = 10 |
| IGMPv3.fixup(pkt,invalid_ttl = set_ttl) |
| else: |
| IGMPv3.fixup(pkt) |
| sendp(pkt, iface=iface) |
| if delay != 0: |
| time.sleep(delay) |
| |
| def send_igmp_join_recvQuery(self, groups, rec_queryCount = None, src_list = ['1.2.3.4'], ip_pkt = None, iface = 'veth0', delay = 2): |
| self.onos_ssm_table_load(groups, src_list) |
| igmp = IGMPv3(type = IGMP_TYPE_V3_MEMBERSHIP_REPORT, max_resp_code=30, |
| gaddr=self.IP_DST) |
| for g in groups: |
| gr = IGMPv3gr(rtype=IGMP_V3_GR_TYPE_INCLUDE, mcaddr=g) |
| gr.sources = src_list |
| gr.sources = src_list |
| igmp.grps.append(gr) |
| if ip_pkt is None: |
| ip_pkt = self.igmp_eth/self.igmp_ip |
| pkt = ip_pkt/igmp |
| IGMPv3.fixup(pkt) |
| if rec_queryCount == None: |
| log.info('Sending IGMP join for group %s and waiting for one query packet and printing the packet' %groups) |
| resp = srp1(pkt, iface=iface) |
| else: |
| log.info('Sending IGMP join for group %s and waiting for periodic query packets and printing one packet' %groups) |
| resp = srp1(pkt, iface=iface) |
| # resp = srp1(pkt, iface=iface) if rec_queryCount else srp3(pkt, iface=iface) |
| resp[0].summary() |
| log.info('Sent IGMP join for group %s and received a query packet and printing packet' %groups) |
| if delay != 0: |
| time.sleep(delay) |
| |
| def send_igmp_leave(self, groups, src_list = ['1.2.3.4'], ip_pkt = None, iface = 'veth0', delay = 2): |
| log.info('entering into igmp leave function') |
| igmp = IGMPv3(type = IGMP_TYPE_V3_MEMBERSHIP_REPORT, max_resp_code=30, |
| gaddr=self.IP_DST) |
| for g in groups: |
| gr = IGMPv3gr(rtype=IGMP_V3_GR_TYPE_EXCLUDE, mcaddr=g) |
| gr.sources = src_list |
| igmp.grps.append(gr) |
| if ip_pkt is None: |
| ip_pkt = self.igmp_eth/self.igmp_ip |
| pkt = ip_pkt/igmp |
| IGMPv3.fixup(pkt) |
| sendp(pkt, iface = iface) |
| if delay != 0: |
| time.sleep(delay) |
| |
| def send_igmp_leave_listening_group_specific_query(self, groups, src_list = ['1.2.3.4'], ip_pkt = None, iface = 'veth0', delay = 2): |
| igmp = IGMPv3(type = IGMP_TYPE_V3_MEMBERSHIP_REPORT, max_resp_code=30, |
| gaddr=self.IP_DST) |
| for g in groups: |
| gr = IGMPv3gr(rtype=IGMP_V3_GR_TYPE_EXCLUDE, mcaddr=g) |
| gr.sources = src_list |
| igmp.grps.append(gr) |
| if ip_pkt is None: |
| ip_pkt = self.igmp_eth/self.igmp_ip |
| pkt = ip_pkt/igmp |
| IGMPv3.fixup(pkt) |
| log.info('Sending IGMP leave for group %s and waiting for one group specific query packet and printing the packet' %groups) |
| resp = srp1(pkt, iface=iface) |
| resp[0].summary() |
| log.info('Sent IGMP leave for group %s and received a group specific query packet and printing packet' %groups) |
| if delay != 0: |
| time.sleep(delay) |
| |
| @deferred(timeout=MCAST_TRAFFIC_TIMEOUT+390) |
| def test_netCondition_with_delay_between_igmp_join_and_data_recv(self): |
| self.setUp_igmp() |
| randomDelay = randint(10,300) |
| groups = ['224.0.1.1', '225.0.0.1'] |
| self.onos_ssm_table_load(groups) |
| df = defer.Deferred() |
| igmpState = IGMPTestState(groups = groups, df = df) |
| igmpStateRecv = IGMPTestState(groups = groups, df = df) |
| igmpStateList = (igmpState, igmpStateRecv) |
| mcastTraffic = McastTraffic(groups, iface= 'veth2', cb = self.send_mcast_cb, arg = igmpState) |
| self.df = df |
| self.mcastTraffic = mcastTraffic |
| self.recv_socket = L3PacketSocket(iface = 'veth0', type = ETH_P_IP) |
| |
| def mcast_traffic_delay_start(): |
| mcastTraffic.start() |
| |
| def igmp_srp_task(stateList): |
| igmpSendState, igmpRecvState = stateList |
| if not mcastTraffic.isRecvStopped(): |
| result = self.igmp_recv(igmpRecvState) |
| reactor.callLater(0, igmp_srp_task, stateList) |
| else: |
| self.mcastTraffic.stop() |
| self.recv_socket.close() |
| self.igmp_verify_join(stateList) |
| self.df.callback(0) |
| |
| self.send_igmp_join(groups) |
| log.info('Holding multicast data for a period of random delay = {} secs'.format(randomDelay)) |
| t = Timer(randomDelay, mcast_traffic_delay_start) |
| t.start() |
| |
| self.test_timer = reactor.callLater(randomDelay+30, self.mcast_traffic_timer) |
| reactor.callLater(randomDelay+10, igmp_srp_task, igmpStateList) |
| return df |
| |
| @deferred(timeout=MCAST_TRAFFIC_TIMEOUT+390) |
| def test_netCondition_with_delay_between_data_recv_and_igmp_join(self): |
| self.setUp_igmp() |
| randomDelay = randint(10,300) |
| groups = ['224.0.1.1', '225.0.0.1'] |
| self.onos_ssm_table_load(groups) |
| df = defer.Deferred() |
| igmpState = IGMPTestState(groups = groups, df = df) |
| igmpStateRecv = IGMPTestState(groups = groups, df = df) |
| igmpStateList = (igmpState, igmpStateRecv) |
| mcastTraffic = McastTraffic(groups, iface= 'veth2', cb = self.send_mcast_cb, arg = igmpState) |
| self.df = df |
| self.mcastTraffic = mcastTraffic |
| self.recv_socket = L3PacketSocket(iface = 'veth0', type = ETH_P_IP) |
| |
| def mcast_join_delay_start(): |
| log.info('Holding channel join for a period of random delay = {} secs'.format(randomDelay)) |
| self.send_igmp_join(groups) |
| |
| def igmp_srp_task(stateList): |
| igmpSendState, igmpRecvState = stateList |
| if not mcastTraffic.isRecvStopped(): |
| result = self.igmp_recv(igmpRecvState) |
| reactor.callLater(0, igmp_srp_task, stateList) |
| else: |
| self.mcastTraffic.stop() |
| self.recv_socket.close() |
| self.igmp_verify_join(stateList) |
| self.df.callback(0) |
| |
| mcastTraffic.start() |
| t = Timer(randomDelay, mcast_join_delay_start) |
| t.start() |
| |
| self.test_timer = reactor.callLater(randomDelay+30, self.mcast_traffic_timer) |
| reactor.callLater(randomDelay+10, igmp_srp_task, igmpStateList) |
| return df |
| |
| |
| @deferred(timeout=MCAST_TRAFFIC_TIMEOUT+340) |
| def test_netCondition_with_delay_between_igmp_leave_and_data(self): |
| self.setUp_igmp() |
| randomDelay = randint(10,300) |
| groups = ['224.0.1.10', '225.0.0.10'] |
| leave_groups = ['224.0.1.10'] |
| self.onos_ssm_table_load(groups) |
| df = defer.Deferred() |
| igmpState = IGMPTestState(groups = groups, df = df) |
| igmpStateRecv = IGMPTestState(groups = groups, df = df) |
| igmpStateList = (igmpState, igmpStateRecv) |
| mcastTraffic = McastTraffic(groups, iface= 'veth2', cb = self.send_mcast_cb, |
| arg = igmpState) |
| self.df = df |
| self.mcastTraffic = mcastTraffic |
| self.recv_socket = L3PacketSocket(iface = 'veth0', type = ETH_P_IP) |
| |
| def mcast_leave_delay_start(): |
| self.send_igmp_leave(leave_groups, delay = 3) |
| join_state = IGMPTestState(groups = leave_groups) |
| status = self.igmp_not_recv_task(self.V_INF1,leave_groups, join_state) |
| log.info('Verified status for igmp recv task %s'%status) |
| assert status == 1 , 'EXPECTED RESULT' |
| self.df.callback(0) |
| |
| mcastTraffic.start() |
| self.send_igmp_join(groups) |
| log.info('Holding multicast leave packet for a period of random delay = {} secs'.format(randomDelay)) |
