def ceta_31902_fixture(request, ip_module_hooks): vlan_obj.create_vlan(vars.D1, [data.host1_vlan, data.host2_vlan]) vlan_obj.add_vlan_member(vars.D1, data.host1_vlan, [vars.D1T1P3, vars.D1T1P4], tagging_mode=True) vlan_obj.add_vlan_member(vars.D1, data.host2_vlan, [vars.D1T1P3, vars.D1T1P4], tagging_mode=True) ipfeature.config_ip_addr_interface(vars.D1, "Vlan" + data.host1_vlan, data.vlan1_ip, 24, family=data.af_ipv4) ipfeature.config_ip_addr_interface(vars.D1, "Vlan" + data.host2_vlan, data.vlan2_ip, 24, family=data.af_ipv4) yield ipfeature.delete_ip_interface(vars.D1, "Vlan" + data.host1_vlan, data.vlan1_ip, "24", family="ipv4") ipfeature.delete_ip_interface(vars.D1, "Vlan" + data.host2_vlan, data.vlan2_ip, "24", family="ipv4") vlan_obj.delete_vlan_member(vars.D1, data.host1_vlan, [vars.D1T1P3, vars.D1T1P4], True) vlan_obj.delete_vlan_member(vars.D1, data.host2_vlan, [vars.D1T1P3, vars.D1T1P4], True) vlan_obj.delete_vlan(vars.D1, [data.host1_vlan, data.host2_vlan])
def copp_module_hooks(request): global vars, tg, tg_ph_1, d1_p1, hw_constants, deviation_percentage, d1_p1_mac, copp_data, vlan_igmp, copp_data_pir vars = st.ensure_min_topology("D1T1:1") hw_constants = st.get_datastore(vars.D1, "constants", "default") st.debug("hw_constants: {}".format(hw_constants)) tg, tg_ph_1 = tgapi.get_handle_byname("T1D1P1") d1_p1 = vars.D1T1P1 vlan_igmp = 3188 vlan_obj.create_vlan(vars.D1, vlan_igmp) deviation_percentage = 0.05 ret_val = copp_obj.get_copp_config(dut=vars.D1, table_name='all') if ret_val: copp_data = ret_val else: st.report_fail('module_config_failed', 'show copp config command failed') copp_data_pir = copp_obj.set_copp_pir_config(vars.D1, config='get') # Get the DUT mac address d1_p1_mac = basic_obj.get_ifconfig(vars.D1, d1_p1)[0]['mac'] # Config the routing interface ip_obj.config_ip_addr_interface(dut=vars.D1, interface_name=d1_p1, ip_address='1.1.1.2', subnet='24') yield # Un-configure the routing interface ip_obj.delete_ip_interface(dut=vars.D1, interface_name=d1_p1, ip_address='1.1.1.2', subnet='24') vlan_obj.delete_vlan(vars.D1, vlan_igmp)
def ndp_module_hooks(request): vars = st.ensure_min_topology("D1T1:2") # Initialize TG and TG port handlers tg_handler = tgapi.get_handles_byname("T1D1P1", "T1D1P2") tg = tg_handler["tg"] # Test setup details data.my_dut_list = st.get_dut_names() dut1 = data.my_dut_list[0] # NDP module configuration st.log("NDP module configuration.") ip_obj.config_ip_addr_interface(dut1, vars.D1T1P1, data.local_ip6_addr[0], 64, family=data.af_ipv6) vlan_obj.create_vlan(dut1, data.vlan_1) vlan_obj.add_vlan_member(dut1, data.vlan_1, vars.D1T1P2, True) ip_obj.config_ip_addr_interface(dut1, data.vlan_int_1, data.local_ip6_addr[1], 64, family=data.af_ipv6) # TG ports reset st.log("Resetting the TG ports") tg.tg_traffic_control(action="reset", port_handle=tg_handler["tg_ph_list"]) # TG protocol interface creation st.log("TG protocol interface creation") h1 = tg.tg_interface_config(port_handle=tg_handler["tg_ph_1"], mode='config', ipv6_intf_addr=data.neigh_ip6_addr_gw[0], ipv6_prefix_length='64', ipv6_gateway=data.local_ip6_addr[0], src_mac_addr=data.tg_mac1, arp_send_req='1', count=data.count) st.log("INTFCONF: " + str(h1)) h2 = tg.tg_interface_config(port_handle=tg_handler["tg_ph_2"], mode='config', ipv6_intf_addr=data.neigh_ip6_addr_gw[1], ipv6_prefix_length='64', ipv6_gateway=data.local_ip6_addr[1], src_mac_addr=data.tg_mac2, arp_send_req='1', vlan_id=data.vlan_1, vlan=1, count=data.count) st.log("INTFCONF: " + str(h2)) yield # NDP module cleanup st.log("NDP module cleanup.") ip_obj.clear_ip_configuration(dut1, family="ipv6", thread=data.clear_parallel) vlan_obj.clear_vlan_configuration(dut1, thread=data.clear_parallel)
def test_ft_vlan_syslog_verify(): """ Author:Anil Kumar Kacharla <*****@*****.**> Referrence Topology : Test bed ID:4 D1--Mgmt network verify VLAN syslog functionality. """ vars = st.ensure_min_topology("D1") sc_data.vlan_test = str(random_vlan_list(1, [int(sc_data.vlan)])[0]) result = 1 st.log("checking vlan count before vlan addition or deletion") count_before_add = slog.get_logging_count(vars.D1, severity="NOTICE", filter_list=["addVlan"]) count_before_delete = slog.get_logging_count(vars.D1, severity="NOTICE", filter_list=["removeVlan"]) st.log("vlan count before adding vlan:{}".format(count_before_add)) st.log("vlan count before deleting vlan:{}".format(count_before_delete)) vlan.create_vlan(vars.D1, sc_data.vlan_test) vlan.delete_vlan(vars.D1, sc_data.vlan_test) st.log("checking vlan count after adding vlan") count_after_add = slog.get_logging_count(vars.D1, severity="NOTICE", filter_list=["addVlan"]) st.log("vlan count after adding vlan:{}".format(count_after_add)) count_after_delete = slog.get_logging_count(vars.D1, severity="NOTICE", filter_list=["removeVlan"]) st.log("vlan count after deleting vlan:{}".format(count_after_delete)) if not count_after_add > count_before_add: st.error("vlan log count increamented after adding vlan:{}".format(count_after_add)) result = 0 if not count_after_delete > count_before_delete: st.error("vlan log count increamented after deleting vlan:{}".format(count_after_delete)) result = 0 if not result: st.report_fail("test_case_fail") st.log(" vlan count after adding or deleting vlan is incremented") st.report_pass("test_case_passed")
def crm_fdb_config(data=[]): st.log("Create vlan and add ports to vlan") portList = st.get_all_ports(data.D1) vapi.create_vlan(data.D1, data.vlanid) vapi.add_vlan_member(data.D1, data.vlanid, portList[5], tagging_mode=True) for i in range(0, 30): macapi.config_mac(data.D1, '00:11:22:33:44:' + str(10 + i), data.vlanid, portList[5])
def arp_module_hooks(request): global vars, tg_handler, tg, dut1, d1_mac_addr, h1, h2 # Min topology verification vars = st.ensure_min_topology("D1T1:2") # Initialize TG and TG port handlers tg_handler = tgapi.get_handles_byname("T1D1P1", "T1D1P2") tg = tg_handler["tg"] # Test setup details data.my_dut_list = st.get_dut_names() dut1 = data.my_dut_list[0] # Test variables d1_mac_addr = mac.get_sbin_intf_mac(dut1, "eth0") # ARP module configuration st.log("ARP module configuration.") ip_obj.config_ip_addr_interface(dut1, vars.D1T1P1, data.d1t1_ip_addr, data.mask) vlan_obj.create_vlan(dut1, data.vlan_1) vlan_obj.add_vlan_member(dut1, data.vlan_1, vars.D1T1P2, True) ip_obj.config_ip_addr_interface(dut1, data.vlan_int_1, data.d1t2_ip_addr, data.mask) # TG ports reset st.log("Resetting the TG ports") tg.tg_traffic_control(action="reset", port_handle=tg_handler["tg_ph_list"]) # TG protocol interface creation st.log("TG protocol interface creation") h1 = tg.tg_interface_config(port_handle=tg_handler["tg_ph_1"], mode='config', intf_ip_addr=data.t1d1_ip_addr, gateway=data.d1t1_ip_addr, src_mac_addr=data.t1d1_mac_addr, arp_send_req='1') st.log("INTFCONF: " + str(h1)) h2 = tg.tg_interface_config(port_handle=tg_handler["tg_ph_2"], mode='config', intf_ip_addr=data.t2d1_ip_addr, gateway=data.d1t2_ip_addr, src_mac_addr=data.t2d1_mac_addr, arp_send_req='1', vlan_id=data.vlan_1, vlan=1) st.log("INTFCONF: " + str(h2)) yield # ARP module cleanup st.log("ARP module cleanup.") ip_obj.clear_ip_configuration(dut1, family="ipv4", thread=data.clear_parallel) vlan_obj.clear_vlan_configuration(dut1, thread=data.clear_parallel)