| t = Timer(randomDelay+10, mcast_leave_delay_start) |
| t.start() |
| return df |
| |
| def igmp_not_recv_task(self, intf, groups, join_state): |
| log.info('Entering igmp not recv task loop') |
| recv_socket = L2Socket(iface = intf, type = ETH_P_IP) |
| group_map = {} |
| for g in groups: |
| group_map[g] = [0,0] |
| |
| log.info('Verifying join interface should not receive any multicast data') |
| self.NEGATIVE_TRAFFIC_STATUS = 1 |
| def igmp_recv_cb(pkt): |
| log.info('Multicast packet %s received for left groups %s' %(pkt[IP].dst, groups)) |
| self.NEGATIVE_TRAFFIC_STATUS = 2 |
| sniff(prn = igmp_recv_cb, count = 1, lfilter = lambda p: IP in p and p[IP].dst in groups, |
| timeout = 3, opened_socket = recv_socket) |
| recv_socket.close() |
| return self.NEGATIVE_TRAFFIC_STATUS |
| |
| ## Its sample test case based on this test case we had added all below scenarios. |
| @deferred(TEST_TIMEOUT_DELAY+50) |
| def test_netCondition_in_eap_tls_with_delay_between_positive_IdReq_and_tlsHelloReq(self): |
| self.setUp_tls() |
| randomDelay = randint(10,300) |
| df = defer.Deferred() |
| tls = TLSAuthTest() |
| def eap_tls_eapTlsHelloReq_pkt_delay(): |
| tls._eapTlsHelloReq() |
| tls._eapTlsCertReq() |
| tls._eapTlsChangeCipherSpec() |
| tls._eapTlsFinished() |
| df.callback(0) |
| def eap_tls_verify(df): |
| tls._eapSetup() |
| tls.tlsEventTable.EVT_EAP_SETUP |
| tls._eapStart() |
| tls.tlsEventTable.EVT_EAP_START |
| tls._eapIdReq() |
| tls.tlsEventTable.EVT_EAP_ID_REQ |
| log.info('Holding tlsHelloReq packet for a period of random delay = {} secs'.format(randomDelay)) |
| t = Timer(randomDelay, eap_tls_eapTlsHelloReq_pkt_delay) |
| t.start() |
| reactor.callLater(0, eap_tls_verify, df) |
| return df |
| |
| @deferred(TEST_TIMEOUT_DELAY+50) |
| def test_netCondition_in_eap_tls_with_delay_between_IdReq_and_tlsHelloReq(self): |
| self.setUp_tls() |
| randomDelay = randint(10,300) |
| df = defer.Deferred() |
| tls = TLSAuthTest() |
| def eap_tls_eapTlsHelloReq_pkt_delay(): |
| log.info('Holding tlsHelloReq packet for a period of random delay = {} secs'.format(randomDelay)) |
| tls._eapTlsHelloReq() |
| tls._eapTlsCertReq() |
| tls._eapTlsChangeCipherSpec() |
| tls._eapTlsFinished() |
| df.callback(0) |
| def eap_tls_verify(df): |
| tls._eapSetup() |
| tls.tlsEventTable.EVT_EAP_SETUP |
| tls._eapStart() |
| tls.tlsEventTable.EVT_EAP_START |
| tls._eapIdReq() |
| tls.tlsEventTable.EVT_EAP_ID_REQ |
| t = Timer(randomDelay, eap_tls_eapTlsHelloReq_pkt_delay) |
| t.start() |
| reactor.callLater(0, eap_tls_verify, df) |
| return df |
| |
| @deferred(TEST_TIMEOUT_DELAY+100) |
| def test_netCondition_in_eap_tls_with_delay_between_tlsHelloReq_and_eapTlsCertReq(self): |
| self.setUp_tls() |
| randomDelay = randint(10,300) |
| df = defer.Deferred() |
| tls = TLSAuthTest() |
| def eap_tls_eapTlsCertReq_pkt_delay(): |
| log.info('Holding eapTlsCertReq packet for a period of random delay = {} secs'.format(randomDelay)) |
| tls._eapTlsCertReq_delay() |
| tls._eapTlsChangeCipherSpec() |
| tls._eapTlsFinished() |
| df.callback(0) |
| def eap_tls_verify(df): |
| tls._eapSetup() |
| tls.tlsEventTable.EVT_EAP_SETUP |
| tls._eapStart() |
| tls.tlsEventTable.EVT_EAP_START |
| tls._eapIdReq() |
| tls.tlsEventTable.EVT_EAP_ID_REQ |
| tls._eapTlsHelloReq() |
| while tls.server_hello_done_received == False: |
| r = tls.eapol_scapy_recv(cb = tls.eapol_server_hello_cb, |
| lfilter = |
| lambda pkt: EAP in pkt and pkt[EAP].type == EAP_TYPE_TLS and \ |
| pkt[EAP].code == EAP.REQUEST) |
| if len(r) == 0: |
| tls.tlsFail() |
| t = Timer(randomDelay, eap_tls_eapTlsCertReq_pkt_delay) |
| t.start() |
| reactor.callLater(0, eap_tls_verify, df) |
| return df |
| |
| @deferred(TEST_TIMEOUT_DELAY+50) |
| def test_netCondition_in_eap_tls_with_delay_between_TlsCertReq_and_TlsChangeCipherSpec(self): |
| self.setUp_tls() |
| randomDelay = randint(10,300) |
| df = defer.Deferred() |
| tls = TLSAuthTest() |
| def eap_tls_TlsChangeCipherSpec_pkt_delay(): |
| log.info('Holding TlsChangeCipherSpec packet for a period of random delay = {} secs'.format(randomDelay)) |
| tls._eapTlsChangeCipherSpec() |
| tls._eapTlsFinished() |
| df.callback(0) |
| def eap_tls_verify(df): |
| tls._eapSetup() |
| tls.tlsEventTable.EVT_EAP_SETUP |
| tls._eapStart() |
| tls.tlsEventTable.EVT_EAP_START |
| tls._eapIdReq() |
| tls.tlsEventTable.EVT_EAP_ID_REQ |
| tls._eapTlsHelloReq() |
| tls._eapTlsCertReq() |
| t = Timer(randomDelay, eap_tls_TlsChangeCipherSpec_pkt_delay) |
| t.start() |
| reactor.callLater(0, eap_tls_verify, df) |
| return df |
| |
| @deferred(TEST_TIMEOUT_DELAY+50) |
| def test_netCondition_in_eap_tls_with_no_cert_and_delay_between_IdReq_and_HelloReq(self): |
| self.setUp_tls() |
| randomDelay = randint(10,300) |
| df = defer.Deferred() |
| def tls_no_cert_cb(): |
| log.info('TLS authentication failed with no certificate') |
| tls = TLSAuthTest(fail_cb = tls_no_cert_cb, client_cert = '') |
| def eap_tls_eapTlsHelloReq_pkt_delay(): |
| log.info('Holding HelloReq packet with no cert for a period of random delay = {} secs'.format(randomDelay)) |
| tls._eapTlsHelloReq() |
| tls._eapTlsCertReq() |
| assert_equal(tls.failTest, True) |
| tls._eapTlsChangeCipherSpec() |
| tls._eapTlsFinished() |
| df.callback(0) |
| def eap_tls_no_cert(df): |
| tls._eapSetup() |
| tls.tlsEventTable.EVT_EAP_SETUP |
| tls._eapStart() |
| tls.tlsEventTable.EVT_EAP_START |
| tls._eapIdReq() |
| tls.tlsEventTable.EVT_EAP_ID_REQ |
| t = Timer(randomDelay, eap_tls_eapTlsHelloReq_pkt_delay) |
| t.start() |
| reactor.callLater(0, eap_tls_no_cert, df) |
| return df |
| |
| @deferred(TEST_TIMEOUT_DELAY+100) |
| def test_netCondition_in_eap_tls_with_delay_and_no_cert_between_tlsHelloReq_and_eapTlsCertReq(self): |
| self.setUp_tls() |
| randomDelay = randint(10,300) |
| df = defer.Deferred() |
| def tls_no_cert_cb(): |
| log.info('TLS authentication failed with no certificate') |
| tls = TLSAuthTest(fail_cb = tls_no_cert_cb, client_cert = '') |
| def eap_tls_eapTlsHelloReq_pkt_delay(): |
| log.info('Holding eapTlsCertReq packet with no cert for a period of random delay = {} secs'.format(randomDelay)) |
| tls._eapTlsCertReq_delay() |
| assert_equal(tls.failTest, True) |
| tls._eapTlsChangeCipherSpec() |
| assert_equal(tls.failTest, True) |
| tls._eapTlsFinished() |
| df.callback(0) |
| def eap_tls_no_cert(df): |
| tls._eapSetup() |
| tls.tlsEventTable.EVT_EAP_SETUP |
| tls._eapStart() |
| tls.tlsEventTable.EVT_EAP_START |
| tls._eapIdReq() |
| tls.tlsEventTable.EVT_EAP_ID_REQ |
| tls._eapTlsHelloReq() |
| while tls.server_hello_done_received == False: |
| r = tls.eapol_scapy_recv(cb = tls.eapol_server_hello_cb, |
| lfilter = |
| lambda pkt: EAP in pkt and pkt[EAP].type == EAP_TYPE_TLS and \ |
| pkt[EAP].code == EAP.REQUEST) |
| if len(r) == 0: |
| tls.tlsFail() |
| t = Timer(randomDelay, eap_tls_eapTlsHelloReq_pkt_delay) |
| t.start() |
| reactor.callLater(0, eap_tls_no_cert, df) |
| return df |
| |
| |
| @deferred(TEST_TIMEOUT_DELAY+50) |
| def test_netCondition_in_eap_tls_with_delay_and_no_cert_between_TlsCertReq_and_TlsChangeCipherSpec(self): |
| self.setUp_tls() |
| randomDelay = randint(10,300) |
| df = defer.Deferred() |
| def tls_no_cert_cb(): |
| log.info('TLS authentication failed with no certificate') |
| tls = TLSAuthTest(fail_cb = tls_no_cert_cb, client_cert = '') |
| def eap_tls_TlsChangeCipherSpec_pkt_delay(): |
| tls._eapTlsChangeCipherSpec() |
| assert_equal(tls.failTest, True) |
| tls._eapTlsFinished() |
| df.callback(0) |
| def eap_tls_no_cert(df): |
| tls._eapSetup() |
| tls.tlsEventTable.EVT_EAP_SETUP |
| tls._eapStart() |
| tls._eapIdReq() |
| tls.tlsEventTable.EVT_EAP_ID_REQ |
| tls._eapTlsHelloReq() |
| tls._eapTlsCertReq() |
| log.info('Holding TlsChangeCipherSpec packet with no cert for a period of random delay = {} secs'.format(randomDelay)) |
| t = Timer(randomDelay, eap_tls_TlsChangeCipherSpec_pkt_delay) |
| t.start() |
| reactor.callLater(0, eap_tls_no_cert, df) |
| return df |
| |
| @deferred(TEST_TIMEOUT_DELAY+50) |
| def test_netCondition_in_eap_tls_with_invalid_cert_and_delay_between_IdReq_and_HelloReq(self): |
| self.setUp_tls() |
| randomDelay = randint(10,300) |
| df = defer.Deferred() |
| def tls_invalid_cert_cb(): |
| log.info('TLS authentication failed with invalid certificate') |
| tls = TLSAuthTest(fail_cb = tls_invalid_cert_cb, client_cert = self.CLIENT_CERT_INVALID) |
| def eap_tls_eapTlsHelloReq_pkt_delay(): |
| tls._eapTlsHelloReq() |
| tls._eapTlsCertReq() |
| assert_equal(tls.failTest, True) |
| tls._eapTlsChangeCipherSpec() |
| tls._eapTlsFinished() |
| df.callback(0) |
| def eap_tls_invalid_cert(df): |
| tls._eapSetup() |
| tls.tlsEventTable.EVT_EAP_SETUP |
| tls._eapStart() |
| tls.tlsEventTable.EVT_EAP_START |
| tls._eapIdReq() |
| tls.tlsEventTable.EVT_EAP_ID_REQ |
| log.info('Holding HelloReq packet with invalid cert for a period of random delay = {} secs'.format(randomDelay)) |
| t = Timer(randomDelay, eap_tls_eapTlsHelloReq_pkt_delay) |
| t.start() |
| reactor.callLater(0, eap_tls_invalid_cert, df) |
| return df |
| |
| @deferred(TEST_TIMEOUT_DELAY+100) |
| def test_netCondition_in_eap_tls_with_invalid_cert_and_delay_between_tlsHelloReq_and_eapTlsCertReq(self): |
| self.setUp_tls() |
| randomDelay = randint(10,300) |
| df = defer.Deferred() |
| def tls_invalid_cert_cb(): |
| log.info('TLS authentication failed with invalid certificate') |
| tls = TLSAuthTest(fail_cb = tls_invalid_cert_cb, client_cert = self.CLIENT_CERT_INVALID) |
| def eap_tls_eapTlsHelloReq_pkt_delay(): |
| log.info('Holding eapTlsCertReq packet with invalid cert for a period of random delay = {} sec, delay'.format(randomDelay)) |
| tls._eapTlsCertReq_delay() |
| tls._eapTlsChangeCipherSpec() |
| assert_equal(tls.failTest, True) |
| tls._eapTlsFinished() |
| df.callback(0) |
| def eap_tls_invalid_cert(df): |
| tls._eapSetup() |
| tls.tlsEventTable.EVT_EAP_SETUP |
| tls._eapStart() |
| tls.tlsEventTable.EVT_EAP_START |
| tls._eapIdReq() |
| tls.tlsEventTable.EVT_EAP_ID_REQ |
| tls._eapTlsHelloReq() |
| while tls.server_hello_done_received == False: |
| r = tls.eapol_scapy_recv(cb = tls.eapol_server_hello_cb, |
| lfilter = |
| lambda pkt: EAP in pkt and pkt[EAP].type == EAP_TYPE_TLS and \ |
| pkt[EAP].code == EAP.REQUEST) |
| if len(r) == 0: |
| tls.tlsFail() |
| |
| log.info('Holding eapTlsCertReq packet with invalid cert for a period of random delay = {} secs'.format(randomDelay)) |
| t = Timer(randomDelay, eap_tls_eapTlsHelloReq_pkt_delay) |
| t.start() |
| reactor.callLater(0, eap_tls_invalid_cert, df) |
| return df |
| |
| |
| @deferred(TEST_TIMEOUT_DELAY+50) |
| def test_netCondition_in_eap_tls_with_invalid_cert_delay_between_TlsCertReq_and_TlsChangeCipherSpec(self): |
| self.setUp_tls() |
| randomDelay = randint(10,300) |
| df = defer.Deferred() |
| def tls_invalid_cert_cb(): |
| log.info('TLS authentication failed with invalid certificate') |
| tls = TLSAuthTest(fail_cb = tls_invalid_cert_cb, client_cert = self.CLIENT_CERT_INVALID) |
| def eap_tls_TlsChangeCipherSpec_pkt_delay(): |
| tls._eapTlsChangeCipherSpec() |
| assert_equal(tls.failTest, True) |
| tls._eapTlsFinished() |
| df.callback(0) |
| def eap_tls_invalid_cert(df): |
| tls._eapSetup() |
| tls.tlsEventTable.EVT_EAP_SETUP |
| tls._eapStart() |
| tls.tlsEventTable.EVT_EAP_START |
| tls._eapIdReq() |
| tls.tlsEventTable.EVT_EAP_ID_REQ |
| tls._eapTlsHelloReq() |
| tls._eapTlsCertReq() |
| log.info('Holding TlsChangeCipherSpec packet with invalid cert for a period of random delay = {} secs'.format(randomDelay)) |
| t = Timer(randomDelay, eap_tls_TlsChangeCipherSpec_pkt_delay) |
| t.start() |
| reactor.callLater(0, eap_tls_invalid_cert, df) |
| return df |
| |
| @deferred(TEST_TIMEOUT_DELAY+50) |
| def test_netCondition_in_multiple_eap_tls_requests_with_delay_between_IdReq_and_HelloReq(self): |
| self.setUp_tls() |
| df = defer.Deferred() |
| threads = [] |
| clients = 10 |
| def eap_tls_eapTlsHelloReq_pkt_delay(df): |
| def multiple_tls_random_delay(): |
| randomDelay = randint(10,300) |
| tls = TLSAuthTest(src_mac = 'random') |
| tls._eapSetup() |
| tls.tlsEventTable.EVT_EAP_SETUP |
| tls._eapStart() |
| tls.tlsEventTable.EVT_EAP_START |
| tls._eapIdReq() |
| tls.tlsEventTable.EVT_EAP_ID_REQ |
| log.info('Holding tlsHelloReq packet for a period of random delay = {} secs'.format(randomDelay)) |
| time.sleep(randomDelay) |
| tls._eapTlsHelloReq() |
| tls._eapTlsCertReq() |
| tls._eapTlsChangeCipherSpec() |
| tls._eapTlsFinished() |
| log.info('Authentication successful for user %d'%i) |
| # Sending multiple tls clients and making random delay in between client and server packets. |
| for i in xrange(clients): |
| thread = threading.Thread(target = multiple_tls_random_delay) |
| time.sleep(randint(1,2)) |
| thread.start() |
| threads.append(thread) |
| time.sleep(300) |
| for thread in threads: |
| thread.join() |
| #df.callback(0) |
| reactor.callLater(0, eap_tls_eapTlsHelloReq_pkt_delay, df) |
| return df |
| |
| @deferred(TEST_TIMEOUT_DELAY+450) |
| def test_netCondition_with_multiple_authentication_and_delay_between_complete_authentication(self): |
| self.setUp_tls() |
| df = defer.Deferred() |
| threads = [] |
| clients = 100 |
| def eap_tls_eapTlsHelloReq_pkt_delay(df): |
| def multiple_tls_random_delay(): |
| randomDelay = randint(10,300) |
| tls = TLSAuthTest(src_mac = 'random') |
| tls._eapSetup() |
| tls.tlsEventTable.EVT_EAP_SETUP |
| tls._eapStart() |
| tls.tlsEventTable.EVT_EAP_START |
| tls._eapIdReq() |
| tls.tlsEventTable.EVT_EAP_ID_REQ |
| tls._eapTlsHelloReq() |
| tls._eapTlsCertReq() |
| tls._eapTlsChangeCipherSpec() |
| tls._eapTlsFinished() |
| log.info('Authentication successful for user %d'%i) |