def dut1_config(config=''): st.log('On DUT1 physical interface IPv4 and IPv6 addresses on it') ip_obj.config_ip_addr_interface(data.dut1_client, data.d1_d2_ports[0], data.dut1_dut2_ipv6[0], data.dut1_dut2_ipv6_subnet, 'ipv6') ip_obj.config_ip_addr_interface(data.dut1_client, data.d1_d2_ports[0], data.dut1_dut2_ip[0], data.dut1_dut2_ip_subnet, 'ipv4') st.log('On DUT1 configure vlan and IPv4 and IPv6 addresses on it') vlan_obj.create_vlan(data.dut1_client, data.dut1_dut2_vlan[0]) vlan_obj.add_vlan_member(data.dut1_client, data.dut1_dut2_vlan[0], data.d1_d2_ports[1], True, True) ip_obj.config_ip_addr_interface(data.dut1_client, 'Vlan' + data.dut1_dut2_vlan[0], data.dut1_dut2_ipv6[1], data.dut1_dut2_ipv6_subnet, 'ipv6') ip_obj.config_ip_addr_interface(data.dut1_client, 'Vlan' + data.dut1_dut2_vlan[0], data.dut1_dut2_ip[1], data.dut1_dut2_ip_subnet, 'ipv4') st.log('On DUT1 configure portchannel and IPv4 and IPv6 addresses on it') pc_obj.create_portchannel(data.dut1_client, data.portchannel) pc_obj.add_portchannel_member(data.dut1_client, data.portchannel, [data.d1_d2_ports[2], data.d1_d2_ports[3]]) ip_obj.config_ip_addr_interface(data.dut1_client, data.portchannel, data.dut1_dut2_ipv6[2], data.dut1_dut2_ipv6_subnet, 'ipv6') ip_obj.config_ip_addr_interface(data.dut1_client, data.portchannel, data.dut1_dut2_ip[2], data.dut1_dut2_ip_subnet, 'ipv4') st.log('On DUT1 configure loopback and IPv4 and IPv6 addresses on it') ip_obj.configure_loopback(data.dut1_client, config='yes', loopback_name=data.dut1_loopback[0]) ip_obj.config_ip_addr_interface(data.dut1_client, data.dut1_loopback[0], data.dut1_loopback_ipv6[0], data.dut1_loopback_ipv6_subnet, 'ipv6') ip_obj.config_ip_addr_interface(data.dut1_client, data.dut1_loopback[0], data.dut1_loopback_ip[0], data.dut1_loopback_ip_subnet, 'ipv4') st.log('IPv4 and IPv6 static routes for loopback reachability') ip_obj.create_static_route(data.dut1_client, data.dut2_dut1_ip[0], data.dut2_loopback_ip[0] + '/32', family='ipv4') ip_obj.create_static_route(data.dut1_client, data.dut2_dut1_ipv6[0], data.dut2_loopback_ipv6[0] + '/128', family='ipv6') return True
def sf_module_prolog(): clear_vlan_configuration(vars.D1) sf_data.vlan = str(random_vlan_list()[0]) create_vlan(vars.D1, sf_data.vlan) add_vlan_member(vars.D1, sf_data.vlan, port_list=sf_data.port_list, tagging_mode=True) sf_data.tg, sf_data.tg_ph_list, sf_data.stream_sf_data = sf_tg_stream_config( )
def vlan_config(): vlan_obj.create_vlan(vars.D1, data.vlan) st.log( "Adding TGen port connected interface to the vlan with tagging mode") if not vlan_obj.add_vlan_member(vars.D1, data.vlan, [vars.D1T1P1, vars.D1T1P2, vars.D1T1P3], tagging_mode=True): st.report_fail("vlan_tagged_member_fail") if not vlan_obj.verify_vlan_brief(vars.D1, data.vlan): st.report_fail("vlan_create_fail", data.vlan)
def dut1_unconfig(config=''): st.banner('Unconfigure IPv4 and IPv6 addresses on the loopback interfaces') ip_obj.delete_ip_interface(data.dut1_client, data.dut1_loopback[0], data.dut1_loopback_ipv6[0], data.dut1_loopback_ipv6_subnet, 'ipv6') ip_obj.delete_ip_interface(data.dut1_client, data.dut1_loopback[0], data.dut1_loopback_ip[0], data.dut1_loopback_ip_subnet, 'ipv4') ip_obj.configure_loopback(data.dut1_client, config='no', loopback_name=data.dut1_loopback[0]) st.banner('Unconfigure IPv4 and IPv6 addresses on portchannel of DUT1') ip_obj.delete_ip_interface(data.dut1_client, data.portchannel, data.dut1_dut2_ipv6[2], data.dut1_dut2_ipv6_subnet, 'ipv6') ip_obj.delete_ip_interface(data.dut1_client, data.portchannel, data.dut1_dut2_ip[2], data.dut1_dut2_ip_subnet, 'ipv4') pc_obj.add_del_portchannel_member( data.dut1_client, data.portchannel, [data.d1_d2_ports[2], data.d1_d2_ports[3]], 'del') pc_obj.delete_portchannel(data.dut1_client, data.portchannel) st.log('On DUT1 unconfigure vlan and IPv4 and IPv6 addresses on it') ip_obj.delete_ip_interface(data.dut1_client, 'Vlan' + data.dut1_dut2_vlan[0], data.dut1_dut2_ipv6[1], data.dut1_dut2_ipv6_subnet, 'ipv6') ip_obj.delete_ip_interface(data.dut1_client, 'Vlan' + data.dut1_dut2_vlan[0], data.dut1_dut2_ip[1], data.dut1_dut2_ip_subnet, 'ipv4') vlan_obj.delete_vlan_member(data.dut1_client, data.dut1_dut2_vlan[0], data.d1_d2_ports[1], True) vlan_obj.create_vlan(data.dut1_client, data.dut1_dut2_vlan[0]) st.banner( 'Unconfigure IPv4 and IPv6 addresses on physical interface of DUT1') ip_obj.delete_ip_interface(data.dut1_client, data.d1_d2_ports[0], data.dut1_dut2_ipv6[0], data.dut1_dut2_ipv6_subnet, 'ipv6') ip_obj.delete_ip_interface(data.dut1_client, data.d1_d2_ports[0], data.dut1_dut2_ip[0], data.dut1_dut2_ip_subnet, 'ipv4') st.log('Unconfigure IPv6 address on management interface of DUT1') ip_obj.delete_ip_interface(data.dut1_client, data.mgmt_intf, data.dut1_mgmt_ipv6[0], data.dut1_mgmt_ipv6_subnet, 'ipv6') return True
def config_rpvst_vlan(dut, mode, vlan_id, new_fwd_delay, new_hello_time, new_max_age, new_priority): vlan_obj.create_vlan(dut, g_vlan_id) vlan_obj.add_vlan_member(dut, g_vlan_id, port_list=[g_port1], tagging_mode=True) stp_obj.config_stp_vlan_param(dut, cfgdictionary={'': [mode, str(vlan_id)]}) stp_obj.config_stp_vlan_param(dut, cfgdictionary={'forward_delay': [str(vlan_id), str(new_fwd_delay)]}) stp_obj.config_stp_vlan_param(dut, cfgdictionary={'hello': [str(vlan_id), str(new_hello_time)]}) stp_obj.config_stp_vlan_param(dut, cfgdictionary={'max_age': [str(vlan_id), str(new_max_age)]}) stp_obj.config_stp_vlan_param(dut, cfgdictionary={'priority': [str(vlan_id), str(new_priority)]}) return True