| # Client authendicating multiple times one after other and making random delay in between authendication. |
| for i in xrange(clients): |
| # thread = threading.Thread(target = multiple_tls_random_delay) |
| multiple_tls_random_delay() |
| time.sleep(randomDelay) |
| df.callback(0) |
| reactor.callLater(0, eap_tls_eapTlsHelloReq_pkt_delay, df) |
| return df |
| |
| @deferred(TEST_TIMEOUT_DELAY+450) |
| def test_netCondition_with_multiple_authentication_and_delay_between_every_100_tls_burst(self): |
| self.setUp_tls() |
| randomDelay = randint(10,300) |
| df = defer.Deferred() |
| threads = [] |
| tls = [] |
| clients = 10 |
| def eap_tls_eapTlsHelloReq_pkt_delay(df): |
| def multiple_tls_random_delay(): |
| #randomDelay = 3 |
| for x in xrange(clients): |
| tls.append(TLSAuthTest(src_mac = 'random')) |
| for x in xrange(clients): |
| tls[x]._eapSetup() |
| tls[x].tlsEventTable.EVT_EAP_SETUP |
| for x in xrange(clients): |
| tls[x]._eapStart() |
| tls[x].tlsEventTable.EVT_EAP_START |
| for x in xrange(clients): |
| tls[x]._eapIdReq() |
| tls[x].tlsEventTable.EVT_EAP_ID_REQ |
| for x in xrange(clients): |
| tls[x]._eapTlsHelloReq() |
| for x in xrange(clients): |
| tls[x]._eapTlsCertReq() |
| for x in xrange(clients): |
| tls[x]._eapTlsChangeCipherSpec() |
| for x in xrange(clients): |
| tls[x]._eapTlsFinished() |
| for x in xrange(clients): |
| log.info('Authentication successful for user %d'%i) |
| # Client authendicating multiple times one after other and making random delay in between authendication. |
| for i in xrange(2): |
| multiple_tls_random_delay() |
| time.sleep(randomDelay) |
| df.callback(0) |
| reactor.callLater(0, eap_tls_eapTlsHelloReq_pkt_delay, df) |
| return df |
| |
| @deferred(TEST_TIMEOUT_DELAY+90) |
| def test_netCondition_with_delay_between_mac_flow_and_traffic(self): |
| df = defer.Deferred() |
| randomDelay = randint(10,300) |
| #self.setUpClass_flows() |
| egress = 1 |
| ingress = 2 |
| egress_mac = '00:00:00:00:00:01' |
| ingress_mac = '00:00:00:00:00:02' |
| pkt = Ether(src = ingress_mac, dst = egress_mac)/IP() |
| self.success = False |
| |
| def mac_recv_task(): |
| def recv_cb(pkt): |
| log.info('Pkt seen with ingress mac %s, egress mac %s' %(pkt.src, pkt.dst)) |
| self.success = True |
| sniff(count=2, timeout=randomDelay+50, lfilter = lambda p: p.src == ingress_mac, |
| prn = recv_cb, iface = self.port_map[egress]) |
| |
| thread = threading.Thread(target = mac_recv_task) |
| |
| def send_flow_pkt_delay(): |
| sendp(pkt, count=50, iface = self.port_map[ingress]) |
| thread.join() |
| assert_equal(self.success, True) |
| df.callback(0) |
| |
| def creating_mac_flow(df): |
| |
| flow = OnosFlowCtrl(deviceId = self.device_id, |
| egressPort = egress, |
| ingressPort = ingress, |
| ethSrc = ingress_mac, |
| ethDst = egress_mac) |
| result = flow.addFlow() |
| assert_equal(result, True) |
| ##wait for flows to be added to ONOS |
| time.sleep(1) |
| thread.start() |
| log.info('Holding a packet to verify if flows are active after {} secs'.format(randomDelay)) |
| t = Timer(randomDelay, send_flow_pkt_delay) |
| t.start() |
| reactor.callLater(0, creating_mac_flow, df) |
| return df |
| |
| |
| @deferred(TEST_TIMEOUT_DELAY+90) |
| def test_netCondition_with_delay_between_ip_flow_and_traffic(self): |
| df = defer.Deferred() |
| randomDelay = randint(10,300) |
| egress = 1 |
| ingress = 2 |
| egress_map = { 'ether': '00:00:00:00:00:03', 'ip': '192.168.30.1' } |
| ingress_map = { 'ether': '00:00:00:00:00:04', 'ip': '192.168.40.1' } |
| L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether']) |
| L3 = IP(src = ingress_map['ip'], dst = egress_map['ip']) |
| pkt = L2/L3 |
| |
| def mac_recv_task(): |
| def recv_cb(pkt): |
| log.info('Pkt seen with ingress ip %s, egress ip %s' %(pkt[IP].src, pkt[IP].dst)) |
| self.success = True |
| sniff(count=2, timeout= randomDelay + 30, |
| lfilter = lambda p: IP in p and p[IP].dst == egress_map['ip'] and p[IP].src == ingress_map['ip'], |
| prn = recv_cb, iface = self.port_map[egress]) |
| |
| thread = threading.Thread(target = mac_recv_task) |
| |
| def send_flow_ip_pkt_delay(): |
| sendp(pkt, count=50, iface = self.port_map[ingress]) |
| thread.join() |
| assert_equal(self.success, True) |
| df.callback(0) |
| |
| def creating_ip_flow(df): |
| flow = OnosFlowCtrl(deviceId = self.device_id, |
| egressPort = egress, |
| ingressPort = ingress, |
| ethType = '0x0800', |
| ipSrc = ('IPV4_SRC', ingress_map['ip']+'/32'), |
| ipDst = ('IPV4_DST', egress_map['ip']+'/32') |
| ) |
| result = flow.addFlow() |
| assert_equal(result, True) |
| ##wait for flows to be added to ONOS |
| time.sleep(1) |
| self.success = False |
| ##wait for flows to be added to ONOS |
| time.sleep(1) |
| thread.start() |
| log.info('Holding a packet to verify if flows are active after {} secs'.format(randomDelay)) |
| t = Timer(randomDelay, send_flow_ip_pkt_delay) |
| t.start() |
| reactor.callLater(0, creating_ip_flow, df) |
| return df |
| |
| @deferred(TEST_TIMEOUT_DELAY+90) |
| def test_netCondition_with_delay_between_tcp_port_flow_and_traffic(self): |
| df = defer.Deferred() |
| egress = 1 |
| ingress = 2 |
| egress_map = { 'ether': '00:00:00:00:00:03', 'ip': '192.168.30.1', 'tcp_port': 9500 } |
| ingress_map = { 'ether': '00:00:00:00:00:04', 'ip': '192.168.40.1', 'tcp_port': 9000 } |
| L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether']) |
| L3 = IP(src = ingress_map['ip'], dst = egress_map['ip']) |
| L4 = TCP(sport = ingress_map['tcp_port'], dport = egress_map['tcp_port']) |
| pkt = L2/L3/L4 |
| |
| def mac_recv_task(): |
| def recv_cb(pkt): |
| log.info('Pkt seen with ingress TCP port %s, egress TCP port %s' %(pkt[TCP].sport, pkt[TCP].dport)) |
| self.success = True |
| sniff(count=2, timeout= randomDelay+30, lfilter = lambda p: TCP in p and p[TCP].dport == egress_map['tcp_port'] |
| and p[TCP].sport == ingress_map['tcp_port'], prn = recv_cb, iface = self.port_map[egress]) |
| |
| thread = threading.Thread(target = mac_recv_task) |
| |
| def send_flow_tcp_pkt_delay(): |
| sendp(pkt, count=50, iface = self.port_map[ingress]) |
| thread.join() |
| assert_equal(self.success, True) |
| # df.callback(0) |
| |
| def creating_tcp_flow(df): |
| flow = OnosFlowCtrl(deviceId = self.device_id, |
| egressPort = egress, |
| ingressPort = ingress, |
| tcpSrc = ingress_map['tcp_port'], |
| tcpDst = egress_map['tcp_port'] |
| ) |
| result = flow.addFlow() |
| assert_equal(result, True) |
| ##wait for flows to be added to ONOS |
| time.sleep(1) |
| self.success = False |
| thread.start() |
| log.info('Holding a packet to verify if flows are active after {} sec, delay'.format(randomDelay)) |
| t = Timer(randomDelay, send_flow_tcp_pkt_delay) |
| t.start() |
| df.callback(0) |
| reactor.callLater(0, creating_tcp_flow, df) |
| return df |
| |