def test_ft_config_mgmt_verifying_config_with_save_reboot(): st.log("Configuring DUT with supported feature with CLI") vlan_obj.delete_all_vlan(vars.D1) vlan_obj.verify_vlan_config(vars.D1, data.vlan) vlan_obj.create_vlan(vars.D1, data.vlan) st.log("Configuring supported QoS features with CLI") st.log("Configuring IPV4 ACL with rule") ipv4_acl_config() st.log("Configuring IPV6 ACL with rule") ipv6_acl_config() st.log("Configuring COS") cos_config() st.log("Configuring WRED") config_ecn() st.log("Configuring CRM") crm_config() st.log("Configuring MTU on interface") intf_obj.interface_properties_set(vars.D1, data.eth, data.property, data.mtu) st.log("performing Config save") rb_obj.config_save(vars.D1) st.log("performing Reboot") st.reboot(vars.D1, 'fast') st.log( "Checking whether config is loaded to running config from config_db after reboot" ) if not vlan_obj.verify_vlan_config(vars.D1, data.vlan): st.report_fail("Config_not_loaded_from_config_db_json") st.log("Checking for IPV4 ACL config") ipv4_acl_run_config() st.log("Checking for IPV6 ACL config") ipv6_acl_run_config() st.log("Checking for COS config") cos_run_config() st.log("Checking for WRED config") if not ecn_obj.show_ecn_config(vars.D1): st.report_fail("Config_not_loaded_from_config_db_json") st.log("Checking CRM config after save and reload") crm_config_verify() st.log("Checking the configured MTU value after save and reload") if not sconf_obj.verify_running_config(vars.D1, "PORT", data.eth, data.property, data.mtu): st.report_fail("fail_to_configure_mtu_on_Device", 1) st.log( "configuration is successfully stored to config_db file after save and reboot" ) st.report_pass("test_case_passed")
def tf_module_config(config='yes'): if config == 'yes': tf_data.vlan = str(random_vlan_list()[0]) vapi.create_vlan(vars.D1, tf_data.vlan) vapi.add_vlan_member(vars.D1, tf_data.vlan, port_list=tf_data.port_list, tagging_mode=True) tf_data.tg, tf_data.tg_ph_list, tf_data.stream_tf_data = tf_tg_stream_config( ) tfapi.threshold_feature_debug(vars.D1, mode='port_map') else: vapi.delete_vlan_member(vars.D1, tf_data.vlan, port_list=tf_data.port_list, tagging_mode=True) vapi.delete_vlan(vars.D1, tf_data.vlan)
def interface_module_hooks(request): global vars vars = st.ensure_min_topology("D1D2:2", "D1T1:2") initialize_variables() if not vlanapi.create_vlan(vars.D1, intf_data.vlan_id): st.report_fail("vlan_create_fail", intf_data.vlan_id) if not vlanapi.add_vlan_member(vars.D1, intf_data.vlan_id, [vars.D1T1P1, vars.D1T1P2]): st.report_fail("vlan_untagged_member_fail", [vars.D1T1P1, vars.D1T1P2], intf_data.vlan_id) st.log("Getting TG handlers") _, intf_data.tg_ph_1 = tgapi.get_handle_byname("T1D1P1") _, intf_data.tg_ph_2 = tgapi.get_handle_byname("T1D1P2") intf_data.tg = tgapi.get_chassis(vars) st.log("Reset and clear statistics of TG ports") intf_data.tg.tg_traffic_control(action='reset', port_handle=[intf_data.tg_ph_1, intf_data.tg_ph_2]) intf_data.tg.tg_traffic_control(action='clear_stats', port_handle=[intf_data.tg_ph_1, intf_data.tg_ph_2]) st.log("Creating TG streams") intf_data.streams = {} stream = intf_data.tg.tg_traffic_config(port_handle=intf_data.tg_ph_1, mode='create', port_handle2=intf_data.tg_ph_2, length_mode='fixed', rate_pps=100, frame_size=intf_data.mtu1, l2_encap='ethernet_ii_vlan', transmit_mode='single_burst', pkts_per_burst=100, vlan_id=intf_data.vlan_id, mac_src=intf_data.source_mac, mac_dst=intf_data.destination_mac, vlan="enable") st.log('Stream output:{}'.format(stream)) intf_data.streams['mtu1'] = stream['stream_id'] stream = intf_data.tg.tg_traffic_config(port_handle=intf_data.tg_ph_1, mode='create', port_handle2=intf_data.tg_ph_2, length_mode='fixed', rate_pps=100, frame_size=intf_data.mtu2, l2_encap='ethernet_ii_vlan', transmit_mode='single_burst', pkts_per_burst=100, vlan_id=intf_data.vlan_id, mac_src=intf_data.source_mac, mac_dst=intf_data.destination_mac, vlan="enable") st.log('Stream output:{}'.format(stream)) intf_data.streams['mtu2'] = stream['stream_id'] stream = intf_data.tg.tg_traffic_config(port_handle=intf_data.tg_ph_1, mode='create', length_mode='fixed', frame_size='5000', transmit_mode='continuous') st.log('Stream output:{}'.format(stream)) intf_data.streams['traffic_tg1'] = stream['stream_id'] stream = intf_data.tg.tg_traffic_config(port_handle=intf_data.tg_ph_2, mode='create', length_mode='fixed', frame_size='5000', transmit_mode='continuous') st.log('Stream output:{}'.format(stream)) intf_data.streams['traffic_tg2'] = stream['stream_id'] yield vlanapi.clear_vlan_configuration(st.get_dut_names(), thread=True) # intf_data.tg.tg_traffic_control(action='stop', port_handle=[intf_data.tg_ph_1, intf_data.tg_ph_2]) intf_data.tg.tg_traffic_control(action='reset', port_handle=[intf_data.tg_ph_1, intf_data.tg_ph_2])
def vlan_config(): st.log("creating random vlan") if not vlan_obj.create_vlan(vars.D1, data.vlan): st.report_fail("vlan_create_fail", data.vlan) else: st.log("vlan creation is successful") st.log( "Adding Ixia port connected interface to the vlan with tagging mode") if not vlan_obj.add_vlan_member( vars.D1, data.vlan, [vars.D1T1P1, vars.D1T1P2], tagging_mode=True): st.report_fail("vlan_tagged_member_fail", [vars.D1T1P1, vars.D1T1P2], data.vlan) else: st.log("Adding ports in the vlan is successful")
def vlan_preconfig(): if not vlan_obj.create_vlan(vars.D1, data.vlan): st.report_fail("vlan_create_fail", data.vlan) if not st.is_community_build(): mac_obj.config_mac(vars.D1, data.source_mac, data.vlan, vars.D1T1P1) st.log( "Adding TGen-1 connected interface to newly created vlan in un tagging mode." ) if not vlan_obj.add_vlan_member( vars.D1, data.vlan, vars.D1T1P1, tagging_mode=False): st.report_fail("vlan_untagged_member_fail", vars.D1T1P1, data.vlan) st.log( "Adding TGen-2 connected interface to newly created vlan in tagging mode." ) if not vlan_obj.add_vlan_member( vars.D1, data.vlan, vars.D1T1P2, tagging_mode=True): st.report_fail("vlan_untagged_member_fail", vars.D1T1P2, data.vlan)
def dut3_config(config=''): st.log('On DUT3 physical interface IPv4 and IPv6 addresses on it') vrf_obj.config_vrf(dut=data.dut3_client, vrf_name=data.dut3_vrf_phy, config='yes') vrf_obj.bind_vrf_interface(dut=data.dut3_client, vrf_name=data.dut3_vrf_phy, intf_name=data.d3_d2_ports[0], config='yes') ip_obj.config_ip_addr_interface(data.dut3_client, data.d3_d2_ports[0], data.dut3_dut2_ipv6[0], data.dut3_dut2_ipv6_subnet, 'ipv6') ip_obj.config_ip_addr_interface(data.dut3_client, data.d3_d2_ports[0], data.dut3_dut2_ip[0], data.dut3_dut2_ip_subnet, 'ipv4') vlan_obj.create_vlan(data.dut3_client, data.dut2_dut3_vlan[0]) vlan_obj.add_vlan_member(data.dut3_client, data.dut2_dut3_vlan[0], data.d3_d2_ports[1], True, True) st.log('On DUT3 configure vlan and IPv4 and IPv6 addresses on it') vrf_obj.config_vrf(dut=data.dut3_client, vrf_name=data.dut3_vrf_vlan, config='yes') vrf_obj.bind_vrf_interface(dut=data.dut3_client, vrf_name=data.dut3_vrf_vlan, intf_name='Vlan' + data.dut2_dut3_vlan[0], config='yes') ip_obj.config_ip_addr_interface(data.dut3_client, 'Vlan' + data.dut2_dut3_vlan[0], data.dut3_dut2_ipv6[1], data.dut3_dut2_ipv6_subnet, 'ipv6') ip_obj.config_ip_addr_interface(data.dut3_client, 'Vlan' + data.dut2_dut3_vlan[0], data.dut3_dut2_ip[1], data.dut3_dut2_ip_subnet, 'ipv4') st.log('On DUT3 configure portchannel and IPv4 and IPv6 addresses on