| @deferred(TEST_TIMEOUT_DELAY+90) |
| def test_netCondition_with_delay_between_udp_port_flow_and_traffic(self): |
| df = defer.Deferred() |
| randomDelay = randint(10,300) |
| egress = 1 |
| ingress = 2 |
| egress_map = { 'ether': '00:00:00:00:00:03', 'ip': '192.168.30.1', 'udp_port': 9500 } |
| ingress_map = { 'ether': '00:00:00:00:00:04', 'ip': '192.168.40.1', 'udp_port': 9000 } |
| L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether']) |
| L3 = IP(src = ingress_map['ip'], dst = egress_map['ip']) |
| L4 = UDP(sport = ingress_map['udp_port'], dport = egress_map['udp_port']) |
| pkt = L2/L3/L4 |
| |
| def mac_recv_task(): |
| def recv_cb(pkt): |
| log.info('Pkt seen with ingress UDP port %s, egress UDP port %s' %(pkt[UDP].sport, pkt[UDP].dport)) |
| self.success = True |
| sniff(count=2, timeout=randomDelay + 30, |
| lfilter = lambda p: UDP in p and p[UDP].dport == egress_map['udp_port'] |
| and p[UDP].sport == ingress_map['udp_port'], prn = recv_cb, iface = self.port_map[egress]) |
| |
| thread = threading.Thread(target = mac_recv_task) |
| |
| def send_flow_udp_pkt_delay(): |
| sendp(pkt, count=50, iface = self.port_map[ingress]) |
| thread.join() |
| assert_equal(self.success, True) |
| df.callback(0) |
| |
| def creating_udp_flow(df): |
| flow = OnosFlowCtrl(deviceId = self.device_id, |
| egressPort = egress, |
| ingressPort = ingress, |
| udpSrc = ingress_map['udp_port'], |
| udpDst = egress_map['udp_port'] |
| ) |
| result = flow.addFlow() |
| assert_equal(result, True) |
| ##wait for flows to be added to ONOS |
| time.sleep(1) |
| self.success = False |
| thread.start() |
| log.info('Holding a packet to verify if flows are active after {} secs'.format(randomDelay)) |
| t = Timer(randomDelay, send_flow_udp_pkt_delay) |
| t.start() |
| |
| df.callback(0) |
| reactor.callLater(0, creating_udp_flow, df) |
| return df |
| |
| def netCondition_with_delay_between_multiple_igmp_joins_and_data(self,users,group_end_ip,source_list_end_ip,user_src_end_ip, data_pkt =50): |
| self.setUp_igmp() |
| randomDelay = [] |
| groups = [] |
| sources = [] |
| subscribers_src_ip = [] |
| status = [] |
| join_threads = [] |
| delay_threads = [] |
| data_threads = [] |
| threads = [] |
| subscriber = users |
| count = 1 |
| mcastips = self.mcast_ip_range(start_ip = '229.0.0.1',end_ip = group_end_ip) |
| sourceips = self.source_ip_range(start_ip = '10.10.0.1',end_ip = source_list_end_ip) |
| subscriber_sourceips = self.source_ip_range(start_ip = '20.20.0.1',end_ip = user_src_end_ip) |
| while count<=subscriber: |
| group = random.choice(mcastips) |
| source = random.choice(sourceips) |
| subscriber_sourceip = random.choice(subscriber_sourceips) |
| if group in groups: |
| pass |
| else: |
| log.info('group = %s source list = %s and subscriber source ip in join = %s'%(group,source, subscriber_sourceip)) |
| groups.append(group) |
| sources.append(source) |
| subscribers_src_ip.append(subscriber_sourceip) |
| count += 1 |
| self.onos_ssm_table_load(groups,src_list=sources,flag=True) |
| |
| def multiple_joins_send_in_threads(group, source, subscriber_src_ip,data_pkt = data_pkt): |
| self.send_igmp_join(groups = [group], src_list = [source],record_type = IGMP_V3_GR_TYPE_INCLUDE, |
| iface = self.V_INF1, ip_src = [subscriber_src_ip]) |
| randomDelay_in_thread = randint(10,30) |
| log.info('This is running in a thread, with igmp join sent and delay {}'.format(randomDelay_in_thread)) |
| time.sleep(randomDelay_in_thread) |
| log.info('This is running in a thread, with igmp join sent and delay {}'.format(randomDelay_in_thread)) |
| status = self.verify_igmp_data_traffic_in_thread(group,intf=self.V_INF1,source=source, data_pkt = data_pkt) |
| #assert_equal(status, True) |
| log.info('Data received for group %s from source %s and status is %s '%(group,source,status)) |
| self.igmp_threads_result.append(status) |
| |
| for i in range(subscriber): |
| thread = threading.Thread(target = multiple_joins_send_in_threads, args = (groups[i], sources[i], subscribers_src_ip[i])) |
| time.sleep(randint(1,2)) |
| thread.start() |
| threads.append(thread) |
| |
| # time.sleep(50) |
| for thread in threads: |
| thread.join() |
| |
| def verify_igmp_data_traffic_in_thread(self, group, intf='veth0', source='1.2.3.4', data_pkt =50, negative = None): |
| log.info('Verifying multicast traffic for group %s from source %s'%(group,source)) |
| self.success = False |
| def recv_task(): |
| def igmp_recv_cb(pkt): |
| #log.info('received multicast data packet is %s'%pkt.show()) |
| log.info('Multicast data received for group %s from source %s'%(group,source)) |
| self.success = True |
| sniff(prn = igmp_recv_cb,lfilter = lambda p: IP in p and p[IP].dst == group and p[IP].src == source, count=1,timeout = 2, iface='veth0') |
| t = threading.Thread(target = recv_task) |
| t.start() |
| self.send_multicast_data_traffic_from_thread(group,source=source, data_pkt=data_pkt) |
| t.join() |
| if (negative is None) and self.success is True: |
| return self.success |
| elif (negative is not None) and self.success is True: |
| log.info('Multicast traffic should not received because this is negative scenario, but it is received') |
| self.success = False |
| elif (negative is not None) and self.success is False: |
| log.info('Multicast traffic should is not received because this is negative scenario, hence status is True') |
| self.success = True |
| return self.success |
| |
| def send_multicast_data_traffic_from_thread(self, group, intf= 'veth2',source = '1.2.3.4', data_pkt = 50): |
| dst_mac = self.iptomac_convert(group) |
| eth = Ether(dst= dst_mac) |
| ip = IP(dst=group,src=source) |
| data = repr(monotonic.monotonic()) |
| log.info('Sending %s number of multicast packet to the multicast group %s'%(data_pkt, group)) |
| sendp(eth/ip/data,count=data_pkt, iface = intf) |
| pkt = (eth/ip/data) |
| #log.info('multicast traffic packet %s'%pkt.show()) |
| |
| def iptomac_convert(self, mcast_ip): |
| mcast_mac = '01:00:5e:' |
| octets = mcast_ip.split('.') |
| second_oct = int(octets[1]) & 127 |
| third_oct = int(octets[2]) |
| fourth_oct = int(octets[3]) |
| mcast_mac = mcast_mac + format(second_oct,'02x') + ':' + format(third_oct, '02x') + ':' + format(fourth_oct, '02x') |
| return mcast_mac |
| |
| @deferred(TEST_TIMEOUT_DELAY+50) |
| def test_netCondition_with_delay_between_multiple_igmp_joins_and_data_for_multiple_subscribers(self): |
| self.setUp_tls() |
| df = defer.Deferred() |
| log.info('IGMP Thread status before running igmp thread %s '%(self.igmp_threads_result)) |
| def netCondition_multiple_igmp_joins_and_data(df): |
| ### Start ips of multicast, source list and subscriber source ip are '229.0.0.1', '10.10.0.1' and '20.20.0.1' respectively |
| no_users = 10 |
| group_end_ip = '229.0.30.254' |
| source_list_end_ip = '10.10.30.254' |