it') pc_obj.create_portchannel(data.dut3_client, data.portchannel_2) pc_obj.add_portchannel_member(data.dut3_client, data.portchannel_2, [data.d3_d2_ports[2], data.d3_d2_ports[3]]) vrf_obj.config_vrf(dut=data.dut3_client, vrf_name=data.dut3_vrf_pc, config='yes') vrf_obj.bind_vrf_interface(dut=data.dut3_client, vrf_name=data.dut3_vrf_pc, intf_name=data.portchannel_2, config='yes') ip_obj.config_ip_addr_interface(data.dut3_client, data.portchannel_2, data.dut3_dut2_ipv6[2], data.dut3_dut2_ipv6_subnet, 'ipv6') ip_obj.config_ip_addr_interface(data.dut3_client, data.portchannel_2, data.dut3_dut2_ip[2], data.dut3_dut2_ip_subnet, 'ipv4') st.log('On DUT3 configure loopback and IPv4 and IPv6 addresses on it') ip_obj.configure_loopback(data.dut3_client, config='yes', loopback_name=data.dut3_loopback[1]) vrf_obj.config_vrf(dut=data.dut3_client, vrf_name=data.dut3_vrf_phy, config='yes') vrf_obj.bind_vrf_interface(dut=data.dut3_client, vrf_name=data.dut3_vrf_phy, intf_name=data.dut3_loopback[1], config='yes') ip_obj.config_ip_addr_interface(data.dut3_client, data.dut3_loopback[1], data.dut3_loopback_ipv6[1], data.dut3_loopback_ipv6_subnet, 'ipv6') ip_obj.config_ip_addr_interface(data.dut3_client, data.dut3_loopback[1], data.dut3_loopback_ip[1], data.dut3_loopback_ip_subnet, 'ipv4') st.log('IPv4 and IPv6 static routes for loopback reachability') ip_obj.create_static_route(data.dut3_client, data.dut2_dut3_ip[0], data.dut2_loopback_ip[1] + '/32', family='ipv4', interface=data.d3_d2_ports[0], vrf=data.dut3_vrf_phy) ip_obj.create_static_route(data.dut3_client, data.dut2_dut3_ipv6[0], data.dut2_loopback_ipv6[1] + '/128', family='ipv6', interface=data.d3_d2_ports[0], vrf=data.dut3_vrf_phy) return True
def dut1_unconfig(): result = 0 st.log('On DUT1 unconfigure IP addresses on DUT - TG interfaces') ip_obj.delete_ip_interface(data.dut1, data.dut1_tg_ports[0], data.dut1_tg_ipv6[0], data.tg_ipv6_subnet, 'ipv6') ip_obj.delete_ip_interface(data.dut1, data.dut1_tg_ports[0], data.dut1_tg_ip[0], data.tg_ip_subnet, 'ipv4') st.log( 'On DUT1 Unonfigure OSPF router ID, ospf network and add all the ospf interfaces' ) result = ospf_obj.config_interface_ip_ospf_network_type( data.dut1, data.d1_d2_ports[0], 'point-to-point', data.dut1_vrf[0], 'no') result = ospf_obj.config_interface_ip_ospf_network_type( data.dut1, 'Vlan' + data.dut1_dut2_vlan[0], 'point-to-point', data.dut1_vrf[0], 'no') result = ospf_obj.config_interface_ip_ospf_network_type( data.dut1, data.portchannel, 'point-to-point', data.dut1_vrf[0], 'no') result = ospf_obj.config_ospf_network( data.dut1, data.dut1_loopback_ip[0] + '/' + data.ip_loopback_prefix, 0, data.dut1_vrf[0], '', 'no') result = ospf_obj.config_ospf_network( data.dut1, data.dut1_loopback_ip[1] + '/' + data.ip_loopback_prefix, 0, data.dut1_vrf[0], '', 'no') result = ospf_obj.config_ospf_network( data.dut1, data.dut1_loopback_ip[2] + '/' + data.ip_loopback_prefix, 0, data.dut1_vrf[0], '', 'no') result = ospf_obj.config_ospf_router_id(data.dut1, data.dut1_ospf_router_id, data.dut1_vrf[0], '', 'no') st.banner('Unconfigure IPv4 and IPv6 addresses on the loopback interfaces') result = ip_obj.delete_ip_interface(data.dut1, data.dut1_loopback[0], data.dut1_loopback_ipv6[0], data.ipv6_loopback_prefix, 'ipv6') result = ip_obj.delete_ip_interface(data.dut1, data.dut1_loopback[0], data.dut1_loopback_ip[0], data.ip_loopback_prefix, 'ipv4') result = ip_obj.delete_ip_interface(data.dut1, data.dut1_loopback[1], data.dut1_loopback_ipv6[1], data.ipv6_loopback_prefix, 'ipv6') result = ip_obj.delete_ip_interface(data.dut1, data.dut1_loopback[1], data.dut1_loopback_ip[1], data.ip_loopback_prefix, 'ipv4') result = ip_obj.delete_ip_interface(data.dut1, data.dut1_loopback[2], data.dut1_loopback_ipv6[2], data.ipv6_loopback_prefix, 'ipv6') result = ip_obj.delete_ip_interface(data.dut1, data.dut1_loopback[2], data.dut1_loopback_ip[2], data.ip_loopback_prefix, 'ipv4') st.log( 'On DUT1 unbind all the loopbacks, physical, vlan and portchannel interfaces to the VRF' ) result = vrf_obj.bind_vrf_interface( dut=data.dut1, vrf_name=data.dut1_vrf[0], intf_name=[ data.dut1_loopback[0], data.dut1_loopback[1], data.dut1_loopback[2], data.d1_d2_ports[0], 'Vlan' + data.dut1_dut2_vlan[0], data.portchannel ], config='no') st.log('On DUT1 unconfigure vlan') result = vlan_obj.delete_vlan_member(data.dut1_client, data.dut1_dut2_vlan[0], data.d1_d2_ports[1], True) result = vlan_obj.create_vlan(data.dut1_client, data.dut1_dut2_vlan[0]) st.banner('Unconfigure portchannel on DUT1') result = pc_obj.add_del_portchannel_member( data.dut1_client, data.portchannel, [data.d1_d2_ports[2], data.d1_d2_ports[3]], 'del') result = pc_obj.delete_portchannel(data.dut1_client, data.portchannel) st.log('On DUT1 unconfigure vrfs and loopbacks') result = ip_obj.configure_loopback(data.dut1, config='no', loopback_name=[ data.dut1_loopback[0], data.dut1_loopback[1], data.dut1_loopback[2] ]) result = vrf_obj.config_vrf(dut=data.dut3_client, vrf_name=data.dut1_vrf[0], config='no') return result
def config_ip(config='yes'): if config == 'yes': api_name = ip_api.config_ip_addr_interface config_str = "Configure" else: api_name = ip_api.delete_ip_interface config_str = "Delete" hdrMsg("Bring-up the port on dut3 which is connected to dhcp server ") interface_api.interface_operation(data.dut3, data.dhcp_server_port, operation="startup") ########################################################################## hdrMsg( "IP-config: {} IP address between dut2 interface {} and dut3 interface {}" .format(config_str, data.d2d3_ports, data.d3d2_ports)) ########################################################################## utils.exec_all(True, [[ api_name, data.dut2, data.d2d3_ports[0], dut2_3_ip_list[0], mask_24 ], [api_name, data.dut3, data.d3d2_ports[0], dut3_2_ip_list[0], mask_24]]) if config == 'yes': st.banner('Install L2 DHCP rules on dhcp client device') copp_api.bind_class_action_copp_policy(data.dut4, classifier='copp-system-dhcpl2', action_group='copp-system-dhcp') ########################################################################## hdrMsg("Create loopback interfaces on dut1, dut2 and dut3") ########################################################################## parallel.exec_parallel(True, [data.dut1, data.dut2, data.dut3], ip_api.configure_loopback, [{ 'loopback_name': 'Loopback1' }] * 3) ########################################################################## hdrMsg("Loopback-config: {} IP address on Loopback interface".format( config_str)) ########################################################################## utils.exec_all(True, [[ api_name, data.dut1, "Loopback1", dut1_loopback_ip_list[0], '32' ], [ api_name, data.dut2, "Loopback1", dut2_loopback_ip_list[0], '32' ], [api_name, data.dut3, "Loopback1", dut3_loopback_ip_list[0], '32']]) ########################################## hdrMsg("config required vlan to test on dut2 and dut4") ########################################## utils.exec_all(True, [[vlan_api.create_vlan, data.dut2, ['100']], [vlan_api.create_vlan, data.dut4, ['100']]]) vlan_api.create_vlan(data.dut4, ['200', '300']) ########################################## hdrMsg("Add