| subscriber_src_end_ip = '20.20.20.254' |
| self.netCondition_with_delay_between_multiple_igmp_joins_and_data(users = no_users, group_end_ip = group_end_ip, |
| source_list_end_ip = source_list_end_ip, user_src_end_ip = subscriber_src_end_ip ) |
| log.info('IGMP Thread status after running igmp thread %s '%(self. igmp_threads_result)) |
| for i in xrange(no_users): |
| log.info('IGMP Thread %s status is %s after running igmp thread '%(i,self.igmp_threads_result[i])) |
| if assert_equal(self.igmp_threads_result[i], True) is True: |
| df.callback(0) |
| df.callback(0) |
| reactor.callLater(0, netCondition_multiple_igmp_joins_and_data, df) |
| return df |
| |
| @deferred(TEST_TIMEOUT_DELAY+50) |
| def test_netCondition_with_delay_between_multiple_igmp_joins_and_data_from_multiple_subscribers_with_low_multicast_data_rate(self): |
| self.setUp_tls() |
| df = defer.Deferred() |
| log.info('IGMP Thread status before running igmp thread %s '%(self.igmp_threads_result)) |
| def netCondition_multiple_igmp_joins_and_data(df): |
| ### Start ips of multicast, source list and subscriber source ip are '229.0.0.1', '10.10.0.1' and '20.20.0.1' respectively |
| no_users = 10 |
| group_end_ip = '229.0.30.254' |
| source_list_end_ip = '10.10.30.254' |
| subscriber_src_end_ip = '20.20.20.254' |
| self.netCondition_with_delay_between_multiple_igmp_joins_and_data(users = no_users, group_end_ip = group_end_ip, |
| source_list_end_ip = source_list_end_ip, user_src_end_ip = subscriber_src_end_ip, data_pkt = 20) |
| log.info('IGMP Thread status after running igmp thread %s '%(self.igmp_threads_result)) |
| for i in xrange(no_users): |
| log.info('IGMP Thread %s status is %s after running igmp thread '%(i,self.igmp_threads_result[i])) |
| if assert_equal(self.igmp_threads_result[i], True) is True: |
| df.callback(0) |
| df.callback(0) |
| reactor.callLater(0, netCondition_multiple_igmp_joins_and_data, df) |
| return df |
| |
| @deferred(TEST_TIMEOUT_DELAY+50) |
| def test_netCondition_with_delay_between_multiple_igmp_joins_and_data_for_same_subscriber(self): |
| self.setUp_tls() |
| df = defer.Deferred() |
| log.info('IGMP Thread status before running igmp thread %s '%(self.igmp_threads_result)) |
| def netCondition_multiple_igmp_joins_and_data(df): |
| ### Start ips of multicast, source list and subscriber source ip are '229.0.0.1', '10.10.0.1' and '20.20.0.1' respectively |
| no_users = 5 |
| group_end_ip = '229.0.30.254' |
| source_list_end_ip = '10.10.30.254' |
| subscriber_src_end_ip = '20.20.0.1' |
| self.netCondition_with_delay_between_multiple_igmp_joins_and_data(users = no_users, group_end_ip = group_end_ip, |
| source_list_end_ip = source_list_end_ip, user_src_end_ip = subscriber_src_end_ip ) |
| log.info('IGMP Thread status after running igmp thread %s '%(self. igmp_threads_result)) |
| for i in xrange(no_users): |
| log.info('IGMP Thread %s status is %s after running igmp thread '%(i,self.igmp_threads_result[i])) |
| if assert_equal(self.igmp_threads_result[i], True) is True: |
| df.callback(0) |
| df.callback(0) |
| reactor.callLater(0, netCondition_multiple_igmp_joins_and_data, df) |
| return df |
| |
| |
| @deferred(TEST_TIMEOUT_DELAY+50) |
| def test_netCondition_with_delay_between_same_igmp_joins_and_data_from_multiple_subscriber(self): |
| self.setUp_tls() |
| df = defer.Deferred() |
| log.info('IGMP Thread status before running igmp thread %s '%(self.igmp_threads_result)) |
| def netCondition_multiple_igmp_joins_and_data(df): |
| ### Start ips of multicast, source list and subscriber source ip are '229.0.0.1', '10.10.0.1' and '20.20.0.1' respectively |
| no_users = 100 |
| group_end_ip = '229.0.0.1' |
| source_list_end_ip = '10.10.30.254' |
| subscriber_src_end_ip = '20.20.20.254' |
| self.netCondition_with_delay_between_multiple_igmp_joins_and_data(users = no_users, group_end_ip = group_end_ip, |
| source_list_end_ip = source_list_end_ip, user_src_end_ip = subscriber_src_end_ip ) |
| log.info('IGMP Thread status after running igmp thread %s '%(self. igmp_threads_result)) |
| for i in xrange(no_users): |
| log.info('IGMP Thread %s status is %s after running igmp thread '%(i,self.igmp_threads_result[i])) |
| if assert_equal(self.igmp_threads_result[i], True) is True: |
| df.callback(0) |
| df.callback(0) |
| reactor.callLater(0, netCondition_multiple_igmp_joins_and_data, df) |
| return df |
| |
| @deferred(TEST_TIMEOUT_DELAY+50) |
| def test_netCondition_with_delay_between_multiple_igmp_joins_and_data_from_same_sourcelist_for_multiple_subscriber(self): |
| self.setUp_tls() |
| df = defer.Deferred() |
| log.info('IGMP Thread status before running igmp thread %s '%(self.igmp_threads_result)) |
| def netCondition_multiple_igmp_joins_and_data(df): |
| ### Start ips of multicast, source list and subscriber source ip are '229.0.0.1', '10.10.0.1' and '20.20.0.1' respectively |
| no_users = 20 |
| group_end_ip = '229.0.30.254' |
| source_list_end_ip = '10.10.0.1' |
| subscriber_src_end_ip = '20.20.20.254' |
| self.netCondition_with_delay_between_multiple_igmp_joins_and_data(users = no_users, group_end_ip = group_end_ip, |
| source_list_end_ip = source_list_end_ip, user_src_end_ip = subscriber_src_end_ip ) |
| log.info('IGMP Thread status after running igmp thread %s '%(self. igmp_threads_result)) |
| for i in xrange(no_users): |
| log.info('IGMP Thread %s status is %s after running igmp thread '%(i,self.igmp_threads_result[i])) |
| if assert_equal(self.igmp_threads_result[i], True) is True: |
| df.callback(0) |
| df.callback(0) |
| reactor.callLater(0, netCondition_multiple_igmp_joins_and_data, df) |
| return df |
| |
| |
| def netCondition_with_multiple_scenarios_igmp_joins_and_data(self,users,group_end_ip,source_list_end_ip,user_src_end_ip,bunch_traffic, data_pkt =50,invalid_joins = None): |
| self.setUp_igmp() |
| randomDelay = [] |
| groups = [] |
| sources = [] |
| subscribers_src_ip = [] |
| status = [] |
| join_threads = [] |
| delay_threads = [] |
| data_threads = [] |
| threads = [] |
| subscriber = users |
| count = 1 |
| j = 1 |
| negative_traffic = None |
| mcastips = self.mcast_ip_range(start_ip = '229.0.0.1',end_ip = group_end_ip) |
| sourceips = self.source_ip_range(start_ip = '10.10.0.1',end_ip = source_list_end_ip) |
| subscriber_sourceips = self.source_ip_range(start_ip = '20.20.0.1',end_ip = user_src_end_ip) |
| while count<=subscriber: |
| group = random.choice(mcastips) |
| source = random.choice(sourceips) |
| subscriber_sourceip = random.choice(subscriber_sourceips) |
| if group in groups: |
| pass |
| else: |
| log.info('group = %s source list = %s and subscriber source ip in join = %s'%(group,source, subscriber_sourceip)) |
| groups.append(group) |
| sources.append(source) |
| subscribers_src_ip.append(subscriber_sourceip) |
| count += 1 |
| self.onos_ssm_table_load(groups,src_list=sources,flag=True) |
| |
| def multiple_joins_send_in_threads(group, source, subscriber_src_ip,invalid_igmp_join,data_pkt = data_pkt): |
| if invalid_igmp_join is None: |
| self.send_igmp_join(groups = [group], src_list = [source],record_type = IGMP_V3_GR_TYPE_INCLUDE, |
| iface = self.V_INF1, ip_src = [subscriber_src_ip]) |
| else: |
| negative_traffic = True |
| self.send_igmp_join_negative(groups = [group], src_list = [source],record_type = IGMP_V3_GR_TYPE_INCLUDE, |
| iface = self.V_INF1, ip_src = [subscriber_src_ip], invalid_igmp_join = invalid_igmp_join) |
| randomDelay_in_thread = randint(10,30) |
| log.info('This is running in thread with igmp join sent and delay {}'.format(randomDelay_in_thread)) |
| time.sleep(randomDelay_in_thread) |
| log.info('This is running in thread with igmp join sent and delay {}'.format(randomDelay_in_thread)) |
| status = self.verify_igmp_data_traffic_in_thread(group,intf=self.V_INF1,source=source, data_pkt = data_pkt,negative=negative_traffic) |
| #assert_equal(status, True) |
| log.info('data received for group %s from source %s and status is %s '%(group,source,status)) |
| self.igmp_threads_result.append(status) |
| |
| for i in range(subscriber): |
| thread = threading.Thread(target = multiple_joins_send_in_threads, args = (groups[i], sources[i], subscribers_src_ip[i], invalid_joins)) |
| if bunch_traffic == 'yes': |
| if j == 10: |
| log.info('Here we are throttle traffic for 100 sec of delay and agian creating igmp threads') |
| time.sleep(randint(100,110)) |
| j = 1 |
| else: |
| j = j+ 1 |
| time.sleep(randint(1,2)) |
| thread.start() |
| threads.append(thread) |
| |
| # time.sleep(250) |
| for thread in threads: |
| thread.join() |
| |
| |
| @deferred(TEST_TIMEOUT_DELAY+50) |
| def test_netCondition_with_throttle_between_multiple_igmp_joins_and_data_from_multiple_subscribers(self): |
| self.setUp_tls() |
| df = defer.Deferred() |
| log.info('IGMP Thread status before running igmp thread %s '%(self.igmp_threads_result)) |
| def netCondition_multiple_igmp_joins_and_data(df): |
| ### Start ips of multicast, source list and subscriber source ip are '229.0.0.1', '10.10.0.1' and '20.20.0.1' respectively |
| batch_traffic_run = 'yes' |
| no_users = 11 |
| group_end_ip = '229.0.30.254' |
| source_list_end_ip = '10.10.30.254' |
| subscriber_src_end_ip = '20.20.20.254' |
| self.netCondition_with_multiple_scenarios_igmp_joins_and_data(users = no_users, group_end_ip = group_end_ip, source_list_end_ip = source_list_end_ip, user_src_end_ip = subscriber_src_end_ip, bunch_traffic = batch_traffic_run, data_pkt = 50 ) |
| log.info('IGMP Thread status after running igmp thread %s '%(self. igmp_threads_result)) |
| for i in xrange(no_users): |
| log.info('IGMP Thread %s status is %s after running igmp thread '%(i,self.igmp_threads_result[i])) |
| if assert_equal(self.igmp_threads_result[i], True) is True: |
| df.callback(0) |
| df.callback(0) |
| reactor.callLater(0, netCondition_multiple_igmp_joins_and_data, df) |
| return df |
| |
| @deferred(TEST_TIMEOUT_DELAY+50) |
| def test_netCondition_with_invalid_igmp_type_and_multiple_igmp_joins_and_data_from_multiple_subscribers(self): |
| self.setUp_tls() |
| df = defer.Deferred() |
| log.info('IGMP Thread status before running igmp thread %s '%(self.igmp_threads_result)) |
| def netCondition_multiple_igmp_joins_and_data(df): |
| ### Start ips of multicast, source list and subscriber source ip are '229.0.0.1', '10.10.0.1' and '20.20.0.1' respectively |
| batch_traffic_run = 'no' |
| invalid_igmp_join = 'igmp_type' |
| no_users = 11 |
| group_end_ip = '229.0.30.254' |
| source_list_end_ip = '10.10.30.254' |
| subscriber_src_end_ip = '20.20.20.254' |
| self.netCondition_with_multiple_scenarios_igmp_joins_and_data(users = no_users, group_end_ip = group_end_ip, source_list_end_ip = source_list_end_ip, user_src_end_ip = subscriber_src_end_ip, bunch_traffic = batch_traffic_run, data_pkt = 50, invalid_joins = invalid_igmp_join ) |
| log.info('IGMP Thread status after running igmp thread %s '%(self. igmp_threads_result)) |
| for i in xrange(no_users): |
| log.info('IGMP Thread %s status is %s after running igmp thread '%(i,self.igmp_threads_result[i])) |
| if assert_equal(self.igmp_threads_result[i], True) is True: |
| df.callback(0) |
| df.callback(0) |
| reactor.callLater(0, netCondition_multiple_igmp_joins_and_data, df) |
| return df |
| |
| @deferred(TEST_TIMEOUT_DELAY+50) |
| def test_netCondition_with_invalid_record_type_and_multiple_igmp_joins_and_data_from_multiple_subscribers(self): |
| self.setUp_tls() |
| df = defer.Deferred() |
| log.info('IGMP Thread status before running igmp thread %s '%(self.igmp_threads_result)) |
| def netCondition_multiple_igmp_joins_and_data(df): |
| ### Start ips of multicast, source list and subscriber source ip are '229.0.0.1', '10.10.0.1' and '20.20.0.1' respectively |
| batch_traffic_run = 'no' |
| invalid_igmp_join = 'record_type' |
| no_users = 11 |
| group_end_ip = '229.0.30.254' |
| source_list_end_ip = '10.10.30.254' |
| subscriber_src_end_ip = '20.20.20.254' |
| self.netCondition_with_multiple_scenarios_igmp_joins_and_data(users = no_users, group_end_ip = group_end_ip, source_list_end_ip = source_list_end_ip, user_src_end_ip = subscriber_src_end_ip, bunch_traffic = batch_traffic_run, data_pkt = 50, invalid_joins = invalid_igmp_join ) |
| log.info('IGMP Thread status after running igmp thread %s '%(self. igmp_threads_result)) |
| for i in xrange(no_users): |
| log.info('IGMP Thread %s status is %s after running igmp thread '%(i,self.igmp_threads_result[i])) |
| if assert_equal(self.igmp_threads_result[i], True) is True: |
| df.callback(0) |
| df.callback(0) |
| reactor.callLater(0, netCondition_multiple_igmp_joins_and_data, df) |
| return df |
| |
| |
| @deferred(TEST_TIMEOUT_DELAY+50) |
| def test_netCondition_with_invalid_ttl_and_multiple_igmp_joins_and_data_from_multiple_subscribers(self): |
| self.setUp_tls() |
| df = defer.Deferred() |
| log.info('IGMP Thread status before running igmp thread %s '%(self.igmp_threads_result)) |
| def netCondition_multiple_igmp_joins_and_data(df): |
| ### Start ips of multicast, source list and subscriber source ip are '229.0.0.1', '10.10.0.1' and '20.20.0.1' respectively |
| batch_traffic_run = 'no' |
| invalid_igmp_join = 'ttl_type' |
| no_users = 11 |
| group_end_ip = '229.0.30.254' |
| source_list_end_ip = '10.10.30.254' |
| subscriber_src_end_ip = '20.20.20.254' |
| self.netCondition_with_multiple_scenarios_igmp_joins_and_data(users = no_users, group_end_ip = group_end_ip, source_list_end_ip = source_list_end_ip, user_src_end_ip = subscriber_src_end_ip, bunch_traffic = batch_traffic_run, data_pkt = 10, invalid_joins = invalid_igmp_join ) |
| log.info('IGMP Thread status after running igmp thread %s '%(self. igmp_threads_result)) |