vlan members") ########################################## utils.exec_all(True, [[ vlan_api.add_vlan_member, data.dut2, '100', data.d2d4_ports[0], True ], [ vlan_api.add_vlan_member, data.dut4, '100', data.d4d2_ports[0], True ]]) ######################################################### hdrMsg("LAG-Config: Create portchannel on dut2 and dut4") ######################################################### utils.exec_all(True, [[pc.create_portchannel, data.dut2, ['PortChannel12']], [pc.create_portchannel, data.dut4, ['PortChannel12']]]) ######################################################### hdrMsg("LAG-Config: add member ports to portchannel") ######################################################### utils.exec_all(True, [[ pc.add_del_portchannel_member, data.dut2, 'PortChannel12', data.d2d4_ports[2], 'add' ], [ pc.add_del_portchannel_member, data.dut4, 'PortChannel12', data.d4d2_ports[2], 'add' ]]) ######################################################### hdrMsg("LAG-Config: Create portchannel on dut3 and dut1") ######################################################### utils.exec_all(True, [[pc.create_portchannel, data.dut3, ['PortChannel14']], [pc.create_portchannel, data.dut1, ['PortChannel14']]]) ######################################################### hdrMsg("LAG-Config: add member ports to portchannel") ######################################################### utils.exec_all(True, [[ pc.add_del_portchannel_member, data.dut3, 'PortChannel14', data.d3d1_ports[0], 'add' ], [ pc.add_del_portchannel_member, data.dut1, 'PortChannel14', data.d1d3_ports[0], 'add' ]]) ip_api.config_ip_addr_interface(data.dut2, 'Vlan100', dut2_4_ip_list[0], mask_24) ip_api.config_ip_addr_interface(data.dut2, data.d2d4_ports[1], dut2_4_ip_list[1], mask_24) ip_api.config_ip_addr_interface(data.dut2, 'PortChannel12', dut2_4_ip_list[2], mask_24) ip_api.config_ip_addr_interface(data.dut1, 'PortChannel14', data.dhcp_server_ipv6, mask_v6, family='ipv6') ######################################### hdrMsg("Add vlan members on DUT4") ######################################### vlan_api.add_vlan_member(data.dut4, '200', data.d4d2_ports[1]) vlan_api.add_vlan_member(data.dut4, '300', 'PortChannel12') st.exec_all([[create_static_route_dut2], [create_static_route_dut3]]) else: st.banner('Remove L2 DHCP rules on dhcp client device') copp_api.bind_class_action_copp_policy(data.dut4, classifier='copp-system-dhcpl2', action_group='copp-system-dhcp', config='no') ########################################################################## hdrMsg("Loopback-config: {} IP address on Loopback interface".format( config_str)) ########################################################################## utils.exec_all(True, [[ api_name, data.dut1, "Loopback1", dut1_loopback_ip_list[0], '32' ], [ api_name, data.dut2, "Loopback1", dut2_loopback_ip_list[0], '32' ], [api_name, data.dut3, "Loopback1", dut3_loopback_ip_list[0], '32']]) ########################################################################## hdrMsg("Delete loopback interfaces on dut1, dut2 and dut3") ########################################################################## parallel.exec_parallel(True, [data.dut1, data.dut2, data.dut3], ip_api.configure_loopback, [{ 'loopback_name': 'Loopback1', 'config': 'no' }] * 3) st.exec_all([[delete_static_route_dut2], [delete_static_route_dut3]]) hdrMsg(" Remove all ip configs on dut2") ip_api.delete_ip_interface(data.dut2, 'Vlan100', dut2_4_ip_list[0], mask_24) ip_api.delete_ip_interface(data.dut2, data.d2d4_ports[1], dut2_4_ip_list[1], mask_24) ip_api.delete_ip_interface(data.dut2, 'PortChannel12', dut2_4_ip_list[2], mask_24) ip_api.delete_ip_interface(data.dut1, 'PortChannel14', data.dhcp_server_ipv6, mask_v6, family='ipv6') ########################################################### hdrMsg("LAG-unConfig: delete member ports to portchannel") ########################################################### utils.exec_all(True, [[ pc.add_del_portchannel_member, data.dut2, 'PortChannel12', data.d2d4_ports[2], 'del' ], [ pc.add_del_portchannel_member, data.dut4, 'PortChannel12', data.d4d2_ports[2], 'del' ]]) utils.exec_all(True, [[ pc.add_del_portchannel_member, data.dut3, 'PortChannel14', data.d3d1_ports[0], 'del' ], [ pc.add_del_portchannel_member, data.dut1, 'PortChannel14', data.d1d3_ports[0], 'del' ]]) vlan_api.delete_vlan_member(data.dut4, '300', 'PortChannel12') ####################################################### hdrMsg("LAG-UnConfig: Delete portchannel on dut2 and dut4") ####################################################### utils.exec_all(True, [[pc.delete_portchannel, data.dut2, ['PortChannel12']], [pc.delete_portchannel, data.dut4, ['PortChannel12']]]) utils.exec_all(True, [[pc.delete_portchannel, data.dut3, ['PortChannel14']], [pc.delete_portchannel, data.dut1, ['PortChannel14']]]) ######################################## hdrMsg("Delete vlan member ports") ######################################## utils.exec_all(True, [[ vlan_api.delete_vlan_member, data.dut2, '100', data.d2d4_ports[0], True ], [ vlan_api.delete_vlan_member, data.dut4, '100', data.d4d2_ports[0], True ]]) vlan_api.delete_vlan_member(data.dut4, '200', data.d4d2_ports[1]) #################################### hdrMsg("Unconfig vlan fron dut2 and dut4") ################################### utils.exec_all(True, [[vlan_api.delete_vlan, data.dut2, ['100']], [vlan_api.delete_vlan, data.dut4, ['100']]]) vlan_api.delete_vlan(data.dut4, ['200', '300'])
def dut2_config(): result = True st.log('On DUT2 configure loopback') result = ip_obj.configure_loopback(data.dut2, config='yes', loopback_name=[ data.dut2_loopback[0], data.dut2_loopback[1], data.dut2_loopback[2] ]) st.log('On DUT2 configure vlan') result = vlan_obj.create_vlan(data.dut2, data.dut1_dut2_vlan[0]) result = vlan_obj.add_vlan_member(data.dut2, data.dut1_dut2_vlan[0], data.d2_d1_ports[1], True, True) st.log('On DUT2 configure portchannel') result = pc_obj.create_portchannel(data.dut2, data.portchannel) result = pc_obj.add_portchannel_member( data.dut2, data.portchannel, [data.d2_d1_ports[2], data.d2_d1_ports[3]]) st.log( 'On DUT2 configure OSPF router ID, ospf networks and add all the ospf interfaces' ) result = ip_obj.config_ip_addr_interface(data.dut2, data.dut2_loopback[0], data.dut2_loopback_ipv6[0], data.ipv6_loopback_prefix, 'ipv6') result = ip_obj.config_ip_addr_interface(data.dut2, data.dut2_loopback[0], data.dut2_loopback_ip[0], data.ip_loopback_prefix, 'ipv4') result = ip_obj.config_ip_addr_interface(data.dut2, data.dut2_loopback[1], data.dut2_loopback_ipv6[1], data.ipv6_loopback_prefix, 'ipv6') result = ip_obj.config_ip_addr_interface(data.dut2, data.dut2_loopback[1], data.dut2_loopback_ip[1], data.ip_loopback_prefix, 'ipv4') result = ip_obj.config_ip_addr_interface(data.dut2, data.dut2_loopback[2], data.dut2_loopback_ipv6[2], data.ipv6_loopback_prefix, 'ipv6') result = ip_obj.config_ip_addr_interface(data.dut2, data.dut2_loopback[2], data.dut2_loopback_ip[2], data.ip_loopback_prefix, 'ipv4') st.log( 'On DUT2 configure OSPF router ID, ospf networks and add all the ospf interfaces' ) result = ospf_obj.config_ospf_router_id(data.dut2, data.dut2_ospf_router_id, 'default', '', 'yes') result = ospf_obj.config_ospf_network( data.dut2, data.dut2_loopback_ip[0] + '/' + data.ip_loopback_prefix, 0, 'default', '', 'yes') result = ospf_obj.config_ospf_network( data.dut2, data.dut2_loopback_ip[1] + '/' + data.ip_loopback_prefix, 0, 'default', '', 'yes') result = ospf_obj.config_ospf_network( data.dut2, data.dut2_loopback_ip[2] + '/' + data.ip_loopback_prefix, 0, 'default', '', 'yes') result = ospf_obj.config_ospf_network(data.dut2, data.dut2_tg1_network_v4, 0, 'default', '', 'yes') result = ospf_obj.config_interface_ip_ospf_network_type( data.dut2, data.d2_d1_ports[0], 'point-to-point', 'default', 'yes') result = ospf_obj.config_interface_ip_ospf_network_type( data.dut2, 'Vlan' + data.dut1_dut2_vlan[0], 'point-to-point', 'default', 'yes') result = ospf_obj.config_interface_ip_ospf_network_type( data.dut2, data.portchannel, 'point-to-point', 'default', 'yes') st.log('On DUT2 configure IP addresses on DUT2 - TG interfaces') result = ip_obj.config_ip_addr_interface(data.dut2, data.dut2_tg_ports[0], data.dut2_tg_ipv6[0], data.tg_ipv6_subnet, 'ipv6') result = ip_obj.config_ip_addr_interface(data.dut2, data.dut2_tg_ports[0], data.dut2_tg_ip[0], data.tg_ip_subnet, 'ipv4') result = arp_obj.add_static_arp(data.dut2, data.tg_dut2_ip[0], '00:00:33:33:33:01', data.dut2_tg_ports[0]) return result
def dut1_config(): result = True st.log('On DUT1 configure vrfs and loopbacks') result = vrf_obj.config_vrf(dut=data.dut1, vrf_name=data.dut1_vrf[0], config='yes') result = ip_obj.configure_loopback(data.dut1, config='yes', loopback_name=[ data.dut1_loopback[0], data.dut1_loopback[1], data.dut1_loopback[2] ]) st.log('On DUT1 configure vlan') result = vlan_obj.create_vlan(data.dut1, data.dut1_dut2_vlan[0]) result = vlan_obj.add_vlan_member(data.dut1, data.dut1_dut2_vlan[0], data.d1_d2_ports[1], True, True) st.log('On DUT1 configure portchannel') result = pc_obj.create_portchannel(data.dut1, data.portchannel) result = pc_obj.add_portchannel_member( data.dut1, data.portchannel, [data.d1_d2_ports[2], data.d1_d2_ports[3]]) st.log( 'On DUT1 bind all the loopbacks, physical, vlan and portchannel interfaces between the DUTs to the VRF' ) result = vrf_obj.bind_vrf_interface( dut=data.dut1, vrf_name=[ data.dut1_vrf[0], data.dut1_vrf[0], data.dut1_vrf[0], data.dut1_vrf[0], data.dut1_vrf[0], data.dut1_vrf[0], data.dut1_vrf[0], data.dut1_vrf[0] ], intf_name=[ data.dut1_tg_ports[0], data.dut1_loopback[0], data.dut1_loopback[1], data.dut1_loopback[2], data.d1_d2_ports[0], 'Vlan' + data.dut1_dut2_vlan[0], data.portchannel ], config='yes') st.banner('On DUT1 verify vrf bindings for all the interfaces') output = vrf_obj.get_vrf_verbose(dut=data.dut1, vrfname=data.dut1_vrf[0]) if data.dut1_vrf[0] in output['vrfname']: st.log('VRF configured on DUT1 is as expected', data.dut1_vrf[0]) else: st.error('VRF name configured on DUT1 is as not expected', data.dut1_vrf[0]) result = False for value in output['interfaces']: if data.dut1_tg_ports[0] or data.dut1_loopback[ 0] or data.dut1_loopback[1] or data.dut1_loopback[ 2] or data.d1_d2_ports[0] or 'Vlan' + data.dut1_dut2_vlan[ 0] or data.portchannel == value: st.log('Bind to VRF is as expected', value) else: st.error('Bind to VRF is not as expected', value) result = False st.log( 'On DUT1 configure OSPF router ID, ospf networks and add all the ospf interfaces' ) result = ip_obj.config_ip_addr_interface(data.dut1, data.dut1_loopback[0], data.dut1_loopback_ipv6[0], data.ipv6_loopback_prefix, 'ipv6') result = ip_obj.config_ip_addr_interface(data.dut1, data.dut1_loopback[0], data.dut1_loopback_ip[0], data.ip_loopback_prefix, 'ipv4') result = ip_obj.config_ip_addr_interface(data.dut1, data.dut1_loopback[1], data.dut1_loopback_ipv6[1], data.ipv6_loopback_prefix, 'ipv6') result = ip_obj.config_ip_addr_interface(data.dut1, data.dut1_loopback[1], data.dut1_loopback_ip[1], data.ip_loopback_prefix, 'ipv4') result = ip_obj.config_ip_addr_interface(data.dut1, data.dut1_loopback[2], data.dut1_loopback_ipv6[2], data.ipv6_loopback_prefix, 'ipv6') result = ip_obj.config_ip_addr_interface(data.dut1, data.dut1_loopback[2], data.dut1_loopback_ip[2], data.ip_loopback_prefix, 'ipv4') st.log( 'On DUT1 configure OSPF router ID, ospf networks and add all the ospf interfaces' ) result = ospf_obj.config_ospf_router_id(data.dut1, data.dut1_ospf_router_id, data.dut1_vrf[0], '', 'yes') result = ospf_obj.config_ospf_network( data.dut1, data.dut1_loopback_ip[0] + '/' + data.ip_loopback_prefix, 0, data.dut1_vrf[0], '', 'yes') result = ospf_obj.config_ospf_network( data.dut1, data.dut1_loopback_ip[1] + '/' + data.ip_loopback_prefix, 0, data.dut1_vrf[0], '', 'yes') result = ospf_obj.config_ospf_network( data.dut1, data.dut1_loopback_ip[2] + '/' + data.ip_loopback_prefix, 0, data.dut1_vrf[0], '', 'yes') result = ospf_obj.config_ospf_network(data.dut1, data.dut1_tg1_network_v4, 0, data.dut1_vrf[0], '', 'yes') result = ospf_obj.config_interface_ip_ospf_network_type( data.dut1, data.d1_d2_ports[0], 'point-to-point', data.dut1_vrf[0], 'yes') result = ospf_obj.config_interface_ip_ospf_network_type( data.dut1, 'Vlan' + data.dut1_dut2_vlan[0], 'point-to-point', data.dut1_vrf[0], 'yes') result = ospf_obj.config_interface_ip_ospf_network_type( data.dut1, data.portchannel, 'point-to-point', data.dut1_vrf[0], 'yes') st.log('On DUT1 configure IP addresses on DUT - TG interfaces') ip_obj.config_ip_addr_interface(data.dut1, data.dut1_tg_ports[0], data.dut1_tg_ipv6[0], data.tg_ipv6_subnet, 'ipv6') ip_obj.config_ip_addr_interface(data.dut1, data.dut1_tg_ports[0], data.dut1_tg_ip[0], data.tg_ip_subnet, 'ipv4') return result
def dut_vrf_bind(**kwargs): vars = st.get_testbed_vars() dut1 = st.get_dut_names()[0] dut2 = st.get_dut_names()[1] if 'config' in kwargs: config = kwargs['config'] else: config = '' if config == '': st.log( '######------Configure vlans on the PE--PE side - DUT1 -- DUT2------######' ) for vlan in data.dut1_dut2_vlan[0:3]: vlan_obj.create_vlan(dut1, vlan) vlan_obj.add_vlan_member(dut1, vlan, vars.D1D2P1, True, True) for vlan in data.dut2_dut1_vlan[0:3]: vlan_obj.create_vlan(dut2, vlan) vlan_obj.add_vlan_member(dut2, vlan, vars.D2D1P1, True, True) st.log( '######------Bind DUT1 <--> DUT2 vlans to vrf, assign v4 and v6 address------######' ) for vlan, ip, ip2, ipv6, ipv6_2, vrf in zip( data.dut1_dut2_vlan[0:3], data.dut1_dut2_vrf_ip[0:3], data.dut2_dut1_vrf_ip[0:3], data.dut1_dut2_vrf_ipv6[0:3], data.dut2_dut1_vrf_ipv6[0:3], data.vrf_name[0:3]): dict1 = { 'vrf_name': vrf, 'intf_name': 'Vlan' + vlan, 'skip_error': True } dict2 = { 'vrf_name': vrf, 'intf_name': 'Vlan' + vlan, 'skip_error': True } parallel.exec_parallel(True, [dut1, dut2], vrf_api.bind_vrf_interface, [dict1, dict2]) parallel.exec_all( True, [[ ipfeature.config_ip_addr_interface, dut1, 'Vlan' + vlan, ip, data.dut1_dut2_vrf_ip_subnet, 'ipv4' ], [ ipfeature.config_ip_addr_interface, dut2, 'Vlan' + vlan, ip2, data.dut2_dut1_vrf_ip_subnet, 'ipv4' ]]) parallel.exec_all( True, [[ ipfeature.config_ip_addr_interface, dut1, 'Vlan' + vlan, ipv6, data.dut1_dut2_vrf_ipv6_subnet, 'ipv6' ], [ ipfeature.config_ip_addr_interface, dut2, 'Vlan' + vlan, ipv6_2, data.dut2_dut1_vrf_ipv6_subnet, 'ipv6' ]]) ''' vrf_api.bind_vrf_interface(dut = dut1, vrf_name = vrf, intf_name = 'Vlan'+vlan, skip_error = True) ipfeature.config_ip_addr_interface(dut1, 'Vlan'+vlan, ip, data.dut1_dut2_vrf_ip_subnet, 'ipv4') ipfeature.config_ip_addr_interface(dut1, 'Vlan'+vlan, ipv6, data.dut1_dut2_vrf_ipv6_subnet, 'ipv6') ''' ''' st.log('######------Bind DUT2 <--> DUT1 virtual interfaces to vrf and config IP addresses------######') for vlan, ip, ipv6, vrf in zip(data.dut2_dut1_vlan[0:3], data.dut2_dut1_vrf_ip[0:3], data.dut2_dut1_vrf_ipv6[0:3],data.vrf_name[0:3]): vrf_api.bind_vrf_interface(dut = dut2, vrf_name = vrf, intf_name = 'Vlan'+vlan, skip_error = True) ipfeature.config_ip_addr_interface(dut2, 'Vlan'+vlan, ip, data.dut2_dut1_vrf_ip_subnet, 'ipv4') ipfeature.config_ip_addr_interface(dut2, 'Vlan'+vlan, ipv6, data.dut2_dut1_vrf_ipv6_subnet, 'ipv6') ''' elif config == 'no': ''' st.log('######------Unbind DUT1 <--> DUT2 vlans to vrf, assign v4 and v6 address------######') for vlan, ip, ipv6, vrf in zip(data.dut1_dut2_vlan[0:3], data.dut1_dut2_vrf_ip[0:3], data.dut1_dut2_vrf_ipv6[0:3],data.vrf_name[0:3]): vrf_api.bind_vrf_interface(dut = dut1, vrf_name = vrf, intf_name = 'Vlan'+vlan, skip_error = True, config = 'no') ipfeature.delete_ip_interface(dut1, 'Vlan'+vlan, ip, data.dut1_dut2_vrf_ip_subnet, 'ipv4') ipfeature.delete_ip_interface(dut1, 'Vlan'+vlan, ipv6, data.dut1_dut2_vrf_ipv6_subnet, 'ipv6') st.log('######------Unbind DUT2 <--> DUT1 physical interfaces to vrf and config IP addresses------######') for vlan, ip, ipv6, vrf in zip(data.dut2_dut1_vlan[0:3], data.dut2_dut1_vrf_ip[0:3], data.dut2_dut1_vrf_ipv6[0:3],data.vrf_name[0:3]): vrf_api.bind_vrf_interface(dut = dut2, vrf_name = vrf, intf_name = 'Vlan'+vlan, skip_error = True, config = 'no') ipfeature.delete_ip_interface(dut2, 'Vlan'+vlan, ip, data.dut2_dut1_vrf_ip_subnet, 'ipv4') ipfeature.delete_ip_interface(dut2, 'Vlan'+vlan, ipv6, data.dut2_dut1_vrf_ipv6_subnet, 'ipv6') ''' st.log( '######------Delete vlans on the PE--PE side - DUT1 -- DUT2------######' ) for vlan in data.dut1_dut2_vlan[0:3]: vlan_obj.delete_vlan_member(dut1, vlan, vars.D1D2P1, tagging_mode=True) vlan_obj.delete_vlan(dut1, vlan) for vlan in data.dut2_dut1_vlan[0:3]: vlan_obj.delete_vlan_member(dut2, vlan, vars.D2D1P1, tagging_mode=True) vlan_obj.delete_vlan(dut2, vlan)
def test_l2_to_l3_port(): data.my_dut_list = st.get_dut_names() dut1 = data.my_dut_list[0] data.vlan = '10' data.vlan_int = 'Vlan' + '10' result_flag = 1 # configure from L3 to L2 port vapi.create_vlan(dut1, data.vlan) ipfeature.delete_ip_interface(dut1, vars.D1D2P1, data.d1d2_ip_addr, data.mask) ipfeature.delete_ip_interface(dut1, vars.D1D2P1, data.d1d2_ip_addr_v6, data.mask_v6, family='ipv6') ipfeature.config_ip_addr_interface(dut1, data.vlan_int, data.d1d2_ip_addr, data.mask) ipfeature.config_ip_addr_interface(dut1, data.vlan_int, data.d1d2_ip_addr_v6, data.mask_v6, family='ipv6') vapi.add_vlan_member(dut1, data.vlan, vars.D1D2P1, False) if not vapi.verify_vlan_config(dut1, str(data.vlan), None, vars.D1D2P1): result_flag = 0 ipfeature.get_interface_ip_address(dut1, family="ipv4") ipfeature.get_interface_ip_address(dut1, family="ipv6") result1 = ipfeature.ping(dut1, data.d2t1_ip_addr) result2 = ipfeature.ping(dut1, data.d2t1_ip_addr_v6, 'ipv6') if not result1 or not result2: result_flag = 0 # Revert back from L2 to L3 port vapi.delete_vlan_member(dut1, data.vlan, [vars.D1D2P1]) ipfeature.delete_ip_interface(dut1, data.vlan_int, data.d1d2_ip_addr, data.mask) ipfeature.delete_ip_interface(dut1, data.vlan_int, data.d1d2_ip_addr_v6, data.mask_v6, family='ipv6') vapi.delete_vlan(dut1, [data.vlan]) ipfeature.config_ip_addr_interface(dut1, vars.D1D2P1, data.d1d2_ip_addr, data.mask) ipfeature.config_ip_addr_interface(dut1, vars.D1D2P1, data.d1d2_ip_addr_v6, data.mask_v6, family='ipv6') waitapi.vsonic_ip_apply(vars.D1) ping_result = ipfeature.ping(dut1, data.d2t1_ip_addr) if ping_result and result_flag: st.report_pass("operation_successful") else: st.report_fail("operation_failed")
def test_ft_ip_v4_v6_L2_L3_translation(): # Objective - Verify that L2 port to IPv4 L3 port transition and vice-versa is successful. st.log("Checking IPv4 ping from {} to {} over routing interface".format( vars.D1, vars.D2)) if not ipfeature.ping( vars.D1, data.ip4_addr[7], family=data.af_ipv4, count=1): st.report_fail("ping_fail", data.ip4_addr[6], data.ip4_addr[7]) st.log( "Checking IPv6 ping from {} to {} over vlan routing interface".format( vars.D1, vars.D2)) if not ipfeature.ping( vars.D2, data.ip6_addr[6], family=data.af_ipv6, count=1): st.report_fail("ping_fail", data.ip6_addr[7], data.ip6_addr[6]) st.log("L3 to L2 port transition") st.log("Removing ipv4,ipv6 address from interface") ipfeature.delete_ip_interface(vars.D1, vars.D1D2P4, data.ip4_addr[6], 24, family=data.af_ipv4) ipfeature.delete_ip_interface(vars.D2, vars.D2D1P4, data.ip4_addr[7], 24, family=data.af_ipv4) ipfeature.delete_ip_interface(vars.D1, vars.D1D2P4, data.ip6_addr[6], 96, family=data.af_ipv6) ipfeature.delete_ip_interface(vars.D2, vars.D2D1P4, data.ip6_addr[7], 96, family=data.af_ipv6) ipfeature.delete_ip_interface(vars.D1, vars.D1T1P1, data.ip4_addr[1], 24, family=data.af_ipv4) ipfeature.delete_ip_interface(vars.D2, vars.D2T1P1, data.ip4_addr[8], 24, family=data.af_ipv4) st.log("Removing the static routes") ipfeature.delete_static_route(vars.D1, data.ip4_addr[7], data.static_ip_rt, shell=data.shell_vtysh, family=data.af_ipv4) ipfeature.delete_static_route(vars.D1, data.static_ip6_rt_drop, data.static_ip6_rt, shell=data.shell_vtysh, family=data.af_ipv6) st.log("Vlan creation and port association configuration") vlan_obj.create_vlan(vars.D1, data.vlan_2) st.log("Adding back to back connecting ports to vlan {}".format( data.vlan_2)) vlan_obj.add_vlan_member(vars.D1, data.vlan_2, [vars.D1D2P4], tagging_mode=True) vlan_obj.create_vlan(vars.D2, data.vlan_2) vlan_obj.add_vlan_member(vars.D2, data.vlan_2, [vars.D2D1P4], tagging_mode=True) st.log("Adding