| for i in xrange(no_users): |
| log.info('IGMP Thread %s status is %s after running igmp thread '%(i,self.igmp_threads_result[i])) |
| if assert_equal(self.igmp_threads_result[i], True) is True: |
| df.callback(0) |
| df.callback(0) |
| reactor.callLater(0, netCondition_multiple_igmp_joins_and_data, df) |
| return df |
| |
| |
| @deferred(TEST_TIMEOUT_DELAY-250) |
| def test_netCondition_in_multiple_eap_tls_sessions_with_out_of_order_exchanges_between_serverHello_and_client_packet(self): |
| self.setUp_tls() |
| df = defer.Deferred() |
| threads = [] |
| clients = 1 |
| def eap_tls_eapTlsHelloReq_pkt_delay(df): |
| def multiple_tls_random_delay(): |
| randomDelay = randint(10,300) |
| tls = TLSAuthTest(src_mac = 'random') |
| tls._eapSetup() |
| tls.tlsEventTable.EVT_EAP_SETUP |
| tls._eapStart() |
| tls.tlsEventTable.EVT_EAP_START |
| tls._eapIdReq() |
| tls.tlsEventTable.EVT_EAP_ID_REQ |
| tls._eapTlsCertReq() |
| assert_equal(tls.failTest, True) |
| tls._eapTlsHelloReq() |
| assert_equal(tls.failTest, True) |
| tls._eapTlsChangeCipherSpec() |
| assert_equal(tls.failTest, True) |
| tls._eapTlsFinished() |
| assert_equal(tls.failTest, True) |
| log.info('Authentication successful for user %d'%i) |
| # Sending multiple tls clients and making random delay in between client and server packets. |
| for i in xrange(clients): |
| thread = threading.Thread(target = multiple_tls_random_delay) |
| time.sleep(randint(1,2)) |
| thread.start() |
| threads.append(thread) |
| time.sleep(300) |
| for thread in threads: |
| thread.join() |
| #df.callback(0) |
| reactor.callLater(0, eap_tls_eapTlsHelloReq_pkt_delay, df) |
| return df |
| |
| @deferred(TEST_TIMEOUT_DELAY-250) |
| def test_netCondition_in_multiple_eap_tls_session_with_out_of_order_exchanges_in_eapTlsCertReq_packets(self): |
| self.setUp_tls() |
| df = defer.Deferred() |
| threads = [] |
| clients = 1 |
| def eap_tls_eapTlsHelloReq_pkt_delay(df): |
| def multiple_tls_random_delay(): |
| randomDelay = randint(10,300) |
| tls = TLSAuthTest(src_mac = 'random') |
| tls._eapSetup() |
| tls.tlsEventTable.EVT_EAP_SETUP |
| tls._eapStart() |
| tls.tlsEventTable.EVT_EAP_START |
| tls._eapTlsCertReq() |
| assert_equal(tls.failTest, True) |
| tls._eapIdReq() |
| tls.tlsEventTable.EVT_EAP_ID_REQ |
| assert_equal(tls.failTest, True) |
| tls._eapTlsCertReq() |
| assert_equal(tls.failTest, True) |
| tls._eapTlsHelloReq() |
| assert_equal(tls.failTest, True) |
| tls._eapTlsChangeCipherSpec() |
| assert_equal(tls.failTest, True) |
| tls._eapTlsFinished() |
| assert_equal(tls.failTest, True) |
| log.info('Authentication successful for user %d'%i) |
| # Sending multiple tls clients and making random delay in between client and server packets. |
| for i in xrange(clients): |
| thread = threading.Thread(target = multiple_tls_random_delay) |
| time.sleep(randint(1,2)) |
| thread.start() |
| threads.append(thread) |
| time.sleep(300) |
| for thread in threads: |
| thread.join() |
| #df.callback(0) |
| reactor.callLater(0, eap_tls_eapTlsHelloReq_pkt_delay, df) |
| return df |
| |
| @deferred(TEST_TIMEOUT_DELAY-250) |
| def test_netCondition_in_multiple_eap_tls_sessions_with_out_of_order_eapTlsChangeCipherSpec_packets(self): |
| self.setUp_tls() |
| df = defer.Deferred() |
| threads = [] |
| clients = 1 |
| def eap_tls_eapTlsHelloReq_pkt_delay(df): |
| def multiple_tls_random_delay(): |
| randomDelay = randint(10,300) |
| tls = TLSAuthTest(src_mac = 'random') |
| tls._eapSetup() |
| tls.tlsEventTable.EVT_EAP_SETUP |
| tls._eapStart() |
| tls.tlsEventTable.EVT_EAP_START |
| tls._eapTlsChangeCipherSpec() |
| tls.failTest = False |
| tls._eapIdReq() |
| tls.tlsEventTable.EVT_EAP_ID_REQ |
| assert_equal(tls.failTest, True) |
| tls._eapTlsHelloReq() |
| assert_equal(tls.failTest, True) |
| tls._eapTlsCertReq() |
| assert_equal(tls.failTest, True) |
| tls._eapTlsChangeCipherSpec() |
| assert_equal(tls.failTest, True) |
| tls._eapTlsFinished() |
| assert_equal(tls.failTest, True) |
| log.info('Authentication successful for user %d'%i) |
| # Sending multiple tls clients and making random delay in between client and server packets. |
| for i in xrange(clients): |
| thread = threading.Thread(target = multiple_tls_random_delay) |
| time.sleep(randint(1,2)) |
| thread.start() |
| threads.append(thread) |
| time.sleep(300) |
| for thread in threads: |
| thread.join() |
| #df.callback(0) |
| reactor.callLater(0, eap_tls_eapTlsHelloReq_pkt_delay, df) |
| return df |
| |
| @deferred(TEST_TIMEOUT_DELAY-250) |
| def test_netCondition_in_multiple_eap_tls_sessions_dropping_eapTlsHelloReq_packets(self): |
| self.setUp_tls() |
| df = defer.Deferred() |
| threads = [] |
| clients = 1 |
| def eap_tls_eapTlsHelloReq_pkt_delay(df): |
| def multiple_tls_random_delay(): |
| randomDelay = randint(10,300) |
| tls = TLSAuthTest(src_mac = 'random') |
| tls._eapSetup() |
| tls.tlsEventTable.EVT_EAP_SETUP |
| tls._eapStart() |
| tls.tlsEventTable.EVT_EAP_START |
| tls._eapIdReq() |
| tls.tlsEventTable.EVT_EAP_ID_REQ |
| #tls._eapTlsHelloReq() |
| tls._eapTlsCertReq() |
| tls._eapTlsChangeCipherSpec() |
| assert_equal(tls.failTest, True) |
| tls._eapTlsFinished() |
| log.info('Authentication successful for user %d'%i) |
| # Sending multiple tls clients and making random delay in between client and server packets. |
| for i in xrange(clients): |
| thread = threading.Thread(target = multiple_tls_random_delay) |
| time.sleep(randint(1,2)) |
| thread.start() |
| threads.append(thread) |
| time.sleep(300) |
| for thread in threads: |
| thread.join() |
| #df.callback(0) |
| reactor.callLater(0, eap_tls_eapTlsHelloReq_pkt_delay, df) |
| return df |
| |
| @deferred(TEST_TIMEOUT_DELAY-250) |
| def test_netCondition_in_multiple_eap_tls_sessions_dropping_eapTlsChangeCipherSpec_packets(self): |
| self.setUp_tls() |
| df = defer.Deferred() |
| threads = [] |
| clients = 1 |
| def eap_tls_eapTlsHelloReq_pkt_delay(df): |
| def multiple_tls_random_delay(): |
| randomDelay = randint(10,300) |
| tls = TLSAuthTest(src_mac = 'random') |
| tls._eapSetup() |
| tls.tlsEventTable.EVT_EAP_SETUP |
| tls._eapStart() |
| tls.tlsEventTable.EVT_EAP_START |
| tls._eapIdReq() |
| tls.tlsEventTable.EVT_EAP_ID_REQ |
| tls._eapTlsHelloReq() |
| tls._eapTlsCertReq() |
| #tls._eapTlsChangeCipherSpec() |
| assert_equal(tls.failTest, True) |
| tls._eapTlsFinished() |
| log.info('Authentication successful for user %d'%i) |
| # Sending multiple tls clients and making random delay in between client and server packets. |
| for i in xrange(clients): |
| thread = threading.Thread(target = multiple_tls_random_delay) |
| time.sleep(randint(1,2)) |
| thread.start() |
| threads.append(thread) |
| time.sleep(300) |
| for thread in threads: |
| thread.join() |
| #df.callback(0) |
| reactor.callLater(0, eap_tls_eapTlsHelloReq_pkt_delay, df) |
| return df |
| |