TG connecting ports to vlan {}".format(data.vlan_1)) vlan_obj.add_vlan_member(vars.D1, data.vlan_2, vars.D1T1P1, tagging_mode=True) vlan_obj.add_vlan_member(vars.D2, data.vlan_2, vars.D2T1P1, tagging_mode=True) tg_handler = tgapi.get_handles_byname("T1D1P1", "T1D2P1") tg.tg_traffic_control(action="reset", port_handle=tg_handler["tg_ph_list"]) tg.tg_traffic_control(action="clear_stats", port_handle=tg_handler["tg_ph_list"]) tr2 = tg.tg_traffic_config(port_handle=tg_handler["tg_ph_2"], mode='create', rate_pps="2000", mac_src_mode="fixed", transmit_mode="single_burst", pkts_per_burst=2000, length_mode='fixed', l2_encap='ethernet_ii_vlan', vlan_id=data.vlan_2, mac_dst_mode="fixed", vlan="enable", mac_src="00:a1:bb:cc:dd:01", mac_dst="00:b1:bb:cc:dd:01") st.log("TRAFCONF: " + str(tr2)) res = tg.tg_traffic_control(action='run', stream_handle=tr2['stream_id']) tg.tg_traffic_control(action='stop', stream_handle=tr2['stream_id']) st.wait(data.wait_tgstats) st.log("TR_CTRL: " + str(res)) st.log("Fetching TGen statistics") stats_tg1 = tgapi.get_traffic_stats(tg_handler["tg"], mode="aggregate", port_handle=tg_handler["tg_ph_2"]) total_tx_tg1 = stats_tg1.tx.total_packets stats_tg2 = tgapi.get_traffic_stats(tg_handler["tg"], mode="aggregate", port_handle=tg_handler["tg_ph_1"]) total_rx_tg2 = stats_tg2.rx.total_packets st.log("total_tx_tg1 = {}".format(total_tx_tg1)) total_tx_tg1_95_percentage = int(total_tx_tg1) * 0.95 st.log("total_tx_tg1_95_percentage= {}".format(total_tx_tg1_95_percentage)) st.log("total_rx_tg2 = {}".format(total_rx_tg2)) if int(total_tx_tg1_95_percentage) > int(total_rx_tg2): st.report_fail("traffic_verification_failed") st.log("Removing vlan configuration") vlan_obj.delete_vlan_member(vars.D1, data.vlan_2, [vars.D1D2P4, vars.D1T1P1], True) vlan_obj.delete_vlan_member(vars.D2, data.vlan_2, [vars.D2D1P4, vars.D2T1P1], True) st.log("L2 to L3 port transition") ipfeature.config_ip_addr_interface(vars.D1, vars.D1D2P4, data.ip4_addr[6], 24, family=data.af_ipv4) ipfeature.config_ip_addr_interface(vars.D2, vars.D2D1P4, data.ip4_addr[7], 24, family=data.af_ipv4) ipfeature.create_static_route(vars.D1, data.ip4_addr[7], data.static_ip_rt, shell=data.shell_vtysh, family=data.af_ipv4) st.log("Checking IPv4 ping from {} to {} over routing interface".format( vars.D1, vars.D2)) if not ipfeature.ping( vars.D1, data.ip4_addr[7], family=data.af_ipv4, count=1): st.report_fail("ping_fail", data.ip4_addr[6], data.ip4_addr[7]) ipfeature.config_ip_addr_interface(vars.D1, vars.D1D2P4, data.ip6_addr[6], 96, family=data.af_ipv6) ipfeature.config_ip_addr_interface(vars.D2, vars.D2D1P4, data.ip6_addr[7], 96, family=data.af_ipv6) ipfeature.create_static_route(vars.D1, data.static_ip6_rt_drop, data.static_ip6_rt, shell=data.shell_vtysh, family=data.af_ipv6) st.log( "Checking IPv6 ping from {} to {} over vlan routing interface".format( vars.D1, vars.D2)) if not ipfeature.ping( vars.D2, data.ip6_addr[6], family=data.af_ipv6, count=1): st.report_fail("ping_fail", data.ip6_addr[7], data.ip6_addr[6]) st.report_pass("test_case_passed")
def ip_module_hooks(request): global vars, tg_handler, tg # Min topology verification st.log("Ensuring minimum topology") vars = st.ensure_min_topology("D1T1:4", "D2T1:2", "D1D2:4") # Initialize TG and TG port handlers tg_handler = tgapi.get_handles_byname("T1D1P1", "T1D1P2", "T1D2P1", "T1D2P2") tg = tg_handler["tg"] # IP module configuration st.log("Vlan routing configuration on D1D2P1,D2D1P1") vlan_obj.create_vlan(vars.D1, data.vlan_1) vlan_obj.add_vlan_member(vars.D1, data.vlan_1, [vars.D1D2P1], tagging_mode=True) vlan_obj.create_vlan(vars.D2, data.vlan_1) vlan_obj.add_vlan_member(vars.D2, data.vlan_1, [vars.D2D1P1], tagging_mode=True) ipfeature.config_ip_addr_interface(vars.D1, data.vlan_int_1, data.ip4_addr[2], 24, family=data.af_ipv4) ipfeature.config_ip_addr_interface(vars.D1, data.vlan_int_1, data.ip6_addr[2], 96, family=data.af_ipv6) ipfeature.config_ip_addr_interface(vars.D2, data.vlan_int_1, data.ip4_addr[3], 24, family=data.af_ipv4) ipfeature.config_ip_addr_interface(vars.D2, data.vlan_int_1, data.ip6_addr[3], 96, family=data.af_ipv6) st.log("Port routing configuration on port-channel") data.dut1_pc_members = [vars.D1D2P2, vars.D1D2P3] data.dut2_pc_members = [vars.D2D1P2, vars.D2D1P3] pc_obj.create_portchannel(vars.D1, data.port_channel) pc_obj.add_portchannel_member(vars.D1, data.port_channel, data.dut1_pc_members) pc_obj.create_portchannel(vars.D2, data.port_channel) pc_obj.add_portchannel_member(vars.D2, data.port_channel, data.dut2_pc_members) ipfeature.config_ip_addr_interface(vars.D1, data.port_channel, data.ip4_addr[4], 24, family=data.af_ipv4) ipfeature.config_ip_addr_interface(vars.D2, data.port_channel, data.ip4_addr[5], 24, family=data.af_ipv4) ipfeature.config_ip_addr_interface(vars.D1, data.port_channel, data.ip6_addr[4], 96, family=data.af_ipv6) ipfeature.config_ip_addr_interface(vars.D2, data.port_channel, data.ip6_addr[5], 96, family=data.af_ipv6) st.log("port routing configuration on D1D2P4,D2D1P4") ipfeature.config_ip_addr_interface(vars.D1, vars.D1D2P4, data.ip4_addr[6], 24, family=data.af_ipv4) ipfeature.config_ip_addr_interface(vars.D2, vars.D2D1P4, data.ip4_addr[7], 24, family=data.af_ipv4) ipfeature.config_ip_addr_interface(vars.D1, vars.D1D2P4, data.ip6_addr[6], 96, family=data.af_ipv6) ipfeature.config_ip_addr_interface(vars.D2, vars.D2D1P4, data.ip6_addr[7], 96, family=data.af_ipv6) st.log("configuring the dut1 ports connected to TGen with ip addresses") ipfeature.config_ip_addr_interface(vars.D1, vars.D1T1P1, data.ip4_addr[1], 24, family=data.af_ipv4) ipfeature.config_ip_addr_interface(vars.D1, vars.D1T1P2, data.ip6_addr[1], 96, family=data.af_ipv6) ipfeature.create_static_route(vars.D1, data.ip6_addr[7], data.static_ip6_rt, shell=data.shell_vtysh, family=data.af_ipv6) ipfeature.create_static_route(vars.D1, data.ip4_addr[7], data.static_ip_rt, shell=data.shell_vtysh, family=data.af_ipv4) st.log("configuring the dut2 ports connected to TGen with ip addresses") ipfeature.config_ip_addr_interface(vars.D2, vars.D2T1P1, data.ip4_addr[8], 24, family=data.af_ipv4) ipfeature.config_ip_addr_interface(vars.D2, vars.D2T1P2, data.ip6_addr[8], 96, family=data.af_ipv6) yield ipfeature.clear_ip_configuration(st.get_dut_names()) ipfeature.clear_ip_configuration(st.get_dut_names(), 'ipv6') vlan_obj.clear_vlan_configuration(st.get_dut_names()) pc_obj.clear_portchannel_configuration(st.get_dut_names()) ipfeature.delete_static_route(vars.D1, data.ip4_addr[7], data.static_ip_rt, shell=data.shell_vtysh, family=data.af_ipv4) ipfeature.delete_static_route(vars.D1, data.static_ip6_rt_drop, data.static_ip6_rt, shell=data.shell_vtysh, family=data.af_ipv6)